| --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4626E-04 | 2: delta_r/delta_0: 1.2387E-05 | 3: delta_s/delta_0: 1.9108E-06 | 4: delta_r/delta_0: 3.3071E-07 | 5: delta_s/delta_0: 1.1975E-07 | 6: delta_r/delta_0: 2.3356E-08 | 7: delta_s/delta_0: 9.6660E-09 | 8: delta_r/delta_0: 5.7198E-09 | 9: delta_s/delta_0: 7.4944E-09 | 10: delta_r/delta_0: 3.6283E-09 | 11: delta_s/delta_0: 1.6965E-08 | 12: delta_r/delta_0: 1.2661E-09 | 13: delta_s/delta_0: 1.7475E-09 | 14: delta_r/delta_0: 5.6226E-10 | 15: delta_s/delta_0: 1.2298E-10 | 16: delta_r/delta_0: 1.0723E-10 | 17: delta_s/delta_0: 9.6548E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.053043892682818E-003 8.679487621073168E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.4626E-04 | 2: delta_r/delta_0: 1.2387E-05 | 3: delta_s/delta_0: 1.9108E-06 | 4: delta_r/delta_0: 3.3072E-07 | 5: delta_s/delta_0: 1.1975E-07 | 6: delta_r/delta_0: 2.3357E-08 | 7: delta_s/delta_0: 9.6662E-09 | 8: delta_r/delta_0: 5.7200E-09 | 9: delta_s/delta_0: 7.4952E-09 | 10: delta_r/delta_0: 3.6286E-09 | 11: delta_s/delta_0: 1.6956E-08 | 12: delta_r/delta_0: 1.2644E-09 | 13: delta_s/delta_0: 1.7468E-09 | 14: delta_r/delta_0: 5.6190E-10 | 15: delta_s/delta_0: 1.2297E-10 | 16: delta_r/delta_0: 1.0723E-10 | 17: delta_s/delta_0: 9.6548E-11 | Reached bicg-stab tolerance | BP delta = -0.6025327 -0.6705244 2705352.10968338 | BP delta = -0.6025327 -0.6578268 2705367.83494216 | 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 = -3.180119 | New value = -3.166672 | poltype: 2 pol: 1 CPU time specind = 4.1201115E-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 = -3.179183 | New value = -3.215378 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.055611 | New value = -3.180363 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.183282 | New value = -3.177177 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.116359 | New value = -3.279094 | poltype: 2 pol: 2 CPU time specind = 2.1061897E-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 = 4.25 | CG iter. 1 -- res = 0.13555E+08, tol = 0.63452E+01, time = 1.47 | CG iter. 2 -- res = 0.46467E+05, tol = 0.63452E+01, time = 1.47 | CG iter. 3 -- res = 0.19356E+05, tol = 0.63452E+01, time = 1.46 | CG iter. 4 -- res = 0.83207E+04, tol = 0.63452E+01, time = 1.45 | CG iter. 5 -- res = 0.50029E+04, tol = 0.63452E+01, time = 1.46 | CG iter. 6 -- res = 0.30119E+04, tol = 0.63452E+01, time = 1.49 | CG iter. 7 -- res = 0.19559E+04, tol = 0.63452E+01, time = 1.52 | CG iter. 8 -- res = 0.94644E+03, tol = 0.63452E+01, time = 1.48 | CG iter. 9 -- res = 0.69272E+03, tol = 0.63452E+01, time = 1.51 | CG iter. 10 -- res = 0.73992E+03, tol = 0.63452E+01, time = 1.50 | CG iter. 11 -- res = 0.78686E+03, tol = 0.63452E+01, time = 1.49 | CG iter. 12 -- res = 0.50930E+03, tol = 0.63452E+01, time = 1.48 | CG iter. 13 -- res = 0.41760E+03, tol = 0.63452E+01, time = 1.49 | CG iter. 14 -- res = 0.34252E+03, tol = 0.63452E+01, time = 1.51 | CG iter. 15 -- res = 0.25645E+03, tol = 0.63452E+01, time = 1.49 | CG iter. 16 -- res = 0.20164E+03, tol = 0.63452E+01, time = 1.53 | CG iter. 17 -- res = 0.14485E+03, tol = 0.63452E+01, time = 1.51 | CG iter. 18 -- res = 0.11058E+03, tol = 0.63452E+01, time = 1.49 | CG iter. 19 -- res = 0.10342E+03, tol = 0.63452E+01, time = 1.48 | CG iter. 20 -- res = 0.80553E+02, tol = 0.63452E+01, time = 1.50 | CG iter. 21 -- res = 0.59848E+02, tol = 0.63452E+01, time = 1.53 | CG iter. 22 -- res = 0.51403E+02, tol = 0.63452E+01, time = 1.52 | CG iter. 23 -- res = 0.40701E+02, tol = 0.63452E+01, time = 1.45 | CG iter. 24 -- res = 0.33352E+02, tol = 0.63452E+01, time = 1.48 | CG iter. 25 -- res = 0.25982E+02, tol = 0.63452E+01, time = 1.48 | CG iter. 26 -- res = 0.22380E+02, tol = 0.63452E+01, time = 1.49 | CG iter. 27 -- res = 0.16681E+02, tol = 0.63452E+01, time = 1.47 | CG iter. 28 -- res = 0.13403E+02, tol = 0.63452E+01, time = 1.50 | CG iter. 29 -- res = 0.10554E+02, tol = 0.63452E+01, time = 1.44 | CG iter. 30 -- res = 0.94922E+01, tol = 0.63452E+01, time = 1.45 | CG iter. 31 -- res = 0.81587E+01, tol = 0.63452E+01, time = 1.47 | CG iter. 32 -- res = 0.68150E+01, tol = 0.63452E+01, time = 1.49 | CG iter. 33 -- res = 0.53431E+01, tol = 0.63452E+01, time = 1.46 | CG iter. 34 -- res = 0.45896E+01, tol = 0.63452E+01, time = 1.44 | CG iter. 35 -- res = 0.35570E+01, tol = 0.63452E+01, time = 1.50 | CG iter. 36 -- res = 0.27496E+01, tol = 0.63452E+01, time = 1.48 | CG iter. 37 -- res = 0.24304E+01, tol = 0.63452E+01, time = 1.52 | CG iter. 38 -- res = 0.21475E+01, tol = 0.63452E+01, time = 1.49 | CG iter. 39 -- res = 0.17467E+01, tol = 0.63452E+01, time = 1.47 | CG iter. 40 -- res = 0.20291E+01, tol = 0.63452E+01, time = 1.46 | CG iter. 41 -- res = 0.14556E+01, tol = 0.63452E+01, time = 1.44 | CG iter. 42 -- res = 0.96751E+00, tol = 0.63452E+01, time = 1.46 | CG iter. 43 -- res = 0.77876E+00, tol = 0.63452E+01, time = 1.50 | CG iter. 44 -- res = 0.86787E+00, tol = 0.63452E+01, time = 1.48 | CG iter. 45 -- res = 0.70321E+00, tol = 0.63452E+01, time = 1.42 | CG iter. 46 -- res = 0.46475E+00, tol = 0.63452E+01, time = 1.47 | CG iter. 47 -- res = 0.35098E+00, tol = 0.63452E+01, time = 1.43 | CG iter. 48 -- res = 0.28004E+00, tol = 0.63452E+01, time = 1.49 | CG iter. 49 -- res = 0.27176E+00, tol = 0.63452E+01, time = 1.47 | CG iter. 50 -- res = 0.32386E+00, tol = 0.63452E+01, time = 1.44 | Final CG iter 51 -- res = 0.32386E+00, tol = 0.63452E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8800410.307 | Old band monopole 10849955.733 | Change to band monopole -2049545.426 | Change to component monopole 2049536.611 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 4.24 | CG iter. 1 -- res = 0.53966E+05, tol = 0.47627E+18, time = 0.36 | CG iter. 2 -- res = 0.10077E+02, tol = 0.47627E+18, time = 0.36 | CG iter. 3 -- res = 0.39416E-01, tol = 0.47627E+18, time = 0.35 | CG iter. 4 -- res = 0.90246E-04, tol = 0.47627E+18, time = 0.34 | Final CG iter 5 -- res = 0.11586E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8800372.455 | (Sampled value in CG: 8804465.776 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.478578 | New value = 1.445837 | poltype: 2 pol: 1 CPU time specind = 4.0860176E-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 = 1.497219 | New value = 1.531504 | poltype: 2 pol: 2 CPU time specind = 2.2571087E-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 = 4.27 | CG iter. 1 -- res = 0.24246E+08, tol = 0.47526E+04, time = 1.77 | CG iter. 2 -- res = 0.54920E+07, tol = 0.47526E+04, time = 1.78 | CG iter. 3 -- res = 0.87371E+06, tol = 0.47526E+04, time = 1.75 | CG iter. 4 -- res = 0.35470E+06, tol = 0.47526E+04, time = 1.76 | CG iter. 5 -- res = 0.14997E+06, tol = 0.47526E+04, time = 1.75 | CG iter. 6 -- res = 0.80077E+05, tol = 0.47526E+04, time = 1.70 | CG iter. 7 -- res = 0.44876E+05, tol = 0.47526E+04, time = 1.69 | CG iter. 8 -- res = 0.21565E+05, tol = 0.47526E+04, time = 1.74 | CG iter. 9 -- res = 0.92704E+04, tol = 0.47526E+04, time = 1.72 | CG iter. 10 -- res = 0.37261E+04, tol = 0.47526E+04, time = 1.72 | CG iter. 11 -- res = 0.17018E+04, tol = 0.47526E+04, time = 1.73 | CG iter. 12 -- res = 0.88997E+03, tol = 0.47526E+04, time = 1.70 | CG iter. 13 -- res = 0.50138E+03, tol = 0.47526E+04, time = 1.76 | CG iter. 14 -- res = 0.28341E+03, tol = 0.47526E+04, time = 1.70 | CG iter. 15 -- res = 0.14562E+03, tol = 0.47526E+04, time = 1.75 | CG iter. 16 -- res = 0.69920E+02, tol = 0.47526E+04, time = 1.74 | CG iter. 17 -- res = 0.32716E+02, tol = 0.47526E+04, time = 1.72 | CG iter. 18 -- res = 0.16419E+02, tol = 0.47526E+04, time = 1.73 | CG iter. 19 -- res = 0.88847E+01, tol = 0.47526E+04, time = 1.72 | CG iter. 20 -- res = 0.50484E+01, tol = 0.47526E+04, time = 1.70 | CG iter. 21 -- res = 0.27917E+01, tol = 0.47526E+04, time = 1.70 | CG iter. 22 -- res = 0.14378E+01, tol = 0.47526E+04, time = 1.72 | CG iter. 23 -- res = 0.72514E+00, tol = 0.47526E+04, time = 1.73 | CG iter. 24 -- res = 0.36343E+00, tol = 0.47526E+04, time = 1.74 | CG iter. 25 -- res = 0.19569E+00, tol = 0.47526E+04, time = 1.70 | CG iter. 26 -- res = 0.11116E+00, tol = 0.47526E+04, time = 1.72 | CG iter. 27 -- res = 0.62655E-01, tol = 0.47526E+04, time = 1.75 | CG iter. 28 -- res = 0.34103E-01, tol = 0.47526E+04, time = 1.72 | CG iter. 29 -- res = 0.17988E-01, tol = 0.47526E+04, time = 1.74 | CG iter. 30 -- res = 0.91773E-02, tol = 0.47526E+04, time = 1.69 | CG iter. 31 -- res = 0.49252E-02, tol = 0.47526E+04, time = 1.73 | CG iter. 32 -- res = 0.28356E-02, tol = 0.47526E+04, time = 1.70 | CG iter. 33 -- res = 0.16227E-02, tol = 0.47526E+04, time = 1.73 | CG iter. 34 -- res = 0.88799E-03, tol = 0.47526E+04, time = 1.73 | CG iter. 35 -- res = 0.46180E-03, tol = 0.47526E+04, time = 1.71 | Final CG iter 36 -- res = 0.46180E-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) 2.946 2.777 | New value -0.664 | Old value 2.946 | Difference -3.611 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 4.24 | CG iter. 1 -- res = 0.67341E+06, tol = 0.47627E+18, time = 0.33 | CG iter. 2 -- res = 0.15666E+02, tol = 0.47627E+18, time = 0.35 | CG iter. 3 -- res = 0.25654E-01, tol = 0.47627E+18, time = 0.33 | Final CG iter 4 -- res = 0.28536E-04, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8800372.455 | (Sampled value in CG: 8804709.647 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.698819 | New value = -3.643179 | poltype: 1 pol: 1 CPU time specind = 2.9270649E-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 = 4.24 | CG iter. 1 -- res = 0.20395E+07, tol = 0.11610E+01, time = 0.62 | CG iter. 2 -- res = 0.35974E+05, tol = 0.11610E+01, time = 0.63 | CG iter. 3 -- res = 0.26557E+05, tol = 0.11610E+01, time = 0.61 | CG iter. 4 -- res = 0.10024E+05, tol = 0.11610E+01, time = 0.62 | CG iter. 5 -- res = 0.29233E+04, tol = 0.11610E+01, time = 0.64 | CG iter. 6 -- res = 0.11770E+04, tol = 0.11610E+01, time = 0.61 | CG iter. 7 -- res = 0.39952E+03, tol = 0.11610E+01, time = 0.60 | CG iter. 8 -- res = 0.20519E+03, tol = 0.11610E+01, time = 0.61 | CG iter. 9 -- res = 0.76488E+02, tol = 0.11610E+01, time = 0.60 | CG iter. 10 -- res = 0.22583E+02, tol = 0.11610E+01, time = 0.60 | CG iter. 11 -- res = 0.10733E+02, tol = 0.11610E+01, time = 0.61 | CG iter. 12 -- res = 0.37767E+01, tol = 0.11610E+01, time = 0.64 | CG iter. 13 -- res = 0.12379E+01, tol = 0.11610E+01, time = 0.65 | CG iter. 14 -- res = 0.49792E+00, tol = 0.11610E+01, time = 0.60 | CG iter. 15 -- res = 0.16418E+00, tol = 0.11610E+01, time = 0.60 | CG iter. 16 -- res = 0.64091E-01, tol = 0.11610E+01, time = 0.62 | CG iter. 17 -- res = 0.21638E-01, tol = 0.11610E+01, time = 0.62 | CG iter. 18 -- res = 0.73789E-02, tol = 0.11610E+01, time = 0.64 | CG iter. 19 -- res = 0.27398E-02, tol = 0.11610E+01, time = 0.61 | CG iter. 20 -- res = 0.10718E-02, tol = 0.11610E+01, time = 0.59 | CG iter. 21 -- res = 0.37226E-03, tol = 0.11610E+01, time = 0.60 | CG iter. 22 -- res = 0.13794E-03, tol = 0.11610E+01, time = 0.61 | CG iter. 23 -- res = 0.50868E-04, tol = 0.11610E+01, time = 0.64 | CG iter. 24 -- res = 0.15287E-04, tol = 0.11610E+01, time = 0.62 | CG iter. 25 -- res = 0.41921E-05, tol = 0.11610E+01, time = 0.62 | CG iter. 26 -- res = 0.13579E-05, tol = 0.11610E+01, time = 0.60 | CG iter. 27 -- res = 0.45499E-06, tol = 0.11610E+01, time = 0.61 | CG iter. 28 -- res = 0.14603E-06, tol = 0.11610E+01, time = 0.63 | CG iter. 29 -- res = 0.54650E-07, tol = 0.11610E+01, time = 0.66 | CG iter. 30 -- res = 0.15191E-07, tol = 0.11610E+01, time = 0.61 | CG iter. 31 -- res = 0.57586E-08, tol = 0.11610E+01, time = 0.61 | CG iter. 32 -- res = 0.34558E-08, tol = 0.11610E+01, time = 0.62 | CG iter. 33 -- res = 0.18028E-08, tol = 0.11610E+01, time = 0.61 | CG iter. 34 -- res = 0.48523E-09, tol = 0.11610E+01, time = 0.63 | CG iter. 35 -- res = 0.15912E-09, tol = 0.11610E+01, time = 0.60 | CG iter. 36 -- res = 0.81140E-10, tol = 0.11610E+01, time = 0.63 | CG iter. 37 -- res = 0.45614E-10, tol = 0.11610E+01, time = 0.62 | CG iter. 38 -- res = 0.10758E-10, tol = 0.11610E+01, time = 0.62 | CG iter. 39 -- res = 0.33000E-11, tol = 0.11610E+01, time = 0.63 | CG iter. 40 -- res = 0.88709E-12, tol = 0.11610E+01, time = 0.63 | CG iter. 41 -- res = 0.29176E-12, tol = 0.11610E+01, time = 0.65 | CG iter. 42 -- res = 0.86779E-13, tol = 0.11610E+01, time = 0.65 | CG iter. 43 -- res = 0.26714E-13, tol = 0.11610E+01, time = 0.62 | CG iter. 44 -- res = 0.89433E-14, tol = 0.11610E+01, time = 0.60 | CG iter. 45 -- res = 0.30499E-14, tol = 0.11610E+01, time = 0.62 | CG iter. 46 -- res = 0.10669E-14, tol = 0.11610E+01, time = 0.64 | CG iter. 47 -- res = 0.30063E-15, tol = 0.11610E+01, time = 0.63 | CG iter. 48 -- res = 0.95247E-16, tol = 0.11610E+01, time = 0.64 | CG iter. 49 -- res = 0.28503E-16, tol = 0.11610E+01, time = 0.61 | CG iter. 50 -- res = 0.84617E-17, tol = 0.11610E+01, time = 0.61 | Final CG iter 51 -- res = 0.84617E-17, tol = 0.11610E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 2.912 2.360 | New value 0.673 | Old value 2.912 | Difference -2.239 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 4.25 | CG iter. 1 -- res = 0.39480E+04, tol = 0.47627E+18, time = 0.34 | CG iter. 2 -- res = 0.18292E+02, tol = 0.47627E+18, time = 0.35 | CG iter. 3 -- res = 0.23303E-01, tol = 0.47627E+18, time = 0.38 | Final CG iter 4 -- res = 0.55694E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8800372.455 | (Sampled value in CG: 8804700.029 ) | CPU time specind = 268.3395 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 4.26 | CG iter. 1 -- res = 0.68610E+08, tol = 0.51476E+04, time = 3.09 | CG iter. 2 -- res = 0.33372E+08, tol = 0.51476E+04, time = 3.08 | CG iter. 3 -- res = 0.57884E+07, tol = 0.51476E+04, time = 3.09 | CG iter. 4 -- res = 0.28966E+07, tol = 0.51476E+04, time = 3.14 | CG iter. 5 -- res = 0.12795E+07, tol = 0.51476E+04, time = 3.09 | CG iter. 6 -- res = 0.70344E+06, tol = 0.51476E+04, time = 3.05 | CG iter. 7 -- res = 0.38948E+06, tol = 0.51476E+04, time = 3.11 | CG iter. 8 -- res = 0.19704E+06, tol = 0.51476E+04, time = 3.07 | CG iter. 9 -- res = 0.96684E+05, tol = 0.51476E+04, time = 3.13 | CG iter. 10 -- res = 0.42593E+05, tol = 0.51476E+04, time = 3.08 | CG iter. 11 -- res = 0.21166E+05, tol = 0.51476E+04, time = 3.02 | CG iter. 12 -- res = 0.11731E+05, tol = 0.51476E+04, time = 3.09 | CG iter. 13 -- res = 0.70907E+04, tol = 0.51476E+04, time = 3.14 | CG iter. 14 -- res = 0.47482E+04, tol = 0.51476E+04, time = 3.08 | CG iter. 15 -- res = 0.30160E+04, tol = 0.51476E+04, time = 3.03 | CG iter. 16 -- res = 0.20240E+04, tol = 0.51476E+04, time = 3.06 | CG iter. 17 -- res = 0.14610E+04, tol = 0.51476E+04, time = 3.05 | CG iter. 18 -- res = 0.12516E+04, tol = 0.51476E+04, time = 3.03 | CG iter. 19 -- res = 0.12799E+04, tol = 0.51476E+04, time = 3.14 | CG iter. 20 -- res = 0.14272E+04, tol = 0.51476E+04, time = 3.13 | CG iter. 21 -- res = 0.15797E+04, tol = 0.51476E+04, time = 3.06 | CG iter. 22 -- res = 0.15617E+04, tol = 0.51476E+04, time = 3.11 | CG iter. 23 -- res = 0.14263E+04, tol = 0.51476E+04, time = 3.11 | CG iter. 24 -- res = 0.12814E+04, tol = 0.51476E+04, time = 3.15 | CG iter. 25 -- res = 0.11844E+04, tol = 0.51476E+04, time = 3.03 | CG iter. 26 -- res = 0.10851E+04, tol = 0.51476E+04, time = 3.12 | CG iter. 27 -- res = 0.92571E+03, tol = 0.51476E+04, time = 3.11 | CG iter. 28 -- res = 0.76263E+03, tol = 0.51476E+04, time = 3.01 | CG iter. 29 -- res = 0.65984E+03, tol = 0.51476E+04, time = 3.05 | CG iter. 30 -- res = 0.64910E+03, tol = 0.51476E+04, time = 3.16 | CG iter. 31 -- res = 0.70072E+03, tol = 0.51476E+04, time = 3.16 | CG iter. 32 -- res = 0.77458E+03, tol = 0.51476E+04, time = 3.06 | CG iter. 33 -- res = 0.79139E+03, tol = 0.51476E+04, time = 3.04 | CG iter. 34 -- res = 0.74189E+03, tol = 0.51476E+04, time = 3.02 | CG iter. 35 -- res = 0.69658E+03, tol = 0.51476E+04, time = 3.10 | CG iter. 36 -- res = 0.69903E+03, tol = 0.51476E+04, time = 3.03 | CG iter. 37 -- res = 0.71844E+03, tol = 0.51476E+04, time = 3.03 | CG iter. 38 -- res = 0.69936E+03, tol = 0.51476E+04, time = 2.99 | CG iter. 39 -- res = 0.63430E+03, tol = 0.51476E+04, time = 3.08 | CG iter. 40 -- res = 0.56716E+03, tol = 0.51476E+04, time = 2.98 | CG iter. 41 -- res = 0.55247E+03, tol = 0.51476E+04, time = 3.11 | CG iter. 42 -- res = 0.59433E+03, tol = 0.51476E+04, time = 3.03 | CG iter. 43 -- res = 0.64968E+03, tol = 0.51476E+04, time = 2.97 | CG iter. 44 -- res = 0.65474E+03, tol = 0.51476E+04, time = 3.02 | CG iter. 45 -- res = 0.61249E+03, tol = 0.51476E+04, time = 3.04 | CG iter. 46 -- res = 0.57614E+03, tol = 0.51476E+04, time = 3.03 | CG iter. 47 -- res = 0.57447E+03, tol = 0.51476E+04, time = 3.05 | CG iter. 48 -- res = 0.59482E+03, tol = 0.51476E+04, time = 3.01 | CG iter. 49 -- res = 0.59007E+03, tol = 0.51476E+04, time = 3.02 | CG iter. 50 -- res = 0.53954E+03, tol = 0.51476E+04, time = 2.99 | CG iter. 51 -- res = 0.48436E+03, tol = 0.51476E+04, time = 3.04 | CG iter. 52 -- res = 0.47002E+03, tol = 0.51476E+04, time = 3.09 | CG iter. 53 -- res = 0.49652E+03, tol = 0.51476E+04, time = 3.05 | CG iter. 54 -- res = 0.52230E+03, tol = 0.51476E+04, time = 3.08 | CG iter. 55 -- res = 0.50793E+03, tol = 0.51476E+04, time = 3.02 | CG iter. 56 -- res = 0.46843E+03, tol = 0.51476E+04, time = 3.05 | CG iter. 57 -- res = 0.44611E+03, tol = 0.51476E+04, time = 3.04 | CG iter. 58 -- res = 0.46285E+03, tol = 0.51476E+04, time = 3.18 | CG iter. 59 -- res = 0.49320E+03, tol = 0.51476E+04, time = 3.03 | CG iter. 60 -- res = 0.48633E+03, tol = 0.51476E+04, time = 3.01 | Final CG iter 61 -- res = 0.48633E+03, tol = 0.51476E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 3.035 ( -230.677 -2232.894 2515.304 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9684488.378 | Old band monopole 8800410.307 | Change to band monopole 884078.071 | Change to component monopole -884074.268 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -0.661 2.754 | New value -5.554 | Old value -0.661 | Difference -4.893 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -4.034 ( 8.531 10.395 -10.050 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 12.611 2.811 | New value 3.917 | Old value 12.611 | Difference -8.694 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 4.25 | CG iter. 1 -- res = 0.12384E+07, tol = 0.47627E+18, time = 0.35 | CG iter. 2 -- res = 0.64246E+02, tol = 0.47627E+18, time = 0.33 | CG iter. 3 -- res = 0.15925E+01, tol = 0.47627E+18, time = 0.38 | CG iter. 4 -- res = 0.16931E-03, tol = 0.47627E+18, time = 0.39 | Final CG iter 5 -- res = 0.17675E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9684446.723 | (Sampled value in CG: 9619036.647 ) | Chain = 1 -- chisq = 0.61645949E+09 | Chain = 1 -- wall time = 4738.428 sec --------------------------------------------------------------------- | Chain = 1 -- Iteration = 35 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18260778967385 | --> Sampling calibration, mode = relcal | relcal = -7.4583478E-02 -5.8387492E-02 9.1507956E-02 4.1463017E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.4756696E-04 4.1270144E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.5402E-05 | 2: delta_r/delta_0: 7.4186E-07 | 3: delta_s/delta_0: 2.5588E-07 | 4: delta_r/delta_0: 1.2452E-08 | 5: delta_s/delta_0: 4.5330E-09 | 6: delta_r/delta_0: 1.0661E-09 | 7: delta_s/delta_0: 1.0544E-09 | 8: delta_r/delta_0: 2.6802E-10 | 9: delta_s/delta_0: 2.3938E-10 | 10: delta_r/delta_0: 6.0091E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 9.332524972885524E-004 2.737439325853379E-005 | BP delta = 3.8030297E-03 8.8169156E-03 29862966.1124523 | BP delta = 4.7531682E-03 9.7670536E-03 29862966.1743926 | 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 = 1.02553876 | --> Sampling calibration, mode = relcal | relcal = -0.1065834 -9.5475152E-02 0.1448597 5.7198890E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.9691726E-03 1.4326300E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 4.9642E+01 | 2: delta_r/delta_0: 1.0838E+00 | 3: delta_s/delta_0: 8.5394E-06 | 4: delta_r/delta_0: 6.7243E-07 | 5: delta_s/delta_0: 4.8294E-07 | 6: delta_r/delta_0: 4.0709E-08 | 7: delta_s/delta_0: 4.0099E-08 | 8: delta_r/delta_0: 1.0798E-08 | 9: delta_s/delta_0: 6.4610E-09 | 10: delta_r/delta_0: 1.1883E-09 | 11: delta_s/delta_0: 1.4611E-09 | 12: delta_r/delta_0: 1.1578E-10 | 13: delta_s/delta_0: 4.4698E-10 | 14: delta_r/delta_0: 3.4750E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.239585238908821E-002 2.812052408156875E-005 | BP delta = -0.1919444 -0.1913223 34774596.8089213 | BP delta = -0.1954035 -0.1947814 34774596.7981803 | 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 = 0.81163507 | --> Sampling calibration, mode = relcal | relcal = 0.2950775 0.2248470 -0.2836075 -0.2363170 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 5.0235118E-05 5.0192988E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.0585E-03 | 2: delta_r/delta_0: 2.4191E-05 | 3: delta_s/delta_0: 4.3765E-02 | 4: delta_r/delta_0: 2.1134E-03 | 5: delta_s/delta_0: 1.8349E-02 | 6: delta_r/delta_0: 2.8238E-03 | 7: delta_s/delta_0: 5.5137E-08 | 8: delta_r/delta_0: 3.5770E-08 | 9: delta_s/delta_0: 5.3460E-07 | 10: delta_r/delta_0: 4.3821E-09 | 11: delta_s/delta_0: 9.1503E-10 | 12: delta_r/delta_0: 6.2975E-10 | 13: delta_s/delta_0: 4.4167E-10 | 14: delta_r/delta_0: 1.1310E-10 | 15: delta_s/delta_0: 2.8102E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.905106915531135E-002 4.024630440325901E-005 | BP delta = -0.1009148 -0.1487951 43104868.7684866 | BP delta = -9.6546307E-02 -0.1444266 43104868.8168544 | 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 = 0.95844995 | --> Sampling calibration, mode = relcal | relcal = 0.1064088 0.1395583 -0.1102324 -0.1357346 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.7963084E-03 1.3426846E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 3.7772E-04 | 2: delta_r/delta_0: 8.5975E-06 | 3: delta_s/delta_0: 1.3240E-05 | 4: delta_r/delta_0: 4.1826E-07 | 5: delta_s/delta_0: 9.4068E-07 | 6: delta_r/delta_0: 1.4015E-07 | 7: delta_s/delta_0: 5.6833E-08 | 8: delta_r/delta_0: 2.9969E-08 | 9: delta_s/delta_0: 6.2430E-07 | 10: delta_r/delta_0: 1.4778E-08 | 11: delta_s/delta_0: 4.4211E-09 | 12: delta_r/delta_0: 5.6991E-10 | 13: delta_s/delta_0: 5.2845E-06 | 14: delta_r/delta_0: 1.7504E-06 | 15: delta_s/delta_0: 3.5682E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.533686015231406E-002 3.699986772982335E-005 | BP delta = 0.2809500 0.3107666 43047903.7990199 | BP delta = 0.3008798 0.3306965 43047904.8556157 | BP chisq diff = 1.1, accept = T | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 060-WMAP_V1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.52122073 | --> Sampling calibration, mode = relcal | relcal = -5.1000521E-02 -3.7285322E-03 2.7282396E-02 2.7446657E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 7.3551804E-05 1.3833133E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.5431E-05 | 2: delta_r/delta_0: 4.6220E-06 | 3: delta_s/delta_0: 6.3256E-05 | 4: delta_r/delta_0: 7.3933E-06 | 5: delta_s/delta_0: 4.8932E-08 | 6: delta_r/delta_0: 2.8237E-08 | 7: delta_s/delta_0: 4.8030E-08 | 8: delta_r/delta_0: 8.6693E-09 | 9: delta_s/delta_0: 2.4275E-09 | 10: delta_r/delta_0: 1.2398E-09 | 11: delta_s/delta_0: 3.7475E-09 | 12: delta_r/delta_0: 2.0122E-09 | 13: delta_s/delta_0: 3.9858E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.117582880069029E-002 5.487057880274660E-005 | BP delta = -6.3228100E-03 7.0645563E-02 61508094.6541290 | BP delta = -3.5527356E-02 4.1441016E-02 61508094.6253602 | 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 = 0.42125149 | --> Sampling calibration, mode = relcal | relcal = 4.5503512E-02 3.9676234E-02 -2.8271321E-02 -5.6908421E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.2451465E-03 3.5065904E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.9497E-05 | 2: delta_r/delta_0: 3.3091E-06 | 3: delta_s/delta_0: 1.8545E-06 | 4: delta_r/delta_0: 2.2752E-07 | 5: delta_s/delta_0: 5.9904E-08 | 6: delta_r/delta_0: 3.1441E-08 | 7: delta_s/delta_0: 1.0069E-07 | 8: delta_r/delta_0: 5.1931E-09 | 9: delta_s/delta_0: 5.0580E-09 | 10: delta_r/delta_0: 3.1459E-09 | 11: delta_s/delta_0: 9.1590E-10 | 12: delta_r/delta_0: 2.6928E-10 | 13: delta_s/delta_0: 5.2742E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.332611780835201E-002 4.999568913102931E-005 | BP delta = -0.1308785 -0.1398860 61333515.3729180 | BP delta = -0.1215654 -0.1305729 61333515.3573640 | 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 = 0.28142134 | --> Sampling calibration, mode = relcal | relcal = 2.4184674E-02 4.5113370E-02 -2.3345869E-02 -4.5952175E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 6.8849432E-03 2.8380111E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.1030E-04 | 2: delta_r/delta_0: 8.9825E-06 | 3: delta_s/delta_0: 1.5637E-06 | 4: delta_r/delta_0: 2.1624E-07 | 5: delta_s/delta_0: 6.4515E-08 | 6: delta_r/delta_0: 1.5657E-08 | 7: delta_s/delta_0: 6.0806E-09 | 8: delta_r/delta_0: 3.6614E-09 | 9: delta_s/delta_0: 8.6239E-09 | 10: delta_r/delta_0: 3.2610E-09 | 11: delta_s/delta_0: 5.0081E-09 | 12: delta_r/delta_0: 8.1128E-10 | 13: delta_s/delta_0: 7.9937E-10 | 14: delta_r/delta_0: 1.7925E-10 | 15: delta_s/delta_0: 6.5171E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -6.965000857305233E-003 7.849136311086514E-005 | BP delta = 8.7474413E-02 2.0456143E-02 94947453.8665585 | BP delta = 8.0942608E-02 1.3924338E-02 94947453.8094694 | 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 = 0.29371183 | --> Sampling calibration, mode = relcal | relcal = 5.5279344E-04 1.0276104E-02 -3.8081966E-03 -7.0207012E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.6719542E-02 1.3772256E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.3546E-04 | 2: delta_r/delta_0: 1.1398E-05 | 3: delta_s/delta_0: 1.8037E-06 | 4: delta_r/delta_0: 2.7477E-07 | 5: delta_s/delta_0: 9.8688E-08 | 6: delta_r/delta_0: 2.2506E-08 | 7: delta_s/delta_0: 9.6124E-09 | 8: delta_r/delta_0: 6.2866E-09 | 9: delta_s/delta_0: 5.1625E-09 | 10: delta_r/delta_0: 3.8261E-09 | 11: delta_s/delta_0: 1.9522E-06 | 12: delta_r/delta_0: 1.2888E-08 | 13: delta_s/delta_0: 7.2849E-10 | 14: delta_r/delta_0: 3.6321E-10 | 15: delta_s/delta_0: 1.1103E-10 | 16: delta_r/delta_0: 5.2959E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -8.820192535037477E-003 8.312762590685081E-005 | BP delta = -0.7483997 -0.7366173 93515830.6363509 | BP delta = -0.7347233 -0.7229410 93515830.7267825 | 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 = 0.26489608 | --> Sampling calibration, mode = relcal | relcal = -5.5564614E-03 1.5017495E-02 -2.3995652E-03 -7.0614689E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -8.3125982E-04 3.9682738E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4230E-04 | 2: delta_r/delta_0: 1.2281E-05 | 3: delta_s/delta_0: 2.1219E-06 | 4: delta_r/delta_0: 2.2815E-07 | 5: delta_s/delta_0: 7.7368E-08 | 6: delta_r/delta_0: 1.5584E-08 | 7: delta_s/delta_0: 6.1848E-09 | 8: delta_r/delta_0: 3.7671E-09 | 9: delta_s/delta_0: 3.6808E-09 | 10: delta_r/delta_0: 2.4917E-09 | 11: delta_s/delta_0: 1.2533E-05 | 12: delta_r/delta_0: 4.5276E-07 | 13: delta_s/delta_0: 3.0091E-10 | 14: delta_r/delta_0: 1.2233E-10 | 15: delta_s/delta_0: 1.5037E-10 | 16: delta_r/delta_0: 4.8827E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -6.350371155123133E-003 9.159546921203295E-005 | BP delta = 0.2539460 0.2618147 94713132.5155537 | BP delta = 0.2224656 0.2303343 94713132.3716356 | 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 = 0.25645051 | --> Sampling calibration, mode = relcal | relcal = -3.1759650E-02 -2.5861671E-02 3.7052531E-02 2.0568790E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.0864056E-02 1.8394839E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4432E-04 | 2: delta_r/delta_0: 1.2168E-05 | 3: delta_s/delta_0: 1.9510E-06 | 4: delta_r/delta_0: 3.7677E-07 | 5: delta_s/delta_0: 1.1858E-07 | 6: delta_r/delta_0: 2.6652E-08 | 7: delta_s/delta_0: 1.1496E-08 | 8: delta_r/delta_0: 6.7487E-09 | 9: delta_s/delta_0: 2.8281E-08 | 10: delta_r/delta_0: 4.9233E-09 | 11: delta_s/delta_0: 9.0859E-09 | 12: delta_r/delta_0: 4.5488E-09 | 13: delta_s/delta_0: 8.8417E-10 | 14: delta_r/delta_0: 2.1354E-10 | 15: delta_s/delta_0: 1.0454E-10 | 16: delta_r/delta_0: 4.7771E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.410337340215368E-003 8.678406690795929E-005 | BP delta = -0.6025327 -0.6705244 93085369.4078907 | BP delta = -0.6087440 -0.6767356 93085369.3904175 | 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 = -3.166672 | New value = -3.253642 | poltype: 2 pol: 1 CPU time specind = 2.6879311E-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 = -3.215378 | New value = -3.190155 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.180363 | New value = -3.165382 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.177177 | New value = -3.078434 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.279094 | New value = -3.082267 | poltype: 2 pol: 2 CPU time specind = 1.0459423E-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 = 4.11 | CG iter. 1 -- res = 0.13524E+08, tol = 0.70578E+01, time = 1.49 | CG iter. 2 -- res = 0.53806E+05, tol = 0.70578E+01, time = 1.52 | CG iter. 3 -- res = 0.42954E+05, tol = 0.70578E+01, time = 1.57 | CG iter. 4 -- res = 0.14830E+05, tol = 0.70578E+01, time = 1.53 | CG iter. 5 -- res = 0.11120E+05, tol = 0.70578E+01, time = 1.50 | CG iter. 6 -- res = 0.11384E+05, tol = 0.70578E+01, time = 1.47 | CG iter. 7 -- res = 0.90923E+04, tol = 0.70578E+01, time = 1.46 | CG iter. 8 -- res = 0.75874E+04, tol = 0.70578E+01, time = 1.49 | CG iter. 9 -- res = 0.82618E+04, tol = 0.70578E+01, time = 1.52 | CG iter. 10 -- res = 0.95842E+04, tol = 0.70578E+01, time = 1.47 | CG iter. 11 -- res = 0.54884E+04, tol = 0.70578E+01, time = 1.48 | CG iter. 12 -- res = 0.35513E+04, tol = 0.70578E+01, time = 1.47 | CG iter. 13 -- res = 0.27370E+04, tol = 0.70578E+01, time = 1.48 | CG iter. 14 -- res = 0.24796E+04, tol = 0.70578E+01, time = 1.50 | CG iter. 15 -- res = 0.25537E+04, tol = 0.70578E+01, time = 1.51 | CG iter. 16 -- res = 0.17188E+04, tol = 0.70578E+01, time = 1.45 | CG iter. 17 -- res = 0.12957E+04, tol = 0.70578E+01, time = 1.49 | CG iter. 18 -- res = 0.10862E+04, tol = 0.70578E+01, time = 1.44 | CG iter. 19 -- res = 0.91269E+03, tol = 0.70578E+01, time = 1.47 | CG iter. 20 -- res = 0.69254E+03, tol = 0.70578E+01, time = 1.48 | CG iter. 21 -- res = 0.57938E+03, tol = 0.70578E+01, time = 1.45 | CG iter. 22 -- res = 0.50300E+03, tol = 0.70578E+01, time = 1.48 | CG iter. 23 -- res = 0.46662E+03, tol = 0.70578E+01, time = 1.41 | CG iter. 24 -- res = 0.39085E+03, tol = 0.70578E+01, time = 1.44 | CG iter. 25 -- res = 0.31524E+03, tol = 0.70578E+01, time = 1.48 | CG iter. 26 -- res = 0.29236E+03, tol = 0.70578E+01, time = 1.45 | CG iter. 27 -- res = 0.23549E+03, tol = 0.70578E+01, time = 1.42 | CG iter. 28 -- res = 0.20620E+03, tol = 0.70578E+01, time = 1.47 | CG iter. 29 -- res = 0.18710E+03, tol = 0.70578E+01, time = 1.46 | CG iter. 30 -- res = 0.17871E+03, tol = 0.70578E+01, time = 1.49 | CG iter. 31 -- res = 0.13981E+03, tol = 0.70578E+01, time = 1.48 | CG iter. 32 -- res = 0.12596E+03, tol = 0.70578E+01, time = 1.45 | CG iter. 33 -- res = 0.12454E+03, tol = 0.70578E+01, time = 1.48 | CG iter. 34 -- res = 0.99007E+02, tol = 0.70578E+01, time = 1.45 | CG iter. 35 -- res = 0.73781E+02, tol = 0.70578E+01, time = 1.48 | CG iter. 36 -- res = 0.63210E+02, tol = 0.70578E+01, time = 1.45 | CG iter. 37 -- res = 0.58622E+02, tol = 0.70578E+01, time = 1.45 | CG iter. 38 -- res = 0.57011E+02, tol = 0.70578E+01, time = 1.52 | CG iter. 39 -- res = 0.71671E+02, tol = 0.70578E+01, time = 1.52 | CG iter. 40 -- res = 0.38390E+02, tol = 0.70578E+01, time = 1.52 | CG iter. 41 -- res = 0.34049E+02, tol = 0.70578E+01, time = 1.49 | CG iter. 42 -- res = 0.30984E+02, tol = 0.70578E+01, time = 1.49 | CG iter. 43 -- res = 0.38060E+02, tol = 0.70578E+01, time = 1.51 | CG iter. 44 -- res = 0.23372E+02, tol = 0.70578E+01, time = 1.47 | CG iter. 45 -- res = 0.17784E+02, tol = 0.70578E+01, time = 1.47 | CG iter. 46 -- res = 0.14341E+02, tol = 0.70578E+01, time = 1.49 | CG iter. 47 -- res = 0.11307E+02, tol = 0.70578E+01, time = 1.50 | CG iter. 48 -- res = 0.94178E+01, tol = 0.70578E+01, time = 1.44 | CG iter. 49 -- res = 0.81970E+01, tol = 0.70578E+01, time = 1.45 | CG iter. 50 -- res = 0.85541E+01, tol = 0.70578E+01, time = 1.54 | Final CG iter 51 -- res = 0.85541E+01, tol = 0.70578E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8958101.379 | Old band monopole 9684488.378 | Change to band monopole -726386.999 | Change to component monopole 726383.875 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 4.11 | CG iter. 1 -- res = 0.11116E+06, tol = 0.47627E+18, time = 0.35 | CG iter. 2 -- res = 0.19293E+02, tol = 0.47627E+18, time = 0.34 | CG iter. 3 -- res = 0.51842E+00, tol = 0.47627E+18, time = 0.36 | CG iter. 4 -- res = 0.41891E-03, tol = 0.47627E+18, time = 0.38 | Final CG iter 5 -- res = 0.71312E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8958062.848 | (Sampled value in CG: 8935517.998 ) | 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 = 1.445837 | New value = 1.500058 | poltype: 2 pol: 1 CPU time specind = 3.3822060E-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 = 1.531504 | New value = 1.469173 | poltype: 2 pol: 2 CPU time specind = 8.1300735E-04 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 4.13 | CG iter. 1 -- res = 0.24641E+08, tol = 0.47551E+04, time = 1.72 | CG iter. 2 -- res = 0.54511E+07, tol = 0.47551E+04, time = 1.77 | CG iter. 3 -- res = 0.87651E+06, tol = 0.47551E+04, time = 1.73 | CG iter. 4 -- res = 0.35797E+06, tol = 0.47551E+04, time = 1.76 | CG iter. 5 -- res = 0.15203E+06, tol = 0.47551E+04, time = 1.66 | CG iter. 6 -- res = 0.79269E+05, tol = 0.47551E+04, time = 1.69 | CG iter. 7 -- res = 0.43183E+05, tol = 0.47551E+04, time = 1.69 | CG iter. 8 -- res = 0.21074E+05, tol = 0.47551E+04, time = 1.70 | CG iter. 9 -- res = 0.92744E+04, tol = 0.47551E+04, time = 1.72 | CG iter. 10 -- res = 0.37381E+04, tol = 0.47551E+04, time = 1.66 | CG iter. 11 -- res = 0.16814E+04, tol = 0.47551E+04, time = 1.69 | CG iter. 12 -- res = 0.87306E+03, tol = 0.47551E+04, time = 1.74 | CG iter. 13 -- res = 0.48606E+03, tol = 0.47551E+04, time = 1.72 | CG iter. 14 -- res = 0.27236E+03, tol = 0.47551E+04, time = 1.68 | CG iter. 15 -- res = 0.14090E+03, tol = 0.47551E+04, time = 1.70 | CG iter. 16 -- res = 0.68444E+02, tol = 0.47551E+04, time = 1.70 | CG iter. 17 -- res = 0.32262E+02, tol = 0.47551E+04, time = 1.73 | CG iter. 18 -- res = 0.15768E+02, tol = 0.47551E+04, time = 1.70 | CG iter. 19 -- res = 0.85434E+01, tol = 0.47551E+04, time = 1.70 | CG iter. 20 -- res = 0.47365E+01, tol = 0.47551E+04, time = 1.67 | CG iter. 21 -- res = 0.25290E+01, tol = 0.47551E+04, time = 1.71 | CG iter. 22 -- res = 0.12739E+01, tol = 0.47551E+04, time = 1.75 | CG iter. 23 -- res = 0.63416E+00, tol = 0.47551E+04, time = 1.76 | CG iter. 24 -- res = 0.34084E+00, tol = 0.47551E+04, time = 1.74 | CG iter. 25 -- res = 0.19257E+00, tol = 0.47551E+04, time = 1.71 | CG iter. 26 -- res = 0.10893E+00, tol = 0.47551E+04, time = 1.71 | CG iter. 27 -- res = 0.61812E-01, tol = 0.47551E+04, time = 1.70 | CG iter. 28 -- res = 0.33200E-01, tol = 0.47551E+04, time = 1.72 | CG iter. 29 -- res = 0.17461E-01, tol = 0.47551E+04, time = 1.76 | CG iter. 30 -- res = 0.91359E-02, tol = 0.47551E+04, time = 1.75 | CG iter. 31 -- res = 0.49490E-02, tol = 0.47551E+04, time = 1.70 | CG iter. 32 -- res = 0.28375E-02, tol = 0.47551E+04, time = 1.72 | CG iter. 33 -- res = 0.16083E-02, tol = 0.47551E+04, time = 1.74 | CG iter. 34 -- res = 0.87457E-03, tol = 0.47551E+04, time = 1.74 | CG iter. 35 -- res = 0.45479E-03, tol = 0.47551E+04, time = 1.66 | Final CG iter 36 -- res = 0.45479E-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) -5.606 2.732 | New value -0.255 | Old value -5.606 | Difference 5.351 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 4.11 | CG iter. 1 -- res = 0.14845E+07, tol = 0.47627E+18, time = 0.40 | CG iter. 2 -- res = 0.20722E+02, tol = 0.47627E+18, time = 0.35 | CG iter. 3 -- res = 0.45878E+00, tol = 0.47627E+18, time = 0.36 | CG iter. 4 -- res = 0.77432E-04, tol = 0.47627E+18, time = 0.34 | Final CG iter 5 -- res = 0.10515E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8958062.848 | (Sampled value in CG: 8935107.721 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.643179 | New value = -3.708805 | poltype: 1 pol: 1 CPU time specind = 3.6809444E-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 = 4.12 | CG iter. 1 -- res = 0.28027E+07, tol = 0.11798E+01, time = 0.67 | CG iter. 2 -- res = 0.99949E+05, tol = 0.11798E+01, time = 0.67 | CG iter. 3 -- res = 0.99936E+05, tol = 0.11798E+01, time = 0.62 | CG iter. 4 -- res = 0.18833E+05, tol = 0.11798E+01, time = 0.62 | CG iter. 5 -- res = 0.47713E+04, tol = 0.11798E+01, time = 0.64 | CG iter. 6 -- res = 0.21817E+04, tol = 0.11798E+01, time = 0.64 | CG iter. 7 -- res = 0.60556E+03, tol = 0.11798E+01, time = 0.65 | CG iter. 8 -- res = 0.16531E+03, tol = 0.11798E+01, time = 0.65 | CG iter. 9 -- res = 0.11621E+03, tol = 0.11798E+01, time = 0.63 | CG iter. 10 -- res = 0.28728E+02, tol = 0.11798E+01, time = 0.61 | CG iter. 11 -- res = 0.10613E+02, tol = 0.11798E+01, time = 0.61 | CG iter. 12 -- res = 0.55822E+01, tol = 0.11798E+01, time = 0.63 | CG iter. 13 -- res = 0.18900E+01, tol = 0.11798E+01, time = 0.61 | CG iter. 14 -- res = 0.55766E+00, tol = 0.11798E+01, time = 0.60 | CG iter. 15 -- res = 0.17071E+00, tol = 0.11798E+01, time = 0.59 | CG iter. 16 -- res = 0.51902E-01, tol = 0.11798E+01, time = 0.59 | CG iter. 17 -- res = 0.25796E-01, tol = 0.11798E+01, time = 0.57 | CG iter. 18 -- res = 0.11028E-01, tol = 0.11798E+01, time = 0.59 | CG iter. 19 -- res = 0.34370E-02, tol = 0.11798E+01, time = 0.59 | CG iter. 20 -- res = 0.13495E-02, tol = 0.11798E+01, time = 0.64 | CG iter. 21 -- res = 0.56919E-03, tol = 0.11798E+01, time = 0.61 | CG iter. 22 -- res = 0.19699E-03, tol = 0.11798E+01, time = 0.63 | CG iter. 23 -- res = 0.69276E-04, tol = 0.11798E+01, time = 0.60 | CG iter. 24 -- res = 0.23296E-04, tol = 0.11798E+01, time = 0.63 | CG iter. 25 -- res = 0.64356E-05, tol = 0.11798E+01, time = 0.61 | CG iter. 26 -- res = 0.19828E-05, tol = 0.11798E+01, time = 0.64 | CG iter. 27 -- res = 0.86576E-06, tol = 0.11798E+01, time = 0.61 | CG iter. 28 -- res = 0.28249E-06, tol = 0.11798E+01, time = 0.62 | CG iter. 29 -- res = 0.90191E-07, tol = 0.11798E+01, time = 0.60 | CG iter. 30 -- res = 0.25366E-07, tol = 0.11798E+01, time = 0.63 | CG iter. 31 -- res = 0.96665E-08, tol = 0.11798E+01, time = 0.62 | CG iter. 32 -- res = 0.53585E-08, tol = 0.11798E+01, time = 0.62 | CG iter. 33 -- res = 0.29488E-08, tol = 0.11798E+01, time = 0.61 | CG iter. 34 -- res = 0.76092E-09, tol = 0.11798E+01, time = 0.63 | CG iter. 35 -- res = 0.24353E-09, tol = 0.11798E+01, time = 0.63 | CG iter. 36 -- res = 0.79507E-10, tol = 0.11798E+01, time = 0.62 | CG iter. 37 -- res = 0.53949E-10, tol = 0.11798E+01, time = 0.62 | CG iter. 38 -- res = 0.23961E-10, tol = 0.11798E+01, time = 0.60 | CG iter. 39 -- res = 0.51188E-11, tol = 0.11798E+01, time = 0.57 | CG iter. 40 -- res = 0.14390E-11, tol = 0.11798E+01, time = 0.62 | CG iter. 41 -- res = 0.44948E-12, tol = 0.11798E+01, time = 0.59 | CG iter. 42 -- res = 0.14121E-12, tol = 0.11798E+01, time = 0.63 | CG iter. 43 -- res = 0.44757E-13, tol = 0.11798E+01, time = 0.62 | CG iter. 44 -- res = 0.12730E-13, tol = 0.11798E+01, time = 0.60 | CG iter. 45 -- res = 0.36857E-14, tol = 0.11798E+01, time = 0.58 | CG iter. 46 -- res = 0.11126E-14, tol = 0.11798E+01, time = 0.59 | CG iter. 47 -- res = 0.34628E-15, tol = 0.11798E+01, time = 0.62 | CG iter. 48 -- res = 0.10533E-15, tol = 0.11798E+01, time = 0.62 | CG iter. 49 -- res = 0.39332E-16, tol = 0.11798E+01, time = 0.63 | CG iter. 50 -- res = 0.13685E-16, tol = 0.11798E+01, time = 0.62 | Final CG iter 51 -- res = 0.13685E-16, tol = 0.11798E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -0.608 3.481 | New value 1.583 | Old value -0.608 | Difference 2.191 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 4.12 | CG iter. 1 -- res = 0.37130E+04, tol = 0.47627E+18, time = 0.35 | CG iter. 2 -- res = 0.22166E+02, tol = 0.47627E+18, time = 0.35 | CG iter. 3 -- res = 0.27407E+00, tol = 0.47627E+18, time = 0.35 | Final CG iter 4 -- res = 0.45909E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8958062.848 | (Sampled value in CG: 8942050.424 ) | CPU time specind = 268.0096 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 4.13 | CG iter. 1 -- res = 0.69618E+08, tol = 0.51576E+04, time = 3.16 | CG iter. 2 -- res = 0.33465E+08, tol = 0.51576E+04, time = 3.18 | CG iter. 3 -- res = 0.58020E+07, tol = 0.51576E+04, time = 3.04 | CG iter. 4 -- res = 0.29007E+07, tol = 0.51576E+04, time = 3.03 | CG iter. 5 -- res = 0.12668E+07, tol = 0.51576E+04, time = 3.00 | CG iter. 6 -- res = 0.70006E+06, tol = 0.51576E+04, time = 3.05 | CG iter. 7 -- res = 0.39347E+06, tol = 0.51576E+04, time = 3.01 | CG iter. 8 -- res = 0.20164E+06, tol = 0.51576E+04, time = 3.05 | CG iter. 9 -- res = 0.99338E+05, tol = 0.51576E+04, time = 3.12 | CG iter. 10 -- res = 0.44384E+05, tol = 0.51576E+04, time = 3.04 | CG iter. 11 -- res = 0.23092E+05, tol = 0.51576E+04, time = 3.03 | CG iter. 12 -- res = 0.13872E+05, tol = 0.51576E+04, time = 3.00 | CG iter. 13 -- res = 0.95136E+04, tol = 0.51576E+04, time = 3.07 | CG iter. 14 -- res = 0.73056E+04, tol = 0.51576E+04, time = 3.03 | CG iter. 15 -- res = 0.53375E+04, tol = 0.51576E+04, time = 3.03 | CG iter. 16 -- res = 0.42504E+04, tol = 0.51576E+04, time = 3.10 | CG iter. 17 -- res = 0.37654E+04, tol = 0.51576E+04, time = 3.07 | CG iter. 18 -- res = 0.39101E+04, tol = 0.51576E+04, time = 3.01 | CG iter. 19 -- res = 0.44371E+04, tol = 0.51576E+04, time = 3.04 | CG iter. 20 -- res = 0.47193E+04, tol = 0.51576E+04, time = 3.08 | CG iter. 21 -- res = 0.43145E+04, tol = 0.51576E+04, time = 3.05 | CG iter. 22 -- res = 0.34324E+04, tol = 0.51576E+04, time = 3.03 | CG iter. 23 -- res = 0.26931E+04, tol = 0.51576E+04, time = 3.13 | CG iter. 24 -- res = 0.21894E+04, tol = 0.51576E+04, time = 3.09 | CG iter. 25 -- res = 0.18489E+04, tol = 0.51576E+04, time = 3.02 | CG iter. 26 -- res = 0.15414E+04, tol = 0.51576E+04, time = 2.99 | CG iter. 27 -- res = 0.12547E+04, tol = 0.51576E+04, time = 3.00 | CG iter. 28 -- res = 0.10476E+04, tol = 0.51576E+04, time = 3.05 | CG iter. 29 -- res = 0.97622E+03, tol = 0.51576E+04, time = 3.03 | CG iter. 30 -- res = 0.10072E+04, tol = 0.51576E+04, time = 3.06 | CG iter. 31 -- res = 0.10394E+04, tol = 0.51576E+04, time = 3.03 | CG iter. 32 -- res = 0.10167E+04, tol = 0.51576E+04, time = 3.01 | CG iter. 33 -- res = 0.93075E+03, tol = 0.51576E+04, time = 3.07 | CG iter. 34 -- res = 0.83841E+03, tol = 0.51576E+04, time = 3.08 | CG iter. 35 -- res = 0.77776E+03, tol = 0.51576E+04, time = 3.03 | CG iter. 36 -- res = 0.74659E+03, tol = 0.51576E+04, time = 3.04 | CG iter. 37 -- res = 0.71914E+03, tol = 0.51576E+04, time = 3.07 | CG iter. 38 -- res = 0.67718E+03, tol = 0.51576E+04, time = 3.07 | CG iter. 39 -- res = 0.64293E+03, tol = 0.51576E+04, time = 3.14 | CG iter. 40 -- res = 0.63093E+03, tol = 0.51576E+04, time = 3.03 | CG iter. 41 -- res = 0.64250E+03, tol = 0.51576E+04, time = 3.05 | CG iter. 42 -- res = 0.67346E+03, tol = 0.51576E+04, time = 3.07 | CG iter. 43 -- res = 0.69434E+03, tol = 0.51576E+04, time = 3.13 | CG iter. 44 -- res = 0.69107E+03, tol = 0.51576E+04, time = 3.02 | CG iter. 45 -- res = 0.66772E+03, tol = 0.51576E+04, time = 3.00 | CG iter. 46 -- res = 0.64390E+03, tol = 0.51576E+04, time = 3.16 | CG iter. 47 -- res = 0.62969E+03, tol = 0.51576E+04, time = 3.08 | CG iter. 48 -- res = 0.62695E+03, tol = 0.51576E+04, time = 3.13 | CG iter. 49 -- res = 0.62181E+03, tol = 0.51576E+04, time = 3.14 | CG iter. 50 -- res = 0.60308E+03, tol = 0.51576E+04, time = 3.13 | CG iter. 51 -- res = 0.57755E+03, tol = 0.51576E+04, time = 3.07 | CG iter. 52 -- res = 0.55911E+03, tol = 0.51576E+04, time = 2.98 | CG iter. 53 -- res = 0.55516E+03, tol = 0.51576E+04, time = 2.99 | CG iter. 54 -- res = 0.55952E+03, tol = 0.51576E+04, time = 3.00 | CG iter. 55 -- res = 0.54324E+03, tol = 0.51576E+04, time = 3.10 | CG iter. 56 -- res = 0.50698E+03, tol = 0.51576E+04, time = 3.10 | CG iter. 57 -- res = 0.47112E+03, tol = 0.51576E+04, time = 3.01 | CG iter. 58 -- res = 0.45971E+03, tol = 0.51576E+04, time = 3.04 | CG iter. 59 -- res = 0.46586E+03, tol = 0.51576E+04, time = 3.06 | CG iter. 60 -- res = 0.46482E+03, tol = 0.51576E+04, time = 3.05 | Final CG iter 61 -- res = 0.46482E+03, tol = 0.51576E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 2.521 ( -231.628 -2232.853 2514.941 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8927588.100 | Old band monopole 8958101.379 | Change to band monopole -30513.279 | Change to component monopole 30513.148 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -0.213 2.741 | New value -3.087 | Old value -0.213 | Difference -2.874 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -3.373 ( 9.057 10.678 -10.081 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 14.213 2.719 | New value -2.148 | Old value 14.213 | Difference -16.361 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 4.12 | CG iter. 1 -- res = 0.45230E+06, tol = 0.47627E+18, time = 0.35 | CG iter. 2 -- res = 0.56236E+02, tol = 0.47627E+18, time = 0.34 | CG iter. 3 -- res = 0.16939E+01, tol = 0.47627E+18, time = 0.40 | CG iter. 4 -- res = 0.24245E-02, tol = 0.47627E+18, time = 0.36 | Final CG iter 5 -- res = 0.19116E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8927549.700 | (Sampled value in CG: 8871418.756 ) | Chain = 1 -- chisq = 0.61415932E+09 | Chain = 1 -- wall time = 4095.066 sec --------------------------------------------------------------------- | Chain = 1 -- Iteration = 36 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18098920658257 | --> Sampling calibration, mode = relcal | relcal = -7.4389063E-02 -5.8120161E-02 9.1188073E-02 4.1321151E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 4.0592250E-04 3.7419037E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.9655E-05 | 2: delta_r/delta_0: 1.8245E-06 | 3: delta_s/delta_0: 2.2521E-07 | 4: delta_r/delta_0: 1.3065E-08 | 5: delta_s/delta_0: 3.0332E-09 | 6: delta_r/delta_0: 8.4242E-10 | 7: delta_s/delta_0: 4.6442E-09 | 8: delta_r/delta_0: 1.3451E-10 | 9: delta_s/delta_0: 5.7333E-10 | 10: delta_r/delta_0: 1.1320E-10 | 11: delta_s/delta_0: 5.5423E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 8.740285283640205E-004 2.741203599468775E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 6.9579E-05 | 2: delta_r/delta_0: 1.8227E-06 | 3: delta_s/delta_0: 2.2524E-07 | 4: delta_r/delta_0: 1.3064E-08 | 5: delta_s/delta_0: 3.0335E-09 | 6: delta_r/delta_0: 8.4375E-10 | 7: delta_s/delta_0: 4.6642E-09 | 8: delta_r/delta_0: 1.3469E-10 | 9: delta_s/delta_0: 5.8495E-10 | 10: delta_r/delta_0: 1.1575E-10 | 11: delta_s/delta_0: 5.5563E-11 | Reached bicg-stab tolerance | BP delta = 4.7531682E-03 9.7670536E-03 3883812.66990417 | BP delta = 4.7531682E-03 9.7950343E-03 3869377.50468818 | BP chisq diff = -14435.2, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02554275 | --> Sampling calibration, mode = relcal | relcal = -0.1065695 -9.5480248E-02 0.1448999 5.7149909E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.3800781E-03 1.4243625E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 8.0934E-04 | 2: delta_r/delta_0: 1.7793E-05 | 3: delta_s/delta_0: 5.0078E-06 | 4: delta_r/delta_0: 4.3734E-07 | 5: delta_s/delta_0: 1.1526E-06 | 6: delta_r/delta_0: 6.2349E-08 | 7: delta_s/delta_0: 2.8186E-09 | 8: delta_r/delta_0: 1.2691E-09 | 9: delta_s/delta_0: 1.3056E-07 | 10: delta_r/delta_0: 1.1734E-09 | 11: delta_s/delta_0: 1.0254E-10 | 12: delta_r/delta_0: 7.1357E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.082600079735668E-003 2.812067276680754E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 8.0925E-04 | 2: delta_r/delta_0: 1.7790E-05 | 3: delta_s/delta_0: 5.0070E-06 | 4: delta_r/delta_0: 4.3728E-07 | 5: delta_s/delta_0: 1.1519E-06 | 6: delta_r/delta_0: 6.2297E-08 | 7: delta_s/delta_0: 2.8184E-09 | 8: delta_r/delta_0: 1.2689E-09 | 9: delta_s/delta_0: 1.3042E-07 | 10: delta_r/delta_0: 1.1692E-09 | 11: delta_s/delta_0: 1.0250E-10 | 12: delta_r/delta_0: 7.1326E-11 | Reached bicg-stab tolerance | BP delta = -0.1954035 -0.1947814 2842545.09060668 | BP delta = -0.1954035 -0.1958315 2843058.82790991 | 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 = 0.81165917 | --> Sampling calibration, mode = relcal | relcal = 0.2952417 0.2247121 -0.2835397 -0.2364141 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.0439667E-04 5.6969612E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.5159E-03 | 2: delta_r/delta_0: 3.4828E-05 | 3: delta_s/delta_0: 1.6271E-05 | 4: delta_r/delta_0: 1.7115E-06 | 5: delta_s/delta_0: 6.8788E-07 | 6: delta_r/delta_0: 7.5179E-08 | 7: delta_s/delta_0: 5.7068E-08 | 8: delta_r/delta_0: 2.9493E-08 | 9: delta_s/delta_0: 3.6331E-07 | 10: delta_r/delta_0: 1.7425E-09 | 11: delta_s/delta_0: 1.1585E-09 | 12: delta_r/delta_0: 4.2064E-10 | 13: delta_s/delta_0: 3.4854E-10 | 14: delta_r/delta_0: 2.3567E-10 | 15: delta_s/delta_0: 4.9308E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.368316818048210E-002 4.024539789815130E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.5149E-03 | 2: delta_r/delta_0: 3.4805E-05 | 3: delta_s/delta_0: 1.6275E-05 | 4: delta_r/delta_0: 1.7119E-06 | 5: delta_s/delta_0: 6.8690E-07 | 6: delta_r/delta_0: 7.5100E-08 | 7: delta_s/delta_0: 5.7060E-08 | 8: delta_r/delta_0: 2.9482E-08 | 9: delta_s/delta_0: 3.6298E-07 | 10: delta_r/delta_0: 1.7385E-09 | 11: delta_s/delta_0: 1.1554E-09 | 12: delta_r/delta_0: 4.2079E-10 | 13: delta_s/delta_0: 3.4895E-10 | 14: delta_r/delta_0: 2.3593E-10 | 15: delta_s/delta_0: 4.9236E-11 | Reached bicg-stab tolerance | BP delta = -9.6546307E-02 -0.1444266 2827696.24933435 | BP delta = -9.6546307E-02 -0.1234093 2827707.52155088 | 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 = 0.95848310 | --> Sampling calibration, mode = relcal | relcal = 0.1063650 0.1394893 -0.1101679 -0.1356865 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0174752E-02 1.4529266E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 4.5882E-04 | 2: delta_r/delta_0: 1.0476E-05 | 3: delta_s/delta_0: 1.8364E-06 | 4: delta_r/delta_0: 3.4800E-07 | 5: delta_s/delta_0: 7.5815E-07 | 6: delta_r/delta_0: 1.2874E-07 | 7: delta_s/delta_0: 6.3703E-08 | 8: delta_r/delta_0: 3.2190E-08 | 9: delta_s/delta_0: 1.1228E-06 | 10: delta_r/delta_0: 1.5196E-08 | 11: delta_s/delta_0: 4.7072E-09 | 12: delta_r/delta_0: 6.4169E-10 | 13: delta_s/delta_0: 5.4461E-08 | 14: delta_r/delta_0: 1.8029E-08 | 15: delta_s/delta_0: 4.3020E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.513731728853386E-002 3.699687020901772E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 4.5886E-04 | 2: delta_r/delta_0: 1.0477E-05 | 3: delta_s/delta_0: 1.8364E-06 | 4: delta_r/delta_0: 3.4802E-07 | 5: delta_s/delta_0: 7.5838E-07 | 6: delta_r/delta_0: 1.2874E-07 | 7: delta_s/delta_0: 6.3702E-08 | 8: delta_r/delta_0: 3.2189E-08 | 9: delta_s/delta_0: 1.1226E-06 | 10: delta_r/delta_0: 1.5191E-08 | 11: delta_s/delta_0: 4.7000E-09 | 12: delta_r/delta_0: 6.4171E-10 | 13: delta_s/delta_0: 5.6199E-08 | 14: delta_r/delta_0: 1.8589E-08 | 15: delta_s/delta_0: 4.3021E-11 | Reached bicg-stab tolerance | BP delta = 0.3008798 0.3306965 3005170.51415437 | BP delta = 0.3008798 0.3375798 3005175.55143132 | 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 = 0.52124779 | --> Sampling calibration, mode = relcal | relcal = -5.1102795E-02 -3.6109420E-03 2.7278660E-02 2.7435079E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -6.7561382E-04 1.4038767E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 7.6868E-05 | 2: delta_r/delta_0: 3.8904E-06 | 3: delta_s/delta_0: 2.0749E-06 | 4: delta_r/delta_0: 2.1509E-07 | 5: delta_s/delta_0: 5.1059E-08 | 6: delta_r/delta_0: 2.4255E-08 | 7: delta_s/delta_0: 1.8499E-07 | 8: delta_r/delta_0: 4.3261E-08 | 9: delta_s/delta_0: 3.1405E-09 | 10: delta_r/delta_0: 1.8707E-09 | 11: delta_s/delta_0: 3.8464E-08 | 12: delta_r/delta_0: 9.4467E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.991285570576804E-002 5.486666833755859E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 7.6868E-05 | 2: delta_r/delta_0: 3.8904E-06 | 3: delta_s/delta_0: 2.0748E-06 | 4: delta_r/delta_0: 2.1509E-07 | 5: delta_s/delta_0: 5.1057E-08 | 6: delta_r/delta_0: 2.4255E-08 | 7: delta_s/delta_0: 1.8503E-07 | 8: delta_r/delta_0: 4.3266E-08 | 9: delta_s/delta_0: 3.1404E-09 | 10: delta_r/delta_0: 1.8707E-09 | 11: delta_s/delta_0: 3.8405E-08 | 12: delta_r/delta_0: 9.4313E-11 | Reached bicg-stab tolerance | BP delta = -3.5527356E-02 4.1441016E-02 2436514.44179934 | BP delta = -3.5527356E-02 1.6172921E-02 2436558.09209973 | 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 = 0.42120075 | --> Sampling calibration, mode = relcal | relcal = 4.5532089E-02 3.9582334E-02 -2.8205838E-02 -5.6908585E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.7012783E-03 5.8639287E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.3058E-05 | 2: delta_r/delta_0: 3.8455E-06 | 3: delta_s/delta_0: 9.3144E-06 | 4: delta_r/delta_0: 1.2538E-06 | 5: delta_s/delta_0: 5.3493E-08 | 6: delta_r/delta_0: 3.4481E-08 | 7: delta_s/delta_0: 2.3668E-08 | 8: delta_r/delta_0: 1.3122E-08 | 9: delta_s/delta_0: 1.7985E-08 | 10: delta_r/delta_0: 2.7613E-10 | 11: delta_s/delta_0: 4.2878E-10 | 12: delta_r/delta_0: 2.9741E-10 | 13: delta_s/delta_0: 3.5178E-09 | 14: delta_r/delta_0: 3.3644E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.378172135882704E-002 5.000102186053776E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 6.3057E-05 | 2: delta_r/delta_0: 3.8455E-06 | 3: delta_s/delta_0: 9.3148E-06 | 4: delta_r/delta_0: 1.2538E-06 | 5: delta_s/delta_0: 5.3493E-08 | 6: delta_r/delta_0: 3.4481E-08 | 7: delta_s/delta_0: 2.3668E-08 | 8: delta_r/delta_0: 1.3122E-08 | 9: delta_s/delta_0: 1.7982E-08 | 10: delta_r/delta_0: 2.7606E-10 | 11: delta_s/delta_0: 4.2879E-10 | 12: delta_r/delta_0: 2.9735E-10 | 13: delta_s/delta_0: 3.5432E-09 | 14: delta_r/delta_0: 3.3570E-11 | Reached bicg-stab tolerance | BP delta = -0.1215654 -0.1305729 2322680.48561063 | BP delta = -0.1215654 -0.1286266 2322745.51656939 | 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 = 0.28140970 | --> Sampling calibration, mode = relcal | relcal = 2.4236184E-02 4.5117661E-02 -2.3389425E-02 -4.5964420E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 7.8662485E-03 3.4867555E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.0844E-04 | 2: delta_r/delta_0: 8.9658E-06 | 3: delta_s/delta_0: 1.4580E-06 | 4: delta_r/delta_0: 1.8203E-07 | 5: delta_s/delta_0: 6.0916E-08 | 6: delta_r/delta_0: 1.4045E-08 | 7: delta_s/delta_0: 6.2173E-09 | 8: delta_r/delta_0: 3.9379E-09 | 9: delta_s/delta_0: 8.9938E-09 | 10: delta_r/delta_0: 3.0087E-09 | 11: delta_s/delta_0: 5.5338E-09 | 12: delta_r/delta_0: 1.4296E-09 | 13: delta_s/delta_0: 8.3332E-09 | 14: delta_r/delta_0: 5.1178E-09 | 15: delta_s/delta_0: 7.7906E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -8.524804934221412E-003 7.849740312700162E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.0844E-04 | 2: delta_r/delta_0: 8.9658E-06 | 3: delta_s/delta_0: 1.4580E-06 | 4: delta_r/delta_0: 1.8203E-07 | 5: delta_s/delta_0: 6.0915E-08 | 6: delta_r/delta_0: 1.4045E-08 | 7: delta_s/delta_0: 6.2173E-09 | 8: delta_r/delta_0: 3.9379E-09 | 9: delta_s/delta_0: 8.9934E-09 | 10: delta_r/delta_0: 3.0087E-09 | 11: delta_s/delta_0: 5.5339E-09 | 12: delta_r/delta_0: 1.4295E-09 | 13: delta_s/delta_0: 8.3180E-09 | 14: delta_r/delta_0: 5.1082E-09 | 15: delta_s/delta_0: 7.7902E-11 | Reached bicg-stab tolerance | BP delta = 8.0942608E-02 1.3924338E-02 2490668.45732121 | BP delta = 8.0942608E-02 9.3246868E-04 2490659.63962440 | BP chisq diff = -8.8, accept = T | | Finished processing 090-WMAP_W1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.29377467 | --> Sampling calibration, mode = relcal | relcal = 5.6444888E-04 1.0331526E-02 -3.8046511E-03 -7.0913243E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.4024831E-02 1.3916291E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.3158E-04 | 2: delta_r/delta_0: 1.0842E-05 | 3: delta_s/delta_0: 1.6181E-06 | 4: delta_r/delta_0: 3.7902E-07 | 5: delta_s/delta_0: 9.6733E-08 | 6: delta_r/delta_0: 2.6677E-08 | 7: delta_s/delta_0: 1.0295E-08 | 8: delta_r/delta_0: 6.4663E-09 | 9: delta_s/delta_0: 1.3255E-08 | 10: delta_r/delta_0: 5.3666E-09 | 11: delta_s/delta_0: 4.3298E-09 | 12: delta_r/delta_0: 1.6889E-09 | 13: delta_s/delta_0: 9.6121E-10 | 14: delta_r/delta_0: 1.7645E-10 | 15: delta_s/delta_0: 8.4606E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -8.844703632746915E-003 8.310744505290195E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.3158E-04 | 2: delta_r/delta_0: 1.0842E-05 | 3: delta_s/delta_0: 1.6181E-06 | 4: delta_r/delta_0: 3.7905E-07 | 5: delta_s/delta_0: 9.6748E-08 | 6: delta_r/delta_0: 2.6679E-08 | 7: delta_s/delta_0: 1.0295E-08 | 8: delta_r/delta_0: 6.4664E-09 | 9: delta_s/delta_0: 1.3256E-08 | 10: delta_r/delta_0: 5.3665E-09 | 11: delta_s/delta_0: 4.3295E-09 | 12: delta_r/delta_0: 1.6898E-09 | 13: delta_s/delta_0: 9.6112E-10 | 14: delta_r/delta_0: 1.7647E-10 | 15: delta_s/delta_0: 8.4605E-11 | Reached bicg-stab tolerance | BP delta = -0.7347233 -0.7229410 2738278.10495451 | BP delta = -0.7347233 -0.7071366 2738268.18346262 | BP chisq diff = -9.9, accept = T | | Finished processing 090-WMAP_W2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W3 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.26483806 | --> Sampling calibration, mode = relcal | relcal = -5.6326278E-03 1.5019456E-02 -2.3522556E-03 -7.0345728E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -4.2128847E-03 3.5175993E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4731E-04 | 2: delta_r/delta_0: 1.2383E-05 | 3: delta_s/delta_0: 2.0667E-06 | 4: delta_r/delta_0: 2.6225E-07 | 5: delta_s/delta_0: 8.1917E-08 | 6: delta_r/delta_0: 2.0304E-08 | 7: delta_s/delta_0: 8.4327E-09 | 8: delta_r/delta_0: 5.4059E-09 | 9: delta_s/delta_0: 4.5444E-09 | 10: delta_r/delta_0: 3.2192E-09 | 11: delta_s/delta_0: 4.2640E-06 | 12: delta_r/delta_0: 9.9996E-09 | 13: delta_s/delta_0: 9.8658E-09 | 14: delta_r/delta_0: 6.6390E-09 | 15: delta_s/delta_0: 1.0208E-10 | 16: delta_r/delta_0: 8.2861E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -8.220298019104321E-003 9.161606035320670E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.4731E-04 | 2: delta_r/delta_0: 1.2383E-05 | 3: delta_s/delta_0: 2.0666E-06 | 4: delta_r/delta_0: 2.6224E-07 | 5: delta_s/delta_0: 8.1918E-08 | 6: delta_r/delta_0: 2.0302E-08 | 7: delta_s/delta_0: 8.4325E-09 | 8: delta_r/delta_0: 5.4058E-09 | 9: delta_s/delta_0: 4.5443E-09 | 10: delta_r/delta_0: 3.2191E-09 | 11: delta_s/delta_0: 4.2665E-06 | 12: delta_r/delta_0: 1.0005E-08 | 13: delta_s/delta_0: 9.8705E-09 | 14: delta_r/delta_0: 6.6421E-09 | 15: delta_s/delta_0: 1.0208E-10 | 16: delta_r/delta_0: 8.2862E-11 | Reached bicg-stab tolerance | BP delta = 0.2224656 0.2303343 2516451.48829400 | BP delta = 0.2224656 0.2311606 2516450.68058470 | 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 = 0.25641631 | --> Sampling calibration, mode = relcal | relcal = -3.1795282E-02 -2.5867032E-02 3.6933027E-02 2.0729290E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.3155214E-02 1.7690925E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4431E-04 | 2: delta_r/delta_0: 1.2238E-05 | 3: delta_s/delta_0: 1.9280E-06 | 4: delta_r/delta_0: 4.2123E-07 | 5: delta_s/delta_0: 1.6635E-07 | 6: delta_r/delta_0: 2.8847E-08 | 7: delta_s/delta_0: 1.1937E-08 | 8: delta_r/delta_0: 6.9681E-09 | 9: delta_s/delta_0: 6.6914E-09 | 10: delta_r/delta_0: 3.9436E-09 | 11: delta_s/delta_0: 2.8232E-07 | 12: delta_r/delta_0: 7.5646E-08 | 13: delta_s/delta_0: 8.3883E-10 | 14: delta_r/delta_0: 3.9836E-10 | 15: delta_s/delta_0: 1.3333E-10 | 16: delta_r/delta_0: 1.1838E-10 | 17: delta_s/delta_0: 1.0451E-10 | 18: delta_r/delta_0: 9.5165E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.306205494003215E-003 8.679864695596777E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.4431E-04 | 2: delta_r/delta_0: 1.2238E-05 | 3: delta_s/delta_0: 1.9280E-06 | 4: delta_r/delta_0: 4.2123E-07 | 5: delta_s/delta_0: 1.6635E-07 | 6: delta_r/delta_0: 2.8847E-08 | 7: delta_s/delta_0: 1.1937E-08 | 8: delta_r/delta_0: 6.9681E-09 | 9: delta_s/delta_0: 6.6914E-09 | 10: delta_r/delta_0: 3.9436E-09 | 11: delta_s/delta_0: 2.8232E-07 | 12: delta_r/delta_0: 7.5645E-08 | 13: delta_s/delta_0: 8.3883E-10 | 14: delta_r/delta_0: 3.9836E-10 | 15: delta_s/delta_0: 1.3333E-10 | 16: delta_r/delta_0: 1.1838E-10 | 17: delta_s/delta_0: 1.0451E-10 | 18: delta_r/delta_0: 9.5165E-11 | Reached bicg-stab tolerance | BP delta = -0.6087440 -0.6767356 2706128.83270169 | BP delta = -0.6087440 -0.6581579 2706128.66175832 | 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 = -3.253642 | New value = -3.204599 | poltype: 2 pol: 1 CPU time specind = 1.6891956E-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 = -3.190155 | New value = -3.270210 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.165382 | New value = -3.113088 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.078434 | New value = -3.178765 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.082267 | New value = -3.200494 | poltype: 2 pol: 2 CPU time specind = 1.5668869E-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 = 4.12 | CG iter. 1 -- res = 0.13557E+08, tol = 0.76121E+01, time = 1.53 | CG iter. 2 -- res = 0.59894E+05, tol = 0.76121E+01, time = 1.62 | CG iter. 3 -- res = 0.41474E+05, tol = 0.76121E+01, time = 1.58 | CG iter. 4 -- res = 0.11151E+05, tol = 0.76121E+01, time = 1.55 | CG iter. 5 -- res = 0.81685E+04, tol = 0.76121E+01, time = 1.51 | CG iter. 6 -- res = 0.55230E+04, tol = 0.76121E+01, time = 1.60 | CG iter. 7 -- res = 0.29396E+04, tol = 0.76121E+01, time = 1.52 | CG iter. 8 -- res = 0.23293E+04, tol = 0.76121E+01, time = 1.47 | CG iter. 9 -- res = 0.22781E+04, tol = 0.76121E+01, time = 1.56 | CG iter. 10 -- res = 0.22983E+04, tol = 0.76121E+01, time = 1.55 | CG iter. 11 -- res = 0.20748E+04, tol = 0.76121E+01, time = 1.51 | CG iter. 12 -- res = 0.16154E+04, tol = 0.76121E+01, time = 1.56 | CG iter. 13 -- res = 0.11912E+04, tol = 0.76121E+01, time = 1.54 | CG iter. 14 -- res = 0.77163E+03, tol = 0.76121E+01, time = 1.56 | CG iter. 15 -- res = 0.61973E+03, tol = 0.76121E+01, time = 1.62 | CG iter. 16 -- res = 0.49219E+03, tol = 0.76121E+01, time = 1.56 | CG iter. 17 -- res = 0.39553E+03, tol = 0.76121E+01, time = 1.61 | CG iter. 18 -- res = 0.29398E+03, tol = 0.76121E+01, time = 1.58 | CG iter. 19 -- res = 0.24180E+03, tol = 0.76121E+01, time = 1.55 | CG iter. 20 -- res = 0.19220E+03, tol = 0.76121E+01, time = 1.52 | CG iter. 21 -- res = 0.13130E+03, tol = 0.76121E+01, time = 1.52 | CG iter. 22 -- res = 0.11600E+03, tol = 0.76121E+01, time = 1.50 | CG iter. 23 -- res = 0.96346E+02, tol = 0.76121E+01, time = 1.50 | CG iter. 24 -- res = 0.83327E+02, tol = 0.76121E+01, time = 1.50 | CG iter. 25 -- res = 0.68128E+02, tol = 0.76121E+01, time = 1.50 | CG iter. 26 -- res = 0.61848E+02, tol = 0.76121E+01, time = 1.49 | CG iter. 27 -- res = 0.51389E+02, tol = 0.76121E+01, time = 1.50 | CG iter. 28 -- res = 0.40597E+02, tol = 0.76121E+01, time = 1.52 | CG iter. 29 -- res = 0.32402E+02, tol = 0.76121E+01, time = 1.49 | CG iter. 30 -- res = 0.30114E+02, tol = 0.76121E+01, time = 1.45 | CG iter. 31 -- res = 0.25998E+02, tol = 0.76121E+01, time = 1.53 | CG iter. 32 -- res = 0.19007E+02, tol = 0.76121E+01, time = 1.46 | CG iter. 33 -- res = 0.16343E+02, tol = 0.76121E+01, time = 1.52 | CG iter. 34 -- res = 0.15652E+02, tol = 0.76121E+01, time = 1.54 | CG iter. 35 -- res = 0.11751E+02, tol = 0.76121E+01, time = 1.52 | CG iter. 36 -- res = 0.95356E+01, tol = 0.76121E+01, time = 1.55 | CG iter. 37 -- res = 0.77784E+01, tol = 0.76121E+01, time = 1.51 | CG iter. 38 -- res = 0.68933E+01, tol = 0.76121E+01, time = 1.53 | CG iter. 39 -- res = 0.56239E+01, tol = 0.76121E+01, time = 1.52 | CG iter. 40 -- res = 0.67252E+01, tol = 0.76121E+01, time = 1.56 | CG iter. 41 -- res = 0.53331E+01, tol = 0.76121E+01, time = 1.54 | CG iter. 42 -- res = 0.36851E+01, tol = 0.76121E+01, time = 1.58 | CG iter. 43 -- res = 0.31041E+01, tol = 0.76121E+01, time = 1.54 | CG iter. 44 -- res = 0.35524E+01, tol = 0.76121E+01, time = 1.52 | CG iter. 45 -- res = 0.31422E+01, tol = 0.76121E+01, time = 1.53 | CG iter. 46 -- res = 0.20066E+01, tol = 0.76121E+01, time = 1.52 | CG iter. 47 -- res = 0.17272E+01, tol = 0.76121E+01, time = 1.48 | CG iter. 48 -- res = 0.13751E+01, tol = 0.76121E+01, time = 1.47 | CG iter. 49 -- res = 0.12744E+01, tol = 0.76121E+01, time = 1.51 | CG iter. 50 -- res = 0.13551E+01, tol = 0.76121E+01, time = 1.50 | Final CG iter 51 -- res = 0.13551E+01, tol = 0.76121E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 6692888.653 | Old band monopole 8927588.100 | Change to band monopole -2234699.447 | Change to component monopole 2234689.835 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 4.12 | CG iter. 1 -- res = 0.13032E+06, tol = 0.47627E+18, time = 0.38 | CG iter. 2 -- res = 0.20984E+02, tol = 0.47627E+18, time = 0.37 | CG iter. 3 -- res = 0.29813E+00, tol = 0.47627E+18, time = 0.39 | CG iter. 4 -- res = 0.68624E-03, tol = 0.47627E+18, time = 0.40 | Final CG iter 5 -- res = 0.38743E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 6692859.865 | (Sampled value in CG: 6705765.978 ) | 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 = 1.500058 | New value = 1.484019 | poltype: 2 pol: 1 CPU time specind = 2.9201508E-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 = 1.469173 | New value = 1.464024 | poltype: 2 pol: 2 CPU time specind = 9.3483925E-04 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 4.14 | CG iter. 1 -- res = 0.24079E+08, tol = 0.47521E+04, time = 1.78 | CG iter. 2 -- res = 0.52548E+07, tol = 0.47521E+04, time = 1.80 | CG iter. 3 -- res = 0.82410E+06, tol = 0.47521E+04, time = 1.79 | CG iter. 4 -- res = 0.34344E+06, tol = 0.47521E+04, time = 1.78 | CG iter. 5 -- res = 0.14906E+06, tol = 0.47521E+04, time = 1.75 | CG iter. 6 -- res = 0.79523E+05, tol = 0.47521E+04, time = 1.79 | CG iter. 7 -- res = 0.43018E+05, tol = 0.47521E+04, time = 1.80 | CG iter. 8 -- res = 0.21039E+05, tol = 0.47521E+04, time = 1.79 | CG iter. 9 -- res = 0.91342E+04, tol = 0.47521E+04, time = 1.81 | CG iter. 10 -- res = 0.36763E+04, tol = 0.47521E+04, time = 1.75 | CG iter. 11 -- res = 0.16800E+04, tol = 0.47521E+04, time = 1.80 | CG iter. 12 -- res = 0.87541E+03, tol = 0.47521E+04, time = 1.84 | CG iter. 13 -- res = 0.48937E+03, tol = 0.47521E+04, time = 1.79 | CG iter. 14 -- res = 0.27618E+03, tol = 0.47521E+04, time = 1.79 | CG iter. 15 -- res = 0.14616E+03, tol = 0.47521E+04, time = 1.79 | CG iter. 16 -- res = 0.69152E+02, tol = 0.47521E+04, time = 1.75 | CG iter. 17 -- res = 0.31754E+02, tol = 0.47521E+04, time = 1.77 | CG iter. 18 -- res = 0.15986E+02, tol = 0.47521E+04, time = 1.80 | CG iter. 19 -- res = 0.88193E+01, tol = 0.47521E+04, time = 1.78 | CG iter. 20 -- res = 0.49772E+01, tol = 0.47521E+04, time = 1.83 | CG iter. 21 -- res = 0.27470E+01, tol = 0.47521E+04, time = 1.76 | CG iter. 22 -- res = 0.14046E+01, tol = 0.47521E+04, time = 1.74 | CG iter. 23 -- res = 0.69104E+00, tol = 0.47521E+04, time = 1.73 | CG iter. 24 -- res = 0.36045E+00, tol = 0.47521E+04, time = 1.77 | CG iter. 25 -- res = 0.19417E+00, tol = 0.47521E+04, time = 1.74 | CG iter. 26 -- res = 0.10833E+00, tol = 0.47521E+04, time = 1.80 | CG iter. 27 -- res = 0.60242E-01, tol = 0.47521E+04, time = 1.78 | CG iter. 28 -- res = 0.31605E-01, tol = 0.47521E+04, time = 1.73 | CG iter. 29 -- res = 0.16232E-01, tol = 0.47521E+04, time = 1.78 | CG iter. 30 -- res = 0.84342E-02, tol = 0.47521E+04, time = 1.80 | CG iter. 31 -- res = 0.45843E-02, tol = 0.47521E+04, time = 1.78 | CG iter. 32 -- res = 0.26030E-02, tol = 0.47521E+04, time = 1.75 | CG iter. 33 -- res = 0.15020E-02, tol = 0.47521E+04, time = 1.77 | CG iter. 34 -- res = 0.82966E-03, tol = 0.47521E+04, time = 1.75 | CG iter. 35 -- res = 0.42484E-03, tol = 0.47521E+04, time = 1.77 | Final CG iter 36 -- res = 0.42484E-03, tol = 0.47521E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -3.121 2.745 | New value 0.535 | Old value -3.121 | Difference 3.656 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 4.11 | CG iter. 1 -- res = 0.69050E+06, tol = 0.47627E+18, time = 0.39 | CG iter. 2 -- res = 0.18313E+02, tol = 0.47627E+18, time = 0.37 | CG iter. 3 -- res = 0.21418E+00, tol = 0.47627E+18, time = 0.35 | CG iter. 4 -- res = 0.12803E-03, tol = 0.47627E+18, time = 0.38 | Final CG iter 5 -- res = 0.11005E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 6692859.865 | (Sampled value in CG: 6707018.552 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.708805 | New value = -3.566926 | poltype: 1 pol: 1 CPU time specind = 1.8038750E-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 = 4.11 | CG iter. 1 -- res = 0.21740E+07, tol = 0.13753E+01, time = 0.70 | CG iter. 2 -- res = 0.55349E+05, tol = 0.13753E+01, time = 0.65 | CG iter. 3 -- res = 0.41861E+05, tol = 0.13753E+01, time = 0.67 | CG iter. 4 -- res = 0.90386E+04, tol = 0.13753E+01, time = 0.67 | CG iter. 5 -- res = 0.31299E+04, tol = 0.13753E+01, time = 0.66 | CG iter. 6 -- res = 0.11942E+04, tol = 0.13753E+01, time = 0.66 | CG iter. 7 -- res = 0.50776E+03, tol = 0.13753E+01, time = 0.66 | CG iter. 8 -- res = 0.26237E+03, tol = 0.13753E+01, time = 0.70 | CG iter. 9 -- res = 0.77569E+02, tol = 0.13753E+01, time = 0.66 | CG iter. 10 -- res = 0.25459E+02, tol = 0.13753E+01, time = 0.66 | CG iter. 11 -- res = 0.11207E+02, tol = 0.13753E+01, time = 0.64 | CG iter. 12 -- res = 0.39483E+01, tol = 0.13753E+01, time = 0.62 | CG iter. 13 -- res = 0.13537E+01, tol = 0.13753E+01, time = 0.68 | CG iter. 14 -- res = 0.44923E+00, tol = 0.13753E+01, time = 0.62 | CG iter. 15 -- res = 0.19186E+00, tol = 0.13753E+01, time = 0.65 | CG iter. 16 -- res = 0.52354E-01, tol = 0.13753E+01, time = 0.61 | CG iter. 17 -- res = 0.18627E-01, tol = 0.13753E+01, time = 0.64 | CG iter. 18 -- res = 0.83106E-02, tol = 0.13753E+01, time = 0.63 | CG iter. 19 -- res = 0.27985E-02, tol = 0.13753E+01, time = 0.64 | CG iter. 20 -- res = 0.11901E-02, tol = 0.13753E+01, time = 0.65 | CG iter. 21 -- res = 0.39062E-03, tol = 0.13753E+01, time = 0.63 | CG iter. 22 -- res = 0.12212E-03, tol = 0.13753E+01, time = 0.65 | CG iter. 23 -- res = 0.50474E-04, tol = 0.13753E+01, time = 0.64 | CG iter. 24 -- res = 0.18369E-04, tol = 0.13753E+01, time = 0.66 | CG iter. 25 -- res = 0.50444E-05, tol = 0.13753E+01, time = 0.64 | CG iter. 26 -- res = 0.15225E-05, tol = 0.13753E+01, time = 0.66 | CG iter. 27 -- res = 0.60266E-06, tol = 0.13753E+01, time = 0.64 | CG iter. 28 -- res = 0.19969E-06, tol = 0.13753E+01, time = 0.65 | CG iter. 29 -- res = 0.71140E-07, tol = 0.13753E+01, time = 0.64 | CG iter. 30 -- res = 0.21002E-07, tol = 0.13753E+01, time = 0.66 | CG iter. 31 -- res = 0.69608E-08, tol = 0.13753E+01, time = 0.63 | CG iter. 32 -- res = 0.64878E-08, tol = 0.13753E+01, time = 0.66 | CG iter. 33 -- res = 0.16647E-08, tol = 0.13753E+01, time = 0.65 | CG iter. 34 -- res = 0.46979E-09, tol = 0.13753E+01, time = 0.70 | CG iter. 35 -- res = 0.14058E-09, tol = 0.13753E+01, time = 0.62 | CG iter. 36 -- res = 0.55854E-10, tol = 0.13753E+01, time = 0.63 | CG iter. 37 -- res = 0.46533E-10, tol = 0.13753E+01, time = 0.65 | CG iter. 38 -- res = 0.12931E-10, tol = 0.13753E+01, time = 0.66 | CG iter. 39 -- res = 0.38932E-11, tol = 0.13753E+01, time = 0.63 | CG iter. 40 -- res = 0.11904E-11, tol = 0.13753E+01, time = 0.64 | CG iter. 41 -- res = 0.37300E-12, tol = 0.13753E+01, time = 0.64 | CG iter. 42 -- res = 0.12043E-12, tol = 0.13753E+01, time = 0.62 | CG iter. 43 -- res = 0.37361E-13, tol = 0.13753E+01, time = 0.61 | CG iter. 44 -- res = 0.10814E-13, tol = 0.13753E+01, time = 0.66 | CG iter. 45 -- res = 0.31182E-14, tol = 0.13753E+01, time = 0.65 | CG iter. 46 -- res = 0.97452E-15, tol = 0.13753E+01, time = 0.72 | CG iter. 47 -- res = 0.33590E-15, tol = 0.13753E+01, time = 0.65 | CG iter. 48 -- res = 0.12413E-15, tol = 0.13753E+01, time = 0.66 | CG iter. 49 -- res = 0.38603E-16, tol = 0.13753E+01, time = 0.66 | CG iter. 50 -- res = 0.13051E-16, tol = 0.13753E+01, time = 0.63 | Final CG iter 51 -- res = 0.13051E-16, tol = 0.13753E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 0.503 2.268 | New value -3.554 | Old value 0.503 | Difference -4.057 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 4.11 | CG iter. 1 -- res = 0.11673E+05, tol = 0.47627E+18, time = 0.35 | CG iter. 2 -- res = 0.15293E+02, tol = 0.47627E+18, time = 0.39 | CG iter. 3 -- res = 0.11065E+00, tol = 0.47627E+18, time = 0.41 | Final CG iter 4 -- res = 0.96166E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 6692859.865 | (Sampled value in CG: 6702321.173 ) | CPU time specind = 275.8128 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 4.12 | CG iter. 1 -- res = 0.68563E+08, tol = 0.51548E+04, time = 3.21 | CG iter. 2 -- res = 0.33080E+08, tol = 0.51548E+04, time = 3.18 | CG iter. 3 -- res = 0.56748E+07, tol = 0.51548E+04, time = 3.13 | CG iter. 4 -- res = 0.28399E+07, tol = 0.51548E+04, time = 3.11 | CG iter. 5 -- res = 0.12579E+07, tol = 0.51548E+04, time = 3.10 | CG iter. 6 -- res = 0.69774E+06, tol = 0.51548E+04, time = 3.14 | CG iter. 7 -- res = 0.38992E+06, tol = 0.51548E+04, time = 3.13 | CG iter. 8 -- res = 0.19709E+06, tol = 0.51548E+04, time = 3.14 | CG iter. 9 -- res = 0.95491E+05, tol = 0.51548E+04, time = 3.13 | CG iter. 10 -- res = 0.41904E+05, tol = 0.51548E+04, time = 3.23 | CG iter. 11 -- res = 0.21213E+05, tol = 0.51548E+04, time = 3.13 | CG iter. 12 -- res = 0.12028E+05, tol = 0.51548E+04, time = 3.15 | CG iter. 13 -- res = 0.75442E+04, tol = 0.51548E+04, time = 3.10 | CG iter. 14 -- res = 0.51427E+04, tol = 0.51548E+04, time = 3.16 | CG iter. 15 -- res = 0.32957E+04, tol = 0.51548E+04, time = 3.14 | CG iter. 16 -- res = 0.22519E+04, tol = 0.51548E+04, time = 3.12 | CG iter. 17 -- res = 0.17014E+04, tol = 0.51548E+04, time = 3.15 | CG iter. 18 -- res = 0.15197E+04, tol = 0.51548E+04, time = 3.18 | CG iter. 19 -- res = 0.15965E+04, tol = 0.51548E+04, time = 3.12 | CG iter. 20 -- res = 0.17610E+04, tol = 0.51548E+04, time = 3.11 | CG iter. 21 -- res = 0.18547E+04, tol = 0.51548E+04, time = 3.13 | CG iter. 22 -- res = 0.17423E+04, tol = 0.51548E+04, time = 3.13 | CG iter. 23 -- res = 0.15442E+04, tol = 0.51548E+04, time = 3.26 | CG iter. 24 -- res = 0.13561E+04, tol = 0.51548E+04, time = 3.24 | CG iter. 25 -- res = 0.12176E+04, tol = 0.51548E+04, time = 3.15 | CG iter. 26 -- res = 0.10690E+04, tol = 0.51548E+04, time = 3.28 | CG iter. 27 -- res = 0.89320E+03, tol = 0.51548E+04, time = 3.13 | CG iter. 28 -- res = 0.73748E+03, tol = 0.51548E+04, time = 3.17 | CG iter. 29 -- res = 0.66336E+03, tol = 0.51548E+04, time = 3.13 | CG iter. 30 -- res = 0.66942E+03, tol = 0.51548E+04, time = 3.16 | CG iter. 31 -- res = 0.71634E+03, tol = 0.51548E+04, time = 3.19 | CG iter. 32 -- res = 0.76904E+03, tol = 0.51548E+04, time = 3.18 | CG iter. 33 -- res = 0.76975E+03, tol = 0.51548E+04, time = 3.25 | CG iter. 34 -- res = 0.73460E+03, tol = 0.51548E+04, time = 3.28 | CG iter. 35 -- res = 0.70343E+03, tol = 0.51548E+04, time = 3.20 | CG iter. 36 -- res = 0.69745E+03, tol = 0.51548E+04, time = 3.21 | CG iter. 37 -- res = 0.70827E+03, tol = 0.51548E+04, time = 3.09 | CG iter. 38 -- res = 0.68952E+03, tol = 0.51548E+04, time = 3.05 | CG iter. 39 -- res = 0.64679E+03, tol = 0.51548E+04, time = 3.12 | CG iter. 40 -- res = 0.59776E+03, tol = 0.51548E+04, time = 3.11 | CG iter. 41 -- res = 0.58498E+03, tol = 0.51548E+04, time = 3.11 | CG iter. 42 -- res = 0.61141E+03, tol = 0.51548E+04, time = 3.21 | CG iter. 43 -- res = 0.65190E+03, tol = 0.51548E+04, time = 3.16 | CG iter. 44 -- res = 0.67178E+03, tol = 0.51548E+04, time = 3.15 | CG iter. 45 -- res = 0.64071E+03, tol = 0.51548E+04, time = 3.10 | CG iter. 46 -- res = 0.60126E+03, tol = 0.51548E+04, time = 3.20 | CG iter. 47 -- res = 0.58219E+03, tol = 0.51548E+04, time = 3.20 | CG iter. 48 -- res = 0.58269E+03, tol = 0.51548E+04, time = 3.25 | CG iter. 49 -- res = 0.57761E+03, tol = 0.51548E+04, time = 3.15 | CG iter. 50 -- res = 0.54211E+03, tol = 0.51548E+04, time = 3.16 | CG iter. 51 -- res = 0.49556E+03, tol = 0.51548E+04, time = 3.19 | CG iter. 52 -- res = 0.46508E+03, tol = 0.51548E+04, time = 3.15 | CG iter. 53 -- res = 0.46842E+03, tol = 0.51548E+04, time = 3.10 | CG iter. 54 -- res = 0.48774E+03, tol = 0.51548E+04, time = 3.15 | CG iter. 55 -- res = 0.48385E+03, tol = 0.51548E+04, time = 3.16 | CG iter. 56 -- res = 0.44512E+03, tol = 0.51548E+04, time = 3.22 | CG iter. 57 -- res = 0.41366E+03, tol = 0.51548E+04, time = 3.16 | CG iter. 58 -- res = 0.41335E+03, tol = 0.51548E+04, time = 3.14 | CG iter. 59 -- res = 0.43591E+03, tol = 0.51548E+04, time = 3.22 | CG iter. 60 -- res = 0.44706E+03, tol = 0.51548E+04, time = 3.16 | Final CG iter 61 -- res = 0.44706E+03, tol = 0.51548E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 2.504 ( -230.717 -2233.393 2515.491 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 10437596.853 | Old band monopole 6692888.653 | Change to band monopole 3744708.200 | Change to component monopole -3744692.093 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 0.557 2.730 | New value -0.027 | Old value 0.557 | Difference -0.585 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -3.880 ( 8.204 11.769 -11.640 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 6.266 2.880 | New value -6.304 | Old value 6.266 | Difference -12.571 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 4.12 | CG iter. 1 -- res = 0.10977E+06, tol = 0.47627E+18, time = 0.34 | CG iter. 2 -- res = 0.70866E+02, tol = 0.47627E+18, time = 0.42 | CG iter. 3 -- res = 0.17681E+01, tol = 0.47627E+18, time = 0.37 | CG iter. 4 -- res = 0.25615E-02, tol = 0.47627E+18, time = 0.37 | Final CG iter 5 -- res = 0.10450E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10437551.958 | (Sampled value in CG: 10374115.327 ) | Chain = 1 -- chisq = 0.61527052E+09 | Chain = 1 -- wall time = 4721.262 sec --------------------------------------------------------------------- | Chain = 1 -- Iteration = 37 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18125694201664 | --> Sampling calibration, mode = relcal | relcal = -7.4853547E-02 -5.8402658E-02 9.1717429E-02 4.1538775E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.5184117E-04 4.3301727E-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: 8.2798E-07 | 3: delta_s/delta_0: 2.8788E-07 | 4: delta_r/delta_0: 1.9397E-08 | 5: delta_s/delta_0: 3.6835E-08 | 6: delta_r/delta_0: 1.1677E-09 | 7: delta_s/delta_0: 2.0832E-10 | 8: delta_r/delta_0: 5.8742E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 5.074909601651534E-004 2.740506436942368E-005 | BP delta = 4.7531682E-03 9.7950343E-03 29863612.1338999 | BP delta = 5.1311273E-03 1.0172994E-02 29863612.1475065 | 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 = 1.02543331 | --> Sampling calibration, mode = relcal | relcal = -0.1065994 -9.5502794E-02 0.1448339 5.7268217E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.2173065E-03 1.5428870E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 5.9148E-03 | 2: delta_r/delta_0: 1.2991E-04 | 3: delta_s/delta_0: 3.6402E-03 | 4: delta_r/delta_0: 2.8816E-04 | 5: delta_s/delta_0: 1.5323E-05 | 6: delta_r/delta_0: 2.0007E-06 | 7: delta_s/delta_0: 1.3311E-06 | 8: delta_r/delta_0: 4.9069E-07 | 9: delta_s/delta_0: 2.7877E-07 | 10: delta_r/delta_0: 9.3068E-08 | 11: delta_s/delta_0: 4.1067E-08 | 12: delta_r/delta_0: 2.4092E-08 | 13: delta_s/delta_0: 1.2348E-08 | 14: delta_r/delta_0: 3.1711E-09 | 15: delta_s/delta_0: 1.7542E-09 | 16: delta_r/delta_0: 5.1871E-10 | 17: delta_s/delta_0: 1.2847E-09 | 18: delta_r/delta_0: 5.5776E-10 | 19: delta_s/delta_0: 1.1196E-09 | 20: delta_r/delta_0: 4.9988E-10 | 21: delta_s/delta_0: 4.3645E-10 | 22: delta_r/delta_0: 2.4093E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -0.117844488632018 2.812369816637380E-005 | BP delta = -0.1954035 -0.1947814 34768556.9196033 | BP delta = -0.1936837 -0.1930615 34768556.9332388 | 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 = 0.81175760 | --> Sampling calibration, mode = relcal | relcal = 0.2952921 0.2247168 -0.2835748 -0.2364341 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.2101539E-04 4.9890568E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.0980E-03 | 2: delta_r/delta_0: 2.5095E-05 | 3: delta_s/delta_0: 3.0313E-05 | 4: delta_r/delta_0: 2.8628E-06 | 5: delta_s/delta_0: 1.0111E-06 | 6: delta_r/delta_0: 1.5549E-07 | 7: delta_s/delta_0: 5.9882E-08 | 8: delta_r/delta_0: 3.0234E-08 | 9: delta_s/delta_0: 4.0818E-07 | 10: delta_r/delta_0: 1.6569E-09 | 11: delta_s/delta_0: 2.1827E-07 | 12: delta_r/delta_0: 1.1141E-08 | 13: delta_s/delta_0: 1.8435E-09 | 14: delta_r/delta_0: 9.9790E-10 | 15: delta_s/delta_0: 3.5017E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.733787149685887E-002 4.024115163978476E-005 | BP delta = -9.6546307E-02 -0.1444266 43104761.0106535 | BP delta = -8.4636956E-02 -0.1325172 43104761.2130057 | 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 = 0.95841338 | --> Sampling calibration, mode = relcal | relcal = 0.1063554 0.1396011 -0.1102314 -0.1357250 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.7302534E-03 1.2759441E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.7424E-04 | 2: delta_r/delta_0: 6.2170E-06 | 3: delta_s/delta_0: 4.0929E-04 | 4: delta_r/delta_0: 3.8298E-05 | 5: delta_s/delta_0: 3.9127E-07 | 6: delta_r/delta_0: 1.1158E-07 | 7: delta_s/delta_0: 5.9663E-08 | 8: delta_r/delta_0: 4.1359E-08 | 9: delta_s/delta_0: 2.2177E-07 | 10: delta_r/delta_0: 3.4031E-09 | 11: delta_s/delta_0: 8.6112E-10 | 12: delta_r/delta_0: 4.3982E-10 | 13: delta_s/delta_0: 1.5635E-10 | 14: delta_r/delta_0: 6.7062E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.510811030162141E-002 3.700147694036311E-005 | BP delta = 0.3008798 0.3306965 43052692.7494325 | BP delta = 0.2925103 0.3223269 43052692.4470937 | 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 = 0.52119630 | --> Sampling calibration, mode = relcal | relcal = -5.1060427E-02 -3.7320645E-03 2.7319841E-02 2.7472651E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.1733085E-04 1.3329086E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.4570E-05 | 2: delta_r/delta_0: 4.5936E-06 | 3: delta_s/delta_0: 1.9437E-05 | 4: delta_r/delta_0: 2.4912E-06 | 5: delta_s/delta_0: 4.3358E-08 | 6: delta_r/delta_0: 2.6232E-08 | 7: delta_s/delta_0: 3.9564E-08 | 8: delta_r/delta_0: 8.3472E-09 | 9: delta_s/delta_0: 2.2207E-09 | 10: delta_r/delta_0: 1.2246E-09 | 11: delta_s/delta_0: 3.8857E-08 | 12: delta_r/delta_0: 5.0608E-09 | 13: delta_s/delta_0: 4.1269E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.034461041896039E-002 5.487250560154807E-005 | BP delta = -3.5527356E-02 4.1441016E-02 61508361.4892553 | BP delta = -4.1077647E-02 3.5890725E-02 61508361.4856115 | 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 = 0.42123923 | --> Sampling calibration, mode = relcal | relcal = 4.5604948E-02 3.9601047E-02 -2.8271688E-02 -5.6934308E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.3720923E-03 3.4174859E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.0880E-05 | 2: delta_r/delta_0: 3.9471E-06 | 3: delta_s/delta_0: 3.3162E-06 | 4: delta_r/delta_0: 5.7290E-07 | 5: delta_s/delta_0: 6.1336E-08 | 6: delta_r/delta_0: 3.9093E-08 | 7: delta_s/delta_0: 3.6510E-08 | 8: delta_r/delta_0: 1.5765E-08 | 9: delta_s/delta_0: 3.7561E-09 | 10: delta_r/delta_0: 9.7498E-10 | 11: delta_s/delta_0: 9.0482E-10 | 12: delta_r/delta_0: 6.6829E-10 | 13: delta_s/delta_0: 5.2741E-10 | 14: delta_r/delta_0: 2.9032E-10 | 15: delta_s/delta_0: 2.1830E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.417627544812383E-002 4.999863871730768E-005 | BP delta = -0.1215654 -0.1305729 61336596.3365175 | BP delta = -0.1289926 -0.1380001 61336596.3746374 | 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 = 0.28137956 | --> Sampling calibration, mode = relcal | relcal = 2.4135197E-02 4.5082286E-02 -2.3354251E-02 -4.5863230E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.2068211E-02 4.1463803E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.0769E-04 | 2: delta_r/delta_0: 8.9388E-06 | 3: delta_s/delta_0: 1.5043E-06 | 4: delta_r/delta_0: 2.0726E-07 | 5: delta_s/delta_0: 7.6942E-08 | 6: delta_r/delta_0: 1.5924E-08 | 7: delta_s/delta_0: 6.7587E-09 | 8: delta_r/delta_0: 4.1701E-09 | 9: delta_s/delta_0: 4.0999E-08 | 10: delta_r/delta_0: 4.7028E-09 | 11: delta_s/delta_0: 1.1845E-09 | 12: delta_r/delta_0: 5.0926E-10 | 13: delta_s/delta_0: 4.9402E-10 | 14: delta_r/delta_0: 2.0030E-10 | 15: delta_s/delta_0: 4.0650E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -8.280170143818134E-003 7.849935317229408E-005 | BP delta = 8.0942608E-02 9.3246868E-04 94958152.6802643 | BP delta = 0.1114700 3.1459864E-02 94958152.7370252 | 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 = 0.29370299 | --> Sampling calibration, mode = relcal | relcal = 5.8634148E-04 1.0260362E-02 -3.7383675E-03 -7.1083363E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.4456950E-02 1.6287010E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.3128E-04 | 2: delta_r/delta_0: 1.1255E-05 | 3: delta_s/delta_0: 1.8022E-06 | 4: delta_r/delta_0: 2.6820E-07 | 5: delta_s/delta_0: 1.0287E-07 | 6: delta_r/delta_0: 2.1315E-08 | 7: delta_s/delta_0: 9.2371E-09 | 8: delta_r/delta_0: 6.1469E-09 | 9: delta_s/delta_0: 6.4442E-09 | 10: delta_r/delta_0: 4.2373E-09 | 11: delta_s/delta_0: 7.0725E-08 | 12: delta_r/delta_0: 1.2129E-09 | 13: delta_s/delta_0: 1.2067E-09 | 14: delta_r/delta_0: 3.8281E-10 | 15: delta_s/delta_0: 8.9447E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.140807950438192E-003 8.312709250126211E-005 | BP delta = -0.7347233 -0.7071366 93510088.6188302 | BP delta = -0.7338453 -0.7062585 93510088.6202960 | 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 = 0.26490707 | --> Sampling calibration, mode = relcal | relcal = -5.6028059E-03 1.5027478E-02 -2.3862887E-03 -7.0383837E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -1.3553906E-03 4.9420320E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4544E-04 | 2: delta_r/delta_0: 1.1682E-05 | 3: delta_s/delta_0: 1.8634E-06 | 4: delta_r/delta_0: 2.9503E-07 | 5: delta_s/delta_0: 8.1208E-08 | 6: delta_r/delta_0: 2.2597E-08 | 7: delta_s/delta_0: 1.0580E-08 | 8: delta_r/delta_0: 6.1729E-09 | 9: delta_s/delta_0: 2.0822E-08 | 10: delta_r/delta_0: 2.0250E-09 | 11: delta_s/delta_0: 7.1159E-08 | 12: delta_r/delta_0: 1.4592E-08 | 13: delta_s/delta_0: 1.4412E-09 | 14: delta_r/delta_0: 1.2799E-10 | 15: delta_s/delta_0: 6.3601E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -8.352932536448681E-003 9.159110102931259E-005 | BP delta = 0.2224656 0.2311606 94714713.8530596 | BP delta = 0.2111412 0.2198362 94714713.8143439 | 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 = 0.25644216 | --> Sampling calibration, mode = relcal | relcal = -3.1594303E-02 -2.5950849E-02 3.6909223E-02 2.0635931E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.5761005E-02 2.0779690E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4451E-04 | 2: delta_r/delta_0: 1.2281E-05 | 3: delta_s/delta_0: 1.9987E-06 | 4: delta_r/delta_0: 4.4894E-07 | 5: delta_s/delta_0: 1.6267E-07 | 6: delta_r/delta_0: 2.7933E-08 | 7: delta_s/delta_0: 9.6360E-09 | 8: delta_r/delta_0: 5.9577E-09 | 9: delta_s/delta_0: 4.0474E-09 | 10: delta_r/delta_0: 2.0112E-09 | 11: delta_s/delta_0: 8.0653E-06 | 12: delta_r/delta_0: 1.6326E-09 | 13: delta_s/delta_0: 5.9322E-09 | 14: delta_r/delta_0: 3.3345E-09 | 15: delta_s/delta_0: 1.0181E-10 | 16: delta_r/delta_0: 8.8999E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -7.809008805547317E-003 8.678299406827798E-005 | BP delta = -0.6087440 -0.6581579 93080184.3805875 | BP delta = -0.6119568 -0.6613709 93080184.3728466 | 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 = -3.204599 | New value = -3.153143 | poltype: 2 pol: 1 CPU time specind = 3.4031868E-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 = -3.270210 | New value = -3.161207 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.113088 | New value = -3.154974 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.178765 | New value = -3.177775 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.200494 | New value = -3.109791 | poltype: 2 pol: 2 CPU time specind = 1.1880398E-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 = 4.12 | CG iter. 1 -- res = 0.13557E+08, tol = 0.66255E+01, time = 1.52 | CG iter. 2 -- res = 0.45807E+05, tol = 0.66255E+01, time = 1.50 | CG iter. 3 -- res = 0.25731E+05, tol = 0.66255E+01, time = 1.52 | CG iter. 4 -- res = 0.17057E+05, tol = 0.66255E+01, time = 1.55 | CG iter. 5 -- res = 0.11646E+05, tol = 0.66255E+01, time = 1.48 | CG iter. 6 -- res = 0.93449E+04, tol = 0.66255E+01, time = 1.47 | CG iter. 7 -- res = 0.76838E+04, tol = 0.66255E+01, time = 1.51 | CG iter. 8 -- res = 0.81804E+04, tol = 0.66255E+01, time = 1.49 | CG iter. 9 -- res = 0.78027E+04, tol = 0.66255E+01, time = 1.51 | CG iter. 10 -- res = 0.69436E+04, tol = 0.66255E+01, time = 1.49 | CG iter. 11 -- res = 0.54746E+04, tol = 0.66255E+01, time = 1.48 | CG iter. 12 -- res = 0.33338E+04, tol = 0.66255E+01, time = 1.50 | CG iter. 13 -- res = 0.23765E+04, tol = 0.66255E+01, time = 1.51 | CG iter. 14 -- res = 0.20121E+04, tol = 0.66255E+01, time = 1.48 | CG iter. 15 -- res = 0.17561E+04, tol = 0.66255E+01, time = 1.46 | CG iter. 16 -- res = 0.13338E+04, tol = 0.66255E+01, time = 1.50 | CG iter. 17 -- res = 0.11554E+04, tol = 0.66255E+01, time = 1.47 | CG iter. 18 -- res = 0.10674E+04, tol = 0.66255E+01, time = 1.50 | CG iter. 19 -- res = 0.80600E+03, tol = 0.66255E+01, time = 1.45 | CG iter. 20 -- res = 0.54729E+03, tol = 0.66255E+01, time = 1.45 | CG iter. 21 -- res = 0.43032E+03, tol = 0.66255E+01, time = 1.60 | CG iter. 22 -- res = 0.38178E+03, tol = 0.66255E+01, time = 1.53 | CG iter. 23 -- res = 0.29710E+03, tol = 0.66255E+01, time = 1.59 | CG iter. 24 -- res = 0.21837E+03, tol = 0.66255E+01, time = 1.51 | CG iter. 25 -- res = 0.21569E+03, tol = 0.66255E+01, time = 1.50 | CG iter. 26 -- res = 0.17994E+03, tol = 0.66255E+01, time = 1.46 | CG iter. 27 -- res = 0.14164E+03, tol = 0.66255E+01, time = 1.48 | CG iter. 28 -- res = 0.11013E+03, tol = 0.66255E+01, time = 1.47 | CG iter. 29 -- res = 0.98548E+02, tol = 0.66255E+01, time = 1.47 | CG iter. 30 -- res = 0.89433E+02, tol = 0.66255E+01, time = 1.46 | CG iter. 31 -- res = 0.69290E+02, tol = 0.66255E+01, time = 1.52 | CG iter. 32 -- res = 0.60827E+02, tol = 0.66255E+01, time = 1.50 | CG iter. 33 -- res = 0.54681E+02, tol = 0.66255E+01, time = 1.50 | CG iter. 34 -- res = 0.42824E+02, tol = 0.66255E+01, time = 1.53 | CG iter. 35 -- res = 0.31323E+02, tol = 0.66255E+01, time = 1.45 | CG iter. 36 -- res = 0.27684E+02, tol = 0.66255E+01, time = 1.42 | CG iter. 37 -- res = 0.25402E+02, tol = 0.66255E+01, time = 1.44 | CG iter. 38 -- res = 0.18277E+02, tol = 0.66255E+01, time = 1.47 | CG iter. 39 -- res = 0.15419E+02, tol = 0.66255E+01, time = 1.52 | CG iter. 40 -- res = 0.17443E+02, tol = 0.66255E+01, time = 1.54 | CG iter. 41 -- res = 0.16585E+02, tol = 0.66255E+01, time = 1.49 | CG iter. 42 -- res = 0.95876E+01, tol = 0.66255E+01, time = 1.45 | CG iter. 43 -- res = 0.72507E+01, tol = 0.66255E+01, time = 1.47 | CG iter. 44 -- res = 0.76376E+01, tol = 0.66255E+01, time = 1.51 | CG iter. 45 -- res = 0.78837E+01, tol = 0.66255E+01, time = 1.49 | CG iter. 46 -- res = 0.42414E+01, tol = 0.66255E+01, time = 1.42 | CG iter. 47 -- res = 0.31887E+01, tol = 0.66255E+01, time = 1.44 | CG iter. 48 -- res = 0.25659E+01, tol = 0.66255E+01, time = 1.43 | CG iter. 49 -- res = 0.19813E+01, tol = 0.66255E+01, time = 1.42 | CG iter. 50 -- res = 0.14337E+01, tol = 0.66255E+01, time = 1.46 | Final CG iter 51 -- res = 0.14337E+01, tol = 0.66255E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9792260.530 | Old band monopole 10437596.853 | Change to band monopole -645336.322 | Change to component monopole 645333.547 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 4.12 | CG iter. 1 -- res = 0.78248E+05, tol = 0.47627E+18, time = 0.36 | CG iter. 2 -- res = 0.18676E+02, tol = 0.47627E+18, time = 0.35 | CG iter. 3 -- res = 0.50301E+00, tol = 0.47627E+18, time = 0.38 | CG iter. 4 -- res = 0.49760E-03, tol = 0.47627E+18, time = 0.35 | Final CG iter 5 -- res = 0.27284E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9792218.412 | (Sampled value in CG: 9813740.117 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.484019 | New value = 1.489125 | poltype: 2 pol: 1 CPU time specind = 1.8091202E-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 = 1.464024 | New value = 1.503479 | poltype: 2 pol: 2 CPU time specind = 1.0960102E-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 = 4.14 | CG iter. 1 -- res = 0.24033E+08, tol = 0.47580E+04, time = 1.68 | CG iter. 2 -- res = 0.53561E+07, tol = 0.47580E+04, time = 1.69 | CG iter. 3 -- res = 0.86709E+06, tol = 0.47580E+04, time = 1.69 | CG iter. 4 -- res = 0.36690E+06, tol = 0.47580E+04, time = 1.68 | CG iter. 5 -- res = 0.15730E+06, tol = 0.47580E+04, time = 1.69 | CG iter. 6 -- res = 0.81420E+05, tol = 0.47580E+04, time = 1.69 | CG iter. 7 -- res = 0.43438E+05, tol = 0.47580E+04, time = 1.70 | CG iter. 8 -- res = 0.21027E+05, tol = 0.47580E+04, time = 1.66 | CG iter. 9 -- res = 0.95454E+04, tol = 0.47580E+04, time = 1.68 | CG iter. 10 -- res = 0.39432E+04, tol = 0.47580E+04, time = 1.70 | CG iter. 11 -- res = 0.17531E+04, tol = 0.47580E+04, time = 1.69 | CG iter. 12 -- res = 0.89765E+03, tol = 0.47580E+04, time = 1.70 | CG iter. 13 -- res = 0.50803E+03, tol = 0.47580E+04, time = 1.70 | CG iter. 14 -- res = 0.28942E+03, tol = 0.47580E+04, time = 1.69 | CG iter. 15 -- res = 0.14966E+03, tol = 0.47580E+04, time = 1.70 | CG iter. 16 -- res = 0.69285E+02, tol = 0.47580E+04, time = 1.66 | CG iter. 17 -- res = 0.32174E+02, tol = 0.47580E+04, time = 1.73 | CG iter. 18 -- res = 0.16276E+02, tol = 0.47580E+04, time = 1.77 | CG iter. 19 -- res = 0.88553E+01, tol = 0.47580E+04, time = 1.71 | CG iter. 20 -- res = 0.49451E+01, tol = 0.47580E+04, time = 1.68 | CG iter. 21 -- res = 0.26877E+01, tol = 0.47580E+04, time = 1.71 | CG iter. 22 -- res = 0.13708E+01, tol = 0.47580E+04, time = 1.75 | CG iter. 23 -- res = 0.68888E+00, tol = 0.47580E+04, time = 1.74 | CG iter. 24 -- res = 0.35028E+00, tol = 0.47580E+04, time = 1.68 | CG iter. 25 -- res = 0.19123E+00, tol = 0.47580E+04, time = 1.70 | CG iter. 26 -- res = 0.11014E+00, tol = 0.47580E+04, time = 1.70 | CG iter. 27 -- res = 0.62650E-01, tol = 0.47580E+04, time = 1.68 | CG iter. 28 -- res = 0.34113E-01, tol = 0.47580E+04, time = 1.77 | CG iter. 29 -- res = 0.18110E-01, tol = 0.47580E+04, time = 1.73 | CG iter. 30 -- res = 0.94320E-02, tol = 0.47580E+04, time = 1.71 | CG iter. 31 -- res = 0.50021E-02, tol = 0.47580E+04, time = 1.75 | CG iter. 32 -- res = 0.28653E-02, tol = 0.47580E+04, time = 1.75 | CG iter. 33 -- res = 0.16040E-02, tol = 0.47580E+04, time = 1.75 | CG iter. 34 -- res = 0.86730E-03, tol = 0.47580E+04, time = 1.72 | CG iter. 35 -- res = 0.44846E-03, tol = 0.47580E+04, time = 1.70 | Final CG iter 36 -- res = 0.44846E-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) 0.001 2.742 | New value -0.016 | Old value 0.001 | Difference -0.017 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 4.13 | CG iter. 1 -- res = 0.51616E+03, tol = 0.47627E+18, time = 0.35 | CG iter. 2 -- res = 0.76482E+01, tol = 0.47627E+18, time = 0.37 | CG iter. 3 -- res = 0.40367E-01, tol = 0.47627E+18, time = 0.37 | Final CG iter 4 -- res = 0.63497E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9792218.412 | (Sampled value in CG: 9811989.561 ) | 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 = -3.566926 | New value = -3.620228 | poltype: 1 pol: 1 CPU time specind = 1.9719601E-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 = 4.12 | CG iter. 1 -- res = 0.22173E+07, tol = 0.13869E+01, time = 0.64 | CG iter. 2 -- res = 0.68666E+05, tol = 0.13869E+01, time = 0.62 | CG iter. 3 -- res = 0.41321E+05, tol = 0.13869E+01, time = 0.61 | CG iter. 4 -- res = 0.16160E+05, tol = 0.13869E+01, time = 0.64 | CG iter. 5 -- res = 0.40660E+04, tol = 0.13869E+01, time = 0.65 | CG iter. 6 -- res = 0.15240E+04, tol = 0.13869E+01, time = 0.66 | CG iter. 7 -- res = 0.47447E+03, tol = 0.13869E+01, time = 0.60 | CG iter. 8 -- res = 0.16041E+03, tol = 0.13869E+01, time = 0.65 | CG iter. 9 -- res = 0.90146E+02, tol = 0.13869E+01, time = 0.61 | CG iter. 10 -- res = 0.32616E+02, tol = 0.13869E+01, time = 0.64 | CG iter. 11 -- res = 0.13845E+02, tol = 0.13869E+01, time = 0.64 | CG iter. 12 -- res = 0.44125E+01, tol = 0.13869E+01, time = 0.61 | CG iter. 13 -- res = 0.16167E+01, tol = 0.13869E+01, time = 0.61 | CG iter. 14 -- res = 0.59278E+00, tol = 0.13869E+01, time = 0.63 | CG iter. 15 -- res = 0.21080E+00, tol = 0.13869E+01, time = 0.59 | CG iter. 16 -- res = 0.67356E-01, tol = 0.13869E+01, time = 0.61 | CG iter. 17 -- res = 0.22995E-01, tol = 0.13869E+01, time = 0.61 | CG iter. 18 -- res = 0.99257E-02, tol = 0.13869E+01, time = 0.61 | CG iter. 19 -- res = 0.47998E-02, tol = 0.13869E+01, time = 0.62 | CG iter. 20 -- res = 0.13939E-02, tol = 0.13869E+01, time = 0.63 | CG iter. 21 -- res = 0.43589E-03, tol = 0.13869E+01, time = 0.60 | CG iter. 22 -- res = 0.16908E-03, tol = 0.13869E+01, time = 0.62 | CG iter. 23 -- res = 0.62043E-04, tol = 0.13869E+01, time = 0.59 | CG iter. 24 -- res = 0.22534E-04, tol = 0.13869E+01, time = 0.58 | CG iter. 25 -- res = 0.60716E-05, tol = 0.13869E+01, time = 0.62 | CG iter. 26 -- res = 0.17577E-05, tol = 0.13869E+01, time = 0.62 | CG iter. 27 -- res = 0.74990E-06, tol = 0.13869E+01, time = 0.61 | CG iter. 28 -- res = 0.24546E-06, tol = 0.13869E+01, time = 0.61 | CG iter. 29 -- res = 0.78231E-07, tol = 0.13869E+01, time = 0.65 | CG iter. 30 -- res = 0.22800E-07, tol = 0.13869E+01, time = 0.64 | CG iter. 31 -- res = 0.97934E-08, tol = 0.13869E+01, time = 0.61 | CG iter. 32 -- res = 0.80916E-08, tol = 0.13869E+01, time = 0.64 | CG iter. 33 -- res = 0.19188E-08, tol = 0.13869E+01, time = 0.61 | CG iter. 34 -- res = 0.59965E-09, tol = 0.13869E+01, time = 0.62 | CG iter. 35 -- res = 0.20288E-09, tol = 0.13869E+01, time = 0.61 | CG iter. 36 -- res = 0.67093E-10, tol = 0.13869E+01, time = 0.63 | CG iter. 37 -- res = 0.44180E-10, tol = 0.13869E+01, time = 0.61 | CG iter. 38 -- res = 0.18987E-10, tol = 0.13869E+01, time = 0.63 | CG iter. 39 -- res = 0.42578E-11, tol = 0.13869E+01, time = 0.63 | CG iter. 40 -- res = 0.11229E-11, tol = 0.13869E+01, time = 0.60 | CG iter. 41 -- res = 0.36052E-12, tol = 0.13869E+01, time = 0.62 | CG iter. 42 -- res = 0.11656E-12, tol = 0.13869E+01, time = 0.63 | CG iter. 43 -- res = 0.35281E-13, tol = 0.13869E+01, time = 0.61 | CG iter. 44 -- res = 0.10696E-13, tol = 0.13869E+01, time = 0.61 | CG iter. 45 -- res = 0.37410E-14, tol = 0.13869E+01, time = 0.59 | CG iter. 46 -- res = 0.14477E-14, tol = 0.13869E+01, time = 0.59 | CG iter. 47 -- res = 0.48822E-15, tol = 0.13869E+01, time = 0.59 | CG iter. 48 -- res = 0.13417E-15, tol = 0.13869E+01, time = 0.60 | CG iter. 49 -- res = 0.43490E-16, tol = 0.13869E+01, time = 0.61 | CG iter. 50 -- res = 0.18049E-16, tol = 0.13869E+01, time = 0.61 | Final CG iter 51 -- res = 0.18049E-16, tol = 0.13869E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -3.381 2.501 | New value -0.363 | Old value -3.381 | Difference 3.018 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 4.12 | CG iter. 1 -- res = 0.54734E+04, tol = 0.47627E+18, time = 0.35 | CG iter. 2 -- res = 0.22662E+02, tol = 0.47627E+18, time = 0.34 | CG iter. 3 -- res = 0.33233E+00, tol = 0.47627E+18, time = 0.34 | Final CG iter 4 -- res = 0.10173E-04, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9792218.412 | (Sampled value in CG: 9809526.037 ) | CPU time specind = 267.4839 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 4.14 | CG iter. 1 -- res = 0.68625E+08, tol = 0.51520E+04, time = 3.11 | CG iter. 2 -- res = 0.32927E+08, tol = 0.51520E+04, time = 3.03 | CG iter. 3 -- res = 0.57029E+07, tol = 0.51520E+04, time = 2.97 | CG iter. 4 -- res = 0.28976E+07, tol = 0.51520E+04, time = 3.10 | CG iter. 5 -- res = 0.12907E+07, tol = 0.51520E+04, time = 3.04 | CG iter. 6 -- res = 0.70335E+06, tol = 0.51520E+04, time = 2.97 | CG iter. 7 -- res = 0.38621E+06, tol = 0.51520E+04, time = 3.04 | CG iter. 8 -- res = 0.19479E+06, tol = 0.51520E+04, time = 3.03 | CG iter. 9 -- res = 0.96294E+05, tol = 0.51520E+04, time = 3.01 | CG iter. 10 -- res = 0.44219E+05, tol = 0.51520E+04, time = 2.99 | CG iter. 11 -- res = 0.23586E+05, tol = 0.51520E+04, time = 3.02 | CG iter. 12 -- res = 0.14084E+05, tol = 0.51520E+04, time = 2.97 | CG iter. 13 -- res = 0.93534E+04, tol = 0.51520E+04, time = 3.08 | CG iter. 14 -- res = 0.69836E+04, tol = 0.51520E+04, time = 3.01 | CG iter. 15 -- res = 0.51866E+04, tol = 0.51520E+04, time = 3.08 | CG iter. 16 -- res = 0.42280E+04, tol = 0.51520E+04, time = 2.98 | CG iter. 17 -- res = 0.37303E+04, tol = 0.51520E+04, time = 3.03 | CG iter. 18 -- res = 0.37273E+04, tol = 0.51520E+04, time = 3.05 | CG iter. 19 -- res = 0.40553E+04, tol = 0.51520E+04, time = 3.05 | CG iter. 20 -- res = 0.43285E+04, tol = 0.51520E+04, time = 3.07 | CG iter. 21 -- res = 0.41389E+04, tol = 0.51520E+04, time = 3.00 | CG iter. 22 -- res = 0.33689E+04, tol = 0.51520E+04, time = 3.04 | CG iter. 23 -- res = 0.25350E+04, tol = 0.51520E+04, time = 3.10 | CG iter. 24 -- res = 0.19588E+04, tol = 0.51520E+04, time = 3.06 | CG iter. 25 -- res = 0.16490E+04, tol = 0.51520E+04, time = 2.99 | CG iter. 26 -- res = 0.14504E+04, tol = 0.51520E+04, time = 2.98 | CG iter. 27 -- res = 0.12235E+04, tol = 0.51520E+04, time = 2.99 | CG iter. 28 -- res = 0.10159E+04, tol = 0.51520E+04, time = 2.98 | CG iter. 29 -- res = 0.91164E+03, tol = 0.51520E+04, time = 3.01 | CG iter. 30 -- res = 0.91792E+03, tol = 0.51520E+04, time = 3.04 | CG iter. 31 -- res = 0.98015E+03, tol = 0.51520E+04, time = 3.01 | CG iter. 32 -- res = 0.99934E+03, tol = 0.51520E+04, time = 3.08 | CG iter. 33 -- res = 0.90812E+03, tol = 0.51520E+04, time = 2.99 | CG iter. 34 -- res = 0.77424E+03, tol = 0.51520E+04, time = 3.09 | CG iter. 35 -- res = 0.69290E+03, tol = 0.51520E+04, time = 3.01 | CG iter. 36 -- res = 0.68227E+03, tol = 0.51520E+04, time = 3.04 | CG iter. 37 -- res = 0.70346E+03, tol = 0.51520E+04, time = 3.10 | CG iter. 38 -- res = 0.68824E+03, tol = 0.51520E+04, time = 3.04 | CG iter. 39 -- res = 0.63382E+03, tol = 0.51520E+04, time = 3.06 | CG iter. 40 -- res = 0.59083E+03, tol = 0.51520E+04, time = 2.94 | CG iter. 41 -- res = 0.61208E+03, tol = 0.51520E+04, time = 2.95 | CG iter. 42 -- res = 0.68008E+03, tol = 0.51520E+04, time = 2.98 | CG iter. 43 -- res = 0.72772E+03, tol = 0.51520E+04, time = 3.01 | CG iter. 44 -- res = 0.69970E+03, tol = 0.51520E+04, time = 2.99 | CG iter. 45 -- res = 0.63473E+03, tol = 0.51520E+04, time = 2.99 | CG iter. 46 -- res = 0.60335E+03, tol = 0.51520E+04, time = 3.01 | CG iter. 47 -- res = 0.62221E+03, tol = 0.51520E+04, time = 3.08 | CG iter. 48 -- res = 0.65171E+03, tol = 0.51520E+04, time = 3.08 | CG iter. 49 -- res = 0.63205E+03, tol = 0.51520E+04, time = 3.02 | CG iter. 50 -- res = 0.57888E+03, tol = 0.51520E+04, time = 3.12 | CG iter. 51 -- res = 0.54274E+03, tol = 0.51520E+04, time = 2.97 | CG iter. 52 -- res = 0.55603E+03, tol = 0.51520E+04, time = 3.04 | CG iter. 53 -- res = 0.59437E+03, tol = 0.51520E+04, time = 3.04 | CG iter. 54 -- res = 0.59732E+03, tol = 0.51520E+04, time = 3.08 | CG iter. 55 -- res = 0.54678E+03, tol = 0.51520E+04, time = 3.00 | CG iter. 56 -- res = 0.49094E+03, tol = 0.51520E+04, time = 3.09 | CG iter. 57 -- res = 0.47575E+03, tol = 0.51520E+04, time = 2.98 | CG iter. 58 -- res = 0.49392E+03, tol = 0.51520E+04, time = 3.04 | CG iter. 59 -- res = 0.50416E+03, tol = 0.51520E+04, time = 3.09 | CG iter. 60 -- res = 0.47172E+03, tol = 0.51520E+04, time = 3.04 | Final CG iter 61 -- res = 0.47172E+03, tol = 0.51520E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 2.861 ( -231.985 -2233.252 2515.396 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9370808.756 | Old band monopole 9792260.530 | Change to band monopole -421451.774 | Change to component monopole 421449.962 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -0.045 2.726 | New value 2.573 | Old value -0.045 | Difference 2.617 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -3.924 ( 8.069 11.112 -11.011 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 8.995 2.957 | New value 7.442 | Old value 8.995 | Difference -1.554 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 4.12 | CG iter. 1 -- res = 0.44280E+06, tol = 0.47627E+18, time = 0.33 | CG iter. 2 -- res = 0.71371E+02, tol = 0.47627E+18, time = 0.38 | CG iter. 3 -- res = 0.18689E+01, tol = 0.47627E+18, time = 0.33 | CG iter. 4 -- res = 0.97192E-02, tol = 0.47627E+18, time = 0.37 | Final CG iter 5 -- res = 0.31660E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9370768.450 | (Sampled value in CG: 9307024.090 ) | Chain = 1 -- chisq = 0.61636675E+09 | Chain = 1 -- wall time = 4103.373 sec --------------------------------------------------------------------- | Chain = 1 -- Iteration = 38 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18325111772448 | --> Sampling calibration, mode = relcal | relcal = -7.5286575E-02 -5.8873810E-02 9.2277974E-02 4.1882414E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 4.5396405E-04 4.8879036E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.2673E-05 | 2: delta_r/delta_0: 1.0357E-06 | 3: delta_s/delta_0: 1.8890E-07 | 4: delta_r/delta_0: 2.2055E-08 | 5: delta_s/delta_0: 1.1205E-08 | 6: delta_r/delta_0: 2.6956E-09 | 7: delta_s/delta_0: 4.0024E-09 | 8: delta_r/delta_0: 5.3581E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 4.760984549396933E-004 2.735839432533456E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.2670E-05 | 2: delta_r/delta_0: 1.0355E-06 | 3: delta_s/delta_0: 1.8889E-07 | 4: delta_r/delta_0: 2.2056E-08 | 5: delta_s/delta_0: 1.1196E-08 | 6: delta_r/delta_0: 2.6934E-09 | 7: delta_s/delta_0: 4.0190E-09 | 8: delta_r/delta_0: 5.3561E-11 | Reached bicg-stab tolerance | BP delta = 5.1311273E-03 1.0172994E-02 3775210.30973233 | BP delta = 5.1311273E-03 1.1402125E-02 3764801.99723482 | BP chisq diff = -10408.3, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02540997 | --> Sampling calibration, mode = relcal | relcal = -0.1065752 -9.5541954E-02 0.1449009 5.7216164E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.6641622E-03 1.8997765E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 5.9398E-03 | 2: delta_r/delta_0: 1.3064E-04 | 3: delta_s/delta_0: 3.5814E-04 | 4: delta_r/delta_0: 2.8247E-05 | 5: delta_s/delta_0: 5.1643E-06 | 6: delta_r/delta_0: 1.0514E-06 | 7: delta_s/delta_0: 1.1730E-04 | 8: delta_r/delta_0: 1.4175E-05 | 9: delta_s/delta_0: 1.2653E-06 | 10: delta_r/delta_0: 3.6085E-07 | 11: delta_s/delta_0: 5.2364E-07 | 12: delta_r/delta_0: 5.0535E-08 | 13: delta_s/delta_0: 3.0086E-09 | 14: delta_r/delta_0: 1.4625E-09 | 15: delta_s/delta_0: 1.4041E-09 | 16: delta_r/delta_0: 1.1205E-10 | 17: delta_s/delta_0: 2.9167E-09 | 18: delta_r/delta_0: 3.7100E-10 | 19: delta_s/delta_0: 6.2278E-10 | 20: delta_r/delta_0: 9.2102E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 8.270531437948361E-002 2.812419285254547E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 5.9400E-03 | 2: delta_r/delta_0: 1.3065E-04 | 3: delta_s/delta_0: 3.5822E-04 | 4: delta_r/delta_0: 2.8253E-05 | 5: delta_s/delta_0: 5.1657E-06 | 6: delta_r/delta_0: 1.0518E-06 | 7: delta_s/delta_0: 1.1754E-04 | 8: delta_r/delta_0: 1.4205E-05 | 9: delta_s/delta_0: 1.2654E-06 | 10: delta_r/delta_0: 3.6078E-07 | 11: delta_s/delta_0: 5.2434E-07 | 12: delta_r/delta_0: 5.0577E-08 | 13: delta_s/delta_0: 3.0100E-09 | 14: delta_r/delta_0: 1.4630E-09 | 15: delta_s/delta_0: 1.4045E-09 | 16: delta_r/delta_0: 1.1199E-10 | 17: delta_s/delta_0: 2.9172E-09 | 18: delta_r/delta_0: 3.7116E-10 | 19: delta_s/delta_0: 6.2333E-10 | 20: delta_r/delta_0: 9.2210E-11 | Reached bicg-stab tolerance | BP delta = -0.1936837 -0.1930615 2842298.54198598 | BP delta = -0.1936837 -0.1904460 2842238.03303811 | BP chisq diff = -60.5, accept = T | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81176479 | --> Sampling calibration, mode = relcal | relcal = 0.2952679 0.2247740 -0.2835783 -0.2364636 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -5.8018911E-04 5.3084600E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.5422E-03 | 2: delta_r/delta_0: 5.9027E-05 | 3: delta_s/delta_0: 4.8765E-06 | 4: delta_r/delta_0: 5.0692E-07 | 5: delta_s/delta_0: 1.7399E-05 | 6: delta_r/delta_0: 4.8383E-07 | 7: delta_s/delta_0: 1.0214E-07 | 8: delta_r/delta_0: 3.5939E-08 | 9: delta_s/delta_0: 4.9837E-08 | 10: delta_r/delta_0: 1.2156E-08 | 11: delta_s/delta_0: 1.9678E-09 | 12: delta_r/delta_0: 8.4343E-10 | 13: delta_s/delta_0: 3.2956E-10 | 14: delta_r/delta_0: 2.4317E-10 | 15: delta_s/delta_0: 3.0398E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.725423314042075E-002 4.024036206632695E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 2.5457E-03 | 2: delta_r/delta_0: 5.9110E-05 | 3: delta_s/delta_0: 4.8830E-06 | 4: delta_r/delta_0: 5.0715E-07 | 5: delta_s/delta_0: 1.7434E-05 | 6: delta_r/delta_0: 4.8563E-07 | 7: delta_s/delta_0: 1.0248E-07 | 8: delta_r/delta_0: 3.5930E-08 | 9: delta_s/delta_0: 4.9552E-08 | 10: delta_r/delta_0: 1.2170E-08 | 11: delta_s/delta_0: 1.9690E-09 | 12: delta_r/delta_0: 8.4473E-10 | 13: delta_s/delta_0: 3.3007E-10 | 14: delta_r/delta_0: 2.4353E-10 | 15: delta_s/delta_0: 3.0425E-11 | Reached bicg-stab tolerance | BP delta = -8.4636956E-02 -0.1325172 2827543.19285597 | BP delta = -8.4636956E-02 -0.1407035 2828017.22532825 | 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 = 0.95846151 | --> Sampling calibration, mode = relcal | relcal = 0.1065387 0.1393939 -0.1102032 -0.1357294 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0352994E-02 1.3298018E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 3.8279E-04 | 2: delta_r/delta_0: 8.7121E-06 | 3: delta_s/delta_0: 2.2132E-05 | 4: delta_r/delta_0: 7.7169E-07 | 5: delta_s/delta_0: 1.1780E-06 | 6: delta_r/delta_0: 1.7339E-07 | 7: delta_s/delta_0: 5.6402E-08 | 8: delta_r/delta_0: 2.9203E-08 | 9: delta_s/delta_0: 3.6982E-07 | 10: delta_r/delta_0: 1.0447E-08 | 11: delta_s/delta_0: 5.1257E-09 | 12: delta_r/delta_0: 5.5308E-10 | 13: delta_s/delta_0: 7.3798E-09 | 14: delta_r/delta_0: 2.1365E-09 | 15: delta_s/delta_0: 3.7145E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.495456877901617E-002 3.699862275328158E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 3.8279E-04 | 2: delta_r/delta_0: 8.7122E-06 | 3: delta_s/delta_0: 2.2131E-05 | 4: delta_r/delta_0: 7.7166E-07 | 5: delta_s/delta_0: 1.1780E-06 | 6: delta_r/delta_0: 1.7339E-07 | 7: delta_s/delta_0: 5.6401E-08 | 8: delta_r/delta_0: 2.9203E-08 | 9: delta_s/delta_0: 3.6983E-07 | 10: delta_r/delta_0: 1.0447E-08 | 11: delta_s/delta_0: 5.1254E-09 | 12: delta_r/delta_0: 5.5308E-10 | 13: delta_s/delta_0: 7.3765E-09 | 14: delta_r/delta_0: 2.1355E-09 | 15: delta_s/delta_0: 3.7145E-11 | Reached bicg-stab tolerance | BP delta = 0.2925103 0.3223269 3005132.76438359 | BP delta = 0.2925103 0.3163011 3005135.47517158 | 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 = 0.52121672 | --> Sampling calibration, mode = relcal | relcal = -5.0971679E-02 -3.7218553E-03 2.7205493E-02 2.7488042E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -1.4701717E-04 1.4063888E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.4518E-05 | 2: delta_r/delta_0: 4.5696E-06 | 3: delta_s/delta_0: 5.7558E-06 | 4: delta_r/delta_0: 8.9098E-07 | 5: delta_s/delta_0: 4.5257E-08 | 6: delta_r/delta_0: 2.8233E-08 | 7: delta_s/delta_0: 4.8483E-08 | 8: delta_r/delta_0: 9.0270E-09 | 9: delta_s/delta_0: 2.4580E-09 | 10: delta_r/delta_0: 1.5428E-09 | 11: delta_s/delta_0: 2.0218E-09 | 12: delta_r/delta_0: 1.2868E-09 | 13: delta_s/delta_0: 5.0546E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.020575686388437E-002 5.487018966628178E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 6.4518E-05 | 2: delta_r/delta_0: 4.5696E-06 | 3: delta_s/delta_0: 5.7559E-06 | 4: delta_r/delta_0: 8.9097E-07 | 5: delta_s/delta_0: 4.5257E-08 | 6: delta_r/delta_0: 2.8233E-08 | 7: delta_s/delta_0: 4.8482E-08 | 8: delta_r/delta_0: 9.0271E-09 | 9: delta_s/delta_0: 2.4580E-09 | 10: delta_r/delta_0: 1.5428E-09 | 11: delta_s/delta_0: 2.0233E-09 | 12: delta_r/delta_0: 1.2873E-09 | 13: delta_s/delta_0: 5.0550E-11 | Reached bicg-stab tolerance | BP delta = -4.1077647E-02 3.5890725E-02 2435564.08145201 | BP delta = -4.1077647E-02 3.5172399E-02 2435577.50798539 | 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 = 0.42125759 | --> Sampling calibration, mode = relcal | relcal = 4.5549490E-02 3.9603051E-02 -2.8267654E-02 -5.6884881E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.0690937E-03 4.8738085E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.5142E-05 | 2: delta_r/delta_0: 3.4922E-06 | 3: delta_s/delta_0: 2.0262E-06 | 4: delta_r/delta_0: 2.7101E-07 | 5: delta_s/delta_0: 5.9599E-08 | 6: delta_r/delta_0: 3.2458E-08 | 7: delta_s/delta_0: 4.1585E-08 | 8: delta_r/delta_0: 8.3041E-09 | 9: delta_s/delta_0: 2.5788E-09 | 10: delta_r/delta_0: 1.8478E-09 | 11: delta_s/delta_0: 9.9541E-09 | 12: delta_r/delta_0: 2.0873E-09 | 13: delta_s/delta_0: 1.1152E-09 | 14: delta_r/delta_0: 8.8310E-10 | 15: delta_s/delta_0: 4.3612E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.346669423849041E-002 4.999517994688456E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 6.5142E-05 | 2: delta_r/delta_0: 3.4922E-06 | 3: delta_s/delta_0: 2.0262E-06 | 4: delta_r/delta_0: 2.7101E-07 | 5: delta_s/delta_0: 5.9599E-08 | 6: delta_r/delta_0: 3.2458E-08 | 7: delta_s/delta_0: 4.1585E-08 | 8: delta_r/delta_0: 8.3041E-09 | 9: delta_s/delta_0: 2.5788E-09 | 10: delta_r/delta_0: 1.8478E-09 | 11: delta_s/delta_0: 9.9529E-09 | 12: delta_r/delta_0: 2.0872E-09 | 13: delta_s/delta_0: 1.1149E-09 | 14: delta_r/delta_0: 8.8293E-10 | 15: delta_s/delta_0: 4.3614E-11 | Reached bicg-stab tolerance | BP delta = -0.1289926 -0.1380001 2322644.83251939 | BP delta = -0.1289926 -0.1323068 2322650.38791282 | 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 = 0.28139923 | --> Sampling calibration, mode = relcal | relcal = 2.4135558E-02 4.5129530E-02 -2.3330104E-02 -4.5934983E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.1304803E-02 2.2761696E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.1131E-04 | 2: delta_r/delta_0: 8.9996E-06 | 3: delta_s/delta_0: 1.4681E-06 | 4: delta_r/delta_0: 2.0721E-07 | 5: delta_s/delta_0: 6.9506E-08 | 6: delta_r/delta_0: 1.7200E-08 | 7: delta_s/delta_0: 7.7201E-09 | 8: delta_r/delta_0: 4.7827E-09 | 9: delta_s/delta_0: 2.2593E-08 | 10: delta_r/delta_0: 4.0541E-09 | 11: delta_s/delta_0: 1.2240E-09 | 12: delta_r/delta_0: 2.5793E-10 | 13: delta_s/delta_0: 4.3678E-10 | 14: delta_r/delta_0: 1.5923E-10 | 15: delta_s/delta_0: 9.1961E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -8.999342068252177E-003 7.849944291172228E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.1131E-04 | 2: delta_r/delta_0: 8.9996E-06 | 3: delta_s/delta_0: 1.4681E-06 | 4: delta_r/delta_0: 2.0721E-07 | 5: delta_s/delta_0: 6.9506E-08 | 6: delta_r/delta_0: 1.7200E-08 | 7: delta_s/delta_0: 7.7201E-09 | 8: delta_r/delta_0: 4.7827E-09 | 9: delta_s/delta_0: 2.2593E-08 | 10: delta_r/delta_0: 4.0541E-09 | 11: delta_s/delta_0: 1.2240E-09 | 12: delta_r/delta_0: 2.5794E-10 | 13: delta_s/delta_0: 4.3677E-10 | 14: delta_r/delta_0: 1.5923E-10 | 15: delta_s/delta_0: 9.1961E-11 | Reached bicg-stab tolerance | BP delta = 0.1114700 3.1459864E-02 2489973.89642447 | BP delta = 0.1114700 2.2691645E-02 2489976.91995798 | 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 = 0.29366367 | --> Sampling calibration, mode = relcal | relcal = 5.0709874E-04 1.0199688E-02 -3.7662392E-03 -6.9405478E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.5450655E-02 1.6317818E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.3396E-04 | 2: delta_r/delta_0: 1.1455E-05 | 3: delta_s/delta_0: 1.8623E-06 | 4: delta_r/delta_0: 2.9434E-07 | 5: delta_s/delta_0: 1.0807E-07 | 6: delta_r/delta_0: 2.3912E-08 | 7: delta_s/delta_0: 1.0619E-08 | 8: delta_r/delta_0: 6.9248E-09 | 9: delta_s/delta_0: 9.5414E-09 | 10: delta_r/delta_0: 4.8143E-09 | 11: delta_s/delta_0: 9.3455E-08 | 12: delta_r/delta_0: 1.4615E-08 | 13: delta_s/delta_0: 2.0667E-10 | 14: delta_r/delta_0: 1.3646E-10 | 15: delta_s/delta_0: 2.1547E-10 | 16: delta_r/delta_0: 1.4156E-10 | 17: delta_s/delta_0: 6.0035E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.790269447534583E-003 8.313850368893107E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.3396E-04 | 2: delta_r/delta_0: 1.1455E-05 | 3: delta_s/delta_0: 1.8623E-06 | 4: delta_r/delta_0: 2.9433E-07 | 5: delta_s/delta_0: 1.0806E-07 | 6: delta_r/delta_0: 2.3912E-08 | 7: delta_s/delta_0: 1.0618E-08 | 8: delta_r/delta_0: 6.9247E-09 | 9: delta_s/delta_0: 9.5414E-09 | 10: delta_r/delta_0: 4.8143E-09 | 11: delta_s/delta_0: 9.3471E-08 | 12: delta_r/delta_0: 1.4620E-08 | 13: delta_s/delta_0: 2.0679E-10 | 14: delta_r/delta_0: 1.3655E-10 | 15: delta_s/delta_0: 2.1827E-10 | 16: delta_r/delta_0: 1.4278E-10 | 17: delta_s/delta_0: 6.0068E-11 | Reached bicg-stab tolerance | BP delta = -0.7338453 -0.7062585 2738212.28050145 | BP delta = -0.7338453 -0.6984532 2738214.93700277 | 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 = 0.26483103 | --> Sampling calibration, mode = relcal | relcal = -5.6003453E-03 1.5013517E-02 -2.3370278E-03 -7.0761438E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 5.8709149E-05 6.0990285E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4551E-04 | 2: delta_r/delta_0: 1.2427E-05 | 3: delta_s/delta_0: 2.0507E-06 | 4: delta_r/delta_0: 2.8605E-07 | 5: delta_s/delta_0: 1.0882E-07 | 6: delta_r/delta_0: 2.2436E-08 | 7: delta_s/delta_0: 8.8479E-09 | 8: delta_r/delta_0: 5.4893E-09 | 9: delta_s/delta_0: 5.4236E-09 | 10: delta_r/delta_0: 3.6180E-09 | 11: delta_s/delta_0: 1.2933E-06 | 12: delta_r/delta_0: 1.5556E-07 | 13: delta_s/delta_0: 1.5310E-09 | 14: delta_r/delta_0: 4.3745E-10 | 15: delta_s/delta_0: 5.2360E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -7.887686956390326E-003 9.161854338561942E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.4551E-04 | 2: delta_r/delta_0: 1.2427E-05 | 3: delta_s/delta_0: 2.0507E-06 | 4: delta_r/delta_0: 2.8605E-07 | 5: delta_s/delta_0: 1.0882E-07 | 6: delta_r/delta_0: 2.2436E-08 | 7: delta_s/delta_0: 8.8479E-09 | 8: delta_r/delta_0: 5.4893E-09 | 9: delta_s/delta_0: 5.4236E-09 | 10: delta_r/delta_0: 3.6180E-09 | 11: delta_s/delta_0: 1.2934E-06 | 12: delta_r/delta_0: 1.5558E-07 | 13: delta_s/delta_0: 1.5310E-09 | 14: delta_r/delta_0: 4.3745E-10 | 15: delta_s/delta_0: 5.2360E-11 | Reached bicg-stab tolerance | BP delta = 0.2111412 0.2198362 2516525.91491315 | BP delta = 0.2111412 0.2278917 2516526.05430138 | 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 = 0.25637307 | --> Sampling calibration, mode = relcal | relcal = -3.1749856E-02 -2.5932949E-02 3.7035711E-02 2.0647092E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.0063564E-02 1.7232452E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4692E-04 | 2: delta_r/delta_0: 1.2477E-05 | 3: delta_s/delta_0: 1.9351E-06 | 4: delta_r/delta_0: 3.9054E-07 | 5: delta_s/delta_0: 1.5726E-07 | 6: delta_r/delta_0: 2.8085E-08 | 7: delta_s/delta_0: 1.3133E-08 | 8: delta_r/delta_0: 6.2129E-09 | 9: delta_s/delta_0: 7.6324E-08 | 10: delta_r/delta_0: 5.0638E-09 | 11: delta_s/delta_0: 1.7146E-09 | 12: delta_r/delta_0: 4.6364E-10 | 13: delta_s/delta_0: 4.9664E-10 | 14: delta_r/delta_0: 3.0739E-10 | 15: delta_s/delta_0: 1.1036E-10 | 16: delta_r/delta_0: 9.2482E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.197900091951910E-003 8.681512386806472E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.4692E-04 | 2: delta_r/delta_0: 1.2477E-05 | 3: delta_s/delta_0: 1.9351E-06 | 4: delta_r/delta_0: 3.9059E-07 | 5: delta_s/delta_0: 1.5728E-07 | 6: delta_r/delta_0: 2.8088E-08 | 7: delta_s/delta_0: 1.3135E-08 | 8: delta_r/delta_0: 6.2131E-09 | 9: delta_s/delta_0: 7.6337E-08 | 10: delta_r/delta_0: 5.0639E-09 | 11: delta_s/delta_0: 1.7137E-09 | 12: delta_r/delta_0: 4.6339E-10 | 13: delta_s/delta_0: 4.9656E-10 | 14: delta_r/delta_0: 3.0729E-10 | 15: delta_s/delta_0: 1.1034E-10 | 16: delta_r/delta_0: 9.2478E-11 | Reached bicg-stab tolerance | BP delta = -0.6119568 -0.6613709 2706255.51637765 | BP delta = -0.6119568 -0.6591920 2706277.56254730 | 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 = -3.153143 | New value = -3.229037 | poltype: 2 pol: 1 CPU time specind = 3.6969185E-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 = -3.161207 | New value = -3.236547 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.154974 | New value = -3.097066 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.177775 | New value = -3.050324 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.109791 | New value = -3.212770 | poltype: 2 pol: 2 CPU time specind = 1.2831688E-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 = 4.10 | CG iter. 1 -- res = 0.13536E+08, tol = 0.73370E+01, time = 1.47 | CG iter. 2 -- res = 0.57554E+05, tol = 0.73370E+01, time = 1.46 | CG iter. 3 -- res = 0.39727E+05, tol = 0.73370E+01, time = 1.45 | CG iter. 4 -- res = 0.14660E+05, tol = 0.73370E+01, time = 1.55 | CG iter. 5 -- res = 0.99404E+04, tol = 0.73370E+01, time = 1.49 | CG iter. 6 -- res = 0.97571E+04, tol = 0.73370E+01, time = 1.49 | CG iter. 7 -- res = 0.73692E+04, tol = 0.73370E+01, time = 1.52 | CG iter. 8 -- res = 0.49777E+04, tol = 0.73370E+01, time = 1.55 | CG iter. 9 -- res = 0.60239E+04, tol = 0.73370E+01, time = 1.51 | CG iter. 10 -- res = 0.67049E+04, tol = 0.73370E+01, time = 1.57 | CG iter. 11 -- res = 0.45350E+04, tol = 0.73370E+01, time = 1.54 | CG iter. 12 -- res = 0.28481E+04, tol = 0.73370E+01, time = 1.47 | CG iter. 13 -- res = 0.21659E+04, tol = 0.73370E+01, time = 1.50 | CG iter. 14 -- res = 0.15890E+04, tol = 0.73370E+01, time = 1.57 | CG iter. 15 -- res = 0.16498E+04, tol = 0.73370E+01, time = 1.53 | CG iter. 16 -- res = 0.14183E+04, tol = 0.73370E+01, time = 1.54 | CG iter. 17 -- res = 0.89160E+03, tol = 0.73370E+01, time = 1.55 | CG iter. 18 -- res = 0.71378E+03, tol = 0.73370E+01, time = 1.55 | CG iter. 19 -- res = 0.58751E+03, tol = 0.73370E+01, time = 1.51 | CG iter. 20 -- res = 0.44840E+03, tol = 0.73370E+01, time = 1.47 | CG iter. 21 -- res = 0.32747E+03, tol = 0.73370E+01, time = 1.48 | CG iter. 22 -- res = 0.28712E+03, tol = 0.73370E+01, time = 1.51 | CG iter. 23 -- res = 0.26090E+03, tol = 0.73370E+01, time = 1.50 | CG iter. 24 -- res = 0.23102E+03, tol = 0.73370E+01, time = 1.51 | CG iter. 25 -- res = 0.18178E+03, tol = 0.73370E+01, time = 1.53 | CG iter. 26 -- res = 0.16302E+03, tol = 0.73370E+01, time = 1.52 | CG iter. 27 -- res = 0.13369E+03, tol = 0.73370E+01, time = 1.50 | CG iter. 28 -- res = 0.10327E+03, tol = 0.73370E+01, time = 1.50 | CG iter. 29 -- res = 0.88336E+02, tol = 0.73370E+01, time = 1.53 | CG iter. 30 -- res = 0.76763E+02, tol = 0.73370E+01, time = 1.51 | CG iter. 31 -- res = 0.61855E+02, tol = 0.73370E+01, time = 1.55 | CG iter. 32 -- res = 0.49385E+02, tol = 0.73370E+01, time = 1.47 | CG iter. 33 -- res = 0.46088E+02, tol = 0.73370E+01, time = 1.56 | CG iter. 34 -- res = 0.40597E+02, tol = 0.73370E+01, time = 1.51 | CG iter. 35 -- res = 0.30581E+02, tol = 0.73370E+01, time = 1.44 | CG iter. 36 -- res = 0.25947E+02, tol = 0.73370E+01, time = 1.51 | CG iter. 37 -- res = 0.21905E+02, tol = 0.73370E+01, time = 1.46 | CG iter. 38 -- res = 0.18195E+02, tol = 0.73370E+01, time = 1.49 | CG iter. 39 -- res = 0.15538E+02, tol = 0.73370E+01, time = 1.49 | CG iter. 40 -- res = 0.18548E+02, tol = 0.73370E+01, time = 1.51 | CG iter. 41 -- res = 0.15721E+02, tol = 0.73370E+01, time = 1.47 | CG iter. 42 -- res = 0.10716E+02, tol = 0.73370E+01, time = 1.51 | CG iter. 43 -- res = 0.87697E+01, tol = 0.73370E+01, time = 1.56 | CG iter. 44 -- res = 0.10062E+02, tol = 0.73370E+01, time = 1.54 | CG iter. 45 -- res = 0.92565E+01, tol = 0.73370E+01, time = 1.49 | CG iter. 46 -- res = 0.59694E+01, tol = 0.73370E+01, time = 1.52 | CG iter. 47 -- res = 0.47173E+01, tol = 0.73370E+01, time = 1.58 | CG iter. 48 -- res = 0.38239E+01, tol = 0.73370E+01, time = 1.53 | CG iter. 49 -- res = 0.47623E+01, tol = 0.73370E+01, time = 1.51 | CG iter. 50 -- res = 0.41354E+01, tol = 0.73370E+01, time = 1.49 | Final CG iter 51 -- res = 0.41354E+01, tol = 0.73370E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8126615.288 | Old band monopole 9370808.756 | Change to band monopole -1244193.468 | Change to component monopole 1244188.116 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 4.10 | CG iter. 1 -- res = 0.80886E+05, tol = 0.47627E+18, time = 0.34 | CG iter. 2 -- res = 0.23621E+02, tol = 0.47627E+18, time = 0.37 | CG iter. 3 -- res = 0.69997E+00, tol = 0.47627E+18, time = 0.38 | CG iter. 4 -- res = 0.24918E-03, tol = 0.47627E+18, time = 0.40 | Final CG iter 5 -- res = 0.38260E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8126580.334 | (Sampled value in CG: 8097953.432 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.489125 | New value = 1.488975 | poltype: 2 pol: 1 CPU time specind = 3.2231808E-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 = 1.503479 | New value = 1.493386 | poltype: 2 pol: 2 CPU time specind = 1.3790131E-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 = 4.11 | CG iter. 1 -- res = 0.24012E+08, tol = 0.47606E+04, time = 1.71 | CG iter. 2 -- res = 0.53602E+07, tol = 0.47606E+04, time = 1.72 | CG iter. 3 -- res = 0.85056E+06, tol = 0.47606E+04, time = 1.67 | CG iter. 4 -- res = 0.35493E+06, tol = 0.47606E+04, time = 1.74 | CG iter. 5 -- res = 0.15695E+06, tol = 0.47606E+04, time = 1.72 | CG iter. 6 -- res = 0.82075E+05, tol = 0.47606E+04, time = 1.74 | CG iter. 7 -- res = 0.43993E+05, tol = 0.47606E+04, time = 1.72 | CG iter. 8 -- res = 0.21420E+05, tol = 0.47606E+04, time = 1.75 | CG iter. 9 -- res = 0.93660E+04, tol = 0.47606E+04, time = 1.70 | CG iter. 10 -- res = 0.37562E+04, tol = 0.47606E+04, time = 1.70 | CG iter. 11 -- res = 0.16811E+04, tol = 0.47606E+04, time = 1.70 | CG iter. 12 -- res = 0.84665E+03, tol = 0.47606E+04, time = 1.70 | CG iter. 13 -- res = 0.47742E+03, tol = 0.47606E+04, time = 1.70 | CG iter. 14 -- res = 0.26222E+03, tol = 0.47606E+04, time = 1.74 | CG iter. 15 -- res = 0.13448E+03, tol = 0.47606E+04, time = 1.74 | CG iter. 16 -- res = 0.64013E+02, tol = 0.47606E+04, time = 1.72 | CG iter. 17 -- res = 0.31239E+02, tol = 0.47606E+04, time = 1.77 | CG iter. 18 -- res = 0.15958E+02, tol = 0.47606E+04, time = 1.73 | CG iter. 19 -- res = 0.87435E+01, tol = 0.47606E+04, time = 1.75 | CG iter. 20 -- res = 0.48952E+01, tol = 0.47606E+04, time = 1.79 | CG iter. 21 -- res = 0.26043E+01, tol = 0.47606E+04, time = 1.74 | CG iter. 22 -- res = 0.13471E+01, tol = 0.47606E+04, time = 1.70 | CG iter. 23 -- res = 0.68194E+00, tol = 0.47606E+04, time = 1.75 | CG iter. 24 -- res = 0.35091E+00, tol = 0.47606E+04, time = 1.82 | CG iter. 25 -- res = 0.19383E+00, tol = 0.47606E+04, time = 1.75 | CG iter. 26 -- res = 0.11134E+00, tol = 0.47606E+04, time = 1.74 | CG iter. 27 -- res = 0.62635E-01, tol = 0.47606E+04, time = 1.81 | CG iter. 28 -- res = 0.33400E-01, tol = 0.47606E+04, time = 1.78 | CG iter. 29 -- res = 0.16991E-01, tol = 0.47606E+04, time = 1.80 | CG iter. 30 -- res = 0.88687E-02, tol = 0.47606E+04, time = 1.76 | CG iter. 31 -- res = 0.49769E-02, tol = 0.47606E+04, time = 1.72 | CG iter. 32 -- res = 0.28309E-02, tol = 0.47606E+04, time = 1.74 | CG iter. 33 -- res = 0.16398E-02, tol = 0.47606E+04, time = 1.75 | CG iter. 34 -- res = 0.89294E-03, tol = 0.47606E+04, time = 1.78 | CG iter. 35 -- res = 0.46632E-03, tol = 0.47606E+04, time = 1.75 | Final CG iter 36 -- res = 0.46632E-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) 2.626 2.764 | New value 3.438 | Old value 2.626 | Difference 0.812 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 4.12 | CG iter. 1 -- res = 0.34559E+05, tol = 0.47627E+18, time = 0.35 | CG iter. 2 -- res = 0.24662E+02, tol = 0.47627E+18, time = 0.33 | CG iter. 3 -- res = 0.58958E+00, tol = 0.47627E+18, time = 0.35 | Final CG iter 4 -- res = 0.54387E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8126580.334 | (Sampled value in CG: 8099656.257 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.620228 | New value = -3.548060 | poltype: 1 pol: 1 CPU time specind = 2.5579929E-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 = 4.12 | CG iter. 1 -- res = 0.24119E+07, tol = 0.15300E+01, time = 0.63 | CG iter. 2 -- res = 0.96771E+05, tol = 0.15300E+01, time = 0.63 | CG iter. 3 -- res = 0.55626E+05, tol = 0.15300E+01, time = 0.66 | CG iter. 4 -- res = 0.15326E+05, tol = 0.15300E+01, time = 0.66 | CG iter. 5 -- res = 0.41632E+04, tol = 0.15300E+01, time = 0.64 | CG iter. 6 -- res = 0.17683E+04, tol = 0.15300E+01, time = 0.62 | CG iter. 7 -- res = 0.65476E+03, tol = 0.15300E+01, time = 0.62 | CG iter. 8 -- res = 0.37366E+03, tol = 0.15300E+01, time = 0.64 | CG iter. 9 -- res = 0.93151E+02, tol = 0.15300E+01, time = 0.64 | CG iter. 10 -- res = 0.28868E+02, tol = 0.15300E+01, time = 0.61 | CG iter. 11 -- res = 0.12950E+02, tol = 0.15300E+01, time = 0.61 | CG iter. 12 -- res = 0.53247E+01, tol = 0.15300E+01, time = 0.63 | CG iter. 13 -- res = 0.19149E+01, tol = 0.15300E+01, time = 0.64 | CG iter. 14 -- res = 0.54310E+00, tol = 0.15300E+01, time = 0.65 | CG iter. 15 -- res = 0.20930E+00, tol = 0.15300E+01, time = 0.65 | CG iter. 16 -- res = 0.80954E-01, tol = 0.15300E+01, time = 0.66 | CG iter. 17 -- res = 0.27282E-01, tol = 0.15300E+01, time = 0.61 | CG iter. 18 -- res = 0.11206E-01, tol = 0.15300E+01, time = 0.63 | CG iter. 19 -- res = 0.54770E-02, tol = 0.15300E+01, time = 0.65 | CG iter. 20 -- res = 0.17255E-02, tol = 0.15300E+01, time = 0.63 | CG iter. 21 -- res = 0.50953E-03, tol = 0.15300E+01, time = 0.63 | CG iter. 22 -- res = 0.18334E-03, tol = 0.15300E+01, time = 0.60 | CG iter. 23 -- res = 0.73032E-04, tol = 0.15300E+01, time = 0.61 | CG iter. 24 -- res = 0.25519E-04, tol = 0.15300E+01, time = 0.63 | CG iter. 25 -- res = 0.70989E-05, tol = 0.15300E+01, time = 0.65 | CG iter. 26 -- res = 0.23431E-05, tol = 0.15300E+01, time = 0.62 | CG iter. 27 -- res = 0.99957E-06, tol = 0.15300E+01, time = 0.63 | CG iter. 28 -- res = 0.32831E-06, tol = 0.15300E+01, time = 0.62 | CG iter. 29 -- res = 0.98627E-07, tol = 0.15300E+01, time = 0.64 | CG iter. 30 -- res = 0.30279E-07, tol = 0.15300E+01, time = 0.64 | CG iter. 31 -- res = 0.10009E-07, tol = 0.15300E+01, time = 0.64 | CG iter. 32 -- res = 0.87260E-08, tol = 0.15300E+01, time = 0.63 | CG iter. 33 -- res = 0.26996E-08, tol = 0.15300E+01, time = 0.62 | CG iter. 34 -- res = 0.87540E-09, tol = 0.15300E+01, time = 0.68 | CG iter. 35 -- res = 0.24921E-09, tol = 0.15300E+01, time = 0.62 | CG iter. 36 -- res = 0.92174E-10, tol = 0.15300E+01, time = 0.64 | CG iter. 37 -- res = 0.83065E-10, tol = 0.15300E+01, time = 0.63 | CG iter. 38 -- res = 0.20483E-10, tol = 0.15300E+01, time = 0.65 | CG iter. 39 -- res = 0.58345E-11, tol = 0.15300E+01, time = 0.65 | CG iter. 40 -- res = 0.15009E-11, tol = 0.15300E+01, time = 0.61 | CG iter. 41 -- res = 0.43682E-12, tol = 0.15300E+01, time = 0.61 | CG iter. 42 -- res = 0.14184E-12, tol = 0.15300E+01, time = 0.63 | CG iter. 43 -- res = 0.43151E-13, tol = 0.15300E+01, time = 0.65 | CG iter. 44 -- res = 0.12430E-13, tol = 0.15300E+01, time = 0.67 | CG iter. 45 -- res = 0.35795E-14, tol = 0.15300E+01, time = 0.63 | CG iter. 46 -- res = 0.13266E-14, tol = 0.15300E+01, time = 0.65 | CG iter. 47 -- res = 0.51607E-15, tol = 0.15300E+01, time = 0.68 | CG iter. 48 -- res = 0.15655E-15, tol = 0.15300E+01, time = 0.62 | CG iter. 49 -- res = 0.44412E-16, tol = 0.15300E+01, time = 0.61 | CG iter. 50 -- res = 0.15308E-16, tol = 0.15300E+01, time = 0.63 | Final CG iter 51 -- res = 0.15308E-16, tol = 0.15300E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 2.689 3.626 | New value -7.473 | Old value 2.689 | Difference -10.162 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 4.12 | CG iter. 1 -- res = 0.65494E+05, tol = 0.47627E+18, time = 0.33 | CG iter. 2 -- res = 0.17208E+02, tol = 0.47627E+18, time = 0.36 | CG iter. 3 -- res = 0.39808E+00, tol = 0.47627E+18, time = 0.35 | Final CG iter 4 -- res = 0.21600E-04, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8126580.334 | (Sampled value in CG: 8106454.364 ) | CPU time specind = 271.4192 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 4.12 | CG iter. 1 -- res = 0.68444E+08, tol = 0.51585E+04, time = 3.04 | CG iter. 2 -- res = 0.33224E+08, tol = 0.51585E+04, time = 3.08 | CG iter. 3 -- res = 0.57137E+07, tol = 0.51585E+04, time = 3.08 | CG iter. 4 -- res = 0.28483E+07, tol = 0.51585E+04, time = 3.17 | CG iter. 5 -- res = 0.12644E+07, tol = 0.51585E+04, time = 3.18 | CG iter. 6 -- res = 0.69665E+06, tol = 0.51585E+04, time = 3.13 | CG iter. 7 -- res = 0.39436E+06, tol = 0.51585E+04, time = 3.05 | CG iter. 8 -- res = 0.20327E+06, tol = 0.51585E+04, time = 3.20 | CG iter. 9 -- res = 0.10002E+06, tol = 0.51585E+04, time = 3.15 | CG iter. 10 -- res = 0.44574E+05, tol = 0.51585E+04, time = 3.14 | CG iter. 11 -- res = 0.22526E+05, tol = 0.51585E+04, time = 3.15 | CG iter. 12 -- res = 0.13280E+05, tol = 0.51585E+04, time = 3.13 | CG iter. 13 -- res = 0.89741E+04, tol = 0.51585E+04, time = 3.14 | CG iter. 14 -- res = 0.67426E+04, tol = 0.51585E+04, time = 3.06 | CG iter. 15 -- res = 0.47568E+04, tol = 0.51585E+04, time = 3.09 | CG iter. 16 -- res = 0.36601E+04, tol = 0.51585E+04, time = 3.12 | CG iter. 17 -- res = 0.31071E+04, tol = 0.51585E+04, time = 3.15 | CG iter. 18 -- res = 0.31535E+04, tol = 0.51585E+04, time = 3.09 | CG iter. 19 -- res = 0.35282E+04, tol = 0.51585E+04, time = 3.16 | CG iter. 20 -- res = 0.37652E+04, tol = 0.51585E+04, time = 3.10 | CG iter. 21 -- res = 0.35439E+04, tol = 0.51585E+04, time = 3.10 | CG iter. 22 -- res = 0.29006E+04, tol = 0.51585E+04, time = 3.08 | CG iter. 23 -- res = 0.22664E+04, tol = 0.51585E+04, time = 3.09 | CG iter. 24 -- res = 0.18699E+04, tol = 0.51585E+04, time = 3.10 | CG iter. 25 -- res = 0.15908E+04, tol = 0.51585E+04, time = 3.12 | CG iter. 26 -- res = 0.13240E+04, tol = 0.51585E+04, time = 3.12 | CG iter. 27 -- res = 0.10779E+04, tol = 0.51585E+04, time = 3.10 | CG iter. 28 -- res = 0.91336E+03, tol = 0.51585E+04, time = 3.02 | CG iter. 29 -- res = 0.85479E+03, tol = 0.51585E+04, time = 3.00 | CG iter. 30 -- res = 0.87041E+03, tol = 0.51585E+04, time = 3.07 | CG iter. 31 -- res = 0.91090E+03, tol = 0.51585E+04, time = 3.16 | CG iter. 32 -- res = 0.91785E+03, tol = 0.51585E+04, time = 3.14 | CG iter. 33 -- res = 0.85013E+03, tol = 0.51585E+04, time = 3.05 | CG iter. 34 -- res = 0.76821E+03, tol = 0.51585E+04, time = 3.16 | CG iter. 35 -- res = 0.71647E+03, tol = 0.51585E+04, time = 3.13 | CG iter. 36 -- res = 0.69307E+03, tol = 0.51585E+04, time = 3.03 | CG iter. 37 -- res = 0.68604E+03, tol = 0.51585E+04, time = 3.14 | CG iter. 38 -- res = 0.67019E+03, tol = 0.51585E+04, time = 3.15 | CG iter. 39 -- res = 0.64135E+03, tol = 0.51585E+04, time = 3.06 | CG iter. 40 -- res = 0.62002E+03, tol = 0.51585E+04, time = 3.06 | CG iter. 41 -- res = 0.63056E+03, tol = 0.51585E+04, time = 3.23 | CG iter. 42 -- res = 0.66284E+03, tol = 0.51585E+04, time = 3.19 | CG iter. 43 -- res = 0.69231E+03, tol = 0.51585E+04, time = 3.31 | CG iter. 44 -- res = 0.68916E+03, tol = 0.51585E+04, time = 3.20 | CG iter. 45 -- res = 0.65438E+03, tol = 0.51585E+04, time = 3.12 | CG iter. 46 -- res = 0.61817E+03, tol = 0.51585E+04, time = 3.07 | CG iter. 47 -- res = 0.60090E+03, tol = 0.51585E+04, time = 3.16 | CG iter. 48 -- res = 0.60697E+03, tol = 0.51585E+04, time = 3.04 | CG iter. 49 -- res = 0.60926E+03, tol = 0.51585E+04, time = 3.07 | CG iter. 50 -- res = 0.59445E+03, tol = 0.51585E+04, time = 2.99 | CG iter. 51 -- res = 0.56480E+03, tol = 0.51585E+04, time = 3.07 | CG iter. 52 -- res = 0.55084E+03, tol = 0.51585E+04, time = 3.09 | CG iter. 53 -- res = 0.55502E+03, tol = 0.51585E+04, time = 3.12 | CG iter. 54 -- res = 0.56891E+03, tol = 0.51585E+04, time = 3.08 | CG iter. 55 -- res = 0.55227E+03, tol = 0.51585E+04, time = 3.14 | CG iter. 56 -- res = 0.50465E+03, tol = 0.51585E+04, time = 3.09 | CG iter. 57 -- res = 0.46159E+03, tol = 0.51585E+04, time = 3.10 | CG iter. 58 -- res = 0.44680E+03, tol = 0.51585E+04, time = 3.17 | CG iter. 59 -- res = 0.45400E+03, tol = 0.51585E+04, time = 3.13 | CG iter. 60 -- res = 0.45759E+03, tol = 0.51585E+04, time = 3.08 | Final CG iter 61 -- res = 0.45759E+03, tol = 0.51585E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 2.625 ( -231.643 -2233.118 2515.258 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 10827679.323 | Old band monopole 8126615.288 | Change to band monopole 2701064.035 | Change to component monopole -2701052.417 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 3.402 2.753 | New value 1.286 | Old value 3.402 | Difference -2.116 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -4.033 ( 8.507 11.006 -10.325 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 4.331 3.260 | New value 0.489 | Old value 4.331 | Difference -3.842 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 4.11 | CG iter. 1 -- res = 0.23768E+06, tol = 0.47627E+18, time = 0.39 | CG iter. 2 -- res = 0.69361E+02, tol = 0.47627E+18, time = 0.39 | CG iter. 3 -- res = 0.19399E+01, tol = 0.47627E+18, time = 0.37 | CG iter. 4 -- res = 0.16846E-03, tol = 0.47627E+18, time = 0.36 | Final CG iter 5 -- res = 0.69580E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10827632.751 | (Sampled value in CG: 10761457.263 ) | Chain = 1 -- chisq = 0.61509626E+09 | Chain = 1 -- wall time = 4738.290 sec --------------------------------------------------------------------- | Chain = 1 -- Iteration = 39 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18427635268238 | --> Sampling calibration, mode = relcal | relcal = -7.5032525E-02 -5.8690753E-02 9.2016011E-02 4.1707262E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 6.3620199E-04 4.8672147E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.0992E-05 | 2: delta_r/delta_0: 9.3899E-07 | 3: delta_s/delta_0: 2.0179E-07 | 4: delta_r/delta_0: 1.7669E-08 | 5: delta_s/delta_0: 2.9301E-07 | 6: delta_r/delta_0: 3.6517E-08 | 7: delta_s/delta_0: 2.4681E-10 | 8: delta_r/delta_0: 6.7208E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 4.646795814732983E-004 2.733543925944880E-005 | BP delta = 5.1311273E-03 1.1402125E-02 29860069.6970951 | BP delta = 5.6877197E-03 1.1958717E-02 29860069.6321844 | 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 = 1.02545967 | --> Sampling calibration, mode = relcal | relcal = -0.1065292 -9.5577061E-02 0.1448782 5.7227977E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.4448744E-03 1.4148146E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 8.4538E-04 | 2: delta_r/delta_0: 1.8609E-05 | 3: delta_s/delta_0: 5.2570E-06 | 4: delta_r/delta_0: 4.5507E-07 | 5: delta_s/delta_0: 1.3659E-06 | 6: delta_r/delta_0: 6.9406E-08 | 7: delta_s/delta_0: 3.0841E-09 | 8: delta_r/delta_0: 1.1145E-09 | 9: delta_s/delta_0: 9.4535E-07 | 10: delta_r/delta_0: 2.4363E-08 | 11: delta_s/delta_0: 6.5119E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.884898920249550E-003 2.812292463199697E-005 | BP delta = -0.1936837 -0.1904460 34761468.4804724 | BP delta = -0.1908957 -0.1876580 34761468.6903464 | 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 = 0.81166234 | --> Sampling calibration, mode = relcal | relcal = 0.2951873 0.2248187 -0.2836048 -0.2364012 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.2479720E-03 5.1870137E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.1502E-03 | 2: delta_r/delta_0: 2.6363E-05 | 3: delta_s/delta_0: 1.6991E-05 | 4: delta_r/delta_0: 3.4138E-07 | 5: delta_s/delta_0: 7.3510E-06 | 6: delta_r/delta_0: 6.2699E-07 | 7: delta_s/delta_0: 4.7421E-08 | 8: delta_r/delta_0: 3.4103E-08 | 9: delta_s/delta_0: 6.9562E-07 | 10: delta_r/delta_0: 5.0714E-09 | 11: delta_s/delta_0: 8.9521E-10 | 12: delta_r/delta_0: 6.0392E-10 | 13: delta_s/delta_0: 3.7609E-10 | 14: delta_r/delta_0: 6.9024E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.912449523880735E-002 4.024581387150223E-005 | BP delta = -8.4636956E-02 -0.1325172 43105816.6486674 | BP delta = -9.1749415E-02 -0.1396297 43105816.5295513 | 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 = 0.95838285 | --> Sampling calibration, mode = relcal | relcal = 0.1065436 0.1394822 -0.1102575 -0.1357683 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0038819E-02 1.3051035E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 3.5509E-04 | 2: delta_r/delta_0: 8.0589E-06 | 3: delta_s/delta_0: 7.1814E-05 | 4: delta_r/delta_0: 3.5185E-06 | 5: delta_s/delta_0: 3.1305E-06 | 6: delta_r/delta_0: 4.6634E-07 | 7: delta_s/delta_0: 5.6607E-08 | 8: delta_r/delta_0: 2.8320E-08 | 9: delta_s/delta_0: 1.8430E-07 | 10: delta_r/delta_0: 7.2547E-09 | 11: delta_s/delta_0: 2.8892E-09 | 12: delta_r/delta_0: 5.4372E-10 | 13: delta_s/delta_0: 1.8436E-09 | 14: delta_r/delta_0: 4.4673E-10 | 15: delta_s/delta_0: 3.9282E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.499795567269658E-002 3.700229582956378E-005 | BP delta = 0.2925103 0.3223269 43052489.2058226 | BP delta = 0.2922193 0.3220360 43052489.1953500 | 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 = 0.52119902 | --> Sampling calibration, mode = relcal | relcal = -5.1058277E-02 -3.6134364E-03 2.7260046E-02 2.7411666E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -8.8933259E-05 1.0825162E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.6322E-05 | 2: delta_r/delta_0: 4.5095E-06 | 3: delta_s/delta_0: 3.9480E-06 | 4: delta_r/delta_0: 6.3487E-07 | 5: delta_s/delta_0: 5.1479E-08 | 6: delta_r/delta_0: 3.0326E-08 | 7: delta_s/delta_0: 1.3108E-07 | 8: delta_r/delta_0: 5.9270E-09 | 9: delta_s/delta_0: 4.0214E-09 | 10: delta_r/delta_0: 3.3140E-10 | 11: delta_s/delta_0: 2.3579E-10 | 12: delta_r/delta_0: 1.1938E-10 | 13: delta_s/delta_0: 1.7783E-10 | 14: delta_r/delta_0: 9.3715E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.096996705389288E-002 5.487187390321773E-005 | BP delta = -4.1077647E-02 3.5890725E-02 61510335.9968841 | BP delta = -4.0146567E-02 3.6821805E-02 61510335.9969804 | 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 = 0.42123304 | --> Sampling calibration, mode = relcal | relcal = 4.5575514E-02 3.9587423E-02 -2.8284006E-02 -5.6878932E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.1068744E-03 5.7542240E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 7.3067E-05 | 2: delta_r/delta_0: 3.2376E-06 | 3: delta_s/delta_0: 1.8422E-06 | 4: delta_r/delta_0: 2.1332E-07 | 5: delta_s/delta_0: 6.2915E-08 | 6: delta_r/delta_0: 3.2369E-08 | 7: delta_s/delta_0: 1.0489E-07 | 8: delta_r/delta_0: 5.7706E-09 | 9: delta_s/delta_0: 2.3816E-07 | 10: delta_r/delta_0: 7.7804E-08 | 11: delta_s/delta_0: 8.0861E-10 | 12: delta_r/delta_0: 3.8795E-10 | 13: delta_s/delta_0: 4.2678E-10 | 14: delta_r/delta_0: 1.2444E-10 | 15: delta_s/delta_0: 2.6210E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.313784826629353E-002 4.999759675172510E-005 | BP delta = -0.1289926 -0.1380001 61331897.1466106 | BP delta = -9.9804029E-02 -0.1088116 61331896.9863447 | 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 = 0.28143576 | --> Sampling calibration, mode = relcal | relcal = 2.4089364E-02 4.5145363E-02 -2.3311706E-02 -4.5923021E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.0677617E-03 5.0905258E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.0703E-04 | 2: delta_r/delta_0: 8.8615E-06 | 3: delta_s/delta_0: 1.5125E-06 | 4: delta_r/delta_0: 2.1725E-07 | 5: delta_s/delta_0: 8.8001E-08 | 6: delta_r/delta_0: 1.6110E-08 | 7: delta_s/delta_0: 6.3564E-09 | 8: delta_r/delta_0: 4.0666E-09 | 9: delta_s/delta_0: 5.2958E-09 | 10: delta_r/delta_0: 3.0921E-09 | 11: delta_s/delta_0: 6.2630E-08 | 12: delta_r/delta_0: 6.2238E-09 | 13: delta_s/delta_0: 1.2096E-10 | 14: delta_r/delta_0: 9.1539E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -8.111288065992104E-003 7.848634608416894E-005 | BP delta = 0.1114700 3.1459864E-02 94970306.3944091 | BP delta = 0.1223241 4.2313930E-02 94970306.4853122 | 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 = 0.29364484 | --> Sampling calibration, mode = relcal | relcal = 5.0428574E-04 1.0279168E-02 -3.7663188E-03 -7.0171356E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.6858120E-02 1.8125826E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4185E-04 | 2: delta_r/delta_0: 1.1381E-05 | 3: delta_s/delta_0: 1.8804E-06 | 4: delta_r/delta_0: 3.1397E-07 | 5: delta_s/delta_0: 1.1694E-07 | 6: delta_r/delta_0: 2.6163E-08 | 7: delta_s/delta_0: 1.0283E-08 | 8: delta_r/delta_0: 6.8707E-09 | 9: delta_s/delta_0: 4.5239E-09 | 10: delta_r/delta_0: 3.2681E-09 | 11: delta_s/delta_0: 8.9089E-09 | 12: delta_r/delta_0: 3.9822E-09 | 13: delta_s/delta_0: 4.3959E-10 | 14: delta_r/delta_0: 3.2802E-10 | 15: delta_s/delta_0: 2.4036E-09 | 16: delta_r/delta_0: 3.3586E-10 | 17: delta_s/delta_0: 5.7194E-10 | 18: delta_r/delta_0: 3.3041E-10 | 19: delta_s/delta_0: 3.6736E-10 | 20: delta_r/delta_0: 1.2466E-10 | 21: delta_s/delta_0: 3.5022E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.710733096691621E-003 8.314507503950162E-005 | BP delta = -0.7338453 -0.7062585 93526026.5400862 | BP delta = -0.7308813 -0.7032945 93526026.5594744 | 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 = 0.26489934 | --> Sampling calibration, mode = relcal | relcal = -5.6651724E-03 1.5060751E-02 -2.4054984E-03 -6.9900802E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -2.1925939E-03 4.3856618E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4275E-04 | 2: delta_r/delta_0: 1.1901E-05 | 3: delta_s/delta_0: 1.9375E-06 | 4: delta_r/delta_0: 3.0080E-07 | 5: delta_s/delta_0: 1.0503E-07 | 6: delta_r/delta_0: 2.0361E-08 | 7: delta_s/delta_0: 6.9544E-09 | 8: delta_r/delta_0: 4.1113E-09 | 9: delta_s/delta_0: 4.0932E-09 | 10: delta_r/delta_0: 2.7286E-09 | 11: delta_s/delta_0: 6.6448E-06 | 12: delta_r/delta_0: 1.5363E-07 | 13: delta_s/delta_0: 1.3793E-08 | 14: delta_r/delta_0: 6.6266E-09 | 15: delta_s/delta_0: 8.8964E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -6.794022480077403E-003 9.159356260860177E-005 | BP delta = 0.2111412 0.2278917 94713431.6706314 | BP delta = 0.1991194 0.2158700 94713431.6383077 | 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 = 0.25643827 | --> Sampling calibration, mode = relcal | relcal = -3.1613044E-02 -2.6001051E-02 3.6953248E-02 2.0660846E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.4150973E-02 2.1930745E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4528E-04 | 2: delta_r/delta_0: 1.2269E-05 | 3: delta_s/delta_0: 1.9818E-06 | 4: delta_r/delta_0: 3.9558E-07 | 5: delta_s/delta_0: 1.6674E-07 | 6: delta_r/delta_0: 2.8234E-08 | 7: delta_s/delta_0: 1.1597E-08 | 8: delta_r/delta_0: 7.5779E-09 | 9: delta_s/delta_0: 5.1406E-09 | 10: delta_r/delta_0: 3.7843E-09 | 11: delta_s/delta_0: 4.3262E-06 | 12: delta_r/delta_0: 1.1422E-09 | 13: delta_s/delta_0: 3.5611E-09 | 14: delta_r/delta_0: 2.4617E-09 | 15: delta_s/delta_0: 1.6570E-10 | 16: delta_r/delta_0: 1.4909E-10 | 17: delta_s/delta_0: 1.3639E-10 | 18: delta_r/delta_0: 1.2590E-10 | 19: delta_s/delta_0: 1.1852E-10 | 20: delta_r/delta_0: 5.1855E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.318154908637086E-003 8.678976229034054E-005 | BP delta = -0.6119568 -0.6613709 93065205.5869567 | BP delta = -0.6096992 -0.6591132 93065205.5936011 | 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 = -3.229037 | New value = -3.109230 | poltype: 2 pol: 1 CPU time specind = 2.4721622E-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 = -3.236547 | New value = -3.098698 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.097066 | New value = -3.122199 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.050324 | New value = -3.188989 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.212770 | New value = -3.166583 | poltype: 2 pol: 2 CPU time specind = 1.3799667E-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 = 4.12 | CG iter. 1 -- res = 0.13630E+08, tol = 0.63907E+01, time = 1.56 | CG iter. 2 -- res = 0.71210E+05, tol = 0.63907E+01, time = 1.52 | CG iter. 3 -- res = 0.11173E+06, tol = 0.63907E+01, time = 1.51 | CG iter. 4 -- res = 0.94974E+05, tol = 0.63907E+01, time = 1.52 | CG iter. 5 -- res = 0.10493E+06, tol = 0.63907E+01, time = 1.53 | CG iter. 6 -- res = 0.83040E+05, tol = 0.63907E+01, time = 1.54 | CG iter. 7 -- res = 0.65989E+05, tol = 0.63907E+01, time = 1.60 | CG iter. 8 -- res = 0.46586E+05, tol = 0.63907E+01, time = 1.53 | CG iter. 9 -- res = 0.43220E+05, tol = 0.63907E+01, time = 1.56 | CG iter. 10 -- res = 0.42009E+05, tol = 0.63907E+01, time = 1.58 | CG iter. 11 -- res = 0.22771E+05, tol = 0.63907E+01, time = 1.57 | CG iter. 12 -- res = 0.17367E+05, tol = 0.63907E+01, time = 1.52 | CG iter. 13 -- res = 0.15507E+05, tol = 0.63907E+01, time = 1.54 | CG iter. 14 -- res = 0.13571E+05, tol = 0.63907E+01, time = 1.52 | CG iter. 15 -- res = 0.99847E+04, tol = 0.63907E+01, time = 1.50 | CG iter. 16 -- res = 0.59754E+04, tol = 0.63907E+01, time = 1.54 | CG iter. 17 -- res = 0.51322E+04, tol = 0.63907E+01, time = 1.51 | CG iter. 18 -- res = 0.42485E+04, tol = 0.63907E+01, time = 1.54 | CG iter. 19 -- res = 0.32612E+04, tol = 0.63907E+01, time = 1.51 | CG iter. 20 -- res = 0.25054E+04, tol = 0.63907E+01, time = 1.45 | CG iter. 21 -- res = 0.21901E+04, tol = 0.63907E+01, time = 1.48 | CG iter. 22 -- res = 0.17381E+04, tol = 0.63907E+01, time = 1.46 | CG iter. 23 -- res = 0.12501E+04, tol = 0.63907E+01, time = 1.52 | CG iter. 24 -- res = 0.11231E+04, tol = 0.63907E+01, time = 1.49 | CG iter. 25 -- res = 0.10111E+04, tol = 0.63907E+01, time = 1.51 | CG iter. 26 -- res = 0.81708E+03, tol = 0.63907E+01, time = 1.47 | CG iter. 27 -- res = 0.61271E+03, tol = 0.63907E+01, time = 1.50 | CG iter. 28 -- res = 0.50270E+03, tol = 0.63907E+01, time = 1.49 | CG iter. 29 -- res = 0.45276E+03, tol = 0.63907E+01, time = 1.52 | CG iter. 30 -- res = 0.33784E+03, tol = 0.63907E+01, time = 1.50 | CG iter. 31 -- res = 0.26606E+03, tol = 0.63907E+01, time = 1.50 | CG iter. 32 -- res = 0.22035E+03, tol = 0.63907E+01, time = 1.49 | CG iter. 33 -- res = 0.18402E+03, tol = 0.63907E+01, time = 1.55 | CG iter. 34 -- res = 0.14451E+03, tol = 0.63907E+01, time = 1.48 | CG iter. 35 -- res = 0.11795E+03, tol = 0.63907E+01, time = 1.54 | CG iter. 36 -- res = 0.10131E+03, tol = 0.63907E+01, time = 1.50 | CG iter. 37 -- res = 0.75918E+02, tol = 0.63907E+01, time = 1.48 | CG iter. 38 -- res = 0.51649E+02, tol = 0.63907E+01, time = 1.58 | CG iter. 39 -- res = 0.45156E+02, tol = 0.63907E+01, time = 1.50 | CG iter. 40 -- res = 0.62551E+02, tol = 0.63907E+01, time = 1.53 | CG iter. 41 -- res = 0.31928E+02, tol = 0.63907E+01, time = 1.56 | CG iter. 42 -- res = 0.22047E+02, tol = 0.63907E+01, time = 1.50 | CG iter. 43 -- res = 0.17930E+02, tol = 0.63907E+01, time = 1.55 | CG iter. 44 -- res = 0.22176E+02, tol = 0.63907E+01, time = 1.55 | CG iter. 45 -- res = 0.12834E+02, tol = 0.63907E+01, time = 1.54 | CG iter. 46 -- res = 0.76897E+01, tol = 0.63907E+01, time = 1.47 | CG iter. 47 -- res = 0.59885E+01, tol = 0.63907E+01, time = 1.50 | CG iter. 48 -- res = 0.44026E+01, tol = 0.63907E+01, time = 1.54 | CG iter. 49 -- res = 0.30865E+01, tol = 0.63907E+01, time = 1.50 | CG iter. 50 -- res = 0.22575E+01, tol = 0.63907E+01, time = 1.50 | Final CG iter 51 -- res = 0.22575E+01, tol = 0.63907E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9141169.416 | Old band monopole 10827679.323 | Change to band monopole -1686509.907 | Change to component monopole 1686502.653 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 4.10 | CG iter. 1 -- res = 0.52194E+06, tol = 0.47627E+18, time = 0.37 | CG iter. 2 -- res = 0.66800E+02, tol = 0.47627E+18, time = 0.35 | CG iter. 3 -- res = 0.18324E+01, tol = 0.47627E+18, time = 0.38 | CG iter. 4 -- res = 0.11847E-02, tol = 0.47627E+18, time = 0.37 | Final CG iter 5 -- res = 0.51674E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9141130.098 | (Sampled value in CG: 9201720.417 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.488975 | New value = 1.478464 | poltype: 2 pol: 1 CPU time specind = 3.5738945E-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 = 1.493386 | New value = 1.511581 | poltype: 2 pol: 2 CPU time specind = 1.3401508E-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 = 4.12 | CG iter. 1 -- res = 0.24039E+08, tol = 0.47570E+04, time = 1.77 | CG iter. 2 -- res = 0.53559E+07, tol = 0.47570E+04, time = 1.75 | CG iter. 3 -- res = 0.84078E+06, tol = 0.47570E+04, time = 1.81 | CG iter. 4 -- res = 0.34404E+06, tol = 0.47570E+04, time = 1.76 | CG iter. 5 -- res = 0.14582E+06, tol = 0.47570E+04, time = 1.76 | CG iter. 6 -- res = 0.76867E+05, tol = 0.47570E+04, time = 1.76 | CG iter. 7 -- res = 0.42140E+05, tol = 0.47570E+04, time = 1.79 | CG iter. 8 -- res = 0.20351E+05, tol = 0.47570E+04, time = 1.76 | CG iter. 9 -- res = 0.87733E+04, tol = 0.47570E+04, time = 1.77 | CG iter. 10 -- res = 0.35469E+04, tol = 0.47570E+04, time = 1.72 | CG iter. 11 -- res = 0.16009E+04, tol = 0.47570E+04, time = 1.77 | CG iter. 12 -- res = 0.82631E+03, tol = 0.47570E+04, time = 1.78 | CG iter. 13 -- res = 0.46788E+03, tol = 0.47570E+04, time = 1.77 | CG iter. 14 -- res = 0.26238E+03, tol = 0.47570E+04, time = 1.75 | CG iter. 15 -- res = 0.13648E+03, tol = 0.47570E+04, time = 1.79 | CG iter. 16 -- res = 0.64619E+02, tol = 0.47570E+04, time = 1.80 | CG iter. 17 -- res = 0.30718E+02, tol = 0.47570E+04, time = 1.83 | CG iter. 18 -- res = 0.15522E+02, tol = 0.47570E+04, time = 1.77 | CG iter. 19 -- res = 0.81908E+01, tol = 0.47570E+04, time = 1.81 | CG iter. 20 -- res = 0.45924E+01, tol = 0.47570E+04, time = 1.81 | CG iter. 21 -- res = 0.25136E+01, tol = 0.47570E+04, time = 1.79 | CG iter. 22 -- res = 0.12871E+01, tol = 0.47570E+04, time = 1.76 | CG iter. 23 -- res = 0.63562E+00, tol = 0.47570E+04, time = 1.78 | CG iter. 24 -- res = 0.32450E+00, tol = 0.47570E+04, time = 1.80 | CG iter. 25 -- res = 0.17797E+00, tol = 0.47570E+04, time = 1.82 | CG iter. 26 -- res = 0.10171E+00, tol = 0.47570E+04, time = 1.81 | CG iter. 27 -- res = 0.57833E-01, tol = 0.47570E+04, time = 1.79 | CG iter. 28 -- res = 0.31112E-01, tol = 0.47570E+04, time = 1.80 | CG iter. 29 -- res = 0.16357E-01, tol = 0.47570E+04, time = 1.74 | CG iter. 30 -- res = 0.85527E-02, tol = 0.47570E+04, time = 1.75 | CG iter. 31 -- res = 0.45445E-02, tol = 0.47570E+04, time = 1.77 | CG iter. 32 -- res = 0.25541E-02, tol = 0.47570E+04, time = 1.75 | CG iter. 33 -- res = 0.14272E-02, tol = 0.47570E+04, time = 1.72 | CG iter. 34 -- res = 0.78041E-03, tol = 0.47570E+04, time = 1.80 | CG iter. 35 -- res = 0.40776E-03, tol = 0.47570E+04, time = 1.78 | Final CG iter 36 -- res = 0.40776E-03, tol = 0.47570E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 1.322 2.755 | New value 1.376 | Old value 1.322 | Difference 0.054 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 4.11 | CG iter. 1 -- res = 0.43929E+04, tol = 0.47627E+18, time = 0.38 | CG iter. 2 -- res = 0.92219E+01, tol = 0.47627E+18, time = 0.36 | CG iter. 3 -- res = 0.25963E+00, tol = 0.47627E+18, time = 0.37 | Final CG iter 4 -- res = 0.14545E-04, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9141130.098 | (Sampled value in CG: 9202508.973 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.548060 | New value = -3.723405 | poltype: 1 pol: 1 CPU time specind = 3.0410290E-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 = 4.12 | CG iter. 1 -- res = 0.33599E+07, tol = 0.13272E+01, time = 0.68 | CG iter. 2 -- res = 0.17875E+06, tol = 0.13272E+01, time = 0.66 | CG iter. 3 -- res = 0.13080E+06, tol = 0.13272E+01, time = 0.67 | CG iter. 4 -- res = 0.26839E+05, tol = 0.13272E+01, time = 0.63 | CG iter. 5 -- res = 0.72834E+04, tol = 0.13272E+01, time = 0.63 | CG iter. 6 -- res = 0.31408E+04, tol = 0.13272E+01, time = 0.63 | CG iter. 7 -- res = 0.11854E+04, tol = 0.13272E+01, time = 0.61 | CG iter. 8 -- res = 0.52320E+03, tol = 0.13272E+01, time = 0.66 | CG iter. 9 -- res = 0.14301E+03, tol = 0.13272E+01, time = 0.64 | CG iter. 10 -- res = 0.35528E+02, tol = 0.13272E+01, time = 0.68 | CG iter. 11 -- res = 0.17736E+02, tol = 0.13272E+01, time = 0.68 | CG iter. 12 -- res = 0.69678E+01, tol = 0.13272E+01, time = 0.66 | CG iter. 13 -- res = 0.28316E+01, tol = 0.13272E+01, time = 0.61 | CG iter. 14 -- res = 0.80073E+00, tol = 0.13272E+01, time = 0.61 | CG iter. 15 -- res = 0.31857E+00, tol = 0.13272E+01, time = 0.65 | CG iter. 16 -- res = 0.11760E+00, tol = 0.13272E+01, time = 0.64 | CG iter. 17 -- res = 0.31367E-01, tol = 0.13272E+01, time = 0.65 | CG iter. 18 -- res = 0.13687E-01, tol = 0.13272E+01, time = 0.65 | CG iter. 19 -- res = 0.58275E-02, tol = 0.13272E+01, time = 0.62 | CG iter. 20 -- res = 0.20547E-02, tol = 0.13272E+01, time = 0.69 | CG iter. 21 -- res = 0.75235E-03, tol = 0.13272E+01, time = 0.61 | CG iter. 22 -- res = 0.26972E-03, tol = 0.13272E+01, time = 0.63 | CG iter. 23 -- res = 0.90533E-04, tol = 0.13272E+01, time = 0.64 | CG iter. 24 -- res = 0.30625E-04, tol = 0.13272E+01, time = 0.60 | CG iter. 25 -- res = 0.83185E-05, tol = 0.13272E+01, time = 0.63 | CG iter. 26 -- res = 0.25249E-05, tol = 0.13272E+01, time = 0.66 | CG iter. 27 -- res = 0.91198E-06, tol = 0.13272E+01, time = 0.65 | CG iter. 28 -- res = 0.32252E-06, tol = 0.13272E+01, time = 0.64 | CG iter. 29 -- res = 0.10600E-06, tol = 0.13272E+01, time = 0.63 | CG iter. 30 -- res = 0.36011E-07, tol = 0.13272E+01, time = 0.65 | CG iter. 31 -- res = 0.18019E-07, tol = 0.13272E+01, time = 0.66 | CG iter. 32 -- res = 0.12702E-07, tol = 0.13272E+01, time = 0.64 | CG iter. 33 -- res = 0.27740E-08, tol = 0.13272E+01, time = 0.61 | CG iter. 34 -- res = 0.92144E-09, tol = 0.13272E+01, time = 0.62 | CG iter. 35 -- res = 0.36942E-09, tol = 0.13272E+01, time = 0.66 | CG iter. 36 -- res = 0.29096E-09, tol = 0.13272E+01, time = 0.62 | CG iter. 37 -- res = 0.81391E-10, tol = 0.13272E+01, time = 0.68 | CG iter. 38 -- res = 0.23389E-10, tol = 0.13272E+01, time = 0.65 | CG iter. 39 -- res = 0.62546E-11, tol = 0.13272E+01, time = 0.63 | CG iter. 40 -- res = 0.20297E-11, tol = 0.13272E+01, time = 0.66 | CG iter. 41 -- res = 0.59052E-12, tol = 0.13272E+01, time = 0.70 | CG iter. 42 -- res = 0.20902E-12, tol = 0.13272E+01, time = 0.63 | CG iter. 43 -- res = 0.69380E-13, tol = 0.13272E+01, time = 0.65 | CG iter. 44 -- res = 0.23425E-13, tol = 0.13272E+01, time = 0.64 | CG iter. 45 -- res = 0.80265E-14, tol = 0.13272E+01, time = 0.69 | CG iter. 46 -- res = 0.26467E-14, tol = 0.13272E+01, time = 0.68 | CG iter. 47 -- res = 0.81415E-15, tol = 0.13272E+01, time = 0.66 | CG iter. 48 -- res = 0.23275E-15, tol = 0.13272E+01, time = 0.63 | CG iter. 49 -- res = 0.63945E-16, tol = 0.13272E+01, time = 0.65 | CG iter. 50 -- res = 0.20428E-16, tol = 0.13272E+01, time = 0.66 | Final CG iter 51 -- res = 0.20428E-16, tol = 0.13272E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 7.705 2.287 | New value -4.200 | Old value 7.705 | Difference -11.904 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 4.11 | CG iter. 1 -- res = 0.96669E+05, tol = 0.47627E+18, time = 0.36 | CG iter. 2 -- res = 0.42626E+02, tol = 0.47627E+18, time = 0.35 | CG iter. 3 -- res = 0.12470E+01, tol = 0.47627E+18, time = 0.39 | CG iter. 4 -- res = 0.48501E-04, tol = 0.47627E+18, time = 0.41 | Final CG iter 5 -- res = 0.55421E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9141130.098 | (Sampled value in CG: 9188876.026 ) | CPU time specind = 274.8324 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 4.12 | CG iter. 1 -- res = 0.70927E+08, tol = 0.51539E+04, time = 3.01 | CG iter. 2 -- res = 0.32864E+08, tol = 0.51539E+04, time = 3.18 | CG iter. 3 -- res = 0.58118E+07, tol = 0.51539E+04, time = 3.10 | CG iter. 4 -- res = 0.30613E+07, tol = 0.51539E+04, time = 3.05 | CG iter. 5 -- res = 0.13864E+07, tol = 0.51539E+04, time = 3.15 | CG iter. 6 -- res = 0.75120E+06, tol = 0.51539E+04, time = 3.07 | CG iter. 7 -- res = 0.40450E+06, tol = 0.51539E+04, time = 3.12 | CG iter. 8 -- res = 0.21280E+06, tol = 0.51539E+04, time = 3.15 | CG iter. 9 -- res = 0.12004E+06, tol = 0.51539E+04, time = 3.09 | CG iter. 10 -- res = 0.66705E+05, tol = 0.51539E+04, time = 3.14 | CG iter. 11 -- res = 0.44799E+05, tol = 0.51539E+04, time = 3.09 | CG iter. 12 -- res = 0.34510E+05, tol = 0.51539E+04, time = 3.09 | CG iter. 13 -- res = 0.30692E+05, tol = 0.51539E+04, time = 3.15 | CG iter. 14 -- res = 0.31245E+05, tol = 0.51539E+04, time = 3.10 | CG iter. 15 -- res = 0.30496E+05, tol = 0.51539E+04, time = 3.16 | CG iter. 16 -- res = 0.28731E+05, tol = 0.51539E+04, time = 3.21 | CG iter. 17 -- res = 0.24423E+05, tol = 0.51539E+04, time = 3.20 | CG iter. 18 -- res = 0.21160E+05, tol = 0.51539E+04, time = 3.13 | CG iter. 19 -- res = 0.18961E+05, tol = 0.51539E+04, time = 3.20 | CG iter. 20 -- res = 0.16301E+05, tol = 0.51539E+04, time = 3.18 | CG iter. 21 -- res = 0.12216E+05, tol = 0.51539E+04, time = 3.20 | CG iter. 22 -- res = 0.81732E+04, tol = 0.51539E+04, time = 3.10 | CG iter. 23 -- res = 0.58101E+04, tol = 0.51539E+04, time = 3.18 | CG iter. 24 -- res = 0.49506E+04, tol = 0.51539E+04, time = 3.10 | CG iter. 25 -- res = 0.49058E+04, tol = 0.51539E+04, time = 3.11 | CG iter. 26 -- res = 0.47081E+04, tol = 0.51539E+04, time = 3.08 | CG iter. 27 -- res = 0.38881E+04, tol = 0.51539E+04, time = 3.09 | CG iter. 28 -- res = 0.30380E+04, tol = 0.51539E+04, time = 3.14 | CG iter. 29 -- res = 0.26161E+04, tol = 0.51539E+04, time = 3.09 | CG iter. 30 -- res = 0.25389E+04, tol = 0.51539E+04, time = 3.05 | CG iter. 31 -- res = 0.23900E+04, tol = 0.51539E+04, time = 3.10 | CG iter. 32 -- res = 0.19658E+04, tol = 0.51539E+04, time = 3.05 | CG iter. 33 -- res = 0.14470E+04, tol = 0.51539E+04, time = 3.12 | CG iter. 34 -- res = 0.11447E+04, tol = 0.51539E+04, time = 3.11 | CG iter. 35 -- res = 0.10830E+04, tol = 0.51539E+04, time = 3.15 | CG iter. 36 -- res = 0.11345E+04, tol = 0.51539E+04, time = 3.08 | CG iter. 37 -- res = 0.11173E+04, tol = 0.51539E+04, time = 3.10 | CG iter. 38 -- res = 0.95427E+03, tol = 0.51539E+04, time = 3.17 | CG iter. 39 -- res = 0.80463E+03, tol = 0.51539E+04, time = 3.19 | CG iter. 40 -- res = 0.76082E+03, tol = 0.51539E+04, time = 3.12 | CG iter. 41 -- res = 0.77748E+03, tol = 0.51539E+04, time = 3.18 | CG iter. 42 -- res = 0.76214E+03, tol = 0.51539E+04, time = 3.07 | CG iter. 43 -- res = 0.67114E+03, tol = 0.51539E+04, time = 3.09 | CG iter. 44 -- res = 0.57355E+03, tol = 0.51539E+04, time = 3.09 | CG iter. 45 -- res = 0.53914E+03, tol = 0.51539E+04, time = 3.05 | CG iter. 46 -- res = 0.56571E+03, tol = 0.51539E+04, time = 3.17 | CG iter. 47 -- res = 0.59966E+03, tol = 0.51539E+04, time = 3.18 | CG iter. 48 -- res = 0.58816E+03, tol = 0.51539E+04, time = 3.13 | CG iter. 49 -- res = 0.54085E+03, tol = 0.51539E+04, time = 3.09 | CG iter. 50 -- res = 0.51727E+03, tol = 0.51539E+04, time = 3.08 | CG iter. 51 -- res = 0.52940E+03, tol = 0.51539E+04, time = 3.09 | CG iter. 52 -- res = 0.55247E+03, tol = 0.51539E+04, time = 3.09 | CG iter. 53 -- res = 0.53999E+03, tol = 0.51539E+04, time = 3.09 | CG iter. 54 -- res = 0.50366E+03, tol = 0.51539E+04, time = 3.09 | CG iter. 55 -- res = 0.47155E+03, tol = 0.51539E+04, time = 3.10 | CG iter. 56 -- res = 0.47247E+03, tol = 0.51539E+04, time = 3.12 | CG iter. 57 -- res = 0.49505E+03, tol = 0.51539E+04, time = 3.05 | CG iter. 58 -- res = 0.50645E+03, tol = 0.51539E+04, time = 3.18 | CG iter. 59 -- res = 0.49703E+03, tol = 0.51539E+04, time = 3.12 | CG iter. 60 -- res = 0.47495E+03, tol = 0.51539E+04, time = 3.14 | Final CG iter 61 -- res = 0.47495E+03, tol = 0.51539E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 2.999 ( -230.820 -2232.018 2514.659 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 11519547.515 | Old band monopole 9141169.416 | Change to band monopole 2378378.099 | Change to component monopole -2378367.869 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 1.355 2.746 | New value -0.627 | Old value 1.355 | Difference -1.982 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -3.758 ( 7.919 9.442 -9.417 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 4.619 2.599 | New value 3.461 | Old value 4.619 | Difference -1.158 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 4.10 | CG iter. 1 -- res = 0.21041E+06, tol = 0.47627E+18, time = 0.42 | CG iter. 2 -- res = 0.51982E+02, tol = 0.47627E+18, time = 0.39 | CG iter. 3 -- res = 0.11880E+01, tol = 0.47627E+18, time = 0.35 | CG iter. 4 -- res = 0.22779E-03, tol = 0.47627E+18, time = 0.35 | Final CG iter 5 -- res = 0.58154E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 11519497.967 | (Sampled value in CG: 11458997.391 ) | Chain = 1 -- chisq = 0.61836840E+09 | Chain = 1 -- wall time = 4130.886 sec --------------------------------------------------------------------- | Chain = 1 -- Iteration = 40 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18262482125995 | --> Sampling calibration, mode = relcal | relcal = -7.4319474E-02 -5.8158468E-02 9.1277570E-02 4.1200377E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 7.4103929E-04 4.0857629E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.5079E-05 | 2: delta_r/delta_0: 1.7096E-06 | 3: delta_s/delta_0: 2.2396E-07 | 4: delta_r/delta_0: 1.3271E-08 | 5: delta_s/delta_0: 2.7452E-09 | 6: delta_r/delta_0: 1.0047E-09 | 7: delta_s/delta_0: 2.6591E-10 | 8: delta_r/delta_0: 1.0412E-10 | 9: delta_s/delta_0: 1.0245E-10 | 10: delta_r/delta_0: 5.8244E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 4.566772037045465E-004 2.737428613264989E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 6.5087E-05 | 2: delta_r/delta_0: 1.7098E-06 | 3: delta_s/delta_0: 2.2396E-07 | 4: delta_r/delta_0: 1.3272E-08 | 5: delta_s/delta_0: 2.7455E-09 | 6: delta_r/delta_0: 1.0048E-09 | 7: delta_s/delta_0: 2.6595E-10 | 8: delta_r/delta_0: 1.0413E-10 | 9: delta_s/delta_0: 1.0245E-10 | 10: delta_r/delta_0: 5.8242E-11 | Reached bicg-stab tolerance | BP delta = 5.6877197E-03 1.1958717E-02 3859544.47943333 | BP delta = 5.6877197E-03 1.3131633E-02 3861348.09306805 | 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 = 1.02555021 | --> Sampling calibration, mode = relcal | relcal = -0.1065861 -9.5502287E-02 0.1448298 5.7258587E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.6639844E-03 1.5223712E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.0167E-03 | 2: delta_r/delta_0: 2.2385E-05 | 3: delta_s/delta_0: 6.8132E-06 | 4: delta_r/delta_0: 5.8659E-07 | 5: delta_s/delta_0: 3.2159E-06 | 6: delta_r/delta_0: 1.9958E-07 | 7: delta_s/delta_0: 4.3098E-09 | 8: delta_r/delta_0: 1.5245E-09 | 9: delta_s/delta_0: 1.5234E-07 | 10: delta_r/delta_0: 8.4639E-09 | 11: delta_s/delta_0: 8.9500E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.379940043874835E-003 2.812039482818360E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.0167E-03 | 2: delta_r/delta_0: 2.2383E-05 | 3: delta_s/delta_0: 6.8128E-06 | 4: delta_r/delta_0: 5.8656E-07 | 5: delta_s/delta_0: 3.2149E-06 | 6: delta_r/delta_0: 1.9951E-07 | 7: delta_s/delta_0: 4.3098E-09 | 8: delta_r/delta_0: 1.5246E-09 | 9: delta_s/delta_0: 1.5221E-07 | 10: delta_r/delta_0: 8.4529E-09 | 11: delta_s/delta_0: 8.9499E-11 | Reached bicg-stab tolerance | BP delta = -0.1908957 -0.1876580 2842319.96624535 | BP delta = -0.1908957 -0.1896653 2842506.29702024 | 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 = 0.81159624 | --> Sampling calibration, mode = relcal | relcal = 0.2951949 0.2247008 -0.2835103 -0.2363854 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 4.7587472E-04 5.6845658E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.1941E-03 | 2: delta_r/delta_0: 5.0772E-05 | 3: delta_s/delta_0: 2.2338E-04 | 4: delta_r/delta_0: 1.4040E-05 | 5: delta_s/delta_0: 1.7032E-05 | 6: delta_r/delta_0: 3.1557E-06 | 7: delta_s/delta_0: 6.7874E-08 | 8: delta_r/delta_0: 3.4839E-08 | 9: delta_s/delta_0: 2.5905E-07 | 10: delta_r/delta_0: 4.9813E-09 | 11: delta_s/delta_0: 2.5379E-09 | 12: delta_r/delta_0: 4.8916E-10 | 13: delta_s/delta_0: 1.9603E-10 | 14: delta_r/delta_0: 9.8022E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.232217448434663E-002 4.024850960822076E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 2.1904E-03 | 2: delta_r/delta_0: 5.0687E-05 | 3: delta_s/delta_0: 2.2386E-04 | 4: delta_r/delta_0: 1.4066E-05 | 5: delta_s/delta_0: 1.7058E-05 | 6: delta_r/delta_0: 3.1614E-06 | 7: delta_s/delta_0: 6.7901E-08 | 8: delta_r/delta_0: 3.4870E-08 | 9: delta_s/delta_0: 2.6000E-07 | 10: delta_r/delta_0: 4.9784E-09 | 11: delta_s/delta_0: 2.5345E-09 | 12: delta_r/delta_0: 4.8935E-10 | 13: delta_s/delta_0: 1.9636E-10 | 14: delta_r/delta_0: 9.7894E-11 | Reached bicg-stab tolerance | BP delta = -9.1749415E-02 -0.1396297 2827560.68627091 | BP delta = -9.1749415E-02 -0.1276772 2827662.17950698 | 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 = 0.95828954 | --> Sampling calibration, mode = relcal | relcal = 0.1063833 0.1394808 -0.1102128 -0.1356513 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0811691E-02 1.3696428E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 4.1828E-04 | 2: delta_r/delta_0: 9.5253E-06 | 3: delta_s/delta_0: 3.3024E-04 | 4: delta_r/delta_0: 2.5521E-05 | 5: delta_s/delta_0: 7.2884E-07 | 6: delta_r/delta_0: 1.4926E-07 | 7: delta_s/delta_0: 5.9445E-08 | 8: delta_r/delta_0: 2.8740E-08 | 9: delta_s/delta_0: 6.3935E-08 | 10: delta_r/delta_0: 2.9298E-09 | 11: delta_s/delta_0: 1.1362E-09 | 12: delta_r/delta_0: 4.7295E-10 | 13: delta_s/delta_0: 3.6491E-09 | 14: delta_r/delta_0: 1.2625E-09 | 15: delta_s/delta_0: 3.9359E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.363389118028143E-002 3.700580445813563E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 4.1822E-04 | 2: delta_r/delta_0: 9.5239E-06 | 3: delta_s/delta_0: 3.3066E-04 | 4: delta_r/delta_0: 2.5552E-05 | 5: delta_s/delta_0: 7.2881E-07 | 6: delta_r/delta_0: 1.4926E-07 | 7: delta_s/delta_0: 5.9446E-08 | 8: delta_r/delta_0: 2.8739E-08 | 9: delta_s/delta_0: 6.3885E-08 | 10: delta_r/delta_0: 2.9297E-09 | 11: delta_s/delta_0: 1.1362E-09 | 12: delta_r/delta_0: 4.7294E-10 | 13: delta_s/delta_0: 3.6477E-09 | 14: delta_r/delta_0: 1.2622E-09 | 15: delta_s/delta_0: 3.9352E-11 | Reached bicg-stab tolerance | BP delta = 0.2922193 0.3220360 3004812.25800617 | BP delta = 0.2922193 0.3173431 3004833.76223383 | 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 = 0.52115028 | --> Sampling calibration, mode = relcal | relcal = -5.1047143E-02 -3.7340121E-03 2.7261758E-02 2.7519396E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.8478800E-04 1.5818829E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.6560E-05 | 2: delta_r/delta_0: 4.6319E-06 | 3: delta_s/delta_0: 9.1524E-06 | 4: delta_r/delta_0: 5.0246E-07 | 5: delta_s/delta_0: 5.0962E-08 | 6: delta_r/delta_0: 2.4749E-08 | 7: delta_s/delta_0: 1.5661E-08 | 8: delta_r/delta_0: 7.7594E-09 | 9: delta_s/delta_0: 6.5759E-09 | 10: delta_r/delta_0: 9.0048E-10 | 11: delta_s/delta_0: 4.3123E-08 | 12: delta_r/delta_0: 1.1968E-08 | 13: delta_s/delta_0: 1.4917E-10 | 14: delta_r/delta_0: 3.7952E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.111008864484510E-002 5.487730020514497E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 6.6560E-05 | 2: delta_r/delta_0: 4.6319E-06 | 3: delta_s/delta_0: 9.1527E-06 | 4: delta_r/delta_0: 5.0248E-07 | 5: delta_s/delta_0: 5.0962E-08 | 6: delta_r/delta_0: 2.4749E-08 | 7: delta_s/delta_0: 1.5662E-08 | 8: delta_r/delta_0: 7.7595E-09 | 9: delta_s/delta_0: 6.5750E-09 | 10: delta_r/delta_0: 9.0050E-10 | 11: delta_s/delta_0: 4.3531E-08 | 12: delta_r/delta_0: 1.2090E-08 | 13: delta_s/delta_0: 1.4914E-10 | 14: delta_r/delta_0: 3.7946E-11 | Reached bicg-stab tolerance | BP delta = -4.0146567E-02 3.6821805E-02 2435619.75428167 | BP delta = -4.0146567E-02 3.4757849E-02 2435613.75737484 | BP chisq diff = -6.0, accept = T | | Finished processing 060-WMAP_V1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 060-WMAP_V2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.42120087 | --> Sampling calibration, mode = relcal | relcal = 4.5577094E-02 3.9636359E-02 -2.8312469E-02 -5.6900982E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.5721574E-03 4.9816715E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.0563E-05 | 2: delta_r/delta_0: 3.8910E-06 | 3: delta_s/delta_0: 3.0527E-06 | 4: delta_r/delta_0: 5.2043E-07 | 5: delta_s/delta_0: 5.9849E-08 | 6: delta_r/delta_0: 3.6788E-08 | 7: delta_s/delta_0: 3.5991E-08 | 8: delta_r/delta_0: 1.3772E-08 | 9: delta_s/delta_0: 2.5013E-09 | 10: delta_r/delta_0: 9.7616E-10 | 11: delta_s/delta_0: 1.0037E-09 | 12: delta_r/delta_0: 3.7932E-10 | 13: delta_s/delta_0: 2.7900E-09 | 14: delta_r/delta_0: 4.2067E-10 | 15: delta_s/delta_0: 1.8834E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.403196157393075E-002 5.000219124689799E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 6.0563E-05 | 2: delta_r/delta_0: 3.8910E-06 | 3: delta_s/delta_0: 3.0526E-06 | 4: delta_r/delta_0: 5.2043E-07 | 5: delta_s/delta_0: 5.9849E-08 | 6: delta_r/delta_0: 3.6787E-08 | 7: delta_s/delta_0: 3.5989E-08 | 8: delta_r/delta_0: 1.3772E-08 | 9: delta_s/delta_0: 2.5010E-09 | 10: delta_r/delta_0: 9.7599E-10 | 11: delta_s/delta_0: 1.0035E-09 | 12: delta_r/delta_0: 3.7933E-10 | 13: delta_s/delta_0: 2.7907E-09 | 14: delta_r/delta_0: 4.2055E-10 | 15: delta_s/delta_0: 1.8832E-11 | Reached bicg-stab tolerance | BP delta = -9.9804029E-02 -0.1088116 2322575.87520124 | BP delta = -9.9804029E-02 -0.1133420 2322479.02615862 | BP chisq diff = -96.8, accept = T | | Finished processing 060-WMAP_V2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.28144308 | --> Sampling calibration, mode = relcal | relcal = 2.4109324E-02 4.5212094E-02 -2.3362348E-02 -4.5959070E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0575162E-02 4.0646973E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.0888E-04 | 2: delta_r/delta_0: 9.0195E-06 | 3: delta_s/delta_0: 1.5342E-06 | 4: delta_r/delta_0: 2.4724E-07 | 5: delta_s/delta_0: 9.6339E-08 | 6: delta_r/delta_0: 1.8212E-08 | 7: delta_s/delta_0: 7.6486E-09 | 8: delta_r/delta_0: 4.1829E-09 | 9: delta_s/delta_0: 5.3504E-08 | 10: delta_r/delta_0: 4.1691E-09 | 11: delta_s/delta_0: 5.5998E-10 | 12: delta_r/delta_0: 1.6627E-10 | 13: delta_s/delta_0: 2.9923E-10 | 14: delta_r/delta_0: 1.0334E-10 | 15: delta_s/delta_0: 5.0911E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -8.343200259464256E-003 7.848741718328059E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.0888E-04 | 2: delta_r/delta_0: 9.0195E-06 | 3: delta_s/delta_0: 1.5342E-06 | 4: delta_r/delta_0: 2.4724E-07 | 5: delta_s/delta_0: 9.6339E-08 | 6: delta_r/delta_0: 1.8212E-08 | 7: delta_s/delta_0: 7.6486E-09 | 8: delta_r/delta_0: 4.1829E-09 | 9: delta_s/delta_0: 5.3505E-08 | 10: delta_r/delta_0: 4.1692E-09 | 11: delta_s/delta_0: 5.5998E-10 | 12: delta_r/delta_0: 1.6627E-10 | 13: delta_s/delta_0: 2.9924E-10 | 14: delta_r/delta_0: 1.0335E-10 | 15: delta_s/delta_0: 5.0911E-11 | Reached bicg-stab tolerance | BP delta = 0.1223241 4.2313930E-02 2490062.74473179 | BP delta = 0.1223241 3.9413650E-02 2490064.17279413 | 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 = 0.29371567 | --> Sampling calibration, mode = relcal | relcal = 4.7591215E-04 1.0221538E-02 -3.7417654E-03 -6.9556851E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.3350705E-02 1.6038200E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.3097E-04 | 2: delta_r/delta_0: 1.1243E-05 | 3: delta_s/delta_0: 1.8840E-06 | 4: delta_r/delta_0: 2.6184E-07 | 5: delta_s/delta_0: 9.5851E-08 | 6: delta_r/delta_0: 2.1153E-08 | 7: delta_s/delta_0: 9.0829E-09 | 8: delta_r/delta_0: 5.9321E-09 | 9: delta_s/delta_0: 6.6658E-09 | 10: delta_r/delta_0: 4.3774E-09 | 11: delta_s/delta_0: 2.1007E-06 | 12: delta_r/delta_0: 4.2736E-07 | 13: delta_s/delta_0: 7.4566E-10 | 14: delta_r/delta_0: 2.1491E-10 | 15: delta_s/delta_0: 5.1295E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.012959646686929E-003 8.312166061958336E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.3097E-04 | 2: delta_r/delta_0: 1.1243E-05 | 3: delta_s/delta_0: 1.8840E-06 | 4: delta_r/delta_0: 2.6182E-07 | 5: delta_s/delta_0: 9.5842E-08 | 6: delta_r/delta_0: 2.1152E-08 | 7: delta_s/delta_0: 9.0827E-09 | 8: delta_r/delta_0: 5.9320E-09 | 9: delta_s/delta_0: 6.6656E-09 | 10: delta_r/delta_0: 4.3773E-09 | 11: delta_s/delta_0: 2.1037E-06 | 12: delta_r/delta_0: 4.2788E-07 | 13: delta_s/delta_0: 7.4561E-10 | 14: delta_r/delta_0: 2.1489E-10 | 15: delta_s/delta_0: 5.1294E-11 | Reached bicg-stab tolerance | BP delta = -0.7308813 -0.7032945 2737468.76124523 | BP delta = -0.7308813 -0.7044199 2737465.16464751 | BP chisq diff = -3.6, accept = T | | Finished processing 090-WMAP_W2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W3 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.26487369 | --> Sampling calibration, mode = relcal | relcal = -5.5192159E-03 1.4953420E-02 -2.4112931E-03 -7.0229108E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -5.6930847E-04 4.1218125E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4320E-04 | 2: delta_r/delta_0: 1.2285E-05 | 3: delta_s/delta_0: 2.0731E-06 | 4: delta_r/delta_0: 2.4913E-07 | 5: delta_s/delta_0: 1.0325E-07 | 6: delta_r/delta_0: 2.2274E-08 | 7: delta_s/delta_0: 9.6464E-09 | 8: delta_r/delta_0: 6.3130E-09 | 9: delta_s/delta_0: 1.1760E-08 | 10: delta_r/delta_0: 5.4071E-09 | 11: delta_s/delta_0: 1.5221E-08 | 12: delta_r/delta_0: 1.3245E-09 | 13: delta_s/delta_0: 2.9191E-09 | 14: delta_r/delta_0: 5.8857E-10 | 15: delta_s/delta_0: 6.4778E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -8.609863703258122E-003 9.160317800552602E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.4320E-04 | 2: delta_r/delta_0: 1.2285E-05 | 3: delta_s/delta_0: 2.0730E-06 | 4: delta_r/delta_0: 2.4912E-07 | 5: delta_s/delta_0: 1.0326E-07 | 6: delta_r/delta_0: 2.2273E-08 | 7: delta_s/delta_0: 9.6463E-09 | 8: delta_r/delta_0: 6.3130E-09 | 9: delta_s/delta_0: 1.1760E-08 | 10: delta_r/delta_0: 5.4071E-09 | 11: delta_s/delta_0: 1.5223E-08 | 12: delta_r/delta_0: 1.3245E-09 | 13: delta_s/delta_0: 2.9191E-09 | 14: delta_r/delta_0: 5.8858E-10 | 15: delta_s/delta_0: 6.4778E-11 | Reached bicg-stab tolerance | BP delta = 0.1991194 0.2158700 2516919.69490629 | BP delta = 0.1991194 0.2013925 2516919.56281738 | 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 = 0.25646543 | --> Sampling calibration, mode = relcal | relcal = -3.1657048E-02 -2.5940390E-02 3.6896072E-02 2.0701364E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.4690369E-02 1.6351996E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4466E-04 | 2: delta_r/delta_0: 1.2049E-05 | 3: delta_s/delta_0: 2.0112E-06 | 4: delta_r/delta_0: 3.5562E-07 | 5: delta_s/delta_0: 1.1865E-07 | 6: delta_r/delta_0: 2.4975E-08 | 7: delta_s/delta_0: 1.0920E-08 | 8: delta_r/delta_0: 6.5716E-09 | 9: delta_s/delta_0: 5.5951E-08 | 10: delta_r/delta_0: 6.2204E-09 | 11: delta_s/delta_0: 1.3124E-09 | 12: delta_r/delta_0: 2.7189E-10 | 13: delta_s/delta_0: 9.1025E-10 | 14: delta_r/delta_0: 2.3317E-10 | 15: delta_s/delta_0: 8.2861E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.366429590625150E-003 8.677924645903508E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.4466E-04 | 2: delta_r/delta_0: 1.2049E-05 | 3: delta_s/delta_0: 2.0112E-06 | 4: delta_r/delta_0: 3.5564E-07 | 5: delta_s/delta_0: 1.1866E-07 | 6: delta_r/delta_0: 2.4976E-08 | 7: delta_s/delta_0: 1.0920E-08 | 8: delta_r/delta_0: 6.5718E-09 | 9: delta_s/delta_0: 5.5957E-08 | 10: delta_r/delta_0: 6.2206E-09 | 11: delta_s/delta_0: 1.3121E-09 | 12: delta_r/delta_0: 2.7185E-10 | 13: delta_s/delta_0: 9.1025E-10 | 14: delta_r/delta_0: 2.3317E-10 | 15: delta_s/delta_0: 8.2863E-11 | Reached bicg-stab tolerance | BP delta = -0.6096992 -0.6591132 2706884.30438296 | BP delta = -0.6096992 -0.6681135 2706894.68569280 | 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 = -3.109230 | New value = -3.126117 | poltype: 2 pol: 1 CPU time specind = 4.5149326E-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 = -3.098698 | New value = -3.166814 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.122199 | New value = -3.154593 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.188989 | New value = -3.119444 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.166583 | New value = -3.145443 | poltype: 2 pol: 2 CPU time specind = 1.5640259E-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 = 4.15 | CG iter. 1 -- res = 0.13534E+08, tol = 0.60139E+01, time = 1.63 | CG iter. 2 -- res = 0.49738E+05, tol = 0.60139E+01, time = 1.58 | CG iter. 3 -- res = 0.31010E+05, tol = 0.60139E+01, time = 1.59 | CG iter. 4 -- res = 0.12340E+05, tol = 0.60139E+01, time = 1.56 | CG iter. 5 -- res = 0.72354E+04, tol = 0.60139E+01, time = 1.54 | CG iter. 6 -- res = 0.44921E+04, tol = 0.60139E+01, time = 1.53 | CG iter. 7 -- res = 0.39034E+04, tol = 0.60139E+01, time = 1.51 | CG iter. 8 -- res = 0.37591E+04, tol = 0.60139E+01, time = 1.56 | CG iter. 9 -- res = 0.31734E+04, tol = 0.60139E+01, time = 1.56 | CG iter. 10 -- res = 0.45198E+04, tol = 0.60139E+01, time = 1.52 | CG iter. 11 -- res = 0.28165E+04, tol = 0.60139E+01, time = 1.56 | CG iter. 12 -- res = 0.18517E+04, tol = 0.60139E+01, time = 1.55 | CG iter. 13 -- res = 0.13722E+04, tol = 0.60139E+01, time = 1.54 | CG iter. 14 -- res = 0.11557E+04, tol = 0.60139E+01, time = 1.59 | CG iter. 15 -- res = 0.93886E+03, tol = 0.60139E+01, time = 1.53 | CG iter. 16 -- res = 0.67218E+03, tol = 0.60139E+01, time = 1.57 | CG iter. 17 -- res = 0.47909E+03, tol = 0.60139E+01, time = 1.61 | CG iter. 18 -- res = 0.36104E+03, tol = 0.60139E+01, time = 1.52 | CG iter. 19 -- res = 0.30485E+03, tol = 0.60139E+01, time = 1.51 | CG iter. 20 -- res = 0.24080E+03, tol = 0.60139E+01, time = 1.51 | CG iter. 21 -- res = 0.17564E+03, tol = 0.60139E+01, time = 1.52 | CG iter. 22 -- res = 0.16140E+03, tol = 0.60139E+01, time = 1.52 | CG iter. 23 -- res = 0.13638E+03, tol = 0.60139E+01, time = 1.52 | CG iter. 24 -- res = 0.11717E+03, tol = 0.60139E+01, time = 1.50 | CG iter. 25 -- res = 0.92698E+02, tol = 0.60139E+01, time = 1.50 | CG iter. 26 -- res = 0.87598E+02, tol = 0.60139E+01, time = 1.54 | CG iter. 27 -- res = 0.73263E+02, tol = 0.60139E+01, time = 1.55 | CG iter. 28 -- res = 0.58289E+02, tol = 0.60139E+01, time = 1.59 | CG iter. 29 -- res = 0.50108E+02, tol = 0.60139E+01, time = 1.56 | CG iter. 30 -- res = 0.48982E+02, tol = 0.60139E+01, time = 1.45 | CG iter. 31 -- res = 0.32536E+02, tol = 0.60139E+01, time = 1.50 | CG iter. 32 -- res = 0.25642E+02, tol = 0.60139E+01, time = 1.52 | CG iter. 33 -- res = 0.24214E+02, tol = 0.60139E+01, time = 1.54 | CG iter. 34 -- res = 0.20009E+02, tol = 0.60139E+01, time = 1.52 | CG iter. 35 -- res = 0.14358E+02, tol = 0.60139E+01, time = 1.51 | CG iter. 36 -- res = 0.11005E+02, tol = 0.60139E+01, time = 1.49 | CG iter. 37 -- res = 0.95783E+01, tol = 0.60139E+01, time = 1.58 | CG iter. 38 -- res = 0.75203E+01, tol = 0.60139E+01, time = 1.55 | CG iter. 39 -- res = 0.56466E+01, tol = 0.60139E+01, time = 1.51 | CG iter. 40 -- res = 0.63918E+01, tol = 0.60139E+01, time = 1.55 | CG iter. 41 -- res = 0.45702E+01, tol = 0.60139E+01, time = 1.55 | CG iter. 42 -- res = 0.28028E+01, tol = 0.60139E+01, time = 1.59 | CG iter. 43 -- res = 0.20355E+01, tol = 0.60139E+01, time = 1.49 | CG iter. 44 -- res = 0.22253E+01, tol = 0.60139E+01, time = 1.54 | CG iter. 45 -- res = 0.19097E+01, tol = 0.60139E+01, time = 1.51 | CG iter. 46 -- res = 0.98207E+00, tol = 0.60139E+01, time = 1.53 | CG iter. 47 -- res = 0.68325E+00, tol = 0.60139E+01, time = 1.49 | CG iter. 48 -- res = 0.52591E+00, tol = 0.60139E+01, time = 1.47 | CG iter. 49 -- res = 0.39622E+00, tol = 0.60139E+01, time = 1.55 | CG iter. 50 -- res = 0.27710E+00, tol = 0.60139E+01, time = 1.53 | Final CG iter 51 -- res = 0.27710E+00, tol = 0.60139E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 10481326.009 | Old band monopole 11519547.515 | Change to band monopole -1038221.506 | Change to component monopole 1038217.040 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 4.13 | CG iter. 1 -- res = 0.24669E+03, tol = 0.47627E+18, time = 0.40 | CG iter. 2 -- res = 0.63012E+01, tol = 0.47627E+18, time = 0.40 | CG iter. 3 -- res = 0.48085E-01, tol = 0.47627E+18, time = 0.42 | Final CG iter 4 -- res = 0.18034E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10481280.927 | (Sampled value in CG: 10469257.591 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.478464 | New value = 1.495924 | poltype: 2 pol: 1 CPU time specind = 3.6051273E-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 = 1.511581 | New value = 1.465195 | poltype: 2 pol: 2 CPU time specind = 1.2569427E-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 = 4.11 | CG iter. 1 -- res = 0.24084E+08, tol = 0.47581E+04, time = 1.78 | CG iter. 2 -- res = 0.54194E+07, tol = 0.47581E+04, time = 1.77 | CG iter. 3 -- res = 0.84352E+06, tol = 0.47581E+04, time = 1.85 | CG iter. 4 -- res = 0.35164E+06, tol = 0.47581E+04, time = 1.73 | CG iter. 5 -- res = 0.15655E+06, tol = 0.47581E+04, time = 1.77 | CG iter. 6 -- res = 0.83180E+05, tol = 0.47581E+04, time = 1.77 | CG iter. 7 -- res = 0.44066E+05, tol = 0.47581E+04, time = 1.79 | CG iter. 8 -- res = 0.20886E+05, tol = 0.47581E+04, time = 1.77 | CG iter. 9 -- res = 0.91967E+04, tol = 0.47581E+04, time = 1.78 | CG iter. 10 -- res = 0.38182E+04, tol = 0.47581E+04, time = 1.74 | CG iter. 11 -- res = 0.17458E+04, tol = 0.47581E+04, time = 1.81 | CG iter. 12 -- res = 0.88789E+03, tol = 0.47581E+04, time = 1.77 | CG iter. 13 -- res = 0.49632E+03, tol = 0.47581E+04, time = 1.79 | CG iter. 14 -- res = 0.27808E+03, tol = 0.47581E+04, time = 1.71 | CG iter. 15 -- res = 0.14693E+03, tol = 0.47581E+04, time = 1.75 | CG iter. 16 -- res = 0.69775E+02, tol = 0.47581E+04, time = 1.73 | CG iter. 17 -- res = 0.32805E+02, tol = 0.47581E+04, time = 1.77 | CG iter. 18 -- res = 0.16731E+02, tol = 0.47581E+04, time = 1.81 | CG iter. 19 -- res = 0.93486E+01, tol = 0.47581E+04, time = 1.78 | CG iter. 20 -- res = 0.52510E+01, tol = 0.47581E+04, time = 1.73 | CG iter. 21 -- res = 0.28394E+01, tol = 0.47581E+04, time = 1.80 | CG iter. 22 -- res = 0.14494E+01, tol = 0.47581E+04, time = 1.75 | CG iter. 23 -- res = 0.71856E+00, tol = 0.47581E+04, time = 1.75 | CG iter. 24 -- res = 0.37024E+00, tol = 0.47581E+04, time = 1.77 | CG iter. 25 -- res = 0.20257E+00, tol = 0.47581E+04, time = 1.76 | CG iter. 26 -- res = 0.11675E+00, tol = 0.47581E+04, time = 1.79 | CG iter. 27 -- res = 0.65945E-01, tol = 0.47581E+04, time = 1.79 | CG iter. 28 -- res = 0.35153E-01, tol = 0.47581E+04, time = 1.81 | CG iter. 29 -- res = 0.18654E-01, tol = 0.47581E+04, time = 1.74 | CG iter. 30 -- res = 0.97156E-02, tol = 0.47581E+04, time = 1.77 | CG iter. 31 -- res = 0.52304E-02, tol = 0.47581E+04, time = 1.79 | CG iter. 32 -- res = 0.29923E-02, tol = 0.47581E+04, time = 1.74 | CG iter. 33 -- res = 0.16739E-02, tol = 0.47581E+04, time = 1.79 | CG iter. 34 -- res = 0.90138E-03, tol = 0.47581E+04, time = 1.76 | CG iter. 35 -- res = 0.46877E-03, tol = 0.47581E+04, time = 1.77 | Final CG iter 36 -- res = 0.46877E-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) -0.634 2.748 | New value -0.666 | Old value -0.634 | Difference -0.032 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 4.11 | CG iter. 1 -- res = 0.40762E+03, tol = 0.47627E+18, time = 0.41 | CG iter. 2 -- res = 0.83108E+01, tol = 0.47627E+18, time = 0.39 | CG iter. 3 -- res = 0.80706E-01, tol = 0.47627E+18, time = 0.38 | Final CG iter 4 -- res = 0.22879E-04, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10481280.927 | (Sampled value in CG: 10469761.288 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.723405 | New value = -3.680285 | poltype: 1 pol: 1 CPU time specind = 2.5539398E-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 = 4.12 | CG iter. 1 -- res = 0.20857E+07, tol = 0.11644E+01, time = 0.66 | CG iter. 2 -- res = 0.50156E+05, tol = 0.11644E+01, time = 0.68 | CG iter. 3 -- res = 0.35001E+05, tol = 0.11644E+01, time = 0.69 | CG iter. 4 -- res = 0.10012E+05, tol = 0.11644E+01, time = 0.71 | CG iter. 5 -- res = 0.30938E+04, tol = 0.11644E+01, time = 0.70 | CG iter. 6 -- res = 0.99663E+03, tol = 0.11644E+01, time = 0.68 | CG iter. 7 -- res = 0.35430E+03, tol = 0.11644E+01, time = 0.69 | CG iter. 8 -- res = 0.16914E+03, tol = 0.11644E+01, time = 0.66 | CG iter. 9 -- res = 0.72325E+02, tol = 0.11644E+01, time = 0.63 | CG iter. 10 -- res = 0.23801E+02, tol = 0.11644E+01, time = 0.67 | CG iter. 11 -- res = 0.99491E+01, tol = 0.11644E+01, time = 0.66 | CG iter. 12 -- res = 0.39180E+01, tol = 0.11644E+01, time = 0.68 | CG iter. 13 -- res = 0.11743E+01, tol = 0.11644E+01, time = 0.64 | CG iter. 14 -- res = 0.36318E+00, tol = 0.11644E+01, time = 0.65 | CG iter. 15 -- res = 0.16418E+00, tol = 0.11644E+01, time = 0.69 | CG iter. 16 -- res = 0.52159E-01, tol = 0.11644E+01, time = 0.66 | CG iter. 17 -- res = 0.18574E-01, tol = 0.11644E+01, time = 0.68 | CG iter. 18 -- res = 0.79605E-02, tol = 0.11644E+01, time = 0.64 | CG iter. 19 -- res = 0.26261E-02, tol = 0.11644E+01, time = 0.66 | CG iter. 20 -- res = 0.10395E-02, tol = 0.11644E+01, time = 0.65 | CG iter. 21 -- res = 0.39114E-03, tol = 0.11644E+01, time = 0.66 | CG iter. 22 -- res = 0.12740E-03, tol = 0.11644E+01, time = 0.62 | CG iter. 23 -- res = 0.46415E-04, tol = 0.11644E+01, time = 0.64 | CG iter. 24 -- res = 0.17077E-04, tol = 0.11644E+01, time = 0.70 | CG iter. 25 -- res = 0.48479E-05, tol = 0.11644E+01, time = 0.66 | CG iter. 26 -- res = 0.14554E-05, tol = 0.11644E+01, time = 0.64 | CG iter. 27 -- res = 0.55838E-06, tol = 0.11644E+01, time = 0.64 | CG iter. 28 -- res = 0.20330E-06, tol = 0.11644E+01, time = 0.65 | CG iter. 29 -- res = 0.60850E-07, tol = 0.11644E+01, time = 0.65 | CG iter. 30 -- res = 0.17931E-07, tol = 0.11644E+01, time = 0.71 | CG iter. 31 -- res = 0.65010E-08, tol = 0.11644E+01, time = 0.64 | CG iter. 32 -- res = 0.55012E-08, tol = 0.11644E+01, time = 0.65 | CG iter. 33 -- res = 0.16287E-08, tol = 0.11644E+01, time = 0.66 | CG iter. 34 -- res = 0.47686E-09, tol = 0.11644E+01, time = 0.67 | CG iter. 35 -- res = 0.14941E-09, tol = 0.11644E+01, time = 0.67 | CG iter. 36 -- res = 0.50667E-10, tol = 0.11644E+01, time = 0.68 | CG iter. 37 -- res = 0.19054E-10, tol = 0.11644E+01, time = 0.66 | CG iter. 38 -- res = 0.63269E-11, tol = 0.11644E+01, time = 0.65 | CG iter. 39 -- res = 0.57117E-11, tol = 0.11644E+01, time = 0.62 | CG iter. 40 -- res = 0.11181E-11, tol = 0.11644E+01, time = 0.61 | CG iter. 41 -- res = 0.31517E-12, tol = 0.11644E+01, time = 0.63 | CG iter. 42 -- res = 0.10548E-12, tol = 0.11644E+01, time = 0.66 | CG iter. 43 -- res = 0.33841E-13, tol = 0.11644E+01, time = 0.67 | CG iter. 44 -- res = 0.96980E-14, tol = 0.11644E+01, time = 0.65 | CG iter. 45 -- res = 0.35965E-14, tol = 0.11644E+01, time = 0.63 | CG iter. 46 -- res = 0.13385E-14, tol = 0.11644E+01, time = 0.67 | CG iter. 47 -- res = 0.41262E-15, tol = 0.11644E+01, time = 0.66 | CG iter. 48 -- res = 0.11546E-15, tol = 0.11644E+01, time = 0.67 | CG iter. 49 -- res = 0.33854E-16, tol = 0.11644E+01, time = 0.66 | CG iter. 50 -- res = 0.10704E-16, tol = 0.11644E+01, time = 0.66 | Final CG iter 51 -- res = 0.10704E-16, tol = 0.11644E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 2.424 2.634 | New value 2.704 | Old value 2.424 | Difference 0.279 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 4.12 | CG iter. 1 -- res = 0.13453E+03, tol = 0.47627E+18, time = 0.35 | CG iter. 2 -- res = 0.58617E+01, tol = 0.47627E+18, time = 0.40 | CG iter. 3 -- res = 0.22743E-01, tol = 0.47627E+18, time = 0.39 | Final CG iter 4 -- res = 0.41866E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10481280.927 | (Sampled value in CG: 10476153.848 ) | CPU time specind = 275.9078 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 4.12 | CG iter. 1 -- res = 0.68233E+08, tol = 0.51521E+04, time = 3.16 | CG iter. 2 -- res = 0.32961E+08, tol = 0.51521E+04, time = 3.17 | CG iter. 3 -- res = 0.57412E+07, tol = 0.51521E+04, time = 3.13 | CG iter. 4 -- res = 0.29380E+07, tol = 0.51521E+04, time = 3.18 | CG iter. 5 -- res = 0.13217E+07, tol = 0.51521E+04, time = 3.24 | CG iter. 6 -- res = 0.71614E+06, tol = 0.51521E+04, time = 3.33 | CG iter. 7 -- res = 0.39002E+06, tol = 0.51521E+04, time = 3.19 | CG iter. 8 -- res = 0.19769E+06, tol = 0.51521E+04, time = 3.15 | CG iter. 9 -- res = 0.98671E+05, tol = 0.51521E+04, time = 3.13 | CG iter. 10 -- res = 0.44581E+05, tol = 0.51521E+04, time = 3.20 | CG iter. 11 -- res = 0.22380E+05, tol = 0.51521E+04, time = 3.13 | CG iter. 12 -- res = 0.12387E+05, tol = 0.51521E+04, time = 3.15 | CG iter. 13 -- res = 0.75849E+04, tol = 0.51521E+04, time = 3.10 | CG iter. 14 -- res = 0.52387E+04, tol = 0.51521E+04, time = 3.16 | CG iter. 15 -- res = 0.35509E+04, tol = 0.51521E+04, time = 3.19 | CG iter. 16 -- res = 0.25788E+04, tol = 0.51521E+04, time = 3.20 | CG iter. 17 -- res = 0.20103E+04, tol = 0.51521E+04, time = 3.27 | CG iter. 18 -- res = 0.18221E+04, tol = 0.51521E+04, time = 3.18 | CG iter. 19 -- res = 0.19133E+04, tol = 0.51521E+04, time = 3.10 | CG iter. 20 -- res = 0.21712E+04, tol = 0.51521E+04, time = 3.12 | CG iter. 21 -- res = 0.23695E+04, tol = 0.51521E+04, time = 3.21 | CG iter. 22 -- res = 0.21873E+04, tol = 0.51521E+04, time = 3.17 | CG iter. 23 -- res = 0.18052E+04, tol = 0.51521E+04, time = 3.14 | CG iter. 24 -- res = 0.14935E+04, tol = 0.51521E+04, time = 3.27 | CG iter. 25 -- res = 0.13188E+04, tol = 0.51521E+04, time = 3.18 | CG iter. 26 -- res = 0.11744E+04, tol = 0.51521E+04, time = 3.13 | CG iter. 27 -- res = 0.96668E+03, tol = 0.51521E+04, time = 3.20 | CG iter. 28 -- res = 0.75342E+03, tol = 0.51521E+04, time = 3.22 | CG iter. 29 -- res = 0.62558E+03, tol = 0.51521E+04, time = 3.14 | CG iter. 30 -- res = 0.61895E+03, tol = 0.51521E+04, time = 3.22 | CG iter. 31 -- res = 0.67947E+03, tol = 0.51521E+04, time = 3.16 | CG iter. 32 -- res = 0.73039E+03, tol = 0.51521E+04, time = 3.21 | CG iter. 33 -- res = 0.68746E+03, tol = 0.51521E+04, time = 3.17 | CG iter. 34 -- res = 0.59850E+03, tol = 0.51521E+04, time = 3.18 | CG iter. 35 -- res = 0.55512E+03, tol = 0.51521E+04, time = 3.25 | CG iter. 36 -- res = 0.56831E+03, tol = 0.51521E+04, time = 3.24 | CG iter. 37 -- res = 0.59738E+03, tol = 0.51521E+04, time = 3.21 | CG iter. 38 -- res = 0.57117E+03, tol = 0.51521E+04, time = 3.27 | CG iter. 39 -- res = 0.50465E+03, tol = 0.51521E+04, time = 3.25 | CG iter. 40 -- res = 0.46870E+03, tol = 0.51521E+04, time = 3.22 | CG iter. 41 -- res = 0.49602E+03, tol = 0.51521E+04, time = 3.19 | CG iter. 42 -- res = 0.56278E+03, tol = 0.51521E+04, time = 3.22 | CG iter. 43 -- res = 0.60759E+03, tol = 0.51521E+04, time = 3.15 | CG iter. 44 -- res = 0.59587E+03, tol = 0.51521E+04, time = 3.20 | CG iter. 45 -- res = 0.56378E+03, tol = 0.51521E+04, time = 3.16 | CG iter. 46 -- res = 0.57130E+03, tol = 0.51521E+04, time = 3.12 | CG iter. 47 -- res = 0.61576E+03, tol = 0.51521E+04, time = 3.15 | CG iter. 48 -- res = 0.64160E+03, tol = 0.51521E+04, time = 3.25 | CG iter. 49 -- res = 0.60892E+03, tol = 0.51521E+04, time = 3.25 | CG iter. 50 -- res = 0.54904E+03, tol = 0.51521E+04, time = 3.23 | CG iter. 51 -- res = 0.52170E+03, tol = 0.51521E+04, time = 3.15 | CG iter. 52 -- res = 0.54575E+03, tol = 0.51521E+04, time = 3.15 | CG iter. 53 -- res = 0.57703E+03, tol = 0.51521E+04, time = 3.09 | CG iter. 54 -- res = 0.57549E+03, tol = 0.51521E+04, time = 3.10 | CG iter. 55 -- res = 0.53811E+03, tol = 0.51521E+04, time = 3.16 | CG iter. 56 -- res = 0.50671E+03, tol = 0.51521E+04, time = 3.17 | CG iter. 57 -- res = 0.50484E+03, tol = 0.51521E+04, time = 3.20 | CG iter. 58 -- res = 0.52654E+03, tol = 0.51521E+04, time = 3.28 | CG iter. 59 -- res = 0.53248E+03, tol = 0.51521E+04, time = 3.20 | CG iter. 60 -- res = 0.49385E+03, tol = 0.51521E+04, time = 3.18 | Final CG iter 61 -- res = 0.49385E+03, tol = 0.51521E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 2.649 ( -231.149 -2232.591 2514.966 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 7417435.501 | Old band monopole 10481326.009 | Change to band monopole -3063890.508 | Change to component monopole 3063877.329 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -0.662 2.739 | New value -0.899 | Old value -0.662 | Difference -0.237 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -3.884 ( 7.839 10.255 -10.391 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 15.423 2.285 | New value -3.448 | Old value 15.423 | Difference -18.871 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 4.10 | CG iter. 1 -- res = 0.27949E+05, tol = 0.47627E+18, time = 0.40 | CG iter. 2 -- res = 0.58277E+02, tol = 0.47627E+18, time = 0.37 | CG iter. 3 -- res = 0.16401E+01, tol = 0.47627E+18, time = 0.39 | CG iter. 4 -- res = 0.42862E-03, tol = 0.47627E+18, time = 0.40 | Final CG iter 5 -- res = 0.14250E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7417403.597 | (Sampled value in CG: 7353764.948 ) | Chain = 1 -- chisq = 0.61744906E+09 | Chain = 1 -- wall time = 4692.095 sec --------------------------------------------------------------------- | Chain = 1 -- Iteration = 41 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18088308392522 | --> Sampling calibration, mode = relcal | relcal = -7.4376538E-02 -5.8041397E-02 9.1185585E-02 4.1232351E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -4.3618897E-05 3.3663523E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.1117E-04 | 2: delta_r/delta_0: 2.8459E-06 | 3: delta_s/delta_0: 2.1702E-07 | 4: delta_r/delta_0: 1.7076E-08 | 5: delta_s/delta_0: 4.0311E-09 | 6: delta_r/delta_0: 1.5285E-09 | 7: delta_s/delta_0: 6.8001E-10 | 8: delta_r/delta_0: 8.0559E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 6.748582499752959E-004 2.741468888610393E-005 | BP delta = 5.6877197E-03 1.1958717E-02 29859938.5226687 | BP delta = 4.7151875E-03 1.0986185E-02 29859938.0541697 | 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 = 1.02552394 | --> Sampling calibration, mode = relcal | relcal = -0.1065788 -9.5498353E-02 0.1448228 5.7254404E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.1954537E-03 1.3586496E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.0006E-03 | 2: delta_r/delta_0: 4.4051E-05 | 3: delta_s/delta_0: 1.5227E-05 | 4: delta_r/delta_0: 1.2781E-06 | 5: delta_s/delta_0: 9.6208E-06 | 6: delta_r/delta_0: 7.0193E-07 | 7: delta_s/delta_0: 7.7259E-09 | 8: delta_r/delta_0: 1.7408E-09 | 9: delta_s/delta_0: 1.0970E-09 | 10: delta_r/delta_0: 4.6939E-10 | 11: delta_s/delta_0: 1.8618E-10 | 12: delta_r/delta_0: 7.8234E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.935096713176630E-004 2.812115887562465E-005 | BP delta = -0.1908957 -0.1876580 34760341.8478473 | BP delta = -0.1930215 -0.1897838 34760341.6416162 | 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 = 0.81163926 | --> Sampling calibration, mode = relcal | relcal = 0.2952754 0.2246381 -0.2836125 -0.2363010 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.3054858E-03 3.9873477E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.7498E-03 | 2: delta_r/delta_0: 4.0323E-05 | 3: delta_s/delta_0: 3.3532E-05 | 4: delta_r/delta_0: 3.0783E-06 | 5: delta_s/delta_0: 2.1781E-06 | 6: delta_r/delta_0: 2.9435E-07 | 7: delta_s/delta_0: 6.3327E-08 | 8: delta_r/delta_0: 2.9038E-08 | 9: delta_s/delta_0: 7.1918E-07 | 10: delta_r/delta_0: 2.2190E-09 | 11: delta_s/delta_0: 8.6915E-10 | 12: delta_r/delta_0: 4.1427E-10 | 13: delta_s/delta_0: 1.9687E-09 | 14: delta_r/delta_0: 5.9439E-10 | 15: delta_s/delta_0: 3.3025E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.363820864588624E-002 4.024680490646301E-005 | BP delta = -9.1749415E-02 -0.1396297 43104186.6216213 | BP delta = -9.3730599E-02 -0.1416109 43104186.6153963 | 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 = 0.95840507 | --> Sampling calibration, mode = relcal | relcal = 0.1063521 0.1393463 -0.1100287 -0.1356697 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0956985E-02 1.2869072E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 5.5298E-04 | 2: delta_r/delta_0: 1.2694E-05 | 3: delta_s/delta_0: 2.5869E-06 | 4: delta_r/delta_0: 3.2333E-07 | 5: delta_s/delta_0: 6.9871E-07 | 6: delta_r/delta_0: 1.3474E-07 | 7: delta_s/delta_0: 6.0969E-08 | 8: delta_r/delta_0: 3.6805E-08 | 9: delta_s/delta_0: 2.0067E-06 | 10: delta_r/delta_0: 2.0916E-08 | 11: delta_s/delta_0: 3.9062E-09 | 12: delta_r/delta_0: 5.9250E-10 | 13: delta_s/delta_0: 2.2123E-09 | 14: delta_r/delta_0: 1.1383E-09 | 15: delta_s/delta_0: 3.5748E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.455721433515394E-002 3.700013806224375E-005 | BP delta = 0.2922193 0.3220360 43044018.2745763 | BP delta = 0.2991051 0.3289217 43044018.5887816 | 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 = 0.52112070 | --> Sampling calibration, mode = relcal | relcal = -5.1043656E-02 -3.7502337E-03 2.7303681E-02 2.7490208E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.4063467E-04 1.7149788E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 7.5293E-05 | 2: delta_r/delta_0: 4.2966E-06 | 3: delta_s/delta_0: 5.1256E-07 | 4: delta_r/delta_0: 1.5707E-07 | 5: delta_s/delta_0: 1.6403E-07 | 6: delta_r/delta_0: 2.4006E-08 | 7: delta_s/delta_0: 2.0214E-08 | 8: delta_r/delta_0: 1.1387E-08 | 9: delta_s/delta_0: 5.1481E-08 | 10: delta_r/delta_0: 3.2281E-09 | 11: delta_s/delta_0: 6.8518E-10 | 12: delta_r/delta_0: 2.2538E-10 | 13: delta_s/delta_0: 1.1061E-09 | 14: delta_r/delta_0: 2.3871E-10 | 15: delta_s/delta_0: 2.4120E-10 | 16: delta_r/delta_0: 9.1911E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.112104770611183E-002 5.488144551137857E-005 | BP delta = -4.0146567E-02 3.4757849E-02 61510275.2478926 | BP delta = -6.4169146E-02 1.0735271E-02 61510275.2169010 | 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 = 0.42118144 | --> Sampling calibration, mode = relcal | relcal = 4.5628816E-02 3.9670438E-02 -2.8341996E-02 -5.6957260E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.2130664E-03 5.0657224E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.5994E-05 | 2: delta_r/delta_0: 3.7583E-06 | 3: delta_s/delta_0: 2.0197E-04 | 4: delta_r/delta_0: 1.6256E-05 | 5: delta_s/delta_0: 5.8157E-08 | 6: delta_r/delta_0: 3.3638E-08 | 7: delta_s/delta_0: 2.4331E-08 | 8: delta_r/delta_0: 1.1897E-08 | 9: delta_s/delta_0: 2.8801E-08 | 10: delta_r/delta_0: 6.7223E-10 | 11: delta_s/delta_0: 5.0563E-09 | 12: delta_r/delta_0: 2.6362E-09 | 13: delta_s/delta_0: 2.1090E-10 | 14: delta_r/delta_0: 7.7832E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.435326485713715E-002 5.000671333345090E-005 | BP delta = -9.9804029E-02 -0.1133420 61333461.9383664 | BP delta = -8.5063890E-02 -9.8601870E-02 61333461.8686438 | 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 = 0.28141586 | --> Sampling calibration, mode = relcal | relcal = 2.4150694E-02 4.5110516E-02 -2.3329770E-02 -4.5931440E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.4509663E-02 2.0120132E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.1057E-04 | 2: delta_r/delta_0: 9.0263E-06 | 3: delta_s/delta_0: 1.5210E-06 | 4: delta_r/delta_0: 2.0446E-07 | 5: delta_s/delta_0: 6.8939E-08 | 6: delta_r/delta_0: 1.7165E-08 | 7: delta_s/delta_0: 7.7371E-09 | 8: delta_r/delta_0: 4.9253E-09 | 9: delta_s/delta_0: 3.1342E-08 | 10: delta_r/delta_0: 4.8568E-09 | 11: delta_s/delta_0: 9.3717E-10 | 12: delta_r/delta_0: 1.9271E-10 | 13: delta_s/delta_0: 3.9900E-10 | 14: delta_r/delta_0: 1.1105E-10 | 15: delta_s/delta_0: 6.2737E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.170990701660898E-003 7.849245737855814E-005 | BP delta = 0.1223241 4.2313930E-02 94959351.8661557 | BP delta = 0.1151857 3.5175592E-02 94959351.8082497 | 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 = 0.29364126 | --> Sampling calibration, mode = relcal | relcal = 5.2889943E-04 1.0281370E-02 -3.7712061E-03 -7.0390636E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.6618647E-02 1.6263252E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.3824E-04 | 2: delta_r/delta_0: 1.1422E-05 | 3: delta_s/delta_0: 1.8057E-06 | 4: delta_r/delta_0: 2.8971E-07 | 5: delta_s/delta_0: 1.0325E-07 | 6: delta_r/delta_0: 2.3270E-08 | 7: delta_s/delta_0: 9.9391E-09 | 8: delta_r/delta_0: 6.5976E-09 | 9: delta_s/delta_0: 4.2251E-09 | 10: delta_r/delta_0: 1.4141E-09 | 11: delta_s/delta_0: 4.0522E-05 | 12: delta_r/delta_0: 3.8134E-08 | 13: delta_s/delta_0: 1.1939E-09 | 14: delta_r/delta_0: 1.5721E-10 | 15: delta_s/delta_0: 8.5033E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.722353208280007E-003 8.314817680467611E-005 | BP delta = -0.7308813 -0.7044199 93514404.5368127 | BP delta = -0.7401822 -0.7137207 93514404.4993810 | 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 = 0.26485073 | --> Sampling calibration, mode = relcal | relcal = -5.5895909E-03 1.5039335E-02 -2.3144684E-03 -7.1352758E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -2.1286868E-04 3.3628570E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4629E-04 | 2: delta_r/delta_0: 1.2441E-05 | 3: delta_s/delta_0: 2.0606E-06 | 4: delta_r/delta_0: 2.9602E-07 | 5: delta_s/delta_0: 1.1730E-07 | 6: delta_r/delta_0: 2.4080E-08 | 7: delta_s/delta_0: 9.4871E-09 | 8: delta_r/delta_0: 6.0738E-09 | 9: delta_s/delta_0: 5.5823E-09 | 10: delta_r/delta_0: 3.9212E-09 | 11: delta_s/delta_0: 7.9986E-07 | 12: delta_r/delta_0: 9.0437E-09 | 13: delta_s/delta_0: 9.7154E-09 | 14: delta_r/delta_0: 3.9165E-09 | 15: delta_s/delta_0: 6.5797E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -8.593540226518268E-003 9.161448474289295E-005 | BP delta = 0.1991194 0.2013925 94712459.1098234 | BP delta = 0.2073932 0.2096662 94712459.1148291 | 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 = 0.25642219 | --> Sampling calibration, mode = relcal | relcal = -3.1675730E-02 -2.5944596E-02 3.6874931E-02 2.0745397E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.5903761E-02 1.7257983E-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: 1.2279E-05 | 3: delta_s/delta_0: 1.8750E-06 | 4: delta_r/delta_0: 3.6276E-07 | 5: delta_s/delta_0: 1.3188E-07 | 6: delta_r/delta_0: 2.4735E-08 | 7: delta_s/delta_0: 1.0627E-08 | 8: delta_r/delta_0: 6.6101E-09 | 9: delta_s/delta_0: 6.3604E-09 | 10: delta_r/delta_0: 4.0983E-09 | 11: delta_s/delta_0: 5.7376E-07 | 12: delta_r/delta_0: 5.1449E-08 | 13: delta_s/delta_0: 4.6046E-10 | 14: delta_r/delta_0: 3.5359E-10 | 15: delta_s/delta_0: 2.7268E-10 | 16: delta_r/delta_0: 1.3897E-10 | 17: delta_s/delta_0: 1.0697E-10 | 18: delta_r/delta_0: 9.4442E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.454658726307687E-003 8.679334726655292E-005 | BP delta = -0.6096992 -0.6591132 93072735.7820941 | BP delta = -0.5991161 -0.6485301 93072735.7937144 | 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 = -3.126117 | New value = -3.155590 | poltype: 2 pol: 1 CPU time specind = 4.3690205E-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 = -3.166814 | New value = -3.144617 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.154593 | New value = -3.130117 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.119444 | New value = -3.183824 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.145443 | New value = -3.062727 | poltype: 2 pol: 2 CPU time specind = 1.9788742E-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 = 4.10 | CG iter. 1 -- res = 0.13525E+08, tol = 0.88845E+01, time = 1.59 | CG iter. 2 -- res = 0.48226E+05, tol = 0.88845E+01, time = 1.55 | CG iter. 3 -- res = 0.34348E+05, tol = 0.88845E+01, time = 1.55 | CG iter. 4 -- res = 0.13037E+05, tol = 0.88845E+01, time = 1.54 | CG iter. 5 -- res = 0.88494E+04, tol = 0.88845E+01, time = 1.54 | CG iter. 6 -- res = 0.85022E+04, tol = 0.88845E+01, time = 1.57 | CG iter. 7 -- res = 0.54968E+04, tol = 0.88845E+01, time = 1.55 | CG iter. 8 -- res = 0.47284E+04, tol = 0.88845E+01, time = 1.50 | CG iter. 9 -- res = 0.56515E+04, tol = 0.88845E+01, time = 1.49 | CG iter. 10 -- res = 0.63715E+04, tol = 0.88845E+01, time = 1.51 | CG iter. 11 -- res = 0.39527E+04, tol = 0.88845E+01, time = 1.52 | CG iter. 12 -- res = 0.29996E+04, tol = 0.88845E+01, time = 1.60 | CG iter. 13 -- res = 0.23749E+04, tol = 0.88845E+01, time = 1.54 | CG iter. 14 -- res = 0.16126E+04, tol = 0.88845E+01, time = 1.52 | CG iter. 15 -- res = 0.12890E+04, tol = 0.88845E+01, time = 1.58 | CG iter. 16 -- res = 0.91931E+03, tol = 0.88845E+01, time = 1.49 | CG iter. 17 -- res = 0.74337E+03, tol = 0.88845E+01, time = 1.50 | CG iter. 18 -- res = 0.65242E+03, tol = 0.88845E+01, time = 1.52 | CG iter. 19 -- res = 0.53149E+03, tol = 0.88845E+01, time = 1.51 | CG iter. 20 -- res = 0.40568E+03, tol = 0.88845E+01, time = 1.54 | CG iter. 21 -- res = 0.29271E+03, tol = 0.88845E+01, time = 1.57 | CG iter. 22 -- res = 0.24906E+03, tol = 0.88845E+01, time = 1.53 | CG iter. 23 -- res = 0.19664E+03, tol = 0.88845E+01, time = 1.55 | CG iter. 24 -- res = 0.18097E+03, tol = 0.88845E+01, time = 1.56 | CG iter. 25 -- res = 0.14667E+03, tol = 0.88845E+01, time = 1.54 | CG iter. 26 -- res = 0.12901E+03, tol = 0.88845E+01, time = 1.52 | CG iter. 27 -- res = 0.10754E+03, tol = 0.88845E+01, time = 1.51 | CG iter. 28 -- res = 0.89972E+02, tol = 0.88845E+01, time = 1.51 | CG iter. 29 -- res = 0.82436E+02, tol = 0.88845E+01, time = 1.53 | CG iter. 30 -- res = 0.76439E+02, tol = 0.88845E+01, time = 1.56 | CG iter. 31 -- res = 0.56958E+02, tol = 0.88845E+01, time = 1.54 | CG iter. 32 -- res = 0.49850E+02, tol = 0.88845E+01, time = 1.58 | CG iter. 33 -- res = 0.44455E+02, tol = 0.88845E+01, time = 1.57 | CG iter. 34 -- res = 0.37138E+02, tol = 0.88845E+01, time = 1.53 | CG iter. 35 -- res = 0.28334E+02, tol = 0.88845E+01, time = 1.54 | CG iter. 36 -- res = 0.23739E+02, tol = 0.88845E+01, time = 1.54 | CG iter. 37 -- res = 0.19122E+02, tol = 0.88845E+01, time = 1.53 | CG iter. 38 -- res = 0.14806E+02, tol = 0.88845E+01, time = 1.56 | CG iter. 39 -- res = 0.12369E+02, tol = 0.88845E+01, time = 1.56 | CG iter. 40 -- res = 0.15131E+02, tol = 0.88845E+01, time = 1.52 | CG iter. 41 -- res = 0.10654E+02, tol = 0.88845E+01, time = 1.49 | CG iter. 42 -- res = 0.63777E+01, tol = 0.88845E+01, time = 1.49 | CG iter. 43 -- res = 0.49061E+01, tol = 0.88845E+01, time = 1.54 | CG iter. 44 -- res = 0.52251E+01, tol = 0.88845E+01, time = 1.57 | CG iter. 45 -- res = 0.51293E+01, tol = 0.88845E+01, time = 1.59 | CG iter. 46 -- res = 0.29865E+01, tol = 0.88845E+01, time = 1.57 | CG iter. 47 -- res = 0.20532E+01, tol = 0.88845E+01, time = 1.61 | CG iter. 48 -- res = 0.15219E+01, tol = 0.88845E+01, time = 1.50 | CG iter. 49 -- res = 0.11349E+01, tol = 0.88845E+01, time = 1.51 | CG iter. 50 -- res = 0.85197E+00, tol = 0.88845E+01, time = 1.56 | Final CG iter 51 -- res = 0.85197E+00, tol = 0.88845E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 11960756.765 | Old band monopole 7417435.501 | Change to band monopole 4543321.263 | Change to component monopole -4543301.722 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 4.09 | CG iter. 1 -- res = 0.37298E+06, tol = 0.47627E+18, time = 0.40 | CG iter. 2 -- res = 0.17929E+02, tol = 0.47627E+18, time = 0.41 | CG iter. 3 -- res = 0.59400E+00, tol = 0.47627E+18, time = 0.36 | CG iter. 4 -- res = 0.18077E-02, tol = 0.47627E+18, time = 0.34 | Final CG iter 5 -- res = 0.57336E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 11960705.319 | (Sampled value in CG: 11940785.826 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.495924 | New value = 1.461015 | poltype: 2 pol: 1 CPU time specind = 4.7090054E-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 = 1.465195 | New value = 1.552090 | poltype: 2 pol: 2 CPU time specind = 2.0148754E-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 = 4.10 | CG iter. 1 -- res = 0.24323E+08, tol = 0.47501E+04, time = 1.75 | CG iter. 2 -- res = 0.55212E+07, tol = 0.47501E+04, time = 1.77 | CG iter. 3 -- res = 0.86156E+06, tol = 0.47501E+04, time = 1.79 | CG iter. 4 -- res = 0.35804E+06, tol = 0.47501E+04, time = 1.70 | CG iter. 5 -- res = 0.15209E+06, tol = 0.47501E+04, time = 1.77 | CG iter. 6 -- res = 0.79791E+05, tol = 0.47501E+04, time = 1.78 | CG iter. 7 -- res = 0.44105E+05, tol = 0.47501E+04, time = 1.73 | CG iter. 8 -- res = 0.21383E+05, tol = 0.47501E+04, time = 1.73 | CG iter. 9 -- res = 0.95197E+04, tol = 0.47501E+04, time = 1.77 | CG iter. 10 -- res = 0.38197E+04, tol = 0.47501E+04, time = 1.76 | CG iter. 11 -- res = 0.17294E+04, tol = 0.47501E+04, time = 1.75 | CG iter. 12 -- res = 0.87670E+03, tol = 0.47501E+04, time = 1.73 | CG iter. 13 -- res = 0.48460E+03, tol = 0.47501E+04, time = 1.76 | CG iter. 14 -- res = 0.27311E+03, tol = 0.47501E+04, time = 1.76 | CG iter. 15 -- res = 0.14375E+03, tol = 0.47501E+04, time = 1.74 | CG iter. 16 -- res = 0.68605E+02, tol = 0.47501E+04, time = 1.81 | CG iter. 17 -- res = 0.31776E+02, tol = 0.47501E+04, time = 1.74 | CG iter. 18 -- res = 0.15746E+02, tol = 0.47501E+04, time = 1.74 | CG iter. 19 -- res = 0.84120E+01, tol = 0.47501E+04, time = 1.77 | CG iter. 20 -- res = 0.47916E+01, tol = 0.47501E+04, time = 1.74 | CG iter. 21 -- res = 0.26678E+01, tol = 0.47501E+04, time = 1.77 | CG iter. 22 -- res = 0.13897E+01, tol = 0.47501E+04, time = 1.81 | CG iter. 23 -- res = 0.70160E+00, tol = 0.47501E+04, time = 1.79 | CG iter. 24 -- res = 0.35678E+00, tol = 0.47501E+04, time = 1.79 | CG iter. 25 -- res = 0.19495E+00, tol = 0.47501E+04, time = 1.78 | CG iter. 26 -- res = 0.10941E+00, tol = 0.47501E+04, time = 1.81 | CG iter. 27 -- res = 0.62392E-01, tol = 0.47501E+04, time = 1.78 | CG iter. 28 -- res = 0.34031E-01, tol = 0.47501E+04, time = 1.74 | CG iter. 29 -- res = 0.18066E-01, tol = 0.47501E+04, time = 1.79 | CG iter. 30 -- res = 0.93726E-02, tol = 0.47501E+04, time = 1.79 | CG iter. 31 -- res = 0.49886E-02, tol = 0.47501E+04, time = 1.79 | CG iter. 32 -- res = 0.28162E-02, tol = 0.47501E+04, time = 1.73 | CG iter. 33 -- res = 0.15929E-02, tol = 0.47501E+04, time = 1.78 | CG iter. 34 -- res = 0.84422E-03, tol = 0.47501E+04, time = 1.77 | CG iter. 35 -- res = 0.44549E-03, tol = 0.47501E+04, time = 1.77 | Final CG iter 36 -- res = 0.44549E-03, tol = 0.47501E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -0.877 2.755 | New value -7.161 | Old value -0.877 | Difference -6.284 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 4.10 | CG iter. 1 -- res = 0.20407E+07, tol = 0.47627E+18, time = 0.38 | CG iter. 2 -- res = 0.15823E+02, tol = 0.47627E+18, time = 0.38 | CG iter. 3 -- res = 0.32296E+00, tol = 0.47627E+18, time = 0.38 | Final CG iter 4 -- res = 0.23442E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 11960705.319 | (Sampled value in CG: 11941403.094 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.680285 | New value = -3.518456 | poltype: 1 pol: 1 CPU time specind = 2.8259754E-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 = 4.09 | CG iter. 1 -- res = 0.20952E+07, tol = 0.13575E+01, time = 0.66 | CG iter. 2 -- res = 0.42752E+05, tol = 0.13575E+01, time = 0.64 | CG iter. 3 -- res = 0.37139E+05, tol = 0.13575E+01, time = 0.68 | CG iter. 4 -- res = 0.92586E+04, tol = 0.13575E+01, time = 0.65 | CG iter. 5 -- res = 0.29821E+04, tol = 0.13575E+01, time = 0.67 | CG iter. 6 -- res = 0.11876E+04, tol = 0.13575E+01, time = 0.65 | CG iter. 7 -- res = 0.48448E+03, tol = 0.13575E+01, time = 0.67 | CG iter. 8 -- res = 0.26033E+03, tol = 0.13575E+01, time = 0.65 | CG iter. 9 -- res = 0.77413E+02, tol = 0.13575E+01, time = 0.65 | CG iter. 10 -- res = 0.22926E+02, tol = 0.13575E+01, time = 0.63 | CG iter. 11 -- res = 0.10780E+02, tol = 0.13575E+01, time = 0.67 | CG iter. 12 -- res = 0.38135E+01, tol = 0.13575E+01, time = 0.63 | CG iter. 13 -- res = 0.11703E+01, tol = 0.13575E+01, time = 0.65 | CG iter. 14 -- res = 0.48495E+00, tol = 0.13575E+01, time = 0.63 | CG iter. 15 -- res = 0.17048E+00, tol = 0.13575E+01, time = 0.63 | CG iter. 16 -- res = 0.55377E-01, tol = 0.13575E+01, time = 0.63 | CG iter. 17 -- res = 0.21834E-01, tol = 0.13575E+01, time = 0.64 | CG iter. 18 -- res = 0.95919E-02, tol = 0.13575E+01, time = 0.60 | CG iter. 19 -- res = 0.39275E-02, tol = 0.13575E+01, time = 0.62 | CG iter. 20 -- res = 0.13528E-02, tol = 0.13575E+01, time = 0.61 | CG iter. 21 -- res = 0.42604E-03, tol = 0.13575E+01, time = 0.62 | CG iter. 22 -- res = 0.13886E-03, tol = 0.13575E+01, time = 0.68 | CG iter. 23 -- res = 0.55278E-04, tol = 0.13575E+01, time = 0.65 | CG iter. 24 -- res = 0.18396E-04, tol = 0.13575E+01, time = 0.63 | CG iter. 25 -- res = 0.52484E-05, tol = 0.13575E+01, time = 0.65 | CG iter. 26 -- res = 0.16903E-05, tol = 0.13575E+01, time = 0.65 | CG iter. 27 -- res = 0.65144E-06, tol = 0.13575E+01, time = 0.65 | CG iter. 28 -- res = 0.24111E-06, tol = 0.13575E+01, time = 0.65 | CG iter. 29 -- res = 0.73854E-07, tol = 0.13575E+01, time = 0.66 | CG iter. 30 -- res = 0.21950E-07, tol = 0.13575E+01, time = 0.64 | CG iter. 31 -- res = 0.68136E-08, tol = 0.13575E+01, time = 0.64 | CG iter. 32 -- res = 0.46679E-08, tol = 0.13575E+01, time = 0.64 | CG iter. 33 -- res = 0.19267E-08, tol = 0.13575E+01, time = 0.70 | CG iter. 34 -- res = 0.48161E-09, tol = 0.13575E+01, time = 0.61 | CG iter. 35 -- res = 0.14369E-09, tol = 0.13575E+01, time = 0.69 | CG iter. 36 -- res = 0.92952E-10, tol = 0.13575E+01, time = 0.64 | CG iter. 37 -- res = 0.42994E-10, tol = 0.13575E+01, time = 0.68 | CG iter. 38 -- res = 0.11774E-10, tol = 0.13575E+01, time = 0.65 | CG iter. 39 -- res = 0.42107E-11, tol = 0.13575E+01, time = 0.65 | CG iter. 40 -- res = 0.11290E-11, tol = 0.13575E+01, time = 0.64 | CG iter. 41 -- res = 0.34347E-12, tol = 0.13575E+01, time = 0.62 | CG iter. 42 -- res = 0.11656E-12, tol = 0.13575E+01, time = 0.62 | CG iter. 43 -- res = 0.38077E-13, tol = 0.13575E+01, time = 0.63 | CG iter. 44 -- res = 0.12672E-13, tol = 0.13575E+01, time = 0.62 | CG iter. 45 -- res = 0.44887E-14, tol = 0.13575E+01, time = 0.66 | CG iter. 46 -- res = 0.13994E-14, tol = 0.13575E+01, time = 0.66 | CG iter. 47 -- res = 0.45360E-15, tol = 0.13575E+01, time = 0.65 | CG iter. 48 -- res = 0.12819E-15, tol = 0.13575E+01, time = 0.65 | CG iter. 49 -- res = 0.37676E-16, tol = 0.13575E+01, time = 0.64 | CG iter. 50 -- res = 0.13257E-16, tol = 0.13575E+01, time = 0.70 | Final CG iter 51 -- res = 0.13257E-16, tol = 0.13575E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -4.901 2.540 | New value 2.334 | Old value -4.901 | Difference 7.234 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 4.09 | CG iter. 1 -- res = 0.35044E+05, tol = 0.47627E+18, time = 0.40 | CG iter. 2 -- res = 0.17934E+02, tol = 0.47627E+18, time = 0.38 | CG iter. 3 -- res = 0.24108E+00, tol = 0.47627E+18, time = 0.35 | CG iter. 4 -- res = 0.10260E-03, tol = 0.47627E+18, time = 0.40 | Final CG iter 5 -- res = 0.57990E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 11960705.319 | (Sampled value in CG: 11946689.647 ) | CPU time specind = 275.1967 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 4.08 | CG iter. 1 -- res = 0.68631E+08, tol = 0.51377E+04, time = 3.02 | CG iter. 2 -- res = 0.33121E+08, tol = 0.51377E+04, time = 3.04 | CG iter. 3 -- res = 0.58126E+07, tol = 0.51377E+04, time = 3.04 | CG iter. 4 -- res = 0.29506E+07, tol = 0.51377E+04, time = 3.03 | CG iter. 5 -- res = 0.13031E+07, tol = 0.51377E+04, time = 3.06 | CG iter. 6 -- res = 0.71153E+06, tol = 0.51377E+04, time = 3.17 | CG iter. 7 -- res = 0.39354E+06, tol = 0.51377E+04, time = 3.11 | CG iter. 8 -- res = 0.20042E+06, tol = 0.51377E+04, time = 3.18 | CG iter. 9 -- res = 0.99552E+05, tol = 0.51377E+04, time = 3.14 | CG iter. 10 -- res = 0.45224E+05, tol = 0.51377E+04, time = 3.14 | CG iter. 11 -- res = 0.23148E+05, tol = 0.51377E+04, time = 3.06 | CG iter. 12 -- res = 0.13410E+05, tol = 0.51377E+04, time = 3.13 | CG iter. 13 -- res = 0.88041E+04, tol = 0.51377E+04, time = 3.13 | CG iter. 14 -- res = 0.64828E+04, tol = 0.51377E+04, time = 3.12 | CG iter. 15 -- res = 0.46776E+04, tol = 0.51377E+04, time = 3.15 | CG iter. 16 -- res = 0.36872E+04, tol = 0.51377E+04, time = 3.17 | CG iter. 17 -- res = 0.31802E+04, tol = 0.51377E+04, time = 3.17 | CG iter. 18 -- res = 0.31368E+04, tol = 0.51377E+04, time = 3.14 | CG iter. 19 -- res = 0.33807E+04, tol = 0.51377E+04, time = 3.14 | CG iter. 20 -- res = 0.36601E+04, tol = 0.51377E+04, time = 2.98 | CG iter. 21 -- res = 0.36098E+04, tol = 0.51377E+04, time = 3.11 | CG iter. 22 -- res = 0.30085E+04, tol = 0.51377E+04, time = 3.00 | CG iter. 23 -- res = 0.23334E+04, tol = 0.51377E+04, time = 3.16 | CG iter. 24 -- res = 0.18382E+04, tol = 0.51377E+04, time = 3.11 | CG iter. 25 -- res = 0.15437E+04, tol = 0.51377E+04, time = 3.12 | CG iter. 26 -- res = 0.13310E+04, tol = 0.51377E+04, time = 3.20 | CG iter. 27 -- res = 0.11085E+04, tol = 0.51377E+04, time = 3.06 | CG iter. 28 -- res = 0.91418E+03, tol = 0.51377E+04, time = 3.12 | CG iter. 29 -- res = 0.79997E+03, tol = 0.51377E+04, time = 3.09 | CG iter. 30 -- res = 0.80001E+03, tol = 0.51377E+04, time = 3.17 | CG iter. 31 -- res = 0.85721E+03, tol = 0.51377E+04, time = 3.19 | CG iter. 32 -- res = 0.90643E+03, tol = 0.51377E+04, time = 3.25 | CG iter. 33 -- res = 0.84949E+03, tol = 0.51377E+04, time = 3.34 | CG iter. 34 -- res = 0.74156E+03, tol = 0.51377E+04, time = 3.18 | CG iter. 35 -- res = 0.66713E+03, tol = 0.51377E+04, time = 3.14 | CG iter. 36 -- res = 0.65762E+03, tol = 0.51377E+04, time = 3.19 | CG iter. 37 -- res = 0.68085E+03, tol = 0.51377E+04, time = 3.14 | CG iter. 38 -- res = 0.66124E+03, tol = 0.51377E+04, time = 3.13 | CG iter. 39 -- res = 0.60987E+03, tol = 0.51377E+04, time = 3.14 | CG iter. 40 -- res = 0.57455E+03, tol = 0.51377E+04, time = 3.08 | CG iter. 41 -- res = 0.59797E+03, tol = 0.51377E+04, time = 3.11 | CG iter. 42 -- res = 0.67358E+03, tol = 0.51377E+04, time = 3.10 | CG iter. 43 -- res = 0.72912E+03, tol = 0.51377E+04, time = 3.21 | CG iter. 44 -- res = 0.72244E+03, tol = 0.51377E+04, time = 3.21 | CG iter. 45 -- res = 0.67237E+03, tol = 0.51377E+04, time = 3.16 | CG iter. 46 -- res = 0.64333E+03, tol = 0.51377E+04, time = 3.25 | CG iter. 47 -- res = 0.65175E+03, tol = 0.51377E+04, time = 3.22 | CG iter. 48 -- res = 0.67322E+03, tol = 0.51377E+04, time = 3.16 | CG iter. 49 -- res = 0.65718E+03, tol = 0.51377E+04, time = 3.17 | CG iter. 50 -- res = 0.60251E+03, tol = 0.51377E+04, time = 3.26 | CG iter. 51 -- res = 0.56073E+03, tol = 0.51377E+04, time = 3.15 | CG iter. 52 -- res = 0.56117E+03, tol = 0.51377E+04, time = 3.15 | CG iter. 53 -- res = 0.60193E+03, tol = 0.51377E+04, time = 3.19 | CG iter. 54 -- res = 0.62335E+03, tol = 0.51377E+04, time = 3.12 | CG iter. 55 -- res = 0.58049E+03, tol = 0.51377E+04, time = 3.09 | CG iter. 56 -- res = 0.52329E+03, tol = 0.51377E+04, time = 3.13 | CG iter. 57 -- res = 0.50496E+03, tol = 0.51377E+04, time = 3.14 | CG iter. 58 -- res = 0.52351E+03, tol = 0.51377E+04, time = 3.14 | CG iter. 59 -- res = 0.54002E+03, tol = 0.51377E+04, time = 3.09 | CG iter. 60 -- res = 0.50678E+03, tol = 0.51377E+04, time = 3.18 | Final CG iter 61 -- res = 0.50678E+03, tol = 0.51377E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 2.890 ( -230.737 -2234.195 2516.260 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 10254477.835 | Old band monopole 11960756.765 | Change to band monopole -1706278.930 | Change to component monopole 1706271.591 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -7.222 2.727 | New value -2.923 | Old value -7.222 | Difference 4.299 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -4.347 ( 8.380 12.434 -12.413 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 17.565 2.199 | New value -4.022 | Old value 17.565 | Difference -21.586 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 4.08 | CG iter. 1 -- res = 0.96409E+06, tol = 0.47627E+18, time = 0.36 | CG iter. 2 -- res = 0.78146E+02, tol = 0.47627E+18, time = 0.39 | CG iter. 3 -- res = 0.20848E+01, tol = 0.47627E+18, time = 0.36 | CG iter. 4 -- res = 0.66988E-03, tol = 0.47627E+18, time = 0.36 | Final CG iter 5 -- res = 0.10283E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10254433.728 | (Sampled value in CG: 10183793.982 ) | Chain = 1 -- chisq = 0.61689188E+09 | Chain = 1 -- wall time = 4112.175 sec --------------------------------------------------------------------- | Chain = 1 -- Iteration = 42 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18254569416988 | --> Sampling calibration, mode = relcal | relcal = -7.5151309E-02 -5.8735959E-02 9.2157811E-02 4.1729458E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.5892879E-05 4.8026280E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.1702E-05 | 2: delta_r/delta_0: 9.7970E-07 | 3: delta_s/delta_0: 1.9189E-07 | 4: delta_r/delta_0: 1.9572E-08 | 5: delta_s/delta_0: 6.8018E-09 | 6: delta_r/delta_0: 1.2479E-09 | 7: delta_s/delta_0: 7.2117E-09 | 8: delta_r/delta_0: 1.2338E-10 | 9: delta_s/delta_0: 7.0230E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 7.068436601113226E-004 2.737493777223247E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.1702E-05 | 2: delta_r/delta_0: 9.7971E-07 | 3: delta_s/delta_0: 1.9189E-07 | 4: delta_r/delta_0: 1.9572E-08 | 5: delta_s/delta_0: 6.8024E-09 | 6: delta_r/delta_0: 1.2481E-09 | 7: delta_s/delta_0: 7.2076E-09 | 8: delta_r/delta_0: 1.2336E-10 | 9: delta_s/delta_0: 7.0218E-11 | Reached bicg-stab tolerance | BP delta = 4.7151875E-03 1.0986185E-02 3759430.87100630 | BP delta = 4.7151875E-03 9.2233764E-03 3760568.46125660 | 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 = 1.02543259 | --> Sampling calibration, mode = relcal | relcal = -0.1065677 -9.5531717E-02 0.1449028 5.7196680E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.9921413E-03 1.2777860E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.0541E-02 | 2: delta_r/delta_0: 2.2913E-04 | 3: delta_s/delta_0: 1.4837E-06 | 4: delta_r/delta_0: 1.3639E-07 | 5: delta_s/delta_0: 1.7607E-07 | 6: delta_r/delta_0: 1.9771E-08 | 7: delta_s/delta_0: 1.2342E-08 | 8: delta_r/delta_0: 4.8048E-09 | 9: delta_s/delta_0: 2.8590E-09 | 10: delta_r/delta_0: 8.1646E-10 | 11: delta_s/delta_0: 8.3172E-10 | 12: delta_r/delta_0: 3.9798E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.650861094691473E-002 2.812373824500827E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.0541E-02 | 2: delta_r/delta_0: 2.2913E-04 | 3: delta_s/delta_0: 1.4837E-06 | 4: delta_r/delta_0: 1.3639E-07 | 5: delta_s/delta_0: 1.7607E-07 | 6: delta_r/delta_0: 1.9771E-08 | 7: delta_s/delta_0: 1.2342E-08 | 8: delta_r/delta_0: 4.8048E-09 | 9: delta_s/delta_0: 2.8590E-09 | 10: delta_r/delta_0: 8.1646E-10 | 11: delta_s/delta_0: 8.3172E-10 | 12: delta_r/delta_0: 3.9798E-11 | Reached bicg-stab tolerance | BP delta = -0.1930215 -0.1897838 2842058.79807124 | BP delta = -0.1930215 -0.1888724 2842054.50464207 | BP chisq diff = -4.3, accept = T | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81172230 | --> Sampling calibration, mode = relcal | relcal = 0.2950804 0.2247501 -0.2835301 -0.2363004 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 4.4265331E-04 5.8087758E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.0303E-03 | 2: delta_r/delta_0: 2.3560E-05 | 3: delta_s/delta_0: 1.3299E-04 | 4: delta_r/delta_0: 4.2722E-06 | 5: delta_s/delta_0: 1.5676E-05 | 6: delta_r/delta_0: 1.8649E-06 | 7: delta_s/delta_0: 4.9026E-08 | 8: delta_r/delta_0: 3.1041E-08 | 9: delta_s/delta_0: 6.3300E-07 | 10: delta_r/delta_0: 6.9214E-09 | 11: delta_s/delta_0: 1.7644E-09 | 12: delta_r/delta_0: 4.2112E-10 | 13: delta_s/delta_0: 8.8905E-10 | 14: delta_r/delta_0: 5.7404E-10 | 15: delta_s/delta_0: 2.8317E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.944719633745608E-002 4.024070732071887E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.0307E-03 | 2: delta_r/delta_0: 2.3570E-05 | 3: delta_s/delta_0: 1.3285E-04 | 4: delta_r/delta_0: 4.2663E-06 | 5: delta_s/delta_0: 1.5684E-05 | 6: delta_r/delta_0: 1.8656E-06 | 7: delta_s/delta_0: 4.9021E-08 | 8: delta_r/delta_0: 3.1055E-08 | 9: delta_s/delta_0: 6.3430E-07 | 10: delta_r/delta_0: 6.9143E-09 | 11: delta_s/delta_0: 1.7570E-09 | 12: delta_r/delta_0: 4.2140E-10 | 13: delta_s/delta_0: 8.9419E-10 | 14: delta_r/delta_0: 5.7709E-10 | 15: delta_s/delta_0: 2.8345E-11 | Reached bicg-stab tolerance | BP delta = -9.3730599E-02 -0.1416109 2827465.31442916 | BP delta = -9.3730599E-02 -0.1541356 2827548.49000256 | 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 = 0.95852408 | --> Sampling calibration, mode = relcal | relcal = 0.1065108 0.1395685 -0.1102338 -0.1358455 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0568739E-02 1.1515798E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.7310E-04 | 2: delta_r/delta_0: 6.2005E-06 | 3: delta_s/delta_0: 3.7323E-04 | 4: delta_r/delta_0: 2.6873E-05 | 5: delta_s/delta_0: 2.6470E-06 | 6: delta_r/delta_0: 5.0846E-07 | 7: delta_s/delta_0: 6.5309E-08 | 8: delta_r/delta_0: 3.7893E-08 | 9: delta_s/delta_0: 2.2899E-07 | 10: delta_r/delta_0: 2.5762E-09 | 11: delta_s/delta_0: 7.8062E-10 | 12: delta_r/delta_0: 4.9561E-10 | 13: delta_s/delta_0: 3.9897E-10 | 14: delta_r/delta_0: 5.9285E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.624394285772095E-002 3.699752950038635E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 2.7311E-04 | 2: delta_r/delta_0: 6.2006E-06 | 3: delta_s/delta_0: 3.7312E-04 | 4: delta_r/delta_0: 2.6864E-05 | 5: delta_s/delta_0: 2.6492E-06 | 6: delta_r/delta_0: 5.0883E-07 | 7: delta_s/delta_0: 6.5308E-08 | 8: delta_r/delta_0: 3.7890E-08 | 9: delta_s/delta_0: 2.2897E-07 | 10: delta_r/delta_0: 2.5766E-09 | 11: delta_s/delta_0: 7.8067E-10 | 12: delta_r/delta_0: 4.9564E-10 | 13: delta_s/delta_0: 3.9888E-10 | 14: delta_r/delta_0: 5.9273E-11 | Reached bicg-stab tolerance | BP delta = 0.2991051 0.3289217 3005261.27926565 | BP delta = 0.2991051 0.3262824 3005272.23982597 | 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 = 0.52117641 | --> Sampling calibration, mode = relcal | relcal = -5.0938789E-02 -3.7442523E-03 2.7281653E-02 2.7401388E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -3.5127799E-04 6.4636610E-04 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.9194E-05 | 2: delta_r/delta_0: 4.1776E-06 | 3: delta_s/delta_0: 2.4043E-06 | 4: delta_r/delta_0: 3.0503E-07 | 5: delta_s/delta_0: 5.7813E-08 | 6: delta_r/delta_0: 2.5557E-08 | 7: delta_s/delta_0: 3.9170E-07 | 8: delta_r/delta_0: 1.0800E-08 | 9: delta_s/delta_0: 3.7933E-09 | 10: delta_r/delta_0: 1.5372E-09 | 11: delta_s/delta_0: 1.4429E-09 | 12: delta_r/delta_0: 3.2573E-10 | 13: delta_s/delta_0: 7.2478E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.028623896874313E-002 5.487371772763006E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 6.9194E-05 | 2: delta_r/delta_0: 4.1776E-06 | 3: delta_s/delta_0: 2.4043E-06 | 4: delta_r/delta_0: 3.0503E-07 | 5: delta_s/delta_0: 5.7814E-08 | 6: delta_r/delta_0: 2.5557E-08 | 7: delta_s/delta_0: 3.9164E-07 | 8: delta_r/delta_0: 1.0798E-08 | 9: delta_s/delta_0: 3.7933E-09 | 10: delta_r/delta_0: 1.5372E-09 | 11: delta_s/delta_0: 1.4429E-09 | 12: delta_r/delta_0: 3.2579E-10 | 13: delta_s/delta_0: 7.2478E-11 | Reached bicg-stab tolerance | BP delta = -6.4169146E-02 1.0735271E-02 2436081.23784778 | BP delta = -6.4169146E-02 -3.6008731E-03 2436088.54301161 | 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 = 0.42119279 | --> Sampling calibration, mode = relcal | relcal = 4.5539826E-02 3.9548803E-02 -2.8221818E-02 -5.6866813E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.8299619E-03 3.9112363E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.0672E-05 | 2: delta_r/delta_0: 3.8220E-06 | 3: delta_s/delta_0: 2.5926E-06 | 4: delta_r/delta_0: 4.3146E-07 | 5: delta_s/delta_0: 6.0969E-08 | 6: delta_r/delta_0: 3.6344E-08 | 7: delta_s/delta_0: 3.3265E-08 | 8: delta_r/delta_0: 1.3846E-08 | 9: delta_s/delta_0: 3.0529E-09 | 10: delta_r/delta_0: 1.4723E-09 | 11: delta_s/delta_0: 7.7756E-10 | 12: delta_r/delta_0: 5.1967E-10 | 13: delta_s/delta_0: 2.6285E-09 | 14: delta_r/delta_0: 1.7389E-09 | 15: delta_s/delta_0: 2.2284E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.404856783473972E-002 5.000200291637957E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 6.0673E-05 | 2: delta_r/delta_0: 3.8220E-06 | 3: delta_s/delta_0: 2.5926E-06 | 4: delta_r/delta_0: 4.3147E-07 | 5: delta_s/delta_0: 6.0967E-08 | 6: delta_r/delta_0: 3.6343E-08 | 7: delta_s/delta_0: 3.3260E-08 | 8: delta_r/delta_0: 1.3846E-08 | 9: delta_s/delta_0: 3.0534E-09 | 10: delta_r/delta_0: 1.4724E-09 | 11: delta_s/delta_0: 7.7756E-10 | 12: delta_r/delta_0: 5.1949E-10 | 13: delta_s/delta_0: 2.6321E-09 | 14: delta_r/delta_0: 1.7404E-09 | 15: delta_s/delta_0: 2.2277E-11 | Reached bicg-stab tolerance | BP delta = -8.5063890E-02 -9.8601870E-02 2322610.70712457 | BP delta = -8.5063890E-02 -9.4791904E-02 2322757.40858756 | 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 = 0.28136373 | --> Sampling calibration, mode = relcal | relcal = 2.4184905E-02 4.5048073E-02 -2.3306170E-02 -4.5926806E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 8.2173226E-03 3.6584381E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.0760E-04 | 2: delta_r/delta_0: 8.8933E-06 | 3: delta_s/delta_0: 1.5039E-06 | 4: delta_r/delta_0: 2.0350E-07 | 5: delta_s/delta_0: 7.3759E-08 | 6: delta_r/delta_0: 1.7229E-08 | 7: delta_s/delta_0: 8.6220E-09 | 8: delta_r/delta_0: 4.9965E-09 | 9: delta_s/delta_0: 5.2636E-07 | 10: delta_r/delta_0: 7.4381E-09 | 11: delta_s/delta_0: 1.0412E-09 | 12: delta_r/delta_0: 3.3300E-10 | 13: delta_s/delta_0: 4.1115E-10 | 14: delta_r/delta_0: 2.6618E-10 | 15: delta_s/delta_0: 7.5934E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -8.649717798255083E-003 7.850503675598407E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.0760E-04 | 2: delta_r/delta_0: 8.8933E-06 | 3: delta_s/delta_0: 1.5039E-06 | 4: delta_r/delta_0: 2.0350E-07 | 5: delta_s/delta_0: 7.3760E-08 | 6: delta_r/delta_0: 1.7229E-08 | 7: delta_s/delta_0: 8.6219E-09 | 8: delta_r/delta_0: 4.9965E-09 | 9: delta_s/delta_0: 5.2635E-07 | 10: delta_r/delta_0: 7.4381E-09 | 11: delta_s/delta_0: 1.0412E-09 | 12: delta_r/delta_0: 3.3300E-10 | 13: delta_s/delta_0: 4.1116E-10 | 14: delta_r/delta_0: 2.6619E-10 | 15: delta_s/delta_0: 7.5935E-11 | Reached bicg-stab tolerance | BP delta = 0.1151857 3.5175592E-02 2490221.53313939 | BP delta = 0.1151857 1.4922567E-02 2490219.69303151 | BP chisq diff = -1.8, accept = T | | Finished processing 090-WMAP_W1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.29367700 | --> Sampling calibration, mode = relcal | relcal = 5.2332762E-04 1.0285414E-02 -3.8226272E-03 -6.9861142E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.4974793E-02 1.1982608E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.3082E-04 | 2: delta_r/delta_0: 1.1075E-05 | 3: delta_s/delta_0: 1.7105E-06 | 4: delta_r/delta_0: 2.8065E-07 | 5: delta_s/delta_0: 8.9163E-08 | 6: delta_r/delta_0: 2.1070E-08 | 7: delta_s/delta_0: 9.5143E-09 | 8: delta_r/delta_0: 6.2833E-09 | 9: delta_s/delta_0: 9.2659E-09 | 10: delta_r/delta_0: 4.5615E-09 | 11: delta_s/delta_0: 2.6251E-07 | 12: delta_r/delta_0: 1.0557E-07 | 13: delta_s/delta_0: 4.4292E-10 | 14: delta_r/delta_0: 2.3174E-10 | 15: delta_s/delta_0: 8.0407E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.098379937981953E-003 8.313586603221196E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.3082E-04 | 2: delta_r/delta_0: 1.1075E-05 | 3: delta_s/delta_0: 1.7105E-06 | 4: delta_r/delta_0: 2.8065E-07 | 5: delta_s/delta_0: 8.9166E-08 | 6: delta_r/delta_0: 2.1070E-08 | 7: delta_s/delta_0: 9.5143E-09 | 8: delta_r/delta_0: 6.2834E-09 | 9: delta_s/delta_0: 9.2660E-09 | 10: delta_r/delta_0: 4.5615E-09 | 11: delta_s/delta_0: 2.6270E-07 | 12: delta_r/delta_0: 1.0566E-07 | 13: delta_s/delta_0: 4.4295E-10 | 14: delta_r/delta_0: 2.3176E-10 | 15: delta_s/delta_0: 8.0407E-11 | Reached bicg-stab tolerance | BP delta = -0.7401822 -0.7137207 2737426.42869388 | BP delta = -0.7401822 -0.7128027 2737430.71081782 | 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 = 0.26484364 | --> Sampling calibration, mode = relcal | relcal = -5.6651761E-03 1.5022486E-02 -2.3609498E-03 -6.9963606E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.2101093E-04 3.4465455E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4224E-04 | 2: delta_r/delta_0: 1.2080E-05 | 3: delta_s/delta_0: 2.0386E-06 | 4: delta_r/delta_0: 2.3095E-07 | 5: delta_s/delta_0: 8.9723E-08 | 6: delta_r/delta_0: 1.8263E-08 | 7: delta_s/delta_0: 7.6571E-09 | 8: delta_r/delta_0: 4.8237E-09 | 9: delta_s/delta_0: 6.6157E-09 | 10: delta_r/delta_0: 3.9818E-09 | 11: delta_s/delta_0: 5.5722E-07 | 12: delta_r/delta_0: 1.3379E-07 | 13: delta_s/delta_0: 7.9723E-10 | 14: delta_r/delta_0: 4.3736E-10 | 15: delta_s/delta_0: 1.0357E-10 | 16: delta_r/delta_0: 8.2406E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -7.367505110468686E-003 9.161343060521246E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.4224E-04 | 2: delta_r/delta_0: 1.2080E-05 | 3: delta_s/delta_0: 2.0386E-06 | 4: delta_r/delta_0: 2.3094E-07 | 5: delta_s/delta_0: 8.9727E-08 | 6: delta_r/delta_0: 1.8263E-08 | 7: delta_s/delta_0: 7.6570E-09 | 8: delta_r/delta_0: 4.8236E-09 | 9: delta_s/delta_0: 6.6155E-09 | 10: delta_r/delta_0: 3.9818E-09 | 11: delta_s/delta_0: 5.5739E-07 | 12: delta_r/delta_0: 1.3382E-07 | 13: delta_s/delta_0: 7.9727E-10 | 14: delta_r/delta_0: 4.3736E-10 | 15: delta_s/delta_0: 1.0356E-10 | 16: delta_r/delta_0: 8.2402E-11 | Reached bicg-stab tolerance | BP delta = 0.2073932 0.2096662 2516445.02952744 | BP delta = 0.2073932 0.2154718 2516444.88256676 | 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 = 0.25630970 | --> Sampling calibration, mode = relcal | relcal = -3.1619500E-02 -2.5862539E-02 3.6779605E-02 2.0702435E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.9369453E-02 1.9045249E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.5004E-04 | 2: delta_r/delta_0: 1.2523E-05 | 3: delta_s/delta_0: 1.8907E-06 | 4: delta_r/delta_0: 3.4351E-07 | 5: delta_s/delta_0: 1.4104E-07 | 6: delta_r/delta_0: 2.4798E-08 | 7: delta_s/delta_0: 1.0012E-08 | 8: delta_r/delta_0: 6.2043E-09 | 9: delta_s/delta_0: 4.2393E-09 | 10: delta_r/delta_0: 3.1807E-09 | 11: delta_s/delta_0: 1.1327E-05 | 12: delta_r/delta_0: 4.3757E-08 | 13: delta_s/delta_0: 5.9968E-08 | 14: delta_r/delta_0: 3.5397E-08 | 15: delta_s/delta_0: 1.1500E-10 | 16: delta_r/delta_0: 8.5693E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.529847663308531E-003 8.682894015900047E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.5004E-04 | 2: delta_r/delta_0: 1.2523E-05 | 3: delta_s/delta_0: 1.8907E-06 | 4: delta_r/delta_0: 3.4352E-07 | 5: delta_s/delta_0: 1.4106E-07 | 6: delta_r/delta_0: 2.4799E-08 | 7: delta_s/delta_0: 1.0012E-08 | 8: delta_r/delta_0: 6.2044E-09 | 9: delta_s/delta_0: 4.2395E-09 | 10: delta_r/delta_0: 3.1808E-09 | 11: delta_s/delta_0: 1.1299E-05 | 12: delta_r/delta_0: 4.3619E-08 | 13: delta_s/delta_0: 5.9577E-08 | 14: delta_r/delta_0: 3.5183E-08 | 15: delta_s/delta_0: 1.1500E-10 | 16: delta_r/delta_0: 8.5733E-11 | Reached bicg-stab tolerance | BP delta = -0.5991161 -0.6485301 2706321.79196108 | BP delta = -0.5991161 -0.6265735 2706337.11847104 | 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 = -3.155590 | New value = -3.168894 | poltype: 2 pol: 1 CPU time specind = 5.9540272E-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 = -3.144617 | New value = -3.110643 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.130117 | New value = -3.128342 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.183824 | New value = -3.141869 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.062727 | New value = -3.163272 | poltype: 2 pol: 2 CPU time specind = 2.2120476E-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 = 4.13 | CG iter. 1 -- res = 0.13527E+08, tol = 0.67617E+01, time = 1.54 | CG iter. 2 -- res = 0.41193E+05, tol = 0.67617E+01, time = 1.54 | CG iter. 3 -- res = 0.28824E+05, tol = 0.67617E+01, time = 1.58 | CG iter. 4 -- res = 0.87126E+04, tol = 0.67617E+01, time = 1.55 | CG iter. 5 -- res = 0.42422E+04, tol = 0.67617E+01, time = 1.59 | CG iter. 6 -- res = 0.23107E+04, tol = 0.67617E+01, time = 1.52 | CG iter. 7 -- res = 0.14535E+04, tol = 0.67617E+01, time = 1.57 | CG iter. 8 -- res = 0.74455E+03, tol = 0.67617E+01, time = 1.64 | CG iter. 9 -- res = 0.58233E+03, tol = 0.67617E+01, time = 1.59 | CG iter. 10 -- res = 0.63671E+03, tol = 0.67617E+01, time = 1.54 | CG iter. 11 -- res = 0.44770E+03, tol = 0.67617E+01, time = 1.53 | CG iter. 12 -- res = 0.31724E+03, tol = 0.67617E+01, time = 1.57 | CG iter. 13 -- res = 0.24304E+03, tol = 0.67617E+01, time = 1.52 | CG iter. 14 -- res = 0.21218E+03, tol = 0.67617E+01, time = 1.58 | CG iter. 15 -- res = 0.19707E+03, tol = 0.67617E+01, time = 1.52 | CG iter. 16 -- res = 0.12668E+03, tol = 0.67617E+01, time = 1.55 | CG iter. 17 -- res = 0.94298E+02, tol = 0.67617E+01, time = 1.56 | CG iter. 18 -- res = 0.72957E+02, tol = 0.67617E+01, time = 1.52 | CG iter. 19 -- res = 0.65115E+02, tol = 0.67617E+01, time = 1.59 | CG iter. 20 -- res = 0.52774E+02, tol = 0.67617E+01, time = 1.55 | CG iter. 21 -- res = 0.38982E+02, tol = 0.67617E+01, time = 1.52 | CG iter. 22 -- res = 0.33065E+02, tol = 0.67617E+01, time = 1.53 | CG iter. 23 -- res = 0.26281E+02, tol = 0.67617E+01, time = 1.50 | CG iter. 24 -- res = 0.20893E+02, tol = 0.67617E+01, time = 1.57 | CG iter. 25 -- res = 0.16563E+02, tol = 0.67617E+01, time = 1.55 | CG iter. 26 -- res = 0.14774E+02, tol = 0.67617E+01, time = 1.53 | CG iter. 27 -- res = 0.11414E+02, tol = 0.67617E+01, time = 1.55 | CG iter. 28 -- res = 0.83721E+01, tol = 0.67617E+01, time = 1.49 | CG iter. 29 -- res = 0.68799E+01, tol = 0.67617E+01, time = 1.51 | CG iter. 30 -- res = 0.56538E+01, tol = 0.67617E+01, time = 1.58 | CG iter. 31 -- res = 0.43808E+01, tol = 0.67617E+01, time = 1.54 | CG iter. 32 -- res = 0.36542E+01, tol = 0.67617E+01, time = 1.59 | CG iter. 33 -- res = 0.32962E+01, tol = 0.67617E+01, time = 1.58 | CG iter. 34 -- res = 0.27111E+01, tol = 0.67617E+01, time = 1.50 | CG iter. 35 -- res = 0.18077E+01, tol = 0.67617E+01, time = 1.54 | CG iter. 36 -- res = 0.14705E+01, tol = 0.67617E+01, time = 1.56 | CG iter. 37 -- res = 0.12597E+01, tol = 0.67617E+01, time = 1.52 | CG iter. 38 -- res = 0.10451E+01, tol = 0.67617E+01, time = 1.55 | CG iter. 39 -- res = 0.10185E+01, tol = 0.67617E+01, time = 1.52 | CG iter. 40 -- res = 0.11123E+01, tol = 0.67617E+01, time = 1.55 | CG iter. 41 -- res = 0.68781E+00, tol = 0.67617E+01, time = 1.57 | CG iter. 42 -- res = 0.50042E+00, tol = 0.67617E+01, time = 1.58 | CG iter. 43 -- res = 0.40307E+00, tol = 0.67617E+01, time = 1.54 | CG iter. 44 -- res = 0.56731E+00, tol = 0.67617E+01, time = 1.50 | CG iter. 45 -- res = 0.29961E+00, tol = 0.67617E+01, time = 1.55 | CG iter. 46 -- res = 0.23214E+00, tol = 0.67617E+01, time = 1.54 | CG iter. 47 -- res = 0.18463E+00, tol = 0.67617E+01, time = 1.50 | CG iter. 48 -- res = 0.15929E+00, tol = 0.67617E+01, time = 1.50 | CG iter. 49 -- res = 0.13837E+00, tol = 0.67617E+01, time = 1.51 | CG iter. 50 -- res = 0.12042E+00, tol = 0.67617E+01, time = 1.54 | Final CG iter 51 -- res = 0.12042E+00, tol = 0.67617E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8654126.245 | Old band monopole 10254477.835 | Change to band monopole -1600351.590 | Change to component monopole 1600344.706 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 4.10 | CG iter. 1 -- res = 0.33886E+04, tol = 0.47627E+18, time = 0.37 | CG iter. 2 -- res = 0.11215E+02, tol = 0.47627E+18, time = 0.37 | CG iter. 3 -- res = 0.69984E-01, tol = 0.47627E+18, time = 0.38 | Final CG iter 4 -- res = 0.12863E-04, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8654089.022 | (Sampled value in CG: 8646385.136 ) | 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 = 1.461015 | New value = 1.483382 | poltype: 2 pol: 1 CPU time specind = 5.0330162E-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 = 1.552090 | New value = 1.450398 | poltype: 2 pol: 2 CPU time specind = 2.0220280E-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 = 4.11 | CG iter. 1 -- res = 0.24110E+08, tol = 0.47542E+04, time = 1.82 | CG iter. 2 -- res = 0.53660E+07, tol = 0.47542E+04, time = 1.78 | CG iter. 3 -- res = 0.84213E+06, tol = 0.47542E+04, time = 1.75 | CG iter. 4 -- res = 0.35059E+06, tol = 0.47542E+04, time = 1.80 | CG iter. 5 -- res = 0.15078E+06, tol = 0.47542E+04, time = 1.75 | CG iter. 6 -- res = 0.78778E+05, tol = 0.47542E+04, time = 1.76 | CG iter. 7 -- res = 0.42639E+05, tol = 0.47542E+04, time = 1.74 | CG iter. 8 -- res = 0.20678E+05, tol = 0.47542E+04, time = 1.80 | CG iter. 9 -- res = 0.94569E+04, tol = 0.47542E+04, time = 1.76 | CG iter. 10 -- res = 0.38106E+04, tol = 0.47542E+04, time = 1.83 | CG iter. 11 -- res = 0.16672E+04, tol = 0.47542E+04, time = 1.80 | CG iter. 12 -- res = 0.86940E+03, tol = 0.47542E+04, time = 1.81 | CG iter. 13 -- res = 0.50005E+03, tol = 0.47542E+04, time = 1.81 | CG iter. 14 -- res = 0.28224E+03, tol = 0.47542E+04, time = 1.78 | CG iter. 15 -- res = 0.14438E+03, tol = 0.47542E+04, time = 1.80 | CG iter. 16 -- res = 0.68266E+02, tol = 0.47542E+04, time = 1.79 | CG iter. 17 -- res = 0.31892E+02, tol = 0.47542E+04, time = 1.83 | CG iter. 18 -- res = 0.16045E+02, tol = 0.47542E+04, time = 1.83 | CG iter. 19 -- res = 0.86986E+01, tol = 0.47542E+04, time = 1.80 | CG iter. 20 -- res = 0.49410E+01, tol = 0.47542E+04, time = 1.81 | CG iter. 21 -- res = 0.26774E+01, tol = 0.47542E+04, time = 1.77 | CG iter. 22 -- res = 0.13816E+01, tol = 0.47542E+04, time = 1.80 | CG iter. 23 -- res = 0.70546E+00, tol = 0.47542E+04, time = 1.84 | CG iter. 24 -- res = 0.36661E+00, tol = 0.47542E+04, time = 1.79 | CG iter. 25 -- res = 0.19978E+00, tol = 0.47542E+04, time = 1.79 | CG iter. 26 -- res = 0.11381E+00, tol = 0.47542E+04, time = 1.79 | CG iter. 27 -- res = 0.63483E-01, tol = 0.47542E+04, time = 1.79 | CG iter. 28 -- res = 0.33904E-01, tol = 0.47542E+04, time = 1.78 | CG iter. 29 -- res = 0.17427E-01, tol = 0.47542E+04, time = 1.83 | CG iter. 30 -- res = 0.91209E-02, tol = 0.47542E+04, time = 1.82 | CG iter. 31 -- res = 0.50208E-02, tol = 0.47542E+04, time = 1.82 | CG iter. 32 -- res = 0.29193E-02, tol = 0.47542E+04, time = 1.79 | CG iter. 33 -- res = 0.16678E-02, tol = 0.47542E+04, time = 1.78 | CG iter. 34 -- res = 0.86945E-03, tol = 0.47542E+04, time = 1.80 | CG iter. 35 -- res = 0.44602E-03, tol = 0.47542E+04, time = 1.78 | Final CG iter 36 -- res = 0.44602E-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) -2.906 2.740 | New value 4.183 | Old value -2.906 | Difference 7.088 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 4.10 | CG iter. 1 -- res = 0.25945E+07, tol = 0.47627E+18, time = 0.34 | CG iter. 2 -- res = 0.18043E+02, tol = 0.47627E+18, time = 0.37 | CG iter. 3 -- res = 0.77099E-01, tol = 0.47627E+18, time = 0.36 | CG iter. 4 -- res = 0.49873E-04, tol = 0.47627E+18, time = 0.35 | Final CG iter 5 -- res = 0.22858E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8654089.022 | (Sampled value in CG: 8645891.182 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.518456 | New value = -3.553011 | poltype: 1 pol: 1 CPU time specind = 2.9330254E-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 = 4.11 | CG iter. 1 -- res = 0.20362E+07, tol = 0.13180E+01, time = 0.66 | CG iter. 2 -- res = 0.46348E+05, tol = 0.13180E+01, time = 0.67 | CG iter. 3 -- res = 0.31539E+05, tol = 0.13180E+01, time = 0.65 | CG iter. 4 -- res = 0.80115E+04, tol = 0.13180E+01, time = 0.66 | CG iter. 5 -- res = 0.26832E+04, tol = 0.13180E+01, time = 0.65 | CG iter. 6 -- res = 0.10217E+04, tol = 0.13180E+01, time = 0.66 | CG iter. 7 -- res = 0.60172E+03, tol = 0.13180E+01, time = 0.66 | CG iter. 8 -- res = 0.24994E+03, tol = 0.13180E+01, time = 0.66 | CG iter. 9 -- res = 0.63183E+02, tol = 0.13180E+01, time = 0.67 | CG iter. 10 -- res = 0.18181E+02, tol = 0.13180E+01, time = 0.67 | CG iter. 11 -- res = 0.61169E+01, tol = 0.13180E+01, time = 0.69 | CG iter. 12 -- res = 0.32454E+01, tol = 0.13180E+01, time = 0.68 | CG iter. 13 -- res = 0.12080E+01, tol = 0.13180E+01, time = 0.70 | CG iter. 14 -- res = 0.31356E+00, tol = 0.13180E+01, time = 0.68 | CG iter. 15 -- res = 0.97768E-01, tol = 0.13180E+01, time = 0.65 | CG iter. 16 -- res = 0.39254E-01, tol = 0.13180E+01, time = 0.66 | CG iter. 17 -- res = 0.19146E-01, tol = 0.13180E+01, time = 0.70 | CG iter. 18 -- res = 0.70985E-02, tol = 0.13180E+01, time = 0.64 | CG iter. 19 -- res = 0.24305E-02, tol = 0.13180E+01, time = 0.72 | CG iter. 20 -- res = 0.10448E-02, tol = 0.13180E+01, time = 0.71 | CG iter. 21 -- res = 0.33898E-03, tol = 0.13180E+01, time = 0.64 | CG iter. 22 -- res = 0.10704E-03, tol = 0.13180E+01, time = 0.69 | CG iter. 23 -- res = 0.40652E-04, tol = 0.13180E+01, time = 0.66 | CG iter. 24 -- res = 0.14075E-04, tol = 0.13180E+01, time = 0.66 | CG iter. 25 -- res = 0.44906E-05, tol = 0.13180E+01, time = 0.67 | CG iter. 26 -- res = 0.13871E-05, tol = 0.13180E+01, time = 0.62 | CG iter. 27 -- res = 0.47708E-06, tol = 0.13180E+01, time = 0.68 | CG iter. 28 -- res = 0.16202E-06, tol = 0.13180E+01, time = 0.66 | CG iter. 29 -- res = 0.58589E-07, tol = 0.13180E+01, time = 0.65 | CG iter. 30 -- res = 0.19375E-07, tol = 0.13180E+01, time = 0.70 | CG iter. 31 -- res = 0.59065E-08, tol = 0.13180E+01, time = 0.70 | CG iter. 32 -- res = 0.43314E-08, tol = 0.13180E+01, time = 0.65 | CG iter. 33 -- res = 0.17399E-08, tol = 0.13180E+01, time = 0.71 | CG iter. 34 -- res = 0.42755E-09, tol = 0.13180E+01, time = 0.67 | CG iter. 35 -- res = 0.13999E-09, tol = 0.13180E+01, time = 0.63 | CG iter. 36 -- res = 0.13269E-09, tol = 0.13180E+01, time = 0.64 | CG iter. 37 -- res = 0.27876E-10, tol = 0.13180E+01, time = 0.66 | CG iter. 38 -- res = 0.90159E-11, tol = 0.13180E+01, time = 0.68 | CG iter. 39 -- res = 0.28910E-11, tol = 0.13180E+01, time = 0.69 | CG iter. 40 -- res = 0.98883E-12, tol = 0.13180E+01, time = 0.70 | CG iter. 41 -- res = 0.30219E-12, tol = 0.13180E+01, time = 0.70 | CG iter. 42 -- res = 0.10603E-12, tol = 0.13180E+01, time = 0.68 | CG iter. 43 -- res = 0.31366E-13, tol = 0.13180E+01, time = 0.67 | CG iter. 44 -- res = 0.90983E-14, tol = 0.13180E+01, time = 0.65 | CG iter. 45 -- res = 0.27084E-14, tol = 0.13180E+01, time = 0.64 | CG iter. 46 -- res = 0.84203E-15, tol = 0.13180E+01, time = 0.68 | CG iter. 47 -- res = 0.27089E-15, tol = 0.13180E+01, time = 0.70 | CG iter. 48 -- res = 0.78630E-16, tol = 0.13180E+01, time = 0.69 | CG iter. 49 -- res = 0.24859E-16, tol = 0.13180E+01, time = 0.69 | CG iter. 50 -- res = 0.92977E-17, tol = 0.13180E+01, time = 0.69 | Final CG iter 51 -- res = 0.92977E-17, tol = 0.13180E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -5.401 2.314 | New value 2.085 | Old value -5.401 | Difference 7.486 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 4.08 | CG iter. 1 -- res = 0.35257E+05, tol = 0.47627E+18, time = 0.39 | CG iter. 2 -- res = 0.15629E+02, tol = 0.47627E+18, time = 0.37 | CG iter. 3 -- res = 0.16728E-01, tol = 0.47627E+18, time = 0.37 | Final CG iter 4 -- res = 0.20035E-04, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8654089.022 | (Sampled value in CG: 8650713.624 ) | CPU time specind = 277.7461 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 4.10 | CG iter. 1 -- res = 0.68282E+08, tol = 0.51572E+04, time = 3.20 | CG iter. 2 -- res = 0.33106E+08, tol = 0.51572E+04, time = 3.14 | CG iter. 3 -- res = 0.56961E+07, tol = 0.51572E+04, time = 3.21 | CG iter. 4 -- res = 0.28960E+07, tol = 0.51572E+04, time = 3.27 | CG iter. 5 -- res = 0.12820E+07, tol = 0.51572E+04, time = 3.19 | CG iter. 6 -- res = 0.69545E+06, tol = 0.51572E+04, time = 3.13 | CG iter. 7 -- res = 0.38265E+06, tol = 0.51572E+04, time = 3.14 | CG iter. 8 -- res = 0.19421E+06, tol = 0.51572E+04, time = 3.21 | CG iter. 9 -- res = 0.94340E+05, tol = 0.51572E+04, time = 3.22 | CG iter. 10 -- res = 0.41513E+05, tol = 0.51572E+04, time = 3.23 | CG iter. 11 -- res = 0.20675E+05, tol = 0.51572E+04, time = 3.15 | CG iter. 12 -- res = 0.11332E+05, tol = 0.51572E+04, time = 3.31 | CG iter. 13 -- res = 0.68472E+04, tol = 0.51572E+04, time = 3.27 | CG iter. 14 -- res = 0.44986E+04, tol = 0.51572E+04, time = 3.23 | CG iter. 15 -- res = 0.27931E+04, tol = 0.51572E+04, time = 3.19 | CG iter. 16 -- res = 0.18386E+04, tol = 0.51572E+04, time = 3.23 | CG iter. 17 -- res = 0.12919E+04, tol = 0.51572E+04, time = 3.23 | CG iter. 18 -- res = 0.10748E+04, tol = 0.51572E+04, time = 3.27 | CG iter. 19 -- res = 0.10782E+04, tol = 0.51572E+04, time = 3.30 | CG iter. 20 -- res = 0.12068E+04, tol = 0.51572E+04, time = 3.14 | CG iter. 21 -- res = 0.13423E+04, tol = 0.51572E+04, time = 3.20 | CG iter. 22 -- res = 0.13671E+04, tol = 0.51572E+04, time = 3.15 | CG iter. 23 -- res = 0.12914E+04, tol = 0.51572E+04, time = 3.20 | CG iter. 24 -- res = 0.12158E+04, tol = 0.51572E+04, time = 3.15 | CG iter. 25 -- res = 0.11520E+04, tol = 0.51572E+04, time = 3.12 | CG iter. 26 -- res = 0.10717E+04, tol = 0.51572E+04, time = 3.15 | CG iter. 27 -- res = 0.93162E+03, tol = 0.51572E+04, time = 3.26 | CG iter. 28 -- res = 0.77394E+03, tol = 0.51572E+04, time = 3.32 | CG iter. 29 -- res = 0.67922E+03, tol = 0.51572E+04, time = 3.16 | CG iter. 30 -- res = 0.67302E+03, tol = 0.51572E+04, time = 3.20 | CG iter. 31 -- res = 0.72651E+03, tol = 0.51572E+04, time = 3.32 | CG iter. 32 -- res = 0.79561E+03, tol = 0.51572E+04, time = 3.22 | CG iter. 33 -- res = 0.81354E+03, tol = 0.51572E+04, time = 3.15 | CG iter. 34 -- res = 0.77691E+03, tol = 0.51572E+04, time = 3.18 | CG iter. 35 -- res = 0.74123E+03, tol = 0.51572E+04, time = 3.22 | CG iter. 36 -- res = 0.74281E+03, tol = 0.51572E+04, time = 3.20 | CG iter. 37 -- res = 0.77378E+03, tol = 0.51572E+04, time = 3.19 | CG iter. 38 -- res = 0.75748E+03, tol = 0.51572E+04, time = 3.22 | CG iter. 39 -- res = 0.67664E+03, tol = 0.51572E+04, time = 3.20 | CG iter. 40 -- res = 0.59486E+03, tol = 0.51572E+04, time = 3.22 | CG iter. 41 -- res = 0.57008E+03, tol = 0.51572E+04, time = 3.21 | CG iter. 42 -- res = 0.59463E+03, tol = 0.51572E+04, time = 3.19 | CG iter. 43 -- res = 0.63257E+03, tol = 0.51572E+04, time = 3.15 | CG iter. 44 -- res = 0.63464E+03, tol = 0.51572E+04, time = 3.25 | CG iter. 45 -- res = 0.59751E+03, tol = 0.51572E+04, time = 3.15 | CG iter. 46 -- res = 0.56812E+03, tol = 0.51572E+04, time = 3.22 | CG iter. 47 -- res = 0.56364E+03, tol = 0.51572E+04, time = 3.23 | CG iter. 48 -- res = 0.58465E+03, tol = 0.51572E+04, time = 3.17 | CG iter. 49 -- res = 0.58316E+03, tol = 0.51572E+04, time = 3.21 | CG iter. 50 -- res = 0.53096E+03, tol = 0.51572E+04, time = 3.25 | CG iter. 51 -- res = 0.47260E+03, tol = 0.51572E+04, time = 3.39 | CG iter. 52 -- res = 0.44724E+03, tol = 0.51572E+04, time = 3.27 | CG iter. 53 -- res = 0.45848E+03, tol = 0.51572E+04, time = 3.25 | CG iter. 54 -- res = 0.47906E+03, tol = 0.51572E+04, time = 3.21 | CG iter. 55 -- res = 0.46210E+03, tol = 0.51572E+04, time = 3.20 | CG iter. 56 -- res = 0.41988E+03, tol = 0.51572E+04, time = 3.17 | CG iter. 57 -- res = 0.39504E+03, tol = 0.51572E+04, time = 3.17 | CG iter. 58 -- res = 0.40407E+03, tol = 0.51572E+04, time = 3.21 | CG iter. 59 -- res = 0.43381E+03, tol = 0.51572E+04, time = 3.13 | CG iter. 60 -- res = 0.43321E+03, tol = 0.51572E+04, time = 3.20 | Final CG iter 61 -- res = 0.43321E+03, tol = 0.51572E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 3.083 ( -231.037 -2233.169 2515.847 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 6684344.603 | Old band monopole 8654126.245 | Change to band monopole -1969781.643 | Change to component monopole 1969773.171 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 4.259 2.782 | New value 1.492 | Old value 4.259 | Difference -2.766 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -3.870 ( 8.021 11.199 -11.450 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 12.898 2.168 | New value 3.540 | Old value 12.898 | Difference -9.358 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 4.09 | CG iter. 1 -- res = 0.44257E+06, tol = 0.47627E+18, time = 0.37 | CG iter. 2 -- res = 0.61422E+02, tol = 0.47627E+18, time = 0.39 | CG iter. 3 -- res = 0.16091E+01, tol = 0.47627E+18, time = 0.35 | CG iter. 4 -- res = 0.41243E-02, tol = 0.47627E+18, time = 0.39 | Final CG iter 5 -- res = 0.56065E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 6684315.852 | (Sampled value in CG: 6622734.410 ) | Chain = 1 -- chisq = 0.61627228E+09 | Chain = 1 -- wall time = 4705.011 sec --------------------------------------------------------------------- | Chain = 1 -- Iteration = 43 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.17930475573560 | --> Sampling calibration, mode = relcal | relcal = -7.4111618E-02 -5.7850312E-02 9.0861790E-02 4.1100141E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.5654907E-04 3.4484898E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4255E-02 | 2: delta_r/delta_0: 3.2537E-04 | 3: delta_s/delta_0: 1.9641E-07 | 4: delta_r/delta_0: 2.3148E-08 | 5: delta_s/delta_0: 6.9989E-09 | 6: delta_r/delta_0: 1.1384E-09 | 7: delta_s/delta_0: 2.3126E-08 | 8: delta_r/delta_0: 1.8514E-10 | 9: delta_s/delta_0: 5.6254E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 9.443751103100456E-004 2.745129847954209E-005 | BP delta = 4.7151875E-03 1.0986185E-02 29858980.5103597 | BP delta = 5.0279847E-03 1.1298982E-02 29858980.7342051 | 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 = 1.02550180 | --> Sampling calibration, mode = relcal | relcal = -0.1066079 -9.5483094E-02 0.1448317 5.7259299E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.5209798E-03 1.1766944E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 4.8286E-03 | 2: delta_r/delta_0: 1.0618E-04 | 3: delta_s/delta_0: 1.9996E-04 | 4: delta_r/delta_0: 1.5825E-05 | 5: delta_s/delta_0: 2.7593E-06 | 6: delta_r/delta_0: 4.9463E-07 | 7: delta_s/delta_0: 6.8495E-06 | 8: delta_r/delta_0: 4.1501E-07 | 9: delta_s/delta_0: 3.6670E-07 | 10: delta_r/delta_0: 7.5474E-08 | 11: delta_s/delta_0: 1.2182E-06 | 12: delta_r/delta_0: 4.0584E-09 | 13: delta_s/delta_0: 1.9313E-09 | 14: delta_r/delta_0: 6.7717E-10 | 15: delta_s/delta_0: 5.5366E-10 | 16: delta_r/delta_0: 2.2266E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 5.860643541719274E-002 2.812176153536001E-005 | BP delta = -0.1930215 -0.1888724 34758879.1995862 | BP delta = -0.1915501 -0.1874010 34758879.2494238 | 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 = 0.81166503 | --> Sampling calibration, mode = relcal | relcal = 0.2951912 0.2246422 -0.2835127 -0.2363206 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -5.6890008E-04 5.5462816E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.9464E-03 | 2: delta_r/delta_0: 4.4987E-05 | 3: delta_s/delta_0: 4.1985E-06 | 4: delta_r/delta_0: 6.2303E-07 | 5: delta_s/delta_0: 8.9892E-06 | 6: delta_r/delta_0: 1.2390E-06 | 7: delta_s/delta_0: 6.1377E-08 | 8: delta_r/delta_0: 3.6261E-08 | 9: delta_s/delta_0: 2.6566E-07 | 10: delta_r/delta_0: 6.6315E-09 | 11: delta_s/delta_0: 1.9047E-09 | 12: delta_r/delta_0: 5.6794E-10 | 13: delta_s/delta_0: 2.2766E-10 | 14: delta_r/delta_0: 1.5687E-10 | 15: delta_s/delta_0: 2.4398E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.604845020903249E-002 4.024368319465247E-005 | BP delta = -9.3730599E-02 -0.1416109 43103916.8002526 | BP delta = -9.3649633E-02 -0.1415299 43103916.8001605 | 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 = 0.95847582 | --> Sampling calibration, mode = relcal | relcal = 0.1064474 0.1394690 -0.1101336 -0.1357829 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.1250608E-02 1.2713193E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 3.4966E-04 | 2: delta_r/delta_0: 7.9530E-06 | 3: delta_s/delta_0: 4.2951E-06 | 4: delta_r/delta_0: 2.0589E-07 | 5: delta_s/delta_0: 6.5689E-07 | 6: delta_r/delta_0: 1.1053E-07 | 7: delta_s/delta_0: 5.7489E-08 | 8: delta_r/delta_0: 2.9752E-08 | 9: delta_s/delta_0: 1.1484E-06 | 10: delta_r/delta_0: 2.4945E-08 | 11: delta_s/delta_0: 8.2270E-09 | 12: delta_r/delta_0: 5.9521E-10 | 13: delta_s/delta_0: 6.0102E-10 | 14: delta_r/delta_0: 1.0715E-10 | 15: delta_s/delta_0: 3.1160E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.591107197850632E-002 3.699826088897780E-005 | BP delta = 0.2991051 0.3289217 43043006.9713577 | BP delta = 0.2860506 0.3158672 43043006.3632978 | 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 = 0.52109184 | --> Sampling calibration, mode = relcal | relcal = -5.1095828E-02 -3.6348342E-03 2.7234105E-02 2.7496558E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -6.3529692E-04 2.0826326E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 7.4248E-05 | 2: delta_r/delta_0: 4.3926E-06 | 3: delta_s/delta_0: 5.1425E-07 | 4: delta_r/delta_0: 1.7304E-07 | 5: delta_s/delta_0: 2.0893E-07 | 6: delta_r/delta_0: 2.6186E-08 | 7: delta_s/delta_0: 2.2409E-08 | 8: delta_r/delta_0: 7.5444E-09 | 9: delta_s/delta_0: 4.3259E-08 | 10: delta_r/delta_0: 3.2397E-09 | 11: delta_s/delta_0: 1.2453E-09 | 12: delta_r/delta_0: 3.5325E-10 | 13: delta_s/delta_0: 3.9091E-10 | 14: delta_r/delta_0: 5.3670E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.167850982990334E-002 5.488383471494992E-005 | BP delta = -6.4169146E-02 1.0735271E-02 61509930.6892365 | BP delta = -3.7554488E-02 3.7349928E-02 61509930.7037192 | 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 = 0.42119221 | --> Sampling calibration, mode = relcal | relcal = 4.5526598E-02 3.9684527E-02 -2.8277770E-02 -5.6933355E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.9292058E-03 5.8591766E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.6453E-05 | 2: delta_r/delta_0: 3.4095E-06 | 3: delta_s/delta_0: 1.9486E-06 | 4: delta_r/delta_0: 2.4940E-07 | 5: delta_s/delta_0: 5.9365E-08 | 6: delta_r/delta_0: 3.1956E-08 | 7: delta_s/delta_0: 8.4639E-08 | 8: delta_r/delta_0: 6.0767E-09 | 9: delta_s/delta_0: 3.4792E-09 | 10: delta_r/delta_0: 6.7159E-10 | 11: delta_s/delta_0: 9.4411E-10 | 12: delta_r/delta_0: 5.1511E-10 | 13: delta_s/delta_0: 2.2546E-10 | 14: delta_r/delta_0: 4.7612E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.315958581588724E-002 5.000329424184901E-005 | BP delta = -8.5063890E-02 -9.8601870E-02 61332564.5726216 | BP delta = -9.6056208E-02 -0.1095942 61332564.6149127 | 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 = 0.28130523 | --> Sampling calibration, mode = relcal | relcal = 2.4193171E-02 4.5062680E-02 -2.3337319E-02 -4.5918532E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 8.3468482E-03 3.1706449E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.1714E-04 | 2: delta_r/delta_0: 8.8498E-06 | 3: delta_s/delta_0: 1.5150E-06 | 4: delta_r/delta_0: 2.2142E-07 | 5: delta_s/delta_0: 5.7569E-08 | 6: delta_r/delta_0: 1.7068E-08 | 7: delta_s/delta_0: 6.8941E-09 | 8: delta_r/delta_0: 4.0065E-09 | 9: delta_s/delta_0: 1.8446E-08 | 10: delta_r/delta_0: 3.4867E-09 | 11: delta_s/delta_0: 2.6545E-09 | 12: delta_r/delta_0: 9.6013E-10 | 13: delta_s/delta_0: 1.0697E-06 | 14: delta_r/delta_0: 5.2902E-07 | 15: delta_s/delta_0: 8.4116E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -8.002177947936995E-003 7.852361301136561E-005 | BP delta = 0.1151857 1.4922567E-02 94956689.3545224 | BP delta = 0.1116833 1.1420099E-02 94956689.3293623 | 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 = 0.29363362 | --> Sampling calibration, mode = relcal | relcal = 5.2883860E-04 1.0188067E-02 -3.8702914E-03 -6.8466151E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.4815662E-02 1.2242788E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.3351E-04 | 2: delta_r/delta_0: 1.1349E-05 | 3: delta_s/delta_0: 1.8596E-06 | 4: delta_r/delta_0: 2.5323E-07 | 5: delta_s/delta_0: 8.3906E-08 | 6: delta_r/delta_0: 2.1101E-08 | 7: delta_s/delta_0: 9.5998E-09 | 8: delta_r/delta_0: 6.3145E-09 | 9: delta_s/delta_0: 8.4692E-09 | 10: delta_r/delta_0: 4.5598E-09 | 11: delta_s/delta_0: 3.4098E-07 | 12: delta_r/delta_0: 8.6043E-08 | 13: delta_s/delta_0: 6.0317E-10 | 14: delta_r/delta_0: 2.5878E-10 | 15: delta_s/delta_0: 4.4089E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.410129219141304E-003 8.314650171576235E-005 | BP delta = -0.7401822 -0.7137207 93507364.4283170 | BP delta = -0.7399772 -0.7135158 93507364.4288557 | 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 = 0.26482039 | --> Sampling calibration, mode = relcal | relcal = -5.6329351E-03 1.5005607E-02 -2.4129984E-03 -6.9596739E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -5.5412215E-04 1.8100590E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4373E-04 | 2: delta_r/delta_0: 1.2374E-05 | 3: delta_s/delta_0: 2.1529E-06 | 4: delta_r/delta_0: 2.5744E-07 | 5: delta_s/delta_0: 8.6771E-08 | 6: delta_r/delta_0: 1.9464E-08 | 7: delta_s/delta_0: 7.9880E-09 | 8: delta_r/delta_0: 4.9464E-09 | 9: delta_s/delta_0: 4.3418E-09 | 10: delta_r/delta_0: 2.9944E-09 | 11: delta_s/delta_0: 6.7193E-06 | 12: delta_r/delta_0: 7.6003E-08 | 13: delta_s/delta_0: 8.0337E-10 | 14: delta_r/delta_0: 4.7372E-10 | 15: delta_s/delta_0: 8.0212E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -7.684731250665119E-003 9.162161489233018E-005 | BP delta = 0.2073932 0.2154718 94713422.7268820 | BP delta = 0.2198790 0.2279576 94713422.7396153 | 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 = 0.25637977 | --> Sampling calibration, mode = relcal | relcal = -3.1672202E-02 -2.5877981E-02 3.6797967E-02 2.0752216E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.4985226E-02 1.8913934E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4635E-04 | 2: delta_r/delta_0: 1.2481E-05 | 3: delta_s/delta_0: 2.0989E-06 | 4: delta_r/delta_0: 4.2432E-07 | 5: delta_s/delta_0: 1.6090E-07 | 6: delta_r/delta_0: 3.0359E-08 | 7: delta_s/delta_0: 1.2748E-08 | 8: delta_r/delta_0: 6.9310E-09 | 9: delta_s/delta_0: 4.8500E-08 | 10: delta_r/delta_0: 5.6227E-09 | 11: delta_s/delta_0: 1.2016E-09 | 12: delta_r/delta_0: 3.5001E-10 | 13: delta_s/delta_0: 8.3086E-10 | 14: delta_r/delta_0: 2.8940E-10 | 15: delta_s/delta_0: 1.3300E-10 | 16: delta_r/delta_0: 1.1531E-10 | 17: delta_s/delta_0: 1.0336E-10 | 18: delta_r/delta_0: 8.6981E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.597343627894085E-003 8.680423009877284E-005 | BP delta = -0.5991161 -0.6485301 93070337.0993768 | BP delta = -0.6167558 -0.6661698 93070337.0613922 | 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 = -3.168894 | New value = -3.085347 | poltype: 2 pol: 1 CPU time specind = 4.3370724E-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 = -3.110643 | New value = -3.065794 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.128342 | New value = -3.193352 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.141869 | New value = -3.091450 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.163272 | New value = -3.191238 | poltype: 2 pol: 2 CPU time specind = 1.7361641E-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 = 4.10 | CG iter. 1 -- res = 0.13611E+08, tol = 0.95250E+01, time = 1.54 | CG iter. 2 -- res = 0.57418E+05, tol = 0.95250E+01, time = 1.53 | CG iter. 3 -- res = 0.65243E+05, tol = 0.95250E+01, time = 1.57 | CG iter. 4 -- res = 0.52508E+05, tol = 0.95250E+01, time = 1.51 | CG iter. 5 -- res = 0.57628E+05, tol = 0.95250E+01, time = 1.50 | CG iter. 6 -- res = 0.44358E+05, tol = 0.95250E+01, time = 1.55 | CG iter. 7 -- res = 0.32949E+05, tol = 0.95250E+01, time = 1.51 | CG iter. 8 -- res = 0.23691E+05, tol = 0.95250E+01, time = 1.54 | CG iter. 9 -- res = 0.19335E+05, tol = 0.95250E+01, time = 1.53 | CG iter. 10 -- res = 0.15948E+05, tol = 0.95250E+01, time = 1.52 | CG iter. 11 -- res = 0.12364E+05, tol = 0.95250E+01, time = 1.48 | CG iter. 12 -- res = 0.91613E+04, tol = 0.95250E+01, time = 1.50 | CG iter. 13 -- res = 0.70150E+04, tol = 0.95250E+01, time = 1.52 | CG iter. 14 -- res = 0.66325E+04, tol = 0.95250E+01, time = 1.51 | CG iter. 15 -- res = 0.46832E+04, tol = 0.95250E+01, time = 1.55 | CG iter. 16 -- res = 0.28337E+04, tol = 0.95250E+01, time = 1.53 | CG iter. 17 -- res = 0.21849E+04, tol = 0.95250E+01, time = 1.51 | CG iter. 18 -- res = 0.17469E+04, tol = 0.95250E+01, time = 1.55 | CG iter. 19 -- res = 0.13477E+04, tol = 0.95250E+01, time = 1.56 | CG iter. 20 -- res = 0.91653E+03, tol = 0.95250E+01, time = 1.54 | CG iter. 21 -- res = 0.75166E+03, tol = 0.95250E+01, time = 1.56 | CG iter. 22 -- res = 0.58681E+03, tol = 0.95250E+01, time = 1.50 | CG iter. 23 -- res = 0.38975E+03, tol = 0.95250E+01, time = 1.52 | CG iter. 24 -- res = 0.32267E+03, tol = 0.95250E+01, time = 1.53 | CG iter. 25 -- res = 0.27867E+03, tol = 0.95250E+01, time = 1.51 | CG iter. 26 -- res = 0.19945E+03, tol = 0.95250E+01, time = 1.46 | CG iter. 27 -- res = 0.15292E+03, tol = 0.95250E+01, time = 1.52 | CG iter. 28 -- res = 0.12272E+03, tol = 0.95250E+01, time = 1.52 | CG iter. 29 -- res = 0.97889E+02, tol = 0.95250E+01, time = 1.50 | CG iter. 30 -- res = 0.69853E+02, tol = 0.95250E+01, time = 1.51 | CG iter. 31 -- res = 0.55394E+02, tol = 0.95250E+01, time = 1.53 | CG iter. 32 -- res = 0.46459E+02, tol = 0.95250E+01, time = 1.53 | CG iter. 33 -- res = 0.39693E+02, tol = 0.95250E+01, time = 1.53 | CG iter. 34 -- res = 0.29122E+02, tol = 0.95250E+01, time = 1.52 | CG iter. 35 -- res = 0.25876E+02, tol = 0.95250E+01, time = 1.52 | CG iter. 36 -- res = 0.21104E+02, tol = 0.95250E+01, time = 1.51 | CG iter. 37 -- res = 0.15068E+02, tol = 0.95250E+01, time = 1.51 | CG iter. 38 -- res = 0.11514E+02, tol = 0.95250E+01, time = 1.50 | CG iter. 39 -- res = 0.11663E+02, tol = 0.95250E+01, time = 1.51 | CG iter. 40 -- res = 0.13893E+02, tol = 0.95250E+01, time = 1.50 | CG iter. 41 -- res = 0.71110E+01, tol = 0.95250E+01, time = 1.50 | CG iter. 42 -- res = 0.51319E+01, tol = 0.95250E+01, time = 1.49 | CG iter. 43 -- res = 0.42831E+01, tol = 0.95250E+01, time = 1.47 | CG iter. 44 -- res = 0.36672E+01, tol = 0.95250E+01, time = 1.50 | CG iter. 45 -- res = 0.44678E+01, tol = 0.95250E+01, time = 1.51 | CG iter. 46 -- res = 0.20997E+01, tol = 0.95250E+01, time = 1.55 | CG iter. 47 -- res = 0.15728E+01, tol = 0.95250E+01, time = 1.59 | CG iter. 48 -- res = 0.11552E+01, tol = 0.95250E+01, time = 1.50 | CG iter. 49 -- res = 0.82727E+00, tol = 0.95250E+01, time = 1.52 | CG iter. 50 -- res = 0.66361E+00, tol = 0.95250E+01, time = 1.51 | Final CG iter 51 -- res = 0.66361E+00, tol = 0.95250E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8168243.980 | Old band monopole 6684344.603 | Change to band monopole 1483899.377 | Change to component monopole -1483892.995 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 4.12 | CG iter. 1 -- res = 0.16379E+06, tol = 0.47627E+18, time = 0.39 | CG iter. 2 -- res = 0.89888E+02, tol = 0.47627E+18, time = 0.36 | CG iter. 3 -- res = 0.16078E+01, tol = 0.47627E+18, time = 0.39 | CG iter. 4 -- res = 0.25495E-02, tol = 0.47627E+18, time = 0.40 | Final CG iter 5 -- res = 0.87763E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8168208.846 | (Sampled value in CG: 8240468.351 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.483382 | New value = 1.479710 | poltype: 2 pol: 1 CPU time specind = 4.9510002E-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 = 1.450398 | New value = 1.451916 | poltype: 2 pol: 2 CPU time specind = 1.8830299E-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 = 4.13 | CG iter. 1 -- res = 0.24026E+08, tol = 0.47574E+04, time = 1.74 | CG iter. 2 -- res = 0.53976E+07, tol = 0.47574E+04, time = 1.74 | CG iter. 3 -- res = 0.86721E+06, tol = 0.47574E+04, time = 1.81 | CG iter. 4 -- res = 0.36064E+06, tol = 0.47574E+04, time = 1.77 | CG iter. 5 -- res = 0.15496E+06, tol = 0.47574E+04, time = 1.78 | CG iter. 6 -- res = 0.81552E+05, tol = 0.47574E+04, time = 1.76 | CG iter. 7 -- res = 0.44532E+05, tol = 0.47574E+04, time = 1.76 | CG iter. 8 -- res = 0.21285E+05, tol = 0.47574E+04, time = 1.80 | CG iter. 9 -- res = 0.91399E+04, tol = 0.47574E+04, time = 1.78 | CG iter. 10 -- res = 0.37276E+04, tol = 0.47574E+04, time = 1.81 | CG iter. 11 -- res = 0.16953E+04, tol = 0.47574E+04, time = 1.81 | CG iter. 12 -- res = 0.88087E+03, tol = 0.47574E+04, time = 1.79 | CG iter. 13 -- res = 0.49950E+03, tol = 0.47574E+04, time = 1.75 | CG iter. 14 -- res = 0.28199E+03, tol = 0.47574E+04, time = 1.81 | CG iter. 15 -- res = 0.14490E+03, tol = 0.47574E+04, time = 1.74 | CG iter. 16 -- res = 0.70064E+02, tol = 0.47574E+04, time = 1.83 | CG iter. 17 -- res = 0.32481E+02, tol = 0.47574E+04, time = 1.85 | CG iter. 18 -- res = 0.15943E+02, tol = 0.47574E+04, time = 1.77 | CG iter. 19 -- res = 0.85628E+01, tol = 0.47574E+04, time = 1.78 | CG iter. 20 -- res = 0.46994E+01, tol = 0.47574E+04, time = 1.75 | CG iter. 21 -- res = 0.25238E+01, tol = 0.47574E+04, time = 1.74 | CG iter. 22 -- res = 0.12985E+01, tol = 0.47574E+04, time = 1.82 | CG iter. 23 -- res = 0.64045E+00, tol = 0.47574E+04, time = 1.75 | CG iter. 24 -- res = 0.33337E+00, tol = 0.47574E+04, time = 1.77 | CG iter. 25 -- res = 0.18546E+00, tol = 0.47574E+04, time = 1.80 | CG iter. 26 -- res = 0.10657E+00, tol = 0.47574E+04, time = 1.76 | CG iter. 27 -- res = 0.59995E-01, tol = 0.47574E+04, time = 1.81 | CG iter. 28 -- res = 0.32001E-01, tol = 0.47574E+04, time = 1.80 | CG iter. 29 -- res = 0.16885E-01, tol = 0.47574E+04, time = 1.80 | CG iter. 30 -- res = 0.88859E-02, tol = 0.47574E+04, time = 1.77 | CG iter. 31 -- res = 0.48726E-02, tol = 0.47574E+04, time = 1.79 | CG iter. 32 -- res = 0.27666E-02, tol = 0.47574E+04, time = 1.79 | CG iter. 33 -- res = 0.15607E-02, tol = 0.47574E+04, time = 1.78 | CG iter. 34 -- res = 0.84100E-03, tol = 0.47574E+04, time = 1.77 | CG iter. 35 -- res = 0.43617E-03, tol = 0.47574E+04, time = 1.73 | Final CG iter 36 -- res = 0.43617E-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) 1.485 2.773 | New value -4.472 | Old value 1.485 | Difference -5.957 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 4.11 | CG iter. 1 -- res = 0.18348E+07, tol = 0.47627E+18, time = 0.44 | CG iter. 2 -- res = 0.73913E+02, tol = 0.47627E+18, time = 0.37 | CG iter. 3 -- res = 0.16467E+01, tol = 0.47627E+18, time = 0.41 | CG iter. 4 -- res = 0.83605E-04, tol = 0.47627E+18, time = 0.37 | Final CG iter 5 -- res = 0.87067E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8168208.846 | (Sampled value in CG: 8239984.919 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.553011 | New value = -3.578613 | poltype: 1 pol: 1 CPU time specind = 2.9048920E-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 = 4.12 | CG iter. 1 -- res = 0.27603E+07, tol = 0.13088E+01, time = 0.67 | CG iter. 2 -- res = 0.13619E+06, tol = 0.13088E+01, time = 0.67 | CG iter. 3 -- res = 0.83147E+05, tol = 0.13088E+01, time = 0.69 | CG iter. 4 -- res = 0.26817E+05, tol = 0.13088E+01, time = 0.67 | CG iter. 5 -- res = 0.70699E+04, tol = 0.13088E+01, time = 0.67 | CG iter. 6 -- res = 0.26670E+04, tol = 0.13088E+01, time = 0.63 | CG iter. 7 -- res = 0.85763E+03, tol = 0.13088E+01, time = 0.64 | CG iter. 8 -- res = 0.33285E+03, tol = 0.13088E+01, time = 0.64 | CG iter. 9 -- res = 0.16108E+03, tol = 0.13088E+01, time = 0.65 | CG iter. 10 -- res = 0.52026E+02, tol = 0.13088E+01, time = 0.65 | CG iter. 11 -- res = 0.21659E+02, tol = 0.13088E+01, time = 0.63 | CG iter. 12 -- res = 0.77003E+01, tol = 0.13088E+01, time = 0.65 | CG iter. 13 -- res = 0.31097E+01, tol = 0.13088E+01, time = 0.65 | CG iter. 14 -- res = 0.10503E+01, tol = 0.13088E+01, time = 0.65 | CG iter. 15 -- res = 0.40008E+00, tol = 0.13088E+01, time = 0.65 | CG iter. 16 -- res = 0.11599E+00, tol = 0.13088E+01, time = 0.67 | CG iter. 17 -- res = 0.39560E-01, tol = 0.13088E+01, time = 0.65 | CG iter. 18 -- res = 0.15990E-01, tol = 0.13088E+01, time = 0.64 | CG iter. 19 -- res = 0.65566E-02, tol = 0.13088E+01, time = 0.65 | CG iter. 20 -- res = 0.26430E-02, tol = 0.13088E+01, time = 0.62 | CG iter. 21 -- res = 0.78321E-03, tol = 0.13088E+01, time = 0.63 | CG iter. 22 -- res = 0.28958E-03, tol = 0.13088E+01, time = 0.65 | CG iter. 23 -- res = 0.10943E-03, tol = 0.13088E+01, time = 0.62 | CG iter. 24 -- res = 0.37537E-04, tol = 0.13088E+01, time = 0.63 | CG iter. 25 -- res = 0.94197E-05, tol = 0.13088E+01, time = 0.63 | CG iter. 26 -- res = 0.33810E-05, tol = 0.13088E+01, time = 0.63 | CG iter. 27 -- res = 0.14763E-05, tol = 0.13088E+01, time = 0.65 | CG iter. 28 -- res = 0.42803E-06, tol = 0.13088E+01, time = 0.64 | CG iter. 29 -- res = 0.12817E-06, tol = 0.13088E+01, time = 0.65 | CG iter. 30 -- res = 0.38882E-07, tol = 0.13088E+01, time = 0.62 | CG iter. 31 -- res = 0.11391E-07, tol = 0.13088E+01, time = 0.64 | CG iter. 32 -- res = 0.43450E-08, tol = 0.13088E+01, time = 0.65 | CG iter. 33 -- res = 0.34412E-08, tol = 0.13088E+01, time = 0.68 | CG iter. 34 -- res = 0.94156E-09, tol = 0.13088E+01, time = 0.63 | CG iter. 35 -- res = 0.24631E-09, tol = 0.13088E+01, time = 0.66 | CG iter. 36 -- res = 0.98890E-10, tol = 0.13088E+01, time = 0.64 | CG iter. 37 -- res = 0.84345E-10, tol = 0.13088E+01, time = 0.63 | CG iter. 38 -- res = 0.23689E-10, tol = 0.13088E+01, time = 0.65 | CG iter. 39 -- res = 0.75479E-11, tol = 0.13088E+01, time = 0.65 | CG iter. 40 -- res = 0.20074E-11, tol = 0.13088E+01, time = 0.67 | CG iter. 41 -- res = 0.59117E-12, tol = 0.13088E+01, time = 0.66 | CG iter. 42 -- res = 0.18968E-12, tol = 0.13088E+01, time = 0.70 | CG iter. 43 -- res = 0.56918E-13, tol = 0.13088E+01, time = 0.69 | CG iter. 44 -- res = 0.17027E-13, tol = 0.13088E+01, time = 0.67 | CG iter. 45 -- res = 0.50102E-14, tol = 0.13088E+01, time = 0.62 | CG iter. 46 -- res = 0.16972E-14, tol = 0.13088E+01, time = 0.66 | CG iter. 47 -- res = 0.66263E-15, tol = 0.13088E+01, time = 0.69 | CG iter. 48 -- res = 0.21861E-15, tol = 0.13088E+01, time = 0.64 | CG iter. 49 -- res = 0.63101E-16, tol = 0.13088E+01, time = 0.66 | CG iter. 50 -- res = 0.26021E-16, tol = 0.13088E+01, time = 0.67 | Final CG iter 51 -- res = 0.26021E-16, tol = 0.13088E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 10.429 1.909 | New value 2.143 | Old value 10.429 | Difference -8.286 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 4.10 | CG iter. 1 -- res = 0.48587E+05, tol = 0.47627E+18, time = 0.36 | CG iter. 2 -- res = 0.55314E+02, tol = 0.47627E+18, time = 0.38 | CG iter. 3 -- res = 0.14841E+01, tol = 0.47627E+18, time = 0.45 | CG iter. 4 -- res = 0.17774E-03, tol = 0.47627E+18, time = 0.38 | Final CG iter 5 -- res = 0.36139E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8168208.846 | (Sampled value in CG: 8222455.689 ) | CPU time specind = 275.8704 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 4.14 | CG iter. 1 -- res = 0.70348E+08, tol = 0.51453E+04, time = 3.06 | CG iter. 2 -- res = 0.32539E+08, tol = 0.51453E+04, time = 3.26 | CG iter. 3 -- res = 0.58526E+07, tol = 0.51453E+04, time = 3.09 | CG iter. 4 -- res = 0.31270E+07, tol = 0.51453E+04, time = 3.09 | CG iter. 5 -- res = 0.14129E+07, tol = 0.51453E+04, time = 3.09 | CG iter. 6 -- res = 0.74984E+06, tol = 0.51453E+04, time = 3.11 | CG iter. 7 -- res = 0.39409E+06, tol = 0.51453E+04, time = 3.11 | CG iter. 8 -- res = 0.20322E+06, tol = 0.51453E+04, time = 3.19 | CG iter. 9 -- res = 0.11227E+06, tol = 0.51453E+04, time = 3.15 | CG iter. 10 -- res = 0.58725E+05, tol = 0.51453E+04, time = 3.17 | CG iter. 11 -- res = 0.34544E+05, tol = 0.51453E+04, time = 3.11 | CG iter. 12 -- res = 0.22593E+05, tol = 0.51453E+04, time = 3.08 | CG iter. 13 -- res = 0.17507E+05, tol = 0.51453E+04, time = 3.21 | CG iter. 14 -- res = 0.16560E+05, tol = 0.51453E+04, time = 3.19 | CG iter. 15 -- res = 0.15521E+05, tol = 0.51453E+04, time = 3.16 | CG iter. 16 -- res = 0.14273E+05, tol = 0.51453E+04, time = 3.25 | CG iter. 17 -- res = 0.12187E+05, tol = 0.51453E+04, time = 3.15 | CG iter. 18 -- res = 0.11101E+05, tol = 0.51453E+04, time = 3.14 | CG iter. 19 -- res = 0.10911E+05, tol = 0.51453E+04, time = 3.20 | CG iter. 20 -- res = 0.10226E+05, tol = 0.51453E+04, time = 3.15 | CG iter. 21 -- res = 0.79749E+04, tol = 0.51453E+04, time = 3.18 | CG iter. 22 -- res = 0.52000E+04, tol = 0.51453E+04, time = 3.13 | CG iter. 23 -- res = 0.35511E+04, tol = 0.51453E+04, time = 3.16 | CG iter. 24 -- res = 0.29724E+04, tol = 0.51453E+04, time = 3.13 | CG iter. 25 -- res = 0.28904E+04, tol = 0.51453E+04, time = 3.15 | CG iter. 26 -- res = 0.27143E+04, tol = 0.51453E+04, time = 3.12 | CG iter. 27 -- res = 0.22247E+04, tol = 0.51453E+04, time = 3.05 | CG iter. 28 -- res = 0.17670E+04, tol = 0.51453E+04, time = 3.07 | CG iter. 29 -- res = 0.16252E+04, tol = 0.51453E+04, time = 3.14 | CG iter. 30 -- res = 0.16965E+04, tol = 0.51453E+04, time = 3.17 | CG iter. 31 -- res = 0.16597E+04, tol = 0.51453E+04, time = 3.17 | CG iter. 32 -- res = 0.13726E+04, tol = 0.51453E+04, time = 3.19 | CG iter. 33 -- res = 0.10350E+04, tol = 0.51453E+04, time = 3.14 | CG iter. 34 -- res = 0.86627E+03, tol = 0.51453E+04, time = 3.25 | CG iter. 35 -- res = 0.86520E+03, tol = 0.51453E+04, time = 3.15 | CG iter. 36 -- res = 0.91474E+03, tol = 0.51453E+04, time = 3.20 | CG iter. 37 -- res = 0.89030E+03, tol = 0.51453E+04, time = 3.18 | CG iter. 38 -- res = 0.79294E+03, tol = 0.51453E+04, time = 3.19 | CG iter. 39 -- res = 0.71989E+03, tol = 0.51453E+04, time = 3.02 | CG iter. 40 -- res = 0.73387E+03, tol = 0.51453E+04, time = 3.13 | CG iter. 41 -- res = 0.78703E+03, tol = 0.51453E+04, time = 3.15 | CG iter. 42 -- res = 0.77445E+03, tol = 0.51453E+04, time = 3.13 | CG iter. 43 -- res = 0.70188E+03, tol = 0.51453E+04, time = 3.23 | CG iter. 44 -- res = 0.64250E+03, tol = 0.51453E+04, time = 3.19 | CG iter. 45 -- res = 0.62364E+03, tol = 0.51453E+04, time = 3.14 | CG iter. 46 -- res = 0.64380E+03, tol = 0.51453E+04, time = 3.11 | CG iter. 47 -- res = 0.65514E+03, tol = 0.51453E+04, time = 3.19 | CG iter. 48 -- res = 0.64024E+03, tol = 0.51453E+04, time = 3.12 | CG iter. 49 -- res = 0.61874E+03, tol = 0.51453E+04, time = 3.03 | CG iter. 50 -- res = 0.60793E+03, tol = 0.51453E+04, time = 3.17 | CG iter. 51 -- res = 0.61192E+03, tol = 0.51453E+04, time = 3.13 | CG iter. 52 -- res = 0.60677E+03, tol = 0.51453E+04, time = 3.10 | CG iter. 53 -- res = 0.59093E+03, tol = 0.51453E+04, time = 3.15 | CG iter. 54 -- res = 0.57814E+03, tol = 0.51453E+04, time = 3.13 | CG iter. 55 -- res = 0.55739E+03, tol = 0.51453E+04, time = 3.17 | CG iter. 56 -- res = 0.53477E+03, tol = 0.51453E+04, time = 3.17 | CG iter. 57 -- res = 0.51425E+03, tol = 0.51453E+04, time = 3.22 | CG iter. 58 -- res = 0.51067E+03, tol = 0.51453E+04, time = 3.19 | CG iter. 59 -- res = 0.52259E+03, tol = 0.51453E+04, time = 3.21 | CG iter. 60 -- res = 0.51518E+03, tol = 0.51453E+04, time = 3.10 | Final CG iter 61 -- res = 0.51518E+03, tol = 0.51453E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 2.831 ( -231.369 -2233.922 2516.909 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8796313.570 | Old band monopole 8168243.980 | Change to band monopole 628069.590 | Change to component monopole -628066.889 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -4.564 2.729 | New value 4.845 | Old value -4.564 | Difference 9.408 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -3.955 ( 7.353 12.657 -13.705 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 12.996 2.402 | New value -0.198 | Old value 12.996 | Difference -13.194 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 4.11 | CG iter. 1 -- res = 0.45799E+07, tol = 0.47627E+18, time = 0.38 | CG iter. 2 -- res = 0.64381E+02, tol = 0.47627E+18, time = 0.39 | CG iter. 3 -- res = 0.16770E+01, tol = 0.47627E+18, time = 0.41 | CG iter. 4 -- res = 0.34431E-02, tol = 0.47627E+18, time = 0.36 | Final CG iter 5 -- res = 0.37061E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8796275.735 | (Sampled value in CG: 8732611.210 ) | Chain = 1 -- chisq = 0.62001962E+09 | Chain = 1 -- wall time = 4116.099 sec --------------------------------------------------------------------- | Chain = 1 -- Iteration = 44 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.17851070593442 | --> Sampling calibration, mode = relcal | relcal = -7.4736647E-02 -5.8141857E-02 9.1416031E-02 4.1462470E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.2362265E-04 3.8614073E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.4840E-05 | 2: delta_r/delta_0: 8.3300E-07 | 3: delta_s/delta_0: 2.4544E-07 | 4: delta_r/delta_0: 1.1224E-08 | 5: delta_s/delta_0: 3.3166E-09 | 6: delta_r/delta_0: 9.8312E-10 | 7: delta_s/delta_0: 2.3482E-10 | 8: delta_r/delta_0: 7.6891E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 7.042290813468349E-004 2.746888033285390E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 2.4842E-05 | 2: delta_r/delta_0: 8.3305E-07 | 3: delta_s/delta_0: 2.4544E-07 | 4: delta_r/delta_0: 1.1225E-08 | 5: delta_s/delta_0: 3.3165E-09 | 6: delta_r/delta_0: 9.8314E-10 | 7: delta_s/delta_0: 2.3482E-10 | 8: delta_r/delta_0: 7.6895E-11 | Reached bicg-stab tolerance | BP delta = 5.0279847E-03 1.1298982E-02 3804032.32382492 | BP delta = 5.0279847E-03 1.1440386E-02 3805944.07751916 | 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 = 1.02538626 | --> Sampling calibration, mode = relcal | relcal = -0.1065011 -9.5588803E-02 0.1448265 5.7263352E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.6170424E-03 1.4668760E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.2901E-02 | 2: delta_r/delta_0: 2.8295E-04 | 3: delta_s/delta_0: 8.9110E-05 | 4: delta_r/delta_0: 7.0042E-06 | 5: delta_s/delta_0: 1.6671E-06 | 6: delta_r/delta_0: 1.6851E-07 | 7: delta_s/delta_0: 1.5867E-07 | 8: delta_r/delta_0: 5.2985E-08 | 9: delta_s/delta_0: 2.4238E-08 | 10: delta_r/delta_0: 1.0175E-08 | 11: delta_s/delta_0: 4.8027E-09 | 12: delta_r/delta_0: 3.0203E-09 | 13: delta_s/delta_0: 1.7105E-09 | 14: delta_r/delta_0: 1.2976E-09 | 15: delta_s/delta_0: 8.5328E-10 | 16: delta_r/delta_0: 3.5412E-10 | 17: delta_s/delta_0: 4.1541E-10 | 18: delta_r/delta_0: 2.9346E-10 | 19: delta_s/delta_0: 1.2449E-10 | 20: delta_r/delta_0: 8.4209E-12 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.330237096834029E-002 2.812500022728011E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.2906E-02 | 2: delta_r/delta_0: 2.8308E-04 | 3: delta_s/delta_0: 8.9016E-05 | 4: delta_r/delta_0: 6.9967E-06 | 5: delta_s/delta_0: 1.6659E-06 | 6: delta_r/delta_0: 1.6836E-07 | 7: delta_s/delta_0: 1.5850E-07 | 8: delta_r/delta_0: 5.2942E-08 | 9: delta_s/delta_0: 2.4220E-08 | 10: delta_r/delta_0: 1.0166E-08 | 11: delta_s/delta_0: 4.7988E-09 | 12: delta_r/delta_0: 3.0167E-09 | 13: delta_s/delta_0: 1.7094E-09 | 14: delta_r/delta_0: 1.2971E-09 | 15: delta_s/delta_0: 8.5088E-10 | 16: delta_r/delta_0: 3.5628E-10 | 17: delta_s/delta_0: 4.1813E-10 | 18: delta_r/delta_0: 2.9584E-10 | 19: delta_s/delta_0: 1.2531E-10 | 20: delta_r/delta_0: 8.5451E-12 | Reached bicg-stab tolerance | BP delta = -0.1915501 -0.1874010 2842415.45512147 | BP delta = -0.1915501 -0.1840208 2841914.49897665 | BP chisq diff = -501.0, accept = T | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81172539 | --> Sampling calibration, mode = relcal | relcal = 0.2953658 0.2246329 -0.2836382 -0.2363606 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.2927903E-03 4.9706502E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 7.9358E-04 | 2: delta_r/delta_0: 1.8037E-05 | 3: delta_s/delta_0: 1.8180E-05 | 4: delta_r/delta_0: 1.9641E-06 | 5: delta_s/delta_0: 2.6695E-07 | 6: delta_r/delta_0: 6.0677E-08 | 7: delta_s/delta_0: 5.4082E-08 | 8: delta_r/delta_0: 2.7082E-08 | 9: delta_s/delta_0: 7.6364E-08 | 10: delta_r/delta_0: 2.0179E-09 | 11: delta_s/delta_0: 7.9361E-10 | 12: delta_r/delta_0: 4.3150E-10 | 13: delta_s/delta_0: 6.5471E-10 | 14: delta_r/delta_0: 1.1743E-10 | 15: delta_s/delta_0: 3.9513E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.945872549960861E-002 4.024252952176759E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 7.9363E-04 | 2: delta_r/delta_0: 1.8038E-05 | 3: delta_s/delta_0: 1.8179E-05 | 4: delta_r/delta_0: 1.9639E-06 | 5: delta_s/delta_0: 2.6697E-07 | 6: delta_r/delta_0: 6.0676E-08 | 7: delta_s/delta_0: 5.4081E-08 | 8: delta_r/delta_0: 2.7082E-08 | 9: delta_s/delta_0: 7.6367E-08 | 10: delta_r/delta_0: 2.0179E-09 | 11: delta_s/delta_0: 7.9362E-10 | 12: delta_r/delta_0: 4.3154E-10 | 13: delta_s/delta_0: 6.5586E-10 | 14: delta_r/delta_0: 1.1776E-10 | 15: delta_s/delta_0: 3.9492E-11 | Reached bicg-stab tolerance | BP delta = -9.3649633E-02 -0.1415299 2827381.93199479 | BP delta = -9.3649633E-02 -0.1404438 2827404.18086396 | 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 = 0.95851929 | --> Sampling calibration, mode = relcal | relcal = 0.1065995 0.1394197 -0.1102951 -0.1357241 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0046139E-02 1.3196755E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 3.6217E-04 | 2: delta_r/delta_0: 8.2415E-06 | 3: delta_s/delta_0: 4.1537E-05 | 4: delta_r/delta_0: 1.7894E-06 | 5: delta_s/delta_0: 1.7733E-06 | 6: delta_r/delta_0: 2.6500E-07 | 7: delta_s/delta_0: 5.8107E-08 | 8: delta_r/delta_0: 2.8906E-08 | 9: delta_s/delta_0: 1.9381E-07 | 10: delta_r/delta_0: 7.2361E-09 | 11: delta_s/delta_0: 4.1972E-09 | 12: delta_r/delta_0: 5.2316E-10 | 13: delta_s/delta_0: 3.1491E-09 | 14: delta_r/delta_0: 9.7407E-10 | 15: delta_s/delta_0: 3.6402E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.536156786478788E-002 3.699688606081484E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 3.6213E-04 | 2: delta_r/delta_0: 8.2406E-06 | 3: delta_s/delta_0: 4.1546E-05 | 4: delta_r/delta_0: 1.7900E-06 | 5: delta_s/delta_0: 1.7735E-06 | 6: delta_r/delta_0: 2.6504E-07 | 7: delta_s/delta_0: 5.8109E-08 | 8: delta_r/delta_0: 2.8904E-08 | 9: delta_s/delta_0: 1.9346E-07 | 10: delta_r/delta_0: 7.2289E-09 | 11: delta_s/delta_0: 4.1933E-09 | 12: delta_r/delta_0: 5.2306E-10 | 13: delta_s/delta_0: 3.1226E-09 | 14: delta_r/delta_0: 9.6580E-10 | 15: delta_s/delta_0: 3.6394E-11 | Reached bicg-stab tolerance | BP delta = 0.2860506 0.3158672 3005101.27028246 | BP delta = 0.2860506 0.3161951 3005082.74197500 | BP chisq diff = -18.5, accept = T | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 060-WMAP_V1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.52113163 | --> Sampling calibration, mode = relcal | relcal = -5.0982013E-02 -3.6646454E-03 2.7201014E-02 2.7445644E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -4.7159992E-04 2.1761167E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.5247E-05 | 2: delta_r/delta_0: 4.5160E-06 | 3: delta_s/delta_0: 5.3054E-06 | 4: delta_r/delta_0: 8.3496E-07 | 5: delta_s/delta_0: 4.5518E-08 | 6: delta_r/delta_0: 2.8102E-08 | 7: delta_s/delta_0: 1.1540E-07 | 8: delta_r/delta_0: 6.1500E-09 | 9: delta_s/delta_0: 2.3964E-09 | 10: delta_r/delta_0: 1.4977E-09 | 11: delta_s/delta_0: 4.7228E-10 | 12: delta_r/delta_0: 3.2818E-10 | 13: delta_s/delta_0: 1.0927E-09 | 14: delta_r/delta_0: 2.7273E-10 | 15: delta_s/delta_0: 2.3260E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.066111287287270E-002 5.487817165796877E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 6.5247E-05 | 2: delta_r/delta_0: 4.5159E-06 | 3: delta_s/delta_0: 5.3055E-06 | 4: delta_r/delta_0: 8.3496E-07 | 5: delta_s/delta_0: 4.5519E-08 | 6: delta_r/delta_0: 2.8103E-08 | 7: delta_s/delta_0: 1.1540E-07 | 8: delta_r/delta_0: 6.1503E-09 | 9: delta_s/delta_0: 2.3966E-09 | 10: delta_r/delta_0: 1.4983E-09 | 11: delta_s/delta_0: 4.7226E-10 | 12: delta_r/delta_0: 3.2820E-10 | 13: delta_s/delta_0: 1.0952E-09 | 14: delta_r/delta_0: 2.7313E-10 | 15: delta_s/delta_0: 2.3267E-11 | Reached bicg-stab tolerance | BP delta = -3.7554488E-02 3.7349928E-02 2435807.91037342 | BP delta = -3.7554488E-02 3.7125785E-02 2435834.81497033 | 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 = 0.42117194 | --> Sampling calibration, mode = relcal | relcal = 4.5536999E-02 3.9585408E-02 -2.8188907E-02 -5.6933500E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.9322177E-03 5.9066708E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.0895E-05 | 2: delta_r/delta_0: 3.8721E-06 | 3: delta_s/delta_0: 2.8948E-06 | 4: delta_r/delta_0: 4.8998E-07 | 5: delta_s/delta_0: 6.1326E-08 | 6: delta_r/delta_0: 3.7023E-08 | 7: delta_s/delta_0: 3.9329E-08 | 8: delta_r/delta_0: 1.2825E-08 | 9: delta_s/delta_0: 2.3408E-09 | 10: delta_r/delta_0: 1.2777E-09 | 11: delta_s/delta_0: 1.1188E-09 | 12: delta_r/delta_0: 3.7066E-10 | 13: delta_s/delta_0: 1.8484E-07 | 14: delta_r/delta_0: 2.4206E-09 | 15: delta_s/delta_0: 1.9924E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.424550741307794E-002 5.000519032932871E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 6.0896E-05 | 2: delta_r/delta_0: 3.8721E-06 | 3: delta_s/delta_0: 2.8949E-06 | 4: delta_r/delta_0: 4.8999E-07 | 5: delta_s/delta_0: 6.1326E-08 | 6: delta_r/delta_0: 3.7025E-08 | 7: delta_s/delta_0: 3.9338E-08 | 8: delta_r/delta_0: 1.2826E-08 | 9: delta_s/delta_0: 2.3411E-09 | 10: delta_r/delta_0: 1.2781E-09 | 11: delta_s/delta_0: 1.1192E-09 | 12: delta_r/delta_0: 3.7098E-10 | 13: delta_s/delta_0: 1.8391E-07 | 14: delta_r/delta_0: 2.4169E-09 | 15: delta_s/delta_0: 1.9928E-11 | Reached bicg-stab tolerance | BP delta = -9.6056208E-02 -0.1095942 2322566.39145513 | BP delta = -9.6056208E-02 -8.1563033E-02 2322785.03057506 | 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 = 0.28131196 | --> Sampling calibration, mode = relcal | relcal = 2.4182310E-02 4.5098428E-02 -2.3336530E-02 -4.5944210E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.1677504E-03 6.4328229E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.0915E-04 | 2: delta_r/delta_0: 8.9696E-06 | 3: delta_s/delta_0: 1.5219E-06 | 4: delta_r/delta_0: 1.8808E-07 | 5: delta_s/delta_0: 6.3561E-08 | 6: delta_r/delta_0: 1.5529E-08 | 7: delta_s/delta_0: 7.0830E-09 | 8: delta_r/delta_0: 4.6871E-09 | 9: delta_s/delta_0: 1.1925E-08 | 10: delta_r/delta_0: 3.9946E-09 | 11: delta_s/delta_0: 6.2169E-09 | 12: delta_r/delta_0: 1.3226E-09 | 13: delta_s/delta_0: 2.7578E-09 | 14: delta_r/delta_0: 1.4783E-09 | 15: delta_s/delta_0: 6.0461E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -8.776437896317865E-003 7.852325954138726E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.0915E-04 | 2: delta_r/delta_0: 8.9695E-06 | 3: delta_s/delta_0: 1.5219E-06 | 4: delta_r/delta_0: 1.8808E-07 | 5: delta_s/delta_0: 6.3561E-08 | 6: delta_r/delta_0: 1.5528E-08 | 7: delta_s/delta_0: 7.0829E-09 | 8: delta_r/delta_0: 4.6870E-09 | 9: delta_s/delta_0: 1.1925E-08 | 10: delta_r/delta_0: 3.9946E-09 | 11: delta_s/delta_0: 6.2167E-09 | 12: delta_r/delta_0: 1.3226E-09 | 13: delta_s/delta_0: 2.7584E-09 | 14: delta_r/delta_0: 1.4787E-09 | 15: delta_s/delta_0: 6.0462E-11 | Reached bicg-stab tolerance | BP delta = 0.1116833 1.1420099E-02 2490574.48683597 | BP delta = 0.1116833 -3.2342318E-03 2490577.24771732 | BP chisq diff = 2.8, accept = T | | Finished processing 090-WMAP_W1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.29359080 | --> Sampling calibration, mode = relcal | relcal = 4.4186838E-04 1.0325884E-02 -3.7997765E-03 -6.9679762E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.8146500E-02 1.3401192E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.3311E-04 | 2: delta_r/delta_0: 1.1377E-05 | 3: delta_s/delta_0: 1.8640E-06 | 4: delta_r/delta_0: 2.5716E-07 | 5: delta_s/delta_0: 9.4182E-08 | 6: delta_r/delta_0: 2.1138E-08 | 7: delta_s/delta_0: 9.3265E-09 | 8: delta_r/delta_0: 6.2719E-09 | 9: delta_s/delta_0: 4.2829E-09 | 10: delta_r/delta_0: 2.4684E-09 | 11: delta_s/delta_0: 4.6451E-06 | 12: delta_r/delta_0: 6.9754E-09 | 13: delta_s/delta_0: 2.5124E-10 | 14: delta_r/delta_0: 1.1929E-10 | 15: delta_s/delta_0: 2.1059E-10 | 16: delta_r/delta_0: 5.7209E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.219720759076915E-003 8.316020284988894E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.3311E-04 | 2: delta_r/delta_0: 1.1377E-05 | 3: delta_s/delta_0: 1.8640E-06 | 4: delta_r/delta_0: 2.5716E-07 | 5: delta_s/delta_0: 9.4182E-08 | 6: delta_r/delta_0: 2.1138E-08 | 7: delta_s/delta_0: 9.3265E-09 | 8: delta_r/delta_0: 6.2719E-09 | 9: delta_s/delta_0: 4.2829E-09 | 10: delta_r/delta_0: 2.4684E-09 | 11: delta_s/delta_0: 4.6451E-06 | 12: delta_r/delta_0: 6.9754E-09 | 13: delta_s/delta_0: 2.5125E-10 | 14: delta_r/delta_0: 1.1929E-10 | 15: delta_s/delta_0: 2.1059E-10 | 16: delta_r/delta_0: 5.7209E-11 | Reached bicg-stab tolerance | BP delta = -0.7399772 -0.7135158 2737558.78518712 | BP delta = -0.7399772 -0.7131956 2737558.72513917 | 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 = 0.26479304 | --> Sampling calibration, mode = relcal | relcal = -5.6104306E-03 1.4931347E-02 -2.3497527E-03 -6.9711637E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -8.0304750E-04 5.5958456E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4270E-04 | 2: delta_r/delta_0: 1.2223E-05 | 3: delta_s/delta_0: 2.1472E-06 | 4: delta_r/delta_0: 2.2366E-07 | 5: delta_s/delta_0: 8.7911E-08 | 6: delta_r/delta_0: 1.8132E-08 | 7: delta_s/delta_0: 8.2187E-09 | 8: delta_r/delta_0: 5.2042E-09 | 9: delta_s/delta_0: 5.5146E-09 | 10: delta_r/delta_0: 3.8939E-09 | 11: delta_s/delta_0: 5.5298E-07 | 12: delta_r/delta_0: 1.2197E-08 | 13: delta_s/delta_0: 1.7637E-08 | 14: delta_r/delta_0: 9.7992E-09 | 15: delta_s/delta_0: 7.0640E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -7.891513792440715E-003 9.162950009401878E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.4270E-04 | 2: delta_r/delta_0: 1.2223E-05 | 3: delta_s/delta_0: 2.1472E-06 | 4: delta_r/delta_0: 2.2367E-07 | 5: delta_s/delta_0: 8.7910E-08 | 6: delta_r/delta_0: 1.8133E-08 | 7: delta_s/delta_0: 8.2188E-09 | 8: delta_r/delta_0: 5.2043E-09 | 9: delta_s/delta_0: 5.5147E-09 | 10: delta_r/delta_0: 3.8939E-09 | 11: delta_s/delta_0: 5.5290E-07 | 12: delta_r/delta_0: 1.2195E-08 | 13: delta_s/delta_0: 1.7628E-08 | 14: delta_r/delta_0: 9.7932E-09 | 15: delta_s/delta_0: 7.0635E-11 | Reached bicg-stab tolerance | BP delta = 0.2198790 0.2279576 2516571.61379979 | BP delta = 0.2198790 0.2204182 2516571.70358203 | 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 = 0.25627461 | --> Sampling calibration, mode = relcal | relcal = -3.1649411E-02 -2.5971603E-02 3.6828056E-02 2.0792956E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.5139572E-02 2.0144824E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4787E-04 | 2: delta_r/delta_0: 1.2490E-05 | 3: delta_s/delta_0: 1.9700E-06 | 4: delta_r/delta_0: 3.3252E-07 | 5: delta_s/delta_0: 1.1639E-07 | 6: delta_r/delta_0: 2.4238E-08 | 7: delta_s/delta_0: 9.3223E-09 | 8: delta_r/delta_0: 6.0086E-09 | 9: delta_s/delta_0: 3.6297E-09 | 10: delta_r/delta_0: 2.6573E-09 | 11: delta_s/delta_0: 1.8195E-06 | 12: delta_r/delta_0: 9.4768E-09 | 13: delta_s/delta_0: 8.3313E-09 | 14: delta_r/delta_0: 4.6620E-09 | 15: delta_s/delta_0: 1.2994E-10 | 16: delta_r/delta_0: 1.0185E-10 | 17: delta_s/delta_0: 9.6607E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -8.879727513665151E-003 8.684612909410174E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.4787E-04 | 2: delta_r/delta_0: 1.2490E-05 | 3: delta_s/delta_0: 1.9700E-06 | 4: delta_r/delta_0: 3.3250E-07 | 5: delta_s/delta_0: 1.1637E-07 | 6: delta_r/delta_0: 2.4236E-08 | 7: delta_s/delta_0: 9.3218E-09 | 8: delta_r/delta_0: 6.0082E-09 | 9: delta_s/delta_0: 3.6293E-09 | 10: delta_r/delta_0: 2.6570E-09 | 11: delta_s/delta_0: 1.8139E-06 | 12: delta_r/delta_0: 9.4565E-09 | 13: delta_s/delta_0: 8.3014E-09 | 14: delta_r/delta_0: 4.6409E-09 | 15: delta_s/delta_0: 1.2993E-10 | 16: delta_r/delta_0: 1.0180E-10 | 17: delta_s/delta_0: 9.6536E-11 | Reached bicg-stab tolerance | BP delta = -0.6167558 -0.6661698 2706951.39149131 | BP delta = -0.6167558 -0.6585953 2706923.42434195 | BP chisq diff = -28.0, 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 = -3.085347 | New value = -3.268724 | poltype: 2 pol: 1 CPU time specind = 4.3900013E-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 = -3.065794 | New value = -3.119252 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.193352 | New value = -3.061418 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.091450 | New value = -3.105862 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.191238 | New value = -3.142261 | poltype: 2 pol: 2 CPU time specind = 2.7940273E-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 = 4.25 | CG iter. 1 -- res = 0.13545E+08, tol = 0.77665E+01, time = 1.51 | CG iter. 2 -- res = 0.61225E+05, tol = 0.77665E+01, time = 1.56 | CG iter. 3 -- res = 0.79429E+05, tol = 0.77665E+01, time = 1.58 | CG iter. 4 -- res = 0.48029E+05, tol = 0.77665E+01, time = 1.57 | CG iter. 5 -- res = 0.58105E+05, tol = 0.77665E+01, time = 1.55 | CG iter. 6 -- res = 0.60720E+05, tol = 0.77665E+01, time = 1.56 | CG iter. 7 -- res = 0.43909E+05, tol = 0.77665E+01, time = 1.52 | CG iter. 8 -- res = 0.33892E+05, tol = 0.77665E+01, time = 1.56 | CG iter. 9 -- res = 0.35755E+05, tol = 0.77665E+01, time = 1.56 | CG iter. 10 -- res = 0.30736E+05, tol = 0.77665E+01, time = 1.53 | CG iter. 11 -- res = 0.16781E+05, tol = 0.77665E+01, time = 1.56 | CG iter. 12 -- res = 0.13146E+05, tol = 0.77665E+01, time = 1.57 | CG iter. 13 -- res = 0.13197E+05, tol = 0.77665E+01, time = 1.58 | CG iter. 14 -- res = 0.11591E+05, tol = 0.77665E+01, time = 1.53 | CG iter. 15 -- res = 0.84026E+04, tol = 0.77665E+01, time = 1.48 | CG iter. 16 -- res = 0.55488E+04, tol = 0.77665E+01, time = 1.55 | CG iter. 17 -- res = 0.44693E+04, tol = 0.77665E+01, time = 1.49 | CG iter. 18 -- res = 0.37189E+04, tol = 0.77665E+01, time = 1.61 | CG iter. 19 -- res = 0.30908E+04, tol = 0.77665E+01, time = 1.53 | CG iter. 20 -- res = 0.26918E+04, tol = 0.77665E+01, time = 1.56 | CG iter. 21 -- res = 0.22593E+04, tol = 0.77665E+01, time = 1.54 | CG iter. 22 -- res = 0.18489E+04, tol = 0.77665E+01, time = 1.57 | CG iter. 23 -- res = 0.14868E+04, tol = 0.77665E+01, time = 1.54 | CG iter. 24 -- res = 0.13100E+04, tol = 0.77665E+01, time = 1.53 | CG iter. 25 -- res = 0.12975E+04, tol = 0.77665E+01, time = 1.52 | CG iter. 26 -- res = 0.10389E+04, tol = 0.77665E+01, time = 1.55 | CG iter. 27 -- res = 0.88760E+03, tol = 0.77665E+01, time = 1.55 | CG iter. 28 -- res = 0.80392E+03, tol = 0.77665E+01, time = 1.47 | CG iter. 29 -- res = 0.67421E+03, tol = 0.77665E+01, time = 1.48 | CG iter. 30 -- res = 0.61392E+03, tol = 0.77665E+01, time = 1.50 | CG iter. 31 -- res = 0.47928E+03, tol = 0.77665E+01, time = 1.55 | CG iter. 32 -- res = 0.42897E+03, tol = 0.77665E+01, time = 1.51 | CG iter. 33 -- res = 0.39442E+03, tol = 0.77665E+01, time = 1.51 | CG iter. 34 -- res = 0.33623E+03, tol = 0.77665E+01, time = 1.53 | CG iter. 35 -- res = 0.28965E+03, tol = 0.77665E+01, time = 1.58 | CG iter. 36 -- res = 0.27622E+03, tol = 0.77665E+01, time = 1.50 | CG iter. 37 -- res = 0.22631E+03, tol = 0.77665E+01, time = 1.50 | CG iter. 38 -- res = 0.17553E+03, tol = 0.77665E+01, time = 1.47 | CG iter. 39 -- res = 0.21061E+03, tol = 0.77665E+01, time = 1.51 | CG iter. 40 -- res = 0.20264E+03, tol = 0.77665E+01, time = 1.49 | CG iter. 41 -- res = 0.12191E+03, tol = 0.77665E+01, time = 1.55 | CG iter. 42 -- res = 0.99583E+02, tol = 0.77665E+01, time = 1.54 | CG iter. 43 -- res = 0.11138E+03, tol = 0.77665E+01, time = 1.54 | CG iter. 44 -- res = 0.11510E+03, tol = 0.77665E+01, time = 1.46 | CG iter. 45 -- res = 0.65562E+02, tol = 0.77665E+01, time = 1.58 | CG iter. 46 -- res = 0.52454E+02, tol = 0.77665E+01, time = 1.50 | CG iter. 47 -- res = 0.43219E+02, tol = 0.77665E+01, time = 1.53 | CG iter. 48 -- res = 0.34285E+02, tol = 0.77665E+01, time = 1.56 | CG iter. 49 -- res = 0.27142E+02, tol = 0.77665E+01, time = 1.53 | CG iter. 50 -- res = 0.26284E+02, tol = 0.77665E+01, time = 1.49 | Final CG iter 51 -- res = 0.26284E+02, tol = 0.77665E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9476129.949 | Old band monopole 8796313.570 | Change to band monopole 679816.379 | Change to component monopole -679813.455 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 4.25 | CG iter. 1 -- res = 0.10068E+07, tol = 0.47627E+18, time = 0.38 | CG iter. 2 -- res = 0.80682E+02, tol = 0.47627E+18, time = 0.34 | CG iter. 3 -- res = 0.20193E+01, tol = 0.47627E+18, time = 0.38 | CG iter. 4 -- res = 0.13318E-01, tol = 0.47627E+18, time = 0.35 | Final CG iter 5 -- res = 0.43798E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9476089.190 | (Sampled value in CG: 9417866.893 ) | 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 = 1.479710 | New value = 1.539557 | poltype: 2 pol: 1 CPU time specind = 4.5390129E-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 = 1.451916 | New value = 1.497392 | poltype: 2 pol: 2 CPU time specind = 4.6558380E-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 = 4.24 | CG iter. 1 -- res = 0.24857E+08, tol = 0.47739E+04, time = 1.73 | CG iter. 2 -- res = 0.53457E+07, tol = 0.47739E+04, time = 1.77 | CG iter. 3 -- res = 0.83407E+06, tol = 0.47739E+04, time = 1.74 | CG iter. 4 -- res = 0.35185E+06, tol = 0.47739E+04, time = 1.73 | CG iter. 5 -- res = 0.15402E+06, tol = 0.47739E+04, time = 1.71 | CG iter. 6 -- res = 0.81874E+05, tol = 0.47739E+04, time = 1.74 | CG iter. 7 -- res = 0.44781E+05, tol = 0.47739E+04, time = 1.70 | CG iter. 8 -- res = 0.21497E+05, tol = 0.47739E+04, time = 1.81 | CG iter. 9 -- res = 0.91547E+04, tol = 0.47739E+04, time = 1.77 | CG iter. 10 -- res = 0.37960E+04, tol = 0.47739E+04, time = 1.78 | CG iter. 11 -- res = 0.17221E+04, tol = 0.47739E+04, time = 1.79 | CG iter. 12 -- res = 0.87306E+03, tol = 0.47739E+04, time = 1.77 | CG iter. 13 -- res = 0.49930E+03, tol = 0.47739E+04, time = 1.79 | CG iter. 14 -- res = 0.27934E+03, tol = 0.47739E+04, time = 1.77 | CG iter. 15 -- res = 0.14315E+03, tol = 0.47739E+04, time = 1.76 | CG iter. 16 -- res = 0.68158E+02, tol = 0.47739E+04, time = 1.81 | CG iter. 17 -- res = 0.31683E+02, tol = 0.47739E+04, time = 1.74 | CG iter. 18 -- res = 0.15976E+02, tol = 0.47739E+04, time = 1.77 | CG iter. 19 -- res = 0.87086E+01, tol = 0.47739E+04, time = 1.78 | CG iter. 20 -- res = 0.49141E+01, tol = 0.47739E+04, time = 1.77 | CG iter. 21 -- res = 0.26961E+01, tol = 0.47739E+04, time = 1.79 | CG iter. 22 -- res = 0.13927E+01, tol = 0.47739E+04, time = 1.78 | CG iter. 23 -- res = 0.70182E+00, tol = 0.47739E+04, time = 1.74 | CG iter. 24 -- res = 0.35537E+00, tol = 0.47739E+04, time = 1.77 | CG iter. 25 -- res = 0.19079E+00, tol = 0.47739E+04, time = 1.79 | CG iter. 26 -- res = 0.10861E+00, tol = 0.47739E+04, time = 1.86 | CG iter. 27 -- res = 0.62575E-01, tol = 0.47739E+04, time = 1.83 | CG iter. 28 -- res = 0.34564E-01, tol = 0.47739E+04, time = 1.83 | CG iter. 29 -- res = 0.18003E-01, tol = 0.47739E+04, time = 1.78 | CG iter. 30 -- res = 0.92926E-02, tol = 0.47739E+04, time = 1.81 | CG iter. 31 -- res = 0.49799E-02, tol = 0.47739E+04, time = 1.81 | CG iter. 32 -- res = 0.28039E-02, tol = 0.47739E+04, time = 1.83 | CG iter. 33 -- res = 0.15744E-02, tol = 0.47739E+04, time = 1.78 | CG iter. 34 -- res = 0.86301E-03, tol = 0.47739E+04, time = 1.81 | CG iter. 35 -- res = 0.45115E-03, tol = 0.47739E+04, time = 1.80 | Final CG iter 36 -- res = 0.45115E-03, tol = 0.47739E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 4.917 2.770 | New value -6.074 | Old value 4.917 | Difference -10.991 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 4.25 | CG iter. 1 -- res = 0.62577E+07, tol = 0.47627E+18, time = 0.40 | CG iter. 2 -- res = 0.59643E+02, tol = 0.47627E+18, time = 0.36 | CG iter. 3 -- res = 0.16389E+01, tol = 0.47627E+18, time = 0.36 | CG iter. 4 -- res = 0.14521E-02, tol = 0.47627E+18, time = 0.36 | Final CG iter 5 -- res = 0.16261E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9476089.190 | (Sampled value in CG: 9416104.924 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.578613 | New value = -3.450101 | poltype: 1 pol: 1 CPU time specind = 4.3561459E-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 = 4.25 | CG iter. 1 -- res = 0.58596E+07, tol = 0.16810E+01, time = 0.63 | CG iter. 2 -- res = 0.37985E+06, tol = 0.16810E+01, time = 0.64 | CG iter. 3 -- res = 0.34904E+06, tol = 0.16810E+01, time = 0.66 | CG iter. 4 -- res = 0.65130E+05, tol = 0.16810E+01, time = 0.69 | CG iter. 5 -- res = 0.13239E+05, tol = 0.16810E+01, time = 0.68 | CG iter. 6 -- res = 0.47808E+04, tol = 0.16810E+01, time = 0.66 | CG iter. 7 -- res = 0.17569E+04, tol = 0.16810E+01, time = 0.65 | CG iter. 8 -- res = 0.67701E+03, tol = 0.16810E+01, time = 0.65 | CG iter. 9 -- res = 0.28722E+03, tol = 0.16810E+01, time = 0.68 | CG iter. 10 -- res = 0.61775E+02, tol = 0.16810E+01, time = 0.67 | CG iter. 11 -- res = 0.22992E+02, tol = 0.16810E+01, time = 0.65 | CG iter. 12 -- res = 0.10425E+02, tol = 0.16810E+01, time = 0.66 | CG iter. 13 -- res = 0.45279E+01, tol = 0.16810E+01, time = 0.65 | CG iter. 14 -- res = 0.13379E+01, tol = 0.16810E+01, time = 0.66 | CG iter. 15 -- res = 0.46308E+00, tol = 0.16810E+01, time = 0.67 | CG iter. 16 -- res = 0.20545E+00, tol = 0.16810E+01, time = 0.64 | CG iter. 17 -- res = 0.52236E-01, tol = 0.16810E+01, time = 0.63 | CG iter. 18 -- res = 0.19737E-01, tol = 0.16810E+01, time = 0.68 | CG iter. 19 -- res = 0.82589E-02, tol = 0.16810E+01, time = 0.61 | CG iter. 20 -- res = 0.33922E-02, tol = 0.16810E+01, time = 0.65 | CG iter. 21 -- res = 0.10321E-02, tol = 0.16810E+01, time = 0.65 | CG iter. 22 -- res = 0.36921E-03, tol = 0.16810E+01, time = 0.65 | CG iter. 23 -- res = 0.12432E-03, tol = 0.16810E+01, time = 0.66 | CG iter. 24 -- res = 0.45256E-04, tol = 0.16810E+01, time = 0.66 | CG iter. 25 -- res = 0.11669E-04, tol = 0.16810E+01, time = 0.65 | CG iter. 26 -- res = 0.34237E-05, tol = 0.16810E+01, time = 0.62 | CG iter. 27 -- res = 0.13384E-05, tol = 0.16810E+01, time = 0.64 | CG iter. 28 -- res = 0.48495E-06, tol = 0.16810E+01, time = 0.60 | CG iter. 29 -- res = 0.16970E-06, tol = 0.16810E+01, time = 0.64 | CG iter. 30 -- res = 0.53607E-07, tol = 0.16810E+01, time = 0.65 | CG iter. 31 -- res = 0.16403E-07, tol = 0.16810E+01, time = 0.66 | CG iter. 32 -- res = 0.95311E-08, tol = 0.16810E+01, time = 0.67 | CG iter. 33 -- res = 0.49032E-08, tol = 0.16810E+01, time = 0.65 | CG iter. 34 -- res = 0.15511E-08, tol = 0.16810E+01, time = 0.63 | CG iter. 35 -- res = 0.43631E-09, tol = 0.16810E+01, time = 0.68 | CG iter. 36 -- res = 0.21026E-09, tol = 0.16810E+01, time = 0.64 | CG iter. 37 -- res = 0.14501E-09, tol = 0.16810E+01, time = 0.67 | CG iter. 38 -- res = 0.35048E-10, tol = 0.16810E+01, time = 0.66 | CG iter. 39 -- res = 0.96329E-11, tol = 0.16810E+01, time = 0.69 | CG iter. 40 -- res = 0.31070E-11, tol = 0.16810E+01, time = 0.70 | CG iter. 41 -- res = 0.80427E-12, tol = 0.16810E+01, time = 0.65 | CG iter. 42 -- res = 0.25572E-12, tol = 0.16810E+01, time = 0.67 | CG iter. 43 -- res = 0.88585E-13, tol = 0.16810E+01, time = 0.68 | CG iter. 44 -- res = 0.29357E-13, tol = 0.16810E+01, time = 0.70 | CG iter. 45 -- res = 0.10049E-13, tol = 0.16810E+01, time = 0.68 | CG iter. 46 -- res = 0.31439E-14, tol = 0.16810E+01, time = 0.69 | CG iter. 47 -- res = 0.97953E-15, tol = 0.16810E+01, time = 0.66 | CG iter. 48 -- res = 0.31032E-15, tol = 0.16810E+01, time = 0.66 | CG iter. 49 -- res = 0.81081E-16, tol = 0.16810E+01, time = 0.70 | CG iter. 50 -- res = 0.24485E-16, tol = 0.16810E+01, time = 0.64 | Final CG iter 51 -- res = 0.24485E-16, tol = 0.16810E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -11.684 3.147 | New value -3.073 | Old value -11.684 | Difference 8.611 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 4.26 | CG iter. 1 -- res = 0.53272E+05, tol = 0.47627E+18, time = 0.38 | CG iter. 2 -- res = 0.45180E+02, tol = 0.47627E+18, time = 0.39 | CG iter. 3 -- res = 0.14076E+01, tol = 0.47627E+18, time = 0.40 | CG iter. 4 -- res = 0.33734E-03, tol = 0.47627E+18, time = 0.38 | Final CG iter 5 -- res = 0.88778E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9476089.190 | (Sampled value in CG: 9433182.724 ) | CPU time specind = 276.9681 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 4.25 | CG iter. 1 -- res = 0.72579E+08, tol = 0.51507E+04, time = 3.20 | CG iter. 2 -- res = 0.33900E+08, tol = 0.51507E+04, time = 3.12 | CG iter. 3 -- res = 0.58215E+07, tol = 0.51507E+04, time = 3.16 | CG iter. 4 -- res = 0.29288E+07, tol = 0.51507E+04, time = 3.23 | CG iter. 5 -- res = 0.13072E+07, tol = 0.51507E+04, time = 3.14 | CG iter. 6 -- res = 0.72961E+06, tol = 0.51507E+04, time = 3.10 | CG iter. 7 -- res = 0.41455E+06, tol = 0.51507E+04, time = 3.20 | CG iter. 8 -- res = 0.21894E+06, tol = 0.51507E+04, time = 3.18 | CG iter. 9 -- res = 0.11592E+06, tol = 0.51507E+04, time = 3.14 | CG iter. 10 -- res = 0.58806E+05, tol = 0.51507E+04, time = 3.19 | CG iter. 11 -- res = 0.37369E+05, tol = 0.51507E+04, time = 3.12 | CG iter. 12 -- res = 0.29620E+05, tol = 0.51507E+04, time = 3.19 | CG iter. 13 -- res = 0.27391E+05, tol = 0.51507E+04, time = 3.11 | CG iter. 14 -- res = 0.26941E+05, tol = 0.51507E+04, time = 3.24 | CG iter. 15 -- res = 0.24299E+05, tol = 0.51507E+04, time = 3.14 | CG iter. 16 -- res = 0.22448E+05, tol = 0.51507E+04, time = 3.15 | CG iter. 17 -- res = 0.20949E+05, tol = 0.51507E+04, time = 3.15 | CG iter. 18 -- res = 0.20256E+05, tol = 0.51507E+04, time = 3.12 | CG iter. 19 -- res = 0.18439E+05, tol = 0.51507E+04, time = 3.15 | CG iter. 20 -- res = 0.14783E+05, tol = 0.51507E+04, time = 3.11 | CG iter. 21 -- res = 0.10536E+05, tol = 0.51507E+04, time = 3.16 | CG iter. 22 -- res = 0.72989E+04, tol = 0.51507E+04, time = 3.10 | CG iter. 23 -- res = 0.56698E+04, tol = 0.51507E+04, time = 3.13 | CG iter. 24 -- res = 0.49244E+04, tol = 0.51507E+04, time = 3.08 | CG iter. 25 -- res = 0.44630E+04, tol = 0.51507E+04, time = 3.14 | CG iter. 26 -- res = 0.39269E+04, tol = 0.51507E+04, time = 3.15 | CG iter. 27 -- res = 0.33452E+04, tol = 0.51507E+04, time = 3.06 | CG iter. 28 -- res = 0.28802E+04, tol = 0.51507E+04, time = 3.17 | CG iter. 29 -- res = 0.26283E+04, tol = 0.51507E+04, time = 3.08 | CG iter. 30 -- res = 0.24343E+04, tol = 0.51507E+04, time = 3.10 | CG iter. 31 -- res = 0.21238E+04, tol = 0.51507E+04, time = 3.05 | CG iter. 32 -- res = 0.17558E+04, tol = 0.51507E+04, time = 3.16 | CG iter. 33 -- res = 0.14116E+04, tol = 0.51507E+04, time = 3.19 | CG iter. 34 -- res = 0.11977E+04, tol = 0.51507E+04, time = 3.17 | CG iter. 35 -- res = 0.10974E+04, tol = 0.51507E+04, time = 3.12 | CG iter. 36 -- res = 0.10425E+04, tol = 0.51507E+04, time = 3.18 | CG iter. 37 -- res = 0.99470E+03, tol = 0.51507E+04, time = 3.12 | CG iter. 38 -- res = 0.92190E+03, tol = 0.51507E+04, time = 3.13 | CG iter. 39 -- res = 0.84106E+03, tol = 0.51507E+04, time = 3.10 | CG iter. 40 -- res = 0.78458E+03, tol = 0.51507E+04, time = 3.12 | CG iter. 41 -- res = 0.74404E+03, tol = 0.51507E+04, time = 3.20 | CG iter. 42 -- res = 0.70134E+03, tol = 0.51507E+04, time = 3.19 | CG iter. 43 -- res = 0.66105E+03, tol = 0.51507E+04, time = 3.15 | CG iter. 44 -- res = 0.61640E+03, tol = 0.51507E+04, time = 3.18 | CG iter. 45 -- res = 0.57949E+03, tol = 0.51507E+04, time = 3.16 | CG iter. 46 -- res = 0.55742E+03, tol = 0.51507E+04, time = 3.17 | CG iter. 47 -- res = 0.54632E+03, tol = 0.51507E+04, time = 3.06 | CG iter. 48 -- res = 0.55200E+03, tol = 0.51507E+04, time = 3.16 | CG iter. 49 -- res = 0.55926E+03, tol = 0.51507E+04, time = 3.00 | CG iter. 50 -- res = 0.54985E+03, tol = 0.51507E+04, time = 3.11 | CG iter. 51 -- res = 0.53089E+03, tol = 0.51507E+04, time = 3.19 | CG iter. 52 -- res = 0.51229E+03, tol = 0.51507E+04, time = 3.13 | CG iter. 53 -- res = 0.50761E+03, tol = 0.51507E+04, time = 3.13 | CG iter. 54 -- res = 0.51595E+03, tol = 0.51507E+04, time = 3.18 | CG iter. 55 -- res = 0.51287E+03, tol = 0.51507E+04, time = 3.08 | CG iter. 56 -- res = 0.49145E+03, tol = 0.51507E+04, time = 3.13 | CG iter. 57 -- res = 0.47571E+03, tol = 0.51507E+04, time = 3.12 | CG iter. 58 -- res = 0.47543E+03, tol = 0.51507E+04, time = 3.17 | CG iter. 59 -- res = 0.49187E+03, tol = 0.51507E+04, time = 3.16 | CG iter. 60 -- res = 0.50200E+03, tol = 0.51507E+04, time = 3.06 | Final CG iter 61 -- res = 0.50200E+03, tol = 0.51507E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 2.967 ( -232.477 -2234.410 2516.879 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 7523060.872 | Old band monopole 9476129.949 | Change to band monopole -1953069.077 | Change to component monopole 1953060.676 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -6.132 2.735 | New value 2.092 | Old value -6.132 | Difference 8.224 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -4.079 ( 8.601 14.064 -14.171 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 9.411 3.925 | New value 1.812 | Old value 9.411 | Difference -7.599 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 4.23 | CG iter. 1 -- res = 0.35666E+07, tol = 0.47627E+18, time = 0.34 | CG iter. 2 -- res = 0.75947E+02, tol = 0.47627E+18, time = 0.38 | CG iter. 3 -- res = 0.17674E+01, tol = 0.47627E+18, time = 0.37 | CG iter. 4 -- res = 0.15938E-01, tol = 0.47627E+18, time = 0.40 | Final CG iter 5 -- res = 0.36989E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7523028.514 | (Sampled value in CG: 7456970.205 ) | Chain = 1 -- chisq = 0.61385230E+09 | Chain = 1 -- wall time = 4759.813 sec --------------------------------------------------------------------- | Chain = 1 -- Iteration = 45 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18375890268366 | --> Sampling calibration, mode = relcal | relcal = -7.6259501E-02 -5.9414081E-02 9.3231767E-02 4.2441808E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.2956065E-04 6.3820784E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.0084E-05 | 2: delta_r/delta_0: 1.6054E-06 | 3: delta_s/delta_0: 2.0449E-07 | 4: delta_r/delta_0: 3.1255E-08 | 5: delta_s/delta_0: 8.8010E-09 | 6: delta_r/delta_0: 3.2835E-09 | 7: delta_s/delta_0: 1.1002E-09 | 8: delta_r/delta_0: 3.3837E-10 | 9: delta_s/delta_0: 4.4500E-10 | 10: delta_r/delta_0: 1.6838E-10 | 11: delta_s/delta_0: 1.0928E-10 | 12: delta_r/delta_0: 2.2333E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 9.842153999190496E-004 2.734522076519130E-005 | BP delta = 5.0279847E-03 1.1298982E-02 29860293.5369187 | BP delta = 5.6086830E-03 1.1879681E-02 29860292.8563881 | 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 = 1.02524753 | --> Sampling calibration, mode = relcal | relcal = -0.1065571 -9.5472552E-02 0.1447809 5.7248715E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.6978140E-03 9.8626956E-04 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.7218E-04 | 2: delta_r/delta_0: 1.4785E-05 | 3: delta_s/delta_0: 4.4219E-06 | 4: delta_r/delta_0: 3.9625E-07 | 5: delta_s/delta_0: 4.4938E-07 | 6: delta_r/delta_0: 2.2585E-08 | 7: delta_s/delta_0: 3.0959E-09 | 8: delta_r/delta_0: 1.5978E-09 | 9: delta_s/delta_0: 1.3663E-08 | 10: delta_r/delta_0: 2.2290E-10 | 11: delta_s/delta_0: 1.3692E-10 | 12: delta_r/delta_0: 4.7819E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -5.270839719948497E-003 2.812880269517502E-005 | BP delta = -0.1915501 -0.1840208 34755826.0356014 | BP delta = -0.1876811 -0.1801518 34755826.3236339 | 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 = 0.81179846 | --> Sampling calibration, mode = relcal | relcal = 0.2953645 0.2247240 -0.2835648 -0.2365237 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 4.0913446E-04 4.6815332E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4784E-03 | 2: delta_r/delta_0: 3.3994E-05 | 3: delta_s/delta_0: 8.7010E-05 | 4: delta_r/delta_0: 2.1970E-06 | 5: delta_s/delta_0: 6.0525E-05 | 6: delta_r/delta_0: 6.3422E-06 | 7: delta_s/delta_0: 5.0862E-08 | 8: delta_r/delta_0: 3.3434E-08 | 9: delta_s/delta_0: 2.6461E-07 | 10: delta_r/delta_0: 4.5527E-09 | 11: delta_s/delta_0: 1.3508E-09 | 12: delta_r/delta_0: 5.7368E-10 | 13: delta_s/delta_0: 3.2066E-10 | 14: delta_r/delta_0: 1.1232E-10 | 15: delta_s/delta_0: 2.3053E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.697022745810813E-002 4.023904707869838E-005 | BP delta = -9.3649633E-02 -0.1415299 43105504.6935339 | BP delta = -8.6809896E-02 -0.1346902 43105504.7290080 | 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 = 0.95852501 | --> Sampling calibration, mode = relcal | relcal = 0.1063984 0.1395061 -0.1101241 -0.1357804 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.9879615E-03 1.2720727E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 3.8715E-04 | 2: delta_r/delta_0: 8.7996E-06 | 3: delta_s/delta_0: 1.8785E-04 | 4: delta_r/delta_0: 1.0130E-05 | 5: delta_s/delta_0: 1.0567E-05 | 6: delta_r/delta_0: 1.5745E-06 | 7: delta_s/delta_0: 5.5803E-08 | 8: delta_r/delta_0: 2.7844E-08 | 9: delta_s/delta_0: 1.4630E-07 | 10: delta_r/delta_0: 5.6701E-09 | 11: delta_s/delta_0: 2.4761E-09 | 12: delta_r/delta_0: 5.2459E-10 | 13: delta_s/delta_0: 3.4113E-08 | 14: delta_r/delta_0: 9.8850E-09 | 15: delta_s/delta_0: 3.6017E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.436671338729206E-002 3.699597137340895E-005 | BP delta = 0.2860506 0.3161951 43044696.4304474 | BP delta = 0.2913097 0.3214542 43044696.7327164 | 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 = 0.52111986 | --> Sampling calibration, mode = relcal | relcal = -5.1068131E-02 -3.6890924E-03 2.7189761E-02 2.7567461E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -2.4107740E-04 -5.0937344E-04 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 7.3319E-05 | 2: delta_r/delta_0: 4.4796E-06 | 3: delta_s/delta_0: 5.4021E-07 | 4: delta_r/delta_0: 1.5670E-07 | 5: delta_s/delta_0: 4.3156E-07 | 6: delta_r/delta_0: 4.5814E-08 | 7: delta_s/delta_0: 2.2810E-08 | 8: delta_r/delta_0: 6.9956E-09 | 9: delta_s/delta_0: 4.5139E-08 | 10: delta_r/delta_0: 4.2173E-09 | 11: delta_s/delta_0: 6.1498E-09 | 12: delta_r/delta_0: 1.7964E-09 | 13: delta_s/delta_0: 1.0762E-08 | 14: delta_r/delta_0: 3.1707E-09 | 15: delta_s/delta_0: 9.6270E-09 | 16: delta_r/delta_0: 2.4947E-09 | 17: delta_s/delta_0: 9.4641E-12 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.168122647997001E-002 5.488121189765934E-005 | BP delta = -3.7554488E-02 3.7349928E-02 61509232.2873593 | BP delta = -2.2785725E-02 5.2118689E-02 61509232.2604601 | 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 = 0.42121106 | --> Sampling calibration, mode = relcal | relcal = 4.5549892E-02 3.9568383E-02 -2.8224031E-02 -5.6894243E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.1846464E-03 5.5828770E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.9160E-05 | 2: delta_r/delta_0: 3.3744E-06 | 3: delta_s/delta_0: 1.9530E-06 | 4: delta_r/delta_0: 2.4255E-07 | 5: delta_s/delta_0: 6.1808E-08 | 6: delta_r/delta_0: 3.2932E-08 | 7: delta_s/delta_0: 7.2358E-08 | 8: delta_r/delta_0: 6.3812E-09 | 9: delta_s/delta_0: 2.5058E-09 | 10: delta_r/delta_0: 1.7957E-09 | 11: delta_s/delta_0: 1.9466E-08 | 12: delta_r/delta_0: 3.9200E-09 | 13: delta_s/delta_0: 3.3172E-09 | 14: delta_r/delta_0: 2.3342E-09 | 15: delta_s/delta_0: 2.4162E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.337698334909778E-002 5.000021024369498E-005 | BP delta = -9.6056208E-02 -0.1095942 61331525.8018903 | BP delta = -0.1051592 -0.1186971 61331525.8391143 | 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 = 0.28131127 | --> Sampling calibration, mode = relcal | relcal = 2.4142560E-02 4.5087498E-02 -2.3368953E-02 -4.5861106E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.2103799E-02 3.5158689E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.0796E-04 | 2: delta_r/delta_0: 8.7456E-06 | 3: delta_s/delta_0: 1.3467E-06 | 4: delta_r/delta_0: 2.2001E-07 | 5: delta_s/delta_0: 6.8858E-08 | 6: delta_r/delta_0: 1.7093E-08 | 7: delta_s/delta_0: 8.9749E-09 | 8: delta_r/delta_0: 3.8175E-09 | 9: delta_s/delta_0: 2.6352E-06 | 10: delta_r/delta_0: 9.6442E-09 | 11: delta_s/delta_0: 8.4423E-10 | 12: delta_r/delta_0: 2.1289E-10 | 13: delta_s/delta_0: 2.3587E-10 | 14: delta_r/delta_0: 1.5745E-10 | 15: delta_s/delta_0: 8.2036E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.379030573866652E-003 7.852086721506247E-005 | BP delta = 0.1116833 -3.2342318E-03 94946361.5137731 | BP delta = 0.1106675 -4.2499965E-03 94946361.5079445 | 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 = 0.29357285 | --> Sampling calibration, mode = relcal | relcal = 5.8061769E-04 1.0220445E-02 -3.8839704E-03 -6.9170920E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.6041800E-02 1.5788576E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.3272E-04 | 2: delta_r/delta_0: 1.1393E-05 | 3: delta_s/delta_0: 1.7578E-06 | 4: delta_r/delta_0: 2.9816E-07 | 5: delta_s/delta_0: 1.2186E-07 | 6: delta_r/delta_0: 2.3098E-08 | 7: delta_s/delta_0: 1.0601E-08 | 8: delta_r/delta_0: 6.6595E-09 | 9: delta_s/delta_0: 1.0397E-08 | 10: delta_r/delta_0: 4.3586E-09 | 11: delta_s/delta_0: 4.0580E-07 | 12: delta_r/delta_0: 1.9631E-07 | 13: delta_s/delta_0: 4.5146E-10 | 14: delta_r/delta_0: 2.6403E-10 | 15: delta_s/delta_0: 5.8052E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.008866061390245E-002 8.316591064951795E-005 | BP delta = -0.7399772 -0.7131956 93506235.8745368 | BP delta = -0.7229454 -0.6961637 93506235.9529494 | 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 = 0.26477203 | --> Sampling calibration, mode = relcal | relcal = -5.6032576E-03 1.5102147E-02 -2.4491921E-03 -7.0496975E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.3700840E-03 6.4189439E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4256E-04 | 2: delta_r/delta_0: 1.2165E-05 | 3: delta_s/delta_0: 2.0228E-06 | 4: delta_r/delta_0: 2.5638E-07 | 5: delta_s/delta_0: 9.5519E-08 | 6: delta_r/delta_0: 1.8879E-08 | 7: delta_s/delta_0: 7.3853E-09 | 8: delta_r/delta_0: 4.6252E-09 | 9: delta_s/delta_0: 5.2734E-09 | 10: delta_r/delta_0: 3.3554E-09 | 11: delta_s/delta_0: 5.1725E-06 | 12: delta_r/delta_0: 9.2323E-07 | 13: delta_s/delta_0: 1.2170E-09 | 14: delta_r/delta_0: 5.1430E-10 | 15: delta_s/delta_0: 7.8918E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -8.182883916366304E-003 9.164112859531492E-005 | BP delta = 0.2198790 0.2204182 94713314.7336311 | BP delta = 0.2183962 0.2189354 94713314.7326087 | 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 = 0.25635223 | --> Sampling calibration, mode = relcal | relcal = -3.1611755E-02 -2.6028756E-02 3.7001066E-02 2.0639447E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.7010255E-02 1.5602273E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4575E-04 | 2: delta_r/delta_0: 1.1916E-05 | 3: delta_s/delta_0: 1.7677E-06 | 4: delta_r/delta_0: 4.8782E-07 | 5: delta_s/delta_0: 1.4767E-07 | 6: delta_r/delta_0: 3.1710E-08 | 7: delta_s/delta_0: 1.2893E-08 | 8: delta_r/delta_0: 6.6174E-09 | 9: delta_s/delta_0: 1.0082E-07 | 10: delta_r/delta_0: 6.4157E-09 | 11: delta_s/delta_0: 3.8262E-09 | 12: delta_r/delta_0: 2.7648E-09 | 13: delta_s/delta_0: 4.7312E-10 | 14: delta_r/delta_0: 2.9925E-10 | 15: delta_s/delta_0: 1.2743E-10 | 16: delta_r/delta_0: 1.1402E-10 | 17: delta_s/delta_0: 1.0420E-10 | 18: delta_r/delta_0: 9.4962E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.028675570029935E-003 8.682146838153809E-005 | BP delta = -0.6167558 -0.6585953 93054388.5029029 | BP delta = -0.5861718 -0.6280112 93054388.5697359 | 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 = -3.268724 | New value = -3.088050 | poltype: 2 pol: 1 CPU time specind = 4.6439171E-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 = -3.119252 | New value = -3.194375 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.061418 | New value = -3.162149 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.105862 | New value = -3.179224 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.142261 | New value = -3.144880 | poltype: 2 pol: 2 CPU time specind = 1.9509792E-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 = 4.12 | CG iter. 1 -- res = 0.13816E+08, tol = 0.87825E+01, time = 1.57 | CG iter. 2 -- res = 0.14597E+06, tol = 0.87825E+01, time = 1.53 | CG iter. 3 -- res = 0.40316E+06, tol = 0.87825E+01, time = 1.53 | CG iter. 4 -- res = 0.37895E+06, tol = 0.87825E+01, time = 1.61 | CG iter. 5 -- res = 0.38135E+06, tol = 0.87825E+01, time = 1.59 | CG iter. 6 -- res = 0.26419E+06, tol = 0.87825E+01, time = 1.53 | CG iter. 7 -- res = 0.17514E+06, tol = 0.87825E+01, time = 1.56 | CG iter. 8 -- res = 0.13192E+06, tol = 0.87825E+01, time = 1.54 | CG iter. 9 -- res = 0.11756E+06, tol = 0.87825E+01, time = 1.56 | CG iter. 10 -- res = 0.99091E+05, tol = 0.87825E+01, time = 1.55 | CG iter. 11 -- res = 0.75701E+05, tol = 0.87825E+01, time = 1.57 | CG iter. 12 -- res = 0.60802E+05, tol = 0.87825E+01, time = 1.58 | CG iter. 13 -- res = 0.50903E+05, tol = 0.87825E+01, time = 1.57 | CG iter. 14 -- res = 0.42067E+05, tol = 0.87825E+01, time = 1.59 | CG iter. 15 -- res = 0.26144E+05, tol = 0.87825E+01, time = 1.52 | CG iter. 16 -- res = 0.18025E+05, tol = 0.87825E+01, time = 1.55 | CG iter. 17 -- res = 0.15323E+05, tol = 0.87825E+01, time = 1.57 | CG iter. 18 -- res = 0.12530E+05, tol = 0.87825E+01, time = 1.53 | CG iter. 19 -- res = 0.10780E+05, tol = 0.87825E+01, time = 1.56 | CG iter. 20 -- res = 0.68528E+04, tol = 0.87825E+01, time = 1.54 | CG iter. 21 -- res = 0.65911E+04, tol = 0.87825E+01, time = 1.56 | CG iter. 22 -- res = 0.51847E+04, tol = 0.87825E+01, time = 1.57 | CG iter. 23 -- res = 0.38219E+04, tol = 0.87825E+01, time = 1.55 | CG iter. 24 -- res = 0.31764E+04, tol = 0.87825E+01, time = 1.58 | CG iter. 25 -- res = 0.29225E+04, tol = 0.87825E+01, time = 1.51 | CG iter. 26 -- res = 0.22249E+04, tol = 0.87825E+01, time = 1.56 | CG iter. 27 -- res = 0.19440E+04, tol = 0.87825E+01, time = 1.49 | CG iter. 28 -- res = 0.15708E+04, tol = 0.87825E+01, time = 1.55 | CG iter. 29 -- res = 0.12844E+04, tol = 0.87825E+01, time = 1.56 | CG iter. 30 -- res = 0.93963E+03, tol = 0.87825E+01, time = 1.49 | CG iter. 31 -- res = 0.77881E+03, tol = 0.87825E+01, time = 1.52 | CG iter. 32 -- res = 0.60796E+03, tol = 0.87825E+01, time = 1.56 | CG iter. 33 -- res = 0.48607E+03, tol = 0.87825E+01, time = 1.55 | CG iter. 34 -- res = 0.38583E+03, tol = 0.87825E+01, time = 1.61 | CG iter. 35 -- res = 0.27585E+03, tol = 0.87825E+01, time = 1.53 | CG iter. 36 -- res = 0.22934E+03, tol = 0.87825E+01, time = 1.49 | CG iter. 37 -- res = 0.19934E+03, tol = 0.87825E+01, time = 1.54 | CG iter. 38 -- res = 0.13301E+03, tol = 0.87825E+01, time = 1.57 | CG iter. 39 -- res = 0.98781E+02, tol = 0.87825E+01, time = 1.49 | CG iter. 40 -- res = 0.12005E+03, tol = 0.87825E+01, time = 1.56 | CG iter. 41 -- res = 0.86667E+02, tol = 0.87825E+01, time = 1.58 | CG iter. 42 -- res = 0.49305E+02, tol = 0.87825E+01, time = 1.57 | CG iter. 43 -- res = 0.37495E+02, tol = 0.87825E+01, time = 1.55 | CG iter. 44 -- res = 0.40649E+02, tol = 0.87825E+01, time = 1.60 | CG iter. 45 -- res = 0.32619E+02, tol = 0.87825E+01, time = 1.54 | CG iter. 46 -- res = 0.17156E+02, tol = 0.87825E+01, time = 1.53 | CG iter. 47 -- res = 0.12251E+02, tol = 0.87825E+01, time = 1.55 | CG iter. 48 -- res = 0.92969E+01, tol = 0.87825E+01, time = 1.53 | CG iter. 49 -- res = 0.79642E+01, tol = 0.87825E+01, time = 1.56 | CG iter. 50 -- res = 0.74416E+01, tol = 0.87825E+01, time = 1.58 | Final CG iter 51 -- res = 0.74416E+01, tol = 0.87825E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8889525.929 | Old band monopole 7523060.872 | Change to band monopole 1366465.057 | Change to component monopole -1366459.180 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 4.13 | CG iter. 1 -- res = 0.69028E+06, tol = 0.47627E+18, time = 0.39 | CG iter. 2 -- res = 0.20959E+03, tol = 0.47627E+18, time = 0.42 | CG iter. 3 -- res = 0.23768E+01, tol = 0.47627E+18, time = 0.37 | CG iter. 4 -- res = 0.20346E-02, tol = 0.47627E+18, time = 0.36 | Final CG iter 5 -- res = 0.70287E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8889487.694 | (Sampled value in CG: 9010438.689 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.539557 | New value = 1.532450 | poltype: 2 pol: 1 CPU time specind = 4.7700405E-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 = 1.497392 | New value = 1.512503 | poltype: 2 pol: 2 CPU time specind = 1.9800663E-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 = 4.12 | CG iter. 1 -- res = 0.24054E+08, tol = 0.47665E+04, time = 1.73 | CG iter. 2 -- res = 0.53960E+07, tol = 0.47665E+04, time = 1.80 | CG iter. 3 -- res = 0.82260E+06, tol = 0.47665E+04, time = 1.74 | CG iter. 4 -- res = 0.33770E+06, tol = 0.47665E+04, time = 1.74 | CG iter. 5 -- res = 0.14652E+06, tol = 0.47665E+04, time = 1.74 | CG iter. 6 -- res = 0.77702E+05, tol = 0.47665E+04, time = 1.74 | CG iter. 7 -- res = 0.42813E+05, tol = 0.47665E+04, time = 1.74 | CG iter. 8 -- res = 0.20768E+05, tol = 0.47665E+04, time = 1.75 | CG iter. 9 -- res = 0.91770E+04, tol = 0.47665E+04, time = 1.76 | CG iter. 10 -- res = 0.37755E+04, tol = 0.47665E+04, time = 1.78 | CG iter. 11 -- res = 0.16899E+04, tol = 0.47665E+04, time = 1.74 | CG iter. 12 -- res = 0.85495E+03, tol = 0.47665E+04, time = 1.76 | CG iter. 13 -- res = 0.48284E+03, tol = 0.47665E+04, time = 1.81 | CG iter. 14 -- res = 0.27034E+03, tol = 0.47665E+04, time = 1.80 | CG iter. 15 -- res = 0.13998E+03, tol = 0.47665E+04, time = 1.71 | CG iter. 16 -- res = 0.69127E+02, tol = 0.47665E+04, time = 1.82 | CG iter. 17 -- res = 0.32758E+02, tol = 0.47665E+04, time = 1.77 | CG iter. 18 -- res = 0.16253E+02, tol = 0.47665E+04, time = 1.76 | CG iter. 19 -- res = 0.87285E+01, tol = 0.47665E+04, time = 1.77 | CG iter. 20 -- res = 0.48784E+01, tol = 0.47665E+04, time = 1.78 | CG iter. 21 -- res = 0.27007E+01, tol = 0.47665E+04, time = 1.79 | CG iter. 22 -- res = 0.13963E+01, tol = 0.47665E+04, time = 1.82 | CG iter. 23 -- res = 0.69625E+00, tol = 0.47665E+04, time = 1.78 | CG iter. 24 -- res = 0.35677E+00, tol = 0.47665E+04, time = 1.82 | CG iter. 25 -- res = 0.19557E+00, tol = 0.47665E+04, time = 1.75 | CG iter. 26 -- res = 0.11120E+00, tol = 0.47665E+04, time = 1.79 | CG iter. 27 -- res = 0.61024E-01, tol = 0.47665E+04, time = 1.75 | CG iter. 28 -- res = 0.32433E-01, tol = 0.47665E+04, time = 1.76 | CG iter. 29 -- res = 0.16907E-01, tol = 0.47665E+04, time = 1.77 | CG iter. 30 -- res = 0.86826E-02, tol = 0.47665E+04, time = 1.83 | CG iter. 31 -- res = 0.47183E-02, tol = 0.47665E+04, time = 1.85 | CG iter. 32 -- res = 0.26972E-02, tol = 0.47665E+04, time = 1.79 | CG iter. 33 -- res = 0.15431E-02, tol = 0.47665E+04, time = 1.81 | CG iter. 34 -- res = 0.83618E-03, tol = 0.47665E+04, time = 1.84 | CG iter. 35 -- res = 0.43904E-03, tol = 0.47665E+04, time = 1.79 | Final CG iter 36 -- res = 0.43904E-03, tol = 0.47665E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 2.144 2.749 | New value -4.804 | Old value 2.144 | Difference -6.949 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 4.12 | CG iter. 1 -- res = 0.25061E+07, tol = 0.47627E+18, time = 0.39 | CG iter. 2 -- res = 0.18491E+03, tol = 0.47627E+18, time = 0.39 | CG iter. 3 -- res = 0.24959E+01, tol = 0.47627E+18, time = 0.37 | CG iter. 4 -- res = 0.81015E-04, tol = 0.47627E+18, time = 0.38 | Final CG iter 5 -- res = 0.24626E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8889487.694 | (Sampled value in CG: 9009397.063 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.450101 | New value = -3.372415 | poltype: 1 pol: 1 CPU time specind = 3.0808449E-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 = 4.12 | CG iter. 1 -- res = 0.56181E+07, tol = 0.20205E+01, time = 0.61 | CG iter. 2 -- res = 0.35693E+06, tol = 0.20205E+01, time = 0.70 | CG iter. 3 -- res = 0.34470E+06, tol = 0.20205E+01, time = 0.66 | CG iter. 4 -- res = 0.56757E+05, tol = 0.20205E+01, time = 0.65 | CG iter. 5 -- res = 0.13359E+05, tol = 0.20205E+01, time = 0.70 | CG iter. 6 -- res = 0.57995E+04, tol = 0.20205E+01, time = 0.68 | CG iter. 7 -- res = 0.17099E+04, tol = 0.20205E+01, time = 0.68 | CG iter. 8 -- res = 0.80822E+03, tol = 0.20205E+01, time = 0.65 | CG iter. 9 -- res = 0.29523E+03, tol = 0.20205E+01, time = 0.65 | CG iter. 10 -- res = 0.63379E+02, tol = 0.20205E+01, time = 0.63 | CG iter. 11 -- res = 0.26241E+02, tol = 0.20205E+01, time = 0.66 | CG iter. 12 -- res = 0.11084E+02, tol = 0.20205E+01, time = 0.67 | CG iter. 13 -- res = 0.42965E+01, tol = 0.20205E+01, time = 0.64 | CG iter. 14 -- res = 0.13100E+01, tol = 0.20205E+01, time = 0.68 | CG iter. 15 -- res = 0.54822E+00, tol = 0.20205E+01, time = 0.64 | CG iter. 16 -- res = 0.20456E+00, tol = 0.20205E+01, time = 0.61 | CG iter. 17 -- res = 0.55442E-01, tol = 0.20205E+01, time = 0.67 | CG iter. 18 -- res = 0.21354E-01, tol = 0.20205E+01, time = 0.63 | CG iter. 19 -- res = 0.75139E-02, tol = 0.20205E+01, time = 0.70 | CG iter. 20 -- res = 0.30791E-02, tol = 0.20205E+01, time = 0.67 | CG iter. 21 -- res = 0.12020E-02, tol = 0.20205E+01, time = 0.69 | CG iter. 22 -- res = 0.44454E-03, tol = 0.20205E+01, time = 0.64 | CG iter. 23 -- res = 0.15221E-03, tol = 0.20205E+01, time = 0.65 | CG iter. 24 -- res = 0.55434E-04, tol = 0.20205E+01, time = 0.69 | CG iter. 25 -- res = 0.14656E-04, tol = 0.20205E+01, time = 0.66 | CG iter. 26 -- res = 0.49176E-05, tol = 0.20205E+01, time = 0.64 | CG iter. 27 -- res = 0.20432E-05, tol = 0.20205E+01, time = 0.65 | CG iter. 28 -- res = 0.59611E-06, tol = 0.20205E+01, time = 0.67 | CG iter. 29 -- res = 0.18877E-06, tol = 0.20205E+01, time = 0.67 | CG iter. 30 -- res = 0.59281E-07, tol = 0.20205E+01, time = 0.70 | CG iter. 31 -- res = 0.23368E-07, tol = 0.20205E+01, time = 0.67 | CG iter. 32 -- res = 0.18287E-07, tol = 0.20205E+01, time = 0.66 | CG iter. 33 -- res = 0.37563E-08, tol = 0.20205E+01, time = 0.64 | CG iter. 34 -- res = 0.13372E-08, tol = 0.20205E+01, time = 0.64 | CG iter. 35 -- res = 0.54716E-09, tol = 0.20205E+01, time = 0.63 | CG iter. 36 -- res = 0.38628E-09, tol = 0.20205E+01, time = 0.66 | CG iter. 37 -- res = 0.10272E-09, tol = 0.20205E+01, time = 0.67 | CG iter. 38 -- res = 0.31180E-10, tol = 0.20205E+01, time = 0.67 | CG iter. 39 -- res = 0.99161E-11, tol = 0.20205E+01, time = 0.65 | CG iter. 40 -- res = 0.31907E-11, tol = 0.20205E+01, time = 0.68 | CG iter. 41 -- res = 0.79086E-12, tol = 0.20205E+01, time = 0.67 | CG iter. 42 -- res = 0.26315E-12, tol = 0.20205E+01, time = 0.63 | CG iter. 43 -- res = 0.10310E-12, tol = 0.20205E+01, time = 0.65 | CG iter. 44 -- res = 0.32546E-13, tol = 0.20205E+01, time = 0.63 | CG iter. 45 -- res = 0.11632E-13, tol = 0.20205E+01, time = 0.64 | CG iter. 46 -- res = 0.35323E-14, tol = 0.20205E+01, time = 0.68 | CG iter. 47 -- res = 0.10163E-14, tol = 0.20205E+01, time = 0.66 | CG iter. 48 -- res = 0.31178E-15, tol = 0.20205E+01, time = 0.65 | CG iter. 49 -- res = 0.84932E-16, tol = 0.20205E+01, time = 0.67 | CG iter. 50 -- res = 0.27899E-16, tol = 0.20205E+01, time = 0.69 | Final CG iter 51 -- res = 0.27899E-16, tol = 0.20205E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 11.551 2.815 | New value 2.325 | Old value 11.551 | Difference -9.227 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 4.11 | CG iter. 1 -- res = 0.69164E+05, tol = 0.47627E+18, time = 0.37 | CG iter. 2 -- res = 0.10521E+03, tol = 0.47627E+18, time = 0.39 | CG iter. 3 -- res = 0.19674E+01, tol = 0.47627E+18, time = 0.36 | Final CG iter 4 -- res = 0.20123E-04, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8889487.694 | (Sampled value in CG: 8978541.841 ) | CPU time specind = 277.8365 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 4.12 | CG iter. 1 -- res = 0.74068E+08, tol = 0.51558E+04, time = 3.09 | CG iter. 2 -- res = 0.32764E+08, tol = 0.51558E+04, time = 3.12 | CG iter. 3 -- res = 0.59674E+07, tol = 0.51558E+04, time = 3.14 | CG iter. 4 -- res = 0.33571E+07, tol = 0.51558E+04, time = 3.10 | CG iter. 5 -- res = 0.15750E+07, tol = 0.51558E+04, time = 3.06 | CG iter. 6 -- res = 0.84741E+06, tol = 0.51558E+04, time = 3.19 | CG iter. 7 -- res = 0.46171E+06, tol = 0.51558E+04, time = 3.14 | CG iter. 8 -- res = 0.26327E+06, tol = 0.51558E+04, time = 3.15 | CG iter. 9 -- res = 0.17438E+06, tol = 0.51558E+04, time = 3.14 | CG iter. 10 -- res = 0.11953E+06, tol = 0.51558E+04, time = 3.17 | CG iter. 11 -- res = 0.97966E+05, tol = 0.51558E+04, time = 3.22 | CG iter. 12 -- res = 0.87955E+05, tol = 0.51558E+04, time = 3.14 | CG iter. 13 -- res = 0.90224E+05, tol = 0.51558E+04, time = 3.20 | CG iter. 14 -- res = 0.99286E+05, tol = 0.51558E+04, time = 3.11 | CG iter. 15 -- res = 0.92226E+05, tol = 0.51558E+04, time = 3.12 | CG iter. 16 -- res = 0.74105E+05, tol = 0.51558E+04, time = 3.17 | CG iter. 17 -- res = 0.53615E+05, tol = 0.51558E+04, time = 3.09 | CG iter. 18 -- res = 0.42842E+05, tol = 0.51558E+04, time = 3.14 | CG iter. 19 -- res = 0.37704E+05, tol = 0.51558E+04, time = 3.16 | CG iter. 20 -- res = 0.31789E+05, tol = 0.51558E+04, time = 3.17 | CG iter. 21 -- res = 0.23147E+05, tol = 0.51558E+04, time = 3.12 | CG iter. 22 -- res = 0.15875E+05, tol = 0.51558E+04, time = 3.21 | CG iter. 23 -- res = 0.12931E+05, tol = 0.51558E+04, time = 3.11 | CG iter. 24 -- res = 0.12839E+05, tol = 0.51558E+04, time = 3.15 | CG iter. 25 -- res = 0.13342E+05, tol = 0.51558E+04, time = 3.17 | CG iter. 26 -- res = 0.11534E+05, tol = 0.51558E+04, time = 3.18 | CG iter. 27 -- res = 0.84274E+04, tol = 0.51558E+04, time = 3.10 | CG iter. 28 -- res = 0.63139E+04, tol = 0.51558E+04, time = 3.13 | CG iter. 29 -- res = 0.55152E+04, tol = 0.51558E+04, time = 3.18 | CG iter. 30 -- res = 0.52890E+04, tol = 0.51558E+04, time = 3.16 | CG iter. 31 -- res = 0.45332E+04, tol = 0.51558E+04, time = 3.15 | CG iter. 32 -- res = 0.33563E+04, tol = 0.51558E+04, time = 3.15 | CG iter. 33 -- res = 0.25171E+04, tol = 0.51558E+04, time = 3.14 | CG iter. 34 -- res = 0.22471E+04, tol = 0.51558E+04, time = 3.21 | CG iter. 35 -- res = 0.22941E+04, tol = 0.51558E+04, time = 3.17 | CG iter. 36 -- res = 0.22513E+04, tol = 0.51558E+04, time = 3.13 | CG iter. 37 -- res = 0.19001E+04, tol = 0.51558E+04, time = 3.15 | CG iter. 38 -- res = 0.14782E+04, tol = 0.51558E+04, time = 3.21 | CG iter. 39 -- res = 0.12340E+04, tol = 0.51558E+04, time = 3.15 | CG iter. 40 -- res = 0.11656E+04, tol = 0.51558E+04, time = 3.16 | CG iter. 41 -- res = 0.11107E+04, tol = 0.51558E+04, time = 3.17 | CG iter. 42 -- res = 0.96868E+03, tol = 0.51558E+04, time = 3.21 | CG iter. 43 -- res = 0.80169E+03, tol = 0.51558E+04, time = 3.23 | CG iter. 44 -- res = 0.70078E+03, tol = 0.51558E+04, time = 3.16 | CG iter. 45 -- res = 0.68233E+03, tol = 0.51558E+04, time = 3.28 | CG iter. 46 -- res = 0.68407E+03, tol = 0.51558E+04, time = 3.14 | CG iter. 47 -- res = 0.64130E+03, tol = 0.51558E+04, time = 3.23 | CG iter. 48 -- res = 0.57321E+03, tol = 0.51558E+04, time = 3.11 | CG iter. 49 -- res = 0.52320E+03, tol = 0.51558E+04, time = 3.12 | CG iter. 50 -- res = 0.50214E+03, tol = 0.51558E+04, time = 3.22 | CG iter. 51 -- res = 0.49246E+03, tol = 0.51558E+04, time = 3.15 | CG iter. 52 -- res = 0.47533E+03, tol = 0.51558E+04, time = 3.18 | CG iter. 53 -- res = 0.45423E+03, tol = 0.51558E+04, time = 3.24 | CG iter. 54 -- res = 0.44710E+03, tol = 0.51558E+04, time = 3.15 | CG iter. 55 -- res = 0.44337E+03, tol = 0.51558E+04, time = 3.23 | CG iter. 56 -- res = 0.43810E+03, tol = 0.51558E+04, time = 3.17 | CG iter. 57 -- res = 0.43600E+03, tol = 0.51558E+04, time = 3.19 | CG iter. 58 -- res = 0.43308E+03, tol = 0.51558E+04, time = 3.10 | CG iter. 59 -- res = 0.43612E+03, tol = 0.51558E+04, time = 3.07 | CG iter. 60 -- res = 0.43674E+03, tol = 0.51558E+04, time = 3.16 | Final CG iter 61 -- res = 0.43674E+03, tol = 0.51558E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 3.115 ( -231.563 -2233.053 2515.647 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8003098.963 | Old band monopole 8889525.929 | Change to band monopole -886426.967 | Change to component monopole 886423.154 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -4.836 2.749 | New value -4.564 | Old value -4.836 | Difference 0.272 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -4.237 ( 6.910 10.884 -11.757 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 8.056 2.886 | New value 2.381 | Old value 8.056 | Difference -5.675 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 4.12 | CG iter. 1 -- res = 0.83672E+05, tol = 0.47627E+18, time = 0.35 | CG iter. 2 -- res = 0.71151E+02, tol = 0.47627E+18, time = 0.36 | CG iter. 3 -- res = 0.15957E+01, tol = 0.47627E+18, time = 0.37 | CG iter. 4 -- res = 0.27491E-03, tol = 0.47627E+18, time = 0.38 | Final CG iter 5 -- res = 0.43705E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8003064.540 | (Sampled value in CG: 7934592.207 ) | Chain = 1 -- chisq = 0.61866994E+09 | Chain = 1 -- wall time = 4127.931 sec --------------------------------------------------------------------- | Chain = 1 -- Iteration = 46 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.17989755791429 | --> Sampling calibration, mode = relcal | relcal = -7.3961988E-02 -5.7766952E-02 9.0750724E-02 4.0978219E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.2890546E-04 3.3986601E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4499E-03 | 2: delta_r/delta_0: 3.1835E-05 | 3: delta_s/delta_0: 2.0163E-07 | 4: delta_r/delta_0: 2.6604E-08 | 5: delta_s/delta_0: 1.2190E-08 | 6: delta_r/delta_0: 3.0729E-09 | 7: delta_s/delta_0: 7.1139E-09 | 8: delta_r/delta_0: 1.0556E-10 | 9: delta_s/delta_0: 8.1060E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.175128164722918E-003 2.743793340958788E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.4492E-03 | 2: delta_r/delta_0: 3.1811E-05 | 3: delta_s/delta_0: 2.0165E-07 | 4: delta_r/delta_0: 2.6612E-08 | 5: delta_s/delta_0: 1.2200E-08 | 6: delta_r/delta_0: 3.0776E-09 | 7: delta_s/delta_0: 7.1072E-09 | 8: delta_r/delta_0: 1.0561E-10 | 9: delta_s/delta_0: 8.1120E-11 | Reached bicg-stab tolerance | BP delta = 5.6086830E-03 1.1879681E-02 3863080.34383785 | BP delta = 5.6086830E-03 1.1856774E-02 3869778.96342903 | 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 = 1.02546990 | --> Sampling calibration, mode = relcal | relcal = -0.1066334 -9.5383145E-02 0.1448576 5.7158973E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.3060752E-03 1.4674248E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 4.4395E-04 | 2: delta_r/delta_0: 9.7513E-06 | 3: delta_s/delta_0: 3.0071E-06 | 4: delta_r/delta_0: 2.7762E-07 | 5: delta_s/delta_0: 1.6619E-07 | 6: delta_r/delta_0: 7.6100E-09 | 7: delta_s/delta_0: 2.5224E-09 | 8: delta_r/delta_0: 8.2894E-10 | 9: delta_s/delta_0: 6.5217E-09 | 10: delta_r/delta_0: 2.3363E-10 | 11: delta_s/delta_0: 7.7687E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -6.610458802814919E-003 2.812271482483999E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 4.4394E-04 | 2: delta_r/delta_0: 9.7511E-06 | 3: delta_s/delta_0: 3.0071E-06 | 4: delta_r/delta_0: 2.7761E-07 | 5: delta_s/delta_0: 1.6618E-07 | 6: delta_r/delta_0: 7.6097E-09 | 7: delta_s/delta_0: 2.5222E-09 | 8: delta_r/delta_0: 8.2893E-10 | 9: delta_s/delta_0: 6.5219E-09 | 10: delta_r/delta_0: 2.3366E-10 | 11: delta_s/delta_0: 7.7688E-11 | Reached bicg-stab tolerance | BP delta = -0.1876811 -0.1801518 2842078.96508347 | BP delta = -0.1876811 -0.1785865 2841918.05670031 | BP chisq diff = -160.9, accept = T | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81160547 | --> Sampling calibration, mode = relcal | relcal = 0.2953020 0.2246880 -0.2835969 -0.2363931 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.2919975E-04 5.2088522E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4498E-03 | 2: delta_r/delta_0: 3.3344E-05 | 3: delta_s/delta_0: 9.2900E-05 | 4: delta_r/delta_0: 6.8963E-06 | 5: delta_s/delta_0: 6.6503E-06 | 6: delta_r/delta_0: 1.2007E-06 | 7: delta_s/delta_0: 6.2879E-08 | 8: delta_r/delta_0: 3.5055E-08 | 9: delta_s/delta_0: 5.6138E-07 | 10: delta_r/delta_0: 3.2628E-09 | 11: delta_s/delta_0: 1.1598E-09 | 12: delta_r/delta_0: 5.3676E-10 | 13: delta_s/delta_0: 1.0133E-08 | 14: delta_r/delta_0: 3.0361E-10 | 15: delta_s/delta_0: 8.3019E-09 | 16: delta_r/delta_0: 1.9450E-09 | 17: delta_s/delta_0: 1.8857E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.624128187416808E-002 4.024914069942160E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.4492E-03 | 2: delta_r/delta_0: 3.3331E-05 | 3: delta_s/delta_0: 9.2933E-05 | 4: delta_r/delta_0: 6.8985E-06 | 5: delta_s/delta_0: 6.6491E-06 | 6: delta_r/delta_0: 1.2006E-06 | 7: delta_s/delta_0: 6.2889E-08 | 8: delta_r/delta_0: 3.5060E-08 | 9: delta_s/delta_0: 5.6145E-07 | 10: delta_r/delta_0: 3.2620E-09 | 11: delta_s/delta_0: 1.1593E-09 | 12: delta_r/delta_0: 5.3664E-10 | 13: delta_s/delta_0: 1.0102E-08 | 14: delta_r/delta_0: 3.0209E-10 | 15: delta_s/delta_0: 8.6423E-09 | 16: delta_r/delta_0: 2.0179E-09 | 17: delta_s/delta_0: 1.8850E-11 | Reached bicg-stab tolerance | BP delta = -8.6809896E-02 -0.1346902 2827404.49107350 | BP delta = -8.6809896E-02 -0.1249239 2827360.97714598 | BP chisq diff = -43.5, accept = T | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95837518 | --> Sampling calibration, mode = relcal | relcal = 0.1065371 0.1393794 -0.1102021 -0.1357144 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0001427E-02 1.2813629E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 5.1246E-04 | 2: delta_r/delta_0: 1.1712E-05 | 3: delta_s/delta_0: 6.7598E-06 | 4: delta_r/delta_0: 2.2117E-07 | 5: delta_s/delta_0: 9.1970E-07 | 6: delta_r/delta_0: 1.2087E-07 | 7: delta_s/delta_0: 5.1383E-08 | 8: delta_r/delta_0: 3.3924E-08 | 9: delta_s/delta_0: 1.6544E-06 | 10: delta_r/delta_0: 1.1459E-08 | 11: delta_s/delta_0: 2.4944E-09 | 12: delta_r/delta_0: 4.6684E-10 | 13: delta_s/delta_0: 6.0410E-09 | 14: delta_r/delta_0: 2.3560E-09 | 15: delta_s/delta_0: 3.1022E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.367203481365307E-002 3.700271225129035E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 5.1241E-04 | 2: delta_r/delta_0: 1.1711E-05 | 3: delta_s/delta_0: 6.7609E-06 | 4: delta_r/delta_0: 2.2117E-07 | 5: delta_s/delta_0: 9.1963E-07 | 6: delta_r/delta_0: 1.2086E-07 | 7: delta_s/delta_0: 5.1384E-08 | 8: delta_r/delta_0: 3.3925E-08 | 9: delta_s/delta_0: 1.6547E-06 | 10: delta_r/delta_0: 1.1459E-08 | 11: delta_s/delta_0: 2.4956E-09 | 12: delta_r/delta_0: 4.6683E-10 | 13: delta_s/delta_0: 5.9928E-09 | 14: delta_r/delta_0: 2.3393E-09 | 15: delta_s/delta_0: 3.1018E-11 | Reached bicg-stab tolerance | BP delta = 0.2913097 0.3214542 3004937.57232563 | BP delta = 0.2913097 0.3056278 3004952.75260938 | 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 = 0.52115156 | --> Sampling calibration, mode = relcal | relcal = -5.1020805E-02 -3.7955933E-03 2.7272418E-02 2.7543981E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -2.9827113E-04 1.5888620E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.8088E-05 | 2: delta_r/delta_0: 4.2187E-06 | 3: delta_s/delta_0: 2.5040E-06 | 4: delta_r/delta_0: 3.2885E-07 | 5: delta_s/delta_0: 5.3880E-08 | 6: delta_r/delta_0: 2.5350E-08 | 7: delta_s/delta_0: 2.9290E-06 | 8: delta_r/delta_0: 3.0382E-07 | 9: delta_s/delta_0: 3.3063E-09 | 10: delta_r/delta_0: 1.4382E-09 | 11: delta_s/delta_0: 1.7667E-08 | 12: delta_r/delta_0: 2.6928E-10 | 13: delta_s/delta_0: 5.5570E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.995496186884683E-002 5.487734909749064E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 6.8088E-05 | 2: delta_r/delta_0: 4.2187E-06 | 3: delta_s/delta_0: 2.5040E-06 | 4: delta_r/delta_0: 3.2885E-07 | 5: delta_s/delta_0: 5.3875E-08 | 6: delta_r/delta_0: 2.5350E-08 | 7: delta_s/delta_0: 2.9246E-06 | 8: delta_r/delta_0: 3.0341E-07 | 9: delta_s/delta_0: 3.3064E-09 | 10: delta_r/delta_0: 1.4381E-09 | 11: delta_s/delta_0: 1.7720E-08 | 12: delta_r/delta_0: 2.7055E-10 | 13: delta_s/delta_0: 5.5576E-11 | Reached bicg-stab tolerance | BP delta = -2.2785725E-02 5.2118689E-02 2435703.72460330 | BP delta = -2.2785725E-02 5.5375736E-02 2435697.06686045 | BP chisq diff = -6.7, accept = T | | Finished processing 060-WMAP_V1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 060-WMAP_V2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.42120915 | --> Sampling calibration, mode = relcal | relcal = 4.5562621E-02 3.9545394E-02 -2.8242787E-02 -5.6865230E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.6382466E-03 6.1588520E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.0186E-04 | 2: delta_r/delta_0: 3.1903E-06 | 3: delta_s/delta_0: 1.6751E-06 | 4: delta_r/delta_0: 1.9359E-07 | 5: delta_s/delta_0: 7.2582E-08 | 6: delta_r/delta_0: 3.4596E-08 | 7: delta_s/delta_0: 4.5684E-05 | 8: delta_r/delta_0: 3.9507E-06 | 9: delta_s/delta_0: 2.7330E-09 | 10: delta_r/delta_0: 1.8199E-09 | 11: delta_s/delta_0: 2.8766E-09 | 12: delta_r/delta_0: 4.4936E-10 | 13: delta_s/delta_0: 4.3868E-09 | 14: delta_r/delta_0: 2.2187E-09 | 15: delta_s/delta_0: 1.8662E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.365214991506724E-002 5.000047860420508E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.0186E-04 | 2: delta_r/delta_0: 3.1903E-06 | 3: delta_s/delta_0: 1.6751E-06 | 4: delta_r/delta_0: 1.9359E-07 | 5: delta_s/delta_0: 7.2580E-08 | 6: delta_r/delta_0: 3.4595E-08 | 7: delta_s/delta_0: 4.5640E-05 | 8: delta_r/delta_0: 3.9477E-06 | 9: delta_s/delta_0: 2.7330E-09 | 10: delta_r/delta_0: 1.8200E-09 | 11: delta_s/delta_0: 2.8786E-09 | 12: delta_r/delta_0: 4.4924E-10 | 13: delta_s/delta_0: 4.3842E-09 | 14: delta_r/delta_0: 2.2167E-09 | 15: delta_s/delta_0: 1.8662E-11 | Reached bicg-stab tolerance | BP delta = -0.1051592 -0.1186971 2322628.56645103 | BP delta = -0.1051592 -0.1242514 2322675.19808063 | 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 = 0.28132753 | --> Sampling calibration, mode = relcal | relcal = 2.4180889E-02 4.5127876E-02 -2.3338173E-02 -4.5970593E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.2701516E-02 3.2234970E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.1129E-04 | 2: delta_r/delta_0: 9.0325E-06 | 3: delta_s/delta_0: 1.5178E-06 | 4: delta_r/delta_0: 2.3105E-07 | 5: delta_s/delta_0: 8.5928E-08 | 6: delta_r/delta_0: 1.7962E-08 | 7: delta_s/delta_0: 7.2034E-09 | 8: delta_r/delta_0: 4.4408E-09 | 9: delta_s/delta_0: 7.2937E-09 | 10: delta_r/delta_0: 3.1313E-09 | 11: delta_s/delta_0: 5.7504E-09 | 12: delta_r/delta_0: 1.8166E-10 | 13: delta_s/delta_0: 5.1050E-10 | 14: delta_r/delta_0: 1.2161E-10 | 15: delta_s/delta_0: 4.7976E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.109351394831801E-003 7.852101982258792E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.1129E-04 | 2: delta_r/delta_0: 9.0325E-06 | 3: delta_s/delta_0: 1.5178E-06 | 4: delta_r/delta_0: 2.3106E-07 | 5: delta_s/delta_0: 8.5932E-08 | 6: delta_r/delta_0: 1.7962E-08 | 7: delta_s/delta_0: 7.2035E-09 | 8: delta_r/delta_0: 4.4408E-09 | 9: delta_s/delta_0: 7.2935E-09 | 10: delta_r/delta_0: 3.1312E-09 | 11: delta_s/delta_0: 5.7507E-09 | 12: delta_r/delta_0: 1.8166E-10 | 13: delta_s/delta_0: 5.1050E-10 | 14: delta_r/delta_0: 1.2161E-10 | 15: delta_s/delta_0: 4.7977E-11 | Reached bicg-stab tolerance | BP delta = 0.1106675 -4.2499965E-03 2490233.81813981 | BP delta = 0.1106675 -5.5470825E-03 2490225.65701554 | BP chisq diff = -8.2, accept = T | | Finished processing 090-WMAP_W1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.29362584 | --> Sampling calibration, mode = relcal | relcal = 5.1709794E-04 1.0198374E-02 -3.7809773E-03 -6.9344952E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.3421270E-02 1.5223318E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.3314E-04 | 2: delta_r/delta_0: 1.1386E-05 | 3: delta_s/delta_0: 1.8736E-06 | 4: delta_r/delta_0: 2.8081E-07 | 5: delta_s/delta_0: 1.0538E-07 | 6: delta_r/delta_0: 2.3460E-08 | 7: delta_s/delta_0: 1.0389E-08 | 8: delta_r/delta_0: 6.8722E-09 | 9: delta_s/delta_0: 8.5521E-09 | 10: delta_r/delta_0: 4.8450E-09 | 11: delta_s/delta_0: 1.3276E-07 | 12: delta_r/delta_0: 1.4042E-08 | 13: delta_s/delta_0: 3.4606E-10 | 14: delta_r/delta_0: 2.3143E-10 | 15: delta_s/delta_0: 1.1519E-10 | 16: delta_r/delta_0: 5.5579E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.968462711784873E-003 8.314869883448126E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.3314E-04 | 2: delta_r/delta_0: 1.1386E-05 | 3: delta_s/delta_0: 1.8736E-06 | 4: delta_r/delta_0: 2.8082E-07 | 5: delta_s/delta_0: 1.0539E-07 | 6: delta_r/delta_0: 2.3460E-08 | 7: delta_s/delta_0: 1.0389E-08 | 8: delta_r/delta_0: 6.8722E-09 | 9: delta_s/delta_0: 8.5521E-09 | 10: delta_r/delta_0: 4.8450E-09 | 11: delta_s/delta_0: 1.3271E-07 | 12: delta_r/delta_0: 1.4034E-08 | 13: delta_s/delta_0: 3.4723E-10 | 14: delta_r/delta_0: 2.3226E-10 | 15: delta_s/delta_0: 1.1517E-10 | 16: delta_r/delta_0: 5.5589E-11 | Reached bicg-stab tolerance | BP delta = -0.7229454 -0.6961637 2737796.88334053 | BP delta = -0.7229454 -0.6909904 2737793.20469017 | BP chisq diff = -3.7, accept = T | | Finished processing 090-WMAP_W2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W3 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.26483080 | --> Sampling calibration, mode = relcal | relcal = -5.5934913E-03 1.5018847E-02 -2.4346521E-03 -6.9907033E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -1.4391430E-03 5.8748010E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4248E-04 | 2: delta_r/delta_0: 1.2159E-05 | 3: delta_s/delta_0: 2.0709E-06 | 4: delta_r/delta_0: 2.7189E-07 | 5: delta_s/delta_0: 1.1257E-07 | 6: delta_r/delta_0: 2.0974E-08 | 7: delta_s/delta_0: 7.9229E-09 | 8: delta_r/delta_0: 4.9598E-09 | 9: delta_s/delta_0: 6.7195E-09 | 10: delta_r/delta_0: 3.9621E-09 | 11: delta_s/delta_0: 3.0484E-08 | 12: delta_r/delta_0: 5.6301E-10 | 13: delta_s/delta_0: 3.8398E-09 | 14: delta_r/delta_0: 6.9082E-10 | 15: delta_s/delta_0: 5.8351E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -8.047341710557467E-003 9.161863648497627E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.4248E-04 | 2: delta_r/delta_0: 1.2159E-05 | 3: delta_s/delta_0: 2.0709E-06 | 4: delta_r/delta_0: 2.7189E-07 | 5: delta_s/delta_0: 1.1257E-07 | 6: delta_r/delta_0: 2.0973E-08 | 7: delta_s/delta_0: 7.9227E-09 | 8: delta_r/delta_0: 4.9597E-09 | 9: delta_s/delta_0: 6.7192E-09 | 10: delta_r/delta_0: 3.9621E-09 | 11: delta_s/delta_0: 3.0488E-08 | 12: delta_r/delta_0: 5.6309E-10 | 13: delta_s/delta_0: 3.8398E-09 | 14: delta_r/delta_0: 6.9082E-10 | 15: delta_s/delta_0: 5.8351E-11 | Reached bicg-stab tolerance | BP delta = 0.2183962 0.2189354 2516489.89947587 | BP delta = 0.2183962 0.2218447 2516489.78168590 | 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 = 0.25641468 | --> Sampling calibration, mode = relcal | relcal = -3.1727590E-02 -2.5877345E-02 3.6934618E-02 2.0670317E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.7165916E-02 1.7326759E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4629E-04 | 2: delta_r/delta_0: 1.1755E-05 | 3: delta_s/delta_0: 1.5854E-06 | 4: delta_r/delta_0: 3.9208E-07 | 5: delta_s/delta_0: 1.1711E-07 | 6: delta_r/delta_0: 2.5237E-08 | 7: delta_s/delta_0: 1.0610E-08 | 8: delta_r/delta_0: 6.2247E-09 | 9: delta_s/delta_0: 3.9825E-08 | 10: delta_r/delta_0: 2.3358E-09 | 11: delta_s/delta_0: 2.8514E-08 | 12: delta_r/delta_0: 6.7536E-09 | 13: delta_s/delta_0: 1.2199E-09 | 14: delta_r/delta_0: 1.8711E-10 | 15: delta_s/delta_0: 1.2360E-10 | 16: delta_r/delta_0: 9.9712E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -8.742098461084235E-003 8.679857279738687E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.4629E-04 | 2: delta_r/delta_0: 1.1755E-05 | 3: delta_s/delta_0: 1.5854E-06 | 4: delta_r/delta_0: 3.9208E-07 | 5: delta_s/delta_0: 1.1710E-07 | 6: delta_r/delta_0: 2.5236E-08 | 7: delta_s/delta_0: 1.0610E-08 | 8: delta_r/delta_0: 6.2247E-09 | 9: delta_s/delta_0: 3.9826E-08 | 10: delta_r/delta_0: 2.3357E-09 | 11: delta_s/delta_0: 2.8514E-08 | 12: delta_r/delta_0: 6.7535E-09 | 13: delta_s/delta_0: 1.2199E-09 | 14: delta_r/delta_0: 1.8711E-10 | 15: delta_s/delta_0: 1.2360E-10 | 16: delta_r/delta_0: 9.9713E-11 | Reached bicg-stab tolerance | BP delta = -0.5861718 -0.6280112 2705810.14702697 | BP delta = -0.5861718 -0.6464026 2705808.71388884 | BP chisq diff = -1.4, 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 = -3.088050 | New value = -3.197562 | poltype: 2 pol: 1 CPU time specind = 2.8910637E-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 = -3.194375 | New value = -3.157530 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.162149 | New value = -3.163206 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.179224 | New value = -3.053584 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.144880 | New value = -3.117617 | poltype: 2 pol: 2 CPU time specind = 1.5790462E-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 = 4.12 | CG iter. 1 -- res = 0.13549E+08, tol = 0.84354E+01, time = 1.48 | CG iter. 2 -- res = 0.59619E+05, tol = 0.84354E+01, time = 1.54 | CG iter. 3 -- res = 0.63620E+05, tol = 0.84354E+01, time = 1.49 | CG iter. 4 -- res = 0.51416E+05, tol = 0.84354E+01, time = 1.52 | CG iter. 5 -- res = 0.68864E+05, tol = 0.84354E+01, time = 1.48 | CG iter. 6 -- res = 0.60293E+05, tol = 0.84354E+01, time = 1.53 | CG iter. 7 -- res = 0.49146E+05, tol = 0.84354E+01, time = 1.53 | CG iter. 8 -- res = 0.33347E+05, tol = 0.84354E+01, time = 1.50 | CG iter. 9 -- res = 0.27589E+05, tol = 0.84354E+01, time = 1.48 | CG iter. 10 -- res = 0.22906E+05, tol = 0.84354E+01, time = 1.50 | CG iter. 11 -- res = 0.16579E+05, tol = 0.84354E+01, time = 1.47 | CG iter. 12 -- res = 0.13204E+05, tol = 0.84354E+01, time = 1.50 | CG iter. 13 -- res = 0.97084E+04, tol = 0.84354E+01, time = 1.46 | CG iter. 14 -- res = 0.10856E+05, tol = 0.84354E+01, time = 1.49 | CG iter. 15 -- res = 0.89647E+04, tol = 0.84354E+01, time = 1.53 | CG iter. 16 -- res = 0.55424E+04, tol = 0.84354E+01, time = 1.52 | CG iter. 17 -- res = 0.42890E+04, tol = 0.84354E+01, time = 1.55 | CG iter. 18 -- res = 0.32307E+04, tol = 0.84354E+01, time = 1.50 | CG iter. 19 -- res = 0.28617E+04, tol = 0.84354E+01, time = 1.49 | CG iter. 20 -- res = 0.20858E+04, tol = 0.84354E+01, time = 1.50 | CG iter. 21 -- res = 0.17834E+04, tol = 0.84354E+01, time = 1.48 | CG iter. 22 -- res = 0.17103E+04, tol = 0.84354E+01, time = 1.51 | CG iter. 23 -- res = 0.13657E+04, tol = 0.84354E+01, time = 1.48 | CG iter. 24 -- res = 0.10782E+04, tol = 0.84354E+01, time = 1.51 | CG iter. 25 -- res = 0.95574E+03, tol = 0.84354E+01, time = 1.50 | CG iter. 26 -- res = 0.84380E+03, tol = 0.84354E+01, time = 1.48 | CG iter. 27 -- res = 0.65619E+03, tol = 0.84354E+01, time = 1.49 | CG iter. 28 -- res = 0.57119E+03, tol = 0.84354E+01, time = 1.47 | CG iter. 29 -- res = 0.55767E+03, tol = 0.84354E+01, time = 1.52 | CG iter. 30 -- res = 0.45825E+03, tol = 0.84354E+01, time = 1.51 | CG iter. 31 -- res = 0.39698E+03, tol = 0.84354E+01, time = 1.51 | CG iter. 32 -- res = 0.33628E+03, tol = 0.84354E+01, time = 1.53 | CG iter. 33 -- res = 0.28992E+03, tol = 0.84354E+01, time = 1.52 | CG iter. 34 -- res = 0.23990E+03, tol = 0.84354E+01, time = 1.51 | CG iter. 35 -- res = 0.20315E+03, tol = 0.84354E+01, time = 1.52 | CG iter. 36 -- res = 0.17613E+03, tol = 0.84354E+01, time = 1.48 | CG iter. 37 -- res = 0.15276E+03, tol = 0.84354E+01, time = 1.49 | CG iter. 38 -- res = 0.11122E+03, tol = 0.84354E+01, time = 1.51 | CG iter. 39 -- res = 0.93887E+02, tol = 0.84354E+01, time = 1.43 | CG iter. 40 -- res = 0.14594E+03, tol = 0.84354E+01, time = 1.51 | CG iter. 41 -- res = 0.79086E+02, tol = 0.84354E+01, time = 1.48 | CG iter. 42 -- res = 0.52211E+02, tol = 0.84354E+01, time = 1.49 | CG iter. 43 -- res = 0.41330E+02, tol = 0.84354E+01, time = 1.44 | CG iter. 44 -- res = 0.35426E+02, tol = 0.84354E+01, time = 1.55 | CG iter. 45 -- res = 0.27634E+02, tol = 0.84354E+01, time = 1.54 | CG iter. 46 -- res = 0.26516E+02, tol = 0.84354E+01, time = 1.44 | CG iter. 47 -- res = 0.32129E+02, tol = 0.84354E+01, time = 1.48 | CG iter. 48 -- res = 0.16728E+02, tol = 0.84354E+01, time = 1.49 | CG iter. 49 -- res = 0.13594E+02, tol = 0.84354E+01, time = 1.47 | CG iter. 50 -- res = 0.13813E+02, tol = 0.84354E+01, time = 1.44 | Final CG iter 51 -- res = 0.13813E+02, tol = 0.84354E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8556034.466 | Old band monopole 8003098.963 | Change to band monopole 552935.504 | Change to component monopole -552933.125 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 4.11 | CG iter. 1 -- res = 0.52638E+06, tol = 0.47627E+18, time = 0.38 | CG iter. 2 -- res = 0.60968E+02, tol = 0.47627E+18, time = 0.34 | CG iter. 3 -- res = 0.13916E+01, tol = 0.47627E+18, time = 0.36 | CG iter. 4 -- res = 0.54759E-02, tol = 0.47627E+18, time = 0.35 | Final CG iter 5 -- res = 0.14939E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8555997.665 | (Sampled value in CG: 8500741.465 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.532450 | New value = 1.471054 | poltype: 2 pol: 1 CPU time specind = 7.3051453E-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 = 1.512503 | New value = 1.499159 | poltype: 2 pol: 2 CPU time specind = 2.5451183E-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 = 4.13 | CG iter. 1 -- res = 0.24870E+08, tol = 0.47458E+04, time = 1.78 | CG iter. 2 -- res = 0.53885E+07, tol = 0.47458E+04, time = 1.70 | CG iter. 3 -- res = 0.84065E+06, tol = 0.47458E+04, time = 1.76 | CG iter. 4 -- res = 0.35190E+06, tol = 0.47458E+04, time = 1.68 | CG iter. 5 -- res = 0.15135E+06, tol = 0.47458E+04, time = 1.68 | CG iter. 6 -- res = 0.79239E+05, tol = 0.47458E+04, time = 1.77 | CG iter. 7 -- res = 0.43780E+05, tol = 0.47458E+04, time = 1.77 | CG iter. 8 -- res = 0.21006E+05, tol = 0.47458E+04, time = 1.71 | CG iter. 9 -- res = 0.92937E+04, tol = 0.47458E+04, time = 1.78 | CG iter. 10 -- res = 0.37224E+04, tol = 0.47458E+04, time = 1.73 | CG iter. 11 -- res = 0.16852E+04, tol = 0.47458E+04, time = 1.73 | CG iter. 12 -- res = 0.87362E+03, tol = 0.47458E+04, time = 1.71 | CG iter. 13 -- res = 0.49315E+03, tol = 0.47458E+04, time = 1.71 | CG iter. 14 -- res = 0.28003E+03, tol = 0.47458E+04, time = 1.74 | CG iter. 15 -- res = 0.14684E+03, tol = 0.47458E+04, time = 1.72 | CG iter. 16 -- res = 0.69670E+02, tol = 0.47458E+04, time = 1.74 | CG iter. 17 -- res = 0.31966E+02, tol = 0.47458E+04, time = 1.75 | CG iter. 18 -- res = 0.15902E+02, tol = 0.47458E+04, time = 1.77 | CG iter. 19 -- res = 0.86155E+01, tol = 0.47458E+04, time = 1.70 | CG iter. 20 -- res = 0.50360E+01, tol = 0.47458E+04, time = 1.77 | CG iter. 21 -- res = 0.27351E+01, tol = 0.47458E+04, time = 1.77 | CG iter. 22 -- res = 0.14154E+01, tol = 0.47458E+04, time = 1.73 | CG iter. 23 -- res = 0.70493E+00, tol = 0.47458E+04, time = 1.78 | CG iter. 24 -- res = 0.35148E+00, tol = 0.47458E+04, time = 1.73 | CG iter. 25 -- res = 0.18989E+00, tol = 0.47458E+04, time = 1.76 | CG iter. 26 -- res = 0.10790E+00, tol = 0.47458E+04, time = 1.74 | CG iter. 27 -- res = 0.62075E-01, tol = 0.47458E+04, time = 1.75 | CG iter. 28 -- res = 0.33461E-01, tol = 0.47458E+04, time = 1.77 | CG iter. 29 -- res = 0.17610E-01, tol = 0.47458E+04, time = 1.75 | CG iter. 30 -- res = 0.90483E-02, tol = 0.47458E+04, time = 1.68 | CG iter. 31 -- res = 0.49291E-02, tol = 0.47458E+04, time = 1.70 | CG iter. 32 -- res = 0.28046E-02, tol = 0.47458E+04, time = 1.72 | CG iter. 33 -- res = 0.15944E-02, tol = 0.47458E+04, time = 1.74 | CG iter. 34 -- res = 0.87468E-03, tol = 0.47458E+04, time = 1.68 | CG iter. 35 -- res = 0.44688E-03, tol = 0.47458E+04, time = 1.67 | Final CG iter 36 -- res = 0.44688E-03, tol = 0.47458E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -4.567 2.743 | New value -1.376 | Old value -4.567 | Difference 3.190 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 4.11 | CG iter. 1 -- res = 0.53153E+06, tol = 0.47627E+18, time = 0.36 | CG iter. 2 -- res = 0.45759E+02, tol = 0.47627E+18, time = 0.39 | CG iter. 3 -- res = 0.10603E+01, tol = 0.47627E+18, time = 0.36 | CG iter. 4 -- res = 0.59860E-03, tol = 0.47627E+18, time = 0.37 | Final CG iter 5 -- res = 0.58145E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8555997.665 | (Sampled value in CG: 8500266.854 ) | 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 = -3.372415 | New value = -3.646725 | poltype: 1 pol: 1 CPU time specind = 3.9470196E-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 = 4.12 | CG iter. 1 -- res = 0.36629E+07, tol = 0.21424E+01, time = 0.63 | CG iter. 2 -- res = 0.15621E+06, tol = 0.21424E+01, time = 0.69 | CG iter. 3 -- res = 0.17059E+06, tol = 0.21424E+01, time = 0.65 | CG iter. 4 -- res = 0.31570E+05, tol = 0.21424E+01, time = 0.64 | CG iter. 5 -- res = 0.72321E+04, tol = 0.21424E+01, time = 0.63 | CG iter. 6 -- res = 0.24342E+04, tol = 0.21424E+01, time = 0.61 | CG iter. 7 -- res = 0.84116E+03, tol = 0.21424E+01, time = 0.61 | CG iter. 8 -- res = 0.21402E+03, tol = 0.21424E+01, time = 0.63 | CG iter. 9 -- res = 0.11919E+03, tol = 0.21424E+01, time = 0.60 | CG iter. 10 -- res = 0.44129E+02, tol = 0.21424E+01, time = 0.64 | CG iter. 11 -- res = 0.14547E+02, tol = 0.21424E+01, time = 0.65 | CG iter. 12 -- res = 0.77963E+01, tol = 0.21424E+01, time = 0.59 | CG iter. 13 -- res = 0.29148E+01, tol = 0.21424E+01, time = 0.61 | CG iter. 14 -- res = 0.79806E+00, tol = 0.21424E+01, time = 0.57 | CG iter. 15 -- res = 0.28625E+00, tol = 0.21424E+01, time = 0.61 | CG iter. 16 -- res = 0.10825E+00, tol = 0.21424E+01, time = 0.59 | CG iter. 17 -- res = 0.37683E-01, tol = 0.21424E+01, time = 0.62 | CG iter. 18 -- res = 0.14632E-01, tol = 0.21424E+01, time = 0.62 | CG iter. 19 -- res = 0.48267E-02, tol = 0.21424E+01, time = 0.58 | CG iter. 20 -- res = 0.20492E-02, tol = 0.21424E+01, time = 0.61 | CG iter. 21 -- res = 0.76240E-03, tol = 0.21424E+01, time = 0.58 | CG iter. 22 -- res = 0.28505E-03, tol = 0.21424E+01, time = 0.62 | CG iter. 23 -- res = 0.95966E-04, tol = 0.21424E+01, time = 0.66 | CG iter. 24 -- res = 0.31048E-04, tol = 0.21424E+01, time = 0.59 | CG iter. 25 -- res = 0.85606E-05, tol = 0.21424E+01, time = 0.57 | CG iter. 26 -- res = 0.33357E-05, tol = 0.21424E+01, time = 0.57 | CG iter. 27 -- res = 0.13029E-05, tol = 0.21424E+01, time = 0.61 | CG iter. 28 -- res = 0.35532E-06, tol = 0.21424E+01, time = 0.56 | CG iter. 29 -- res = 0.11115E-06, tol = 0.21424E+01, time = 0.60 | CG iter. 30 -- res = 0.32700E-07, tol = 0.21424E+01, time = 0.62 | CG iter. 31 -- res = 0.10912E-07, tol = 0.21424E+01, time = 0.63 | CG iter. 32 -- res = 0.38392E-08, tol = 0.21424E+01, time = 0.58 | CG iter. 33 -- res = 0.21614E-08, tol = 0.21424E+01, time = 0.61 | CG iter. 34 -- res = 0.11255E-08, tol = 0.21424E+01, time = 0.57 | CG iter. 35 -- res = 0.28067E-09, tol = 0.21424E+01, time = 0.58 | CG iter. 36 -- res = 0.94645E-10, tol = 0.21424E+01, time = 0.65 | CG iter. 37 -- res = 0.71383E-10, tol = 0.21424E+01, time = 0.56 | CG iter. 38 -- res = 0.27649E-10, tol = 0.21424E+01, time = 0.62 | CG iter. 39 -- res = 0.65680E-11, tol = 0.21424E+01, time = 0.62 | CG iter. 40 -- res = 0.17303E-11, tol = 0.21424E+01, time = 0.59 | CG iter. 41 -- res = 0.48735E-12, tol = 0.21424E+01, time = 0.58 | CG iter. 42 -- res = 0.16090E-12, tol = 0.21424E+01, time = 0.61 | CG iter. 43 -- res = 0.48329E-13, tol = 0.21424E+01, time = 0.61 | CG iter. 44 -- res = 0.14376E-13, tol = 0.21424E+01, time = 0.59 | CG iter. 45 -- res = 0.45054E-14, tol = 0.21424E+01, time = 0.59 | CG iter. 46 -- res = 0.18111E-14, tol = 0.21424E+01, time = 0.61 | CG iter. 47 -- res = 0.59902E-15, tol = 0.21424E+01, time = 0.62 | CG iter. 48 -- res = 0.17567E-15, tol = 0.21424E+01, time = 0.60 | CG iter. 49 -- res = 0.52889E-16, tol = 0.21424E+01, time = 0.60 | CG iter. 50 -- res = 0.16808E-16, tol = 0.21424E+01, time = 0.58 | Final CG iter 51 -- res = 0.16808E-16, tol = 0.21424E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -4.075 3.736 | New value -3.087 | Old value -4.075 | Difference 0.988 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 4.12 | CG iter. 1 -- res = 0.30930E+04, tol = 0.47627E+18, time = 0.37 | CG iter. 2 -- res = 0.17736E+02, tol = 0.47627E+18, time = 0.36 | CG iter. 3 -- res = 0.71522E+00, tol = 0.47627E+18, time = 0.34 | Final CG iter 4 -- res = 0.35658E-04, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8555997.665 | (Sampled value in CG: 8517744.913 ) | CPU time specind = 269.9812 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 4.14 | CG iter. 1 -- res = 0.71051E+08, tol = 0.51488E+04, time = 3.09 | CG iter. 2 -- res = 0.33425E+08, tol = 0.51488E+04, time = 2.95 | CG iter. 3 -- res = 0.57825E+07, tol = 0.51488E+04, time = 2.90 | CG iter. 4 -- res = 0.29183E+07, tol = 0.51488E+04, time = 2.96 | CG iter. 5 -- res = 0.12912E+07, tol = 0.51488E+04, time = 2.95 | CG iter. 6 -- res = 0.71891E+06, tol = 0.51488E+04, time = 3.08 | CG iter. 7 -- res = 0.40139E+06, tol = 0.51488E+04, time = 2.98 | CG iter. 8 -- res = 0.21060E+06, tol = 0.51488E+04, time = 3.02 | CG iter. 9 -- res = 0.11010E+06, tol = 0.51488E+04, time = 2.99 | CG iter. 10 -- res = 0.56507E+05, tol = 0.51488E+04, time = 3.02 | CG iter. 11 -- res = 0.36831E+05, tol = 0.51488E+04, time = 2.98 | CG iter. 12 -- res = 0.28978E+05, tol = 0.51488E+04, time = 2.98 | CG iter. 13 -- res = 0.26434E+05, tol = 0.51488E+04, time = 3.03 | CG iter. 14 -- res = 0.25673E+05, tol = 0.51488E+04, time = 3.01 | CG iter. 15 -- res = 0.23155E+05, tol = 0.51488E+04, time = 3.11 | CG iter. 16 -- res = 0.21864E+05, tol = 0.51488E+04, time = 3.07 | CG iter. 17 -- res = 0.20547E+05, tol = 0.51488E+04, time = 3.01 | CG iter. 18 -- res = 0.19689E+05, tol = 0.51488E+04, time = 3.04 | CG iter. 19 -- res = 0.17779E+05, tol = 0.51488E+04, time = 3.04 | CG iter. 20 -- res = 0.14324E+05, tol = 0.51488E+04, time = 2.97 | CG iter. 21 -- res = 0.10457E+05, tol = 0.51488E+04, time = 3.00 | CG iter. 22 -- res = 0.73200E+04, tol = 0.51488E+04, time = 3.02 | CG iter. 23 -- res = 0.55130E+04, tol = 0.51488E+04, time = 3.00 | CG iter. 24 -- res = 0.46141E+04, tol = 0.51488E+04, time = 2.99 | CG iter. 25 -- res = 0.41462E+04, tol = 0.51488E+04, time = 3.01 | CG iter. 26 -- res = 0.37290E+04, tol = 0.51488E+04, time = 3.02 | CG iter. 27 -- res = 0.32161E+04, tol = 0.51488E+04, time = 3.01 | CG iter. 28 -- res = 0.27647E+04, tol = 0.51488E+04, time = 2.98 | CG iter. 29 -- res = 0.24677E+04, tol = 0.51488E+04, time = 3.09 | CG iter. 30 -- res = 0.22507E+04, tol = 0.51488E+04, time = 3.07 | CG iter. 31 -- res = 0.19903E+04, tol = 0.51488E+04, time = 3.01 | CG iter. 32 -- res = 0.16626E+04, tol = 0.51488E+04, time = 3.00 | CG iter. 33 -- res = 0.13141E+04, tol = 0.51488E+04, time = 3.03 | CG iter. 34 -- res = 0.10535E+04, tol = 0.51488E+04, time = 2.96 | CG iter. 35 -- res = 0.90535E+03, tol = 0.51488E+04, time = 3.02 | CG iter. 36 -- res = 0.85171E+03, tol = 0.51488E+04, time = 3.05 | CG iter. 37 -- res = 0.83350E+03, tol = 0.51488E+04, time = 3.09 | CG iter. 38 -- res = 0.78079E+03, tol = 0.51488E+04, time = 3.05 | CG iter. 39 -- res = 0.69626E+03, tol = 0.51488E+04, time = 3.04 | CG iter. 40 -- res = 0.62044E+03, tol = 0.51488E+04, time = 3.10 | CG iter. 41 -- res = 0.58234E+03, tol = 0.51488E+04, time = 3.04 | CG iter. 42 -- res = 0.56912E+03, tol = 0.51488E+04, time = 3.06 | CG iter. 43 -- res = 0.54904E+03, tol = 0.51488E+04, time = 2.99 | CG iter. 44 -- res = 0.50044E+03, tol = 0.51488E+04, time = 2.98 | CG iter. 45 -- res = 0.44942E+03, tol = 0.51488E+04, time = 3.05 | CG iter. 46 -- res = 0.42573E+03, tol = 0.51488E+04, time = 3.00 | CG iter. 47 -- res = 0.43191E+03, tol = 0.51488E+04, time = 3.01 | CG iter. 48 -- res = 0.45863E+03, tol = 0.51488E+04, time = 3.07 | CG iter. 49 -- res = 0.47177E+03, tol = 0.51488E+04, time = 3.08 | CG iter. 50 -- res = 0.45017E+03, tol = 0.51488E+04, time = 3.04 | CG iter. 51 -- res = 0.43368E+03, tol = 0.51488E+04, time = 2.99 | CG iter. 52 -- res = 0.43917E+03, tol = 0.51488E+04, time = 3.07 | CG iter. 53 -- res = 0.46990E+03, tol = 0.51488E+04, time = 3.03 | CG iter. 54 -- res = 0.49967E+03, tol = 0.51488E+04, time = 3.03 | CG iter. 55 -- res = 0.49070E+03, tol = 0.51488E+04, time = 3.09 | CG iter. 56 -- res = 0.46550E+03, tol = 0.51488E+04, time = 3.02 | CG iter. 57 -- res = 0.46274E+03, tol = 0.51488E+04, time = 2.99 | CG iter. 58 -- res = 0.49980E+03, tol = 0.51488E+04, time = 3.11 | CG iter. 59 -- res = 0.54100E+03, tol = 0.51488E+04, time = 3.04 | CG iter. 60 -- res = 0.54932E+03, tol = 0.51488E+04, time = 3.00 | Final CG iter 61 -- res = 0.54932E+03, tol = 0.51488E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 2.687 ( -231.359 -2234.476 2516.860 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 10146133.879 | Old band monopole 8556034.466 | Change to band monopole 1590099.413 | Change to component monopole -1590092.574 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -1.365 2.761 | New value 3.422 | Old value -1.365 | Difference 4.787 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -4.644 ( 8.978 12.487 -12.006 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 18.249 2.654 | New value -5.311 | Old value 18.249 | Difference -23.560 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 4.11 | CG iter. 1 -- res = 0.12959E+07, tol = 0.47627E+18, time = 0.38 | CG iter. 2 -- res = 0.97095E+02, tol = 0.47627E+18, time = 0.40 | CG iter. 3 -- res = 0.20134E+01, tol = 0.47627E+18, time = 0.36 | CG iter. 4 -- res = 0.20047E-01, tol = 0.47627E+18, time = 0.36 | Final CG iter 5 -- res = 0.15986E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10146090.239 | (Sampled value in CG: 10071151.434 ) | Chain = 1 -- chisq = 0.61574579E+09 | Chain = 1 -- wall time = 4698.329 sec --------------------------------------------------------------------- | Chain = 1 -- Iteration = 47 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.17939800020082 | --> Sampling calibration, mode = relcal | relcal = -7.4764043E-02 -5.8276270E-02 9.1575384E-02 4.1464929E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.2381288E-06 3.9200778E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.7876E-05 | 2: delta_r/delta_0: 7.4951E-07 | 3: delta_s/delta_0: 2.5454E-07 | 4: delta_r/delta_0: 1.3524E-08 | 5: delta_s/delta_0: 4.0486E-09 | 6: delta_r/delta_0: 1.2135E-09 | 7: delta_s/delta_0: 2.3830E-10 | 8: delta_r/delta_0: 8.9717E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 7.152633110695504E-004 2.744819654182158E-005 | BP delta = 5.6086830E-03 1.1879681E-02 29858405.2609099 | BP delta = 7.1176072E-03 1.3388605E-02 29858405.5001478 | 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 = 1.02532684 | --> Sampling calibration, mode = relcal | relcal = -0.1066009 -9.5469467E-02 0.1448297 5.7240624E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.3326033E-03 1.3127620E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 7.2882E-03 | 2: delta_r/delta_0: 1.6025E-04 | 3: delta_s/delta_0: 1.7790E-03 | 4: delta_r/delta_0: 1.4311E-04 | 5: delta_s/delta_0: 1.1832E-05 | 6: delta_r/delta_0: 1.8328E-06 | 7: delta_s/delta_0: 1.6775E-06 | 8: delta_r/delta_0: 4.3133E-07 | 9: delta_s/delta_0: 2.0570E-07 | 10: delta_r/delta_0: 8.4719E-08 | 11: delta_s/delta_0: 3.7431E-08 | 12: delta_r/delta_0: 1.8926E-08 | 13: delta_s/delta_0: 1.5094E-08 | 14: delta_r/delta_0: 8.2866E-09 | 15: delta_s/delta_0: 6.6612E-09 | 16: delta_r/delta_0: 2.0537E-09 | 17: delta_s/delta_0: 1.7232E-08 | 18: delta_r/delta_0: 1.7374E-09 | 19: delta_s/delta_0: 2.2177E-09 | 20: delta_r/delta_0: 6.1355E-10 | 21: delta_s/delta_0: 8.3872E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -0.102643969617294 2.812661749109982E-005 | BP delta = -0.1876811 -0.1785865 34755955.4921486 | BP delta = -0.1896343 -0.1805396 34755955.4506665 | 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 = 0.81170281 | --> Sampling calibration, mode = relcal | relcal = 0.2953279 0.2247282 -0.2836486 -0.2364076 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -3.0608397E-04 5.5993344E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.2420E-03 | 2: delta_r/delta_0: 2.8538E-05 | 3: delta_s/delta_0: 2.1418E-05 | 4: delta_r/delta_0: 4.6825E-07 | 5: delta_s/delta_0: 1.1928E-05 | 6: delta_r/delta_0: 1.0293E-06 | 7: delta_s/delta_0: 6.7263E-08 | 8: delta_r/delta_0: 3.5410E-08 | 9: delta_s/delta_0: 8.9160E-08 | 10: delta_r/delta_0: 6.8402E-09 | 11: delta_s/delta_0: 1.6135E-09 | 12: delta_r/delta_0: 5.1654E-10 | 13: delta_s/delta_0: 1.7480E-10 | 14: delta_r/delta_0: 1.2469E-10 | 15: delta_s/delta_0: 2.1771E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.841435613094979E-002 4.024420820913651E-005 | BP delta = -8.6809896E-02 -0.1249239 43104172.1615205 | BP delta = -9.2415906E-02 -0.1305299 43104172.0872319 | 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 = 0.95844088 | --> Sampling calibration, mode = relcal | relcal = 0.1064282 0.1393753 -0.1101987 -0.1356048 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.2415353E-03 1.3978854E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 3.7906E-04 | 2: delta_r/delta_0: 8.6253E-06 | 3: delta_s/delta_0: 1.9858E-05 | 4: delta_r/delta_0: 6.7819E-07 | 5: delta_s/delta_0: 1.0795E-06 | 6: delta_r/delta_0: 1.6108E-07 | 7: delta_s/delta_0: 5.5382E-08 | 8: delta_r/delta_0: 2.9246E-08 | 9: delta_s/delta_0: 4.4542E-07 | 10: delta_r/delta_0: 1.1934E-08 | 11: delta_s/delta_0: 4.2368E-09 | 12: delta_r/delta_0: 5.5535E-10 | 13: delta_s/delta_0: 7.5846E-09 | 14: delta_r/delta_0: 2.0283E-09 | 15: delta_s/delta_0: 3.6549E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.506093293832625E-002 3.699884843819794E-005 | BP delta = 0.2913097 0.3214542 43048162.2455635 | BP delta = 0.3039595 0.3341040 43048162.9315154 | 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 = 0.52112712 | --> Sampling calibration, mode = relcal | relcal = -5.0949458E-02 -3.8136302E-03 2.7264435E-02 2.7498653E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -1.4671346E-03 2.1806454E-04 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.6494E-05 | 2: delta_r/delta_0: 4.3391E-06 | 3: delta_s/delta_0: 2.9811E-06 | 4: delta_r/delta_0: 4.3955E-07 | 5: delta_s/delta_0: 4.9588E-08 | 6: delta_r/delta_0: 2.6380E-08 | 7: delta_s/delta_0: 2.2989E-06 | 8: delta_r/delta_0: 8.1132E-08 | 9: delta_s/delta_0: 3.7255E-09 | 10: delta_r/delta_0: 1.3633E-09 | 11: delta_s/delta_0: 1.0600E-08 | 12: delta_r/delta_0: 3.9375E-10 | 13: delta_s/delta_0: 5.2395E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.036196825716680E-002 5.487873518128248E-005 | BP delta = -2.2785725E-02 5.5375736E-02 61513219.3650281 | BP delta = -3.9011277E-02 3.9150186E-02 61513219.3384344 | 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 = 0.42116672 | --> Sampling calibration, mode = relcal | relcal = 4.5518249E-02 3.9595604E-02 -2.8217556E-02 -5.6896299E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.4716150E-03 6.4252904E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.0261E-05 | 2: delta_r/delta_0: 3.7588E-06 | 3: delta_s/delta_0: 2.4395E-06 | 4: delta_r/delta_0: 3.9297E-07 | 5: delta_s/delta_0: 5.8770E-08 | 6: delta_r/delta_0: 3.3990E-08 | 7: delta_s/delta_0: 4.2092E-08 | 8: delta_r/delta_0: 1.1533E-08 | 9: delta_s/delta_0: 2.4292E-09 | 10: delta_r/delta_0: 1.5887E-09 | 11: delta_s/delta_0: 3.3604E-09 | 12: delta_r/delta_0: 3.1213E-10 | 13: delta_s/delta_0: 2.4719E-09 | 14: delta_r/delta_0: 8.3220E-10 | 15: delta_s/delta_0: 1.8719E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.350218577173290E-002 5.000535008381943E-005 | BP delta = -0.1051592 -0.1186971 61333617.5434813 | BP delta = -9.2173614E-02 -0.1057116 61333617.5271308 | 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 = 0.28135536 | --> Sampling calibration, mode = relcal | relcal = 2.4212489E-02 4.5163922E-02 -2.3510452E-02 -4.5865960E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 8.5870372E-03 1.8740622E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.0917E-04 | 2: delta_r/delta_0: 8.9889E-06 | 3: delta_s/delta_0: 1.5297E-06 | 4: delta_r/delta_0: 2.0764E-07 | 5: delta_s/delta_0: 7.0911E-08 | 6: delta_r/delta_0: 1.6530E-08 | 7: delta_s/delta_0: 7.1291E-09 | 8: delta_r/delta_0: 4.6144E-09 | 9: delta_s/delta_0: 8.1424E-09 | 10: delta_r/delta_0: 3.5978E-09 | 11: delta_s/delta_0: 1.5461E-08 | 12: delta_r/delta_0: 2.9477E-09 | 13: delta_s/delta_0: 1.1690E-10 | 14: delta_r/delta_0: 7.9572E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -8.431558130926272E-003 7.851376339155140E-005 | BP delta = 0.1106675 -5.5470825E-03 94941831.6550302 | BP delta = 9.9072844E-02 -1.7141735E-02 94941831.5560971 | 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 = 0.29355778 | --> Sampling calibration, mode = relcal | relcal = 3.8838756E-04 1.0314947E-02 -3.7809880E-03 -6.9223465E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.5221411E-02 1.4379093E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4407E-04 | 2: delta_r/delta_0: 1.1212E-05 | 3: delta_s/delta_0: 1.8888E-06 | 4: delta_r/delta_0: 2.8991E-07 | 5: delta_s/delta_0: 8.4879E-08 | 6: delta_r/delta_0: 2.5244E-08 | 7: delta_s/delta_0: 1.1290E-08 | 8: delta_r/delta_0: 7.4001E-09 | 9: delta_s/delta_0: 7.3792E-09 | 10: delta_r/delta_0: 4.8428E-09 | 11: delta_s/delta_0: 8.6484E-08 | 12: delta_r/delta_0: 8.8614E-10 | 13: delta_s/delta_0: 9.2079E-10 | 14: delta_r/delta_0: 3.2190E-10 | 15: delta_s/delta_0: 8.7139E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.949785627864907E-003 8.317175369095316E-005 | BP delta = -0.7229454 -0.6909904 93511211.3528545 | BP delta = -0.7103590 -0.6784040 93511211.4169602 | 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 = 0.26479013 | --> Sampling calibration, mode = relcal | relcal = -5.6005805E-03 1.5006267E-02 -2.3204179E-03 -7.0852684E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -2.9849089E-04 4.7273552E-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: 1.2423E-05 | 3: delta_s/delta_0: 2.0854E-06 | 4: delta_r/delta_0: 3.0691E-07 | 5: delta_s/delta_0: 1.2166E-07 | 6: delta_r/delta_0: 2.4013E-08 | 7: delta_s/delta_0: 8.9177E-09 | 8: delta_r/delta_0: 5.6329E-09 | 9: delta_s/delta_0: 3.9574E-09 | 10: delta_r/delta_0: 1.8073E-09 | 11: delta_s/delta_0: 9.8943E-06 | 12: delta_r/delta_0: 8.1636E-09 | 13: delta_s/delta_0: 8.0410E-10 | 14: delta_r/delta_0: 3.6891E-10 | 15: delta_s/delta_0: 6.8444E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -7.865251640693519E-003 9.163401732964981E-005 | BP delta = 0.2183962 0.2218447 94713103.9608425 | BP delta = 0.2230031 0.2264517 94713103.9728821 | 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 = 0.25641734 | --> Sampling calibration, mode = relcal | relcal = -3.1681042E-02 -2.6025226E-02 3.6985595E-02 2.0720672E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.2134798E-02 2.1171562E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4388E-04 | 2: delta_r/delta_0: 1.2089E-05 | 3: delta_s/delta_0: 1.8150E-06 | 4: delta_r/delta_0: 4.3263E-07 | 5: delta_s/delta_0: 1.5782E-07 | 6: delta_r/delta_0: 2.6069E-08 | 7: delta_s/delta_0: 9.9113E-09 | 8: delta_r/delta_0: 5.3297E-09 | 9: delta_s/delta_0: 7.9325E-09 | 10: delta_r/delta_0: 3.3928E-09 | 11: delta_s/delta_0: 4.7288E-09 | 12: delta_r/delta_0: 2.6286E-10 | 13: delta_s/delta_0: 1.2293E-09 | 14: delta_r/delta_0: 2.2564E-10 | 15: delta_s/delta_0: 6.3329E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -7.834528286140950E-003 8.680329062699165E-005 | BP delta = -0.5861718 -0.6464026 93051438.4913479 | BP delta = -0.5586272 -0.6188581 93051438.5370308 | 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 = -3.197562 | New value = -3.164886 | poltype: 2 pol: 1 CPU time specind = 2.9830933E-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 = -3.157530 | New value = -3.174165 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.163206 | New value = -3.224039 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.053584 | New value = -3.112830 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.117617 | New value = -3.216993 | poltype: 2 pol: 2 CPU time specind = 2.1901131E-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 = 4.13 | CG iter. 1 -- res = 0.13549E+08, tol = 0.67758E+01, time = 1.59 | CG iter. 2 -- res = 0.47058E+05, tol = 0.67758E+01, time = 1.49 | CG iter. 3 -- res = 0.35712E+05, tol = 0.67758E+01, time = 1.54 | CG iter. 4 -- res = 0.10505E+05, tol = 0.67758E+01, time = 1.53 | CG iter. 5 -- res = 0.67153E+04, tol = 0.67758E+01, time = 1.53 | CG iter. 6 -- res = 0.51478E+04, tol = 0.67758E+01, time = 1.51 | CG iter. 7 -- res = 0.31024E+04, tol = 0.67758E+01, time = 1.50 | CG iter. 8 -- res = 0.20314E+04, tol = 0.67758E+01, time = 1.51 | CG iter. 9 -- res = 0.19642E+04, tol = 0.67758E+01, time = 1.52 | CG iter. 10 -- res = 0.25177E+04, tol = 0.67758E+01, time = 1.52 | CG iter. 11 -- res = 0.18905E+04, tol = 0.67758E+01, time = 1.51 | CG iter. 12 -- res = 0.11359E+04, tol = 0.67758E+01, time = 1.57 | CG iter. 13 -- res = 0.83293E+03, tol = 0.67758E+01, time = 1.55 | CG iter. 14 -- res = 0.68668E+03, tol = 0.67758E+01, time = 1.57 | CG iter. 15 -- res = 0.65219E+03, tol = 0.67758E+01, time = 1.51 | CG iter. 16 -- res = 0.50482E+03, tol = 0.67758E+01, time = 1.54 | CG iter. 17 -- res = 0.34088E+03, tol = 0.67758E+01, time = 1.51 | CG iter. 18 -- res = 0.26100E+03, tol = 0.67758E+01, time = 1.47 | CG iter. 19 -- res = 0.20348E+03, tol = 0.67758E+01, time = 1.46 | CG iter. 20 -- res = 0.14283E+03, tol = 0.67758E+01, time = 1.50 | CG iter. 21 -- res = 0.10137E+03, tol = 0.67758E+01, time = 1.54 | CG iter. 22 -- res = 0.87233E+02, tol = 0.67758E+01, time = 1.47 | CG iter. 23 -- res = 0.70016E+02, tol = 0.67758E+01, time = 1.48 | CG iter. 24 -- res = 0.55213E+02, tol = 0.67758E+01, time = 1.49 | CG iter. 25 -- res = 0.50465E+02, tol = 0.67758E+01, time = 1.52 | CG iter. 26 -- res = 0.42590E+02, tol = 0.67758E+01, time = 1.49 | CG iter. 27 -- res = 0.34816E+02, tol = 0.67758E+01, time = 1.52 | CG iter. 28 -- res = 0.27077E+02, tol = 0.67758E+01, time = 1.53 | CG iter. 29 -- res = 0.21290E+02, tol = 0.67758E+01, time = 1.47 | CG iter. 30 -- res = 0.18077E+02, tol = 0.67758E+01, time = 1.50 | CG iter. 31 -- res = 0.14547E+02, tol = 0.67758E+01, time = 1.50 | CG iter. 32 -- res = 0.10598E+02, tol = 0.67758E+01, time = 1.51 | CG iter. 33 -- res = 0.94682E+01, tol = 0.67758E+01, time = 1.52 | CG iter. 34 -- res = 0.77177E+01, tol = 0.67758E+01, time = 1.49 | CG iter. 35 -- res = 0.55481E+01, tol = 0.67758E+01, time = 1.48 | CG iter. 36 -- res = 0.47681E+01, tol = 0.67758E+01, time = 1.50 | CG iter. 37 -- res = 0.37312E+01, tol = 0.67758E+01, time = 1.46 | CG iter. 38 -- res = 0.30050E+01, tol = 0.67758E+01, time = 1.54 | CG iter. 39 -- res = 0.41006E+01, tol = 0.67758E+01, time = 1.52 | CG iter. 40 -- res = 0.25574E+01, tol = 0.67758E+01, time = 1.52 | CG iter. 41 -- res = 0.18876E+01, tol = 0.67758E+01, time = 1.58 | CG iter. 42 -- res = 0.15857E+01, tol = 0.67758E+01, time = 1.57 | CG iter. 43 -- res = 0.13608E+01, tol = 0.67758E+01, time = 1.53 | CG iter. 44 -- res = 0.17550E+01, tol = 0.67758E+01, time = 1.51 | CG iter. 45 -- res = 0.12466E+01, tol = 0.67758E+01, time = 1.47 | CG iter. 46 -- res = 0.86053E+00, tol = 0.67758E+01, time = 1.52 | CG iter. 47 -- res = 0.71259E+00, tol = 0.67758E+01, time = 1.47 | CG iter. 48 -- res = 0.57208E+00, tol = 0.67758E+01, time = 1.45 | CG iter. 49 -- res = 0.53678E+00, tol = 0.67758E+01, time = 1.51 | CG iter. 50 -- res = 0.65417E+00, tol = 0.67758E+01, time = 1.56 | Final CG iter 51 -- res = 0.65417E+00, tol = 0.67758E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 7797213.689 | Old band monopole 10146133.879 | Change to band monopole -2348920.190 | Change to component monopole 2348910.087 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 4.10 | CG iter. 1 -- res = 0.11650E+06, tol = 0.47627E+18, time = 0.34 | CG iter. 2 -- res = 0.18805E+02, tol = 0.47627E+18, time = 0.36 | CG iter. 3 -- res = 0.38048E+00, tol = 0.47627E+18, time = 0.42 | CG iter. 4 -- res = 0.99015E-03, tol = 0.47627E+18, time = 0.36 | Final CG iter 5 -- res = 0.57410E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7797180.152 | (Sampled value in CG: 7811361.491 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.471054 | New value = 1.490356 | poltype: 2 pol: 1 CPU time specind = 4.7299862E-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 = 1.499159 | New value = 1.494177 | poltype: 2 pol: 2 CPU time specind = 2.1300316E-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 = 4.12 | CG iter. 1 -- res = 0.24124E+08, tol = 0.47628E+04, time = 1.77 | CG iter. 2 -- res = 0.53731E+07, tol = 0.47628E+04, time = 1.75 | CG iter. 3 -- res = 0.85060E+06, tol = 0.47628E+04, time = 1.77 | CG iter. 4 -- res = 0.35868E+06, tol = 0.47628E+04, time = 1.77 | CG iter. 5 -- res = 0.15840E+06, tol = 0.47628E+04, time = 1.73 | CG iter. 6 -- res = 0.82100E+05, tol = 0.47628E+04, time = 1.78 | CG iter. 7 -- res = 0.43825E+05, tol = 0.47628E+04, time = 1.73 | CG iter. 8 -- res = 0.21313E+05, tol = 0.47628E+04, time = 1.71 | CG iter. 9 -- res = 0.92151E+04, tol = 0.47628E+04, time = 1.79 | CG iter. 10 -- res = 0.37988E+04, tol = 0.47628E+04, time = 1.78 | CG iter. 11 -- res = 0.17201E+04, tol = 0.47628E+04, time = 1.73 | CG iter. 12 -- res = 0.87673E+03, tol = 0.47628E+04, time = 1.74 | CG iter. 13 -- res = 0.49871E+03, tol = 0.47628E+04, time = 1.74 | CG iter. 14 -- res = 0.28468E+03, tol = 0.47628E+04, time = 1.73 | CG iter. 15 -- res = 0.14769E+03, tol = 0.47628E+04, time = 1.75 | CG iter. 16 -- res = 0.70270E+02, tol = 0.47628E+04, time = 1.75 | CG iter. 17 -- res = 0.32949E+02, tol = 0.47628E+04, time = 1.79 | CG iter. 18 -- res = 0.16022E+02, tol = 0.47628E+04, time = 1.78 | CG iter. 19 -- res = 0.89367E+01, tol = 0.47628E+04, time = 1.76 | CG iter. 20 -- res = 0.52929E+01, tol = 0.47628E+04, time = 1.76 | CG iter. 21 -- res = 0.28799E+01, tol = 0.47628E+04, time = 1.76 | CG iter. 22 -- res = 0.14621E+01, tol = 0.47628E+04, time = 1.75 | CG iter. 23 -- res = 0.71789E+00, tol = 0.47628E+04, time = 1.72 | CG iter. 24 -- res = 0.36619E+00, tol = 0.47628E+04, time = 1.73 | CG iter. 25 -- res = 0.20240E+00, tol = 0.47628E+04, time = 1.76 | CG iter. 26 -- res = 0.11354E+00, tol = 0.47628E+04, time = 1.77 | CG iter. 27 -- res = 0.63516E-01, tol = 0.47628E+04, time = 1.76 | CG iter. 28 -- res = 0.33578E-01, tol = 0.47628E+04, time = 1.76 | CG iter. 29 -- res = 0.18065E-01, tol = 0.47628E+04, time = 1.80 | CG iter. 30 -- res = 0.96906E-02, tol = 0.47628E+04, time = 1.79 | CG iter. 31 -- res = 0.53573E-02, tol = 0.47628E+04, time = 1.76 | CG iter. 32 -- res = 0.30482E-02, tol = 0.47628E+04, time = 1.72 | CG iter. 33 -- res = 0.17211E-02, tol = 0.47628E+04, time = 1.76 | CG iter. 34 -- res = 0.93278E-03, tol = 0.47628E+04, time = 1.71 | CG iter. 35 -- res = 0.49555E-03, tol = 0.47628E+04, time = 1.76 | Final CG iter 36 -- res = 0.49555E-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) 3.460 2.779 | New value 3.862 | Old value 3.460 | Difference 0.401 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 4.10 | CG iter. 1 -- res = 0.87868E+04, tol = 0.47627E+18, time = 0.38 | CG iter. 2 -- res = 0.15536E+02, tol = 0.47627E+18, time = 0.36 | CG iter. 3 -- res = 0.15407E+00, tol = 0.47627E+18, time = 0.38 | Final CG iter 4 -- res = 0.37443E-04, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7797180.152 | (Sampled value in CG: 7809733.608 ) | 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 = -3.646725 | New value = -3.529725 | poltype: 1 pol: 1 CPU time specind = 3.5989285E-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 = 4.10 | CG iter. 1 -- res = 0.20771E+07, tol = 0.12544E+01, time = 0.63 | CG iter. 2 -- res = 0.47756E+05, tol = 0.12544E+01, time = 0.67 | CG iter. 3 -- res = 0.35575E+05, tol = 0.12544E+01, time = 0.67 | CG iter. 4 -- res = 0.91666E+04, tol = 0.12544E+01, time = 0.62 | CG iter. 5 -- res = 0.26736E+04, tol = 0.12544E+01, time = 0.64 | CG iter. 6 -- res = 0.12224E+04, tol = 0.12544E+01, time = 0.65 | CG iter. 7 -- res = 0.56687E+03, tol = 0.12544E+01, time = 0.65 | CG iter. 8 -- res = 0.27675E+03, tol = 0.12544E+01, time = 0.61 | CG iter. 9 -- res = 0.70600E+02, tol = 0.12544E+01, time = 0.67 | CG iter. 10 -- res = 0.21468E+02, tol = 0.12544E+01, time = 0.63 | CG iter. 11 -- res = 0.90197E+01, tol = 0.12544E+01, time = 0.66 | CG iter. 12 -- res = 0.39421E+01, tol = 0.12544E+01, time = 0.66 | CG iter. 13 -- res = 0.12792E+01, tol = 0.12544E+01, time = 0.63 | CG iter. 14 -- res = 0.39767E+00, tol = 0.12544E+01, time = 0.68 | CG iter. 15 -- res = 0.16603E+00, tol = 0.12544E+01, time = 0.63 | CG iter. 16 -- res = 0.51922E-01, tol = 0.12544E+01, time = 0.63 | CG iter. 17 -- res = 0.17858E-01, tol = 0.12544E+01, time = 0.62 | CG iter. 18 -- res = 0.77982E-02, tol = 0.12544E+01, time = 0.64 | CG iter. 19 -- res = 0.28831E-02, tol = 0.12544E+01, time = 0.65 | CG iter. 20 -- res = 0.11990E-02, tol = 0.12544E+01, time = 0.66 | CG iter. 21 -- res = 0.35001E-03, tol = 0.12544E+01, time = 0.64 | CG iter. 22 -- res = 0.10876E-03, tol = 0.12544E+01, time = 0.65 | CG iter. 23 -- res = 0.40745E-04, tol = 0.12544E+01, time = 0.66 | CG iter. 24 -- res = 0.15013E-04, tol = 0.12544E+01, time = 0.65 | CG iter. 25 -- res = 0.46172E-05, tol = 0.12544E+01, time = 0.65 | CG iter. 26 -- res = 0.14077E-05, tol = 0.12544E+01, time = 0.62 | CG iter. 27 -- res = 0.52282E-06, tol = 0.12544E+01, time = 0.65 | CG iter. 28 -- res = 0.19151E-06, tol = 0.12544E+01, time = 0.67 | CG iter. 29 -- res = 0.64177E-07, tol = 0.12544E+01, time = 0.64 | CG iter. 30 -- res = 0.17352E-07, tol = 0.12544E+01, time = 0.66 | CG iter. 31 -- res = 0.54945E-08, tol = 0.12544E+01, time = 0.60 | CG iter. 32 -- res = 0.23159E-08, tol = 0.12544E+01, time = 0.64 | CG iter. 33 -- res = 0.20062E-08, tol = 0.12544E+01, time = 0.66 | CG iter. 34 -- res = 0.42510E-09, tol = 0.12544E+01, time = 0.63 | CG iter. 35 -- res = 0.12828E-09, tol = 0.12544E+01, time = 0.64 | CG iter. 36 -- res = 0.70106E-10, tol = 0.12544E+01, time = 0.64 | CG iter. 37 -- res = 0.39704E-10, tol = 0.12544E+01, time = 0.63 | CG iter. 38 -- res = 0.11587E-10, tol = 0.12544E+01, time = 0.62 | CG iter. 39 -- res = 0.36215E-11, tol = 0.12544E+01, time = 0.68 | CG iter. 40 -- res = 0.10050E-11, tol = 0.12544E+01, time = 0.68 | CG iter. 41 -- res = 0.29505E-12, tol = 0.12544E+01, time = 0.62 | CG iter. 42 -- res = 0.96893E-13, tol = 0.12544E+01, time = 0.64 | CG iter. 43 -- res = 0.30242E-13, tol = 0.12544E+01, time = 0.68 | CG iter. 44 -- res = 0.88614E-14, tol = 0.12544E+01, time = 0.63 | CG iter. 45 -- res = 0.30000E-14, tol = 0.12544E+01, time = 0.63 | CG iter. 46 -- res = 0.12239E-14, tol = 0.12544E+01, time = 0.65 | CG iter. 47 -- res = 0.37680E-15, tol = 0.12544E+01, time = 0.68 | CG iter. 48 -- res = 0.10863E-15, tol = 0.12544E+01, time = 0.67 | CG iter. 49 -- res = 0.34911E-16, tol = 0.12544E+01, time = 0.65 | CG iter. 50 -- res = 0.12284E-16, tol = 0.12544E+01, time = 0.68 | Final CG iter 51 -- res = 0.12284E-16, tol = 0.12544E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -3.489 2.487 | New value -1.114 | Old value -3.489 | Difference 2.375 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 4.10 | CG iter. 1 -- res = 0.33527E+04, tol = 0.47627E+18, time = 0.43 | CG iter. 2 -- res = 0.21771E+02, tol = 0.47627E+18, time = 0.39 | CG iter. 3 -- res = 0.19151E+00, tol = 0.47627E+18, time = 0.37 | Final CG iter 4 -- res = 0.23138E-04, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7797180.152 | (Sampled value in CG: 7809623.849 ) | CPU time specind = 273.6658 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 4.11 | CG iter. 1 -- res = 0.68462E+08, tol = 0.51567E+04, time = 3.05 | CG iter. 2 -- res = 0.33185E+08, tol = 0.51567E+04, time = 3.18 | CG iter. 3 -- res = 0.57525E+07, tol = 0.51567E+04, time = 3.23 | CG iter. 4 -- res = 0.28929E+07, tol = 0.51567E+04, time = 3.23 | CG iter. 5 -- res = 0.12936E+07, tol = 0.51567E+04, time = 3.12 | CG iter. 6 -- res = 0.70447E+06, tol = 0.51567E+04, time = 3.17 | CG iter. 7 -- res = 0.38680E+06, tol = 0.51567E+04, time = 3.10 | CG iter. 8 -- res = 0.19413E+06, tol = 0.51567E+04, time = 3.17 | CG iter. 9 -- res = 0.96130E+05, tol = 0.51567E+04, time = 3.12 | CG iter. 10 -- res = 0.43424E+05, tol = 0.51567E+04, time = 3.12 | CG iter. 11 -- res = 0.21911E+05, tol = 0.51567E+04, time = 3.07 | CG iter. 12 -- res = 0.12310E+05, tol = 0.51567E+04, time = 3.13 | CG iter. 13 -- res = 0.75488E+04, tol = 0.51567E+04, time = 3.19 | CG iter. 14 -- res = 0.51377E+04, tol = 0.51567E+04, time = 3.20 | CG iter. 15 -- res = 0.33647E+04, tol = 0.51567E+04, time = 3.15 | CG iter. 16 -- res = 0.23447E+04, tol = 0.51567E+04, time = 3.16 | CG iter. 17 -- res = 0.17612E+04, tol = 0.51567E+04, time = 3.12 | CG iter. 18 -- res = 0.15583E+04, tol = 0.51567E+04, time = 3.23 | CG iter. 19 -- res = 0.16172E+04, tol = 0.51567E+04, time = 3.26 | CG iter. 20 -- res = 0.17942E+04, tol = 0.51567E+04, time = 3.15 | CG iter. 21 -- res = 0.19069E+04, tol = 0.51567E+04, time = 3.12 | CG iter. 22 -- res = 0.17735E+04, tol = 0.51567E+04, time = 3.15 | CG iter. 23 -- res = 0.15285E+04, tol = 0.51567E+04, time = 3.18 | CG iter. 24 -- res = 0.13114E+04, tol = 0.51567E+04, time = 3.19 | CG iter. 25 -- res = 0.11504E+04, tol = 0.51567E+04, time = 3.16 | CG iter. 26 -- res = 0.10283E+04, tol = 0.51567E+04, time = 3.10 | CG iter. 27 -- res = 0.87233E+03, tol = 0.51567E+04, time = 3.05 | CG iter. 28 -- res = 0.71659E+03, tol = 0.51567E+04, time = 3.17 | CG iter. 29 -- res = 0.62102E+03, tol = 0.51567E+04, time = 3.11 | CG iter. 30 -- res = 0.61152E+03, tol = 0.51567E+04, time = 3.19 | CG iter. 31 -- res = 0.66270E+03, tol = 0.51567E+04, time = 3.23 | CG iter. 32 -- res = 0.72165E+03, tol = 0.51567E+04, time = 3.21 | CG iter. 33 -- res = 0.71854E+03, tol = 0.51567E+04, time = 3.14 | CG iter. 34 -- res = 0.66561E+03, tol = 0.51567E+04, time = 3.12 | CG iter. 35 -- res = 0.62518E+03, tol = 0.51567E+04, time = 3.16 | CG iter. 36 -- res = 0.61625E+03, tol = 0.51567E+04, time = 3.19 | CG iter. 37 -- res = 0.63173E+03, tol = 0.51567E+04, time = 3.20 | CG iter. 38 -- res = 0.62199E+03, tol = 0.51567E+04, time = 3.19 | CG iter. 39 -- res = 0.56660E+03, tol = 0.51567E+04, time = 3.22 | CG iter. 40 -- res = 0.51612E+03, tol = 0.51567E+04, time = 3.08 | CG iter. 41 -- res = 0.51100E+03, tol = 0.51567E+04, time = 3.09 | CG iter. 42 -- res = 0.55723E+03, tol = 0.51567E+04, time = 3.18 | CG iter. 43 -- res = 0.61715E+03, tol = 0.51567E+04, time = 3.20 | CG iter. 44 -- res = 0.62467E+03, tol = 0.51567E+04, time = 3.21 | CG iter. 45 -- res = 0.58842E+03, tol = 0.51567E+04, time = 3.15 | CG iter. 46 -- res = 0.56384E+03, tol = 0.51567E+04, time = 3.23 | CG iter. 47 -- res = 0.57711E+03, tol = 0.51567E+04, time = 3.19 | CG iter. 48 -- res = 0.61099E+03, tol = 0.51567E+04, time = 3.17 | CG iter. 49 -- res = 0.60744E+03, tol = 0.51567E+04, time = 3.30 | CG iter. 50 -- res = 0.55778E+03, tol = 0.51567E+04, time = 3.20 | CG iter. 51 -- res = 0.50857E+03, tol = 0.51567E+04, time = 3.13 | CG iter. 52 -- res = 0.49879E+03, tol = 0.51567E+04, time = 3.22 | CG iter. 53 -- res = 0.51752E+03, tol = 0.51567E+04, time = 3.22 | CG iter. 54 -- res = 0.53631E+03, tol = 0.51567E+04, time = 3.24 | CG iter. 55 -- res = 0.50622E+03, tol = 0.51567E+04, time = 3.22 | CG iter. 56 -- res = 0.45515E+03, tol = 0.51567E+04, time = 3.21 | CG iter. 57 -- res = 0.43241E+03, tol = 0.51567E+04, time = 3.21 | CG iter. 58 -- res = 0.44463E+03, tol = 0.51567E+04, time = 3.21 | CG iter. 59 -- res = 0.47187E+03, tol = 0.51567E+04, time = 3.17 | CG iter. 60 -- res = 0.46495E+03, tol = 0.51567E+04, time = 3.22 | Final CG iter 61 -- res = 0.46495E+03, tol = 0.51567E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 2.785 ( -230.737 -2234.296 2516.541 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9600164.388 | Old band monopole 7797213.689 | Change to band monopole 1802950.698 | Change to component monopole -1802942.944 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 3.849 2.761 | New value 3.715 | Old value 3.849 | Difference -0.134 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -3.667 ( 7.564 13.010 -13.276 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 8.581 2.783 | New value 2.278 | Old value 8.581 | Difference -6.303 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 4.11 | CG iter. 1 -- res = 0.81102E+04, tol = 0.47627E+18, time = 0.32 | CG iter. 2 -- res = 0.33191E+02, tol = 0.47627E+18, time = 0.39 | CG iter. 3 -- res = 0.12854E+01, tol = 0.47627E+18, time = 0.37 | CG iter. 4 -- res = 0.23381E-03, tol = 0.47627E+18, time = 0.38 | Final CG iter 5 -- res = 0.96421E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9600123.095 | (Sampled value in CG: 9539230.525 ) | Chain = 1 -- chisq = 0.61635082E+09 | Chain = 1 -- wall time = 4108.219 sec --------------------------------------------------------------------- | Chain = 1 -- Iteration = 48 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18443281908101 | --> Sampling calibration, mode = relcal | relcal = -7.6181695E-02 -5.9303205E-02 9.3098119E-02 4.2386778E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.2523399E-04 6.2826457E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.9677E-05 | 2: delta_r/delta_0: 1.5570E-06 | 3: delta_s/delta_0: 2.0040E-07 | 4: delta_r/delta_0: 2.5609E-08 | 5: delta_s/delta_0: 6.7428E-09 | 6: delta_r/delta_0: 2.5137E-09 | 7: delta_s/delta_0: 8.7683E-10 | 8: delta_r/delta_0: 2.8635E-10 | 9: delta_s/delta_0: 1.4504E-10 | 10: delta_r/delta_0: 5.2358E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 9.547139167412732E-004 2.732987055653068E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.9678E-05 | 2: delta_r/delta_0: 1.5570E-06 | 3: delta_s/delta_0: 2.0040E-07 | 4: delta_r/delta_0: 2.5609E-08 | 5: delta_s/delta_0: 6.7428E-09 | 6: delta_r/delta_0: 2.5136E-09 | 7: delta_s/delta_0: 8.7685E-10 | 8: delta_r/delta_0: 2.8635E-10 | 9: delta_s/delta_0: 1.4498E-10 | 10: delta_r/delta_0: 5.2341E-11 | Reached bicg-stab tolerance | BP delta = 5.6086830E-03 1.1879681E-02 3697494.18586525 | BP delta = 5.6086830E-03 1.2371979E-02 3699335.62708904 | 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 = 1.02526748 | --> Sampling calibration, mode = relcal | relcal = -0.1065608 -9.5544413E-02 0.1448708 5.7234447E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.6251545E-03 1.5672168E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.1142E-02 | 2: delta_r/delta_0: 2.4464E-04 | 3: delta_s/delta_0: 9.6274E-05 | 4: delta_r/delta_0: 7.7771E-06 | 5: delta_s/delta_0: 2.2304E-06 | 6: delta_r/delta_0: 2.5586E-07 | 7: delta_s/delta_0: 2.4169E-07 | 8: delta_r/delta_0: 6.7932E-08 | 9: delta_s/delta_0: 2.8212E-08 | 10: delta_r/delta_0: 1.2627E-08 | 11: delta_s/delta_0: 2.2284E-07 | 12: delta_r/delta_0: 5.4480E-08 | 13: delta_s/delta_0: 2.5006E-09 | 14: delta_r/delta_0: 1.6860E-10 | 15: delta_s/delta_0: 3.4735E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.524819665260521E-002 2.812839257572753E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.1142E-02 | 2: delta_r/delta_0: 2.4465E-04 | 3: delta_s/delta_0: 9.6260E-05 | 4: delta_r/delta_0: 7.7759E-06 | 5: delta_s/delta_0: 2.2301E-06 | 6: delta_r/delta_0: 2.5581E-07 | 7: delta_s/delta_0: 2.4163E-07 | 8: delta_r/delta_0: 6.7922E-08 | 9: delta_s/delta_0: 2.8208E-08 | 10: delta_r/delta_0: 1.2625E-08 | 11: delta_s/delta_0: 2.2480E-07 | 12: delta_r/delta_0: 5.4853E-08 | 13: delta_s/delta_0: 2.5004E-09 | 14: delta_r/delta_0: 1.6848E-10 | 15: delta_s/delta_0: 3.4735E-11 | Reached bicg-stab tolerance | BP delta = -0.1896343 -0.1805396 2841737.96754424 | BP delta = -0.1896343 -0.1827464 2841813.46599300 | 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 = 0.81171043 | --> Sampling calibration, mode = relcal | relcal = 0.2952544 0.2246377 -0.2835677 -0.2363244 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 8.7759295E-04 5.0399643E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.1743E-03 | 2: delta_r/delta_0: 2.6909E-05 | 3: delta_s/delta_0: 4.5770E-05 | 4: delta_r/delta_0: 3.9466E-06 | 5: delta_s/delta_0: 1.9522E-06 | 6: delta_r/delta_0: 3.1659E-07 | 7: delta_s/delta_0: 6.1379E-08 | 8: delta_r/delta_0: 2.8975E-08 | 9: delta_s/delta_0: 4.1212E-07 | 10: delta_r/delta_0: 2.4057E-09 | 11: delta_s/delta_0: 2.5478E-09 | 12: delta_r/delta_0: 8.3237E-10 | 13: delta_s/delta_0: 1.1182E-09 | 14: delta_r/delta_0: 5.7968E-10 | 15: delta_s/delta_0: 3.3069E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.734744874289297E-002 4.024244964492463E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.1738E-03 | 2: delta_r/delta_0: 2.6896E-05 | 3: delta_s/delta_0: 4.5789E-05 | 4: delta_r/delta_0: 3.9480E-06 | 5: delta_s/delta_0: 1.9511E-06 | 6: delta_r/delta_0: 3.1644E-07 | 7: delta_s/delta_0: 6.1383E-08 | 8: delta_r/delta_0: 2.8974E-08 | 9: delta_s/delta_0: 4.1166E-07 | 10: delta_r/delta_0: 2.4049E-09 | 11: delta_s/delta_0: 2.5471E-09 | 12: delta_r/delta_0: 8.3251E-10 | 13: delta_s/delta_0: 1.1197E-09 | 14: delta_r/delta_0: 5.7881E-10 | 15: delta_s/delta_0: 3.3078E-11 | Reached bicg-stab tolerance | BP delta = -9.2415906E-02 -0.1305299 2827403.97112805 | BP delta = -9.2415906E-02 -0.1287269 2827481.31285214 | 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 = 0.95845079 | --> Sampling calibration, mode = relcal | relcal = 0.1064941 0.1394936 -0.1102806 -0.1357072 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0069670E-02 1.4112704E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.9228E-04 | 2: delta_r/delta_0: 6.6410E-06 | 3: delta_s/delta_0: 1.7021E-03 | 4: delta_r/delta_0: 1.2607E-04 | 5: delta_s/delta_0: 1.4745E-06 | 6: delta_r/delta_0: 2.7637E-07 | 7: delta_s/delta_0: 6.2970E-08 | 8: delta_r/delta_0: 3.1977E-08 | 9: delta_s/delta_0: 7.1528E-08 | 10: delta_r/delta_0: 3.0580E-09 | 11: delta_s/delta_0: 1.0112E-09 | 12: delta_r/delta_0: 5.7014E-10 | 13: delta_s/delta_0: 1.6696E-09 | 14: delta_r/delta_0: 5.4960E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.578011147576878E-002 3.699957464358820E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 2.9226E-04 | 2: delta_r/delta_0: 6.6407E-06 | 3: delta_s/delta_0: 1.7019E-03 | 4: delta_r/delta_0: 1.2606E-04 | 5: delta_s/delta_0: 1.4738E-06 | 6: delta_r/delta_0: 2.7625E-07 | 7: delta_s/delta_0: 6.2971E-08 | 8: delta_r/delta_0: 3.1977E-08 | 9: delta_s/delta_0: 7.1475E-08 | 10: delta_r/delta_0: 3.0576E-09 | 11: delta_s/delta_0: 1.0110E-09 | 12: delta_r/delta_0: 5.7011E-10 | 13: delta_s/delta_0: 1.6645E-09 | 14: delta_r/delta_0: 5.4794E-11 | Reached bicg-stab tolerance | BP delta = 0.3039595 0.3341040 3005118.59458311 | BP delta = 0.3039595 0.3275715 3005124.64723549 | 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 = 0.52109756 | --> Sampling calibration, mode = relcal | relcal = -5.1104486E-02 -3.7420057E-03 2.7338827E-02 2.7507665E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.6312924E-04 1.4232788E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.9687E-05 | 2: delta_r/delta_0: 4.5864E-06 | 3: delta_s/delta_0: 6.4428E-07 | 4: delta_r/delta_0: 1.3698E-07 | 5: delta_s/delta_0: 5.6838E-07 | 6: delta_r/delta_0: 1.7577E-07 | 7: delta_s/delta_0: 2.1680E-08 | 8: delta_r/delta_0: 6.2170E-09 | 9: delta_s/delta_0: 1.1564E-07 | 10: delta_r/delta_0: 4.3719E-09 | 11: delta_s/delta_0: 1.4507E-09 | 12: delta_r/delta_0: 1.8066E-10 | 13: delta_s/delta_0: 1.8509E-10 | 14: delta_r/delta_0: 7.4903E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.157094634967290E-002 5.488360594292234E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 6.9687E-05 | 2: delta_r/delta_0: 4.5864E-06 | 3: delta_s/delta_0: 6.4428E-07 | 4: delta_r/delta_0: 1.3698E-07 | 5: delta_s/delta_0: 5.6844E-07 | 6: delta_r/delta_0: 1.7578E-07 | 7: delta_s/delta_0: 2.1680E-08 | 8: delta_r/delta_0: 6.2171E-09 | 9: delta_s/delta_0: 1.1563E-07 | 10: delta_r/delta_0: 4.3719E-09 | 11: delta_s/delta_0: 1.4491E-09 | 12: delta_r/delta_0: 1.8065E-10 | 13: delta_s/delta_0: 1.8526E-10 | 14: delta_r/delta_0: 7.5007E-11 | Reached bicg-stab tolerance | BP delta = -3.9011277E-02 3.9150186E-02 2435446.68579577 | BP delta = -3.9011277E-02 5.1284239E-02 2435445.95290018 | BP chisq diff = -0.7, accept = T | | Finished processing 060-WMAP_V1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 060-WMAP_V2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.42118873 | --> Sampling calibration, mode = relcal | relcal = 4.5593116E-02 3.9643731E-02 -2.8278012E-02 -5.6958836E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.7151803E-03 5.0200829E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.1702E-05 | 2: delta_r/delta_0: 3.7233E-06 | 3: delta_s/delta_0: 2.3084E-06 | 4: delta_r/delta_0: 3.6236E-07 | 5: delta_s/delta_0: 6.0326E-08 | 6: delta_r/delta_0: 3.4652E-08 | 7: delta_s/delta_0: 3.7240E-08 | 8: delta_r/delta_0: 1.0552E-08 | 9: delta_s/delta_0: 2.4065E-09 | 10: delta_r/delta_0: 1.6088E-09 | 11: delta_s/delta_0: 1.4318E-09 | 12: delta_r/delta_0: 1.0797E-09 | 13: delta_s/delta_0: 1.5876E-08 | 14: delta_r/delta_0: 8.3252E-10 | 15: delta_s/delta_0: 3.8546E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.375781556188660E-002 5.000430445293562E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 6.1701E-05 | 2: delta_r/delta_0: 3.7233E-06 | 3: delta_s/delta_0: 2.3084E-06 | 4: delta_r/delta_0: 3.6236E-07 | 5: delta_s/delta_0: 6.0327E-08 | 6: delta_r/delta_0: 3.4652E-08 | 7: delta_s/delta_0: 3.7247E-08 | 8: delta_r/delta_0: 1.0552E-08 | 9: delta_s/delta_0: 2.4061E-09 | 10: delta_r/delta_0: 1.6087E-09 | 11: delta_s/delta_0: 1.4317E-09 | 12: delta_r/delta_0: 1.0796E-09 | 13: delta_s/delta_0: 1.5851E-08 | 14: delta_r/delta_0: 8.2877E-10 | 15: delta_s/delta_0: 3.8544E-11 | Reached bicg-stab tolerance | BP delta = -9.2173614E-02 -0.1057116 2322334.27707157 | BP delta = -9.2173614E-02 -0.1095971 2322224.07725864 | BP chisq diff = -110.2, accept = T | | Finished processing 060-WMAP_V2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.28131448 | --> Sampling calibration, mode = relcal | relcal = 2.4145447E-02 4.5080960E-02 -2.3386505E-02 -4.5839902E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0574553E-02 3.5394391E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.0778E-04 | 2: delta_r/delta_0: 8.9510E-06 | 3: delta_s/delta_0: 1.5253E-06 | 4: delta_r/delta_0: 1.9245E-07 | 5: delta_s/delta_0: 6.2877E-08 | 6: delta_r/delta_0: 1.4949E-08 | 7: delta_s/delta_0: 7.0821E-09 | 8: delta_r/delta_0: 4.2546E-09 | 9: delta_s/delta_0: 1.6924E-07 | 10: delta_r/delta_0: 5.5844E-09 | 11: delta_s/delta_0: 1.8491E-09 | 12: delta_r/delta_0: 5.6118E-10 | 13: delta_s/delta_0: 1.2199E-08 | 14: delta_r/delta_0: 6.9963E-09 | 15: delta_s/delta_0: 7.0592E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -8.632918096601152E-003 7.851780772330206E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.0778E-04 | 2: delta_r/delta_0: 8.9510E-06 | 3: delta_s/delta_0: 1.5253E-06 | 4: delta_r/delta_0: 1.9245E-07 | 5: delta_s/delta_0: 6.2877E-08 | 6: delta_r/delta_0: 1.4949E-08 | 7: delta_s/delta_0: 7.0821E-09 | 8: delta_r/delta_0: 4.2546E-09 | 9: delta_s/delta_0: 1.6924E-07 | 10: delta_r/delta_0: 5.5845E-09 | 11: delta_s/delta_0: 1.8491E-09 | 12: delta_r/delta_0: 5.6118E-10 | 13: delta_s/delta_0: 1.2181E-08 | 14: delta_r/delta_0: 6.9861E-09 | 15: delta_s/delta_0: 7.0592E-11 | Reached bicg-stab tolerance | BP delta = 9.9072844E-02 -1.7141735E-02 2490235.05117864 | BP delta = 9.9072844E-02 -2.0822536E-02 2490233.43399167 | 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 = 0.29364431 | --> Sampling calibration, mode = relcal | relcal = 4.7445597E-04 1.0263393E-02 -3.7332920E-03 -7.0045567E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.4220813E-02 1.5481280E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.3099E-04 | 2: delta_r/delta_0: 1.1224E-05 | 3: delta_s/delta_0: 1.7655E-06 | 4: delta_r/delta_0: 3.2080E-07 | 5: delta_s/delta_0: 1.1830E-07 | 6: delta_r/delta_0: 2.2871E-08 | 7: delta_s/delta_0: 9.2281E-09 | 8: delta_r/delta_0: 6.1253E-09 | 9: delta_s/delta_0: 4.0862E-09 | 10: delta_r/delta_0: 1.3464E-09 | 11: delta_s/delta_0: 2.4751E-06 | 12: delta_r/delta_0: 4.1396E-09 | 13: delta_s/delta_0: 4.4351E-10 | 14: delta_r/delta_0: 1.8546E-10 | 15: delta_s/delta_0: 9.5375E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.086331220550449E-003 8.314513619832293E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.3099E-04 | 2: delta_r/delta_0: 1.1224E-05 | 3: delta_s/delta_0: 1.7655E-06 | 4: delta_r/delta_0: 3.2082E-07 | 5: delta_s/delta_0: 1.1831E-07 | 6: delta_r/delta_0: 2.2872E-08 | 7: delta_s/delta_0: 9.2285E-09 | 8: delta_r/delta_0: 6.1256E-09 | 9: delta_s/delta_0: 4.0863E-09 | 10: delta_r/delta_0: 1.3461E-09 | 11: delta_s/delta_0: 2.4741E-06 | 12: delta_r/delta_0: 4.1393E-09 | 13: delta_s/delta_0: 4.4373E-10 | 14: delta_r/delta_0: 1.8548E-10 | 15: delta_s/delta_0: 9.5363E-11 | Reached bicg-stab tolerance | BP delta = -0.7103590 -0.6784040 2738549.41686308 | BP delta = -0.7103590 -0.6888134 2738560.36345816 | 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 = 0.26480263 | --> Sampling calibration, mode = relcal | relcal = -5.6194495E-03 1.5092392E-02 -2.3654094E-03 -7.1075335E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 5.1623920E-04 6.1802245E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4222E-04 | 2: delta_r/delta_0: 1.2087E-05 | 3: delta_s/delta_0: 2.0575E-06 | 4: delta_r/delta_0: 2.4186E-07 | 5: delta_s/delta_0: 9.4073E-08 | 6: delta_r/delta_0: 1.8704E-08 | 7: delta_s/delta_0: 7.5155E-09 | 8: delta_r/delta_0: 4.3332E-09 | 9: delta_s/delta_0: 3.7360E-09 | 10: delta_r/delta_0: 2.3029E-09 | 11: delta_s/delta_0: 2.9341E-07 | 12: delta_r/delta_0: 4.9641E-09 | 13: delta_s/delta_0: 9.2292E-10 | 14: delta_r/delta_0: 4.5788E-10 | 15: delta_s/delta_0: 5.7173E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -7.277200942887064E-003 9.162727463630363E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.4222E-04 | 2: delta_r/delta_0: 1.2087E-05 | 3: delta_s/delta_0: 2.0575E-06 | 4: delta_r/delta_0: 2.4186E-07 | 5: delta_s/delta_0: 9.4076E-08 | 6: delta_r/delta_0: 1.8704E-08 | 7: delta_s/delta_0: 7.5154E-09 | 8: delta_r/delta_0: 4.3331E-09 | 9: delta_s/delta_0: 3.7359E-09 | 10: delta_r/delta_0: 2.3028E-09 | 11: delta_s/delta_0: 2.9339E-07 | 12: delta_r/delta_0: 4.9638E-09 | 13: delta_s/delta_0: 9.2289E-10 | 14: delta_r/delta_0: 4.5787E-10 | 15: delta_s/delta_0: 5.7173E-11 | Reached bicg-stab tolerance | BP delta = 0.2230031 0.2264517 2516623.95345354 | BP delta = 0.2230031 0.2333640 2516623.85563772 | 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 = 0.25640566 | --> Sampling calibration, mode = relcal | relcal = -3.1633683E-02 -2.6017377E-02 3.6845330E-02 2.0805730E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.4756681E-02 1.7724585E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4612E-04 | 2: delta_r/delta_0: 1.1662E-05 | 3: delta_s/delta_0: 1.6001E-06 | 4: delta_r/delta_0: 4.4575E-07 | 5: delta_s/delta_0: 1.0688E-07 | 6: delta_r/delta_0: 3.2974E-08 | 7: delta_s/delta_0: 1.1056E-08 | 8: delta_r/delta_0: 6.4184E-09 | 9: delta_s/delta_0: 6.6315E-09 | 10: delta_r/delta_0: 3.9709E-09 | 11: delta_s/delta_0: 1.2954E-05 | 12: delta_r/delta_0: 2.0261E-06 | 13: delta_s/delta_0: 3.1480E-10 | 14: delta_r/delta_0: 2.0225E-10 | 15: delta_s/delta_0: 2.2779E-10 | 16: delta_r/delta_0: 9.7089E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -7.972175762412048E-003 8.679981786763671E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.4612E-04 | 2: delta_r/delta_0: 1.1662E-05 | 3: delta_s/delta_0: 1.6001E-06 | 4: delta_r/delta_0: 4.4574E-07 | 5: delta_s/delta_0: 1.0687E-07 | 6: delta_r/delta_0: 3.2972E-08 | 7: delta_s/delta_0: 1.1056E-08 | 8: delta_r/delta_0: 6.4182E-09 | 9: delta_s/delta_0: 6.6307E-09 | 10: delta_r/delta_0: 3.9705E-09 | 11: delta_s/delta_0: 1.2680E-05 | 12: delta_r/delta_0: 1.9849E-06 | 13: delta_s/delta_0: 3.1413E-10 | 14: delta_r/delta_0: 2.0185E-10 | 15: delta_s/delta_0: 2.2786E-10 | 16: delta_r/delta_0: 9.7124E-11 | Reached bicg-stab tolerance | BP delta = -0.5586272 -0.6188581 2706302.34771703 | BP delta = -0.5586272 -0.6350547 2706285.57344422 | BP chisq diff = -16.8, 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 = -3.164886 | New value = -3.096478 | poltype: 2 pol: 1 CPU time specind = 3.0341148E-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 = -3.174165 | New value = -3.035079 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.224039 | New value = -3.251460 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.112830 | New value = -3.171705 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.216993 | New value = -3.157034 | poltype: 2 pol: 2 CPU time specind = 2.9551983E-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 = 4.12 | CG iter. 1 -- res = 0.13595E+08, tol = 0.72508E+01, time = 1.57 | CG iter. 2 -- res = 0.62607E+05, tol = 0.72508E+01, time = 1.52 | CG iter. 3 -- res = 0.90331E+05, tol = 0.72508E+01, time = 1.53 | CG iter. 4 -- res = 0.72617E+05, tol = 0.72508E+01, time = 1.56 | CG iter. 5 -- res = 0.91785E+05, tol = 0.72508E+01, time = 1.52 | CG iter. 6 -- res = 0.74444E+05, tol = 0.72508E+01, time = 1.55 | CG iter. 7 -- res = 0.58716E+05, tol = 0.72508E+01, time = 1.56 | CG iter. 8 -- res = 0.40301E+05, tol = 0.72508E+01, time = 1.55 | CG iter. 9 -- res = 0.31947E+05, tol = 0.72508E+01, time = 1.54 | CG iter. 10 -- res = 0.23696E+05, tol = 0.72508E+01, time = 1.55 | CG iter. 11 -- res = 0.17823E+05, tol = 0.72508E+01, time = 1.50 | CG iter. 12 -- res = 0.16305E+05, tol = 0.72508E+01, time = 1.55 | CG iter. 13 -- res = 0.13217E+05, tol = 0.72508E+01, time = 1.57 | CG iter. 14 -- res = 0.11977E+05, tol = 0.72508E+01, time = 1.64 | CG iter. 15 -- res = 0.79206E+04, tol = 0.72508E+01, time = 1.64 | CG iter. 16 -- res = 0.51018E+04, tol = 0.72508E+01, time = 1.56 | CG iter. 17 -- res = 0.39796E+04, tol = 0.72508E+01, time = 1.60 | CG iter. 18 -- res = 0.35213E+04, tol = 0.72508E+01, time = 1.55 | CG iter. 19 -- res = 0.25244E+04, tol = 0.72508E+01, time = 1.61 | CG iter. 20 -- res = 0.18723E+04, tol = 0.72508E+01, time = 1.55 | CG iter. 21 -- res = 0.16584E+04, tol = 0.72508E+01, time = 1.57 | CG iter. 22 -- res = 0.12117E+04, tol = 0.72508E+01, time = 1.49 | CG iter. 23 -- res = 0.94064E+03, tol = 0.72508E+01, time = 1.55 | CG iter. 24 -- res = 0.84587E+03, tol = 0.72508E+01, time = 1.58 | CG iter. 25 -- res = 0.73260E+03, tol = 0.72508E+01, time = 1.61 | CG iter. 26 -- res = 0.58749E+03, tol = 0.72508E+01, time = 1.55 | CG iter. 27 -- res = 0.47284E+03, tol = 0.72508E+01, time = 1.55 | CG iter. 28 -- res = 0.41929E+03, tol = 0.72508E+01, time = 1.55 | CG iter. 29 -- res = 0.33523E+03, tol = 0.72508E+01, time = 1.53 | CG iter. 30 -- res = 0.26047E+03, tol = 0.72508E+01, time = 1.53 | CG iter. 31 -- res = 0.20543E+03, tol = 0.72508E+01, time = 1.55 | CG iter. 32 -- res = 0.16369E+03, tol = 0.72508E+01, time = 1.58 | CG iter. 33 -- res = 0.12491E+03, tol = 0.72508E+01, time = 1.54 | CG iter. 34 -- res = 0.89474E+02, tol = 0.72508E+01, time = 1.57 | CG iter. 35 -- res = 0.66915E+02, tol = 0.72508E+01, time = 1.49 | CG iter. 36 -- res = 0.51931E+02, tol = 0.72508E+01, time = 1.52 | CG iter. 37 -- res = 0.41538E+02, tol = 0.72508E+01, time = 1.53 | CG iter. 38 -- res = 0.33223E+02, tol = 0.72508E+01, time = 1.55 | CG iter. 39 -- res = 0.28313E+02, tol = 0.72508E+01, time = 1.54 | CG iter. 40 -- res = 0.29561E+02, tol = 0.72508E+01, time = 1.53 | CG iter. 41 -- res = 0.17849E+02, tol = 0.72508E+01, time = 1.52 | CG iter. 42 -- res = 0.11931E+02, tol = 0.72508E+01, time = 1.54 | CG iter. 43 -- res = 0.84625E+01, tol = 0.72508E+01, time = 1.53 | CG iter. 44 -- res = 0.56167E+01, tol = 0.72508E+01, time = 1.54 | CG iter. 45 -- res = 0.48034E+01, tol = 0.72508E+01, time = 1.55 | CG iter. 46 -- res = 0.54963E+01, tol = 0.72508E+01, time = 1.53 | CG iter. 47 -- res = 0.34236E+01, tol = 0.72508E+01, time = 1.55 | CG iter. 48 -- res = 0.19205E+01, tol = 0.72508E+01, time = 1.54 | CG iter. 49 -- res = 0.13119E+01, tol = 0.72508E+01, time = 1.52 | CG iter. 50 -- res = 0.11511E+01, tol = 0.72508E+01, time = 1.53 | Final CG iter 51 -- res = 0.11511E+01, tol = 0.72508E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 10734477.949 | Old band monopole 9600164.388 | Change to band monopole 1134313.561 | Change to component monopole -1134308.682 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 4.11 | CG iter. 1 -- res = 0.61318E+05, tol = 0.47627E+18, time = 0.43 | CG iter. 2 -- res = 0.36297E+02, tol = 0.47627E+18, time = 0.37 | CG iter. 3 -- res = 0.10730E+01, tol = 0.47627E+18, time = 0.38 | CG iter. 4 -- res = 0.20939E-03, tol = 0.47627E+18, time = 0.38 | Final CG iter 5 -- res = 0.96480E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10734431.777 | (Sampled value in CG: 10778804.011 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.490356 | New value = 1.479550 | poltype: 2 pol: 1 CPU time specind = 5.3241253E-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 = 1.494177 | New value = 1.491803 | poltype: 2 pol: 2 CPU time specind = 2.3660660E-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 = 4.11 | CG iter. 1 -- res = 0.24031E+08, tol = 0.47601E+04, time = 1.74 | CG iter. 2 -- res = 0.53292E+07, tol = 0.47601E+04, time = 1.73 | CG iter. 3 -- res = 0.83412E+06, tol = 0.47601E+04, time = 1.70 | CG iter. 4 -- res = 0.34870E+06, tol = 0.47601E+04, time = 1.72 | CG iter. 5 -- res = 0.15215E+06, tol = 0.47601E+04, time = 1.75 | CG iter. 6 -- res = 0.80762E+05, tol = 0.47601E+04, time = 1.82 | CG iter. 7 -- res = 0.44149E+05, tol = 0.47601E+04, time = 1.79 | CG iter. 8 -- res = 0.20761E+05, tol = 0.47601E+04, time = 1.77 | CG iter. 9 -- res = 0.89963E+04, tol = 0.47601E+04, time = 1.78 | CG iter. 10 -- res = 0.36737E+04, tol = 0.47601E+04, time = 1.77 | CG iter. 11 -- res = 0.16896E+04, tol = 0.47601E+04, time = 1.78 | CG iter. 12 -- res = 0.87816E+03, tol = 0.47601E+04, time = 1.84 | CG iter. 13 -- res = 0.49297E+03, tol = 0.47601E+04, time = 1.77 | CG iter. 14 -- res = 0.27941E+03, tol = 0.47601E+04, time = 1.77 | CG iter. 15 -- res = 0.14640E+03, tol = 0.47601E+04, time = 1.76 | CG iter. 16 -- res = 0.68361E+02, tol = 0.47601E+04, time = 1.81 | CG iter. 17 -- res = 0.31429E+02, tol = 0.47601E+04, time = 1.86 | CG iter. 18 -- res = 0.15780E+02, tol = 0.47601E+04, time = 1.83 | CG iter. 19 -- res = 0.88938E+01, tol = 0.47601E+04, time = 1.79 | CG iter. 20 -- res = 0.51365E+01, tol = 0.47601E+04, time = 1.80 | CG iter. 21 -- res = 0.27759E+01, tol = 0.47601E+04, time = 1.77 | CG iter. 22 -- res = 0.14231E+01, tol = 0.47601E+04, time = 1.75 | CG iter. 23 -- res = 0.70029E+00, tol = 0.47601E+04, time = 1.76 | CG iter. 24 -- res = 0.35721E+00, tol = 0.47601E+04, time = 1.86 | CG iter. 25 -- res = 0.19242E+00, tol = 0.47601E+04, time = 1.83 | CG iter. 26 -- res = 0.11001E+00, tol = 0.47601E+04, time = 1.81 | CG iter. 27 -- res = 0.61979E-01, tol = 0.47601E+04, time = 1.78 | CG iter. 28 -- res = 0.33148E-01, tol = 0.47601E+04, time = 1.79 | CG iter. 29 -- res = 0.17747E-01, tol = 0.47601E+04, time = 1.79 | CG iter. 30 -- res = 0.91662E-02, tol = 0.47601E+04, time = 1.81 | CG iter. 31 -- res = 0.49928E-02, tol = 0.47601E+04, time = 1.81 | CG iter. 32 -- res = 0.28009E-02, tol = 0.47601E+04, time = 1.77 | CG iter. 33 -- res = 0.15484E-02, tol = 0.47601E+04, time = 1.80 | CG iter. 34 -- res = 0.83906E-03, tol = 0.47601E+04, time = 1.79 | CG iter. 35 -- res = 0.44022E-03, tol = 0.47601E+04, time = 1.81 | Final CG iter 36 -- res = 0.44022E-03, tol = 0.47601E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 3.726 2.751 | New value -2.023 | Old value 3.726 | Difference -5.749 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 4.11 | CG iter. 1 -- res = 0.17082E+07, tol = 0.47627E+18, time = 0.36 | CG iter. 2 -- res = 0.33081E+02, tol = 0.47627E+18, time = 0.37 | CG iter. 3 -- res = 0.97990E+00, tol = 0.47627E+18, time = 0.38 | Final CG iter 4 -- res = 0.38404E-04, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10734431.777 | (Sampled value in CG: 10777718.052 ) | 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 = -3.529725 | New value = -3.455385 | poltype: 1 pol: 1 CPU time specind = 3.8249493E-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 = 4.11 | CG iter. 1 -- res = 0.30194E+07, tol = 0.14509E+01, time = 0.71 | CG iter. 2 -- res = 0.10257E+06, tol = 0.14509E+01, time = 0.68 | CG iter. 3 -- res = 0.11447E+06, tol = 0.14509E+01, time = 0.65 | CG iter. 4 -- res = 0.16257E+05, tol = 0.14509E+01, time = 0.66 | CG iter. 5 -- res = 0.56553E+04, tol = 0.14509E+01, time = 0.67 | CG iter. 6 -- res = 0.23511E+04, tol = 0.14509E+01, time = 0.68 | CG iter. 7 -- res = 0.71716E+03, tol = 0.14509E+01, time = 0.62 | CG iter. 8 -- res = 0.41811E+03, tol = 0.14509E+01, time = 0.67 | CG iter. 9 -- res = 0.12489E+03, tol = 0.14509E+01, time = 0.63 | CG iter. 10 -- res = 0.34761E+02, tol = 0.14509E+01, time = 0.63 | CG iter. 11 -- res = 0.15947E+02, tol = 0.14509E+01, time = 0.65 | CG iter. 12 -- res = 0.54569E+01, tol = 0.14509E+01, time = 0.66 | CG iter. 13 -- res = 0.18124E+01, tol = 0.14509E+01, time = 0.65 | CG iter. 14 -- res = 0.75749E+00, tol = 0.14509E+01, time = 0.65 | CG iter. 15 -- res = 0.28585E+00, tol = 0.14509E+01, time = 0.66 | CG iter. 16 -- res = 0.73784E-01, tol = 0.14509E+01, time = 0.65 | CG iter. 17 -- res = 0.24987E-01, tol = 0.14509E+01, time = 0.62 | CG iter. 18 -- res = 0.11620E-01, tol = 0.14509E+01, time = 0.64 | CG iter. 19 -- res = 0.42065E-02, tol = 0.14509E+01, time = 0.67 | CG iter. 20 -- res = 0.17075E-02, tol = 0.14509E+01, time = 0.72 | CG iter. 21 -- res = 0.54017E-03, tol = 0.14509E+01, time = 0.63 | CG iter. 22 -- res = 0.15455E-03, tol = 0.14509E+01, time = 0.65 | CG iter. 23 -- res = 0.56746E-04, tol = 0.14509E+01, time = 0.60 | CG iter. 24 -- res = 0.23760E-04, tol = 0.14509E+01, time = 0.64 | CG iter. 25 -- res = 0.64682E-05, tol = 0.14509E+01, time = 0.68 | CG iter. 26 -- res = 0.19589E-05, tol = 0.14509E+01, time = 0.66 | CG iter. 27 -- res = 0.65203E-06, tol = 0.14509E+01, time = 0.66 | CG iter. 28 -- res = 0.22005E-06, tol = 0.14509E+01, time = 0.66 | CG iter. 29 -- res = 0.75153E-07, tol = 0.14509E+01, time = 0.66 | CG iter. 30 -- res = 0.25416E-07, tol = 0.14509E+01, time = 0.65 | CG iter. 31 -- res = 0.80907E-08, tol = 0.14509E+01, time = 0.65 | CG iter. 32 -- res = 0.47732E-08, tol = 0.14509E+01, time = 0.64 | CG iter. 33 -- res = 0.24241E-08, tol = 0.14509E+01, time = 0.66 | CG iter. 34 -- res = 0.72621E-09, tol = 0.14509E+01, time = 0.65 | CG iter. 35 -- res = 0.25160E-09, tol = 0.14509E+01, time = 0.65 | CG iter. 36 -- res = 0.92257E-10, tol = 0.14509E+01, time = 0.67 | CG iter. 37 -- res = 0.83454E-10, tol = 0.14509E+01, time = 0.65 | CG iter. 38 -- res = 0.18803E-10, tol = 0.14509E+01, time = 0.70 | CG iter. 39 -- res = 0.53856E-11, tol = 0.14509E+01, time = 0.65 | CG iter. 40 -- res = 0.16293E-11, tol = 0.14509E+01, time = 0.69 | CG iter. 41 -- res = 0.43710E-12, tol = 0.14509E+01, time = 0.66 | CG iter. 42 -- res = 0.14012E-12, tol = 0.14509E+01, time = 0.65 | CG iter. 43 -- res = 0.49019E-13, tol = 0.14509E+01, time = 0.62 | CG iter. 44 -- res = 0.16290E-13, tol = 0.14509E+01, time = 0.68 | CG iter. 45 -- res = 0.57772E-14, tol = 0.14509E+01, time = 0.67 | CG iter. 46 -- res = 0.18342E-14, tol = 0.14509E+01, time = 0.73 | CG iter. 47 -- res = 0.59777E-15, tol = 0.14509E+01, time = 0.65 | CG iter. 48 -- res = 0.17258E-15, tol = 0.14509E+01, time = 0.65 | CG iter. 49 -- res = 0.51551E-16, tol = 0.14509E+01, time = 0.65 | CG iter. 50 -- res = 0.16108E-16, tol = 0.14509E+01, time = 0.64 | Final CG iter 51 -- res = 0.16108E-16, tol = 0.14509E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 6.476 2.303 | New value -3.552 | Old value 6.476 | Difference -10.027 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 4.11 | CG iter. 1 -- res = 0.67893E+05, tol = 0.47627E+18, time = 0.39 | CG iter. 2 -- res = 0.31276E+02, tol = 0.47627E+18, time = 0.38 | CG iter. 3 -- res = 0.90739E+00, tol = 0.47627E+18, time = 0.37 | Final CG iter 4 -- res = 0.34380E-04, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10734431.777 | (Sampled value in CG: 10767842.506 ) | CPU time specind = 277.4176 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 4.12 | CG iter. 1 -- res = 0.69628E+08, tol = 0.51485E+04, time = 3.09 | CG iter. 2 -- res = 0.32869E+08, tol = 0.51485E+04, time = 3.24 | CG iter. 3 -- res = 0.58845E+07, tol = 0.51485E+04, time = 3.15 | CG iter. 4 -- res = 0.30766E+07, tol = 0.51485E+04, time = 3.11 | CG iter. 5 -- res = 0.13890E+07, tol = 0.51485E+04, time = 3.13 | CG iter. 6 -- res = 0.74677E+06, tol = 0.51485E+04, time = 3.19 | CG iter. 7 -- res = 0.39906E+06, tol = 0.51485E+04, time = 3.18 | CG iter. 8 -- res = 0.20802E+06, tol = 0.51485E+04, time = 3.21 | CG iter. 9 -- res = 0.11484E+06, tol = 0.51485E+04, time = 3.16 | CG iter. 10 -- res = 0.61373E+05, tol = 0.51485E+04, time = 3.13 | CG iter. 11 -- res = 0.38718E+05, tol = 0.51485E+04, time = 3.21 | CG iter. 12 -- res = 0.28368E+05, tol = 0.51485E+04, time = 3.23 | CG iter. 13 -- res = 0.24744E+05, tol = 0.51485E+04, time = 3.18 | CG iter. 14 -- res = 0.25287E+05, tol = 0.51485E+04, time = 3.23 | CG iter. 15 -- res = 0.24697E+05, tol = 0.51485E+04, time = 3.24 | CG iter. 16 -- res = 0.23485E+05, tol = 0.51485E+04, time = 3.22 | CG iter. 17 -- res = 0.20558E+05, tol = 0.51485E+04, time = 3.16 | CG iter. 18 -- res = 0.18682E+05, tol = 0.51485E+04, time = 3.17 | CG iter. 19 -- res = 0.17613E+05, tol = 0.51485E+04, time = 3.22 | CG iter. 20 -- res = 0.15387E+05, tol = 0.51485E+04, time = 3.21 | CG iter. 21 -- res = 0.11493E+05, tol = 0.51485E+04, time = 3.24 | CG iter. 22 -- res = 0.75029E+04, tol = 0.51485E+04, time = 3.25 | CG iter. 23 -- res = 0.52563E+04, tol = 0.51485E+04, time = 3.23 | CG iter. 24 -- res = 0.44531E+04, tol = 0.51485E+04, time = 3.26 | CG iter. 25 -- res = 0.43532E+04, tol = 0.51485E+04, time = 3.17 | CG iter. 26 -- res = 0.40965E+04, tol = 0.51485E+04, time = 3.23 | CG iter. 27 -- res = 0.33859E+04, tol = 0.51485E+04, time = 3.24 | CG iter. 28 -- res = 0.27248E+04, tol = 0.51485E+04, time = 3.31 | CG iter. 29 -- res = 0.24723E+04, tol = 0.51485E+04, time = 3.28 | CG iter. 30 -- res = 0.24663E+04, tol = 0.51485E+04, time = 3.26 | CG iter. 31 -- res = 0.23067E+04, tol = 0.51485E+04, time = 3.17 | CG iter. 32 -- res = 0.18210E+04, tol = 0.51485E+04, time = 3.12 | CG iter. 33 -- res = 0.13164E+04, tol = 0.51485E+04, time = 3.20 | CG iter. 34 -- res = 0.10634E+04, tol = 0.51485E+04, time = 3.08 | CG iter. 35 -- res = 0.10155E+04, tol = 0.51485E+04, time = 3.19 | CG iter. 36 -- res = 0.10400E+04, tol = 0.51485E+04, time = 3.27 | CG iter. 37 -- res = 0.98613E+03, tol = 0.51485E+04, time = 3.19 | CG iter. 38 -- res = 0.84422E+03, tol = 0.51485E+04, time = 3.18 | CG iter. 39 -- res = 0.73731E+03, tol = 0.51485E+04, time = 3.20 | CG iter. 40 -- res = 0.71624E+03, tol = 0.51485E+04, time = 3.09 | CG iter. 41 -- res = 0.74424E+03, tol = 0.51485E+04, time = 3.15 | CG iter. 42 -- res = 0.72795E+03, tol = 0.51485E+04, time = 3.19 | CG iter. 43 -- res = 0.64422E+03, tol = 0.51485E+04, time = 3.16 | CG iter. 44 -- res = 0.55976E+03, tol = 0.51485E+04, time = 3.17 | CG iter. 45 -- res = 0.52587E+03, tol = 0.51485E+04, time = 3.10 | CG iter. 46 -- res = 0.54629E+03, tol = 0.51485E+04, time = 3.23 | CG iter. 47 -- res = 0.56250E+03, tol = 0.51485E+04, time = 3.11 | CG iter. 48 -- res = 0.54719E+03, tol = 0.51485E+04, time = 3.21 | CG iter. 49 -- res = 0.52018E+03, tol = 0.51485E+04, time = 3.17 | CG iter. 50 -- res = 0.51388E+03, tol = 0.51485E+04, time = 3.15 | CG iter. 51 -- res = 0.52914E+03, tol = 0.51485E+04, time = 3.16 | CG iter. 52 -- res = 0.55249E+03, tol = 0.51485E+04, time = 3.09 | CG iter. 53 -- res = 0.54761E+03, tol = 0.51485E+04, time = 3.18 | CG iter. 54 -- res = 0.52951E+03, tol = 0.51485E+04, time = 3.20 | CG iter. 55 -- res = 0.51492E+03, tol = 0.51485E+04, time = 3.24 | CG iter. 56 -- res = 0.51892E+03, tol = 0.51485E+04, time = 3.20 | CG iter. 57 -- res = 0.53715E+03, tol = 0.51485E+04, time = 3.18 | CG iter. 58 -- res = 0.55054E+03, tol = 0.51485E+04, time = 3.16 | CG iter. 59 -- res = 0.55491E+03, tol = 0.51485E+04, time = 3.22 | CG iter. 60 -- res = 0.54979E+03, tol = 0.51485E+04, time = 3.16 | Final CG iter 61 -- res = 0.54979E+03, tol = 0.51485E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 2.861 ( -231.777 -2232.534 2515.279 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 10382517.352 | Old band monopole 10734477.949 | Change to band monopole -351960.597 | Change to component monopole 351959.083 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -2.083 2.732 | New value -8.354 | Old value -2.083 | Difference -6.270 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -4.087 ( 6.843 9.945 -10.683 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 7.527 2.249 | New value -0.046 | Old value 7.527 | Difference -7.573 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 4.12 | CG iter. 1 -- res = 0.20557E+07, tol = 0.47627E+18, time = 0.35 | CG iter. 2 -- res = 0.67683E+02, tol = 0.47627E+18, time = 0.37 | CG iter. 3 -- res = 0.17652E+01, tol = 0.47627E+18, time = 0.36 | CG iter. 4 -- res = 0.12106E-02, tol = 0.47627E+18, time = 0.36 | Final CG iter 5 -- res = 0.10966E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10382472.695 | (Sampled value in CG: 10316647.539 ) | Chain = 1 -- chisq = 0.61916675E+09 | Chain = 1 -- wall time = 4721.502 sec --------------------------------------------------------------------- | Chain = 1 -- Iteration = 49 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18265506465408 | --> Sampling calibration, mode = relcal | relcal = -7.4384451E-02 -5.8236610E-02 9.1364503E-02 4.1256558E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.5066457E-04 4.3267012E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 5.9734E-05 | 2: delta_r/delta_0: 1.5924E-06 | 3: delta_s/delta_0: 2.2854E-07 | 4: delta_r/delta_0: 1.5406E-08 | 5: delta_s/delta_0: 3.5653E-09 | 6: delta_r/delta_0: 1.4002E-09 | 7: delta_s/delta_0: 1.1214E-09 | 8: delta_r/delta_0: 8.5774E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 6.788185405505098E-004 2.737320249975605E-005 | BP delta = 5.6086830E-03 1.1879681E-02 29859906.9295997 | BP delta = 4.6627647E-03 1.0933762E-02 29859906.6005773 | 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 = 1.02548932 | --> Sampling calibration, mode = relcal | relcal = -0.1065352 -9.5556125E-02 0.1448858 5.7205528E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.6354666E-03 1.5765406E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 7.1026E-03 | 2: delta_r/delta_0: 1.5625E-04 | 3: delta_s/delta_0: 2.2320E-03 | 4: delta_r/delta_0: 1.7712E-04 | 5: delta_s/delta_0: 1.2386E-04 | 6: delta_r/delta_0: 2.7750E-05 | 7: delta_s/delta_0: 4.3354E-04 | 8: delta_r/delta_0: 7.2518E-05 | 9: delta_s/delta_0: 5.6868E-05 | 10: delta_r/delta_0: 2.0051E-05 | 11: delta_s/delta_0: 1.2448E-03 | 12: delta_r/delta_0: 1.1287E-04 | 13: delta_s/delta_0: 1.0179E-06 | 14: delta_r/delta_0: 3.3756E-07 | 15: delta_s/delta_0: 9.4426E-08 | 16: delta_r/delta_0: 3.4374E-08 | 17: delta_s/delta_0: 1.0800E-07 | 18: delta_r/delta_0: 4.4634E-08 | 19: delta_s/delta_0: 6.7534E-07 | 20: delta_r/delta_0: 4.1673E-07 | 21: delta_s/delta_0: 1.3598E-07 | 22: delta_r/delta_0: 8.7152E-10 | 23: delta_s/delta_0: 1.7894E-10 | 24: delta_r/delta_0: 9.9964E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.08048307283320 2.812215981338339E-005 | BP delta = -0.1896343 -0.1805396 34764691.8811304 | BP delta = -0.1899695 -0.1808748 34764691.8871266 | 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 = 0.81159709 | --> Sampling calibration, mode = relcal | relcal = 0.2952417 0.2246577 -0.2836063 -0.2362931 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -8.8659365E-04 5.2776681E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.5624E-03 | 2: delta_r/delta_0: 1.5345E-04 | 3: delta_s/delta_0: 1.1717E-05 | 4: delta_r/delta_0: 9.9120E-07 | 5: delta_s/delta_0: 4.1274E-05 | 6: delta_r/delta_0: 1.4828E-06 | 7: delta_s/delta_0: 1.1187E-07 | 8: delta_r/delta_0: 3.2895E-08 | 9: delta_s/delta_0: 3.2258E-08 | 10: delta_r/delta_0: 1.4379E-08 | 11: delta_s/delta_0: 2.7480E-09 | 12: delta_r/delta_0: 1.3468E-09 | 13: delta_s/delta_0: 5.0857E-10 | 14: delta_r/delta_0: 3.5733E-10 | 15: delta_s/delta_0: 3.6032E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.244228287058244E-002 4.024854014331760E-005 | BP delta = -9.2415906E-02 -0.1305299 43105701.2884330 | BP delta = -9.0331040E-02 -0.1284450 43105701.3261903 | 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 = 0.95823799 | --> Sampling calibration, mode = relcal | relcal = 0.1063899 0.1395208 -0.1101491 -0.1357616 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0472191E-02 1.1892607E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 3.0159E-04 | 2: delta_r/delta_0: 6.8391E-06 | 3: delta_s/delta_0: 3.1353E-02 | 4: delta_r/delta_0: 2.4040E-03 | 5: delta_s/delta_0: 1.1279E-06 | 6: delta_r/delta_0: 2.3316E-07 | 7: delta_s/delta_0: 6.2285E-08 | 8: delta_r/delta_0: 3.6190E-08 | 9: delta_s/delta_0: 2.3723E-07 | 10: delta_r/delta_0: 2.5480E-09 | 11: delta_s/delta_0: 7.4080E-10 | 12: delta_r/delta_0: 4.5669E-10 | 13: delta_s/delta_0: 1.0004E-09 | 14: delta_r/delta_0: 2.8407E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.546314840210971E-002 3.700811514766382E-005 | BP delta = 0.3039595 0.3341040 43049145.0343963 | BP delta = 0.3020839 0.3322284 43049144.9484762 | 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 = 0.52112274 | --> Sampling calibration, mode = relcal | relcal = -5.1005118E-02 -3.7063481E-03 2.7258324E-02 2.7453141E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.1505584E-03 1.8384263E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.5461E-05 | 2: delta_r/delta_0: 4.6310E-06 | 3: delta_s/delta_0: 1.2382E-05 | 4: delta_r/delta_0: 1.7503E-06 | 5: delta_s/delta_0: 4.5927E-08 | 6: delta_r/delta_0: 2.9704E-08 | 7: delta_s/delta_0: 6.1672E-08 | 8: delta_r/delta_0: 9.1562E-09 | 9: delta_s/delta_0: 2.1462E-09 | 10: delta_r/delta_0: 1.0612E-09 | 11: delta_s/delta_0: 1.0019E-09 | 12: delta_r/delta_0: 5.9363E-10 | 13: delta_s/delta_0: 1.1545E-10 | 14: delta_r/delta_0: 2.9621E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.092964892802504E-002 5.488022672584071E-005 | BP delta = -3.9011277E-02 5.1284239E-02 61510955.9635274 | BP delta = -4.4082116E-02 4.6213400E-02 61510955.9646708 | 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 = 0.42115371 | --> Sampling calibration, mode = relcal | relcal = 4.5547303E-02 3.9581947E-02 -2.8227596E-02 -5.6901656E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.4719885E-03 4.8017274E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 5.9968E-05 | 2: delta_r/delta_0: 3.9020E-06 | 3: delta_s/delta_0: 3.1887E-06 | 4: delta_r/delta_0: 5.3786E-07 | 5: delta_s/delta_0: 5.6428E-08 | 6: delta_r/delta_0: 3.4620E-08 | 7: delta_s/delta_0: 2.7044E-08 | 8: delta_r/delta_0: 1.3813E-08 | 9: delta_s/delta_0: 4.0354E-09 | 10: delta_r/delta_0: 9.1366E-10 | 11: delta_s/delta_0: 7.9589E-10 | 12: delta_r/delta_0: 4.5066E-10 | 13: delta_s/delta_0: 8.7669E-10 | 14: delta_r/delta_0: 1.6769E-10 | 15: delta_s/delta_0: 2.1932E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.373498771773626E-002 5.000759569938392E-005 | BP delta = -9.2173614E-02 -0.1095971 61330661.0896583 | BP delta = -0.1187581 -0.1361815 61330661.2172026 | 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 = 0.28136042 | --> Sampling calibration, mode = relcal | relcal = 2.4193199E-02 4.5081936E-02 -2.3320738E-02 -4.5954395E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.8886564E-03 2.2499103E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.1604E-04 | 2: delta_r/delta_0: 8.9157E-06 | 3: delta_s/delta_0: 1.5320E-06 | 4: delta_r/delta_0: 2.4459E-07 | 5: delta_s/delta_0: 7.7543E-08 | 6: delta_r/delta_0: 1.8825E-08 | 7: delta_s/delta_0: 7.3485E-09 | 8: delta_r/delta_0: 4.1191E-09 | 9: delta_s/delta_0: 1.6429E-08 | 10: delta_r/delta_0: 3.3478E-09 | 11: delta_s/delta_0: 1.5549E-09 | 12: delta_r/delta_0: 2.3324E-10 | 13: delta_s/delta_0: 4.5076E-10 | 14: delta_r/delta_0: 1.0113E-10 | 15: delta_s/delta_0: 3.2914E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -7.804682213256016E-003 7.850972927871632E-005 | BP delta = 9.9072844E-02 -2.0822536E-02 94948225.9444947 | BP delta = 7.9569690E-02 -4.0325698E-02 94948225.8168817 | 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 = 0.29367739 | --> Sampling calibration, mode = relcal | relcal = 4.5322406E-04 1.0297759E-02 -3.7619974E-03 -6.9889850E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.3412159E-02 1.2751244E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.3183E-04 | 2: delta_r/delta_0: 1.1361E-05 | 3: delta_s/delta_0: 1.8256E-06 | 4: delta_r/delta_0: 3.3134E-07 | 5: delta_s/delta_0: 1.4370E-07 | 6: delta_r/delta_0: 2.5956E-08 | 7: delta_s/delta_0: 1.1322E-08 | 8: delta_r/delta_0: 7.5275E-09 | 9: delta_s/delta_0: 7.0313E-09 | 10: delta_r/delta_0: 4.7896E-09 | 11: delta_s/delta_0: 5.8373E-08 | 12: delta_r/delta_0: 4.8542E-10 | 13: delta_s/delta_0: 8.7374E-10 | 14: delta_r/delta_0: 2.0307E-10 | 15: delta_s/delta_0: 9.9288E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.574061631088086E-003 8.313596718689600E-005 | BP delta = -0.7103590 -0.6784040 93508813.0801461 | BP delta = -0.7117941 -0.6798391 93508813.0732552 | 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 = 0.26478444 | --> Sampling calibration, mode = relcal | relcal = -5.6133349E-03 1.5109945E-02 -2.3138362E-03 -7.1827737E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -2.1878791E-03 3.2692819E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.5028E-04 | 2: delta_r/delta_0: 1.2391E-05 | 3: delta_s/delta_0: 2.1292E-06 | 4: delta_r/delta_0: 3.1359E-07 | 5: delta_s/delta_0: 1.0270E-07 | 6: delta_r/delta_0: 2.4665E-08 | 7: delta_s/delta_0: 8.9277E-09 | 8: delta_r/delta_0: 5.3618E-09 | 9: delta_s/delta_0: 5.0468E-09 | 10: delta_r/delta_0: 3.3872E-09 | 11: delta_s/delta_0: 8.5127E-07 | 12: delta_r/delta_0: 1.4921E-08 | 13: delta_s/delta_0: 2.5285E-08 | 14: delta_r/delta_0: 8.5973E-09 | 15: delta_s/delta_0: 5.9994E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -7.255597784299284E-003 9.163556017267276E-005 | BP delta = 0.2230031 0.2333640 94713632.3761662 | BP delta = 0.2262259 0.2365867 94713632.3839988 | 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 = 0.25639280 | --> Sampling calibration, mode = relcal | relcal = -3.1647637E-02 -2.5970168E-02 3.6839105E-02 2.0778703E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.6188198E-02 1.8611919E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4488E-04 | 2: delta_r/delta_0: 1.2124E-05 | 3: delta_s/delta_0: 1.8897E-06 | 4: delta_r/delta_0: 3.0843E-07 | 5: delta_s/delta_0: 1.0488E-07 | 6: delta_r/delta_0: 2.2177E-08 | 7: delta_s/delta_0: 9.6245E-09 | 8: delta_r/delta_0: 6.0185E-09 | 9: delta_s/delta_0: 8.0737E-09 | 10: delta_r/delta_0: 3.9356E-09 | 11: delta_s/delta_0: 1.3946E-07 | 12: delta_r/delta_0: 3.7610E-08 | 13: delta_s/delta_0: 4.2700E-10 | 14: delta_r/delta_0: 3.1244E-10 | 15: delta_s/delta_0: 1.6435E-10 | 16: delta_r/delta_0: 1.4296E-10 | 17: delta_s/delta_0: 1.1815E-10 | 18: delta_r/delta_0: 1.0621E-10 | 19: delta_s/delta_0: 1.0067E-10 | 20: delta_r/delta_0: 2.6133E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -8.858002563627709E-003 8.680242736935719E-005 | BP delta = -0.5586272 -0.6350547 93049133.6002004 | BP delta = -0.5840952 -0.6605226 93049133.5607720 | 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 = -3.096478 | New value = -3.226256 | poltype: 2 pol: 1 CPU time specind = 3.4050941E-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 = -3.035079 | New value = -3.177527 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.251460 | New value = -3.200474 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.171705 | New value = -3.104069 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.157034 | New value = -3.091252 | poltype: 2 pol: 2 CPU time specind = 2.3429394E-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 = 4.14 | CG iter. 1 -- res = 0.13539E+08, tol = 0.66652E+01, time = 1.50 | CG iter. 2 -- res = 0.56207E+05, tol = 0.66652E+01, time = 1.54 | CG iter. 3 -- res = 0.44200E+05, tol = 0.66652E+01, time = 1.52 | CG iter. 4 -- res = 0.42768E+05, tol = 0.66652E+01, time = 1.50 | CG iter. 5 -- res = 0.53692E+05, tol = 0.66652E+01, time = 1.58 | CG iter. 6 -- res = 0.40425E+05, tol = 0.66652E+01, time = 1.57 | CG iter. 7 -- res = 0.32192E+05, tol = 0.66652E+01, time = 1.54 | CG iter. 8 -- res = 0.31595E+05, tol = 0.66652E+01, time = 1.46 | CG iter. 9 -- res = 0.24498E+05, tol = 0.66652E+01, time = 1.53 | CG iter. 10 -- res = 0.20607E+05, tol = 0.66652E+01, time = 1.54 | CG iter. 11 -- res = 0.17468E+05, tol = 0.66652E+01, time = 1.53 | CG iter. 12 -- res = 0.98506E+04, tol = 0.66652E+01, time = 1.58 | CG iter. 13 -- res = 0.78792E+04, tol = 0.66652E+01, time = 1.53 | CG iter. 14 -- res = 0.81126E+04, tol = 0.66652E+01, time = 1.54 | CG iter. 15 -- res = 0.69338E+04, tol = 0.66652E+01, time = 1.55 | CG iter. 16 -- res = 0.41310E+04, tol = 0.66652E+01, time = 1.52 | CG iter. 17 -- res = 0.34004E+04, tol = 0.66652E+01, time = 1.57 | CG iter. 18 -- res = 0.26313E+04, tol = 0.66652E+01, time = 1.56 | CG iter. 19 -- res = 0.22158E+04, tol = 0.66652E+01, time = 1.56 | CG iter. 20 -- res = 0.16396E+04, tol = 0.66652E+01, time = 1.50 | CG iter. 21 -- res = 0.14566E+04, tol = 0.66652E+01, time = 1.56 | CG iter. 22 -- res = 0.13045E+04, tol = 0.66652E+01, time = 1.48 | CG iter. 23 -- res = 0.10415E+04, tol = 0.66652E+01, time = 1.51 | CG iter. 24 -- res = 0.85573E+03, tol = 0.66652E+01, time = 1.58 | CG iter. 25 -- res = 0.79552E+03, tol = 0.66652E+01, time = 1.62 | CG iter. 26 -- res = 0.65365E+03, tol = 0.66652E+01, time = 1.55 | CG iter. 27 -- res = 0.52963E+03, tol = 0.66652E+01, time = 1.55 | CG iter. 28 -- res = 0.44137E+03, tol = 0.66652E+01, time = 1.54 | CG iter. 29 -- res = 0.40183E+03, tol = 0.66652E+01, time = 1.55 | CG iter. 30 -- res = 0.35043E+03, tol = 0.66652E+01, time = 1.52 | CG iter. 31 -- res = 0.29521E+03, tol = 0.66652E+01, time = 1.58 | CG iter. 32 -- res = 0.25142E+03, tol = 0.66652E+01, time = 1.53 | CG iter. 33 -- res = 0.22050E+03, tol = 0.66652E+01, time = 1.57 | CG iter. 34 -- res = 0.18027E+03, tol = 0.66652E+01, time = 1.55 | CG iter. 35 -- res = 0.14566E+03, tol = 0.66652E+01, time = 1.57 | CG iter. 36 -- res = 0.14039E+03, tol = 0.66652E+01, time = 1.54 | CG iter. 37 -- res = 0.11546E+03, tol = 0.66652E+01, time = 1.53 | CG iter. 38 -- res = 0.90698E+02, tol = 0.66652E+01, time = 1.60 | CG iter. 39 -- res = 0.94472E+02, tol = 0.66652E+01, time = 1.54 | CG iter. 40 -- res = 0.11310E+03, tol = 0.66652E+01, time = 1.52 | CG iter. 41 -- res = 0.68633E+02, tol = 0.66652E+01, time = 1.53 | CG iter. 42 -- res = 0.54873E+02, tol = 0.66652E+01, time = 1.53 | CG iter. 43 -- res = 0.50438E+02, tol = 0.66652E+01, time = 1.53 | CG iter. 44 -- res = 0.65965E+02, tol = 0.66652E+01, time = 1.59 | CG iter. 45 -- res = 0.37991E+02, tol = 0.66652E+01, time = 1.52 | CG iter. 46 -- res = 0.27212E+02, tol = 0.66652E+01, time = 1.56 | CG iter. 47 -- res = 0.21259E+02, tol = 0.66652E+01, time = 1.53 | CG iter. 48 -- res = 0.19763E+02, tol = 0.66652E+01, time = 1.57 | CG iter. 49 -- res = 0.15085E+02, tol = 0.66652E+01, time = 1.54 | CG iter. 50 -- res = 0.11594E+02, tol = 0.66652E+01, time = 1.57 | Final CG iter 51 -- res = 0.11594E+02, tol = 0.66652E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9315212.167 | Old band monopole 10382517.352 | Change to band monopole -1067305.185 | Change to component monopole 1067300.594 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 4.13 | CG iter. 1 -- res = 0.33125E+06, tol = 0.47627E+18, time = 0.37 | CG iter. 2 -- res = 0.49526E+02, tol = 0.47627E+18, time = 0.35 | CG iter. 3 -- res = 0.15215E+01, tol = 0.47627E+18, time = 0.39 | CG iter. 4 -- res = 0.12073E-02, tol = 0.47627E+18, time = 0.38 | Final CG iter 5 -- res = 0.97909E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9315172.101 | (Sampled value in CG: 9267764.783 ) | 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 = 1.479550 | New value = 1.518468 | poltype: 2 pol: 1 CPU time specind = 3.7219524E-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 = 1.491803 | New value = 1.557936 | poltype: 2 pol: 2 CPU time specind = 2.3181438E-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 = 4.14 | CG iter. 1 -- res = 0.24408E+08, tol = 0.47538E+04, time = 1.80 | CG iter. 2 -- res = 0.54201E+07, tol = 0.47538E+04, time = 1.77 | CG iter. 3 -- res = 0.85996E+06, tol = 0.47538E+04, time = 1.77 | CG iter. 4 -- res = 0.35201E+06, tol = 0.47538E+04, time = 1.78 | CG iter. 5 -- res = 0.14833E+06, tol = 0.47538E+04, time = 1.72 | CG iter. 6 -- res = 0.76811E+05, tol = 0.47538E+04, time = 1.73 | CG iter. 7 -- res = 0.43179E+05, tol = 0.47538E+04, time = 1.83 | CG iter. 8 -- res = 0.21412E+05, tol = 0.47538E+04, time = 1.76 | CG iter. 9 -- res = 0.93276E+04, tol = 0.47538E+04, time = 1.71 | CG iter. 10 -- res = 0.37837E+04, tol = 0.47538E+04, time = 1.79 | CG iter. 11 -- res = 0.16915E+04, tol = 0.47538E+04, time = 1.81 | CG iter. 12 -- res = 0.85602E+03, tol = 0.47538E+04, time = 1.85 | CG iter. 13 -- res = 0.48285E+03, tol = 0.47538E+04, time = 1.80 | CG iter. 14 -- res = 0.27283E+03, tol = 0.47538E+04, time = 1.81 | CG iter. 15 -- res = 0.14383E+03, tol = 0.47538E+04, time = 1.82 | CG iter. 16 -- res = 0.69269E+02, tol = 0.47538E+04, time = 1.77 | CG iter. 17 -- res = 0.32240E+02, tol = 0.47538E+04, time = 1.77 | CG iter. 18 -- res = 0.16044E+02, tol = 0.47538E+04, time = 1.77 | CG iter. 19 -- res = 0.86978E+01, tol = 0.47538E+04, time = 1.77 | CG iter. 20 -- res = 0.49169E+01, tol = 0.47538E+04, time = 1.75 | CG iter. 21 -- res = 0.27089E+01, tol = 0.47538E+04, time = 1.79 | CG iter. 22 -- res = 0.14295E+01, tol = 0.47538E+04, time = 1.80 | CG iter. 23 -- res = 0.71743E+00, tol = 0.47538E+04, time = 1.76 | CG iter. 24 -- res = 0.35968E+00, tol = 0.47538E+04, time = 1.76 | CG iter. 25 -- res = 0.19364E+00, tol = 0.47538E+04, time = 1.80 | CG iter. 26 -- res = 0.11088E+00, tol = 0.47538E+04, time = 1.84 | CG iter. 27 -- res = 0.62510E-01, tol = 0.47538E+04, time = 1.77 | CG iter. 28 -- res = 0.33732E-01, tol = 0.47538E+04, time = 1.79 | CG iter. 29 -- res = 0.17569E-01, tol = 0.47538E+04, time = 1.81 | CG iter. 30 -- res = 0.92880E-02, tol = 0.47538E+04, time = 1.80 | CG iter. 31 -- res = 0.51864E-02, tol = 0.47538E+04, time = 1.81 | CG iter. 32 -- res = 0.29373E-02, tol = 0.47538E+04, time = 1.83 | CG iter. 33 -- res = 0.17044E-02, tol = 0.47538E+04, time = 1.76 | CG iter. 34 -- res = 0.92914E-03, tol = 0.47538E+04, time = 1.81 | CG iter. 35 -- res = 0.48668E-03, tol = 0.47538E+04, time = 1.80 | Final CG iter 36 -- res = 0.48668E-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) -8.405 2.726 | New value 3.838 | Old value -8.405 | Difference 12.243 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 4.10 | CG iter. 1 -- res = 0.77522E+07, tol = 0.47627E+18, time = 0.40 | CG iter. 2 -- res = 0.41475E+02, tol = 0.47627E+18, time = 0.38 | CG iter. 3 -- res = 0.12593E+01, tol = 0.47627E+18, time = 0.48 | CG iter. 4 -- res = 0.61518E-04, tol = 0.47627E+18, time = 0.40 | Final CG iter 5 -- res = 0.12501E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9315172.101 | (Sampled value in CG: 9268514.636 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.455385 | New value = -3.507407 | poltype: 1 pol: 1 CPU time specind = 3.2889843E-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 = 4.12 | CG iter. 1 -- res = 0.42486E+07, tol = 0.16002E+01, time = 0.64 | CG iter. 2 -- res = 0.23245E+06, tol = 0.16002E+01, time = 0.65 | CG iter. 3 -- res = 0.22327E+06, tol = 0.16002E+01, time = 0.68 | CG iter. 4 -- res = 0.41874E+05, tol = 0.16002E+01, time = 0.65 | CG iter. 5 -- res = 0.98250E+04, tol = 0.16002E+01, time = 0.66 | CG iter. 6 -- res = 0.44717E+04, tol = 0.16002E+01, time = 0.68 | CG iter. 7 -- res = 0.12442E+04, tol = 0.16002E+01, time = 0.65 | CG iter. 8 -- res = 0.52089E+03, tol = 0.16002E+01, time = 0.67 | CG iter. 9 -- res = 0.21898E+03, tol = 0.16002E+01, time = 0.64 | CG iter. 10 -- res = 0.51770E+02, tol = 0.16002E+01, time = 0.64 | CG iter. 11 -- res = 0.21598E+02, tol = 0.16002E+01, time = 0.64 | CG iter. 12 -- res = 0.83926E+01, tol = 0.16002E+01, time = 0.67 | CG iter. 13 -- res = 0.31945E+01, tol = 0.16002E+01, time = 0.65 | CG iter. 14 -- res = 0.10440E+01, tol = 0.16002E+01, time = 0.60 | CG iter. 15 -- res = 0.35181E+00, tol = 0.16002E+01, time = 0.68 | CG iter. 16 -- res = 0.13635E+00, tol = 0.16002E+01, time = 0.64 | CG iter. 17 -- res = 0.41876E-01, tol = 0.16002E+01, time = 0.66 | CG iter. 18 -- res = 0.16736E-01, tol = 0.16002E+01, time = 0.66 | CG iter. 19 -- res = 0.52312E-02, tol = 0.16002E+01, time = 0.68 | CG iter. 20 -- res = 0.16580E-02, tol = 0.16002E+01, time = 0.66 | CG iter. 21 -- res = 0.72252E-03, tol = 0.16002E+01, time = 0.64 | CG iter. 22 -- res = 0.30437E-03, tol = 0.16002E+01, time = 0.66 | CG iter. 23 -- res = 0.12365E-03, tol = 0.16002E+01, time = 0.65 | CG iter. 24 -- res = 0.45250E-04, tol = 0.16002E+01, time = 0.66 | CG iter. 25 -- res = 0.11025E-04, tol = 0.16002E+01, time = 0.67 | CG iter. 26 -- res = 0.33739E-05, tol = 0.16002E+01, time = 0.65 | CG iter. 27 -- res = 0.14611E-05, tol = 0.16002E+01, time = 0.70 | CG iter. 28 -- res = 0.48917E-06, tol = 0.16002E+01, time = 0.64 | CG iter. 29 -- res = 0.17015E-06, tol = 0.16002E+01, time = 0.66 | CG iter. 30 -- res = 0.48023E-07, tol = 0.16002E+01, time = 0.68 | CG iter. 31 -- res = 0.15946E-07, tol = 0.16002E+01, time = 0.62 | CG iter. 32 -- res = 0.15137E-07, tol = 0.16002E+01, time = 0.66 | CG iter. 33 -- res = 0.35405E-08, tol = 0.16002E+01, time = 0.67 | CG iter. 34 -- res = 0.11986E-08, tol = 0.16002E+01, time = 0.67 | CG iter. 35 -- res = 0.36928E-09, tol = 0.16002E+01, time = 0.68 | CG iter. 36 -- res = 0.16633E-09, tol = 0.16002E+01, time = 0.66 | CG iter. 37 -- res = 0.12194E-09, tol = 0.16002E+01, time = 0.69 | CG iter. 38 -- res = 0.31694E-10, tol = 0.16002E+01, time = 0.64 | CG iter. 39 -- res = 0.94131E-11, tol = 0.16002E+01, time = 0.67 | CG iter. 40 -- res = 0.25840E-11, tol = 0.16002E+01, time = 0.70 | CG iter. 41 -- res = 0.68771E-12, tol = 0.16002E+01, time = 0.68 | CG iter. 42 -- res = 0.22593E-12, tol = 0.16002E+01, time = 0.63 | CG iter. 43 -- res = 0.76331E-13, tol = 0.16002E+01, time = 0.67 | CG iter. 44 -- res = 0.25215E-13, tol = 0.16002E+01, time = 0.68 | CG iter. 45 -- res = 0.88298E-14, tol = 0.16002E+01, time = 0.65 | CG iter. 46 -- res = 0.30646E-14, tol = 0.16002E+01, time = 0.69 | CG iter. 47 -- res = 0.89698E-15, tol = 0.16002E+01, time = 0.66 | CG iter. 48 -- res = 0.28622E-15, tol = 0.16002E+01, time = 0.66 | CG iter. 49 -- res = 0.82855E-16, tol = 0.16002E+01, time = 0.67 | CG iter. 50 -- res = 0.31999E-16, tol = 0.16002E+01, time = 0.63 | Final CG iter 51 -- res = 0.31999E-16, tol = 0.16002E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -8.393 3.349 | New value -2.542 | Old value -8.393 | Difference 5.850 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 4.13 | CG iter. 1 -- res = 0.24623E+05, tol = 0.47627E+18, time = 0.37 | CG iter. 2 -- res = 0.26831E+02, tol = 0.47627E+18, time = 0.36 | CG iter. 3 -- res = 0.82413E+00, tol = 0.47627E+18, time = 0.34 | Final CG iter 4 -- res = 0.79936E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9315172.101 | (Sampled value in CG: 9282754.708 ) | CPU time specind = 278.0457 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 4.13 | CG iter. 1 -- res = 0.70551E+08, tol = 0.51608E+04, time = 3.23 | CG iter. 2 -- res = 0.33773E+08, tol = 0.51608E+04, time = 3.20 | CG iter. 3 -- res = 0.58016E+07, tol = 0.51608E+04, time = 3.27 | CG iter. 4 -- res = 0.29293E+07, tol = 0.51608E+04, time = 3.20 | CG iter. 5 -- res = 0.13092E+07, tol = 0.51608E+04, time = 3.28 | CG iter. 6 -- res = 0.72307E+06, tol = 0.51608E+04, time = 3.23 | CG iter. 7 -- res = 0.41078E+06, tol = 0.51608E+04, time = 3.20 | CG iter. 8 -- res = 0.21400E+06, tol = 0.51608E+04, time = 3.27 | CG iter. 9 -- res = 0.10980E+06, tol = 0.51608E+04, time = 3.15 | CG iter. 10 -- res = 0.53412E+05, tol = 0.51608E+04, time = 3.21 | CG iter. 11 -- res = 0.31726E+05, tol = 0.51608E+04, time = 3.21 | CG iter. 12 -- res = 0.23336E+05, tol = 0.51608E+04, time = 3.15 | CG iter. 13 -- res = 0.19973E+05, tol = 0.51608E+04, time = 3.20 | CG iter. 14 -- res = 0.18740E+05, tol = 0.51608E+04, time = 3.27 | CG iter. 15 -- res = 0.16469E+05, tol = 0.51608E+04, time = 3.29 | CG iter. 16 -- res = 0.15465E+05, tol = 0.51608E+04, time = 3.17 | CG iter. 17 -- res = 0.14804E+05, tol = 0.51608E+04, time = 3.25 | CG iter. 18 -- res = 0.14816E+05, tol = 0.51608E+04, time = 3.17 | CG iter. 19 -- res = 0.14216E+05, tol = 0.51608E+04, time = 3.20 | CG iter. 20 -- res = 0.11958E+05, tol = 0.51608E+04, time = 3.20 | CG iter. 21 -- res = 0.89733E+04, tol = 0.51608E+04, time = 3.15 | CG iter. 22 -- res = 0.62617E+04, tol = 0.51608E+04, time = 3.27 | CG iter. 23 -- res = 0.46493E+04, tol = 0.51608E+04, time = 3.20 | CG iter. 24 -- res = 0.37810E+04, tol = 0.51608E+04, time = 3.19 | CG iter. 25 -- res = 0.32981E+04, tol = 0.51608E+04, time = 3.17 | CG iter. 26 -- res = 0.28886E+04, tol = 0.51608E+04, time = 3.22 | CG iter. 27 -- res = 0.24861E+04, tol = 0.51608E+04, time = 3.19 | CG iter. 28 -- res = 0.21743E+04, tol = 0.51608E+04, time = 3.22 | CG iter. 29 -- res = 0.19947E+04, tol = 0.51608E+04, time = 3.23 | CG iter. 30 -- res = 0.18954E+04, tol = 0.51608E+04, time = 3.23 | CG iter. 31 -- res = 0.17085E+04, tol = 0.51608E+04, time = 3.24 | CG iter. 32 -- res = 0.14338E+04, tol = 0.51608E+04, time = 3.23 | CG iter. 33 -- res = 0.11494E+04, tol = 0.51608E+04, time = 3.14 | CG iter. 34 -- res = 0.94619E+03, tol = 0.51608E+04, time = 3.13 | CG iter. 35 -- res = 0.83470E+03, tol = 0.51608E+04, time = 3.23 | CG iter. 36 -- res = 0.78826E+03, tol = 0.51608E+04, time = 3.20 | CG iter. 37 -- res = 0.76560E+03, tol = 0.51608E+04, time = 3.29 | CG iter. 38 -- res = 0.73190E+03, tol = 0.51608E+04, time = 3.31 | CG iter. 39 -- res = 0.68542E+03, tol = 0.51608E+04, time = 3.15 | CG iter. 40 -- res = 0.63642E+03, tol = 0.51608E+04, time = 3.23 | CG iter. 41 -- res = 0.61137E+03, tol = 0.51608E+04, time = 3.18 | CG iter. 42 -- res = 0.59896E+03, tol = 0.51608E+04, time = 3.11 | CG iter. 43 -- res = 0.58704E+03, tol = 0.51608E+04, time = 3.16 | CG iter. 44 -- res = 0.55918E+03, tol = 0.51608E+04, time = 3.23 | CG iter. 45 -- res = 0.51132E+03, tol = 0.51608E+04, time = 3.14 | CG iter. 46 -- res = 0.48173E+03, tol = 0.51608E+04, time = 3.16 | CG iter. 47 -- res = 0.48129E+03, tol = 0.51608E+04, time = 3.11 | CG iter. 48 -- res = 0.51016E+03, tol = 0.51608E+04, time = 3.27 | CG iter. 49 -- res = 0.53081E+03, tol = 0.51608E+04, time = 3.26 | CG iter. 50 -- res = 0.52312E+03, tol = 0.51608E+04, time = 3.16 | CG iter. 51 -- res = 0.50097E+03, tol = 0.51608E+04, time = 3.22 | CG iter. 52 -- res = 0.49592E+03, tol = 0.51608E+04, time = 3.22 | CG iter. 53 -- res = 0.51482E+03, tol = 0.51608E+04, time = 3.22 | CG iter. 54 -- res = 0.54086E+03, tol = 0.51608E+04, time = 3.14 | CG iter. 55 -- res = 0.53592E+03, tol = 0.51608E+04, time = 3.21 | CG iter. 56 -- res = 0.50288E+03, tol = 0.51608E+04, time = 3.19 | CG iter. 57 -- res = 0.48687E+03, tol = 0.51608E+04, time = 3.17 | CG iter. 58 -- res = 0.50029E+03, tol = 0.51608E+04, time = 3.16 | CG iter. 59 -- res = 0.53297E+03, tol = 0.51608E+04, time = 3.16 | CG iter. 60 -- res = 0.54188E+03, tol = 0.51608E+04, time = 3.16 | Final CG iter 61 -- res = 0.54188E+03, tol = 0.51608E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 2.463 ( -231.379 -2233.122 2515.684 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9416209.698 | Old band monopole 9315212.167 | Change to band monopole 100997.531 | Change to component monopole -100997.096 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 3.946 2.769 | New value -4.181 | Old value 3.946 | Difference -8.127 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -3.760 ( 8.039 11.401 -11.032 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 9.006 3.140 | New value -0.444 | Old value 9.006 | Difference -9.450 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 4.14 | CG iter. 1 -- res = 0.34175E+07, tol = 0.47627E+18, time = 0.35 | CG iter. 2 -- res = 0.57595E+02, tol = 0.47627E+18, time = 0.39 | CG iter. 3 -- res = 0.13632E+01, tol = 0.47627E+18, time = 0.39 | CG iter. 4 -- res = 0.34594E-03, tol = 0.47627E+18, time = 0.38 | Final CG iter 5 -- res = 0.87639E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9416169.197 | (Sampled value in CG: 9353745.182 ) | Chain = 1 -- chisq = 0.61470870E+09 | Chain = 1 -- wall time = 4150.397 sec --------------------------------------------------------------------- | Chain = 1 -- Iteration = 50 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.17973052783300 | --> Sampling calibration, mode = relcal | relcal = -7.4026674E-02 -5.7853073E-02 9.0845205E-02 4.1034546E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.4258072E-04 3.4045612E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 5.7692E-02 | 2: delta_r/delta_0: 1.3580E-03 | 3: delta_s/delta_0: 1.9679E-07 | 4: delta_r/delta_0: 2.0082E-08 | 5: delta_s/delta_0: 6.3852E-09 | 6: delta_r/delta_0: 1.0963E-09 | 7: delta_s/delta_0: 1.0885E-08 | 8: delta_r/delta_0: 1.3557E-10 | 9: delta_s/delta_0: 6.4575E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.012350436506172E-003 2.744164835177249E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 5.7992E-02 | 2: delta_r/delta_0: 1.3648E-03 | 3: delta_s/delta_0: 1.9679E-07 | 4: delta_r/delta_0: 2.0087E-08 | 5: delta_s/delta_0: 6.3866E-09 | 6: delta_r/delta_0: 1.0965E-09 | 7: delta_s/delta_0: 1.0905E-08 | 8: delta_r/delta_0: 1.3561E-10 | 9: delta_s/delta_0: 6.4570E-11 | Reached bicg-stab tolerance | BP delta = 4.6627647E-03 1.0933762E-02 3870743.48087511 | BP delta = 4.6627647E-03 1.1241937E-02 3876212.81163743 | 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 = 1.02545150 | --> Sampling calibration, mode = relcal | relcal = -0.1066001 -9.5513776E-02 0.1448149 5.7298981E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.1315256E-03 1.6341117E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 8.1783E-04 | 2: delta_r/delta_0: 1.8011E-05 | 3: delta_s/delta_0: 5.4938E-06 | 4: delta_r/delta_0: 4.8561E-07 | 5: delta_s/delta_0: 8.0488E-07 | 6: delta_r/delta_0: 4.5320E-08 | 7: delta_s/delta_0: 3.5678E-09 | 8: delta_r/delta_0: 1.5351E-09 | 9: delta_s/delta_0: 7.5150E-09 | 10: delta_r/delta_0: 1.9692E-10 | 11: delta_s/delta_0: 1.4685E-10 | 12: delta_r/delta_0: 5.4127E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.399341907961797E-003 2.812323955043360E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 8.1788E-04 | 2: delta_r/delta_0: 1.8012E-05 | 3: delta_s/delta_0: 5.4940E-06 | 4: delta_r/delta_0: 4.8562E-07 | 5: delta_s/delta_0: 8.0502E-07 | 6: delta_r/delta_0: 4.5340E-08 | 7: delta_s/delta_0: 3.5699E-09 | 8: delta_r/delta_0: 1.5355E-09 | 9: delta_s/delta_0: 7.5137E-09 | 10: delta_r/delta_0: 1.9693E-10 | 11: delta_s/delta_0: 1.4686E-10 | 12: delta_r/delta_0: 5.4159E-11 | Reached bicg-stab tolerance | BP delta = -0.1899695 -0.1808748 2842072.98784244 | BP delta = -0.1899695 -0.1857155 2842394.79844976 | 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 = 0.81162206 | --> Sampling calibration, mode = relcal | relcal = 0.2953016 0.2246062 -0.2834933 -0.2364145 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.4326189E-04 5.2950419E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.0850E-03 | 2: delta_r/delta_0: 4.8172E-05 | 3: delta_s/delta_0: 4.7517E-04 | 4: delta_r/delta_0: 2.6861E-05 | 5: delta_s/delta_0: 2.1980E-05 | 6: delta_r/delta_0: 3.6961E-06 | 7: delta_s/delta_0: 5.4491E-08 | 8: delta_r/delta_0: 3.0475E-08 | 9: delta_s/delta_0: 4.1939E-07 | 10: delta_r/delta_0: 3.6224E-09 | 11: delta_s/delta_0: 1.5896E-09 | 12: delta_r/delta_0: 7.2870E-10 | 13: delta_s/delta_0: 3.8971E-09 | 14: delta_r/delta_0: 1.0428E-09 | 15: delta_s/delta_0: 6.1817E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.270781989874091E-002 4.024758995262954E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 2.0868E-03 | 2: delta_r/delta_0: 4.8213E-05 | 3: delta_s/delta_0: 4.7517E-04 | 4: delta_r/delta_0: 2.6859E-05 | 5: delta_s/delta_0: 2.1954E-05 | 6: delta_r/delta_0: 3.6907E-06 | 7: delta_s/delta_0: 5.4472E-08 | 8: delta_r/delta_0: 3.0458E-08 | 9: delta_s/delta_0: 4.1861E-07 | 10: delta_r/delta_0: 3.6218E-09 | 11: delta_s/delta_0: 1.5921E-09 | 12: delta_r/delta_0: 7.2682E-10 | 13: delta_s/delta_0: 3.9697E-09 | 14: delta_r/delta_0: 1.0508E-09 | 15: delta_s/delta_0: 6.0638E-11 | Reached bicg-stab tolerance | BP delta = -9.0331040E-02 -0.1284450 2827268.99572398 | BP delta = -9.0331040E-02 -0.1274215 2827301.50764841 | 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 = 0.95837639 | --> Sampling calibration, mode = relcal | relcal = 0.1063962 0.1394521 -0.1100745 -0.1357738 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0076827E-02 1.2932380E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 4.0716E-04 | 2: delta_r/delta_0: 9.2659E-06 | 3: delta_s/delta_0: 8.3779E-06 | 4: delta_r/delta_0: 2.5495E-07 | 5: delta_s/delta_0: 8.5077E-07 | 6: delta_r/delta_0: 1.2274E-07 | 7: delta_s/delta_0: 5.4169E-08 | 8: delta_r/delta_0: 3.2285E-08 | 9: delta_s/delta_0: 1.4857E-06 | 10: delta_r/delta_0: 1.5280E-08 | 11: delta_s/delta_0: 6.7004E-09 | 12: delta_r/delta_0: 5.4663E-10 | 13: delta_s/delta_0: 7.7089E-10 | 14: delta_r/delta_0: 3.2687E-10 | 15: delta_s/delta_0: 2.8905E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.494811684602801E-002 3.700185754441521E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 4.0730E-04 | 2: delta_r/delta_0: 9.2689E-06 | 3: delta_s/delta_0: 8.3696E-06 | 4: delta_r/delta_0: 2.5474E-07 | 5: delta_s/delta_0: 8.5093E-07 | 6: delta_r/delta_0: 1.2273E-07 | 7: delta_s/delta_0: 5.4165E-08 | 8: delta_r/delta_0: 3.2293E-08 | 9: delta_s/delta_0: 1.4870E-06 | 10: delta_r/delta_0: 1.5274E-08 | 11: delta_s/delta_0: 6.6924E-09 | 12: delta_r/delta_0: 5.4634E-10 | 13: delta_s/delta_0: 7.7033E-10 | 14: delta_r/delta_0: 3.2686E-10 | 15: delta_s/delta_0: 2.8903E-11 | Reached bicg-stab tolerance | BP delta = 0.3020839 0.3322284 3005403.08210091 | BP delta = 0.3020839 0.3342451 3005435.71859126 | 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 = 0.52110515 | --> Sampling calibration, mode = relcal | relcal = -5.1165421E-02 -3.6536339E-03 2.7305000E-02 2.7514054E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -5.2323967E-04 1.1774617E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.5639E-05 | 2: delta_r/delta_0: 4.6177E-06 | 3: delta_s/delta_0: 9.7578E-05 | 4: delta_r/delta_0: 1.0225E-05 | 5: delta_s/delta_0: 4.5190E-08 | 6: delta_r/delta_0: 2.4601E-08 | 7: delta_s/delta_0: 2.7560E-08 | 8: delta_r/delta_0: 7.9926E-09 | 9: delta_s/delta_0: 2.8139E-09 | 10: delta_r/delta_0: 8.6711E-10 | 11: delta_s/delta_0: 5.2410E-10 | 12: delta_r/delta_0: 1.3201E-10 | 13: delta_s/delta_0: 1.1675E-10 | 14: delta_r/delta_0: 4.1150E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.028698886978639E-002 5.488309769234926E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 6.5639E-05 | 2: delta_r/delta_0: 4.6177E-06 | 3: delta_s/delta_0: 9.7567E-05 | 4: delta_r/delta_0: 1.0224E-05 | 5: delta_s/delta_0: 4.5190E-08 | 6: delta_r/delta_0: 2.4602E-08 | 7: delta_s/delta_0: 2.7561E-08 | 8: delta_r/delta_0: 7.9926E-09 | 9: delta_s/delta_0: 2.8139E-09 | 10: delta_r/delta_0: 8.6710E-10 | 11: delta_s/delta_0: 5.2528E-10 | 12: delta_r/delta_0: 1.3164E-10 | 13: delta_s/delta_0: 1.1672E-10 | 14: delta_r/delta_0: 4.1135E-11 | Reached bicg-stab tolerance | BP delta = -4.4082116E-02 4.6213400E-02 2435842.73871598 | BP delta = -4.4082116E-02 4.8488505E-02 2435842.72480190 | 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 = 0.42121794 | --> Sampling calibration, mode = relcal | relcal = 4.5596648E-02 3.9623078E-02 -2.8285611E-02 -5.6934115E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.8365443E-03 5.0514685E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.1589E-04 | 2: delta_r/delta_0: 3.3269E-06 | 3: delta_s/delta_0: 1.6206E-06 | 4: delta_r/delta_0: 1.8931E-07 | 5: delta_s/delta_0: 9.1041E-08 | 6: delta_r/delta_0: 3.7227E-08 | 7: delta_s/delta_0: 3.3065E-06 | 8: delta_r/delta_0: 3.2666E-07 | 9: delta_s/delta_0: 3.0218E-09 | 10: delta_r/delta_0: 1.9020E-09 | 11: delta_s/delta_0: 1.0223E-09 | 12: delta_r/delta_0: 7.0382E-10 | 13: delta_s/delta_0: 4.4420E-09 | 14: delta_r/delta_0: 3.1139E-09 | 15: delta_s/delta_0: 2.9169E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.383987852005693E-002 5.000087921054745E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.1588E-04 | 2: delta_r/delta_0: 3.3269E-06 | 3: delta_s/delta_0: 1.6206E-06 | 4: delta_r/delta_0: 1.8931E-07 | 5: delta_s/delta_0: 9.1034E-08 | 6: delta_r/delta_0: 3.7226E-08 | 7: delta_s/delta_0: 3.3064E-06 | 8: delta_r/delta_0: 3.2664E-07 | 9: delta_s/delta_0: 3.0219E-09 | 10: delta_r/delta_0: 1.9021E-09 | 11: delta_s/delta_0: 1.0224E-09 | 12: delta_r/delta_0: 7.0380E-10 | 13: delta_s/delta_0: 4.4316E-09 | 14: delta_r/delta_0: 3.1070E-09 | 15: delta_s/delta_0: 2.9171E-11 | Reached bicg-stab tolerance | BP delta = -0.1187581 -0.1361815 2322272.74585239 | BP delta = -0.1187581 -0.1424100 2322361.89241384 | 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 = 0.28137842 | --> Sampling calibration, mode = relcal | relcal = 2.4216948E-02 4.5109477E-02 -2.3383357E-02 -4.5943070E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0614586E-02 2.5468932E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.0728E-04 | 2: delta_r/delta_0: 8.8110E-06 | 3: delta_s/delta_0: 1.4137E-06 | 4: delta_r/delta_0: 1.6490E-07 | 5: delta_s/delta_0: 5.9786E-08 | 6: delta_r/delta_0: 1.3450E-08 | 7: delta_s/delta_0: 6.1770E-09 | 8: delta_r/delta_0: 4.1366E-09 | 9: delta_s/delta_0: 5.2774E-09 | 10: delta_r/delta_0: 3.1771E-09 | 11: delta_s/delta_0: 5.1250E-08 | 12: delta_r/delta_0: 6.0085E-09 | 13: delta_s/delta_0: 1.7443E-10 | 14: delta_r/delta_0: 1.1433E-10 | 15: delta_s/delta_0: 7.5481E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -8.842323288248487E-003 7.850682902067279E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.0728E-04 | 2: delta_r/delta_0: 8.8110E-06 | 3: delta_s/delta_0: 1.4137E-06 | 4: delta_r/delta_0: 1.6490E-07 | 5: delta_s/delta_0: 5.9786E-08 | 6: delta_r/delta_0: 1.3450E-08 | 7: delta_s/delta_0: 6.1769E-09 | 8: delta_r/delta_0: 4.1366E-09 | 9: delta_s/delta_0: 5.2774E-09 | 10: delta_r/delta_0: 3.1771E-09 | 11: delta_s/delta_0: 5.1247E-08 | 12: delta_r/delta_0: 6.0087E-09 | 13: delta_s/delta_0: 1.7444E-10 | 14: delta_r/delta_0: 1.1433E-10 | 15: delta_s/delta_0: 7.5480E-11 | Reached bicg-stab tolerance | BP delta = 7.9569690E-02 -4.0325698E-02 2490541.85220608 | BP delta = 7.9569690E-02 -4.1887574E-02 2490544.52573036 | 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 = 0.29365009 | --> Sampling calibration, mode = relcal | relcal = 4.9140665E-04 1.0243158E-02 -3.8118616E-03 -6.9227028E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.8391404E-02 1.6504010E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.3264E-04 | 2: delta_r/delta_0: 1.1411E-05 | 3: delta_s/delta_0: 1.8049E-06 | 4: delta_r/delta_0: 3.3193E-07 | 5: delta_s/delta_0: 1.5065E-07 | 6: delta_r/delta_0: 2.5566E-08 | 7: delta_s/delta_0: 1.1533E-08 | 8: delta_r/delta_0: 7.0953E-09 | 9: delta_s/delta_0: 7.9392E-09 | 10: delta_r/delta_0: 4.2509E-09 | 11: delta_s/delta_0: 1.8983E-05 | 12: delta_r/delta_0: 7.0129E-06 | 13: delta_s/delta_0: 3.1131E-10 | 14: delta_r/delta_0: 1.5794E-10 | 15: delta_s/delta_0: 9.8741E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.870446078645252E-003 8.314431434742788E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.3264E-04 | 2: delta_r/delta_0: 1.1411E-05 | 3: delta_s/delta_0: 1.8049E-06 | 4: delta_r/delta_0: 3.3193E-07 | 5: delta_s/delta_0: 1.5066E-07 | 6: delta_r/delta_0: 2.5566E-08 | 7: delta_s/delta_0: 1.1533E-08 | 8: delta_r/delta_0: 7.0953E-09 | 9: delta_s/delta_0: 7.9392E-09 | 10: delta_r/delta_0: 4.2509E-09 | 11: delta_s/delta_0: 1.9001E-05 | 12: delta_r/delta_0: 7.0197E-06 | 13: delta_s/delta_0: 3.1131E-10 | 14: delta_r/delta_0: 1.5794E-10 | 15: delta_s/delta_0: 9.8742E-11 | Reached bicg-stab tolerance | BP delta = -0.7117941 -0.6798391 2738488.78760709 | BP delta = -0.7117941 -0.6752663 2738489.58742575 | 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 = 0.26481235 | --> Sampling calibration, mode = relcal | relcal = -5.6632850E-03 1.4979940E-02 -2.2885315E-03 -7.0281238E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -1.2255928E-03 5.2435049E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4277E-04 | 2: delta_r/delta_0: 1.2233E-05 | 3: delta_s/delta_0: 2.0539E-06 | 4: delta_r/delta_0: 2.2240E-07 | 5: delta_s/delta_0: 8.9305E-08 | 6: delta_r/delta_0: 1.8387E-08 | 7: delta_s/delta_0: 7.8376E-09 | 8: delta_r/delta_0: 4.9770E-09 | 9: delta_s/delta_0: 3.9372E-09 | 10: delta_r/delta_0: 2.2202E-09 | 11: delta_s/delta_0: 4.6061E-05 | 12: delta_r/delta_0: 5.6073E-08 | 13: delta_s/delta_0: 1.4000E-09 | 14: delta_r/delta_0: 6.7219E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -8.275196819177717E-003 9.162289557333110E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.4277E-04 | 2: delta_r/delta_0: 1.2233E-05 | 3: delta_s/delta_0: 2.0539E-06 | 4: delta_r/delta_0: 2.2241E-07 | 5: delta_s/delta_0: 8.9302E-08 | 6: delta_r/delta_0: 1.8387E-08 | 7: delta_s/delta_0: 7.8377E-09 | 8: delta_r/delta_0: 4.9771E-09 | 9: delta_s/delta_0: 3.9372E-09 | 10: delta_r/delta_0: 2.2203E-09 | 11: delta_s/delta_0: 4.6085E-05 | 12: delta_r/delta_0: 5.6099E-08 | 13: delta_s/delta_0: 1.4005E-09 | 14: delta_r/delta_0: 6.7219E-11 | Reached bicg-stab tolerance | BP delta = 0.2262259 0.2365867 2516499.13538430 | BP delta = 0.2262259 0.2359073 2516499.41484024 | 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 = 0.25629222 | --> Sampling calibration, mode = relcal | relcal = -3.1633291E-02 -2.5942957E-02 3.6908291E-02 2.0667955E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.3660203E-02 1.8383650E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4640E-04 | 2: delta_r/delta_0: 1.2370E-05 | 3: delta_s/delta_0: 1.9427E-06 | 4: delta_r/delta_0: 3.7794E-07 | 5: delta_s/delta_0: 1.4886E-07 | 6: delta_r/delta_0: 2.8413E-08 | 7: delta_s/delta_0: 1.2679E-08 | 8: delta_r/delta_0: 7.0205E-09 | 9: delta_s/delta_0: 1.2330E-08 | 10: delta_r/delta_0: 4.2308E-09 | 11: delta_s/delta_0: 3.5321E-08 | 12: delta_r/delta_0: 1.4372E-08 | 13: delta_s/delta_0: 3.7885E-10 | 14: delta_r/delta_0: 2.7443E-10 | 15: delta_s/delta_0: 1.4781E-10 | 16: delta_r/delta_0: 1.1569E-10 | 17: delta_s/delta_0: 9.3718E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.047389459746673E-002 8.683774494187896E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.4640E-04 | 2: delta_r/delta_0: 1.2370E-05 | 3: delta_s/delta_0: 1.9427E-06 | 4: delta_r/delta_0: 3.7795E-07 | 5: delta_s/delta_0: 1.4887E-07 | 6: delta_r/delta_0: 2.8414E-08 | 7: delta_s/delta_0: 1.2680E-08 | 8: delta_r/delta_0: 7.0207E-09 | 9: delta_s/delta_0: 1.2329E-08 | 10: delta_r/delta_0: 4.2309E-09 | 11: delta_s/delta_0: 3.5350E-08 | 12: delta_r/delta_0: 1.4386E-08 | 13: delta_s/delta_0: 3.7890E-10 | 14: delta_r/delta_0: 2.7445E-10 | 15: delta_s/delta_0: 1.4780E-10 | 16: delta_r/delta_0: 1.1570E-10 | 17: delta_s/delta_0: 9.3743E-11 | Reached bicg-stab tolerance | BP delta = -0.5840952 -0.6605226 2706641.88844268 | BP delta = -0.5840952 -0.6608536 2706627.46039496 | BP chisq diff = -14.4, 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 = -3.226256 | New value = -3.147806 | poltype: 2 pol: 1 CPU time specind = 6.7667961E-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 = -3.177527 | New value = -3.206037 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.200474 | New value = -3.146388 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.104069 | New value = -3.202024 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.091252 | New value = -3.141032 | poltype: 2 pol: 2 CPU time specind = 3.1321049E-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 = 4.23 | CG iter. 1 -- res = 0.13565E+08, tol = 0.73150E+01, time = 1.54 | CG iter. 2 -- res = 0.50690E+05, tol = 0.73150E+01, time = 1.53 | CG iter. 3 -- res = 0.48843E+05, tol = 0.73150E+01, time = 1.50 | CG iter. 4 -- res = 0.18168E+05, tol = 0.73150E+01, time = 1.49 | CG iter. 5 -- res = 0.16809E+05, tol = 0.73150E+01, time = 1.50 | CG iter. 6 -- res = 0.16945E+05, tol = 0.73150E+01, time = 1.57 | CG iter. 7 -- res = 0.12694E+05, tol = 0.73150E+01, time = 1.54 | CG iter. 8 -- res = 0.10211E+05, tol = 0.73150E+01, time = 1.53 | CG iter. 9 -- res = 0.93408E+04, tol = 0.73150E+01, time = 1.52 | CG iter. 10 -- res = 0.10670E+05, tol = 0.73150E+01, time = 1.51 | CG iter. 11 -- res = 0.60986E+04, tol = 0.73150E+01, time = 1.53 | CG iter. 12 -- res = 0.39628E+04, tol = 0.73150E+01, time = 1.50 | CG iter. 13 -- res = 0.31896E+04, tol = 0.73150E+01, time = 1.57 | CG iter. 14 -- res = 0.32622E+04, tol = 0.73150E+01, time = 1.49 | CG iter. 15 -- res = 0.24735E+04, tol = 0.73150E+01, time = 1.54 | CG iter. 16 -- res = 0.15099E+04, tol = 0.73150E+01, time = 1.54 | CG iter. 17 -- res = 0.11195E+04, tol = 0.73150E+01, time = 1.55 | CG iter. 18 -- res = 0.95799E+03, tol = 0.73150E+01, time = 1.53 | CG iter. 19 -- res = 0.73849E+03, tol = 0.73150E+01, time = 1.50 | CG iter. 20 -- res = 0.51922E+03, tol = 0.73150E+01, time = 1.50 | CG iter. 21 -- res = 0.44085E+03, tol = 0.73150E+01, time = 1.51 | CG iter. 22 -- res = 0.39939E+03, tol = 0.73150E+01, time = 1.49 | CG iter. 23 -- res = 0.28151E+03, tol = 0.73150E+01, time = 1.48 | CG iter. 24 -- res = 0.21980E+03, tol = 0.73150E+01, time = 1.56 | CG iter. 25 -- res = 0.20082E+03, tol = 0.73150E+01, time = 1.49 | CG iter. 26 -- res = 0.15571E+03, tol = 0.73150E+01, time = 1.55 | CG iter. 27 -- res = 0.11869E+03, tol = 0.73150E+01, time = 1.52 | CG iter. 28 -- res = 0.86435E+02, tol = 0.73150E+01, time = 1.50 | CG iter. 29 -- res = 0.65531E+02, tol = 0.73150E+01, time = 1.56 | CG iter. 30 -- res = 0.53280E+02, tol = 0.73150E+01, time = 1.51 | CG iter. 31 -- res = 0.38901E+02, tol = 0.73150E+01, time = 1.54 | CG iter. 32 -- res = 0.31982E+02, tol = 0.73150E+01, time = 1.53 | CG iter. 33 -- res = 0.26118E+02, tol = 0.73150E+01, time = 1.49 | CG iter. 34 -- res = 0.21309E+02, tol = 0.73150E+01, time = 1.51 | CG iter. 35 -- res = 0.15179E+02, tol = 0.73150E+01, time = 1.54 | CG iter. 36 -- res = 0.11905E+02, tol = 0.73150E+01, time = 1.52 | CG iter. 37 -- res = 0.12334E+02, tol = 0.73150E+01, time = 1.56 | CG iter. 38 -- res = 0.12676E+02, tol = 0.73150E+01, time = 1.51 | CG iter. 39 -- res = 0.85878E+01, tol = 0.73150E+01, time = 1.52 | CG iter. 40 -- res = 0.55319E+01, tol = 0.73150E+01, time = 1.50 | CG iter. 41 -- res = 0.48106E+01, tol = 0.73150E+01, time = 1.56 | CG iter. 42 -- res = 0.40729E+01, tol = 0.73150E+01, time = 1.54 | CG iter. 43 -- res = 0.41209E+01, tol = 0.73150E+01, time = 1.56 | CG iter. 44 -- res = 0.42770E+01, tol = 0.73150E+01, time = 1.54 | CG iter. 45 -- res = 0.25817E+01, tol = 0.73150E+01, time = 1.53 | CG iter. 46 -- res = 0.20547E+01, tol = 0.73150E+01, time = 1.53 | CG iter. 47 -- res = 0.16902E+01, tol = 0.73150E+01, time = 1.53 | CG iter. 48 -- res = 0.14711E+01, tol = 0.73150E+01, time = 1.57 | CG iter. 49 -- res = 0.12842E+01, tol = 0.73150E+01, time = 1.48 | CG iter. 50 -- res = 0.12243E+01, tol = 0.73150E+01, time = 1.53 | Final CG iter 51 -- res = 0.12243E+01, tol = 0.73150E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9893308.665 | Old band monopole 9416209.698 | Change to band monopole 477098.967 | Change to component monopole -477096.915 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 4.23 | CG iter. 1 -- res = 0.10131E+06, tol = 0.47627E+18, time = 0.38 | CG iter. 2 -- res = 0.33811E+02, tol = 0.47627E+18, time = 0.36 | CG iter. 3 -- res = 0.10705E+01, tol = 0.47627E+18, time = 0.42 | CG iter. 4 -- res = 0.11603E-02, tol = 0.47627E+18, time = 0.34 | Final CG iter 5 -- res = 0.43495E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9893266.112 | (Sampled value in CG: 9929623.466 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.518468 | New value = 1.487779 | poltype: 2 pol: 1 CPU time specind = 5.3970814E-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 = 1.557936 | New value = 1.490964 | poltype: 2 pol: 2 CPU time specind = 3.2041073E-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 = 4.26 | CG iter. 1 -- res = 0.24216E+08, tol = 0.47509E+04, time = 1.77 | CG iter. 2 -- res = 0.54605E+07, tol = 0.47509E+04, time = 1.74 | CG iter. 3 -- res = 0.89620E+06, tol = 0.47509E+04, time = 1.74 | CG iter. 4 -- res = 0.38833E+06, tol = 0.47509E+04, time = 1.77 | CG iter. 5 -- res = 0.17065E+06, tol = 0.47509E+04, time = 1.74 | CG iter. 6 -- res = 0.84860E+05, tol = 0.47509E+04, time = 1.73 | CG iter. 7 -- res = 0.44509E+05, tol = 0.47509E+04, time = 1.75 | CG iter. 8 -- res = 0.21338E+05, tol = 0.47509E+04, time = 1.75 | CG iter. 9 -- res = 0.94770E+04, tol = 0.47509E+04, time = 1.80 | CG iter. 10 -- res = 0.38644E+04, tol = 0.47509E+04, time = 1.75 | CG iter. 11 -- res = 0.17695E+04, tol = 0.47509E+04, time = 1.72 | CG iter. 12 -- res = 0.90723E+03, tol = 0.47509E+04, time = 1.79 | CG iter. 13 -- res = 0.49695E+03, tol = 0.47509E+04, time = 1.77 | CG iter. 14 -- res = 0.27906E+03, tol = 0.47509E+04, time = 1.79 | CG iter. 15 -- res = 0.14436E+03, tol = 0.47509E+04, time = 1.77 | CG iter. 16 -- res = 0.70146E+02, tol = 0.47509E+04, time = 1.77 | CG iter. 17 -- res = 0.33045E+02, tol = 0.47509E+04, time = 1.75 | CG iter. 18 -- res = 0.16322E+02, tol = 0.47509E+04, time = 1.81 | CG iter. 19 -- res = 0.89051E+01, tol = 0.47509E+04, time = 1.74 | CG iter. 20 -- res = 0.51415E+01, tol = 0.47509E+04, time = 1.75 | CG iter. 21 -- res = 0.27963E+01, tol = 0.47509E+04, time = 1.71 | CG iter. 22 -- res = 0.14177E+01, tol = 0.47509E+04, time = 1.76 | CG iter. 23 -- res = 0.70020E+00, tol = 0.47509E+04, time = 1.76 | CG iter. 24 -- res = 0.35540E+00, tol = 0.47509E+04, time = 1.75 | CG iter. 25 -- res = 0.19397E+00, tol = 0.47509E+04, time = 1.79 | CG iter. 26 -- res = 0.11286E+00, tol = 0.47509E+04, time = 1.76 | CG iter. 27 -- res = 0.64212E-01, tol = 0.47509E+04, time = 1.83 | CG iter. 28 -- res = 0.34424E-01, tol = 0.47509E+04, time = 1.78 | CG iter. 29 -- res = 0.17640E-01, tol = 0.47509E+04, time = 1.79 | CG iter. 30 -- res = 0.88616E-02, tol = 0.47509E+04, time = 1.71 | CG iter. 31 -- res = 0.47733E-02, tol = 0.47509E+04, time = 1.76 | CG iter. 32 -- res = 0.27323E-02, tol = 0.47509E+04, time = 1.79 | CG iter. 33 -- res = 0.15276E-02, tol = 0.47509E+04, time = 1.79 | CG iter. 34 -- res = 0.82532E-03, tol = 0.47509E+04, time = 1.78 | CG iter. 35 -- res = 0.42989E-03, tol = 0.47509E+04, time = 1.77 | Final CG iter 36 -- res = 0.42989E-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) -4.232 2.735 | New value 0.102 | Old value -4.232 | Difference 4.334 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 4.22 | CG iter. 1 -- res = 0.97308E+06, tol = 0.47627E+18, time = 0.37 | CG iter. 2 -- res = 0.26758E+02, tol = 0.47627E+18, time = 0.39 | CG iter. 3 -- res = 0.82527E+00, tol = 0.47627E+18, time = 0.37 | CG iter. 4 -- res = 0.31167E-03, tol = 0.47627E+18, time = 0.39 | Final CG iter 5 -- res = 0.25041E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9893266.112 | (Sampled value in CG: 9928247.334 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.507407 | New value = -3.679819 | poltype: 1 pol: 1 CPU time specind = 3.8380623E-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 = 4.22 | CG iter. 1 -- res = 0.24338E+07, tol = 0.16687E+01, time = 0.67 | CG iter. 2 -- res = 0.91329E+05, tol = 0.16687E+01, time = 0.69 | CG iter. 3 -- res = 0.61363E+05, tol = 0.16687E+01, time = 0.69 | CG iter. 4 -- res = 0.18617E+05, tol = 0.16687E+01, time = 0.68 | CG iter. 5 -- res = 0.43817E+04, tol = 0.16687E+01, time = 0.66 | CG iter. 6 -- res = 0.20572E+04, tol = 0.16687E+01, time = 0.62 | CG iter. 7 -- res = 0.10166E+04, tol = 0.16687E+01, time = 0.64 | CG iter. 8 -- res = 0.40347E+03, tol = 0.16687E+01, time = 0.63 | CG iter. 9 -- res = 0.10669E+03, tol = 0.16687E+01, time = 0.65 | CG iter. 10 -- res = 0.34438E+02, tol = 0.16687E+01, time = 0.69 | CG iter. 11 -- res = 0.16837E+02, tol = 0.16687E+01, time = 0.69 | CG iter. 12 -- res = 0.65960E+01, tol = 0.16687E+01, time = 0.64 | CG iter. 13 -- res = 0.22378E+01, tol = 0.16687E+01, time = 0.64 | CG iter. 14 -- res = 0.65083E+00, tol = 0.16687E+01, time = 0.67 | CG iter. 15 -- res = 0.19804E+00, tol = 0.16687E+01, time = 0.69 | CG iter. 16 -- res = 0.95251E-01, tol = 0.16687E+01, time = 0.65 | CG iter. 17 -- res = 0.32987E-01, tol = 0.16687E+01, time = 0.64 | CG iter. 18 -- res = 0.11815E-01, tol = 0.16687E+01, time = 0.69 | CG iter. 19 -- res = 0.39542E-02, tol = 0.16687E+01, time = 0.63 | CG iter. 20 -- res = 0.14940E-02, tol = 0.16687E+01, time = 0.65 | CG iter. 21 -- res = 0.61893E-03, tol = 0.16687E+01, time = 0.65 | CG iter. 22 -- res = 0.23166E-03, tol = 0.16687E+01, time = 0.67 | CG iter. 23 -- res = 0.80640E-04, tol = 0.16687E+01, time = 0.63 | CG iter. 24 -- res = 0.26886E-04, tol = 0.16687E+01, time = 0.66 | CG iter. 25 -- res = 0.73652E-05, tol = 0.16687E+01, time = 0.62 | CG iter. 26 -- res = 0.25001E-05, tol = 0.16687E+01, time = 0.62 | CG iter. 27 -- res = 0.10846E-05, tol = 0.16687E+01, time = 0.65 | CG iter. 28 -- res = 0.33792E-06, tol = 0.16687E+01, time = 0.65 | CG iter. 29 -- res = 0.10125E-06, tol = 0.16687E+01, time = 0.70 | CG iter. 30 -- res = 0.27024E-07, tol = 0.16687E+01, time = 0.66 | CG iter. 31 -- res = 0.10951E-07, tol = 0.16687E+01, time = 0.64 | CG iter. 32 -- res = 0.96353E-08, tol = 0.16687E+01, time = 0.65 | CG iter. 33 -- res = 0.22887E-08, tol = 0.16687E+01, time = 0.68 | CG iter. 34 -- res = 0.76625E-09, tol = 0.16687E+01, time = 0.64 | CG iter. 35 -- res = 0.31601E-09, tol = 0.16687E+01, time = 0.66 | CG iter. 36 -- res = 0.23233E-09, tol = 0.16687E+01, time = 0.64 | CG iter. 37 -- res = 0.59382E-10, tol = 0.16687E+01, time = 0.64 | CG iter. 38 -- res = 0.17516E-10, tol = 0.16687E+01, time = 0.64 | CG iter. 39 -- res = 0.49957E-11, tol = 0.16687E+01, time = 0.64 | CG iter. 40 -- res = 0.13768E-11, tol = 0.16687E+01, time = 0.66 | CG iter. 41 -- res = 0.47063E-12, tol = 0.16687E+01, time = 0.67 | CG iter. 42 -- res = 0.16302E-12, tol = 0.16687E+01, time = 0.67 | CG iter. 43 -- res = 0.55136E-13, tol = 0.16687E+01, time = 0.64 | CG iter. 44 -- res = 0.18156E-13, tol = 0.16687E+01, time = 0.65 | CG iter. 45 -- res = 0.56534E-14, tol = 0.16687E+01, time = 0.64 | CG iter. 46 -- res = 0.17300E-14, tol = 0.16687E+01, time = 0.64 | CG iter. 47 -- res = 0.48880E-15, tol = 0.16687E+01, time = 0.63 | CG iter. 48 -- res = 0.14170E-15, tol = 0.16687E+01, time = 0.64 | CG iter. 49 -- res = 0.42059E-16, tol = 0.16687E+01, time = 0.63 | CG iter. 50 -- res = 0.14842E-16, tol = 0.16687E+01, time = 0.65 | Final CG iter 51 -- res = 0.14842E-16, tol = 0.16687E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 4.780 2.344 | New value 0.502 | Old value 4.780 | Difference -4.278 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 4.24 | CG iter. 1 -- res = 0.13105E+05, tol = 0.47627E+18, time = 0.40 | CG iter. 2 -- res = 0.27787E+02, tol = 0.47627E+18, time = 0.39 | CG iter. 3 -- res = 0.79197E+00, tol = 0.47627E+18, time = 0.37 | CG iter. 4 -- res = 0.75505E-04, tol = 0.47627E+18, time = 0.39 | Final CG iter 5 -- res = 0.36843E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9893266.112 | (Sampled value in CG: 9922085.652 ) | CPU time specind = 276.0346 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 4.22 | CG iter. 1 -- res = 0.69451E+08, tol = 0.51512E+04, time = 3.13 | CG iter. 2 -- res = 0.33324E+08, tol = 0.51512E+04, time = 3.14 | CG iter. 3 -- res = 0.58093E+07, tol = 0.51512E+04, time = 3.11 | CG iter. 4 -- res = 0.29626E+07, tol = 0.51512E+04, time = 3.12 | CG iter. 5 -- res = 0.13223E+07, tol = 0.51512E+04, time = 3.18 | CG iter. 6 -- res = 0.71358E+06, tol = 0.51512E+04, time = 3.12 | CG iter. 7 -- res = 0.38875E+06, tol = 0.51512E+04, time = 3.15 | CG iter. 8 -- res = 0.19628E+06, tol = 0.51512E+04, time = 3.15 | CG iter. 9 -- res = 0.97652E+05, tol = 0.51512E+04, time = 3.08 | CG iter. 10 -- res = 0.45517E+05, tol = 0.51512E+04, time = 3.07 | CG iter. 11 -- res = 0.24680E+05, tol = 0.51512E+04, time = 3.09 | CG iter. 12 -- res = 0.14984E+05, tol = 0.51512E+04, time = 3.11 | CG iter. 13 -- res = 0.10188E+05, tol = 0.51512E+04, time = 3.10 | CG iter. 14 -- res = 0.77525E+04, tol = 0.51512E+04, time = 3.15 | CG iter. 15 -- res = 0.59282E+04, tol = 0.51512E+04, time = 3.13 | CG iter. 16 -- res = 0.49351E+04, tol = 0.51512E+04, time = 3.22 | CG iter. 17 -- res = 0.43286E+04, tol = 0.51512E+04, time = 3.16 | CG iter. 18 -- res = 0.42502E+04, tol = 0.51512E+04, time = 3.21 | CG iter. 19 -- res = 0.44731E+04, tol = 0.51512E+04, time = 3.12 | CG iter. 20 -- res = 0.45890E+04, tol = 0.51512E+04, time = 3.06 | CG iter. 21 -- res = 0.41726E+04, tol = 0.51512E+04, time = 3.15 | CG iter. 22 -- res = 0.32356E+04, tol = 0.51512E+04, time = 3.13 | CG iter. 23 -- res = 0.23850E+04, tol = 0.51512E+04, time = 3.12 | CG iter. 24 -- res = 0.18458E+04, tol = 0.51512E+04, time = 3.12 | CG iter. 25 -- res = 0.15706E+04, tol = 0.51512E+04, time = 3.08 | CG iter. 26 -- res = 0.13852E+04, tol = 0.51512E+04, time = 3.23 | CG iter. 27 -- res = 0.11819E+04, tol = 0.51512E+04, time = 3.12 | CG iter. 28 -- res = 0.99044E+03, tol = 0.51512E+04, time = 3.06 | CG iter. 29 -- res = 0.88410E+03, tol = 0.51512E+04, time = 3.16 | CG iter. 30 -- res = 0.88286E+03, tol = 0.51512E+04, time = 3.12 | CG iter. 31 -- res = 0.93739E+03, tol = 0.51512E+04, time = 3.16 | CG iter. 32 -- res = 0.94639E+03, tol = 0.51512E+04, time = 3.15 | CG iter. 33 -- res = 0.83143E+03, tol = 0.51512E+04, time = 3.09 | CG iter. 34 -- res = 0.68854E+03, tol = 0.51512E+04, time = 3.21 | CG iter. 35 -- res = 0.61359E+03, tol = 0.51512E+04, time = 3.10 | CG iter. 36 -- res = 0.61250E+03, tol = 0.51512E+04, time = 3.12 | CG iter. 37 -- res = 0.64491E+03, tol = 0.51512E+04, time = 3.12 | CG iter. 38 -- res = 0.63137E+03, tol = 0.51512E+04, time = 3.18 | CG iter. 39 -- res = 0.57910E+03, tol = 0.51512E+04, time = 3.25 | CG iter. 40 -- res = 0.54431E+03, tol = 0.51512E+04, time = 3.21 | CG iter. 41 -- res = 0.56914E+03, tol = 0.51512E+04, time = 3.10 | CG iter. 42 -- res = 0.62982E+03, tol = 0.51512E+04, time = 3.31 | CG iter. 43 -- res = 0.66412E+03, tol = 0.51512E+04, time = 3.21 | CG iter. 44 -- res = 0.62683E+03, tol = 0.51512E+04, time = 3.23 | CG iter. 45 -- res = 0.56453E+03, tol = 0.51512E+04, time = 3.19 | CG iter. 46 -- res = 0.53729E+03, tol = 0.51512E+04, time = 3.13 | CG iter. 47 -- res = 0.55657E+03, tol = 0.51512E+04, time = 3.19 | CG iter. 48 -- res = 0.58595E+03, tol = 0.51512E+04, time = 3.17 | CG iter. 49 -- res = 0.57114E+03, tol = 0.51512E+04, time = 3.12 | CG iter. 50 -- res = 0.52069E+03, tol = 0.51512E+04, time = 3.12 | CG iter. 51 -- res = 0.49143E+03, tol = 0.51512E+04, time = 3.09 | CG iter. 52 -- res = 0.51532E+03, tol = 0.51512E+04, time = 3.15 | CG iter. 53 -- res = 0.55457E+03, tol = 0.51512E+04, time = 3.13 | CG iter. 54 -- res = 0.56017E+03, tol = 0.51512E+04, time = 3.23 | CG iter. 55 -- res = 0.51016E+03, tol = 0.51512E+04, time = 3.17 | CG iter. 56 -- res = 0.45801E+03, tol = 0.51512E+04, time = 3.22 | CG iter. 57 -- res = 0.44780E+03, tol = 0.51512E+04, time = 3.16 | CG iter. 58 -- res = 0.47222E+03, tol = 0.51512E+04, time = 3.22 | CG iter. 59 -- res = 0.48694E+03, tol = 0.51512E+04, time = 3.13 | CG iter. 60 -- res = 0.45366E+03, tol = 0.51512E+04, time = 3.15 | Final CG iter 61 -- res = 0.45366E+03, tol = 0.51512E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 3.017 ( -231.336 -2233.925 2516.321 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9563036.022 | Old band monopole 9893308.665 | Change to band monopole -330272.643 | Change to component monopole 330271.223 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 0.115 2.731 | New value 0.945 | Old value 0.115 | Difference 0.830 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -3.860 ( 7.952 12.003 -12.390 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 12.163 2.587 | New value -0.675 | Old value 12.163 | Difference -12.839 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 4.23 | CG iter. 1 -- res = 0.41001E+05, tol = 0.47627E+18, time = 0.38 | CG iter. 2 -- res = 0.55795E+02, tol = 0.47627E+18, time = 0.34 | CG iter. 3 -- res = 0.14921E+01, tol = 0.47627E+18, time = 0.40 | Final CG iter 4 -- res = 0.39914E-04, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9562994.889 | (Sampled value in CG: 9497888.875 ) | Chain = 1 -- chisq = 0.61686900E+09 | Chain = 1 -- wall time = 4706.226 sec --------------------------------------------------------------------- | Chain = 1 -- Iteration = 51 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18193360604962 | --> Sampling calibration, mode = relcal | relcal = -7.5385757E-02 -5.8817718E-02 9.2230245E-02 4.1973233E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.6660363E-04 5.3640623E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.2930E-05 | 2: delta_r/delta_0: 1.0408E-06 | 3: delta_s/delta_0: 1.8832E-07 | 4: delta_r/delta_0: 2.1490E-08 | 5: delta_s/delta_0: 4.9437E-09 | 6: delta_r/delta_0: 1.8285E-09 | 7: delta_s/delta_0: 5.9821E-10 | 8: delta_r/delta_0: 1.9356E-10 | 9: delta_s/delta_0: 2.2533E-09 | 10: delta_r/delta_0: 8.3815E-10 | 11: delta_s/delta_0: 7.1452E-10 | 12: delta_r/delta_0: 1.3274E-10 | 13: delta_s/delta_0: 5.0417E-10 | 14: delta_r/delta_0: 7.1725E-12 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.108235271666325E-003 2.738862584965952E-005 | BP delta = 4.6627647E-03 1.0933762E-02 29858151.7553786 | BP delta = 6.1351643E-03 1.2406162E-02 29858151.2642931 | 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 = 1.02535237 | --> Sampling calibration, mode = relcal | relcal = -0.1065656 -9.5517643E-02 0.1448219 5.7261363E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.4180554E-03 1.0705488E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 3.7091E-03 | 2: delta_r/delta_0: 8.1541E-05 | 3: delta_s/delta_0: 7.5029E-05 | 4: delta_r/delta_0: 6.0003E-06 | 5: delta_s/delta_0: 1.6687E-06 | 6: delta_r/delta_0: 1.4834E-07 | 7: delta_s/delta_0: 2.4840E-07 | 8: delta_r/delta_0: 1.0894E-08 | 9: delta_s/delta_0: 1.6651E-08 | 10: delta_r/delta_0: 7.7834E-09 | 11: delta_s/delta_0: 1.3744E-08 | 12: delta_r/delta_0: 7.7874E-10 | 13: delta_s/delta_0: 2.2581E-10 | 14: delta_r/delta_0: 1.4619E-10 | 15: delta_s/delta_0: 5.4354E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 2.659558635568484E-002 2.812605846265622E-005 | BP delta = -0.1899695 -0.1808748 34759517.7852700 | BP delta = -0.1895415 -0.1804468 34759517.8197486 | 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 = 0.81173498 | --> Sampling calibration, mode = relcal | relcal = 0.2952980 0.2246543 -0.2834850 -0.2364672 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0343627E-03 5.1389378E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.8276E-03 | 2: delta_r/delta_0: 6.5596E-05 | 3: delta_s/delta_0: 5.1280E-06 | 4: delta_r/delta_0: 5.3360E-07 | 5: delta_s/delta_0: 5.8635E-05 | 6: delta_r/delta_0: 1.0335E-06 | 7: delta_s/delta_0: 6.1366E-08 | 8: delta_r/delta_0: 2.8520E-08 | 9: delta_s/delta_0: 1.1082E-07 | 10: delta_r/delta_0: 4.6330E-09 | 11: delta_s/delta_0: 1.1397E-09 | 12: delta_r/delta_0: 5.1894E-10 | 13: delta_s/delta_0: 5.0135E-10 | 14: delta_r/delta_0: 2.2811E-10 | 15: delta_s/delta_0: 2.6601E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.381877468344855E-002 4.024132880152463E-005 | BP delta = -9.0331040E-02 -0.1284450 43105484.4174038 | BP delta = -8.7840423E-02 -0.1259544 43105484.4307149 | 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 = 0.95844749 | --> Sampling calibration, mode = relcal | relcal = 0.1065778 0.1393924 -0.1102447 -0.1357254 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.5720887E-03 1.2695880E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 3.2746E-04 | 2: delta_r/delta_0: 7.4287E-06 | 3: delta_s/delta_0: 3.8644E-03 | 4: delta_r/delta_0: 2.9905E-04 | 5: delta_s/delta_0: 1.0475E-06 | 6: delta_r/delta_0: 2.0565E-07 | 7: delta_s/delta_0: 6.0202E-08 | 8: delta_r/delta_0: 2.9648E-08 | 9: delta_s/delta_0: 6.4047E-08 | 10: delta_r/delta_0: 3.1417E-09 | 11: delta_s/delta_0: 1.0726E-09 | 12: delta_r/delta_0: 5.4202E-10 | 13: delta_s/delta_0: 3.4486E-09 | 14: delta_r/delta_0: 2.0803E-10 | 15: delta_s/delta_0: 3.8221E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.491008698272630E-002 3.700042248723160E-005 | BP delta = 0.3020839 0.3322284 43057837.9218123 | BP delta = 0.2828520 0.3129964 43057837.0850025 | BP chisq diff = -0.8, accept = T | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 060-WMAP_V1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.52116966 | --> Sampling calibration, mode = relcal | relcal = -5.0961610E-02 -3.7665793E-03 2.7208341E-02 2.7519848E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -1.3411556E-03 2.1654787E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.5250E-05 | 2: delta_r/delta_0: 4.4594E-06 | 3: delta_s/delta_0: 3.8652E-06 | 4: delta_r/delta_0: 6.0105E-07 | 5: delta_s/delta_0: 4.5387E-08 | 6: delta_r/delta_0: 2.6328E-08 | 7: delta_s/delta_0: 6.5181E-08 | 8: delta_r/delta_0: 6.9230E-09 | 9: delta_s/delta_0: 2.1528E-09 | 10: delta_r/delta_0: 1.2497E-09 | 11: delta_s/delta_0: 1.1353E-09 | 12: delta_r/delta_0: 8.1821E-10 | 13: delta_s/delta_0: 1.5504E-10 | 14: delta_r/delta_0: 1.9349E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.030079047238136E-002 5.487587866418044E-005 | BP delta = -4.4082116E-02 4.8488505E-02 61511544.1130848 | BP delta = -4.6811633E-02 4.5758989E-02 61511544.1121232 | 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 = 0.42116988 | --> Sampling calibration, mode = relcal | relcal = 4.5532595E-02 3.9590646E-02 -2.8227076E-02 -5.6896165E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.3235404E-03 5.8025001E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 5.9947E-05 | 2: delta_r/delta_0: 3.9006E-06 | 3: delta_s/delta_0: 3.4722E-06 | 4: delta_r/delta_0: 5.7754E-07 | 5: delta_s/delta_0: 5.5713E-08 | 6: delta_r/delta_0: 3.4760E-08 | 7: delta_s/delta_0: 3.2240E-08 | 8: delta_r/delta_0: 1.3793E-08 | 9: delta_s/delta_0: 3.0724E-09 | 10: delta_r/delta_0: 1.0203E-09 | 11: delta_s/delta_0: 1.8809E-09 | 12: delta_r/delta_0: 1.0315E-09 | 13: delta_s/delta_0: 5.4821E-10 | 14: delta_r/delta_0: 2.7387E-10 | 15: delta_s/delta_0: 1.8462E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.368150584111765E-002 5.000564722511301E-005 | BP delta = -0.1187581 -0.1361815 61335544.6612042 | BP delta = -0.1261315 -0.1435549 61335544.6945227 | 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 = 0.28134089 | --> Sampling calibration, mode = relcal | relcal = 2.4137517E-02 4.5104157E-02 -2.3316154E-02 -4.5925524E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0451642E-02 4.3706982E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.0770E-04 | 2: delta_r/delta_0: 8.9511E-06 | 3: delta_s/delta_0: 1.5099E-06 | 4: delta_r/delta_0: 1.9554E-07 | 5: delta_s/delta_0: 7.0653E-08 | 6: delta_r/delta_0: 1.5176E-08 | 7: delta_s/delta_0: 6.5014E-09 | 8: delta_r/delta_0: 4.0935E-09 | 9: delta_s/delta_0: 2.1884E-08 | 10: delta_r/delta_0: 4.1075E-09 | 11: delta_s/delta_0: 1.1183E-09 | 12: delta_r/delta_0: 3.2445E-10 | 13: delta_s/delta_0: 3.9791E-10 | 14: delta_r/delta_0: 1.1931E-10 | 15: delta_s/delta_0: 8.3614E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -8.010177889928508E-003 7.851359823950067E-005 | BP delta = 7.9569690E-02 -4.0325698E-02 94962197.6645561 | BP delta = 4.5316011E-02 -7.4579373E-02 94962197.4191029 | 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 = 0.29364636 | --> Sampling calibration, mode = relcal | relcal = 5.7228666E-04 1.0289968E-02 -3.8041752E-03 -7.0580798E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.7298112E-02 1.7355105E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.3165E-04 | 2: delta_r/delta_0: 1.1254E-05 | 3: delta_s/delta_0: 1.7889E-06 | 4: delta_r/delta_0: 2.6922E-07 | 5: delta_s/delta_0: 1.0504E-07 | 6: delta_r/delta_0: 2.1437E-08 | 7: delta_s/delta_0: 9.3486E-09 | 8: delta_r/delta_0: 6.1898E-09 | 9: delta_s/delta_0: 6.0758E-09 | 10: delta_r/delta_0: 4.0944E-09 | 11: delta_s/delta_0: 3.7162E-06 | 12: delta_r/delta_0: 4.0477E-07 | 13: delta_s/delta_0: 4.0853E-10 | 14: delta_r/delta_0: 1.6097E-10 | 15: delta_s/delta_0: 9.3607E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.179207593289955E-003 8.314447068831684E-005 | BP delta = -0.7117941 -0.6798391 93509563.7700638 | BP delta = -0.7028832 -0.6709282 93509563.7806164 | 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 = 0.26480059 | --> Sampling calibration, mode = relcal | relcal = -5.6381118E-03 1.4959918E-02 -2.2937534E-03 -7.0280530E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -5.3958088E-04 3.4432020E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4295E-04 | 2: delta_r/delta_0: 1.2333E-05 | 3: delta_s/delta_0: 2.1031E-06 | 4: delta_r/delta_0: 2.7596E-07 | 5: delta_s/delta_0: 1.1085E-07 | 6: delta_r/delta_0: 2.0924E-08 | 7: delta_s/delta_0: 7.5522E-09 | 8: delta_r/delta_0: 4.6251E-09 | 9: delta_s/delta_0: 3.5729E-09 | 10: delta_r/delta_0: 2.0368E-09 | 11: delta_s/delta_0: 5.1828E-06 | 12: delta_r/delta_0: 1.0150E-08 | 13: delta_s/delta_0: 4.4263E-10 | 14: delta_r/delta_0: 2.9342E-10 | 15: delta_s/delta_0: 6.9263E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -7.556085966667174E-003 9.162719905902101E-005 | BP delta = 0.2262259 0.2359073 94712049.3337840 | BP delta = 0.2422809 0.2519623 94712049.3655275 | 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 = 0.25628927 | --> Sampling calibration, mode = relcal | relcal = -3.1693280E-02 -2.5959756E-02 3.6995679E-02 2.0657357E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.5465723E-02 2.1129606E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4715E-04 | 2: delta_r/delta_0: 1.2423E-05 | 3: delta_s/delta_0: 1.9880E-06 | 4: delta_r/delta_0: 3.4045E-07 | 5: delta_s/delta_0: 1.2878E-07 | 6: delta_r/delta_0: 2.7584E-08 | 7: delta_s/delta_0: 1.2722E-08 | 8: delta_r/delta_0: 7.4985E-09 | 9: delta_s/delta_0: 3.0538E-08 | 10: delta_r/delta_0: 5.3454E-09 | 11: delta_s/delta_0: 1.5923E-08 | 12: delta_r/delta_0: 8.8141E-09 | 13: delta_s/delta_0: 4.3260E-10 | 14: delta_r/delta_0: 3.1596E-10 | 15: delta_s/delta_0: 1.5586E-10 | 16: delta_r/delta_0: 1.3190E-10 | 17: delta_s/delta_0: 1.2169E-10 | 18: delta_r/delta_0: 9.5972E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.016432443208970E-002 8.684054015687041E-005 | BP delta = -0.5840952 -0.6608536 93058749.8872117 | BP delta = -0.6035370 -0.6802954 93058749.8794192 | 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 = -3.147806 | New value = -3.079408 | poltype: 2 pol: 1 CPU time specind = 1.3659000E-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 = -3.206037 | New value = -3.150039 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.146388 | New value = -3.159767 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.202024 | New value = -3.165117 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.141032 | New value = -3.172508 | poltype: 2 pol: 2 CPU time specind = 8.2206726E-04 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 4.10 | CG iter. 1 -- res = 0.13613E+08, tol = 0.72929E+01, time = 1.58 | CG iter. 2 -- res = 0.66775E+05, tol = 0.72929E+01, time = 1.53 | CG iter. 3 -- res = 0.92561E+05, tol = 0.72929E+01, time = 1.56 | CG iter. 4 -- res = 0.57715E+05, tol = 0.72929E+01, time = 1.57 | CG iter. 5 -- res = 0.71552E+05, tol = 0.72929E+01, time = 1.56 | CG iter. 6 -- res = 0.60783E+05, tol = 0.72929E+01, time = 1.53 | CG iter. 7 -- res = 0.49032E+05, tol = 0.72929E+01, time = 1.56 | CG iter. 8 -- res = 0.33303E+05, tol = 0.72929E+01, time = 1.54 | CG iter. 9 -- res = 0.28121E+05, tol = 0.72929E+01, time = 1.55 | CG iter. 10 -- res = 0.28689E+05, tol = 0.72929E+01, time = 1.58 | CG iter. 11 -- res = 0.17163E+05, tol = 0.72929E+01, time = 1.55 | CG iter. 12 -- res = 0.12017E+05, tol = 0.72929E+01, time = 1.59 | CG iter. 13 -- res = 0.11509E+05, tol = 0.72929E+01, time = 1.57 | CG iter. 14 -- res = 0.87737E+04, tol = 0.72929E+01, time = 1.56 | CG iter. 15 -- res = 0.59528E+04, tol = 0.72929E+01, time = 1.55 | CG iter. 16 -- res = 0.39970E+04, tol = 0.72929E+01, time = 1.58 | CG iter. 17 -- res = 0.31471E+04, tol = 0.72929E+01, time = 1.61 | CG iter. 18 -- res = 0.26742E+04, tol = 0.72929E+01, time = 1.59 | CG iter. 19 -- res = 0.20437E+04, tol = 0.72929E+01, time = 1.53 | CG iter. 20 -- res = 0.14431E+04, tol = 0.72929E+01, time = 1.57 | CG iter. 21 -- res = 0.11505E+04, tol = 0.72929E+01, time = 1.55 | CG iter. 22 -- res = 0.91891E+03, tol = 0.72929E+01, time = 1.54 | CG iter. 23 -- res = 0.63222E+03, tol = 0.72929E+01, time = 1.57 | CG iter. 24 -- res = 0.54967E+03, tol = 0.72929E+01, time = 1.52 | CG iter. 25 -- res = 0.50785E+03, tol = 0.72929E+01, time = 1.52 | CG iter. 26 -- res = 0.38873E+03, tol = 0.72929E+01, time = 1.49 | CG iter. 27 -- res = 0.30224E+03, tol = 0.72929E+01, time = 1.57 | CG iter. 28 -- res = 0.24401E+03, tol = 0.72929E+01, time = 1.53 | CG iter. 29 -- res = 0.20604E+03, tol = 0.72929E+01, time = 1.52 | CG iter. 30 -- res = 0.16399E+03, tol = 0.72929E+01, time = 1.55 | CG iter. 31 -- res = 0.12098E+03, tol = 0.72929E+01, time = 1.55 | CG iter. 32 -- res = 0.97299E+02, tol = 0.72929E+01, time = 1.55 | CG iter. 33 -- res = 0.81052E+02, tol = 0.72929E+01, time = 1.59 | CG iter. 34 -- res = 0.62036E+02, tol = 0.72929E+01, time = 1.58 | CG iter. 35 -- res = 0.46314E+02, tol = 0.72929E+01, time = 1.55 | CG iter. 36 -- res = 0.42075E+02, tol = 0.72929E+01, time = 1.51 | CG iter. 37 -- res = 0.33387E+02, tol = 0.72929E+01, time = 1.54 | CG iter. 38 -- res = 0.25463E+02, tol = 0.72929E+01, time = 1.54 | CG iter. 39 -- res = 0.28767E+02, tol = 0.72929E+01, time = 1.56 | CG iter. 40 -- res = 0.18749E+02, tol = 0.72929E+01, time = 1.54 | CG iter. 41 -- res = 0.12687E+02, tol = 0.72929E+01, time = 1.54 | CG iter. 42 -- res = 0.93722E+01, tol = 0.72929E+01, time = 1.56 | CG iter. 43 -- res = 0.11592E+02, tol = 0.72929E+01, time = 1.57 | CG iter. 44 -- res = 0.71452E+01, tol = 0.72929E+01, time = 1.60 | CG iter. 45 -- res = 0.46515E+01, tol = 0.72929E+01, time = 1.55 | CG iter. 46 -- res = 0.32529E+01, tol = 0.72929E+01, time = 1.59 | CG iter. 47 -- res = 0.22550E+01, tol = 0.72929E+01, time = 1.58 | CG iter. 48 -- res = 0.16275E+01, tol = 0.72929E+01, time = 1.54 | CG iter. 49 -- res = 0.10848E+01, tol = 0.72929E+01, time = 1.54 | CG iter. 50 -- res = 0.87270E+00, tol = 0.72929E+01, time = 1.59 | Final CG iter 51 -- res = 0.87270E+00, tol = 0.72929E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 10194639.232 | Old band monopole 9563036.022 | Change to band monopole 631603.210 | Change to component monopole -631600.494 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 4.10 | CG iter. 1 -- res = 0.10920E+06, tol = 0.47627E+18, time = 0.41 | CG iter. 2 -- res = 0.52844E+02, tol = 0.47627E+18, time = 0.39 | CG iter. 3 -- res = 0.14940E+01, tol = 0.47627E+18, time = 0.39 | CG iter. 4 -- res = 0.64579E-03, tol = 0.47627E+18, time = 0.38 | Final CG iter 5 -- res = 0.24195E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10194595.383 | (Sampled value in CG: 10247121.016 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.487779 | New value = 1.466903 | poltype: 2 pol: 1 CPU time specind = 3.4198761E-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 = 1.490964 | New value = 1.567843 | poltype: 2 pol: 2 CPU time specind = 1.0001659E-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 = 4.12 | CG iter. 1 -- res = 0.24137E+08, tol = 0.47544E+04, time = 1.76 | CG iter. 2 -- res = 0.54996E+07, tol = 0.47544E+04, time = 1.77 | CG iter. 3 -- res = 0.85399E+06, tol = 0.47544E+04, time = 1.81 | CG iter. 4 -- res = 0.34853E+06, tol = 0.47544E+04, time = 1.76 | CG iter. 5 -- res = 0.15181E+06, tol = 0.47544E+04, time = 1.79 | CG iter. 6 -- res = 0.79075E+05, tol = 0.47544E+04, time = 1.86 | CG iter. 7 -- res = 0.42929E+05, tol = 0.47544E+04, time = 1.82 | CG iter. 8 -- res = 0.20908E+05, tol = 0.47544E+04, time = 1.73 | CG iter. 9 -- res = 0.91498E+04, tol = 0.47544E+04, time = 1.76 | CG iter. 10 -- res = 0.37123E+04, tol = 0.47544E+04, time = 1.75 | CG iter. 11 -- res = 0.16718E+04, tol = 0.47544E+04, time = 1.84 | CG iter. 12 -- res = 0.85624E+03, tol = 0.47544E+04, time = 1.81 | CG iter. 13 -- res = 0.48609E+03, tol = 0.47544E+04, time = 1.83 | CG iter. 14 -- res = 0.27453E+03, tol = 0.47544E+04, time = 1.75 | CG iter. 15 -- res = 0.14328E+03, tol = 0.47544E+04, time = 1.80 | CG iter. 16 -- res = 0.67308E+02, tol = 0.47544E+04, time = 1.86 | CG iter. 17 -- res = 0.31593E+02, tol = 0.47544E+04, time = 1.85 | CG iter. 18 -- res = 0.15600E+02, tol = 0.47544E+04, time = 1.81 | CG iter. 19 -- res = 0.83095E+01, tol = 0.47544E+04, time = 1.76 | CG iter. 20 -- res = 0.47103E+01, tol = 0.47544E+04, time = 1.80 | CG iter. 21 -- res = 0.26263E+01, tol = 0.47544E+04, time = 1.77 | CG iter. 22 -- res = 0.13748E+01, tol = 0.47544E+04, time = 1.79 | CG iter. 23 -- res = 0.69024E+00, tol = 0.47544E+04, time = 1.75 | CG iter. 24 -- res = 0.33991E+00, tol = 0.47544E+04, time = 1.83 | CG iter. 25 -- res = 0.18411E+00, tol = 0.47544E+04, time = 1.78 | CG iter. 26 -- res = 0.10583E+00, tol = 0.47544E+04, time = 1.85 | CG iter. 27 -- res = 0.61830E-01, tol = 0.47544E+04, time = 1.78 | CG iter. 28 -- res = 0.33552E-01, tol = 0.47544E+04, time = 1.83 | CG iter. 29 -- res = 0.17037E-01, tol = 0.47544E+04, time = 1.83 | CG iter. 30 -- res = 0.85831E-02, tol = 0.47544E+04, time = 1.81 | CG iter. 31 -- res = 0.46393E-02, tol = 0.47544E+04, time = 1.85 | CG iter. 32 -- res = 0.26217E-02, tol = 0.47544E+04, time = 1.79 | CG iter. 33 -- res = 0.14930E-02, tol = 0.47544E+04, time = 1.78 | CG iter. 34 -- res = 0.81765E-03, tol = 0.47544E+04, time = 1.84 | CG iter. 35 -- res = 0.42882E-03, tol = 0.47544E+04, time = 1.80 | Final CG iter 36 -- res = 0.42882E-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) 0.968 2.734 | New value 1.858 | Old value 0.968 | Difference 0.891 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 4.11 | CG iter. 1 -- res = 0.43582E+05, tol = 0.47627E+18, time = 0.37 | CG iter. 2 -- res = 0.41563E+02, tol = 0.47627E+18, time = 0.37 | CG iter. 3 -- res = 0.12246E+01, tol = 0.47627E+18, time = 0.39 | CG iter. 4 -- res = 0.77456E-04, tol = 0.47627E+18, time = 0.44 | Final CG iter 5 -- res = 0.79827E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10194595.383 | (Sampled value in CG: 10246760.975 ) | 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 = -3.679819 | New value = -3.620962 | poltype: 1 pol: 1 CPU time specind = 1.5399456E-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 = 4.10 | CG iter. 1 -- res = 0.28676E+07, tol = 0.12171E+01, time = 0.71 | CG iter. 2 -- res = 0.10505E+06, tol = 0.12171E+01, time = 0.71 | CG iter. 3 -- res = 0.10502E+06, tol = 0.12171E+01, time = 0.66 | CG iter. 4 -- res = 0.18293E+05, tol = 0.12171E+01, time = 0.70 | CG iter. 5 -- res = 0.56906E+04, tol = 0.12171E+01, time = 0.62 | CG iter. 6 -- res = 0.22292E+04, tol = 0.12171E+01, time = 0.66 | CG iter. 7 -- res = 0.79671E+03, tol = 0.12171E+01, time = 0.69 | CG iter. 8 -- res = 0.40017E+03, tol = 0.12171E+01, time = 0.69 | CG iter. 9 -- res = 0.10885E+03, tol = 0.12171E+01, time = 0.64 | CG iter. 10 -- res = 0.34170E+02, tol = 0.12171E+01, time = 0.70 | CG iter. 11 -- res = 0.14547E+02, tol = 0.12171E+01, time = 0.66 | CG iter. 12 -- res = 0.61150E+01, tol = 0.12171E+01, time = 0.63 | CG iter. 13 -- res = 0.19773E+01, tol = 0.12171E+01, time = 0.68 | CG iter. 14 -- res = 0.71001E+00, tol = 0.12171E+01, time = 0.68 | CG iter. 15 -- res = 0.30068E+00, tol = 0.12171E+01, time = 0.69 | CG iter. 16 -- res = 0.81258E-01, tol = 0.12171E+01, time = 0.66 | CG iter. 17 -- res = 0.28066E-01, tol = 0.12171E+01, time = 0.64 | CG iter. 18 -- res = 0.13180E-01, tol = 0.12171E+01, time = 0.63 | CG iter. 19 -- res = 0.51642E-02, tol = 0.12171E+01, time = 0.60 | CG iter. 20 -- res = 0.19235E-02, tol = 0.12171E+01, time = 0.68 | CG iter. 21 -- res = 0.55899E-03, tol = 0.12171E+01, time = 0.63 | CG iter. 22 -- res = 0.18591E-03, tol = 0.12171E+01, time = 0.66 | CG iter. 23 -- res = 0.69256E-04, tol = 0.12171E+01, time = 0.68 | CG iter. 24 -- res = 0.25518E-04, tol = 0.12171E+01, time = 0.65 | CG iter. 25 -- res = 0.71532E-05, tol = 0.12171E+01, time = 0.66 | CG iter. 26 -- res = 0.23521E-05, tol = 0.12171E+01, time = 0.63 | CG iter. 27 -- res = 0.98306E-06, tol = 0.12171E+01, time = 0.69 | CG iter. 28 -- res = 0.31832E-06, tol = 0.12171E+01, time = 0.64 | CG iter. 29 -- res = 0.10023E-06, tol = 0.12171E+01, time = 0.65 | CG iter. 30 -- res = 0.30145E-07, tol = 0.12171E+01, time = 0.62 | CG iter. 31 -- res = 0.98171E-08, tol = 0.12171E+01, time = 0.69 | CG iter. 32 -- res = 0.38994E-08, tol = 0.12171E+01, time = 0.67 | CG iter. 33 -- res = 0.33706E-08, tol = 0.12171E+01, time = 0.67 | CG iter. 34 -- res = 0.78605E-09, tol = 0.12171E+01, time = 0.68 | CG iter. 35 -- res = 0.24276E-09, tol = 0.12171E+01, time = 0.65 | CG iter. 36 -- res = 0.12002E-09, tol = 0.12171E+01, time = 0.66 | CG iter. 37 -- res = 0.82934E-10, tol = 0.12171E+01, time = 0.71 | CG iter. 38 -- res = 0.22595E-10, tol = 0.12171E+01, time = 0.77 | CG iter. 39 -- res = 0.63360E-11, tol = 0.12171E+01, time = 0.74 | CG iter. 40 -- res = 0.17048E-11, tol = 0.12171E+01, time = 0.73 | CG iter. 41 -- res = 0.51945E-12, tol = 0.12171E+01, time = 0.68 | CG iter. 42 -- res = 0.17707E-12, tol = 0.12171E+01, time = 0.70 | CG iter. 43 -- res = 0.55294E-13, tol = 0.12171E+01, time = 0.66 | CG iter. 44 -- res = 0.17223E-13, tol = 0.12171E+01, time = 0.63 | CG iter. 45 -- res = 0.65589E-14, tol = 0.12171E+01, time = 0.65 | CG iter. 46 -- res = 0.21160E-14, tol = 0.12171E+01, time = 0.66 | CG iter. 47 -- res = 0.65592E-15, tol = 0.12171E+01, time = 0.63 | CG iter. 48 -- res = 0.18885E-15, tol = 0.12171E+01, time = 0.64 | CG iter. 49 -- res = 0.57197E-16, tol = 0.12171E+01, time = 0.63 | CG iter. 50 -- res = 0.18280E-16, tol = 0.12171E+01, time = 0.64 | Final CG iter 51 -- res = 0.18280E-16, tol = 0.12171E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 4.318 2.251 | New value -3.325 | Old value 4.318 | Difference -7.643 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 4.10 | CG iter. 1 -- res = 0.40413E+05, tol = 0.47627E+18, time = 0.36 | CG iter. 2 -- res = 0.40008E+02, tol = 0.47627E+18, time = 0.36 | CG iter. 3 -- res = 0.12440E+01, tol = 0.47627E+18, time = 0.38 | Final CG iter 4 -- res = 0.24652E-04, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10194595.383 | (Sampled value in CG: 10234891.530 ) | CPU time specind = 279.5560 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 4.12 | CG iter. 1 -- res = 0.70121E+08, tol = 0.51496E+04, time = 3.11 | CG iter. 2 -- res = 0.32904E+08, tol = 0.51496E+04, time = 3.11 | CG iter. 3 -- res = 0.58795E+07, tol = 0.51496E+04, time = 3.15 | CG iter. 4 -- res = 0.31583E+07, tol = 0.51496E+04, time = 3.09 | CG iter. 5 -- res = 0.14408E+07, tol = 0.51496E+04, time = 3.05 | CG iter. 6 -- res = 0.75908E+06, tol = 0.51496E+04, time = 3.08 | CG iter. 7 -- res = 0.40074E+06, tol = 0.51496E+04, time = 3.13 | CG iter. 8 -- res = 0.21103E+06, tol = 0.51496E+04, time = 3.10 | CG iter. 9 -- res = 0.11830E+06, tol = 0.51496E+04, time = 3.10 | CG iter. 10 -- res = 0.62617E+05, tol = 0.51496E+04, time = 3.10 | CG iter. 11 -- res = 0.37320E+05, tol = 0.51496E+04, time = 3.05 | CG iter. 12 -- res = 0.25524E+05, tol = 0.51496E+04, time = 3.11 | CG iter. 13 -- res = 0.21035E+05, tol = 0.51496E+04, time = 3.11 | CG iter. 14 -- res = 0.21066E+05, tol = 0.51496E+04, time = 3.12 | CG iter. 15 -- res = 0.20524E+05, tol = 0.51496E+04, time = 3.18 | CG iter. 16 -- res = 0.19010E+05, tol = 0.51496E+04, time = 3.14 | CG iter. 17 -- res = 0.16344E+05, tol = 0.51496E+04, time = 3.16 | CG iter. 18 -- res = 0.15009E+05, tol = 0.51496E+04, time = 3.18 | CG iter. 19 -- res = 0.14691E+05, tol = 0.51496E+04, time = 3.10 | CG iter. 20 -- res = 0.13383E+05, tol = 0.51496E+04, time = 3.04 | CG iter. 21 -- res = 0.10043E+05, tol = 0.51496E+04, time = 3.14 | CG iter. 22 -- res = 0.64190E+04, tol = 0.51496E+04, time = 3.12 | CG iter. 23 -- res = 0.44591E+04, tol = 0.51496E+04, time = 3.14 | CG iter. 24 -- res = 0.38147E+04, tol = 0.51496E+04, time = 3.14 | CG iter. 25 -- res = 0.37390E+04, tol = 0.51496E+04, time = 3.14 | CG iter. 26 -- res = 0.34713E+04, tol = 0.51496E+04, time = 3.18 | CG iter. 27 -- res = 0.27754E+04, tol = 0.51496E+04, time = 3.14 | CG iter. 28 -- res = 0.22230E+04, tol = 0.51496E+04, time = 3.25 | CG iter. 29 -- res = 0.20794E+04, tol = 0.51496E+04, time = 3.23 | CG iter. 30 -- res = 0.21373E+04, tol = 0.51496E+04, time = 3.19 | CG iter. 31 -- res = 0.20050E+04, tol = 0.51496E+04, time = 3.14 | CG iter. 32 -- res = 0.15734E+04, tol = 0.51496E+04, time = 3.12 | CG iter. 33 -- res = 0.11572E+04, tol = 0.51496E+04, time = 3.04 | CG iter. 34 -- res = 0.95625E+03, tol = 0.51496E+04, time = 3.18 | CG iter. 35 -- res = 0.93126E+03, tol = 0.51496E+04, time = 3.20 | CG iter. 36 -- res = 0.94764E+03, tol = 0.51496E+04, time = 3.14 | CG iter. 37 -- res = 0.88589E+03, tol = 0.51496E+04, time = 3.15 | CG iter. 38 -- res = 0.76735E+03, tol = 0.51496E+04, time = 3.12 | CG iter. 39 -- res = 0.69370E+03, tol = 0.51496E+04, time = 3.20 | CG iter. 40 -- res = 0.69012E+03, tol = 0.51496E+04, time = 3.17 | CG iter. 41 -- res = 0.70804E+03, tol = 0.51496E+04, time = 3.18 | CG iter. 42 -- res = 0.68075E+03, tol = 0.51496E+04, time = 3.08 | CG iter. 43 -- res = 0.60858E+03, tol = 0.51496E+04, time = 3.15 | CG iter. 44 -- res = 0.55146E+03, tol = 0.51496E+04, time = 3.16 | CG iter. 45 -- res = 0.53878E+03, tol = 0.51496E+04, time = 3.13 | CG iter. 46 -- res = 0.54505E+03, tol = 0.51496E+04, time = 3.19 | CG iter. 47 -- res = 0.54869E+03, tol = 0.51496E+04, time = 3.10 | CG iter. 48 -- res = 0.54079E+03, tol = 0.51496E+04, time = 3.19 | CG iter. 49 -- res = 0.53167E+03, tol = 0.51496E+04, time = 3.20 | CG iter. 50 -- res = 0.53083E+03, tol = 0.51496E+04, time = 3.19 | CG iter. 51 -- res = 0.53241E+03, tol = 0.51496E+04, time = 3.11 | CG iter. 52 -- res = 0.53446E+03, tol = 0.51496E+04, time = 3.20 | CG iter. 53 -- res = 0.52669E+03, tol = 0.51496E+04, time = 3.13 | CG iter. 54 -- res = 0.52430E+03, tol = 0.51496E+04, time = 3.09 | CG iter. 55 -- res = 0.51266E+03, tol = 0.51496E+04, time = 3.19 | CG iter. 56 -- res = 0.49254E+03, tol = 0.51496E+04, time = 3.18 | CG iter. 57 -- res = 0.48350E+03, tol = 0.51496E+04, time = 3.09 | CG iter. 58 -- res = 0.49633E+03, tol = 0.51496E+04, time = 3.22 | CG iter. 59 -- res = 0.51768E+03, tol = 0.51496E+04, time = 3.18 | CG iter. 60 -- res = 0.51379E+03, tol = 0.51496E+04, time = 3.08 | Final CG iter 61 -- res = 0.51379E+03, tol = 0.51496E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 2.429 ( -230.411 -2233.504 2515.669 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8977102.316 | Old band monopole 10194639.232 | Change to band monopole -1217536.916 | Change to component monopole 1217531.679 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 1.853 2.735 | New value -6.092 | Old value 1.853 | Difference -7.945 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -3.732 ( 6.916 10.776 -11.734 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 6.210 2.264 | New value 3.999 | Old value 6.210 | Difference -2.210 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 4.12 | CG iter. 1 -- res = 0.33935E+07, tol = 0.47627E+18, time = 0.40 | CG iter. 2 -- res = 0.70058E+02, tol = 0.47627E+18, time = 0.39 | CG iter. 3 -- res = 0.20446E+01, tol = 0.47627E+18, time = 0.35 | CG iter. 4 -- res = 0.13625E-01, tol = 0.47627E+18, time = 0.35 | Final CG iter 5 -- res = 0.16563E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8977063.704 | (Sampled value in CG: 8917437.607 ) | Chain = 1 -- chisq = 0.62037630E+09 | Chain = 1 -- wall time = 4134.930 sec --------------------------------------------------------------------- | Chain = 1 -- Iteration = 52 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18195308865638 | --> Sampling calibration, mode = relcal | relcal = -7.4857563E-02 -5.8562864E-02 9.1754608E-02 4.1665819E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.7336436E-04 4.6523721E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.1198E-05 | 2: delta_r/delta_0: 8.1304E-07 | 3: delta_s/delta_0: 3.4020E-07 | 4: delta_r/delta_0: 2.7104E-08 | 5: delta_s/delta_0: 2.3012E-08 | 6: delta_r/delta_0: 1.3526E-09 | 7: delta_s/delta_0: 2.3258E-10 | 8: delta_r/delta_0: 9.6947E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.047322587296303E-003 2.738890727659577E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.1199E-05 | 2: delta_r/delta_0: 8.1314E-07 | 3: delta_s/delta_0: 3.4015E-07 | 4: delta_r/delta_0: 2.7089E-08 | 5: delta_s/delta_0: 2.3014E-08 | 6: delta_r/delta_0: 1.3522E-09 | 7: delta_s/delta_0: 2.3264E-10 | 8: delta_r/delta_0: 9.6903E-11 | Reached bicg-stab tolerance | BP delta = 6.1351643E-03 1.2406162E-02 3790572.43038680 | BP delta = 6.1351643E-03 1.2290494E-02 3799410.89286712 | 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 = 1.02542447 | --> Sampling calibration, mode = relcal | relcal = -0.1065591 -9.5494315E-02 0.1448410 5.7212483E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.6096601E-03 1.3770971E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.0932E-02 | 2: delta_r/delta_0: 1.3366E-03 | 3: delta_s/delta_0: 5.3496E-05 | 4: delta_r/delta_0: 4.1256E-06 | 5: delta_s/delta_0: 1.5375E-06 | 6: delta_r/delta_0: 1.2081E-07 | 7: delta_s/delta_0: 1.1368E-06 | 8: delta_r/delta_0: 7.4174E-08 | 9: delta_s/delta_0: 2.2314E-08 | 10: delta_r/delta_0: 3.8709E-09 | 11: delta_s/delta_0: 3.2971E-09 | 12: delta_r/delta_0: 1.1944E-09 | 13: delta_s/delta_0: 7.6696E-10 | 14: delta_r/delta_0: 2.6491E-10 | 15: delta_s/delta_0: 3.2130E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.493058215087624E-002 2.812359861205583E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 6.0928E-02 | 2: delta_r/delta_0: 1.3365E-03 | 3: delta_s/delta_0: 5.3499E-05 | 4: delta_r/delta_0: 4.1259E-06 | 5: delta_s/delta_0: 1.5375E-06 | 6: delta_r/delta_0: 1.2080E-07 | 7: delta_s/delta_0: 1.1367E-06 | 8: delta_r/delta_0: 7.4181E-08 | 9: delta_s/delta_0: 2.2314E-08 | 10: delta_r/delta_0: 3.8710E-09 | 11: delta_s/delta_0: 3.2972E-09 | 12: delta_r/delta_0: 1.1944E-09 | 13: delta_s/delta_0: 7.6700E-10 | 14: delta_r/delta_0: 2.6489E-10 | 15: delta_s/delta_0: 3.2129E-11 | Reached bicg-stab tolerance | BP delta = -0.1895415 -0.1804468 2841835.53507775 | BP delta = -0.1895415 -0.1758665 2841792.97814327 | BP chisq diff = -42.6, accept = T | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81164351 | --> Sampling calibration, mode = relcal | relcal = 0.2951681 0.2246916 -0.2835271 -0.2363326 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 4.3149936E-04 5.2000168E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.5999E-03 | 2: delta_r/delta_0: 3.6881E-05 | 3: delta_s/delta_0: 3.2525E-06 | 4: delta_r/delta_0: 5.5972E-07 | 5: delta_s/delta_0: 4.8238E-06 | 6: delta_r/delta_0: 2.6293E-07 | 7: delta_s/delta_0: 5.5310E-08 | 8: delta_r/delta_0: 3.4124E-08 | 9: delta_s/delta_0: 1.0353E-06 | 10: delta_r/delta_0: 8.0923E-09 | 11: delta_s/delta_0: 1.0769E-09 | 12: delta_r/delta_0: 6.2943E-10 | 13: delta_s/delta_0: 2.8176E-10 | 14: delta_r/delta_0: 7.9203E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.887243555903409E-002 4.024479290512850E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.6001E-03 | 2: delta_r/delta_0: 3.6884E-05 | 3: delta_s/delta_0: 3.2526E-06 | 4: delta_r/delta_0: 5.5971E-07 | 5: delta_s/delta_0: 4.8256E-06 | 6: delta_r/delta_0: 2.6292E-07 | 7: delta_s/delta_0: 5.5306E-08 | 8: delta_r/delta_0: 3.4122E-08 | 9: delta_s/delta_0: 1.0350E-06 | 10: delta_r/delta_0: 8.0911E-09 | 11: delta_s/delta_0: 1.0766E-09 | 12: delta_r/delta_0: 6.2940E-10 | 13: delta_s/delta_0: 2.8173E-10 | 14: delta_r/delta_0: 7.9242E-11 | Reached bicg-stab tolerance | BP delta = -8.7840423E-02 -0.1259544 2827304.08799560 | BP delta = -8.7840423E-02 -0.1194487 2827301.50693905 | BP chisq diff = -2.6, accept = T | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95842238 | --> Sampling calibration, mode = relcal | relcal = 0.1064894 0.1394902 -0.1101450 -0.1358346 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0104708E-02 1.2045364E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 4.2278E-04 | 2: delta_r/delta_0: 9.6216E-06 | 3: delta_s/delta_0: 1.3847E-05 | 4: delta_r/delta_0: 4.0454E-07 | 5: delta_s/delta_0: 9.6758E-07 | 6: delta_r/delta_0: 1.3805E-07 | 7: delta_s/delta_0: 5.3488E-08 | 8: delta_r/delta_0: 2.9985E-08 | 9: delta_s/delta_0: 7.5624E-07 | 10: delta_r/delta_0: 1.2471E-08 | 11: delta_s/delta_0: 5.4948E-09 | 12: delta_r/delta_0: 5.1309E-10 | 13: delta_s/delta_0: 2.3464E-09 | 14: delta_r/delta_0: 8.6638E-10 | 15: delta_s/delta_0: 3.1123E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.460133348501315E-002 3.700127541655310E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 4.2269E-04 | 2: delta_r/delta_0: 9.6196E-06 | 3: delta_s/delta_0: 1.3854E-05 | 4: delta_r/delta_0: 4.0482E-07 | 5: delta_s/delta_0: 9.6749E-07 | 6: delta_r/delta_0: 1.3806E-07 | 7: delta_s/delta_0: 5.3491E-08 | 8: delta_r/delta_0: 2.9986E-08 | 9: delta_s/delta_0: 7.5641E-07 | 10: delta_r/delta_0: 1.2472E-08 | 11: delta_s/delta_0: 5.4984E-09 | 12: delta_r/delta_0: 5.1316E-10 | 13: delta_s/delta_0: 2.3417E-09 | 14: delta_r/delta_0: 8.6451E-10 | 15: delta_s/delta_0: 3.1123E-11 | Reached bicg-stab tolerance | BP delta = 0.2828520 0.3129964 3005154.67246433 | BP delta = 0.2828520 0.3129535 3005175.32109467 | 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 = 0.52115637 | --> Sampling calibration, mode = relcal | relcal = -5.1050358E-02 -3.5620353E-03 2.7142901E-02 2.7469492E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -1.2801986E-03 2.1907270E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 7.2696E-05 | 2: delta_r/delta_0: 4.0204E-06 | 3: delta_s/delta_0: 2.1896E-06 | 4: delta_r/delta_0: 2.4774E-07 | 5: delta_s/delta_0: 5.1600E-08 | 6: delta_r/delta_0: 2.4364E-08 | 7: delta_s/delta_0: 4.5498E-06 | 8: delta_r/delta_0: 4.0683E-07 | 9: delta_s/delta_0: 3.2535E-09 | 10: delta_r/delta_0: 1.4083E-09 | 11: delta_s/delta_0: 1.0267E-08 | 12: delta_r/delta_0: 9.9734E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.019851841918346E-002 5.487595996120651E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 7.2696E-05 | 2: delta_r/delta_0: 4.0205E-06 | 3: delta_s/delta_0: 2.1896E-06 | 4: delta_r/delta_0: 2.4774E-07 | 5: delta_s/delta_0: 5.1604E-08 | 6: delta_r/delta_0: 2.4365E-08 | 7: delta_s/delta_0: 4.5555E-06 | 8: delta_r/delta_0: 4.0727E-07 | 9: delta_s/delta_0: 3.2536E-09 | 10: delta_r/delta_0: 1.4084E-09 | 11: delta_s/delta_0: 1.0259E-08 | 12: delta_r/delta_0: 9.9784E-11 | Reached bicg-stab tolerance | BP delta = -4.6811633E-02 4.5758989E-02 2436042.49887094 | BP delta = -4.6811633E-02 4.3536477E-02 2436047.77752583 | 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 = 0.42118737 | --> Sampling calibration, mode = relcal | relcal = 4.5514576E-02 3.9608475E-02 -2.8246559E-02 -5.6876495E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.8316025E-03 4.7073229E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.6394E-05 | 2: delta_r/delta_0: 3.4198E-06 | 3: delta_s/delta_0: 1.9560E-06 | 4: delta_r/delta_0: 2.5035E-07 | 5: delta_s/delta_0: 5.9717E-08 | 6: delta_r/delta_0: 3.2274E-08 | 7: delta_s/delta_0: 4.2873E-08 | 8: delta_r/delta_0: 9.7642E-09 | 9: delta_s/delta_0: 2.6177E-09 | 10: delta_r/delta_0: 1.8325E-09 | 11: delta_s/delta_0: 7.3112E-09 | 12: delta_r/delta_0: 9.8677E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.328911325602911E-002 5.000354664540748E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 6.6394E-05 | 2: delta_r/delta_0: 3.4198E-06 | 3: delta_s/delta_0: 1.9560E-06 | 4: delta_r/delta_0: 2.5035E-07 | 5: delta_s/delta_0: 5.9717E-08 | 6: delta_r/delta_0: 3.2274E-08 | 7: delta_s/delta_0: 4.2873E-08 | 8: delta_r/delta_0: 9.7642E-09 | 9: delta_s/delta_0: 2.6177E-09 | 10: delta_r/delta_0: 1.8325E-09 | 11: delta_s/delta_0: 7.3114E-09 | 12: delta_r/delta_0: 9.8672E-11 | Reached bicg-stab tolerance | BP delta = -0.1261315 -0.1435549 2322289.39494754 | BP delta = -0.1261315 -0.1306086 2322291.49453180 | BP chisq diff = 2.1, accept = T | | Finished processing 060-WMAP_V2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.28134727 | --> Sampling calibration, mode = relcal | relcal = 2.4105344E-02 4.5128591E-02 -2.3321908E-02 -4.5912027E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.1001582E-02 1.8774894E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.0978E-04 | 2: delta_r/delta_0: 9.0024E-06 | 3: delta_s/delta_0: 1.4926E-06 | 4: delta_r/delta_0: 1.8999E-07 | 5: delta_s/delta_0: 6.1600E-08 | 6: delta_r/delta_0: 1.5910E-08 | 7: delta_s/delta_0: 7.4765E-09 | 8: delta_r/delta_0: 4.7282E-09 | 9: delta_s/delta_0: 3.3504E-08 | 10: delta_r/delta_0: 4.3312E-09 | 11: delta_s/delta_0: 1.2586E-09 | 12: delta_r/delta_0: 4.9217E-10 | 13: delta_s/delta_0: 4.7491E-10 | 14: delta_r/delta_0: 2.5342E-10 | 15: delta_s/delta_0: 5.3231E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -8.755390837703778E-003 7.851085898332935E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.0978E-04 | 2: delta_r/delta_0: 9.0023E-06 | 3: delta_s/delta_0: 1.4926E-06 | 4: delta_r/delta_0: 1.8998E-07 | 5: delta_s/delta_0: 6.1599E-08 | 6: delta_r/delta_0: 1.5909E-08 | 7: delta_s/delta_0: 7.4764E-09 | 8: delta_r/delta_0: 4.7282E-09 | 9: delta_s/delta_0: 3.3504E-08 | 10: delta_r/delta_0: 4.3311E-09 | 11: delta_s/delta_0: 1.2586E-09 | 12: delta_r/delta_0: 4.9220E-10 | 13: delta_s/delta_0: 4.7494E-10 | 14: delta_r/delta_0: 2.5345E-10 | 15: delta_s/delta_0: 5.3231E-11 | Reached bicg-stab tolerance | BP delta = 4.5316011E-02 -7.4579373E-02 2490237.49789283 | BP delta = 4.5316011E-02 -7.7542000E-02 2490243.51146411 | 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 = 0.29368346 | --> Sampling calibration, mode = relcal | relcal = 5.7219213E-04 1.0253079E-02 -3.7224593E-03 -7.1028122E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.7267453E-02 1.5504651E-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: 1.1125E-05 | 3: delta_s/delta_0: 1.7903E-06 | 4: delta_r/delta_0: 3.1101E-07 | 5: delta_s/delta_0: 1.0701E-07 | 6: delta_r/delta_0: 2.3856E-08 | 7: delta_s/delta_0: 1.0623E-08 | 8: delta_r/delta_0: 7.0717E-09 | 9: delta_s/delta_0: 8.5233E-09 | 10: delta_r/delta_0: 5.0567E-09 | 11: delta_s/delta_0: 1.1232E-06 | 12: delta_r/delta_0: 3.1035E-07 | 13: delta_s/delta_0: 4.5695E-10 | 14: delta_r/delta_0: 1.8755E-10 | 15: delta_s/delta_0: 1.0051E-10 | 16: delta_r/delta_0: 8.5697E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.228640981606589E-003 8.313494118584597E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.3175E-04 | 2: delta_r/delta_0: 1.1125E-05 | 3: delta_s/delta_0: 1.7903E-06 | 4: delta_r/delta_0: 3.1101E-07 | 5: delta_s/delta_0: 1.0701E-07 | 6: delta_r/delta_0: 2.3856E-08 | 7: delta_s/delta_0: 1.0623E-08 | 8: delta_r/delta_0: 7.0718E-09 | 9: delta_s/delta_0: 8.5235E-09 | 10: delta_r/delta_0: 5.0567E-09 | 11: delta_s/delta_0: 1.1239E-06 | 12: delta_r/delta_0: 3.1057E-07 | 13: delta_s/delta_0: 4.5697E-10 | 14: delta_r/delta_0: 1.8756E-10 | 15: delta_s/delta_0: 1.0051E-10 | 16: delta_r/delta_0: 8.5697E-11 | Reached bicg-stab tolerance | BP delta = -0.7028832 -0.6709282 2737961.56125854 | BP delta = -0.7028832 -0.6690664 2737964.62752396 | 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 = 0.26483591 | --> Sampling calibration, mode = relcal | relcal = -5.6205876E-03 1.4993388E-02 -2.3670064E-03 -7.0057940E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -1.1062491E-03 5.6986394E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4382E-04 | 2: delta_r/delta_0: 1.1880E-05 | 3: delta_s/delta_0: 2.0149E-06 | 4: delta_r/delta_0: 2.3289E-07 | 5: delta_s/delta_0: 8.3941E-08 | 6: delta_r/delta_0: 1.8755E-08 | 7: delta_s/delta_0: 8.9623E-09 | 8: delta_r/delta_0: 5.5944E-09 | 9: delta_s/delta_0: 3.0094E-08 | 10: delta_r/delta_0: 8.2460E-09 | 11: delta_s/delta_0: 9.4359E-08 | 12: delta_r/delta_0: 5.7373E-08 | 13: delta_s/delta_0: 4.9838E-10 | 14: delta_r/delta_0: 3.1990E-10 | 15: delta_s/delta_0: 9.6873E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -7.746363489408671E-003 9.161357382649381E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.4382E-04 | 2: delta_r/delta_0: 1.1880E-05 | 3: delta_s/delta_0: 2.0148E-06 | 4: delta_r/delta_0: 2.3285E-07 | 5: delta_s/delta_0: 8.3958E-08 | 6: delta_r/delta_0: 1.8753E-08 | 7: delta_s/delta_0: 8.9617E-09 | 8: delta_r/delta_0: 5.5939E-09 | 9: delta_s/delta_0: 3.0080E-08 | 10: delta_r/delta_0: 8.2448E-09 | 11: delta_s/delta_0: 9.4467E-08 | 12: delta_r/delta_0: 5.7440E-08 | 13: delta_s/delta_0: 4.9833E-10 | 14: delta_r/delta_0: 3.1987E-10 | 15: delta_s/delta_0: 9.6869E-11 | Reached bicg-stab tolerance | BP delta = 0.2422809 0.2519623 2516594.22214324 | BP delta = 0.2422809 0.2658228 2516593.42037149 | 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 = 0.25635180 | --> Sampling calibration, mode = relcal | relcal = -3.1660903E-02 -2.5950013E-02 3.6892205E-02 2.0718710E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.3529703E-02 1.7206732E-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: 1.2332E-05 | 3: delta_s/delta_0: 2.0072E-06 | 4: delta_r/delta_0: 4.0155E-07 | 5: delta_s/delta_0: 1.4779E-07 | 6: delta_r/delta_0: 2.7661E-08 | 7: delta_s/delta_0: 1.1520E-08 | 8: delta_r/delta_0: 6.4461E-09 | 9: delta_s/delta_0: 1.8551E-08 | 10: delta_r/delta_0: 4.5174E-09 | 11: delta_s/delta_0: 9.7183E-09 | 12: delta_r/delta_0: 3.7213E-09 | 13: delta_s/delta_0: 1.7015E-08 | 14: delta_r/delta_0: 9.2469E-09 | 15: delta_s/delta_0: 1.2234E-10 | 16: delta_r/delta_0: 6.5484E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -8.549910733580303E-003 8.681660467580539E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.4441E-04 | 2: delta_r/delta_0: 1.2332E-05 | 3: delta_s/delta_0: 2.0073E-06 | 4: delta_r/delta_0: 4.0156E-07 | 5: delta_s/delta_0: 1.4780E-07 | 6: delta_r/delta_0: 2.7661E-08 | 7: delta_s/delta_0: 1.1520E-08 | 8: delta_r/delta_0: 6.4463E-09 | 9: delta_s/delta_0: 1.8552E-08 | 10: delta_r/delta_0: 4.5175E-09 | 11: delta_s/delta_0: 9.7165E-09 | 12: delta_r/delta_0: 3.7204E-09 | 13: delta_s/delta_0: 1.7155E-08 | 14: delta_r/delta_0: 9.3266E-09 | 15: delta_s/delta_0: 1.2234E-10 | 16: delta_r/delta_0: 6.5500E-11 | Reached bicg-stab tolerance | BP delta = -0.6035370 -0.6802954 2705891.56582804 | BP delta = -0.6035370 -0.6757084 2705900.34198929 | 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 = -3.079408 | New value = -3.120481 | poltype: 2 pol: 1 CPU time specind = 3.6308765E-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 = -3.150039 | New value = -3.231080 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.159767 | New value = -3.137959 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.165117 | New value = -3.183677 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.172508 | New value = -3.059096 | poltype: 2 pol: 2 CPU time specind = 1.0089874E-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 = 4.25 | CG iter. 1 -- res = 0.13532E+08, tol = 0.77321E+01, time = 1.48 | CG iter. 2 -- res = 0.52381E+05, tol = 0.77321E+01, time = 1.47 | CG iter. 3 -- res = 0.44510E+05, tol = 0.77321E+01, time = 1.48 | CG iter. 4 -- res = 0.15669E+05, tol = 0.77321E+01, time = 1.45 | CG iter. 5 -- res = 0.14854E+05, tol = 0.77321E+01, time = 1.50 | CG iter. 6 -- res = 0.14745E+05, tol = 0.77321E+01, time = 1.49 | CG iter. 7 -- res = 0.11287E+05, tol = 0.77321E+01, time = 1.44 | CG iter. 8 -- res = 0.84665E+04, tol = 0.77321E+01, time = 1.48 | CG iter. 9 -- res = 0.87943E+04, tol = 0.77321E+01, time = 1.48 | CG iter. 10 -- res = 0.92304E+04, tol = 0.77321E+01, time = 1.48 | CG iter. 11 -- res = 0.60525E+04, tol = 0.77321E+01, time = 1.47 | CG iter. 12 -- res = 0.37671E+04, tol = 0.77321E+01, time = 1.47 | CG iter. 13 -- res = 0.32212E+04, tol = 0.77321E+01, time = 1.44 | CG iter. 14 -- res = 0.22962E+04, tol = 0.77321E+01, time = 1.47 | CG iter. 15 -- res = 0.18127E+04, tol = 0.77321E+01, time = 1.42 | CG iter. 16 -- res = 0.13098E+04, tol = 0.77321E+01, time = 1.47 | CG iter. 17 -- res = 0.89898E+03, tol = 0.77321E+01, time = 1.46 | CG iter. 18 -- res = 0.64680E+03, tol = 0.77321E+01, time = 1.44 | CG iter. 19 -- res = 0.51625E+03, tol = 0.77321E+01, time = 1.56 | CG iter. 20 -- res = 0.34405E+03, tol = 0.77321E+01, time = 1.52 | CG iter. 21 -- res = 0.29166E+03, tol = 0.77321E+01, time = 1.45 | CG iter. 22 -- res = 0.27409E+03, tol = 0.77321E+01, time = 1.42 | CG iter. 23 -- res = 0.21923E+03, tol = 0.77321E+01, time = 1.44 | CG iter. 24 -- res = 0.16761E+03, tol = 0.77321E+01, time = 1.49 | CG iter. 25 -- res = 0.13677E+03, tol = 0.77321E+01, time = 1.49 | CG iter. 26 -- res = 0.12075E+03, tol = 0.77321E+01, time = 1.45 | CG iter. 27 -- res = 0.98055E+02, tol = 0.77321E+01, time = 1.54 | CG iter. 28 -- res = 0.73712E+02, tol = 0.77321E+01, time = 1.47 | CG iter. 29 -- res = 0.63859E+02, tol = 0.77321E+01, time = 1.49 | CG iter. 30 -- res = 0.55970E+02, tol = 0.77321E+01, time = 1.47 | CG iter. 31 -- res = 0.39308E+02, tol = 0.77321E+01, time = 1.48 | CG iter. 32 -- res = 0.30153E+02, tol = 0.77321E+01, time = 1.52 | CG iter. 33 -- res = 0.28051E+02, tol = 0.77321E+01, time = 1.48 | CG iter. 34 -- res = 0.22765E+02, tol = 0.77321E+01, time = 1.49 | CG iter. 35 -- res = 0.16280E+02, tol = 0.77321E+01, time = 1.45 | CG iter. 36 -- res = 0.14810E+02, tol = 0.77321E+01, time = 1.48 | CG iter. 37 -- res = 0.13525E+02, tol = 0.77321E+01, time = 1.51 | CG iter. 38 -- res = 0.10681E+02, tol = 0.77321E+01, time = 1.53 | CG iter. 39 -- res = 0.94866E+01, tol = 0.77321E+01, time = 1.52 | CG iter. 40 -- res = 0.11359E+02, tol = 0.77321E+01, time = 1.53 | CG iter. 41 -- res = 0.64871E+01, tol = 0.77321E+01, time = 1.49 | CG iter. 42 -- res = 0.52243E+01, tol = 0.77321E+01, time = 1.49 | CG iter. 43 -- res = 0.44753E+01, tol = 0.77321E+01, time = 1.54 | CG iter. 44 -- res = 0.57958E+01, tol = 0.77321E+01, time = 1.49 | CG iter. 45 -- res = 0.30862E+01, tol = 0.77321E+01, time = 1.49 | CG iter. 46 -- res = 0.24031E+01, tol = 0.77321E+01, time = 1.48 | CG iter. 47 -- res = 0.17722E+01, tol = 0.77321E+01, time = 1.50 | CG iter. 48 -- res = 0.13792E+01, tol = 0.77321E+01, time = 1.46 | CG iter. 49 -- res = 0.11498E+01, tol = 0.77321E+01, time = 1.47 | CG iter. 50 -- res = 0.89375E+00, tol = 0.77321E+01, time = 1.49 | Final CG iter 51 -- res = 0.89375E+00, tol = 0.77321E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9840432.199 | Old band monopole 8977102.316 | Change to band monopole 863329.883 | Change to component monopole -863326.169 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 4.26 | CG iter. 1 -- res = 0.14894E+06, tol = 0.47627E+18, time = 0.39 | CG iter. 2 -- res = 0.27953E+02, tol = 0.47627E+18, time = 0.38 | CG iter. 3 -- res = 0.87733E+00, tol = 0.47627E+18, time = 0.37 | CG iter. 4 -- res = 0.72240E-03, tol = 0.47627E+18, time = 0.38 | Final CG iter 5 -- res = 0.11439E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9840389.873 | (Sampled value in CG: 9806655.408 ) | 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 = 1.466903 | New value = 1.459792 | poltype: 2 pol: 1 CPU time specind = 1.9321442E-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 = 1.567843 | New value = 1.511825 | poltype: 2 pol: 2 CPU time specind = 1.4247894E-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 = 4.27 | CG iter. 1 -- res = 0.24047E+08, tol = 0.47452E+04, time = 1.72 | CG iter. 2 -- res = 0.54313E+07, tol = 0.47452E+04, time = 1.76 | CG iter. 3 -- res = 0.84444E+06, tol = 0.47452E+04, time = 1.76 | CG iter. 4 -- res = 0.35350E+06, tol = 0.47452E+04, time = 1.74 | CG iter. 5 -- res = 0.15461E+06, tol = 0.47452E+04, time = 1.74 | CG iter. 6 -- res = 0.81384E+05, tol = 0.47452E+04, time = 1.73 | CG iter. 7 -- res = 0.43810E+05, tol = 0.47452E+04, time = 1.74 | CG iter. 8 -- res = 0.20909E+05, tol = 0.47452E+04, time = 1.76 | CG iter. 9 -- res = 0.91110E+04, tol = 0.47452E+04, time = 1.76 | CG iter. 10 -- res = 0.37043E+04, tol = 0.47452E+04, time = 1.76 | CG iter. 11 -- res = 0.16953E+04, tol = 0.47452E+04, time = 1.73 | CG iter. 12 -- res = 0.86958E+03, tol = 0.47452E+04, time = 1.73 | CG iter. 13 -- res = 0.49017E+03, tol = 0.47452E+04, time = 1.71 | CG iter. 14 -- res = 0.27613E+03, tol = 0.47452E+04, time = 1.79 | CG iter. 15 -- res = 0.14006E+03, tol = 0.47452E+04, time = 1.77 | CG iter. 16 -- res = 0.65893E+02, tol = 0.47452E+04, time = 1.74 | CG iter. 17 -- res = 0.31285E+02, tol = 0.47452E+04, time = 1.71 | CG iter. 18 -- res = 0.15578E+02, tol = 0.47452E+04, time = 1.73 | CG iter. 19 -- res = 0.83042E+01, tol = 0.47452E+04, time = 1.75 | CG iter. 20 -- res = 0.47272E+01, tol = 0.47452E+04, time = 1.73 | CG iter. 21 -- res = 0.26229E+01, tol = 0.47452E+04, time = 1.79 | CG iter. 22 -- res = 0.13575E+01, tol = 0.47452E+04, time = 1.82 | CG iter. 23 -- res = 0.66998E+00, tol = 0.47452E+04, time = 1.72 | CG iter. 24 -- res = 0.34487E+00, tol = 0.47452E+04, time = 1.73 | CG iter. 25 -- res = 0.19056E+00, tol = 0.47452E+04, time = 1.77 | CG iter. 26 -- res = 0.10982E+00, tol = 0.47452E+04, time = 1.77 | CG iter. 27 -- res = 0.63654E-01, tol = 0.47452E+04, time = 1.76 | CG iter. 28 -- res = 0.35023E-01, tol = 0.47452E+04, time = 1.74 | CG iter. 29 -- res = 0.18250E-01, tol = 0.47452E+04, time = 1.75 | CG iter. 30 -- res = 0.94875E-02, tol = 0.47452E+04, time = 1.75 | CG iter. 31 -- res = 0.52663E-02, tol = 0.47452E+04, time = 1.75 | CG iter. 32 -- res = 0.29945E-02, tol = 0.47452E+04, time = 1.81 | CG iter. 33 -- res = 0.17073E-02, tol = 0.47452E+04, time = 1.78 | CG iter. 34 -- res = 0.94083E-03, tol = 0.47452E+04, time = 1.74 | CG iter. 35 -- res = 0.49713E-03, tol = 0.47452E+04, time = 1.76 | Final CG iter 36 -- res = 0.49713E-03, tol = 0.47452E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -6.132 2.762 | New value -4.586 | Old value -6.132 | Difference 1.546 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 4.26 | CG iter. 1 -- res = 0.12467E+06, tol = 0.47627E+18, time = 0.37 | CG iter. 2 -- res = 0.22314E+02, tol = 0.47627E+18, time = 0.37 | CG iter. 3 -- res = 0.68405E+00, tol = 0.47627E+18, time = 0.39 | Final CG iter 4 -- res = 0.31152E-04, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9840389.873 | (Sampled value in CG: 9806893.393 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.620962 | New value = -3.542541 | poltype: 1 pol: 1 CPU time specind = 2.2997856E-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 = 4.24 | CG iter. 1 -- res = 0.22479E+07, tol = 0.12270E+01, time = 0.65 | CG iter. 2 -- res = 0.69031E+05, tol = 0.12270E+01, time = 0.64 | CG iter. 3 -- res = 0.47559E+05, tol = 0.12270E+01, time = 0.67 | CG iter. 4 -- res = 0.13002E+05, tol = 0.12270E+01, time = 0.64 | CG iter. 5 -- res = 0.29373E+04, tol = 0.12270E+01, time = 0.63 | CG iter. 6 -- res = 0.13569E+04, tol = 0.12270E+01, time = 0.61 | CG iter. 7 -- res = 0.61304E+03, tol = 0.12270E+01, time = 0.65 | CG iter. 8 -- res = 0.28717E+03, tol = 0.12270E+01, time = 0.62 | CG iter. 9 -- res = 0.82558E+02, tol = 0.12270E+01, time = 0.64 | CG iter. 10 -- res = 0.22420E+02, tol = 0.12270E+01, time = 0.60 | CG iter. 11 -- res = 0.97847E+01, tol = 0.12270E+01, time = 0.64 | CG iter. 12 -- res = 0.44331E+01, tol = 0.12270E+01, time = 0.62 | CG iter. 13 -- res = 0.16225E+01, tol = 0.12270E+01, time = 0.63 | CG iter. 14 -- res = 0.45350E+00, tol = 0.12270E+01, time = 0.67 | CG iter. 15 -- res = 0.13390E+00, tol = 0.12270E+01, time = 0.65 | CG iter. 16 -- res = 0.57304E-01, tol = 0.12270E+01, time = 0.61 | CG iter. 17 -- res = 0.22682E-01, tol = 0.12270E+01, time = 0.60 | CG iter. 18 -- res = 0.84008E-02, tol = 0.12270E+01, time = 0.55 | CG iter. 19 -- res = 0.31094E-02, tol = 0.12270E+01, time = 0.58 | CG iter. 20 -- res = 0.12926E-02, tol = 0.12270E+01, time = 0.68 | CG iter. 21 -- res = 0.41544E-03, tol = 0.12270E+01, time = 0.66 | CG iter. 22 -- res = 0.15767E-03, tol = 0.12270E+01, time = 0.61 | CG iter. 23 -- res = 0.54886E-04, tol = 0.12270E+01, time = 0.60 | CG iter. 24 -- res = 0.20106E-04, tol = 0.12270E+01, time = 0.63 | CG iter. 25 -- res = 0.51918E-05, tol = 0.12270E+01, time = 0.65 | CG iter. 26 -- res = 0.15556E-05, tol = 0.12270E+01, time = 0.61 | CG iter. 27 -- res = 0.61186E-06, tol = 0.12270E+01, time = 0.64 | CG iter. 28 -- res = 0.23202E-06, tol = 0.12270E+01, time = 0.63 | CG iter. 29 -- res = 0.77860E-07, tol = 0.12270E+01, time = 0.63 | CG iter. 30 -- res = 0.22598E-07, tol = 0.12270E+01, time = 0.62 | CG iter. 31 -- res = 0.71499E-08, tol = 0.12270E+01, time = 0.63 | CG iter. 32 -- res = 0.33507E-08, tol = 0.12270E+01, time = 0.63 | CG iter. 33 -- res = 0.26471E-08, tol = 0.12270E+01, time = 0.62 | CG iter. 34 -- res = 0.52045E-09, tol = 0.12270E+01, time = 0.65 | CG iter. 35 -- res = 0.16086E-09, tol = 0.12270E+01, time = 0.64 | CG iter. 36 -- res = 0.11413E-09, tol = 0.12270E+01, time = 0.64 | CG iter. 37 -- res = 0.41814E-10, tol = 0.12270E+01, time = 0.65 | CG iter. 38 -- res = 0.13207E-10, tol = 0.12270E+01, time = 0.63 | CG iter. 39 -- res = 0.45280E-11, tol = 0.12270E+01, time = 0.65 | CG iter. 40 -- res = 0.12640E-11, tol = 0.12270E+01, time = 0.65 | CG iter. 41 -- res = 0.34716E-12, tol = 0.12270E+01, time = 0.67 | CG iter. 42 -- res = 0.11301E-12, tol = 0.12270E+01, time = 0.65 | CG iter. 43 -- res = 0.35227E-13, tol = 0.12270E+01, time = 0.65 | CG iter. 44 -- res = 0.98654E-14, tol = 0.12270E+01, time = 0.66 | CG iter. 45 -- res = 0.25520E-14, tol = 0.12270E+01, time = 0.67 | CG iter. 46 -- res = 0.79722E-15, tol = 0.12270E+01, time = 0.62 | CG iter. 47 -- res = 0.28168E-15, tol = 0.12270E+01, time = 0.65 | CG iter. 48 -- res = 0.81009E-16, tol = 0.12270E+01, time = 0.68 | CG iter. 49 -- res = 0.29227E-16, tol = 0.12270E+01, time = 0.66 | CG iter. 50 -- res = 0.10391E-16, tol = 0.12270E+01, time = 0.63 | Final CG iter 51 -- res = 0.10391E-16, tol = 0.12270E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 0.817 2.729 | New value 0.400 | Old value 0.817 | Difference -0.417 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 4.26 | CG iter. 1 -- res = 0.59121E+03, tol = 0.47627E+18, time = 0.42 | CG iter. 2 -- res = 0.77155E+01, tol = 0.47627E+18, time = 0.41 | CG iter. 3 -- res = 0.79543E-01, tol = 0.47627E+18, time = 0.40 | Final CG iter 4 -- res = 0.28658E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9840389.873 | (Sampled value in CG: 9819399.879 ) | CPU time specind = 271.8839 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 4.27 | CG iter. 1 -- res = 0.68419E+08, tol = 0.51416E+04, time = 3.12 | CG iter. 2 -- res = 0.33068E+08, tol = 0.51416E+04, time = 3.07 | CG iter. 3 -- res = 0.57489E+07, tol = 0.51416E+04, time = 3.12 | CG iter. 4 -- res = 0.29443E+07, tol = 0.51416E+04, time = 3.11 | CG iter. 5 -- res = 0.13042E+07, tol = 0.51416E+04, time = 3.17 | CG iter. 6 -- res = 0.70300E+06, tol = 0.51416E+04, time = 3.14 | CG iter. 7 -- res = 0.38151E+06, tol = 0.51416E+04, time = 3.06 | CG iter. 8 -- res = 0.19267E+06, tol = 0.51416E+04, time = 3.16 | CG iter. 9 -- res = 0.97971E+05, tol = 0.51416E+04, time = 3.12 | CG iter. 10 -- res = 0.46063E+05, tol = 0.51416E+04, time = 3.06 | CG iter. 11 -- res = 0.24609E+05, tol = 0.51416E+04, time = 3.04 | CG iter. 12 -- res = 0.14430E+05, tol = 0.51416E+04, time = 3.01 | CG iter. 13 -- res = 0.96957E+04, tol = 0.51416E+04, time = 3.00 | CG iter. 14 -- res = 0.74832E+04, tol = 0.51416E+04, time = 3.14 | CG iter. 15 -- res = 0.58407E+04, tol = 0.51416E+04, time = 3.12 | CG iter. 16 -- res = 0.49459E+04, tol = 0.51416E+04, time = 3.14 | CG iter. 17 -- res = 0.43525E+04, tol = 0.51416E+04, time = 3.12 | CG iter. 18 -- res = 0.42291E+04, tol = 0.51416E+04, time = 3.11 | CG iter. 19 -- res = 0.45008E+04, tol = 0.51416E+04, time = 3.12 | CG iter. 20 -- res = 0.48167E+04, tol = 0.51416E+04, time = 3.08 | CG iter. 21 -- res = 0.45065E+04, tol = 0.51416E+04, time = 3.09 | CG iter. 22 -- res = 0.34766E+04, tol = 0.51416E+04, time = 3.02 | CG iter. 23 -- res = 0.25274E+04, tol = 0.51416E+04, time = 3.02 | CG iter. 24 -- res = 0.19382E+04, tol = 0.51416E+04, time = 3.07 | CG iter. 25 -- res = 0.16652E+04, tol = 0.51416E+04, time = 3.11 | CG iter. 26 -- res = 0.14747E+04, tol = 0.51416E+04, time = 3.08 | CG iter. 27 -- res = 0.12209E+04, tol = 0.51416E+04, time = 3.09 | CG iter. 28 -- res = 0.98954E+03, tol = 0.51416E+04, time = 3.10 | CG iter. 29 -- res = 0.86925E+03, tol = 0.51416E+04, time = 3.05 | CG iter. 30 -- res = 0.89473E+03, tol = 0.51416E+04, time = 3.23 | CG iter. 31 -- res = 0.96620E+03, tol = 0.51416E+04, time = 3.20 | CG iter. 32 -- res = 0.95923E+03, tol = 0.51416E+04, time = 3.11 | CG iter. 33 -- res = 0.81316E+03, tol = 0.51416E+04, time = 3.08 | CG iter. 34 -- res = 0.66374E+03, tol = 0.51416E+04, time = 3.04 | CG iter. 35 -- res = 0.59632E+03, tol = 0.51416E+04, time = 3.11 | CG iter. 36 -- res = 0.60215E+03, tol = 0.51416E+04, time = 3.00 | CG iter. 37 -- res = 0.61406E+03, tol = 0.51416E+04, time = 3.07 | CG iter. 38 -- res = 0.56992E+03, tol = 0.51416E+04, time = 3.02 | CG iter. 39 -- res = 0.50465E+03, tol = 0.51416E+04, time = 3.07 | CG iter. 40 -- res = 0.48219E+03, tol = 0.51416E+04, time = 3.15 | CG iter. 41 -- res = 0.52314E+03, tol = 0.51416E+04, time = 3.06 | CG iter. 42 -- res = 0.59015E+03, tol = 0.51416E+04, time = 3.09 | CG iter. 43 -- res = 0.60944E+03, tol = 0.51416E+04, time = 3.06 | CG iter. 44 -- res = 0.56504E+03, tol = 0.51416E+04, time = 3.05 | CG iter. 45 -- res = 0.52522E+03, tol = 0.51416E+04, time = 3.05 | CG iter. 46 -- res = 0.53542E+03, tol = 0.51416E+04, time = 3.03 | CG iter. 47 -- res = 0.57775E+03, tol = 0.51416E+04, time = 3.13 | CG iter. 48 -- res = 0.59904E+03, tol = 0.51416E+04, time = 3.03 | CG iter. 49 -- res = 0.56846E+03, tol = 0.51416E+04, time = 3.06 | CG iter. 50 -- res = 0.53102E+03, tol = 0.51416E+04, time = 3.13 | CG iter. 51 -- res = 0.53748E+03, tol = 0.51416E+04, time = 3.09 | CG iter. 52 -- res = 0.58154E+03, tol = 0.51416E+04, time = 3.08 | CG iter. 53 -- res = 0.61352E+03, tol = 0.51416E+04, time = 3.10 | CG iter. 54 -- res = 0.59774E+03, tol = 0.51416E+04, time = 3.12 | CG iter. 55 -- res = 0.54468E+03, tol = 0.51416E+04, time = 3.12 | CG iter. 56 -- res = 0.50958E+03, tol = 0.51416E+04, time = 3.11 | CG iter. 57 -- res = 0.51134E+03, tol = 0.51416E+04, time = 3.16 | CG iter. 58 -- res = 0.52095E+03, tol = 0.51416E+04, time = 3.11 | CG iter. 59 -- res = 0.50745E+03, tol = 0.51416E+04, time = 3.11 | CG iter. 60 -- res = 0.46807E+03, tol = 0.51416E+04, time = 3.05 | Final CG iter 61 -- res = 0.46807E+03, tol = 0.51416E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 2.858 ( -230.626 -2233.003 2516.239 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 7636388.527 | Old band monopole 9840432.199 | Change to band monopole -2204043.672 | Change to component monopole 2204034.192 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -4.571 2.756 | New value 2.345 | Old value -4.571 | Difference 6.916 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -4.253 ( 7.350 11.172 -11.829 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 15.414 2.391 | New value 1.385 | Old value 15.414 | Difference -14.029 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 4.27 | CG iter. 1 -- res = 0.25241E+07, tol = 0.47627E+18, time = 0.38 | CG iter. 2 -- res = 0.79324E+02, tol = 0.47627E+18, time = 0.39 | CG iter. 3 -- res = 0.20838E+01, tol = 0.47627E+18, time = 0.38 | CG iter. 4 -- res = 0.57313E-02, tol = 0.47627E+18, time = 0.38 | Final CG iter 5 -- res = 0.24944E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7636355.681 | (Sampled value in CG: 7566394.703 ) | Chain = 1 -- chisq = 0.61807412E+09 | Chain = 1 -- wall time = 4678.153 sec --------------------------------------------------------------------- | Chain = 1 -- Iteration = 53 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18166820859939 | --> Sampling calibration, mode = relcal | relcal = -7.4749112E-02 -5.8354747E-02 9.1613598E-02 4.1490261E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 4.4141788E-04 4.4675274E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.2910E-05 | 2: delta_r/delta_0: 7.5632E-07 | 3: delta_s/delta_0: 2.5907E-07 | 4: delta_r/delta_0: 1.0627E-08 | 5: delta_s/delta_0: 7.3172E-09 | 6: delta_r/delta_0: 1.8531E-09 | 7: delta_s/delta_0: 2.8352E-10 | 8: delta_r/delta_0: 1.4166E-10 | 9: delta_s/delta_0: 1.9015E-09 | 10: delta_r/delta_0: 7.7518E-10 | 11: delta_s/delta_0: 1.1229E-09 | 12: delta_r/delta_0: 1.9660E-10 | 13: delta_s/delta_0: 4.8964E-12 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 9.423323571942447E-004 2.739573527583335E-005 | BP delta = 6.1351643E-03 1.2406162E-02 29858608.9579718 | BP delta = 5.3785970E-03 1.1649595E-02 29858608.8656252 | 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 = 1.02540010 | --> Sampling calibration, mode = relcal | relcal = -0.1065609 -9.5453806E-02 0.1447874 5.7227280E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.3112343E-03 1.7766460E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4209E-02 | 2: delta_r/delta_0: 3.1193E-04 | 3: delta_s/delta_0: 4.4402E-05 | 4: delta_r/delta_0: 3.6530E-06 | 5: delta_s/delta_0: 1.3629E-06 | 6: delta_r/delta_0: 1.6833E-07 | 7: delta_s/delta_0: 1.4846E-07 | 8: delta_r/delta_0: 4.2006E-08 | 9: delta_s/delta_0: 1.6860E-08 | 10: delta_r/delta_0: 8.5738E-09 | 11: delta_s/delta_0: 4.0842E-09 | 12: delta_r/delta_0: 2.9248E-09 | 13: delta_s/delta_0: 1.0811E-09 | 14: delta_r/delta_0: 6.7279E-10 | 15: delta_s/delta_0: 2.1364E-10 | 16: delta_r/delta_0: 9.9445E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.599124833196189E-002 2.812452183810812E-005 | BP delta = -0.1895415 -0.1758665 34760558.6024872 | BP delta = -0.1891385 -0.1754635 34760558.6020669 | 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 = 0.81160491 | --> Sampling calibration, mode = relcal | relcal = 0.2951706 0.2246903 -0.2835083 -0.2363527 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 6.2276999E-04 5.4735723E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.6115E-04 | 2: delta_r/delta_0: 1.4980E-05 | 3: delta_s/delta_0: 1.8484E-05 | 4: delta_r/delta_0: 2.0323E-06 | 5: delta_s/delta_0: 2.3625E-07 | 6: delta_r/delta_0: 6.4760E-08 | 7: delta_s/delta_0: 5.4881E-08 | 8: delta_r/delta_0: 3.1556E-08 | 9: delta_s/delta_0: 1.3421E-07 | 10: delta_r/delta_0: 1.8215E-09 | 11: delta_s/delta_0: 7.0438E-10 | 12: delta_r/delta_0: 4.6649E-10 | 13: delta_s/delta_0: 1.5891E-09 | 14: delta_r/delta_0: 3.9104E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.061046788833037E-002 4.024769726052835E-005 | BP delta = -8.7840423E-02 -0.1194487 43107181.9571342 | BP delta = -7.5189099E-02 -0.1067974 43107182.1034268 | 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 = 0.95847011 | --> Sampling calibration, mode = relcal | relcal = 0.1064694 0.1393850 -0.1102276 -0.1356269 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0102256E-02 1.4259215E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 4.1736E-04 | 2: delta_r/delta_0: 9.5290E-06 | 3: delta_s/delta_0: 8.7718E-06 | 4: delta_r/delta_0: 2.6521E-07 | 5: delta_s/delta_0: 8.6552E-07 | 6: delta_r/delta_0: 1.2523E-07 | 7: delta_s/delta_0: 5.5519E-08 | 8: delta_r/delta_0: 3.3983E-08 | 9: delta_s/delta_0: 1.4885E-06 | 10: delta_r/delta_0: 1.4735E-08 | 11: delta_s/delta_0: 4.2617E-09 | 12: delta_r/delta_0: 5.0113E-10 | 13: delta_s/delta_0: 9.2342E-10 | 14: delta_r/delta_0: 4.4850E-10 | 15: delta_s/delta_0: 3.2931E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.498006914289213E-002 3.699864831695301E-005 | BP delta = 0.2828520 0.3129964 43049962.0101471 | BP delta = 0.2752544 0.3053988 43049961.6044755 | 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 = 0.52113131 | --> Sampling calibration, mode = relcal | relcal = -5.0995693E-02 -3.7011937E-03 2.7257061E-02 2.7439825E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -4.7556995E-04 4.8268671E-04 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.4698E-05 | 2: delta_r/delta_0: 4.5884E-06 | 3: delta_s/delta_0: 1.5470E-05 | 4: delta_r/delta_0: 2.1024E-06 | 5: delta_s/delta_0: 4.4378E-08 | 6: delta_r/delta_0: 2.7439E-08 | 7: delta_s/delta_0: 4.9126E-08 | 8: delta_r/delta_0: 8.4734E-09 | 9: delta_s/delta_0: 2.3278E-09 | 10: delta_r/delta_0: 1.3732E-09 | 11: delta_s/delta_0: 4.6402E-08 | 12: delta_r/delta_0: 1.2775E-08 | 13: delta_s/delta_0: 3.7867E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.066939583838282E-002 5.487910642288817E-005 | BP delta = -4.6811633E-02 4.5758989E-02 61511497.7071744 | BP delta = -6.0133576E-02 3.2437045E-02 61511497.6668013 | 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 = 0.42118882 | --> Sampling calibration, mode = relcal | relcal = 4.5507267E-02 3.9685529E-02 -2.8274784E-02 -5.6918010E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.5497326E-03 4.5067566E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.2229E-05 | 2: delta_r/delta_0: 3.6464E-06 | 3: delta_s/delta_0: 2.2368E-06 | 4: delta_r/delta_0: 3.4228E-07 | 5: delta_s/delta_0: 6.0605E-08 | 6: delta_r/delta_0: 3.4161E-08 | 7: delta_s/delta_0: 9.2564E-08 | 8: delta_r/delta_0: 6.9481E-09 | 9: delta_s/delta_0: 2.3921E-09 | 10: delta_r/delta_0: 1.5592E-09 | 11: delta_s/delta_0: 1.5929E-06 | 12: delta_r/delta_0: 5.7640E-08 | 13: delta_s/delta_0: 2.2348E-08 | 14: delta_r/delta_0: 1.4186E-08 | 15: delta_s/delta_0: 2.9831E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.374972296465629E-002 5.000367363781463E-005 | BP delta = -0.1261315 -0.1306086 61336622.8535675 | BP delta = -0.1545400 -0.1590171 61336622.8530701 | 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 = 0.28133430 | --> Sampling calibration, mode = relcal | relcal = 2.4256019E-02 4.5080431E-02 -2.3305250E-02 -4.6031199E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.1211627E-02 -5.6929013E-04 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.1880E-04 | 2: delta_r/delta_0: 8.8443E-06 | 3: delta_s/delta_0: 1.5794E-06 | 4: delta_r/delta_0: 2.2065E-07 | 5: delta_s/delta_0: 5.2164E-08 | 6: delta_r/delta_0: 1.6991E-08 | 7: delta_s/delta_0: 7.4129E-09 | 8: delta_r/delta_0: 4.7419E-09 | 9: delta_s/delta_0: 9.3230E-09 | 10: delta_r/delta_0: 3.6654E-09 | 11: delta_s/delta_0: 7.3723E-09 | 12: delta_r/delta_0: 1.0848E-09 | 13: delta_s/delta_0: 1.3195E-09 | 14: delta_r/delta_0: 5.6129E-10 | 15: delta_s/delta_0: 6.3651E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -8.562772321316980E-003 7.852134277966787E-005 | BP delta = 4.5316011E-02 -7.4579373E-02 94962997.7723678 | BP delta = 4.0829189E-02 -7.9066195E-02 94962997.7387596 | 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 = 0.29363065 | --> Sampling calibration, mode = relcal | relcal = 4.5927035E-04 1.0389028E-02 -3.8820184E-03 -6.9662803E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.6609553E-02 1.2918316E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.3863E-04 | 2: delta_r/delta_0: 1.1372E-05 | 3: delta_s/delta_0: 1.8891E-06 | 4: delta_r/delta_0: 3.1001E-07 | 5: delta_s/delta_0: 1.1100E-07 | 6: delta_r/delta_0: 2.4593E-08 | 7: delta_s/delta_0: 9.5682E-09 | 8: delta_r/delta_0: 6.0865E-09 | 9: delta_s/delta_0: 3.8794E-09 | 10: delta_r/delta_0: 1.9137E-09 | 11: delta_s/delta_0: 4.1357E-04 | 12: delta_r/delta_0: 1.6883E-07 | 13: delta_s/delta_0: 3.7418E-09 | 14: delta_r/delta_0: 2.3909E-10 | 15: delta_s/delta_0: 1.2043E-10 | 16: delta_r/delta_0: 7.9069E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -8.928425207372344E-003 8.315031684514054E-005 | BP delta = -0.7028832 -0.6709282 93517491.6328298 | BP delta = -0.6956104 -0.6636554 93517491.6646508 | 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 = 0.26481179 | --> Sampling calibration, mode = relcal | relcal = -5.5965967E-03 1.4917940E-02 -2.2788744E-03 -7.0424690E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -1.9486290E-03 3.3831971E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4295E-04 | 2: delta_r/delta_0: 1.2305E-05 | 3: delta_s/delta_0: 2.1764E-06 | 4: delta_r/delta_0: 2.3687E-07 | 5: delta_s/delta_0: 7.7972E-08 | 6: delta_r/delta_0: 1.6414E-08 | 7: delta_s/delta_0: 6.9395E-09 | 8: delta_r/delta_0: 4.3184E-09 | 9: delta_s/delta_0: 4.3758E-09 | 10: delta_r/delta_0: 3.0056E-09 | 11: delta_s/delta_0: 1.2782E-05 | 12: delta_r/delta_0: 5.7887E-07 | 13: delta_s/delta_0: 6.9054E-10 | 14: delta_r/delta_0: 3.9687E-10 | 15: delta_s/delta_0: 9.3755E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -6.839369721926931E-003 9.161996877462613E-005 | BP delta = 0.2422809 0.2658228 94712635.5229356 | BP delta = 0.2188467 0.2423885 94712635.4395027 | 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 = 0.25630881 | --> Sampling calibration, mode = relcal | relcal = -3.1685703E-02 -2.5880793E-02 3.6898840E-02 2.0667657E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.5826773E-02 1.8714517E-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: 1.2433E-05 | 3: delta_s/delta_0: 2.0474E-06 | 4: delta_r/delta_0: 3.4244E-07 | 5: delta_s/delta_0: 1.2365E-07 | 6: delta_r/delta_0: 2.7128E-08 | 7: delta_s/delta_0: 1.0724E-08 | 8: delta_r/delta_0: 6.8537E-09 | 9: delta_s/delta_0: 4.9180E-09 | 10: delta_r/delta_0: 3.5829E-09 | 11: delta_s/delta_0: 1.4954E-02 | 12: delta_r/delta_0: 4.2438E-05 | 13: delta_s/delta_0: 2.9011E-09 | 14: delta_r/delta_0: 2.4541E-10 | 15: delta_s/delta_0: 1.4557E-10 | 16: delta_r/delta_0: 7.6930E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.338194542063709E-003 8.683243693911022E-005 | BP delta = -0.6035370 -0.6802954 93055077.1461791 | BP delta = -0.5887655 -0.6655239 93055077.2180621 | 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 = -3.120481 | New value = -3.082077 | poltype: 2 pol: 1 CPU time specind = 2.0670891E-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 = -3.231080 | New value = -3.046180 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.137959 | New value = -3.170303 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.183677 | New value = -3.172340 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.059096 | New value = -3.194968 | poltype: 2 pol: 2 CPU time specind = 1.0900497E-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 = 4.22 | CG iter. 1 -- res = 0.13543E+08, tol = 0.87585E+01, time = 1.54 | CG iter. 2 -- res = 0.43441E+05, tol = 0.87585E+01, time = 1.52 | CG iter. 3 -- res = 0.41254E+05, tol = 0.87585E+01, time = 1.53 | CG iter. 4 -- res = 0.18227E+05, tol = 0.87585E+01, time = 1.55 | CG iter. 5 -- res = 0.18830E+05, tol = 0.87585E+01, time = 1.54 | CG iter. 6 -- res = 0.16488E+05, tol = 0.87585E+01, time = 1.56 | CG iter. 7 -- res = 0.11858E+05, tol = 0.87585E+01, time = 1.50 | CG iter. 8 -- res = 0.94328E+04, tol = 0.87585E+01, time = 1.53 | CG iter. 9 -- res = 0.80433E+04, tol = 0.87585E+01, time = 1.61 | CG iter. 10 -- res = 0.58021E+04, tol = 0.87585E+01, time = 1.58 | CG iter. 11 -- res = 0.48186E+04, tol = 0.87585E+01, time = 1.56 | CG iter. 12 -- res = 0.34831E+04, tol = 0.87585E+01, time = 1.55 | CG iter. 13 -- res = 0.29592E+04, tol = 0.87585E+01, time = 1.46 | CG iter. 14 -- res = 0.26761E+04, tol = 0.87585E+01, time = 1.52 | CG iter. 15 -- res = 0.16741E+04, tol = 0.87585E+01, time = 1.51 | CG iter. 16 -- res = 0.99449E+03, tol = 0.87585E+01, time = 1.46 | CG iter. 17 -- res = 0.72614E+03, tol = 0.87585E+01, time = 1.44 | CG iter. 18 -- res = 0.63053E+03, tol = 0.87585E+01, time = 1.50 | CG iter. 19 -- res = 0.45940E+03, tol = 0.87585E+01, time = 1.54 | CG iter. 20 -- res = 0.29296E+03, tol = 0.87585E+01, time = 1.54 | CG iter. 21 -- res = 0.28670E+03, tol = 0.87585E+01, time = 1.49 | CG iter. 22 -- res = 0.22020E+03, tol = 0.87585E+01, time = 1.53 | CG iter. 23 -- res = 0.15972E+03, tol = 0.87585E+01, time = 1.50 | CG iter. 24 -- res = 0.13860E+03, tol = 0.87585E+01, time = 1.52 | CG iter. 25 -- res = 0.11534E+03, tol = 0.87585E+01, time = 1.55 | CG iter. 26 -- res = 0.78409E+02, tol = 0.87585E+01, time = 1.51 | CG iter. 27 -- res = 0.62084E+02, tol = 0.87585E+01, time = 1.53 | CG iter. 28 -- res = 0.50282E+02, tol = 0.87585E+01, time = 1.54 | CG iter. 29 -- res = 0.41073E+02, tol = 0.87585E+01, time = 1.53 | CG iter. 30 -- res = 0.29939E+02, tol = 0.87585E+01, time = 1.50 | CG iter. 31 -- res = 0.23403E+02, tol = 0.87585E+01, time = 1.52 | CG iter. 32 -- res = 0.20180E+02, tol = 0.87585E+01, time = 1.50 | CG iter. 33 -- res = 0.16429E+02, tol = 0.87585E+01, time = 1.52 | CG iter. 34 -- res = 0.13013E+02, tol = 0.87585E+01, time = 1.54 | CG iter. 35 -- res = 0.10271E+02, tol = 0.87585E+01, time = 1.49 | CG iter. 36 -- res = 0.81458E+01, tol = 0.87585E+01, time = 1.54 | CG iter. 37 -- res = 0.63334E+01, tol = 0.87585E+01, time = 1.55 | CG iter. 38 -- res = 0.52846E+01, tol = 0.87585E+01, time = 1.49 | CG iter. 39 -- res = 0.60235E+01, tol = 0.87585E+01, time = 1.54 | CG iter. 40 -- res = 0.46369E+01, tol = 0.87585E+01, time = 1.49 | CG iter. 41 -- res = 0.28571E+01, tol = 0.87585E+01, time = 1.57 | CG iter. 42 -- res = 0.20138E+01, tol = 0.87585E+01, time = 1.53 | CG iter. 43 -- res = 0.14855E+01, tol = 0.87585E+01, time = 1.51 | CG iter. 44 -- res = 0.11729E+01, tol = 0.87585E+01, time = 1.51 | CG iter. 45 -- res = 0.11607E+01, tol = 0.87585E+01, time = 1.52 | CG iter. 46 -- res = 0.10213E+01, tol = 0.87585E+01, time = 1.53 | CG iter. 47 -- res = 0.60256E+00, tol = 0.87585E+01, time = 1.51 | CG iter. 48 -- res = 0.40552E+00, tol = 0.87585E+01, time = 1.46 | CG iter. 49 -- res = 0.28007E+00, tol = 0.87585E+01, time = 1.46 | CG iter. 50 -- res = 0.32448E+00, tol = 0.87585E+01, time = 1.51 | Final CG iter 51 -- res = 0.32448E+00, tol = 0.87585E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 11164189.815 | Old band monopole 7636388.527 | Change to band monopole 3527801.289 | Change to component monopole -3527786.115 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 4.23 | CG iter. 1 -- res = 0.28791E+05, tol = 0.47627E+18, time = 0.35 | CG iter. 2 -- res = 0.29910E+02, tol = 0.47627E+18, time = 0.35 | CG iter. 3 -- res = 0.89507E+00, tol = 0.47627E+18, time = 0.35 | CG iter. 4 -- res = 0.86059E-04, tol = 0.47627E+18, time = 0.34 | Final CG iter 5 -- res = 0.23386E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 11164141.796 | (Sampled value in CG: 11196471.795 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.459792 | New value = 1.514026 | poltype: 2 pol: 1 CPU time specind = 4.2009354E-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 = 1.511825 | New value = 1.526365 | poltype: 2 pol: 2 CPU time specind = 2.1250248E-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 = 4.24 | CG iter. 1 -- res = 0.24711E+08, tol = 0.47665E+04, time = 1.74 | CG iter. 2 -- res = 0.54621E+07, tol = 0.47665E+04, time = 1.76 | CG iter. 3 -- res = 0.84689E+06, tol = 0.47665E+04, time = 1.73 | CG iter. 4 -- res = 0.35226E+06, tol = 0.47665E+04, time = 1.80 | CG iter. 5 -- res = 0.15349E+06, tol = 0.47665E+04, time = 1.75 | CG iter. 6 -- res = 0.81246E+05, tol = 0.47665E+04, time = 1.80 | CG iter. 7 -- res = 0.43790E+05, tol = 0.47665E+04, time = 1.81 | CG iter. 8 -- res = 0.20635E+05, tol = 0.47665E+04, time = 1.81 | CG iter. 9 -- res = 0.91672E+04, tol = 0.47665E+04, time = 1.82 | CG iter. 10 -- res = 0.37643E+04, tol = 0.47665E+04, time = 1.73 | CG iter. 11 -- res = 0.17239E+04, tol = 0.47665E+04, time = 1.76 | CG iter. 12 -- res = 0.90155E+03, tol = 0.47665E+04, time = 1.72 | CG iter. 13 -- res = 0.49704E+03, tol = 0.47665E+04, time = 1.76 | CG iter. 14 -- res = 0.27597E+03, tol = 0.47665E+04, time = 1.81 | CG iter. 15 -- res = 0.14515E+03, tol = 0.47665E+04, time = 1.76 | CG iter. 16 -- res = 0.68350E+02, tol = 0.47665E+04, time = 1.78 | CG iter. 17 -- res = 0.32389E+02, tol = 0.47665E+04, time = 1.79 | CG iter. 18 -- res = 0.16357E+02, tol = 0.47665E+04, time = 1.74 | CG iter. 19 -- res = 0.88725E+01, tol = 0.47665E+04, time = 1.76 | CG iter. 20 -- res = 0.51164E+01, tol = 0.47665E+04, time = 1.75 | CG iter. 21 -- res = 0.28143E+01, tol = 0.47665E+04, time = 1.78 | CG iter. 22 -- res = 0.14117E+01, tol = 0.47665E+04, time = 1.81 | CG iter. 23 -- res = 0.69032E+00, tol = 0.47665E+04, time = 1.82 | CG iter. 24 -- res = 0.35796E+00, tol = 0.47665E+04, time = 1.84 | CG iter. 25 -- res = 0.20075E+00, tol = 0.47665E+04, time = 1.78 | CG iter. 26 -- res = 0.11467E+00, tol = 0.47665E+04, time = 1.75 | CG iter. 27 -- res = 0.64310E-01, tol = 0.47665E+04, time = 1.79 | CG iter. 28 -- res = 0.34811E-01, tol = 0.47665E+04, time = 1.78 | CG iter. 29 -- res = 0.17704E-01, tol = 0.47665E+04, time = 1.76 | CG iter. 30 -- res = 0.90678E-02, tol = 0.47665E+04, time = 1.79 | CG iter. 31 -- res = 0.48986E-02, tol = 0.47665E+04, time = 1.78 | CG iter. 32 -- res = 0.27178E-02, tol = 0.47665E+04, time = 1.79 | CG iter. 33 -- res = 0.15334E-02, tol = 0.47665E+04, time = 1.77 | CG iter. 34 -- res = 0.84274E-03, tol = 0.47665E+04, time = 1.81 | CG iter. 35 -- res = 0.45198E-03, tol = 0.47665E+04, time = 1.77 | Final CG iter 36 -- res = 0.45198E-03, tol = 0.47665E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 2.397 2.763 | New value 1.595 | Old value 2.397 | Difference -0.802 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 4.22 | CG iter. 1 -- res = 0.36500E+05, tol = 0.47627E+18, time = 0.43 | CG iter. 2 -- res = 0.30616E+02, tol = 0.47627E+18, time = 0.36 | CG iter. 3 -- res = 0.87628E+00, tol = 0.47627E+18, time = 0.39 | CG iter. 4 -- res = 0.40016E-03, tol = 0.47627E+18, time = 0.37 | Final CG iter 5 -- res = 0.34178E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 11164141.796 | (Sampled value in CG: 11197646.876 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.542541 | New value = -3.698045 | poltype: 1 pol: 1 CPU time specind = 1.8939972E-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 = 4.23 | CG iter. 1 -- res = 0.21271E+07, tol = 0.11572E+01, time = 0.66 | CG iter. 2 -- res = 0.55759E+05, tol = 0.11572E+01, time = 0.66 | CG iter. 3 -- res = 0.35927E+05, tol = 0.11572E+01, time = 0.66 | CG iter. 4 -- res = 0.12121E+05, tol = 0.11572E+01, time = 0.66 | CG iter. 5 -- res = 0.32948E+04, tol = 0.11572E+01, time = 0.60 | CG iter. 6 -- res = 0.13957E+04, tol = 0.11572E+01, time = 0.68 | CG iter. 7 -- res = 0.57852E+03, tol = 0.11572E+01, time = 0.63 | CG iter. 8 -- res = 0.31827E+03, tol = 0.11572E+01, time = 0.67 | CG iter. 9 -- res = 0.72825E+02, tol = 0.11572E+01, time = 0.65 | CG iter. 10 -- res = 0.24326E+02, tol = 0.11572E+01, time = 0.62 | CG iter. 11 -- res = 0.11700E+02, tol = 0.11572E+01, time = 0.62 | CG iter. 12 -- res = 0.38486E+01, tol = 0.11572E+01, time = 0.68 | CG iter. 13 -- res = 0.15039E+01, tol = 0.11572E+01, time = 0.66 | CG iter. 14 -- res = 0.50450E+00, tol = 0.11572E+01, time = 0.65 | CG iter. 15 -- res = 0.18261E+00, tol = 0.11572E+01, time = 0.68 | CG iter. 16 -- res = 0.56954E-01, tol = 0.11572E+01, time = 0.64 | CG iter. 17 -- res = 0.20255E-01, tol = 0.11572E+01, time = 0.64 | CG iter. 18 -- res = 0.75331E-02, tol = 0.11572E+01, time = 0.68 | CG iter. 19 -- res = 0.23397E-02, tol = 0.11572E+01, time = 0.65 | CG iter. 20 -- res = 0.81484E-03, tol = 0.11572E+01, time = 0.64 | CG iter. 21 -- res = 0.36593E-03, tol = 0.11572E+01, time = 0.61 | CG iter. 22 -- res = 0.14171E-03, tol = 0.11572E+01, time = 0.66 | CG iter. 23 -- res = 0.51403E-04, tol = 0.11572E+01, time = 0.65 | CG iter. 24 -- res = 0.16781E-04, tol = 0.11572E+01, time = 0.61 | CG iter. 25 -- res = 0.48068E-05, tol = 0.11572E+01, time = 0.63 | CG iter. 26 -- res = 0.16602E-05, tol = 0.11572E+01, time = 0.63 | CG iter. 27 -- res = 0.67730E-06, tol = 0.11572E+01, time = 0.65 | CG iter. 28 -- res = 0.20060E-06, tol = 0.11572E+01, time = 0.64 | CG iter. 29 -- res = 0.62217E-07, tol = 0.11572E+01, time = 0.66 | CG iter. 30 -- res = 0.18010E-07, tol = 0.11572E+01, time = 0.65 | CG iter. 31 -- res = 0.57468E-08, tol = 0.11572E+01, time = 0.63 | CG iter. 32 -- res = 0.42560E-08, tol = 0.11572E+01, time = 0.66 | CG iter. 33 -- res = 0.16990E-08, tol = 0.11572E+01, time = 0.66 | CG iter. 34 -- res = 0.45860E-09, tol = 0.11572E+01, time = 0.60 | CG iter. 35 -- res = 0.14897E-09, tol = 0.11572E+01, time = 0.65 | CG iter. 36 -- res = 0.63263E-10, tol = 0.11572E+01, time = 0.67 | CG iter. 37 -- res = 0.49348E-10, tol = 0.11572E+01, time = 0.64 | CG iter. 38 -- res = 0.10864E-10, tol = 0.11572E+01, time = 0.66 | CG iter. 39 -- res = 0.29931E-11, tol = 0.11572E+01, time = 0.65 | CG iter. 40 -- res = 0.77309E-12, tol = 0.11572E+01, time = 0.63 | CG iter. 41 -- res = 0.24324E-12, tol = 0.11572E+01, time = 0.60 | CG iter. 42 -- res = 0.77591E-13, tol = 0.11572E+01, time = 0.66 | CG iter. 43 -- res = 0.24051E-13, tol = 0.11572E+01, time = 0.63 | CG iter. 44 -- res = 0.73226E-14, tol = 0.11572E+01, time = 0.61 | CG iter. 45 -- res = 0.25486E-14, tol = 0.11572E+01, time = 0.67 | CG iter. 46 -- res = 0.93526E-15, tol = 0.11572E+01, time = 0.67 | CG iter. 47 -- res = 0.27028E-15, tol = 0.11572E+01, time = 0.65 | CG iter. 48 -- res = 0.77016E-16, tol = 0.11572E+01, time = 0.64 | CG iter. 49 -- res = 0.23978E-16, tol = 0.11572E+01, time = 0.66 | CG iter. 50 -- res = 0.79351E-17, tol = 0.11572E+01, time = 0.65 | Final CG iter 51 -- res = 0.79351E-17, tol = 0.11572E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 4.479 2.098 | New value -0.249 | Old value 4.479 | Difference -4.728 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 4.26 | CG iter. 1 -- res = 0.14253E+05, tol = 0.47627E+18, time = 0.38 | CG iter. 2 -- res = 0.18280E+02, tol = 0.47627E+18, time = 0.41 | CG iter. 3 -- res = 0.56965E+00, tol = 0.47627E+18, time = 0.36 | Final CG iter 4 -- res = 0.28213E-04, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 11164141.796 | (Sampled value in CG: 11191077.269 ) | CPU time specind = 275.8034 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 4.29 | CG iter. 1 -- res = 0.69903E+08, tol = 0.51547E+04, time = 3.14 | CG iter. 2 -- res = 0.32971E+08, tol = 0.51547E+04, time = 3.15 | CG iter. 3 -- res = 0.58963E+07, tol = 0.51547E+04, time = 3.09 | CG iter. 4 -- res = 0.31296E+07, tol = 0.51547E+04, time = 3.15 | CG iter. 5 -- res = 0.14125E+07, tol = 0.51547E+04, time = 3.17 | CG iter. 6 -- res = 0.74456E+06, tol = 0.51547E+04, time = 3.12 | CG iter. 7 -- res = 0.39122E+06, tol = 0.51547E+04, time = 3.22 | CG iter. 8 -- res = 0.19888E+06, tol = 0.51547E+04, time = 3.17 | CG iter. 9 -- res = 0.10439E+06, tol = 0.51547E+04, time = 3.20 | CG iter. 10 -- res = 0.50512E+05, tol = 0.51547E+04, time = 3.18 | CG iter. 11 -- res = 0.26969E+05, tol = 0.51547E+04, time = 3.28 | CG iter. 12 -- res = 0.15460E+05, tol = 0.51547E+04, time = 3.20 | CG iter. 13 -- res = 0.10141E+05, tol = 0.51547E+04, time = 3.15 | CG iter. 14 -- res = 0.81039E+04, tol = 0.51547E+04, time = 3.06 | CG iter. 15 -- res = 0.66521E+04, tol = 0.51547E+04, time = 3.11 | CG iter. 16 -- res = 0.56976E+04, tol = 0.51547E+04, time = 3.21 | CG iter. 17 -- res = 0.48579E+04, tol = 0.51547E+04, time = 3.23 | CG iter. 18 -- res = 0.46314E+04, tol = 0.51547E+04, time = 3.05 | CG iter. 19 -- res = 0.50286E+04, tol = 0.51547E+04, time = 3.14 | CG iter. 20 -- res = 0.54764E+04, tol = 0.51547E+04, time = 3.10 | CG iter. 21 -- res = 0.50528E+04, tol = 0.51547E+04, time = 3.11 | CG iter. 22 -- res = 0.36727E+04, tol = 0.51547E+04, time = 3.17 | CG iter. 23 -- res = 0.25648E+04, tol = 0.51547E+04, time = 3.19 | CG iter. 24 -- res = 0.20517E+04, tol = 0.51547E+04, time = 3.17 | CG iter. 25 -- res = 0.18710E+04, tol = 0.51547E+04, time = 3.15 | CG iter. 26 -- res = 0.16797E+04, tol = 0.51547E+04, time = 3.15 | CG iter. 27 -- res = 0.13444E+04, tol = 0.51547E+04, time = 3.08 | CG iter. 28 -- res = 0.10652E+04, tol = 0.51547E+04, time = 3.13 | CG iter. 29 -- res = 0.96621E+03, tol = 0.51547E+04, time = 3.02 | CG iter. 30 -- res = 0.10334E+04, tol = 0.51547E+04, time = 3.08 | CG iter. 31 -- res = 0.11155E+04, tol = 0.51547E+04, time = 3.14 | CG iter. 32 -- res = 0.10463E+04, tol = 0.51547E+04, time = 3.12 | CG iter. 33 -- res = 0.85377E+03, tol = 0.51547E+04, time = 3.15 | CG iter. 34 -- res = 0.71287E+03, tol = 0.51547E+04, time = 3.11 | CG iter. 35 -- res = 0.68056E+03, tol = 0.51547E+04, time = 3.15 | CG iter. 36 -- res = 0.69600E+03, tol = 0.51547E+04, time = 3.06 | CG iter. 37 -- res = 0.67753E+03, tol = 0.51547E+04, time = 3.07 | CG iter. 38 -- res = 0.60525E+03, tol = 0.51547E+04, time = 3.19 | CG iter. 39 -- res = 0.54997E+03, tol = 0.51547E+04, time = 3.11 | CG iter. 40 -- res = 0.55259E+03, tol = 0.51547E+04, time = 3.05 | CG iter. 41 -- res = 0.60493E+03, tol = 0.51547E+04, time = 3.15 | CG iter. 42 -- res = 0.63702E+03, tol = 0.51547E+04, time = 3.10 | CG iter. 43 -- res = 0.62110E+03, tol = 0.51547E+04, time = 3.05 | CG iter. 44 -- res = 0.58726E+03, tol = 0.51547E+04, time = 3.09 | CG iter. 45 -- res = 0.57172E+03, tol = 0.51547E+04, time = 3.08 | CG iter. 46 -- res = 0.57896E+03, tol = 0.51547E+04, time = 3.18 | CG iter. 47 -- res = 0.58383E+03, tol = 0.51547E+04, time = 3.10 | CG iter. 48 -- res = 0.57414E+03, tol = 0.51547E+04, time = 3.09 | CG iter. 49 -- res = 0.55382E+03, tol = 0.51547E+04, time = 3.11 | CG iter. 50 -- res = 0.54672E+03, tol = 0.51547E+04, time = 3.12 | CG iter. 51 -- res = 0.54901E+03, tol = 0.51547E+04, time = 3.09 | CG iter. 52 -- res = 0.55430E+03, tol = 0.51547E+04, time = 3.20 | CG iter. 53 -- res = 0.55564E+03, tol = 0.51547E+04, time = 3.19 | CG iter. 54 -- res = 0.55392E+03, tol = 0.51547E+04, time = 3.17 | CG iter. 55 -- res = 0.54000E+03, tol = 0.51547E+04, time = 3.19 | CG iter. 56 -- res = 0.51087E+03, tol = 0.51547E+04, time = 3.33 | CG iter. 57 -- res = 0.49276E+03, tol = 0.51547E+04, time = 3.19 | CG iter. 58 -- res = 0.49173E+03, tol = 0.51547E+04, time = 3.12 | CG iter. 59 -- res = 0.50337E+03, tol = 0.51547E+04, time = 3.09 | CG iter. 60 -- res = 0.49612E+03, tol = 0.51547E+04, time = 3.09 | Final CG iter 61 -- res = 0.49612E+03, tol = 0.51547E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 2.241 ( -231.240 -2233.768 2515.914 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 10787855.616 | Old band monopole 11164189.815 | Change to band monopole -376334.200 | Change to component monopole 376332.581 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 1.592 2.757 | New value 0.188 | Old value 1.592 | Difference -1.405 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -3.286 ( 7.170 10.330 -11.578 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 6.359 2.300 | New value -0.757 | Old value 6.359 | Difference -7.116 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 4.22 | CG iter. 1 -- res = 0.11943E+06, tol = 0.47627E+18, time = 0.37 | CG iter. 2 -- res = 0.47772E+02, tol = 0.47627E+18, time = 0.40 | CG iter. 3 -- res = 0.13691E+01, tol = 0.47627E+18, time = 0.43 | CG iter. 4 -- res = 0.18779E-02, tol = 0.47627E+18, time = 0.36 | Final CG iter 5 -- res = 0.17461E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10787809.215 | (Sampled value in CG: 10734162.352 ) | Chain = 1 -- chisq = 0.61925740E+09 | Chain = 1 -- wall time = 4120.400 sec --------------------------------------------------------------------- | Chain = 1 -- Iteration = 54 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18177229889231 | --> Sampling calibration, mode = relcal | relcal = -7.4932575E-02 -5.8377389E-02 9.1800734E-02 4.1509233E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.0532133E-04 4.4344463E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.1390E-05 | 2: delta_r/delta_0: 8.0575E-07 | 3: delta_s/delta_0: 2.4969E-07 | 4: delta_r/delta_0: 1.3014E-08 | 5: delta_s/delta_0: 3.1933E-09 | 6: delta_r/delta_0: 9.8633E-10 | 7: delta_s/delta_0: 2.6507E-09 | 8: delta_r/delta_0: 7.7296E-10 | 9: delta_s/delta_0: 3.9844E-09 | 10: delta_r/delta_0: 3.8988E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 9.721449492174951E-004 2.739328411055427E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.1388E-05 | 2: delta_r/delta_0: 8.0563E-07 | 3: delta_s/delta_0: 2.4966E-07 | 4: delta_r/delta_0: 1.3010E-08 | 5: delta_s/delta_0: 3.1971E-09 | 6: delta_r/delta_0: 9.8139E-10 | 7: delta_s/delta_0: 2.6408E-09 | 8: delta_r/delta_0: 7.6576E-10 | 9: delta_s/delta_0: 3.9372E-09 | 10: delta_r/delta_0: 3.8974E-11 | Reached bicg-stab tolerance | BP delta = 5.3785970E-03 1.1649595E-02 3816857.20600814 | BP delta = 5.3785970E-03 1.3098350E-02 3807682.18220308 | BP chisq diff = -9175.0, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02537220 | --> Sampling calibration, mode = relcal | relcal = -0.1065604 -9.5466159E-02 0.1447848 5.7241756E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.9527668E-03 1.4103195E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 3.3531E-04 | 2: delta_r/delta_0: 7.3452E-06 | 3: delta_s/delta_0: 2.4374E-06 | 4: delta_r/delta_0: 2.3020E-07 | 5: delta_s/delta_0: 8.1333E-08 | 6: delta_r/delta_0: 5.4520E-09 | 7: delta_s/delta_0: 3.2515E-09 | 8: delta_r/delta_0: 1.4804E-09 | 9: delta_s/delta_0: 8.8169E-09 | 10: delta_r/delta_0: 4.0752E-10 | 11: delta_s/delta_0: 1.3115E-10 | 12: delta_r/delta_0: 9.6233E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -7.575256103658248E-003 2.812543068336496E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 3.3530E-04 | 2: delta_r/delta_0: 7.3449E-06 | 3: delta_s/delta_0: 2.4374E-06 | 4: delta_r/delta_0: 2.3020E-07 | 5: delta_s/delta_0: 8.1324E-08 | 6: delta_r/delta_0: 5.4518E-09 | 7: delta_s/delta_0: 3.2515E-09 | 8: delta_r/delta_0: 1.4805E-09 | 9: delta_s/delta_0: 8.8122E-09 | 10: delta_r/delta_0: 4.0756E-10 | 11: delta_s/delta_0: 1.3116E-10 | 12: delta_r/delta_0: 9.6248E-11 | Reached bicg-stab tolerance | BP delta = -0.1891385 -0.1754635 2841920.58544707 | BP delta = -0.1891385 -0.1765440 2841841.38612930 | BP chisq diff = -79.2, accept = T | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81157881 | --> Sampling calibration, mode = relcal | relcal = 0.2953699 0.2244792 -0.2835295 -0.2363195 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 5.8095186E-04 6.4651673E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 9.2374E-04 | 2: delta_r/delta_0: 2.1061E-05 | 3: delta_s/delta_0: 2.5677E-05 | 4: delta_r/delta_0: 2.5385E-06 | 5: delta_s/delta_0: 4.6923E-07 | 6: delta_r/delta_0: 8.1474E-08 | 7: delta_s/delta_0: 5.9207E-08 | 8: delta_r/delta_0: 2.9923E-08 | 9: delta_s/delta_0: 2.1926E-07 | 10: delta_r/delta_0: 1.8482E-09 | 11: delta_s/delta_0: 8.1250E-10 | 12: delta_r/delta_0: 4.2319E-10 | 13: delta_s/delta_0: 1.4587E-06 | 14: delta_r/delta_0: 1.5093E-07 | 15: delta_s/delta_0: 3.8377E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.862825610034114E-002 4.024912599276294E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 9.2342E-04 | 2: delta_r/delta_0: 2.1053E-05 | 3: delta_s/delta_0: 2.5685E-05 | 4: delta_r/delta_0: 2.5392E-06 | 5: delta_s/delta_0: 4.6905E-07 | 6: delta_r/delta_0: 8.1466E-08 | 7: delta_s/delta_0: 5.9208E-08 | 8: delta_r/delta_0: 2.9920E-08 | 9: delta_s/delta_0: 2.1898E-07 | 10: delta_r/delta_0: 1.8488E-09 | 11: delta_s/delta_0: 8.1244E-10 | 12: delta_r/delta_0: 4.2338E-10 | 13: delta_s/delta_0: 1.3175E-06 | 14: delta_r/delta_0: 1.3614E-07 | 15: delta_s/delta_0: 3.8385E-11 | Reached bicg-stab tolerance | BP delta = -7.5189099E-02 -0.1067974 2827500.05151890 | BP delta = -7.5189099E-02 -0.1019774 2827547.26931644 | 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 = 0.95844016 | --> Sampling calibration, mode = relcal | relcal = 0.1063722 0.1394518 -0.1101513 -0.1356727 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0387655E-02 1.3383370E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.2742E-03 | 2: delta_r/delta_0: 5.3452E-05 | 3: delta_s/delta_0: 4.9064E-06 | 4: delta_r/delta_0: 4.6001E-07 | 5: delta_s/delta_0: 8.2934E-06 | 6: delta_r/delta_0: 2.2437E-07 | 7: delta_s/delta_0: 5.8618E-08 | 8: delta_r/delta_0: 4.0916E-08 | 9: delta_s/delta_0: 5.8771E-07 | 10: delta_r/delta_0: 9.8825E-09 | 11: delta_s/delta_0: 1.5398E-09 | 12: delta_r/delta_0: 1.0368E-09 | 13: delta_s/delta_0: 1.2480E-08 | 14: delta_r/delta_0: 2.3959E-09 | 15: delta_s/delta_0: 5.0019E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.094342752603348E-002 3.699911289279620E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 2.2775E-03 | 2: delta_r/delta_0: 5.3531E-05 | 3: delta_s/delta_0: 4.9115E-06 | 4: delta_r/delta_0: 4.6051E-07 | 5: delta_s/delta_0: 8.3002E-06 | 6: delta_r/delta_0: 2.2471E-07 | 7: delta_s/delta_0: 5.8645E-08 | 8: delta_r/delta_0: 4.0915E-08 | 9: delta_s/delta_0: 5.8424E-07 | 10: delta_r/delta_0: 9.8926E-09 | 11: delta_s/delta_0: 1.5408E-09 | 12: delta_r/delta_0: 1.0371E-09 | 13: delta_s/delta_0: 1.4226E-08 | 14: delta_r/delta_0: 2.5842E-09 | 15: delta_s/delta_0: 4.9862E-11 | Reached bicg-stab tolerance | BP delta = 0.2752544 0.3053988 3005228.67016936 | BP delta = 0.2752544 0.2831934 3005341.75331832 | 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 = 0.52110935 | --> Sampling calibration, mode = relcal | relcal = -5.0938509E-02 -3.8004953E-03 2.7277762E-02 2.7461244E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -5.2587147E-04 9.6282100E-05 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.5940E-05 | 2: delta_r/delta_0: 4.6282E-06 | 3: delta_s/delta_0: 9.2053E-05 | 4: delta_r/delta_0: 7.5412E-06 | 5: delta_s/delta_0: 4.8126E-08 | 6: delta_r/delta_0: 2.3552E-08 | 7: delta_s/delta_0: 4.4153E-08 | 8: delta_r/delta_0: 7.6763E-09 | 9: delta_s/delta_0: 2.7157E-09 | 10: delta_r/delta_0: 9.4553E-10 | 11: delta_s/delta_0: 9.0630E-10 | 12: delta_r/delta_0: 6.1007E-10 | 13: delta_s/delta_0: 5.8727E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.029890337078736E-002 5.488211766161763E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 6.5939E-05 | 2: delta_r/delta_0: 4.6282E-06 | 3: delta_s/delta_0: 9.2075E-05 | 4: delta_r/delta_0: 7.5436E-06 | 5: delta_s/delta_0: 4.8127E-08 | 6: delta_r/delta_0: 2.3553E-08 | 7: delta_s/delta_0: 4.4151E-08 | 8: delta_r/delta_0: 7.6766E-09 | 9: delta_s/delta_0: 2.7158E-09 | 10: delta_r/delta_0: 9.4549E-10 | 11: delta_s/delta_0: 9.0583E-10 | 12: delta_r/delta_0: 6.0979E-10 | 13: delta_s/delta_0: 5.8660E-11 | Reached bicg-stab tolerance | BP delta = -6.0133576E-02 3.2437045E-02 2435622.95030671 | BP delta = -6.0133576E-02 3.4205403E-02 2435628.56968683 | 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 = 0.42113538 | --> Sampling calibration, mode = relcal | relcal = 4.5526918E-02 3.9576184E-02 -2.8242737E-02 -5.6860369E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.8876359E-03 5.0611775E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.2366E-05 | 2: delta_r/delta_0: 3.8891E-06 | 3: delta_s/delta_0: 6.0724E-06 | 4: delta_r/delta_0: 8.9307E-07 | 5: delta_s/delta_0: 5.5788E-08 | 6: delta_r/delta_0: 3.6780E-08 | 7: delta_s/delta_0: 3.0870E-08 | 8: delta_r/delta_0: 1.4776E-08 | 9: delta_s/delta_0: 9.4191E-09 | 10: delta_r/delta_0: 7.8887E-10 | 11: delta_s/delta_0: 5.5953E-10 | 12: delta_r/delta_0: 3.9439E-10 | 13: delta_s/delta_0: 1.7948E-10 | 14: delta_r/delta_0: 1.1053E-10 | 15: delta_s/delta_0: 2.9040E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.388412873720109E-002 5.000882807030601E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 6.2366E-05 | 2: delta_r/delta_0: 3.8890E-06 | 3: delta_s/delta_0: 6.0721E-06 | 4: delta_r/delta_0: 8.9304E-07 | 5: delta_s/delta_0: 5.5788E-08 | 6: delta_r/delta_0: 3.6780E-08 | 7: delta_s/delta_0: 3.0873E-08 | 8: delta_r/delta_0: 1.4776E-08 | 9: delta_s/delta_0: 9.4211E-09 | 10: delta_r/delta_0: 7.8967E-10 | 11: delta_s/delta_0: 5.5955E-10 | 12: delta_r/delta_0: 3.9450E-10 | 13: delta_s/delta_0: 1.7939E-10 | 14: delta_r/delta_0: 1.1059E-10 | 15: delta_s/delta_0: 2.9040E-11 | Reached bicg-stab tolerance | BP delta = -0.1545400 -0.1590171 2322619.52496711 | BP delta = -0.1545400 -0.1794506 2322483.40822078 | BP chisq diff = -136.1, accept = T | | Finished processing 060-WMAP_V2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.28137444 | --> Sampling calibration, mode = relcal | relcal = 2.4186229E-02 4.5018964E-02 -2.3281598E-02 -4.5923591E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0240193E-02 2.1729032E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.0733E-04 | 2: delta_r/delta_0: 8.7792E-06 | 3: delta_s/delta_0: 1.3929E-06 | 4: delta_r/delta_0: 1.7890E-07 | 5: delta_s/delta_0: 6.0192E-08 | 6: delta_r/delta_0: 1.4425E-08 | 7: delta_s/delta_0: 6.9101E-09 | 8: delta_r/delta_0: 4.3306E-09 | 9: delta_s/delta_0: 8.3849E-08 | 10: delta_r/delta_0: 4.6484E-09 | 11: delta_s/delta_0: 1.2445E-09 | 12: delta_r/delta_0: 5.1619E-10 | 13: delta_s/delta_0: 4.5924E-10 | 14: delta_r/delta_0: 1.9681E-10 | 15: delta_s/delta_0: 9.4161E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.065481488331202E-003 7.850178481639845E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.0733E-04 | 2: delta_r/delta_0: 8.7792E-06 | 3: delta_s/delta_0: 1.3929E-06 | 4: delta_r/delta_0: 1.7890E-07 | 5: delta_s/delta_0: 6.0191E-08 | 6: delta_r/delta_0: 1.4425E-08 | 7: delta_s/delta_0: 6.9102E-09 | 8: delta_r/delta_0: 4.3306E-09 | 9: delta_s/delta_0: 8.3851E-08 | 10: delta_r/delta_0: 4.6484E-09 | 11: delta_s/delta_0: 1.2446E-09 | 12: delta_r/delta_0: 5.1622E-10 | 13: delta_s/delta_0: 4.5873E-10 | 14: delta_r/delta_0: 1.9661E-10 | 15: delta_s/delta_0: 9.4161E-11 | Reached bicg-stab tolerance | BP delta = 4.0829189E-02 -7.9066195E-02 2489881.69866367 | BP delta = 4.0829189E-02 -8.0903426E-02 2489885.02855279 | 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 = 0.29365549 | --> Sampling calibration, mode = relcal | relcal = 4.7925417E-04 1.0306588E-02 -3.7374983E-03 -7.0483442E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.4337252E-02 1.5895961E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.3129E-04 | 2: delta_r/delta_0: 1.1243E-05 | 3: delta_s/delta_0: 1.7755E-06 | 4: delta_r/delta_0: 2.7516E-07 | 5: delta_s/delta_0: 1.1436E-07 | 6: delta_r/delta_0: 2.2525E-08 | 7: delta_s/delta_0: 9.8078E-09 | 8: delta_r/delta_0: 6.7322E-09 | 9: delta_s/delta_0: 4.6495E-09 | 10: delta_r/delta_0: 2.3102E-09 | 11: delta_s/delta_0: 5.8092E-06 | 12: delta_r/delta_0: 1.0075E-09 | 13: delta_s/delta_0: 7.6273E-10 | 14: delta_r/delta_0: 3.0216E-10 | 15: delta_s/delta_0: 2.3617E-10 | 16: delta_r/delta_0: 1.2171E-10 | 17: delta_s/delta_0: 6.9244E-10 | 18: delta_r/delta_0: 1.1832E-10 | 19: delta_s/delta_0: 9.1757E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.562746821032822E-003 8.314157038860815E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.3129E-04 | 2: delta_r/delta_0: 1.1243E-05 | 3: delta_s/delta_0: 1.7754E-06 | 4: delta_r/delta_0: 2.7515E-07 | 5: delta_s/delta_0: 1.1435E-07 | 6: delta_r/delta_0: 2.2524E-08 | 7: delta_s/delta_0: 9.8077E-09 | 8: delta_r/delta_0: 6.7322E-09 | 9: delta_s/delta_0: 4.6495E-09 | 10: delta_r/delta_0: 2.3100E-09 | 11: delta_s/delta_0: 5.8110E-06 | 12: delta_r/delta_0: 1.0080E-09 | 13: delta_s/delta_0: 7.6306E-10 | 14: delta_r/delta_0: 3.0226E-10 | 15: delta_s/delta_0: 2.3614E-10 | 16: delta_r/delta_0: 1.2170E-10 | 17: delta_s/delta_0: 6.9236E-10 | 18: delta_r/delta_0: 1.1833E-10 | 19: delta_s/delta_0: 9.1767E-11 | Reached bicg-stab tolerance | BP delta = -0.6956104 -0.6636554 2737967.98036002 | BP delta = -0.6956104 -0.6559163 2737969.26811535 | 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 = 0.26481134 | --> Sampling calibration, mode = relcal | relcal = -5.5510709E-03 1.4929133E-02 -2.3157385E-03 -7.0623243E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -1.1889092E-03 2.5656670E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4215E-04 | 2: delta_r/delta_0: 1.2152E-05 | 3: delta_s/delta_0: 2.0533E-06 | 4: delta_r/delta_0: 2.3957E-07 | 5: delta_s/delta_0: 8.8329E-08 | 6: delta_r/delta_0: 1.8321E-08 | 7: delta_s/delta_0: 7.3853E-09 | 8: delta_r/delta_0: 4.6570E-09 | 9: delta_s/delta_0: 6.4702E-09 | 10: delta_r/delta_0: 3.7452E-09 | 11: delta_s/delta_0: 7.6325E-08 | 12: delta_r/delta_0: 7.9391E-09 | 13: delta_s/delta_0: 9.1094E-09 | 14: delta_r/delta_0: 3.4524E-09 | 15: delta_s/delta_0: 8.3803E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -7.784527495023020E-003 9.162121784937780E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.4215E-04 | 2: delta_r/delta_0: 1.2152E-05 | 3: delta_s/delta_0: 2.0533E-06 | 4: delta_r/delta_0: 2.3956E-07 | 5: delta_s/delta_0: 8.8331E-08 | 6: delta_r/delta_0: 1.8321E-08 | 7: delta_s/delta_0: 7.3850E-09 | 8: delta_r/delta_0: 4.6569E-09 | 9: delta_s/delta_0: 6.4699E-09 | 10: delta_r/delta_0: 3.7451E-09 | 11: delta_s/delta_0: 7.6334E-08 | 12: delta_r/delta_0: 7.9400E-09 | 13: delta_s/delta_0: 9.1119E-09 | 14: delta_r/delta_0: 3.4538E-09 | 15: delta_s/delta_0: 8.3809E-11 | Reached bicg-stab tolerance | BP delta = 0.2188467 0.2423885 2516672.82286317 | BP delta = 0.2188467 0.2492543 2516672.79216242 | 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 = 0.25641911 | --> Sampling calibration, mode = relcal | relcal = -3.1706952E-02 -2.5954111E-02 3.7013680E-02 2.0647382E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.0489424E-02 1.5384666E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4624E-04 | 2: delta_r/delta_0: 1.2003E-05 | 3: delta_s/delta_0: 1.7443E-06 | 4: delta_r/delta_0: 4.6054E-07 | 5: delta_s/delta_0: 1.6663E-07 | 6: delta_r/delta_0: 2.9583E-08 | 7: delta_s/delta_0: 1.2282E-08 | 8: delta_r/delta_0: 6.9116E-09 | 9: delta_s/delta_0: 7.5265E-06 | 10: delta_r/delta_0: 8.5725E-08 | 11: delta_s/delta_0: 2.2009E-08 | 12: delta_r/delta_0: 1.0747E-08 | 13: delta_s/delta_0: 3.1322E-10 | 14: delta_r/delta_0: 1.9313E-10 | 15: delta_s/delta_0: 1.1188E-10 | 16: delta_r/delta_0: 8.5446E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -8.836747470426190E-003 8.679638349560349E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.4624E-04 | 2: delta_r/delta_0: 1.2003E-05 | 3: delta_s/delta_0: 1.7442E-06 | 4: delta_r/delta_0: 4.6048E-07 | 5: delta_s/delta_0: 1.6663E-07 | 6: delta_r/delta_0: 2.9578E-08 | 7: delta_s/delta_0: 1.2280E-08 | 8: delta_r/delta_0: 6.9109E-09 | 9: delta_s/delta_0: 7.5423E-06 | 10: delta_r/delta_0: 8.5866E-08 | 11: delta_s/delta_0: 2.2014E-08 | 12: delta_r/delta_0: 1.0752E-08 | 13: delta_s/delta_0: 3.1322E-10 | 14: delta_r/delta_0: 1.9312E-10 | 15: delta_s/delta_0: 1.1188E-10 | 16: delta_r/delta_0: 8.5449E-11 | Reached bicg-stab tolerance | BP delta = -0.5887655 -0.6655239 2705905.14709553 | BP delta = -0.5887655 -0.6728380 2705881.06667593 | BP chisq diff = -24.1, 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 = -3.082077 | New value = -3.165520 | poltype: 2 pol: 1 CPU time specind = 1.9268990E-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 = -3.046180 | New value = -3.176137 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.170303 | New value = -3.038763 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.172340 | New value = -3.133614 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.194968 | New value = -3.022125 | poltype: 2 pol: 2 CPU time specind = 1.2919903E-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 = 4.10 | CG iter. 1 -- res = 0.13537E+08, tol = 0.64711E+01, time = 1.61 | CG iter. 2 -- res = 0.54368E+05, tol = 0.64711E+01, time = 1.50 | CG iter. 3 -- res = 0.58847E+05, tol = 0.64711E+01, time = 1.55 | CG iter. 4 -- res = 0.30271E+05, tol = 0.64711E+01, time = 1.56 | CG iter. 5 -- res = 0.35363E+05, tol = 0.64711E+01, time = 1.57 | CG iter. 6 -- res = 0.34738E+05, tol = 0.64711E+01, time = 1.55 | CG iter. 7 -- res = 0.27368E+05, tol = 0.64711E+01, time = 1.51 | CG iter. 8 -- res = 0.20812E+05, tol = 0.64711E+01, time = 1.62 | CG iter. 9 -- res = 0.19616E+05, tol = 0.64711E+01, time = 1.53 | CG iter. 10 -- res = 0.19160E+05, tol = 0.64711E+01, time = 1.53 | CG iter. 11 -- res = 0.11934E+05, tol = 0.64711E+01, time = 1.56 | CG iter. 12 -- res = 0.73933E+04, tol = 0.64711E+01, time = 1.59 | CG iter. 13 -- res = 0.72909E+04, tol = 0.64711E+01, time = 1.55 | CG iter. 14 -- res = 0.62163E+04, tol = 0.64711E+01, time = 1.55 | CG iter. 15 -- res = 0.45086E+04, tol = 0.64711E+01, time = 1.60 | CG iter. 16 -- res = 0.28141E+04, tol = 0.64711E+01, time = 1.51 | CG iter. 17 -- res = 0.23488E+04, tol = 0.64711E+01, time = 1.57 | CG iter. 18 -- res = 0.17855E+04, tol = 0.64711E+01, time = 1.53 | CG iter. 19 -- res = 0.14320E+04, tol = 0.64711E+01, time = 1.53 | CG iter. 20 -- res = 0.10355E+04, tol = 0.64711E+01, time = 1.53 | CG iter. 21 -- res = 0.88968E+03, tol = 0.64711E+01, time = 1.46 | CG iter. 22 -- res = 0.80258E+03, tol = 0.64711E+01, time = 1.51 | CG iter. 23 -- res = 0.60643E+03, tol = 0.64711E+01, time = 1.50 | CG iter. 24 -- res = 0.45403E+03, tol = 0.64711E+01, time = 1.54 | CG iter. 25 -- res = 0.39066E+03, tol = 0.64711E+01, time = 1.58 | CG iter. 26 -- res = 0.31729E+03, tol = 0.64711E+01, time = 1.57 | CG iter. 27 -- res = 0.26904E+03, tol = 0.64711E+01, time = 1.58 | CG iter. 28 -- res = 0.22110E+03, tol = 0.64711E+01, time = 1.53 | CG iter. 29 -- res = 0.19576E+03, tol = 0.64711E+01, time = 1.58 | CG iter. 30 -- res = 0.16028E+03, tol = 0.64711E+01, time = 1.58 | CG iter. 31 -- res = 0.12450E+03, tol = 0.64711E+01, time = 1.56 | CG iter. 32 -- res = 0.10186E+03, tol = 0.64711E+01, time = 1.56 | CG iter. 33 -- res = 0.92717E+02, tol = 0.64711E+01, time = 1.53 | CG iter. 34 -- res = 0.80087E+02, tol = 0.64711E+01, time = 1.54 | CG iter. 35 -- res = 0.61299E+02, tol = 0.64711E+01, time = 1.56 | CG iter. 36 -- res = 0.51911E+02, tol = 0.64711E+01, time = 1.58 | CG iter. 37 -- res = 0.48141E+02, tol = 0.64711E+01, time = 1.61 | CG iter. 38 -- res = 0.40293E+02, tol = 0.64711E+01, time = 1.58 | CG iter. 39 -- res = 0.49108E+02, tol = 0.64711E+01, time = 1.51 | CG iter. 40 -- res = 0.32042E+02, tol = 0.64711E+01, time = 1.53 | CG iter. 41 -- res = 0.24298E+02, tol = 0.64711E+01, time = 1.51 | CG iter. 42 -- res = 0.17705E+02, tol = 0.64711E+01, time = 1.58 | CG iter. 43 -- res = 0.14485E+02, tol = 0.64711E+01, time = 1.54 | CG iter. 44 -- res = 0.15476E+02, tol = 0.64711E+01, time = 1.55 | CG iter. 45 -- res = 0.19123E+02, tol = 0.64711E+01, time = 1.51 | CG iter. 46 -- res = 0.99565E+01, tol = 0.64711E+01, time = 1.55 | CG iter. 47 -- res = 0.73259E+01, tol = 0.64711E+01, time = 1.56 | CG iter. 48 -- res = 0.64466E+01, tol = 0.64711E+01, time = 1.54 | CG iter. 49 -- res = 0.51419E+01, tol = 0.64711E+01, time = 1.51 | CG iter. 50 -- res = 0.40107E+01, tol = 0.64711E+01, time = 1.55 | Final CG iter 51 -- res = 0.40107E+01, tol = 0.64711E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 6926810.840 | Old band monopole 10787855.616 | Change to band monopole -3861044.776 | Change to component monopole 3861028.168 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 4.11 | CG iter. 1 -- res = 0.19758E+05, tol = 0.47627E+18, time = 0.40 | CG iter. 2 -- res = 0.35190E+02, tol = 0.47627E+18, time = 0.41 | CG iter. 3 -- res = 0.11179E+01, tol = 0.47627E+18, time = 0.39 | CG iter. 4 -- res = 0.16964E-03, tol = 0.47627E+18, time = 0.37 | Final CG iter 5 -- res = 0.30681E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 6926781.047 | (Sampled value in CG: 6884023.876 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.514026 | New value = 1.539669 | poltype: 2 pol: 1 CPU time specind = 4.0998459E-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 = 1.526365 | New value = 1.481764 | poltype: 2 pol: 2 CPU time specind = 1.1348724E-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 = 4.12 | CG iter. 1 -- res = 0.24190E+08, tol = 0.47663E+04, time = 1.80 | CG iter. 2 -- res = 0.53144E+07, tol = 0.47663E+04, time = 1.76 | CG iter. 3 -- res = 0.85547E+06, tol = 0.47663E+04, time = 1.83 | CG iter. 4 -- res = 0.36582E+06, tol = 0.47663E+04, time = 1.75 | CG iter. 5 -- res = 0.16023E+06, tol = 0.47663E+04, time = 1.79 | CG iter. 6 -- res = 0.82630E+05, tol = 0.47663E+04, time = 1.78 | CG iter. 7 -- res = 0.44426E+05, tol = 0.47663E+04, time = 1.71 | CG iter. 8 -- res = 0.21351E+05, tol = 0.47663E+04, time = 1.73 | CG iter. 9 -- res = 0.91867E+04, tol = 0.47663E+04, time = 1.75 | CG iter. 10 -- res = 0.37057E+04, tol = 0.47663E+04, time = 1.78 | CG iter. 11 -- res = 0.16939E+04, tol = 0.47663E+04, time = 1.81 | CG iter. 12 -- res = 0.87797E+03, tol = 0.47663E+04, time = 1.79 | CG iter. 13 -- res = 0.49996E+03, tol = 0.47663E+04, time = 1.75 | CG iter. 14 -- res = 0.28012E+03, tol = 0.47663E+04, time = 1.81 | CG iter. 15 -- res = 0.14607E+03, tol = 0.47663E+04, time = 1.79 | CG iter. 16 -- res = 0.69615E+02, tol = 0.47663E+04, time = 1.84 | CG iter. 17 -- res = 0.32192E+02, tol = 0.47663E+04, time = 1.74 | CG iter. 18 -- res = 0.16718E+02, tol = 0.47663E+04, time = 1.75 | CG iter. 19 -- res = 0.91892E+01, tol = 0.47663E+04, time = 1.79 | CG iter. 20 -- res = 0.52257E+01, tol = 0.47663E+04, time = 1.73 | CG iter. 21 -- res = 0.28376E+01, tol = 0.47663E+04, time = 1.80 | CG iter. 22 -- res = 0.14421E+01, tol = 0.47663E+04, time = 1.82 | CG iter. 23 -- res = 0.71292E+00, tol = 0.47663E+04, time = 1.84 | CG iter. 24 -- res = 0.36089E+00, tol = 0.47663E+04, time = 1.80 | CG iter. 25 -- res = 0.19641E+00, tol = 0.47663E+04, time = 1.80 | CG iter. 26 -- res = 0.11392E+00, tol = 0.47663E+04, time = 1.80 | CG iter. 27 -- res = 0.63937E-01, tol = 0.47663E+04, time = 1.81 | CG iter. 28 -- res = 0.35049E-01, tol = 0.47663E+04, time = 1.75 | CG iter. 29 -- res = 0.18637E-01, tol = 0.47663E+04, time = 1.78 | CG iter. 30 -- res = 0.97686E-02, tol = 0.47663E+04, time = 1.73 | CG iter. 31 -- res = 0.53153E-02, tol = 0.47663E+04, time = 1.82 | CG iter. 32 -- res = 0.29834E-02, tol = 0.47663E+04, time = 1.77 | CG iter. 33 -- res = 0.16898E-02, tol = 0.47663E+04, time = 1.79 | CG iter. 34 -- res = 0.88998E-03, tol = 0.47663E+04, time = 1.84 | CG iter. 35 -- res = 0.45827E-03, tol = 0.47663E+04, time = 1.78 | Final CG iter 36 -- res = 0.45827E-03, tol = 0.47663E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 0.153 2.726 | New value -4.823 | Old value 0.153 | Difference -4.977 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 4.10 | CG iter. 1 -- res = 0.12794E+07, tol = 0.47627E+18, time = 0.37 | CG iter. 2 -- res = 0.40123E+02, tol = 0.47627E+18, time = 0.39 | CG iter. 3 -- res = 0.12279E+01, tol = 0.47627E+18, time = 0.40 | CG iter. 4 -- res = 0.22039E-03, tol = 0.47627E+18, time = 0.37 | Final CG iter 5 -- res = 0.16848E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 6926781.047 | (Sampled value in CG: 6883398.616 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.698045 | New value = -3.353599 | poltype: 1 pol: 1 CPU time specind = 2.2330284E-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 = 4.11 | CG iter. 1 -- res = 0.29655E+07, tol = 0.15768E+01, time = 0.65 | CG iter. 2 -- res = 0.14877E+06, tol = 0.15768E+01, time = 0.67 | CG iter. 3 -- res = 0.10436E+06, tol = 0.15768E+01, time = 0.64 | CG iter. 4 -- res = 0.29631E+05, tol = 0.15768E+01, time = 0.68 | CG iter. 5 -- res = 0.61750E+04, tol = 0.15768E+01, time = 0.68 | CG iter. 6 -- res = 0.28674E+04, tol = 0.15768E+01, time = 0.65 | CG iter. 7 -- res = 0.91916E+03, tol = 0.15768E+01, time = 0.69 | CG iter. 8 -- res = 0.47835E+03, tol = 0.15768E+01, time = 0.67 | CG iter. 9 -- res = 0.14040E+03, tol = 0.15768E+01, time = 0.67 | CG iter. 10 -- res = 0.44091E+02, tol = 0.15768E+01, time = 0.62 | CG iter. 11 -- res = 0.17849E+02, tol = 0.15768E+01, time = 0.64 | CG iter. 12 -- res = 0.64734E+01, tol = 0.15768E+01, time = 0.64 | CG iter. 13 -- res = 0.27221E+01, tol = 0.15768E+01, time = 0.63 | CG iter. 14 -- res = 0.84854E+00, tol = 0.15768E+01, time = 0.64 | CG iter. 15 -- res = 0.34962E+00, tol = 0.15768E+01, time = 0.61 | CG iter. 16 -- res = 0.11131E+00, tol = 0.15768E+01, time = 0.63 | CG iter. 17 -- res = 0.32982E-01, tol = 0.15768E+01, time = 0.64 | CG iter. 18 -- res = 0.13787E-01, tol = 0.15768E+01, time = 0.63 | CG iter. 19 -- res = 0.76783E-02, tol = 0.15768E+01, time = 0.64 | CG iter. 20 -- res = 0.23265E-02, tol = 0.15768E+01, time = 0.64 | CG iter. 21 -- res = 0.70358E-03, tol = 0.15768E+01, time = 0.65 | CG iter. 22 -- res = 0.26928E-03, tol = 0.15768E+01, time = 0.63 | CG iter. 23 -- res = 0.88738E-04, tol = 0.15768E+01, time = 0.63 | CG iter. 24 -- res = 0.31147E-04, tol = 0.15768E+01, time = 0.63 | CG iter. 25 -- res = 0.94925E-05, tol = 0.15768E+01, time = 0.64 | CG iter. 26 -- res = 0.33023E-05, tol = 0.15768E+01, time = 0.67 | CG iter. 27 -- res = 0.12435E-05, tol = 0.15768E+01, time = 0.64 | CG iter. 28 -- res = 0.40366E-06, tol = 0.15768E+01, time = 0.58 | CG iter. 29 -- res = 0.13038E-06, tol = 0.15768E+01, time = 0.65 | CG iter. 30 -- res = 0.37177E-07, tol = 0.15768E+01, time = 0.65 | CG iter. 31 -- res = 0.12295E-07, tol = 0.15768E+01, time = 0.64 | CG iter. 32 -- res = 0.60635E-08, tol = 0.15768E+01, time = 0.65 | CG iter. 33 -- res = 0.43096E-08, tol = 0.15768E+01, time = 0.64 | CG iter. 34 -- res = 0.11895E-08, tol = 0.15768E+01, time = 0.68 | CG iter. 35 -- res = 0.32568E-09, tol = 0.15768E+01, time = 0.68 | CG iter. 36 -- res = 0.15635E-09, tol = 0.15768E+01, time = 0.69 | CG iter. 37 -- res = 0.97240E-10, tol = 0.15768E+01, time = 0.66 | CG iter. 38 -- res = 0.24542E-10, tol = 0.15768E+01, time = 0.71 | CG iter. 39 -- res = 0.74804E-11, tol = 0.15768E+01, time = 0.68 | CG iter. 40 -- res = 0.21379E-11, tol = 0.15768E+01, time = 0.65 | CG iter. 41 -- res = 0.65604E-12, tol = 0.15768E+01, time = 0.60 | CG iter. 42 -- res = 0.24792E-12, tol = 0.15768E+01, time = 0.65 | CG iter. 43 -- res = 0.87516E-13, tol = 0.15768E+01, time = 0.61 | CG iter. 44 -- res = 0.28025E-13, tol = 0.15768E+01, time = 0.63 | CG iter. 45 -- res = 0.80625E-14, tol = 0.15768E+01, time = 0.64 | CG iter. 46 -- res = 0.23854E-14, tol = 0.15768E+01, time = 0.64 | CG iter. 47 -- res = 0.74866E-15, tol = 0.15768E+01, time = 0.65 | CG iter. 48 -- res = 0.23537E-15, tol = 0.15768E+01, time = 0.67 | CG iter. 49 -- res = 0.68259E-16, tol = 0.15768E+01, time = 0.66 | CG iter. 50 -- res = 0.20845E-16, tol = 0.15768E+01, time = 0.61 | Final CG iter 51 -- res = 0.20845E-16, tol = 0.15768E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -6.981 2.869 | New value 1.135 | Old value -6.981 | Difference 8.116 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 4.12 | CG iter. 1 -- res = 0.44169E+05, tol = 0.47627E+18, time = 0.36 | CG iter. 2 -- res = 0.25224E+02, tol = 0.47627E+18, time = 0.35 | CG iter. 3 -- res = 0.76620E+00, tol = 0.47627E+18, time = 0.37 | CG iter. 4 -- res = 0.99001E-04, tol = 0.47627E+18, time = 0.38 | Final CG iter 5 -- res = 0.39262E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 6926781.047 | (Sampled value in CG: 6896369.146 ) | CPU time specind = 277.5374 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 4.12 | CG iter. 1 -- res = 0.69500E+08, tol = 0.51562E+04, time = 3.13 | CG iter. 2 -- res = 0.33160E+08, tol = 0.51562E+04, time = 3.05 | CG iter. 3 -- res = 0.57316E+07, tol = 0.51562E+04, time = 3.12 | CG iter. 4 -- res = 0.29195E+07, tol = 0.51562E+04, time = 3.19 | CG iter. 5 -- res = 0.13058E+07, tol = 0.51562E+04, time = 3.14 | CG iter. 6 -- res = 0.71707E+06, tol = 0.51562E+04, time = 3.29 | CG iter. 7 -- res = 0.39747E+06, tol = 0.51562E+04, time = 3.18 | CG iter. 8 -- res = 0.20394E+06, tol = 0.51562E+04, time = 3.21 | CG iter. 9 -- res = 0.10387E+06, tol = 0.51562E+04, time = 3.09 | CG iter. 10 -- res = 0.49477E+05, tol = 0.51562E+04, time = 3.12 | CG iter. 11 -- res = 0.28550E+05, tol = 0.51562E+04, time = 3.06 | CG iter. 12 -- res = 0.19489E+05, tol = 0.51562E+04, time = 3.22 | CG iter. 13 -- res = 0.15296E+05, tol = 0.51562E+04, time = 3.24 | CG iter. 14 -- res = 0.13384E+05, tol = 0.51562E+04, time = 3.15 | CG iter. 15 -- res = 0.11476E+05, tol = 0.51562E+04, time = 3.22 | CG iter. 16 -- res = 0.10575E+05, tol = 0.51562E+04, time = 3.14 | CG iter. 17 -- res = 0.10090E+05, tol = 0.51562E+04, time = 3.10 | CG iter. 18 -- res = 0.10061E+05, tol = 0.51562E+04, time = 3.11 | CG iter. 19 -- res = 0.99791E+04, tol = 0.51562E+04, time = 3.10 | CG iter. 20 -- res = 0.90361E+04, tol = 0.51562E+04, time = 3.13 | CG iter. 21 -- res = 0.72496E+04, tol = 0.51562E+04, time = 3.14 | CG iter. 22 -- res = 0.52191E+04, tol = 0.51562E+04, time = 3.14 | CG iter. 23 -- res = 0.37703E+04, tol = 0.51562E+04, time = 3.15 | CG iter. 24 -- res = 0.29553E+04, tol = 0.51562E+04, time = 3.16 | CG iter. 25 -- res = 0.25643E+04, tol = 0.51562E+04, time = 3.11 | CG iter. 26 -- res = 0.23023E+04, tol = 0.51562E+04, time = 3.10 | CG iter. 27 -- res = 0.20024E+04, tol = 0.51562E+04, time = 3.17 | CG iter. 28 -- res = 0.17189E+04, tol = 0.51562E+04, time = 3.07 | CG iter. 29 -- res = 0.15294E+04, tol = 0.51562E+04, time = 3.17 | CG iter. 30 -- res = 0.14822E+04, tol = 0.51562E+04, time = 3.21 | CG iter. 31 -- res = 0.14240E+04, tol = 0.51562E+04, time = 3.16 | CG iter. 32 -- res = 0.12863E+04, tol = 0.51562E+04, time = 3.16 | CG iter. 33 -- res = 0.10489E+04, tol = 0.51562E+04, time = 3.20 | CG iter. 34 -- res = 0.83743E+03, tol = 0.51562E+04, time = 3.09 | CG iter. 35 -- res = 0.72781E+03, tol = 0.51562E+04, time = 3.26 | CG iter. 36 -- res = 0.70344E+03, tol = 0.51562E+04, time = 3.21 | CG iter. 37 -- res = 0.71595E+03, tol = 0.51562E+04, time = 3.25 | CG iter. 38 -- res = 0.68888E+03, tol = 0.51562E+04, time = 3.06 | CG iter. 39 -- res = 0.62076E+03, tol = 0.51562E+04, time = 3.15 | CG iter. 40 -- res = 0.57557E+03, tol = 0.51562E+04, time = 3.13 | CG iter. 41 -- res = 0.57628E+03, tol = 0.51562E+04, time = 3.13 | CG iter. 42 -- res = 0.60731E+03, tol = 0.51562E+04, time = 3.14 | CG iter. 43 -- res = 0.61937E+03, tol = 0.51562E+04, time = 3.25 | CG iter. 44 -- res = 0.57317E+03, tol = 0.51562E+04, time = 3.08 | CG iter. 45 -- res = 0.50883E+03, tol = 0.51562E+04, time = 3.11 | CG iter. 46 -- res = 0.48827E+03, tol = 0.51562E+04, time = 3.16 | CG iter. 47 -- res = 0.51437E+03, tol = 0.51562E+04, time = 3.18 | CG iter. 48 -- res = 0.55312E+03, tol = 0.51562E+04, time = 3.17 | CG iter. 49 -- res = 0.56259E+03, tol = 0.51562E+04, time = 3.18 | CG iter. 50 -- res = 0.53445E+03, tol = 0.51562E+04, time = 3.02 | CG iter. 51 -- res = 0.51416E+03, tol = 0.51562E+04, time = 3.14 | CG iter. 52 -- res = 0.53122E+03, tol = 0.51562E+04, time = 3.07 | CG iter. 53 -- res = 0.56677E+03, tol = 0.51562E+04, time = 3.12 | CG iter. 54 -- res = 0.58259E+03, tol = 0.51562E+04, time = 3.17 | CG iter. 55 -- res = 0.54275E+03, tol = 0.51562E+04, time = 3.11 | CG iter. 56 -- res = 0.49217E+03, tol = 0.51562E+04, time = 3.07 | CG iter. 57 -- res = 0.48219E+03, tol = 0.51562E+04, time = 3.08 | CG iter. 58 -- res = 0.51473E+03, tol = 0.51562E+04, time = 3.07 | CG iter. 59 -- res = 0.54483E+03, tol = 0.51562E+04, time = 3.08 | CG iter. 60 -- res = 0.52599E+03, tol = 0.51562E+04, time = 3.08 | Final CG iter 61 -- res = 0.52599E+03, tol = 0.51562E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 3.579 ( -231.600 -2232.933 2516.224 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8634310.074 | Old band monopole 6926810.840 | Change to band monopole 1707499.233 | Change to component monopole -1707491.889 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -4.856 2.731 | New value 4.395 | Old value -4.856 | Difference 9.252 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -4.187 ( 6.850 11.438 -12.524 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 12.270 3.284 | New value -3.067 | Old value 12.270 | Difference -15.338 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 4.11 | CG iter. 1 -- res = 0.44872E+07, tol = 0.47627E+18, time = 0.33 | CG iter. 2 -- res = 0.71112E+02, tol = 0.47627E+18, time = 0.36 | CG iter. 3 -- res = 0.14212E+01, tol = 0.47627E+18, time = 0.40 | CG iter. 4 -- res = 0.71810E-02, tol = 0.47627E+18, time = 0.37 | Final CG iter 5 -- res = 0.38314E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8634272.936 | (Sampled value in CG: 8565409.238 ) | Chain = 1 -- chisq = 0.61514702E+09 | Chain = 1 -- wall time = 4738.947 sec --------------------------------------------------------------------- | Chain = 1 -- Iteration = 55 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18067351854973 | --> Sampling calibration, mode = relcal | relcal = -7.4562944E-02 -5.8264486E-02 9.1463737E-02 4.1363694E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.5401969E-04 4.4007869E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.7909E-05 | 2: delta_r/delta_0: 8.8760E-07 | 3: delta_s/delta_0: 2.4633E-07 | 4: delta_r/delta_0: 1.0902E-08 | 5: delta_s/delta_0: 2.4445E-09 | 6: delta_r/delta_0: 8.5445E-10 | 7: delta_s/delta_0: 6.0549E-10 | 8: delta_r/delta_0: 5.7380E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 8.169645576049439E-004 2.741892578239376E-005 | BP delta = 5.3785970E-03 1.3098350E-02 29858785.0740382 | BP delta = 5.8667609E-03 1.3586513E-02 29858785.2914099 | 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 = 1.02527220 | --> Sampling calibration, mode = relcal | relcal = -0.1065494 -9.5514417E-02 0.1448763 5.7187494E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.1993645E-03 1.3502310E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 3.6244E-04 | 2: delta_r/delta_0: 7.9499E-06 | 3: delta_s/delta_0: 2.4561E-06 | 4: delta_r/delta_0: 2.2878E-07 | 5: delta_s/delta_0: 8.9081E-08 | 6: delta_r/delta_0: 5.2910E-09 | 7: delta_s/delta_0: 3.4228E-09 | 8: delta_r/delta_0: 1.6985E-09 | 9: delta_s/delta_0: 5.8476E-09 | 10: delta_r/delta_0: 8.8076E-10 | 11: delta_s/delta_0: 1.5793E-10 | 12: delta_r/delta_0: 1.2101E-10 | 13: delta_s/delta_0: 4.8364E-10 | 14: delta_r/delta_0: 2.6066E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -7.080142213182617E-003 2.812816122200337E-005 | BP delta = -0.1891385 -0.1765440 34758093.7931277 | BP delta = -0.1921912 -0.1795967 34758093.6273198 | 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 = 0.81163366 | --> Sampling calibration, mode = relcal | relcal = 0.2951638 0.2247666 -0.2834996 -0.2364307 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -8.7900262E-04 5.5652279E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 9.3568E-04 | 2: delta_r/delta_0: 2.1379E-05 | 3: delta_s/delta_0: 1.3989E-04 | 4: delta_r/delta_0: 4.7539E-06 | 5: delta_s/delta_0: 1.1200E-05 | 6: delta_r/delta_0: 1.4004E-06 | 7: delta_s/delta_0: 5.3215E-08 | 8: delta_r/delta_0: 3.5539E-08 | 9: delta_s/delta_0: 6.8266E-07 | 10: delta_r/delta_0: 5.3387E-09 | 11: delta_s/delta_0: 8.9641E-10 | 12: delta_r/delta_0: 5.9973E-10 | 13: delta_s/delta_0: 2.1492E-10 | 14: delta_r/delta_0: 8.9861E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.031396273693602E-002 4.024632343190884E-005 | BP delta = -7.5189099E-02 -0.1067974 43107087.8743223 | BP delta = -7.8684986E-02 -0.1102933 43107087.8238527 | 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 = 0.95836904 | --> Sampling calibration, mode = relcal | relcal = 0.1065474 0.1393789 -0.1102507 -0.1356756 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0034499E-02 1.2241716E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 5.8055E-04 | 2: delta_r/delta_0: 1.3323E-05 | 3: delta_s/delta_0: 1.4937E-05 | 4: delta_r/delta_0: 3.8100E-07 | 5: delta_s/delta_0: 1.5850E-06 | 6: delta_r/delta_0: 1.8482E-07 | 7: delta_s/delta_0: 5.3458E-08 | 8: delta_r/delta_0: 3.9947E-08 | 9: delta_s/delta_0: 1.5697E-06 | 10: delta_r/delta_0: 3.9371E-09 | 11: delta_s/delta_0: 1.2250E-08 | 12: delta_r/delta_0: 2.3002E-09 | 13: delta_s/delta_0: 2.8845E-10 | 14: delta_r/delta_0: 2.0408E-10 | 15: delta_s/delta_0: 2.8671E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.306959162272775E-002 3.700242699986952E-005 | BP delta = 0.2752544 0.3053988 43056324.1178178 | BP delta = 0.2752650 0.3054095 43056324.1180825 | 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 = 0.52114604 | --> Sampling calibration, mode = relcal | relcal = -5.0997201E-02 -3.7095852E-03 2.7239621E-02 2.7467163E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -8.1473571E-04 -5.3181819E-04 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.8050E-05 | 2: delta_r/delta_0: 4.2850E-06 | 3: delta_s/delta_0: 2.6393E-06 | 4: delta_r/delta_0: 3.6870E-07 | 5: delta_s/delta_0: 5.7350E-08 | 6: delta_r/delta_0: 2.6678E-08 | 7: delta_s/delta_0: 1.4990E-06 | 8: delta_r/delta_0: 2.0017E-07 | 9: delta_s/delta_0: 3.5825E-09 | 10: delta_r/delta_0: 1.9142E-09 | 11: delta_s/delta_0: 1.6525E-09 | 12: delta_r/delta_0: 5.1490E-10 | 13: delta_s/delta_0: 6.5684E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.022528701953481E-002 5.487708655124403E-005 | BP delta = -6.0133576E-02 3.2437045E-02 61512348.8272545 | BP delta = -9.0229675E-02 2.3409443E-03 61512348.8623562 | 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 = 0.42116657 | --> Sampling calibration, mode = relcal | relcal = 4.5568239E-02 3.9579906E-02 -2.8230427E-02 -5.6917720E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.1018809E-03 5.9268940E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.1063E-05 | 2: delta_r/delta_0: 3.9144E-06 | 3: delta_s/delta_0: 2.8393E-06 | 4: delta_r/delta_0: 4.8431E-07 | 5: delta_s/delta_0: 6.1253E-08 | 6: delta_r/delta_0: 3.5885E-08 | 7: delta_s/delta_0: 5.5926E-08 | 8: delta_r/delta_0: 9.4031E-09 | 9: delta_s/delta_0: 1.7256E-09 | 10: delta_r/delta_0: 5.1801E-10 | 11: delta_s/delta_0: 8.5381E-10 | 12: delta_r/delta_0: 5.4017E-10 | 13: delta_s/delta_0: 3.3684E-10 | 14: delta_r/delta_0: 1.9664E-10 | 15: delta_s/delta_0: 2.8460E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.406242477035404E-002 5.000554845854902E-005 | BP delta = -0.1545400 -0.1794506 61333531.7529150 | BP delta = -0.1492423 -0.1741529 61333531.7131057 | 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 = 0.28132681 | --> Sampling calibration, mode = relcal | relcal = 2.4250381E-02 4.5061454E-02 -2.3351839E-02 -4.5959998E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.1177920E-02 4.7824904E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.0846E-04 | 2: delta_r/delta_0: 8.9604E-06 | 3: delta_s/delta_0: 1.5092E-06 | 4: delta_r/delta_0: 1.7992E-07 | 5: delta_s/delta_0: 5.8731E-08 | 6: delta_r/delta_0: 1.3638E-08 | 7: delta_s/delta_0: 5.8987E-09 | 8: delta_r/delta_0: 3.7051E-09 | 9: delta_s/delta_0: 8.9941E-09 | 10: delta_r/delta_0: 3.1047E-09 | 11: delta_s/delta_0: 8.4802E-09 | 12: delta_r/delta_0: 3.0912E-09 | 13: delta_s/delta_0: 2.2522E-10 | 14: delta_r/delta_0: 1.3466E-10 | 15: delta_s/delta_0: 5.4309E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -8.300157015696641E-003 7.851983069292497E-005 | BP delta = 4.0829189E-02 -8.0903426E-02 94954362.0058538 | BP delta = 3.9827585E-02 -8.1905030E-02 94954362.0005135 | 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 = 0.29363799 | --> Sampling calibration, mode = relcal | relcal = 5.8141386E-04 1.0260245E-02 -3.7433973E-03 -7.0982617E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.4182011E-02 1.6957201E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.3177E-04 | 2: delta_r/delta_0: 1.1104E-05 | 3: delta_s/delta_0: 1.7564E-06 | 4: delta_r/delta_0: 2.3450E-07 | 5: delta_s/delta_0: 9.0120E-08 | 6: delta_r/delta_0: 2.0136E-08 | 7: delta_s/delta_0: 9.6030E-09 | 8: delta_r/delta_0: 6.6773E-09 | 9: delta_s/delta_0: 5.8806E-09 | 10: delta_r/delta_0: 4.4391E-09 | 11: delta_s/delta_0: 2.4920E-06 | 12: delta_r/delta_0: 3.3712E-08 | 13: delta_s/delta_0: 2.8953E-10 | 14: delta_r/delta_0: 1.4939E-10 | 15: delta_s/delta_0: 1.4363E-10 | 16: delta_r/delta_0: 1.0221E-10 | 17: delta_s/delta_0: 7.9211E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.037735360836871E-002 8.314468743785259E-005 | BP delta = -0.6956104 -0.6636554 93511313.8502940 | BP delta = -0.7066873 -0.6747323 93511313.8191907 | 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 = 0.26477328 | --> Sampling calibration, mode = relcal | relcal = -5.6447326E-03 1.4977989E-02 -2.2734231E-03 -7.0598330E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -1.0618587E-03 5.0461264E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4222E-04 | 2: delta_r/delta_0: 1.2278E-05 | 3: delta_s/delta_0: 2.1322E-06 | 4: delta_r/delta_0: 2.5917E-07 | 5: delta_s/delta_0: 1.0439E-07 | 6: delta_r/delta_0: 1.9379E-08 | 7: delta_s/delta_0: 6.9119E-09 | 8: delta_r/delta_0: 4.1141E-09 | 9: delta_s/delta_0: 3.5055E-09 | 10: delta_r/delta_0: 2.2471E-09 | 11: delta_s/delta_0: 1.9475E-06 | 12: delta_r/delta_0: 2.2939E-08 | 13: delta_s/delta_0: 1.0831E-09 | 14: delta_r/delta_0: 6.0440E-10 | 15: delta_s/delta_0: 8.3197E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -7.069428575768904E-003 9.163416099732173E-005 | BP delta = 0.2188467 0.2492543 94711353.0572189 | BP delta = 0.2182568 0.2486644 94711353.0569704 | 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 = 0.25633428 | --> Sampling calibration, mode = relcal | relcal = -3.1660836E-02 -2.5907746E-02 3.6840614E-02 2.0727966E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.2247156E-02 1.5260823E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4455E-04 | 2: delta_r/delta_0: 1.2036E-05 | 3: delta_s/delta_0: 1.9031E-06 | 4: delta_r/delta_0: 3.5797E-07 | 5: delta_s/delta_0: 1.2720E-07 | 6: delta_r/delta_0: 2.6835E-08 | 7: delta_s/delta_0: 1.3367E-08 | 8: delta_r/delta_0: 6.7210E-09 | 9: delta_s/delta_0: 8.3127E-08 | 10: delta_r/delta_0: 5.2087E-09 | 11: delta_s/delta_0: 2.7022E-09 | 12: delta_r/delta_0: 1.1202E-09 | 13: delta_s/delta_0: 1.2576E-08 | 14: delta_r/delta_0: 4.1364E-09 | 15: delta_s/delta_0: 1.1984E-10 | 16: delta_r/delta_0: 5.6114E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.053026458812705E-002 8.682256770275789E-005 | BP delta = -0.5887655 -0.6728380 93061289.4344250 | BP delta = -0.5763813 -0.6604539 93061289.4457181 | 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 = -3.165520 | New value = -3.142335 | poltype: 2 pol: 1 CPU time specind = 2.0902157E-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 = -3.176137 | New value = -3.149812 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.038763 | New value = -3.062171 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.133614 | New value = -3.170442 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.022125 | New value = -3.141805 | poltype: 2 pol: 2 CPU time specind = 1.4960766E-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 = 4.11 | CG iter. 1 -- res = 0.13531E+08, tol = 0.79663E+01, time = 1.52 | CG iter. 2 -- res = 0.50926E+05, tol = 0.79663E+01, time = 1.58 | CG iter. 3 -- res = 0.37087E+05, tol = 0.79663E+01, time = 1.52 | CG iter. 4 -- res = 0.10610E+05, tol = 0.79663E+01, time = 1.54 | CG iter. 5 -- res = 0.60144E+04, tol = 0.79663E+01, time = 1.57 | CG iter. 6 -- res = 0.44039E+04, tol = 0.79663E+01, time = 1.54 | CG iter. 7 -- res = 0.22211E+04, tol = 0.79663E+01, time = 1.51 | CG iter. 8 -- res = 0.15079E+04, tol = 0.79663E+01, time = 1.58 | CG iter. 9 -- res = 0.13976E+04, tol = 0.79663E+01, time = 1.58 | CG iter. 10 -- res = 0.16718E+04, tol = 0.79663E+01, time = 1.56 | CG iter. 11 -- res = 0.10954E+04, tol = 0.79663E+01, time = 1.56 | CG iter. 12 -- res = 0.71278E+03, tol = 0.79663E+01, time = 1.58 | CG iter. 13 -- res = 0.54988E+03, tol = 0.79663E+01, time = 1.57 | CG iter. 14 -- res = 0.53341E+03, tol = 0.79663E+01, time = 1.50 | CG iter. 15 -- res = 0.37544E+03, tol = 0.79663E+01, time = 1.57 | CG iter. 16 -- res = 0.26227E+03, tol = 0.79663E+01, time = 1.57 | CG iter. 17 -- res = 0.18705E+03, tol = 0.79663E+01, time = 1.51 | CG iter. 18 -- res = 0.13991E+03, tol = 0.79663E+01, time = 1.57 | CG iter. 19 -- res = 0.10549E+03, tol = 0.79663E+01, time = 1.55 | CG iter. 20 -- res = 0.75744E+02, tol = 0.79663E+01, time = 1.57 | CG iter. 21 -- res = 0.52454E+02, tol = 0.79663E+01, time = 1.49 | CG iter. 22 -- res = 0.41831E+02, tol = 0.79663E+01, time = 1.55 | CG iter. 23 -- res = 0.33704E+02, tol = 0.79663E+01, time = 1.54 | CG iter. 24 -- res = 0.25754E+02, tol = 0.79663E+01, time = 1.57 | CG iter. 25 -- res = 0.20489E+02, tol = 0.79663E+01, time = 1.57 | CG iter. 26 -- res = 0.18827E+02, tol = 0.79663E+01, time = 1.55 | CG iter. 27 -- res = 0.13595E+02, tol = 0.79663E+01, time = 1.55 | CG iter. 28 -- res = 0.99162E+01, tol = 0.79663E+01, time = 1.57 | CG iter. 29 -- res = 0.82426E+01, tol = 0.79663E+01, time = 1.54 | CG iter. 30 -- res = 0.65693E+01, tol = 0.79663E+01, time = 1.54 | CG iter. 31 -- res = 0.47056E+01, tol = 0.79663E+01, time = 1.52 | CG iter. 32 -- res = 0.33579E+01, tol = 0.79663E+01, time = 1.56 | CG iter. 33 -- res = 0.28727E+01, tol = 0.79663E+01, time = 1.50 | CG iter. 34 -- res = 0.22689E+01, tol = 0.79663E+01, time = 1.55 | CG iter. 35 -- res = 0.14990E+01, tol = 0.79663E+01, time = 1.54 | CG iter. 36 -- res = 0.12179E+01, tol = 0.79663E+01, time = 1.55 | CG iter. 37 -- res = 0.89829E+00, tol = 0.79663E+01, time = 1.60 | CG iter. 38 -- res = 0.72724E+00, tol = 0.79663E+01, time = 1.53 | CG iter. 39 -- res = 0.84410E+00, tol = 0.79663E+01, time = 1.56 | CG iter. 40 -- res = 0.47520E+00, tol = 0.79663E+01, time = 1.63 | CG iter. 41 -- res = 0.32749E+00, tol = 0.79663E+01, time = 1.58 | CG iter. 42 -- res = 0.23903E+00, tol = 0.79663E+01, time = 1.57 | CG iter. 43 -- res = 0.17207E+00, tol = 0.79663E+01, time = 1.54 | CG iter. 44 -- res = 0.14065E+00, tol = 0.79663E+01, time = 1.53 | CG iter. 45 -- res = 0.14953E+00, tol = 0.79663E+01, time = 1.61 | CG iter. 46 -- res = 0.12698E+00, tol = 0.79663E+01, time = 1.52 | CG iter. 47 -- res = 0.66831E-01, tol = 0.79663E+01, time = 1.54 | CG iter. 48 -- res = 0.47336E-01, tol = 0.79663E+01, time = 1.52 | CG iter. 49 -- res = 0.37937E-01, tol = 0.79663E+01, time = 1.49 | CG iter. 50 -- res = 0.30814E-01, tol = 0.79663E+01, time = 1.54 | Final CG iter 51 -- res = 0.30814E-01, tol = 0.79663E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 11104624.174 | Old band monopole 8634310.074 | Change to band monopole 2470314.101 | Change to component monopole -2470303.475 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 4.11 | CG iter. 1 -- res = 0.13986E+05, tol = 0.47627E+18, time = 0.35 | CG iter. 2 -- res = 0.15535E+02, tol = 0.47627E+18, time = 0.38 | CG iter. 3 -- res = 0.16046E+00, tol = 0.47627E+18, time = 0.38 | CG iter. 4 -- res = 0.78660E-04, tol = 0.47627E+18, time = 0.38 | Final CG iter 5 -- res = 0.53643E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 11104576.411 | (Sampled value in CG: 11115811.795 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.539669 | New value = 1.468213 | poltype: 2 pol: 1 CPU time specind = 4.2569637E-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 = 1.481764 | New value = 1.479237 | poltype: 2 pol: 2 CPU time specind = 1.4541149E-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 = 4.12 | CG iter. 1 -- res = 0.25129E+08, tol = 0.47558E+04, time = 1.79 | CG iter. 2 -- res = 0.53803E+07, tol = 0.47558E+04, time = 1.80 | CG iter. 3 -- res = 0.84245E+06, tol = 0.47558E+04, time = 1.79 | CG iter. 4 -- res = 0.34542E+06, tol = 0.47558E+04, time = 1.82 | CG iter. 5 -- res = 0.14902E+06, tol = 0.47558E+04, time = 1.75 | CG iter. 6 -- res = 0.78885E+05, tol = 0.47558E+04, time = 1.78 | CG iter. 7 -- res = 0.43704E+05, tol = 0.47558E+04, time = 1.76 | CG iter. 8 -- res = 0.21052E+05, tol = 0.47558E+04, time = 1.72 | CG iter. 9 -- res = 0.90799E+04, tol = 0.47558E+04, time = 1.77 | CG iter. 10 -- res = 0.37982E+04, tol = 0.47558E+04, time = 1.80 | CG iter. 11 -- res = 0.17353E+04, tol = 0.47558E+04, time = 1.78 | CG iter. 12 -- res = 0.87458E+03, tol = 0.47558E+04, time = 1.81 | CG iter. 13 -- res = 0.50006E+03, tol = 0.47558E+04, time = 1.82 | CG iter. 14 -- res = 0.28783E+03, tol = 0.47558E+04, time = 1.74 | CG iter. 15 -- res = 0.14749E+03, tol = 0.47558E+04, time = 1.80 | CG iter. 16 -- res = 0.69776E+02, tol = 0.47558E+04, time = 1.85 | CG iter. 17 -- res = 0.32638E+02, tol = 0.47558E+04, time = 1.77 | CG iter. 18 -- res = 0.16252E+02, tol = 0.47558E+04, time = 1.80 | CG iter. 19 -- res = 0.90384E+01, tol = 0.47558E+04, time = 1.83 | CG iter. 20 -- res = 0.51509E+01, tol = 0.47558E+04, time = 1.76 | CG iter. 21 -- res = 0.28112E+01, tol = 0.47558E+04, time = 1.76 | CG iter. 22 -- res = 0.14799E+01, tol = 0.47558E+04, time = 1.80 | CG iter. 23 -- res = 0.74245E+00, tol = 0.47558E+04, time = 1.79 | CG iter. 24 -- res = 0.39335E+00, tol = 0.47558E+04, time = 1.80 | CG iter. 25 -- res = 0.21716E+00, tol = 0.47558E+04, time = 1.75 | CG iter. 26 -- res = 0.12240E+00, tol = 0.47558E+04, time = 1.81 | CG iter. 27 -- res = 0.68691E-01, tol = 0.47558E+04, time = 1.78 | CG iter. 28 -- res = 0.37555E-01, tol = 0.47558E+04, time = 1.78 | CG iter. 29 -- res = 0.19929E-01, tol = 0.47558E+04, time = 1.73 | CG iter. 30 -- res = 0.10479E-01, tol = 0.47558E+04, time = 1.76 | CG iter. 31 -- res = 0.58143E-02, tol = 0.47558E+04, time = 1.78 | CG iter. 32 -- res = 0.33579E-02, tol = 0.47558E+04, time = 1.77 | CG iter. 33 -- res = 0.19107E-02, tol = 0.47558E+04, time = 1.80 | CG iter. 34 -- res = 0.10307E-02, tol = 0.47558E+04, time = 1.79 | CG iter. 35 -- res = 0.53372E-03, tol = 0.47558E+04, time = 1.76 | Final CG iter 36 -- res = 0.53372E-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) 4.485 2.766 | New value -1.745 | Old value 4.485 | Difference -6.230 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 4.11 | CG iter. 1 -- res = 0.20001E+07, tol = 0.47627E+18, time = 0.37 | CG iter. 2 -- res = 0.18717E+02, tol = 0.47627E+18, time = 0.36 | CG iter. 3 -- res = 0.15813E+00, tol = 0.47627E+18, time = 0.38 | CG iter. 4 -- res = 0.16357E-03, tol = 0.47627E+18, time = 0.37 | Final CG iter 5 -- res = 0.24870E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 11104576.411 | (Sampled value in CG: 11115898.833 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.353599 | New value = -3.632758 | poltype: 1 pol: 1 CPU time specind = 2.2981167E-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 = 4.11 | CG iter. 1 -- res = 0.20991E+07, tol = 0.21306E+01, time = 0.67 | CG iter. 2 -- res = 0.35985E+05, tol = 0.21306E+01, time = 0.66 | CG iter. 3 -- res = 0.33056E+05, tol = 0.21306E+01, time = 0.66 | CG iter. 4 -- res = 0.85400E+04, tol = 0.21306E+01, time = 0.64 | CG iter. 5 -- res = 0.28085E+04, tol = 0.21306E+01, time = 0.68 | CG iter. 6 -- res = 0.11224E+04, tol = 0.21306E+01, time = 0.67 | CG iter. 7 -- res = 0.35975E+03, tol = 0.21306E+01, time = 0.67 | CG iter. 8 -- res = 0.10027E+03, tol = 0.21306E+01, time = 0.65 | CG iter. 9 -- res = 0.39794E+02, tol = 0.21306E+01, time = 0.63 | CG iter. 10 -- res = 0.14638E+02, tol = 0.21306E+01, time = 0.65 | CG iter. 11 -- res = 0.48144E+01, tol = 0.21306E+01, time = 0.64 | CG iter. 12 -- res = 0.17179E+01, tol = 0.21306E+01, time = 0.64 | CG iter. 13 -- res = 0.62204E+00, tol = 0.21306E+01, time = 0.68 | CG iter. 14 -- res = 0.23868E+00, tol = 0.21306E+01, time = 0.66 | CG iter. 15 -- res = 0.76737E-01, tol = 0.21306E+01, time = 0.68 | CG iter. 16 -- res = 0.48227E-01, tol = 0.21306E+01, time = 0.64 | CG iter. 17 -- res = 0.22865E-01, tol = 0.21306E+01, time = 0.63 | CG iter. 18 -- res = 0.78353E-02, tol = 0.21306E+01, time = 0.66 | CG iter. 19 -- res = 0.28714E-02, tol = 0.21306E+01, time = 0.64 | CG iter. 20 -- res = 0.11787E-02, tol = 0.21306E+01, time = 0.67 | CG iter. 21 -- res = 0.33796E-03, tol = 0.21306E+01, time = 0.69 | CG iter. 22 -- res = 0.12929E-03, tol = 0.21306E+01, time = 0.64 | CG iter. 23 -- res = 0.41951E-04, tol = 0.21306E+01, time = 0.70 | CG iter. 24 -- res = 0.15650E-04, tol = 0.21306E+01, time = 0.68 | CG iter. 25 -- res = 0.47145E-05, tol = 0.21306E+01, time = 0.65 | CG iter. 26 -- res = 0.13250E-05, tol = 0.21306E+01, time = 0.64 | CG iter. 27 -- res = 0.50512E-06, tol = 0.21306E+01, time = 0.65 | CG iter. 28 -- res = 0.18446E-06, tol = 0.21306E+01, time = 0.68 | CG iter. 29 -- res = 0.60078E-07, tol = 0.21306E+01, time = 0.66 | CG iter. 30 -- res = 0.16966E-07, tol = 0.21306E+01, time = 0.65 | CG iter. 31 -- res = 0.55941E-08, tol = 0.21306E+01, time = 0.66 | CG iter. 32 -- res = 0.18673E-08, tol = 0.21306E+01, time = 0.70 | CG iter. 33 -- res = 0.83090E-09, tol = 0.21306E+01, time = 0.66 | CG iter. 34 -- res = 0.53069E-09, tol = 0.21306E+01, time = 0.63 | CG iter. 35 -- res = 0.11370E-09, tol = 0.21306E+01, time = 0.65 | CG iter. 36 -- res = 0.41490E-10, tol = 0.21306E+01, time = 0.70 | CG iter. 37 -- res = 0.14474E-10, tol = 0.21306E+01, time = 0.65 | CG iter. 38 -- res = 0.43765E-11, tol = 0.21306E+01, time = 0.68 | CG iter. 39 -- res = 0.12162E-11, tol = 0.21306E+01, time = 0.67 | CG iter. 40 -- res = 0.36078E-12, tol = 0.21306E+01, time = 0.68 | CG iter. 41 -- res = 0.11725E-12, tol = 0.21306E+01, time = 0.66 | CG iter. 42 -- res = 0.54970E-13, tol = 0.21306E+01, time = 0.67 | CG iter. 43 -- res = 0.36156E-13, tol = 0.21306E+01, time = 0.69 | CG iter. 44 -- res = 0.70603E-14, tol = 0.21306E+01, time = 0.70 | CG iter. 45 -- res = 0.23863E-14, tol = 0.21306E+01, time = 0.68 | CG iter. 46 -- res = 0.84578E-15, tol = 0.21306E+01, time = 0.65 | CG iter. 47 -- res = 0.30247E-15, tol = 0.21306E+01, time = 0.64 | CG iter. 48 -- res = 0.10492E-15, tol = 0.21306E+01, time = 0.63 | CG iter. 49 -- res = 0.28365E-16, tol = 0.21306E+01, time = 0.68 | CG iter. 50 -- res = 0.86658E-17, tol = 0.21306E+01, time = 0.68 | Final CG iter 51 -- res = 0.86658E-17, tol = 0.21306E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -1.035 3.079 | New value -3.075 | Old value -1.035 | Difference -2.039 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 4.11 | CG iter. 1 -- res = 0.31537E+04, tol = 0.47627E+18, time = 0.37 | CG iter. 2 -- res = 0.21144E+02, tol = 0.47627E+18, time = 0.37 | CG iter. 3 -- res = 0.50479E-01, tol = 0.47627E+18, time = 0.37 | Final CG iter 4 -- res = 0.38834E-04, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 11104576.411 | (Sampled value in CG: 11110684.791 ) | CPU time specind = 277.7718 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 4.12 | CG iter. 1 -- res = 0.69875E+08, tol = 0.51447E+04, time = 3.09 | CG iter. 2 -- res = 0.33219E+08, tol = 0.51447E+04, time = 3.19 | CG iter. 3 -- res = 0.57872E+07, tol = 0.51447E+04, time = 3.14 | CG iter. 4 -- res = 0.29522E+07, tol = 0.51447E+04, time = 3.15 | CG iter. 5 -- res = 0.13262E+07, tol = 0.51447E+04, time = 3.16 | CG iter. 6 -- res = 0.71790E+06, tol = 0.51447E+04, time = 3.11 | CG iter. 7 -- res = 0.39079E+06, tol = 0.51447E+04, time = 3.16 | CG iter. 8 -- res = 0.19652E+06, tol = 0.51447E+04, time = 3.20 | CG iter. 9 -- res = 0.97478E+05, tol = 0.51447E+04, time = 3.19 | CG iter. 10 -- res = 0.43837E+05, tol = 0.51447E+04, time = 3.18 | CG iter. 11 -- res = 0.22117E+05, tol = 0.51447E+04, time = 3.09 | CG iter. 12 -- res = 0.12262E+05, tol = 0.51447E+04, time = 3.10 | CG iter. 13 -- res = 0.74691E+04, tol = 0.51447E+04, time = 3.13 | CG iter. 14 -- res = 0.49932E+04, tol = 0.51447E+04, time = 3.16 | CG iter. 15 -- res = 0.32325E+04, tol = 0.51447E+04, time = 3.11 | CG iter. 16 -- res = 0.22417E+04, tol = 0.51447E+04, time = 3.17 | CG iter. 17 -- res = 0.16577E+04, tol = 0.51447E+04, time = 3.12 | CG iter. 18 -- res = 0.14203E+04, tol = 0.51447E+04, time = 3.17 | CG iter. 19 -- res = 0.14313E+04, tol = 0.51447E+04, time = 3.10 | CG iter. 20 -- res = 0.15739E+04, tol = 0.51447E+04, time = 3.13 | CG iter. 21 -- res = 0.17041E+04, tol = 0.51447E+04, time = 3.09 | CG iter. 22 -- res = 0.16240E+04, tol = 0.51447E+04, time = 3.08 | CG iter. 23 -- res = 0.14054E+04, tol = 0.51447E+04, time = 3.20 | CG iter. 24 -- res = 0.12084E+04, tol = 0.51447E+04, time = 3.08 | CG iter. 25 -- res = 0.11007E+04, tol = 0.51447E+04, time = 3.12 | CG iter. 26 -- res = 0.10155E+04, tol = 0.51447E+04, time = 3.25 | CG iter. 27 -- res = 0.87120E+03, tol = 0.51447E+04, time = 3.16 | CG iter. 28 -- res = 0.71589E+03, tol = 0.51447E+04, time = 3.25 | CG iter. 29 -- res = 0.62663E+03, tol = 0.51447E+04, time = 3.22 | CG iter. 30 -- res = 0.63057E+03, tol = 0.51447E+04, time = 3.16 | CG iter. 31 -- res = 0.70708E+03, tol = 0.51447E+04, time = 3.22 | CG iter. 32 -- res = 0.78382E+03, tol = 0.51447E+04, time = 3.18 | CG iter. 33 -- res = 0.77736E+03, tol = 0.51447E+04, time = 3.19 | CG iter. 34 -- res = 0.70711E+03, tol = 0.51447E+04, time = 3.16 | CG iter. 35 -- res = 0.66081E+03, tol = 0.51447E+04, time = 3.15 | CG iter. 36 -- res = 0.67821E+03, tol = 0.51447E+04, time = 3.14 | CG iter. 37 -- res = 0.71497E+03, tol = 0.51447E+04, time = 3.20 | CG iter. 38 -- res = 0.69724E+03, tol = 0.51447E+04, time = 3.21 | CG iter. 39 -- res = 0.62435E+03, tol = 0.51447E+04, time = 3.19 | CG iter. 40 -- res = 0.56183E+03, tol = 0.51447E+04, time = 3.14 | CG iter. 41 -- res = 0.56849E+03, tol = 0.51447E+04, time = 3.14 | CG iter. 42 -- res = 0.62824E+03, tol = 0.51447E+04, time = 3.15 | CG iter. 43 -- res = 0.68295E+03, tol = 0.51447E+04, time = 3.19 | CG iter. 44 -- res = 0.66583E+03, tol = 0.51447E+04, time = 3.20 | CG iter. 45 -- res = 0.61244E+03, tol = 0.51447E+04, time = 3.16 | CG iter. 46 -- res = 0.59301E+03, tol = 0.51447E+04, time = 3.20 | CG iter. 47 -- res = 0.61324E+03, tol = 0.51447E+04, time = 3.17 | CG iter. 48 -- res = 0.62966E+03, tol = 0.51447E+04, time = 3.19 | CG iter. 49 -- res = 0.59535E+03, tol = 0.51447E+04, time = 3.16 | CG iter. 50 -- res = 0.52728E+03, tol = 0.51447E+04, time = 3.17 | CG iter. 51 -- res = 0.48086E+03, tol = 0.51447E+04, time = 3.22 | CG iter. 52 -- res = 0.47997E+03, tol = 0.51447E+04, time = 3.14 | CG iter. 53 -- res = 0.50524E+03, tol = 0.51447E+04, time = 3.18 | CG iter. 54 -- res = 0.50829E+03, tol = 0.51447E+04, time = 3.19 | CG iter. 55 -- res = 0.47211E+03, tol = 0.51447E+04, time = 3.29 | CG iter. 56 -- res = 0.43294E+03, tol = 0.51447E+04, time = 3.18 | CG iter. 57 -- res = 0.42122E+03, tol = 0.51447E+04, time = 3.26 | CG iter. 58 -- res = 0.44526E+03, tol = 0.51447E+04, time = 3.14 | CG iter. 59 -- res = 0.46823E+03, tol = 0.51447E+04, time = 3.24 | CG iter. 60 -- res = 0.44821E+03, tol = 0.51447E+04, time = 3.16 | Final CG iter 61 -- res = 0.44821E+03, tol = 0.51447E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 2.469 ( -231.548 -2232.891 2516.141 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9657321.889 | Old band monopole 11104624.174 | Change to band monopole -1447302.285 | Change to component monopole 1447296.060 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -1.752 2.767 | New value -2.447 | Old value -1.752 | Difference -0.695 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -4.521 ( 8.318 11.758 -11.714 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 13.974 2.521 | New value 2.917 | Old value 13.974 | Difference -11.057 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 4.11 | CG iter. 1 -- res = 0.83817E+05, tol = 0.47627E+18, time = 0.35 | CG iter. 2 -- res = 0.89323E+02, tol = 0.47627E+18, time = 0.35 | CG iter. 3 -- res = 0.21360E+01, tol = 0.47627E+18, time = 0.35 | CG iter. 4 -- res = 0.31911E-02, tol = 0.47627E+18, time = 0.35 | Final CG iter 5 -- res = 0.24399E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9657280.351 | (Sampled value in CG: 9582266.203 ) | Chain = 1 -- chisq = 0.61706009E+09 | Chain = 1 -- wall time = 4111.194 sec --------------------------------------------------------------------- | Chain = 1 -- Iteration = 56 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18316327593447 | --> Sampling calibration, mode = relcal | relcal = -7.5378582E-02 -5.8884606E-02 9.2378311E-02 4.1884881E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 4.2920804E-04 5.3537167E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.3721E-05 | 2: delta_r/delta_0: 1.0884E-06 | 3: delta_s/delta_0: 1.8712E-07 | 4: delta_r/delta_0: 2.1881E-08 | 5: delta_s/delta_0: 5.3731E-09 | 6: delta_r/delta_0: 1.8197E-09 | 7: delta_s/delta_0: 8.9636E-10 | 8: delta_r/delta_0: 2.0487E-10 | 9: delta_s/delta_0: 9.2212E-09 | 10: delta_r/delta_0: 3.1634E-09 | 11: delta_s/delta_0: 5.1695E-09 | 12: delta_r/delta_0: 4.5073E-10 | 13: delta_s/delta_0: 9.9895E-12 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 9.366363310208586E-004 2.736024806359902E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.3720E-05 | 2: delta_r/delta_0: 1.0883E-06 | 3: delta_s/delta_0: 1.8712E-07 | 4: delta_r/delta_0: 2.1881E-08 | 5: delta_s/delta_0: 5.3728E-09 | 6: delta_r/delta_0: 1.8202E-09 | 7: delta_s/delta_0: 8.9657E-10 | 8: delta_r/delta_0: 2.0489E-10 | 9: delta_s/delta_0: 9.2535E-09 | 10: delta_r/delta_0: 3.1738E-09 | 11: delta_s/delta_0: 5.1792E-09 | 12: delta_r/delta_0: 4.5199E-10 | 13: delta_s/delta_0: 9.9918E-12 | Reached bicg-stab tolerance | BP delta = 5.8667609E-03 1.3586513E-02 3751801.87857048 | BP delta = 5.8667609E-03 1.3440619E-02 3748170.15501329 | BP chisq diff = -3631.7, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02526694 | --> Sampling calibration, mode = relcal | relcal = -0.1065756 -9.5511019E-02 0.1448929 5.7193641E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.3234216E-03 1.4721613E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.0524E-02 | 2: delta_r/delta_0: 2.3125E-04 | 3: delta_s/delta_0: 1.2033E-04 | 4: delta_r/delta_0: 9.5752E-06 | 5: delta_s/delta_0: 2.1615E-06 | 6: delta_r/delta_0: 2.3996E-07 | 7: delta_s/delta_0: 2.4401E-07 | 8: delta_r/delta_0: 7.2065E-08 | 9: delta_s/delta_0: 3.1062E-08 | 10: delta_r/delta_0: 1.3877E-08 | 11: delta_s/delta_0: 6.5436E-09 | 12: delta_r/delta_0: 4.0998E-09 | 13: delta_s/delta_0: 2.2377E-09 | 14: delta_r/delta_0: 1.6936E-09 | 15: delta_s/delta_0: 8.4519E-10 | 16: delta_r/delta_0: 5.7190E-10 | 17: delta_s/delta_0: 7.0780E-10 | 18: delta_r/delta_0: 4.0753E-10 | 19: delta_s/delta_0: 2.9978E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.824114773162717E-002 2.812820222056867E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.0520E-02 | 2: delta_r/delta_0: 2.3116E-04 | 3: delta_s/delta_0: 1.2050E-04 | 4: delta_r/delta_0: 9.5889E-06 | 5: delta_s/delta_0: 2.1634E-06 | 6: delta_r/delta_0: 2.4021E-07 | 7: delta_s/delta_0: 2.4428E-07 | 8: delta_r/delta_0: 7.2137E-08 | 9: delta_s/delta_0: 3.1095E-08 | 10: delta_r/delta_0: 1.3890E-08 | 11: delta_s/delta_0: 6.5498E-09 | 12: delta_r/delta_0: 4.1022E-09 | 13: delta_s/delta_0: 2.2400E-09 | 14: delta_r/delta_0: 1.6949E-09 | 15: delta_s/delta_0: 8.4697E-10 | 16: delta_r/delta_0: 5.7369E-10 | 17: delta_s/delta_0: 7.1004E-10 | 18: delta_r/delta_0: 4.0871E-10 | 19: delta_s/delta_0: 2.9994E-11 | Reached bicg-stab tolerance | BP delta = -0.1921912 -0.1795967 2841506.76318041 | BP delta = -0.1921912 -0.1812511 2841447.60195010 | BP chisq diff = -59.2, accept = T | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81161685 | --> Sampling calibration, mode = relcal | relcal = 0.2952747 0.2246619 -0.2835613 -0.2363753 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.4676160E-04 4.9971142E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 7.0704E-04 | 2: delta_r/delta_0: 1.6042E-05 | 3: delta_s/delta_0: 2.7537E-03 | 4: delta_r/delta_0: 1.4120E-04 | 5: delta_s/delta_0: 1.5200E-04 | 6: delta_r/delta_0: 2.4548E-05 | 7: delta_s/delta_0: 5.8185E-08 | 8: delta_r/delta_0: 3.8520E-08 | 9: delta_s/delta_0: 5.9691E-07 | 10: delta_r/delta_0: 3.8670E-09 | 11: delta_s/delta_0: 8.4201E-10 | 12: delta_r/delta_0: 5.6737E-10 | 13: delta_s/delta_0: 5.9981E-10 | 14: delta_r/delta_0: 1.0265E-10 | 15: delta_s/delta_0: 2.8349E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.151251799655796E-002 4.024774470199979E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 7.0668E-04 | 2: delta_r/delta_0: 1.6033E-05 | 3: delta_s/delta_0: 2.7583E-03 | 4: delta_r/delta_0: 1.4147E-04 | 5: delta_s/delta_0: 1.5255E-04 | 6: delta_r/delta_0: 2.4636E-05 | 7: delta_s/delta_0: 5.8185E-08 | 8: delta_r/delta_0: 3.8508E-08 | 9: delta_s/delta_0: 5.9701E-07 | 10: delta_r/delta_0: 3.8664E-09 | 11: delta_s/delta_0: 8.4099E-10 | 12: delta_r/delta_0: 5.6725E-10 | 13: delta_s/delta_0: 5.9897E-10 | 14: delta_r/delta_0: 1.0263E-10 | 15: delta_s/delta_0: 2.8348E-11 | Reached bicg-stab tolerance | BP delta = -7.8684986E-02 -0.1102933 2827391.80315386 | BP delta = -7.8684986E-02 -0.1198120 2827461.17999722 | 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 = 0.95831467 | --> Sampling calibration, mode = relcal | relcal = 0.1064329 0.1393851 -0.1101089 -0.1357091 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0009882E-02 1.2174141E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 3.9909E-04 | 2: delta_r/delta_0: 9.0724E-06 | 3: delta_s/delta_0: 9.4163E-03 | 4: delta_r/delta_0: 6.1216E-04 | 5: delta_s/delta_0: 1.6460E-05 | 6: delta_r/delta_0: 2.6407E-06 | 7: delta_s/delta_0: 5.8281E-08 | 8: delta_r/delta_0: 2.8266E-08 | 9: delta_s/delta_0: 7.5721E-08 | 10: delta_r/delta_0: 3.9946E-09 | 11: delta_s/delta_0: 1.6421E-09 | 12: delta_r/delta_0: 5.1639E-10 | 13: delta_s/delta_0: 1.9488E-08 | 14: delta_r/delta_0: 4.3389E-09 | 15: delta_s/delta_0: 3.7910E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.426217428923561E-002 3.700413148440331E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 3.9928E-04 | 2: delta_r/delta_0: 9.0765E-06 | 3: delta_s/delta_0: 9.5281E-03 | 4: delta_r/delta_0: 6.1944E-04 | 5: delta_s/delta_0: 1.6499E-05 | 6: delta_r/delta_0: 2.6470E-06 | 7: delta_s/delta_0: 5.8274E-08 | 8: delta_r/delta_0: 2.8268E-08 | 9: delta_s/delta_0: 7.6042E-08 | 10: delta_r/delta_0: 3.9979E-09 | 11: delta_s/delta_0: 1.6428E-09 | 12: delta_r/delta_0: 5.1642E-10 | 13: delta_s/delta_0: 1.9997E-08 | 14: delta_r/delta_0: 4.4604E-09 | 15: delta_s/delta_0: 3.7918E-11 | Reached bicg-stab tolerance | BP delta = 0.2752650 0.3054095 3004644.37826569 | BP delta = 0.2752650 0.2730604 3005154.71461726 | 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 = 0.52106233 | --> Sampling calibration, mode = relcal | relcal = -5.0999414E-02 -3.7257366E-03 2.7197149E-02 2.7528001E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.7708759E-04 6.7793136E-04 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 7.4583E-05 | 2: delta_r/delta_0: 4.3396E-06 | 3: delta_s/delta_0: 4.9776E-07 | 4: delta_r/delta_0: 1.6494E-07 | 5: delta_s/delta_0: 9.5049E-04 | 6: delta_r/delta_0: 9.9107E-05 | 7: delta_s/delta_0: 1.9881E-08 | 8: delta_r/delta_0: 5.8355E-09 | 9: delta_s/delta_0: 1.2116E-07 | 10: delta_r/delta_0: 4.4943E-09 | 11: delta_s/delta_0: 1.7806E-08 | 12: delta_r/delta_0: 3.7562E-09 | 13: delta_s/delta_0: 9.1315E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.152409899225224E-002 5.488724066397879E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 7.4584E-05 | 2: delta_r/delta_0: 4.3396E-06 | 3: delta_s/delta_0: 4.9774E-07 | 4: delta_r/delta_0: 1.6493E-07 | 5: delta_s/delta_0: 9.5541E-04 | 6: delta_r/delta_0: 9.9597E-05 | 7: delta_s/delta_0: 1.9881E-08 | 8: delta_r/delta_0: 5.8355E-09 | 9: delta_s/delta_0: 1.2114E-07 | 10: delta_r/delta_0: 4.4951E-09 | 11: delta_s/delta_0: 1.7870E-08 | 12: delta_r/delta_0: 3.7674E-09 | 13: delta_s/delta_0: 9.1347E-11 | Reached bicg-stab tolerance | BP delta = -9.0229675E-02 2.3409443E-03 2435431.12684058 | BP delta = -9.0229675E-02 -1.5835889E-02 2435434.43298926 | 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 = 0.42115529 | --> Sampling calibration, mode = relcal | relcal = 4.5594104E-02 3.9619748E-02 -2.8285937E-02 -5.6927912E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.3907560E-03 5.2993954E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.0819E-05 | 2: delta_r/delta_0: 3.7621E-06 | 3: delta_s/delta_0: 2.4180E-06 | 4: delta_r/delta_0: 3.8879E-07 | 5: delta_s/delta_0: 5.8405E-08 | 6: delta_r/delta_0: 3.3656E-08 | 7: delta_s/delta_0: 3.4986E-08 | 8: delta_r/delta_0: 1.1698E-08 | 9: delta_s/delta_0: 2.2942E-09 | 10: delta_r/delta_0: 1.3910E-09 | 11: delta_s/delta_0: 1.1681E-09 | 12: delta_r/delta_0: 7.6475E-10 | 13: delta_s/delta_0: 2.4580E-07 | 14: delta_r/delta_0: 2.2095E-09 | 15: delta_s/delta_0: 1.8711E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.374637059655767E-002 5.000787534781768E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 6.0819E-05 | 2: delta_r/delta_0: 3.7621E-06 | 3: delta_s/delta_0: 2.4180E-06 | 4: delta_r/delta_0: 3.8879E-07 | 5: delta_s/delta_0: 5.8405E-08 | 6: delta_r/delta_0: 3.3656E-08 | 7: delta_s/delta_0: 3.4987E-08 | 8: delta_r/delta_0: 1.1698E-08 | 9: delta_s/delta_0: 2.2943E-09 | 10: delta_r/delta_0: 1.3910E-09 | 11: delta_s/delta_0: 1.1681E-09 | 12: delta_r/delta_0: 7.6480E-10 | 13: delta_s/delta_0: 2.4593E-07 | 14: delta_r/delta_0: 2.2132E-09 | 15: delta_s/delta_0: 1.8713E-11 | Reached bicg-stab tolerance | BP delta = -0.1492423 -0.1741529 2322269.64876116 | BP delta = -0.1492423 -0.1602292 2322292.96390215 | 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 = 0.28133716 | --> Sampling calibration, mode = relcal | relcal = 2.4246644E-02 4.5093197E-02 -2.3419823E-02 -4.5920018E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.2734497E-02 4.2626085E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.1182E-04 | 2: delta_r/delta_0: 8.9994E-06 | 3: delta_s/delta_0: 1.5021E-06 | 4: delta_r/delta_0: 1.8624E-07 | 5: delta_s/delta_0: 5.0950E-08 | 6: delta_r/delta_0: 1.3794E-08 | 7: delta_s/delta_0: 6.4384E-09 | 8: delta_r/delta_0: 3.7885E-09 | 9: delta_s/delta_0: 2.7964E-08 | 10: delta_r/delta_0: 3.0734E-09 | 11: delta_s/delta_0: 1.7698E-09 | 12: delta_r/delta_0: 7.3562E-10 | 13: delta_s/delta_0: 1.3220E-10 | 14: delta_r/delta_0: 1.0239E-10 | 15: delta_s/delta_0: 7.3392E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -8.539118995345254E-003 7.851908976467594E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.1182E-04 | 2: delta_r/delta_0: 8.9994E-06 | 3: delta_s/delta_0: 1.5021E-06 | 4: delta_r/delta_0: 1.8624E-07 | 5: delta_s/delta_0: 5.0951E-08 | 6: delta_r/delta_0: 1.3794E-08 | 7: delta_s/delta_0: 6.4384E-09 | 8: delta_r/delta_0: 3.7886E-09 | 9: delta_s/delta_0: 2.7964E-08 | 10: delta_r/delta_0: 3.0734E-09 | 11: delta_s/delta_0: 1.7701E-09 | 12: delta_r/delta_0: 7.3569E-10 | 13: delta_s/delta_0: 1.3221E-10 | 14: delta_r/delta_0: 1.0239E-10 | 15: delta_s/delta_0: 7.3392E-11 | Reached bicg-stab tolerance | BP delta = 3.9827585E-02 -8.1905030E-02 2490763.21826641 | BP delta = 3.9827585E-02 -7.7932812E-02 2490766.19204134 | 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 = 0.29358570 | --> Sampling calibration, mode = relcal | relcal = 5.4277503E-04 1.0294072E-02 -3.8673906E-03 -6.9694566E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.5391591E-02 1.6291331E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.3931E-04 | 2: delta_r/delta_0: 1.1403E-05 | 3: delta_s/delta_0: 1.8587E-06 | 4: delta_r/delta_0: 3.1195E-07 | 5: delta_s/delta_0: 1.1105E-07 | 6: delta_r/delta_0: 2.6271E-08 | 7: delta_s/delta_0: 1.1439E-08 | 8: delta_r/delta_0: 7.1394E-09 | 9: delta_s/delta_0: 8.0892E-09 | 10: delta_r/delta_0: 4.5797E-09 | 11: delta_s/delta_0: 4.4560E-07 | 12: delta_r/delta_0: 8.7073E-08 | 13: delta_s/delta_0: 4.2599E-10 | 14: delta_r/delta_0: 1.4596E-10 | 15: delta_s/delta_0: 6.6375E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.668910761210653E-003 8.316239321667844E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.3931E-04 | 2: delta_r/delta_0: 1.1403E-05 | 3: delta_s/delta_0: 1.8586E-06 | 4: delta_r/delta_0: 3.1194E-07 | 5: delta_s/delta_0: 1.1105E-07 | 6: delta_r/delta_0: 2.6270E-08 | 7: delta_s/delta_0: 1.1438E-08 | 8: delta_r/delta_0: 7.1393E-09 | 9: delta_s/delta_0: 8.0890E-09 | 10: delta_r/delta_0: 4.5797E-09 | 11: delta_s/delta_0: 4.4531E-07 | 12: delta_r/delta_0: 8.6997E-08 | 13: delta_s/delta_0: 4.2596E-10 | 14: delta_r/delta_0: 1.4595E-10 | 15: delta_s/delta_0: 6.6375E-11 | Reached bicg-stab tolerance | BP delta = -0.7066873 -0.6747323 2737949.62131033 | BP delta = -0.7066873 -0.6556395 2737945.40313211 | BP chisq diff = -4.2, accept = T | | Finished processing 090-WMAP_W2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W3 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.26478322 | --> Sampling calibration, mode = relcal | relcal = -5.6116953E-03 1.4964478E-02 -2.3206391E-03 -7.0321439E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -9.9329394E-04 4.0133176E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4449E-04 | 2: delta_r/delta_0: 1.2355E-05 | 3: delta_s/delta_0: 2.0991E-06 | 4: delta_r/delta_0: 2.5300E-07 | 5: delta_s/delta_0: 8.4057E-08 | 6: delta_r/delta_0: 1.8357E-08 | 7: delta_s/delta_0: 7.0811E-09 | 8: delta_r/delta_0: 4.2496E-09 | 9: delta_s/delta_0: 3.2259E-09 | 10: delta_r/delta_0: 1.4963E-09 | 11: delta_s/delta_0: 4.4430E-06 | 12: delta_r/delta_0: 7.2356E-09 | 13: delta_s/delta_0: 6.5137E-10 | 14: delta_r/delta_0: 3.2187E-10 | 15: delta_s/delta_0: 6.8337E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -7.025249932134393E-003 9.163280503287656E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.4449E-04 | 2: delta_r/delta_0: 1.2355E-05 | 3: delta_s/delta_0: 2.0991E-06 | 4: delta_r/delta_0: 2.5300E-07 | 5: delta_s/delta_0: 8.4057E-08 | 6: delta_r/delta_0: 1.8357E-08 | 7: delta_s/delta_0: 7.0811E-09 | 8: delta_r/delta_0: 4.2496E-09 | 9: delta_s/delta_0: 3.2259E-09 | 10: delta_r/delta_0: 1.4963E-09 | 11: delta_s/delta_0: 4.4432E-06 | 12: delta_r/delta_0: 7.2357E-09 | 13: delta_s/delta_0: 6.5138E-10 | 14: delta_r/delta_0: 3.2186E-10 | 15: delta_s/delta_0: 6.8337E-11 | Reached bicg-stab tolerance | BP delta = 0.2182568 0.2486644 2516553.82532243 | BP delta = 0.2182568 0.2542199 2516553.80488486 | 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 = 0.25638449 | --> Sampling calibration, mode = relcal | relcal = -3.1719401E-02 -2.5919724E-02 3.6898226E-02 2.0740902E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.6105573E-02 1.6596008E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4606E-04 | 2: delta_r/delta_0: 1.2434E-05 | 3: delta_s/delta_0: 2.0286E-06 | 4: delta_r/delta_0: 3.7453E-07 | 5: delta_s/delta_0: 1.4742E-07 | 6: delta_r/delta_0: 2.7202E-08 | 7: delta_s/delta_0: 1.0743E-08 | 8: delta_r/delta_0: 6.9822E-09 | 9: delta_s/delta_0: 4.6982E-09 | 10: delta_r/delta_0: 2.7475E-09 | 11: delta_s/delta_0: 1.2345E-05 | 12: delta_r/delta_0: 4.0034E-09 | 13: delta_s/delta_0: 4.2208E-09 | 14: delta_r/delta_0: 1.7398E-09 | 15: delta_s/delta_0: 1.1341E-10 | 16: delta_r/delta_0: 9.8081E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.053801010470455E-003 8.680803726270865E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.4606E-04 | 2: delta_r/delta_0: 1.2434E-05 | 3: delta_s/delta_0: 2.0287E-06 | 4: delta_r/delta_0: 3.7457E-07 | 5: delta_s/delta_0: 1.4744E-07 | 6: delta_r/delta_0: 2.7204E-08 | 7: delta_s/delta_0: 1.0743E-08 | 8: delta_r/delta_0: 6.9823E-09 | 9: delta_s/delta_0: 4.6983E-09 | 10: delta_r/delta_0: 2.7478E-09 | 11: delta_s/delta_0: 1.2333E-05 | 12: delta_r/delta_0: 3.9966E-09 | 13: delta_s/delta_0: 4.2175E-09 | 14: delta_r/delta_0: 1.7396E-09 | 15: delta_s/delta_0: 1.1342E-10 | 16: delta_r/delta_0: 9.8090E-11 | Reached bicg-stab tolerance | BP delta = -0.5763813 -0.6604539 2705888.20879345 | BP delta = -0.5763813 -0.6538168 2705912.88840966 | 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 = -3.142335 | New value = -3.157259 | poltype: 2 pol: 1 CPU time specind = 4.4898987E-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 = -3.149812 | New value = -3.131165 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.062171 | New value = -3.115129 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.170442 | New value = -3.053384 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.141805 | New value = -3.134272 | poltype: 2 pol: 2 CPU time specind = 1.5909672E-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 = 4.12 | CG iter. 1 -- res = 0.13521E+08, tol = 0.71588E+01, time = 1.57 | CG iter. 2 -- res = 0.43135E+05, tol = 0.71588E+01, time = 1.65 | CG iter. 3 -- res = 0.32007E+05, tol = 0.71588E+01, time = 1.59 | CG iter. 4 -- res = 0.88791E+04, tol = 0.71588E+01, time = 1.58 | CG iter. 5 -- res = 0.50202E+04, tol = 0.71588E+01, time = 1.52 | CG iter. 6 -- res = 0.33082E+04, tol = 0.71588E+01, time = 1.53 | CG iter. 7 -- res = 0.18147E+04, tol = 0.71588E+01, time = 1.56 | CG iter. 8 -- res = 0.10105E+04, tol = 0.71588E+01, time = 1.57 | CG iter. 9 -- res = 0.11134E+04, tol = 0.71588E+01, time = 1.57 | CG iter. 10 -- res = 0.10735E+04, tol = 0.71588E+01, time = 1.52 | CG iter. 11 -- res = 0.89736E+03, tol = 0.71588E+01, time = 1.57 | CG iter. 12 -- res = 0.67964E+03, tol = 0.71588E+01, time = 1.56 | CG iter. 13 -- res = 0.57607E+03, tol = 0.71588E+01, time = 1.51 | CG iter. 14 -- res = 0.46212E+03, tol = 0.71588E+01, time = 1.54 | CG iter. 15 -- res = 0.30277E+03, tol = 0.71588E+01, time = 1.59 | CG iter. 16 -- res = 0.25254E+03, tol = 0.71588E+01, time = 1.51 | CG iter. 17 -- res = 0.17406E+03, tol = 0.71588E+01, time = 1.59 | CG iter. 18 -- res = 0.14364E+03, tol = 0.71588E+01, time = 1.54 | CG iter. 19 -- res = 0.14134E+03, tol = 0.71588E+01, time = 1.57 | CG iter. 20 -- res = 0.10957E+03, tol = 0.71588E+01, time = 1.60 | CG iter. 21 -- res = 0.80657E+02, tol = 0.71588E+01, time = 1.54 | CG iter. 22 -- res = 0.78937E+02, tol = 0.71588E+01, time = 1.53 | CG iter. 23 -- res = 0.64573E+02, tol = 0.71588E+01, time = 1.57 | CG iter. 24 -- res = 0.46603E+02, tol = 0.71588E+01, time = 1.55 | CG iter. 25 -- res = 0.40021E+02, tol = 0.71588E+01, time = 1.54 | CG iter. 26 -- res = 0.38854E+02, tol = 0.71588E+01, time = 1.63 | CG iter. 27 -- res = 0.29907E+02, tol = 0.71588E+01, time = 1.63 | CG iter. 28 -- res = 0.23636E+02, tol = 0.71588E+01, time = 1.60 | CG iter. 29 -- res = 0.20264E+02, tol = 0.71588E+01, time = 1.62 | CG iter. 30 -- res = 0.18608E+02, tol = 0.71588E+01, time = 1.65 | CG iter. 31 -- res = 0.15110E+02, tol = 0.71588E+01, time = 1.62 | CG iter. 32 -- res = 0.12791E+02, tol = 0.71588E+01, time = 1.55 | CG iter. 33 -- res = 0.10935E+02, tol = 0.71588E+01, time = 1.56 | CG iter. 34 -- res = 0.95219E+01, tol = 0.71588E+01, time = 1.58 | CG iter. 35 -- res = 0.79231E+01, tol = 0.71588E+01, time = 1.57 | CG iter. 36 -- res = 0.66598E+01, tol = 0.71588E+01, time = 1.55 | CG iter. 37 -- res = 0.52153E+01, tol = 0.71588E+01, time = 1.57 | CG iter. 38 -- res = 0.39071E+01, tol = 0.71588E+01, time = 1.54 | CG iter. 39 -- res = 0.32118E+01, tol = 0.71588E+01, time = 1.51 | CG iter. 40 -- res = 0.41775E+01, tol = 0.71588E+01, time = 1.56 | CG iter. 41 -- res = 0.21700E+01, tol = 0.71588E+01, time = 1.51 | CG iter. 42 -- res = 0.15662E+01, tol = 0.71588E+01, time = 1.54 | CG iter. 43 -- res = 0.12239E+01, tol = 0.71588E+01, time = 1.59 | CG iter. 44 -- res = 0.14971E+01, tol = 0.71588E+01, time = 1.61 | CG iter. 45 -- res = 0.96566E+00, tol = 0.71588E+01, time = 1.54 | CG iter. 46 -- res = 0.59655E+00, tol = 0.71588E+01, time = 1.61 | CG iter. 47 -- res = 0.46982E+00, tol = 0.71588E+01, time = 1.57 | CG iter. 48 -- res = 0.40606E+00, tol = 0.71588E+01, time = 1.56 | CG iter. 49 -- res = 0.33911E+00, tol = 0.71588E+01, time = 1.56 | CG iter. 50 -- res = 0.26594E+00, tol = 0.71588E+01, time = 1.58 | Final CG iter 51 -- res = 0.26594E+00, tol = 0.71588E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 10182329.036 | Old band monopole 9657321.889 | Change to band monopole 525007.147 | Change to component monopole -525004.889 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 4.10 | CG iter. 1 -- res = 0.21185E+05, tol = 0.47627E+18, time = 0.40 | CG iter. 2 -- res = 0.15316E+02, tol = 0.47627E+18, time = 0.43 | CG iter. 3 -- res = 0.97319E-01, tol = 0.47627E+18, time = 0.39 | CG iter. 4 -- res = 0.64834E-04, tol = 0.47627E+18, time = 0.40 | Final CG iter 5 -- res = 0.38917E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10182285.239 | (Sampled value in CG: 10173461.560 ) | 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 = 1.468213 | New value = 1.499448 | poltype: 2 pol: 1 CPU time specind = 4.2481422E-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 = 1.479237 | New value = 1.515223 | poltype: 2 pol: 2 CPU time specind = 1.4209747E-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 = 4.11 | CG iter. 1 -- res = 0.24260E+08, tol = 0.47576E+04, time = 1.84 | CG iter. 2 -- res = 0.54250E+07, tol = 0.47576E+04, time = 1.80 | CG iter. 3 -- res = 0.86576E+06, tol = 0.47576E+04, time = 1.82 | CG iter. 4 -- res = 0.35924E+06, tol = 0.47576E+04, time = 1.78 | CG iter. 5 -- res = 0.15614E+06, tol = 0.47576E+04, time = 1.82 | CG iter. 6 -- res = 0.81753E+05, tol = 0.47576E+04, time = 1.80 | CG iter. 7 -- res = 0.44802E+05, tol = 0.47576E+04, time = 1.78 | CG iter. 8 -- res = 0.21771E+05, tol = 0.47576E+04, time = 1.85 | CG iter. 9 -- res = 0.94559E+04, tol = 0.47576E+04, time = 1.84 | CG iter. 10 -- res = 0.38988E+04, tol = 0.47576E+04, time = 1.80 | CG iter. 11 -- res = 0.17472E+04, tol = 0.47576E+04, time = 1.80 | CG iter. 12 -- res = 0.90459E+03, tol = 0.47576E+04, time = 1.81 | CG iter. 13 -- res = 0.50655E+03, tol = 0.47576E+04, time = 1.81 | CG iter. 14 -- res = 0.28365E+03, tol = 0.47576E+04, time = 1.80 | CG iter. 15 -- res = 0.14410E+03, tol = 0.47576E+04, time = 1.86 | CG iter. 16 -- res = 0.68576E+02, tol = 0.47576E+04, time = 1.82 | CG iter. 17 -- res = 0.32263E+02, tol = 0.47576E+04, time = 1.78 | CG iter. 18 -- res = 0.16145E+02, tol = 0.47576E+04, time = 1.84 | CG iter. 19 -- res = 0.86730E+01, tol = 0.47576E+04, time = 1.82 | CG iter. 20 -- res = 0.49263E+01, tol = 0.47576E+04, time = 1.78 | CG iter. 21 -- res = 0.27180E+01, tol = 0.47576E+04, time = 1.78 | CG iter. 22 -- res = 0.14325E+01, tol = 0.47576E+04, time = 1.80 | CG iter. 23 -- res = 0.68987E+00, tol = 0.47576E+04, time = 1.80 | CG iter. 24 -- res = 0.34475E+00, tol = 0.47576E+04, time = 1.89 | CG iter. 25 -- res = 0.18375E+00, tol = 0.47576E+04, time = 1.80 | CG iter. 26 -- res = 0.10638E+00, tol = 0.47576E+04, time = 1.82 | CG iter. 27 -- res = 0.60635E-01, tol = 0.47576E+04, time = 1.77 | CG iter. 28 -- res = 0.33353E-01, tol = 0.47576E+04, time = 1.76 | CG iter. 29 -- res = 0.17166E-01, tol = 0.47576E+04, time = 1.81 | CG iter. 30 -- res = 0.88935E-02, tol = 0.47576E+04, time = 1.82 | CG iter. 31 -- res = 0.47735E-02, tol = 0.47576E+04, time = 1.76 | CG iter. 32 -- res = 0.26775E-02, tol = 0.47576E+04, time = 1.82 | CG iter. 33 -- res = 0.15476E-02, tol = 0.47576E+04, time = 1.82 | CG iter. 34 -- res = 0.85758E-03, tol = 0.47576E+04, time = 1.78 | CG iter. 35 -- res = 0.44830E-03, tol = 0.47576E+04, time = 1.87 | Final CG iter 36 -- res = 0.44830E-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) -2.487 2.744 | New value -0.386 | Old value -2.487 | Difference 2.102 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 4.11 | CG iter. 1 -- res = 0.22852E+06, tol = 0.47627E+18, time = 0.36 | CG iter. 2 -- res = 0.13014E+02, tol = 0.47627E+18, time = 0.38 | CG iter. 3 -- res = 0.83703E-01, tol = 0.47627E+18, time = 0.38 | CG iter. 4 -- res = 0.51903E-04, tol = 0.47627E+18, time = 0.41 | Final CG iter 5 -- res = 0.60319E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10182285.239 | (Sampled value in CG: 10173635.029 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.632758 | New value = -3.787661 | poltype: 1 pol: 1 CPU time specind = 4.4929981E-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 = 4.11 | CG iter. 1 -- res = 0.20442E+07, tol = 0.12489E+01, time = 0.72 | CG iter. 2 -- res = 0.36685E+05, tol = 0.12489E+01, time = 0.74 | CG iter. 3 -- res = 0.27175E+05, tol = 0.12489E+01, time = 0.70 | CG iter. 4 -- res = 0.98091E+04, tol = 0.12489E+01, time = 0.67 | CG iter. 5 -- res = 0.33170E+04, tol = 0.12489E+01, time = 0.68 | CG iter. 6 -- res = 0.11355E+04, tol = 0.12489E+01, time = 0.69 | CG iter. 7 -- res = 0.47946E+03, tol = 0.12489E+01, time = 0.71 | CG iter. 8 -- res = 0.21028E+03, tol = 0.12489E+01, time = 0.62 | CG iter. 9 -- res = 0.87913E+02, tol = 0.12489E+01, time = 0.69 | CG iter. 10 -- res = 0.27022E+02, tol = 0.12489E+01, time = 0.68 | CG iter. 11 -- res = 0.11892E+02, tol = 0.12489E+01, time = 0.65 | CG iter. 12 -- res = 0.39606E+01, tol = 0.12489E+01, time = 0.64 | CG iter. 13 -- res = 0.12094E+01, tol = 0.12489E+01, time = 0.68 | CG iter. 14 -- res = 0.40867E+00, tol = 0.12489E+01, time = 0.66 | CG iter. 15 -- res = 0.16630E+00, tol = 0.12489E+01, time = 0.65 | CG iter. 16 -- res = 0.54731E-01, tol = 0.12489E+01, time = 0.63 | CG iter. 17 -- res = 0.21636E-01, tol = 0.12489E+01, time = 0.68 | CG iter. 18 -- res = 0.84948E-02, tol = 0.12489E+01, time = 0.66 | CG iter. 19 -- res = 0.32827E-02, tol = 0.12489E+01, time = 0.66 | CG iter. 20 -- res = 0.13174E-02, tol = 0.12489E+01, time = 0.72 | CG iter. 21 -- res = 0.43268E-03, tol = 0.12489E+01, time = 0.71 | CG iter. 22 -- res = 0.15263E-03, tol = 0.12489E+01, time = 0.68 | CG iter. 23 -- res = 0.53453E-04, tol = 0.12489E+01, time = 0.67 | CG iter. 24 -- res = 0.18776E-04, tol = 0.12489E+01, time = 0.66 | CG iter. 25 -- res = 0.58862E-05, tol = 0.12489E+01, time = 0.67 | CG iter. 26 -- res = 0.18245E-05, tol = 0.12489E+01, time = 0.68 | CG iter. 27 -- res = 0.63994E-06, tol = 0.12489E+01, time = 0.65 | CG iter. 28 -- res = 0.23027E-06, tol = 0.12489E+01, time = 0.65 | CG iter. 29 -- res = 0.68938E-07, tol = 0.12489E+01, time = 0.66 | CG iter. 30 -- res = 0.20881E-07, tol = 0.12489E+01, time = 0.66 | CG iter. 31 -- res = 0.71523E-08, tol = 0.12489E+01, time = 0.69 | CG iter. 32 -- res = 0.25329E-08, tol = 0.12489E+01, time = 0.64 | CG iter. 33 -- res = 0.23704E-08, tol = 0.12489E+01, time = 0.68 | CG iter. 34 -- res = 0.44756E-09, tol = 0.12489E+01, time = 0.67 | CG iter. 35 -- res = 0.13231E-09, tol = 0.12489E+01, time = 0.67 | CG iter. 36 -- res = 0.45493E-10, tol = 0.12489E+01, time = 0.64 | CG iter. 37 -- res = 0.37405E-10, tol = 0.12489E+01, time = 0.67 | CG iter. 38 -- res = 0.11520E-10, tol = 0.12489E+01, time = 0.65 | CG iter. 39 -- res = 0.37465E-11, tol = 0.12489E+01, time = 0.68 | CG iter. 40 -- res = 0.10621E-11, tol = 0.12489E+01, time = 0.67 | CG iter. 41 -- res = 0.33106E-12, tol = 0.12489E+01, time = 0.67 | CG iter. 42 -- res = 0.11200E-12, tol = 0.12489E+01, time = 0.66 | CG iter. 43 -- res = 0.37055E-13, tol = 0.12489E+01, time = 0.68 | CG iter. 44 -- res = 0.12106E-13, tol = 0.12489E+01, time = 0.70 | CG iter. 45 -- res = 0.41929E-14, tol = 0.12489E+01, time = 0.67 | CG iter. 46 -- res = 0.14014E-14, tol = 0.12489E+01, time = 0.64 | CG iter. 47 -- res = 0.39965E-15, tol = 0.12489E+01, time = 0.68 | CG iter. 48 -- res = 0.11181E-15, tol = 0.12489E+01, time = 0.66 | CG iter. 49 -- res = 0.32356E-16, tol = 0.12489E+01, time = 0.65 | CG iter. 50 -- res = 0.14579E-16, tol = 0.12489E+01, time = 0.71 | Final CG iter 51 -- res = 0.14579E-16, tol = 0.12489E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 1.123 2.582 | New value 3.206 | Old value 1.123 | Difference 2.082 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 4.11 | CG iter. 1 -- res = 0.29264E+04, tol = 0.47627E+18, time = 0.39 | CG iter. 2 -- res = 0.18445E+02, tol = 0.47627E+18, time = 0.37 | CG iter. 3 -- res = 0.52309E-01, tol = 0.47627E+18, time = 0.40 | Final CG iter 4 -- res = 0.26022E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10182285.239 | (Sampled value in CG: 10175595.669 ) | CPU time specind = 280.7185 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 4.13 | CG iter. 1 -- res = 0.68542E+08, tol = 0.51548E+04, time = 3.24 | CG iter. 2 -- res = 0.32846E+08, tol = 0.51548E+04, time = 3.28 | CG iter. 3 -- res = 0.56772E+07, tol = 0.51548E+04, time = 3.24 | CG iter. 4 -- res = 0.28638E+07, tol = 0.51548E+04, time = 3.15 | CG iter. 5 -- res = 0.12577E+07, tol = 0.51548E+04, time = 3.19 | CG iter. 6 -- res = 0.69650E+06, tol = 0.51548E+04, time = 3.26 | CG iter. 7 -- res = 0.38282E+06, tol = 0.51548E+04, time = 3.19 | CG iter. 8 -- res = 0.19199E+06, tol = 0.51548E+04, time = 3.21 | CG iter. 9 -- res = 0.94084E+05, tol = 0.51548E+04, time = 3.27 | CG iter. 10 -- res = 0.41494E+05, tol = 0.51548E+04, time = 3.24 | CG iter. 11 -- res = 0.20940E+05, tol = 0.51548E+04, time = 3.26 | CG iter. 12 -- res = 0.11674E+05, tol = 0.51548E+04, time = 3.21 | CG iter. 13 -- res = 0.71411E+04, tol = 0.51548E+04, time = 3.21 | CG iter. 14 -- res = 0.47364E+04, tol = 0.51548E+04, time = 3.30 | CG iter. 15 -- res = 0.30226E+04, tol = 0.51548E+04, time = 3.23 | CG iter. 16 -- res = 0.20891E+04, tol = 0.51548E+04, time = 3.30 | CG iter. 17 -- res = 0.15479E+04, tol = 0.51548E+04, time = 3.28 | CG iter. 18 -- res = 0.13517E+04, tol = 0.51548E+04, time = 3.26 | CG iter. 19 -- res = 0.14043E+04, tol = 0.51548E+04, time = 3.23 | CG iter. 20 -- res = 0.15876E+04, tol = 0.51548E+04, time = 3.28 | CG iter. 21 -- res = 0.17350E+04, tol = 0.51548E+04, time = 3.22 | CG iter. 22 -- res = 0.16818E+04, tol = 0.51548E+04, time = 3.24 | CG iter. 23 -- res = 0.15299E+04, tol = 0.51548E+04, time = 3.22 | CG iter. 24 -- res = 0.13753E+04, tol = 0.51548E+04, time = 3.21 | CG iter. 25 -- res = 0.12835E+04, tol = 0.51548E+04, time = 3.29 | CG iter. 26 -- res = 0.11761E+04, tol = 0.51548E+04, time = 3.23 | CG iter. 27 -- res = 0.10110E+04, tol = 0.51548E+04, time = 3.19 | CG iter. 28 -- res = 0.84655E+03, tol = 0.51548E+04, time = 3.27 | CG iter. 29 -- res = 0.74923E+03, tol = 0.51548E+04, time = 3.26 | CG iter. 30 -- res = 0.75436E+03, tol = 0.51548E+04, time = 3.25 | CG iter. 31 -- res = 0.83167E+03, tol = 0.51548E+04, time = 3.16 | CG iter. 32 -- res = 0.91528E+03, tol = 0.51548E+04, time = 3.31 | CG iter. 33 -- res = 0.91351E+03, tol = 0.51548E+04, time = 3.23 | CG iter. 34 -- res = 0.84038E+03, tol = 0.51548E+04, time = 3.27 | CG iter. 35 -- res = 0.78644E+03, tol = 0.51548E+04, time = 3.23 | CG iter. 36 -- res = 0.78180E+03, tol = 0.51548E+04, time = 3.29 | CG iter. 37 -- res = 0.79763E+03, tol = 0.51548E+04, time = 3.20 | CG iter. 38 -- res = 0.77325E+03, tol = 0.51548E+04, time = 3.19 | CG iter. 39 -- res = 0.68669E+03, tol = 0.51548E+04, time = 3.20 | CG iter. 40 -- res = 0.61280E+03, tol = 0.51548E+04, time = 3.23 | CG iter. 41 -- res = 0.59986E+03, tol = 0.51548E+04, time = 3.23 | CG iter. 42 -- res = 0.64570E+03, tol = 0.51548E+04, time = 3.17 | CG iter. 43 -- res = 0.69524E+03, tol = 0.51548E+04, time = 3.27 | CG iter. 44 -- res = 0.68509E+03, tol = 0.51548E+04, time = 3.18 | CG iter. 45 -- res = 0.62937E+03, tol = 0.51548E+04, time = 3.26 | CG iter. 46 -- res = 0.59106E+03, tol = 0.51548E+04, time = 3.23 | CG iter. 47 -- res = 0.59442E+03, tol = 0.51548E+04, time = 3.29 | CG iter. 48 -- res = 0.60963E+03, tol = 0.51548E+04, time = 3.23 | CG iter. 49 -- res = 0.58948E+03, tol = 0.51548E+04, time = 3.22 | CG iter. 50 -- res = 0.53106E+03, tol = 0.51548E+04, time = 3.31 | CG iter. 51 -- res = 0.48356E+03, tol = 0.51548E+04, time = 3.19 | CG iter. 52 -- res = 0.47528E+03, tol = 0.51548E+04, time = 3.17 | CG iter. 53 -- res = 0.50182E+03, tol = 0.51548E+04, time = 3.26 | CG iter. 54 -- res = 0.52289E+03, tol = 0.51548E+04, time = 3.21 | CG iter. 55 -- res = 0.50256E+03, tol = 0.51548E+04, time = 3.19 | CG iter. 56 -- res = 0.46137E+03, tol = 0.51548E+04, time = 3.24 | CG iter. 57 -- res = 0.44599E+03, tol = 0.51548E+04, time = 3.23 | CG iter. 58 -- res = 0.46807E+03, tol = 0.51548E+04, time = 3.18 | CG iter. 59 -- res = 0.49481E+03, tol = 0.51548E+04, time = 3.26 | CG iter. 60 -- res = 0.47657E+03, tol = 0.51548E+04, time = 3.29 | Final CG iter 61 -- res = 0.47657E+03, tol = 0.51548E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 2.482 ( -231.112 -2233.135 2515.430 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8685689.617 | Old band monopole 10182329.036 | Change to band monopole -1496639.418 | Change to component monopole 1496632.981 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -0.356 2.759 | New value 3.027 | Old value -0.356 | Difference 3.383 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -3.303 ( 8.349 10.021 -9.866 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 14.029 2.377 | New value 1.491 | Old value 14.029 | Difference -12.538 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 4.11 | CG iter. 1 -- res = 0.59882E+06, tol = 0.47627E+18, time = 0.38 | CG iter. 2 -- res = 0.43582E+02, tol = 0.47627E+18, time = 0.35 | CG iter. 3 -- res = 0.11876E+01, tol = 0.47627E+18, time = 0.38 | CG iter. 4 -- res = 0.47551E-03, tol = 0.47627E+18, time = 0.35 | Final CG iter 5 -- res = 0.60878E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8685652.258 | (Sampled value in CG: 8633389.647 ) | Chain = 1 -- chisq = 0.61635786E+09 | Chain = 1 -- wall time = 4756.408 sec --------------------------------------------------------------------- | Chain = 1 -- Iteration = 57 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.17772421460158 | --> Sampling calibration, mode = relcal | relcal = -7.3533624E-02 -5.7431228E-02 9.0195119E-02 4.0769733E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.5652017E-04 2.1858700E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.5841E-04 | 2: delta_r/delta_0: 2.8834E-06 | 3: delta_s/delta_0: 1.6510E-07 | 4: delta_r/delta_0: 2.8890E-08 | 5: delta_s/delta_0: 1.1151E-08 | 6: delta_r/delta_0: 2.9395E-09 | 7: delta_s/delta_0: 9.6064E-10 | 8: delta_r/delta_0: 1.4540E-10 | 9: delta_s/delta_0: 5.2383E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.953710742789648E-004 2.748904559266713E-005 | BP delta = 5.8667609E-03 1.3440619E-02 29858596.9319254 | BP delta = 5.8871699E-03 1.3461028E-02 29858596.9505590 | 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 = 1.02539672 | --> Sampling calibration, mode = relcal | relcal = -0.1066137 -9.5468327E-02 0.1448626 5.7219442E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.7137766E-03 1.3157638E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.1983E-04 | 2: delta_r/delta_0: 1.3634E-05 | 3: delta_s/delta_0: 4.4564E-06 | 4: delta_r/delta_0: 4.0679E-07 | 5: delta_s/delta_0: 3.4307E-07 | 6: delta_r/delta_0: 1.6882E-08 | 7: delta_s/delta_0: 2.8678E-09 | 8: delta_r/delta_0: 1.4743E-09 | 9: delta_s/delta_0: 1.0378E-08 | 10: delta_r/delta_0: 3.1550E-10 | 11: delta_s/delta_0: 1.2592E-10 | 12: delta_r/delta_0: 7.0459E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -5.995832654934788E-003 2.812459457965873E-005 | BP delta = -0.1921912 -0.1812511 34754472.7630272 | BP delta = -0.1907896 -0.1798495 34754472.9437319 | 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 = 0.81151218 | --> Sampling calibration, mode = relcal | relcal = 0.2951217 0.2247209 -0.2835410 -0.2363016 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.1048508E-04 5.7893028E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.5451E-03 | 2: delta_r/delta_0: 3.5553E-05 | 3: delta_s/delta_0: 2.2546E-04 | 4: delta_r/delta_0: 6.9152E-06 | 5: delta_s/delta_0: 1.4590E-04 | 6: delta_r/delta_0: 1.7000E-05 | 7: delta_s/delta_0: 4.6517E-08 | 8: delta_r/delta_0: 3.0893E-08 | 9: delta_s/delta_0: 4.3259E-07 | 10: delta_r/delta_0: 4.7280E-09 | 11: delta_s/delta_0: 9.5241E-10 | 12: delta_r/delta_0: 6.3722E-10 | 13: delta_s/delta_0: 4.4960E-10 | 14: delta_r/delta_0: 9.4029E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.645034658531476E-002 4.025297418983383E-005 | BP delta = -7.8684986E-02 -0.1102933 43106753.6080342 | BP delta = -8.3760448E-02 -0.1153688 43106753.5876506 | 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 = 0.95818969 | --> Sampling calibration, mode = relcal | relcal = 0.1064383 0.1393515 -0.1101200 -0.1356698 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0405724E-02 1.3187382E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 7.0704E-04 | 2: delta_r/delta_0: 1.6270E-05 | 3: delta_s/delta_0: 5.2088E-04 | 4: delta_r/delta_0: 2.3468E-05 | 5: delta_s/delta_0: 2.5537E-05 | 6: delta_r/delta_0: 3.7417E-06 | 7: delta_s/delta_0: 5.3515E-08 | 8: delta_r/delta_0: 3.3459E-08 | 9: delta_s/delta_0: 5.8677E-07 | 10: delta_r/delta_0: 5.1628E-09 | 11: delta_s/delta_0: 1.2104E-09 | 12: delta_r/delta_0: 5.1208E-10 | 13: delta_s/delta_0: 4.5260E-10 | 14: delta_r/delta_0: 4.6370E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.155710434946074E-002 3.700951869659741E-005 | BP delta = 0.2752650 0.3054095 43049069.1215801 | BP delta = 0.2760463 0.3061908 43049069.1407531 | 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 = 0.52109215 | --> Sampling calibration, mode = relcal | relcal = -5.0999548E-02 -3.8104234E-03 2.7335165E-02 2.7474806E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -2.2382759E-04 6.3000649E-04 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.8119E-05 | 2: delta_r/delta_0: 4.2728E-06 | 3: delta_s/delta_0: 2.5688E-06 | 4: delta_r/delta_0: 3.4885E-07 | 5: delta_s/delta_0: 4.8847E-08 | 6: delta_r/delta_0: 2.5854E-08 | 7: delta_s/delta_0: 7.1056E-06 | 8: delta_r/delta_0: 3.2668E-07 | 9: delta_s/delta_0: 3.3073E-09 | 10: delta_r/delta_0: 1.4177E-09 | 11: delta_s/delta_0: 2.0714E-08 | 12: delta_r/delta_0: 1.6693E-10 | 13: delta_s/delta_0: 5.3619E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.034555054534394E-002 5.488388456564864E-005 | BP delta = -9.0229675E-02 2.3409443E-03 61509781.3069566 | BP delta = -7.6244973E-02 1.6325645E-02 61509781.2743683 | 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 = 0.42111659 | --> Sampling calibration, mode = relcal | relcal = 4.5551319E-02 3.9680857E-02 -2.8280390E-02 -5.6951784E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.5925724E-03 6.0327668E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.0633E-05 | 2: delta_r/delta_0: 3.8451E-06 | 3: delta_s/delta_0: 2.4563E-06 | 4: delta_r/delta_0: 4.0339E-07 | 5: delta_s/delta_0: 5.7770E-08 | 6: delta_r/delta_0: 3.3572E-08 | 7: delta_s/delta_0: 2.4939E-08 | 8: delta_r/delta_0: 1.1858E-08 | 9: delta_s/delta_0: 2.3517E-09 | 10: delta_r/delta_0: 1.2041E-09 | 11: delta_s/delta_0: 1.0993E-09 | 12: delta_r/delta_0: 3.9282E-10 | 13: delta_s/delta_0: 6.1986E-06 | 14: delta_r/delta_0: 1.4181E-08 | 15: delta_s/delta_0: 2.0254E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.371825709342422E-002 5.001344536848262E-005 | BP delta = -0.1492423 -0.1741529 61336640.3334092 | BP delta = -0.1542462 -0.1791568 61336640.3511321 | 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 = 0.28138956 | --> Sampling calibration, mode = relcal | relcal = 2.4244413E-02 4.5017641E-02 -2.3304062E-02 -4.5957990E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.1098792E-02 2.0784594E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.0745E-04 | 2: delta_r/delta_0: 8.7682E-06 | 3: delta_s/delta_0: 1.4255E-06 | 4: delta_r/delta_0: 2.4193E-07 | 5: delta_s/delta_0: 8.0969E-08 | 6: delta_r/delta_0: 1.8025E-08 | 7: delta_s/delta_0: 9.1605E-09 | 8: delta_r/delta_0: 4.1835E-09 | 9: delta_s/delta_0: 5.0217E-06 | 10: delta_r/delta_0: 1.7021E-08 | 11: delta_s/delta_0: 2.2414E-09 | 12: delta_r/delta_0: 4.5813E-10 | 13: delta_s/delta_0: 2.0005E-10 | 14: delta_r/delta_0: 1.4722E-10 | 15: delta_s/delta_0: 1.1914E-10 | 16: delta_r/delta_0: 1.0530E-10 | 17: delta_s/delta_0: 9.2249E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -8.765634563855419E-003 7.849960037348202E-005 | BP delta = 3.9827585E-02 -8.1905030E-02 94961276.5476997 | BP delta = 1.5951773E-02 -0.1057808 94961276.4451146 | 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 = 0.29366836 | --> Sampling calibration, mode = relcal | relcal = 5.0076749E-04 1.0302670E-02 -3.8239146E-03 -6.9795232E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.8186992E-02 1.2713475E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.3248E-04 | 2: delta_r/delta_0: 1.0910E-05 | 3: delta_s/delta_0: 1.6172E-06 | 4: delta_r/delta_0: 3.0891E-07 | 5: delta_s/delta_0: 8.3050E-08 | 6: delta_r/delta_0: 2.4499E-08 | 7: delta_s/delta_0: 1.2466E-08 | 8: delta_r/delta_0: 7.1694E-09 | 9: delta_s/delta_0: 1.3595E-07 | 10: delta_r/delta_0: 6.3402E-09 | 11: delta_s/delta_0: 4.7020E-09 | 12: delta_r/delta_0: 2.8294E-09 | 13: delta_s/delta_0: 2.1673E-10 | 14: delta_r/delta_0: 1.5215E-10 | 15: delta_s/delta_0: 7.2668E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.792284641640314E-003 8.313761094475907E-005 | BP delta = -0.7066873 -0.6556395 93515272.9212497 | BP delta = -0.7119948 -0.6609470 93515272.9141484 | 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 = 0.26480324 | --> Sampling calibration, mode = relcal | relcal = -5.6067463E-03 1.4927722E-02 -2.3369384E-03 -6.9840369E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -4.9237203E-04 3.8084968E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4379E-04 | 2: delta_r/delta_0: 1.2359E-05 | 3: delta_s/delta_0: 2.0817E-06 | 4: delta_r/delta_0: 2.6190E-07 | 5: delta_s/delta_0: 1.0343E-07 | 6: delta_r/delta_0: 2.1005E-08 | 7: delta_s/delta_0: 8.0259E-09 | 8: delta_r/delta_0: 5.0161E-09 | 9: delta_s/delta_0: 4.6341E-09 | 10: delta_r/delta_0: 3.2189E-09 | 11: delta_s/delta_0: 7.2244E-07 | 12: delta_r/delta_0: 3.7775E-09 | 13: delta_s/delta_0: 5.3608E-09 | 14: delta_r/delta_0: 1.5632E-09 | 15: delta_s/delta_0: 6.6912E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -7.817363149415765E-003 9.162663165348630E-005 | BP delta = 0.2182568 0.2542199 94711216.7708224 | BP delta = 0.2137103 0.2496734 94711216.7676958 | 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 = 0.25639556 | --> Sampling calibration, mode = relcal | relcal = -3.1662423E-02 -2.5912421E-02 3.6929078E-02 2.0645767E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.9485447E-02 1.9261306E-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: 1.2094E-05 | 3: delta_s/delta_0: 1.9411E-06 | 4: delta_r/delta_0: 4.0012E-07 | 5: delta_s/delta_0: 1.0906E-07 | 6: delta_r/delta_0: 2.6207E-08 | 7: delta_s/delta_0: 1.0307E-08 | 8: delta_r/delta_0: 6.1923E-09 | 9: delta_s/delta_0: 2.0728E-08 | 10: delta_r/delta_0: 4.8960E-09 | 11: delta_s/delta_0: 6.8259E-09 | 12: delta_r/delta_0: 2.2912E-09 | 13: delta_s/delta_0: 2.2376E-09 | 14: delta_r/delta_0: 1.0721E-09 | 15: delta_s/delta_0: 1.4287E-10 | 16: delta_r/delta_0: 1.2686E-10 | 17: delta_s/delta_0: 1.0760E-10 | 18: delta_r/delta_0: 9.8975E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.188305116800528E-003 8.679951009378784E-005 | BP delta = -0.5763813 -0.6604539 93066522.3781173 | BP delta = -0.5997548 -0.6838273 93066522.3446784 | 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 = -3.157259 | New value = -3.181434 | poltype: 2 pol: 1 CPU time specind = 4.5030117E-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 = -3.131165 | New value = -3.178550 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.115129 | New value = -3.187397 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.053384 | New value = -3.217234 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.134272 | New value = -3.159617 | poltype: 2 pol: 2 CPU time specind = 1.6899109E-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 = 4.24 | CG iter. 1 -- res = 0.13575E+08, tol = 0.78447E+01, time = 1.54 | CG iter. 2 -- res = 0.49933E+05, tol = 0.78447E+01, time = 1.52 | CG iter. 3 -- res = 0.39060E+05, tol = 0.78447E+01, time = 1.48 | CG iter. 4 -- res = 0.15448E+05, tol = 0.78447E+01, time = 1.56 | CG iter. 5 -- res = 0.13594E+05, tol = 0.78447E+01, time = 1.49 | CG iter. 6 -- res = 0.13379E+05, tol = 0.78447E+01, time = 1.52 | CG iter. 7 -- res = 0.12339E+05, tol = 0.78447E+01, time = 1.51 | CG iter. 8 -- res = 0.10060E+05, tol = 0.78447E+01, time = 1.52 | CG iter. 9 -- res = 0.11334E+05, tol = 0.78447E+01, time = 1.55 | CG iter. 10 -- res = 0.13826E+05, tol = 0.78447E+01, time = 1.55 | CG iter. 11 -- res = 0.74074E+04, tol = 0.78447E+01, time = 1.51 | CG iter. 12 -- res = 0.46813E+04, tol = 0.78447E+01, time = 1.49 | CG iter. 13 -- res = 0.42012E+04, tol = 0.78447E+01, time = 1.52 | CG iter. 14 -- res = 0.28391E+04, tol = 0.78447E+01, time = 1.55 | CG iter. 15 -- res = 0.24998E+04, tol = 0.78447E+01, time = 1.51 | CG iter. 16 -- res = 0.17761E+04, tol = 0.78447E+01, time = 1.53 | CG iter. 17 -- res = 0.13840E+04, tol = 0.78447E+01, time = 1.58 | CG iter. 18 -- res = 0.12262E+04, tol = 0.78447E+01, time = 1.53 | CG iter. 19 -- res = 0.11514E+04, tol = 0.78447E+01, time = 1.50 | CG iter. 20 -- res = 0.75861E+03, tol = 0.78447E+01, time = 1.49 | CG iter. 21 -- res = 0.60490E+03, tol = 0.78447E+01, time = 1.53 | CG iter. 22 -- res = 0.59562E+03, tol = 0.78447E+01, time = 1.49 | CG iter. 23 -- res = 0.52128E+03, tol = 0.78447E+01, time = 1.50 | CG iter. 24 -- res = 0.43972E+03, tol = 0.78447E+01, time = 1.53 | CG iter. 25 -- res = 0.39101E+03, tol = 0.78447E+01, time = 1.53 | CG iter. 26 -- res = 0.35213E+03, tol = 0.78447E+01, time = 1.47 | CG iter. 27 -- res = 0.28899E+03, tol = 0.78447E+01, time = 1.48 | CG iter. 28 -- res = 0.23417E+03, tol = 0.78447E+01, time = 1.52 | CG iter. 29 -- res = 0.22906E+03, tol = 0.78447E+01, time = 1.49 | CG iter. 30 -- res = 0.21112E+03, tol = 0.78447E+01, time = 1.47 | CG iter. 31 -- res = 0.17616E+03, tol = 0.78447E+01, time = 1.47 | CG iter. 32 -- res = 0.14161E+03, tol = 0.78447E+01, time = 1.53 | CG iter. 33 -- res = 0.12410E+03, tol = 0.78447E+01, time = 1.50 | CG iter. 34 -- res = 0.10498E+03, tol = 0.78447E+01, time = 1.47 | CG iter. 35 -- res = 0.85670E+02, tol = 0.78447E+01, time = 1.53 | CG iter. 36 -- res = 0.65767E+02, tol = 0.78447E+01, time = 1.47 | CG iter. 37 -- res = 0.51246E+02, tol = 0.78447E+01, time = 1.54 | CG iter. 38 -- res = 0.46445E+02, tol = 0.78447E+01, time = 1.54 | CG iter. 39 -- res = 0.49244E+02, tol = 0.78447E+01, time = 1.51 | CG iter. 40 -- res = 0.29070E+02, tol = 0.78447E+01, time = 1.55 | CG iter. 41 -- res = 0.21123E+02, tol = 0.78447E+01, time = 1.51 | CG iter. 42 -- res = 0.15331E+02, tol = 0.78447E+01, time = 1.57 | CG iter. 43 -- res = 0.14250E+02, tol = 0.78447E+01, time = 1.50 | CG iter. 44 -- res = 0.16299E+02, tol = 0.78447E+01, time = 1.50 | CG iter. 45 -- res = 0.91642E+01, tol = 0.78447E+01, time = 1.47 | CG iter. 46 -- res = 0.69680E+01, tol = 0.78447E+01, time = 1.48 | CG iter. 47 -- res = 0.50653E+01, tol = 0.78447E+01, time = 1.50 | CG iter. 48 -- res = 0.39133E+01, tol = 0.78447E+01, time = 1.52 | CG iter. 49 -- res = 0.35612E+01, tol = 0.78447E+01, time = 1.54 | CG iter. 50 -- res = 0.35704E+01, tol = 0.78447E+01, time = 1.51 | Final CG iter 51 -- res = 0.35704E+01, tol = 0.78447E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8494026.285 | Old band monopole 8685689.617 | Change to band monopole -191663.332 | Change to component monopole 191662.508 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 4.25 | CG iter. 1 -- res = 0.13186E+05, tol = 0.47627E+18, time = 0.35 | CG iter. 2 -- res = 0.12072E+02, tol = 0.47627E+18, time = 0.36 | CG iter. 3 -- res = 0.19560E+00, tol = 0.47627E+18, time = 0.36 | CG iter. 4 -- res = 0.25759E-03, tol = 0.47627E+18, time = 0.35 | Final CG iter 5 -- res = 0.14809E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8493989.750 | (Sampled value in CG: 8482407.313 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.499448 | New value = 1.469007 | poltype: 2 pol: 1 CPU time specind = 4.6098232E-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 = 1.515223 | New value = 1.495416 | poltype: 2 pol: 2 CPU time specind = 1.8191338E-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 = 4.25 | CG iter. 1 -- res = 0.24205E+08, tol = 0.47562E+04, time = 1.76 | CG iter. 2 -- res = 0.52244E+07, tol = 0.47562E+04, time = 1.76 | CG iter. 3 -- res = 0.82416E+06, tol = 0.47562E+04, time = 1.70 | CG iter. 4 -- res = 0.34306E+06, tol = 0.47562E+04, time = 1.73 | CG iter. 5 -- res = 0.14872E+06, tol = 0.47562E+04, time = 1.73 | CG iter. 6 -- res = 0.78875E+05, tol = 0.47562E+04, time = 1.75 | CG iter. 7 -- res = 0.43732E+05, tol = 0.47562E+04, time = 1.73 | CG iter. 8 -- res = 0.20914E+05, tol = 0.47562E+04, time = 1.80 | CG iter. 9 -- res = 0.89612E+04, tol = 0.47562E+04, time = 1.77 | CG iter. 10 -- res = 0.36764E+04, tol = 0.47562E+04, time = 1.78 | CG iter. 11 -- res = 0.16561E+04, tol = 0.47562E+04, time = 1.78 | CG iter. 12 -- res = 0.84917E+03, tol = 0.47562E+04, time = 1.74 | CG iter. 13 -- res = 0.48122E+03, tol = 0.47562E+04, time = 1.79 | CG iter. 14 -- res = 0.27259E+03, tol = 0.47562E+04, time = 1.81 | CG iter. 15 -- res = 0.14212E+03, tol = 0.47562E+04, time = 1.82 | CG iter. 16 -- res = 0.67926E+02, tol = 0.47562E+04, time = 1.72 | CG iter. 17 -- res = 0.31929E+02, tol = 0.47562E+04, time = 1.77 | CG iter. 18 -- res = 0.15838E+02, tol = 0.47562E+04, time = 1.76 | CG iter. 19 -- res = 0.86230E+01, tol = 0.47562E+04, time = 1.77 | CG iter. 20 -- res = 0.48950E+01, tol = 0.47562E+04, time = 1.74 | CG iter. 21 -- res = 0.27108E+01, tol = 0.47562E+04, time = 1.82 | CG iter. 22 -- res = 0.14111E+01, tol = 0.47562E+04, time = 1.79 | CG iter. 23 -- res = 0.70522E+00, tol = 0.47562E+04, time = 1.80 | CG iter. 24 -- res = 0.36116E+00, tol = 0.47562E+04, time = 1.81 | CG iter. 25 -- res = 0.18990E+00, tol = 0.47562E+04, time = 1.78 | CG iter. 26 -- res = 0.10553E+00, tol = 0.47562E+04, time = 1.76 | CG iter. 27 -- res = 0.59233E-01, tol = 0.47562E+04, time = 1.77 | CG iter. 28 -- res = 0.31780E-01, tol = 0.47562E+04, time = 1.81 | CG iter. 29 -- res = 0.16251E-01, tol = 0.47562E+04, time = 1.86 | CG iter. 30 -- res = 0.84091E-02, tol = 0.47562E+04, time = 1.79 | CG iter. 31 -- res = 0.46025E-02, tol = 0.47562E+04, time = 1.79 | CG iter. 32 -- res = 0.26778E-02, tol = 0.47562E+04, time = 1.82 | CG iter. 33 -- res = 0.15344E-02, tol = 0.47562E+04, time = 1.83 | CG iter. 34 -- res = 0.84791E-03, tol = 0.47562E+04, time = 1.84 | CG iter. 35 -- res = 0.44876E-03, tol = 0.47562E+04, time = 1.87 | Final CG iter 36 -- res = 0.44876E-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) 3.038 2.761 | New value 3.910 | Old value 3.038 | Difference 0.872 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 4.25 | CG iter. 1 -- res = 0.39819E+05, tol = 0.47627E+18, time = 0.38 | CG iter. 2 -- res = 0.10957E+02, tol = 0.47627E+18, time = 0.37 | CG iter. 3 -- res = 0.13922E+00, tol = 0.47627E+18, time = 0.38 | CG iter. 4 -- res = 0.13155E-03, tol = 0.47627E+18, time = 0.36 | Final CG iter 5 -- res = 0.34517E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8493989.750 | (Sampled value in CG: 8482906.074 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.787661 | New value = -3.656643 | poltype: 1 pol: 1 CPU time specind = 2.7239323E-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 = 4.26 | CG iter. 1 -- res = 0.21871E+07, tol = 0.13027E+01, time = 0.61 | CG iter. 2 -- res = 0.44008E+05, tol = 0.13027E+01, time = 0.65 | CG iter. 3 -- res = 0.28087E+05, tol = 0.13027E+01, time = 0.59 | CG iter. 4 -- res = 0.93256E+04, tol = 0.13027E+01, time = 0.62 | CG iter. 5 -- res = 0.37918E+04, tol = 0.13027E+01, time = 0.69 | CG iter. 6 -- res = 0.16619E+04, tol = 0.13027E+01, time = 0.63 | CG iter. 7 -- res = 0.46305E+03, tol = 0.13027E+01, time = 0.62 | CG iter. 8 -- res = 0.11814E+03, tol = 0.13027E+01, time = 0.64 | CG iter. 9 -- res = 0.54918E+02, tol = 0.13027E+01, time = 0.62 | CG iter. 10 -- res = 0.29256E+02, tol = 0.13027E+01, time = 0.61 | CG iter. 11 -- res = 0.12232E+02, tol = 0.13027E+01, time = 0.64 | CG iter. 12 -- res = 0.55190E+01, tol = 0.13027E+01, time = 0.60 | CG iter. 13 -- res = 0.17495E+01, tol = 0.13027E+01, time = 0.63 | CG iter. 14 -- res = 0.53269E+00, tol = 0.13027E+01, time = 0.60 | CG iter. 15 -- res = 0.21989E+00, tol = 0.13027E+01, time = 0.59 | CG iter. 16 -- res = 0.85871E-01, tol = 0.13027E+01, time = 0.62 | CG iter. 17 -- res = 0.29294E-01, tol = 0.13027E+01, time = 0.64 | CG iter. 18 -- res = 0.11065E-01, tol = 0.13027E+01, time = 0.62 | CG iter. 19 -- res = 0.39099E-02, tol = 0.13027E+01, time = 0.62 | CG iter. 20 -- res = 0.16091E-02, tol = 0.13027E+01, time = 0.60 | CG iter. 21 -- res = 0.51639E-03, tol = 0.13027E+01, time = 0.64 | CG iter. 22 -- res = 0.21409E-03, tol = 0.13027E+01, time = 0.62 | CG iter. 23 -- res = 0.76426E-04, tol = 0.13027E+01, time = 0.62 | CG iter. 24 -- res = 0.23016E-04, tol = 0.13027E+01, time = 0.61 | CG iter. 25 -- res = 0.70791E-05, tol = 0.13027E+01, time = 0.62 | CG iter. 26 -- res = 0.24135E-05, tol = 0.13027E+01, time = 0.63 | CG iter. 27 -- res = 0.99069E-06, tol = 0.13027E+01, time = 0.62 | CG iter. 28 -- res = 0.29498E-06, tol = 0.13027E+01, time = 0.61 | CG iter. 29 -- res = 0.83421E-07, tol = 0.13027E+01, time = 0.63 | CG iter. 30 -- res = 0.27393E-07, tol = 0.13027E+01, time = 0.62 | CG iter. 31 -- res = 0.98471E-08, tol = 0.13027E+01, time = 0.60 | CG iter. 32 -- res = 0.35647E-08, tol = 0.13027E+01, time = 0.63 | CG iter. 33 -- res = 0.22173E-08, tol = 0.13027E+01, time = 0.65 | CG iter. 34 -- res = 0.85293E-09, tol = 0.13027E+01, time = 0.63 | CG iter. 35 -- res = 0.23123E-09, tol = 0.13027E+01, time = 0.62 | CG iter. 36 -- res = 0.69989E-10, tol = 0.13027E+01, time = 0.60 | CG iter. 37 -- res = 0.25695E-10, tol = 0.13027E+01, time = 0.62 | CG iter. 38 -- res = 0.15120E-10, tol = 0.13027E+01, time = 0.64 | CG iter. 39 -- res = 0.57745E-11, tol = 0.13027E+01, time = 0.59 | CG iter. 40 -- res = 0.14408E-11, tol = 0.13027E+01, time = 0.64 | CG iter. 41 -- res = 0.43979E-12, tol = 0.13027E+01, time = 0.64 | CG iter. 42 -- res = 0.14857E-12, tol = 0.13027E+01, time = 0.62 | CG iter. 43 -- res = 0.45313E-13, tol = 0.13027E+01, time = 0.64 | CG iter. 44 -- res = 0.14810E-13, tol = 0.13027E+01, time = 0.64 | CG iter. 45 -- res = 0.56616E-14, tol = 0.13027E+01, time = 0.60 | CG iter. 46 -- res = 0.18644E-14, tol = 0.13027E+01, time = 0.64 | CG iter. 47 -- res = 0.55461E-15, tol = 0.13027E+01, time = 0.60 | CG iter. 48 -- res = 0.16804E-15, tol = 0.13027E+01, time = 0.62 | CG iter. 49 -- res = 0.50684E-16, tol = 0.13027E+01, time = 0.65 | CG iter. 50 -- res = 0.15905E-16, tol = 0.13027E+01, time = 0.64 | Final CG iter 51 -- res = 0.15905E-16, tol = 0.13027E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 1.048 2.396 | New value -5.022 | Old value 1.048 | Difference -6.070 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 4.25 | CG iter. 1 -- res = 0.22922E+05, tol = 0.47627E+18, time = 0.38 | CG iter. 2 -- res = 0.14285E+02, tol = 0.47627E+18, time = 0.35 | CG iter. 3 -- res = 0.10759E+00, tol = 0.47627E+18, time = 0.38 | CG iter. 4 -- res = 0.75109E-04, tol = 0.47627E+18, time = 0.38 | Final CG iter 5 -- res = 0.86732E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8493989.750 | (Sampled value in CG: 8485443.808 ) | CPU time specind = 274.2357 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 4.28 | CG iter. 1 -- res = 0.68517E+08, tol = 0.51530E+04, time = 3.09 | CG iter. 2 -- res = 0.33200E+08, tol = 0.51530E+04, time = 3.17 | CG iter. 3 -- res = 0.57550E+07, tol = 0.51530E+04, time = 3.03 | CG iter. 4 -- res = 0.28964E+07, tol = 0.51530E+04, time = 3.09 | CG iter. 5 -- res = 0.12841E+07, tol = 0.51530E+04, time = 3.05 | CG iter. 6 -- res = 0.70681E+06, tol = 0.51530E+04, time = 3.09 | CG iter. 7 -- res = 0.39618E+06, tol = 0.51530E+04, time = 3.11 | CG iter. 8 -- res = 0.20223E+06, tol = 0.51530E+04, time = 3.15 | CG iter. 9 -- res = 0.10131E+06, tol = 0.51530E+04, time = 3.16 | CG iter. 10 -- res = 0.46633E+05, tol = 0.51530E+04, time = 3.13 | CG iter. 11 -- res = 0.24877E+05, tol = 0.51530E+04, time = 3.14 | CG iter. 12 -- res = 0.15436E+05, tol = 0.51530E+04, time = 3.12 | CG iter. 13 -- res = 0.11118E+05, tol = 0.51530E+04, time = 3.15 | CG iter. 14 -- res = 0.90465E+04, tol = 0.51530E+04, time = 3.17 | CG iter. 15 -- res = 0.72521E+04, tol = 0.51530E+04, time = 3.13 | CG iter. 16 -- res = 0.63300E+04, tol = 0.51530E+04, time = 3.15 | CG iter. 17 -- res = 0.59104E+04, tol = 0.51530E+04, time = 3.17 | CG iter. 18 -- res = 0.62644E+04, tol = 0.51530E+04, time = 3.06 | CG iter. 19 -- res = 0.68733E+04, tol = 0.51530E+04, time = 3.09 | CG iter. 20 -- res = 0.69470E+04, tol = 0.51530E+04, time = 3.14 | CG iter. 21 -- res = 0.60530E+04, tol = 0.51530E+04, time = 3.07 | CG iter. 22 -- res = 0.45692E+04, tol = 0.51530E+04, time = 3.12 | CG iter. 23 -- res = 0.33719E+04, tol = 0.51530E+04, time = 3.20 | CG iter. 24 -- res = 0.26010E+04, tol = 0.51530E+04, time = 3.07 | CG iter. 25 -- res = 0.21541E+04, tol = 0.51530E+04, time = 3.20 | CG iter. 26 -- res = 0.18328E+04, tol = 0.51530E+04, time = 3.17 | CG iter. 27 -- res = 0.15318E+04, tol = 0.51530E+04, time = 3.15 | CG iter. 28 -- res = 0.13180E+04, tol = 0.51530E+04, time = 3.24 | CG iter. 29 -- res = 0.12052E+04, tol = 0.51530E+04, time = 3.23 | CG iter. 30 -- res = 0.12141E+04, tol = 0.51530E+04, time = 3.18 | CG iter. 31 -- res = 0.12448E+04, tol = 0.51530E+04, time = 3.17 | CG iter. 32 -- res = 0.12002E+04, tol = 0.51530E+04, time = 3.11 | CG iter. 33 -- res = 0.10441E+04, tol = 0.51530E+04, time = 3.22 | CG iter. 34 -- res = 0.85824E+03, tol = 0.51530E+04, time = 3.21 | CG iter. 35 -- res = 0.74032E+03, tol = 0.51530E+04, time = 3.23 | CG iter. 36 -- res = 0.69533E+03, tol = 0.51530E+04, time = 3.24 | CG iter. 37 -- res = 0.68381E+03, tol = 0.51530E+04, time = 3.27 | CG iter. 38 -- res = 0.65452E+03, tol = 0.51530E+04, time = 3.21 | CG iter. 39 -- res = 0.60361E+03, tol = 0.51530E+04, time = 3.19 | CG iter. 40 -- res = 0.56750E+03, tol = 0.51530E+04, time = 3.21 | CG iter. 41 -- res = 0.58520E+03, tol = 0.51530E+04, time = 3.23 | CG iter. 42 -- res = 0.63577E+03, tol = 0.51530E+04, time = 3.22 | CG iter. 43 -- res = 0.67088E+03, tol = 0.51530E+04, time = 3.22 | CG iter. 44 -- res = 0.65455E+03, tol = 0.51530E+04, time = 3.19 | CG iter. 45 -- res = 0.59826E+03, tol = 0.51530E+04, time = 3.20 | CG iter. 46 -- res = 0.56441E+03, tol = 0.51530E+04, time = 3.16 | CG iter. 47 -- res = 0.57408E+03, tol = 0.51530E+04, time = 3.26 | CG iter. 48 -- res = 0.60021E+03, tol = 0.51530E+04, time = 3.20 | CG iter. 49 -- res = 0.60131E+03, tol = 0.51530E+04, time = 3.22 | CG iter. 50 -- res = 0.57500E+03, tol = 0.51530E+04, time = 3.18 | CG iter. 51 -- res = 0.56019E+03, tol = 0.51530E+04, time = 3.21 | CG iter. 52 -- res = 0.57637E+03, tol = 0.51530E+04, time = 3.21 | CG iter. 53 -- res = 0.62356E+03, tol = 0.51530E+04, time = 3.24 | CG iter. 54 -- res = 0.66817E+03, tol = 0.51530E+04, time = 3.19 | CG iter. 55 -- res = 0.65644E+03, tol = 0.51530E+04, time = 3.07 | CG iter. 56 -- res = 0.60519E+03, tol = 0.51530E+04, time = 3.09 | CG iter. 57 -- res = 0.57838E+03, tol = 0.51530E+04, time = 3.14 | CG iter. 58 -- res = 0.59646E+03, tol = 0.51530E+04, time = 3.19 | CG iter. 59 -- res = 0.62055E+03, tol = 0.51530E+04, time = 3.16 | CG iter. 60 -- res = 0.59388E+03, tol = 0.51530E+04, time = 3.18 | Final CG iter 61 -- res = 0.59388E+03, tol = 0.51530E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 3.154 ( -231.779 -2233.816 2516.745 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9216317.337 | Old band monopole 8494026.285 | Change to band monopole 722291.052 | Change to component monopole -722287.946 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 3.877 2.742 | New value -2.218 | Old value 3.877 | Difference -6.095 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -4.048 ( 8.640 12.934 -13.010 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 8.271 2.688 | New value 1.930 | Old value 8.271 | Difference -6.341 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 4.25 | CG iter. 1 -- res = 0.19261E+07, tol = 0.47627E+18, time = 0.35 | CG iter. 2 -- res = 0.71227E+02, tol = 0.47627E+18, time = 0.38 | CG iter. 3 -- res = 0.18646E+01, tol = 0.47627E+18, time = 0.36 | CG iter. 4 -- res = 0.32214E-02, tol = 0.47627E+18, time = 0.35 | Final CG iter 5 -- res = 0.42710E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9216277.696 | (Sampled value in CG: 9149136.327 ) | Chain = 1 -- chisq = 0.61636762E+09 | Chain = 1 -- wall time = 4111.150 sec --------------------------------------------------------------------- | Chain = 1 -- Iteration = 58 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18291952149139 | --> Sampling calibration, mode = relcal | relcal = -7.6119751E-02 -5.9255920E-02 9.2994131E-02 4.2381540E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 4.3179432E-04 6.2232972E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.9558E-05 | 2: delta_r/delta_0: 1.5461E-06 | 3: delta_s/delta_0: 2.0257E-07 | 4: delta_r/delta_0: 3.0645E-08 | 5: delta_s/delta_0: 8.5417E-09 | 6: delta_r/delta_0: 3.1511E-09 | 7: delta_s/delta_0: 9.6123E-10 | 8: delta_r/delta_0: 4.0638E-10 | 9: delta_s/delta_0: 1.5487E-10 | 10: delta_r/delta_0: 7.9960E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.309051537027669E-003 2.736480276553009E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.9560E-05 | 2: delta_r/delta_0: 1.5461E-06 | 3: delta_s/delta_0: 2.0257E-07 | 4: delta_r/delta_0: 3.0645E-08 | 5: delta_s/delta_0: 8.5415E-09 | 6: delta_r/delta_0: 3.1511E-09 | 7: delta_s/delta_0: 9.6127E-10 | 8: delta_r/delta_0: 4.0639E-10 | 9: delta_s/delta_0: 1.5486E-10 | 10: delta_r/delta_0: 7.9999E-11 | Reached bicg-stab tolerance | BP delta = 5.8871699E-03 1.3461028E-02 3697004.44538292 | BP delta = 5.8871699E-03 1.4360409E-02 3699779.65779999 | 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 = 1.02511784 | --> Sampling calibration, mode = relcal | relcal = -0.1065602 -9.5500760E-02 0.1448098 5.7251137E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.6267831E-03 1.5557609E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.7144E-02 | 2: delta_r/delta_0: 3.7585E-04 | 3: delta_s/delta_0: 2.7810E-05 | 4: delta_r/delta_0: 2.2244E-06 | 5: delta_s/delta_0: 7.7147E-07 | 6: delta_r/delta_0: 8.0274E-08 | 7: delta_s/delta_0: 5.9891E-08 | 8: delta_r/delta_0: 2.6137E-08 | 9: delta_s/delta_0: 1.3969E-08 | 10: delta_r/delta_0: 5.2599E-09 | 11: delta_s/delta_0: 2.4950E-09 | 12: delta_r/delta_0: 1.3249E-09 | 13: delta_s/delta_0: 1.2338E-09 | 14: delta_r/delta_0: 4.4363E-10 | 15: delta_s/delta_0: 4.9276E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.234108433348109E-002 2.813252065255693E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.7146E-02 | 2: delta_r/delta_0: 3.7590E-04 | 3: delta_s/delta_0: 2.7804E-05 | 4: delta_r/delta_0: 2.2240E-06 | 5: delta_s/delta_0: 7.7137E-07 | 6: delta_r/delta_0: 8.0259E-08 | 7: delta_s/delta_0: 5.9875E-08 | 8: delta_r/delta_0: 2.6133E-08 | 9: delta_s/delta_0: 1.3968E-08 | 10: delta_r/delta_0: 5.2591E-09 | 11: delta_s/delta_0: 2.4942E-09 | 12: delta_r/delta_0: 1.3251E-09 | 13: delta_s/delta_0: 1.2336E-09 | 14: delta_r/delta_0: 4.4473E-10 | 15: delta_s/delta_0: 4.9428E-11 | Reached bicg-stab tolerance | BP delta = -0.1907896 -0.1798495 2841278.12053419 | BP delta = -0.1907896 -0.1774467 2841296.66065784 | 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 = 0.81166858 | --> Sampling calibration, mode = relcal | relcal = 0.2952823 0.2246526 -0.2835881 -0.2363469 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.1619562E-04 5.6358576E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 7.0147E-04 | 2: delta_r/delta_0: 1.5916E-05 | 3: delta_s/delta_0: 3.9190E-04 | 4: delta_r/delta_0: 2.6211E-05 | 5: delta_s/delta_0: 6.3789E-06 | 6: delta_r/delta_0: 1.1080E-06 | 7: delta_s/delta_0: 6.0107E-08 | 8: delta_r/delta_0: 3.4356E-08 | 9: delta_s/delta_0: 4.2022E-07 | 10: delta_r/delta_0: 3.1689E-09 | 11: delta_s/delta_0: 7.9715E-10 | 12: delta_r/delta_0: 5.2071E-10 | 13: delta_s/delta_0: 5.8532E-10 | 14: delta_r/delta_0: 8.3038E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.131594127685188E-002 4.024462467252917E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 7.0112E-04 | 2: delta_r/delta_0: 1.5908E-05 | 3: delta_s/delta_0: 3.9226E-04 | 4: delta_r/delta_0: 2.6236E-05 | 5: delta_s/delta_0: 6.3721E-06 | 6: delta_r/delta_0: 1.1067E-06 | 7: delta_s/delta_0: 6.0110E-08 | 8: delta_r/delta_0: 3.4347E-08 | 9: delta_s/delta_0: 4.1971E-07 | 10: delta_r/delta_0: 3.1687E-09 | 11: delta_s/delta_0: 7.9713E-10 | 12: delta_r/delta_0: 5.2082E-10 | 13: delta_s/delta_0: 5.8361E-10 | 14: delta_r/delta_0: 8.3029E-11 | Reached bicg-stab tolerance | BP delta = -8.3760448E-02 -0.1153688 2827595.31277623 | BP delta = -8.3760448E-02 -0.1163646 2827676.61036203 | 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 = 0.95845131 | --> Sampling calibration, mode = relcal | relcal = 0.1064234 0.1394409 -0.1102058 -0.1356586 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.8938821E-03 1.2505242E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 4.0660E-04 | 2: delta_r/delta_0: 9.2554E-06 | 3: delta_s/delta_0: 1.2789E-04 | 4: delta_r/delta_0: 6.3524E-06 | 5: delta_s/delta_0: 5.7575E-06 | 6: delta_r/delta_0: 8.4578E-07 | 7: delta_s/delta_0: 5.6115E-08 | 8: delta_r/delta_0: 2.8349E-08 | 9: delta_s/delta_0: 1.7116E-07 | 10: delta_r/delta_0: 6.1578E-09 | 11: delta_s/delta_0: 2.2935E-09 | 12: delta_r/delta_0: 5.3168E-10 | 13: delta_s/delta_0: 2.7967E-09 | 14: delta_r/delta_0: 6.1753E-10 | 15: delta_s/delta_0: 3.4664E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.441488528948409E-002 3.699935342004361E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 4.0634E-04 | 2: delta_r/delta_0: 9.2491E-06 | 3: delta_s/delta_0: 1.2805E-04 | 4: delta_r/delta_0: 6.3635E-06 | 5: delta_s/delta_0: 5.7687E-06 | 6: delta_r/delta_0: 8.4760E-07 | 7: delta_s/delta_0: 5.6128E-08 | 8: delta_r/delta_0: 2.8351E-08 | 9: delta_s/delta_0: 1.7090E-07 | 10: delta_r/delta_0: 6.1570E-09 | 11: delta_s/delta_0: 2.2961E-09 | 12: delta_r/delta_0: 5.3163E-10 | 13: delta_s/delta_0: 2.8469E-09 | 14: delta_r/delta_0: 6.3077E-10 | 15: delta_s/delta_0: 3.4665E-11 | Reached bicg-stab tolerance | BP delta = 0.2760463 0.3061908 3004498.79439331 | BP delta = 0.2760463 0.3070440 3004781.82206466 | 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 = 0.52115351 | --> Sampling calibration, mode = relcal | relcal = -5.0979175E-02 -3.6710321E-03 2.7221663E-02 2.7428543E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.7287310E-04 1.0893735E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 7.0496E-05 | 2: delta_r/delta_0: 4.1337E-06 | 3: delta_s/delta_0: 2.3202E-06 | 4: delta_r/delta_0: 2.8490E-07 | 5: delta_s/delta_0: 6.4246E-08 | 6: delta_r/delta_0: 2.5865E-08 | 7: delta_s/delta_0: 2.5467E-06 | 8: delta_r/delta_0: 3.1921E-07 | 9: delta_s/delta_0: 3.3707E-09 | 10: delta_r/delta_0: 1.5862E-09 | 11: delta_s/delta_0: 8.2033E-09 | 12: delta_r/delta_0: 1.3191E-10 | 13: delta_s/delta_0: 3.8284E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.047652839915534E-002 5.487615053895119E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 7.0496E-05 | 2: delta_r/delta_0: 4.1337E-06 | 3: delta_s/delta_0: 2.3202E-06 | 4: delta_r/delta_0: 2.8490E-07 | 5: delta_s/delta_0: 6.4247E-08 | 6: delta_r/delta_0: 2.5865E-08 | 7: delta_s/delta_0: 2.5475E-06 | 8: delta_r/delta_0: 3.1929E-07 | 9: delta_s/delta_0: 3.3707E-09 | 10: delta_r/delta_0: 1.5862E-09 | 11: delta_s/delta_0: 8.2006E-09 | 12: delta_r/delta_0: 1.3191E-10 | 13: delta_s/delta_0: 3.8326E-11 | Reached bicg-stab tolerance | BP delta = -7.6244973E-02 1.6325645E-02 2435651.13655933 | BP delta = -7.6244973E-02 3.3955224E-02 2435652.08328654 | BP chisq diff = 0.9, accept = T | | Finished processing 060-WMAP_V1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 060-WMAP_V2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.42114497 | --> Sampling calibration, mode = relcal | relcal = 4.5595363E-02 3.9594837E-02 -2.8286500E-02 -5.6903701E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.6634703E-03 3.5100696E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.0761E-05 | 2: delta_r/delta_0: 3.8024E-06 | 3: delta_s/delta_0: 2.4933E-06 | 4: delta_r/delta_0: 4.0938E-07 | 5: delta_s/delta_0: 6.1224E-08 | 6: delta_r/delta_0: 3.5678E-08 | 7: delta_s/delta_0: 4.3919E-08 | 8: delta_r/delta_0: 1.2173E-08 | 9: delta_s/delta_0: 2.3645E-09 | 10: delta_r/delta_0: 1.5014E-09 | 11: delta_s/delta_0: 8.6394E-10 | 12: delta_r/delta_0: 5.7358E-10 | 13: delta_s/delta_0: 2.5153E-09 | 14: delta_r/delta_0: 1.8252E-09 | 15: delta_s/delta_0: 1.8085E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.395620988001985E-002 5.000871719452430E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 6.0761E-05 | 2: delta_r/delta_0: 3.8024E-06 | 3: delta_s/delta_0: 2.4933E-06 | 4: delta_r/delta_0: 4.0938E-07 | 5: delta_s/delta_0: 6.1223E-08 | 6: delta_r/delta_0: 3.5678E-08 | 7: delta_s/delta_0: 4.3916E-08 | 8: delta_r/delta_0: 1.2173E-08 | 9: delta_s/delta_0: 2.3645E-09 | 10: delta_r/delta_0: 1.5014E-09 | 11: delta_s/delta_0: 8.6404E-10 | 12: delta_r/delta_0: 5.7356E-10 | 13: delta_s/delta_0: 2.5162E-09 | 14: delta_r/delta_0: 1.8258E-09 | 15: delta_s/delta_0: 1.8085E-11 | Reached bicg-stab tolerance | BP delta = -0.1542462 -0.1791568 2322141.33231428 | BP delta = -0.1542462 -0.1829678 2322172.30877768 | 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 = 0.28131452 | --> Sampling calibration, mode = relcal | relcal = 2.4143185E-02 4.5123201E-02 -2.3342537E-02 -4.5923848E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.0800505E-03 3.4352220E-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: 9.0465E-06 | 3: delta_s/delta_0: 1.5081E-06 | 4: delta_r/delta_0: 2.3720E-07 | 5: delta_s/delta_0: 8.6693E-08 | 6: delta_r/delta_0: 2.0555E-08 | 7: delta_s/delta_0: 1.0002E-08 | 8: delta_r/delta_0: 5.9625E-09 | 9: delta_s/delta_0: 8.6920E-08 | 10: delta_r/delta_0: 5.3353E-09 | 11: delta_s/delta_0: 2.1157E-09 | 12: delta_r/delta_0: 9.1038E-10 | 13: delta_s/delta_0: 1.4709E-10 | 14: delta_r/delta_0: 9.3026E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.772665841121832E-003 7.852255228010761E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.1089E-04 | 2: delta_r/delta_0: 9.0464E-06 | 3: delta_s/delta_0: 1.5081E-06 | 4: delta_r/delta_0: 2.3719E-07 | 5: delta_s/delta_0: 8.6689E-08 | 6: delta_r/delta_0: 2.0555E-08 | 7: delta_s/delta_0: 1.0002E-08 | 8: delta_r/delta_0: 5.9625E-09 | 9: delta_s/delta_0: 8.6925E-08 | 10: delta_r/delta_0: 5.3354E-09 | 11: delta_s/delta_0: 2.1158E-09 | 12: delta_r/delta_0: 9.1035E-10 | 13: delta_s/delta_0: 1.4709E-10 | 14: delta_r/delta_0: 9.3023E-11 | Reached bicg-stab tolerance | BP delta = 1.5951773E-02 -0.1057808 2490039.07258071 | BP delta = 1.5951773E-02 -9.4262168E-02 2490046.61625246 | 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 = 0.29355625 | --> Sampling calibration, mode = relcal | relcal = 5.6187756E-04 1.0210532E-02 -3.8083892E-03 -6.9640204E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.4027998E-02 1.6977269E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.3429E-04 | 2: delta_r/delta_0: 1.1396E-05 | 3: delta_s/delta_0: 1.8293E-06 | 4: delta_r/delta_0: 2.7217E-07 | 5: delta_s/delta_0: 9.6064E-08 | 6: delta_r/delta_0: 2.1894E-08 | 7: delta_s/delta_0: 9.3164E-09 | 8: delta_r/delta_0: 6.1383E-09 | 9: delta_s/delta_0: 4.7427E-09 | 10: delta_r/delta_0: 3.4728E-09 | 11: delta_s/delta_0: 8.9352E-06 | 12: delta_r/delta_0: 2.2071E-08 | 13: delta_s/delta_0: 2.3743E-09 | 14: delta_r/delta_0: 4.4795E-10 | 15: delta_s/delta_0: 1.2653E-10 | 16: delta_r/delta_0: 5.7057E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.260812388104672E-003 8.316861952768683E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.3429E-04 | 2: delta_r/delta_0: 1.1396E-05 | 3: delta_s/delta_0: 1.8293E-06 | 4: delta_r/delta_0: 2.7216E-07 | 5: delta_s/delta_0: 9.6052E-08 | 6: delta_r/delta_0: 2.1893E-08 | 7: delta_s/delta_0: 9.3161E-09 | 8: delta_r/delta_0: 6.1381E-09 | 9: delta_s/delta_0: 4.7426E-09 | 10: delta_r/delta_0: 3.4729E-09 | 11: delta_s/delta_0: 8.9456E-06 | 12: delta_r/delta_0: 2.2137E-08 | 13: delta_s/delta_0: 2.3590E-09 | 14: delta_r/delta_0: 4.4441E-10 | 15: delta_s/delta_0: 1.2654E-10 | 16: delta_r/delta_0: 5.7088E-11 | Reached bicg-stab tolerance | BP delta = -0.7119948 -0.6609470 2738275.26532991 | BP delta = -0.7119948 -0.6607039 2738284.90187845 | 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 = 0.26479100 | --> Sampling calibration, mode = relcal | relcal = -5.6520151E-03 1.4932606E-02 -2.2947025E-03 -6.9858893E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -5.6982599E-04 4.5586443E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4222E-04 | 2: delta_r/delta_0: 1.2114E-05 | 3: delta_s/delta_0: 2.0518E-06 | 4: delta_r/delta_0: 2.2307E-07 | 5: delta_s/delta_0: 8.7823E-08 | 6: delta_r/delta_0: 1.7588E-08 | 7: delta_s/delta_0: 7.4542E-09 | 8: delta_r/delta_0: 4.5564E-09 | 9: delta_s/delta_0: 4.5198E-09 | 10: delta_r/delta_0: 3.1834E-09 | 11: delta_s/delta_0: 1.8863E-04 | 12: delta_r/delta_0: 5.5500E-06 | 13: delta_s/delta_0: 3.9575E-10 | 14: delta_r/delta_0: 2.5530E-10 | 15: delta_s/delta_0: 1.0862E-10 | 16: delta_r/delta_0: 8.2908E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -7.425346503454525E-003 9.162731643062524E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.4222E-04 | 2: delta_r/delta_0: 1.2114E-05 | 3: delta_s/delta_0: 2.0518E-06 | 4: delta_r/delta_0: 2.2307E-07 | 5: delta_s/delta_0: 8.7823E-08 | 6: delta_r/delta_0: 1.7588E-08 | 7: delta_s/delta_0: 7.4542E-09 | 8: delta_r/delta_0: 4.5564E-09 | 9: delta_s/delta_0: 4.5198E-09 | 10: delta_r/delta_0: 3.1834E-09 | 11: delta_s/delta_0: 1.8846E-04 | 12: delta_r/delta_0: 5.5452E-06 | 13: delta_s/delta_0: 3.9573E-10 | 14: delta_r/delta_0: 2.5528E-10 | 15: delta_s/delta_0: 1.0862E-10 | 16: delta_r/delta_0: 8.2911E-11 | Reached bicg-stab tolerance | BP delta = 0.2137103 0.2496734 2516546.50573452 | BP delta = 0.2137103 0.2619693 2516546.47904577 | 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 = 0.25624773 | --> Sampling calibration, mode = relcal | relcal = -3.1640071E-02 -2.5889881E-02 3.6841128E-02 2.0688826E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.6167724E-02 1.7242773E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.5381E-04 | 2: delta_r/delta_0: 1.2362E-05 | 3: delta_s/delta_0: 1.9436E-06 | 4: delta_r/delta_0: 3.2017E-07 | 5: delta_s/delta_0: 1.0081E-07 | 6: delta_r/delta_0: 2.4263E-08 | 7: delta_s/delta_0: 9.2435E-09 | 8: delta_r/delta_0: 5.5841E-09 | 9: delta_s/delta_0: 3.6292E-09 | 10: delta_r/delta_0: 2.1686E-09 | 11: delta_s/delta_0: 1.8894E-05 | 12: delta_r/delta_0: 2.4611E-08 | 13: delta_s/delta_0: 3.0738E-09 | 14: delta_r/delta_0: 2.3372E-10 | 15: delta_s/delta_0: 1.3223E-10 | 16: delta_r/delta_0: 1.0910E-10 | 17: delta_s/delta_0: 1.1435E-10 | 18: delta_r/delta_0: 8.3928E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -8.125885608034344E-003 8.685428612961018E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.5381E-04 | 2: delta_r/delta_0: 1.2362E-05 | 3: delta_s/delta_0: 1.9436E-06 | 4: delta_r/delta_0: 3.2017E-07 | 5: delta_s/delta_0: 1.0081E-07 | 6: delta_r/delta_0: 2.4262E-08 | 7: delta_s/delta_0: 9.2434E-09 | 8: delta_r/delta_0: 5.5840E-09 | 9: delta_s/delta_0: 3.6291E-09 | 10: delta_r/delta_0: 2.1685E-09 | 11: delta_s/delta_0: 1.8874E-05 | 12: delta_r/delta_0: 2.4581E-08 | 13: delta_s/delta_0: 3.0693E-09 | 14: delta_r/delta_0: 2.3384E-10 | 15: delta_s/delta_0: 1.3222E-10 | 16: delta_r/delta_0: 1.0909E-10 | 17: delta_s/delta_0: 1.1417E-10 | 18: delta_r/delta_0: 8.3924E-11 | Reached bicg-stab tolerance | BP delta = -0.5997548 -0.6838273 2706416.31961495 | BP delta = -0.5997548 -0.6797234 2706404.38932455 | BP chisq diff = -11.9, 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 = -3.181434 | New value = -3.141405 | poltype: 2 pol: 1 CPU time specind = 4.9879551E-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 = -3.178550 | New value = -3.334937 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.187397 | New value = -3.173584 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.217234 | New value = -3.083839 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.159617 | New value = -3.146734 | poltype: 2 pol: 2 CPU time specind = 1.8920898E-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 = 4.27 | CG iter. 1 -- res = 0.13605E+08, tol = 0.74570E+01, time = 1.64 | CG iter. 2 -- res = 0.73047E+05, tol = 0.74570E+01, time = 1.61 | CG iter. 3 -- res = 0.67194E+05, tol = 0.74570E+01, time = 1.62 | CG iter. 4 -- res = 0.22634E+05, tol = 0.74570E+01, time = 1.55 | CG iter. 5 -- res = 0.25592E+05, tol = 0.74570E+01, time = 1.62 | CG iter. 6 -- res = 0.29622E+05, tol = 0.74570E+01, time = 1.55 | CG iter. 7 -- res = 0.25555E+05, tol = 0.74570E+01, time = 1.57 | CG iter. 8 -- res = 0.20341E+05, tol = 0.74570E+01, time = 1.58 | CG iter. 9 -- res = 0.21784E+05, tol = 0.74570E+01, time = 1.57 | CG iter. 10 -- res = 0.21460E+05, tol = 0.74570E+01, time = 1.58 | CG iter. 11 -- res = 0.12975E+05, tol = 0.74570E+01, time = 1.60 | CG iter. 12 -- res = 0.89493E+04, tol = 0.74570E+01, time = 1.58 | CG iter. 13 -- res = 0.78931E+04, tol = 0.74570E+01, time = 1.60 | CG iter. 14 -- res = 0.51215E+04, tol = 0.74570E+01, time = 1.59 | CG iter. 15 -- res = 0.45507E+04, tol = 0.74570E+01, time = 1.58 | CG iter. 16 -- res = 0.37469E+04, tol = 0.74570E+01, time = 1.59 | CG iter. 17 -- res = 0.29045E+04, tol = 0.74570E+01, time = 1.59 | CG iter. 18 -- res = 0.21479E+04, tol = 0.74570E+01, time = 1.59 | CG iter. 19 -- res = 0.17077E+04, tol = 0.74570E+01, time = 1.61 | CG iter. 20 -- res = 0.14169E+04, tol = 0.74570E+01, time = 1.61 | CG iter. 21 -- res = 0.11342E+04, tol = 0.74570E+01, time = 1.58 | CG iter. 22 -- res = 0.97807E+03, tol = 0.74570E+01, time = 1.58 | CG iter. 23 -- res = 0.91483E+03, tol = 0.74570E+01, time = 1.56 | CG iter. 24 -- res = 0.77265E+03, tol = 0.74570E+01, time = 1.61 | CG iter. 25 -- res = 0.58039E+03, tol = 0.74570E+01, time = 1.58 | CG iter. 26 -- res = 0.59655E+03, tol = 0.74570E+01, time = 1.55 | CG iter. 27 -- res = 0.50729E+03, tol = 0.74570E+01, time = 1.59 | CG iter. 28 -- res = 0.42735E+03, tol = 0.74570E+01, time = 1.57 | CG iter. 29 -- res = 0.33615E+03, tol = 0.74570E+01, time = 1.60 | CG iter. 30 -- res = 0.32277E+03, tol = 0.74570E+01, time = 1.58 | CG iter. 31 -- res = 0.27458E+03, tol = 0.74570E+01, time = 1.62 | CG iter. 32 -- res = 0.23806E+03, tol = 0.74570E+01, time = 1.63 | CG iter. 33 -- res = 0.18895E+03, tol = 0.74570E+01, time = 1.60 | CG iter. 34 -- res = 0.14813E+03, tol = 0.74570E+01, time = 1.59 | CG iter. 35 -- res = 0.11667E+03, tol = 0.74570E+01, time = 1.57 | CG iter. 36 -- res = 0.97310E+02, tol = 0.74570E+01, time = 1.57 | CG iter. 37 -- res = 0.74967E+02, tol = 0.74570E+01, time = 1.67 | CG iter. 38 -- res = 0.65601E+02, tol = 0.74570E+01, time = 1.56 | CG iter. 39 -- res = 0.78909E+02, tol = 0.74570E+01, time = 1.58 | CG iter. 40 -- res = 0.51020E+02, tol = 0.74570E+01, time = 1.57 | CG iter. 41 -- res = 0.31362E+02, tol = 0.74570E+01, time = 1.56 | CG iter. 42 -- res = 0.25329E+02, tol = 0.74570E+01, time = 1.58 | CG iter. 43 -- res = 0.34097E+02, tol = 0.74570E+01, time = 1.59 | CG iter. 44 -- res = 0.20123E+02, tol = 0.74570E+01, time = 1.56 | CG iter. 45 -- res = 0.12184E+02, tol = 0.74570E+01, time = 1.54 | CG iter. 46 -- res = 0.93896E+01, tol = 0.74570E+01, time = 1.52 | CG iter. 47 -- res = 0.79146E+01, tol = 0.74570E+01, time = 1.54 | CG iter. 48 -- res = 0.58717E+01, tol = 0.74570E+01, time = 1.56 | CG iter. 49 -- res = 0.41447E+01, tol = 0.74570E+01, time = 1.61 | CG iter. 50 -- res = 0.45302E+01, tol = 0.74570E+01, time = 1.57 | Final CG iter 51 -- res = 0.45302E+01, tol = 0.74570E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8581562.010 | Old band monopole 9216317.337 | Change to band monopole -634755.327 | Change to component monopole 634752.597 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 4.24 | CG iter. 1 -- res = 0.64536E+05, tol = 0.47627E+18, time = 0.35 | CG iter. 2 -- res = 0.20462E+02, tol = 0.47627E+18, time = 0.38 | CG iter. 3 -- res = 0.40206E+00, tol = 0.47627E+18, time = 0.40 | CG iter. 4 -- res = 0.24089E-03, tol = 0.47627E+18, time = 0.39 | Final CG iter 5 -- res = 0.68446E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8581525.099 | (Sampled value in CG: 8600577.815 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.469007 | New value = 1.573447 | poltype: 2 pol: 1 CPU time specind = 5.3858757E-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 = 1.495416 | New value = 1.492979 | poltype: 2 pol: 2 CPU time specind = 1.5881062E-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 = 4.27 | CG iter. 1 -- res = 0.26525E+08, tol = 0.47734E+04, time = 1.79 | CG iter. 2 -- res = 0.53882E+07, tol = 0.47734E+04, time = 1.82 | CG iter. 3 -- res = 0.83114E+06, tol = 0.47734E+04, time = 1.81 | CG iter. 4 -- res = 0.34807E+06, tol = 0.47734E+04, time = 1.79 | CG iter. 5 -- res = 0.15389E+06, tol = 0.47734E+04, time = 1.83 | CG iter. 6 -- res = 0.81231E+05, tol = 0.47734E+04, time = 1.83 | CG iter. 7 -- res = 0.43988E+05, tol = 0.47734E+04, time = 1.74 | CG iter. 8 -- res = 0.20926E+05, tol = 0.47734E+04, time = 1.82 | CG iter. 9 -- res = 0.92512E+04, tol = 0.47734E+04, time = 1.80 | CG iter. 10 -- res = 0.38095E+04, tol = 0.47734E+04, time = 1.83 | CG iter. 11 -- res = 0.17106E+04, tol = 0.47734E+04, time = 1.77 | CG iter. 12 -- res = 0.91211E+03, tol = 0.47734E+04, time = 1.80 | CG iter. 13 -- res = 0.51647E+03, tol = 0.47734E+04, time = 1.77 | CG iter. 14 -- res = 0.28635E+03, tol = 0.47734E+04, time = 1.82 | CG iter. 15 -- res = 0.14765E+03, tol = 0.47734E+04, time = 1.77 | CG iter. 16 -- res = 0.68471E+02, tol = 0.47734E+04, time = 1.82 | CG iter. 17 -- res = 0.32129E+02, tol = 0.47734E+04, time = 1.85 | CG iter. 18 -- res = 0.16071E+02, tol = 0.47734E+04, time = 1.79 | CG iter. 19 -- res = 0.87579E+01, tol = 0.47734E+04, time = 1.80 | CG iter. 20 -- res = 0.48828E+01, tol = 0.47734E+04, time = 1.85 | CG iter. 21 -- res = 0.26289E+01, tol = 0.47734E+04, time = 1.82 | CG iter. 22 -- res = 0.13516E+01, tol = 0.47734E+04, time = 1.82 | CG iter. 23 -- res = 0.69131E+00, tol = 0.47734E+04, time = 1.81 | CG iter. 24 -- res = 0.35815E+00, tol = 0.47734E+04, time = 1.81 | CG iter. 25 -- res = 0.20054E+00, tol = 0.47734E+04, time = 1.79 | CG iter. 26 -- res = 0.11363E+00, tol = 0.47734E+04, time = 1.78 | CG iter. 27 -- res = 0.64036E-01, tol = 0.47734E+04, time = 1.79 | CG iter. 28 -- res = 0.34817E-01, tol = 0.47734E+04, time = 1.82 | CG iter. 29 -- res = 0.18396E-01, tol = 0.47734E+04, time = 1.81 | CG iter. 30 -- res = 0.97970E-02, tol = 0.47734E+04, time = 1.84 | CG iter. 31 -- res = 0.55088E-02, tol = 0.47734E+04, time = 1.84 | CG iter. 32 -- res = 0.31099E-02, tol = 0.47734E+04, time = 1.78 | CG iter. 33 -- res = 0.17039E-02, tol = 0.47734E+04, time = 1.87 | CG iter. 34 -- res = 0.91108E-03, tol = 0.47734E+04, time = 1.84 | CG iter. 35 -- res = 0.48137E-03, tol = 0.47734E+04, time = 1.82 | Final CG iter 36 -- res = 0.48137E-03, tol = 0.47734E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -2.210 2.718 | New value -0.808 | Old value -2.210 | Difference 1.402 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 4.23 | CG iter. 1 -- res = 0.10798E+06, tol = 0.47627E+18, time = 0.36 | CG iter. 2 -- res = 0.21039E+02, tol = 0.47627E+18, time = 0.36 | CG iter. 3 -- res = 0.47292E+00, tol = 0.47627E+18, time = 0.42 | CG iter. 4 -- res = 0.68554E-03, tol = 0.47627E+18, time = 0.35 | Final CG iter 5 -- res = 0.76958E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8581525.099 | (Sampled value in CG: 8600981.855 ) | 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 = -3.656643 | New value = -3.699283 | poltype: 1 pol: 1 CPU time specind = 2.7620792E-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 = 4.24 | CG iter. 1 -- res = 0.21929E+07, tol = 0.12778E+01, time = 0.67 | CG iter. 2 -- res = 0.45104E+05, tol = 0.12778E+01, time = 0.65 | CG iter. 3 -- res = 0.44868E+05, tol = 0.12778E+01, time = 0.65 | CG iter. 4 -- res = 0.11256E+05, tol = 0.12778E+01, time = 0.68 | CG iter. 5 -- res = 0.32603E+04, tol = 0.12778E+01, time = 0.66 | CG iter. 6 -- res = 0.15779E+04, tol = 0.12778E+01, time = 0.68 | CG iter. 7 -- res = 0.48271E+03, tol = 0.12778E+01, time = 0.71 | CG iter. 8 -- res = 0.22003E+03, tol = 0.12778E+01, time = 0.67 | CG iter. 9 -- res = 0.10091E+03, tol = 0.12778E+01, time = 0.67 | CG iter. 10 -- res = 0.31098E+02, tol = 0.12778E+01, time = 0.67 | CG iter. 11 -- res = 0.13274E+02, tol = 0.12778E+01, time = 0.69 | CG iter. 12 -- res = 0.56378E+01, tol = 0.12778E+01, time = 0.65 | CG iter. 13 -- res = 0.18585E+01, tol = 0.12778E+01, time = 0.66 | CG iter. 14 -- res = 0.49139E+00, tol = 0.12778E+01, time = 0.68 | CG iter. 15 -- res = 0.19646E+00, tol = 0.12778E+01, time = 0.70 | CG iter. 16 -- res = 0.82957E-01, tol = 0.12778E+01, time = 0.68 | CG iter. 17 -- res = 0.32625E-01, tol = 0.12778E+01, time = 0.67 | CG iter. 18 -- res = 0.11856E-01, tol = 0.12778E+01, time = 0.63 | CG iter. 19 -- res = 0.34148E-02, tol = 0.12778E+01, time = 0.70 | CG iter. 20 -- res = 0.17387E-02, tol = 0.12778E+01, time = 0.64 | CG iter. 21 -- res = 0.53657E-03, tol = 0.12778E+01, time = 0.69 | CG iter. 22 -- res = 0.21856E-03, tol = 0.12778E+01, time = 0.66 | CG iter. 23 -- res = 0.74773E-04, tol = 0.12778E+01, time = 0.67 | CG iter. 24 -- res = 0.24460E-04, tol = 0.12778E+01, time = 0.69 | CG iter. 25 -- res = 0.68446E-05, tol = 0.12778E+01, time = 0.64 | CG iter. 26 -- res = 0.21646E-05, tol = 0.12778E+01, time = 0.72 | CG iter. 27 -- res = 0.84940E-06, tol = 0.12778E+01, time = 0.65 | CG iter. 28 -- res = 0.28980E-06, tol = 0.12778E+01, time = 0.66 | CG iter. 29 -- res = 0.90008E-07, tol = 0.12778E+01, time = 0.65 | CG iter. 30 -- res = 0.27552E-07, tol = 0.12778E+01, time = 0.67 | CG iter. 31 -- res = 0.93141E-08, tol = 0.12778E+01, time = 0.64 | CG iter. 32 -- res = 0.32299E-08, tol = 0.12778E+01, time = 0.66 | CG iter. 33 -- res = 0.30235E-08, tol = 0.12778E+01, time = 0.68 | CG iter. 34 -- res = 0.59167E-09, tol = 0.12778E+01, time = 0.69 | CG iter. 35 -- res = 0.22299E-09, tol = 0.12778E+01, time = 0.65 | CG iter. 36 -- res = 0.92869E-10, tol = 0.12778E+01, time = 0.64 | CG iter. 37 -- res = 0.75937E-10, tol = 0.12778E+01, time = 0.71 | CG iter. 38 -- res = 0.16703E-10, tol = 0.12778E+01, time = 0.67 | CG iter. 39 -- res = 0.45637E-11, tol = 0.12778E+01, time = 0.67 | CG iter. 40 -- res = 0.12988E-11, tol = 0.12778E+01, time = 0.69 | CG iter. 41 -- res = 0.42005E-12, tol = 0.12778E+01, time = 0.66 | CG iter. 42 -- res = 0.13928E-12, tol = 0.12778E+01, time = 0.73 | CG iter. 43 -- res = 0.45055E-13, tol = 0.12778E+01, time = 0.67 | CG iter. 44 -- res = 0.16005E-13, tol = 0.12778E+01, time = 0.68 | CG iter. 45 -- res = 0.53818E-14, tol = 0.12778E+01, time = 0.73 | CG iter. 46 -- res = 0.17131E-14, tol = 0.12778E+01, time = 0.63 | CG iter. 47 -- res = 0.48643E-15, tol = 0.12778E+01, time = 0.68 | CG iter. 48 -- res = 0.14293E-15, tol = 0.12778E+01, time = 0.66 | CG iter. 49 -- res = 0.46323E-16, tol = 0.12778E+01, time = 0.67 | CG iter. 50 -- res = 0.13969E-16, tol = 0.12778E+01, time = 0.68 | Final CG iter 51 -- res = 0.13969E-16, tol = 0.12778E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 3.018 2.428 | New value -1.581 | Old value 3.018 | Difference -4.599 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 4.23 | CG iter. 1 -- res = 0.14115E+05, tol = 0.47627E+18, time = 0.37 | CG iter. 2 -- res = 0.28367E+02, tol = 0.47627E+18, time = 0.35 | CG iter. 3 -- res = 0.30799E+00, tol = 0.47627E+18, time = 0.40 | Final CG iter 4 -- res = 0.10136E-04, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8581525.099 | (Sampled value in CG: 8598163.412 ) | CPU time specind = 281.3746 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 4.26 | CG iter. 1 -- res = 0.71996E+08, tol = 0.51630E+04, time = 3.18 | CG iter. 2 -- res = 0.33444E+08, tol = 0.51630E+04, time = 3.16 | CG iter. 3 -- res = 0.59192E+07, tol = 0.51630E+04, time = 3.15 | CG iter. 4 -- res = 0.30811E+07, tol = 0.51630E+04, time = 3.09 | CG iter. 5 -- res = 0.13821E+07, tol = 0.51630E+04, time = 3.12 | CG iter. 6 -- res = 0.75350E+06, tol = 0.51630E+04, time = 3.17 | CG iter. 7 -- res = 0.40831E+06, tol = 0.51630E+04, time = 3.13 | CG iter. 8 -- res = 0.20773E+06, tol = 0.51630E+04, time = 3.15 | CG iter. 9 -- res = 0.10761E+06, tol = 0.51630E+04, time = 3.13 | CG iter. 10 -- res = 0.52396E+05, tol = 0.51630E+04, time = 3.12 | CG iter. 11 -- res = 0.30122E+05, tol = 0.51630E+04, time = 3.16 | CG iter. 12 -- res = 0.20128E+05, tol = 0.51630E+04, time = 3.09 | CG iter. 13 -- res = 0.15664E+05, tol = 0.51630E+04, time = 3.15 | CG iter. 14 -- res = 0.14138E+05, tol = 0.51630E+04, time = 3.15 | CG iter. 15 -- res = 0.12537E+05, tol = 0.51630E+04, time = 3.18 | CG iter. 16 -- res = 0.11785E+05, tol = 0.51630E+04, time = 3.15 | CG iter. 17 -- res = 0.11156E+05, tol = 0.51630E+04, time = 3.26 | CG iter. 18 -- res = 0.11155E+05, tol = 0.51630E+04, time = 3.09 | CG iter. 19 -- res = 0.11160E+05, tol = 0.51630E+04, time = 3.15 | CG iter. 20 -- res = 0.10318E+05, tol = 0.51630E+04, time = 3.17 | CG iter. 21 -- res = 0.83095E+04, tol = 0.51630E+04, time = 3.15 | CG iter. 22 -- res = 0.58245E+04, tol = 0.51630E+04, time = 3.08 | CG iter. 23 -- res = 0.40513E+04, tol = 0.51630E+04, time = 3.17 | CG iter. 24 -- res = 0.31547E+04, tol = 0.51630E+04, time = 3.16 | CG iter. 25 -- res = 0.27792E+04, tol = 0.51630E+04, time = 3.21 | CG iter. 26 -- res = 0.25178E+04, tol = 0.51630E+04, time = 3.14 | CG iter. 27 -- res = 0.21943E+04, tol = 0.51630E+04, time = 3.10 | CG iter. 28 -- res = 0.18656E+04, tol = 0.51630E+04, time = 3.14 | CG iter. 29 -- res = 0.16705E+04, tol = 0.51630E+04, time = 3.16 | CG iter. 30 -- res = 0.16503E+04, tol = 0.51630E+04, time = 3.18 | CG iter. 31 -- res = 0.16285E+04, tol = 0.51630E+04, time = 3.16 | CG iter. 32 -- res = 0.14662E+04, tol = 0.51630E+04, time = 3.07 | CG iter. 33 -- res = 0.11606E+04, tol = 0.51630E+04, time = 3.13 | CG iter. 34 -- res = 0.88890E+03, tol = 0.51630E+04, time = 3.21 | CG iter. 35 -- res = 0.75190E+03, tol = 0.51630E+04, time = 3.19 | CG iter. 36 -- res = 0.72651E+03, tol = 0.51630E+04, time = 3.12 | CG iter. 37 -- res = 0.73109E+03, tol = 0.51630E+04, time = 3.12 | CG iter. 38 -- res = 0.68167E+03, tol = 0.51630E+04, time = 3.13 | CG iter. 39 -- res = 0.60199E+03, tol = 0.51630E+04, time = 3.25 | CG iter. 40 -- res = 0.56256E+03, tol = 0.51630E+04, time = 3.28 | CG iter. 41 -- res = 0.57896E+03, tol = 0.51630E+04, time = 3.17 | CG iter. 42 -- res = 0.62004E+03, tol = 0.51630E+04, time = 3.19 | CG iter. 43 -- res = 0.61543E+03, tol = 0.51630E+04, time = 3.16 | CG iter. 44 -- res = 0.55164E+03, tol = 0.51630E+04, time = 3.23 | CG iter. 45 -- res = 0.48825E+03, tol = 0.51630E+04, time = 3.25 | CG iter. 46 -- res = 0.47446E+03, tol = 0.51630E+04, time = 3.27 | CG iter. 47 -- res = 0.49394E+03, tol = 0.51630E+04, time = 3.19 | CG iter. 48 -- res = 0.51765E+03, tol = 0.51630E+04, time = 3.16 | CG iter. 49 -- res = 0.50888E+03, tol = 0.51630E+04, time = 3.18 | CG iter. 50 -- res = 0.48374E+03, tol = 0.51630E+04, time = 3.09 | CG iter. 51 -- res = 0.48603E+03, tol = 0.51630E+04, time = 3.18 | CG iter. 52 -- res = 0.53047E+03, tol = 0.51630E+04, time = 3.19 | CG iter. 53 -- res = 0.58929E+03, tol = 0.51630E+04, time = 3.18 | CG iter. 54 -- res = 0.60681E+03, tol = 0.51630E+04, time = 3.19 | CG iter. 55 -- res = 0.57321E+03, tol = 0.51630E+04, time = 3.17 | CG iter. 56 -- res = 0.55061E+03, tol = 0.51630E+04, time = 3.11 | CG iter. 57 -- res = 0.56939E+03, tol = 0.51630E+04, time = 3.20 | CG iter. 58 -- res = 0.62002E+03, tol = 0.51630E+04, time = 3.14 | CG iter. 59 -- res = 0.63489E+03, tol = 0.51630E+04, time = 3.18 | CG iter. 60 -- res = 0.59231E+03, tol = 0.51630E+04, time = 3.15 | Final CG iter 61 -- res = 0.59231E+03, tol = 0.51630E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 2.343 ( -231.632 -2232.434 2515.689 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8638666.260 | Old band monopole 8581562.010 | Change to band monopole 57104.250 | Change to component monopole -57104.004 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -0.815 2.741 | New value 3.393 | Old value -0.815 | Difference 4.208 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -2.993 ( 7.770 9.962 -10.352 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 2.528 2.122 | New value -0.162 | Old value 2.528 | Difference -2.689 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 4.25 | CG iter. 1 -- res = 0.94174E+06, tol = 0.47627E+18, time = 0.39 | CG iter. 2 -- res = 0.56600E+02, tol = 0.47627E+18, time = 0.37 | CG iter. 3 -- res = 0.17355E+01, tol = 0.47627E+18, time = 0.38 | CG iter. 4 -- res = 0.20122E-02, tol = 0.47627E+18, time = 0.41 | Final CG iter 5 -- res = 0.97264E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8638629.103 | (Sampled value in CG: 8591225.047 ) | Chain = 1 -- chisq = 0.61472960E+09 | Chain = 1 -- wall time = 4740.109 sec --------------------------------------------------------------------- | Chain = 1 -- Iteration = 59 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18326396342647 | --> Sampling calibration, mode = relcal | relcal = -7.4965768E-02 -5.8626980E-02 9.1978699E-02 4.1614048E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 5.7760399E-04 4.9582860E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.0689E-05 | 2: delta_r/delta_0: 8.9361E-07 | 3: delta_s/delta_0: 2.0995E-07 | 4: delta_r/delta_0: 1.7362E-08 | 5: delta_s/delta_0: 9.2539E-07 | 6: delta_r/delta_0: 7.5650E-08 | 7: delta_s/delta_0: 2.9606E-10 | 8: delta_r/delta_0: 1.1226E-10 | 9: delta_s/delta_0: 1.0651E-08 | 10: delta_r/delta_0: 1.1697E-09 | 11: delta_s/delta_0: 1.9135E-10 | 12: delta_r/delta_0: 6.3168E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 8.634663125003357E-004 2.735846289260157E-005 | BP delta = 5.8871699E-03 1.3461028E-02 29858548.4092945 | BP delta = 5.4519274E-03 1.3025785E-02 29858548.4454346 | 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 = 1.02534610 | --> Sampling calibration, mode = relcal | relcal = -0.1065914 -9.5505692E-02 0.1448721 5.7224981E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.8647046E-03 1.5004813E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.2207E-04 | 2: delta_r/delta_0: 2.6536E-06 | 3: delta_s/delta_0: 2.5577E-06 | 4: delta_r/delta_0: 2.5480E-07 | 5: delta_s/delta_0: 5.1672E-08 | 6: delta_r/delta_0: 7.9203E-09 | 7: delta_s/delta_0: 4.0006E-09 | 8: delta_r/delta_0: 2.2997E-09 | 9: delta_s/delta_0: 2.4666E-08 | 10: delta_r/delta_0: 6.3081E-10 | 11: delta_s/delta_0: 1.7414E-10 | 12: delta_r/delta_0: 1.3337E-10 | 13: delta_s/delta_0: 7.4614E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.687587001856006E-003 2.812604878519843E-005 | BP delta = -0.1907896 -0.1798495 34755043.0165938 | BP delta = -0.1878230 -0.1768829 34755043.5534068 | 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 = 0.81152149 | --> Sampling calibration, mode = relcal | relcal = 0.2952928 0.2246215 -0.2835675 -0.2363468 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 4.4169553E-04 6.6734194E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.9108E-03 | 2: delta_r/delta_0: 1.6145E-04 | 3: delta_s/delta_0: 1.9943E-05 | 4: delta_r/delta_0: 1.6645E-06 | 5: delta_s/delta_0: 1.1384E-04 | 6: delta_r/delta_0: 4.5078E-06 | 7: delta_s/delta_0: 4.8359E-08 | 8: delta_r/delta_0: 1.2711E-08 | 9: delta_s/delta_0: 1.9924E-08 | 10: delta_r/delta_0: 3.5099E-09 | 11: delta_s/delta_0: 3.4696E-09 | 12: delta_r/delta_0: 4.1421E-10 | 13: delta_s/delta_0: 3.2984E-10 | 14: delta_r/delta_0: 1.1469E-10 | 15: delta_s/delta_0: 2.1388E-09 | 16: delta_r/delta_0: 9.4440E-10 | 17: delta_s/delta_0: 9.7330E-12 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -7.431541848362061E-003 4.025293010766256E-005 | BP delta = -8.3760448E-02 -0.1153688 43106389.2956627 | BP delta = -8.8467948E-02 -0.1200763 43106389.3077120 | 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 = 0.95824905 | --> Sampling calibration, mode = relcal | relcal = 0.1063818 0.1393415 -0.1101331 -0.1355902 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.9000325E-03 1.3175957E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.1084E-03 | 2: delta_r/delta_0: 4.9441E-05 | 3: delta_s/delta_0: 3.8610E-06 | 4: delta_r/delta_0: 5.5692E-07 | 5: delta_s/delta_0: 1.2123E-05 | 6: delta_r/delta_0: 3.6190E-07 | 7: delta_s/delta_0: 7.1292E-08 | 8: delta_r/delta_0: 3.3807E-08 | 9: delta_s/delta_0: 2.4501E-07 | 10: delta_r/delta_0: 3.9018E-09 | 11: delta_s/delta_0: 6.0709E-09 | 12: delta_r/delta_0: 3.7072E-09 | 13: delta_s/delta_0: 4.4036E-10 | 14: delta_r/delta_0: 2.5076E-10 | 15: delta_s/delta_0: 3.0523E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.673503003313929E-002 3.700651432968565E-005 | BP delta = 0.2760463 0.3061908 43054591.2519837 | BP delta = 0.2835302 0.3136746 43054591.3842871 | 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 = 0.52106405 | --> Sampling calibration, mode = relcal | relcal = -5.0991833E-02 -3.6815177E-03 2.7251892E-02 2.7421458E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.6208345E-04 1.5608470E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 7.7199E-05 | 2: delta_r/delta_0: 4.2592E-06 | 3: delta_s/delta_0: 4.9097E-07 | 4: delta_r/delta_0: 1.5161E-07 | 5: delta_s/delta_0: 1.1251E-07 | 6: delta_r/delta_0: 2.4517E-08 | 7: delta_s/delta_0: 2.0991E-08 | 8: delta_r/delta_0: 8.5922E-09 | 9: delta_s/delta_0: 6.2786E-08 | 10: delta_r/delta_0: 3.7162E-09 | 11: delta_s/delta_0: 1.2552E-09 | 12: delta_r/delta_0: 2.4574E-10 | 13: delta_s/delta_0: 8.6580E-10 | 14: delta_r/delta_0: 1.9467E-10 | 15: delta_s/delta_0: 5.7939E-10 | 16: delta_r/delta_0: 4.5427E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.061572383359918E-002 5.488728463276254E-005 | BP delta = -7.6244973E-02 3.3955224E-02 61507800.3407471 | BP delta = -8.1821710E-02 2.8378494E-02 61507800.3645851 | 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 = 0.42111147 | --> Sampling calibration, mode = relcal | relcal = 4.5558698E-02 3.9603509E-02 -2.8279817E-02 -5.6882389E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.7654481E-03 5.9433160E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.2839E-05 | 2: delta_r/delta_0: 3.9175E-06 | 3: delta_s/delta_0: 4.4141E-06 | 4: delta_r/delta_0: 7.0209E-07 | 5: delta_s/delta_0: 5.7727E-08 | 6: delta_r/delta_0: 3.6306E-08 | 7: delta_s/delta_0: 1.8968E-06 | 8: delta_r/delta_0: 3.2063E-08 | 9: delta_s/delta_0: 1.5792E-07 | 10: delta_r/delta_0: 9.1241E-08 | 11: delta_s/delta_0: 2.9120E-09 | 12: delta_r/delta_0: 1.1331E-10 | 13: delta_s/delta_0: 2.1056E-10 | 14: delta_r/delta_0: 6.1406E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.359444832059384E-002 5.001200963050371E-005 | BP delta = -0.1542462 -0.1791568 61336090.5046630 | BP delta = -0.1387884 -0.1636990 61336090.3687347 | 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 = 0.28135452 | --> Sampling calibration, mode = relcal | relcal = 2.4124850E-02 4.5154791E-02 -2.3328073E-02 -4.5951571E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.7478116E-03 1.2792714E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.0760E-04 | 2: delta_r/delta_0: 8.9037E-06 | 3: delta_s/delta_0: 1.4001E-06 | 4: delta_r/delta_0: 1.5961E-07 | 5: delta_s/delta_0: 6.1708E-08 | 6: delta_r/delta_0: 1.3243E-08 | 7: delta_s/delta_0: 5.9666E-09 | 8: delta_r/delta_0: 3.9088E-09 | 9: delta_s/delta_0: 7.1772E-09 | 10: delta_r/delta_0: 2.9906E-09 | 11: delta_s/delta_0: 5.2124E-09 | 12: delta_r/delta_0: 4.0647E-10 | 13: delta_s/delta_0: 5.7321E-10 | 14: delta_r/delta_0: 1.4011E-10 | 15: delta_s/delta_0: 2.9547E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.060974727936270E-003 7.851270328735938E-005 | BP delta = 1.5951773E-02 -0.1057808 94968660.6201106 | BP delta = 2.2448044E-02 -9.9284574E-02 94968660.6294028 | 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 = 0.29363376 | --> Sampling calibration, mode = relcal | relcal = 4.9985916E-04 1.0207283E-02 -3.7044049E-03 -7.0027374E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.5730917E-02 1.3686045E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.3132E-04 | 2: delta_r/delta_0: 1.1282E-05 | 3: delta_s/delta_0: 1.7474E-06 | 4: delta_r/delta_0: 2.7003E-07 | 5: delta_s/delta_0: 1.1222E-07 | 6: delta_r/delta_0: 1.9733E-08 | 7: delta_s/delta_0: 8.7779E-09 | 8: delta_r/delta_0: 5.7890E-09 | 9: delta_s/delta_0: 6.7987E-09 | 10: delta_r/delta_0: 3.9011E-09 | 11: delta_s/delta_0: 9.7276E-08 | 12: delta_r/delta_0: 1.3513E-08 | 13: delta_s/delta_0: 1.9859E-10 | 14: delta_r/delta_0: 1.3918E-10 | 15: delta_s/delta_0: 9.1411E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.010613691134744E-002 8.314897358882752E-005 | BP delta = -0.7119948 -0.6609470 93535250.3205006 | BP delta = -0.6908491 -0.6398013 93535250.3173942 | 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 = 0.26480705 | --> Sampling calibration, mode = relcal | relcal = -5.5479929E-03 1.4994672E-02 -2.4016451E-03 -7.0450353E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -1.3125469E-03 5.0576436E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4305E-04 | 2: delta_r/delta_0: 1.2254E-05 | 3: delta_s/delta_0: 2.0615E-06 | 4: delta_r/delta_0: 2.2717E-07 | 5: delta_s/delta_0: 8.8836E-08 | 6: delta_r/delta_0: 1.9723E-08 | 7: delta_s/delta_0: 8.8123E-09 | 8: delta_r/delta_0: 5.8578E-09 | 9: delta_s/delta_0: 6.9066E-09 | 10: delta_r/delta_0: 4.4770E-09 | 11: delta_s/delta_0: 4.0638E-07 | 12: delta_r/delta_0: 3.5455E-08 | 13: delta_s/delta_0: 5.8727E-10 | 14: delta_r/delta_0: 3.9648E-10 | 15: delta_s/delta_0: 1.4973E-10 | 16: delta_r/delta_0: 6.0813E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.324818894620461E-003 9.162766505161803E-005 | BP delta = 0.2137103 0.2619693 94711893.6029694 | BP delta = 0.2148609 0.2631199 94711893.6012307 | 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 = 0.25644701 | --> Sampling calibration, mode = relcal | relcal = -3.1731207E-02 -2.5883116E-02 3.6863584E-02 2.0750737E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.5943926E-02 1.9152606E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4703E-04 | 2: delta_r/delta_0: 1.1652E-05 | 3: delta_s/delta_0: 1.5836E-06 | 4: delta_r/delta_0: 4.0705E-07 | 5: delta_s/delta_0: 1.4680E-07 | 6: delta_r/delta_0: 2.4145E-08 | 7: delta_s/delta_0: 2.1624E-08 | 8: delta_r/delta_0: 4.3391E-09 | 9: delta_s/delta_0: 7.7871E-09 | 10: delta_r/delta_0: 2.4435E-09 | 11: delta_s/delta_0: 2.3314E-08 | 12: delta_r/delta_0: 6.6154E-09 | 13: delta_s/delta_0: 8.2999E-09 | 14: delta_r/delta_0: 3.8142E-09 | 15: delta_s/delta_0: 1.4304E-10 | 16: delta_r/delta_0: 1.1441E-10 | 17: delta_s/delta_0: 9.5173E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.388168215669802E-003 8.678673850265449E-005 | BP delta = -0.5997548 -0.6797234 93085384.8452532 | BP delta = -0.5857853 -0.6657539 93085384.8362627 | 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 = -3.141405 | New value = -3.141460 | poltype: 2 pol: 1 CPU time specind = 5.3057671E-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 = -3.334937 | New value = -3.084388 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.173584 | New value = -3.133583 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.083839 | New value = -3.198297 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.146734 | New value = -3.163320 | poltype: 2 pol: 2 CPU time specind = 1.9421577E-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 = 4.11 | CG iter. 1 -- res = 0.13528E+08, tol = 0.79860E+01, time = 1.58 | CG iter. 2 -- res = 0.40681E+05, tol = 0.79860E+01, time = 1.54 | CG iter. 3 -- res = 0.25947E+05, tol = 0.79860E+01, time = 1.50 | CG iter. 4 -- res = 0.85937E+04, tol = 0.79860E+01, time = 1.54 | CG iter. 5 -- res = 0.43259E+04, tol = 0.79860E+01, time = 1.51 | CG iter. 6 -- res = 0.28415E+04, tol = 0.79860E+01, time = 1.52 | CG iter. 7 -- res = 0.11508E+04, tol = 0.79860E+01, time = 1.50 | CG iter. 8 -- res = 0.56101E+03, tol = 0.79860E+01, time = 1.49 | CG iter. 9 -- res = 0.48464E+03, tol = 0.79860E+01, time = 1.55 | CG iter. 10 -- res = 0.43768E+03, tol = 0.79860E+01, time = 1.52 | CG iter. 11 -- res = 0.29890E+03, tol = 0.79860E+01, time = 1.53 | CG iter. 12 -- res = 0.22824E+03, tol = 0.79860E+01, time = 1.52 | CG iter. 13 -- res = 0.20164E+03, tol = 0.79860E+01, time = 1.52 | CG iter. 14 -- res = 0.16132E+03, tol = 0.79860E+01, time = 1.55 | CG iter. 15 -- res = 0.12017E+03, tol = 0.79860E+01, time = 1.57 | CG iter. 16 -- res = 0.85642E+02, tol = 0.79860E+01, time = 1.56 | CG iter. 17 -- res = 0.67000E+02, tol = 0.79860E+01, time = 1.49 | CG iter. 18 -- res = 0.53928E+02, tol = 0.79860E+01, time = 1.52 | CG iter. 19 -- res = 0.44984E+02, tol = 0.79860E+01, time = 1.55 | CG iter. 20 -- res = 0.32552E+02, tol = 0.79860E+01, time = 1.52 | CG iter. 21 -- res = 0.25500E+02, tol = 0.79860E+01, time = 1.53 | CG iter. 22 -- res = 0.21892E+02, tol = 0.79860E+01, time = 1.59 | CG iter. 23 -- res = 0.16162E+02, tol = 0.79860E+01, time = 1.54 | CG iter. 24 -- res = 0.12124E+02, tol = 0.79860E+01, time = 1.53 | CG iter. 25 -- res = 0.93054E+01, tol = 0.79860E+01, time = 1.55 | CG iter. 26 -- res = 0.79583E+01, tol = 0.79860E+01, time = 1.54 | CG iter. 27 -- res = 0.55506E+01, tol = 0.79860E+01, time = 1.56 | CG iter. 28 -- res = 0.41452E+01, tol = 0.79860E+01, time = 1.52 | CG iter. 29 -- res = 0.35695E+01, tol = 0.79860E+01, time = 1.51 | CG iter. 30 -- res = 0.29854E+01, tol = 0.79860E+01, time = 1.55 | CG iter. 31 -- res = 0.22575E+01, tol = 0.79860E+01, time = 1.52 | CG iter. 32 -- res = 0.20822E+01, tol = 0.79860E+01, time = 1.50 | CG iter. 33 -- res = 0.18322E+01, tol = 0.79860E+01, time = 1.55 | CG iter. 34 -- res = 0.15902E+01, tol = 0.79860E+01, time = 1.55 | CG iter. 35 -- res = 0.12495E+01, tol = 0.79860E+01, time = 1.57 | CG iter. 36 -- res = 0.11659E+01, tol = 0.79860E+01, time = 1.58 | CG iter. 37 -- res = 0.10064E+01, tol = 0.79860E+01, time = 1.56 | CG iter. 38 -- res = 0.77503E+00, tol = 0.79860E+01, time = 1.57 | CG iter. 39 -- res = 0.78544E+00, tol = 0.79860E+01, time = 1.51 | CG iter. 40 -- res = 0.94155E+00, tol = 0.79860E+01, time = 1.57 | CG iter. 41 -- res = 0.52123E+00, tol = 0.79860E+01, time = 1.51 | CG iter. 42 -- res = 0.39375E+00, tol = 0.79860E+01, time = 1.56 | CG iter. 43 -- res = 0.35414E+00, tol = 0.79860E+01, time = 1.57 | CG iter. 44 -- res = 0.42519E+00, tol = 0.79860E+01, time = 1.54 | CG iter. 45 -- res = 0.22115E+00, tol = 0.79860E+01, time = 1.58 | CG iter. 46 -- res = 0.16446E+00, tol = 0.79860E+01, time = 1.54 | CG iter. 47 -- res = 0.11827E+00, tol = 0.79860E+01, time = 1.56 | CG iter. 48 -- res = 0.93548E-01, tol = 0.79860E+01, time = 1.56 | CG iter. 49 -- res = 0.74398E-01, tol = 0.79860E+01, time = 1.54 | CG iter. 50 -- res = 0.52283E-01, tol = 0.79860E+01, time = 1.57 | Final CG iter 51 -- res = 0.52283E-01, tol = 0.79860E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9625980.646 | Old band monopole 8638666.260 | Change to band monopole 987314.386 | Change to component monopole -987310.139 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 4.10 | CG iter. 1 -- res = 0.11951E+05, tol = 0.47627E+18, time = 0.36 | CG iter. 2 -- res = 0.20949E+02, tol = 0.47627E+18, time = 0.40 | CG iter. 3 -- res = 0.48954E-02, tol = 0.47627E+18, time = 0.38 | Final CG iter 4 -- res = 0.47634E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9625939.243 | (Sampled value in CG: 9625274.509 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.573447 | New value = 1.592862 | poltype: 2 pol: 1 CPU time specind = 4.7910213E-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 = 1.492979 | New value = 1.530941 | poltype: 2 pol: 2 CPU time specind = 1.7600060E-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 = 4.12 | CG iter. 1 -- res = 0.24150E+08, tol = 0.47780E+04, time = 1.85 | CG iter. 2 -- res = 0.54462E+07, tol = 0.47780E+04, time = 1.79 | CG iter. 3 -- res = 0.86612E+06, tol = 0.47780E+04, time = 1.75 | CG iter. 4 -- res = 0.35864E+06, tol = 0.47780E+04, time = 1.85 | CG iter. 5 -- res = 0.15333E+06, tol = 0.47780E+04, time = 1.80 | CG iter. 6 -- res = 0.79019E+05, tol = 0.47780E+04, time = 1.80 | CG iter. 7 -- res = 0.44118E+05, tol = 0.47780E+04, time = 1.77 | CG iter. 8 -- res = 0.21521E+05, tol = 0.47780E+04, time = 1.78 | CG iter. 9 -- res = 0.96702E+04, tol = 0.47780E+04, time = 1.80 | CG iter. 10 -- res = 0.38709E+04, tol = 0.47780E+04, time = 1.80 | CG iter. 11 -- res = 0.17117E+04, tol = 0.47780E+04, time = 1.83 | CG iter. 12 -- res = 0.86304E+03, tol = 0.47780E+04, time = 1.79 | CG iter. 13 -- res = 0.48854E+03, tol = 0.47780E+04, time = 1.83 | CG iter. 14 -- res = 0.27854E+03, tol = 0.47780E+04, time = 1.85 | CG iter. 15 -- res = 0.14715E+03, tol = 0.47780E+04, time = 1.76 | CG iter. 16 -- res = 0.70693E+02, tol = 0.47780E+04, time = 1.79 | CG iter. 17 -- res = 0.33507E+02, tol = 0.47780E+04, time = 1.75 | CG iter. 18 -- res = 0.16417E+02, tol = 0.47780E+04, time = 1.82 | CG iter. 19 -- res = 0.88660E+01, tol = 0.47780E+04, time = 1.85 | CG iter. 20 -- res = 0.51712E+01, tol = 0.47780E+04, time = 1.80 | CG iter. 21 -- res = 0.28204E+01, tol = 0.47780E+04, time = 1.82 | CG iter. 22 -- res = 0.14357E+01, tol = 0.47780E+04, time = 1.82 | CG iter. 23 -- res = 0.71145E+00, tol = 0.47780E+04, time = 1.81 | CG iter. 24 -- res = 0.36716E+00, tol = 0.47780E+04, time = 1.79 | CG iter. 25 -- res = 0.19780E+00, tol = 0.47780E+04, time = 1.84 | CG iter. 26 -- res = 0.11289E+00, tol = 0.47780E+04, time = 1.90 | CG iter. 27 -- res = 0.64131E-01, tol = 0.47780E+04, time = 1.86 | CG iter. 28 -- res = 0.35029E-01, tol = 0.47780E+04, time = 1.85 | CG iter. 29 -- res = 0.18680E-01, tol = 0.47780E+04, time = 1.83 | CG iter. 30 -- res = 0.97456E-02, tol = 0.47780E+04, time = 1.81 | CG iter. 31 -- res = 0.53171E-02, tol = 0.47780E+04, time = 1.84 | CG iter. 32 -- res = 0.29639E-02, tol = 0.47780E+04, time = 1.84 | CG iter. 33 -- res = 0.16599E-02, tol = 0.47780E+04, time = 1.81 | CG iter. 34 -- res = 0.89719E-03, tol = 0.47780E+04, time = 1.82 | CG iter. 35 -- res = 0.47863E-03, tol = 0.47780E+04, time = 1.82 | Final CG iter 36 -- res = 0.47863E-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) 3.413 2.745 | New value 2.416 | Old value 3.413 | Difference -0.998 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 4.11 | CG iter. 1 -- res = 0.51531E+05, tol = 0.47627E+18, time = 0.37 | CG iter. 2 -- res = 0.11097E+02, tol = 0.47627E+18, time = 0.43 | CG iter. 3 -- res = 0.14066E-01, tol = 0.47627E+18, time = 0.36 | Final CG iter 4 -- res = 0.18867E-04, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9625939.243 | (Sampled value in CG: 9623725.252 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.699283 | New value = -3.757075 | poltype: 1 pol: 1 CPU time specind = 2.9568672E-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 = 4.11 | CG iter. 1 -- res = 0.19970E+07, tol = 0.18602E+01, time = 0.64 | CG iter. 2 -- res = 0.30027E+05, tol = 0.18602E+01, time = 0.72 | CG iter. 3 -- res = 0.25205E+05, tol = 0.18602E+01, time = 0.68 | CG iter. 4 -- res = 0.76215E+04, tol = 0.18602E+01, time = 0.67 | CG iter. 5 -- res = 0.21886E+04, tol = 0.18602E+01, time = 0.69 | CG iter. 6 -- res = 0.10011E+04, tol = 0.18602E+01, time = 0.69 | CG iter. 7 -- res = 0.37245E+03, tol = 0.18602E+01, time = 0.68 | CG iter. 8 -- res = 0.19305E+03, tol = 0.18602E+01, time = 0.68 | CG iter. 9 -- res = 0.66507E+02, tol = 0.18602E+01, time = 0.65 | CG iter. 10 -- res = 0.17086E+02, tol = 0.18602E+01, time = 0.67 | CG iter. 11 -- res = 0.82025E+01, tol = 0.18602E+01, time = 0.62 | CG iter. 12 -- res = 0.32107E+01, tol = 0.18602E+01, time = 0.68 | CG iter. 13 -- res = 0.10743E+01, tol = 0.18602E+01, time = 0.66 | CG iter. 14 -- res = 0.31615E+00, tol = 0.18602E+01, time = 0.68 | CG iter. 15 -- res = 0.11156E+00, tol = 0.18602E+01, time = 0.67 | CG iter. 16 -- res = 0.47318E-01, tol = 0.18602E+01, time = 0.68 | CG iter. 17 -- res = 0.18453E-01, tol = 0.18602E+01, time = 0.65 | CG iter. 18 -- res = 0.63718E-02, tol = 0.18602E+01, time = 0.65 | CG iter. 19 -- res = 0.18916E-02, tol = 0.18602E+01, time = 0.65 | CG iter. 20 -- res = 0.60954E-03, tol = 0.18602E+01, time = 0.62 | CG iter. 21 -- res = 0.22296E-03, tol = 0.18602E+01, time = 0.66 | CG iter. 22 -- res = 0.10287E-03, tol = 0.18602E+01, time = 0.66 | CG iter. 23 -- res = 0.42015E-04, tol = 0.18602E+01, time = 0.68 | CG iter. 24 -- res = 0.14032E-04, tol = 0.18602E+01, time = 0.64 | CG iter. 25 -- res = 0.36784E-05, tol = 0.18602E+01, time = 0.62 | CG iter. 26 -- res = 0.11656E-05, tol = 0.18602E+01, time = 0.71 | CG iter. 27 -- res = 0.48078E-06, tol = 0.18602E+01, time = 0.66 | CG iter. 28 -- res = 0.16540E-06, tol = 0.18602E+01, time = 0.68 | CG iter. 29 -- res = 0.47306E-07, tol = 0.18602E+01, time = 0.65 | CG iter. 30 -- res = 0.13728E-07, tol = 0.18602E+01, time = 0.66 | CG iter. 31 -- res = 0.51080E-08, tol = 0.18602E+01, time = 0.67 | CG iter. 32 -- res = 0.18890E-08, tol = 0.18602E+01, time = 0.66 | CG iter. 33 -- res = 0.15838E-08, tol = 0.18602E+01, time = 0.64 | CG iter. 34 -- res = 0.41343E-09, tol = 0.18602E+01, time = 0.65 | CG iter. 35 -- res = 0.13387E-09, tol = 0.18602E+01, time = 0.66 | CG iter. 36 -- res = 0.51017E-10, tol = 0.18602E+01, time = 0.66 | CG iter. 37 -- res = 0.45963E-10, tol = 0.18602E+01, time = 0.67 | CG iter. 38 -- res = 0.10555E-10, tol = 0.18602E+01, time = 0.63 | CG iter. 39 -- res = 0.29194E-11, tol = 0.18602E+01, time = 0.66 | CG iter. 40 -- res = 0.77688E-12, tol = 0.18602E+01, time = 0.70 | CG iter. 41 -- res = 0.23237E-12, tol = 0.18602E+01, time = 0.68 | CG iter. 42 -- res = 0.85890E-13, tol = 0.18602E+01, time = 0.68 | CG iter. 43 -- res = 0.32023E-13, tol = 0.18602E+01, time = 0.69 | CG iter. 44 -- res = 0.92253E-14, tol = 0.18602E+01, time = 0.65 | CG iter. 45 -- res = 0.28356E-14, tol = 0.18602E+01, time = 0.71 | CG iter. 46 -- res = 0.95509E-15, tol = 0.18602E+01, time = 0.64 | CG iter. 47 -- res = 0.30058E-15, tol = 0.18602E+01, time = 0.66 | CG iter. 48 -- res = 0.79654E-16, tol = 0.18602E+01, time = 0.64 | CG iter. 49 -- res = 0.23189E-16, tol = 0.18602E+01, time = 0.66 | CG iter. 50 -- res = 0.75164E-17, tol = 0.18602E+01, time = 0.69 | Final CG iter 51 -- res = 0.75164E-17, tol = 0.18602E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -0.589 2.309 | New value -0.313 | Old value -0.589 | Difference 0.276 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 4.09 | CG iter. 1 -- res = 0.12753E+03, tol = 0.47627E+18, time = 0.37 | CG iter. 2 -- res = 0.65968E+01, tol = 0.47627E+18, time = 0.37 | CG iter. 3 -- res = 0.20679E-03, tol = 0.47627E+18, time = 0.40 | Final CG iter 4 -- res = 0.99507E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9625939.243 | (Sampled value in CG: 9626022.795 ) | CPU time specind = 278.0245 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 4.12 | CG iter. 1 -- res = 0.68262E+08, tol = 0.51700E+04, time = 3.28 | CG iter. 2 -- res = 0.32938E+08, tol = 0.51700E+04, time = 3.24 | CG iter. 3 -- res = 0.56963E+07, tol = 0.51700E+04, time = 3.22 | CG iter. 4 -- res = 0.29126E+07, tol = 0.51700E+04, time = 3.22 | CG iter. 5 -- res = 0.13015E+07, tol = 0.51700E+04, time = 3.25 | CG iter. 6 -- res = 0.71116E+06, tol = 0.51700E+04, time = 3.23 | CG iter. 7 -- res = 0.39006E+06, tol = 0.51700E+04, time = 3.23 | CG iter. 8 -- res = 0.19509E+06, tol = 0.51700E+04, time = 3.22 | CG iter. 9 -- res = 0.95878E+05, tol = 0.51700E+04, time = 3.28 | CG iter. 10 -- res = 0.42762E+05, tol = 0.51700E+04, time = 3.21 | CG iter. 11 -- res = 0.21349E+05, tol = 0.51700E+04, time = 3.15 | CG iter. 12 -- res = 0.11613E+05, tol = 0.51700E+04, time = 3.26 | CG iter. 13 -- res = 0.68144E+04, tol = 0.51700E+04, time = 3.21 | CG iter. 14 -- res = 0.44233E+04, tol = 0.51700E+04, time = 3.17 | CG iter. 15 -- res = 0.27476E+04, tol = 0.51700E+04, time = 3.12 | CG iter. 16 -- res = 0.17893E+04, tol = 0.51700E+04, time = 3.16 | CG iter. 17 -- res = 0.12192E+04, tol = 0.51700E+04, time = 3.15 | CG iter. 18 -- res = 0.97264E+03, tol = 0.51700E+04, time = 3.21 | CG iter. 19 -- res = 0.93834E+03, tol = 0.51700E+04, time = 3.22 | CG iter. 20 -- res = 0.10367E+04, tol = 0.51700E+04, time = 3.25 | CG iter. 21 -- res = 0.11790E+04, tol = 0.51700E+04, time = 3.27 | CG iter. 22 -- res = 0.12246E+04, tol = 0.51700E+04, time = 3.20 | CG iter. 23 -- res = 0.11706E+04, tol = 0.51700E+04, time = 3.27 | CG iter. 24 -- res = 0.11053E+04, tol = 0.51700E+04, time = 3.22 | CG iter. 25 -- res = 0.10810E+04, tol = 0.51700E+04, time = 3.28 | CG iter. 26 -- res = 0.10521E+04, tol = 0.51700E+04, time = 3.19 | CG iter. 27 -- res = 0.93791E+03, tol = 0.51700E+04, time = 3.24 | CG iter. 28 -- res = 0.77243E+03, tol = 0.51700E+04, time = 3.19 | CG iter. 29 -- res = 0.64823E+03, tol = 0.51700E+04, time = 3.23 | CG iter. 30 -- res = 0.62776E+03, tol = 0.51700E+04, time = 3.19 | CG iter. 31 -- res = 0.68548E+03, tol = 0.51700E+04, time = 3.16 | CG iter. 32 -- res = 0.76856E+03, tol = 0.51700E+04, time = 3.22 | CG iter. 33 -- res = 0.78018E+03, tol = 0.51700E+04, time = 3.22 | CG iter. 34 -- res = 0.72643E+03, tol = 0.51700E+04, time = 3.19 | CG iter. 35 -- res = 0.69308E+03, tol = 0.51700E+04, time = 3.22 | CG iter. 36 -- res = 0.71526E+03, tol = 0.51700E+04, time = 3.22 | CG iter. 37 -- res = 0.75803E+03, tol = 0.51700E+04, time = 3.23 | CG iter. 38 -- res = 0.74088E+03, tol = 0.51700E+04, time = 3.17 | CG iter. 39 -- res = 0.65408E+03, tol = 0.51700E+04, time = 3.21 | CG iter. 40 -- res = 0.57325E+03, tol = 0.51700E+04, time = 3.22 | CG iter. 41 -- res = 0.55130E+03, tol = 0.51700E+04, time = 3.23 | CG iter. 42 -- res = 0.58782E+03, tol = 0.51700E+04, time = 3.22 | CG iter. 43 -- res = 0.62624E+03, tol = 0.51700E+04, time = 3.20 | CG iter. 44 -- res = 0.61375E+03, tol = 0.51700E+04, time = 3.24 | CG iter. 45 -- res = 0.56901E+03, tol = 0.51700E+04, time = 3.23 | CG iter. 46 -- res = 0.54961E+03, tol = 0.51700E+04, time = 3.24 | CG iter. 47 -- res = 0.57187E+03, tol = 0.51700E+04, time = 3.22 | CG iter. 48 -- res = 0.60176E+03, tol = 0.51700E+04, time = 3.19 | CG iter. 49 -- res = 0.58858E+03, tol = 0.51700E+04, time = 3.15 | CG iter. 50 -- res = 0.52936E+03, tol = 0.51700E+04, time = 3.31 | CG iter. 51 -- res = 0.47986E+03, tol = 0.51700E+04, time = 3.31 | CG iter. 52 -- res = 0.47191E+03, tol = 0.51700E+04, time = 3.27 | CG iter. 53 -- res = 0.49183E+03, tol = 0.51700E+04, time = 3.25 | CG iter. 54 -- res = 0.49878E+03, tol = 0.51700E+04, time = 3.26 | CG iter. 55 -- res = 0.46122E+03, tol = 0.51700E+04, time = 3.21 | CG iter. 56 -- res = 0.42089E+03, tol = 0.51700E+04, time = 3.32 | CG iter. 57 -- res = 0.40878E+03, tol = 0.51700E+04, time = 3.35 | CG iter. 58 -- res = 0.43181E+03, tol = 0.51700E+04, time = 3.26 | CG iter. 59 -- res = 0.45332E+03, tol = 0.51700E+04, time = 3.29 | CG iter. 60 -- res = 0.43914E+03, tol = 0.51700E+04, time = 3.24 | Final CG iter 61 -- res = 0.43914E+03, tol = 0.51700E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 2.519 ( -231.991 -2232.401 2515.697 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8229690.372 | Old band monopole 9625980.646 | Change to band monopole -1396290.274 | Change to component monopole 1396284.269 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 2.412 2.737 | New value 3.744 | Old value 2.412 | Difference 1.332 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -3.202 ( 7.955 9.705 -10.064 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 10.950 2.808 | New value -1.847 | Old value 10.950 | Difference -12.797 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 4.10 | CG iter. 1 -- res = 0.97245E+05, tol = 0.47627E+18, time = 0.38 | CG iter. 2 -- res = 0.45323E+02, tol = 0.47627E+18, time = 0.40 | CG iter. 3 -- res = 0.13032E+01, tol = 0.47627E+18, time = 0.35 | CG iter. 4 -- res = 0.21091E-03, tol = 0.47627E+18, time = 0.41 | Final CG iter 5 -- res = 0.17405E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8229654.974 | (Sampled value in CG: 8176423.783 ) | Chain = 1 -- chisq = 0.61453808E+09 | Chain = 1 -- wall time = 4135.611 sec --------------------------------------------------------------------- | Chain = 1 -- Iteration = 60 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18142387412658 | --> Sampling calibration, mode = relcal | relcal = -7.4378245E-02 -5.8176853E-02 9.1239810E-02 4.1315284E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 4.6523323E-04 3.6894246E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 9.4121E-05 | 2: delta_r/delta_0: 2.4236E-06 | 3: delta_s/delta_0: 2.1940E-07 | 4: delta_r/delta_0: 1.4186E-08 | 5: delta_s/delta_0: 2.8674E-09 | 6: delta_r/delta_0: 1.0234E-09 | 7: delta_s/delta_0: 2.6061E-10 | 8: delta_r/delta_0: 4.4850E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 6.948334151205997E-004 2.740164209518574E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 9.4102E-05 | 2: delta_r/delta_0: 2.4231E-06 | 3: delta_s/delta_0: 2.1941E-07 | 4: delta_r/delta_0: 1.4183E-08 | 5: delta_s/delta_0: 2.8665E-09 | 6: delta_r/delta_0: 1.0231E-09 | 7: delta_s/delta_0: 2.6049E-10 | 8: delta_r/delta_0: 4.4833E-11 | Reached bicg-stab tolerance | BP delta = 5.4519274E-03 1.3025785E-02 3875205.79362119 | BP delta = 5.4519274E-03 1.2217782E-02 3872716.49116954 | BP chisq diff = -2489.3, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02537045 | --> Sampling calibration, mode = relcal | relcal = -0.1065816 -9.5443778E-02 0.1448448 5.7180598E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.7662634E-03 1.5741569E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 8.3436E-05 | 2: delta_r/delta_0: 1.8423E-06 | 3: delta_s/delta_0: 3.2295E-06 | 4: delta_r/delta_0: 3.2568E-07 | 5: delta_s/delta_0: 1.1097E-07 | 6: delta_r/delta_0: 1.4679E-08 | 7: delta_s/delta_0: 3.6925E-09 | 8: delta_r/delta_0: 2.4158E-09 | 9: delta_s/delta_0: 1.2823E-08 | 10: delta_r/delta_0: 2.9163E-10 | 11: delta_s/delta_0: 5.0645E-10 | 12: delta_r/delta_0: 5.3108E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.003485953645386E-002 2.812536150494483E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 8.3430E-05 | 2: delta_r/delta_0: 1.8422E-06 | 3: delta_s/delta_0: 3.2300E-06 | 4: delta_r/delta_0: 3.2580E-07 | 5: delta_s/delta_0: 1.1112E-07 | 6: delta_r/delta_0: 1.4685E-08 | 7: delta_s/delta_0: 3.6927E-09 | 8: delta_r/delta_0: 2.4160E-09 | 9: delta_s/delta_0: 1.2825E-08 | 10: delta_r/delta_0: 2.9165E-10 | 11: delta_s/delta_0: 5.1833E-10 | 12: delta_r/delta_0: 5.3311E-11 | Reached bicg-stab tolerance | BP delta = -0.1878230 -0.1768829 2841463.52915693 | BP delta = -0.1878230 -0.1775058 2841512.34825433 | 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 = 0.81147629 | --> Sampling calibration, mode = relcal | relcal = 0.2952052 0.2246286 -0.2835358 -0.2362980 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.9175321E-04 5.7050493E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 5.7175E-02 | 2: delta_r/delta_0: 1.3429E-03 | 3: delta_s/delta_0: 5.6406E-03 | 4: delta_r/delta_0: 2.5094E-04 | 5: delta_s/delta_0: 1.9367E-05 | 6: delta_r/delta_0: 7.6789E-06 | 7: delta_s/delta_0: 2.5840E-04 | 8: delta_r/delta_0: 2.3280E-05 | 9: delta_s/delta_0: 9.6069E-06 | 10: delta_r/delta_0: 3.6086E-06 | 11: delta_s/delta_0: 6.3784E-07 | 12: delta_r/delta_0: 1.5413E-07 | 13: delta_s/delta_0: 2.5220E-05 | 14: delta_r/delta_0: 1.5790E-06 | 15: delta_s/delta_0: 1.1173E-08 | 16: delta_r/delta_0: 3.8179E-09 | 17: delta_s/delta_0: 3.3129E-09 | 18: delta_r/delta_0: 6.5610E-10 | 19: delta_s/delta_0: 3.3024E-10 | 20: delta_r/delta_0: 1.9739E-10 | 21: delta_s/delta_0: 2.5141E-10 | 22: delta_r/delta_0: 1.3000E-10 | 23: delta_s/delta_0: 3.0133E-09 | 24: delta_r/delta_0: 8.8342E-10 | 25: delta_s/delta_0: 1.4538E-07 | 26: delta_r/delta_0: 4.0175E-09 | 27: delta_s/delta_0: 8.0172E-08 | 28: delta_r/delta_0: 5.0790E-08 | 29: delta_s/delta_0: 5.0213E-08 | 30: delta_r/delta_0: 3.7550E-08 | 31: delta_s/delta_0: 5.5531E-10 | 32: delta_r/delta_0: 3.0623E-10 | 33: delta_s/delta_0: 1.0465E-09 | 34: delta_r/delta_0: 4.0504E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -0.357281230402882 4.025459921148605E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 5.7056E-02 | 2: delta_r/delta_0: 1.3401E-03 | 3: delta_s/delta_0: 5.6359E-03 | 4: delta_r/delta_0: 2.5073E-04 | 5: delta_s/delta_0: 1.9224E-05 | 6: delta_r/delta_0: 7.6143E-06 | 7: delta_s/delta_0: 2.5827E-04 | 8: delta_r/delta_0: 2.3220E-05 | 9: delta_s/delta_0: 9.6288E-06 | 10: delta_r/delta_0: 3.6190E-06 | 11: delta_s/delta_0: 6.4278E-07 | 12: delta_r/delta_0: 1.5511E-07 | 13: delta_s/delta_0: 2.5149E-05 | 14: delta_r/delta_0: 1.5734E-06 | 15: delta_s/delta_0: 1.1252E-08 | 16: delta_r/delta_0: 3.8436E-09 | 17: delta_s/delta_0: 3.3534E-09 | 18: delta_r/delta_0: 6.6039E-10 | 19: delta_s/delta_0: 3.3220E-10 | 20: delta_r/delta_0: 1.9861E-10 | 21: delta_s/delta_0: 2.5309E-10 | 22: delta_r/delta_0: 1.3091E-10 | 23: delta_s/delta_0: 2.9847E-09 | 24: delta_r/delta_0: 8.7563E-10 | 25: delta_s/delta_0: 1.6526E-07 | 26: delta_r/delta_0: 4.4989E-09 | 27: delta_s/delta_0: 7.8166E-08 | 28: delta_r/delta_0: 4.9888E-08 | 29: delta_s/delta_0: 4.9280E-08 | 30: delta_r/delta_0: 3.6977E-08 | 31: delta_s/delta_0: 5.6080E-10 | 32: delta_r/delta_0: 3.0948E-10 | 33: delta_s/delta_0: 1.0484E-09 | 34: delta_r/delta_0: 4.0960E-11 | Reached bicg-stab tolerance | BP delta = -8.8467948E-02 -0.1200763 2828093.91677549 | BP delta = -8.8467948E-02 -0.1175492 2828106.45030404 | 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 = 0.95819359 | --> Sampling calibration, mode = relcal | relcal = 0.1064332 0.1393681 -0.1101454 -0.1356559 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0443524E-02 1.2247035E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.7871E-03 | 2: delta_r/delta_0: 6.5498E-05 | 3: delta_s/delta_0: 5.3474E-06 | 4: delta_r/delta_0: 4.6607E-07 | 5: delta_s/delta_0: 3.6885E-05 | 6: delta_r/delta_0: 6.6840E-07 | 7: delta_s/delta_0: 6.7728E-08 | 8: delta_r/delta_0: 2.8400E-08 | 9: delta_s/delta_0: 7.4961E-08 | 10: delta_r/delta_0: 6.4792E-09 | 11: delta_s/delta_0: 1.4898E-09 | 12: delta_r/delta_0: 6.9577E-10 | 13: delta_s/delta_0: 5.8829E-10 | 14: delta_r/delta_0: 4.1203E-10 | 15: delta_s/delta_0: 2.9860E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.435849996667355E-002 3.700903511999141E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 2.7894E-03 | 2: delta_r/delta_0: 6.5554E-05 | 3: delta_s/delta_0: 5.3529E-06 | 4: delta_r/delta_0: 4.6632E-07 | 5: delta_s/delta_0: 3.6954E-05 | 6: delta_r/delta_0: 6.7006E-07 | 7: delta_s/delta_0: 6.7845E-08 | 8: delta_r/delta_0: 2.8391E-08 | 9: delta_s/delta_0: 7.4604E-08 | 10: delta_r/delta_0: 6.4865E-09 | 11: delta_s/delta_0: 1.4920E-09 | 12: delta_r/delta_0: 6.9681E-10 | 13: delta_s/delta_0: 5.9109E-10 | 14: delta_r/delta_0: 4.1295E-10 | 15: delta_s/delta_0: 2.9911E-11 | Reached bicg-stab tolerance | BP delta = 0.2835302 0.3136746 3005106.66523082 | BP delta = 0.2835302 0.3018528 3005045.36047264 | BP chisq diff = -61.3, accept = T | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 060-WMAP_V1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.52111384 | --> Sampling calibration, mode = relcal | relcal = -5.1069520E-02 -3.7208858E-03 2.7284989E-02 2.7505416E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.8065435E-04 1.0823763E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 7.6700E-05 | 2: delta_r/delta_0: 3.9063E-06 | 3: delta_s/delta_0: 2.1168E-06 | 4: delta_r/delta_0: 2.2338E-07 | 5: delta_s/delta_0: 5.3940E-08 | 6: delta_r/delta_0: 2.5360E-08 | 7: delta_s/delta_0: 1.0567E-07 | 8: delta_r/delta_0: 3.4524E-08 | 9: delta_s/delta_0: 3.1984E-09 | 10: delta_r/delta_0: 2.1940E-09 | 11: delta_s/delta_0: 6.3585E-09 | 12: delta_r/delta_0: 3.6013E-10 | 13: delta_s/delta_0: 4.5390E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.938759444504013E-002 5.488109682278477E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 7.6700E-05 | 2: delta_r/delta_0: 3.9063E-06 | 3: delta_s/delta_0: 2.1168E-06 | 4: delta_r/delta_0: 2.2338E-07 | 5: delta_s/delta_0: 5.3946E-08 | 6: delta_r/delta_0: 2.5361E-08 | 7: delta_s/delta_0: 1.0571E-07 | 8: delta_r/delta_0: 3.4532E-08 | 9: delta_s/delta_0: 3.1985E-09 | 10: delta_r/delta_0: 2.1940E-09 | 11: delta_s/delta_0: 6.3447E-09 | 12: delta_r/delta_0: 3.6061E-10 | 13: delta_s/delta_0: 4.5390E-11 | Reached bicg-stab tolerance | BP delta = -8.1821710E-02 2.8378494E-02 2435677.86390434 | BP delta = -8.1821710E-02 7.2260774E-03 2435719.48035441 | 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 = 0.42107503 | --> Sampling calibration, mode = relcal | relcal = 4.5628000E-02 3.9575797E-02 -2.8266288E-02 -5.6937512E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.4111427E-03 4.9045556E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 8.9402E-05 | 2: delta_r/delta_0: 3.2034E-06 | 3: delta_s/delta_0: 5.1064E-07 | 4: delta_r/delta_0: 1.3593E-07 | 5: delta_s/delta_0: 8.9325E-07 | 6: delta_r/delta_0: 2.5068E-07 | 7: delta_s/delta_0: 2.6783E-08 | 8: delta_r/delta_0: 9.5875E-09 | 9: delta_s/delta_0: 5.5500E-07 | 10: delta_r/delta_0: 5.3920E-08 | 11: delta_s/delta_0: 1.2789E-09 | 12: delta_r/delta_0: 2.5994E-10 | 13: delta_s/delta_0: 2.6174E-10 | 14: delta_r/delta_0: 1.1933E-10 | 15: delta_s/delta_0: 2.0933E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.379661673005529E-002 5.001893828075664E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 8.9401E-05 | 2: delta_r/delta_0: 3.2035E-06 | 3: delta_s/delta_0: 5.1065E-07 | 4: delta_r/delta_0: 1.3593E-07 | 5: delta_s/delta_0: 8.9320E-07 | 6: delta_r/delta_0: 2.5067E-07 | 7: delta_s/delta_0: 2.6783E-08 | 8: delta_r/delta_0: 9.5876E-09 | 9: delta_s/delta_0: 5.5504E-07 | 10: delta_r/delta_0: 5.3917E-08 | 11: delta_s/delta_0: 1.2787E-09 | 12: delta_r/delta_0: 2.5995E-10 | 13: delta_s/delta_0: 2.6169E-10 | 14: delta_r/delta_0: 1.1930E-10 | 15: delta_s/delta_0: 2.0933E-11 | Reached bicg-stab tolerance | BP delta = -0.1387884 -0.1636990 2322191.63330117 | BP delta = -0.1387884 -0.1678788 2322206.80613346 | 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 = 0.28138329 | --> Sampling calibration, mode = relcal | relcal = 2.4096079E-02 4.5105431E-02 -2.3307903E-02 -4.5893610E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.2908421E-02 1.4578848E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.1036E-04 | 2: delta_r/delta_0: 8.4074E-06 | 3: delta_s/delta_0: 1.1048E-06 | 4: delta_r/delta_0: 2.8780E-07 | 5: delta_s/delta_0: 5.7035E-08 | 6: delta_r/delta_0: 2.3491E-08 | 7: delta_s/delta_0: 8.3411E-09 | 8: delta_r/delta_0: 4.9348E-09 | 9: delta_s/delta_0: 1.0456E-06 | 10: delta_r/delta_0: 2.9837E-08 | 11: delta_s/delta_0: 4.7423E-08 | 12: delta_r/delta_0: 1.3473E-08 | 13: delta_s/delta_0: 1.8426E-09 | 14: delta_r/delta_0: 1.7594E-10 | 15: delta_s/delta_0: 5.2979E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.614879375687021E-003 7.849882299626882E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.1036E-04 | 2: delta_r/delta_0: 8.4074E-06 | 3: delta_s/delta_0: 1.1048E-06 | 4: delta_r/delta_0: 2.8781E-07 | 5: delta_s/delta_0: 5.7038E-08 | 6: delta_r/delta_0: 2.3493E-08 | 7: delta_s/delta_0: 8.3416E-09 | 8: delta_r/delta_0: 4.9351E-09 | 9: delta_s/delta_0: 1.0454E-06 | 10: delta_r/delta_0: 2.9837E-08 | 11: delta_s/delta_0: 4.7434E-08 | 12: delta_r/delta_0: 1.3472E-08 | 13: delta_s/delta_0: 1.8432E-09 | 14: delta_r/delta_0: 1.7597E-10 | 15: delta_s/delta_0: 5.2976E-11 | Reached bicg-stab tolerance | BP delta = 2.2448044E-02 -9.9284574E-02 2489883.99881548 | BP delta = 2.2448044E-02 -8.2023352E-02 2489901.63083715 | 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 = 0.29366275 | --> Sampling calibration, mode = relcal | relcal = 4.6629948E-04 1.0285664E-02 -3.8249281E-03 -6.9270357E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.3990582E-02 1.1345180E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.3082E-04 | 2: delta_r/delta_0: 1.1087E-05 | 3: delta_s/delta_0: 1.6332E-06 | 4: delta_r/delta_0: 3.4431E-07 | 5: delta_s/delta_0: 1.6840E-07 | 6: delta_r/delta_0: 2.1416E-08 | 7: delta_s/delta_0: 8.9634E-09 | 8: delta_r/delta_0: 6.0383E-09 | 9: delta_s/delta_0: 1.5401E-08 | 10: delta_r/delta_0: 2.3471E-09 | 11: delta_s/delta_0: 5.3852E-08 | 12: delta_r/delta_0: 1.5339E-08 | 13: delta_s/delta_0: 5.2447E-10 | 14: delta_r/delta_0: 1.2300E-10 | 15: delta_s/delta_0: 4.9094E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.054368560732138E-002 8.314047678655775E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.3082E-04 | 2: delta_r/delta_0: 1.1087E-05 | 3: delta_s/delta_0: 1.6332E-06 | 4: delta_r/delta_0: 3.4431E-07 | 5: delta_s/delta_0: 1.6840E-07 | 6: delta_r/delta_0: 2.1416E-08 | 7: delta_s/delta_0: 8.9634E-09 | 8: delta_r/delta_0: 6.0383E-09 | 9: delta_s/delta_0: 1.5402E-08 | 10: delta_r/delta_0: 2.3470E-09 | 11: delta_s/delta_0: 5.3853E-08 | 12: delta_r/delta_0: 1.5339E-08 | 13: delta_s/delta_0: 5.2446E-10 | 14: delta_r/delta_0: 1.2300E-10 | 15: delta_s/delta_0: 4.9094E-11 | Reached bicg-stab tolerance | BP delta = -0.6908491 -0.6398013 2737727.68690863 | BP delta = -0.6908491 -0.6527009 2737728.21487828 | 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 = 0.26478838 | --> Sampling calibration, mode = relcal | relcal = -5.6106485E-03 1.4961368E-02 -2.3019442E-03 -7.0487759E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -7.2407618E-04 2.7815904E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4250E-04 | 2: delta_r/delta_0: 1.2202E-05 | 3: delta_s/delta_0: 1.9815E-06 | 4: delta_r/delta_0: 2.1068E-07 | 5: delta_s/delta_0: 8.6736E-08 | 6: delta_r/delta_0: 1.7234E-08 | 7: delta_s/delta_0: 7.3504E-09 | 8: delta_r/delta_0: 4.8371E-09 | 9: delta_s/delta_0: 3.8860E-09 | 10: delta_r/delta_0: 2.4888E-09 | 11: delta_s/delta_0: 2.1693E-06 | 12: delta_r/delta_0: 8.1772E-09 | 13: delta_s/delta_0: 7.6340E-10 | 14: delta_r/delta_0: 4.8387E-10 | 15: delta_s/delta_0: 7.8247E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -8.947279917445572E-003 9.163037443859619E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.4250E-04 | 2: delta_r/delta_0: 1.2202E-05 | 3: delta_s/delta_0: 1.9815E-06 | 4: delta_r/delta_0: 2.1068E-07 | 5: delta_s/delta_0: 8.6736E-08 | 6: delta_r/delta_0: 1.7234E-08 | 7: delta_s/delta_0: 7.3503E-09 | 8: delta_r/delta_0: 4.8370E-09 | 9: delta_s/delta_0: 3.8860E-09 | 10: delta_r/delta_0: 2.4888E-09 | 11: delta_s/delta_0: 2.1693E-06 | 12: delta_r/delta_0: 8.1770E-09 | 13: delta_s/delta_0: 7.6340E-10 | 14: delta_r/delta_0: 4.8387E-10 | 15: delta_s/delta_0: 7.8246E-11 | Reached bicg-stab tolerance | BP delta = 0.2148609 0.2631199 2516590.86109200 | BP delta = 0.2148609 0.2626853 2516590.89151459 | 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 = 0.25638147 | --> Sampling calibration, mode = relcal | relcal = -3.1694662E-02 -2.5941584E-02 3.6939543E-02 2.0696703E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.7258005E-02 1.7942388E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4608E-04 | 2: delta_r/delta_0: 1.2194E-05 | 3: delta_s/delta_0: 1.8578E-06 | 4: delta_r/delta_0: 4.1562E-07 | 5: delta_s/delta_0: 1.5929E-07 | 6: delta_r/delta_0: 2.6413E-08 | 7: delta_s/delta_0: 1.1336E-08 | 8: delta_r/delta_0: 6.2889E-09 | 9: delta_s/delta_0: 6.6027E-09 | 10: delta_r/delta_0: 3.3772E-09 | 11: delta_s/delta_0: 1.7360E-07 | 12: delta_r/delta_0: 3.7720E-08 | 13: delta_s/delta_0: 2.1827E-09 | 14: delta_r/delta_0: 1.5506E-09 | 15: delta_s/delta_0: 1.3162E-10 | 16: delta_r/delta_0: 8.4293E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.098211738793778E-002 8.681008238964852E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.4608E-04 | 2: delta_r/delta_0: 1.2194E-05 | 3: delta_s/delta_0: 1.8579E-06 | 4: delta_r/delta_0: 4.1564E-07 | 5: delta_s/delta_0: 1.5928E-07 | 6: delta_r/delta_0: 2.6416E-08 | 7: delta_s/delta_0: 1.1337E-08 | 8: delta_r/delta_0: 6.2895E-09 | 9: delta_s/delta_0: 6.6038E-09 | 10: delta_r/delta_0: 3.3777E-09 | 11: delta_s/delta_0: 1.7309E-07 | 12: delta_r/delta_0: 3.7578E-08 | 13: delta_s/delta_0: 2.2152E-09 | 14: delta_r/delta_0: 1.5745E-09 | 15: delta_s/delta_0: 1.3156E-10 | 16: delta_r/delta_0: 8.4430E-11 | Reached bicg-stab tolerance | BP delta = -0.5857853 -0.6657539 2706175.31931727 | BP delta = -0.5857853 -0.6553490 2706194.38767463 | 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 = -3.141460 | New value = -3.076071 | poltype: 2 pol: 1 CPU time specind = 5.5279732E-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 = -3.084388 | New value = -3.132411 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.133583 | New value = -3.138420 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.198297 | New value = -3.127701 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.163320 | New value = -3.121142 | poltype: 2 pol: 2 CPU time specind = 2.5310516E-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 = 4.11 | CG iter. 1 -- res = 0.13596E+08, tol = 0.83758E+01, time = 1.56 | CG iter. 2 -- res = 0.62448E+05, tol = 0.83758E+01, time = 1.58 | CG iter. 3 -- res = 0.74498E+05, tol = 0.83758E+01, time = 1.56 | CG iter. 4 -- res = 0.38563E+05, tol = 0.83758E+01, time = 1.52 | CG iter. 5 -- res = 0.45175E+05, tol = 0.83758E+01, time = 1.56 | CG iter. 6 -- res = 0.42824E+05, tol = 0.83758E+01, time = 1.49 | CG iter. 7 -- res = 0.27977E+05, tol = 0.83758E+01, time = 1.53 | CG iter. 8 -- res = 0.21633E+05, tol = 0.83758E+01, time = 1.55 | CG iter. 9 -- res = 0.21130E+05, tol = 0.83758E+01, time = 1.52 | CG iter. 10 -- res = 0.19694E+05, tol = 0.83758E+01, time = 1.56 | CG iter. 11 -- res = 0.10354E+05, tol = 0.83758E+01, time = 1.52 | CG iter. 12 -- res = 0.77964E+04, tol = 0.83758E+01, time = 1.53 | CG iter. 13 -- res = 0.73040E+04, tol = 0.83758E+01, time = 1.58 | CG iter. 14 -- res = 0.52054E+04, tol = 0.83758E+01, time = 1.54 | CG iter. 15 -- res = 0.37255E+04, tol = 0.83758E+01, time = 1.56 | CG iter. 16 -- res = 0.26238E+04, tol = 0.83758E+01, time = 1.52 | CG iter. 17 -- res = 0.18691E+04, tol = 0.83758E+01, time = 1.50 | CG iter. 18 -- res = 0.14987E+04, tol = 0.83758E+01, time = 1.54 | CG iter. 19 -- res = 0.11915E+04, tol = 0.83758E+01, time = 1.52 | CG iter. 20 -- res = 0.81027E+03, tol = 0.83758E+01, time = 1.54 | CG iter. 21 -- res = 0.61898E+03, tol = 0.83758E+01, time = 1.52 | CG iter. 22 -- res = 0.50364E+03, tol = 0.83758E+01, time = 1.52 | CG iter. 23 -- res = 0.34680E+03, tol = 0.83758E+01, time = 1.56 | CG iter. 24 -- res = 0.26987E+03, tol = 0.83758E+01, time = 1.53 | CG iter. 25 -- res = 0.23545E+03, tol = 0.83758E+01, time = 1.56 | CG iter. 26 -- res = 0.17586E+03, tol = 0.83758E+01, time = 1.53 | CG iter. 27 -- res = 0.13287E+03, tol = 0.83758E+01, time = 1.61 | CG iter. 28 -- res = 0.96926E+02, tol = 0.83758E+01, time = 1.55 | CG iter. 29 -- res = 0.83240E+02, tol = 0.83758E+01, time = 1.58 | CG iter. 30 -- res = 0.62595E+02, tol = 0.83758E+01, time = 1.54 | CG iter. 31 -- res = 0.45405E+02, tol = 0.83758E+01, time = 1.55 | CG iter. 32 -- res = 0.36591E+02, tol = 0.83758E+01, time = 1.59 | CG iter. 33 -- res = 0.31718E+02, tol = 0.83758E+01, time = 1.55 | CG iter. 34 -- res = 0.24398E+02, tol = 0.83758E+01, time = 1.51 | CG iter. 35 -- res = 0.18928E+02, tol = 0.83758E+01, time = 1.56 | CG iter. 36 -- res = 0.17117E+02, tol = 0.83758E+01, time = 1.53 | CG iter. 37 -- res = 0.14173E+02, tol = 0.83758E+01, time = 1.57 | CG iter. 38 -- res = 0.92668E+01, tol = 0.83758E+01, time = 1.49 | CG iter. 39 -- res = 0.84219E+01, tol = 0.83758E+01, time = 1.52 | CG iter. 40 -- res = 0.11346E+02, tol = 0.83758E+01, time = 1.55 | CG iter. 41 -- res = 0.63566E+01, tol = 0.83758E+01, time = 1.55 | CG iter. 42 -- res = 0.42314E+01, tol = 0.83758E+01, time = 1.55 | CG iter. 43 -- res = 0.37519E+01, tol = 0.83758E+01, time = 1.55 | CG iter. 44 -- res = 0.47292E+01, tol = 0.83758E+01, time = 1.61 | CG iter. 45 -- res = 0.27057E+01, tol = 0.83758E+01, time = 1.56 | CG iter. 46 -- res = 0.17126E+01, tol = 0.83758E+01, time = 1.52 | CG iter. 47 -- res = 0.13459E+01, tol = 0.83758E+01, time = 1.52 | CG iter. 48 -- res = 0.98750E+00, tol = 0.83758E+01, time = 1.53 | CG iter. 49 -- res = 0.65753E+00, tol = 0.83758E+01, time = 1.53 | CG iter. 50 -- res = 0.55740E+00, tol = 0.83758E+01, time = 1.52 | Final CG iter 51 -- res = 0.55740E+00, tol = 0.83758E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 10005188.283 | Old band monopole 8229690.372 | Change to band monopole 1775497.912 | Change to component monopole -1775490.275 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 4.08 | CG iter. 1 -- res = 0.51728E+05, tol = 0.47627E+18, time = 0.37 | CG iter. 2 -- res = 0.54032E+02, tol = 0.47627E+18, time = 0.38 | CG iter. 3 -- res = 0.13187E+01, tol = 0.47627E+18, time = 0.33 | CG iter. 4 -- res = 0.41670E-03, tol = 0.47627E+18, time = 0.40 | Final CG iter 5 -- res = 0.15582E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10005145.249 | (Sampled value in CG: 10062226.567 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.592862 | New value = 1.491855 | poltype: 2 pol: 1 CPU time specind = 5.1040649E-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 = 1.530941 | New value = 1.464712 | poltype: 2 pol: 2 CPU time specind = 2.2361279E-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 = 4.10 | CG iter. 1 -- res = 0.26324E+08, tol = 0.47563E+04, time = 1.86 | CG iter. 2 -- res = 0.53102E+07, tol = 0.47563E+04, time = 1.80 | CG iter. 3 -- res = 0.82828E+06, tol = 0.47563E+04, time = 1.75 | CG iter. 4 -- res = 0.34681E+06, tol = 0.47563E+04, time = 1.83 | CG iter. 5 -- res = 0.15188E+06, tol = 0.47563E+04, time = 1.81 | CG iter. 6 -- res = 0.80205E+05, tol = 0.47563E+04, time = 1.82 | CG iter. 7 -- res = 0.43951E+05, tol = 0.47563E+04, time = 1.81 | CG iter. 8 -- res = 0.21007E+05, tol = 0.47563E+04, time = 1.76 | CG iter. 9 -- res = 0.91686E+04, tol = 0.47563E+04, time = 1.78 | CG iter. 10 -- res = 0.36852E+04, tol = 0.47563E+04, time = 1.82 | CG iter. 11 -- res = 0.16801E+04, tol = 0.47563E+04, time = 1.87 | CG iter. 12 -- res = 0.88104E+03, tol = 0.47563E+04, time = 1.73 | CG iter. 13 -- res = 0.49536E+03, tol = 0.47563E+04, time = 1.78 | CG iter. 14 -- res = 0.27365E+03, tol = 0.47563E+04, time = 1.81 | CG iter. 15 -- res = 0.14131E+03, tol = 0.47563E+04, time = 1.79 | CG iter. 16 -- res = 0.67677E+02, tol = 0.47563E+04, time = 1.72 | CG iter. 17 -- res = 0.32372E+02, tol = 0.47563E+04, time = 1.77 | CG iter. 18 -- res = 0.16083E+02, tol = 0.47563E+04, time = 1.75 | CG iter. 19 -- res = 0.89287E+01, tol = 0.47563E+04, time = 1.75 | CG iter. 20 -- res = 0.51094E+01, tol = 0.47563E+04, time = 1.78 | CG iter. 21 -- res = 0.27505E+01, tol = 0.47563E+04, time = 1.76 | CG iter. 22 -- res = 0.13872E+01, tol = 0.47563E+04, time = 1.78 | CG iter. 23 -- res = 0.69575E+00, tol = 0.47563E+04, time = 1.78 | CG iter. 24 -- res = 0.36095E+00, tol = 0.47563E+04, time = 1.78 | CG iter. 25 -- res = 0.19996E+00, tol = 0.47563E+04, time = 1.81 | CG iter. 26 -- res = 0.11111E+00, tol = 0.47563E+04, time = 1.81 | CG iter. 27 -- res = 0.60948E-01, tol = 0.47563E+04, time = 1.75 | CG iter. 28 -- res = 0.32671E-01, tol = 0.47563E+04, time = 1.73 | CG iter. 29 -- res = 0.17193E-01, tol = 0.47563E+04, time = 1.80 | CG iter. 30 -- res = 0.91094E-02, tol = 0.47563E+04, time = 1.79 | CG iter. 31 -- res = 0.51510E-02, tol = 0.47563E+04, time = 1.79 | CG iter. 32 -- res = 0.29299E-02, tol = 0.47563E+04, time = 1.77 | CG iter. 33 -- res = 0.16593E-02, tol = 0.47563E+04, time = 1.77 | CG iter. 34 -- res = 0.90494E-03, tol = 0.47563E+04, time = 1.76 | CG iter. 35 -- res = 0.46949E-03, tol = 0.47563E+04, time = 1.77 | Final CG iter 36 -- res = 0.46949E-03, tol = 0.47563E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 3.807 2.761 | New value 1.887 | Old value 3.807 | Difference -1.920 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 4.08 | CG iter. 1 -- res = 0.19710E+06, tol = 0.47627E+18, time = 0.41 | CG iter. 2 -- res = 0.51598E+02, tol = 0.47627E+18, time = 0.38 | CG iter. 3 -- res = 0.13249E+01, tol = 0.47627E+18, time = 0.39 | CG iter. 4 -- res = 0.81606E-03, tol = 0.47627E+18, time = 0.38 | Final CG iter 5 -- res = 0.77884E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10005145.249 | (Sampled value in CG: 10063498.381 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.757075 | New value = -3.473676 | poltype: 1 pol: 1 CPU time specind = 2.8951168E-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 = 4.10 | CG iter. 1 -- res = 0.30646E+07, tol = 0.17454E+01, time = 0.67 | CG iter. 2 -- res = 0.14961E+06, tol = 0.17454E+01, time = 0.73 | CG iter. 3 -- res = 0.11729E+06, tol = 0.17454E+01, time = 0.71 | CG iter. 4 -- res = 0.28070E+05, tol = 0.17454E+01, time = 0.68 | CG iter. 5 -- res = 0.60306E+04, tol = 0.17454E+01, time = 0.66 | CG iter. 6 -- res = 0.30546E+04, tol = 0.17454E+01, time = 0.67 | CG iter. 7 -- res = 0.85962E+03, tol = 0.17454E+01, time = 0.68 | CG iter. 8 -- res = 0.46753E+03, tol = 0.17454E+01, time = 0.67 | CG iter. 9 -- res = 0.15190E+03, tol = 0.17454E+01, time = 0.66 | CG iter. 10 -- res = 0.41701E+02, tol = 0.17454E+01, time = 0.67 | CG iter. 11 -- res = 0.17497E+02, tol = 0.17454E+01, time = 0.67 | CG iter. 12 -- res = 0.78284E+01, tol = 0.17454E+01, time = 0.63 | CG iter. 13 -- res = 0.29221E+01, tol = 0.17454E+01, time = 0.68 | CG iter. 14 -- res = 0.90389E+00, tol = 0.17454E+01, time = 0.69 | CG iter. 15 -- res = 0.37083E+00, tol = 0.17454E+01, time = 0.66 | CG iter. 16 -- res = 0.11941E+00, tol = 0.17454E+01, time = 0.66 | CG iter. 17 -- res = 0.34311E-01, tol = 0.17454E+01, time = 0.65 | CG iter. 18 -- res = 0.13914E-01, tol = 0.17454E+01, time = 0.68 | CG iter. 19 -- res = 0.50510E-02, tol = 0.17454E+01, time = 0.67 | CG iter. 20 -- res = 0.21583E-02, tol = 0.17454E+01, time = 0.64 | CG iter. 21 -- res = 0.73695E-03, tol = 0.17454E+01, time = 0.65 | CG iter. 22 -- res = 0.25059E-03, tol = 0.17454E+01, time = 0.65 | CG iter. 23 -- res = 0.91739E-04, tol = 0.17454E+01, time = 0.64 | CG iter. 24 -- res = 0.30777E-04, tol = 0.17454E+01, time = 0.65 | CG iter. 25 -- res = 0.89089E-05, tol = 0.17454E+01, time = 0.68 | CG iter. 26 -- res = 0.30382E-05, tol = 0.17454E+01, time = 0.65 | CG iter. 27 -- res = 0.12277E-05, tol = 0.17454E+01, time = 0.64 | CG iter. 28 -- res = 0.38457E-06, tol = 0.17454E+01, time = 0.65 | CG iter. 29 -- res = 0.13290E-06, tol = 0.17454E+01, time = 0.65 | CG iter. 30 -- res = 0.34733E-07, tol = 0.17454E+01, time = 0.65 | CG iter. 31 -- res = 0.11660E-07, tol = 0.17454E+01, time = 0.68 | CG iter. 32 -- res = 0.61194E-08, tol = 0.17454E+01, time = 0.66 | CG iter. 33 -- res = 0.42350E-08, tol = 0.17454E+01, time = 0.65 | CG iter. 34 -- res = 0.10445E-08, tol = 0.17454E+01, time = 0.62 | CG iter. 35 -- res = 0.32045E-09, tol = 0.17454E+01, time = 0.65 | CG iter. 36 -- res = 0.12670E-09, tol = 0.17454E+01, time = 0.70 | CG iter. 37 -- res = 0.99309E-10, tol = 0.17454E+01, time = 0.66 | CG iter. 38 -- res = 0.24951E-10, tol = 0.17454E+01, time = 0.67 | CG iter. 39 -- res = 0.66723E-11, tol = 0.17454E+01, time = 0.65 | CG iter. 40 -- res = 0.19092E-11, tol = 0.17454E+01, time = 0.67 | CG iter. 41 -- res = 0.55667E-12, tol = 0.17454E+01, time = 0.71 | CG iter. 42 -- res = 0.18101E-12, tol = 0.17454E+01, time = 0.68 | CG iter. 43 -- res = 0.63915E-13, tol = 0.17454E+01, time = 0.68 | CG iter. 44 -- res = 0.21816E-13, tol = 0.17454E+01, time = 0.67 | CG iter. 45 -- res = 0.71879E-14, tol = 0.17454E+01, time = 0.69 | CG iter. 46 -- res = 0.20949E-14, tol = 0.17454E+01, time = 0.65 | CG iter. 47 -- res = 0.66462E-15, tol = 0.17454E+01, time = 0.62 | CG iter. 48 -- res = 0.19796E-15, tol = 0.17454E+01, time = 0.66 | CG iter. 49 -- res = 0.56241E-16, tol = 0.17454E+01, time = 0.65 | CG iter. 50 -- res = 0.17234E-16, tol = 0.17454E+01, time = 0.63 | Final CG iter 51 -- res = 0.17234E-16, tol = 0.17454E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 4.017 2.119 | New value 0.489 | Old value 4.017 | Difference -3.529 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 4.09 | CG iter. 1 -- res = 0.11054E+05, tol = 0.47627E+18, time = 0.40 | CG iter. 2 -- res = 0.36261E+02, tol = 0.47627E+18, time = 0.38 | CG iter. 3 -- res = 0.12304E+01, tol = 0.47627E+18, time = 0.38 | Final CG iter 4 -- res = 0.43834E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10005145.249 | (Sampled value in CG: 10050319.192 ) | CPU time specind = 278.3000 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 4.10 | CG iter. 1 -- res = 0.73146E+08, tol = 0.51539E+04, time = 3.07 | CG iter. 2 -- res = 0.32987E+08, tol = 0.51539E+04, time = 3.12 | CG iter. 3 -- res = 0.60265E+07, tol = 0.51539E+04, time = 3.11 | CG iter. 4 -- res = 0.32859E+07, tol = 0.51539E+04, time = 3.12 | CG iter. 5 -- res = 0.14595E+07, tol = 0.51539E+04, time = 3.12 | CG iter. 6 -- res = 0.76208E+06, tol = 0.51539E+04, time = 3.16 | CG iter. 7 -- res = 0.39833E+06, tol = 0.51539E+04, time = 3.23 | CG iter. 8 -- res = 0.20675E+06, tol = 0.51539E+04, time = 3.20 | CG iter. 9 -- res = 0.11385E+06, tol = 0.51539E+04, time = 3.21 | CG iter. 10 -- res = 0.57994E+05, tol = 0.51539E+04, time = 3.21 | CG iter. 11 -- res = 0.33250E+05, tol = 0.51539E+04, time = 3.19 | CG iter. 12 -- res = 0.21100E+05, tol = 0.51539E+04, time = 3.15 | CG iter. 13 -- res = 0.16104E+05, tol = 0.51539E+04, time = 3.15 | CG iter. 14 -- res = 0.14992E+05, tol = 0.51539E+04, time = 3.19 | CG iter. 15 -- res = 0.13701E+05, tol = 0.51539E+04, time = 3.11 | CG iter. 16 -- res = 0.12456E+05, tol = 0.51539E+04, time = 3.16 | CG iter. 17 -- res = 0.10745E+05, tol = 0.51539E+04, time = 3.16 | CG iter. 18 -- res = 0.99040E+04, tol = 0.51539E+04, time = 3.12 | CG iter. 19 -- res = 0.98948E+04, tol = 0.51539E+04, time = 3.17 | CG iter. 20 -- res = 0.94393E+04, tol = 0.51539E+04, time = 3.14 | CG iter. 21 -- res = 0.73839E+04, tol = 0.51539E+04, time = 3.16 | CG iter. 22 -- res = 0.48181E+04, tol = 0.51539E+04, time = 3.10 | CG iter. 23 -- res = 0.33096E+04, tol = 0.51539E+04, time = 3.20 | CG iter. 24 -- res = 0.27671E+04, tol = 0.51539E+04, time = 3.14 | CG iter. 25 -- res = 0.26845E+04, tol = 0.51539E+04, time = 3.12 | CG iter. 26 -- res = 0.24811E+04, tol = 0.51539E+04, time = 3.10 | CG iter. 27 -- res = 0.20010E+04, tol = 0.51539E+04, time = 3.17 | CG iter. 28 -- res = 0.16233E+04, tol = 0.51539E+04, time = 3.13 | CG iter. 29 -- res = 0.15316E+04, tol = 0.51539E+04, time = 3.18 | CG iter. 30 -- res = 0.16099E+04, tol = 0.51539E+04, time = 3.11 | CG iter. 31 -- res = 0.15758E+04, tol = 0.51539E+04, time = 3.15 | CG iter. 32 -- res = 0.13057E+04, tol = 0.51539E+04, time = 3.12 | CG iter. 33 -- res = 0.98803E+03, tol = 0.51539E+04, time = 3.12 | CG iter. 34 -- res = 0.83836E+03, tol = 0.51539E+04, time = 3.09 | CG iter. 35 -- res = 0.82841E+03, tol = 0.51539E+04, time = 3.22 | CG iter. 36 -- res = 0.86095E+03, tol = 0.51539E+04, time = 3.09 | CG iter. 37 -- res = 0.82854E+03, tol = 0.51539E+04, time = 3.13 | CG iter. 38 -- res = 0.74310E+03, tol = 0.51539E+04, time = 3.21 | CG iter. 39 -- res = 0.70076E+03, tol = 0.51539E+04, time = 3.17 | CG iter. 40 -- res = 0.71902E+03, tol = 0.51539E+04, time = 3.17 | CG iter. 41 -- res = 0.76290E+03, tol = 0.51539E+04, time = 3.10 | CG iter. 42 -- res = 0.75007E+03, tol = 0.51539E+04, time = 3.17 | CG iter. 43 -- res = 0.69458E+03, tol = 0.51539E+04, time = 3.19 | CG iter. 44 -- res = 0.65247E+03, tol = 0.51539E+04, time = 3.15 | CG iter. 45 -- res = 0.63991E+03, tol = 0.51539E+04, time = 3.13 | CG iter. 46 -- res = 0.64903E+03, tol = 0.51539E+04, time = 3.15 | CG iter. 47 -- res = 0.64860E+03, tol = 0.51539E+04, time = 3.14 | CG iter. 48 -- res = 0.64167E+03, tol = 0.51539E+04, time = 3.15 | CG iter. 49 -- res = 0.63483E+03, tol = 0.51539E+04, time = 3.18 | CG iter. 50 -- res = 0.62362E+03, tol = 0.51539E+04, time = 3.08 | CG iter. 51 -- res = 0.61255E+03, tol = 0.51539E+04, time = 3.10 | CG iter. 52 -- res = 0.60084E+03, tol = 0.51539E+04, time = 3.12 | CG iter. 53 -- res = 0.59033E+03, tol = 0.51539E+04, time = 3.14 | CG iter. 54 -- res = 0.58304E+03, tol = 0.51539E+04, time = 3.16 | CG iter. 55 -- res = 0.55594E+03, tol = 0.51539E+04, time = 3.22 | CG iter. 56 -- res = 0.52161E+03, tol = 0.51539E+04, time = 3.18 | CG iter. 57 -- res = 0.50195E+03, tol = 0.51539E+04, time = 3.16 | CG iter. 58 -- res = 0.50846E+03, tol = 0.51539E+04, time = 3.17 | CG iter. 59 -- res = 0.52066E+03, tol = 0.51539E+04, time = 3.17 | CG iter. 60 -- res = 0.50533E+03, tol = 0.51539E+04, time = 3.19 | Final CG iter 61 -- res = 0.50533E+03, tol = 0.51539E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 2.473 ( -231.693 -2233.884 2516.064 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9738781.836 | Old band monopole 10005188.283 | Change to band monopole -266406.447 | Change to component monopole 266405.301 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 1.840 2.758 | New value 3.547 | Old value 1.840 | Difference 1.707 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -4.268 ( 6.801 11.226 -12.283 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 9.265 2.210 | New value -2.717 | Old value 9.265 | Difference -11.982 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 4.10 | CG iter. 1 -- res = 0.16153E+06, tol = 0.47627E+18, time = 0.38 | CG iter. 2 -- res = 0.71428E+02, tol = 0.47627E+18, time = 0.42 | CG iter. 3 -- res = 0.19189E+01, tol = 0.47627E+18, time = 0.40 | CG iter. 4 -- res = 0.86768E-03, tol = 0.47627E+18, time = 0.39 | Final CG iter 5 -- res = 0.41779E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9738739.948 | (Sampled value in CG: 9670208.825 ) | Chain = 1 -- chisq = 0.62001998E+09 | Chain = 1 -- wall time = 4796.933 sec --------------------------------------------------------------------- | Chain = 1 -- Iteration = 61 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18116809072394 | --> Sampling calibration, mode = relcal | relcal = -7.4669316E-02 -5.8326755E-02 9.1564089E-02 4.1431978E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -7.0675874E-06 4.1426192E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.3804E-05 | 2: delta_r/delta_0: 7.4468E-07 | 3: delta_s/delta_0: 2.4998E-07 | 4: delta_r/delta_0: 1.1263E-08 | 5: delta_s/delta_0: 8.0544E-09 | 6: delta_r/delta_0: 6.9352E-10 | 7: delta_s/delta_0: 1.9331E-10 | 8: delta_r/delta_0: 6.3814E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 6.292934874137188E-004 2.740738561295241E-005 | BP delta = 5.4519274E-03 1.2217782E-02 29858472.7134328 | BP delta = 6.2153926E-03 1.2981247E-02 29858472.8263754 | 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 = 1.02522929 | --> Sampling calibration, mode = relcal | relcal = -0.1065624 -9.5464848E-02 0.1448156 5.7211675E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.6286754E-03 1.2776325E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.0652E-03 | 2: delta_r/delta_0: 2.3482E-05 | 3: delta_s/delta_0: 7.2348E-06 | 4: delta_r/delta_0: 6.2087E-07 | 5: delta_s/delta_0: 2.9681E-06 | 6: delta_r/delta_0: 1.9014E-07 | 7: delta_s/delta_0: 4.7483E-09 | 8: delta_r/delta_0: 1.6060E-09 | 9: delta_s/delta_0: 1.9362E-07 | 10: delta_r/delta_0: 2.0212E-08 | 11: delta_s/delta_0: 1.3224E-10 | 12: delta_r/delta_0: 7.8827E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.101966422998108E-003 2.812929549925642E-005 | BP delta = -0.1878230 -0.1768829 34757152.6483067 | BP delta = -0.1889015 -0.1779614 34757152.5822831 | 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 = 0.81156945 | --> Sampling calibration, mode = relcal | relcal = 0.2952649 0.2246850 -0.2835376 -0.2364122 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.6431075E-04 5.2043241E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.5165E-03 | 2: delta_r/delta_0: 3.4931E-05 | 3: delta_s/delta_0: 3.7326E-06 | 4: delta_r/delta_0: 5.4568E-07 | 5: delta_s/delta_0: 3.1492E-06 | 6: delta_r/delta_0: 4.5368E-07 | 7: delta_s/delta_0: 6.6758E-08 | 8: delta_r/delta_0: 4.0223E-08 | 9: delta_s/delta_0: 2.6268E-07 | 10: delta_r/delta_0: 8.3508E-09 | 11: delta_s/delta_0: 1.8961E-09 | 12: delta_r/delta_0: 6.2232E-10 | 13: delta_s/delta_0: 2.3562E-10 | 14: delta_r/delta_0: 1.7566E-10 | 15: delta_s/delta_0: 3.1530E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.847662025261385E-002 4.025022888699616E-005 | BP delta = -8.8467948E-02 -0.1200763 43105896.4155666 | BP delta = -8.4788449E-02 -0.1163968 43105896.4590803 | 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 = 0.95826871 | --> Sampling calibration, mode = relcal | relcal = 0.1064663 0.1394212 -0.1101352 -0.1357523 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0539968E-02 1.2894451E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 3.7972E-04 | 2: delta_r/delta_0: 8.6379E-06 | 3: delta_s/delta_0: 4.9497E-03 | 4: delta_r/delta_0: 3.5501E-04 | 5: delta_s/delta_0: 2.1987E-06 | 6: delta_r/delta_0: 3.9041E-07 | 7: delta_s/delta_0: 5.9823E-08 | 8: delta_r/delta_0: 2.9572E-08 | 9: delta_s/delta_0: 8.2090E-08 | 10: delta_r/delta_0: 3.3954E-09 | 11: delta_s/delta_0: 1.0998E-09 | 12: delta_r/delta_0: 5.4524E-10 | 13: delta_s/delta_0: 1.0214E-09 | 14: delta_r/delta_0: 5.6192E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.429091962434488E-002 3.700705505374538E-005 | BP delta = 0.2835302 0.3018528 43047794.2790882 | BP delta = 0.2813397 0.2996623 43047794.1812575 | 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 = 0.52105078 | --> Sampling calibration, mode = relcal | relcal = -5.1018167E-02 -3.6611969E-03 2.7245872E-02 2.7433494E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 5.1013258E-04 1.4503184E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.6691E-05 | 2: delta_r/delta_0: 4.6315E-06 | 3: delta_s/delta_0: 1.7707E-05 | 4: delta_r/delta_0: 1.1824E-06 | 5: delta_s/delta_0: 5.2107E-08 | 6: delta_r/delta_0: 2.4276E-08 | 7: delta_s/delta_0: 2.5147E-08 | 8: delta_r/delta_0: 8.1568E-09 | 9: delta_s/delta_0: 4.8529E-09 | 10: delta_r/delta_0: 1.0284E-09 | 11: delta_s/delta_0: 9.4669E-10 | 12: delta_r/delta_0: 5.8172E-10 | 13: delta_s/delta_0: 1.9808E-10 | 14: delta_r/delta_0: 3.8248E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.097265274299965E-002 5.488786106415668E-005 | BP delta = -8.1821710E-02 2.8378494E-02 61508199.0389482 | BP delta = -9.9932969E-02 1.0267233E-02 61508199.0504479 | 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 = 0.42120540 | --> Sampling calibration, mode = relcal | relcal = 4.5585852E-02 3.9600197E-02 -2.8179441E-02 -5.7006609E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.6254402E-03 5.5899448E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.3035E-04 | 2: delta_r/delta_0: 5.2187E-06 | 3: delta_s/delta_0: 1.4588E-06 | 4: delta_r/delta_0: 1.9245E-07 | 5: delta_s/delta_0: 8.9246E-08 | 6: delta_r/delta_0: 3.3810E-08 | 7: delta_s/delta_0: 3.9364E-08 | 8: delta_r/delta_0: 2.8404E-08 | 9: delta_s/delta_0: 1.0996E-08 | 10: delta_r/delta_0: 1.0625E-09 | 11: delta_s/delta_0: 9.8108E-10 | 12: delta_r/delta_0: 2.9010E-10 | 13: delta_s/delta_0: 5.7298E-09 | 14: delta_r/delta_0: 8.3284E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.475435146589769E-002 5.000208285786595E-005 | BP delta = -0.1387884 -0.1636990 61337439.1407449 | BP delta = -0.1452099 -0.1701205 61337439.1682765 | 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 = 0.28129892 | --> Sampling calibration, mode = relcal | relcal = 2.4187705E-02 4.5107216E-02 -2.3331886E-02 -4.5963038E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.4864611E-03 4.9897837E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.1301E-04 | 2: delta_r/delta_0: 8.9573E-06 | 3: delta_s/delta_0: 1.5034E-06 | 4: delta_r/delta_0: 2.0656E-07 | 5: delta_s/delta_0: 5.9184E-08 | 6: delta_r/delta_0: 1.5578E-08 | 7: delta_s/delta_0: 6.4513E-09 | 8: delta_r/delta_0: 3.9171E-09 | 9: delta_s/delta_0: 6.6100E-09 | 10: delta_r/delta_0: 2.7805E-09 | 11: delta_s/delta_0: 1.0590E-08 | 12: delta_r/delta_0: 1.5061E-09 | 13: delta_s/delta_0: 3.7078E-09 | 14: delta_r/delta_0: 2.0006E-09 | 15: delta_s/delta_0: 3.9444E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -8.387267677762451E-003 7.852954722414826E-005 | BP delta = 2.2448044E-02 -9.9284574E-02 94970452.7038252 | BP delta = 2.9241543E-02 -9.2491075E-02 94970452.7463130 | 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 = 0.29358769 | --> Sampling calibration, mode = relcal | relcal = 5.1449484E-04 1.0263216E-02 -3.8134337E-03 -6.9642765E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.3149192E-02 1.3820320E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.3199E-04 | 2: delta_r/delta_0: 1.1321E-05 | 3: delta_s/delta_0: 1.8036E-06 | 4: delta_r/delta_0: 2.5855E-07 | 5: delta_s/delta_0: 9.6997E-08 | 6: delta_r/delta_0: 2.1164E-08 | 7: delta_s/delta_0: 9.7403E-09 | 8: delta_r/delta_0: 6.3690E-09 | 9: delta_s/delta_0: 1.1065E-08 | 10: delta_r/delta_0: 4.6067E-09 | 11: delta_s/delta_0: 1.0270E-08 | 12: delta_r/delta_0: 9.8903E-10 | 13: delta_s/delta_0: 1.0421E-09 | 14: delta_r/delta_0: 2.9973E-10 | 15: delta_s/delta_0: 5.5207E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.657185988122203E-003 8.316052519825804E-005 | BP delta = -0.6908491 -0.6527009 93518538.6072787 | BP delta = -0.6804938 -0.6423457 93518538.6472299 | 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 = 0.26479255 | --> Sampling calibration, mode = relcal | relcal = -5.5786693E-03 1.4997595E-02 -2.3640736E-03 -7.0548523E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -1.3064123E-03 6.8963920E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4300E-04 | 2: delta_r/delta_0: 1.2287E-05 | 3: delta_s/delta_0: 2.0993E-06 | 4: delta_r/delta_0: 2.4339E-07 | 5: delta_s/delta_0: 9.7118E-08 | 6: delta_r/delta_0: 2.0314E-08 | 7: delta_s/delta_0: 8.3971E-09 | 8: delta_r/delta_0: 5.3113E-09 | 9: delta_s/delta_0: 5.6878E-09 | 10: delta_r/delta_0: 3.8758E-09 | 11: delta_s/delta_0: 1.6457E-07 | 12: delta_r/delta_0: 1.6571E-09 | 13: delta_s/delta_0: 3.8947E-09 | 14: delta_r/delta_0: 9.6602E-10 | 15: delta_s/delta_0: 4.9643E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -7.932209185624433E-003 9.163191026917417E-005 | BP delta = 0.2148609 0.2626853 94712348.5738571 | BP delta = 0.2012202 0.2490446 94712348.5423476 | 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 = 0.25635516 | --> Sampling calibration, mode = relcal | relcal = -3.1787373E-02 -2.5830531E-02 3.6997017E-02 2.0620890E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.6432440E-02 2.0620724E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4583E-04 | 2: delta_r/delta_0: 1.2186E-05 | 3: delta_s/delta_0: 1.8119E-06 | 4: delta_r/delta_0: 4.2773E-07 | 5: delta_s/delta_0: 1.6920E-07 | 6: delta_r/delta_0: 2.8574E-08 | 7: delta_s/delta_0: 1.2640E-08 | 8: delta_r/delta_0: 7.3653E-09 | 9: delta_s/delta_0: 1.4886E-08 | 10: delta_r/delta_0: 4.7134E-09 | 11: delta_s/delta_0: 3.8383E-09 | 12: delta_r/delta_0: 3.5896E-10 | 13: delta_s/delta_0: 1.8529E-09 | 14: delta_r/delta_0: 5.3606E-10 | 15: delta_s/delta_0: 1.3145E-10 | 16: delta_r/delta_0: 1.0726E-10 | 17: delta_s/delta_0: 9.7147E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.627702754640755E-003 8.681808499005088E-005 | BP delta = -0.5857853 -0.6657539 93064002.4348339 | BP delta = -0.6049193 -0.6848879 93064002.3790817 | 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 = -3.076071 | New value = -3.098396 | poltype: 2 pol: 1 CPU time specind = 5.1839352E-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 = -3.132411 | New value = -3.140881 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.138420 | New value = -3.103478 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.127701 | New value = -3.234595 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.121142 | New value = -3.201966 | poltype: 2 pol: 2 CPU time specind = 2.3190975E-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 = 4.26 | CG iter. 1 -- res = 0.13530E+08, tol = 0.72737E+01, time = 1.52 | CG iter. 2 -- res = 0.42998E+05, tol = 0.72737E+01, time = 1.53 | CG iter. 3 -- res = 0.33078E+05, tol = 0.72737E+01, time = 1.55 | CG iter. 4 -- res = 0.10548E+05, tol = 0.72737E+01, time = 1.53 | CG iter. 5 -- res = 0.79330E+04, tol = 0.72737E+01, time = 1.48 | CG iter. 6 -- res = 0.71904E+04, tol = 0.72737E+01, time = 1.54 | CG iter. 7 -- res = 0.48796E+04, tol = 0.72737E+01, time = 1.51 | CG iter. 8 -- res = 0.37135E+04, tol = 0.72737E+01, time = 1.63 | CG iter. 9 -- res = 0.52046E+04, tol = 0.72737E+01, time = 1.59 | CG iter. 10 -- res = 0.43178E+04, tol = 0.72737E+01, time = 1.59 | CG iter. 11 -- res = 0.28582E+04, tol = 0.72737E+01, time = 1.58 | CG iter. 12 -- res = 0.19419E+04, tol = 0.72737E+01, time = 1.62 | CG iter. 13 -- res = 0.14625E+04, tol = 0.72737E+01, time = 1.56 | CG iter. 14 -- res = 0.11264E+04, tol = 0.72737E+01, time = 1.61 | CG iter. 15 -- res = 0.84259E+03, tol = 0.72737E+01, time = 1.60 | CG iter. 16 -- res = 0.53268E+03, tol = 0.72737E+01, time = 1.63 | CG iter. 17 -- res = 0.41573E+03, tol = 0.72737E+01, time = 1.55 | CG iter. 18 -- res = 0.33238E+03, tol = 0.72737E+01, time = 1.54 | CG iter. 19 -- res = 0.27723E+03, tol = 0.72737E+01, time = 1.55 | CG iter. 20 -- res = 0.17720E+03, tol = 0.72737E+01, time = 1.52 | CG iter. 21 -- res = 0.13278E+03, tol = 0.72737E+01, time = 1.57 | CG iter. 22 -- res = 0.12463E+03, tol = 0.72737E+01, time = 1.51 | CG iter. 23 -- res = 0.99020E+02, tol = 0.72737E+01, time = 1.54 | CG iter. 24 -- res = 0.77454E+02, tol = 0.72737E+01, time = 1.55 | CG iter. 25 -- res = 0.71565E+02, tol = 0.72737E+01, time = 1.56 | CG iter. 26 -- res = 0.56425E+02, tol = 0.72737E+01, time = 1.53 | CG iter. 27 -- res = 0.41909E+02, tol = 0.72737E+01, time = 1.56 | CG iter. 28 -- res = 0.31128E+02, tol = 0.72737E+01, time = 1.57 | CG iter. 29 -- res = 0.26784E+02, tol = 0.72737E+01, time = 1.59 | CG iter. 30 -- res = 0.23798E+02, tol = 0.72737E+01, time = 1.52 | CG iter. 31 -- res = 0.17082E+02, tol = 0.72737E+01, time = 1.56 | CG iter. 32 -- res = 0.14021E+02, tol = 0.72737E+01, time = 1.58 | CG iter. 33 -- res = 0.12289E+02, tol = 0.72737E+01, time = 1.53 | CG iter. 34 -- res = 0.10418E+02, tol = 0.72737E+01, time = 1.61 | CG iter. 35 -- res = 0.77986E+01, tol = 0.72737E+01, time = 1.56 | CG iter. 36 -- res = 0.61135E+01, tol = 0.72737E+01, time = 1.51 | CG iter. 37 -- res = 0.52254E+01, tol = 0.72737E+01, time = 1.56 | CG iter. 38 -- res = 0.40843E+01, tol = 0.72737E+01, time = 1.59 | CG iter. 39 -- res = 0.48532E+01, tol = 0.72737E+01, time = 1.59 | CG iter. 40 -- res = 0.32595E+01, tol = 0.72737E+01, time = 1.58 | CG iter. 41 -- res = 0.23408E+01, tol = 0.72737E+01, time = 1.54 | CG iter. 42 -- res = 0.18670E+01, tol = 0.72737E+01, time = 1.52 | CG iter. 43 -- res = 0.17690E+01, tol = 0.72737E+01, time = 1.54 | CG iter. 44 -- res = 0.16400E+01, tol = 0.72737E+01, time = 1.58 | CG iter. 45 -- res = 0.96868E+00, tol = 0.72737E+01, time = 1.50 | CG iter. 46 -- res = 0.66542E+00, tol = 0.72737E+01, time = 1.54 | CG iter. 47 -- res = 0.48563E+00, tol = 0.72737E+01, time = 1.52 | CG iter. 48 -- res = 0.37408E+00, tol = 0.72737E+01, time = 1.59 | CG iter. 49 -- res = 0.28453E+00, tol = 0.72737E+01, time = 1.53 | CG iter. 50 -- res = 0.18928E+00, tol = 0.72737E+01, time = 1.53 | Final CG iter 51 -- res = 0.18928E+00, tol = 0.72737E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 5754777.150 | Old band monopole 9738781.836 | Change to band monopole -3984004.686 | Change to component monopole 3983987.550 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 4.24 | CG iter. 1 -- res = 0.85458E+05, tol = 0.47627E+18, time = 0.40 | CG iter. 2 -- res = 0.21476E+02, tol = 0.47627E+18, time = 0.41 | CG iter. 3 -- res = 0.56553E+00, tol = 0.47627E+18, time = 0.38 | CG iter. 4 -- res = 0.40149E-03, tol = 0.47627E+18, time = 0.39 | Final CG iter 5 -- res = 0.13997E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 5754752.397 | (Sampled value in CG: 5731678.961 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.491855 | New value = 1.464566 | poltype: 2 pol: 1 CPU time specind = 4.9538612E-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 = 1.464712 | New value = 1.504881 | poltype: 2 pol: 2 CPU time specind = 2.2919178E-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 = 4.25 | CG iter. 1 -- res = 0.24202E+08, tol = 0.47564E+04, time = 1.74 | CG iter. 2 -- res = 0.53922E+07, tol = 0.47564E+04, time = 1.69 | CG iter. 3 -- res = 0.84811E+06, tol = 0.47564E+04, time = 1.73 | CG iter. 4 -- res = 0.35408E+06, tol = 0.47564E+04, time = 1.70 | CG iter. 5 -- res = 0.15418E+06, tol = 0.47564E+04, time = 1.80 | CG iter. 6 -- res = 0.79999E+05, tol = 0.47564E+04, time = 1.74 | CG iter. 7 -- res = 0.43951E+05, tol = 0.47564E+04, time = 1.75 | CG iter. 8 -- res = 0.21383E+05, tol = 0.47564E+04, time = 1.75 | CG iter. 9 -- res = 0.93945E+04, tol = 0.47564E+04, time = 1.73 | CG iter. 10 -- res = 0.38071E+04, tol = 0.47564E+04, time = 1.82 | CG iter. 11 -- res = 0.16966E+04, tol = 0.47564E+04, time = 1.78 | CG iter. 12 -- res = 0.89226E+03, tol = 0.47564E+04, time = 1.75 | CG iter. 13 -- res = 0.50607E+03, tol = 0.47564E+04, time = 1.71 | CG iter. 14 -- res = 0.28649E+03, tol = 0.47564E+04, time = 1.74 | CG iter. 15 -- res = 0.14678E+03, tol = 0.47564E+04, time = 1.71 | CG iter. 16 -- res = 0.68798E+02, tol = 0.47564E+04, time = 1.76 | CG iter. 17 -- res = 0.31880E+02, tol = 0.47564E+04, time = 1.74 | CG iter. 18 -- res = 0.15934E+02, tol = 0.47564E+04, time = 1.72 | CG iter. 19 -- res = 0.88114E+01, tol = 0.47564E+04, time = 1.80 | CG iter. 20 -- res = 0.49777E+01, tol = 0.47564E+04, time = 1.80 | CG iter. 21 -- res = 0.27334E+01, tol = 0.47564E+04, time = 1.78 | CG iter. 22 -- res = 0.13934E+01, tol = 0.47564E+04, time = 1.80 | CG iter. 23 -- res = 0.68835E+00, tol = 0.47564E+04, time = 1.79 | CG iter. 24 -- res = 0.34586E+00, tol = 0.47564E+04, time = 1.79 | CG iter. 25 -- res = 0.18584E+00, tol = 0.47564E+04, time = 1.79 | CG iter. 26 -- res = 0.10863E+00, tol = 0.47564E+04, time = 1.76 | CG iter. 27 -- res = 0.61965E-01, tol = 0.47564E+04, time = 1.78 | CG iter. 28 -- res = 0.32991E-01, tol = 0.47564E+04, time = 1.78 | CG iter. 29 -- res = 0.16722E-01, tol = 0.47564E+04, time = 1.73 | CG iter. 30 -- res = 0.85582E-02, tol = 0.47564E+04, time = 1.82 | CG iter. 31 -- res = 0.45739E-02, tol = 0.47564E+04, time = 1.73 | CG iter. 32 -- res = 0.25435E-02, tol = 0.47564E+04, time = 1.74 | CG iter. 33 -- res = 0.14588E-02, tol = 0.47564E+04, time = 1.78 | CG iter. 34 -- res = 0.79568E-03, tol = 0.47564E+04, time = 1.83 | CG iter. 35 -- res = 0.42352E-03, tol = 0.47564E+04, time = 1.77 | Final CG iter 36 -- res = 0.42352E-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) 3.568 2.742 | New value -2.128 | Old value 3.568 | Difference -5.696 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 4.22 | CG iter. 1 -- res = 0.16770E+07, tol = 0.47627E+18, time = 0.38 | CG iter. 2 -- res = 0.16947E+02, tol = 0.47627E+18, time = 0.35 | CG iter. 3 -- res = 0.43151E+00, tol = 0.47627E+18, time = 0.37 | Final CG iter 4 -- res = 0.37894E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 5754752.397 | (Sampled value in CG: 5731508.961 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.473676 | New value = -3.700275 | poltype: 1 pol: 1 CPU time specind = 3.7229061E-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 = 4.23 | CG iter. 1 -- res = 0.20843E+07, tol = 0.15012E+01, time = 0.68 | CG iter. 2 -- res = 0.39988E+05, tol = 0.15012E+01, time = 0.67 | CG iter. 3 -- res = 0.24357E+05, tol = 0.15012E+01, time = 0.67 | CG iter. 4 -- res = 0.91802E+04, tol = 0.15012E+01, time = 0.66 | CG iter. 5 -- res = 0.35635E+04, tol = 0.15012E+01, time = 0.69 | CG iter. 6 -- res = 0.12601E+04, tol = 0.15012E+01, time = 0.68 | CG iter. 7 -- res = 0.40967E+03, tol = 0.15012E+01, time = 0.70 | CG iter. 8 -- res = 0.17112E+03, tol = 0.15012E+01, time = 0.73 | CG iter. 9 -- res = 0.82588E+02, tol = 0.15012E+01, time = 0.68 | CG iter. 10 -- res = 0.31852E+02, tol = 0.15012E+01, time = 0.65 | CG iter. 11 -- res = 0.10932E+02, tol = 0.15012E+01, time = 0.65 | CG iter. 12 -- res = 0.38694E+01, tol = 0.15012E+01, time = 0.67 | CG iter. 13 -- res = 0.14358E+01, tol = 0.15012E+01, time = 0.61 | CG iter. 14 -- res = 0.58126E+00, tol = 0.15012E+01, time = 0.62 | CG iter. 15 -- res = 0.18191E+00, tol = 0.15012E+01, time = 0.69 | CG iter. 16 -- res = 0.57426E-01, tol = 0.15012E+01, time = 0.69 | CG iter. 17 -- res = 0.21451E-01, tol = 0.15012E+01, time = 0.66 | CG iter. 18 -- res = 0.99487E-02, tol = 0.15012E+01, time = 0.65 | CG iter. 19 -- res = 0.42231E-02, tol = 0.15012E+01, time = 0.69 | CG iter. 20 -- res = 0.13286E-02, tol = 0.15012E+01, time = 0.66 | CG iter. 21 -- res = 0.37103E-03, tol = 0.15012E+01, time = 0.68 | CG iter. 22 -- res = 0.14399E-03, tol = 0.15012E+01, time = 0.67 | CG iter. 23 -- res = 0.57457E-04, tol = 0.15012E+01, time = 0.64 | CG iter. 24 -- res = 0.16842E-04, tol = 0.15012E+01, time = 0.65 | CG iter. 25 -- res = 0.52318E-05, tol = 0.15012E+01, time = 0.61 | CG iter. 26 -- res = 0.17913E-05, tol = 0.15012E+01, time = 0.66 | CG iter. 27 -- res = 0.73245E-06, tol = 0.15012E+01, time = 0.65 | CG iter. 28 -- res = 0.22764E-06, tol = 0.15012E+01, time = 0.68 | CG iter. 29 -- res = 0.72623E-07, tol = 0.15012E+01, time = 0.68 | CG iter. 30 -- res = 0.20358E-07, tol = 0.15012E+01, time = 0.64 | CG iter. 31 -- res = 0.67587E-08, tol = 0.15012E+01, time = 0.66 | CG iter. 32 -- res = 0.26590E-08, tol = 0.15012E+01, time = 0.69 | CG iter. 33 -- res = 0.23980E-08, tol = 0.15012E+01, time = 0.65 | CG iter. 34 -- res = 0.44709E-09, tol = 0.15012E+01, time = 0.62 | CG iter. 35 -- res = 0.13343E-09, tol = 0.15012E+01, time = 0.68 | CG iter. 36 -- res = 0.80765E-10, tol = 0.15012E+01, time = 0.65 | CG iter. 37 -- res = 0.39893E-10, tol = 0.15012E+01, time = 0.61 | CG iter. 38 -- res = 0.11551E-10, tol = 0.15012E+01, time = 0.67 | CG iter. 39 -- res = 0.36634E-11, tol = 0.15012E+01, time = 0.66 | CG iter. 40 -- res = 0.10060E-11, tol = 0.15012E+01, time = 0.68 | CG iter. 41 -- res = 0.31983E-12, tol = 0.15012E+01, time = 0.63 | CG iter. 42 -- res = 0.98736E-13, tol = 0.15012E+01, time = 0.69 | CG iter. 43 -- res = 0.29847E-13, tol = 0.15012E+01, time = 0.65 | CG iter. 44 -- res = 0.94083E-14, tol = 0.15012E+01, time = 0.64 | CG iter. 45 -- res = 0.33921E-14, tol = 0.15012E+01, time = 0.63 | CG iter. 46 -- res = 0.12655E-14, tol = 0.15012E+01, time = 0.63 | CG iter. 47 -- res = 0.38282E-15, tol = 0.15012E+01, time = 0.69 | CG iter. 48 -- res = 0.10678E-15, tol = 0.15012E+01, time = 0.64 | CG iter. 49 -- res = 0.31969E-16, tol = 0.15012E+01, time = 0.67 | CG iter. 50 -- res = 0.11424E-16, tol = 0.15012E+01, time = 0.64 | Final CG iter 51 -- res = 0.11424E-16, tol = 0.15012E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -4.411 2.493 | New value -4.543 | Old value -4.411 | Difference -0.131 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 4.21 | CG iter. 1 -- res = 0.43892E+03, tol = 0.47627E+18, time = 0.38 | CG iter. 2 -- res = 0.88007E+01, tol = 0.47627E+18, time = 0.38 | CG iter. 3 -- res = 0.10829E+00, tol = 0.47627E+18, time = 0.39 | Final CG iter 4 -- res = 0.70280E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 5754752.397 | (Sampled value in CG: 5739866.376 ) | CPU time specind = 277.2785 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 4.23 | CG iter. 1 -- res = 0.68473E+08, tol = 0.51485E+04, time = 3.16 | CG iter. 2 -- res = 0.32893E+08, tol = 0.51485E+04, time = 3.21 | CG iter. 3 -- res = 0.58037E+07, tol = 0.51485E+04, time = 3.08 | CG iter. 4 -- res = 0.30084E+07, tol = 0.51485E+04, time = 3.30 | CG iter. 5 -- res = 0.13251E+07, tol = 0.51485E+04, time = 3.32 | CG iter. 6 -- res = 0.70761E+06, tol = 0.51485E+04, time = 3.26 | CG iter. 7 -- res = 0.38098E+06, tol = 0.51485E+04, time = 3.20 | CG iter. 8 -- res = 0.19183E+06, tol = 0.51485E+04, time = 3.20 | CG iter. 9 -- res = 0.97582E+05, tol = 0.51485E+04, time = 3.27 | CG iter. 10 -- res = 0.45301E+05, tol = 0.51485E+04, time = 3.10 | CG iter. 11 -- res = 0.23409E+05, tol = 0.51485E+04, time = 3.18 | CG iter. 12 -- res = 0.12944E+05, tol = 0.51485E+04, time = 3.03 | CG iter. 13 -- res = 0.79576E+04, tol = 0.51485E+04, time = 3.12 | CG iter. 14 -- res = 0.56965E+04, tol = 0.51485E+04, time = 3.17 | CG iter. 15 -- res = 0.41302E+04, tol = 0.51485E+04, time = 3.08 | CG iter. 16 -- res = 0.31646E+04, tol = 0.51485E+04, time = 3.14 | CG iter. 17 -- res = 0.24942E+04, tol = 0.51485E+04, time = 3.14 | CG iter. 18 -- res = 0.22898E+04, tol = 0.51485E+04, time = 3.19 | CG iter. 19 -- res = 0.24555E+04, tol = 0.51485E+04, time = 3.12 | CG iter. 20 -- res = 0.28229E+04, tol = 0.51485E+04, time = 3.18 | CG iter. 21 -- res = 0.29392E+04, tol = 0.51485E+04, time = 3.13 | CG iter. 22 -- res = 0.24694E+04, tol = 0.51485E+04, time = 3.22 | CG iter. 23 -- res = 0.18923E+04, tol = 0.51485E+04, time = 3.16 | CG iter. 24 -- res = 0.15308E+04, tol = 0.51485E+04, time = 3.19 | CG iter. 25 -- res = 0.13674E+04, tol = 0.51485E+04, time = 3.19 | CG iter. 26 -- res = 0.12205E+04, tol = 0.51485E+04, time = 3.24 | CG iter. 27 -- res = 0.98203E+03, tol = 0.51485E+04, time = 3.06 | CG iter. 28 -- res = 0.75737E+03, tol = 0.51485E+04, time = 3.13 | CG iter. 29 -- res = 0.65810E+03, tol = 0.51485E+04, time = 3.12 | CG iter. 30 -- res = 0.69685E+03, tol = 0.51485E+04, time = 3.16 | CG iter. 31 -- res = 0.78845E+03, tol = 0.51485E+04, time = 3.13 | CG iter. 32 -- res = 0.81941E+03, tol = 0.51485E+04, time = 3.15 | CG iter. 33 -- res = 0.72840E+03, tol = 0.51485E+04, time = 3.15 | CG iter. 34 -- res = 0.63124E+03, tol = 0.51485E+04, time = 3.12 | CG iter. 35 -- res = 0.60935E+03, tol = 0.51485E+04, time = 3.14 | CG iter. 36 -- res = 0.64034E+03, tol = 0.51485E+04, time = 3.13 | CG iter. 37 -- res = 0.64670E+03, tol = 0.51485E+04, time = 3.19 | CG iter. 38 -- res = 0.58179E+03, tol = 0.51485E+04, time = 3.22 | CG iter. 39 -- res = 0.50857E+03, tol = 0.51485E+04, time = 3.19 | CG iter. 40 -- res = 0.49370E+03, tol = 0.51485E+04, time = 3.20 | CG iter. 41 -- res = 0.54553E+03, tol = 0.51485E+04, time = 3.23 | CG iter. 42 -- res = 0.61163E+03, tol = 0.51485E+04, time = 3.29 | CG iter. 43 -- res = 0.62283E+03, tol = 0.51485E+04, time = 3.16 | CG iter. 44 -- res = 0.58803E+03, tol = 0.51485E+04, time = 3.23 | CG iter. 45 -- res = 0.56670E+03, tol = 0.51485E+04, time = 3.19 | CG iter. 46 -- res = 0.58657E+03, tol = 0.51485E+04, time = 3.23 | CG iter. 47 -- res = 0.61587E+03, tol = 0.51485E+04, time = 3.23 | CG iter. 48 -- res = 0.61565E+03, tol = 0.51485E+04, time = 3.18 | CG iter. 49 -- res = 0.57887E+03, tol = 0.51485E+04, time = 3.22 | CG iter. 50 -- res = 0.54603E+03, tol = 0.51485E+04, time = 3.23 | CG iter. 51 -- res = 0.54324E+03, tol = 0.51485E+04, time = 3.21 | CG iter. 52 -- res = 0.56783E+03, tol = 0.51485E+04, time = 3.18 | CG iter. 53 -- res = 0.57747E+03, tol = 0.51485E+04, time = 3.18 | CG iter. 54 -- res = 0.56281E+03, tol = 0.51485E+04, time = 3.09 | CG iter. 55 -- res = 0.53921E+03, tol = 0.51485E+04, time = 3.15 | CG iter. 56 -- res = 0.51595E+03, tol = 0.51485E+04, time = 3.19 | CG iter. 57 -- res = 0.50673E+03, tol = 0.51485E+04, time = 3.09 | CG iter. 58 -- res = 0.49807E+03, tol = 0.51485E+04, time = 3.25 | CG iter. 59 -- res = 0.48443E+03, tol = 0.51485E+04, time = 3.21 | CG iter. 60 -- res = 0.46359E+03, tol = 0.51485E+04, time = 3.22 | Final CG iter 61 -- res = 0.46359E+03, tol = 0.51485E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 2.592 ( -231.055 -2233.825 2516.806 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 11014248.365 | Old band monopole 5754777.150 | Change to band monopole 5259471.215 | Change to component monopole -5259448.593 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -2.167 2.745 | New value -3.351 | Old value -2.167 | Difference -1.184 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -4.147 ( 8.089 11.245 -11.624 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 9.224 2.678 | New value 0.715 | Old value 9.224 | Difference -8.509 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 4.23 | CG iter. 1 -- res = 0.32307E+06, tol = 0.47627E+18, time = 0.37 | CG iter. 2 -- res = 0.82907E+02, tol = 0.47627E+18, time = 0.38 | CG iter. 3 -- res = 0.16538E+01, tol = 0.47627E+18, time = 0.39 | CG iter. 4 -- res = 0.83256E-02, tol = 0.47627E+18, time = 0.39 | Final CG iter 5 -- res = 0.45044E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 11014200.990 | (Sampled value in CG: 10945707.102 ) | Chain = 1 -- chisq = 0.61904677E+09 | Chain = 1 -- wall time = 4105.551 sec --------------------------------------------------------------------- | Chain = 1 -- Iteration = 62 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18444308251725 | --> Sampling calibration, mode = relcal | relcal = -7.5601764E-02 -5.9074234E-02 9.2635125E-02 4.2040870E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 6.8606358E-05 5.5870824E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.5587E-05 | 2: delta_r/delta_0: 1.2136E-06 | 3: delta_s/delta_0: 1.8906E-07 | 4: delta_r/delta_0: 2.3545E-08 | 5: delta_s/delta_0: 6.0231E-09 | 6: delta_r/delta_0: 2.1016E-09 | 7: delta_s/delta_0: 1.5487E-09 | 8: delta_r/delta_0: 1.5307E-10 | 9: delta_s/delta_0: 3.6510E-08 | 10: delta_r/delta_0: 2.6858E-09 | 11: delta_s/delta_0: 1.9329E-09 | 12: delta_r/delta_0: 3.4449E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 8.151451225142964E-004 2.733051917652118E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.5583E-05 | 2: delta_r/delta_0: 1.2135E-06 | 3: delta_s/delta_0: 1.8906E-07 | 4: delta_r/delta_0: 2.3541E-08 | 5: delta_s/delta_0: 6.0219E-09 | 6: delta_r/delta_0: 2.1023E-09 | 7: delta_s/delta_0: 1.5484E-09 | 8: delta_r/delta_0: 1.5306E-10 | 9: delta_s/delta_0: 3.6912E-08 | 10: delta_r/delta_0: 2.7126E-09 | 11: delta_s/delta_0: 1.9358E-09 | 12: delta_r/delta_0: 3.4612E-11 | Reached bicg-stab tolerance | BP delta = 6.2153926E-03 1.2981247E-02 3725391.82056985 | BP delta = 6.2153926E-03 1.3637270E-02 3716207.74809383 | BP chisq diff = -9184.1, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02526348 | --> Sampling calibration, mode = relcal | relcal = -0.1065605 -9.5550440E-02 0.1448478 5.7263177E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.6628856E-03 1.4157320E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 7.2330E-03 | 2: delta_r/delta_0: 1.5891E-04 | 3: delta_s/delta_0: 6.2560E-03 | 4: delta_r/delta_0: 4.9137E-04 | 5: delta_s/delta_0: 2.0834E-05 | 6: delta_r/delta_0: 2.8888E-06 | 7: delta_s/delta_0: 2.4602E-06 | 8: delta_r/delta_0: 7.2778E-07 | 9: delta_s/delta_0: 3.8029E-07 | 10: delta_r/delta_0: 1.3064E-07 | 11: delta_s/delta_0: 8.7941E-08 | 12: delta_r/delta_0: 2.3268E-08 | 13: delta_s/delta_0: 1.7327E-08 | 14: delta_r/delta_0: 1.1129E-08 | 15: delta_s/delta_0: 2.3342E-09 | 16: delta_r/delta_0: 1.0133E-09 | 17: delta_s/delta_0: 3.1725E-06 | 18: delta_r/delta_0: 1.8743E-06 | 19: delta_s/delta_0: 8.6970E-09 | 20: delta_r/delta_0: 6.5812E-09 | 21: delta_s/delta_0: 1.9424E-08 | 22: delta_r/delta_0: 5.5328E-12 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -0.134028844660409 2.812841906469237E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 7.2285E-03 | 2: delta_r/delta_0: 1.5881E-04 | 3: delta_s/delta_0: 6.3607E-03 | 4: delta_r/delta_0: 4.9959E-04 | 5: delta_s/delta_0: 2.0992E-05 | 6: delta_r/delta_0: 2.9138E-06 | 7: delta_s/delta_0: 2.4802E-06 | 8: delta_r/delta_0: 7.3304E-07 | 9: delta_s/delta_0: 3.8289E-07 | 10: delta_r/delta_0: 1.3158E-07 | 11: delta_s/delta_0: 8.8379E-08 | 12: delta_r/delta_0: 2.3208E-08 | 13: delta_s/delta_0: 1.7547E-08 | 14: delta_r/delta_0: 1.1203E-08 | 15: delta_s/delta_0: 2.3161E-09 | 16: delta_r/delta_0: 1.0299E-09 | 17: delta_s/delta_0: 2.0250E-06 | 18: delta_r/delta_0: 1.2347E-06 | 19: delta_s/delta_0: 9.5998E-09 | 20: delta_r/delta_0: 7.3007E-09 | 21: delta_s/delta_0: 2.3122E-08 | 22: delta_r/delta_0: 6.4329E-12 | Reached bicg-stab tolerance | BP delta = -0.1889015 -0.1779614 2841649.57186928 | BP delta = -0.1889015 -0.1744202 2841671.78034480 | 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 = 0.81149340 | --> Sampling calibration, mode = relcal | relcal = 0.2952557 0.2245843 -0.2835036 -0.2363364 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.5191108E-04 5.5005020E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 7.3523E-04 | 2: delta_r/delta_0: 1.6668E-05 | 3: delta_s/delta_0: 2.0261E-05 | 4: delta_r/delta_0: 2.1465E-06 | 5: delta_s/delta_0: 2.5416E-07 | 6: delta_r/delta_0: 6.3942E-08 | 7: delta_s/delta_0: 5.5612E-08 | 8: delta_r/delta_0: 3.2085E-08 | 9: delta_s/delta_0: 1.7448E-07 | 10: delta_r/delta_0: 1.4148E-09 | 11: delta_s/delta_0: 7.3325E-10 | 12: delta_r/delta_0: 4.0746E-10 | 13: delta_s/delta_0: 9.2262E-09 | 14: delta_r/delta_0: 5.6380E-09 | 15: delta_s/delta_0: 2.8205E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.996263005270696E-002 4.025406216874060E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 7.3421E-04 | 2: delta_r/delta_0: 1.6644E-05 | 3: delta_s/delta_0: 2.0292E-05 | 4: delta_r/delta_0: 2.1495E-06 | 5: delta_s/delta_0: 2.5392E-07 | 6: delta_r/delta_0: 6.3942E-08 | 7: delta_s/delta_0: 5.5608E-08 | 8: delta_r/delta_0: 3.2053E-08 | 9: delta_s/delta_0: 1.7359E-07 | 10: delta_r/delta_0: 1.4189E-09 | 11: delta_s/delta_0: 7.3252E-10 | 12: delta_r/delta_0: 4.0758E-10 | 13: delta_s/delta_0: 1.0341E-08 | 14: delta_r/delta_0: 6.2956E-09 | 15: delta_s/delta_0: 2.8235E-11 | Reached bicg-stab tolerance | BP delta = -8.4788449E-02 -0.1163968 2827229.21737773 | BP delta = -8.4788449E-02 -9.9502951E-02 2827820.42364182 | 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 = 0.95830036 | --> Sampling calibration, mode = relcal | relcal = 0.1064883 0.1394690 -0.1102998 -0.1356575 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0097614E-02 1.4312358E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 5.2379E-04 | 2: delta_r/delta_0: 1.2011E-05 | 3: delta_s/delta_0: 2.1013E-06 | 4: delta_r/delta_0: 3.5486E-07 | 5: delta_s/delta_0: 6.6697E-07 | 6: delta_r/delta_0: 1.3777E-07 | 7: delta_s/delta_0: 6.5491E-08 | 8: delta_r/delta_0: 3.9414E-08 | 9: delta_s/delta_0: 3.6186E-06 | 10: delta_r/delta_0: 1.3684E-08 | 11: delta_s/delta_0: 2.1313E-06 | 12: delta_r/delta_0: 7.8008E-08 | 13: delta_s/delta_0: 3.1452E-10 | 14: delta_r/delta_0: 2.2512E-10 | 15: delta_s/delta_0: 3.1348E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.487487376355945E-002 3.700521335917712E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 5.2354E-04 | 2: delta_r/delta_0: 1.2005E-05 | 3: delta_s/delta_0: 2.1018E-06 | 4: delta_r/delta_0: 3.5471E-07 | 5: delta_s/delta_0: 6.6634E-07 | 6: delta_r/delta_0: 1.3774E-07 | 7: delta_s/delta_0: 6.5488E-08 | 8: delta_r/delta_0: 3.9415E-08 | 9: delta_s/delta_0: 3.6212E-06 | 10: delta_r/delta_0: 1.3700E-08 | 11: delta_s/delta_0: 1.9204E-06 | 12: delta_r/delta_0: 7.0580E-08 | 13: delta_s/delta_0: 3.1420E-10 | 14: delta_r/delta_0: 2.2490E-10 | 15: delta_s/delta_0: 3.1343E-11 | Reached bicg-stab tolerance | BP delta = 0.2813397 0.2996623 3005340.59218398 | BP delta = 0.2813397 0.3080017 3005266.17677325 | BP chisq diff = -74.4, accept = T | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 060-WMAP_V1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.52105032 | --> Sampling calibration, mode = relcal | relcal = -5.0976705E-02 -3.6249394E-03 2.7214911E-02 2.7386732E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -1.2578341E-04 1.5191901E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.5353E-05 | 2: delta_r/delta_0: 4.6162E-06 | 3: delta_s/delta_0: 9.1822E-06 | 4: delta_r/delta_0: 1.3402E-06 | 5: delta_s/delta_0: 4.6264E-08 | 6: delta_r/delta_0: 2.9559E-08 | 7: delta_s/delta_0: 4.6622E-08 | 8: delta_r/delta_0: 9.7176E-09 | 9: delta_s/delta_0: 2.5690E-09 | 10: delta_r/delta_0: 1.6500E-09 | 11: delta_s/delta_0: 8.8503E-10 | 12: delta_r/delta_0: 4.7605E-10 | 13: delta_s/delta_0: 3.5415E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.094724493619306E-002 5.488766320994558E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 6.5353E-05 | 2: delta_r/delta_0: 4.6162E-06 | 3: delta_s/delta_0: 9.1819E-06 | 4: delta_r/delta_0: 1.3402E-06 | 5: delta_s/delta_0: 4.6264E-08 | 6: delta_r/delta_0: 2.9559E-08 | 7: delta_s/delta_0: 4.6619E-08 | 8: delta_r/delta_0: 9.7177E-09 | 9: delta_s/delta_0: 2.5691E-09 | 10: delta_r/delta_0: 1.6500E-09 | 11: delta_s/delta_0: 8.8526E-10 | 12: delta_r/delta_0: 4.7585E-10 | 13: delta_s/delta_0: 3.5414E-11 | Reached bicg-stab tolerance | BP delta = -9.9932969E-02 1.0267233E-02 2435542.06275948 | BP delta = -9.9932969E-02 2.1441601E-02 2435538.06281615 | BP chisq diff = -4.0, accept = T | | Finished processing 060-WMAP_V1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 060-WMAP_V2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.42112474 | --> Sampling calibration, mode = relcal | relcal = 4.5541175E-02 3.9563507E-02 -2.8198658E-02 -5.6906022E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.4947075E-03 6.6243629E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.0863E-05 | 2: delta_r/delta_0: 3.7075E-06 | 3: delta_s/delta_0: 2.2865E-06 | 4: delta_r/delta_0: 3.5289E-07 | 5: delta_s/delta_0: 5.6354E-08 | 6: delta_r/delta_0: 3.1997E-08 | 7: delta_s/delta_0: 2.7019E-08 | 8: delta_r/delta_0: 1.0975E-08 | 9: delta_s/delta_0: 2.4347E-09 | 10: delta_r/delta_0: 1.5107E-09 | 11: delta_s/delta_0: 3.3830E-09 | 12: delta_r/delta_0: 1.6970E-09 | 13: delta_s/delta_0: 1.6680E-09 | 14: delta_r/delta_0: 1.2167E-09 | 15: delta_s/delta_0: 3.5439E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.345579574670451E-002 5.001124495913751E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 6.0864E-05 | 2: delta_r/delta_0: 3.7075E-06 | 3: delta_s/delta_0: 2.2865E-06 | 4: delta_r/delta_0: 3.5289E-07 | 5: delta_s/delta_0: 5.6354E-08 | 6: delta_r/delta_0: 3.1996E-08 | 7: delta_s/delta_0: 2.7016E-08 | 8: delta_r/delta_0: 1.0975E-08 | 9: delta_s/delta_0: 2.4347E-09 | 10: delta_r/delta_0: 1.5107E-09 | 11: delta_s/delta_0: 3.3785E-09 | 12: delta_r/delta_0: 1.6959E-09 | 13: delta_s/delta_0: 1.6661E-09 | 14: delta_r/delta_0: 1.2150E-09 | 15: delta_s/delta_0: 3.5461E-11 | Reached bicg-stab tolerance | BP delta = -0.1452099 -0.1701205 2322342.30489293 | BP delta = -0.1452099 -0.1733670 2322392.99411038 | 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 = 0.28133074 | --> Sampling calibration, mode = relcal | relcal = 2.4221728E-02 4.5077737E-02 -2.3361905E-02 -4.5937560E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0246057E-02 3.2828639E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.0752E-04 | 2: delta_r/delta_0: 8.9357E-06 | 3: delta_s/delta_0: 1.5247E-06 | 4: delta_r/delta_0: 2.0378E-07 | 5: delta_s/delta_0: 7.4486E-08 | 6: delta_r/delta_0: 1.5367E-08 | 7: delta_s/delta_0: 6.2689E-09 | 8: delta_r/delta_0: 3.9995E-09 | 9: delta_s/delta_0: 9.9230E-09 | 10: delta_r/delta_0: 3.7165E-09 | 11: delta_s/delta_0: 5.6956E-09 | 12: delta_r/delta_0: 1.3596E-09 | 13: delta_s/delta_0: 1.7966E-09 | 14: delta_r/delta_0: 8.3282E-10 | 15: delta_s/delta_0: 1.1498E-10 | 16: delta_r/delta_0: 9.1629E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -7.957497693239743E-003 7.851919341889171E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.0752E-04 | 2: delta_r/delta_0: 8.9357E-06 | 3: delta_s/delta_0: 1.5247E-06 | 4: delta_r/delta_0: 2.0379E-07 | 5: delta_s/delta_0: 7.4490E-08 | 6: delta_r/delta_0: 1.5368E-08 | 7: delta_s/delta_0: 6.2691E-09 | 8: delta_r/delta_0: 3.9996E-09 | 9: delta_s/delta_0: 9.9232E-09 | 10: delta_r/delta_0: 3.7165E-09 | 11: delta_s/delta_0: 5.6959E-09 | 12: delta_r/delta_0: 1.3598E-09 | 13: delta_s/delta_0: 1.7972E-09 | 14: delta_r/delta_0: 8.3317E-10 | 15: delta_s/delta_0: 1.1499E-10 | 16: delta_r/delta_0: 9.1632E-11 | Reached bicg-stab tolerance | BP delta = 2.9241543E-02 -9.2491075E-02 2490391.08439508 | BP delta = 2.9241543E-02 -0.1114552 2490380.08161424 | 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 = 0.29358064 | --> Sampling calibration, mode = relcal | relcal = 5.8026338E-04 1.0278387E-02 -3.8152768E-03 -7.0433733E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.5507192E-02 1.4810848E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.3377E-04 | 2: delta_r/delta_0: 1.1413E-05 | 3: delta_s/delta_0: 1.8677E-06 | 4: delta_r/delta_0: 2.7816E-07 | 5: delta_s/delta_0: 9.5903E-08 | 6: delta_r/delta_0: 2.2533E-08 | 7: delta_s/delta_0: 9.8611E-09 | 8: delta_r/delta_0: 6.3262E-09 | 9: delta_s/delta_0: 1.0273E-08 | 10: delta_r/delta_0: 4.5720E-09 | 11: delta_s/delta_0: 3.3083E-08 | 12: delta_r/delta_0: 7.9821E-09 | 13: delta_s/delta_0: 2.8584E-10 | 14: delta_r/delta_0: 1.7573E-10 | 15: delta_s/delta_0: 8.0659E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.373999426768632E-003 8.316196671686121E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.3377E-04 | 2: delta_r/delta_0: 1.1413E-05 | 3: delta_s/delta_0: 1.8677E-06 | 4: delta_r/delta_0: 2.7815E-07 | 5: delta_s/delta_0: 9.5902E-08 | 6: delta_r/delta_0: 2.2533E-08 | 7: delta_s/delta_0: 9.8610E-09 | 8: delta_r/delta_0: 6.3261E-09 | 9: delta_s/delta_0: 1.0273E-08 | 10: delta_r/delta_0: 4.5719E-09 | 11: delta_s/delta_0: 3.3077E-08 | 12: delta_r/delta_0: 7.9800E-09 | 13: delta_s/delta_0: 2.8578E-10 | 14: delta_r/delta_0: 1.7571E-10 | 15: delta_s/delta_0: 8.0665E-11 | Reached bicg-stab tolerance | BP delta = -0.6804938 -0.6423457 2737874.04844000 | BP delta = -0.6804938 -0.6367008 2737872.64055876 | 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 = 0.26481353 | --> Sampling calibration, mode = relcal | relcal = -5.6405077E-03 1.5010918E-02 -2.3093887E-03 -7.0610223E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -1.5691614E-03 5.2283974E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4292E-04 | 2: delta_r/delta_0: 1.2277E-05 | 3: delta_s/delta_0: 2.1598E-06 | 4: delta_r/delta_0: 2.9118E-07 | 5: delta_s/delta_0: 1.2386E-07 | 6: delta_r/delta_0: 2.3488E-08 | 7: delta_s/delta_0: 9.2580E-09 | 8: delta_r/delta_0: 5.9375E-09 | 9: delta_s/delta_0: 6.5800E-09 | 10: delta_r/delta_0: 4.3621E-09 | 11: delta_s/delta_0: 3.3994E-06 | 12: delta_r/delta_0: 3.1108E-07 | 13: delta_s/delta_0: 6.1257E-10 | 14: delta_r/delta_0: 3.2930E-10 | 15: delta_s/delta_0: 9.8792E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -8.178832717570984E-003 9.162353680422451E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.4293E-04 | 2: delta_r/delta_0: 1.2277E-05 | 3: delta_s/delta_0: 2.1598E-06 | 4: delta_r/delta_0: 2.9119E-07 | 5: delta_s/delta_0: 1.2386E-07 | 6: delta_r/delta_0: 2.3489E-08 | 7: delta_s/delta_0: 9.2582E-09 | 8: delta_r/delta_0: 5.9376E-09 | 9: delta_s/delta_0: 6.5801E-09 | 10: delta_r/delta_0: 4.3621E-09 | 11: delta_s/delta_0: 3.3971E-06 | 12: delta_r/delta_0: 3.1086E-07 | 13: delta_s/delta_0: 6.1248E-10 | 14: delta_r/delta_0: 3.2928E-10 | 15: delta_s/delta_0: 9.8801E-11 | Reached bicg-stab tolerance | BP delta = 0.2012202 0.2490446 2516570.38154758 | BP delta = 0.2012202 0.2571510 2516570.52520047 | 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 = 0.25629085 | --> Sampling calibration, mode = relcal | relcal = -3.1595036E-02 -2.6023243E-02 3.6904324E-02 2.0713957E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.6136499E-02 1.9738205E-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: 1.2483E-05 | 3: delta_s/delta_0: 2.0901E-06 | 4: delta_r/delta_0: 3.2676E-07 | 5: delta_s/delta_0: 1.0429E-07 | 6: delta_r/delta_0: 2.7242E-08 | 7: delta_s/delta_0: 1.2044E-08 | 8: delta_r/delta_0: 7.6365E-09 | 9: delta_s/delta_0: 1.5916E-08 | 10: delta_r/delta_0: 5.5945E-09 | 11: delta_s/delta_0: 3.9858E-08 | 12: delta_r/delta_0: 1.3984E-08 | 13: delta_s/delta_0: 4.9730E-10 | 14: delta_r/delta_0: 3.6340E-10 | 15: delta_s/delta_0: 2.0568E-10 | 16: delta_r/delta_0: 1.8077E-10 | 17: delta_s/delta_0: 2.0213E-10 | 18: delta_r/delta_0: 1.3099E-10 | 19: delta_s/delta_0: 1.3115E-10 | 20: delta_r/delta_0: 4.0536E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.636589973554717E-003 8.683484642308462E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.4970E-04 | 2: delta_r/delta_0: 1.2483E-05 | 3: delta_s/delta_0: 2.0901E-06 | 4: delta_r/delta_0: 3.2676E-07 | 5: delta_s/delta_0: 1.0430E-07 | 6: delta_r/delta_0: 2.7242E-08 | 7: delta_s/delta_0: 1.2044E-08 | 8: delta_r/delta_0: 7.6365E-09 | 9: delta_s/delta_0: 1.5916E-08 | 10: delta_r/delta_0: 5.5945E-09 | 11: delta_s/delta_0: 3.9858E-08 | 12: delta_r/delta_0: 1.3984E-08 | 13: delta_s/delta_0: 4.9729E-10 | 14: delta_r/delta_0: 3.6340E-10 | 15: delta_s/delta_0: 2.0568E-10 | 16: delta_r/delta_0: 1.8077E-10 | 17: delta_s/delta_0: 2.0215E-10 | 18: delta_r/delta_0: 1.3099E-10 | 19: delta_s/delta_0: 1.3115E-10 | 20: delta_r/delta_0: 4.0527E-11 | Reached bicg-stab tolerance | BP delta = -0.6049193 -0.6848879 2706843.12458567 | BP delta = -0.6049193 -0.6900530 2706843.51610837 | BP chisq diff = 0.4, 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 = -3.098396 | New value = -3.146554 | poltype: 2 pol: 1 CPU time specind = 5.4199696E-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 = -3.140881 | New value = -3.196019 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.103478 | New value = -3.125798 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.234595 | New value = -3.049558 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.201966 | New value = -3.157125 | poltype: 2 pol: 2 CPU time specind = 2.6299953E-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 = 4.13 | CG iter. 1 -- res = 0.13548E+08, tol = 0.63142E+01, time = 1.48 | CG iter. 2 -- res = 0.49188E+05, tol = 0.63142E+01, time = 1.50 | CG iter. 3 -- res = 0.29451E+05, tol = 0.63142E+01, time = 1.61 | CG iter. 4 -- res = 0.14278E+05, tol = 0.63142E+01, time = 1.51 | CG iter. 5 -- res = 0.10397E+05, tol = 0.63142E+01, time = 1.49 | CG iter. 6 -- res = 0.96384E+04, tol = 0.63142E+01, time = 1.51 | CG iter. 7 -- res = 0.73494E+04, tol = 0.63142E+01, time = 1.48 | CG iter. 8 -- res = 0.54112E+04, tol = 0.63142E+01, time = 1.47 | CG iter. 9 -- res = 0.48012E+04, tol = 0.63142E+01, time = 1.48 | CG iter. 10 -- res = 0.52533E+04, tol = 0.63142E+01, time = 1.48 | CG iter. 11 -- res = 0.45093E+04, tol = 0.63142E+01, time = 1.54 | CG iter. 12 -- res = 0.25246E+04, tol = 0.63142E+01, time = 1.54 | CG iter. 13 -- res = 0.15842E+04, tol = 0.63142E+01, time = 1.46 | CG iter. 14 -- res = 0.13363E+04, tol = 0.63142E+01, time = 1.52 | CG iter. 15 -- res = 0.13117E+04, tol = 0.63142E+01, time = 1.56 | CG iter. 16 -- res = 0.10500E+04, tol = 0.63142E+01, time = 1.49 | CG iter. 17 -- res = 0.89977E+03, tol = 0.63142E+01, time = 1.47 | CG iter. 18 -- res = 0.62754E+03, tol = 0.63142E+01, time = 1.49 | CG iter. 19 -- res = 0.52765E+03, tol = 0.63142E+01, time = 1.50 | CG iter. 20 -- res = 0.37925E+03, tol = 0.63142E+01, time = 1.50 | CG iter. 21 -- res = 0.27969E+03, tol = 0.63142E+01, time = 1.53 | CG iter. 22 -- res = 0.22302E+03, tol = 0.63142E+01, time = 1.52 | CG iter. 23 -- res = 0.18027E+03, tol = 0.63142E+01, time = 1.50 | CG iter. 24 -- res = 0.14329E+03, tol = 0.63142E+01, time = 1.56 | CG iter. 25 -- res = 0.98096E+02, tol = 0.63142E+01, time = 1.53 | CG iter. 26 -- res = 0.83937E+02, tol = 0.63142E+01, time = 1.54 | CG iter. 27 -- res = 0.66185E+02, tol = 0.63142E+01, time = 1.48 | CG iter. 28 -- res = 0.44041E+02, tol = 0.63142E+01, time = 1.54 | CG iter. 29 -- res = 0.33982E+02, tol = 0.63142E+01, time = 1.56 | CG iter. 30 -- res = 0.28351E+02, tol = 0.63142E+01, time = 1.55 | CG iter. 31 -- res = 0.18878E+02, tol = 0.63142E+01, time = 1.53 | CG iter. 32 -- res = 0.14946E+02, tol = 0.63142E+01, time = 1.51 | CG iter. 33 -- res = 0.11845E+02, tol = 0.63142E+01, time = 1.51 | CG iter. 34 -- res = 0.94503E+01, tol = 0.63142E+01, time = 1.49 | CG iter. 35 -- res = 0.61313E+01, tol = 0.63142E+01, time = 1.54 | CG iter. 36 -- res = 0.51306E+01, tol = 0.63142E+01, time = 1.51 | CG iter. 37 -- res = 0.42737E+01, tol = 0.63142E+01, time = 1.54 | CG iter. 38 -- res = 0.28890E+01, tol = 0.63142E+01, time = 1.48 | CG iter. 39 -- res = 0.20000E+01, tol = 0.63142E+01, time = 1.52 | CG iter. 40 -- res = 0.19812E+01, tol = 0.63142E+01, time = 1.46 | CG iter. 41 -- res = 0.20180E+01, tol = 0.63142E+01, time = 1.50 | CG iter. 42 -- res = 0.10625E+01, tol = 0.63142E+01, time = 1.50 | CG iter. 43 -- res = 0.70707E+00, tol = 0.63142E+01, time = 1.52 | CG iter. 44 -- res = 0.65588E+00, tol = 0.63142E+01, time = 1.55 | CG iter. 45 -- res = 0.71701E+00, tol = 0.63142E+01, time = 1.59 | CG iter. 46 -- res = 0.35889E+00, tol = 0.63142E+01, time = 1.54 | CG iter. 47 -- res = 0.24333E+00, tol = 0.63142E+01, time = 1.59 | CG iter. 48 -- res = 0.18173E+00, tol = 0.63142E+01, time = 1.53 | CG iter. 49 -- res = 0.16519E+00, tol = 0.63142E+01, time = 1.55 | CG iter. 50 -- res = 0.17882E+00, tol = 0.63142E+01, time = 1.51 | Final CG iter 51 -- res = 0.17882E+00, tol = 0.63142E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9559709.490 | Old band monopole 11014248.365 | Change to band monopole -1454538.875 | Change to component monopole 1454532.619 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 4.12 | CG iter. 1 -- res = 0.21480E+05, tol = 0.47627E+18, time = 0.37 | CG iter. 2 -- res = 0.27279E+02, tol = 0.47627E+18, time = 0.36 | CG iter. 3 -- res = 0.74016E+00, tol = 0.47627E+18, time = 0.40 | CG iter. 4 -- res = 0.59398E-04, tol = 0.47627E+18, time = 0.40 | Final CG iter 5 -- res = 0.28888E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9559668.372 | (Sampled value in CG: 9530334.600 ) | 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 = 1.464566 | New value = 1.501931 | poltype: 2 pol: 1 CPU time specind = 5.3539276E-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 = 1.504881 | New value = 1.544488 | poltype: 2 pol: 2 CPU time specind = 2.4831295E-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 = 4.13 | CG iter. 1 -- res = 0.24368E+08, tol = 0.47570E+04, time = 1.73 | CG iter. 2 -- res = 0.53888E+07, tol = 0.47570E+04, time = 1.79 | CG iter. 3 -- res = 0.85712E+06, tol = 0.47570E+04, time = 1.75 | CG iter. 4 -- res = 0.35840E+06, tol = 0.47570E+04, time = 1.77 | CG iter. 5 -- res = 0.15710E+06, tol = 0.47570E+04, time = 1.79 | CG iter. 6 -- res = 0.81058E+05, tol = 0.47570E+04, time = 1.73 | CG iter. 7 -- res = 0.43911E+05, tol = 0.47570E+04, time = 1.76 | CG iter. 8 -- res = 0.21002E+05, tol = 0.47570E+04, time = 1.73 | CG iter. 9 -- res = 0.93548E+04, tol = 0.47570E+04, time = 1.71 | CG iter. 10 -- res = 0.38877E+04, tol = 0.47570E+04, time = 1.78 | CG iter. 11 -- res = 0.17413E+04, tol = 0.47570E+04, time = 1.76 | CG iter. 12 -- res = 0.88292E+03, tol = 0.47570E+04, time = 1.81 | CG iter. 13 -- res = 0.50304E+03, tol = 0.47570E+04, time = 1.77 | CG iter. 14 -- res = 0.29061E+03, tol = 0.47570E+04, time = 1.75 | CG iter. 15 -- res = 0.14815E+03, tol = 0.47570E+04, time = 1.77 | CG iter. 16 -- res = 0.68634E+02, tol = 0.47570E+04, time = 1.72 | CG iter. 17 -- res = 0.32161E+02, tol = 0.47570E+04, time = 1.79 | CG iter. 18 -- res = 0.16432E+02, tol = 0.47570E+04, time = 1.77 | CG iter. 19 -- res = 0.89246E+01, tol = 0.47570E+04, time = 1.83 | CG iter. 20 -- res = 0.49793E+01, tol = 0.47570E+04, time = 1.77 | CG iter. 21 -- res = 0.27255E+01, tol = 0.47570E+04, time = 1.81 | CG iter. 22 -- res = 0.14150E+01, tol = 0.47570E+04, time = 1.72 | CG iter. 23 -- res = 0.69577E+00, tol = 0.47570E+04, time = 1.83 | CG iter. 24 -- res = 0.34518E+00, tol = 0.47570E+04, time = 1.84 | CG iter. 25 -- res = 0.18501E+00, tol = 0.47570E+04, time = 1.76 | CG iter. 26 -- res = 0.10442E+00, tol = 0.47570E+04, time = 1.79 | CG iter. 27 -- res = 0.59492E-01, tol = 0.47570E+04, time = 1.80 | CG iter. 28 -- res = 0.31863E-01, tol = 0.47570E+04, time = 1.80 | CG iter. 29 -- res = 0.16704E-01, tol = 0.47570E+04, time = 1.79 | CG iter. 30 -- res = 0.86781E-02, tol = 0.47570E+04, time = 1.78 | CG iter. 31 -- res = 0.46429E-02, tol = 0.47570E+04, time = 1.80 | CG iter. 32 -- res = 0.26056E-02, tol = 0.47570E+04, time = 1.81 | CG iter. 33 -- res = 0.14754E-02, tol = 0.47570E+04, time = 1.75 | CG iter. 34 -- res = 0.79888E-03, tol = 0.47570E+04, time = 1.78 | CG iter. 35 -- res = 0.41534E-03, tol = 0.47570E+04, time = 1.78 | Final CG iter 36 -- res = 0.41534E-03, tol = 0.47570E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -3.336 2.760 | New value -0.924 | Old value -3.336 | Difference 2.411 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 4.12 | CG iter. 1 -- res = 0.30113E+06, tol = 0.47627E+18, time = 0.39 | CG iter. 2 -- res = 0.27234E+02, tol = 0.47627E+18, time = 0.38 | CG iter. 3 -- res = 0.71690E+00, tol = 0.47627E+18, time = 0.38 | CG iter. 4 -- res = 0.70696E-04, tol = 0.47627E+18, time = 0.35 | Final CG iter 5 -- res = 0.49334E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9559668.372 | (Sampled value in CG: 9529640.106 ) | 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 = -3.700275 | New value = -3.548715 | poltype: 1 pol: 1 CPU time specind = 3.3578873E-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 = 4.11 | CG iter. 1 -- res = 0.23277E+07, tol = 0.11801E+01, time = 0.63 | CG iter. 2 -- res = 0.76395E+05, tol = 0.11801E+01, time = 0.69 | CG iter. 3 -- res = 0.56497E+05, tol = 0.11801E+01, time = 0.65 | CG iter. 4 -- res = 0.15366E+05, tol = 0.11801E+01, time = 0.65 | CG iter. 5 -- res = 0.39819E+04, tol = 0.11801E+01, time = 0.68 | CG iter. 6 -- res = 0.16200E+04, tol = 0.11801E+01, time = 0.67 | CG iter. 7 -- res = 0.63819E+03, tol = 0.11801E+01, time = 0.63 | CG iter. 8 -- res = 0.14237E+03, tol = 0.11801E+01, time = 0.64 | CG iter. 9 -- res = 0.48652E+02, tol = 0.11801E+01, time = 0.69 | CG iter. 10 -- res = 0.26937E+02, tol = 0.11801E+01, time = 0.70 | CG iter. 11 -- res = 0.13369E+02, tol = 0.11801E+01, time = 0.66 | CG iter. 12 -- res = 0.59376E+01, tol = 0.11801E+01, time = 0.64 | CG iter. 13 -- res = 0.21947E+01, tol = 0.11801E+01, time = 0.69 | CG iter. 14 -- res = 0.64128E+00, tol = 0.11801E+01, time = 0.68 | CG iter. 15 -- res = 0.20796E+00, tol = 0.11801E+01, time = 0.68 | CG iter. 16 -- res = 0.88337E-01, tol = 0.11801E+01, time = 0.64 | CG iter. 17 -- res = 0.29031E-01, tol = 0.11801E+01, time = 0.71 | CG iter. 18 -- res = 0.10673E-01, tol = 0.11801E+01, time = 0.64 | CG iter. 19 -- res = 0.42869E-02, tol = 0.11801E+01, time = 0.73 | CG iter. 20 -- res = 0.16251E-02, tol = 0.11801E+01, time = 0.67 | CG iter. 21 -- res = 0.54850E-03, tol = 0.11801E+01, time = 0.67 | CG iter. 22 -- res = 0.20395E-03, tol = 0.11801E+01, time = 0.66 | CG iter. 23 -- res = 0.74650E-04, tol = 0.11801E+01, time = 0.68 | CG iter. 24 -- res = 0.25511E-04, tol = 0.11801E+01, time = 0.64 | CG iter. 25 -- res = 0.72501E-05, tol = 0.11801E+01, time = 0.66 | CG iter. 26 -- res = 0.22173E-05, tol = 0.11801E+01, time = 0.67 | CG iter. 27 -- res = 0.94809E-06, tol = 0.11801E+01, time = 0.66 | CG iter. 28 -- res = 0.29890E-06, tol = 0.11801E+01, time = 0.67 | CG iter. 29 -- res = 0.82546E-07, tol = 0.11801E+01, time = 0.68 | CG iter. 30 -- res = 0.24201E-07, tol = 0.11801E+01, time = 0.67 | CG iter. 31 -- res = 0.85692E-08, tol = 0.11801E+01, time = 0.66 | CG iter. 32 -- res = 0.85064E-08, tol = 0.11801E+01, time = 0.70 | CG iter. 33 -- res = 0.18394E-08, tol = 0.11801E+01, time = 0.61 | CG iter. 34 -- res = 0.67558E-09, tol = 0.11801E+01, time = 0.66 | CG iter. 35 -- res = 0.20343E-09, tol = 0.11801E+01, time = 0.67 | CG iter. 36 -- res = 0.58452E-10, tol = 0.11801E+01, time = 0.69 | CG iter. 37 -- res = 0.21381E-10, tol = 0.11801E+01, time = 0.65 | CG iter. 38 -- res = 0.19105E-10, tol = 0.11801E+01, time = 0.64 | CG iter. 39 -- res = 0.51254E-11, tol = 0.11801E+01, time = 0.71 | CG iter. 40 -- res = 0.13049E-11, tol = 0.11801E+01, time = 0.64 | CG iter. 41 -- res = 0.34480E-12, tol = 0.11801E+01, time = 0.66 | CG iter. 42 -- res = 0.10512E-12, tol = 0.11801E+01, time = 0.64 | CG iter. 43 -- res = 0.34950E-13, tol = 0.11801E+01, time = 0.68 | CG iter. 44 -- res = 0.95771E-14, tol = 0.11801E+01, time = 0.70 | CG iter. 45 -- res = 0.26358E-14, tol = 0.11801E+01, time = 0.65 | CG iter. 46 -- res = 0.89887E-15, tol = 0.11801E+01, time = 0.67 | CG iter. 47 -- res = 0.28803E-15, tol = 0.11801E+01, time = 0.66 | CG iter. 48 -- res = 0.10686E-15, tol = 0.11801E+01, time = 0.65 | CG iter. 49 -- res = 0.34487E-16, tol = 0.11801E+01, time = 0.63 | CG iter. 50 -- res = 0.10410E-16, tol = 0.11801E+01, time = 0.62 | Final CG iter 51 -- res = 0.10410E-16, tol = 0.11801E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -3.756 3.256 | New value 0.741 | Old value -3.756 | Difference 4.496 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 4.12 | CG iter. 1 -- res = 0.13305E+05, tol = 0.47627E+18, time = 0.35 | CG iter. 2 -- res = 0.14961E+02, tol = 0.47627E+18, time = 0.37 | CG iter. 3 -- res = 0.39918E+00, tol = 0.47627E+18, time = 0.38 | Final CG iter 4 -- res = 0.13296E-04, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9559668.372 | (Sampled value in CG: 9538232.862 ) | CPU time specind = 275.4059 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 4.12 | CG iter. 1 -- res = 0.68914E+08, tol = 0.51524E+04, time = 3.03 | CG iter. 2 -- res = 0.33114E+08, tol = 0.51524E+04, time = 3.17 | CG iter. 3 -- res = 0.57728E+07, tol = 0.51524E+04, time = 3.16 | CG iter. 4 -- res = 0.29345E+07, tol = 0.51524E+04, time = 3.16 | CG iter. 5 -- res = 0.12939E+07, tol = 0.51524E+04, time = 3.16 | CG iter. 6 -- res = 0.70179E+06, tol = 0.51524E+04, time = 3.16 | CG iter. 7 -- res = 0.38369E+06, tol = 0.51524E+04, time = 3.16 | CG iter. 8 -- res = 0.19541E+06, tol = 0.51524E+04, time = 3.20 | CG iter. 9 -- res = 0.97062E+05, tol = 0.51524E+04, time = 3.13 | CG iter. 10 -- res = 0.43777E+05, tol = 0.51524E+04, time = 3.21 | CG iter. 11 -- res = 0.23039E+05, tol = 0.51524E+04, time = 3.16 | CG iter. 12 -- res = 0.13657E+05, tol = 0.51524E+04, time = 3.06 | CG iter. 13 -- res = 0.90048E+04, tol = 0.51524E+04, time = 3.14 | CG iter. 14 -- res = 0.65955E+04, tol = 0.51524E+04, time = 3.12 | CG iter. 15 -- res = 0.47803E+04, tol = 0.51524E+04, time = 3.12 | CG iter. 16 -- res = 0.38114E+04, tol = 0.51524E+04, time = 3.17 | CG iter. 17 -- res = 0.32078E+04, tol = 0.51524E+04, time = 3.19 | CG iter. 18 -- res = 0.30386E+04, tol = 0.51524E+04, time = 3.12 | CG iter. 19 -- res = 0.31962E+04, tol = 0.51524E+04, time = 3.19 | CG iter. 20 -- res = 0.33889E+04, tol = 0.51524E+04, time = 3.21 | CG iter. 21 -- res = 0.32431E+04, tol = 0.51524E+04, time = 3.14 | CG iter. 22 -- res = 0.26131E+04, tol = 0.51524E+04, time = 3.26 | CG iter. 23 -- res = 0.19971E+04, tol = 0.51524E+04, time = 3.09 | CG iter. 24 -- res = 0.15852E+04, tol = 0.51524E+04, time = 3.23 | CG iter. 25 -- res = 0.13629E+04, tol = 0.51524E+04, time = 3.22 | CG iter. 26 -- res = 0.12178E+04, tol = 0.51524E+04, time = 3.11 | CG iter. 27 -- res = 0.10492E+04, tol = 0.51524E+04, time = 3.21 | CG iter. 28 -- res = 0.88703E+03, tol = 0.51524E+04, time = 3.14 | CG iter. 29 -- res = 0.79117E+03, tol = 0.51524E+04, time = 3.28 | CG iter. 30 -- res = 0.81555E+03, tol = 0.51524E+04, time = 3.24 | CG iter. 31 -- res = 0.90218E+03, tol = 0.51524E+04, time = 3.20 | CG iter. 32 -- res = 0.95709E+03, tol = 0.51524E+04, time = 3.31 | CG iter. 33 -- res = 0.88036E+03, tol = 0.51524E+04, time = 3.24 | CG iter. 34 -- res = 0.75835E+03, tol = 0.51524E+04, time = 3.20 | CG iter. 35 -- res = 0.69907E+03, tol = 0.51524E+04, time = 3.20 | CG iter. 36 -- res = 0.70355E+03, tol = 0.51524E+04, time = 3.35 | CG iter. 37 -- res = 0.74086E+03, tol = 0.51524E+04, time = 3.21 | CG iter. 38 -- res = 0.73455E+03, tol = 0.51524E+04, time = 3.19 | CG iter. 39 -- res = 0.67726E+03, tol = 0.51524E+04, time = 3.15 | CG iter. 40 -- res = 0.64510E+03, tol = 0.51524E+04, time = 3.17 | CG iter. 41 -- res = 0.68344E+03, tol = 0.51524E+04, time = 3.19 | CG iter. 42 -- res = 0.77000E+03, tol = 0.51524E+04, time = 3.16 | CG iter. 43 -- res = 0.81776E+03, tol = 0.51524E+04, time = 3.23 | CG iter. 44 -- res = 0.77129E+03, tol = 0.51524E+04, time = 3.20 | CG iter. 45 -- res = 0.68382E+03, tol = 0.51524E+04, time = 3.22 | CG iter. 46 -- res = 0.64496E+03, tol = 0.51524E+04, time = 3.19 | CG iter. 47 -- res = 0.65385E+03, tol = 0.51524E+04, time = 3.32 | CG iter. 48 -- res = 0.66711E+03, tol = 0.51524E+04, time = 3.23 | CG iter. 49 -- res = 0.63054E+03, tol = 0.51524E+04, time = 3.15 | CG iter. 50 -- res = 0.56684E+03, tol = 0.51524E+04, time = 3.14 | CG iter. 51 -- res = 0.53252E+03, tol = 0.51524E+04, time = 3.26 | CG iter. 52 -- res = 0.54616E+03, tol = 0.51524E+04, time = 3.23 | CG iter. 53 -- res = 0.58139E+03, tol = 0.51524E+04, time = 3.22 | CG iter. 54 -- res = 0.58444E+03, tol = 0.51524E+04, time = 3.25 | CG iter. 55 -- res = 0.53732E+03, tol = 0.51524E+04, time = 3.33 | CG iter. 56 -- res = 0.48801E+03, tol = 0.51524E+04, time = 3.19 | CG iter. 57 -- res = 0.47590E+03, tol = 0.51524E+04, time = 3.19 | CG iter. 58 -- res = 0.49621E+03, tol = 0.51524E+04, time = 3.24 | CG iter. 59 -- res = 0.50347E+03, tol = 0.51524E+04, time = 3.29 | CG iter. 60 -- res = 0.46587E+03, tol = 0.51524E+04, time = 3.20 | Final CG iter 61 -- res = 0.46587E+03, tol = 0.51524E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 3.006 ( -231.459 -2233.067 2516.184 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 7672992.417 | Old band monopole 9559709.490 | Change to band monopole -1886717.073 | Change to component monopole 1886708.958 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -0.887 2.773 | New value 1.272 | Old value -0.887 | Difference 2.159 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -3.695 ( 7.895 9.845 -10.190 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 12.272 2.301 | New value -0.789 | Old value 12.272 | Difference -13.060 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 4.13 | CG iter. 1 -- res = 0.26212E+06, tol = 0.47627E+18, time = 0.34 | CG iter. 2 -- res = 0.53304E+02, tol = 0.47627E+18, time = 0.40 | CG iter. 3 -- res = 0.14119E+01, tol = 0.47627E+18, time = 0.35 | CG iter. 4 -- res = 0.63403E-03, tol = 0.47627E+18, time = 0.39 | Final CG iter 5 -- res = 0.44851E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7672959.414 | (Sampled value in CG: 7614293.950 ) | Chain = 1 -- chisq = 0.61625389E+09 | Chain = 1 -- wall time = 4808.860 sec --------------------------------------------------------------------- | Chain = 1 -- Iteration = 63 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18126825904971 | --> Sampling calibration, mode = relcal | relcal = -7.4024588E-02 -5.7912774E-02 9.0937652E-02 4.0999711E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -7.6395132E-05 3.5002923E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.6002E-01 | 2: delta_r/delta_0: 3.7323E-03 | 3: delta_s/delta_0: 1.9631E-07 | 4: delta_r/delta_0: 2.0818E-08 | 5: delta_s/delta_0: 6.3572E-09 | 6: delta_r/delta_0: 1.0248E-09 | 7: delta_s/delta_0: 1.0053E-08 | 8: delta_r/delta_0: 1.4620E-10 | 9: delta_s/delta_0: 6.2727E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 9.230257293497443E-004 2.740592226291582E-005 | BP delta = 6.2153926E-03 1.3637270E-02 29859092.0648550 | BP delta = 7.3043122E-03 1.4726189E-02 29859092.7352450 | 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 = 1.02534020 | --> Sampling calibration, mode = relcal | relcal = -0.1065986 -9.5546335E-02 0.1448795 5.7265405E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.6950272E-03 1.5266892E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 4.0060E-04 | 2: delta_r/delta_0: 8.7936E-06 | 3: delta_s/delta_0: 2.8819E-06 | 4: delta_r/delta_0: 2.6951E-07 | 5: delta_s/delta_0: 1.2633E-07 | 6: delta_r/delta_0: 6.5366E-09 | 7: delta_s/delta_0: 2.7127E-09 | 8: delta_r/delta_0: 9.0990E-10 | 9: delta_s/delta_0: 7.2426E-09 | 10: delta_r/delta_0: 2.9538E-10 | 11: delta_s/delta_0: 8.3998E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -6.966102683084739E-003 2.812618782570187E-005 | BP delta = -0.1889015 -0.1779614 34759978.9506921 | BP delta = -0.1876142 -0.1766741 34759979.0219832 | 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 = 0.81145872 | --> Sampling calibration, mode = relcal | relcal = 0.2951759 0.2245993 -0.2834863 -0.2362889 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -8.1272483E-05 5.8224332E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 7.2560E-02 | 2: delta_r/delta_0: 1.7098E-03 | 3: delta_s/delta_0: 2.1303E-05 | 4: delta_r/delta_0: 1.8550E-06 | 5: delta_s/delta_0: 3.9323E-05 | 6: delta_r/delta_0: 2.4921E-06 | 7: delta_s/delta_0: 1.7474E-07 | 8: delta_r/delta_0: 4.2603E-08 | 9: delta_s/delta_0: 4.1806E-08 | 10: delta_r/delta_0: 1.8391E-08 | 11: delta_s/delta_0: 5.1754E-09 | 12: delta_r/delta_0: 1.6003E-09 | 13: delta_s/delta_0: 6.3808E-10 | 14: delta_r/delta_0: 4.5069E-10 | 15: delta_s/delta_0: 4.3005E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.193296956057557E-002 4.025412085543623E-005 | BP delta = -8.4788449E-02 -0.1163968 43106388.5611692 | BP delta = -8.8556804E-02 -0.1201651 43106388.5394716 | 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 = 0.95806122 | --> Sampling calibration, mode = relcal | relcal = 0.1064165 0.1394202 -0.1101687 -0.1356680 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0364757E-02 1.2391977E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 4.6785E-04 | 2: delta_r/delta_0: 1.0671E-05 | 3: delta_s/delta_0: 9.1969E-04 | 4: delta_r/delta_0: 5.1351E-05 | 5: delta_s/delta_0: 1.0452E-04 | 6: delta_r/delta_0: 1.5974E-05 | 7: delta_s/delta_0: 5.6179E-08 | 8: delta_r/delta_0: 2.8775E-08 | 9: delta_s/delta_0: 1.8028E-07 | 10: delta_r/delta_0: 4.7243E-09 | 11: delta_s/delta_0: 1.4664E-09 | 12: delta_r/delta_0: 5.3304E-10 | 13: delta_s/delta_0: 4.9420E-10 | 14: delta_r/delta_0: 6.3370E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.341727080625522E-002 3.701445018771289E-005 | BP delta = 0.2813397 0.3080017 43047453.0834945 | BP delta = 0.2690137 0.2956757 43047452.6615217 | 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 = 0.52107193 | --> Sampling calibration, mode = relcal | relcal = -5.1090233E-02 -3.6962696E-03 2.7269876E-02 2.7516626E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.6143198E-04 1.2953816E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.8782E-05 | 2: delta_r/delta_0: 4.2055E-06 | 3: delta_s/delta_0: 2.4929E-06 | 4: delta_r/delta_0: 3.2739E-07 | 5: delta_s/delta_0: 5.0071E-08 | 6: delta_r/delta_0: 2.5801E-08 | 7: delta_s/delta_0: 3.1917E-05 | 8: delta_r/delta_0: 2.2158E-06 | 9: delta_s/delta_0: 3.1045E-09 | 10: delta_r/delta_0: 1.2597E-09 | 11: delta_s/delta_0: 2.3339E-08 | 12: delta_r/delta_0: 3.0549E-10 | 13: delta_s/delta_0: 4.0422E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.010744249267840E-002 5.488621329619268E-005 | BP delta = -9.9932969E-02 2.1441601E-02 61507738.5182690 | BP delta = -6.3294485E-02 5.8080081E-02 61507738.5259467 | 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 = 0.42111643 | --> Sampling calibration, mode = relcal | relcal = 4.5516912E-02 3.9616454E-02 -2.8249329E-02 -5.6884035E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.8993313E-03 6.0903905E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.1943E-05 | 2: delta_r/delta_0: 3.5820E-06 | 3: delta_s/delta_0: 2.1395E-06 | 4: delta_r/delta_0: 3.0742E-07 | 5: delta_s/delta_0: 5.6839E-08 | 6: delta_r/delta_0: 3.1613E-08 | 7: delta_s/delta_0: 6.4492E-08 | 8: delta_r/delta_0: 7.6450E-09 | 9: delta_s/delta_0: 2.1322E-09 | 10: delta_r/delta_0: 1.3832E-09 | 11: delta_s/delta_0: 1.0564E-09 | 12: delta_r/delta_0: 8.3053E-10 | 13: delta_s/delta_0: 7.4269E-07 | 14: delta_r/delta_0: 1.2870E-07 | 15: delta_s/delta_0: 3.8459E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.281730648192475E-002 5.001262816051848E-005 | BP delta = -0.1452099 -0.1701205 61336990.9455524 | BP delta = -0.1400177 -0.1649283 61336990.9087489 | 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 = 0.28135131 | --> Sampling calibration, mode = relcal | relcal = 2.4252055E-02 4.5041725E-02 -2.3395246E-02 -4.5898534E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 8.1487317E-03 2.0244597E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.0766E-04 | 2: delta_r/delta_0: 8.8330E-06 | 3: delta_s/delta_0: 1.4904E-06 | 4: delta_r/delta_0: 1.8418E-07 | 5: delta_s/delta_0: 7.5518E-08 | 6: delta_r/delta_0: 1.6854E-08 | 7: delta_s/delta_0: 7.9351E-09 | 8: delta_r/delta_0: 5.3992E-09 | 9: delta_s/delta_0: 3.2628E-08 | 10: delta_r/delta_0: 5.8506E-09 | 11: delta_s/delta_0: 1.2102E-09 | 12: delta_r/delta_0: 1.7166E-10 | 13: delta_s/delta_0: 5.1239E-10 | 14: delta_r/delta_0: 1.0909E-10 | 15: delta_s/delta_0: 3.3941E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.409387285394344E-003 7.851087429455074E-005 | BP delta = 2.9241543E-02 -0.1114552 94985330.3093978 | BP delta = 4.7077000E-02 -9.3619794E-02 94985330.3803570 | 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 = 0.29360484 | --> Sampling calibration, mode = relcal | relcal = 5.2788842E-04 1.0243447E-02 -3.7821259E-03 -6.9892099E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.3617340E-02 1.6266910E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.3158E-04 | 2: delta_r/delta_0: 1.1298E-05 | 3: delta_s/delta_0: 1.8342E-06 | 4: delta_r/delta_0: 2.3227E-07 | 5: delta_s/delta_0: 8.6949E-08 | 6: delta_r/delta_0: 1.8808E-08 | 7: delta_s/delta_0: 8.1409E-09 | 8: delta_r/delta_0: 5.3814E-09 | 9: delta_s/delta_0: 3.8257E-09 | 10: delta_r/delta_0: 1.1340E-09 | 11: delta_s/delta_0: 9.0231E-04 | 12: delta_r/delta_0: 6.7805E-07 | 13: delta_s/delta_0: 3.3120E-06 | 14: delta_r/delta_0: 4.1921E-07 | 15: delta_s/delta_0: 6.3787E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -8.834855495287617E-003 8.315626907396106E-005 | BP delta = -0.6804938 -0.6367008 93526966.8307695 | BP delta = -0.6782723 -0.6344792 93526966.8419838 | 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 = 0.26484195 | --> Sampling calibration, mode = relcal | relcal = -5.6016203E-03 1.5091619E-02 -2.4527840E-03 -7.0372140E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -1.5506620E-03 7.5643966E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4409E-04 | 2: delta_r/delta_0: 1.1914E-05 | 3: delta_s/delta_0: 2.0073E-06 | 4: delta_r/delta_0: 3.7746E-07 | 5: delta_s/delta_0: 1.2933E-07 | 6: delta_r/delta_0: 2.5289E-08 | 7: delta_s/delta_0: 8.4097E-09 | 8: delta_r/delta_0: 5.0871E-09 | 9: delta_s/delta_0: 3.5470E-09 | 10: delta_r/delta_0: 2.4079E-09 | 11: delta_s/delta_0: 1.3702E-08 | 12: delta_r/delta_0: 1.4146E-09 | 13: delta_s/delta_0: 1.9764E-09 | 14: delta_r/delta_0: 6.6236E-10 | 15: delta_s/delta_0: 8.5350E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -7.908306511400875E-003 9.161640258426882E-005 | BP delta = 0.2012202 0.2571510 94711263.7408318 | BP delta = 0.1915315 0.2474622 94711263.7310859 | 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 = 0.25626304 | --> Sampling calibration, mode = relcal | relcal = -3.1663176E-02 -2.5884509E-02 3.6853496E-02 2.0694187E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.7883869E-02 1.8402191E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.5114E-04 | 2: delta_r/delta_0: 1.2619E-05 | 3: delta_s/delta_0: 2.0802E-06 | 4: delta_r/delta_0: 3.8505E-07 | 5: delta_s/delta_0: 1.3308E-07 | 6: delta_r/delta_0: 3.2259E-08 | 7: delta_s/delta_0: 1.5609E-08 | 8: delta_r/delta_0: 7.6562E-09 | 9: delta_s/delta_0: 1.0095E-07 | 10: delta_r/delta_0: 6.0542E-09 | 11: delta_s/delta_0: 4.8284E-09 | 12: delta_r/delta_0: 2.1183E-09 | 13: delta_s/delta_0: 2.3664E-10 | 14: delta_r/delta_0: 1.5902E-10 | 15: delta_s/delta_0: 1.0364E-10 | 16: delta_r/delta_0: 8.4718E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.109504290584085E-002 8.684628686937503E-005 | BP delta = -0.6049193 -0.6900530 93084051.2731188 | BP delta = -0.6082097 -0.6933436 93084051.2610789 | 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 = -3.146554 | New value = -3.149939 | poltype: 2 pol: 1 CPU time specind = 5.9640408E-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 = -3.196019 | New value = -3.076609 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.125798 | New value = -3.097835 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.049558 | New value = -3.209138 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.157125 | New value = -3.171839 | poltype: 2 pol: 2 CPU time specind = 2.6600361E-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 = 4.11 | CG iter. 1 -- res = 0.13528E+08, tol = 0.86867E+01, time = 1.58 | CG iter. 2 -- res = 0.40141E+05, tol = 0.86867E+01, time = 1.55 | CG iter. 3 -- res = 0.23612E+05, tol = 0.86867E+01, time = 1.49 | CG iter. 4 -- res = 0.98218E+04, tol = 0.86867E+01, time = 1.57 | CG iter. 5 -- res = 0.63641E+04, tol = 0.86867E+01, time = 1.52 | CG iter. 6 -- res = 0.47122E+04, tol = 0.86867E+01, time = 1.53 | CG iter. 7 -- res = 0.32922E+04, tol = 0.86867E+01, time = 1.53 | CG iter. 8 -- res = 0.24587E+04, tol = 0.86867E+01, time = 1.54 | CG iter. 9 -- res = 0.24925E+04, tol = 0.86867E+01, time = 1.48 | CG iter. 10 -- res = 0.28420E+04, tol = 0.86867E+01, time = 1.47 | CG iter. 11 -- res = 0.32178E+04, tol = 0.86867E+01, time = 1.49 | CG iter. 12 -- res = 0.16253E+04, tol = 0.86867E+01, time = 1.52 | CG iter. 13 -- res = 0.12573E+04, tol = 0.86867E+01, time = 1.49 | CG iter. 14 -- res = 0.10780E+04, tol = 0.86867E+01, time = 1.56 | CG iter. 15 -- res = 0.86650E+03, tol = 0.86867E+01, time = 1.57 | CG iter. 16 -- res = 0.54776E+03, tol = 0.86867E+01, time = 1.49 | CG iter. 17 -- res = 0.46526E+03, tol = 0.86867E+01, time = 1.50 | CG iter. 18 -- res = 0.39742E+03, tol = 0.86867E+01, time = 1.49 | CG iter. 19 -- res = 0.32409E+03, tol = 0.86867E+01, time = 1.52 | CG iter. 20 -- res = 0.25335E+03, tol = 0.86867E+01, time = 1.53 | CG iter. 21 -- res = 0.19887E+03, tol = 0.86867E+01, time = 1.49 | CG iter. 22 -- res = 0.17117E+03, tol = 0.86867E+01, time = 1.49 | CG iter. 23 -- res = 0.13879E+03, tol = 0.86867E+01, time = 1.49 | CG iter. 24 -- res = 0.11144E+03, tol = 0.86867E+01, time = 1.52 | CG iter. 25 -- res = 0.97952E+02, tol = 0.86867E+01, time = 1.46 | CG iter. 26 -- res = 0.90225E+02, tol = 0.86867E+01, time = 1.56 | CG iter. 27 -- res = 0.70565E+02, tol = 0.86867E+01, time = 1.50 | CG iter. 28 -- res = 0.61851E+02, tol = 0.86867E+01, time = 1.53 | CG iter. 29 -- res = 0.58404E+02, tol = 0.86867E+01, time = 1.53 | CG iter. 30 -- res = 0.52931E+02, tol = 0.86867E+01, time = 1.49 | CG iter. 31 -- res = 0.40571E+02, tol = 0.86867E+01, time = 1.54 | CG iter. 32 -- res = 0.34554E+02, tol = 0.86867E+01, time = 1.52 | CG iter. 33 -- res = 0.30268E+02, tol = 0.86867E+01, time = 1.51 | CG iter. 34 -- res = 0.24218E+02, tol = 0.86867E+01, time = 1.51 | CG iter. 35 -- res = 0.17879E+02, tol = 0.86867E+01, time = 1.53 | CG iter. 36 -- res = 0.14292E+02, tol = 0.86867E+01, time = 1.51 | CG iter. 37 -- res = 0.10266E+02, tol = 0.86867E+01, time = 1.53 | CG iter. 38 -- res = 0.75671E+01, tol = 0.86867E+01, time = 1.47 | CG iter. 39 -- res = 0.59344E+01, tol = 0.86867E+01, time = 1.53 | CG iter. 40 -- res = 0.57959E+01, tol = 0.86867E+01, time = 1.49 | CG iter. 41 -- res = 0.53406E+01, tol = 0.86867E+01, time = 1.53 | CG iter. 42 -- res = 0.26969E+01, tol = 0.86867E+01, time = 1.50 | CG iter. 43 -- res = 0.19638E+01, tol = 0.86867E+01, time = 1.52 | CG iter. 44 -- res = 0.19744E+01, tol = 0.86867E+01, time = 1.53 | CG iter. 45 -- res = 0.21023E+01, tol = 0.86867E+01, time = 1.50 | CG iter. 46 -- res = 0.11375E+01, tol = 0.86867E+01, time = 1.54 | CG iter. 47 -- res = 0.84093E+00, tol = 0.86867E+01, time = 1.49 | CG iter. 48 -- res = 0.65763E+00, tol = 0.86867E+01, time = 1.51 | CG iter. 49 -- res = 0.48832E+00, tol = 0.86867E+01, time = 1.50 | CG iter. 50 -- res = 0.36058E+00, tol = 0.86867E+01, time = 1.57 | Final CG iter 51 -- res = 0.36058E+00, tol = 0.86867E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 7995769.286 | Old band monopole 7672992.417 | Change to band monopole 322776.869 | Change to component monopole -322775.481 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 4.11 | CG iter. 1 -- res = 0.32945E+04, tol = 0.47627E+18, time = 0.39 | CG iter. 2 -- res = 0.12915E+02, tol = 0.47627E+18, time = 0.37 | CG iter. 3 -- res = 0.16282E-01, tol = 0.47627E+18, time = 0.39 | Final CG iter 4 -- res = 0.17770E-04, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7995734.895 | (Sampled value in CG: 7992406.088 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.501931 | New value = 1.492297 | poltype: 2 pol: 1 CPU time specind = 5.3820610E-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 = 1.544488 | New value = 1.430909 | poltype: 2 pol: 2 CPU time specind = 2.7978420E-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 = 4.12 | CG iter. 1 -- res = 0.24017E+08, tol = 0.47587E+04, time = 1.75 | CG iter. 2 -- res = 0.52552E+07, tol = 0.47587E+04, time = 1.80 | CG iter. 3 -- res = 0.81900E+06, tol = 0.47587E+04, time = 1.78 | CG iter. 4 -- res = 0.34483E+06, tol = 0.47587E+04, time = 1.78 | CG iter. 5 -- res = 0.14807E+06, tol = 0.47587E+04, time = 1.73 | CG iter. 6 -- res = 0.77271E+05, tol = 0.47587E+04, time = 1.75 | CG iter. 7 -- res = 0.42786E+05, tol = 0.47587E+04, time = 1.73 | CG iter. 8 -- res = 0.20570E+05, tol = 0.47587E+04, time = 1.78 | CG iter. 9 -- res = 0.89365E+04, tol = 0.47587E+04, time = 1.77 | CG iter. 10 -- res = 0.36749E+04, tol = 0.47587E+04, time = 1.81 | CG iter. 11 -- res = 0.16478E+04, tol = 0.47587E+04, time = 1.82 | CG iter. 12 -- res = 0.84469E+03, tol = 0.47587E+04, time = 1.82 | CG iter. 13 -- res = 0.48002E+03, tol = 0.47587E+04, time = 1.82 | CG iter. 14 -- res = 0.26838E+03, tol = 0.47587E+04, time = 1.83 | CG iter. 15 -- res = 0.13773E+03, tol = 0.47587E+04, time = 1.77 | CG iter. 16 -- res = 0.64588E+02, tol = 0.47587E+04, time = 1.81 | CG iter. 17 -- res = 0.30662E+02, tol = 0.47587E+04, time = 1.70 | CG iter. 18 -- res = 0.15300E+02, tol = 0.47587E+04, time = 1.76 | CG iter. 19 -- res = 0.83614E+01, tol = 0.47587E+04, time = 1.74 | CG iter. 20 -- res = 0.47275E+01, tol = 0.47587E+04, time = 1.74 | CG iter. 21 -- res = 0.25626E+01, tol = 0.47587E+04, time = 1.79 | CG iter. 22 -- res = 0.13133E+01, tol = 0.47587E+04, time = 1.78 | CG iter. 23 -- res = 0.65940E+00, tol = 0.47587E+04, time = 1.79 | CG iter. 24 -- res = 0.34406E+00, tol = 0.47587E+04, time = 1.75 | CG iter. 25 -- res = 0.19016E+00, tol = 0.47587E+04, time = 1.76 | CG iter. 26 -- res = 0.10757E+00, tol = 0.47587E+04, time = 1.74 | CG iter. 27 -- res = 0.60987E-01, tol = 0.47587E+04, time = 1.81 | CG iter. 28 -- res = 0.32398E-01, tol = 0.47587E+04, time = 1.73 | CG iter. 29 -- res = 0.16910E-01, tol = 0.47587E+04, time = 1.81 | CG iter. 30 -- res = 0.88719E-02, tol = 0.47587E+04, time = 1.76 | CG iter. 31 -- res = 0.48104E-02, tol = 0.47587E+04, time = 1.79 | CG iter. 32 -- res = 0.27467E-02, tol = 0.47587E+04, time = 1.71 | CG iter. 33 -- res = 0.15401E-02, tol = 0.47587E+04, time = 1.73 | CG iter. 34 -- res = 0.82208E-03, tol = 0.47587E+04, time = 1.72 | CG iter. 35 -- res = 0.41862E-03, tol = 0.47587E+04, time = 1.72 | Final CG iter 36 -- res = 0.41862E-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) 1.258 2.755 | New value 2.306 | Old value 1.258 | Difference 1.048 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 4.10 | CG iter. 1 -- res = 0.56949E+05, tol = 0.47627E+18, time = 0.34 | CG iter. 2 -- res = 0.22320E+02, tol = 0.47627E+18, time = 0.36 | CG iter. 3 -- res = 0.23032E-01, tol = 0.47627E+18, time = 0.35 | Final CG iter 4 -- res = 0.20027E-04, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7995734.895 | (Sampled value in CG: 7991435.486 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.548715 | New value = -3.590585 | poltype: 1 pol: 1 CPU time specind = 7.3790550E-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 = 4.11 | CG iter. 1 -- res = 0.20491E+07, tol = 0.14973E+01, time = 0.70 | CG iter. 2 -- res = 0.37385E+05, tol = 0.14973E+01, time = 0.69 | CG iter. 3 -- res = 0.30171E+05, tol = 0.14973E+01, time = 0.66 | CG iter. 4 -- res = 0.91097E+04, tol = 0.14973E+01, time = 0.65 | CG iter. 5 -- res = 0.31133E+04, tol = 0.14973E+01, time = 0.64 | CG iter. 6 -- res = 0.11407E+04, tol = 0.14973E+01, time = 0.66 | CG iter. 7 -- res = 0.42234E+03, tol = 0.14973E+01, time = 0.69 | CG iter. 8 -- res = 0.25539E+03, tol = 0.14973E+01, time = 0.64 | CG iter. 9 -- res = 0.77461E+02, tol = 0.14973E+01, time = 0.67 | CG iter. 10 -- res = 0.22312E+02, tol = 0.14973E+01, time = 0.64 | CG iter. 11 -- res = 0.91518E+01, tol = 0.14973E+01, time = 0.65 | CG iter. 12 -- res = 0.43024E+01, tol = 0.14973E+01, time = 0.68 | CG iter. 13 -- res = 0.13144E+01, tol = 0.14973E+01, time = 0.66 | CG iter. 14 -- res = 0.47261E+00, tol = 0.14973E+01, time = 0.64 | CG iter. 15 -- res = 0.17611E+00, tol = 0.14973E+01, time = 0.66 | CG iter. 16 -- res = 0.65898E-01, tol = 0.14973E+01, time = 0.64 | CG iter. 17 -- res = 0.21409E-01, tol = 0.14973E+01, time = 0.64 | CG iter. 18 -- res = 0.94828E-02, tol = 0.14973E+01, time = 0.65 | CG iter. 19 -- res = 0.33473E-02, tol = 0.14973E+01, time = 0.60 | CG iter. 20 -- res = 0.14205E-02, tol = 0.14973E+01, time = 0.65 | CG iter. 21 -- res = 0.43148E-03, tol = 0.14973E+01, time = 0.64 | CG iter. 22 -- res = 0.14849E-03, tol = 0.14973E+01, time = 0.64 | CG iter. 23 -- res = 0.55133E-04, tol = 0.14973E+01, time = 0.69 | CG iter. 24 -- res = 0.19702E-04, tol = 0.14973E+01, time = 0.63 | CG iter. 25 -- res = 0.54815E-05, tol = 0.14973E+01, time = 0.67 | CG iter. 26 -- res = 0.16965E-05, tol = 0.14973E+01, time = 0.63 | CG iter. 27 -- res = 0.66220E-06, tol = 0.14973E+01, time = 0.64 | CG iter. 28 -- res = 0.22642E-06, tol = 0.14973E+01, time = 0.66 | CG iter. 29 -- res = 0.76932E-07, tol = 0.14973E+01, time = 0.66 | CG iter. 30 -- res = 0.21769E-07, tol = 0.14973E+01, time = 0.63 | CG iter. 31 -- res = 0.67836E-08, tol = 0.14973E+01, time = 0.64 | CG iter. 32 -- res = 0.31971E-08, tol = 0.14973E+01, time = 0.63 | CG iter. 33 -- res = 0.25852E-08, tol = 0.14973E+01, time = 0.68 | CG iter. 34 -- res = 0.55522E-09, tol = 0.14973E+01, time = 0.64 | CG iter. 35 -- res = 0.19118E-09, tol = 0.14973E+01, time = 0.65 | CG iter. 36 -- res = 0.86555E-10, tol = 0.14973E+01, time = 0.67 | CG iter. 37 -- res = 0.61314E-10, tol = 0.14973E+01, time = 0.67 | CG iter. 38 -- res = 0.15985E-10, tol = 0.14973E+01, time = 0.63 | CG iter. 39 -- res = 0.43751E-11, tol = 0.14973E+01, time = 0.62 | CG iter. 40 -- res = 0.12275E-11, tol = 0.14973E+01, time = 0.65 | CG iter. 41 -- res = 0.40379E-12, tol = 0.14973E+01, time = 0.66 | CG iter. 42 -- res = 0.13249E-12, tol = 0.14973E+01, time = 0.67 | CG iter. 43 -- res = 0.43112E-13, tol = 0.14973E+01, time = 0.59 | CG iter. 44 -- res = 0.11074E-13, tol = 0.14973E+01, time = 0.64 | CG iter. 45 -- res = 0.29786E-14, tol = 0.14973E+01, time = 0.62 | CG iter. 46 -- res = 0.92310E-15, tol = 0.14973E+01, time = 0.62 | CG iter. 47 -- res = 0.29426E-15, tol = 0.14973E+01, time = 0.66 | CG iter. 48 -- res = 0.92812E-16, tol = 0.14973E+01, time = 0.63 | CG iter. 49 -- res = 0.29150E-16, tol = 0.14973E+01, time = 0.67 | CG iter. 50 -- res = 0.11270E-16, tol = 0.14973E+01, time = 0.64 | Final CG iter 51 -- res = 0.11270E-16, tol = 0.14973E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -0.279 2.083 | New value 3.393 | Old value -0.279 | Difference 3.672 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 4.11 | CG iter. 1 -- res = 0.85903E+04, tol = 0.47627E+18, time = 0.37 | CG iter. 2 -- res = 0.17097E+02, tol = 0.47627E+18, time = 0.37 | CG iter. 3 -- res = 0.86829E-02, tol = 0.47627E+18, time = 0.37 | Final CG iter 4 -- res = 0.90589E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7995734.895 | (Sampled value in CG: 7993313.161 ) | CPU time specind = 273.6074 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 4.13 | CG iter. 1 -- res = 0.68149E+08, tol = 0.51552E+04, time = 3.04 | CG iter. 2 -- res = 0.33034E+08, tol = 0.51552E+04, time = 3.19 | CG iter. 3 -- res = 0.57248E+07, tol = 0.51552E+04, time = 3.10 | CG iter. 4 -- res = 0.28741E+07, tol = 0.51552E+04, time = 3.15 | CG iter. 5 -- res = 0.12689E+07, tol = 0.51552E+04, time = 3.16 | CG iter. 6 -- res = 0.69801E+06, tol = 0.51552E+04, time = 3.07 | CG iter. 7 -- res = 0.38227E+06, tol = 0.51552E+04, time = 3.15 | CG iter. 8 -- res = 0.19153E+06, tol = 0.51552E+04, time = 3.11 | CG iter. 9 -- res = 0.93900E+05, tol = 0.51552E+04, time = 3.16 | CG iter. 10 -- res = 0.41739E+05, tol = 0.51552E+04, time = 3.04 | CG iter. 11 -- res = 0.21265E+05, tol = 0.51552E+04, time = 3.11 | CG iter. 12 -- res = 0.12088E+05, tol = 0.51552E+04, time = 3.09 | CG iter. 13 -- res = 0.76622E+04, tol = 0.51552E+04, time = 3.12 | CG iter. 14 -- res = 0.52959E+04, tol = 0.51552E+04, time = 3.18 | CG iter. 15 -- res = 0.35463E+04, tol = 0.51552E+04, time = 3.26 | CG iter. 16 -- res = 0.25968E+04, tol = 0.51552E+04, time = 3.27 | CG iter. 17 -- res = 0.20580E+04, tol = 0.51552E+04, time = 3.09 | CG iter. 18 -- res = 0.19051E+04, tol = 0.51552E+04, time = 3.10 | CG iter. 19 -- res = 0.20449E+04, tol = 0.51552E+04, time = 3.10 | CG iter. 20 -- res = 0.23010E+04, tol = 0.51552E+04, time = 3.11 | CG iter. 21 -- res = 0.24427E+04, tol = 0.51552E+04, time = 3.04 | CG iter. 22 -- res = 0.22364E+04, tol = 0.51552E+04, time = 3.11 | CG iter. 23 -- res = 0.18687E+04, tol = 0.51552E+04, time = 3.16 | CG iter. 24 -- res = 0.15605E+04, tol = 0.51552E+04, time = 3.09 | CG iter. 25 -- res = 0.13738E+04, tol = 0.51552E+04, time = 3.08 | CG iter. 26 -- res = 0.12067E+04, tol = 0.51552E+04, time = 3.18 | CG iter. 27 -- res = 0.99194E+03, tol = 0.51552E+04, time = 3.17 | CG iter. 28 -- res = 0.79652E+03, tol = 0.51552E+04, time = 3.20 | CG iter. 29 -- res = 0.68376E+03, tol = 0.51552E+04, time = 3.19 | CG iter. 30 -- res = 0.67786E+03, tol = 0.51552E+04, time = 3.11 | CG iter. 31 -- res = 0.73889E+03, tol = 0.51552E+04, time = 3.17 | CG iter. 32 -- res = 0.80456E+03, tol = 0.51552E+04, time = 3.12 | CG iter. 33 -- res = 0.78158E+03, tol = 0.51552E+04, time = 3.14 | CG iter. 34 -- res = 0.70175E+03, tol = 0.51552E+04, time = 3.21 | CG iter. 35 -- res = 0.65418E+03, tol = 0.51552E+04, time = 3.16 | CG iter. 36 -- res = 0.65834E+03, tol = 0.51552E+04, time = 3.10 | CG iter. 37 -- res = 0.68507E+03, tol = 0.51552E+04, time = 3.16 | CG iter. 38 -- res = 0.66295E+03, tol = 0.51552E+04, time = 3.14 | CG iter. 39 -- res = 0.59159E+03, tol = 0.51552E+04, time = 3.11 | CG iter. 40 -- res = 0.53746E+03, tol = 0.51552E+04, time = 3.26 | CG iter. 41 -- res = 0.54871E+03, tol = 0.51552E+04, time = 3.19 | CG iter. 42 -- res = 0.60808E+03, tol = 0.51552E+04, time = 3.20 | CG iter. 43 -- res = 0.65946E+03, tol = 0.51552E+04, time = 3.22 | CG iter. 44 -- res = 0.64721E+03, tol = 0.51552E+04, time = 3.22 | CG iter. 45 -- res = 0.60085E+03, tol = 0.51552E+04, time = 3.19 | CG iter. 46 -- res = 0.58180E+03, tol = 0.51552E+04, time = 3.20 | CG iter. 47 -- res = 0.60507E+03, tol = 0.51552E+04, time = 3.26 | CG iter. 48 -- res = 0.63524E+03, tol = 0.51552E+04, time = 3.22 | CG iter. 49 -- res = 0.61872E+03, tol = 0.51552E+04, time = 3.21 | CG iter. 50 -- res = 0.56143E+03, tol = 0.51552E+04, time = 3.18 | CG iter. 51 -- res = 0.52015E+03, tol = 0.51552E+04, time = 3.17 | CG iter. 52 -- res = 0.53046E+03, tol = 0.51552E+04, time = 3.14 | CG iter. 53 -- res = 0.56963E+03, tol = 0.51552E+04, time = 3.21 | CG iter. 54 -- res = 0.58939E+03, tol = 0.51552E+04, time = 3.19 | CG iter. 55 -- res = 0.55664E+03, tol = 0.51552E+04, time = 3.16 | CG iter. 56 -- res = 0.51226E+03, tol = 0.51552E+04, time = 3.23 | CG iter. 57 -- res = 0.50653E+03, tol = 0.51552E+04, time = 3.21 | CG iter. 58 -- res = 0.53537E+03, tol = 0.51552E+04, time = 3.13 | CG iter. 59 -- res = 0.55565E+03, tol = 0.51552E+04, time = 3.14 | CG iter. 60 -- res = 0.52888E+03, tol = 0.51552E+04, time = 3.10 | Final CG iter 61 -- res = 0.52888E+03, tol = 0.51552E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 2.857 ( -231.740 -2233.554 2516.385 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 7830712.285 | Old band monopole 7995769.286 | Change to band monopole -165057.001 | Change to component monopole 165056.291 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 2.321 2.756 | New value -2.845 | Old value 2.321 | Difference -5.166 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -3.924 ( 8.070 11.274 -11.614 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 15.529 2.456 | New value 1.703 | Old value 15.529 | Difference -13.826 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 4.11 | CG iter. 1 -- res = 0.13787E+07, tol = 0.47627E+18, time = 0.37 | CG iter. 2 -- res = 0.60192E+02, tol = 0.47627E+18, time = 0.39 | CG iter. 3 -- res = 0.14978E+01, tol = 0.47627E+18, time = 0.36 | CG iter. 4 -- res = 0.43782E-03, tol = 0.47627E+18, time = 0.34 | Final CG iter 5 -- res = 0.11439E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7830678.604 | (Sampled value in CG: 7767526.232 ) | Chain = 1 -- chisq = 0.61661547E+09 | Chain = 1 -- wall time = 4095.205 sec --------------------------------------------------------------------- | Chain = 1 -- Iteration = 64 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18408761588557 | --> Sampling calibration, mode = relcal | relcal = -7.5407088E-02 -5.8946367E-02 9.2430957E-02 4.1922495E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -1.3886065E-04 5.6332750E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4306E-05 | 2: delta_r/delta_0: 1.1301E-06 | 3: delta_s/delta_0: 1.8831E-07 | 4: delta_r/delta_0: 2.4403E-08 | 5: delta_s/delta_0: 6.2352E-09 | 6: delta_r/delta_0: 2.3314E-09 | 7: delta_s/delta_0: 1.2499E-09 | 8: delta_r/delta_0: 8.1544E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 9.196680547472759E-004 2.733903000078991E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.4315E-05 | 2: delta_r/delta_0: 1.1303E-06 | 3: delta_s/delta_0: 1.8831E-07 | 4: delta_r/delta_0: 2.4403E-08 | 5: delta_s/delta_0: 6.2338E-09 | 6: delta_r/delta_0: 2.3312E-09 | 7: delta_s/delta_0: 1.2534E-09 | 8: delta_r/delta_0: 8.1525E-11 | Reached bicg-stab tolerance | BP delta = 7.3043122E-03 1.4726189E-02 3736552.41944698 | BP delta = 7.3043122E-03 1.5433807E-02 3757400.21742399 | 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 = 1.02523574 | --> Sampling calibration, mode = relcal | relcal = -0.1065622 -9.5506288E-02 0.1448262 5.7242226E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.5318302E-03 1.6288951E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 8.5476E-04 | 2: delta_r/delta_0: 1.8819E-05 | 3: delta_s/delta_0: 5.5101E-06 | 4: delta_r/delta_0: 4.8288E-07 | 5: delta_s/delta_0: 1.0069E-06 | 6: delta_r/delta_0: 5.6764E-08 | 7: delta_s/delta_0: 3.2883E-09 | 8: delta_r/delta_0: 1.4935E-09 | 9: delta_s/delta_0: 1.0642E-07 | 10: delta_r/delta_0: 1.3235E-09 | 11: delta_s/delta_0: 1.0553E-10 | 12: delta_r/delta_0: 7.2547E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.083611157606136E-003 2.812904234483718E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 8.5467E-04 | 2: delta_r/delta_0: 1.8817E-05 | 3: delta_s/delta_0: 5.5095E-06 | 4: delta_r/delta_0: 4.8283E-07 | 5: delta_s/delta_0: 1.0065E-06 | 6: delta_r/delta_0: 5.6736E-08 | 7: delta_s/delta_0: 3.2876E-09 | 8: delta_r/delta_0: 1.4933E-09 | 9: delta_s/delta_0: 1.0631E-07 | 10: delta_r/delta_0: 1.3201E-09 | 11: delta_s/delta_0: 1.0553E-10 | 12: delta_r/delta_0: 7.2552E-11 | Reached bicg-stab tolerance | BP delta = -0.1876142 -0.1766741 2841627.36607426 | BP delta = -0.1876142 -0.1775757 2841613.43051905 | BP chisq diff = -13.9, accept = T | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81145568 | --> Sampling calibration, mode = relcal | relcal = 0.2950732 0.2247028 -0.2834443 -0.2363317 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -4.4350883E-05 5.6018243E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 9.7670E-04 | 2: delta_r/delta_0: 2.2305E-05 | 3: delta_s/delta_0: 1.1897E-04 | 4: delta_r/delta_0: 8.6855E-06 | 5: delta_s/delta_0: 4.9539E-06 | 6: delta_r/delta_0: 9.1433E-07 | 7: delta_s/delta_0: 6.1128E-08 | 8: delta_r/delta_0: 3.6159E-08 | 9: delta_s/delta_0: 4.9088E-07 | 10: delta_r/delta_0: 3.0707E-09 | 11: delta_s/delta_0: 9.3528E-10 | 12: delta_r/delta_0: 4.7096E-10 | 13: delta_s/delta_0: 1.1539E-09 | 14: delta_r/delta_0: 5.7592E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.887088048559126E-002 4.025435106960736E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 9.7661E-04 | 2: delta_r/delta_0: 2.2302E-05 | 3: delta_s/delta_0: 1.1898E-04 | 4: delta_r/delta_0: 8.6862E-06 | 5: delta_s/delta_0: 4.9531E-06 | 6: delta_r/delta_0: 9.1417E-07 | 7: delta_s/delta_0: 6.1127E-08 | 8: delta_r/delta_0: 3.6156E-08 | 9: delta_s/delta_0: 4.9085E-07 | 10: delta_r/delta_0: 3.0705E-09 | 11: delta_s/delta_0: 9.3502E-10 | 12: delta_r/delta_0: 4.7099E-10 | 13: delta_s/delta_0: 1.1540E-09 | 14: delta_r/delta_0: 5.7600E-11 | Reached bicg-stab tolerance | BP delta = -8.8556804E-02 -0.1201651 2827457.87736123 | BP delta = -8.8556804E-02 -0.1289573 2827463.76224294 | 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 = 0.95820289 | --> Sampling calibration, mode = relcal | relcal = 0.1063591 0.1394413 -0.1101838 -0.1356166 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0818613E-02 1.2819469E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 5.7921E-04 | 2: delta_r/delta_0: 1.3285E-05 | 3: delta_s/delta_0: 2.9301E-05 | 4: delta_r/delta_0: 8.3339E-07 | 5: delta_s/delta_0: 2.5175E-06 | 6: delta_r/delta_0: 2.9745E-07 | 7: delta_s/delta_0: 5.0557E-08 | 8: delta_r/delta_0: 2.9956E-08 | 9: delta_s/delta_0: 6.2143E-07 | 10: delta_r/delta_0: 1.0276E-08 | 11: delta_s/delta_0: 2.3598E-09 | 12: delta_r/delta_0: 4.9440E-10 | 13: delta_s/delta_0: 9.0428E-10 | 14: delta_r/delta_0: 1.3595E-10 | 15: delta_s/delta_0: 3.3064E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.270715623200579E-002 3.700833618270918E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 5.7909E-04 | 2: delta_r/delta_0: 1.3282E-05 | 3: delta_s/delta_0: 2.9310E-05 | 4: delta_r/delta_0: 8.3382E-07 | 5: delta_s/delta_0: 2.5168E-06 | 6: delta_r/delta_0: 2.9740E-07 | 7: delta_s/delta_0: 5.0560E-08 | 8: delta_r/delta_0: 2.9947E-08 | 9: delta_s/delta_0: 6.2025E-07 | 10: delta_r/delta_0: 1.0276E-08 | 11: delta_s/delta_0: 2.3648E-09 | 12: delta_r/delta_0: 4.9441E-10 | 13: delta_s/delta_0: 9.1449E-10 | 14: delta_r/delta_0: 1.3804E-10 | 15: delta_s/delta_0: 3.3069E-11 | Reached bicg-stab tolerance | BP delta = 0.2690137 0.2956757 3004789.98715117 | BP delta = 0.2690137 0.2829158 3004830.64468859 | 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 = 0.52103785 | --> Sampling calibration, mode = relcal | relcal = -5.1059652E-02 -3.7050052E-03 2.7268043E-02 2.7496615E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -1.1092864E-04 1.4613449E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.7055E-05 | 2: delta_r/delta_0: 4.6559E-06 | 3: delta_s/delta_0: 3.4475E-06 | 4: delta_r/delta_0: 2.1660E-07 | 5: delta_s/delta_0: 5.9119E-08 | 6: delta_r/delta_0: 2.9869E-08 | 7: delta_s/delta_0: 2.8479E-08 | 8: delta_r/delta_0: 9.6529E-09 | 9: delta_s/delta_0: 5.2960E-09 | 10: delta_r/delta_0: 9.7026E-10 | 11: delta_s/delta_0: 9.4535E-10 | 12: delta_r/delta_0: 6.2154E-10 | 13: delta_s/delta_0: 4.8430E-10 | 14: delta_r/delta_0: 1.5195E-10 | 15: delta_s/delta_0: 1.3406E-10 | 16: delta_r/delta_0: 5.4195E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.122573529421783E-002 5.488923407930294E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 6.7055E-05 | 2: delta_r/delta_0: 4.6560E-06 | 3: delta_s/delta_0: 3.4480E-06 | 4: delta_r/delta_0: 2.1663E-07 | 5: delta_s/delta_0: 5.9120E-08 | 6: delta_r/delta_0: 2.9869E-08 | 7: delta_s/delta_0: 2.8477E-08 | 8: delta_r/delta_0: 9.6533E-09 | 9: delta_s/delta_0: 5.2968E-09 | 10: delta_r/delta_0: 9.7020E-10 | 11: delta_s/delta_0: 9.4483E-10 | 12: delta_r/delta_0: 6.2115E-10 | 13: delta_s/delta_0: 4.8526E-10 | 14: delta_r/delta_0: 1.5166E-10 | 15: delta_s/delta_0: 1.3375E-10 | 16: delta_r/delta_0: 5.4160E-11 | Reached bicg-stab tolerance | BP delta = -6.3294485E-02 5.8080081E-02 2435582.68891252 | BP delta = -6.3294485E-02 6.8934962E-02 2435595.90172875 | 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 = 0.42115564 | --> Sampling calibration, mode = relcal | relcal = 4.5508772E-02 3.9585847E-02 -2.8232284E-02 -5.6862332E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.4880301E-03 5.4989732E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.1538E-04 | 2: delta_r/delta_0: 3.3059E-06 | 3: delta_s/delta_0: 1.5879E-06 | 4: delta_r/delta_0: 1.8537E-07 | 5: delta_s/delta_0: 7.5947E-08 | 6: delta_r/delta_0: 3.4155E-08 | 7: delta_s/delta_0: 6.8980E-07 | 8: delta_r/delta_0: 1.1233E-07 | 9: delta_s/delta_0: 2.7188E-09 | 10: delta_r/delta_0: 1.6573E-09 | 11: delta_s/delta_0: 2.4370E-09 | 12: delta_r/delta_0: 1.2081E-09 | 13: delta_s/delta_0: 1.6560E-10 | 14: delta_r/delta_0: 2.3435E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.381698291328520E-002 5.000624075411020E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.1539E-04 | 2: delta_r/delta_0: 3.3059E-06 | 3: delta_s/delta_0: 1.5878E-06 | 4: delta_r/delta_0: 1.8537E-07 | 5: delta_s/delta_0: 7.5945E-08 | 6: delta_r/delta_0: 3.4155E-08 | 7: delta_s/delta_0: 6.8979E-07 | 8: delta_r/delta_0: 1.1234E-07 | 9: delta_s/delta_0: 2.7186E-09 | 10: delta_r/delta_0: 1.6573E-09 | 11: delta_s/delta_0: 2.4370E-09 | 12: delta_r/delta_0: 1.2081E-09 | 13: delta_s/delta_0: 1.6563E-10 | 14: delta_r/delta_0: 2.3423E-11 | Reached bicg-stab tolerance | BP delta = -0.1400177 -0.1649283 2322510.81865784 | BP delta = -0.1400177 -0.1725200 2322459.81022577 | BP chisq diff = -51.0, accept = T | | Finished processing 060-WMAP_V2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.28131332 | --> Sampling calibration, mode = relcal | relcal = 2.4267720E-02 4.5085281E-02 -2.3377120E-02 -4.5975883E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0518717E-02 2.8159120E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.1168E-04 | 2: delta_r/delta_0: 8.9957E-06 | 3: delta_s/delta_0: 1.5263E-06 | 4: delta_r/delta_0: 2.2367E-07 | 5: delta_s/delta_0: 7.6005E-08 | 6: delta_r/delta_0: 1.7936E-08 | 7: delta_s/delta_0: 7.4479E-09 | 8: delta_r/delta_0: 4.6772E-09 | 9: delta_s/delta_0: 8.7505E-09 | 10: delta_r/delta_0: 3.4750E-09 | 11: delta_s/delta_0: 1.1480E-08 | 12: delta_r/delta_0: 1.4793E-09 | 13: delta_s/delta_0: 1.5433E-09 | 14: delta_r/delta_0: 5.7768E-10 | 15: delta_s/delta_0: 5.9689E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -8.567795113820607E-003 7.852642289891864E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.1168E-04 | 2: delta_r/delta_0: 8.9956E-06 | 3: delta_s/delta_0: 1.5263E-06 | 4: delta_r/delta_0: 2.2366E-07 | 5: delta_s/delta_0: 7.6000E-08 | 6: delta_r/delta_0: 1.7935E-08 | 7: delta_s/delta_0: 7.4479E-09 | 8: delta_r/delta_0: 4.6773E-09 | 9: delta_s/delta_0: 8.7510E-09 | 10: delta_r/delta_0: 3.4751E-09 | 11: delta_s/delta_0: 1.1478E-08 | 12: delta_r/delta_0: 1.4792E-09 | 13: delta_s/delta_0: 1.5432E-09 | 14: delta_r/delta_0: 5.7761E-10 | 15: delta_s/delta_0: 5.9689E-11 | Reached bicg-stab tolerance | BP delta = 4.7077000E-02 -9.3619794E-02 2490401.29604773 | BP delta = 4.7077000E-02 -7.6144584E-02 2490413.60223448 | 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 = 0.29360431 | --> Sampling calibration, mode = relcal | relcal = 5.6105386E-04 1.0263530E-02 -3.8345035E-03 -6.9900798E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.3430025E-02 1.6416678E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.3625E-04 | 2: delta_r/delta_0: 1.1391E-05 | 3: delta_s/delta_0: 1.8462E-06 | 4: delta_r/delta_0: 2.6979E-07 | 5: delta_s/delta_0: 1.0133E-07 | 6: delta_r/delta_0: 2.5421E-08 | 7: delta_s/delta_0: 1.2218E-08 | 8: delta_r/delta_0: 8.5148E-09 | 9: delta_s/delta_0: 7.1149E-09 | 10: delta_r/delta_0: 5.3805E-09 | 11: delta_s/delta_0: 1.0291E-06 | 12: delta_r/delta_0: 7.0376E-09 | 13: delta_s/delta_0: 2.2996E-10 | 14: delta_r/delta_0: 1.8010E-10 | 15: delta_s/delta_0: 2.4954E-10 | 16: delta_r/delta_0: 9.8405E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.058174904619081E-002 8.315835141913715E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.3625E-04 | 2: delta_r/delta_0: 1.1391E-05 | 3: delta_s/delta_0: 1.8462E-06 | 4: delta_r/delta_0: 2.6979E-07 | 5: delta_s/delta_0: 1.0134E-07 | 6: delta_r/delta_0: 2.5422E-08 | 7: delta_s/delta_0: 1.2218E-08 | 8: delta_r/delta_0: 8.5149E-09 | 9: delta_s/delta_0: 7.1150E-09 | 10: delta_r/delta_0: 5.3806E-09 | 11: delta_s/delta_0: 1.0294E-06 | 12: delta_r/delta_0: 7.0428E-09 | 13: delta_s/delta_0: 2.2992E-10 | 14: delta_r/delta_0: 1.8006E-10 | 15: delta_s/delta_0: 2.4950E-10 | 16: delta_r/delta_0: 9.8403E-11 | Reached bicg-stab tolerance | BP delta = -0.6782723 -0.6344792 2738176.10430024 | BP delta = -0.6782723 -0.6447660 2738178.00397466 | 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 = 0.26477171 | --> Sampling calibration, mode = relcal | relcal = -5.5831396E-03 1.4991681E-02 -2.3175271E-03 -7.0910142E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 7.6927629E-04 4.2381356E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4347E-04 | 2: delta_r/delta_0: 1.2350E-05 | 3: delta_s/delta_0: 2.0954E-06 | 4: delta_r/delta_0: 2.5203E-07 | 5: delta_s/delta_0: 9.3325E-08 | 6: delta_r/delta_0: 1.9328E-08 | 7: delta_s/delta_0: 7.5503E-09 | 8: delta_r/delta_0: 4.6480E-09 | 9: delta_s/delta_0: 3.9423E-09 | 10: delta_r/delta_0: 2.7108E-09 | 11: delta_s/delta_0: 4.7765E-06 | 12: delta_r/delta_0: 5.3764E-08 | 13: delta_s/delta_0: 8.5966E-10 | 14: delta_r/delta_0: 4.9306E-10 | 15: delta_s/delta_0: 7.3935E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -7.638511578175356E-003 9.163941510133959E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.4347E-04 | 2: delta_r/delta_0: 1.2350E-05 | 3: delta_s/delta_0: 2.0954E-06 | 4: delta_r/delta_0: 2.5202E-07 | 5: delta_s/delta_0: 9.3332E-08 | 6: delta_r/delta_0: 1.9327E-08 | 7: delta_s/delta_0: 7.5501E-09 | 8: delta_r/delta_0: 4.6479E-09 | 9: delta_s/delta_0: 3.9422E-09 | 10: delta_r/delta_0: 2.7108E-09 | 11: delta_s/delta_0: 4.7744E-06 | 12: delta_r/delta_0: 5.3739E-08 | 13: delta_s/delta_0: 8.5970E-10 | 14: delta_r/delta_0: 4.9306E-10 | 15: delta_s/delta_0: 7.3929E-11 | Reached bicg-stab tolerance | BP delta = 0.1915315 0.2474622 2516789.90282119 | BP delta = 0.1915315 0.2745003 2516789.48999213 | 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 = 0.25627916 | --> Sampling calibration, mode = relcal | relcal = -3.1665102E-02 -2.5898999E-02 3.6808696E-02 2.0755403E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.5637405E-02 1.4159034E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4721E-04 | 2: delta_r/delta_0: 1.2415E-05 | 3: delta_s/delta_0: 2.0286E-06 | 4: delta_r/delta_0: 3.6504E-07 | 5: delta_s/delta_0: 1.3631E-07 | 6: delta_r/delta_0: 2.9822E-08 | 7: delta_s/delta_0: 1.3538E-08 | 8: delta_r/delta_0: 8.3114E-09 | 9: delta_s/delta_0: 1.9747E-08 | 10: delta_r/delta_0: 5.5483E-09 | 11: delta_s/delta_0: 6.5617E-09 | 12: delta_r/delta_0: 5.1029E-10 | 13: delta_s/delta_0: 1.3463E-09 | 14: delta_r/delta_0: 4.8169E-10 | 15: delta_s/delta_0: 8.7802E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.061537035727347E-002 8.683942493633440E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.4721E-04 | 2: delta_r/delta_0: 1.2415E-05 | 3: delta_s/delta_0: 2.0286E-06 | 4: delta_r/delta_0: 3.6506E-07 | 5: delta_s/delta_0: 1.3632E-07 | 6: delta_r/delta_0: 2.9823E-08 | 7: delta_s/delta_0: 1.3538E-08 | 8: delta_r/delta_0: 8.3116E-09 | 9: delta_s/delta_0: 1.9750E-08 | 10: delta_r/delta_0: 5.5486E-09 | 11: delta_s/delta_0: 6.5579E-09 | 12: delta_r/delta_0: 5.0972E-10 | 13: delta_s/delta_0: 1.3462E-09 | 14: delta_r/delta_0: 4.8158E-10 | 15: delta_s/delta_0: 8.7802E-11 | Reached bicg-stab tolerance | BP delta = -0.6082097 -0.6933436 2706018.91929790 | BP delta = -0.6082097 -0.6774802 2706038.66584172 | 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 = -3.149939 | New value = -3.221656 | poltype: 2 pol: 1 CPU time specind = 5.9630871E-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 = -3.076609 | New value = -3.120350 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.097835 | New value = -3.112760 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.209138 | New value = -3.156379 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.171839 | New value = -3.134037 | poltype: 2 pol: 2 CPU time specind = 3.0579567E-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 = 4.27 | CG iter. 1 -- res = 0.13544E+08, tol = 0.84933E+01, time = 1.60 | CG iter. 2 -- res = 0.44365E+05, tol = 0.84933E+01, time = 1.58 | CG iter. 3 -- res = 0.33256E+05, tol = 0.84933E+01, time = 1.51 | CG iter. 4 -- res = 0.13013E+05, tol = 0.84933E+01, time = 1.54 | CG iter. 5 -- res = 0.91291E+04, tol = 0.84933E+01, time = 1.54 | CG iter. 6 -- res = 0.66333E+04, tol = 0.84933E+01, time = 1.55 | CG iter. 7 -- res = 0.57829E+04, tol = 0.84933E+01, time = 1.58 | CG iter. 8 -- res = 0.51158E+04, tol = 0.84933E+01, time = 1.53 | CG iter. 9 -- res = 0.46593E+04, tol = 0.84933E+01, time = 1.51 | CG iter. 10 -- res = 0.59468E+04, tol = 0.84933E+01, time = 1.56 | CG iter. 11 -- res = 0.36522E+04, tol = 0.84933E+01, time = 1.58 | CG iter. 12 -- res = 0.21152E+04, tol = 0.84933E+01, time = 1.58 | CG iter. 13 -- res = 0.18074E+04, tol = 0.84933E+01, time = 1.57 | CG iter. 14 -- res = 0.17990E+04, tol = 0.84933E+01, time = 1.56 | CG iter. 15 -- res = 0.12375E+04, tol = 0.84933E+01, time = 1.60 | CG iter. 16 -- res = 0.96238E+03, tol = 0.84933E+01, time = 1.59 | CG iter. 17 -- res = 0.76011E+03, tol = 0.84933E+01, time = 1.60 | CG iter. 18 -- res = 0.61657E+03, tol = 0.84933E+01, time = 1.53 | CG iter. 19 -- res = 0.52796E+03, tol = 0.84933E+01, time = 1.59 | CG iter. 20 -- res = 0.35593E+03, tol = 0.84933E+01, time = 1.58 | CG iter. 21 -- res = 0.30593E+03, tol = 0.84933E+01, time = 1.58 | CG iter. 22 -- res = 0.28307E+03, tol = 0.84933E+01, time = 1.54 | CG iter. 23 -- res = 0.21359E+03, tol = 0.84933E+01, time = 1.58 | CG iter. 24 -- res = 0.16430E+03, tol = 0.84933E+01, time = 1.53 | CG iter. 25 -- res = 0.13962E+03, tol = 0.84933E+01, time = 1.56 | CG iter. 26 -- res = 0.11580E+03, tol = 0.84933E+01, time = 1.59 | CG iter. 27 -- res = 0.84106E+02, tol = 0.84933E+01, time = 1.58 | CG iter. 28 -- res = 0.63715E+02, tol = 0.84933E+01, time = 1.58 | CG iter. 29 -- res = 0.56003E+02, tol = 0.84933E+01, time = 1.59 | CG iter. 30 -- res = 0.45367E+02, tol = 0.84933E+01, time = 1.52 | CG iter. 31 -- res = 0.35083E+02, tol = 0.84933E+01, time = 1.60 | CG iter. 32 -- res = 0.27742E+02, tol = 0.84933E+01, time = 1.55 | CG iter. 33 -- res = 0.25666E+02, tol = 0.84933E+01, time = 1.57 | CG iter. 34 -- res = 0.20012E+02, tol = 0.84933E+01, time = 1.53 | CG iter. 35 -- res = 0.14498E+02, tol = 0.84933E+01, time = 1.58 | CG iter. 36 -- res = 0.13119E+02, tol = 0.84933E+01, time = 1.56 | CG iter. 37 -- res = 0.10892E+02, tol = 0.84933E+01, time = 1.57 | CG iter. 38 -- res = 0.94160E+01, tol = 0.84933E+01, time = 1.55 | CG iter. 39 -- res = 0.10708E+02, tol = 0.84933E+01, time = 1.56 | CG iter. 40 -- res = 0.72155E+01, tol = 0.84933E+01, time = 1.64 | CG iter. 41 -- res = 0.48443E+01, tol = 0.84933E+01, time = 1.61 | CG iter. 42 -- res = 0.39567E+01, tol = 0.84933E+01, time = 1.64 | CG iter. 43 -- res = 0.52127E+01, tol = 0.84933E+01, time = 1.58 | CG iter. 44 -- res = 0.37262E+01, tol = 0.84933E+01, time = 1.57 | CG iter. 45 -- res = 0.25122E+01, tol = 0.84933E+01, time = 1.63 | CG iter. 46 -- res = 0.20715E+01, tol = 0.84933E+01, time = 1.57 | CG iter. 47 -- res = 0.17127E+01, tol = 0.84933E+01, time = 1.54 | CG iter. 48 -- res = 0.14875E+01, tol = 0.84933E+01, time = 1.60 | CG iter. 49 -- res = 0.12929E+01, tol = 0.84933E+01, time = 1.60 | CG iter. 50 -- res = 0.99926E+00, tol = 0.84933E+01, time = 1.62 | Final CG iter 51 -- res = 0.99926E+00, tol = 0.84933E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8512364.057 | Old band monopole 7830712.285 | Change to band monopole 681651.771 | Change to component monopole -681648.839 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 4.27 | CG iter. 1 -- res = 0.19576E+06, tol = 0.47627E+18, time = 0.38 | CG iter. 2 -- res = 0.24971E+02, tol = 0.47627E+18, time = 0.39 | CG iter. 3 -- res = 0.75708E+00, tol = 0.47627E+18, time = 0.39 | CG iter. 4 -- res = 0.40159E-03, tol = 0.47627E+18, time = 0.40 | Final CG iter 5 -- res = 0.50731E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8512327.443 | (Sampled value in CG: 8481922.912 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.492297 | New value = 1.495880 | poltype: 2 pol: 1 CPU time specind = 3.4558773E-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 = 1.430909 | New value = 1.444624 | poltype: 2 pol: 2 CPU time specind = 2.4979115E-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 = 4.26 | CG iter. 1 -- res = 0.24023E+08, tol = 0.47554E+04, time = 1.86 | CG iter. 2 -- res = 0.53143E+07, tol = 0.47554E+04, time = 1.82 | CG iter. 3 -- res = 0.81278E+06, tol = 0.47554E+04, time = 1.82 | CG iter. 4 -- res = 0.33438E+06, tol = 0.47554E+04, time = 1.77 | CG iter. 5 -- res = 0.14559E+06, tol = 0.47554E+04, time = 1.77 | CG iter. 6 -- res = 0.77803E+05, tol = 0.47554E+04, time = 1.74 | CG iter. 7 -- res = 0.42737E+05, tol = 0.47554E+04, time = 1.80 | CG iter. 8 -- res = 0.20302E+05, tol = 0.47554E+04, time = 1.80 | CG iter. 9 -- res = 0.86564E+04, tol = 0.47554E+04, time = 1.80 | CG iter. 10 -- res = 0.35286E+04, tol = 0.47554E+04, time = 1.80 | CG iter. 11 -- res = 0.16404E+04, tol = 0.47554E+04, time = 1.75 | CG iter. 12 -- res = 0.84540E+03, tol = 0.47554E+04, time = 1.82 | CG iter. 13 -- res = 0.48128E+03, tol = 0.47554E+04, time = 1.79 | CG iter. 14 -- res = 0.27436E+03, tol = 0.47554E+04, time = 1.83 | CG iter. 15 -- res = 0.14082E+03, tol = 0.47554E+04, time = 1.83 | CG iter. 16 -- res = 0.66237E+02, tol = 0.47554E+04, time = 1.87 | CG iter. 17 -- res = 0.31332E+02, tol = 0.47554E+04, time = 1.75 | CG iter. 18 -- res = 0.15676E+02, tol = 0.47554E+04, time = 1.75 | CG iter. 19 -- res = 0.84586E+01, tol = 0.47554E+04, time = 1.78 | CG iter. 20 -- res = 0.47543E+01, tol = 0.47554E+04, time = 1.81 | CG iter. 21 -- res = 0.26414E+01, tol = 0.47554E+04, time = 1.93 | CG iter. 22 -- res = 0.13775E+01, tol = 0.47554E+04, time = 1.82 | CG iter. 23 -- res = 0.68141E+00, tol = 0.47554E+04, time = 1.85 | CG iter. 24 -- res = 0.35386E+00, tol = 0.47554E+04, time = 1.85 | CG iter. 25 -- res = 0.19449E+00, tol = 0.47554E+04, time = 1.89 | CG iter. 26 -- res = 0.10933E+00, tol = 0.47554E+04, time = 1.88 | CG iter. 27 -- res = 0.61024E-01, tol = 0.47554E+04, time = 1.81 | CG iter. 28 -- res = 0.32171E-01, tol = 0.47554E+04, time = 1.91 | CG iter. 29 -- res = 0.17106E-01, tol = 0.47554E+04, time = 1.83 | CG iter. 30 -- res = 0.89013E-02, tol = 0.47554E+04, time = 1.86 | CG iter. 31 -- res = 0.48933E-02, tol = 0.47554E+04, time = 1.88 | CG iter. 32 -- res = 0.28067E-02, tol = 0.47554E+04, time = 1.89 | CG iter. 33 -- res = 0.15786E-02, tol = 0.47554E+04, time = 1.81 | CG iter. 34 -- res = 0.85942E-03, tol = 0.47554E+04, time = 1.86 | CG iter. 35 -- res = 0.44868E-03, tol = 0.47554E+04, time = 1.86 | Final CG iter 36 -- res = 0.44868E-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) -2.890 2.737 | New value 5.019 | Old value -2.890 | Difference 7.909 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 4.25 | CG iter. 1 -- res = 0.32332E+07, tol = 0.47627E+18, time = 0.33 | CG iter. 2 -- res = 0.29341E+02, tol = 0.47627E+18, time = 0.44 | CG iter. 3 -- res = 0.75788E+00, tol = 0.47627E+18, time = 0.40 | CG iter. 4 -- res = 0.13663E-03, tol = 0.47627E+18, time = 0.37 | Final CG iter 5 -- res = 0.49128E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8512327.443 | (Sampled value in CG: 8481887.019 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.590585 | New value = -3.544801 | poltype: 1 pol: 1 CPU time specind = 3.8111210E-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 = 4.26 | CG iter. 1 -- res = 0.23856E+07, tol = 0.15556E+01, time = 0.67 | CG iter. 2 -- res = 0.95015E+05, tol = 0.15556E+01, time = 0.68 | CG iter. 3 -- res = 0.55820E+05, tol = 0.15556E+01, time = 0.66 | CG iter. 4 -- res = 0.16530E+05, tol = 0.15556E+01, time = 0.66 | CG iter. 5 -- res = 0.37504E+04, tol = 0.15556E+01, time = 0.71 | CG iter. 6 -- res = 0.18532E+04, tol = 0.15556E+01, time = 0.64 | CG iter. 7 -- res = 0.60885E+03, tol = 0.15556E+01, time = 0.64 | CG iter. 8 -- res = 0.24147E+03, tol = 0.15556E+01, time = 0.68 | CG iter. 9 -- res = 0.11766E+03, tol = 0.15556E+01, time = 0.69 | CG iter. 10 -- res = 0.28605E+02, tol = 0.15556E+01, time = 0.69 | CG iter. 11 -- res = 0.11452E+02, tol = 0.15556E+01, time = 0.69 | CG iter. 12 -- res = 0.54370E+01, tol = 0.15556E+01, time = 0.66 | CG iter. 13 -- res = 0.19730E+01, tol = 0.15556E+01, time = 0.65 | CG iter. 14 -- res = 0.57146E+00, tol = 0.15556E+01, time = 0.63 | CG iter. 15 -- res = 0.15375E+00, tol = 0.15556E+01, time = 0.64 | CG iter. 16 -- res = 0.55586E-01, tol = 0.15556E+01, time = 0.69 | CG iter. 17 -- res = 0.26307E-01, tol = 0.15556E+01, time = 0.66 | CG iter. 18 -- res = 0.10881E-01, tol = 0.15556E+01, time = 0.69 | CG iter. 19 -- res = 0.34804E-02, tol = 0.15556E+01, time = 0.63 | CG iter. 20 -- res = 0.12227E-02, tol = 0.15556E+01, time = 0.62 | CG iter. 21 -- res = 0.51420E-03, tol = 0.15556E+01, time = 0.67 | CG iter. 22 -- res = 0.19302E-03, tol = 0.15556E+01, time = 0.66 | CG iter. 23 -- res = 0.75177E-04, tol = 0.15556E+01, time = 0.63 | CG iter. 24 -- res = 0.23101E-04, tol = 0.15556E+01, time = 0.64 | CG iter. 25 -- res = 0.63119E-05, tol = 0.15556E+01, time = 0.65 | CG iter. 26 -- res = 0.20071E-05, tol = 0.15556E+01, time = 0.64 | CG iter. 27 -- res = 0.78183E-06, tol = 0.15556E+01, time = 0.66 | CG iter. 28 -- res = 0.28744E-06, tol = 0.15556E+01, time = 0.66 | CG iter. 29 -- res = 0.91916E-07, tol = 0.15556E+01, time = 0.70 | CG iter. 30 -- res = 0.26743E-07, tol = 0.15556E+01, time = 0.69 | CG iter. 31 -- res = 0.12836E-07, tol = 0.15556E+01, time = 0.70 | CG iter. 32 -- res = 0.82308E-08, tol = 0.15556E+01, time = 0.68 | CG iter. 33 -- res = 0.20799E-08, tol = 0.15556E+01, time = 0.65 | CG iter. 34 -- res = 0.60520E-09, tol = 0.15556E+01, time = 0.66 | CG iter. 35 -- res = 0.18077E-09, tol = 0.15556E+01, time = 0.68 | CG iter. 36 -- res = 0.11357E-09, tol = 0.15556E+01, time = 0.66 | CG iter. 37 -- res = 0.52738E-10, tol = 0.15556E+01, time = 0.65 | CG iter. 38 -- res = 0.16311E-10, tol = 0.15556E+01, time = 0.65 | CG iter. 39 -- res = 0.54144E-11, tol = 0.15556E+01, time = 0.67 | CG iter. 40 -- res = 0.15198E-11, tol = 0.15556E+01, time = 0.65 | CG iter. 41 -- res = 0.43867E-12, tol = 0.15556E+01, time = 0.66 | CG iter. 42 -- res = 0.14422E-12, tol = 0.15556E+01, time = 0.66 | CG iter. 43 -- res = 0.43733E-13, tol = 0.15556E+01, time = 0.67 | CG iter. 44 -- res = 0.11958E-13, tol = 0.15556E+01, time = 0.68 | CG iter. 45 -- res = 0.35191E-14, tol = 0.15556E+01, time = 0.68 | CG iter. 46 -- res = 0.11397E-14, tol = 0.15556E+01, time = 0.66 | CG iter. 47 -- res = 0.43236E-15, tol = 0.15556E+01, time = 0.65 | CG iter. 48 -- res = 0.14375E-15, tol = 0.15556E+01, time = 0.64 | CG iter. 49 -- res = 0.48303E-16, tol = 0.15556E+01, time = 0.69 | CG iter. 50 -- res = 0.14926E-16, tol = 0.15556E+01, time = 0.66 | Final CG iter 51 -- res = 0.14926E-16, tol = 0.15556E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -2.936 3.160 | New value -4.423 | Old value -2.936 | Difference -1.487 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 4.27 | CG iter. 1 -- res = 0.17230E+04, tol = 0.47627E+18, time = 0.44 | CG iter. 2 -- res = 0.11577E+02, tol = 0.47627E+18, time = 0.38 | CG iter. 3 -- res = 0.36083E+00, tol = 0.47627E+18, time = 0.36 | Final CG iter 4 -- res = 0.24817E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8512327.443 | (Sampled value in CG: 8488666.356 ) | CPU time specind = 281.3871 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 4.26 | CG iter. 1 -- res = 0.68415E+08, tol = 0.51599E+04, time = 3.18 | CG iter. 2 -- res = 0.33578E+08, tol = 0.51599E+04, time = 3.20 | CG iter. 3 -- res = 0.57737E+07, tol = 0.51599E+04, time = 3.20 | CG iter. 4 -- res = 0.28859E+07, tol = 0.51599E+04, time = 3.25 | CG iter. 5 -- res = 0.12833E+07, tol = 0.51599E+04, time = 3.22 | CG iter. 6 -- res = 0.70560E+06, tol = 0.51599E+04, time = 3.28 | CG iter. 7 -- res = 0.39865E+06, tol = 0.51599E+04, time = 3.35 | CG iter. 8 -- res = 0.20368E+06, tol = 0.51599E+04, time = 3.25 | CG iter. 9 -- res = 0.99724E+05, tol = 0.51599E+04, time = 3.27 | CG iter. 10 -- res = 0.44194E+05, tol = 0.51599E+04, time = 3.22 | CG iter. 11 -- res = 0.22370E+05, tol = 0.51599E+04, time = 3.24 | CG iter. 12 -- res = 0.13215E+05, tol = 0.51599E+04, time = 3.26 | CG iter. 13 -- res = 0.88855E+04, tol = 0.51599E+04, time = 3.21 | CG iter. 14 -- res = 0.66443E+04, tol = 0.51599E+04, time = 3.25 | CG iter. 15 -- res = 0.47132E+04, tol = 0.51599E+04, time = 3.24 | CG iter. 16 -- res = 0.36100E+04, tol = 0.51599E+04, time = 3.22 | CG iter. 17 -- res = 0.30565E+04, tol = 0.51599E+04, time = 3.28 | CG iter. 18 -- res = 0.30575E+04, tol = 0.51599E+04, time = 3.32 | CG iter. 19 -- res = 0.33721E+04, tol = 0.51599E+04, time = 3.27 | CG iter. 20 -- res = 0.35940E+04, tol = 0.51599E+04, time = 3.31 | CG iter. 21 -- res = 0.33886E+04, tol = 0.51599E+04, time = 3.30 | CG iter. 22 -- res = 0.27944E+04, tol = 0.51599E+04, time = 3.17 | CG iter. 23 -- res = 0.22178E+04, tol = 0.51599E+04, time = 3.21 | CG iter. 24 -- res = 0.18229E+04, tol = 0.51599E+04, time = 3.18 | CG iter. 25 -- res = 0.15513E+04, tol = 0.51599E+04, time = 3.25 | CG iter. 26 -- res = 0.13185E+04, tol = 0.51599E+04, time = 3.20 | CG iter. 27 -- res = 0.10932E+04, tol = 0.51599E+04, time = 3.33 | CG iter. 28 -- res = 0.93140E+03, tol = 0.51599E+04, time = 3.23 | CG iter. 29 -- res = 0.86729E+03, tol = 0.51599E+04, time = 3.23 | CG iter. 30 -- res = 0.89314E+03, tol = 0.51599E+04, time = 3.28 | CG iter. 31 -- res = 0.94271E+03, tol = 0.51599E+04, time = 3.21 | CG iter. 32 -- res = 0.96704E+03, tol = 0.51599E+04, time = 3.24 | CG iter. 33 -- res = 0.91340E+03, tol = 0.51599E+04, time = 3.33 | CG iter. 34 -- res = 0.83185E+03, tol = 0.51599E+04, time = 3.22 | CG iter. 35 -- res = 0.77859E+03, tol = 0.51599E+04, time = 3.24 | CG iter. 36 -- res = 0.75109E+03, tol = 0.51599E+04, time = 3.24 | CG iter. 37 -- res = 0.74484E+03, tol = 0.51599E+04, time = 3.26 | CG iter. 38 -- res = 0.72375E+03, tol = 0.51599E+04, time = 3.25 | CG iter. 39 -- res = 0.68179E+03, tol = 0.51599E+04, time = 3.19 | CG iter. 40 -- res = 0.65571E+03, tol = 0.51599E+04, time = 3.25 | CG iter. 41 -- res = 0.65906E+03, tol = 0.51599E+04, time = 3.21 | CG iter. 42 -- res = 0.69137E+03, tol = 0.51599E+04, time = 3.24 | CG iter. 43 -- res = 0.71998E+03, tol = 0.51599E+04, time = 3.26 | CG iter. 44 -- res = 0.71917E+03, tol = 0.51599E+04, time = 3.35 | CG iter. 45 -- res = 0.68101E+03, tol = 0.51599E+04, time = 3.28 | CG iter. 46 -- res = 0.63923E+03, tol = 0.51599E+04, time = 3.34 | CG iter. 47 -- res = 0.61834E+03, tol = 0.51599E+04, time = 3.30 | CG iter. 48 -- res = 0.61967E+03, tol = 0.51599E+04, time = 3.27 | CG iter. 49 -- res = 0.62185E+03, tol = 0.51599E+04, time = 3.33 | CG iter. 50 -- res = 0.59828E+03, tol = 0.51599E+04, time = 3.41 | CG iter. 51 -- res = 0.55636E+03, tol = 0.51599E+04, time = 3.33 | CG iter. 52 -- res = 0.53371E+03, tol = 0.51599E+04, time = 3.31 | CG iter. 53 -- res = 0.53654E+03, tol = 0.51599E+04, time = 3.29 | CG iter. 54 -- res = 0.54810E+03, tol = 0.51599E+04, time = 3.23 | CG iter. 55 -- res = 0.53663E+03, tol = 0.51599E+04, time = 3.23 | CG iter. 56 -- res = 0.49515E+03, tol = 0.51599E+04, time = 3.17 | CG iter. 57 -- res = 0.45569E+03, tol = 0.51599E+04, time = 3.31 | CG iter. 58 -- res = 0.44549E+03, tol = 0.51599E+04, time = 3.36 | CG iter. 59 -- res = 0.46086E+03, tol = 0.51599E+04, time = 3.26 | CG iter. 60 -- res = 0.46408E+03, tol = 0.51599E+04, time = 3.13 | Final CG iter 61 -- res = 0.46408E+03, tol = 0.51599E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 2.773 ( -230.941 -2233.982 2515.762 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9500392.194 | Old band monopole 8512364.057 | Change to band monopole 988028.137 | Change to component monopole -988023.887 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 5.080 2.766 | New value 1.776 | Old value 5.080 | Difference -3.305 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -3.996 ( 8.101 10.341 -10.104 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 7.183 3.529 | New value 1.223 | Old value 7.183 | Difference -5.960 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 4.27 | CG iter. 1 -- res = 0.57637E+06, tol = 0.47627E+18, time = 0.36 | CG iter. 2 -- res = 0.61468E+02, tol = 0.47627E+18, time = 0.39 | CG iter. 3 -- res = 0.13676E+01, tol = 0.47627E+18, time = 0.38 | CG iter. 4 -- res = 0.50199E-03, tol = 0.47627E+18, time = 0.37 | Final CG iter 5 -- res = 0.35462E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9500351.330 | (Sampled value in CG: 9434842.735 ) | Chain = 1 -- chisq = 0.61515259E+09 | Chain = 1 -- wall time = 4713.809 sec --------------------------------------------------------------------- | Chain = 1 -- Iteration = 65 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18265360207309 | --> Sampling calibration, mode = relcal | relcal = -7.4327141E-02 -5.8223482E-02 9.1225550E-02 4.1325066E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.8534732E-04 4.1923309E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 4.1162E-05 | 2: delta_r/delta_0: 1.1631E-06 | 3: delta_s/delta_0: 2.3593E-07 | 4: delta_r/delta_0: 1.2550E-08 | 5: delta_s/delta_0: 2.7976E-09 | 6: delta_r/delta_0: 1.0617E-09 | 7: delta_s/delta_0: 8.8680E-10 | 8: delta_r/delta_0: 6.1392E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 6.969831196354016E-004 2.737369220613458E-005 | BP delta = 7.3043122E-03 1.4726189E-02 29860238.7988067 | BP delta = 7.9338131E-03 1.5355689E-02 29860238.9267761 | 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 = 1.02536034 | --> Sampling calibration, mode = relcal | relcal = -0.1065672 -9.5477432E-02 0.1448712 5.7173412E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.6086072E-03 1.2629145E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.0106E-04 | 2: delta_r/delta_0: 1.3225E-05 | 3: delta_s/delta_0: 4.4303E-06 | 4: delta_r/delta_0: 4.0617E-07 | 5: delta_s/delta_0: 3.4075E-07 | 6: delta_r/delta_0: 1.7479E-08 | 7: delta_s/delta_0: 2.9558E-09 | 8: delta_r/delta_0: 1.4130E-09 | 9: delta_s/delta_0: 1.1891E-08 | 10: delta_r/delta_0: 2.9063E-10 | 11: delta_s/delta_0: 1.1326E-10 | 12: delta_r/delta_0: 7.3880E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -5.950941566193344E-003 2.812569307696849E-005 | BP delta = -0.1876142 -0.1775757 34760443.2001539 | BP delta = -0.1899153 -0.1798768 34760443.0608811 | 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 = 0.81137575 | --> Sampling calibration, mode = relcal | relcal = 0.2951797 0.2246485 -0.2834814 -0.2363468 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.4529698E-04 5.7930173E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 9.3420E-04 | 2: delta_r/delta_0: 2.1303E-05 | 3: delta_s/delta_0: 2.7097E-05 | 4: delta_r/delta_0: 2.6526E-06 | 5: delta_s/delta_0: 7.8143E-07 | 6: delta_r/delta_0: 1.3736E-07 | 7: delta_s/delta_0: 6.3082E-08 | 8: delta_r/delta_0: 3.5811E-08 | 9: delta_s/delta_0: 3.8026E-07 | 10: delta_r/delta_0: 1.9907E-09 | 11: delta_s/delta_0: 9.6953E-10 | 12: delta_r/delta_0: 3.6685E-10 | 13: delta_s/delta_0: 5.1625E-09 | 14: delta_r/delta_0: 1.2326E-09 | 15: delta_s/delta_0: 2.9935E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.844362451537074E-002 4.026032175894896E-005 | BP delta = -8.8556804E-02 -0.1201651 43105076.7334905 | BP delta = -8.2780570E-02 -0.1143889 43105076.8101728 | 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 = 0.95811208 | --> Sampling calibration, mode = relcal | relcal = 0.1064493 0.1394895 -0.1103165 -0.1356222 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0874421E-02 1.3829421E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.3109E-04 | 2: delta_r/delta_0: 1.4500E-05 | 3: delta_s/delta_0: 1.5049E-05 | 4: delta_r/delta_0: 3.5886E-07 | 5: delta_s/delta_0: 2.1486E-06 | 6: delta_r/delta_0: 2.3188E-07 | 7: delta_s/delta_0: 4.7911E-08 | 8: delta_r/delta_0: 3.3321E-08 | 9: delta_s/delta_0: 1.0879E-06 | 10: delta_r/delta_0: 7.3571E-09 | 11: delta_s/delta_0: 1.6069E-09 | 12: delta_r/delta_0: 4.7486E-10 | 13: delta_s/delta_0: 1.0274E-06 | 14: delta_r/delta_0: 3.0584E-07 | 15: delta_s/delta_0: 3.3754E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.219306707795504E-002 3.701312663025427E-005 | BP delta = 0.2690137 0.2956757 43048716.1512974 | BP delta = 0.2660555 0.2927175 43048716.0192033 | 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 = 0.52105040 | --> Sampling calibration, mode = relcal | relcal = -5.1086936E-02 -3.6137004E-03 2.7195618E-02 2.7505020E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -5.3804554E-04 2.7104605E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.5426E-05 | 2: delta_r/delta_0: 4.5174E-06 | 3: delta_s/delta_0: 4.1692E-06 | 4: delta_r/delta_0: 6.5223E-07 | 5: delta_s/delta_0: 4.7698E-08 | 6: delta_r/delta_0: 2.8380E-08 | 7: delta_s/delta_0: 5.2573E-08 | 8: delta_r/delta_0: 8.6592E-09 | 9: delta_s/delta_0: 2.3260E-09 | 10: delta_r/delta_0: 1.4278E-09 | 11: delta_s/delta_0: 1.4136E-09 | 12: delta_r/delta_0: 9.4063E-10 | 13: delta_s/delta_0: 4.9840E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.055009172185596E-002 5.488836109915463E-005 | BP delta = -6.3294485E-02 5.8080081E-02 61509030.2997112 | BP delta = -5.6801185E-02 6.4573385E-02 61509030.3086918 | 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 = 0.42109094 | --> Sampling calibration, mode = relcal | relcal = 4.5536269E-02 3.9679043E-02 -2.8284419E-02 -5.6930892E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.0635803E-03 4.5087324E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.3903E-05 | 2: delta_r/delta_0: 3.5732E-06 | 3: delta_s/delta_0: 2.1001E-06 | 4: delta_r/delta_0: 2.9633E-07 | 5: delta_s/delta_0: 6.3087E-08 | 6: delta_r/delta_0: 3.4904E-08 | 7: delta_s/delta_0: 4.7842E-08 | 8: delta_r/delta_0: 1.0973E-08 | 9: delta_s/delta_0: 2.6044E-09 | 10: delta_r/delta_0: 1.6631E-09 | 11: delta_s/delta_0: 1.7048E-09 | 12: delta_r/delta_0: 4.1016E-10 | 13: delta_s/delta_0: 7.1133E-07 | 14: delta_r/delta_0: 3.7449E-07 | 15: delta_s/delta_0: 1.9053E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.358663391135638E-002 5.001591134686736E-005 | BP delta = -0.1400177 -0.1725200 61335828.2877064 | BP delta = -0.1235706 -0.1560729 61335828.2516721 | 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 = 0.28135205 | --> Sampling calibration, mode = relcal | relcal = 2.4153246E-02 4.5107141E-02 -2.3365119E-02 -4.5895267E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0501722E-02 5.4089190E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.0777E-04 | 2: delta_r/delta_0: 8.8802E-06 | 3: delta_s/delta_0: 1.5124E-06 | 4: delta_r/delta_0: 1.6743E-07 | 5: delta_s/delta_0: 6.3576E-08 | 6: delta_r/delta_0: 1.4061E-08 | 7: delta_s/delta_0: 6.5484E-09 | 8: delta_r/delta_0: 4.3388E-09 | 9: delta_s/delta_0: 1.7362E-08 | 10: delta_r/delta_0: 4.3164E-09 | 11: delta_s/delta_0: 4.3932E-09 | 12: delta_r/delta_0: 1.9516E-09 | 13: delta_s/delta_0: 1.8030E-10 | 14: delta_r/delta_0: 1.1813E-10 | 15: delta_s/delta_0: 7.5832E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.010646110359233E-003 7.851104808628052E-005 | BP delta = 4.7077000E-02 -9.3619794E-02 94968717.4339113 | BP delta = 6.0838506E-02 -7.9858288E-02 94968717.5275901 | 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 = 0.29364879 | --> Sampling calibration, mode = relcal | relcal = 4.9591152E-04 1.0194822E-02 -3.8112344E-03 -6.8794992E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.6989997E-02 1.2539337E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.3114E-04 | 2: delta_r/delta_0: 1.1243E-05 | 3: delta_s/delta_0: 1.8115E-06 | 4: delta_r/delta_0: 2.8028E-07 | 5: delta_s/delta_0: 1.1969E-07 | 6: delta_r/delta_0: 2.0843E-08 | 7: delta_s/delta_0: 8.5085E-09 | 8: delta_r/delta_0: 5.5513E-09 | 9: delta_s/delta_0: 4.4715E-09 | 10: delta_r/delta_0: 3.2692E-09 | 11: delta_s/delta_0: 2.7039E-07 | 12: delta_r/delta_0: 4.2123E-10 | 13: delta_s/delta_0: 6.1852E-10 | 14: delta_r/delta_0: 2.6141E-10 | 15: delta_s/delta_0: 1.1411E-10 | 16: delta_r/delta_0: 9.9963E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.351056858903146E-003 8.314482292144582E-005 | BP delta = -0.6782723 -0.6344792 93510333.0682384 | BP delta = -0.6796048 -0.6358117 93510333.0614956 | 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 = 0.26480351 | --> Sampling calibration, mode = relcal | relcal = -5.6097624E-03 1.5046265E-02 -2.3615465E-03 -7.0749559E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -2.2649120E-03 4.4331080E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4321E-04 | 2: delta_r/delta_0: 1.2054E-05 | 3: delta_s/delta_0: 2.0357E-06 | 4: delta_r/delta_0: 2.6777E-07 | 5: delta_s/delta_0: 1.0173E-07 | 6: delta_r/delta_0: 2.1593E-08 | 7: delta_s/delta_0: 9.1120E-09 | 8: delta_r/delta_0: 5.8907E-09 | 9: delta_s/delta_0: 2.2058E-08 | 10: delta_r/delta_0: 6.2927E-09 | 11: delta_s/delta_0: 2.6330E-09 | 12: delta_r/delta_0: 2.7875E-10 | 13: delta_s/delta_0: 2.4490E-09 | 14: delta_r/delta_0: 4.5996E-10 | 15: delta_s/delta_0: 5.9986E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -8.545881724953691E-003 9.162760041124037E-005 | BP delta = 0.1915315 0.2745003 94712589.2756633 | BP delta = 0.2065738 0.2895426 94712589.3234325 | 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 = 0.25631379 | --> Sampling calibration, mode = relcal | relcal = -3.1617418E-02 -2.6009303E-02 3.6965724E-02 2.0660998E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.9901616E-02 1.5023908E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4774E-04 | 2: delta_r/delta_0: 1.2470E-05 | 3: delta_s/delta_0: 1.9582E-06 | 4: delta_r/delta_0: 3.4278E-07 | 5: delta_s/delta_0: 1.2956E-07 | 6: delta_r/delta_0: 2.6907E-08 | 7: delta_s/delta_0: 1.3001E-08 | 8: delta_r/delta_0: 6.5254E-09 | 9: delta_s/delta_0: 6.8585E-08 | 10: delta_r/delta_0: 5.1181E-09 | 11: delta_s/delta_0: 2.7023E-09 | 12: delta_r/delta_0: 8.0982E-10 | 13: delta_s/delta_0: 7.6857E-10 | 14: delta_r/delta_0: 5.3135E-10 | 15: delta_s/delta_0: 1.6198E-10 | 16: delta_r/delta_0: 1.3056E-10 | 17: delta_s/delta_0: 1.0426E-10 | 18: delta_r/delta_0: 9.6754E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.892543669801825E-003 8.683492235637268E-005 | BP delta = -0.6082097 -0.6933436 93071401.3738125 | BP delta = -0.6344471 -0.7195809 93071401.2812231 | 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 = -3.221656 | New value = -3.151532 | poltype: 2 pol: 1 CPU time specind = 3.4680367E-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 = -3.120350 | New value = -3.124760 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.112760 | New value = -3.241962 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.156379 | New value = -3.128943 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.134037 | New value = -3.182244 | poltype: 2 pol: 2 CPU time specind = 2.9659271E-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 = 4.12 | CG iter. 1 -- res = 0.13551E+08, tol = 0.72690E+01, time = 1.58 | CG iter. 2 -- res = 0.51141E+05, tol = 0.72690E+01, time = 1.55 | CG iter. 3 -- res = 0.43524E+05, tol = 0.72690E+01, time = 1.53 | CG iter. 4 -- res = 0.18510E+05, tol = 0.72690E+01, time = 1.53 | CG iter. 5 -- res = 0.16010E+05, tol = 0.72690E+01, time = 1.56 | CG iter. 6 -- res = 0.16367E+05, tol = 0.72690E+01, time = 1.51 | CG iter. 7 -- res = 0.11362E+05, tol = 0.72690E+01, time = 1.50 | CG iter. 8 -- res = 0.95449E+04, tol = 0.72690E+01, time = 1.58 | CG iter. 9 -- res = 0.96221E+04, tol = 0.72690E+01, time = 1.51 | CG iter. 10 -- res = 0.10847E+05, tol = 0.72690E+01, time = 1.59 | CG iter. 11 -- res = 0.59360E+04, tol = 0.72690E+01, time = 1.55 | CG iter. 12 -- res = 0.38661E+04, tol = 0.72690E+01, time = 1.59 | CG iter. 13 -- res = 0.36206E+04, tol = 0.72690E+01, time = 1.64 | CG iter. 14 -- res = 0.29702E+04, tol = 0.72690E+01, time = 1.54 | CG iter. 15 -- res = 0.21790E+04, tol = 0.72690E+01, time = 1.54 | CG iter. 16 -- res = 0.15135E+04, tol = 0.72690E+01, time = 1.57 | CG iter. 17 -- res = 0.11419E+04, tol = 0.72690E+01, time = 1.58 | CG iter. 18 -- res = 0.90344E+03, tol = 0.72690E+01, time = 1.54 | CG iter. 19 -- res = 0.73579E+03, tol = 0.72690E+01, time = 1.60 | CG iter. 20 -- res = 0.54347E+03, tol = 0.72690E+01, time = 1.57 | CG iter. 21 -- res = 0.44860E+03, tol = 0.72690E+01, time = 1.56 | CG iter. 22 -- res = 0.38290E+03, tol = 0.72690E+01, time = 1.49 | CG iter. 23 -- res = 0.30488E+03, tol = 0.72690E+01, time = 1.52 | CG iter. 24 -- res = 0.24718E+03, tol = 0.72690E+01, time = 1.57 | CG iter. 25 -- res = 0.20691E+03, tol = 0.72690E+01, time = 1.55 | CG iter. 26 -- res = 0.18132E+03, tol = 0.72690E+01, time = 1.48 | CG iter. 27 -- res = 0.12619E+03, tol = 0.72690E+01, time = 1.55 | CG iter. 28 -- res = 0.10022E+03, tol = 0.72690E+01, time = 1.56 | CG iter. 29 -- res = 0.88330E+02, tol = 0.72690E+01, time = 1.53 | CG iter. 30 -- res = 0.76964E+02, tol = 0.72690E+01, time = 1.55 | CG iter. 31 -- res = 0.57170E+02, tol = 0.72690E+01, time = 1.55 | CG iter. 32 -- res = 0.49499E+02, tol = 0.72690E+01, time = 1.60 | CG iter. 33 -- res = 0.46540E+02, tol = 0.72690E+01, time = 1.60 | CG iter. 34 -- res = 0.35644E+02, tol = 0.72690E+01, time = 1.54 | CG iter. 35 -- res = 0.27124E+02, tol = 0.72690E+01, time = 1.56 | CG iter. 36 -- res = 0.24926E+02, tol = 0.72690E+01, time = 1.58 | CG iter. 37 -- res = 0.22130E+02, tol = 0.72690E+01, time = 1.57 | CG iter. 38 -- res = 0.16669E+02, tol = 0.72690E+01, time = 1.58 | CG iter. 39 -- res = 0.23722E+02, tol = 0.72690E+01, time = 1.62 | CG iter. 40 -- res = 0.13975E+02, tol = 0.72690E+01, time = 1.60 | CG iter. 41 -- res = 0.11153E+02, tol = 0.72690E+01, time = 1.62 | CG iter. 42 -- res = 0.83363E+01, tol = 0.72690E+01, time = 1.55 | CG iter. 43 -- res = 0.10516E+02, tol = 0.72690E+01, time = 1.58 | CG iter. 44 -- res = 0.77872E+01, tol = 0.72690E+01, time = 1.61 | CG iter. 45 -- res = 0.51914E+01, tol = 0.72690E+01, time = 1.59 | CG iter. 46 -- res = 0.39573E+01, tol = 0.72690E+01, time = 1.55 | CG iter. 47 -- res = 0.30860E+01, tol = 0.72690E+01, time = 1.62 | CG iter. 48 -- res = 0.26417E+01, tol = 0.72690E+01, time = 1.57 | CG iter. 49 -- res = 0.26371E+01, tol = 0.72690E+01, time = 1.60 | CG iter. 50 -- res = 0.21389E+01, tol = 0.72690E+01, time = 1.58 | Final CG iter 51 -- res = 0.21389E+01, tol = 0.72690E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8521927.470 | Old band monopole 9500392.194 | Change to band monopole -978464.723 | Change to component monopole 978460.515 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 4.11 | CG iter. 1 -- res = 0.16663E+06, tol = 0.47627E+18, time = 0.41 | CG iter. 2 -- res = 0.36403E+02, tol = 0.47627E+18, time = 0.38 | CG iter. 3 -- res = 0.94473E+00, tol = 0.47627E+18, time = 0.39 | CG iter. 4 -- res = 0.54007E-03, tol = 0.47627E+18, time = 0.39 | Final CG iter 5 -- res = 0.19932E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8521890.816 | (Sampled value in CG: 8552487.535 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.495880 | New value = 1.532466 | poltype: 2 pol: 1 CPU time specind = 5.7039261E-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 = 1.444624 | New value = 1.502134 | poltype: 2 pol: 2 CPU time specind = 2.8839111E-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 = 4.11 | CG iter. 1 -- res = 0.24333E+08, tol = 0.47681E+04, time = 1.83 | CG iter. 2 -- res = 0.54406E+07, tol = 0.47681E+04, time = 1.82 | CG iter. 3 -- res = 0.84483E+06, tol = 0.47681E+04, time = 1.83 | CG iter. 4 -- res = 0.35319E+06, tol = 0.47681E+04, time = 1.86 | CG iter. 5 -- res = 0.15171E+06, tol = 0.47681E+04, time = 1.87 | CG iter. 6 -- res = 0.80153E+05, tol = 0.47681E+04, time = 1.87 | CG iter. 7 -- res = 0.44576E+05, tol = 0.47681E+04, time = 1.83 | CG iter. 8 -- res = 0.21346E+05, tol = 0.47681E+04, time = 1.85 | CG iter. 9 -- res = 0.92263E+04, tol = 0.47681E+04, time = 1.83 | CG iter. 10 -- res = 0.38497E+04, tol = 0.47681E+04, time = 1.86 | CG iter. 11 -- res = 0.17440E+04, tol = 0.47681E+04, time = 1.79 | CG iter. 12 -- res = 0.88527E+03, tol = 0.47681E+04, time = 1.91 | CG iter. 13 -- res = 0.49508E+03, tol = 0.47681E+04, time = 1.87 | CG iter. 14 -- res = 0.28151E+03, tol = 0.47681E+04, time = 1.88 | CG iter. 15 -- res = 0.14774E+03, tol = 0.47681E+04, time = 1.91 | CG iter. 16 -- res = 0.69642E+02, tol = 0.47681E+04, time = 1.89 | CG iter. 17 -- res = 0.32820E+02, tol = 0.47681E+04, time = 1.86 | CG iter. 18 -- res = 0.16365E+02, tol = 0.47681E+04, time = 1.81 | CG iter. 19 -- res = 0.89726E+01, tol = 0.47681E+04, time = 1.81 | CG iter. 20 -- res = 0.51015E+01, tol = 0.47681E+04, time = 1.90 | CG iter. 21 -- res = 0.27961E+01, tol = 0.47681E+04, time = 1.89 | CG iter. 22 -- res = 0.14503E+01, tol = 0.47681E+04, time = 1.80 | CG iter. 23 -- res = 0.72885E+00, tol = 0.47681E+04, time = 1.84 | CG iter. 24 -- res = 0.37124E+00, tol = 0.47681E+04, time = 1.79 | CG iter. 25 -- res = 0.20253E+00, tol = 0.47681E+04, time = 1.84 | CG iter. 26 -- res = 0.11366E+00, tol = 0.47681E+04, time = 1.79 | CG iter. 27 -- res = 0.63547E-01, tol = 0.47681E+04, time = 1.82 | CG iter. 28 -- res = 0.33784E-01, tol = 0.47681E+04, time = 1.84 | CG iter. 29 -- res = 0.17861E-01, tol = 0.47681E+04, time = 1.85 | CG iter. 30 -- res = 0.93784E-02, tol = 0.47681E+04, time = 1.81 | CG iter. 31 -- res = 0.51643E-02, tol = 0.47681E+04, time = 1.87 | CG iter. 32 -- res = 0.29252E-02, tol = 0.47681E+04, time = 1.85 | CG iter. 33 -- res = 0.16581E-02, tol = 0.47681E+04, time = 1.88 | CG iter. 34 -- res = 0.89242E-03, tol = 0.47681E+04, time = 1.85 | CG iter. 35 -- res = 0.46376E-03, tol = 0.47681E+04, time = 1.89 | Final CG iter 36 -- res = 0.46376E-03, tol = 0.47681E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 1.749 2.737 | New value 3.506 | Old value 1.749 | Difference 1.756 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 4.10 | CG iter. 1 -- res = 0.16230E+06, tol = 0.47627E+18, time = 0.41 | CG iter. 2 -- res = 0.24809E+02, tol = 0.47627E+18, time = 0.40 | CG iter. 3 -- res = 0.71715E+00, tol = 0.47627E+18, time = 0.37 | CG iter. 4 -- res = 0.92296E-04, tol = 0.47627E+18, time = 0.35 | Final CG iter 5 -- res = 0.64949E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8521890.816 | (Sampled value in CG: 8553095.600 ) | 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 = -3.544801 | New value = -3.571001 | poltype: 1 pol: 1 CPU time specind = 3.9558411E-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 = 4.11 | CG iter. 1 -- res = 0.22936E+07, tol = 0.14742E+01, time = 0.66 | CG iter. 2 -- res = 0.67030E+05, tol = 0.14742E+01, time = 0.69 | CG iter. 3 -- res = 0.50913E+05, tol = 0.14742E+01, time = 0.68 | CG iter. 4 -- res = 0.14540E+05, tol = 0.14742E+01, time = 0.70 | CG iter. 5 -- res = 0.38977E+04, tol = 0.14742E+01, time = 0.73 | CG iter. 6 -- res = 0.17100E+04, tol = 0.14742E+01, time = 0.72 | CG iter. 7 -- res = 0.72950E+03, tol = 0.14742E+01, time = 0.74 | CG iter. 8 -- res = 0.38215E+03, tol = 0.14742E+01, time = 0.68 | CG iter. 9 -- res = 0.85795E+02, tol = 0.14742E+01, time = 0.70 | CG iter. 10 -- res = 0.31632E+02, tol = 0.14742E+01, time = 0.65 | CG iter. 11 -- res = 0.13570E+02, tol = 0.14742E+01, time = 0.68 | CG iter. 12 -- res = 0.45249E+01, tol = 0.14742E+01, time = 0.68 | CG iter. 13 -- res = 0.16491E+01, tol = 0.14742E+01, time = 0.68 | CG iter. 14 -- res = 0.49339E+00, tol = 0.14742E+01, time = 0.65 | CG iter. 15 -- res = 0.16415E+00, tol = 0.14742E+01, time = 0.69 | CG iter. 16 -- res = 0.70176E-01, tol = 0.14742E+01, time = 0.69 | CG iter. 17 -- res = 0.23856E-01, tol = 0.14742E+01, time = 0.70 | CG iter. 18 -- res = 0.85745E-02, tol = 0.14742E+01, time = 0.67 | CG iter. 19 -- res = 0.33512E-02, tol = 0.14742E+01, time = 0.68 | CG iter. 20 -- res = 0.13604E-02, tol = 0.14742E+01, time = 0.69 | CG iter. 21 -- res = 0.42735E-03, tol = 0.14742E+01, time = 0.72 | CG iter. 22 -- res = 0.17219E-03, tol = 0.14742E+01, time = 0.71 | CG iter. 23 -- res = 0.54921E-04, tol = 0.14742E+01, time = 0.68 | CG iter. 24 -- res = 0.18494E-04, tol = 0.14742E+01, time = 0.67 | CG iter. 25 -- res = 0.49620E-05, tol = 0.14742E+01, time = 0.69 | CG iter. 26 -- res = 0.16196E-05, tol = 0.14742E+01, time = 0.70 | CG iter. 27 -- res = 0.61445E-06, tol = 0.14742E+01, time = 0.69 | CG iter. 28 -- res = 0.23190E-06, tol = 0.14742E+01, time = 0.67 | CG iter. 29 -- res = 0.71438E-07, tol = 0.14742E+01, time = 0.68 | CG iter. 30 -- res = 0.20567E-07, tol = 0.14742E+01, time = 0.67 | CG iter. 31 -- res = 0.71422E-08, tol = 0.14742E+01, time = 0.72 | CG iter. 32 -- res = 0.54844E-08, tol = 0.14742E+01, time = 0.69 | CG iter. 33 -- res = 0.20785E-08, tol = 0.14742E+01, time = 0.69 | CG iter. 34 -- res = 0.63029E-09, tol = 0.14742E+01, time = 0.67 | CG iter. 35 -- res = 0.19822E-09, tol = 0.14742E+01, time = 0.71 | CG iter. 36 -- res = 0.16097E-09, tol = 0.14742E+01, time = 0.68 | CG iter. 37 -- res = 0.47479E-10, tol = 0.14742E+01, time = 0.69 | CG iter. 38 -- res = 0.15202E-10, tol = 0.14742E+01, time = 0.69 | CG iter. 39 -- res = 0.42780E-11, tol = 0.14742E+01, time = 0.70 | CG iter. 40 -- res = 0.12041E-11, tol = 0.14742E+01, time = 0.71 | CG iter. 41 -- res = 0.37255E-12, tol = 0.14742E+01, time = 0.68 | CG iter. 42 -- res = 0.11960E-12, tol = 0.14742E+01, time = 0.71 | CG iter. 43 -- res = 0.33878E-13, tol = 0.14742E+01, time = 0.71 | CG iter. 44 -- res = 0.94259E-14, tol = 0.14742E+01, time = 0.70 | CG iter. 45 -- res = 0.25665E-14, tol = 0.14742E+01, time = 0.72 | CG iter. 46 -- res = 0.80938E-15, tol = 0.14742E+01, time = 0.71 | CG iter. 47 -- res = 0.29231E-15, tol = 0.14742E+01, time = 0.68 | CG iter. 48 -- res = 0.85541E-16, tol = 0.14742E+01, time = 0.68 | CG iter. 49 -- res = 0.31352E-16, tol = 0.14742E+01, time = 0.68 | CG iter. 50 -- res = 0.11113E-16, tol = 0.14742E+01, time = 0.74 | Final CG iter 51 -- res = 0.11113E-16, tol = 0.14742E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 5.283 2.706 | New value 3.108 | Old value 5.283 | Difference -2.176 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 4.10 | CG iter. 1 -- res = 0.41437E+04, tol = 0.47627E+18, time = 0.34 | CG iter. 2 -- res = 0.16194E+02, tol = 0.47627E+18, time = 0.36 | CG iter. 3 -- res = 0.44927E+00, tol = 0.47627E+18, time = 0.36 | Final CG iter 4 -- res = 0.51282E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8521890.816 | (Sampled value in CG: 8544812.178 ) | CPU time specind = 282.8204 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 4.10 | CG iter. 1 -- res = 0.69295E+08, tol = 0.51620E+04, time = 3.21 | CG iter. 2 -- res = 0.33457E+08, tol = 0.51620E+04, time = 3.37 | CG iter. 3 -- res = 0.57711E+07, tol = 0.51620E+04, time = 3.31 | CG iter. 4 -- res = 0.29207E+07, tol = 0.51620E+04, time = 3.33 | CG iter. 5 -- res = 0.12990E+07, tol = 0.51620E+04, time = 3.36 | CG iter. 6 -- res = 0.70794E+06, tol = 0.51620E+04, time = 3.36 | CG iter. 7 -- res = 0.38771E+06, tol = 0.51620E+04, time = 3.35 | CG iter. 8 -- res = 0.19631E+06, tol = 0.51620E+04, time = 3.35 | CG iter. 9 -- res = 0.98317E+05, tol = 0.51620E+04, time = 3.35 | CG iter. 10 -- res = 0.45134E+05, tol = 0.51620E+04, time = 3.31 | CG iter. 11 -- res = 0.24260E+05, tol = 0.51620E+04, time = 3.41 | CG iter. 12 -- res = 0.14630E+05, tol = 0.51620E+04, time = 3.44 | CG iter. 13 -- res = 0.10040E+05, tol = 0.51620E+04, time = 3.49 | CG iter. 14 -- res = 0.77603E+04, tol = 0.51620E+04, time = 3.44 | CG iter. 15 -- res = 0.59978E+04, tol = 0.51620E+04, time = 3.35 | CG iter. 16 -- res = 0.51127E+04, tol = 0.51620E+04, time = 3.32 | CG iter. 17 -- res = 0.45894E+04, tol = 0.51620E+04, time = 3.29 | CG iter. 18 -- res = 0.45854E+04, tol = 0.51620E+04, time = 3.32 | CG iter. 19 -- res = 0.48585E+04, tol = 0.51620E+04, time = 3.27 | CG iter. 20 -- res = 0.50087E+04, tol = 0.51620E+04, time = 3.31 | CG iter. 21 -- res = 0.45884E+04, tol = 0.51620E+04, time = 3.22 | CG iter. 22 -- res = 0.36138E+04, tol = 0.51620E+04, time = 3.26 | CG iter. 23 -- res = 0.26748E+04, tol = 0.51620E+04, time = 3.33 | CG iter. 24 -- res = 0.20803E+04, tol = 0.51620E+04, time = 3.24 | CG iter. 25 -- res = 0.17644E+04, tol = 0.51620E+04, time = 3.30 | CG iter. 26 -- res = 0.15493E+04, tol = 0.51620E+04, time = 3.29 | CG iter. 27 -- res = 0.13219E+04, tol = 0.51620E+04, time = 3.34 | CG iter. 28 -- res = 0.10975E+04, tol = 0.51620E+04, time = 3.29 | CG iter. 29 -- res = 0.97313E+03, tol = 0.51620E+04, time = 3.23 | CG iter. 30 -- res = 0.98143E+03, tol = 0.51620E+04, time = 3.32 | CG iter. 31 -- res = 0.10341E+04, tol = 0.51620E+04, time = 3.33 | CG iter. 32 -- res = 0.10388E+04, tol = 0.51620E+04, time = 3.28 | CG iter. 33 -- res = 0.91512E+03, tol = 0.51620E+04, time = 3.35 | CG iter. 34 -- res = 0.75590E+03, tol = 0.51620E+04, time = 3.18 | CG iter. 35 -- res = 0.67287E+03, tol = 0.51620E+04, time = 3.23 | CG iter. 36 -- res = 0.66180E+03, tol = 0.51620E+04, time = 3.22 | CG iter. 37 -- res = 0.68476E+03, tol = 0.51620E+04, time = 3.33 | CG iter. 38 -- res = 0.66740E+03, tol = 0.51620E+04, time = 3.31 | CG iter. 39 -- res = 0.60754E+03, tol = 0.51620E+04, time = 3.28 | CG iter. 40 -- res = 0.56719E+03, tol = 0.51620E+04, time = 3.19 | CG iter. 41 -- res = 0.59347E+03, tol = 0.51620E+04, time = 3.21 | CG iter. 42 -- res = 0.66221E+03, tol = 0.51620E+04, time = 3.15 | CG iter. 43 -- res = 0.70185E+03, tol = 0.51620E+04, time = 3.23 | CG iter. 44 -- res = 0.66261E+03, tol = 0.51620E+04, time = 3.30 | CG iter. 45 -- res = 0.59115E+03, tol = 0.51620E+04, time = 3.38 | CG iter. 46 -- res = 0.56248E+03, tol = 0.51620E+04, time = 3.32 | CG iter. 47 -- res = 0.58608E+03, tol = 0.51620E+04, time = 3.32 | CG iter. 48 -- res = 0.62084E+03, tol = 0.51620E+04, time = 3.19 | CG iter. 49 -- res = 0.60856E+03, tol = 0.51620E+04, time = 3.21 | CG iter. 50 -- res = 0.55812E+03, tol = 0.51620E+04, time = 3.21 | CG iter. 51 -- res = 0.52730E+03, tol = 0.51620E+04, time = 3.31 | CG iter. 52 -- res = 0.54741E+03, tol = 0.51620E+04, time = 3.32 | CG iter. 53 -- res = 0.58984E+03, tol = 0.51620E+04, time = 3.17 | CG iter. 54 -- res = 0.60184E+03, tol = 0.51620E+04, time = 3.26 | CG iter. 55 -- res = 0.55608E+03, tol = 0.51620E+04, time = 3.41 | CG iter. 56 -- res = 0.49732E+03, tol = 0.51620E+04, time = 3.24 | CG iter. 57 -- res = 0.47809E+03, tol = 0.51620E+04, time = 3.34 | CG iter. 58 -- res = 0.49876E+03, tol = 0.51620E+04, time = 3.34 | CG iter. 59 -- res = 0.51377E+03, tol = 0.51620E+04, time = 3.30 | CG iter. 60 -- res = 0.48528E+03, tol = 0.51620E+04, time = 3.33 | Final CG iter 61 -- res = 0.48528E+03, tol = 0.51620E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 2.202 ( -231.269 -2234.007 2515.884 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 7960521.518 | Old band monopole 8521927.470 | Change to band monopole -561405.952 | Change to component monopole 561403.537 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 3.516 2.739 | New value 0.328 | Old value 3.516 | Difference -3.188 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -3.591 ( 7.529 10.812 -11.054 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 10.522 2.956 | New value -0.931 | Old value 10.522 | Difference -11.452 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 4.10 | CG iter. 1 -- res = 0.52755E+06, tol = 0.47627E+18, time = 0.39 | CG iter. 2 -- res = 0.59346E+02, tol = 0.47627E+18, time = 0.40 | CG iter. 3 -- res = 0.16619E+01, tol = 0.47627E+18, time = 0.38 | CG iter. 4 -- res = 0.17178E-03, tol = 0.47627E+18, time = 0.44 | Final CG iter 5 -- res = 0.18096E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7960487.279 | (Sampled value in CG: 7899943.459 ) | Chain = 1 -- chisq = 0.61592376E+09 | Chain = 1 -- wall time = 4128.195 sec --------------------------------------------------------------------- | Chain = 1 -- Iteration = 66 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18530019330966 | --> Sampling calibration, mode = relcal | relcal = -7.5310588E-02 -5.8969133E-02 9.2348129E-02 4.1931592E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.3734900E-04 5.2377800E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.3926E-05 | 2: delta_r/delta_0: 1.1025E-06 | 3: delta_s/delta_0: 1.8671E-07 | 4: delta_r/delta_0: 2.0999E-08 | 5: delta_s/delta_0: 5.3087E-09 | 6: delta_r/delta_0: 1.4687E-09 | 7: delta_s/delta_0: 7.4752E-10 | 8: delta_r/delta_0: 3.1532E-10 | 9: delta_s/delta_0: 2.2853E-10 | 10: delta_r/delta_0: 9.7946E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 8.704689180741465E-004 2.731130031487872E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.3923E-05 | 2: delta_r/delta_0: 1.1024E-06 | 3: delta_s/delta_0: 1.8671E-07 | 4: delta_r/delta_0: 2.0997E-08 | 5: delta_s/delta_0: 5.3077E-09 | 6: delta_r/delta_0: 1.4693E-09 | 7: delta_s/delta_0: 7.4585E-10 | 8: delta_r/delta_0: 3.1423E-10 | 9: delta_s/delta_0: 2.2870E-10 | 10: delta_r/delta_0: 9.7722E-11 | Reached bicg-stab tolerance | BP delta = 7.9338131E-03 1.5355689E-02 3758298.36526678 | BP delta = 7.9338131E-03 1.6871992E-02 3753257.18355307 | BP chisq diff = -5041.2, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02529068 | --> Sampling calibration, mode = relcal | relcal = -0.1065224 -9.5481105E-02 0.1448402 5.7163332E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.7655130E-03 1.3549697E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.7008E-04 | 2: delta_r/delta_0: 5.9014E-06 | 3: delta_s/delta_0: 2.5772E-06 | 4: delta_r/delta_0: 2.4999E-07 | 5: delta_s/delta_0: 5.3193E-08 | 6: delta_r/delta_0: 5.2022E-09 | 7: delta_s/delta_0: 3.3226E-09 | 8: delta_r/delta_0: 1.5301E-09 | 9: delta_s/delta_0: 1.7886E-08 | 10: delta_r/delta_0: 9.0390E-10 | 11: delta_s/delta_0: 1.3938E-10 | 12: delta_r/delta_0: 1.0475E-10 | 13: delta_s/delta_0: 1.7984E-09 | 14: delta_r/delta_0: 8.4626E-12 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -7.875998763217337E-003 2.812756078234184E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 2.7010E-04 | 2: delta_r/delta_0: 5.9019E-06 | 3: delta_s/delta_0: 2.5772E-06 | 4: delta_r/delta_0: 2.5000E-07 | 5: delta_s/delta_0: 5.3202E-08 | 6: delta_r/delta_0: 5.2018E-09 | 7: delta_s/delta_0: 3.3222E-09 | 8: delta_r/delta_0: 1.5295E-09 | 9: delta_s/delta_0: 1.7888E-08 | 10: delta_r/delta_0: 9.0342E-10 | 11: delta_s/delta_0: 1.3930E-10 | 12: delta_r/delta_0: 1.0469E-10 | 13: delta_s/delta_0: 1.7883E-09 | 14: delta_r/delta_0: 8.4645E-12 | Reached bicg-stab tolerance | BP delta = -0.1899153 -0.1798768 2841491.20096850 | BP delta = -0.1899153 -0.1816803 2841515.62125361 | 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 = 0.81145717 | --> Sampling calibration, mode = relcal | relcal = 0.2951831 0.2246379 -0.2834820 -0.2363390 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.9508344E-04 5.6343502E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.3085E-03 | 2: delta_r/delta_0: 3.0030E-05 | 3: delta_s/delta_0: 4.9808E-05 | 4: delta_r/delta_0: 4.1920E-06 | 5: delta_s/delta_0: 2.2118E-06 | 6: delta_r/delta_0: 3.6080E-07 | 7: delta_s/delta_0: 6.4062E-08 | 8: delta_r/delta_0: 3.3208E-08 | 9: delta_s/delta_0: 4.3112E-07 | 10: delta_r/delta_0: 2.7401E-09 | 11: delta_s/delta_0: 9.0050E-10 | 12: delta_r/delta_0: 4.4172E-10 | 13: delta_s/delta_0: 1.4355E-09 | 14: delta_r/delta_0: 5.2226E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.642325371053937E-002 4.025587976936881E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.3079E-03 | 2: delta_r/delta_0: 3.0015E-05 | 3: delta_s/delta_0: 4.9830E-05 | 4: delta_r/delta_0: 4.1935E-06 | 5: delta_s/delta_0: 2.2105E-06 | 6: delta_r/delta_0: 3.6057E-07 | 7: delta_s/delta_0: 6.4058E-08 | 8: delta_r/delta_0: 3.3197E-08 | 9: delta_s/delta_0: 4.3077E-07 | 10: delta_r/delta_0: 2.7390E-09 | 11: delta_s/delta_0: 8.9947E-10 | 12: delta_r/delta_0: 4.4199E-10 | 13: delta_s/delta_0: 1.4334E-09 | 14: delta_r/delta_0: 5.2233E-11 | Reached bicg-stab tolerance | BP delta = -8.2780570E-02 -0.1143889 2827790.71156640 | BP delta = -8.2780570E-02 -0.1311479 2827837.42139970 | 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 = 0.95815440 | --> Sampling calibration, mode = relcal | relcal = 0.1064128 0.1393724 -0.1101857 -0.1355994 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.4766980E-03 1.2177224E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 8.7011E-04 | 2: delta_r/delta_0: 2.0108E-05 | 3: delta_s/delta_0: 6.0348E-05 | 4: delta_r/delta_0: 1.7332E-06 | 5: delta_s/delta_0: 8.5922E-06 | 6: delta_r/delta_0: 9.8624E-07 | 7: delta_s/delta_0: 5.0006E-08 | 8: delta_r/delta_0: 3.6000E-08 | 9: delta_s/delta_0: 6.4266E-07 | 10: delta_r/delta_0: 3.4779E-09 | 11: delta_s/delta_0: 1.0377E-09 | 12: delta_r/delta_0: 6.5669E-10 | 13: delta_s/delta_0: 5.3500E-08 | 14: delta_r/delta_0: 9.4457E-09 | 15: delta_s/delta_0: 4.0324E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.025082248667264E-002 3.701083764319713E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 8.7024E-04 | 2: delta_r/delta_0: 2.0111E-05 | 3: delta_s/delta_0: 6.0343E-05 | 4: delta_r/delta_0: 1.7330E-06 | 5: delta_s/delta_0: 8.5965E-06 | 6: delta_r/delta_0: 9.8668E-07 | 7: delta_s/delta_0: 5.0003E-08 | 8: delta_r/delta_0: 3.5997E-08 | 9: delta_s/delta_0: 6.4254E-07 | 10: delta_r/delta_0: 3.4786E-09 | 11: delta_s/delta_0: 1.0376E-09 | 12: delta_r/delta_0: 6.5680E-10 | 13: delta_s/delta_0: 4.9859E-08 | 14: delta_r/delta_0: 8.7284E-09 | 15: delta_s/delta_0: 4.0317E-11 | Reached bicg-stab tolerance | BP delta = 0.2660555 0.2927175 3005570.49569307 | BP delta = 0.2660555 0.2884242 3005541.21303203 | BP chisq diff = -29.3, accept = T | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 060-WMAP_V1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.52105396 | --> Sampling calibration, mode = relcal | relcal = -5.1004555E-02 -3.7468097E-03 2.7296456E-02 2.7454911E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -1.0523113E-03 2.6271571E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.6941E-05 | 2: delta_r/delta_0: 4.2411E-06 | 3: delta_s/delta_0: 2.5887E-06 | 4: delta_r/delta_0: 3.4741E-07 | 5: delta_s/delta_0: 4.1827E-08 | 6: delta_r/delta_0: 2.1985E-08 | 7: delta_s/delta_0: 7.2065E-07 | 8: delta_r/delta_0: 1.0139E-07 | 9: delta_s/delta_0: 2.5993E-09 | 10: delta_r/delta_0: 1.3286E-09 | 11: delta_s/delta_0: 1.1951E-08 | 12: delta_r/delta_0: 8.9023E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.951754069130869E-002 5.488726585224046E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 6.6941E-05 | 2: delta_r/delta_0: 4.2410E-06 | 3: delta_s/delta_0: 2.5887E-06 | 4: delta_r/delta_0: 3.4741E-07 | 5: delta_s/delta_0: 4.1828E-08 | 6: delta_r/delta_0: 2.1985E-08 | 7: delta_s/delta_0: 7.2071E-07 | 8: delta_r/delta_0: 1.0140E-07 | 9: delta_s/delta_0: 2.5992E-09 | 10: delta_r/delta_0: 1.3286E-09 | 11: delta_s/delta_0: 1.1947E-08 | 12: delta_r/delta_0: 8.9049E-11 | Reached bicg-stab tolerance | BP delta = -5.6801185E-02 6.4573385E-02 2435851.90499745 | BP delta = -5.6801185E-02 7.0367351E-02 2435852.79523060 | BP chisq diff = 0.9, accept = T | | Finished processing 060-WMAP_V1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 060-WMAP_V2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.42105883 | --> Sampling calibration, mode = relcal | relcal = 4.5530789E-02 3.9600093E-02 -2.8220598E-02 -5.6910284E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.2441416E-03 5.2953474E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 7.8347E-05 | 2: delta_r/delta_0: 3.3442E-06 | 3: delta_s/delta_0: 5.0141E-07 | 4: delta_r/delta_0: 1.3985E-07 | 5: delta_s/delta_0: 2.8094E-07 | 6: delta_r/delta_0: 1.1626E-07 | 7: delta_s/delta_0: 2.5847E-08 | 8: delta_r/delta_0: 1.0896E-08 | 9: delta_s/delta_0: 7.6704E-07 | 10: delta_r/delta_0: 6.7297E-09 | 11: delta_s/delta_0: 6.0974E-08 | 12: delta_r/delta_0: 1.4680E-08 | 13: delta_s/delta_0: 1.1484E-10 | 14: delta_r/delta_0: 4.6933E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.413678882592337E-002 5.002029962928039E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 7.8345E-05 | 2: delta_r/delta_0: 3.3443E-06 | 3: delta_s/delta_0: 5.0144E-07 | 4: delta_r/delta_0: 1.3985E-07 | 5: delta_s/delta_0: 2.8088E-07 | 6: delta_r/delta_0: 1.1625E-07 | 7: delta_s/delta_0: 2.5846E-08 | 8: delta_r/delta_0: 1.0895E-08 | 9: delta_s/delta_0: 7.6710E-07 | 10: delta_r/delta_0: 6.7288E-09 | 11: delta_s/delta_0: 6.1228E-08 | 12: delta_r/delta_0: 1.4746E-08 | 13: delta_s/delta_0: 1.1489E-10 | 14: delta_r/delta_0: 4.6938E-11 | Reached bicg-stab tolerance | BP delta = -0.1235706 -0.1560729 2322265.16083173 | BP delta = -0.1235706 -0.1571317 2322343.59353640 | 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 = 0.28127932 | --> Sampling calibration, mode = relcal | relcal = 2.4145225E-02 4.5075316E-02 -2.3328884E-02 -4.5891657E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.1006488E-02 2.7722027E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.0926E-04 | 2: delta_r/delta_0: 8.9770E-06 | 3: delta_s/delta_0: 1.4894E-06 | 4: delta_r/delta_0: 1.9189E-07 | 5: delta_s/delta_0: 6.2651E-08 | 6: delta_r/delta_0: 1.4756E-08 | 7: delta_s/delta_0: 6.3261E-09 | 8: delta_r/delta_0: 3.9106E-09 | 9: delta_s/delta_0: 9.2012E-09 | 10: delta_r/delta_0: 2.9360E-09 | 11: delta_s/delta_0: 4.2995E-09 | 12: delta_r/delta_0: 1.0717E-09 | 13: delta_s/delta_0: 1.7953E-09 | 14: delta_r/delta_0: 1.0066E-09 | 15: delta_s/delta_0: 5.5090E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -8.615989769781108E-003 7.852882894107780E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.0926E-04 | 2: delta_r/delta_0: 8.9770E-06 | 3: delta_s/delta_0: 1.4894E-06 | 4: delta_r/delta_0: 1.9189E-07 | 5: delta_s/delta_0: 6.2650E-08 | 6: delta_r/delta_0: 1.4756E-08 | 7: delta_s/delta_0: 6.3261E-09 | 8: delta_r/delta_0: 3.9106E-09 | 9: delta_s/delta_0: 9.2013E-09 | 10: delta_r/delta_0: 2.9359E-09 | 11: delta_s/delta_0: 4.2994E-09 | 12: delta_r/delta_0: 1.0717E-09 | 13: delta_s/delta_0: 1.7956E-09 | 14: delta_r/delta_0: 1.0068E-09 | 15: delta_s/delta_0: 5.5091E-11 | Reached bicg-stab tolerance | BP delta = 6.0838506E-02 -7.9858288E-02 2490159.00996750 | BP delta = 6.0838506E-02 -6.7883760E-02 2490160.93818452 | 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 = 0.29361515 | --> Sampling calibration, mode = relcal | relcal = 5.8539322E-04 1.0269549E-02 -3.9134966E-03 -6.9414452E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.7456304E-02 1.4351206E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.3119E-04 | 2: delta_r/delta_0: 1.1286E-05 | 3: delta_s/delta_0: 1.7865E-06 | 4: delta_r/delta_0: 2.9788E-07 | 5: delta_s/delta_0: 1.2993E-07 | 6: delta_r/delta_0: 2.1427E-08 | 7: delta_s/delta_0: 8.4125E-09 | 8: delta_r/delta_0: 5.5820E-09 | 9: delta_s/delta_0: 3.5409E-09 | 10: delta_r/delta_0: 2.6624E-09 | 11: delta_s/delta_0: 4.0629E-08 | 12: delta_r/delta_0: 2.5515E-09 | 13: delta_s/delta_0: 1.4678E-10 | 14: delta_r/delta_0: 1.0322E-10 | 15: delta_s/delta_0: 3.1811E-10 | 16: delta_r/delta_0: 6.0531E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.197527073582672E-003 8.315508644828946E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.3119E-04 | 2: delta_r/delta_0: 1.1286E-05 | 3: delta_s/delta_0: 1.7865E-06 | 4: delta_r/delta_0: 2.9789E-07 | 5: delta_s/delta_0: 1.2994E-07 | 6: delta_r/delta_0: 2.1427E-08 | 7: delta_s/delta_0: 8.4126E-09 | 8: delta_r/delta_0: 5.5821E-09 | 9: delta_s/delta_0: 3.5409E-09 | 10: delta_r/delta_0: 2.6625E-09 | 11: delta_s/delta_0: 4.0604E-08 | 12: delta_r/delta_0: 2.5518E-09 | 13: delta_s/delta_0: 1.4680E-10 | 14: delta_r/delta_0: 1.0323E-10 | 15: delta_s/delta_0: 3.1823E-10 | 16: delta_r/delta_0: 6.0537E-11 | Reached bicg-stab tolerance | BP delta = -0.6796048 -0.6358117 2737940.72167089 | BP delta = -0.6796048 -0.6277200 2737934.12001493 | BP chisq diff = -6.6, accept = T | | Finished processing 090-WMAP_W2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W3 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.26476731 | --> Sampling calibration, mode = relcal | relcal = -5.6165922E-03 1.4999531E-02 -2.3493594E-03 -7.0335795E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -7.6075335E-04 4.0579238E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4327E-04 | 2: delta_r/delta_0: 1.2327E-05 | 3: delta_s/delta_0: 2.1134E-06 | 4: delta_r/delta_0: 2.6568E-07 | 5: delta_s/delta_0: 1.0782E-07 | 6: delta_r/delta_0: 2.1310E-08 | 7: delta_s/delta_0: 8.0463E-09 | 8: delta_r/delta_0: 4.9727E-09 | 9: delta_s/delta_0: 3.7413E-09 | 10: delta_r/delta_0: 1.4666E-09 | 11: delta_s/delta_0: 1.4908E-05 | 12: delta_r/delta_0: 1.1960E-08 | 13: delta_s/delta_0: 8.0314E-10 | 14: delta_r/delta_0: 1.4034E-10 | 15: delta_s/delta_0: 6.5360E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -8.367172401346460E-003 9.164064765051712E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.4327E-04 | 2: delta_r/delta_0: 1.2327E-05 | 3: delta_s/delta_0: 2.1134E-06 | 4: delta_r/delta_0: 2.6570E-07 | 5: delta_s/delta_0: 1.0782E-07 | 6: delta_r/delta_0: 2.1311E-08 | 7: delta_s/delta_0: 8.0466E-09 | 8: delta_r/delta_0: 4.9729E-09 | 9: delta_s/delta_0: 3.7414E-09 | 10: delta_r/delta_0: 1.4667E-09 | 11: delta_s/delta_0: 1.4917E-05 | 12: delta_r/delta_0: 1.1965E-08 | 13: delta_s/delta_0: 8.0338E-10 | 14: delta_r/delta_0: 1.4021E-10 | 15: delta_s/delta_0: 6.5353E-11 | Reached bicg-stab tolerance | BP delta = 0.2065738 0.2895426 2516764.36828034 | BP delta = 0.2065738 0.2673778 2516764.53966504 | 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 = 0.25637141 | --> Sampling calibration, mode = relcal | relcal = -3.1626612E-02 -2.5943695E-02 3.6853395E-02 2.0716915E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.7723763E-02 1.8716650E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4649E-04 | 2: delta_r/delta_0: 1.1961E-05 | 3: delta_s/delta_0: 1.7836E-06 | 4: delta_r/delta_0: 4.4701E-07 | 5: delta_s/delta_0: 1.3344E-07 | 6: delta_r/delta_0: 3.0982E-08 | 7: delta_s/delta_0: 1.4099E-08 | 8: delta_r/delta_0: 6.3550E-09 | 9: delta_s/delta_0: 8.1944E-08 | 10: delta_r/delta_0: 5.0859E-09 | 11: delta_s/delta_0: 2.7808E-09 | 12: delta_r/delta_0: 1.3692E-09 | 13: delta_s/delta_0: 6.6938E-09 | 14: delta_r/delta_0: 4.0528E-09 | 15: delta_s/delta_0: 1.6173E-10 | 16: delta_r/delta_0: 1.0429E-10 | 17: delta_s/delta_0: 8.3622E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.820313971121200E-003 8.681127825875658E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.4649E-04 | 2: delta_r/delta_0: 1.1961E-05 | 3: delta_s/delta_0: 1.7837E-06 | 4: delta_r/delta_0: 4.4701E-07 | 5: delta_s/delta_0: 1.3344E-07 | 6: delta_r/delta_0: 3.0983E-08 | 7: delta_s/delta_0: 1.4100E-08 | 8: delta_r/delta_0: 6.3551E-09 | 9: delta_s/delta_0: 8.1949E-08 | 10: delta_r/delta_0: 5.0860E-09 | 11: delta_s/delta_0: 2.7803E-09 | 12: delta_r/delta_0: 1.3689E-09 | 13: delta_s/delta_0: 6.6672E-09 | 14: delta_r/delta_0: 4.0378E-09 | 15: delta_s/delta_0: 1.6172E-10 | 16: delta_r/delta_0: 1.0431E-10 | 17: delta_s/delta_0: 8.3634E-11 | Reached bicg-stab tolerance | BP delta = -0.6344471 -0.7195809 2706690.92343448 | BP delta = -0.6344471 -0.7312348 2706696.12119514 | 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 = -3.151532 | New value = -3.103106 | poltype: 2 pol: 1 CPU time specind = 6.1280727E-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 = -3.124760 | New value = -3.177267 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.241962 | New value = -3.153297 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.128943 | New value = -3.183938 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.182244 | New value = -3.195247 | poltype: 2 pol: 2 CPU time specind = 3.2320023E-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 = 4.11 | CG iter. 1 -- res = 0.13571E+08, tol = 0.85263E+01, time = 1.61 | CG iter. 2 -- res = 0.54297E+05, tol = 0.85263E+01, time = 1.65 | CG iter. 3 -- res = 0.38670E+05, tol = 0.85263E+01, time = 1.63 | CG iter. 4 -- res = 0.35218E+05, tol = 0.85263E+01, time = 1.58 | CG iter. 5 -- res = 0.36630E+05, tol = 0.85263E+01, time = 1.58 | CG iter. 6 -- res = 0.31691E+05, tol = 0.85263E+01, time = 1.57 | CG iter. 7 -- res = 0.24552E+05, tol = 0.85263E+01, time = 1.61 | CG iter. 8 -- res = 0.25339E+05, tol = 0.85263E+01, time = 1.61 | CG iter. 9 -- res = 0.18738E+05, tol = 0.85263E+01, time = 1.60 | CG iter. 10 -- res = 0.13697E+05, tol = 0.85263E+01, time = 1.56 | CG iter. 11 -- res = 0.11984E+05, tol = 0.85263E+01, time = 1.59 | CG iter. 12 -- res = 0.86913E+04, tol = 0.85263E+01, time = 1.53 | CG iter. 13 -- res = 0.57710E+04, tol = 0.85263E+01, time = 1.60 | CG iter. 14 -- res = 0.51511E+04, tol = 0.85263E+01, time = 1.58 | CG iter. 15 -- res = 0.50168E+04, tol = 0.85263E+01, time = 1.62 | CG iter. 16 -- res = 0.33698E+04, tol = 0.85263E+01, time = 1.54 | CG iter. 17 -- res = 0.24119E+04, tol = 0.85263E+01, time = 1.55 | CG iter. 18 -- res = 0.18928E+04, tol = 0.85263E+01, time = 1.55 | CG iter. 19 -- res = 0.15796E+04, tol = 0.85263E+01, time = 1.57 | CG iter. 20 -- res = 0.11335E+04, tol = 0.85263E+01, time = 1.55 | CG iter. 21 -- res = 0.86006E+03, tol = 0.85263E+01, time = 1.48 | CG iter. 22 -- res = 0.74113E+03, tol = 0.85263E+01, time = 1.55 | CG iter. 23 -- res = 0.60236E+03, tol = 0.85263E+01, time = 1.55 | CG iter. 24 -- res = 0.45572E+03, tol = 0.85263E+01, time = 1.57 | CG iter. 25 -- res = 0.41144E+03, tol = 0.85263E+01, time = 1.56 | CG iter. 26 -- res = 0.33477E+03, tol = 0.85263E+01, time = 1.49 | CG iter. 27 -- res = 0.27349E+03, tol = 0.85263E+01, time = 1.60 | CG iter. 28 -- res = 0.22046E+03, tol = 0.85263E+01, time = 1.58 | CG iter. 29 -- res = 0.19396E+03, tol = 0.85263E+01, time = 1.55 | CG iter. 30 -- res = 0.17015E+03, tol = 0.85263E+01, time = 1.58 | CG iter. 31 -- res = 0.12734E+03, tol = 0.85263E+01, time = 1.54 | CG iter. 32 -- res = 0.10432E+03, tol = 0.85263E+01, time = 1.50 | CG iter. 33 -- res = 0.91697E+02, tol = 0.85263E+01, time = 1.54 | CG iter. 34 -- res = 0.72061E+02, tol = 0.85263E+01, time = 1.51 | CG iter. 35 -- res = 0.51795E+02, tol = 0.85263E+01, time = 1.50 | CG iter. 36 -- res = 0.39806E+02, tol = 0.85263E+01, time = 1.56 | CG iter. 37 -- res = 0.33338E+02, tol = 0.85263E+01, time = 1.57 | CG iter. 38 -- res = 0.27336E+02, tol = 0.85263E+01, time = 1.51 | CG iter. 39 -- res = 0.27912E+02, tol = 0.85263E+01, time = 1.58 | CG iter. 40 -- res = 0.21918E+02, tol = 0.85263E+01, time = 1.56 | CG iter. 41 -- res = 0.13592E+02, tol = 0.85263E+01, time = 1.52 | CG iter. 42 -- res = 0.99800E+01, tol = 0.85263E+01, time = 1.53 | CG iter. 43 -- res = 0.72780E+01, tol = 0.85263E+01, time = 1.55 | CG iter. 44 -- res = 0.58009E+01, tol = 0.85263E+01, time = 1.53 | CG iter. 45 -- res = 0.48420E+01, tol = 0.85263E+01, time = 1.58 | CG iter. 46 -- res = 0.48517E+01, tol = 0.85263E+01, time = 1.59 | CG iter. 47 -- res = 0.36966E+01, tol = 0.85263E+01, time = 1.57 | CG iter. 48 -- res = 0.20839E+01, tol = 0.85263E+01, time = 1.59 | CG iter. 49 -- res = 0.14736E+01, tol = 0.85263E+01, time = 1.55 | CG iter. 50 -- res = 0.10435E+01, tol = 0.85263E+01, time = 1.59 | Final CG iter 51 -- res = 0.10435E+01, tol = 0.85263E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9613017.551 | Old band monopole 7960521.518 | Change to band monopole 1652496.032 | Change to component monopole -1652488.925 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 4.10 | CG iter. 1 -- res = 0.13934E+05, tol = 0.47627E+18, time = 0.34 | CG iter. 2 -- res = 0.29322E+02, tol = 0.47627E+18, time = 0.36 | CG iter. 3 -- res = 0.86240E+00, tol = 0.47627E+18, time = 0.38 | CG iter. 4 -- res = 0.60623E-04, tol = 0.47627E+18, time = 0.38 | Final CG iter 5 -- res = 0.57906E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9612976.203 | (Sampled value in CG: 9646321.077 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.532466 | New value = 1.477884 | poltype: 2 pol: 1 CPU time specind = 6.2141418E-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 = 1.502134 | New value = 1.484702 | poltype: 2 pol: 2 CPU time specind = 2.5429726E-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 = 4.11 | CG iter. 1 -- res = 0.24677E+08, tol = 0.47532E+04, time = 1.74 | CG iter. 2 -- res = 0.53890E+07, tol = 0.47532E+04, time = 1.78 | CG iter. 3 -- res = 0.85343E+06, tol = 0.47532E+04, time = 1.76 | CG iter. 4 -- res = 0.36050E+06, tol = 0.47532E+04, time = 1.78 | CG iter. 5 -- res = 0.15937E+06, tol = 0.47532E+04, time = 1.81 | CG iter. 6 -- res = 0.81872E+05, tol = 0.47532E+04, time = 1.78 | CG iter. 7 -- res = 0.43940E+05, tol = 0.47532E+04, time = 1.78 | CG iter. 8 -- res = 0.20737E+05, tol = 0.47532E+04, time = 1.80 | CG iter. 9 -- res = 0.90352E+04, tol = 0.47532E+04, time = 1.79 | CG iter. 10 -- res = 0.37699E+04, tol = 0.47532E+04, time = 1.82 | CG iter. 11 -- res = 0.17676E+04, tol = 0.47532E+04, time = 1.80 | CG iter. 12 -- res = 0.90495E+03, tol = 0.47532E+04, time = 1.81 | CG iter. 13 -- res = 0.50208E+03, tol = 0.47532E+04, time = 1.77 | CG iter. 14 -- res = 0.28968E+03, tol = 0.47532E+04, time = 1.78 | CG iter. 15 -- res = 0.14535E+03, tol = 0.47532E+04, time = 1.77 | CG iter. 16 -- res = 0.68701E+02, tol = 0.47532E+04, time = 1.72 | CG iter. 17 -- res = 0.31754E+02, tol = 0.47532E+04, time = 1.77 | CG iter. 18 -- res = 0.15996E+02, tol = 0.47532E+04, time = 1.82 | CG iter. 19 -- res = 0.86982E+01, tol = 0.47532E+04, time = 1.78 | CG iter. 20 -- res = 0.49980E+01, tol = 0.47532E+04, time = 1.73 | CG iter. 21 -- res = 0.27941E+01, tol = 0.47532E+04, time = 1.81 | CG iter. 22 -- res = 0.14181E+01, tol = 0.47532E+04, time = 1.78 | CG iter. 23 -- res = 0.70348E+00, tol = 0.47532E+04, time = 1.76 | CG iter. 24 -- res = 0.36231E+00, tol = 0.47532E+04, time = 1.80 | CG iter. 25 -- res = 0.20308E+00, tol = 0.47532E+04, time = 1.85 | CG iter. 26 -- res = 0.11639E+00, tol = 0.47532E+04, time = 1.87 | CG iter. 27 -- res = 0.66325E-01, tol = 0.47532E+04, time = 1.80 | CG iter. 28 -- res = 0.36539E-01, tol = 0.47532E+04, time = 1.79 | CG iter. 29 -- res = 0.18992E-01, tol = 0.47532E+04, time = 1.77 | CG iter. 30 -- res = 0.99679E-02, tol = 0.47532E+04, time = 1.76 | CG iter. 31 -- res = 0.54156E-02, tol = 0.47532E+04, time = 1.81 | CG iter. 32 -- res = 0.30070E-02, tol = 0.47532E+04, time = 1.80 | CG iter. 33 -- res = 0.16792E-02, tol = 0.47532E+04, time = 1.79 | CG iter. 34 -- res = 0.91543E-03, tol = 0.47532E+04, time = 1.83 | CG iter. 35 -- res = 0.47193E-03, tol = 0.47532E+04, time = 1.84 | Final CG iter 36 -- res = 0.47193E-03, tol = 0.47532E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 0.303 2.735 | New value -0.307 | Old value 0.303 | Difference -0.610 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 4.09 | CG iter. 1 -- res = 0.22346E+05, tol = 0.47627E+18, time = 0.37 | CG iter. 2 -- res = 0.23346E+02, tol = 0.47627E+18, time = 0.34 | CG iter. 3 -- res = 0.73411E+00, tol = 0.47627E+18, time = 0.36 | CG iter. 4 -- res = 0.24930E-03, tol = 0.47627E+18, time = 0.38 | Final CG iter 5 -- res = 0.17592E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9612976.203 | (Sampled value in CG: 9646422.240 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.571001 | New value = -3.587635 | poltype: 1 pol: 1 CPU time specind = 4.2150021E-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 = 4.09 | CG iter. 1 -- res = 0.25948E+07, tol = 0.16522E+01, time = 0.63 | CG iter. 2 -- res = 0.83160E+05, tol = 0.16522E+01, time = 0.61 | CG iter. 3 -- res = 0.84244E+05, tol = 0.16522E+01, time = 0.69 | CG iter. 4 -- res = 0.17345E+05, tol = 0.16522E+01, time = 0.69 | CG iter. 5 -- res = 0.46637E+04, tol = 0.16522E+01, time = 0.67 | CG iter. 6 -- res = 0.19725E+04, tol = 0.16522E+01, time = 0.65 | CG iter. 7 -- res = 0.80527E+03, tol = 0.16522E+01, time = 0.65 | CG iter. 8 -- res = 0.38445E+03, tol = 0.16522E+01, time = 0.69 | CG iter. 9 -- res = 0.10939E+03, tol = 0.16522E+01, time = 0.68 | CG iter. 10 -- res = 0.35142E+02, tol = 0.16522E+01, time = 0.67 | CG iter. 11 -- res = 0.15108E+02, tol = 0.16522E+01, time = 0.65 | CG iter. 12 -- res = 0.54800E+01, tol = 0.16522E+01, time = 0.64 | CG iter. 13 -- res = 0.18005E+01, tol = 0.16522E+01, time = 0.64 | CG iter. 14 -- res = 0.64058E+00, tol = 0.16522E+01, time = 0.68 | CG iter. 15 -- res = 0.26632E+00, tol = 0.16522E+01, time = 0.68 | CG iter. 16 -- res = 0.75664E-01, tol = 0.16522E+01, time = 0.64 | CG iter. 17 -- res = 0.24638E-01, tol = 0.16522E+01, time = 0.69 | CG iter. 18 -- res = 0.11773E-01, tol = 0.16522E+01, time = 0.68 | CG iter. 19 -- res = 0.42566E-02, tol = 0.16522E+01, time = 0.67 | CG iter. 20 -- res = 0.18163E-02, tol = 0.16522E+01, time = 0.67 | CG iter. 21 -- res = 0.52473E-03, tol = 0.16522E+01, time = 0.68 | CG iter. 22 -- res = 0.18287E-03, tol = 0.16522E+01, time = 0.69 | CG iter. 23 -- res = 0.70687E-04, tol = 0.16522E+01, time = 0.73 | CG iter. 24 -- res = 0.25142E-04, tol = 0.16522E+01, time = 0.65 | CG iter. 25 -- res = 0.69755E-05, tol = 0.16522E+01, time = 0.67 | CG iter. 26 -- res = 0.21343E-05, tol = 0.16522E+01, time = 0.65 | CG iter. 27 -- res = 0.84152E-06, tol = 0.16522E+01, time = 0.64 | CG iter. 28 -- res = 0.28733E-06, tol = 0.16522E+01, time = 0.66 | CG iter. 29 -- res = 0.94534E-07, tol = 0.16522E+01, time = 0.68 | CG iter. 30 -- res = 0.27467E-07, tol = 0.16522E+01, time = 0.67 | CG iter. 31 -- res = 0.98584E-08, tol = 0.16522E+01, time = 0.68 | CG iter. 32 -- res = 0.80877E-08, tol = 0.16522E+01, time = 0.66 | CG iter. 33 -- res = 0.25898E-08, tol = 0.16522E+01, time = 0.63 | CG iter. 34 -- res = 0.74086E-09, tol = 0.16522E+01, time = 0.64 | CG iter. 35 -- res = 0.24965E-09, tol = 0.16522E+01, time = 0.68 | CG iter. 36 -- res = 0.12186E-09, tol = 0.16522E+01, time = 0.64 | CG iter. 37 -- res = 0.81997E-10, tol = 0.16522E+01, time = 0.71 | CG iter. 38 -- res = 0.20394E-10, tol = 0.16522E+01, time = 0.69 | CG iter. 39 -- res = 0.60065E-11, tol = 0.16522E+01, time = 0.64 | CG iter. 40 -- res = 0.17453E-11, tol = 0.16522E+01, time = 0.68 | CG iter. 41 -- res = 0.51781E-12, tol = 0.16522E+01, time = 0.64 | CG iter. 42 -- res = 0.17538E-12, tol = 0.16522E+01, time = 0.65 | CG iter. 43 -- res = 0.57034E-13, tol = 0.16522E+01, time = 0.68 | CG iter. 44 -- res = 0.14327E-13, tol = 0.16522E+01, time = 0.69 | CG iter. 45 -- res = 0.43405E-14, tol = 0.16522E+01, time = 0.65 | CG iter. 46 -- res = 0.15498E-14, tol = 0.16522E+01, time = 0.70 | CG iter. 47 -- res = 0.57599E-15, tol = 0.16522E+01, time = 0.65 | CG iter. 48 -- res = 0.19247E-15, tol = 0.16522E+01, time = 0.67 | CG iter. 49 -- res = 0.54114E-16, tol = 0.16522E+01, time = 0.67 | CG iter. 50 -- res = 0.16754E-16, tol = 0.16522E+01, time = 0.63 | Final CG iter 51 -- res = 0.16754E-16, tol = 0.16522E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 2.245 2.594 | New value 3.110 | Old value 2.245 | Difference 0.865 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 4.10 | CG iter. 1 -- res = 0.11950E+04, tol = 0.47627E+18, time = 0.38 | CG iter. 2 -- res = 0.11250E+02, tol = 0.47627E+18, time = 0.39 | CG iter. 3 -- res = 0.27966E+00, tol = 0.47627E+18, time = 0.38 | Final CG iter 4 -- res = 0.85178E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9612976.203 | (Sampled value in CG: 9638996.966 ) | CPU time specind = 278.9055 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 4.12 | CG iter. 1 -- res = 0.69820E+08, tol = 0.51499E+04, time = 3.16 | CG iter. 2 -- res = 0.33100E+08, tol = 0.51499E+04, time = 3.18 | CG iter. 3 -- res = 0.58665E+07, tol = 0.51499E+04, time = 3.09 | CG iter. 4 -- res = 0.30468E+07, tol = 0.51499E+04, time = 3.15 | CG iter. 5 -- res = 0.13737E+07, tol = 0.51499E+04, time = 3.03 | CG iter. 6 -- res = 0.73275E+06, tol = 0.51499E+04, time = 3.11 | CG iter. 7 -- res = 0.39509E+06, tol = 0.51499E+04, time = 3.13 | CG iter. 8 -- res = 0.20242E+06, tol = 0.51499E+04, time = 3.20 | CG iter. 9 -- res = 0.10499E+06, tol = 0.51499E+04, time = 3.20 | CG iter. 10 -- res = 0.51273E+05, tol = 0.51499E+04, time = 3.08 | CG iter. 11 -- res = 0.28647E+05, tol = 0.51499E+04, time = 3.17 | CG iter. 12 -- res = 0.18230E+05, tol = 0.51499E+04, time = 3.25 | CG iter. 13 -- res = 0.13513E+05, tol = 0.51499E+04, time = 3.09 | CG iter. 14 -- res = 0.11810E+05, tol = 0.51499E+04, time = 3.13 | CG iter. 15 -- res = 0.10483E+05, tol = 0.51499E+04, time = 3.11 | CG iter. 16 -- res = 0.97546E+04, tol = 0.51499E+04, time = 3.12 | CG iter. 17 -- res = 0.89284E+04, tol = 0.51499E+04, time = 3.22 | CG iter. 18 -- res = 0.86839E+04, tol = 0.51499E+04, time = 3.18 | CG iter. 19 -- res = 0.89022E+04, tol = 0.51499E+04, time = 3.21 | CG iter. 20 -- res = 0.87661E+04, tol = 0.51499E+04, time = 3.23 | CG iter. 21 -- res = 0.72947E+04, tol = 0.51499E+04, time = 3.15 | CG iter. 22 -- res = 0.50005E+04, tol = 0.51499E+04, time = 3.14 | CG iter. 23 -- res = 0.34125E+04, tol = 0.51499E+04, time = 3.14 | CG iter. 24 -- res = 0.26915E+04, tol = 0.51499E+04, time = 3.19 | CG iter. 25 -- res = 0.24222E+04, tol = 0.51499E+04, time = 3.17 | CG iter. 26 -- res = 0.22100E+04, tol = 0.51499E+04, time = 3.20 | CG iter. 27 -- res = 0.18218E+04, tol = 0.51499E+04, time = 3.20 | CG iter. 28 -- res = 0.14563E+04, tol = 0.51499E+04, time = 3.09 | CG iter. 29 -- res = 0.13221E+04, tol = 0.51499E+04, time = 3.06 | CG iter. 30 -- res = 0.13884E+04, tol = 0.51499E+04, time = 3.20 | CG iter. 31 -- res = 0.14284E+04, tol = 0.51499E+04, time = 3.23 | CG iter. 32 -- res = 0.12613E+04, tol = 0.51499E+04, time = 3.16 | CG iter. 33 -- res = 0.97806E+03, tol = 0.51499E+04, time = 3.09 | CG iter. 34 -- res = 0.78193E+03, tol = 0.51499E+04, time = 3.06 | CG iter. 35 -- res = 0.72693E+03, tol = 0.51499E+04, time = 3.12 | CG iter. 36 -- res = 0.74330E+03, tol = 0.51499E+04, time = 3.16 | CG iter. 37 -- res = 0.73122E+03, tol = 0.51499E+04, time = 3.17 | CG iter. 38 -- res = 0.65360E+03, tol = 0.51499E+04, time = 3.16 | CG iter. 39 -- res = 0.57174E+03, tol = 0.51499E+04, time = 3.17 | CG iter. 40 -- res = 0.56810E+03, tol = 0.51499E+04, time = 3.13 | CG iter. 41 -- res = 0.62660E+03, tol = 0.51499E+04, time = 3.18 | CG iter. 42 -- res = 0.66874E+03, tol = 0.51499E+04, time = 3.12 | CG iter. 43 -- res = 0.63425E+03, tol = 0.51499E+04, time = 3.10 | CG iter. 44 -- res = 0.56787E+03, tol = 0.51499E+04, time = 3.16 | CG iter. 45 -- res = 0.53041E+03, tol = 0.51499E+04, time = 3.15 | CG iter. 46 -- res = 0.54447E+03, tol = 0.51499E+04, time = 3.14 | CG iter. 47 -- res = 0.57361E+03, tol = 0.51499E+04, time = 3.22 | CG iter. 48 -- res = 0.56801E+03, tol = 0.51499E+04, time = 3.07 | CG iter. 49 -- res = 0.53491E+03, tol = 0.51499E+04, time = 3.22 | CG iter. 50 -- res = 0.52049E+03, tol = 0.51499E+04, time = 3.11 | CG iter. 51 -- res = 0.53526E+03, tol = 0.51499E+04, time = 3.14 | CG iter. 52 -- res = 0.56986E+03, tol = 0.51499E+04, time = 3.12 | CG iter. 53 -- res = 0.57667E+03, tol = 0.51499E+04, time = 3.24 | CG iter. 54 -- res = 0.55437E+03, tol = 0.51499E+04, time = 3.16 | CG iter. 55 -- res = 0.52397E+03, tol = 0.51499E+04, time = 3.15 | CG iter. 56 -- res = 0.51271E+03, tol = 0.51499E+04, time = 3.13 | CG iter. 57 -- res = 0.51894E+03, tol = 0.51499E+04, time = 3.15 | CG iter. 58 -- res = 0.52443E+03, tol = 0.51499E+04, time = 3.15 | CG iter. 59 -- res = 0.51898E+03, tol = 0.51499E+04, time = 3.14 | CG iter. 60 -- res = 0.50436E+03, tol = 0.51499E+04, time = 3.20 | Final CG iter 61 -- res = 0.50436E+03, tol = 0.51499E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 2.766 ( -231.123 -2232.992 2515.836 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9032681.299 | Old band monopole 9613017.551 | Change to band monopole -580336.251 | Change to component monopole 580333.755 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -0.315 2.741 | New value -0.641 | Old value -0.315 | Difference -0.326 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -3.982 ( 6.890 9.261 -9.910 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 17.520 2.085 | New value 2.981 | Old value 17.520 | Difference -14.540 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 4.10 | CG iter. 1 -- res = 0.10083E+05, tol = 0.47627E+18, time = 0.37 | CG iter. 2 -- res = 0.34391E+02, tol = 0.47627E+18, time = 0.35 | CG iter. 3 -- res = 0.12297E+01, tol = 0.47627E+18, time = 0.36 | Final CG iter 4 -- res = 0.14118E-04, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9032642.448 | (Sampled value in CG: 8967691.941 ) | Chain = 1 -- chisq = 0.61844634E+09 | Chain = 1 -- wall time = 4714.626 sec --------------------------------------------------------------------- | Chain = 1 -- Iteration = 67 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.17912660620498 | --> Sampling calibration, mode = relcal | relcal = -7.3155798E-02 -5.7296906E-02 8.9951895E-02 4.0500809E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.7305043E-05 2.3099321E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.1992E-04 | 2: delta_r/delta_0: 2.1082E-06 | 3: delta_s/delta_0: 1.6767E-07 | 4: delta_r/delta_0: 2.7814E-08 | 5: delta_s/delta_0: 1.4947E-08 | 6: delta_r/delta_0: 2.8747E-09 | 7: delta_s/delta_0: 1.5550E-09 | 8: delta_r/delta_0: 1.5456E-10 | 9: delta_s/delta_0: 5.9892E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.473478119741976E-004 2.745708716667723E-005 | BP delta = 7.9338131E-03 1.6871992E-02 29860506.8675501 | BP delta = 6.3458239E-03 1.5284003E-02 29860505.3569822 | 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 = 1.02536476 | --> Sampling calibration, mode = relcal | relcal = -0.1065728 -9.5456257E-02 0.1448444 5.7184707E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.9939675E-03 1.2476703E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 4.8159E-04 | 2: delta_r/delta_0: 1.0584E-05 | 3: delta_s/delta_0: 2.8730E-06 | 4: delta_r/delta_0: 2.5941E-07 | 5: delta_s/delta_0: 1.8675E-07 | 6: delta_r/delta_0: 7.5708E-09 | 7: delta_s/delta_0: 2.4475E-09 | 8: delta_r/delta_0: 8.1709E-10 | 9: delta_s/delta_0: 4.8625E-09 | 10: delta_r/delta_0: 1.9048E-10 | 11: delta_s/delta_0: 7.6521E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -5.882057531567144E-003 2.812567725069922E-005 | BP delta = -0.1899153 -0.1798768 34771138.8669027 | BP delta = -0.1887448 -0.1787063 34771138.9650730 | 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 = 0.81134672 | --> Sampling calibration, mode = relcal | relcal = 0.2949949 0.2246769 -0.2834314 -0.2362403 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -7.8523408E-05 5.0585098E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.1315E-03 | 2: delta_r/delta_0: 2.5932E-05 | 3: delta_s/delta_0: 1.9325E-05 | 4: delta_r/delta_0: 3.8685E-07 | 5: delta_s/delta_0: 4.1354E-06 | 6: delta_r/delta_0: 3.7457E-07 | 7: delta_s/delta_0: 5.0667E-08 | 8: delta_r/delta_0: 3.5917E-08 | 9: delta_s/delta_0: 7.4075E-07 | 10: delta_r/delta_0: 5.8965E-09 | 11: delta_s/delta_0: 9.4284E-10 | 12: delta_r/delta_0: 6.8060E-10 | 13: delta_s/delta_0: 3.1505E-10 | 14: delta_r/delta_0: 1.3598E-10 | 15: delta_s/delta_0: 3.5728E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.973372269898963E-002 4.025990309418944E-005 | BP delta = -8.2780570E-02 -0.1143889 43106869.3939748 | BP delta = -8.9745201E-02 -0.1213535 43106869.3097756 | 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 = 0.95810471 | --> Sampling calibration, mode = relcal | relcal = 0.1064658 0.1393839 -0.1100619 -0.1357878 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0410816E-02 1.4204495E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 9.8026E-04 | 2: delta_r/delta_0: 2.2798E-05 | 3: delta_s/delta_0: 2.4603E-06 | 4: delta_r/delta_0: 4.5846E-07 | 5: delta_s/delta_0: 2.5209E-06 | 6: delta_r/delta_0: 1.4629E-07 | 7: delta_s/delta_0: 5.8873E-08 | 8: delta_r/delta_0: 4.1905E-08 | 9: delta_s/delta_0: 2.2862E-06 | 10: delta_r/delta_0: 7.8911E-09 | 11: delta_s/delta_0: 1.3173E-09 | 12: delta_r/delta_0: 7.8355E-10 | 13: delta_s/delta_0: 9.2079E-07 | 14: delta_r/delta_0: 2.5884E-07 | 15: delta_s/delta_0: 5.0171E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.221220411728935E-002 3.701283480044460E-005 | BP delta = 0.2660555 0.2884242 43049613.5688020 | BP delta = 0.2633558 0.2857246 43049613.5196138 | 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 = 0.52099652 | --> Sampling calibration, mode = relcal | relcal = -5.1003493E-02 -3.7730830E-03 2.7292006E-02 2.7484572E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.5509528E-04 1.2558178E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.5186E-05 | 2: delta_r/delta_0: 4.5463E-06 | 3: delta_s/delta_0: 6.0283E-06 | 4: delta_r/delta_0: 9.2640E-07 | 5: delta_s/delta_0: 4.5525E-08 | 6: delta_r/delta_0: 2.8683E-08 | 7: delta_s/delta_0: 9.9499E-08 | 8: delta_r/delta_0: 7.0643E-09 | 9: delta_s/delta_0: 2.7837E-09 | 10: delta_r/delta_0: 7.4968E-10 | 11: delta_s/delta_0: 9.4310E-10 | 12: delta_r/delta_0: 3.9367E-10 | 13: delta_s/delta_0: 2.5659E-10 | 14: delta_r/delta_0: 5.2607E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.069461634862556E-002 5.489372215171064E-005 | BP delta = -5.6801185E-02 7.0367351E-02 61508412.0080255 | BP delta = -9.4746031E-02 3.2422505E-02 61508411.9249545 | 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 = 0.42110717 | --> Sampling calibration, mode = relcal | relcal = 4.5582015E-02 3.9547998E-02 -2.8176041E-02 -5.6953970E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.8080472E-03 4.0222583E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 8.1105E-05 | 2: delta_r/delta_0: 3.1600E-06 | 3: delta_s/delta_0: 1.7290E-06 | 4: delta_r/delta_0: 1.9588E-07 | 5: delta_s/delta_0: 7.0898E-08 | 6: delta_r/delta_0: 3.4239E-08 | 7: delta_s/delta_0: 5.9443E-07 | 8: delta_r/delta_0: 8.4341E-09 | 9: delta_s/delta_0: 3.1593E-09 | 10: delta_r/delta_0: 1.5099E-09 | 11: delta_s/delta_0: 1.4659E-09 | 12: delta_r/delta_0: 4.9488E-10 | 13: delta_s/delta_0: 1.2342E-10 | 14: delta_r/delta_0: 3.4357E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.337876984084108E-002 5.001335098116794E-005 | BP delta = -0.1235706 -0.1560729 61337158.1528155 | BP delta = -0.1491524 -0.1816547 61337158.2179860 | 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 = 0.28129074 | --> Sampling calibration, mode = relcal | relcal = 2.4157463E-02 4.5142505E-02 -2.3342405E-02 -4.5957565E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.8372214E-03 2.1090072E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.1490E-04 | 2: delta_r/delta_0: 8.9849E-06 | 3: delta_s/delta_0: 1.5699E-06 | 4: delta_r/delta_0: 2.4846E-07 | 5: delta_s/delta_0: 8.3434E-08 | 6: delta_r/delta_0: 2.0200E-08 | 7: delta_s/delta_0: 8.2606E-09 | 8: delta_r/delta_0: 5.0621E-09 | 9: delta_s/delta_0: 1.3395E-08 | 10: delta_r/delta_0: 3.8358E-09 | 11: delta_s/delta_0: 4.1587E-09 | 12: delta_r/delta_0: 5.0169E-10 | 13: delta_s/delta_0: 7.1132E-10 | 14: delta_r/delta_0: 1.7930E-10 | 15: delta_s/delta_0: 3.4710E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.018965714998103E-003 7.853197885830973E-005 | BP delta = 6.0838506E-02 -7.9858288E-02 94956828.8681784 | BP delta = 4.7204837E-02 -9.3491957E-02 94956828.8029190 | 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 = 0.29365618 | --> Sampling calibration, mode = relcal | relcal = 5.1017170E-04 1.0325379E-02 -3.8148433E-03 -7.0207068E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.8526416E-02 1.6925544E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.3191E-04 | 2: delta_r/delta_0: 1.1283E-05 | 3: delta_s/delta_0: 1.8730E-06 | 4: delta_r/delta_0: 2.9688E-07 | 5: delta_s/delta_0: 1.2116E-07 | 6: delta_r/delta_0: 2.3039E-08 | 7: delta_s/delta_0: 9.5069E-09 | 8: delta_r/delta_0: 6.3663E-09 | 9: delta_s/delta_0: 4.6166E-09 | 10: delta_r/delta_0: 2.1555E-09 | 11: delta_s/delta_0: 4.4412E-04 | 12: delta_r/delta_0: 1.4751E-07 | 13: delta_s/delta_0: 7.0478E-09 | 14: delta_r/delta_0: 9.0679E-10 | 15: delta_s/delta_0: 8.7272E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.302956065028484E-003 8.314297830759517E-005 | BP delta = -0.6796048 -0.6277200 93508843.7184148 | BP delta = -0.6796126 -0.6277279 93508843.7183608 | 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 = 0.26479095 | --> Sampling calibration, mode = relcal | relcal = -5.6653847E-03 1.4995637E-02 -2.3334811E-03 -6.9967718E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -1.9700918E-03 6.5238462E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4239E-04 | 2: delta_r/delta_0: 1.2190E-05 | 3: delta_s/delta_0: 2.1864E-06 | 4: delta_r/delta_0: 2.9579E-07 | 5: delta_s/delta_0: 1.2857E-07 | 6: delta_r/delta_0: 2.2629E-08 | 7: delta_s/delta_0: 8.3692E-09 | 8: delta_r/delta_0: 5.1428E-09 | 9: delta_s/delta_0: 7.2061E-09 | 10: delta_r/delta_0: 4.2560E-09 | 11: delta_s/delta_0: 2.2529E-07 | 12: delta_r/delta_0: 3.1855E-08 | 13: delta_s/delta_0: 1.0210E-08 | 14: delta_r/delta_0: 6.0386E-09 | 15: delta_s/delta_0: 1.3117E-10 | 16: delta_r/delta_0: 6.8786E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -7.383388985663267E-003 9.162819340235610E-005 | BP delta = 0.2065738 0.2895426 94712576.3809446 | BP delta = 0.2131666 0.2961355 94712576.3967810 | 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 = 0.25635232 | --> Sampling calibration, mode = relcal | relcal = -3.1550013E-02 -2.5879376E-02 3.6743440E-02 2.0685948E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.2920951E-02 1.8681411E-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: 1.2349E-05 | 3: delta_s/delta_0: 1.9859E-06 | 4: delta_r/delta_0: 3.8027E-07 | 5: delta_s/delta_0: 1.4237E-07 | 6: delta_r/delta_0: 2.6157E-08 | 7: delta_s/delta_0: 1.0761E-08 | 8: delta_r/delta_0: 5.6740E-09 | 9: delta_s/delta_0: 1.5400E-08 | 10: delta_r/delta_0: 3.7559E-09 | 11: delta_s/delta_0: 3.8181E-09 | 12: delta_r/delta_0: 1.0012E-09 | 13: delta_s/delta_0: 1.0601E-09 | 14: delta_r/delta_0: 4.8455E-10 | 15: delta_s/delta_0: 8.8548E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -8.663053295943269E-003 8.680863077974598E-005 | BP delta = -0.6344471 -0.7195809 93063913.9320964 | BP delta = -0.6225703 -0.7077041 93063913.9583572 | 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 = -3.103106 | New value = -3.131372 | poltype: 2 pol: 1 CPU time specind = 4.6050549E-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 = -3.177267 | New value = -3.132161 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.153297 | New value = -3.053785 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.183938 | New value = -3.241044 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.195247 | New value = -3.153963 | poltype: 2 pol: 2 CPU time specind = 1.0809898E-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 = 4.12 | CG iter. 1 -- res = 0.13551E+08, tol = 0.76989E+01, time = 1.51 | CG iter. 2 -- res = 0.51638E+05, tol = 0.76989E+01, time = 1.55 | CG iter. 3 -- res = 0.46739E+05, tol = 0.76989E+01, time = 1.52 | CG iter. 4 -- res = 0.23106E+05, tol = 0.76989E+01, time = 1.54 | CG iter. 5 -- res = 0.28699E+05, tol = 0.76989E+01, time = 1.59 | CG iter. 6 -- res = 0.28608E+05, tol = 0.76989E+01, time = 1.51 | CG iter. 7 -- res = 0.24163E+05, tol = 0.76989E+01, time = 1.51 | CG iter. 8 -- res = 0.20247E+05, tol = 0.76989E+01, time = 1.50 | CG iter. 9 -- res = 0.18075E+05, tol = 0.76989E+01, time = 1.48 | CG iter. 10 -- res = 0.20480E+05, tol = 0.76989E+01, time = 1.49 | CG iter. 11 -- res = 0.96043E+04, tol = 0.76989E+01, time = 1.44 | CG iter. 12 -- res = 0.57976E+04, tol = 0.76989E+01, time = 1.52 | CG iter. 13 -- res = 0.45223E+04, tol = 0.76989E+01, time = 1.49 | CG iter. 14 -- res = 0.46571E+04, tol = 0.76989E+01, time = 1.55 | CG iter. 15 -- res = 0.41234E+04, tol = 0.76989E+01, time = 1.53 | CG iter. 16 -- res = 0.31206E+04, tol = 0.76989E+01, time = 1.51 | CG iter. 17 -- res = 0.22914E+04, tol = 0.76989E+01, time = 1.50 | CG iter. 18 -- res = 0.16043E+04, tol = 0.76989E+01, time = 1.51 | CG iter. 19 -- res = 0.13861E+04, tol = 0.76989E+01, time = 1.48 | CG iter. 20 -- res = 0.10071E+04, tol = 0.76989E+01, time = 1.51 | CG iter. 21 -- res = 0.85516E+03, tol = 0.76989E+01, time = 1.48 | CG iter. 22 -- res = 0.85102E+03, tol = 0.76989E+01, time = 1.53 | CG iter. 23 -- res = 0.65267E+03, tol = 0.76989E+01, time = 1.53 | CG iter. 24 -- res = 0.53261E+03, tol = 0.76989E+01, time = 1.57 | CG iter. 25 -- res = 0.47139E+03, tol = 0.76989E+01, time = 1.50 | CG iter. 26 -- res = 0.44846E+03, tol = 0.76989E+01, time = 1.54 | CG iter. 27 -- res = 0.33586E+03, tol = 0.76989E+01, time = 1.55 | CG iter. 28 -- res = 0.27551E+03, tol = 0.76989E+01, time = 1.52 | CG iter. 29 -- res = 0.25487E+03, tol = 0.76989E+01, time = 1.55 | CG iter. 30 -- res = 0.20510E+03, tol = 0.76989E+01, time = 1.52 | CG iter. 31 -- res = 0.16014E+03, tol = 0.76989E+01, time = 1.57 | CG iter. 32 -- res = 0.14457E+03, tol = 0.76989E+01, time = 1.54 | CG iter. 33 -- res = 0.10698E+03, tol = 0.76989E+01, time = 1.55 | CG iter. 34 -- res = 0.81950E+02, tol = 0.76989E+01, time = 1.58 | CG iter. 35 -- res = 0.66047E+02, tol = 0.76989E+01, time = 1.52 | CG iter. 36 -- res = 0.49509E+02, tol = 0.76989E+01, time = 1.51 | CG iter. 37 -- res = 0.36991E+02, tol = 0.76989E+01, time = 1.54 | CG iter. 38 -- res = 0.29797E+02, tol = 0.76989E+01, time = 1.56 | CG iter. 39 -- res = 0.37344E+02, tol = 0.76989E+01, time = 1.53 | CG iter. 40 -- res = 0.19985E+02, tol = 0.76989E+01, time = 1.53 | CG iter. 41 -- res = 0.15156E+02, tol = 0.76989E+01, time = 1.59 | CG iter. 42 -- res = 0.12627E+02, tol = 0.76989E+01, time = 1.56 | CG iter. 43 -- res = 0.11779E+02, tol = 0.76989E+01, time = 1.54 | CG iter. 44 -- res = 0.10201E+02, tol = 0.76989E+01, time = 1.58 | CG iter. 45 -- res = 0.64415E+01, tol = 0.76989E+01, time = 1.56 | CG iter. 46 -- res = 0.42035E+01, tol = 0.76989E+01, time = 1.53 | CG iter. 47 -- res = 0.30927E+01, tol = 0.76989E+01, time = 1.56 | CG iter. 48 -- res = 0.24201E+01, tol = 0.76989E+01, time = 1.54 | CG iter. 49 -- res = 0.16011E+01, tol = 0.76989E+01, time = 1.52 | CG iter. 50 -- res = 0.12642E+01, tol = 0.76989E+01, time = 1.48 | Final CG iter 51 -- res = 0.12642E+01, tol = 0.76989E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 7629593.840 | Old band monopole 9032681.299 | Change to band monopole -1403087.459 | Change to component monopole 1403081.424 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 4.12 | CG iter. 1 -- res = 0.22901E+04, tol = 0.47627E+18, time = 0.36 | CG iter. 2 -- res = 0.18938E+02, tol = 0.47627E+18, time = 0.34 | CG iter. 3 -- res = 0.34292E+00, tol = 0.47627E+18, time = 0.36 | CG iter. 4 -- res = 0.59920E-04, tol = 0.47627E+18, time = 0.40 | Final CG iter 5 -- res = 0.50006E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7629561.024 | (Sampled value in CG: 7611390.541 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.477884 | New value = 1.529381 | poltype: 2 pol: 1 CPU time specind = 4.5800209E-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 = 1.484702 | New value = 1.520633 | poltype: 2 pol: 2 CPU time specind = 1.0180473E-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 = 4.12 | CG iter. 1 -- res = 0.24645E+08, tol = 0.47649E+04, time = 1.79 | CG iter. 2 -- res = 0.53261E+07, tol = 0.47649E+04, time = 1.76 | CG iter. 3 -- res = 0.84951E+06, tol = 0.47649E+04, time = 1.69 | CG iter. 4 -- res = 0.36948E+06, tol = 0.47649E+04, time = 1.71 | CG iter. 5 -- res = 0.16095E+06, tol = 0.47649E+04, time = 1.76 | CG iter. 6 -- res = 0.82466E+05, tol = 0.47649E+04, time = 1.75 | CG iter. 7 -- res = 0.44011E+05, tol = 0.47649E+04, time = 1.76 | CG iter. 8 -- res = 0.21158E+05, tol = 0.47649E+04, time = 1.81 | CG iter. 9 -- res = 0.93420E+04, tol = 0.47649E+04, time = 1.78 | CG iter. 10 -- res = 0.37459E+04, tol = 0.47649E+04, time = 1.77 | CG iter. 11 -- res = 0.16651E+04, tol = 0.47649E+04, time = 1.77 | CG iter. 12 -- res = 0.86233E+03, tol = 0.47649E+04, time = 1.81 | CG iter. 13 -- res = 0.48270E+03, tol = 0.47649E+04, time = 1.77 | CG iter. 14 -- res = 0.27334E+03, tol = 0.47649E+04, time = 1.79 | CG iter. 15 -- res = 0.14021E+03, tol = 0.47649E+04, time = 1.72 | CG iter. 16 -- res = 0.66931E+02, tol = 0.47649E+04, time = 1.75 | CG iter. 17 -- res = 0.30995E+02, tol = 0.47649E+04, time = 1.83 | CG iter. 18 -- res = 0.15557E+02, tol = 0.47649E+04, time = 1.79 | CG iter. 19 -- res = 0.83763E+01, tol = 0.47649E+04, time = 1.79 | CG iter. 20 -- res = 0.46676E+01, tol = 0.47649E+04, time = 1.78 | CG iter. 21 -- res = 0.26128E+01, tol = 0.47649E+04, time = 1.82 | CG iter. 22 -- res = 0.13873E+01, tol = 0.47649E+04, time = 1.80 | CG iter. 23 -- res = 0.69010E+00, tol = 0.47649E+04, time = 1.78 | CG iter. 24 -- res = 0.35165E+00, tol = 0.47649E+04, time = 1.78 | CG iter. 25 -- res = 0.19541E+00, tol = 0.47649E+04, time = 1.78 | CG iter. 26 -- res = 0.11278E+00, tol = 0.47649E+04, time = 1.81 | CG iter. 27 -- res = 0.62824E-01, tol = 0.47649E+04, time = 1.80 | CG iter. 28 -- res = 0.33868E-01, tol = 0.47649E+04, time = 1.78 | CG iter. 29 -- res = 0.17756E-01, tol = 0.47649E+04, time = 1.76 | CG iter. 30 -- res = 0.92256E-02, tol = 0.47649E+04, time = 1.76 | CG iter. 31 -- res = 0.50549E-02, tol = 0.47649E+04, time = 1.75 | CG iter. 32 -- res = 0.28366E-02, tol = 0.47649E+04, time = 1.78 | CG iter. 33 -- res = 0.16037E-02, tol = 0.47649E+04, time = 1.79 | CG iter. 34 -- res = 0.86733E-03, tol = 0.47649E+04, time = 1.82 | CG iter. 35 -- res = 0.45034E-03, tol = 0.47649E+04, time = 1.74 | Final CG iter 36 -- res = 0.45034E-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) -0.629 2.734 | New value -0.488 | Old value -0.629 | Difference 0.141 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 4.12 | CG iter. 1 -- res = 0.29638E+04, tol = 0.47627E+18, time = 0.36 | CG iter. 2 -- res = 0.12303E+02, tol = 0.47627E+18, time = 0.37 | CG iter. 3 -- res = 0.28190E+00, tol = 0.47627E+18, time = 0.37 | CG iter. 4 -- res = 0.23833E-03, tol = 0.47627E+18, time = 0.38 | Final CG iter 5 -- res = 0.42744E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7629561.024 | (Sampled value in CG: 7610610.742 ) | 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 = -3.587635 | New value = -3.621016 | poltype: 1 pol: 1 CPU time specind = 1.5861988E-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 = 4.11 | CG iter. 1 -- res = 0.25513E+07, tol = 0.13083E+01, time = 0.67 | CG iter. 2 -- res = 0.71559E+05, tol = 0.13083E+01, time = 0.68 | CG iter. 3 -- res = 0.38756E+05, tol = 0.13083E+01, time = 0.67 | CG iter. 4 -- res = 0.14736E+05, tol = 0.13083E+01, time = 0.68 | CG iter. 5 -- res = 0.42096E+04, tol = 0.13083E+01, time = 0.68 | CG iter. 6 -- res = 0.18014E+04, tol = 0.13083E+01, time = 0.67 | CG iter. 7 -- res = 0.58067E+03, tol = 0.13083E+01, time = 0.63 | CG iter. 8 -- res = 0.23050E+03, tol = 0.13083E+01, time = 0.65 | CG iter. 9 -- res = 0.13888E+03, tol = 0.13083E+01, time = 0.65 | CG iter. 10 -- res = 0.34048E+02, tol = 0.13083E+01, time = 0.68 | CG iter. 11 -- res = 0.13251E+02, tol = 0.13083E+01, time = 0.67 | CG iter. 12 -- res = 0.68392E+01, tol = 0.13083E+01, time = 0.65 | CG iter. 13 -- res = 0.23471E+01, tol = 0.13083E+01, time = 0.65 | CG iter. 14 -- res = 0.64341E+00, tol = 0.13083E+01, time = 0.63 | CG iter. 15 -- res = 0.22351E+00, tol = 0.13083E+01, time = 0.66 | CG iter. 16 -- res = 0.79637E-01, tol = 0.13083E+01, time = 0.63 | CG iter. 17 -- res = 0.36801E-01, tol = 0.13083E+01, time = 0.65 | CG iter. 18 -- res = 0.13900E-01, tol = 0.13083E+01, time = 0.65 | CG iter. 19 -- res = 0.45259E-02, tol = 0.13083E+01, time = 0.67 | CG iter. 20 -- res = 0.18654E-02, tol = 0.13083E+01, time = 0.68 | CG iter. 21 -- res = 0.70778E-03, tol = 0.13083E+01, time = 0.64 | CG iter. 22 -- res = 0.23583E-03, tol = 0.13083E+01, time = 0.68 | CG iter. 23 -- res = 0.96229E-04, tol = 0.13083E+01, time = 0.64 | CG iter. 24 -- res = 0.36189E-04, tol = 0.13083E+01, time = 0.64 | CG iter. 25 -- res = 0.91208E-05, tol = 0.13083E+01, time = 0.66 | CG iter. 26 -- res = 0.29937E-05, tol = 0.13083E+01, time = 0.68 | CG iter. 27 -- res = 0.10961E-05, tol = 0.13083E+01, time = 0.65 | CG iter. 28 -- res = 0.38282E-06, tol = 0.13083E+01, time = 0.67 | CG iter. 29 -- res = 0.11757E-06, tol = 0.13083E+01, time = 0.68 | CG iter. 30 -- res = 0.33786E-07, tol = 0.13083E+01, time = 0.67 | CG iter. 31 -- res = 0.11489E-07, tol = 0.13083E+01, time = 0.66 | CG iter. 32 -- res = 0.50435E-08, tol = 0.13083E+01, time = 0.66 | CG iter. 33 -- res = 0.37207E-08, tol = 0.13083E+01, time = 0.67 | CG iter. 34 -- res = 0.98950E-09, tol = 0.13083E+01, time = 0.68 | CG iter. 35 -- res = 0.29160E-09, tol = 0.13083E+01, time = 0.62 | CG iter. 36 -- res = 0.95321E-10, tol = 0.13083E+01, time = 0.65 | CG iter. 37 -- res = 0.32203E-10, tol = 0.13083E+01, time = 0.65 | CG iter. 38 -- res = 0.13948E-10, tol = 0.13083E+01, time = 0.65 | CG iter. 39 -- res = 0.83390E-11, tol = 0.13083E+01, time = 0.61 | CG iter. 40 -- res = 0.17949E-11, tol = 0.13083E+01, time = 0.64 | CG iter. 41 -- res = 0.54920E-12, tol = 0.13083E+01, time = 0.68 | CG iter. 42 -- res = 0.17778E-12, tol = 0.13083E+01, time = 0.66 | CG iter. 43 -- res = 0.50654E-13, tol = 0.13083E+01, time = 0.68 | CG iter. 44 -- res = 0.13387E-13, tol = 0.13083E+01, time = 0.64 | CG iter. 45 -- res = 0.44495E-14, tol = 0.13083E+01, time = 0.65 | CG iter. 46 -- res = 0.14723E-14, tol = 0.13083E+01, time = 0.64 | CG iter. 47 -- res = 0.57042E-15, tol = 0.13083E+01, time = 0.64 | CG iter. 48 -- res = 0.18285E-15, tol = 0.13083E+01, time = 0.61 | CG iter. 49 -- res = 0.57444E-16, tol = 0.13083E+01, time = 0.63 | CG iter. 50 -- res = 0.19343E-16, tol = 0.13083E+01, time = 0.62 | Final CG iter 51 -- res = 0.19343E-16, tol = 0.13083E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 1.967 1.944 | New value -3.540 | Old value 1.967 | Difference -5.507 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 4.11 | CG iter. 1 -- res = 0.18626E+05, tol = 0.47627E+18, time = 0.39 | CG iter. 2 -- res = 0.20381E+02, tol = 0.47627E+18, time = 0.39 | CG iter. 3 -- res = 0.14819E+00, tol = 0.47627E+18, time = 0.38 | CG iter. 4 -- res = 0.69077E-04, tol = 0.47627E+18, time = 0.40 | Final CG iter 5 -- res = 0.54713E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7629561.024 | (Sampled value in CG: 7619140.473 ) | CPU time specind = 275.6900 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 4.12 | CG iter. 1 -- res = 0.69119E+08, tol = 0.51560E+04, time = 3.23 | CG iter. 2 -- res = 0.33082E+08, tol = 0.51560E+04, time = 3.24 | CG iter. 3 -- res = 0.57992E+07, tol = 0.51560E+04, time = 3.19 | CG iter. 4 -- res = 0.29926E+07, tol = 0.51560E+04, time = 3.18 | CG iter. 5 -- res = 0.13520E+07, tol = 0.51560E+04, time = 3.12 | CG iter. 6 -- res = 0.73063E+06, tol = 0.51560E+04, time = 3.12 | CG iter. 7 -- res = 0.40180E+06, tol = 0.51560E+04, time = 3.19 | CG iter. 8 -- res = 0.20391E+06, tol = 0.51560E+04, time = 3.29 | CG iter. 9 -- res = 0.10316E+06, tol = 0.51560E+04, time = 3.21 | CG iter. 10 -- res = 0.48991E+05, tol = 0.51560E+04, time = 3.10 | CG iter. 11 -- res = 0.27039E+05, tol = 0.51560E+04, time = 3.19 | CG iter. 12 -- res = 0.17249E+05, tol = 0.51560E+04, time = 3.09 | CG iter. 13 -- res = 0.12567E+05, tol = 0.51560E+04, time = 3.14 | CG iter. 14 -- res = 0.10706E+05, tol = 0.51560E+04, time = 3.07 | CG iter. 15 -- res = 0.91335E+04, tol = 0.51560E+04, time = 3.17 | CG iter. 16 -- res = 0.84716E+04, tol = 0.51560E+04, time = 3.16 | CG iter. 17 -- res = 0.80338E+04, tol = 0.51560E+04, time = 3.22 | CG iter. 18 -- res = 0.82209E+04, tol = 0.51560E+04, time = 3.20 | CG iter. 19 -- res = 0.86743E+04, tol = 0.51560E+04, time = 3.15 | CG iter. 20 -- res = 0.85438E+04, tol = 0.51560E+04, time = 3.10 | CG iter. 21 -- res = 0.72374E+04, tol = 0.51560E+04, time = 3.10 | CG iter. 22 -- res = 0.52104E+04, tol = 0.51560E+04, time = 3.11 | CG iter. 23 -- res = 0.36443E+04, tol = 0.51560E+04, time = 3.06 | CG iter. 24 -- res = 0.28007E+04, tol = 0.51560E+04, time = 3.19 | CG iter. 25 -- res = 0.23881E+04, tol = 0.51560E+04, time = 3.17 | CG iter. 26 -- res = 0.21116E+04, tol = 0.51560E+04, time = 3.16 | CG iter. 27 -- res = 0.17817E+04, tol = 0.51560E+04, time = 3.20 | CG iter. 28 -- res = 0.14741E+04, tol = 0.51560E+04, time = 3.11 | CG iter. 29 -- res = 0.13226E+04, tol = 0.51560E+04, time = 3.20 | CG iter. 30 -- res = 0.13366E+04, tol = 0.51560E+04, time = 3.09 | CG iter. 31 -- res = 0.13802E+04, tol = 0.51560E+04, time = 3.17 | CG iter. 32 -- res = 0.12924E+04, tol = 0.51560E+04, time = 3.20 | CG iter. 33 -- res = 0.10395E+04, tol = 0.51560E+04, time = 3.17 | CG iter. 34 -- res = 0.80596E+03, tol = 0.51560E+04, time = 3.15 | CG iter. 35 -- res = 0.68903E+03, tol = 0.51560E+04, time = 3.20 | CG iter. 36 -- res = 0.65912E+03, tol = 0.51560E+04, time = 3.11 | CG iter. 37 -- res = 0.65355E+03, tol = 0.51560E+04, time = 3.24 | CG iter. 38 -- res = 0.59834E+03, tol = 0.51560E+04, time = 3.16 | CG iter. 39 -- res = 0.52540E+03, tol = 0.51560E+04, time = 3.16 | CG iter. 40 -- res = 0.49664E+03, tol = 0.51560E+04, time = 3.16 | CG iter. 41 -- res = 0.53310E+03, tol = 0.51560E+04, time = 3.12 | CG iter. 42 -- res = 0.59047E+03, tol = 0.51560E+04, time = 3.13 | CG iter. 43 -- res = 0.59937E+03, tol = 0.51560E+04, time = 3.21 | CG iter. 44 -- res = 0.54935E+03, tol = 0.51560E+04, time = 3.16 | CG iter. 45 -- res = 0.49326E+03, tol = 0.51560E+04, time = 3.15 | CG iter. 46 -- res = 0.48807E+03, tol = 0.51560E+04, time = 3.14 | CG iter. 47 -- res = 0.51590E+03, tol = 0.51560E+04, time = 3.09 | CG iter. 48 -- res = 0.53554E+03, tol = 0.51560E+04, time = 3.05 | CG iter. 49 -- res = 0.51476E+03, tol = 0.51560E+04, time = 3.17 | CG iter. 50 -- res = 0.48573E+03, tol = 0.51560E+04, time = 3.10 | CG iter. 51 -- res = 0.49188E+03, tol = 0.51560E+04, time = 3.15 | CG iter. 52 -- res = 0.54483E+03, tol = 0.51560E+04, time = 3.10 | CG iter. 53 -- res = 0.60332E+03, tol = 0.51560E+04, time = 3.11 | CG iter. 54 -- res = 0.61478E+03, tol = 0.51560E+04, time = 3.19 | CG iter. 55 -- res = 0.58204E+03, tol = 0.51560E+04, time = 3.27 | CG iter. 56 -- res = 0.55792E+03, tol = 0.51560E+04, time = 3.19 | CG iter. 57 -- res = 0.58476E+03, tol = 0.51560E+04, time = 3.11 | CG iter. 58 -- res = 0.62239E+03, tol = 0.51560E+04, time = 3.18 | CG iter. 59 -- res = 0.63347E+03, tol = 0.51560E+04, time = 3.28 | CG iter. 60 -- res = 0.59238E+03, tol = 0.51560E+04, time = 3.24 | Final CG iter 61 -- res = 0.59238E+03, tol = 0.51560E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 2.967 ( -231.700 -2233.821 2516.552 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 10801873.983 | Old band monopole 7629593.840 | Change to band monopole 3172280.143 | Change to component monopole -3172266.499 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -0.484 2.740 | New value 5.377 | Old value -0.484 | Difference 5.861 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -3.538 ( 7.622 12.044 -12.844 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 7.210 2.314 | New value 1.738 | Old value 7.210 | Difference -5.472 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 4.12 | CG iter. 1 -- res = 0.18204E+07, tol = 0.47627E+18, time = 0.37 | CG iter. 2 -- res = 0.60853E+02, tol = 0.47627E+18, time = 0.37 | CG iter. 3 -- res = 0.14753E+01, tol = 0.47627E+18, time = 0.34 | CG iter. 4 -- res = 0.93945E-02, tol = 0.47627E+18, time = 0.38 | Final CG iter 5 -- res = 0.86544E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10801827.522 | (Sampled value in CG: 10741204.639 ) | Chain = 1 -- chisq = 0.61658830E+09 | Chain = 1 -- wall time = 4099.699 sec --------------------------------------------------------------------- | Chain = 1 -- Iteration = 68 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18030696440088 | --> Sampling calibration, mode = relcal | relcal = -7.5108886E-02 -5.8496535E-02 9.1903664E-02 4.1701760E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -2.2479852E-04 4.2578499E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.0840E-05 | 2: delta_r/delta_0: 9.2493E-07 | 3: delta_s/delta_0: 2.1141E-07 | 4: delta_r/delta_0: 2.0764E-08 | 5: delta_s/delta_0: 6.6363E-09 | 6: delta_r/delta_0: 1.2858E-09 | 7: delta_s/delta_0: 3.8410E-08 | 8: delta_r/delta_0: 2.5658E-10 | 9: delta_s/delta_0: 8.4279E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 9.468135579668432E-004 2.742669969350874E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.0841E-05 | 2: delta_r/delta_0: 9.2502E-07 | 3: delta_s/delta_0: 2.1142E-07 | 4: delta_r/delta_0: 2.0761E-08 | 5: delta_s/delta_0: 6.6399E-09 | 6: delta_r/delta_0: 1.2874E-09 | 7: delta_s/delta_0: 3.8260E-08 | 8: delta_r/delta_0: 2.5605E-10 | 9: delta_s/delta_0: 8.4212E-11 | Reached bicg-stab tolerance | BP delta = 6.3458239E-03 1.5284003E-02 3768859.86607158 | BP delta = 6.3458239E-03 1.3996582E-02 3775682.92537493 | 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 = 1.02510940 | --> Sampling calibration, mode = relcal | relcal = -0.1065606 -9.5481314E-02 0.1448238 5.7218101E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.8022567E-03 1.2132652E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.9655E-04 | 2: delta_r/delta_0: 6.4879E-06 | 3: delta_s/delta_0: 2.6321E-06 | 4: delta_r/delta_0: 2.5368E-07 | 5: delta_s/delta_0: 5.7935E-08 | 6: delta_r/delta_0: 4.8285E-09 | 7: delta_s/delta_0: 5.7751E-09 | 8: delta_r/delta_0: 2.8157E-09 | 9: delta_s/delta_0: 3.2035E-09 | 10: delta_r/delta_0: 1.8161E-09 | 11: delta_s/delta_0: 1.7150E-10 | 12: delta_r/delta_0: 1.3153E-10 | 13: delta_s/delta_0: 7.0514E-10 | 14: delta_r/delta_0: 2.4762E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -7.719352132391864E-003 2.813263447455876E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 2.9661E-04 | 2: delta_r/delta_0: 6.4892E-06 | 3: delta_s/delta_0: 2.6323E-06 | 4: delta_r/delta_0: 2.5370E-07 | 5: delta_s/delta_0: 5.7965E-08 | 6: delta_r/delta_0: 4.8286E-09 | 7: delta_s/delta_0: 5.7491E-09 | 8: delta_r/delta_0: 2.8073E-09 | 9: delta_s/delta_0: 3.2000E-09 | 10: delta_r/delta_0: 1.8135E-09 | 11: delta_s/delta_0: 1.7160E-10 | 12: delta_r/delta_0: 1.3168E-10 | 13: delta_s/delta_0: 7.1265E-10 | 14: delta_r/delta_0: 2.4719E-11 | Reached bicg-stab tolerance | BP delta = -0.1887448 -0.1787063 2841557.66495592 | BP delta = -0.1887448 -0.1836508 2841721.34334263 | 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 = 0.81149712 | --> Sampling calibration, mode = relcal | relcal = 0.2952639 0.2245847 -0.2835772 -0.2362715 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -3.1558346E-04 5.4371739E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 8.4502E-04 | 2: delta_r/delta_0: 1.9219E-05 | 3: delta_s/delta_0: 1.0556E-05 | 4: delta_r/delta_0: 1.2438E-06 | 5: delta_s/delta_0: 2.5176E-07 | 6: delta_r/delta_0: 6.3544E-08 | 7: delta_s/delta_0: 5.2768E-08 | 8: delta_r/delta_0: 3.3973E-08 | 9: delta_s/delta_0: 3.0469E-08 | 10: delta_r/delta_0: 2.6249E-09 | 11: delta_s/delta_0: 1.0475E-09 | 12: delta_r/delta_0: 6.4989E-10 | 13: delta_s/delta_0: 9.7818E-10 | 14: delta_r/delta_0: 3.1863E-10 | 15: delta_s/delta_0: 2.4897E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.830240794863597E-002 4.025437308164080E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 8.4423E-04 | 2: delta_r/delta_0: 1.9200E-05 | 3: delta_s/delta_0: 1.0561E-05 | 4: delta_r/delta_0: 1.2445E-06 | 5: delta_s/delta_0: 2.5145E-07 | 6: delta_r/delta_0: 6.3529E-08 | 7: delta_s/delta_0: 5.2753E-08 | 8: delta_r/delta_0: 3.3977E-08 | 9: delta_s/delta_0: 3.0516E-08 | 10: delta_r/delta_0: 2.6186E-09 | 11: delta_s/delta_0: 1.0475E-09 | 12: delta_r/delta_0: 6.4738E-10 | 13: delta_s/delta_0: 9.8116E-10 | 14: delta_r/delta_0: 3.1894E-10 | 15: delta_s/delta_0: 2.4888E-11 | Reached bicg-stab tolerance | BP delta = -8.9745201E-02 -0.1213535 2827615.29522705 | BP delta = -8.9745201E-02 -9.7095676E-02 2827939.12462249 | 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 = 0.95825681 | --> Sampling calibration, mode = relcal | relcal = 0.1063965 0.1394423 -0.1101765 -0.1356622 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0124399E-02 1.3027679E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 7.7644E-04 | 2: delta_r/delta_0: 1.7931E-05 | 3: delta_s/delta_0: 1.8324E-05 | 4: delta_r/delta_0: 4.2397E-07 | 5: delta_s/delta_0: 2.6010E-06 | 6: delta_r/delta_0: 2.6968E-07 | 7: delta_s/delta_0: 5.2700E-08 | 8: delta_r/delta_0: 3.8780E-08 | 9: delta_s/delta_0: 7.4517E-07 | 10: delta_r/delta_0: 4.3883E-09 | 11: delta_s/delta_0: 1.1094E-09 | 12: delta_r/delta_0: 7.1041E-10 | 13: delta_s/delta_0: 5.0004E-10 | 14: delta_r/delta_0: 1.0445E-10 | 15: delta_s/delta_0: 3.1489E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.140245351293516E-002 3.700690206662960E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 7.7627E-04 | 2: delta_r/delta_0: 1.7927E-05 | 3: delta_s/delta_0: 1.8328E-05 | 4: delta_r/delta_0: 4.2410E-07 | 5: delta_s/delta_0: 2.5998E-06 | 6: delta_r/delta_0: 2.6959E-07 | 7: delta_s/delta_0: 5.2702E-08 | 8: delta_r/delta_0: 3.8782E-08 | 9: delta_s/delta_0: 7.4555E-07 | 10: delta_r/delta_0: 4.3871E-09 | 11: delta_s/delta_0: 1.1092E-09 | 12: delta_r/delta_0: 7.1052E-10 | 13: delta_s/delta_0: 4.9986E-10 | 14: delta_r/delta_0: 1.0440E-10 | 15: delta_s/delta_0: 3.1495E-11 | Reached bicg-stab tolerance | BP delta = 0.2633558 0.2857246 3004890.22093305 | BP delta = 0.2633558 0.2873177 3004924.45227809 | 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 = 0.52103230 | --> Sampling calibration, mode = relcal | relcal = -5.1010635E-02 -3.6958831E-03 2.7242757E-02 2.7463760E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -2.3336428E-04 5.6626840E-04 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.5882E-05 | 2: delta_r/delta_0: 4.6356E-06 | 3: delta_s/delta_0: 1.5820E-04 | 4: delta_r/delta_0: 1.2905E-05 | 5: delta_s/delta_0: 4.4154E-08 | 6: delta_r/delta_0: 2.4109E-08 | 7: delta_s/delta_0: 6.1343E-08 | 8: delta_r/delta_0: 6.8485E-09 | 9: delta_s/delta_0: 1.7690E-09 | 10: delta_r/delta_0: 7.6601E-10 | 11: delta_s/delta_0: 6.5677E-10 | 12: delta_r/delta_0: 4.6814E-10 | 13: delta_s/delta_0: 4.5672E-09 | 14: delta_r/delta_0: 1.5425E-09 | 15: delta_s/delta_0: 1.7203E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.056741786498659E-002 5.488995603694730E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 6.5882E-05 | 2: delta_r/delta_0: 4.6355E-06 | 3: delta_s/delta_0: 1.5816E-04 | 4: delta_r/delta_0: 1.2902E-05 | 5: delta_s/delta_0: 4.4154E-08 | 6: delta_r/delta_0: 2.4109E-08 | 7: delta_s/delta_0: 6.1347E-08 | 8: delta_r/delta_0: 6.8485E-09 | 9: delta_s/delta_0: 1.7690E-09 | 10: delta_r/delta_0: 7.6607E-10 | 11: delta_s/delta_0: 6.5685E-10 | 12: delta_r/delta_0: 4.6823E-10 | 13: delta_s/delta_0: 4.5662E-09 | 14: delta_r/delta_0: 1.5426E-09 | 15: delta_s/delta_0: 1.7208E-11 | Reached bicg-stab tolerance | BP delta = -9.4746031E-02 3.2422505E-02 2435544.18313615 | BP delta = -9.4746031E-02 1.9877316E-02 2435552.51750654 | 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 = 0.42111446 | --> Sampling calibration, mode = relcal | relcal = 4.5496363E-02 3.9631549E-02 -2.8266188E-02 -5.6861728E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.8060085E-03 6.7771748E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.2690E-05 | 2: delta_r/delta_0: 3.6069E-06 | 3: delta_s/delta_0: 2.1878E-06 | 4: delta_r/delta_0: 3.2450E-07 | 5: delta_s/delta_0: 5.9652E-08 | 6: delta_r/delta_0: 3.3184E-08 | 7: delta_s/delta_0: 1.0615E-07 | 8: delta_r/delta_0: 5.8299E-09 | 9: delta_s/delta_0: 2.3204E-09 | 10: delta_r/delta_0: 1.0473E-09 | 11: delta_s/delta_0: 8.4849E-10 | 12: delta_r/delta_0: 5.9116E-10 | 13: delta_s/delta_0: 5.2230E-09 | 14: delta_r/delta_0: 3.3165E-10 | 15: delta_s/delta_0: 2.9350E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.315408264676153E-002 5.001278710843660E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 6.2690E-05 | 2: delta_r/delta_0: 3.6069E-06 | 3: delta_s/delta_0: 2.1877E-06 | 4: delta_r/delta_0: 3.2449E-07 | 5: delta_s/delta_0: 5.9654E-08 | 6: delta_r/delta_0: 3.3185E-08 | 7: delta_s/delta_0: 1.0617E-07 | 8: delta_r/delta_0: 5.8297E-09 | 9: delta_s/delta_0: 2.3203E-09 | 10: delta_r/delta_0: 1.0471E-09 | 11: delta_s/delta_0: 8.4826E-10 | 12: delta_r/delta_0: 5.9092E-10 | 13: delta_s/delta_0: 5.2279E-09 | 14: delta_r/delta_0: 3.3160E-10 | 15: delta_s/delta_0: 2.9342E-11 | Reached bicg-stab tolerance | BP delta = -0.1491524 -0.1816547 2322395.81600092 | BP delta = -0.1491524 -0.2014833 2322349.18697182 | BP chisq diff = -46.6, accept = T | | Finished processing 060-WMAP_V2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.28126999 | --> Sampling calibration, mode = relcal | relcal = 2.4208544E-02 4.4983782E-02 -2.3241643E-02 -4.5950681E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.7545255E-03 2.5210823E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.0821E-04 | 2: delta_r/delta_0: 8.9510E-06 | 3: delta_s/delta_0: 1.4845E-06 | 4: delta_r/delta_0: 2.0498E-07 | 5: delta_s/delta_0: 8.1788E-08 | 6: delta_r/delta_0: 1.6303E-08 | 7: delta_s/delta_0: 6.7403E-09 | 8: delta_r/delta_0: 4.4551E-09 | 9: delta_s/delta_0: 4.6125E-09 | 10: delta_r/delta_0: 3.0631E-09 | 11: delta_s/delta_0: 9.6901E-08 | 12: delta_r/delta_0: 5.2310E-10 | 13: delta_s/delta_0: 1.3353E-09 | 14: delta_r/delta_0: 4.1240E-10 | 15: delta_s/delta_0: 2.6751E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.552915728359207E-003 7.853148660658478E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.0821E-04 | 2: delta_r/delta_0: 8.9510E-06 | 3: delta_s/delta_0: 1.4845E-06 | 4: delta_r/delta_0: 2.0499E-07 | 5: delta_s/delta_0: 8.1793E-08 | 6: delta_r/delta_0: 1.6303E-08 | 7: delta_s/delta_0: 6.7404E-09 | 8: delta_r/delta_0: 4.4551E-09 | 9: delta_s/delta_0: 4.6124E-09 | 10: delta_r/delta_0: 3.0631E-09 | 11: delta_s/delta_0: 9.6922E-08 | 12: delta_r/delta_0: 5.2304E-10 | 13: delta_s/delta_0: 1.3353E-09 | 14: delta_r/delta_0: 4.1240E-10 | 15: delta_s/delta_0: 2.6752E-11 | Reached bicg-stab tolerance | BP delta = 4.7204837E-02 -9.3491957E-02 2490210.41025003 | BP delta = 4.7204837E-02 -0.1067607 2490201.83297118 | BP chisq diff = -8.6, accept = T | | Finished processing 090-WMAP_W1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.29355046 | --> Sampling calibration, mode = relcal | relcal = 5.8720290E-04 1.0255326E-02 -3.8000077E-03 -7.0425211E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.2881636E-02 1.4233476E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.3369E-04 | 2: delta_r/delta_0: 1.1422E-05 | 3: delta_s/delta_0: 1.8234E-06 | 4: delta_r/delta_0: 3.4021E-07 | 5: delta_s/delta_0: 1.6335E-07 | 6: delta_r/delta_0: 2.3868E-08 | 7: delta_s/delta_0: 8.7686E-09 | 8: delta_r/delta_0: 5.8178E-09 | 9: delta_s/delta_0: 3.7922E-09 | 10: delta_r/delta_0: 2.6706E-09 | 11: delta_s/delta_0: 7.1268E-09 | 12: delta_r/delta_0: 5.6553E-10 | 13: delta_s/delta_0: 6.1153E-10 | 14: delta_r/delta_0: 2.8267E-10 | 15: delta_s/delta_0: 9.0598E-10 | 16: delta_r/delta_0: 3.5541E-10 | 17: delta_s/delta_0: 6.9439E-10 | 18: delta_r/delta_0: 3.3799E-10 | 19: delta_s/delta_0: 2.1236E-10 | 20: delta_r/delta_0: 1.0217E-10 | 21: delta_s/delta_0: 2.1594E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.430356777085524E-003 8.317389799820085E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.3369E-04 | 2: delta_r/delta_0: 1.1422E-05 | 3: delta_s/delta_0: 1.8234E-06 | 4: delta_r/delta_0: 3.4022E-07 | 5: delta_s/delta_0: 1.6336E-07 | 6: delta_r/delta_0: 2.3868E-08 | 7: delta_s/delta_0: 8.7686E-09 | 8: delta_r/delta_0: 5.8177E-09 | 9: delta_s/delta_0: 3.7922E-09 | 10: delta_r/delta_0: 2.6706E-09 | 11: delta_s/delta_0: 7.1289E-09 | 12: delta_r/delta_0: 5.6540E-10 | 13: delta_s/delta_0: 6.1144E-10 | 14: delta_r/delta_0: 2.8264E-10 | 15: delta_s/delta_0: 9.0608E-10 | 16: delta_r/delta_0: 3.5547E-10 | 17: delta_s/delta_0: 6.9453E-10 | 18: delta_r/delta_0: 3.3806E-10 | 19: delta_s/delta_0: 2.1245E-10 | 20: delta_r/delta_0: 1.0219E-10 | 21: delta_s/delta_0: 2.1596E-11 | Reached bicg-stab tolerance | BP delta = -0.6796126 -0.6277279 2737875.45729816 | BP delta = -0.6796126 -0.6200497 2737873.79806617 | 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 = 0.26472170 | --> Sampling calibration, mode = relcal | relcal = -5.5530746E-03 1.4932495E-02 -2.4379645E-03 -6.9414559E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -3.1275919E-04 4.7488865E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4291E-04 | 2: delta_r/delta_0: 1.2288E-05 | 3: delta_s/delta_0: 2.1284E-06 | 4: delta_r/delta_0: 2.6793E-07 | 5: delta_s/delta_0: 1.1641E-07 | 6: delta_r/delta_0: 2.2143E-08 | 7: delta_s/delta_0: 8.4433E-09 | 8: delta_r/delta_0: 5.3338E-09 | 9: delta_s/delta_0: 4.5868E-09 | 10: delta_r/delta_0: 3.1952E-09 | 11: delta_s/delta_0: 4.6466E-06 | 12: delta_r/delta_0: 9.0249E-09 | 13: delta_s/delta_0: 1.0231E-08 | 14: delta_r/delta_0: 6.1490E-09 | 15: delta_s/delta_0: 7.3130E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -8.333403190805349E-003 9.165496406642089E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.4291E-04 | 2: delta_r/delta_0: 1.2288E-05 | 3: delta_s/delta_0: 2.1284E-06 | 4: delta_r/delta_0: 2.6792E-07 | 5: delta_s/delta_0: 1.1641E-07 | 6: delta_r/delta_0: 2.2143E-08 | 7: delta_s/delta_0: 8.4432E-09 | 8: delta_r/delta_0: 5.3337E-09 | 9: delta_s/delta_0: 4.5868E-09 | 10: delta_r/delta_0: 3.1952E-09 | 11: delta_s/delta_0: 4.6476E-06 | 12: delta_r/delta_0: 9.0269E-09 | 13: delta_s/delta_0: 1.0232E-08 | 14: delta_r/delta_0: 6.1502E-09 | 15: delta_s/delta_0: 7.3133E-11 | Reached bicg-stab tolerance | BP delta = 0.2065738 0.2895426 2516235.60835420 | BP delta = 0.2065738 0.3027561 2516235.60115170 | 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 = 0.25625080 | --> Sampling calibration, mode = relcal | relcal = -3.1727515E-02 -2.5966238E-02 3.6915638E-02 2.0778116E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.7052186E-02 1.3599873E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4519E-04 | 2: delta_r/delta_0: 1.2344E-05 | 3: delta_s/delta_0: 1.8764E-06 | 4: delta_r/delta_0: 4.7600E-07 | 5: delta_s/delta_0: 2.1736E-07 | 6: delta_r/delta_0: 3.0238E-08 | 7: delta_s/delta_0: 1.2592E-08 | 8: delta_r/delta_0: 7.0262E-09 | 9: delta_s/delta_0: 1.5228E-08 | 10: delta_r/delta_0: 4.5745E-09 | 11: delta_s/delta_0: 2.4206E-09 | 12: delta_r/delta_0: 6.4433E-10 | 13: delta_s/delta_0: 1.6629E-09 | 14: delta_r/delta_0: 4.4608E-10 | 15: delta_s/delta_0: 1.3642E-10 | 16: delta_r/delta_0: 1.1284E-10 | 17: delta_s/delta_0: 1.0175E-10 | 18: delta_r/delta_0: 8.5548E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.876786678751867E-003 8.685804533618516E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.4519E-04 | 2: delta_r/delta_0: 1.2344E-05 | 3: delta_s/delta_0: 1.8764E-06 | 4: delta_r/delta_0: 4.7599E-07 | 5: delta_s/delta_0: 2.1735E-07 | 6: delta_r/delta_0: 3.0238E-08 | 7: delta_s/delta_0: 1.2592E-08 | 8: delta_r/delta_0: 7.0261E-09 | 9: delta_s/delta_0: 1.5228E-08 | 10: delta_r/delta_0: 4.5744E-09 | 11: delta_s/delta_0: 2.4207E-09 | 12: delta_r/delta_0: 6.4421E-10 | 13: delta_s/delta_0: 1.6629E-09 | 14: delta_r/delta_0: 4.4609E-10 | 15: delta_s/delta_0: 1.3642E-10 | 16: delta_r/delta_0: 1.1284E-10 | 17: delta_s/delta_0: 1.0175E-10 | 18: delta_r/delta_0: 8.5550E-11 | Reached bicg-stab tolerance | BP delta = -0.6225703 -0.7077041 2705825.43065455 | BP delta = -0.6225703 -0.6948412 2705820.29552687 | BP chisq diff = -5.1, 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 = -3.131372 | New value = -3.249239 | poltype: 2 pol: 1 CPU time specind = 1.9290447E-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 = -3.132161 | New value = -3.158646 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.053785 | New value = -3.206987 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.241044 | New value = -3.116144 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.153963 | New value = -3.102471 | poltype: 2 pol: 2 CPU time specind = 1.2290478E-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 = 4.12 | CG iter. 1 -- res = 0.13556E+08, tol = 0.64179E+01, time = 1.49 | CG iter. 2 -- res = 0.46810E+05, tol = 0.64179E+01, time = 1.57 | CG iter. 3 -- res = 0.40823E+05, tol = 0.64179E+01, time = 1.62 | CG iter. 4 -- res = 0.21400E+05, tol = 0.64179E+01, time = 1.57 | CG iter. 5 -- res = 0.20145E+05, tol = 0.64179E+01, time = 1.54 | CG iter. 6 -- res = 0.17346E+05, tol = 0.64179E+01, time = 1.60 | CG iter. 7 -- res = 0.16632E+05, tol = 0.64179E+01, time = 1.57 | CG iter. 8 -- res = 0.16282E+05, tol = 0.64179E+01, time = 1.50 | CG iter. 9 -- res = 0.15050E+05, tol = 0.64179E+01, time = 1.56 | CG iter. 10 -- res = 0.12711E+05, tol = 0.64179E+01, time = 1.56 | CG iter. 11 -- res = 0.10212E+05, tol = 0.64179E+01, time = 1.55 | CG iter. 12 -- res = 0.56027E+04, tol = 0.64179E+01, time = 1.60 | CG iter. 13 -- res = 0.46243E+04, tol = 0.64179E+01, time = 1.56 | CG iter. 14 -- res = 0.42389E+04, tol = 0.64179E+01, time = 1.51 | CG iter. 15 -- res = 0.37786E+04, tol = 0.64179E+01, time = 1.56 | CG iter. 16 -- res = 0.33725E+04, tol = 0.64179E+01, time = 1.55 | CG iter. 17 -- res = 0.23579E+04, tol = 0.64179E+01, time = 1.57 | CG iter. 18 -- res = 0.19655E+04, tol = 0.64179E+01, time = 1.61 | CG iter. 19 -- res = 0.16558E+04, tol = 0.64179E+01, time = 1.56 | CG iter. 20 -- res = 0.11956E+04, tol = 0.64179E+01, time = 1.53 | CG iter. 21 -- res = 0.98488E+03, tol = 0.64179E+01, time = 1.54 | CG iter. 22 -- res = 0.91921E+03, tol = 0.64179E+01, time = 1.57 | CG iter. 23 -- res = 0.75100E+03, tol = 0.64179E+01, time = 1.51 | CG iter. 24 -- res = 0.59035E+03, tol = 0.64179E+01, time = 1.49 | CG iter. 25 -- res = 0.50243E+03, tol = 0.64179E+01, time = 1.51 | CG iter. 26 -- res = 0.46062E+03, tol = 0.64179E+01, time = 1.52 | CG iter. 27 -- res = 0.35298E+03, tol = 0.64179E+01, time = 1.51 | CG iter. 28 -- res = 0.32032E+03, tol = 0.64179E+01, time = 1.51 | CG iter. 29 -- res = 0.28362E+03, tol = 0.64179E+01, time = 1.54 | CG iter. 30 -- res = 0.26057E+03, tol = 0.64179E+01, time = 1.52 | CG iter. 31 -- res = 0.18786E+03, tol = 0.64179E+01, time = 1.53 | CG iter. 32 -- res = 0.17435E+03, tol = 0.64179E+01, time = 1.57 | CG iter. 33 -- res = 0.17684E+03, tol = 0.64179E+01, time = 1.53 | CG iter. 34 -- res = 0.13472E+03, tol = 0.64179E+01, time = 1.55 | CG iter. 35 -- res = 0.10904E+03, tol = 0.64179E+01, time = 1.53 | CG iter. 36 -- res = 0.95955E+02, tol = 0.64179E+01, time = 1.49 | CG iter. 37 -- res = 0.83340E+02, tol = 0.64179E+01, time = 1.55 | CG iter. 38 -- res = 0.69124E+02, tol = 0.64179E+01, time = 1.58 | CG iter. 39 -- res = 0.62322E+02, tol = 0.64179E+01, time = 1.50 | CG iter. 40 -- res = 0.85778E+02, tol = 0.64179E+01, time = 1.48 | CG iter. 41 -- res = 0.57101E+02, tol = 0.64179E+01, time = 1.48 | CG iter. 42 -- res = 0.38563E+02, tol = 0.64179E+01, time = 1.49 | CG iter. 43 -- res = 0.31875E+02, tol = 0.64179E+01, time = 1.48 | CG iter. 44 -- res = 0.27487E+02, tol = 0.64179E+01, time = 1.56 | CG iter. 45 -- res = 0.24965E+02, tol = 0.64179E+01, time = 1.47 | CG iter. 46 -- res = 0.31537E+02, tol = 0.64179E+01, time = 1.54 | CG iter. 47 -- res = 0.20778E+02, tol = 0.64179E+01, time = 1.55 | CG iter. 48 -- res = 0.15367E+02, tol = 0.64179E+01, time = 1.51 | CG iter. 49 -- res = 0.11671E+02, tol = 0.64179E+01, time = 1.54 | CG iter. 50 -- res = 0.93993E+01, tol = 0.64179E+01, time = 1.58 | Final CG iter 51 -- res = 0.93993E+01, tol = 0.64179E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9699824.082 | Old band monopole 10801873.983 | Change to band monopole -1102049.901 | Change to component monopole 1102045.161 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 4.11 | CG iter. 1 -- res = 0.19648E+06, tol = 0.47627E+18, time = 0.35 | CG iter. 2 -- res = 0.31363E+02, tol = 0.47627E+18, time = 0.38 | CG iter. 3 -- res = 0.10083E+01, tol = 0.47627E+18, time = 0.40 | CG iter. 4 -- res = 0.15481E-02, tol = 0.47627E+18, time = 0.42 | Final CG iter 5 -- res = 0.33238E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9699782.361 | (Sampled value in CG: 9665701.609 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.529381 | New value = 1.511427 | poltype: 2 pol: 1 CPU time specind = 4.5449734E-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 = 1.520633 | New value = 1.453472 | poltype: 2 pol: 2 CPU time specind = 1.2562275E-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 = 4.11 | CG iter. 1 -- res = 0.24087E+08, tol = 0.47662E+04, time = 1.81 | CG iter. 2 -- res = 0.54942E+07, tol = 0.47662E+04, time = 1.82 | CG iter. 3 -- res = 0.84609E+06, tol = 0.47662E+04, time = 1.79 | CG iter. 4 -- res = 0.34880E+06, tol = 0.47662E+04, time = 1.79 | CG iter. 5 -- res = 0.15103E+06, tol = 0.47662E+04, time = 1.86 | CG iter. 6 -- res = 0.78484E+05, tol = 0.47662E+04, time = 1.81 | CG iter. 7 -- res = 0.42562E+05, tol = 0.47662E+04, time = 1.78 | CG iter. 8 -- res = 0.21264E+05, tol = 0.47662E+04, time = 1.80 | CG iter. 9 -- res = 0.93974E+04, tol = 0.47662E+04, time = 1.83 | CG iter. 10 -- res = 0.37690E+04, tol = 0.47662E+04, time = 1.86 | CG iter. 11 -- res = 0.16766E+04, tol = 0.47662E+04, time = 1.79 | CG iter. 12 -- res = 0.86300E+03, tol = 0.47662E+04, time = 1.82 | CG iter. 13 -- res = 0.49575E+03, tol = 0.47662E+04, time = 1.79 | CG iter. 14 -- res = 0.27903E+03, tol = 0.47662E+04, time = 1.81 | CG iter. 15 -- res = 0.14412E+03, tol = 0.47662E+04, time = 1.80 | CG iter. 16 -- res = 0.67871E+02, tol = 0.47662E+04, time = 1.79 | CG iter. 17 -- res = 0.31941E+02, tol = 0.47662E+04, time = 1.81 | CG iter. 18 -- res = 0.16116E+02, tol = 0.47662E+04, time = 1.77 | CG iter. 19 -- res = 0.88881E+01, tol = 0.47662E+04, time = 1.81 | CG iter. 20 -- res = 0.51487E+01, tol = 0.47662E+04, time = 1.83 | CG iter. 21 -- res = 0.27908E+01, tol = 0.47662E+04, time = 1.86 | CG iter. 22 -- res = 0.13891E+01, tol = 0.47662E+04, time = 1.81 | CG iter. 23 -- res = 0.69245E+00, tol = 0.47662E+04, time = 1.73 | CG iter. 24 -- res = 0.35832E+00, tol = 0.47662E+04, time = 1.81 | CG iter. 25 -- res = 0.19276E+00, tol = 0.47662E+04, time = 1.81 | CG iter. 26 -- res = 0.10944E+00, tol = 0.47662E+04, time = 1.85 | CG iter. 27 -- res = 0.61615E-01, tol = 0.47662E+04, time = 1.84 | CG iter. 28 -- res = 0.32750E-01, tol = 0.47662E+04, time = 1.78 | CG iter. 29 -- res = 0.17495E-01, tol = 0.47662E+04, time = 1.78 | CG iter. 30 -- res = 0.92340E-02, tol = 0.47662E+04, time = 1.86 | CG iter. 31 -- res = 0.49631E-02, tol = 0.47662E+04, time = 1.78 | CG iter. 32 -- res = 0.28028E-02, tol = 0.47662E+04, time = 1.79 | CG iter. 33 -- res = 0.15567E-02, tol = 0.47662E+04, time = 1.86 | CG iter. 34 -- res = 0.83023E-03, tol = 0.47662E+04, time = 1.79 | CG iter. 35 -- res = 0.43412E-03, tol = 0.47662E+04, time = 1.78 | Final CG iter 36 -- res = 0.43412E-03, tol = 0.47662E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 5.413 2.747 | New value -0.069 | Old value 5.413 | Difference -5.482 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 4.11 | CG iter. 1 -- res = 0.15529E+07, tol = 0.47627E+18, time = 0.39 | CG iter. 2 -- res = 0.27468E+02, tol = 0.47627E+18, time = 0.40 | CG iter. 3 -- res = 0.82474E+00, tol = 0.47627E+18, time = 0.36 | Final CG iter 4 -- res = 0.13841E-04, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9699782.361 | (Sampled value in CG: 9664735.572 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.621016 | New value = -3.677656 | poltype: 1 pol: 1 CPU time specind = 1.7769337E-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 = 4.11 | CG iter. 1 -- res = 0.31138E+07, tol = 0.18950E+01, time = 0.72 | CG iter. 2 -- res = 0.14751E+06, tol = 0.18950E+01, time = 0.62 | CG iter. 3 -- res = 0.11384E+06, tol = 0.18950E+01, time = 0.65 | CG iter. 4 -- res = 0.26832E+05, tol = 0.18950E+01, time = 0.71 | CG iter. 5 -- res = 0.67950E+04, tol = 0.18950E+01, time = 0.67 | CG iter. 6 -- res = 0.28782E+04, tol = 0.18950E+01, time = 0.67 | CG iter. 7 -- res = 0.80585E+03, tol = 0.18950E+01, time = 0.65 | CG iter. 8 -- res = 0.26842E+03, tol = 0.18950E+01, time = 0.65 | CG iter. 9 -- res = 0.15915E+03, tol = 0.18950E+01, time = 0.67 | CG iter. 10 -- res = 0.39123E+02, tol = 0.18950E+01, time = 0.68 | CG iter. 11 -- res = 0.17320E+02, tol = 0.18950E+01, time = 0.63 | CG iter. 12 -- res = 0.78092E+01, tol = 0.18950E+01, time = 0.65 | CG iter. 13 -- res = 0.27846E+01, tol = 0.18950E+01, time = 0.64 | CG iter. 14 -- res = 0.73787E+00, tol = 0.18950E+01, time = 0.64 | CG iter. 15 -- res = 0.26405E+00, tol = 0.18950E+01, time = 0.65 | CG iter. 16 -- res = 0.10166E+00, tol = 0.18950E+01, time = 0.65 | CG iter. 17 -- res = 0.38442E-01, tol = 0.18950E+01, time = 0.62 | CG iter. 18 -- res = 0.14030E-01, tol = 0.18950E+01, time = 0.62 | CG iter. 19 -- res = 0.52235E-02, tol = 0.18950E+01, time = 0.65 | CG iter. 20 -- res = 0.22150E-02, tol = 0.18950E+01, time = 0.65 | CG iter. 21 -- res = 0.68300E-03, tol = 0.18950E+01, time = 0.65 | CG iter. 22 -- res = 0.24053E-03, tol = 0.18950E+01, time = 0.64 | CG iter. 23 -- res = 0.85036E-04, tol = 0.18950E+01, time = 0.68 | CG iter. 24 -- res = 0.31504E-04, tol = 0.18950E+01, time = 0.66 | CG iter. 25 -- res = 0.80029E-05, tol = 0.18950E+01, time = 0.64 | CG iter. 26 -- res = 0.26696E-05, tol = 0.18950E+01, time = 0.70 | CG iter. 27 -- res = 0.11484E-05, tol = 0.18950E+01, time = 0.65 | CG iter. 28 -- res = 0.36539E-06, tol = 0.18950E+01, time = 0.63 | CG iter. 29 -- res = 0.11300E-06, tol = 0.18950E+01, time = 0.67 | CG iter. 30 -- res = 0.34229E-07, tol = 0.18950E+01, time = 0.63 | CG iter. 31 -- res = 0.21039E-07, tol = 0.18950E+01, time = 0.66 | CG iter. 32 -- res = 0.95954E-08, tol = 0.18950E+01, time = 0.64 | CG iter. 33 -- res = 0.26363E-08, tol = 0.18950E+01, time = 0.65 | CG iter. 34 -- res = 0.80962E-09, tol = 0.18950E+01, time = 0.66 | CG iter. 35 -- res = 0.27524E-09, tol = 0.18950E+01, time = 0.63 | CG iter. 36 -- res = 0.92282E-10, tol = 0.18950E+01, time = 0.67 | CG iter. 37 -- res = 0.55393E-10, tol = 0.18950E+01, time = 0.65 | CG iter. 38 -- res = 0.27302E-10, tol = 0.18950E+01, time = 0.66 | CG iter. 39 -- res = 0.62306E-11, tol = 0.18950E+01, time = 0.64 | CG iter. 40 -- res = 0.16309E-11, tol = 0.18950E+01, time = 0.66 | CG iter. 41 -- res = 0.51577E-12, tol = 0.18950E+01, time = 0.66 | CG iter. 42 -- res = 0.16872E-12, tol = 0.18950E+01, time = 0.64 | CG iter. 43 -- res = 0.52337E-13, tol = 0.18950E+01, time = 0.66 | CG iter. 44 -- res = 0.15821E-13, tol = 0.18950E+01, time = 0.66 | CG iter. 45 -- res = 0.59436E-14, tol = 0.18950E+01, time = 0.68 | CG iter. 46 -- res = 0.20332E-14, tol = 0.18950E+01, time = 0.65 | CG iter. 47 -- res = 0.59245E-15, tol = 0.18950E+01, time = 0.66 | CG iter. 48 -- res = 0.16777E-15, tol = 0.18950E+01, time = 0.69 | CG iter. 49 -- res = 0.52075E-16, tol = 0.18950E+01, time = 0.70 | CG iter. 50 -- res = 0.16959E-16, tol = 0.18950E+01, time = 0.66 | Final CG iter 51 -- res = 0.16959E-16, tol = 0.18950E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -5.453 2.997 | New value 2.853 | Old value -5.453 | Difference 8.306 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 4.12 | CG iter. 1 -- res = 0.46074E+05, tol = 0.47627E+18, time = 0.41 | CG iter. 2 -- res = 0.29751E+02, tol = 0.47627E+18, time = 0.38 | CG iter. 3 -- res = 0.77624E+00, tol = 0.47627E+18, time = 0.37 | CG iter. 4 -- res = 0.68612E-04, tol = 0.47627E+18, time = 0.35 | Final CG iter 5 -- res = 0.10275E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9699782.361 | (Sampled value in CG: 9672169.743 ) | CPU time specind = 278.0979 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 4.11 | CG iter. 1 -- res = 0.69227E+08, tol = 0.51559E+04, time = 3.10 | CG iter. 2 -- res = 0.33434E+08, tol = 0.51559E+04, time = 3.07 | CG iter. 3 -- res = 0.57544E+07, tol = 0.51559E+04, time = 3.12 | CG iter. 4 -- res = 0.28846E+07, tol = 0.51559E+04, time = 2.99 | CG iter. 5 -- res = 0.12835E+07, tol = 0.51559E+04, time = 3.15 | CG iter. 6 -- res = 0.70586E+06, tol = 0.51559E+04, time = 3.17 | CG iter. 7 -- res = 0.39717E+06, tol = 0.51559E+04, time = 3.19 | CG iter. 8 -- res = 0.20668E+06, tol = 0.51559E+04, time = 3.14 | CG iter. 9 -- res = 0.10359E+06, tol = 0.51559E+04, time = 3.07 | CG iter. 10 -- res = 0.47393E+05, tol = 0.51559E+04, time = 3.16 | CG iter. 11 -- res = 0.26066E+05, tol = 0.51559E+04, time = 3.07 | CG iter. 12 -- res = 0.17436E+05, tol = 0.51559E+04, time = 3.00 | CG iter. 13 -- res = 0.13583E+05, tol = 0.51559E+04, time = 3.10 | CG iter. 14 -- res = 0.11758E+05, tol = 0.51559E+04, time = 2.99 | CG iter. 15 -- res = 0.96192E+04, tol = 0.51559E+04, time = 3.18 | CG iter. 16 -- res = 0.85765E+04, tol = 0.51559E+04, time = 3.14 | CG iter. 17 -- res = 0.82178E+04, tol = 0.51559E+04, time = 3.20 | CG iter. 18 -- res = 0.87054E+04, tol = 0.51559E+04, time = 3.15 | CG iter. 19 -- res = 0.91100E+04, tol = 0.51559E+04, time = 3.12 | CG iter. 20 -- res = 0.83266E+04, tol = 0.51559E+04, time = 3.14 | CG iter. 21 -- res = 0.65656E+04, tol = 0.51559E+04, time = 3.10 | CG iter. 22 -- res = 0.47005E+04, tol = 0.51559E+04, time = 3.08 | CG iter. 23 -- res = 0.34768E+04, tol = 0.51559E+04, time = 3.18 | CG iter. 24 -- res = 0.27755E+04, tol = 0.51559E+04, time = 3.10 | CG iter. 25 -- res = 0.23425E+04, tol = 0.51559E+04, time = 3.15 | CG iter. 26 -- res = 0.20042E+04, tol = 0.51559E+04, time = 3.20 | CG iter. 27 -- res = 0.16700E+04, tol = 0.51559E+04, time = 3.18 | CG iter. 28 -- res = 0.14491E+04, tol = 0.51559E+04, time = 3.18 | CG iter. 29 -- res = 0.13640E+04, tol = 0.51559E+04, time = 3.16 | CG iter. 30 -- res = 0.13654E+04, tol = 0.51559E+04, time = 3.10 | CG iter. 31 -- res = 0.13225E+04, tol = 0.51559E+04, time = 3.14 | CG iter. 32 -- res = 0.11865E+04, tol = 0.51559E+04, time = 2.97 | CG iter. 33 -- res = 0.99547E+03, tol = 0.51559E+04, time = 3.15 | CG iter. 34 -- res = 0.85383E+03, tol = 0.51559E+04, time = 3.15 | CG iter. 35 -- res = 0.77513E+03, tol = 0.51559E+04, time = 3.14 | CG iter. 36 -- res = 0.73776E+03, tol = 0.51559E+04, time = 2.96 | CG iter. 37 -- res = 0.71581E+03, tol = 0.51559E+04, time = 3.04 | CG iter. 38 -- res = 0.68176E+03, tol = 0.51559E+04, time = 3.12 | CG iter. 39 -- res = 0.64992E+03, tol = 0.51559E+04, time = 3.14 | CG iter. 40 -- res = 0.63377E+03, tol = 0.51559E+04, time = 3.16 | CG iter. 41 -- res = 0.64284E+03, tol = 0.51559E+04, time = 3.12 | CG iter. 42 -- res = 0.65657E+03, tol = 0.51559E+04, time = 3.11 | CG iter. 43 -- res = 0.65526E+03, tol = 0.51559E+04, time = 3.08 | CG iter. 44 -- res = 0.63564E+03, tol = 0.51559E+04, time = 3.13 | CG iter. 45 -- res = 0.60031E+03, tol = 0.51559E+04, time = 3.16 | CG iter. 46 -- res = 0.57462E+03, tol = 0.51559E+04, time = 3.13 | CG iter. 47 -- res = 0.56121E+03, tol = 0.51559E+04, time = 3.18 | CG iter. 48 -- res = 0.56893E+03, tol = 0.51559E+04, time = 3.18 | CG iter. 49 -- res = 0.58089E+03, tol = 0.51559E+04, time = 3.15 | CG iter. 50 -- res = 0.57639E+03, tol = 0.51559E+04, time = 3.12 | CG iter. 51 -- res = 0.56194E+03, tol = 0.51559E+04, time = 3.11 | CG iter. 52 -- res = 0.54928E+03, tol = 0.51559E+04, time = 3.17 | CG iter. 53 -- res = 0.54909E+03, tol = 0.51559E+04, time = 3.14 | CG iter. 54 -- res = 0.55512E+03, tol = 0.51559E+04, time = 3.19 | CG iter. 55 -- res = 0.54332E+03, tol = 0.51559E+04, time = 3.11 | CG iter. 56 -- res = 0.51076E+03, tol = 0.51559E+04, time = 3.05 | CG iter. 57 -- res = 0.48055E+03, tol = 0.51559E+04, time = 3.13 | CG iter. 58 -- res = 0.46702E+03, tol = 0.51559E+04, time = 3.14 | CG iter. 59 -- res = 0.47453E+03, tol = 0.51559E+04, time = 3.15 | CG iter. 60 -- res = 0.47469E+03, tol = 0.51559E+04, time = 3.26 | Final CG iter 61 -- res = 0.47469E+03, tol = 0.51559E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 2.349 ( -231.463 -2233.769 2516.841 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8588622.862 | Old band monopole 9699824.082 | Change to band monopole -1111201.220 | Change to component monopole 1111196.441 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -0.109 2.739 | New value -3.332 | Old value -0.109 | Difference -3.224 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -3.883 ( 8.796 12.017 -11.935 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 18.835 2.317 | New value 1.497 | Old value 18.835 | Difference -17.338 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 4.10 | CG iter. 1 -- res = 0.54472E+06, tol = 0.47627E+18, time = 0.34 | CG iter. 2 -- res = 0.60252E+02, tol = 0.47627E+18, time = 0.37 | CG iter. 3 -- res = 0.13877E+01, tol = 0.47627E+18, time = 0.41 | CG iter. 4 -- res = 0.89931E-03, tol = 0.47627E+18, time = 0.36 | Final CG iter 5 -- res = 0.10753E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8588585.921 | (Sampled value in CG: 8524191.706 ) | Chain = 1 -- chisq = 0.61485582E+09 | Chain = 1 -- wall time = 4787.519 sec --------------------------------------------------------------------- | Chain = 1 -- Iteration = 69 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.17942859174234 | --> Sampling calibration, mode = relcal | relcal = -7.4747339E-02 -5.8182783E-02 9.1439277E-02 4.1490849E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.0013471E-04 3.9712749E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.1738E-05 | 2: delta_r/delta_0: 7.8751E-07 | 3: delta_s/delta_0: 2.5094E-07 | 4: delta_r/delta_0: 1.1375E-08 | 5: delta_s/delta_0: 2.8797E-09 | 6: delta_r/delta_0: 9.6167E-10 | 7: delta_s/delta_0: 8.2818E-09 | 8: delta_r/delta_0: 3.3967E-10 | 9: delta_s/delta_0: 1.7901E-10 | 10: delta_r/delta_0: 8.1732E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 8.173266343059502E-004 2.744776153473059E-005 | BP delta = 6.3458239E-03 1.5284003E-02 29858203.6235845 | BP delta = 4.9398271E-03 1.3878006E-02 29858203.3447132 | 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 = 1.02514867 | --> Sampling calibration, mode = relcal | relcal = -0.1065388 -9.5473580E-02 0.1448481 5.7164337E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.3024489E-03 1.6494602E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 4.4335E-04 | 2: delta_r/delta_0: 9.7302E-06 | 3: delta_s/delta_0: 3.4835E-06 | 4: delta_r/delta_0: 3.2715E-07 | 5: delta_s/delta_0: 1.6873E-07 | 6: delta_r/delta_0: 9.1322E-09 | 7: delta_s/delta_0: 2.8285E-09 | 8: delta_r/delta_0: 9.5470E-10 | 9: delta_s/delta_0: 6.6219E-09 | 10: delta_r/delta_0: 2.5061E-10 | 11: delta_s/delta_0: 8.7692E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -6.941716707121225E-003 2.813133875046743E-005 | BP delta = -0.1887448 -0.1787063 34767966.8362294 | BP delta = -0.1881922 -0.1781537 34767966.8685739 | 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 = 0.81150147 | --> Sampling calibration, mode = relcal | relcal = 0.2953056 0.2245890 -0.2835885 -0.2363060 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.5649369E-04 4.9062585E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.3081E-03 | 2: delta_r/delta_0: 2.9996E-05 | 3: delta_s/delta_0: 1.4404E-04 | 4: delta_r/delta_0: 9.8990E-06 | 5: delta_s/delta_0: 8.6336E-06 | 6: delta_r/delta_0: 1.6062E-06 | 7: delta_s/delta_0: 6.1448E-08 | 8: delta_r/delta_0: 3.5944E-08 | 9: delta_s/delta_0: 4.3872E-07 | 10: delta_r/delta_0: 3.6470E-09 | 11: delta_s/delta_0: 1.3249E-09 | 12: delta_r/delta_0: 4.6334E-10 | 13: delta_s/delta_0: 6.5656E-10 | 14: delta_r/delta_0: 5.9200E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.671088509097339E-002 4.025448559354471E-005 | BP delta = -8.9745201E-02 -0.1213535 43105473.3004714 | BP delta = -7.6560885E-02 -0.1081692 43105473.4271134 | 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 = 0.95815748 | --> Sampling calibration, mode = relcal | relcal = 0.1064150 0.1393671 -0.1100969 -0.1356851 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.6312612E-03 1.3261472E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.9100E-04 | 2: delta_r/delta_0: 1.5893E-05 | 3: delta_s/delta_0: 1.9488E-04 | 4: delta_r/delta_0: 7.9024E-06 | 5: delta_s/delta_0: 1.1966E-05 | 6: delta_r/delta_0: 1.6513E-06 | 7: delta_s/delta_0: 5.0626E-08 | 8: delta_r/delta_0: 3.2184E-08 | 9: delta_s/delta_0: 5.6588E-07 | 10: delta_r/delta_0: 5.3095E-09 | 11: delta_s/delta_0: 1.0960E-09 | 12: delta_r/delta_0: 5.0426E-10 | 13: delta_s/delta_0: 1.8621E-10 | 14: delta_r/delta_0: 4.8880E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.127557910485298E-002 3.701049829957180E-005 | BP delta = 0.2633558 0.2857246 43046805.3238064 | BP delta = 0.2581881 0.2805569 43046805.2913626 | 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 = 0.52099980 | --> Sampling calibration, mode = relcal | relcal = -5.0966952E-02 -3.7032913E-03 2.7237974E-02 2.7432270E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -2.5217651E-04 2.0535279E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.5799E-05 | 2: delta_r/delta_0: 4.6057E-06 | 3: delta_s/delta_0: 8.3763E-06 | 4: delta_r/delta_0: 4.7059E-07 | 5: delta_s/delta_0: 4.7052E-08 | 6: delta_r/delta_0: 2.2081E-08 | 7: delta_s/delta_0: 1.9805E-08 | 8: delta_r/delta_0: 7.4402E-09 | 9: delta_s/delta_0: 4.0914E-09 | 10: delta_r/delta_0: 9.5938E-10 | 11: delta_s/delta_0: 4.4448E-10 | 12: delta_r/delta_0: 3.1896E-10 | 13: delta_s/delta_0: 6.2601E-10 | 14: delta_r/delta_0: 2.8029E-10 | 15: delta_s/delta_0: 9.9010E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.018353352521350E-002 5.489353360186907E-005 | BP delta = -9.4746031E-02 3.2422505E-02 61507840.0155214 | BP delta = -9.3359828E-02 3.3808708E-02 61507840.0159085 | 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 = 0.42108823 | --> Sampling calibration, mode = relcal | relcal = 4.5540866E-02 3.9592404E-02 -2.8257664E-02 -5.6875609E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.3424630E-03 5.8076004E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 7.0444E-05 | 2: delta_r/delta_0: 3.2903E-06 | 3: delta_s/delta_0: 1.8598E-06 | 4: delta_r/delta_0: 2.2690E-07 | 5: delta_s/delta_0: 6.4190E-08 | 6: delta_r/delta_0: 3.2577E-08 | 7: delta_s/delta_0: 4.4009E-06 | 8: delta_r/delta_0: 1.6631E-07 | 9: delta_s/delta_0: 2.8475E-09 | 10: delta_r/delta_0: 1.3181E-09 | 11: delta_s/delta_0: 2.0463E-09 | 12: delta_r/delta_0: 1.1175E-09 | 13: delta_s/delta_0: 1.7847E-10 | 14: delta_r/delta_0: 3.0660E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.297720573000578E-002 5.001503818368520E-005 | BP delta = -0.1491524 -0.2014833 61339043.5642143 | BP delta = -0.1386117 -0.1909426 61339043.5305212 | 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 = 0.28122874 | --> Sampling calibration, mode = relcal | relcal = 2.4131032E-02 4.5049611E-02 -2.3262573E-02 -4.5918070E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 8.6135240E-03 9.9877233E-04 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.1299E-04 | 2: delta_r/delta_0: 8.9891E-06 | 3: delta_s/delta_0: 1.5037E-06 | 4: delta_r/delta_0: 2.4318E-07 | 5: delta_s/delta_0: 8.9140E-08 | 6: delta_r/delta_0: 2.0256E-08 | 7: delta_s/delta_0: 9.5408E-09 | 8: delta_r/delta_0: 4.7948E-09 | 9: delta_s/delta_0: 1.3827E-07 | 10: delta_r/delta_0: 5.0039E-09 | 11: delta_s/delta_0: 1.0833E-09 | 12: delta_r/delta_0: 4.2775E-10 | 13: delta_s/delta_0: 4.3138E-08 | 14: delta_r/delta_0: 1.5638E-08 | 15: delta_s/delta_0: 6.7740E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.433027516765873E-003 7.854526503321109E-005 | BP delta = 4.7204837E-02 -0.1067607 94963566.1642942 | BP delta = 3.4481049E-02 -0.1194845 94963566.1228112 | 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 = 0.29358364 | --> Sampling calibration, mode = relcal | relcal = 5.2690529E-04 1.0353918E-02 -3.7598812E-03 -7.1209422E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.4374105E-02 1.7137535E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.3143E-04 | 2: delta_r/delta_0: 1.1071E-05 | 3: delta_s/delta_0: 1.7163E-06 | 4: delta_r/delta_0: 2.6136E-07 | 5: delta_s/delta_0: 8.9306E-08 | 6: delta_r/delta_0: 1.9588E-08 | 7: delta_s/delta_0: 8.7730E-09 | 8: delta_r/delta_0: 5.7367E-09 | 9: delta_s/delta_0: 6.8848E-09 | 10: delta_r/delta_0: 3.8739E-09 | 11: delta_s/delta_0: 3.4282E-08 | 12: delta_r/delta_0: 3.8337E-09 | 13: delta_s/delta_0: 3.7448E-10 | 14: delta_r/delta_0: 2.8207E-10 | 15: delta_s/delta_0: 1.1735E-10 | 16: delta_r/delta_0: 6.3786E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.794600139052105E-003 8.316244114681279E-005 | BP delta = -0.6796126 -0.6200497 93498905.9307578 | BP delta = -0.6936462 -0.6340832 93498905.9062621 | 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 = 0.26473588 | --> Sampling calibration, mode = relcal | relcal = -5.5770320E-03 1.5003505E-02 -2.3324527E-03 -7.0940200E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -5.8207550E-04 2.8920567E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4265E-04 | 2: delta_r/delta_0: 1.2290E-05 | 3: delta_s/delta_0: 2.1206E-06 | 4: delta_r/delta_0: 2.7852E-07 | 5: delta_s/delta_0: 1.1676E-07 | 6: delta_r/delta_0: 2.2015E-08 | 7: delta_s/delta_0: 8.4011E-09 | 8: delta_r/delta_0: 5.3033E-09 | 9: delta_s/delta_0: 4.9922E-09 | 10: delta_r/delta_0: 3.4912E-09 | 11: delta_s/delta_0: 3.3176E-07 | 12: delta_r/delta_0: 1.3864E-09 | 13: delta_s/delta_0: 3.9398E-09 | 14: delta_r/delta_0: 1.0452E-09 | 15: delta_s/delta_0: 5.1704E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -8.116652218356692E-003 9.165076376123612E-005 | BP delta = 0.2065738 0.3027561 94713842.9435325 | BP delta = 0.2148392 0.3110216 94713842.9452906 | 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 = 0.25628484 | --> Sampling calibration, mode = relcal | relcal = -3.1698789E-02 -2.5876714E-02 3.6918309E-02 2.0657199E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.2426490E-02 2.0895530E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4593E-04 | 2: delta_r/delta_0: 1.2428E-05 | 3: delta_s/delta_0: 1.9702E-06 | 4: delta_r/delta_0: 3.8147E-07 | 5: delta_s/delta_0: 1.4256E-07 | 6: delta_r/delta_0: 2.7872E-08 | 7: delta_s/delta_0: 1.2000E-08 | 8: delta_r/delta_0: 6.9899E-09 | 9: delta_s/delta_0: 8.9318E-09 | 10: delta_r/delta_0: 4.0586E-09 | 11: delta_s/delta_0: 1.0353E-07 | 12: delta_r/delta_0: 2.3285E-08 | 13: delta_s/delta_0: 2.9534E-10 | 14: delta_r/delta_0: 2.2158E-10 | 15: delta_s/delta_0: 1.3493E-10 | 16: delta_r/delta_0: 1.1803E-10 | 17: delta_s/delta_0: 1.6076E-10 | 18: delta_r/delta_0: 1.2201E-10 | 19: delta_s/delta_0: 8.4989E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.734972328892023E-003 8.684147262129871E-005 | BP delta = -0.6225703 -0.6948412 93054386.9886103 | BP delta = -0.6324608 -0.7047317 93054386.9620419 | 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 = -3.249239 | New value = -3.173964 | poltype: 2 pol: 1 CPU time specind = 4.5778751E-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 = -3.158646 | New value = -3.162295 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.206987 | New value = -3.151826 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.116144 | New value = -3.211550 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.102471 | New value = -3.061741 | poltype: 2 pol: 2 CPU time specind = 1.2118816E-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 = 4.13 | CG iter. 1 -- res = 0.13559E+08, tol = 0.78988E+01, time = 1.59 | CG iter. 2 -- res = 0.47876E+05, tol = 0.78988E+01, time = 1.51 | CG iter. 3 -- res = 0.38343E+05, tol = 0.78988E+01, time = 1.61 | CG iter. 4 -- res = 0.17007E+05, tol = 0.78988E+01, time = 1.55 | CG iter. 5 -- res = 0.16264E+05, tol = 0.78988E+01, time = 1.58 | CG iter. 6 -- res = 0.15115E+05, tol = 0.78988E+01, time = 1.58 | CG iter. 7 -- res = 0.10618E+05, tol = 0.78988E+01, time = 1.56 | CG iter. 8 -- res = 0.85386E+04, tol = 0.78988E+01, time = 1.59 | CG iter. 9 -- res = 0.93278E+04, tol = 0.78988E+01, time = 1.54 | CG iter. 10 -- res = 0.95914E+04, tol = 0.78988E+01, time = 1.57 | CG iter. 11 -- res = 0.66197E+04, tol = 0.78988E+01, time = 1.56 | CG iter. 12 -- res = 0.43577E+04, tol = 0.78988E+01, time = 1.53 | CG iter. 13 -- res = 0.40390E+04, tol = 0.78988E+01, time = 1.60 | CG iter. 14 -- res = 0.28550E+04, tol = 0.78988E+01, time = 1.60 | CG iter. 15 -- res = 0.21240E+04, tol = 0.78988E+01, time = 1.55 | CG iter. 16 -- res = 0.15305E+04, tol = 0.78988E+01, time = 1.56 | CG iter. 17 -- res = 0.12377E+04, tol = 0.78988E+01, time = 1.58 | CG iter. 18 -- res = 0.98266E+03, tol = 0.78988E+01, time = 1.57 | CG iter. 19 -- res = 0.77975E+03, tol = 0.78988E+01, time = 1.55 | CG iter. 20 -- res = 0.62183E+03, tol = 0.78988E+01, time = 1.55 | CG iter. 21 -- res = 0.50000E+03, tol = 0.78988E+01, time = 1.52 | CG iter. 22 -- res = 0.42927E+03, tol = 0.78988E+01, time = 1.56 | CG iter. 23 -- res = 0.32310E+03, tol = 0.78988E+01, time = 1.49 | CG iter. 24 -- res = 0.26176E+03, tol = 0.78988E+01, time = 1.49 | CG iter. 25 -- res = 0.27380E+03, tol = 0.78988E+01, time = 1.57 | CG iter. 26 -- res = 0.22688E+03, tol = 0.78988E+01, time = 1.56 | CG iter. 27 -- res = 0.17522E+03, tol = 0.78988E+01, time = 1.53 | CG iter. 28 -- res = 0.14937E+03, tol = 0.78988E+01, time = 1.52 | CG iter. 29 -- res = 0.13489E+03, tol = 0.78988E+01, time = 1.53 | CG iter. 30 -- res = 0.10940E+03, tol = 0.78988E+01, time = 1.56 | CG iter. 31 -- res = 0.86875E+02, tol = 0.78988E+01, time = 1.58 | CG iter. 32 -- res = 0.72806E+02, tol = 0.78988E+01, time = 1.55 | CG iter. 33 -- res = 0.65539E+02, tol = 0.78988E+01, time = 1.58 | CG iter. 34 -- res = 0.52298E+02, tol = 0.78988E+01, time = 1.64 | CG iter. 35 -- res = 0.42873E+02, tol = 0.78988E+01, time = 1.56 | CG iter. 36 -- res = 0.38550E+02, tol = 0.78988E+01, time = 1.54 | CG iter. 37 -- res = 0.35638E+02, tol = 0.78988E+01, time = 1.57 | CG iter. 38 -- res = 0.28045E+02, tol = 0.78988E+01, time = 1.54 | CG iter. 39 -- res = 0.29943E+02, tol = 0.78988E+01, time = 1.56 | CG iter. 40 -- res = 0.27084E+02, tol = 0.78988E+01, time = 1.56 | CG iter. 41 -- res = 0.17327E+02, tol = 0.78988E+01, time = 1.58 | CG iter. 42 -- res = 0.12545E+02, tol = 0.78988E+01, time = 1.56 | CG iter. 43 -- res = 0.10353E+02, tol = 0.78988E+01, time = 1.53 | CG iter. 44 -- res = 0.88119E+01, tol = 0.78988E+01, time = 1.60 | CG iter. 45 -- res = 0.95937E+01, tol = 0.78988E+01, time = 1.55 | CG iter. 46 -- res = 0.83826E+01, tol = 0.78988E+01, time = 1.54 | CG iter. 47 -- res = 0.47294E+01, tol = 0.78988E+01, time = 1.61 | CG iter. 48 -- res = 0.39719E+01, tol = 0.78988E+01, time = 1.60 | CG iter. 49 -- res = 0.29733E+01, tol = 0.78988E+01, time = 1.53 | CG iter. 50 -- res = 0.21777E+01, tol = 0.78988E+01, time = 1.60 | Final CG iter 51 -- res = 0.21777E+01, tol = 0.78988E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8062399.454 | Old band monopole 8588622.862 | Change to band monopole -526223.408 | Change to component monopole 526221.145 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 4.13 | CG iter. 1 -- res = 0.14109E+06, tol = 0.47627E+18, time = 0.36 | CG iter. 2 -- res = 0.33351E+02, tol = 0.47627E+18, time = 0.35 | CG iter. 3 -- res = 0.97465E+00, tol = 0.47627E+18, time = 0.40 | CG iter. 4 -- res = 0.14902E-02, tol = 0.47627E+18, time = 0.38 | Final CG iter 5 -- res = 0.61701E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8062364.776 | (Sampled value in CG: 8091352.732 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.511427 | New value = 1.500811 | poltype: 2 pol: 1 CPU time specind = 4.4760704E-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 = 1.453472 | New value = 1.492763 | poltype: 2 pol: 2 CPU time specind = 1.2261868E-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 = 4.14 | CG iter. 1 -- res = 0.24062E+08, tol = 0.47552E+04, time = 1.80 | CG iter. 2 -- res = 0.53439E+07, tol = 0.47552E+04, time = 1.85 | CG iter. 3 -- res = 0.83238E+06, tol = 0.47552E+04, time = 1.81 | CG iter. 4 -- res = 0.35226E+06, tol = 0.47552E+04, time = 1.76 | CG iter. 5 -- res = 0.15228E+06, tol = 0.47552E+04, time = 1.81 | CG iter. 6 -- res = 0.79237E+05, tol = 0.47552E+04, time = 1.80 | CG iter. 7 -- res = 0.43071E+05, tol = 0.47552E+04, time = 1.75 | CG iter. 8 -- res = 0.20762E+05, tol = 0.47552E+04, time = 1.75 | CG iter. 9 -- res = 0.93531E+04, tol = 0.47552E+04, time = 1.82 | CG iter. 10 -- res = 0.37597E+04, tol = 0.47552E+04, time = 1.77 | CG iter. 11 -- res = 0.16702E+04, tol = 0.47552E+04, time = 1.83 | CG iter. 12 -- res = 0.86334E+03, tol = 0.47552E+04, time = 1.76 | CG iter. 13 -- res = 0.48281E+03, tol = 0.47552E+04, time = 1.78 | CG iter. 14 -- res = 0.27571E+03, tol = 0.47552E+04, time = 1.75 | CG iter. 15 -- res = 0.14485E+03, tol = 0.47552E+04, time = 1.73 | CG iter. 16 -- res = 0.68998E+02, tol = 0.47552E+04, time = 1.75 | CG iter. 17 -- res = 0.32138E+02, tol = 0.47552E+04, time = 1.72 | CG iter. 18 -- res = 0.16056E+02, tol = 0.47552E+04, time = 1.71 | CG iter. 19 -- res = 0.86227E+01, tol = 0.47552E+04, time = 1.70 | CG iter. 20 -- res = 0.49680E+01, tol = 0.47552E+04, time = 1.73 | CG iter. 21 -- res = 0.27732E+01, tol = 0.47552E+04, time = 1.77 | CG iter. 22 -- res = 0.14354E+01, tol = 0.47552E+04, time = 1.78 | CG iter. 23 -- res = 0.70597E+00, tol = 0.47552E+04, time = 1.83 | CG iter. 24 -- res = 0.36522E+00, tol = 0.47552E+04, time = 1.84 | CG iter. 25 -- res = 0.19957E+00, tol = 0.47552E+04, time = 1.83 | CG iter. 26 -- res = 0.11230E+00, tol = 0.47552E+04, time = 1.86 | CG iter. 27 -- res = 0.62972E-01, tol = 0.47552E+04, time = 1.83 | CG iter. 28 -- res = 0.34070E-01, tol = 0.47552E+04, time = 1.80 | CG iter. 29 -- res = 0.17754E-01, tol = 0.47552E+04, time = 1.81 | CG iter. 30 -- res = 0.91315E-02, tol = 0.47552E+04, time = 1.78 | CG iter. 31 -- res = 0.50205E-02, tol = 0.47552E+04, time = 1.77 | CG iter. 32 -- res = 0.29259E-02, tol = 0.47552E+04, time = 1.80 | CG iter. 33 -- res = 0.16573E-02, tol = 0.47552E+04, time = 1.82 | CG iter. 34 -- res = 0.89707E-03, tol = 0.47552E+04, time = 1.81 | CG iter. 35 -- res = 0.46813E-03, tol = 0.47552E+04, time = 1.78 | Final CG iter 36 -- res = 0.46813E-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) -3.335 2.744 | New value -2.962 | Old value -3.335 | Difference 0.373 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 4.13 | CG iter. 1 -- res = 0.81127E+04, tol = 0.47627E+18, time = 0.41 | CG iter. 2 -- res = 0.21034E+02, tol = 0.47627E+18, time = 0.38 | CG iter. 3 -- res = 0.55522E+00, tol = 0.47627E+18, time = 0.39 | Final CG iter 4 -- res = 0.19078E-04, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8062364.776 | (Sampled value in CG: 8089653.258 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.677656 | New value = -3.479240 | poltype: 1 pol: 1 CPU time specind = 1.9068718E-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 = 4.11 | CG iter. 1 -- res = 0.24601E+07, tol = 0.15288E+01, time = 0.67 | CG iter. 2 -- res = 0.76454E+05, tol = 0.15288E+01, time = 0.68 | CG iter. 3 -- res = 0.67076E+05, tol = 0.15288E+01, time = 0.65 | CG iter. 4 -- res = 0.15004E+05, tol = 0.15288E+01, time = 0.68 | CG iter. 5 -- res = 0.46260E+04, tol = 0.15288E+01, time = 0.63 | CG iter. 6 -- res = 0.17201E+04, tol = 0.15288E+01, time = 0.65 | CG iter. 7 -- res = 0.58972E+03, tol = 0.15288E+01, time = 0.65 | CG iter. 8 -- res = 0.33821E+03, tol = 0.15288E+01, time = 0.63 | CG iter. 9 -- res = 0.95745E+02, tol = 0.15288E+01, time = 0.66 | CG iter. 10 -- res = 0.33760E+02, tol = 0.15288E+01, time = 0.65 | CG iter. 11 -- res = 0.14427E+02, tol = 0.15288E+01, time = 0.63 | CG iter. 12 -- res = 0.48795E+01, tol = 0.15288E+01, time = 0.65 | CG iter. 13 -- res = 0.18223E+01, tol = 0.15288E+01, time = 0.64 | CG iter. 14 -- res = 0.55656E+00, tol = 0.15288E+01, time = 0.66 | CG iter. 15 -- res = 0.15761E+00, tol = 0.15288E+01, time = 0.62 | CG iter. 16 -- res = 0.58083E-01, tol = 0.15288E+01, time = 0.62 | CG iter. 17 -- res = 0.27552E-01, tol = 0.15288E+01, time = 0.64 | CG iter. 18 -- res = 0.98813E-02, tol = 0.15288E+01, time = 0.65 | CG iter. 19 -- res = 0.32338E-02, tol = 0.15288E+01, time = 0.64 | CG iter. 20 -- res = 0.13900E-02, tol = 0.15288E+01, time = 0.62 | CG iter. 21 -- res = 0.51382E-03, tol = 0.15288E+01, time = 0.60 | CG iter. 22 -- res = 0.16687E-03, tol = 0.15288E+01, time = 0.65 | CG iter. 23 -- res = 0.64333E-04, tol = 0.15288E+01, time = 0.63 | CG iter. 24 -- res = 0.24095E-04, tol = 0.15288E+01, time = 0.63 | CG iter. 25 -- res = 0.64764E-05, tol = 0.15288E+01, time = 0.63 | CG iter. 26 -- res = 0.20192E-05, tol = 0.15288E+01, time = 0.64 | CG iter. 27 -- res = 0.79058E-06, tol = 0.15288E+01, time = 0.63 | CG iter. 28 -- res = 0.26601E-06, tol = 0.15288E+01, time = 0.66 | CG iter. 29 -- res = 0.87130E-07, tol = 0.15288E+01, time = 0.64 | CG iter. 30 -- res = 0.25958E-07, tol = 0.15288E+01, time = 0.66 | CG iter. 31 -- res = 0.87081E-08, tol = 0.15288E+01, time = 0.63 | CG iter. 32 -- res = 0.73800E-08, tol = 0.15288E+01, time = 0.63 | CG iter. 33 -- res = 0.24470E-08, tol = 0.15288E+01, time = 0.64 | CG iter. 34 -- res = 0.74048E-09, tol = 0.15288E+01, time = 0.63 | CG iter. 35 -- res = 0.23346E-09, tol = 0.15288E+01, time = 0.67 | CG iter. 36 -- res = 0.13760E-09, tol = 0.15288E+01, time = 0.64 | CG iter. 37 -- res = 0.60825E-10, tol = 0.15288E+01, time = 0.67 | CG iter. 38 -- res = 0.17494E-10, tol = 0.15288E+01, time = 0.62 | CG iter. 39 -- res = 0.48333E-11, tol = 0.15288E+01, time = 0.66 | CG iter. 40 -- res = 0.13580E-11, tol = 0.15288E+01, time = 0.69 | CG iter. 41 -- res = 0.40501E-12, tol = 0.15288E+01, time = 0.64 | CG iter. 42 -- res = 0.13280E-12, tol = 0.15288E+01, time = 0.64 | CG iter. 43 -- res = 0.40693E-13, tol = 0.15288E+01, time = 0.64 | CG iter. 44 -- res = 0.11665E-13, tol = 0.15288E+01, time = 0.70 | CG iter. 45 -- res = 0.33024E-14, tol = 0.15288E+01, time = 0.64 | CG iter. 46 -- res = 0.10905E-14, tol = 0.15288E+01, time = 0.67 | CG iter. 47 -- res = 0.38665E-15, tol = 0.15288E+01, time = 0.68 | CG iter. 48 -- res = 0.13525E-15, tol = 0.15288E+01, time = 0.67 | CG iter. 49 -- res = 0.47863E-16, tol = 0.15288E+01, time = 0.64 | CG iter. 50 -- res = 0.13641E-16, tol = 0.15288E+01, time = 0.68 | Final CG iter 51 -- res = 0.13641E-16, tol = 0.15288E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 5.548 2.185 | New value -0.348 | Old value 5.548 | Difference -5.896 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 4.13 | CG iter. 1 -- res = 0.23600E+05, tol = 0.47627E+18, time = 0.36 | CG iter. 2 -- res = 0.19820E+02, tol = 0.47627E+18, time = 0.35 | CG iter. 3 -- res = 0.49466E+00, tol = 0.47627E+18, time = 0.35 | Final CG iter 4 -- res = 0.29745E-04, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8062364.776 | (Sampled value in CG: 8083888.530 ) | CPU time specind = 277.2107 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 4.13 | CG iter. 1 -- res = 0.68899E+08, tol = 0.51492E+04, time = 3.09 | CG iter. 2 -- res = 0.33364E+08, tol = 0.51492E+04, time = 3.12 | CG iter. 3 -- res = 0.57540E+07, tol = 0.51492E+04, time = 3.08 | CG iter. 4 -- res = 0.28838E+07, tol = 0.51492E+04, time = 3.10 | CG iter. 5 -- res = 0.12678E+07, tol = 0.51492E+04, time = 3.05 | CG iter. 6 -- res = 0.69367E+06, tol = 0.51492E+04, time = 3.08 | CG iter. 7 -- res = 0.38417E+06, tol = 0.51492E+04, time = 3.11 | CG iter. 8 -- res = 0.19322E+06, tol = 0.51492E+04, time = 3.23 | CG iter. 9 -- res = 0.95637E+05, tol = 0.51492E+04, time = 3.16 | CG iter. 10 -- res = 0.43538E+05, tol = 0.51492E+04, time = 3.14 | CG iter. 11 -- res = 0.23046E+05, tol = 0.51492E+04, time = 3.07 | CG iter. 12 -- res = 0.13926E+05, tol = 0.51492E+04, time = 3.18 | CG iter. 13 -- res = 0.95221E+04, tol = 0.51492E+04, time = 3.06 | CG iter. 14 -- res = 0.71804E+04, tol = 0.51492E+04, time = 3.06 | CG iter. 15 -- res = 0.52643E+04, tol = 0.51492E+04, time = 3.09 | CG iter. 16 -- res = 0.42696E+04, tol = 0.51492E+04, time = 3.10 | CG iter. 17 -- res = 0.38116E+04, tol = 0.51492E+04, time = 3.16 | CG iter. 18 -- res = 0.38977E+04, tol = 0.51492E+04, time = 3.13 | CG iter. 19 -- res = 0.42436E+04, tol = 0.51492E+04, time = 3.17 | CG iter. 20 -- res = 0.44118E+04, tol = 0.51492E+04, time = 3.13 | CG iter. 21 -- res = 0.40755E+04, tol = 0.51492E+04, time = 3.13 | CG iter. 22 -- res = 0.32443E+04, tol = 0.51492E+04, time = 3.19 | CG iter. 23 -- res = 0.24676E+04, tol = 0.51492E+04, time = 3.23 | CG iter. 24 -- res = 0.19387E+04, tol = 0.51492E+04, time = 3.12 | CG iter. 25 -- res = 0.16098E+04, tol = 0.51492E+04, time = 3.18 | CG iter. 26 -- res = 0.13608E+04, tol = 0.51492E+04, time = 3.10 | CG iter. 27 -- res = 0.11350E+04, tol = 0.51492E+04, time = 3.21 | CG iter. 28 -- res = 0.94508E+03, tol = 0.51492E+04, time = 3.15 | CG iter. 29 -- res = 0.84765E+03, tol = 0.51492E+04, time = 3.18 | CG iter. 30 -- res = 0.85016E+03, tol = 0.51492E+04, time = 3.16 | CG iter. 31 -- res = 0.88782E+03, tol = 0.51492E+04, time = 3.18 | CG iter. 32 -- res = 0.89037E+03, tol = 0.51492E+04, time = 3.17 | CG iter. 33 -- res = 0.80096E+03, tol = 0.51492E+04, time = 3.19 | CG iter. 34 -- res = 0.68035E+03, tol = 0.51492E+04, time = 3.21 | CG iter. 35 -- res = 0.60256E+03, tol = 0.51492E+04, time = 3.18 | CG iter. 36 -- res = 0.58405E+03, tol = 0.51492E+04, time = 3.21 | CG iter. 37 -- res = 0.59594E+03, tol = 0.51492E+04, time = 3.15 | CG iter. 38 -- res = 0.58177E+03, tol = 0.51492E+04, time = 3.01 | CG iter. 39 -- res = 0.53926E+03, tol = 0.51492E+04, time = 3.00 | CG iter. 40 -- res = 0.50637E+03, tol = 0.51492E+04, time = 3.24 | CG iter. 41 -- res = 0.51780E+03, tol = 0.51492E+04, time = 3.14 | CG iter. 42 -- res = 0.56988E+03, tol = 0.51492E+04, time = 3.12 | CG iter. 43 -- res = 0.61588E+03, tol = 0.51492E+04, time = 3.10 | CG iter. 44 -- res = 0.60638E+03, tol = 0.51492E+04, time = 3.26 | CG iter. 45 -- res = 0.55937E+03, tol = 0.51492E+04, time = 3.18 | CG iter. 46 -- res = 0.53085E+03, tol = 0.51492E+04, time = 3.20 | CG iter. 47 -- res = 0.54047E+03, tol = 0.51492E+04, time = 3.13 | CG iter. 48 -- res = 0.57201E+03, tol = 0.51492E+04, time = 3.19 | CG iter. 49 -- res = 0.58263E+03, tol = 0.51492E+04, time = 3.22 | CG iter. 50 -- res = 0.55016E+03, tol = 0.51492E+04, time = 3.19 | CG iter. 51 -- res = 0.51720E+03, tol = 0.51492E+04, time = 3.17 | CG iter. 52 -- res = 0.52150E+03, tol = 0.51492E+04, time = 3.08 | CG iter. 53 -- res = 0.55664E+03, tol = 0.51492E+04, time = 3.09 | CG iter. 54 -- res = 0.57807E+03, tol = 0.51492E+04, time = 3.17 | CG iter. 55 -- res = 0.55233E+03, tol = 0.51492E+04, time = 3.13 | CG iter. 56 -- res = 0.49421E+03, tol = 0.51492E+04, time = 3.08 | CG iter. 57 -- res = 0.46611E+03, tol = 0.51492E+04, time = 3.14 | CG iter. 58 -- res = 0.48169E+03, tol = 0.51492E+04, time = 3.19 | CG iter. 59 -- res = 0.50484E+03, tol = 0.51492E+04, time = 3.14 | CG iter. 60 -- res = 0.49282E+03, tol = 0.51492E+04, time = 3.12 | Final CG iter 61 -- res = 0.49282E+03, tol = 0.51492E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 2.838 ( -231.047 -2234.335 2517.814 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8074481.633 | Old band monopole 8062399.454 | Change to band monopole 12082.179 | Change to component monopole -12082.127 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -2.955 2.730 | New value -0.161 | Old value -2.955 | Difference 2.794 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -3.955 ( 7.729 13.054 -13.701 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 8.468 2.773 | New value 3.253 | Old value 8.468 | Difference -5.215 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 4.12 | CG iter. 1 -- res = 0.43476E+06, tol = 0.47627E+18, time = 0.36 | CG iter. 2 -- res = 0.74168E+02, tol = 0.47627E+18, time = 0.37 | CG iter. 3 -- res = 0.20803E+01, tol = 0.47627E+18, time = 0.36 | CG iter. 4 -- res = 0.69232E-02, tol = 0.47627E+18, time = 0.39 | Final CG iter 5 -- res = 0.19872E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8074446.903 | (Sampled value in CG: 8008309.479 ) | Chain = 1 -- chisq = 0.61586058E+09 | Chain = 1 -- wall time = 4117.098 sec --------------------------------------------------------------------- | Chain = 1 -- Iteration = 70 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.17943100082265 | --> Sampling calibration, mode = relcal | relcal = -7.4912392E-02 -5.8333933E-02 9.1644660E-02 4.1601669E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.1539079E-04 4.2404574E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.1599E-05 | 2: delta_r/delta_0: 7.9251E-07 | 3: delta_s/delta_0: 2.4088E-07 | 4: delta_r/delta_0: 1.0204E-08 | 5: delta_s/delta_0: 3.3886E-09 | 6: delta_r/delta_0: 7.0999E-10 | 7: delta_s/delta_0: 1.6785E-09 | 8: delta_r/delta_0: 3.0728E-10 | 9: delta_s/delta_0: 1.5758E-10 | 10: delta_r/delta_0: 2.7311E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 7.961163415076225E-004 2.744718028155271E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.1599E-05 | 2: delta_r/delta_0: 7.9252E-07 | 3: delta_s/delta_0: 2.4088E-07 | 4: delta_r/delta_0: 1.0204E-08 | 5: delta_s/delta_0: 3.3890E-09 | 6: delta_r/delta_0: 7.0997E-10 | 7: delta_s/delta_0: 1.6779E-09 | 8: delta_r/delta_0: 3.0717E-10 | 9: delta_s/delta_0: 1.5754E-10 | 10: delta_r/delta_0: 2.7309E-11 | Reached bicg-stab tolerance | BP delta = 4.9398271E-03 1.3878006E-02 3762946.50983346 | BP delta = 4.9398271E-03 1.3107901E-02 3764104.58990574 | 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 = 1.02501921 | --> Sampling calibration, mode = relcal | relcal = -0.1066063 -9.5433332E-02 0.1448242 5.7215422E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.4759839E-03 1.4670898E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 7.7534E-04 | 2: delta_r/delta_0: 1.7082E-05 | 3: delta_s/delta_0: 4.8410E-06 | 4: delta_r/delta_0: 4.2448E-07 | 5: delta_s/delta_0: 1.0015E-06 | 6: delta_r/delta_0: 4.9157E-08 | 7: delta_s/delta_0: 2.7746E-09 | 8: delta_r/delta_0: 1.2474E-09 | 9: delta_s/delta_0: 5.4645E-08 | 10: delta_r/delta_0: 3.4292E-10 | 11: delta_s/delta_0: 9.8063E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.915306396467470E-003 2.813486656122603E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 7.7532E-04 | 2: delta_r/delta_0: 1.7081E-05 | 3: delta_s/delta_0: 4.8409E-06 | 4: delta_r/delta_0: 4.2447E-07 | 5: delta_s/delta_0: 1.0014E-06 | 6: delta_r/delta_0: 4.9150E-08 | 7: delta_s/delta_0: 2.7745E-09 | 8: delta_r/delta_0: 1.2474E-09 | 9: delta_s/delta_0: 5.4629E-08 | 10: delta_r/delta_0: 3.4273E-10 | 11: delta_s/delta_0: 9.8068E-11 | Reached bicg-stab tolerance | BP delta = -0.1881922 -0.1781537 2841542.71341955 | BP delta = -0.1881922 -0.1781050 2841545.61864635 | 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 = 0.81159118 | --> Sampling calibration, mode = relcal | relcal = 0.2952496 0.2246097 -0.2835610 -0.2362982 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.6420087E-04 5.4666256E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.0656E-03 | 2: delta_r/delta_0: 2.4413E-05 | 3: delta_s/delta_0: 2.6956E-06 | 4: delta_r/delta_0: 4.9450E-07 | 5: delta_s/delta_0: 1.8968E-06 | 6: delta_r/delta_0: 2.0137E-07 | 7: delta_s/delta_0: 6.4443E-08 | 8: delta_r/delta_0: 4.2255E-08 | 9: delta_s/delta_0: 1.8536E-06 | 10: delta_r/delta_0: 8.1508E-09 | 11: delta_s/delta_0: 1.0915E-09 | 12: delta_r/delta_0: 7.7623E-10 | 13: delta_s/delta_0: 3.1416E-10 | 14: delta_r/delta_0: 1.7083E-10 | 15: delta_s/delta_0: 3.8598E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.153801818719020E-002 4.024841222192880E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.0653E-03 | 2: delta_r/delta_0: 2.4405E-05 | 3: delta_s/delta_0: 2.6954E-06 | 4: delta_r/delta_0: 4.9442E-07 | 5: delta_s/delta_0: 1.8948E-06 | 6: delta_r/delta_0: 2.0137E-07 | 7: delta_s/delta_0: 6.4446E-08 | 8: delta_r/delta_0: 4.2246E-08 | 9: delta_s/delta_0: 1.8545E-06 | 10: delta_r/delta_0: 8.1574E-09 | 11: delta_s/delta_0: 1.0911E-09 | 12: delta_r/delta_0: 7.7591E-10 | 13: delta_s/delta_0: 3.1358E-10 | 14: delta_r/delta_0: 1.7076E-10 | 15: delta_s/delta_0: 3.8595E-11 | Reached bicg-stab tolerance | BP delta = -7.6560885E-02 -0.1081692 2827236.33042040 | BP delta = -7.6560885E-02 -0.1095077 2827251.54057314 | 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 = 0.95828346 | --> Sampling calibration, mode = relcal | relcal = 0.1064293 0.1394043 -0.1102114 -0.1356222 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0686706E-02 1.3043540E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 7.9172E-04 | 2: delta_r/delta_0: 1.8321E-05 | 3: delta_s/delta_0: 2.6909E-06 | 4: delta_r/delta_0: 3.8692E-07 | 5: delta_s/delta_0: 1.1653E-06 | 6: delta_r/delta_0: 1.9661E-07 | 7: delta_s/delta_0: 5.8187E-08 | 8: delta_r/delta_0: 3.8367E-08 | 9: delta_s/delta_0: 1.5690E-06 | 10: delta_r/delta_0: 1.0884E-08 | 11: delta_s/delta_0: 1.1910E-09 | 12: delta_r/delta_0: 7.0570E-10 | 13: delta_s/delta_0: 2.5231E-10 | 14: delta_r/delta_0: 1.3058E-10 | 15: delta_s/delta_0: 3.9498E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.236662290506309E-002 3.700534857002309E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 7.9138E-04 | 2: delta_r/delta_0: 1.8313E-05 | 3: delta_s/delta_0: 2.6915E-06 | 4: delta_r/delta_0: 3.8673E-07 | 5: delta_s/delta_0: 1.1645E-06 | 6: delta_r/delta_0: 1.9646E-07 | 7: delta_s/delta_0: 5.8171E-08 | 8: delta_r/delta_0: 3.8338E-08 | 9: delta_s/delta_0: 1.5686E-06 | 10: delta_r/delta_0: 1.0920E-08 | 11: delta_s/delta_0: 1.1933E-09 | 12: delta_r/delta_0: 7.0467E-10 | 13: delta_s/delta_0: 2.5194E-10 | 14: delta_r/delta_0: 1.3014E-10 | 15: delta_s/delta_0: 3.9466E-11 | Reached bicg-stab tolerance | BP delta = 0.2581881 0.2805569 3004836.22044188 | BP delta = 0.2581881 0.2846391 3004894.15958539 | 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 = 0.52103452 | --> Sampling calibration, mode = relcal | relcal = -5.0975874E-02 -3.7156839E-03 2.7283937E-02 2.7407622E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -2.4028313E-03 2.8063210E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 7.3286E-05 | 2: delta_r/delta_0: 3.9884E-06 | 3: delta_s/delta_0: 2.1634E-06 | 4: delta_r/delta_0: 2.4106E-07 | 5: delta_s/delta_0: 5.7551E-08 | 6: delta_r/delta_0: 2.4697E-08 | 7: delta_s/delta_0: 2.8027E-07 | 8: delta_r/delta_0: 5.9758E-08 | 9: delta_s/delta_0: 3.3406E-09 | 10: delta_r/delta_0: 1.8540E-09 | 11: delta_s/delta_0: 6.8460E-09 | 12: delta_r/delta_0: 2.3215E-10 | 13: delta_s/delta_0: 5.4773E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.989898102242199E-002 5.488877284710706E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 7.3286E-05 | 2: delta_r/delta_0: 3.9884E-06 | 3: delta_s/delta_0: 2.1634E-06 | 4: delta_r/delta_0: 2.4106E-07 | 5: delta_s/delta_0: 5.7552E-08 | 6: delta_r/delta_0: 2.4697E-08 | 7: delta_s/delta_0: 2.8022E-07 | 8: delta_r/delta_0: 5.9752E-08 | 9: delta_s/delta_0: 3.3407E-09 | 10: delta_r/delta_0: 1.8541E-09 | 11: delta_s/delta_0: 6.8484E-09 | 12: delta_r/delta_0: 2.3211E-10 | 13: delta_s/delta_0: 5.4776E-11 | Reached bicg-stab tolerance | BP delta = -9.3359828E-02 3.3808708E-02 2435790.23967874 | BP delta = -9.3359828E-02 2.6527083E-02 2435789.59113680 | BP chisq diff = -0.6, accept = T | | Finished processing 060-WMAP_V1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 060-WMAP_V2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.42105686 | --> Sampling calibration, mode = relcal | relcal = 4.5548800E-02 3.9630141E-02 -2.8279698E-02 -5.6899242E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 4.2555355E-03 5.3846701E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.0456E-05 | 2: delta_r/delta_0: 3.8375E-06 | 3: delta_s/delta_0: 2.6713E-06 | 4: delta_r/delta_0: 4.5222E-07 | 5: delta_s/delta_0: 6.2483E-08 | 6: delta_r/delta_0: 3.6960E-08 | 7: delta_s/delta_0: 5.4951E-08 | 8: delta_r/delta_0: 1.1968E-08 | 9: delta_s/delta_0: 2.1330E-09 | 10: delta_r/delta_0: 1.2628E-09 | 11: delta_s/delta_0: 9.4404E-10 | 12: delta_r/delta_0: 2.9683E-10 | 13: delta_s/delta_0: 6.8088E-07 | 14: delta_r/delta_0: 1.7252E-09 | 15: delta_s/delta_0: 1.7519E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.369730819881749E-002 5.001976076653261E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 6.0456E-05 | 2: delta_r/delta_0: 3.8375E-06 | 3: delta_s/delta_0: 2.6713E-06 | 4: delta_r/delta_0: 4.5221E-07 | 5: delta_s/delta_0: 6.2484E-08 | 6: delta_r/delta_0: 3.6959E-08 | 7: delta_s/delta_0: 5.4952E-08 | 8: delta_r/delta_0: 1.1968E-08 | 9: delta_s/delta_0: 2.1330E-09 | 10: delta_r/delta_0: 1.2628E-09 | 11: delta_s/delta_0: 9.4426E-10 | 12: delta_r/delta_0: 2.9694E-10 | 13: delta_s/delta_0: 6.7176E-07 | 14: delta_r/delta_0: 1.7144E-09 | 15: delta_s/delta_0: 1.7518E-11 | Reached bicg-stab tolerance | BP delta = -0.1386117 -0.1909426 2322045.46471811 | BP delta = -0.1386117 -0.1864557 2322120.91580510 | 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 = 0.28125217 | --> Sampling calibration, mode = relcal | relcal = 2.4116894E-02 4.5055151E-02 -2.3294283E-02 -4.5877762E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0941398E-02 1.4297509E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.0772E-04 | 2: delta_r/delta_0: 8.9273E-06 | 3: delta_s/delta_0: 1.5052E-06 | 4: delta_r/delta_0: 1.8422E-07 | 5: delta_s/delta_0: 6.8416E-08 | 6: delta_r/delta_0: 1.4297E-08 | 7: delta_s/delta_0: 5.8505E-09 | 8: delta_r/delta_0: 3.7022E-09 | 9: delta_s/delta_0: 4.7898E-09 | 10: delta_r/delta_0: 2.7254E-09 | 11: delta_s/delta_0: 1.0396E-07 | 12: delta_r/delta_0: 1.9253E-08 | 13: delta_s/delta_0: 3.4733E-10 | 14: delta_r/delta_0: 1.4240E-10 | 15: delta_s/delta_0: 6.7830E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -7.890998065600105E-003 7.853646299365999E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.0772E-04 | 2: delta_r/delta_0: 8.9273E-06 | 3: delta_s/delta_0: 1.5052E-06 | 4: delta_r/delta_0: 1.8422E-07 | 5: delta_s/delta_0: 6.8416E-08 | 6: delta_r/delta_0: 1.4296E-08 | 7: delta_s/delta_0: 5.8504E-09 | 8: delta_r/delta_0: 3.7022E-09 | 9: delta_s/delta_0: 4.7897E-09 | 10: delta_r/delta_0: 2.7254E-09 | 11: delta_s/delta_0: 1.0396E-07 | 12: delta_r/delta_0: 1.9253E-08 | 13: delta_s/delta_0: 3.4733E-10 | 14: delta_r/delta_0: 1.4240E-10 | 15: delta_s/delta_0: 6.7829E-11 | Reached bicg-stab tolerance | BP delta = 3.4481049E-02 -0.1194845 2490079.94179012 | BP delta = 3.4481049E-02 -0.1248714 2490078.54387189 | BP chisq diff = -1.4, accept = T | | Finished processing 090-WMAP_W1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.29350513 | --> Sampling calibration, mode = relcal | relcal = 5.7053450E-04 1.0224406E-02 -3.7781559E-03 -7.0167845E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.5831068E-02 1.4391300E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.3316E-04 | 2: delta_r/delta_0: 1.1403E-05 | 3: delta_s/delta_0: 1.8609E-06 | 4: delta_r/delta_0: 2.6969E-07 | 5: delta_s/delta_0: 1.0035E-07 | 6: delta_r/delta_0: 2.1626E-08 | 7: delta_s/delta_0: 9.0085E-09 | 8: delta_r/delta_0: 5.9788E-09 | 9: delta_s/delta_0: 4.0488E-09 | 10: delta_r/delta_0: 2.2619E-09 | 11: delta_s/delta_0: 1.6889E-06 | 12: delta_r/delta_0: 3.2966E-09 | 13: delta_s/delta_0: 3.0045E-10 | 14: delta_r/delta_0: 1.4465E-10 | 15: delta_s/delta_0: 1.2215E-10 | 16: delta_r/delta_0: 6.1242E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.592547988000858E-003 8.318408216023529E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.3316E-04 | 2: delta_r/delta_0: 1.1403E-05 | 3: delta_s/delta_0: 1.8609E-06 | 4: delta_r/delta_0: 2.6969E-07 | 5: delta_s/delta_0: 1.0036E-07 | 6: delta_r/delta_0: 2.1626E-08 | 7: delta_s/delta_0: 9.0085E-09 | 8: delta_r/delta_0: 5.9788E-09 | 9: delta_s/delta_0: 4.0488E-09 | 10: delta_r/delta_0: 2.2620E-09 | 11: delta_s/delta_0: 1.6889E-06 | 12: delta_r/delta_0: 3.2967E-09 | 13: delta_s/delta_0: 3.0042E-10 | 14: delta_r/delta_0: 1.4464E-10 | 15: delta_s/delta_0: 1.2216E-10 | 16: delta_r/delta_0: 6.1228E-11 | Reached bicg-stab tolerance | BP delta = -0.6936462 -0.6340832 2737926.27337573 | BP delta = -0.6936462 -0.6254969 2737925.04256841 | 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 = 0.26470732 | --> Sampling calibration, mode = relcal | relcal = -5.5883690E-03 1.5041421E-02 -2.4036132E-03 -7.0494390E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -7.7030237E-04 2.6436420E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4432E-04 | 2: delta_r/delta_0: 1.2398E-05 | 3: delta_s/delta_0: 2.0883E-06 | 4: delta_r/delta_0: 2.7122E-07 | 5: delta_s/delta_0: 9.6928E-08 | 6: delta_r/delta_0: 2.1795E-08 | 7: delta_s/delta_0: 9.1784E-09 | 8: delta_r/delta_0: 5.9314E-09 | 9: delta_s/delta_0: 6.4499E-09 | 10: delta_r/delta_0: 4.1901E-09 | 11: delta_s/delta_0: 4.8458E-07 | 12: delta_r/delta_0: 3.0561E-08 | 13: delta_s/delta_0: 4.2632E-10 | 14: delta_r/delta_0: 2.5552E-10 | 15: delta_s/delta_0: 1.5078E-10 | 16: delta_r/delta_0: 6.3327E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -8.549005350404655E-003 9.166397422198548E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.4432E-04 | 2: delta_r/delta_0: 1.2398E-05 | 3: delta_s/delta_0: 2.0882E-06 | 4: delta_r/delta_0: 2.7121E-07 | 5: delta_s/delta_0: 9.6931E-08 | 6: delta_r/delta_0: 2.1794E-08 | 7: delta_s/delta_0: 9.1783E-09 | 8: delta_r/delta_0: 5.9314E-09 | 9: delta_s/delta_0: 6.4498E-09 | 10: delta_r/delta_0: 4.1901E-09 | 11: delta_s/delta_0: 4.8466E-07 | 12: delta_r/delta_0: 3.0566E-08 | 13: delta_s/delta_0: 4.2591E-10 | 14: delta_r/delta_0: 2.5525E-10 | 15: delta_s/delta_0: 1.5079E-10 | 16: delta_r/delta_0: 6.3326E-11 | Reached bicg-stab tolerance | BP delta = 0.2148392 0.3110216 2516825.46268578 | BP delta = 0.2148392 0.3275386 2516825.69957752 | 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 = 0.25627381 | --> Sampling calibration, mode = relcal | relcal = -3.1547755E-02 -2.6012246E-02 3.6827993E-02 2.0732008E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.2998482E-02 1.3858532E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4456E-04 | 2: delta_r/delta_0: 1.2226E-05 | 3: delta_s/delta_0: 1.9286E-06 | 4: delta_r/delta_0: 3.1800E-07 | 5: delta_s/delta_0: 1.1101E-07 | 6: delta_r/delta_0: 2.3562E-08 | 7: delta_s/delta_0: 1.0174E-08 | 8: delta_r/delta_0: 6.2148E-09 | 9: delta_s/delta_0: 7.9528E-09 | 10: delta_r/delta_0: 3.7652E-09 | 11: delta_s/delta_0: 4.3151E-08 | 12: delta_r/delta_0: 4.9135E-09 | 13: delta_s/delta_0: 9.5528E-09 | 14: delta_r/delta_0: 5.6871E-09 | 15: delta_s/delta_0: 7.2301E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.847428829603785E-003 8.684634512327455E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.4456E-04 | 2: delta_r/delta_0: 1.2226E-05 | 3: delta_s/delta_0: 1.9286E-06 | 4: delta_r/delta_0: 3.1800E-07 | 5: delta_s/delta_0: 1.1101E-07 | 6: delta_r/delta_0: 2.3562E-08 | 7: delta_s/delta_0: 1.0174E-08 | 8: delta_r/delta_0: 6.2148E-09 | 9: delta_s/delta_0: 7.9529E-09 | 10: delta_r/delta_0: 3.7653E-09 | 11: delta_s/delta_0: 4.3148E-08 | 12: delta_r/delta_0: 4.9126E-09 | 13: delta_s/delta_0: 9.5436E-09 | 14: delta_r/delta_0: 5.6810E-09 | 15: delta_s/delta_0: 7.2296E-11 | Reached bicg-stab tolerance | BP delta = -0.6324608 -0.7047317 2705481.63253577 | BP delta = -0.6324608 -0.7109715 2705484.17305871 | 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 = -3.173964 | New value = -3.099362 | poltype: 2 pol: 1 CPU time specind = 4.2929649E-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 = -3.162295 | New value = -3.182428 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.151826 | New value = -3.111431 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.211550 | New value = -3.168772 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.061741 | New value = -3.118908 | poltype: 2 pol: 2 CPU time specind = 4.9860477E-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 = 4.11 | CG iter. 1 -- res = 0.13586E+08, tol = 0.84028E+01, time = 1.60 | CG iter. 2 -- res = 0.63096E+05, tol = 0.84028E+01, time = 1.52 | CG iter. 3 -- res = 0.77744E+05, tol = 0.84028E+01, time = 1.57 | CG iter. 4 -- res = 0.40589E+05, tol = 0.84028E+01, time = 1.49 | CG iter. 5 -- res = 0.46450E+05, tol = 0.84028E+01, time = 1.56 | CG iter. 6 -- res = 0.40759E+05, tol = 0.84028E+01, time = 1.57 | CG iter. 7 -- res = 0.35310E+05, tol = 0.84028E+01, time = 1.56 | CG iter. 8 -- res = 0.28193E+05, tol = 0.84028E+01, time = 1.51 | CG iter. 9 -- res = 0.25045E+05, tol = 0.84028E+01, time = 1.55 | CG iter. 10 -- res = 0.23345E+05, tol = 0.84028E+01, time = 1.50 | CG iter. 11 -- res = 0.13760E+05, tol = 0.84028E+01, time = 1.53 | CG iter. 12 -- res = 0.88941E+04, tol = 0.84028E+01, time = 1.56 | CG iter. 13 -- res = 0.69255E+04, tol = 0.84028E+01, time = 1.55 | CG iter. 14 -- res = 0.62887E+04, tol = 0.84028E+01, time = 1.52 | CG iter. 15 -- res = 0.49794E+04, tol = 0.84028E+01, time = 1.52 | CG iter. 16 -- res = 0.39945E+04, tol = 0.84028E+01, time = 1.58 | CG iter. 17 -- res = 0.32311E+04, tol = 0.84028E+01, time = 1.54 | CG iter. 18 -- res = 0.24218E+04, tol = 0.84028E+01, time = 1.58 | CG iter. 19 -- res = 0.19282E+04, tol = 0.84028E+01, time = 1.50 | CG iter. 20 -- res = 0.13418E+04, tol = 0.84028E+01, time = 1.49 | CG iter. 21 -- res = 0.10446E+04, tol = 0.84028E+01, time = 1.53 | CG iter. 22 -- res = 0.88966E+03, tol = 0.84028E+01, time = 1.52 | CG iter. 23 -- res = 0.66866E+03, tol = 0.84028E+01, time = 1.51 | CG iter. 24 -- res = 0.53302E+03, tol = 0.84028E+01, time = 1.59 | CG iter. 25 -- res = 0.45644E+03, tol = 0.84028E+01, time = 1.58 | CG iter. 26 -- res = 0.37387E+03, tol = 0.84028E+01, time = 1.57 | CG iter. 27 -- res = 0.28993E+03, tol = 0.84028E+01, time = 1.54 | CG iter. 28 -- res = 0.23675E+03, tol = 0.84028E+01, time = 1.50 | CG iter. 29 -- res = 0.20285E+03, tol = 0.84028E+01, time = 1.56 | CG iter. 30 -- res = 0.16487E+03, tol = 0.84028E+01, time = 1.58 | CG iter. 31 -- res = 0.12780E+03, tol = 0.84028E+01, time = 1.55 | CG iter. 32 -- res = 0.10649E+03, tol = 0.84028E+01, time = 1.60 | CG iter. 33 -- res = 0.92105E+02, tol = 0.84028E+01, time = 1.57 | CG iter. 34 -- res = 0.75504E+02, tol = 0.84028E+01, time = 1.49 | CG iter. 35 -- res = 0.55176E+02, tol = 0.84028E+01, time = 1.54 | CG iter. 36 -- res = 0.47520E+02, tol = 0.84028E+01, time = 1.52 | CG iter. 37 -- res = 0.38838E+02, tol = 0.84028E+01, time = 1.55 | CG iter. 38 -- res = 0.37206E+02, tol = 0.84028E+01, time = 1.49 | CG iter. 39 -- res = 0.34260E+02, tol = 0.84028E+01, time = 1.47 | CG iter. 40 -- res = 0.19482E+02, tol = 0.84028E+01, time = 1.47 | CG iter. 41 -- res = 0.16286E+02, tol = 0.84028E+01, time = 1.54 | CG iter. 42 -- res = 0.11603E+02, tol = 0.84028E+01, time = 1.51 | CG iter. 43 -- res = 0.89598E+01, tol = 0.84028E+01, time = 1.50 | CG iter. 44 -- res = 0.77996E+01, tol = 0.84028E+01, time = 1.52 | CG iter. 45 -- res = 0.98385E+01, tol = 0.84028E+01, time = 1.53 | CG iter. 46 -- res = 0.52130E+01, tol = 0.84028E+01, time = 1.54 | CG iter. 47 -- res = 0.32869E+01, tol = 0.84028E+01, time = 1.51 | CG iter. 48 -- res = 0.26104E+01, tol = 0.84028E+01, time = 1.54 | CG iter. 49 -- res = 0.18631E+01, tol = 0.84028E+01, time = 1.52 | CG iter. 50 -- res = 0.12887E+01, tol = 0.84028E+01, time = 1.56 | Final CG iter 51 -- res = 0.12887E+01, tol = 0.84028E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 10219939.919 | Old band monopole 8074481.633 | Change to band monopole 2145458.286 | Change to component monopole -2145449.058 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 4.10 | CG iter. 1 -- res = 0.44941E+05, tol = 0.47627E+18, time = 0.39 | CG iter. 2 -- res = 0.51849E+02, tol = 0.47627E+18, time = 0.39 | CG iter. 3 -- res = 0.14010E+01, tol = 0.47627E+18, time = 0.36 | CG iter. 4 -- res = 0.63960E-03, tol = 0.47627E+18, time = 0.35 | Final CG iter 5 -- res = 0.24529E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10219895.961 | (Sampled value in CG: 10272867.338 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.500811 | New value = 1.533749 | poltype: 2 pol: 1 CPU time specind = 4.7628880E-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 = 1.492763 | New value = 1.500081 | poltype: 2 pol: 2 CPU time specind = 1.5280247E-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 = 4.10 | CG iter. 1 -- res = 0.24297E+08, tol = 0.47661E+04, time = 1.79 | CG iter. 2 -- res = 0.53899E+07, tol = 0.47661E+04, time = 1.83 | CG iter. 3 -- res = 0.83703E+06, tol = 0.47661E+04, time = 1.82 | CG iter. 4 -- res = 0.34971E+06, tol = 0.47661E+04, time = 1.88 | CG iter. 5 -- res = 0.14763E+06, tol = 0.47661E+04, time = 1.79 | CG iter. 6 -- res = 0.76746E+05, tol = 0.47661E+04, time = 1.77 | CG iter. 7 -- res = 0.42185E+05, tol = 0.47661E+04, time = 1.81 | CG iter. 8 -- res = 0.20175E+05, tol = 0.47661E+04, time = 1.81 | CG iter. 9 -- res = 0.89013E+04, tol = 0.47661E+04, time = 1.79 | CG iter. 10 -- res = 0.36851E+04, tol = 0.47661E+04, time = 1.76 | CG iter. 11 -- res = 0.16937E+04, tol = 0.47661E+04, time = 1.83 | CG iter. 12 -- res = 0.85544E+03, tol = 0.47661E+04, time = 1.79 | CG iter. 13 -- res = 0.47686E+03, tol = 0.47661E+04, time = 1.85 | CG iter. 14 -- res = 0.26772E+03, tol = 0.47661E+04, time = 1.80 | CG iter. 15 -- res = 0.13805E+03, tol = 0.47661E+04, time = 1.80 | CG iter. 16 -- res = 0.66226E+02, tol = 0.47661E+04, time = 1.78 | CG iter. 17 -- res = 0.31702E+02, tol = 0.47661E+04, time = 1.85 | CG iter. 18 -- res = 0.15894E+02, tol = 0.47661E+04, time = 1.84 | CG iter. 19 -- res = 0.85967E+01, tol = 0.47661E+04, time = 1.79 | CG iter. 20 -- res = 0.48314E+01, tol = 0.47661E+04, time = 1.77 | CG iter. 21 -- res = 0.26345E+01, tol = 0.47661E+04, time = 1.89 | CG iter. 22 -- res = 0.13550E+01, tol = 0.47661E+04, time = 1.84 | CG iter. 23 -- res = 0.69399E+00, tol = 0.47661E+04, time = 1.93 | CG iter. 24 -- res = 0.35313E+00, tol = 0.47661E+04, time = 1.78 | CG iter. 25 -- res = 0.19325E+00, tol = 0.47661E+04, time = 1.84 | CG iter. 26 -- res = 0.11070E+00, tol = 0.47661E+04, time = 1.86 | CG iter. 27 -- res = 0.61800E-01, tol = 0.47661E+04, time = 1.79 | CG iter. 28 -- res = 0.33039E-01, tol = 0.47661E+04, time = 1.86 | CG iter. 29 -- res = 0.17074E-01, tol = 0.47661E+04, time = 1.85 | CG iter. 30 -- res = 0.89874E-02, tol = 0.47661E+04, time = 1.84 | CG iter. 31 -- res = 0.49387E-02, tol = 0.47661E+04, time = 1.81 | CG iter. 32 -- res = 0.28314E-02, tol = 0.47661E+04, time = 1.86 | CG iter. 33 -- res = 0.15813E-02, tol = 0.47661E+04, time = 1.83 | CG iter. 34 -- res = 0.85303E-03, tol = 0.47661E+04, time = 1.82 | CG iter. 35 -- res = 0.44336E-03, tol = 0.47661E+04, time = 1.79 | Final CG iter 36 -- res = 0.44336E-03, tol = 0.47661E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -0.135 2.741 | New value 0.268 | Old value -0.135 | Difference 0.402 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 4.11 | CG iter. 1 -- res = 0.12130E+05, tol = 0.47627E+18, time = 0.34 | CG iter. 2 -- res = 0.37262E+02, tol = 0.47627E+18, time = 0.35 | CG iter. 3 -- res = 0.12868E+01, tol = 0.47627E+18, time = 0.37 | CG iter. 4 -- res = 0.71122E-04, tol = 0.47627E+18, time = 0.39 | Final CG iter 5 -- res = 0.10230E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10219895.961 | (Sampled value in CG: 10274623.998 ) | 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 = -3.479240 | New value = -3.642258 | poltype: 1 pol: 1 CPU time specind = 2.1090508E-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 = 4.10 | CG iter. 1 -- res = 0.25000E+07, tol = 0.16277E+01, time = 0.63 | CG iter. 2 -- res = 0.97107E+05, tol = 0.16277E+01, time = 0.66 | CG iter. 3 -- res = 0.61000E+05, tol = 0.16277E+01, time = 0.66 | CG iter. 4 -- res = 0.16076E+05, tol = 0.16277E+01, time = 0.68 | CG iter. 5 -- res = 0.38591E+04, tol = 0.16277E+01, time = 0.63 | CG iter. 6 -- res = 0.14422E+04, tol = 0.16277E+01, time = 0.65 | CG iter. 7 -- res = 0.62915E+03, tol = 0.16277E+01, time = 0.68 | CG iter. 8 -- res = 0.21583E+03, tol = 0.16277E+01, time = 0.63 | CG iter. 9 -- res = 0.11061E+03, tol = 0.16277E+01, time = 0.65 | CG iter. 10 -- res = 0.26851E+02, tol = 0.16277E+01, time = 0.70 | CG iter. 11 -- res = 0.10887E+02, tol = 0.16277E+01, time = 0.67 | CG iter. 12 -- res = 0.50272E+01, tol = 0.16277E+01, time = 0.65 | CG iter. 13 -- res = 0.21474E+01, tol = 0.16277E+01, time = 0.69 | CG iter. 14 -- res = 0.52628E+00, tol = 0.16277E+01, time = 0.68 | CG iter. 15 -- res = 0.16552E+00, tol = 0.16277E+01, time = 0.66 | CG iter. 16 -- res = 0.71260E-01, tol = 0.16277E+01, time = 0.67 | CG iter. 17 -- res = 0.30408E-01, tol = 0.16277E+01, time = 0.67 | CG iter. 18 -- res = 0.10643E-01, tol = 0.16277E+01, time = 0.66 | CG iter. 19 -- res = 0.32065E-02, tol = 0.16277E+01, time = 0.67 | CG iter. 20 -- res = 0.13556E-02, tol = 0.16277E+01, time = 0.67 | CG iter. 21 -- res = 0.53555E-03, tol = 0.16277E+01, time = 0.69 | CG iter. 22 -- res = 0.20100E-03, tol = 0.16277E+01, time = 0.65 | CG iter. 23 -- res = 0.71121E-04, tol = 0.16277E+01, time = 0.62 | CG iter. 24 -- res = 0.23972E-04, tol = 0.16277E+01, time = 0.65 | CG iter. 25 -- res = 0.69263E-05, tol = 0.16277E+01, time = 0.64 | CG iter. 26 -- res = 0.21796E-05, tol = 0.16277E+01, time = 0.68 | CG iter. 27 -- res = 0.95769E-06, tol = 0.16277E+01, time = 0.62 | CG iter. 28 -- res = 0.28990E-06, tol = 0.16277E+01, time = 0.61 | CG iter. 29 -- res = 0.83967E-07, tol = 0.16277E+01, time = 0.61 | CG iter. 30 -- res = 0.26664E-07, tol = 0.16277E+01, time = 0.65 | CG iter. 31 -- res = 0.82080E-08, tol = 0.16277E+01, time = 0.57 | CG iter. 32 -- res = 0.33109E-08, tol = 0.16277E+01, time = 0.62 | CG iter. 33 -- res = 0.28435E-08, tol = 0.16277E+01, time = 0.64 | CG iter. 34 -- res = 0.58746E-09, tol = 0.16277E+01, time = 0.64 | CG iter. 35 -- res = 0.16381E-09, tol = 0.16277E+01, time = 0.64 | CG iter. 36 -- res = 0.72709E-10, tol = 0.16277E+01, time = 0.61 | CG iter. 37 -- res = 0.58424E-10, tol = 0.16277E+01, time = 0.64 | CG iter. 38 -- res = 0.12866E-10, tol = 0.16277E+01, time = 0.70 | CG iter. 39 -- res = 0.32097E-11, tol = 0.16277E+01, time = 0.67 | CG iter. 40 -- res = 0.11530E-11, tol = 0.16277E+01, time = 0.65 | CG iter. 41 -- res = 0.38221E-12, tol = 0.16277E+01, time = 0.62 | CG iter. 42 -- res = 0.14983E-12, tol = 0.16277E+01, time = 0.62 | CG iter. 43 -- res = 0.49302E-13, tol = 0.16277E+01, time = 0.60 | CG iter. 44 -- res = 0.12854E-13, tol = 0.16277E+01, time = 0.64 | CG iter. 45 -- res = 0.39816E-14, tol = 0.16277E+01, time = 0.61 | CG iter. 46 -- res = 0.13267E-14, tol = 0.16277E+01, time = 0.65 | CG iter. 47 -- res = 0.39894E-15, tol = 0.16277E+01, time = 0.63 | CG iter. 48 -- res = 0.12085E-15, tol = 0.16277E+01, time = 0.63 | CG iter. 49 -- res = 0.33446E-16, tol = 0.16277E+01, time = 0.68 | CG iter. 50 -- res = 0.14215E-16, tol = 0.16277E+01, time = 0.67 | Final CG iter 51 -- res = 0.14215E-16, tol = 0.16277E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 8.747 2.463 | New value 0.120 | Old value 8.747 | Difference -8.627 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 4.10 | CG iter. 1 -- res = 0.50077E+05, tol = 0.47627E+18, time = 0.32 | CG iter. 2 -- res = 0.37752E+02, tol = 0.47627E+18, time = 0.37 | CG iter. 3 -- res = 0.10901E+01, tol = 0.47627E+18, time = 0.41 | CG iter. 4 -- res = 0.20685E-03, tol = 0.47627E+18, time = 0.35 | Final CG iter 5 -- res = 0.11272E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10219895.961 | (Sampled value in CG: 10262562.403 ) | CPU time specind = 278.1395 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 4.12 | CG iter. 1 -- res = 0.70067E+08, tol = 0.51555E+04, time = 3.16 | CG iter. 2 -- res = 0.32764E+08, tol = 0.51555E+04, time = 3.15 | CG iter. 3 -- res = 0.57926E+07, tol = 0.51555E+04, time = 3.19 | CG iter. 4 -- res = 0.30604E+07, tol = 0.51555E+04, time = 3.14 | CG iter. 5 -- res = 0.13897E+07, tol = 0.51555E+04, time = 3.29 | CG iter. 6 -- res = 0.75276E+06, tol = 0.51555E+04, time = 3.15 | CG iter. 7 -- res = 0.40217E+06, tol = 0.51555E+04, time = 3.10 | CG iter. 8 -- res = 0.20713E+06, tol = 0.51555E+04, time = 3.19 | CG iter. 9 -- res = 0.11027E+06, tol = 0.51555E+04, time = 3.13 | CG iter. 10 -- res = 0.55869E+05, tol = 0.51555E+04, time = 3.09 | CG iter. 11 -- res = 0.32442E+05, tol = 0.51555E+04, time = 3.10 | CG iter. 12 -- res = 0.21441E+05, tol = 0.51555E+04, time = 3.10 | CG iter. 13 -- res = 0.16717E+05, tol = 0.51555E+04, time = 3.20 | CG iter. 14 -- res = 0.15572E+05, tol = 0.51555E+04, time = 3.11 | CG iter. 15 -- res = 0.14377E+05, tol = 0.51555E+04, time = 3.05 | CG iter. 16 -- res = 0.13483E+05, tol = 0.51555E+04, time = 3.08 | CG iter. 17 -- res = 0.12080E+05, tol = 0.51555E+04, time = 3.20 | CG iter. 18 -- res = 0.11236E+05, tol = 0.51555E+04, time = 3.12 | CG iter. 19 -- res = 0.11060E+05, tol = 0.51555E+04, time = 3.11 | CG iter. 20 -- res = 0.10391E+05, tol = 0.51555E+04, time = 3.15 | CG iter. 21 -- res = 0.82868E+04, tol = 0.51555E+04, time = 3.11 | CG iter. 22 -- res = 0.54966E+04, tol = 0.51555E+04, time = 3.15 | CG iter. 23 -- res = 0.37241E+04, tol = 0.51555E+04, time = 3.18 | CG iter. 24 -- res = 0.29806E+04, tol = 0.51555E+04, time = 3.14 | CG iter. 25 -- res = 0.28018E+04, tol = 0.51555E+04, time = 3.13 | CG iter. 26 -- res = 0.26006E+04, tol = 0.51555E+04, time = 3.14 | CG iter. 27 -- res = 0.21519E+04, tol = 0.51555E+04, time = 3.25 | CG iter. 28 -- res = 0.17069E+04, tol = 0.51555E+04, time = 3.19 | CG iter. 29 -- res = 0.15096E+04, tol = 0.51555E+04, time = 3.32 | CG iter. 30 -- res = 0.15371E+04, tol = 0.51555E+04, time = 3.18 | CG iter. 31 -- res = 0.15304E+04, tol = 0.51555E+04, time = 3.20 | CG iter. 32 -- res = 0.13099E+04, tol = 0.51555E+04, time = 3.31 | CG iter. 33 -- res = 0.99435E+03, tol = 0.51555E+04, time = 3.14 | CG iter. 34 -- res = 0.78762E+03, tol = 0.51555E+04, time = 3.28 | CG iter. 35 -- res = 0.73586E+03, tol = 0.51555E+04, time = 3.17 | CG iter. 36 -- res = 0.76833E+03, tol = 0.51555E+04, time = 3.23 | CG iter. 37 -- res = 0.76389E+03, tol = 0.51555E+04, time = 3.17 | CG iter. 38 -- res = 0.67790E+03, tol = 0.51555E+04, time = 3.15 | CG iter. 39 -- res = 0.59598E+03, tol = 0.51555E+04, time = 3.26 | CG iter. 40 -- res = 0.58504E+03, tol = 0.51555E+04, time = 3.23 | CG iter. 41 -- res = 0.63377E+03, tol = 0.51555E+04, time = 3.21 | CG iter. 42 -- res = 0.65662E+03, tol = 0.51555E+04, time = 3.14 | CG iter. 43 -- res = 0.60500E+03, tol = 0.51555E+04, time = 3.16 | CG iter. 44 -- res = 0.53631E+03, tol = 0.51555E+04, time = 3.21 | CG iter. 45 -- res = 0.50965E+03, tol = 0.51555E+04, time = 3.24 | CG iter. 46 -- res = 0.53430E+03, tol = 0.51555E+04, time = 3.21 | CG iter. 47 -- res = 0.56632E+03, tol = 0.51555E+04, time = 3.20 | CG iter. 48 -- res = 0.56512E+03, tol = 0.51555E+04, time = 3.20 | CG iter. 49 -- res = 0.53875E+03, tol = 0.51555E+04, time = 3.24 | CG iter. 50 -- res = 0.53306E+03, tol = 0.51555E+04, time = 3.21 | CG iter. 51 -- res = 0.55471E+03, tol = 0.51555E+04, time = 3.12 | CG iter. 52 -- res = 0.57978E+03, tol = 0.51555E+04, time = 3.24 | CG iter. 53 -- res = 0.57574E+03, tol = 0.51555E+04, time = 3.18 | CG iter. 54 -- res = 0.54800E+03, tol = 0.51555E+04, time = 3.27 | CG iter. 55 -- res = 0.52216E+03, tol = 0.51555E+04, time = 3.17 | CG iter. 56 -- res = 0.51446E+03, tol = 0.51555E+04, time = 3.22 | CG iter. 57 -- res = 0.51925E+03, tol = 0.51555E+04, time = 3.25 | CG iter. 58 -- res = 0.52161E+03, tol = 0.51555E+04, time = 3.17 | CG iter. 59 -- res = 0.51885E+03, tol = 0.51555E+04, time = 3.16 | CG iter. 60 -- res = 0.50852E+03, tol = 0.51555E+04, time = 3.16 | Final CG iter 61 -- res = 0.50852E+03, tol = 0.51555E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 2.333 ( -231.015 -2233.860 2516.869 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8983097.156 | Old band monopole 10219939.919 | Change to band monopole -1236842.763 | Change to component monopole 1236837.443 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 0.277 2.756 | New value -0.116 | Old value 0.277 | Difference -0.393 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -3.382 ( 6.968 11.887 -13.014 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 7.485 2.781 | New value -1.408 | Old value 7.485 | Difference -8.893 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 4.12 | CG iter. 1 -- res = 0.41588E+05, tol = 0.47627E+18, time = 0.32 | CG iter. 2 -- res = 0.54570E+02, tol = 0.47627E+18, time = 0.35 | CG iter. 3 -- res = 0.15535E+01, tol = 0.47627E+18, time = 0.34 | CG iter. 4 -- res = 0.16683E-02, tol = 0.47627E+18, time = 0.36 | Final CG iter 5 -- res = 0.21000E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8983058.518 | (Sampled value in CG: 8928280.645 ) | Chain = 1 -- chisq = 0.61824443E+09 | Chain = 1 -- wall time = 4716.438 sec --------------------------------------------------------------------- | Chain = 1 -- Iteration = 71 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18329359502453 | --> Sampling calibration, mode = relcal | relcal = -7.5831316E-02 -5.9139110E-02 9.2765741E-02 4.2204678E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.9836938E-04 6.3529708E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.7109E-05 | 2: delta_r/delta_0: 1.3347E-06 | 3: delta_s/delta_0: 1.9318E-07 | 4: delta_r/delta_0: 2.5169E-08 | 5: delta_s/delta_0: 6.5659E-09 | 6: delta_r/delta_0: 2.4597E-09 | 7: delta_s/delta_0: 9.2401E-10 | 8: delta_r/delta_0: 1.7729E-10 | 9: delta_s/delta_0: 4.5273E-10 | 10: delta_r/delta_0: 1.2409E-10 | 11: delta_s/delta_0: 5.1384E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 9.900573955390673E-004 2.735646265879952E-005 | BP delta = 4.9398271E-03 1.3878006E-02 29859123.1060045 | BP delta = 5.4135337E-03 1.4351713E-02 29859122.7042239 | 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 = 1.02503956 | --> Sampling calibration, mode = relcal | relcal = -0.1065778 -9.5453039E-02 0.1448603 5.7170518E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.2331035E-03 2.1017848E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.3492E-04 | 2: delta_r/delta_0: 5.1276E-06 | 3: delta_s/delta_0: 1.9191E-06 | 4: delta_r/delta_0: 1.8383E-07 | 5: delta_s/delta_0: 3.3489E-08 | 6: delta_r/delta_0: 5.0065E-09 | 7: delta_s/delta_0: 2.8671E-09 | 8: delta_r/delta_0: 1.8453E-09 | 9: delta_s/delta_0: 1.3215E-09 | 10: delta_r/delta_0: 1.9579E-10 | 11: delta_s/delta_0: 1.7264E-10 | 12: delta_r/delta_0: 8.6936E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -8.208738797785428E-003 2.813453528764678E-005 | BP delta = -0.1881922 -0.1781050 34768797.0919591 | BP delta = -0.1825511 -0.1724639 34768797.8994102 | 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 = 0.81150700 | --> Sampling calibration, mode = relcal | relcal = 0.2951564 0.2246823 -0.2835590 -0.2362797 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 4.8579767E-04 5.9430804E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.1945E-03 | 2: delta_r/delta_0: 2.7396E-05 | 3: delta_s/delta_0: 5.9994E-04 | 4: delta_r/delta_0: 2.3461E-05 | 5: delta_s/delta_0: 9.6954E-05 | 6: delta_r/delta_0: 1.3459E-05 | 7: delta_s/delta_0: 5.4471E-08 | 8: delta_r/delta_0: 3.6186E-08 | 9: delta_s/delta_0: 3.7492E-07 | 10: delta_r/delta_0: 4.2828E-09 | 11: delta_s/delta_0: 1.2305E-09 | 12: delta_r/delta_0: 5.6477E-10 | 13: delta_s/delta_0: 3.5676E-10 | 14: delta_r/delta_0: 1.1063E-10 | 15: delta_s/delta_0: 2.5502E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.810334904918676E-002 4.025257671699694E-005 | BP delta = -7.6560885E-02 -0.1081692 43104500.6687890 | BP delta = -6.6547841E-02 -9.8156162E-02 43104500.6492907 | 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 = 0.95822140 | --> Sampling calibration, mode = relcal | relcal = 0.1064841 0.1394686 -0.1102184 -0.1357343 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.3903365E-03 1.3077133E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.0006E-03 | 2: delta_r/delta_0: 2.3194E-05 | 3: delta_s/delta_0: 1.1579E-02 | 4: delta_r/delta_0: 6.0080E-04 | 5: delta_s/delta_0: 5.6891E-04 | 6: delta_r/delta_0: 9.7118E-05 | 7: delta_s/delta_0: 5.7139E-08 | 8: delta_r/delta_0: 3.6880E-08 | 9: delta_s/delta_0: 6.5891E-07 | 10: delta_r/delta_0: 2.8320E-09 | 11: delta_s/delta_0: 1.7618E-08 | 12: delta_r/delta_0: 4.2300E-09 | 13: delta_s/delta_0: 2.4459E-10 | 14: delta_r/delta_0: 1.5824E-10 | 15: delta_s/delta_0: 2.7787E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.894384608198067E-002 3.700912668057776E-005 | BP delta = 0.2581881 0.2805569 43046350.5043521 | BP delta = 0.2511885 0.2735572 43046350.4289513 | 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 = 0.52096755 | --> Sampling calibration, mode = relcal | relcal = -5.1053133E-02 -3.6453018E-03 2.7246347E-02 2.7452089E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -3.3264130E-04 1.1033796E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 7.6563E-05 | 2: delta_r/delta_0: 4.2697E-06 | 3: delta_s/delta_0: 5.1821E-07 | 4: delta_r/delta_0: 1.6265E-07 | 5: delta_s/delta_0: 1.3540E-07 | 6: delta_r/delta_0: 2.5428E-08 | 7: delta_s/delta_0: 2.2832E-08 | 8: delta_r/delta_0: 1.5630E-08 | 9: delta_s/delta_0: 2.7013E-08 | 10: delta_r/delta_0: 1.5897E-09 | 11: delta_s/delta_0: 6.5435E-10 | 12: delta_r/delta_0: 1.6185E-10 | 13: delta_s/delta_0: 1.7029E-10 | 14: delta_r/delta_0: 1.1951E-10 | 15: delta_s/delta_0: 7.0814E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.087448233565397E-002 5.489755225856047E-005 | BP delta = -9.3359828E-02 2.6527083E-02 61508092.8287845 | BP delta = -0.1120633 7.8236526E-03 61508092.8725349 | 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 = 0.42105921 | --> Sampling calibration, mode = relcal | relcal = 4.5573026E-02 3.9615534E-02 -2.8298862E-02 -5.6889702E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.8378341E-03 5.9853671E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.0099E-05 | 2: delta_r/delta_0: 3.9223E-06 | 3: delta_s/delta_0: 3.0389E-06 | 4: delta_r/delta_0: 5.2036E-07 | 5: delta_s/delta_0: 5.7796E-08 | 6: delta_r/delta_0: 3.4846E-08 | 7: delta_s/delta_0: 4.9635E-08 | 8: delta_r/delta_0: 1.0699E-08 | 9: delta_s/delta_0: 1.4966E-09 | 10: delta_r/delta_0: 6.3934E-10 | 11: delta_s/delta_0: 7.2394E-10 | 12: delta_r/delta_0: 5.2331E-10 | 13: delta_s/delta_0: 7.3634E-10 | 14: delta_r/delta_0: 4.0412E-10 | 15: delta_s/delta_0: 3.1130E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.339407810057734E-002 5.001982933505153E-005 | BP delta = -0.1386117 -0.1909426 61333640.4436152 | BP delta = -0.1409554 -0.1932863 61333640.4646897 | 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 = 0.28125406 | --> Sampling calibration, mode = relcal | relcal = 2.4180258E-02 4.5059253E-02 -2.3361940E-02 -4.5877572E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.1562376E-02 2.4982751E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.0741E-04 | 2: delta_r/delta_0: 8.7670E-06 | 3: delta_s/delta_0: 1.5118E-06 | 4: delta_r/delta_0: 1.7410E-07 | 5: delta_s/delta_0: 6.2587E-08 | 6: delta_r/delta_0: 1.3671E-08 | 7: delta_s/delta_0: 6.5153E-09 | 8: delta_r/delta_0: 4.2229E-09 | 9: delta_s/delta_0: 3.7916E-07 | 10: delta_r/delta_0: 1.0905E-08 | 11: delta_s/delta_0: 1.4977E-09 | 12: delta_r/delta_0: 3.4366E-10 | 13: delta_s/delta_0: 2.5592E-10 | 14: delta_r/delta_0: 8.1680E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.037885248514581E-003 7.853540532256079E-005 | BP delta = 3.4481049E-02 -0.1248714 94954917.8874458 | BP delta = 5.2999657E-02 -0.1063528 94954917.8753594 | 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 = 0.29348871 | --> Sampling calibration, mode = relcal | relcal = 5.9619721E-04 1.0201659E-02 -3.8358558E-03 -6.9619999E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.7039280E-02 1.4699996E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.3713E-04 | 2: delta_r/delta_0: 1.1381E-05 | 3: delta_s/delta_0: 1.7902E-06 | 4: delta_r/delta_0: 2.5831E-07 | 5: delta_s/delta_0: 9.0358E-08 | 6: delta_r/delta_0: 2.1598E-08 | 7: delta_s/delta_0: 9.6094E-09 | 8: delta_r/delta_0: 6.3646E-09 | 9: delta_s/delta_0: 5.1606E-09 | 10: delta_r/delta_0: 3.8382E-09 | 11: delta_s/delta_0: 7.2888E-06 | 12: delta_r/delta_0: 1.1515E-07 | 13: delta_s/delta_0: 2.4962E-10 | 14: delta_r/delta_0: 1.4158E-10 | 15: delta_s/delta_0: 9.8768E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.784491641180650E-003 8.319222593906112E-005 | BP delta = -0.6936462 -0.6254969 93495563.6565396 | BP delta = -0.6880214 -0.6198721 93495563.6762827 | 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 = 0.26472956 | --> Sampling calibration, mode = relcal | relcal = -5.5799573E-03 1.5013317E-02 -2.3494426E-03 -7.0839170E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -5.4402824E-04 4.6824026E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4241E-04 | 2: delta_r/delta_0: 1.2194E-05 | 3: delta_s/delta_0: 2.0510E-06 | 4: delta_r/delta_0: 2.9590E-07 | 5: delta_s/delta_0: 1.3223E-07 | 6: delta_r/delta_0: 2.2333E-08 | 7: delta_s/delta_0: 8.2226E-09 | 8: delta_r/delta_0: 5.2408E-09 | 9: delta_s/delta_0: 4.6645E-09 | 10: delta_r/delta_0: 3.3230E-09 | 11: delta_s/delta_0: 1.1515E-05 | 12: delta_r/delta_0: 1.7376E-07 | 13: delta_s/delta_0: 1.7844E-08 | 14: delta_r/delta_0: 1.1367E-08 | 15: delta_s/delta_0: 9.7687E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -8.306668613164833E-003 9.165297147498863E-005 | BP delta = 0.2148392 0.3275386 94713428.4252044 | BP delta = 0.2165893 0.3292887 94713428.4247430 | 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 = 0.25627635 | --> Sampling calibration, mode = relcal | relcal = -3.1662997E-02 -2.5876056E-02 3.6858596E-02 2.0680459E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.5716132E-02 1.7857028E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4516E-04 | 2: delta_r/delta_0: 1.2299E-05 | 3: delta_s/delta_0: 1.8342E-06 | 4: delta_r/delta_0: 3.5481E-07 | 5: delta_s/delta_0: 1.4958E-07 | 6: delta_r/delta_0: 2.2786E-08 | 7: delta_s/delta_0: 9.7512E-09 | 8: delta_r/delta_0: 5.8342E-09 | 9: delta_s/delta_0: 7.2546E-09 | 10: delta_r/delta_0: 3.5260E-09 | 11: delta_s/delta_0: 3.6822E-08 | 12: delta_r/delta_0: 6.3355E-09 | 13: delta_s/delta_0: 6.7443E-09 | 14: delta_r/delta_0: 3.3845E-09 | 15: delta_s/delta_0: 7.0571E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.745236562787252E-003 8.684333788095036E-005 | BP delta = -0.6324608 -0.7047317 93059387.2983072 | BP delta = -0.6527424 -0.7250133 93059387.2847901 | 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 = -3.099362 | New value = -3.121337 | poltype: 2 pol: 1 CPU time specind = 5.3439140E-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 = -3.182428 | New value = -3.176632 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.111431 | New value = -3.144341 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.168772 | New value = -3.118944 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.118908 | New value = -3.106337 | poltype: 2 pol: 2 CPU time specind = 1.5790462E-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 = 4.22 | CG iter. 1 -- res = 0.13547E+08, tol = 0.77822E+01, time = 1.57 | CG iter. 2 -- res = 0.48599E+05, tol = 0.77822E+01, time = 1.55 | CG iter. 3 -- res = 0.35180E+05, tol = 0.77822E+01, time = 1.54 | CG iter. 4 -- res = 0.10921E+05, tol = 0.77822E+01, time = 1.53 | CG iter. 5 -- res = 0.70788E+04, tol = 0.77822E+01, time = 1.57 | CG iter. 6 -- res = 0.54890E+04, tol = 0.77822E+01, time = 1.52 | CG iter. 7 -- res = 0.32757E+04, tol = 0.77822E+01, time = 1.56 | CG iter. 8 -- res = 0.24751E+04, tol = 0.77822E+01, time = 1.56 | CG iter. 9 -- res = 0.22056E+04, tol = 0.77822E+01, time = 1.54 | CG iter. 10 -- res = 0.29975E+04, tol = 0.77822E+01, time = 1.55 | CG iter. 11 -- res = 0.20878E+04, tol = 0.77822E+01, time = 1.52 | CG iter. 12 -- res = 0.14376E+04, tol = 0.77822E+01, time = 1.58 | CG iter. 13 -- res = 0.12180E+04, tol = 0.77822E+01, time = 1.58 | CG iter. 14 -- res = 0.77174E+03, tol = 0.77822E+01, time = 1.60 | CG iter. 15 -- res = 0.60987E+03, tol = 0.77822E+01, time = 1.62 | CG iter. 16 -- res = 0.48123E+03, tol = 0.77822E+01, time = 1.61 | CG iter. 17 -- res = 0.39438E+03, tol = 0.77822E+01, time = 1.65 | CG iter. 18 -- res = 0.30772E+03, tol = 0.77822E+01, time = 1.64 | CG iter. 19 -- res = 0.26006E+03, tol = 0.77822E+01, time = 1.57 | CG iter. 20 -- res = 0.19707E+03, tol = 0.77822E+01, time = 1.59 | CG iter. 21 -- res = 0.14366E+03, tol = 0.77822E+01, time = 1.61 | CG iter. 22 -- res = 0.11882E+03, tol = 0.77822E+01, time = 1.61 | CG iter. 23 -- res = 0.96094E+02, tol = 0.77822E+01, time = 1.57 | CG iter. 24 -- res = 0.74825E+02, tol = 0.77822E+01, time = 1.60 | CG iter. 25 -- res = 0.61191E+02, tol = 0.77822E+01, time = 1.59 | CG iter. 26 -- res = 0.54865E+02, tol = 0.77822E+01, time = 1.59 | CG iter. 27 -- res = 0.45907E+02, tol = 0.77822E+01, time = 1.61 | CG iter. 28 -- res = 0.35255E+02, tol = 0.77822E+01, time = 1.68 | CG iter. 29 -- res = 0.27490E+02, tol = 0.77822E+01, time = 1.59 | CG iter. 30 -- res = 0.24379E+02, tol = 0.77822E+01, time = 1.64 | CG iter. 31 -- res = 0.21198E+02, tol = 0.77822E+01, time = 1.63 | CG iter. 32 -- res = 0.16618E+02, tol = 0.77822E+01, time = 1.57 | CG iter. 33 -- res = 0.15136E+02, tol = 0.77822E+01, time = 1.61 | CG iter. 34 -- res = 0.12520E+02, tol = 0.77822E+01, time = 1.59 | CG iter. 35 -- res = 0.10081E+02, tol = 0.77822E+01, time = 1.57 | CG iter. 36 -- res = 0.80260E+01, tol = 0.77822E+01, time = 1.59 | CG iter. 37 -- res = 0.65548E+01, tol = 0.77822E+01, time = 1.60 | CG iter. 38 -- res = 0.52604E+01, tol = 0.77822E+01, time = 1.61 | CG iter. 39 -- res = 0.58418E+01, tol = 0.77822E+01, time = 1.61 | CG iter. 40 -- res = 0.42505E+01, tol = 0.77822E+01, time = 1.62 | CG iter. 41 -- res = 0.25736E+01, tol = 0.77822E+01, time = 1.62 | CG iter. 42 -- res = 0.19476E+01, tol = 0.77822E+01, time = 1.61 | CG iter. 43 -- res = 0.15007E+01, tol = 0.77822E+01, time = 1.60 | CG iter. 44 -- res = 0.18321E+01, tol = 0.77822E+01, time = 1.62 | CG iter. 45 -- res = 0.12618E+01, tol = 0.77822E+01, time = 1.64 | CG iter. 46 -- res = 0.83950E+00, tol = 0.77822E+01, time = 1.65 | CG iter. 47 -- res = 0.64118E+00, tol = 0.77822E+01, time = 1.61 | CG iter. 48 -- res = 0.50047E+00, tol = 0.77822E+01, time = 1.58 | CG iter. 49 -- res = 0.40173E+00, tol = 0.77822E+01, time = 1.57 | CG iter. 50 -- res = 0.32564E+00, tol = 0.77822E+01, time = 1.63 | Final CG iter 51 -- res = 0.32564E+00, tol = 0.77822E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 10366371.239 | Old band monopole 8983097.156 | Change to band monopole 1383274.083 | Change to component monopole -1383268.134 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 4.22 | CG iter. 1 -- res = 0.95294E+05, tol = 0.47627E+18, time = 0.40 | CG iter. 2 -- res = 0.19413E+02, tol = 0.47627E+18, time = 0.39 | CG iter. 3 -- res = 0.39015E+00, tol = 0.47627E+18, time = 0.39 | CG iter. 4 -- res = 0.23880E-03, tol = 0.47627E+18, time = 0.39 | Final CG iter 5 -- res = 0.33391E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10366326.651 | (Sampled value in CG: 10347426.720 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.533749 | New value = 1.517346 | poltype: 2 pol: 1 CPU time specind = 5.2299500E-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 = 1.500081 | New value = 1.492602 | poltype: 2 pol: 2 CPU time specind = 1.6150475E-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 = 4.25 | CG iter. 1 -- res = 0.24094E+08, tol = 0.47608E+04, time = 1.77 | CG iter. 2 -- res = 0.53904E+07, tol = 0.47608E+04, time = 1.79 | CG iter. 3 -- res = 0.86540E+06, tol = 0.47608E+04, time = 1.82 | CG iter. 4 -- res = 0.36558E+06, tol = 0.47608E+04, time = 1.86 | CG iter. 5 -- res = 0.16173E+06, tol = 0.47608E+04, time = 1.82 | CG iter. 6 -- res = 0.82462E+05, tol = 0.47608E+04, time = 1.79 | CG iter. 7 -- res = 0.44508E+05, tol = 0.47608E+04, time = 1.74 | CG iter. 8 -- res = 0.21667E+05, tol = 0.47608E+04, time = 1.85 | CG iter. 9 -- res = 0.95120E+04, tol = 0.47608E+04, time = 1.77 | CG iter. 10 -- res = 0.38884E+04, tol = 0.47608E+04, time = 1.78 | CG iter. 11 -- res = 0.17645E+04, tol = 0.47608E+04, time = 1.87 | CG iter. 12 -- res = 0.89537E+03, tol = 0.47608E+04, time = 1.94 | CG iter. 13 -- res = 0.50278E+03, tol = 0.47608E+04, time = 1.84 | CG iter. 14 -- res = 0.28433E+03, tol = 0.47608E+04, time = 1.87 | CG iter. 15 -- res = 0.14743E+03, tol = 0.47608E+04, time = 1.87 | CG iter. 16 -- res = 0.71234E+02, tol = 0.47608E+04, time = 1.86 | CG iter. 17 -- res = 0.32963E+02, tol = 0.47608E+04, time = 1.85 | CG iter. 18 -- res = 0.16598E+02, tol = 0.47608E+04, time = 1.82 | CG iter. 19 -- res = 0.90980E+01, tol = 0.47608E+04, time = 1.87 | CG iter. 20 -- res = 0.51362E+01, tol = 0.47608E+04, time = 1.90 | CG iter. 21 -- res = 0.28083E+01, tol = 0.47608E+04, time = 1.86 | CG iter. 22 -- res = 0.14249E+01, tol = 0.47608E+04, time = 1.84 | CG iter. 23 -- res = 0.69234E+00, tol = 0.47608E+04, time = 1.87 | CG iter. 24 -- res = 0.34982E+00, tol = 0.47608E+04, time = 1.81 | CG iter. 25 -- res = 0.19003E+00, tol = 0.47608E+04, time = 1.95 | CG iter. 26 -- res = 0.11044E+00, tol = 0.47608E+04, time = 1.84 | CG iter. 27 -- res = 0.63143E-01, tol = 0.47608E+04, time = 1.89 | CG iter. 28 -- res = 0.33576E-01, tol = 0.47608E+04, time = 1.79 | CG iter. 29 -- res = 0.17104E-01, tol = 0.47608E+04, time = 1.90 | CG iter. 30 -- res = 0.89570E-02, tol = 0.47608E+04, time = 1.85 | CG iter. 31 -- res = 0.47943E-02, tol = 0.47608E+04, time = 1.87 | CG iter. 32 -- res = 0.26513E-02, tol = 0.47608E+04, time = 1.88 | CG iter. 33 -- res = 0.15232E-02, tol = 0.47608E+04, time = 1.87 | CG iter. 34 -- res = 0.83873E-03, tol = 0.47608E+04, time = 1.89 | CG iter. 35 -- res = 0.43439E-03, tol = 0.47608E+04, time = 1.82 | Final CG iter 36 -- res = 0.43439E-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) -0.120 2.738 | New value -3.626 | Old value -0.120 | Difference -3.505 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 4.22 | CG iter. 1 -- res = 0.63525E+06, tol = 0.47627E+18, time = 0.38 | CG iter. 2 -- res = 0.16892E+02, tol = 0.47627E+18, time = 0.39 | CG iter. 3 -- res = 0.30166E+00, tol = 0.47627E+18, time = 0.36 | Final CG iter 4 -- res = 0.56005E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10366326.651 | (Sampled value in CG: 10347963.884 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.642258 | New value = -3.457234 | poltype: 1 pol: 1 CPU time specind = 2.5780201E-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 = 4.23 | CG iter. 1 -- res = 0.21073E+07, tol = 0.17188E+01, time = 0.64 | CG iter. 2 -- res = 0.54847E+05, tol = 0.17188E+01, time = 0.68 | CG iter. 3 -- res = 0.42259E+05, tol = 0.17188E+01, time = 0.68 | CG iter. 4 -- res = 0.12670E+05, tol = 0.17188E+01, time = 0.68 | CG iter. 5 -- res = 0.38237E+04, tol = 0.17188E+01, time = 0.71 | CG iter. 6 -- res = 0.12951E+04, tol = 0.17188E+01, time = 0.68 | CG iter. 7 -- res = 0.52064E+03, tol = 0.17188E+01, time = 0.66 | CG iter. 8 -- res = 0.32829E+03, tol = 0.17188E+01, time = 0.69 | CG iter. 9 -- res = 0.99318E+02, tol = 0.17188E+01, time = 0.69 | CG iter. 10 -- res = 0.34528E+02, tol = 0.17188E+01, time = 0.73 | CG iter. 11 -- res = 0.12761E+02, tol = 0.17188E+01, time = 0.69 | CG iter. 12 -- res = 0.41425E+01, tol = 0.17188E+01, time = 0.70 | CG iter. 13 -- res = 0.17403E+01, tol = 0.17188E+01, time = 0.67 | CG iter. 14 -- res = 0.76561E+00, tol = 0.17188E+01, time = 0.70 | CG iter. 15 -- res = 0.20357E+00, tol = 0.17188E+01, time = 0.70 | CG iter. 16 -- res = 0.61402E-01, tol = 0.17188E+01, time = 0.71 | CG iter. 17 -- res = 0.21534E-01, tol = 0.17188E+01, time = 0.69 | CG iter. 18 -- res = 0.10533E-01, tol = 0.17188E+01, time = 0.66 | CG iter. 19 -- res = 0.45077E-02, tol = 0.17188E+01, time = 0.67 | CG iter. 20 -- res = 0.14157E-02, tol = 0.17188E+01, time = 0.70 | CG iter. 21 -- res = 0.40746E-03, tol = 0.17188E+01, time = 0.71 | CG iter. 22 -- res = 0.13356E-03, tol = 0.17188E+01, time = 0.71 | CG iter. 23 -- res = 0.52652E-04, tol = 0.17188E+01, time = 0.70 | CG iter. 24 -- res = 0.20220E-04, tol = 0.17188E+01, time = 0.70 | CG iter. 25 -- res = 0.56446E-05, tol = 0.17188E+01, time = 0.68 | CG iter. 26 -- res = 0.15438E-05, tol = 0.17188E+01, time = 0.72 | CG iter. 27 -- res = 0.53348E-06, tol = 0.17188E+01, time = 0.68 | CG iter. 28 -- res = 0.19440E-06, tol = 0.17188E+01, time = 0.71 | CG iter. 29 -- res = 0.70817E-07, tol = 0.17188E+01, time = 0.67 | CG iter. 30 -- res = 0.20823E-07, tol = 0.17188E+01, time = 0.69 | CG iter. 31 -- res = 0.67251E-08, tol = 0.17188E+01, time = 0.69 | CG iter. 32 -- res = 0.36817E-08, tol = 0.17188E+01, time = 0.69 | CG iter. 33 -- res = 0.21902E-08, tol = 0.17188E+01, time = 0.71 | CG iter. 34 -- res = 0.65555E-09, tol = 0.17188E+01, time = 0.73 | CG iter. 35 -- res = 0.19372E-09, tol = 0.17188E+01, time = 0.71 | CG iter. 36 -- res = 0.98060E-10, tol = 0.17188E+01, time = 0.73 | CG iter. 37 -- res = 0.53617E-10, tol = 0.17188E+01, time = 0.70 | CG iter. 38 -- res = 0.13027E-10, tol = 0.17188E+01, time = 0.67 | CG iter. 39 -- res = 0.42957E-11, tol = 0.17188E+01, time = 0.72 | CG iter. 40 -- res = 0.12357E-11, tol = 0.17188E+01, time = 0.67 | CG iter. 41 -- res = 0.34772E-12, tol = 0.17188E+01, time = 0.71 | CG iter. 42 -- res = 0.11121E-12, tol = 0.17188E+01, time = 0.70 | CG iter. 43 -- res = 0.36905E-13, tol = 0.17188E+01, time = 0.67 | CG iter. 44 -- res = 0.12663E-13, tol = 0.17188E+01, time = 0.70 | CG iter. 45 -- res = 0.44492E-14, tol = 0.17188E+01, time = 0.70 | CG iter. 46 -- res = 0.14677E-14, tol = 0.17188E+01, time = 0.70 | CG iter. 47 -- res = 0.43796E-15, tol = 0.17188E+01, time = 0.70 | CG iter. 48 -- res = 0.12145E-15, tol = 0.17188E+01, time = 0.71 | CG iter. 49 -- res = 0.37174E-16, tol = 0.17188E+01, time = 0.71 | CG iter. 50 -- res = 0.10740E-16, tol = 0.17188E+01, time = 0.68 | Final CG iter 51 -- res = 0.10740E-16, tol = 0.17188E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -3.748 2.740 | New value -1.015 | Old value -3.748 | Difference 2.733 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 4.24 | CG iter. 1 -- res = 0.55377E+04, tol = 0.47627E+18, time = 0.35 | CG iter. 2 -- res = 0.11320E+02, tol = 0.47627E+18, time = 0.40 | CG iter. 3 -- res = 0.17569E+00, tol = 0.47627E+18, time = 0.40 | Final CG iter 4 -- res = 0.12187E-04, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10366326.651 | (Sampled value in CG: 10353416.541 ) | CPU time specind = 284.3005 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 4.23 | CG iter. 1 -- res = 0.68230E+08, tol = 0.51506E+04, time = 3.20 | CG iter. 2 -- res = 0.33197E+08, tol = 0.51506E+04, time = 3.26 | CG iter. 3 -- res = 0.57401E+07, tol = 0.51506E+04, time = 3.22 | CG iter. 4 -- res = 0.29159E+07, tol = 0.51506E+04, time = 3.32 | CG iter. 5 -- res = 0.13071E+07, tol = 0.51506E+04, time = 3.25 | CG iter. 6 -- res = 0.71880E+06, tol = 0.51506E+04, time = 3.26 | CG iter. 7 -- res = 0.39215E+06, tol = 0.51506E+04, time = 3.28 | CG iter. 8 -- res = 0.19591E+06, tol = 0.51506E+04, time = 3.30 | CG iter. 9 -- res = 0.97769E+05, tol = 0.51506E+04, time = 3.33 | CG iter. 10 -- res = 0.44364E+05, tol = 0.51506E+04, time = 3.33 | CG iter. 11 -- res = 0.22320E+05, tol = 0.51506E+04, time = 3.29 | CG iter. 12 -- res = 0.12321E+05, tol = 0.51506E+04, time = 3.25 | CG iter. 13 -- res = 0.74418E+04, tol = 0.51506E+04, time = 3.22 | CG iter. 14 -- res = 0.50695E+04, tol = 0.51506E+04, time = 3.27 | CG iter. 15 -- res = 0.33830E+04, tol = 0.51506E+04, time = 3.26 | CG iter. 16 -- res = 0.24131E+04, tol = 0.51506E+04, time = 3.29 | CG iter. 17 -- res = 0.17972E+04, tol = 0.51506E+04, time = 3.28 | CG iter. 18 -- res = 0.15323E+04, tol = 0.51506E+04, time = 3.31 | CG iter. 19 -- res = 0.15538E+04, tol = 0.51506E+04, time = 3.27 | CG iter. 20 -- res = 0.17454E+04, tol = 0.51506E+04, time = 3.21 | CG iter. 21 -- res = 0.19084E+04, tol = 0.51506E+04, time = 3.22 | CG iter. 22 -- res = 0.17764E+04, tol = 0.51506E+04, time = 3.26 | CG iter. 23 -- res = 0.14865E+04, tol = 0.51506E+04, time = 3.29 | CG iter. 24 -- res = 0.12579E+04, tol = 0.51506E+04, time = 3.33 | CG iter. 25 -- res = 0.11568E+04, tol = 0.51506E+04, time = 3.20 | CG iter. 26 -- res = 0.10755E+04, tol = 0.51506E+04, time = 3.19 | CG iter. 27 -- res = 0.91621E+03, tol = 0.51506E+04, time = 3.32 | CG iter. 28 -- res = 0.73274E+03, tol = 0.51506E+04, time = 3.28 | CG iter. 29 -- res = 0.62766E+03, tol = 0.51506E+04, time = 3.27 | CG iter. 30 -- res = 0.64536E+03, tol = 0.51506E+04, time = 3.25 | CG iter. 31 -- res = 0.73965E+03, tol = 0.51506E+04, time = 3.20 | CG iter. 32 -- res = 0.81925E+03, tol = 0.51506E+04, time = 3.21 | CG iter. 33 -- res = 0.79332E+03, tol = 0.51506E+04, time = 3.33 | CG iter. 34 -- res = 0.71091E+03, tol = 0.51506E+04, time = 3.31 | CG iter. 35 -- res = 0.67184E+03, tol = 0.51506E+04, time = 3.20 | CG iter. 36 -- res = 0.69820E+03, tol = 0.51506E+04, time = 3.31 | CG iter. 37 -- res = 0.73203E+03, tol = 0.51506E+04, time = 3.31 | CG iter. 38 -- res = 0.68273E+03, tol = 0.51506E+04, time = 3.21 | CG iter. 39 -- res = 0.59049E+03, tol = 0.51506E+04, time = 3.31 | CG iter. 40 -- res = 0.53632E+03, tol = 0.51506E+04, time = 3.14 | CG iter. 41 -- res = 0.55802E+03, tol = 0.51506E+04, time = 3.13 | CG iter. 42 -- res = 0.62405E+03, tol = 0.51506E+04, time = 3.23 | CG iter. 43 -- res = 0.65331E+03, tol = 0.51506E+04, time = 3.22 | CG iter. 44 -- res = 0.61177E+03, tol = 0.51506E+04, time = 3.16 | CG iter. 45 -- res = 0.56179E+03, tol = 0.51506E+04, time = 3.25 | CG iter. 46 -- res = 0.55553E+03, tol = 0.51506E+04, time = 3.32 | CG iter. 47 -- res = 0.57974E+03, tol = 0.51506E+04, time = 3.36 | CG iter. 48 -- res = 0.58947E+03, tol = 0.51506E+04, time = 3.38 | CG iter. 49 -- res = 0.55467E+03, tol = 0.51506E+04, time = 3.29 | CG iter. 50 -- res = 0.49875E+03, tol = 0.51506E+04, time = 3.27 | CG iter. 51 -- res = 0.47440E+03, tol = 0.51506E+04, time = 3.24 | CG iter. 52 -- res = 0.49741E+03, tol = 0.51506E+04, time = 3.25 | CG iter. 53 -- res = 0.52811E+03, tol = 0.51506E+04, time = 3.20 | CG iter. 54 -- res = 0.53089E+03, tol = 0.51506E+04, time = 3.25 | CG iter. 55 -- res = 0.50232E+03, tol = 0.51506E+04, time = 3.23 | CG iter. 56 -- res = 0.48336E+03, tol = 0.51506E+04, time = 3.23 | CG iter. 57 -- res = 0.49333E+03, tol = 0.51506E+04, time = 3.29 | CG iter. 58 -- res = 0.51861E+03, tol = 0.51506E+04, time = 3.27 | CG iter. 59 -- res = 0.52130E+03, tol = 0.51506E+04, time = 3.35 | CG iter. 60 -- res = 0.48571E+03, tol = 0.51506E+04, time = 3.28 | Final CG iter 61 -- res = 0.48571E+03, tol = 0.51506E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 3.088 ( -231.320 -2233.970 2516.931 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 6496077.842 | Old band monopole 10366371.239 | Change to band monopole -3870293.397 | Change to component monopole 3870276.750 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -3.672 2.717 | New value -0.072 | Old value -3.672 | Difference 3.600 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -4.069 ( 7.191 10.796 -11.315 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 11.376 2.798 | New value 7.174 | Old value 11.376 | Difference -4.203 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 4.23 | CG iter. 1 -- res = 0.10407E+07, tol = 0.47627E+18, time = 0.36 | CG iter. 2 -- res = 0.80959E+02, tol = 0.47627E+18, time = 0.38 | CG iter. 3 -- res = 0.19494E+01, tol = 0.47627E+18, time = 0.37 | CG iter. 4 -- res = 0.13997E-01, tol = 0.47627E+18, time = 0.36 | Final CG iter 5 -- res = 0.28246E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 6496049.901 | (Sampled value in CG: 6430116.446 ) | Chain = 1 -- chisq = 0.61733654E+09 | Chain = 1 -- wall time = 4121.242 sec --------------------------------------------------------------------- | Chain = 1 -- Iteration = 72 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.17990829802425 | --> Sampling calibration, mode = relcal | relcal = -7.4000038E-02 -5.7805572E-02 9.0808541E-02 4.0997069E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.0267844E-05 3.6040240E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.1910E-02 | 2: delta_r/delta_0: 5.0493E-04 | 3: delta_s/delta_0: 1.9519E-07 | 4: delta_r/delta_0: 2.3649E-08 | 5: delta_s/delta_0: 7.1528E-09 | 6: delta_r/delta_0: 1.2064E-09 | 7: delta_s/delta_0: 2.6141E-08 | 8: delta_r/delta_0: 1.6622E-10 | 9: delta_s/delta_0: 5.1773E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 8.692139004885171E-004 2.743743079283552E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 2.1885E-02 | 2: delta_r/delta_0: 5.0431E-04 | 3: delta_s/delta_0: 1.9519E-07 | 4: delta_r/delta_0: 2.3652E-08 | 5: delta_s/delta_0: 7.1537E-09 | 6: delta_r/delta_0: 1.2066E-09 | 7: delta_s/delta_0: 2.6153E-08 | 8: delta_r/delta_0: 1.6621E-10 | 9: delta_s/delta_0: 5.1771E-11 | Reached bicg-stab tolerance | BP delta = 5.4135337E-03 1.4351713E-02 3836101.15061044 | BP delta = 5.4135337E-03 1.3857412E-02 3838452.47656706 | 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 = 1.02521674 | --> Sampling calibration, mode = relcal | relcal = -0.1065929 -9.5487013E-02 0.1448174 5.7262611E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.5923813E-03 1.3900137E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 3.0298E-04 | 2: delta_r/delta_0: 6.6365E-06 | 3: delta_s/delta_0: 2.6418E-06 | 4: delta_r/delta_0: 2.5404E-07 | 5: delta_s/delta_0: 6.4634E-08 | 6: delta_r/delta_0: 5.2648E-09 | 7: delta_s/delta_0: 3.3093E-09 | 8: delta_r/delta_0: 1.5300E-09 | 9: delta_s/delta_0: 1.3522E-08 | 10: delta_r/delta_0: 9.6479E-10 | 11: delta_s/delta_0: 1.3794E-10 | 12: delta_r/delta_0: 1.0237E-10 | 13: delta_s/delta_0: 1.8749E-10 | 14: delta_r/delta_0: 2.9513E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -7.734743407578042E-003 2.812965611848524E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 3.0298E-04 | 2: delta_r/delta_0: 6.6366E-06 | 3: delta_s/delta_0: 2.6418E-06 | 4: delta_r/delta_0: 2.5404E-07 | 5: delta_s/delta_0: 6.4636E-08 | 6: delta_r/delta_0: 5.2649E-09 | 7: delta_s/delta_0: 3.3092E-09 | 8: delta_r/delta_0: 1.5299E-09 | 9: delta_s/delta_0: 1.3525E-08 | 10: delta_r/delta_0: 9.6471E-10 | 11: delta_s/delta_0: 1.3793E-10 | 12: delta_r/delta_0: 1.0236E-10 | 13: delta_s/delta_0: 1.8745E-10 | 14: delta_r/delta_0: 2.9510E-11 | Reached bicg-stab tolerance | BP delta = -0.1825511 -0.1724639 2841540.57546967 | BP delta = -0.1825511 -0.1727496 2841537.98325636 | BP chisq diff = -2.6, accept = T | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81135883 | --> Sampling calibration, mode = relcal | relcal = 0.2952136 0.2246381 -0.2835286 -0.2363232 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -1.0199910E-04 5.9159123E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.7645E-04 | 2: delta_r/delta_0: 1.5335E-05 | 3: delta_s/delta_0: 4.9038E-04 | 4: delta_r/delta_0: 3.2483E-05 | 5: delta_s/delta_0: 6.5146E-06 | 6: delta_r/delta_0: 1.1413E-06 | 7: delta_s/delta_0: 5.8640E-08 | 8: delta_r/delta_0: 3.2744E-08 | 9: delta_s/delta_0: 3.7330E-07 | 10: delta_r/delta_0: 3.1072E-09 | 11: delta_s/delta_0: 7.9486E-10 | 12: delta_r/delta_0: 5.2667E-10 | 13: delta_s/delta_0: 5.1449E-10 | 14: delta_r/delta_0: 7.5105E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.118617946207860E-002 4.026151004884467E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 6.7680E-04 | 2: delta_r/delta_0: 1.5343E-05 | 3: delta_s/delta_0: 4.9011E-04 | 4: delta_r/delta_0: 3.2462E-05 | 5: delta_s/delta_0: 6.5267E-06 | 6: delta_r/delta_0: 1.1434E-06 | 7: delta_s/delta_0: 5.8634E-08 | 8: delta_r/delta_0: 3.2747E-08 | 9: delta_s/delta_0: 3.7362E-07 | 10: delta_r/delta_0: 3.1084E-09 | 11: delta_s/delta_0: 7.9493E-10 | 12: delta_r/delta_0: 5.2675E-10 | 13: delta_s/delta_0: 5.1536E-10 | 14: delta_r/delta_0: 7.5132E-11 | Reached bicg-stab tolerance | BP delta = -6.6547841E-02 -9.8156162E-02 2827553.50079210 | BP delta = -6.6547841E-02 -0.1113070 2827702.99992147 | 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 = 0.95808344 | --> Sampling calibration, mode = relcal | relcal = 0.1063017 0.1394885 -0.1101710 -0.1356191 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.1092520E-02 1.2762115E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.9675E-03 | 2: delta_r/delta_0: 4.6202E-05 | 3: delta_s/delta_0: 4.0192E-06 | 4: delta_r/delta_0: 4.3999E-07 | 5: delta_s/delta_0: 1.7125E-05 | 6: delta_r/delta_0: 3.7150E-07 | 7: delta_s/delta_0: 6.8058E-08 | 8: delta_r/delta_0: 3.3172E-08 | 9: delta_s/delta_0: 8.7369E-08 | 10: delta_r/delta_0: 9.0977E-09 | 11: delta_s/delta_0: 1.8424E-09 | 12: delta_r/delta_0: 7.8090E-10 | 13: delta_s/delta_0: 3.0453E-10 | 14: delta_r/delta_0: 2.1482E-10 | 15: delta_s/delta_0: 2.9401E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.780249644565830E-002 3.701303221951154E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.9649E-03 | 2: delta_r/delta_0: 4.6139E-05 | 3: delta_s/delta_0: 4.0136E-06 | 4: delta_r/delta_0: 4.3997E-07 | 5: delta_s/delta_0: 1.7079E-05 | 6: delta_r/delta_0: 3.7059E-07 | 7: delta_s/delta_0: 6.8000E-08 | 8: delta_r/delta_0: 3.3188E-08 | 9: delta_s/delta_0: 8.7815E-08 | 10: delta_r/delta_0: 9.0874E-09 | 11: delta_s/delta_0: 1.8415E-09 | 12: delta_r/delta_0: 7.8018E-10 | 13: delta_s/delta_0: 3.0426E-10 | 14: delta_r/delta_0: 2.1455E-10 | 15: delta_s/delta_0: 2.9414E-11 | Reached bicg-stab tolerance | BP delta = 0.2511885 0.2735572 3005378.10382352 | BP delta = 0.2511885 0.2804576 3005537.18139164 | 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 = 0.52101165 | --> Sampling calibration, mode = relcal | relcal = -5.1007692E-02 -3.6914349E-03 2.7226755E-02 2.7472373E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -1.1456320E-03 2.1723879E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 7.5335E-05 | 2: delta_r/delta_0: 3.9081E-06 | 3: delta_s/delta_0: 2.0920E-06 | 4: delta_r/delta_0: 2.1834E-07 | 5: delta_s/delta_0: 5.4051E-08 | 6: delta_r/delta_0: 2.3452E-08 | 7: delta_s/delta_0: 9.9682E-08 | 8: delta_r/delta_0: 3.2339E-08 | 9: delta_s/delta_0: 2.9996E-09 | 10: delta_r/delta_0: 2.0201E-09 | 11: delta_s/delta_0: 2.9109E-08 | 12: delta_r/delta_0: 5.0213E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.960605801379747E-002 5.489125666350065E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 7.5335E-05 | 2: delta_r/delta_0: 3.9081E-06 | 3: delta_s/delta_0: 2.0920E-06 | 4: delta_r/delta_0: 2.1834E-07 | 5: delta_s/delta_0: 5.4051E-08 | 6: delta_r/delta_0: 2.3452E-08 | 7: delta_s/delta_0: 9.9688E-08 | 8: delta_r/delta_0: 3.2339E-08 | 9: delta_s/delta_0: 2.9995E-09 | 10: delta_r/delta_0: 2.0200E-09 | 11: delta_s/delta_0: 2.9091E-08 | 12: delta_r/delta_0: 5.0212E-11 | Reached bicg-stab tolerance | BP delta = -0.1120633 7.8236526E-03 2435754.73408441 | BP delta = -0.1120633 8.2192039E-03 2435756.42208509 | 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 = 0.42106234 | --> Sampling calibration, mode = relcal | relcal = 4.5510501E-02 3.9596789E-02 -2.8183522E-02 -5.6923769E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.9552256E-03 5.8739665E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.0100E-05 | 2: delta_r/delta_0: 3.7658E-06 | 3: delta_s/delta_0: 2.3382E-06 | 4: delta_r/delta_0: 3.6942E-07 | 5: delta_s/delta_0: 5.6095E-08 | 6: delta_r/delta_0: 3.2216E-08 | 7: delta_s/delta_0: 2.8372E-08 | 8: delta_r/delta_0: 1.2124E-08 | 9: delta_s/delta_0: 2.1752E-09 | 10: delta_r/delta_0: 1.1267E-09 | 11: delta_s/delta_0: 8.7448E-10 | 12: delta_r/delta_0: 5.5024E-10 | 13: delta_s/delta_0: 2.3693E-09 | 14: delta_r/delta_0: 2.5045E-10 | 15: delta_s/delta_0: 3.5444E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.307350381796938E-002 5.001895836451243E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 6.0100E-05 | 2: delta_r/delta_0: 3.7658E-06 | 3: delta_s/delta_0: 2.3382E-06 | 4: delta_r/delta_0: 3.6943E-07 | 5: delta_s/delta_0: 5.6092E-08 | 6: delta_r/delta_0: 3.2215E-08 | 7: delta_s/delta_0: 2.8362E-08 | 8: delta_r/delta_0: 1.2123E-08 | 9: delta_s/delta_0: 2.1757E-09 | 10: delta_r/delta_0: 1.1268E-09 | 11: delta_s/delta_0: 8.7468E-10 | 12: delta_r/delta_0: 5.4969E-10 | 13: delta_s/delta_0: 2.3838E-09 | 14: delta_r/delta_0: 2.5002E-10 | 15: delta_s/delta_0: 3.5410E-11 | Reached bicg-stab tolerance | BP delta = -0.1409554 -0.1932863 2322019.37769813 | BP delta = -0.1409554 -0.1603510 2322116.04655512 | 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 = 0.28122874 | --> Sampling calibration, mode = relcal | relcal = 2.4184870E-02 4.5023102E-02 -2.3319721E-02 -4.5888249E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.1750208E-02 4.3061161E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.1085E-04 | 2: delta_r/delta_0: 9.0124E-06 | 3: delta_s/delta_0: 1.5343E-06 | 4: delta_r/delta_0: 2.0781E-07 | 5: delta_s/delta_0: 6.5749E-08 | 6: delta_r/delta_0: 1.5925E-08 | 7: delta_s/delta_0: 6.4396E-09 | 8: delta_r/delta_0: 3.9913E-09 | 9: delta_s/delta_0: 8.7798E-09 | 10: delta_r/delta_0: 3.2709E-09 | 11: delta_s/delta_0: 4.3617E-09 | 12: delta_r/delta_0: 3.5481E-10 | 13: delta_s/delta_0: 5.4256E-10 | 14: delta_r/delta_0: 1.1030E-10 | 15: delta_s/delta_0: 5.0522E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -8.700239999688013E-003 7.854375389980895E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.1085E-04 | 2: delta_r/delta_0: 9.0124E-06 | 3: delta_s/delta_0: 1.5343E-06 | 4: delta_r/delta_0: 2.0782E-07 | 5: delta_s/delta_0: 6.5755E-08 | 6: delta_r/delta_0: 1.5925E-08 | 7: delta_s/delta_0: 6.4397E-09 | 8: delta_r/delta_0: 3.9914E-09 | 9: delta_s/delta_0: 8.7792E-09 | 10: delta_r/delta_0: 3.2709E-09 | 11: delta_s/delta_0: 4.3622E-09 | 12: delta_r/delta_0: 3.5477E-10 | 13: delta_s/delta_0: 5.4255E-10 | 14: delta_r/delta_0: 1.1030E-10 | 15: delta_s/delta_0: 5.0524E-11 | Reached bicg-stab tolerance | BP delta = 5.2999657E-02 -0.1063528 2489782.49955144 | BP delta = 5.2999657E-02 -0.1175454 2489771.99771025 | BP chisq diff = -10.5, accept = T | | Finished processing 090-WMAP_W1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.29360753 | --> Sampling calibration, mode = relcal | relcal = 6.4516987E-04 1.0242789E-02 -3.7997996E-03 -7.0881597E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.4382068E-02 1.5117852E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.3117E-04 | 2: delta_r/delta_0: 1.1033E-05 | 3: delta_s/delta_0: 1.8411E-06 | 4: delta_r/delta_0: 3.3806E-07 | 5: delta_s/delta_0: 1.1700E-07 | 6: delta_r/delta_0: 2.3085E-08 | 7: delta_s/delta_0: 9.0522E-09 | 8: delta_r/delta_0: 5.8915E-09 | 9: delta_s/delta_0: 4.3281E-09 | 10: delta_r/delta_0: 2.0420E-09 | 11: delta_s/delta_0: 3.4808E-06 | 12: delta_r/delta_0: 8.6838E-10 | 13: delta_s/delta_0: 7.3665E-10 | 14: delta_r/delta_0: 3.3023E-10 | 15: delta_s/delta_0: 1.2694E-10 | 16: delta_r/delta_0: 9.5592E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.015819654910429E-003 8.315425599038927E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.3117E-04 | 2: delta_r/delta_0: 1.1033E-05 | 3: delta_s/delta_0: 1.8411E-06 | 4: delta_r/delta_0: 3.3806E-07 | 5: delta_s/delta_0: 1.1700E-07 | 6: delta_r/delta_0: 2.3086E-08 | 7: delta_s/delta_0: 9.0522E-09 | 8: delta_r/delta_0: 5.8915E-09 | 9: delta_s/delta_0: 4.3281E-09 | 10: delta_r/delta_0: 2.0419E-09 | 11: delta_s/delta_0: 3.4807E-06 | 12: delta_r/delta_0: 8.6833E-10 | 13: delta_s/delta_0: 7.3667E-10 | 14: delta_r/delta_0: 3.3024E-10 | 15: delta_s/delta_0: 1.2694E-10 | 16: delta_r/delta_0: 9.5595E-11 | Reached bicg-stab tolerance | BP delta = -0.6880214 -0.6198721 2738010.63561709 | BP delta = -0.6880214 -0.6269439 2738010.07033462 | 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 = 0.26472420 | --> Sampling calibration, mode = relcal | relcal = -5.5962251E-03 1.4977062E-02 -2.4307386E-03 -6.9500976E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -1.6504658E-03 4.5784004E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4197E-04 | 2: delta_r/delta_0: 1.2151E-05 | 3: delta_s/delta_0: 2.1035E-06 | 4: delta_r/delta_0: 3.0256E-07 | 5: delta_s/delta_0: 1.3428E-07 | 6: delta_r/delta_0: 2.1637E-08 | 7: delta_s/delta_0: 7.3294E-09 | 8: delta_r/delta_0: 4.4656E-09 | 9: delta_s/delta_0: 5.1116E-09 | 10: delta_r/delta_0: 3.2113E-09 | 11: delta_s/delta_0: 9.4361E-08 | 12: delta_r/delta_0: 1.7943E-09 | 13: delta_s/delta_0: 5.4858E-09 | 14: delta_r/delta_0: 9.8872E-10 | 15: delta_s/delta_0: 4.7896E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -7.323440674360940E-003 9.165251695533025E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.4197E-04 | 2: delta_r/delta_0: 1.2151E-05 | 3: delta_s/delta_0: 2.1035E-06 | 4: delta_r/delta_0: 3.0256E-07 | 5: delta_s/delta_0: 1.3428E-07 | 6: delta_r/delta_0: 2.1636E-08 | 7: delta_s/delta_0: 7.3292E-09 | 8: delta_r/delta_0: 4.4656E-09 | 9: delta_s/delta_0: 5.1115E-09 | 10: delta_r/delta_0: 3.2113E-09 | 11: delta_s/delta_0: 9.4372E-08 | 12: delta_r/delta_0: 1.7946E-09 | 13: delta_s/delta_0: 5.4859E-09 | 14: delta_r/delta_0: 9.8875E-10 | 15: delta_s/delta_0: 4.7896E-11 | Reached bicg-stab tolerance | BP delta = 0.2165893 0.3292887 2516496.20242840 | BP delta = 0.2165893 0.3251276 2516496.30821305 | 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 = 0.25629704 | --> Sampling calibration, mode = relcal | relcal = -3.1641375E-02 -2.5907550E-02 3.6937911E-02 2.0611014E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.3511490E-02 2.0754540E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4880E-04 | 2: delta_r/delta_0: 1.2145E-05 | 3: delta_s/delta_0: 1.8121E-06 | 4: delta_r/delta_0: 4.2394E-07 | 5: delta_s/delta_0: 1.3761E-07 | 6: delta_r/delta_0: 2.7338E-08 | 7: delta_s/delta_0: 1.1437E-08 | 8: delta_r/delta_0: 6.1522E-09 | 9: delta_s/delta_0: 2.5909E-08 | 10: delta_r/delta_0: 4.3460E-09 | 11: delta_s/delta_0: 1.6227E-09 | 12: delta_r/delta_0: 9.4526E-10 | 13: delta_s/delta_0: 7.8312E-10 | 14: delta_r/delta_0: 2.3689E-10 | 15: delta_s/delta_0: 8.0283E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.019677926330529E-002 8.683940654013582E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.4880E-04 | 2: delta_r/delta_0: 1.2145E-05 | 3: delta_s/delta_0: 1.8122E-06 | 4: delta_r/delta_0: 4.2395E-07 | 5: delta_s/delta_0: 1.3762E-07 | 6: delta_r/delta_0: 2.7338E-08 | 7: delta_s/delta_0: 1.1437E-08 | 8: delta_r/delta_0: 6.1522E-09 | 9: delta_s/delta_0: 2.5911E-08 | 10: delta_r/delta_0: 4.3461E-09 | 11: delta_s/delta_0: 1.6230E-09 | 12: delta_r/delta_0: 9.4565E-10 | 13: delta_s/delta_0: 7.8310E-10 | 14: delta_r/delta_0: 2.3692E-10 | 15: delta_s/delta_0: 8.0282E-11 | Reached bicg-stab tolerance | BP delta = -0.6527424 -0.7250133 2707538.21619533 | BP delta = -0.6527424 -0.7251250 2707543.77695519 | 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 = -3.121337 | New value = -3.108983 | poltype: 2 pol: 1 CPU time specind = 2.3062229E-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 = -3.176632 | New value = -3.021244 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.144341 | New value = -3.212648 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.118944 | New value = -3.185567 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.106337 | New value = -3.167424 | poltype: 2 pol: 2 CPU time specind = 1.9249916E-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 = 4.10 | CG iter. 1 -- res = 0.13534E+08, tol = 0.97478E+01, time = 1.54 | CG iter. 2 -- res = 0.34891E+05, tol = 0.97478E+01, time = 1.49 | CG iter. 3 -- res = 0.17759E+05, tol = 0.97478E+01, time = 1.59 | CG iter. 4 -- res = 0.98338E+04, tol = 0.97478E+01, time = 1.53 | CG iter. 5 -- res = 0.50863E+04, tol = 0.97478E+01, time = 1.47 | CG iter. 6 -- res = 0.35634E+04, tol = 0.97478E+01, time = 1.48 | CG iter. 7 -- res = 0.24391E+04, tol = 0.97478E+01, time = 1.55 | CG iter. 8 -- res = 0.17099E+04, tol = 0.97478E+01, time = 1.51 | CG iter. 9 -- res = 0.16939E+04, tol = 0.97478E+01, time = 1.55 | CG iter. 10 -- res = 0.15277E+04, tol = 0.97478E+01, time = 1.54 | CG iter. 11 -- res = 0.14813E+04, tol = 0.97478E+01, time = 1.50 | CG iter. 12 -- res = 0.10919E+04, tol = 0.97478E+01, time = 1.51 | CG iter. 13 -- res = 0.70733E+03, tol = 0.97478E+01, time = 1.51 | CG iter. 14 -- res = 0.51477E+03, tol = 0.97478E+01, time = 1.55 | CG iter. 15 -- res = 0.41685E+03, tol = 0.97478E+01, time = 1.64 | CG iter. 16 -- res = 0.36892E+03, tol = 0.97478E+01, time = 1.60 | CG iter. 17 -- res = 0.25500E+03, tol = 0.97478E+01, time = 1.62 | CG iter. 18 -- res = 0.21018E+03, tol = 0.97478E+01, time = 1.63 | CG iter. 19 -- res = 0.17278E+03, tol = 0.97478E+01, time = 1.57 | CG iter. 20 -- res = 0.11999E+03, tol = 0.97478E+01, time = 1.58 | CG iter. 21 -- res = 0.11041E+03, tol = 0.97478E+01, time = 1.49 | CG iter. 22 -- res = 0.84484E+02, tol = 0.97478E+01, time = 1.51 | CG iter. 23 -- res = 0.58301E+02, tol = 0.97478E+01, time = 1.55 | CG iter. 24 -- res = 0.49525E+02, tol = 0.97478E+01, time = 1.53 | CG iter. 25 -- res = 0.46252E+02, tol = 0.97478E+01, time = 1.52 | CG iter. 26 -- res = 0.36808E+02, tol = 0.97478E+01, time = 1.54 | CG iter. 27 -- res = 0.27590E+02, tol = 0.97478E+01, time = 1.57 | CG iter. 28 -- res = 0.24521E+02, tol = 0.97478E+01, time = 1.55 | CG iter. 29 -- res = 0.21756E+02, tol = 0.97478E+01, time = 1.55 | CG iter. 30 -- res = 0.16352E+02, tol = 0.97478E+01, time = 1.53 | CG iter. 31 -- res = 0.13335E+02, tol = 0.97478E+01, time = 1.52 | CG iter. 32 -- res = 0.11997E+02, tol = 0.97478E+01, time = 1.54 | CG iter. 33 -- res = 0.99000E+01, tol = 0.97478E+01, time = 1.53 | CG iter. 34 -- res = 0.74907E+01, tol = 0.97478E+01, time = 1.55 | CG iter. 35 -- res = 0.61965E+01, tol = 0.97478E+01, time = 1.51 | CG iter. 36 -- res = 0.46616E+01, tol = 0.97478E+01, time = 1.48 | CG iter. 37 -- res = 0.35059E+01, tol = 0.97478E+01, time = 1.48 | CG iter. 38 -- res = 0.23492E+01, tol = 0.97478E+01, time = 1.56 | CG iter. 39 -- res = 0.28268E+01, tol = 0.97478E+01, time = 1.52 | CG iter. 40 -- res = 0.18691E+01, tol = 0.97478E+01, time = 1.50 | CG iter. 41 -- res = 0.10760E+01, tol = 0.97478E+01, time = 1.50 | CG iter. 42 -- res = 0.72826E+00, tol = 0.97478E+01, time = 1.52 | CG iter. 43 -- res = 0.60478E+00, tol = 0.97478E+01, time = 1.55 | CG iter. 44 -- res = 0.47721E+00, tol = 0.97478E+01, time = 1.53 | CG iter. 45 -- res = 0.46103E+00, tol = 0.97478E+01, time = 1.51 | CG iter. 46 -- res = 0.47073E+00, tol = 0.97478E+01, time = 1.55 | CG iter. 47 -- res = 0.27050E+00, tol = 0.97478E+01, time = 1.51 | CG iter. 48 -- res = 0.19847E+00, tol = 0.97478E+01, time = 1.52 | CG iter. 49 -- res = 0.14288E+00, tol = 0.97478E+01, time = 1.51 | CG iter. 50 -- res = 0.12389E+00, tol = 0.97478E+01, time = 1.52 | Final CG iter 51 -- res = 0.12389E+00, tol = 0.97478E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 10169647.000 | Old band monopole 6496077.842 | Change to band monopole 3673569.158 | Change to component monopole -3673553.357 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 4.10 | CG iter. 1 -- res = 0.10267E+06, tol = 0.47627E+18, time = 0.35 | CG iter. 2 -- res = 0.13218E+02, tol = 0.47627E+18, time = 0.38 | CG iter. 3 -- res = 0.16425E+00, tol = 0.47627E+18, time = 0.37 | CG iter. 4 -- res = 0.44898E-03, tol = 0.47627E+18, time = 0.39 | Final CG iter 5 -- res = 0.20943E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10169603.258 | (Sampled value in CG: 10177323.579 ) | 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 = 1.517346 | New value = 1.454814 | poltype: 2 pol: 1 CPU time specind = 5.1651001E-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 = 1.492602 | New value = 1.511937 | poltype: 2 pol: 2 CPU time specind = 2.0520687E-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 = 4.10 | CG iter. 1 -- res = 0.24894E+08, tol = 0.47489E+04, time = 1.77 | CG iter. 2 -- res = 0.54376E+07, tol = 0.47489E+04, time = 1.77 | CG iter. 3 -- res = 0.84018E+06, tol = 0.47489E+04, time = 1.80 | CG iter. 4 -- res = 0.33789E+06, tol = 0.47489E+04, time = 1.78 | CG iter. 5 -- res = 0.14644E+06, tol = 0.47489E+04, time = 1.76 | CG iter. 6 -- res = 0.80753E+05, tol = 0.47489E+04, time = 1.76 | CG iter. 7 -- res = 0.43901E+05, tol = 0.47489E+04, time = 1.79 | CG iter. 8 -- res = 0.20451E+05, tol = 0.47489E+04, time = 1.77 | CG iter. 9 -- res = 0.88361E+04, tol = 0.47489E+04, time = 1.74 | CG iter. 10 -- res = 0.36013E+04, tol = 0.47489E+04, time = 1.76 | CG iter. 11 -- res = 0.16396E+04, tol = 0.47489E+04, time = 1.77 | CG iter. 12 -- res = 0.84872E+03, tol = 0.47489E+04, time = 1.83 | CG iter. 13 -- res = 0.49104E+03, tol = 0.47489E+04, time = 1.80 | CG iter. 14 -- res = 0.27239E+03, tol = 0.47489E+04, time = 1.81 | CG iter. 15 -- res = 0.14163E+03, tol = 0.47489E+04, time = 1.79 | CG iter. 16 -- res = 0.66344E+02, tol = 0.47489E+04, time = 1.74 | CG iter. 17 -- res = 0.30553E+02, tol = 0.47489E+04, time = 1.76 | CG iter. 18 -- res = 0.15615E+02, tol = 0.47489E+04, time = 1.76 | CG iter. 19 -- res = 0.85257E+01, tol = 0.47489E+04, time = 1.78 | CG iter. 20 -- res = 0.48256E+01, tol = 0.47489E+04, time = 1.83 | CG iter. 21 -- res = 0.26967E+01, tol = 0.47489E+04, time = 1.82 | CG iter. 22 -- res = 0.14034E+01, tol = 0.47489E+04, time = 1.74 | CG iter. 23 -- res = 0.70434E+00, tol = 0.47489E+04, time = 1.76 | CG iter. 24 -- res = 0.36519E+00, tol = 0.47489E+04, time = 1.79 | CG iter. 25 -- res = 0.19929E+00, tol = 0.47489E+04, time = 1.76 | CG iter. 26 -- res = 0.11371E+00, tol = 0.47489E+04, time = 1.79 | CG iter. 27 -- res = 0.64378E-01, tol = 0.47489E+04, time = 1.82 | CG iter. 28 -- res = 0.34610E-01, tol = 0.47489E+04, time = 1.71 | CG iter. 29 -- res = 0.18305E-01, tol = 0.47489E+04, time = 1.73 | CG iter. 30 -- res = 0.98265E-02, tol = 0.47489E+04, time = 1.75 | CG iter. 31 -- res = 0.54315E-02, tol = 0.47489E+04, time = 1.78 | CG iter. 32 -- res = 0.31162E-02, tol = 0.47489E+04, time = 1.81 | CG iter. 33 -- res = 0.17391E-02, tol = 0.47489E+04, time = 1.78 | CG iter. 34 -- res = 0.95148E-03, tol = 0.47489E+04, time = 1.74 | CG iter. 35 -- res = 0.52197E-03, tol = 0.47489E+04, time = 1.75 | Final CG iter 36 -- res = 0.52197E-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) -0.005 2.745 | New value -0.834 | Old value -0.005 | Difference -0.829 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 4.08 | CG iter. 1 -- res = 0.38058E+05, tol = 0.47627E+18, time = 0.37 | CG iter. 2 -- res = 0.14800E+02, tol = 0.47627E+18, time = 0.42 | CG iter. 3 -- res = 0.13599E+00, tol = 0.47627E+18, time = 0.37 | CG iter. 4 -- res = 0.22229E-03, tol = 0.47627E+18, time = 0.39 | Final CG iter 5 -- res = 0.48574E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10169603.258 | (Sampled value in CG: 10178126.818 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.457234 | New value = -3.635455 | poltype: 1 pol: 1 CPU time specind = 2.3999214E-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 = 4.10 | CG iter. 1 -- res = 0.20564E+07, tol = 0.17016E+01, time = 0.64 | CG iter. 2 -- res = 0.37976E+05, tol = 0.17016E+01, time = 0.66 | CG iter. 3 -- res = 0.34782E+05, tol = 0.17016E+01, time = 0.70 | CG iter. 4 -- res = 0.81035E+04, tol = 0.17016E+01, time = 0.65 | CG iter. 5 -- res = 0.28678E+04, tol = 0.17016E+01, time = 0.69 | CG iter. 6 -- res = 0.11667E+04, tol = 0.17016E+01, time = 0.65 | CG iter. 7 -- res = 0.45897E+03, tol = 0.17016E+01, time = 0.66 | CG iter. 8 -- res = 0.27255E+03, tol = 0.17016E+01, time = 0.63 | CG iter. 9 -- res = 0.68496E+02, tol = 0.17016E+01, time = 0.65 | CG iter. 10 -- res = 0.23550E+02, tol = 0.17016E+01, time = 0.67 | CG iter. 11 -- res = 0.99908E+01, tol = 0.17016E+01, time = 0.66 | CG iter. 12 -- res = 0.39652E+01, tol = 0.17016E+01, time = 0.65 | CG iter. 13 -- res = 0.12620E+01, tol = 0.17016E+01, time = 0.61 | CG iter. 14 -- res = 0.46978E+00, tol = 0.17016E+01, time = 0.68 | CG iter. 15 -- res = 0.17022E+00, tol = 0.17016E+01, time = 0.68 | CG iter. 16 -- res = 0.57028E-01, tol = 0.17016E+01, time = 0.70 | CG iter. 17 -- res = 0.21322E-01, tol = 0.17016E+01, time = 0.70 | CG iter. 18 -- res = 0.82981E-02, tol = 0.17016E+01, time = 0.62 | CG iter. 19 -- res = 0.23883E-02, tol = 0.17016E+01, time = 0.62 | CG iter. 20 -- res = 0.69602E-03, tol = 0.17016E+01, time = 0.68 | CG iter. 21 -- res = 0.25364E-03, tol = 0.17016E+01, time = 0.68 | CG iter. 22 -- res = 0.13251E-03, tol = 0.17016E+01, time = 0.64 | CG iter. 23 -- res = 0.48036E-04, tol = 0.17016E+01, time = 0.66 | CG iter. 24 -- res = 0.16257E-04, tol = 0.17016E+01, time = 0.67 | CG iter. 25 -- res = 0.49743E-05, tol = 0.17016E+01, time = 0.66 | CG iter. 26 -- res = 0.14139E-05, tol = 0.17016E+01, time = 0.62 | CG iter. 27 -- res = 0.51047E-06, tol = 0.17016E+01, time = 0.67 | CG iter. 28 -- res = 0.16654E-06, tol = 0.17016E+01, time = 0.64 | CG iter. 29 -- res = 0.57411E-07, tol = 0.17016E+01, time = 0.64 | CG iter. 30 -- res = 0.20063E-07, tol = 0.17016E+01, time = 0.69 | CG iter. 31 -- res = 0.67118E-08, tol = 0.17016E+01, time = 0.62 | CG iter. 32 -- res = 0.33396E-08, tol = 0.17016E+01, time = 0.65 | CG iter. 33 -- res = 0.19893E-08, tol = 0.17016E+01, time = 0.65 | CG iter. 34 -- res = 0.42411E-09, tol = 0.17016E+01, time = 0.64 | CG iter. 35 -- res = 0.13983E-09, tol = 0.17016E+01, time = 0.60 | CG iter. 36 -- res = 0.84212E-10, tol = 0.17016E+01, time = 0.65 | CG iter. 37 -- res = 0.43518E-10, tol = 0.17016E+01, time = 0.66 | CG iter. 38 -- res = 0.12372E-10, tol = 0.17016E+01, time = 0.62 | CG iter. 39 -- res = 0.37155E-11, tol = 0.17016E+01, time = 0.69 | CG iter. 40 -- res = 0.10310E-11, tol = 0.17016E+01, time = 0.69 | CG iter. 41 -- res = 0.34609E-12, tol = 0.17016E+01, time = 0.65 | CG iter. 42 -- res = 0.11123E-12, tol = 0.17016E+01, time = 0.66 | CG iter. 43 -- res = 0.32648E-13, tol = 0.17016E+01, time = 0.65 | CG iter. 44 -- res = 0.10705E-13, tol = 0.17016E+01, time = 0.65 | CG iter. 45 -- res = 0.38443E-14, tol = 0.17016E+01, time = 0.68 | CG iter. 46 -- res = 0.13912E-14, tol = 0.17016E+01, time = 0.65 | CG iter. 47 -- res = 0.40511E-15, tol = 0.17016E+01, time = 0.67 | CG iter. 48 -- res = 0.12191E-15, tol = 0.17016E+01, time = 0.68 | CG iter. 49 -- res = 0.38750E-16, tol = 0.17016E+01, time = 0.70 | CG iter. 50 -- res = 0.17134E-16, tol = 0.17016E+01, time = 0.66 | Final CG iter 51 -- res = 0.17134E-16, tol = 0.17016E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 9.028 2.604 | New value -5.190 | Old value 9.028 | Difference -14.219 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 4.10 | CG iter. 1 -- res = 0.12431E+06, tol = 0.47627E+18, time = 0.36 | CG iter. 2 -- res = 0.14032E+02, tol = 0.47627E+18, time = 0.37 | CG iter. 3 -- res = 0.13529E+00, tol = 0.47627E+18, time = 0.34 | CG iter. 4 -- res = 0.30136E-03, tol = 0.47627E+18, time = 0.36 | Final CG iter 5 -- res = 0.18314E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10169603.258 | (Sampled value in CG: 10178269.809 ) | CPU time specind = 276.3228 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 4.09 | CG iter. 1 -- res = 0.69479E+08, tol = 0.51433E+04, time = 3.13 | CG iter. 2 -- res = 0.33189E+08, tol = 0.51433E+04, time = 3.09 | CG iter. 3 -- res = 0.57785E+07, tol = 0.51433E+04, time = 3.12 | CG iter. 4 -- res = 0.29606E+07, tol = 0.51433E+04, time = 3.08 | CG iter. 5 -- res = 0.13061E+07, tol = 0.51433E+04, time = 3.19 | CG iter. 6 -- res = 0.71161E+06, tol = 0.51433E+04, time = 3.22 | CG iter. 7 -- res = 0.38370E+06, tol = 0.51433E+04, time = 3.17 | CG iter. 8 -- res = 0.19272E+06, tol = 0.51433E+04, time = 3.19 | CG iter. 9 -- res = 0.98572E+05, tol = 0.51433E+04, time = 3.23 | CG iter. 10 -- res = 0.45619E+05, tol = 0.51433E+04, time = 3.20 | CG iter. 11 -- res = 0.23329E+05, tol = 0.51433E+04, time = 3.21 | CG iter. 12 -- res = 0.13040E+05, tol = 0.51433E+04, time = 3.23 | CG iter. 13 -- res = 0.80207E+04, tol = 0.51433E+04, time = 3.20 | CG iter. 14 -- res = 0.56002E+04, tol = 0.51433E+04, time = 3.13 | CG iter. 15 -- res = 0.39332E+04, tol = 0.51433E+04, time = 3.20 | CG iter. 16 -- res = 0.29654E+04, tol = 0.51433E+04, time = 3.12 | CG iter. 17 -- res = 0.23221E+04, tol = 0.51433E+04, time = 3.13 | CG iter. 18 -- res = 0.20892E+04, tol = 0.51433E+04, time = 3.10 | CG iter. 19 -- res = 0.21841E+04, tol = 0.51433E+04, time = 3.15 | CG iter. 20 -- res = 0.24686E+04, tol = 0.51433E+04, time = 3.16 | CG iter. 21 -- res = 0.26048E+04, tol = 0.51433E+04, time = 3.28 | CG iter. 22 -- res = 0.22614E+04, tol = 0.51433E+04, time = 3.15 | CG iter. 23 -- res = 0.17673E+04, tol = 0.51433E+04, time = 3.15 | CG iter. 24 -- res = 0.14463E+04, tol = 0.51433E+04, time = 3.17 | CG iter. 25 -- res = 0.13149E+04, tol = 0.51433E+04, time = 3.16 | CG iter. 26 -- res = 0.12090E+04, tol = 0.51433E+04, time = 3.10 | CG iter. 27 -- res = 0.10261E+04, tol = 0.51433E+04, time = 3.23 | CG iter. 28 -- res = 0.84097E+03, tol = 0.51433E+04, time = 3.13 | CG iter. 29 -- res = 0.75167E+03, tol = 0.51433E+04, time = 3.12 | CG iter. 30 -- res = 0.80132E+03, tol = 0.51433E+04, time = 3.12 | CG iter. 31 -- res = 0.92771E+03, tol = 0.51433E+04, time = 3.07 | CG iter. 32 -- res = 0.99613E+03, tol = 0.51433E+04, time = 3.11 | CG iter. 33 -- res = 0.91566E+03, tol = 0.51433E+04, time = 3.05 | CG iter. 34 -- res = 0.79517E+03, tol = 0.51433E+04, time = 3.13 | CG iter. 35 -- res = 0.74713E+03, tol = 0.51433E+04, time = 3.13 | CG iter. 36 -- res = 0.76866E+03, tol = 0.51433E+04, time = 3.14 | CG iter. 37 -- res = 0.78701E+03, tol = 0.51433E+04, time = 3.16 | CG iter. 38 -- res = 0.71257E+03, tol = 0.51433E+04, time = 3.20 | CG iter. 39 -- res = 0.61784E+03, tol = 0.51433E+04, time = 3.11 | CG iter. 40 -- res = 0.58546E+03, tol = 0.51433E+04, time = 3.21 | CG iter. 41 -- res = 0.62605E+03, tol = 0.51433E+04, time = 3.11 | CG iter. 42 -- res = 0.69612E+03, tol = 0.51433E+04, time = 3.13 | CG iter. 43 -- res = 0.71144E+03, tol = 0.51433E+04, time = 3.15 | CG iter. 44 -- res = 0.66508E+03, tol = 0.51433E+04, time = 3.20 | CG iter. 45 -- res = 0.62049E+03, tol = 0.51433E+04, time = 3.20 | CG iter. 46 -- res = 0.61782E+03, tol = 0.51433E+04, time = 3.21 | CG iter. 47 -- res = 0.64117E+03, tol = 0.51433E+04, time = 3.16 | CG iter. 48 -- res = 0.63032E+03, tol = 0.51433E+04, time = 3.10 | CG iter. 49 -- res = 0.57493E+03, tol = 0.51433E+04, time = 3.16 | CG iter. 50 -- res = 0.51952E+03, tol = 0.51433E+04, time = 3.21 | CG iter. 51 -- res = 0.50169E+03, tol = 0.51433E+04, time = 3.21 | CG iter. 52 -- res = 0.52133E+03, tol = 0.51433E+04, time = 3.18 | CG iter. 53 -- res = 0.53921E+03, tol = 0.51433E+04, time = 3.24 | CG iter. 54 -- res = 0.52138E+03, tol = 0.51433E+04, time = 3.17 | CG iter. 55 -- res = 0.49021E+03, tol = 0.51433E+04, time = 3.13 | CG iter. 56 -- res = 0.47544E+03, tol = 0.51433E+04, time = 3.15 | CG iter. 57 -- res = 0.48573E+03, tol = 0.51433E+04, time = 3.17 | CG iter. 58 -- res = 0.49836E+03, tol = 0.51433E+04, time = 3.13 | CG iter. 59 -- res = 0.48986E+03, tol = 0.51433E+04, time = 3.12 | CG iter. 60 -- res = 0.45941E+03, tol = 0.51433E+04, time = 3.23 | Final CG iter 61 -- res = 0.45941E+03, tol = 0.51433E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 2.627 ( -231.469 -2234.766 2517.203 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8829686.001 | Old band monopole 10169647.000 | Change to band monopole -1339960.999 | Change to component monopole 1339955.236 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -0.888 2.734 | New value 1.266 | Old value -0.888 | Difference 2.153 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -4.301 ( 8.054 11.875 -12.583 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 9.954 2.369 | New value 1.329 | Old value 9.954 | Difference -8.625 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 4.09 | CG iter. 1 -- res = 0.32413E+06, tol = 0.47627E+18, time = 0.36 | CG iter. 2 -- res = 0.82146E+02, tol = 0.47627E+18, time = 0.37 | CG iter. 3 -- res = 0.18319E+01, tol = 0.47627E+18, time = 0.37 | CG iter. 4 -- res = 0.11996E-01, tol = 0.47627E+18, time = 0.38 | Final CG iter 5 -- res = 0.73749E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8829648.022 | (Sampled value in CG: 8759819.843 ) | Chain = 1 -- chisq = 0.61853521E+09 | Chain = 1 -- wall time = 4694.435 sec --------------------------------------------------------------------- | Chain = 1 -- Iteration = 73 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18556713476040 | --> Sampling calibration, mode = relcal | relcal = -7.6074794E-02 -5.9534349E-02 9.3154028E-02 4.2455111E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -1.3092626E-05 6.5031126E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.0479E-05 | 2: delta_r/delta_0: 1.6566E-06 | 3: delta_s/delta_0: 2.0716E-07 | 4: delta_r/delta_0: 3.1042E-08 | 5: delta_s/delta_0: 8.8083E-09 | 6: delta_r/delta_0: 3.2743E-09 | 7: delta_s/delta_0: 1.0546E-09 | 8: delta_r/delta_0: 3.4755E-10 | 9: delta_s/delta_0: 2.3540E-10 | 10: delta_r/delta_0: 8.4923E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.044831878086373E-003 2.730385754432951E-005 | BP delta = 5.4135337E-03 1.4351713E-02 29859854.0542315 | BP delta = 5.1867189E-03 1.4124898E-02 29859854.3073043 | 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 = 1.02509435 | --> Sampling calibration, mode = relcal | relcal = -0.1065176 -9.5539026E-02 0.1448136 5.7243071E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.5470219E-03 1.5065211E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 4.8122E-03 | 2: delta_r/delta_0: 1.0577E-04 | 3: delta_s/delta_0: 4.0694E-04 | 4: delta_r/delta_0: 3.2500E-05 | 5: delta_s/delta_0: 6.6359E-06 | 6: delta_r/delta_0: 1.7446E-06 | 7: delta_s/delta_0: 6.9689E-06 | 8: delta_r/delta_0: 7.5695E-07 | 9: delta_s/delta_0: 7.6318E-07 | 10: delta_r/delta_0: 1.4718E-07 | 11: delta_s/delta_0: 5.3440E-06 | 12: delta_r/delta_0: 3.5223E-08 | 13: delta_s/delta_0: 4.5299E-09 | 14: delta_r/delta_0: 1.3594E-09 | 15: delta_s/delta_0: 6.0408E-10 | 16: delta_r/delta_0: 2.3879E-10 | 17: delta_s/delta_0: 2.3377E-10 | 18: delta_r/delta_0: 1.5026E-10 | 19: delta_s/delta_0: 1.2596E-09 | 20: delta_r/delta_0: 8.4130E-10 | 21: delta_s/delta_0: 5.8879E-09 | 22: delta_r/delta_0: 4.4973E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 0.105560000702213 2.813295705350866E-005 | BP delta = -0.1825511 -0.1727496 34764013.4738920 | BP delta = -0.1831218 -0.1733203 34764013.4673644 | 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 = 0.81143291 | --> Sampling calibration, mode = relcal | relcal = 0.2951354 0.2246124 -0.2834162 -0.2363316 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 7.1125198E-04 5.0681727E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 4.9168E-04 | 2: delta_r/delta_0: 1.1079E-05 | 3: delta_s/delta_0: 2.0586E-03 | 4: delta_r/delta_0: 1.1990E-04 | 5: delta_s/delta_0: 9.6388E-04 | 6: delta_r/delta_0: 1.5118E-04 | 7: delta_s/delta_0: 5.9119E-08 | 8: delta_r/delta_0: 3.0457E-08 | 9: delta_s/delta_0: 2.0288E-07 | 10: delta_r/delta_0: 4.2357E-09 | 11: delta_s/delta_0: 1.0499E-09 | 12: delta_r/delta_0: 5.8809E-10 | 13: delta_s/delta_0: 3.2851E-10 | 14: delta_r/delta_0: 6.5856E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.316067816437893E-002 4.025566030466711E-005 | BP delta = -6.6547841E-02 -9.8156162E-02 43104736.7441742 | BP delta = -4.7434531E-02 -7.9042852E-02 43104737.1359638 | 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 = 0.95815770 | --> Sampling calibration, mode = relcal | relcal = 0.1064846 0.1393797 -0.1102155 -0.1356488 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0735440E-02 1.2487565E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 7.0100E-04 | 2: delta_r/delta_0: 1.6152E-05 | 3: delta_s/delta_0: 3.3831E-05 | 4: delta_r/delta_0: 9.0850E-07 | 5: delta_s/delta_0: 3.6204E-06 | 6: delta_r/delta_0: 4.0748E-07 | 7: delta_s/delta_0: 5.0928E-08 | 8: delta_r/delta_0: 3.4802E-08 | 9: delta_s/delta_0: 8.5254E-07 | 10: delta_r/delta_0: 6.9236E-09 | 11: delta_s/delta_0: 1.5921E-09 | 12: delta_r/delta_0: 5.0852E-10 | 13: delta_s/delta_0: 4.4826E-08 | 14: delta_r/delta_0: 1.4365E-08 | 15: delta_s/delta_0: 3.4798E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.182276500123207E-002 3.701078794949416E-005 | BP delta = 0.2511885 0.2735572 43050479.3677865 | BP delta = 0.2486565 0.2710253 43050479.3017143 | 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 = 0.52094604 | --> Sampling calibration, mode = relcal | relcal = -5.1060766E-02 -3.7672436E-03 2.7295267E-02 2.7532743E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -2.3667667E-04 5.9129350E-04 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.7342E-05 | 2: delta_r/delta_0: 4.5774E-06 | 3: delta_s/delta_0: 7.6351E-07 | 4: delta_r/delta_0: 1.1889E-07 | 5: delta_s/delta_0: 1.0038E-07 | 6: delta_r/delta_0: 5.3864E-08 | 7: delta_s/delta_0: 1.6408E-08 | 8: delta_r/delta_0: 1.2491E-08 | 9: delta_s/delta_0: 3.1500E-07 | 10: delta_r/delta_0: 9.0543E-10 | 11: delta_s/delta_0: 3.6088E-10 | 12: delta_r/delta_0: 2.7089E-10 | 13: delta_s/delta_0: 3.4643E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.078951663256671E-002 5.489990545799122E-005 | BP delta = -0.1120633 7.8236526E-03 61509816.0978034 | BP delta = -0.1205506 -6.6367508E-04 61509816.0824309 | 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 = 0.42111129 | --> Sampling calibration, mode = relcal | relcal = 4.5565315E-02 3.9581764E-02 -2.8270096E-02 -5.6876987E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.2112627E-03 5.7274774E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.0512E-04 | 2: delta_r/delta_0: 3.2359E-06 | 3: delta_s/delta_0: 1.6006E-06 | 4: delta_r/delta_0: 1.8355E-07 | 5: delta_s/delta_0: 9.0695E-08 | 6: delta_r/delta_0: 3.7261E-08 | 7: delta_s/delta_0: 4.6720E-06 | 8: delta_r/delta_0: 4.4905E-07 | 9: delta_s/delta_0: 3.4392E-09 | 10: delta_r/delta_0: 2.1547E-09 | 11: delta_s/delta_0: 1.3034E-09 | 12: delta_r/delta_0: 7.1943E-10 | 13: delta_s/delta_0: 1.0115E-10 | 14: delta_r/delta_0: 6.1536E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.396281735139652E-002 5.001303716987335E-005 | BP delta = -0.1409554 -0.1932863 61332944.2957081 | BP delta = -0.1355620 -0.1878929 61332944.2920719 | 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 = 0.28124362 | --> Sampling calibration, mode = relcal | relcal = 2.4182107E-02 4.5057304E-02 -2.3333354E-02 -4.5906059E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.5619401E-03 4.8423572E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.1182E-04 | 2: delta_r/delta_0: 9.0376E-06 | 3: delta_s/delta_0: 1.5762E-06 | 4: delta_r/delta_0: 2.2754E-07 | 5: delta_s/delta_0: 7.0900E-08 | 6: delta_r/delta_0: 1.8364E-08 | 7: delta_s/delta_0: 7.8575E-09 | 8: delta_r/delta_0: 5.1358E-09 | 9: delta_s/delta_0: 7.5378E-09 | 10: delta_r/delta_0: 3.9757E-09 | 11: delta_s/delta_0: 3.8648E-08 | 12: delta_r/delta_0: 3.8905E-09 | 13: delta_s/delta_0: 3.9448E-09 | 14: delta_r/delta_0: 2.4632E-09 | 15: delta_s/delta_0: 1.1720E-10 | 16: delta_r/delta_0: 8.8279E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -8.154527358963798E-003 7.854207524226306E-005 | BP delta = 5.2999657E-02 -0.1175454 94962112.0067623 | BP delta = 6.0886353E-02 -0.1096587 94962112.0839695 | 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 = 0.29351396 | --> Sampling calibration, mode = relcal | relcal = 4.6852353E-04 1.0273206E-02 -3.7871320E-03 -6.9545978E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.7546697E-02 1.4671378E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.3586E-04 | 2: delta_r/delta_0: 1.1425E-05 | 3: delta_s/delta_0: 1.8798E-06 | 4: delta_r/delta_0: 2.6958E-07 | 5: delta_s/delta_0: 8.6495E-08 | 6: delta_r/delta_0: 2.2748E-08 | 7: delta_s/delta_0: 1.0392E-08 | 8: delta_r/delta_0: 6.9854E-09 | 9: delta_s/delta_0: 6.2580E-09 | 10: delta_r/delta_0: 4.4930E-09 | 11: delta_s/delta_0: 7.8039E-07 | 12: delta_r/delta_0: 2.0184E-08 | 13: delta_s/delta_0: 2.1835E-10 | 14: delta_r/delta_0: 1.5491E-10 | 15: delta_s/delta_0: 1.5979E-10 | 16: delta_r/delta_0: 1.1687E-10 | 17: delta_s/delta_0: 1.9093E-10 | 18: delta_r/delta_0: 6.5006E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.509462151054944E-003 8.318268993568335E-005 | BP delta = -0.6880214 -0.6269439 93492258.4570436 | BP delta = -0.6923832 -0.6313057 93492258.4319286 | 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 = 0.26467602 | --> Sampling calibration, mode = relcal | relcal = -5.6220158E-03 1.4996610E-02 -2.3224333E-03 -7.0521613E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -7.6979585E-04 4.8496290E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4680E-04 | 2: delta_r/delta_0: 1.2427E-05 | 3: delta_s/delta_0: 2.1617E-06 | 4: delta_r/delta_0: 2.9634E-07 | 5: delta_s/delta_0: 9.7723E-08 | 6: delta_r/delta_0: 2.3378E-08 | 7: delta_s/delta_0: 9.0418E-09 | 8: delta_r/delta_0: 5.5803E-09 | 9: delta_s/delta_0: 5.2944E-09 | 10: delta_r/delta_0: 3.6571E-09 | 11: delta_s/delta_0: 1.8022E-06 | 12: delta_r/delta_0: 2.8349E-08 | 13: delta_s/delta_0: 2.6548E-06 | 14: delta_r/delta_0: 1.5810E-06 | 15: delta_s/delta_0: 9.4472E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -7.459009284685438E-003 9.166988130413399E-005 | BP delta = 0.2165893 0.3251276 94712531.3903012 | BP delta = 0.1954442 0.3039826 94712531.3264210 | 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 = 0.25631061 | --> Sampling calibration, mode = relcal | relcal = -3.1583939E-02 -2.5983771E-02 3.6935378E-02 2.0632330E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.4356170E-02 1.7973028E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4445E-04 | 2: delta_r/delta_0: 1.2194E-05 | 3: delta_s/delta_0: 1.9531E-06 | 4: delta_r/delta_0: 4.0822E-07 | 5: delta_s/delta_0: 1.2487E-07 | 6: delta_r/delta_0: 2.6978E-08 | 7: delta_s/delta_0: 1.1626E-08 | 8: delta_r/delta_0: 5.9687E-09 | 9: delta_s/delta_0: 2.6211E-08 | 10: delta_r/delta_0: 4.1131E-09 | 11: delta_s/delta_0: 6.9114E-09 | 12: delta_r/delta_0: 4.1782E-09 | 13: delta_s/delta_0: 2.8199E-10 | 14: delta_r/delta_0: 1.9285E-10 | 15: delta_s/delta_0: 1.2161E-10 | 16: delta_r/delta_0: 1.0092E-10 | 17: delta_s/delta_0: 1.3569E-10 | 18: delta_r/delta_0: 6.8516E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -8.917271921039110E-003 8.683196846539865E-005 | BP delta = -0.6527424 -0.7250133 93062354.0603305 | BP delta = -0.6399711 -0.7122419 93062354.1313408 | 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 = -3.108983 | New value = -3.261943 | poltype: 2 pol: 1 CPU time specind = 5.3381920E-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 = -3.021244 | New value = -3.118820 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.212648 | New value = -3.079719 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.185567 | New value = -3.157924 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.167424 | New value = -3.114184 | poltype: 2 pol: 2 CPU time specind = 1.7209053E-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 = 4.11 | CG iter. 1 -- res = 0.13557E+08, tol = 0.77152E+01, time = 1.55 | CG iter. 2 -- res = 0.49891E+05, tol = 0.77152E+01, time = 1.65 | CG iter. 3 -- res = 0.35274E+05, tol = 0.77152E+01, time = 1.60 | CG iter. 4 -- res = 0.24481E+05, tol = 0.77152E+01, time = 1.56 | CG iter. 5 -- res = 0.26201E+05, tol = 0.77152E+01, time = 1.52 | CG iter. 6 -- res = 0.22697E+05, tol = 0.77152E+01, time = 1.53 | CG iter. 7 -- res = 0.22487E+05, tol = 0.77152E+01, time = 1.53 | CG iter. 8 -- res = 0.15517E+05, tol = 0.77152E+01, time = 1.52 | CG iter. 9 -- res = 0.13615E+05, tol = 0.77152E+01, time = 1.57 | CG iter. 10 -- res = 0.11291E+05, tol = 0.77152E+01, time = 1.52 | CG iter. 11 -- res = 0.89163E+04, tol = 0.77152E+01, time = 1.52 | CG iter. 12 -- res = 0.64817E+04, tol = 0.77152E+01, time = 1.58 | CG iter. 13 -- res = 0.60487E+04, tol = 0.77152E+01, time = 1.55 | CG iter. 14 -- res = 0.55196E+04, tol = 0.77152E+01, time = 1.53 | CG iter. 15 -- res = 0.37673E+04, tol = 0.77152E+01, time = 1.56 | CG iter. 16 -- res = 0.24891E+04, tol = 0.77152E+01, time = 1.56 | CG iter. 17 -- res = 0.21748E+04, tol = 0.77152E+01, time = 1.59 | CG iter. 18 -- res = 0.17846E+04, tol = 0.77152E+01, time = 1.58 | CG iter. 19 -- res = 0.14459E+04, tol = 0.77152E+01, time = 1.56 | CG iter. 20 -- res = 0.11327E+04, tol = 0.77152E+01, time = 1.55 | CG iter. 21 -- res = 0.10063E+04, tol = 0.77152E+01, time = 1.53 | CG iter. 22 -- res = 0.86520E+03, tol = 0.77152E+01, time = 1.58 | CG iter. 23 -- res = 0.64941E+03, tol = 0.77152E+01, time = 1.53 | CG iter. 24 -- res = 0.56797E+03, tol = 0.77152E+01, time = 1.60 | CG iter. 25 -- res = 0.44002E+03, tol = 0.77152E+01, time = 1.59 | CG iter. 26 -- res = 0.40598E+03, tol = 0.77152E+01, time = 1.58 | CG iter. 27 -- res = 0.29676E+03, tol = 0.77152E+01, time = 1.60 | CG iter. 28 -- res = 0.22959E+03, tol = 0.77152E+01, time = 1.59 | CG iter. 29 -- res = 0.21229E+03, tol = 0.77152E+01, time = 1.53 | CG iter. 30 -- res = 0.16473E+03, tol = 0.77152E+01, time = 1.56 | CG iter. 31 -- res = 0.12713E+03, tol = 0.77152E+01, time = 1.52 | CG iter. 32 -- res = 0.11120E+03, tol = 0.77152E+01, time = 1.56 | CG iter. 33 -- res = 0.96073E+02, tol = 0.77152E+01, time = 1.54 | CG iter. 34 -- res = 0.73185E+02, tol = 0.77152E+01, time = 1.60 | CG iter. 35 -- res = 0.56991E+02, tol = 0.77152E+01, time = 1.58 | CG iter. 36 -- res = 0.57998E+02, tol = 0.77152E+01, time = 1.54 | CG iter. 37 -- res = 0.44157E+02, tol = 0.77152E+01, time = 1.58 | CG iter. 38 -- res = 0.32677E+02, tol = 0.77152E+01, time = 1.63 | CG iter. 39 -- res = 0.28182E+02, tol = 0.77152E+01, time = 1.58 | CG iter. 40 -- res = 0.23758E+02, tol = 0.77152E+01, time = 1.56 | CG iter. 41 -- res = 0.26420E+02, tol = 0.77152E+01, time = 1.58 | CG iter. 42 -- res = 0.23856E+02, tol = 0.77152E+01, time = 1.54 | CG iter. 43 -- res = 0.14247E+02, tol = 0.77152E+01, time = 1.53 | CG iter. 44 -- res = 0.12667E+02, tol = 0.77152E+01, time = 1.60 | CG iter. 45 -- res = 0.10282E+02, tol = 0.77152E+01, time = 1.58 | CG iter. 46 -- res = 0.83104E+01, tol = 0.77152E+01, time = 1.57 | CG iter. 47 -- res = 0.11375E+02, tol = 0.77152E+01, time = 1.57 | CG iter. 48 -- res = 0.90312E+01, tol = 0.77152E+01, time = 1.55 | CG iter. 49 -- res = 0.58273E+01, tol = 0.77152E+01, time = 1.52 | CG iter. 50 -- res = 0.60863E+01, tol = 0.77152E+01, time = 1.57 | Final CG iter 51 -- res = 0.60863E+01, tol = 0.77152E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8875576.749 | Old band monopole 8829686.001 | Change to band monopole 45890.748 | Change to component monopole -45890.551 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 4.11 | CG iter. 1 -- res = 0.63148E+06, tol = 0.47627E+18, time = 0.36 | CG iter. 2 -- res = 0.48922E+02, tol = 0.47627E+18, time = 0.39 | CG iter. 3 -- res = 0.15119E+01, tol = 0.47627E+18, time = 0.39 | CG iter. 4 -- res = 0.19490E-02, tol = 0.47627E+18, time = 0.36 | Final CG iter 5 -- res = 0.63491E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8875538.573 | (Sampled value in CG: 8826577.236 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.454814 | New value = 1.484024 | poltype: 2 pol: 1 CPU time specind = 5.6760311E-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 = 1.511937 | New value = 1.520815 | poltype: 2 pol: 2 CPU time specind = 2.0101070E-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 = 4.13 | CG iter. 1 -- res = 0.24216E+08, tol = 0.47591E+04, time = 1.78 | CG iter. 2 -- res = 0.54371E+07, tol = 0.47591E+04, time = 1.72 | CG iter. 3 -- res = 0.83013E+06, tol = 0.47591E+04, time = 1.78 | CG iter. 4 -- res = 0.34758E+06, tol = 0.47591E+04, time = 1.76 | CG iter. 5 -- res = 0.14961E+06, tol = 0.47591E+04, time = 1.75 | CG iter. 6 -- res = 0.77744E+05, tol = 0.47591E+04, time = 1.78 | CG iter. 7 -- res = 0.42294E+05, tol = 0.47591E+04, time = 1.75 | CG iter. 8 -- res = 0.20253E+05, tol = 0.47591E+04, time = 1.82 | CG iter. 9 -- res = 0.90065E+04, tol = 0.47591E+04, time = 1.81 | CG iter. 10 -- res = 0.37369E+04, tol = 0.47591E+04, time = 1.80 | CG iter. 11 -- res = 0.16586E+04, tol = 0.47591E+04, time = 1.76 | CG iter. 12 -- res = 0.84770E+03, tol = 0.47591E+04, time = 1.81 | CG iter. 13 -- res = 0.48698E+03, tol = 0.47591E+04, time = 1.78 | CG iter. 14 -- res = 0.27489E+03, tol = 0.47591E+04, time = 1.76 | CG iter. 15 -- res = 0.14057E+03, tol = 0.47591E+04, time = 1.78 | CG iter. 16 -- res = 0.67172E+02, tol = 0.47591E+04, time = 1.76 | CG iter. 17 -- res = 0.31693E+02, tol = 0.47591E+04, time = 1.80 | CG iter. 18 -- res = 0.15742E+02, tol = 0.47591E+04, time = 1.81 | CG iter. 19 -- res = 0.84629E+01, tol = 0.47591E+04, time = 1.78 | CG iter. 20 -- res = 0.47801E+01, tol = 0.47591E+04, time = 1.81 | CG iter. 21 -- res = 0.26389E+01, tol = 0.47591E+04, time = 1.83 | CG iter. 22 -- res = 0.13547E+01, tol = 0.47591E+04, time = 1.76 | CG iter. 23 -- res = 0.67880E+00, tol = 0.47591E+04, time = 1.81 | CG iter. 24 -- res = 0.34666E+00, tol = 0.47591E+04, time = 1.83 | CG iter. 25 -- res = 0.18621E+00, tol = 0.47591E+04, time = 1.76 | CG iter. 26 -- res = 0.10537E+00, tol = 0.47591E+04, time = 1.82 | CG iter. 27 -- res = 0.60237E-01, tol = 0.47591E+04, time = 1.79 | CG iter. 28 -- res = 0.33261E-01, tol = 0.47591E+04, time = 1.86 | CG iter. 29 -- res = 0.17394E-01, tol = 0.47591E+04, time = 1.84 | CG iter. 30 -- res = 0.89741E-02, tol = 0.47591E+04, time = 1.79 | CG iter. 31 -- res = 0.47400E-02, tol = 0.47591E+04, time = 1.79 | CG iter. 32 -- res = 0.26798E-02, tol = 0.47591E+04, time = 1.80 | CG iter. 33 -- res = 0.15542E-02, tol = 0.47591E+04, time = 1.78 | CG iter. 34 -- res = 0.84991E-03, tol = 0.47591E+04, time = 1.85 | CG iter. 35 -- res = 0.43997E-03, tol = 0.47591E+04, time = 1.82 | Final CG iter 36 -- res = 0.43997E-03, tol = 0.47591E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 1.300 2.741 | New value -2.071 | Old value 1.300 | Difference -3.371 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 4.09 | CG iter. 1 -- res = 0.58835E+06, tol = 0.47627E+18, time = 0.34 | CG iter. 2 -- res = 0.39532E+02, tol = 0.47627E+18, time = 0.40 | CG iter. 3 -- res = 0.11002E+01, tol = 0.47627E+18, time = 0.34 | CG iter. 4 -- res = 0.25340E-03, tol = 0.47627E+18, time = 0.38 | Final CG iter 5 -- res = 0.14012E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8875538.573 | (Sampled value in CG: 8826233.837 ) | 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 = -3.635455 | New value = -3.736038 | poltype: 1 pol: 1 CPU time specind = 3.0779839E-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 = 4.12 | CG iter. 1 -- res = 0.39707E+07, tol = 0.12984E+01, time = 0.69 | CG iter. 2 -- res = 0.27396E+06, tol = 0.12984E+01, time = 0.67 | CG iter. 3 -- res = 0.17597E+06, tol = 0.12984E+01, time = 0.66 | CG iter. 4 -- res = 0.52938E+05, tol = 0.12984E+01, time = 0.68 | CG iter. 5 -- res = 0.11165E+05, tol = 0.12984E+01, time = 0.69 | CG iter. 6 -- res = 0.49439E+04, tol = 0.12984E+01, time = 0.63 | CG iter. 7 -- res = 0.14746E+04, tol = 0.12984E+01, time = 0.64 | CG iter. 8 -- res = 0.40745E+03, tol = 0.12984E+01, time = 0.70 | CG iter. 9 -- res = 0.30502E+03, tol = 0.12984E+01, time = 0.67 | CG iter. 10 -- res = 0.73768E+02, tol = 0.12984E+01, time = 0.62 | CG iter. 11 -- res = 0.34096E+02, tol = 0.12984E+01, time = 0.65 | CG iter. 12 -- res = 0.13533E+02, tol = 0.12984E+01, time = 0.66 | CG iter. 13 -- res = 0.52089E+01, tol = 0.12984E+01, time = 0.63 | CG iter. 14 -- res = 0.14464E+01, tol = 0.12984E+01, time = 0.65 | CG iter. 15 -- res = 0.44701E+00, tol = 0.12984E+01, time = 0.68 | CG iter. 16 -- res = 0.20727E+00, tol = 0.12984E+01, time = 0.67 | CG iter. 17 -- res = 0.63370E-01, tol = 0.12984E+01, time = 0.64 | CG iter. 18 -- res = 0.22149E-01, tol = 0.12984E+01, time = 0.70 | CG iter. 19 -- res = 0.76958E-02, tol = 0.12984E+01, time = 0.67 | CG iter. 20 -- res = 0.33636E-02, tol = 0.12984E+01, time = 0.63 | CG iter. 21 -- res = 0.11769E-02, tol = 0.12984E+01, time = 0.65 | CG iter. 22 -- res = 0.45443E-03, tol = 0.12984E+01, time = 0.66 | CG iter. 23 -- res = 0.15778E-03, tol = 0.12984E+01, time = 0.67 | CG iter. 24 -- res = 0.54238E-04, tol = 0.12984E+01, time = 0.69 | CG iter. 25 -- res = 0.14998E-04, tol = 0.12984E+01, time = 0.65 | CG iter. 26 -- res = 0.54652E-05, tol = 0.12984E+01, time = 0.66 | CG iter. 27 -- res = 0.22838E-05, tol = 0.12984E+01, time = 0.66 | CG iter. 28 -- res = 0.68417E-06, tol = 0.12984E+01, time = 0.66 | CG iter. 29 -- res = 0.22904E-06, tol = 0.12984E+01, time = 0.63 | CG iter. 30 -- res = 0.64938E-07, tol = 0.12984E+01, time = 0.69 | CG iter. 31 -- res = 0.29112E-07, tol = 0.12984E+01, time = 0.66 | CG iter. 32 -- res = 0.22464E-07, tol = 0.12984E+01, time = 0.66 | CG iter. 33 -- res = 0.46892E-08, tol = 0.12984E+01, time = 0.69 | CG iter. 34 -- res = 0.14749E-08, tol = 0.12984E+01, time = 0.65 | CG iter. 35 -- res = 0.49794E-09, tol = 0.12984E+01, time = 0.68 | CG iter. 36 -- res = 0.23710E-09, tol = 0.12984E+01, time = 0.69 | CG iter. 37 -- res = 0.16969E-09, tol = 0.12984E+01, time = 0.67 | CG iter. 38 -- res = 0.44504E-10, tol = 0.12984E+01, time = 0.67 | CG iter. 39 -- res = 0.12701E-10, tol = 0.12984E+01, time = 0.66 | CG iter. 40 -- res = 0.35532E-11, tol = 0.12984E+01, time = 0.67 | CG iter. 41 -- res = 0.10581E-11, tol = 0.12984E+01, time = 0.66 | CG iter. 42 -- res = 0.35765E-12, tol = 0.12984E+01, time = 0.65 | CG iter. 43 -- res = 0.11644E-12, tol = 0.12984E+01, time = 0.68 | CG iter. 44 -- res = 0.37834E-13, tol = 0.12984E+01, time = 0.65 | CG iter. 45 -- res = 0.13255E-13, tol = 0.12984E+01, time = 0.69 | CG iter. 46 -- res = 0.39943E-14, tol = 0.12984E+01, time = 0.70 | CG iter. 47 -- res = 0.12149E-14, tol = 0.12984E+01, time = 0.67 | CG iter. 48 -- res = 0.36371E-15, tol = 0.12984E+01, time = 0.67 | CG iter. 49 -- res = 0.11366E-15, tol = 0.12984E+01, time = 0.68 | CG iter. 50 -- res = 0.42755E-16, tol = 0.12984E+01, time = 0.68 | Final CG iter 51 -- res = 0.42755E-16, tol = 0.12984E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -9.253 3.886 | New value 5.119 | Old value -9.253 | Difference 14.371 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 4.09 | CG iter. 1 -- res = 0.13879E+06, tol = 0.47627E+18, time = 0.37 | CG iter. 2 -- res = 0.26730E+02, tol = 0.47627E+18, time = 0.37 | CG iter. 3 -- res = 0.78351E+00, tol = 0.47627E+18, time = 0.36 | CG iter. 4 -- res = 0.11400E-03, tol = 0.47627E+18, time = 0.37 | Final CG iter 5 -- res = 0.81045E-09, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8875538.573 | (Sampled value in CG: 8837490.189 ) | CPU time specind = 278.8664 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 4.10 | CG iter. 1 -- res = 0.70543E+08, tol = 0.51537E+04, time = 3.15 | CG iter. 2 -- res = 0.33459E+08, tol = 0.51537E+04, time = 3.17 | CG iter. 3 -- res = 0.57580E+07, tol = 0.51537E+04, time = 3.16 | CG iter. 4 -- res = 0.28710E+07, tol = 0.51537E+04, time = 3.13 | CG iter. 5 -- res = 0.12683E+07, tol = 0.51537E+04, time = 3.22 | CG iter. 6 -- res = 0.70736E+06, tol = 0.51537E+04, time = 3.24 | CG iter. 7 -- res = 0.40233E+06, tol = 0.51537E+04, time = 3.17 | CG iter. 8 -- res = 0.21041E+06, tol = 0.51537E+04, time = 3.30 | CG iter. 9 -- res = 0.10602E+06, tol = 0.51537E+04, time = 3.21 | CG iter. 10 -- res = 0.48787E+05, tol = 0.51537E+04, time = 3.23 | CG iter. 11 -- res = 0.27309E+05, tol = 0.51537E+04, time = 3.28 | CG iter. 12 -- res = 0.18483E+05, tol = 0.51537E+04, time = 3.23 | CG iter. 13 -- res = 0.14560E+05, tol = 0.51537E+04, time = 3.27 | CG iter. 14 -- res = 0.12612E+05, tol = 0.51537E+04, time = 3.20 | CG iter. 15 -- res = 0.10351E+05, tol = 0.51537E+04, time = 3.35 | CG iter. 16 -- res = 0.91048E+04, tol = 0.51537E+04, time = 3.20 | CG iter. 17 -- res = 0.85277E+04, tol = 0.51537E+04, time = 3.22 | CG iter. 18 -- res = 0.87800E+04, tol = 0.51537E+04, time = 3.19 | CG iter. 19 -- res = 0.89370E+04, tol = 0.51537E+04, time = 3.30 | CG iter. 20 -- res = 0.80389E+04, tol = 0.51537E+04, time = 3.24 | CG iter. 21 -- res = 0.62493E+04, tol = 0.51537E+04, time = 3.22 | CG iter. 22 -- res = 0.44885E+04, tol = 0.51537E+04, time = 3.23 | CG iter. 23 -- res = 0.33706E+04, tol = 0.51537E+04, time = 3.23 | CG iter. 24 -- res = 0.27675E+04, tol = 0.51537E+04, time = 3.26 | CG iter. 25 -- res = 0.24223E+04, tol = 0.51537E+04, time = 3.38 | CG iter. 26 -- res = 0.21041E+04, tol = 0.51537E+04, time = 3.34 | CG iter. 27 -- res = 0.18009E+04, tol = 0.51537E+04, time = 3.16 | CG iter. 28 -- res = 0.16008E+04, tol = 0.51537E+04, time = 3.21 | CG iter. 29 -- res = 0.15307E+04, tol = 0.51537E+04, time = 3.17 | CG iter. 30 -- res = 0.15297E+04, tol = 0.51537E+04, time = 3.18 | CG iter. 31 -- res = 0.14694E+04, tol = 0.51537E+04, time = 3.27 | CG iter. 32 -- res = 0.13272E+04, tol = 0.51537E+04, time = 3.25 | CG iter. 33 -- res = 0.11234E+04, tol = 0.51537E+04, time = 3.19 | CG iter. 34 -- res = 0.96559E+03, tol = 0.51537E+04, time = 3.20 | CG iter. 35 -- res = 0.88812E+03, tol = 0.51537E+04, time = 3.29 | CG iter. 36 -- res = 0.85922E+03, tol = 0.51537E+04, time = 3.27 | CG iter. 37 -- res = 0.84646E+03, tol = 0.51537E+04, time = 3.28 | CG iter. 38 -- res = 0.81990E+03, tol = 0.51537E+04, time = 3.17 | CG iter. 39 -- res = 0.79190E+03, tol = 0.51537E+04, time = 3.22 | CG iter. 40 -- res = 0.77931E+03, tol = 0.51537E+04, time = 3.23 | CG iter. 41 -- res = 0.78194E+03, tol = 0.51537E+04, time = 3.28 | CG iter. 42 -- res = 0.77520E+03, tol = 0.51537E+04, time = 3.09 | CG iter. 43 -- res = 0.76125E+03, tol = 0.51537E+04, time = 3.23 | CG iter. 44 -- res = 0.72440E+03, tol = 0.51537E+04, time = 3.17 | CG iter. 45 -- res = 0.67776E+03, tol = 0.51537E+04, time = 3.20 | CG iter. 46 -- res = 0.64034E+03, tol = 0.51537E+04, time = 3.22 | CG iter. 47 -- res = 0.62293E+03, tol = 0.51537E+04, time = 3.24 | CG iter. 48 -- res = 0.61901E+03, tol = 0.51537E+04, time = 3.28 | CG iter. 49 -- res = 0.61913E+03, tol = 0.51537E+04, time = 3.25 | CG iter. 50 -- res = 0.61107E+03, tol = 0.51537E+04, time = 3.23 | CG iter. 51 -- res = 0.58967E+03, tol = 0.51537E+04, time = 3.20 | CG iter. 52 -- res = 0.57509E+03, tol = 0.51537E+04, time = 3.28 | CG iter. 53 -- res = 0.57190E+03, tol = 0.51537E+04, time = 3.14 | CG iter. 54 -- res = 0.57247E+03, tol = 0.51537E+04, time = 3.19 | CG iter. 55 -- res = 0.55930E+03, tol = 0.51537E+04, time = 3.22 | CG iter. 56 -- res = 0.52092E+03, tol = 0.51537E+04, time = 3.22 | CG iter. 57 -- res = 0.48966E+03, tol = 0.51537E+04, time = 3.27 | CG iter. 58 -- res = 0.47855E+03, tol = 0.51537E+04, time = 3.27 | CG iter. 59 -- res = 0.48817E+03, tol = 0.51537E+04, time = 3.31 | CG iter. 60 -- res = 0.49279E+03, tol = 0.51537E+04, time = 3.20 | Final CG iter 61 -- res = 0.49279E+03, tol = 0.51537E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 3.054 ( -231.488 -2233.654 2515.979 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9179526.815 | Old band monopole 8875576.749 | Change to band monopole 303950.066 | Change to component monopole -303948.758 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -2.079 2.746 | New value 2.217 | Old value -2.079 | Difference 4.297 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -3.860 ( 8.954 9.763 -9.007 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 20.261 3.603 | New value -5.548 | Old value 20.261 | Difference -25.809 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 4.11 | CG iter. 1 -- res = 0.11007E+07, tol = 0.47627E+18, time = 0.38 | CG iter. 2 -- res = 0.56263E+02, tol = 0.47627E+18, time = 0.33 | CG iter. 3 -- res = 0.11870E+01, tol = 0.47627E+18, time = 0.36 | CG iter. 4 -- res = 0.27117E-02, tol = 0.47627E+18, time = 0.37 | Final CG iter 5 -- res = 0.45700E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9179487.332 | (Sampled value in CG: 9117728.533 ) | Chain = 1 -- chisq = 0.61464956E+09 | Chain = 1 -- wall time = 4155.335 sec --------------------------------------------------------------------- | Chain = 1 -- Iteration = 74 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18272038090773 | --> Sampling calibration, mode = relcal | relcal = -7.4054480E-02 -5.8079250E-02 9.1023140E-02 4.1110590E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -9.6689619E-05 3.8730777E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 9.0855E-04 | 2: delta_r/delta_0: 2.2053E-05 | 3: delta_s/delta_0: 2.0146E-07 | 4: delta_r/delta_0: 2.0304E-08 | 5: delta_s/delta_0: 5.3283E-09 | 6: delta_r/delta_0: 1.1759E-09 | 7: delta_s/delta_0: 3.1474E-08 | 8: delta_r/delta_0: 4.9356E-10 | 9: delta_s/delta_0: 5.0903E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 7.682279190826930E-004 2.737224962517294E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 9.0839E-04 | 2: delta_r/delta_0: 2.2049E-05 | 3: delta_s/delta_0: 2.0146E-07 | 4: delta_r/delta_0: 2.0302E-08 | 5: delta_s/delta_0: 5.3278E-09 | 6: delta_r/delta_0: 1.1757E-09 | 7: delta_s/delta_0: 3.1458E-08 | 8: delta_r/delta_0: 4.9337E-10 | 9: delta_s/delta_0: 5.0904E-11 | Reached bicg-stab tolerance | BP delta = 5.1867189E-03 1.4124898E-02 3838105.73807965 | BP delta = 5.1867189E-03 1.4258188E-02 3837049.65700835 | BP chisq diff = -1056.1, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02534018 | --> Sampling calibration, mode = relcal | relcal = -0.1066065 -9.5476583E-02 0.1448433 5.7239816E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.4259004E-03 2.0987217E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 4.1996E-04 | 2: delta_r/delta_0: 9.2179E-06 | 3: delta_s/delta_0: 3.1493E-06 | 4: delta_r/delta_0: 2.9554E-07 | 5: delta_s/delta_0: 1.4007E-07 | 6: delta_r/delta_0: 7.0939E-09 | 7: delta_s/delta_0: 2.7110E-09 | 8: delta_r/delta_0: 8.5142E-10 | 9: delta_s/delta_0: 5.0569E-09 | 10: delta_r/delta_0: 2.2342E-10 | 11: delta_s/delta_0: 7.1693E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -6.952770560604689E-003 2.812617105861652E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 4.1996E-04 | 2: delta_r/delta_0: 9.2179E-06 | 3: delta_s/delta_0: 3.1494E-06 | 4: delta_r/delta_0: 2.9554E-07 | 5: delta_s/delta_0: 1.4007E-07 | 6: delta_r/delta_0: 7.0940E-09 | 7: delta_s/delta_0: 2.7110E-09 | 8: delta_r/delta_0: 8.5142E-10 | 9: delta_s/delta_0: 5.0568E-09 | 10: delta_r/delta_0: 2.2342E-10 | 11: delta_s/delta_0: 7.1693E-11 | Reached bicg-stab tolerance | BP delta = -0.1831218 -0.1733203 2841550.34531629 | BP delta = -0.1831218 -0.1758612 2841549.35424261 | 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 = 0.81126203 | --> Sampling calibration, mode = relcal | relcal = 0.2951815 0.2244752 -0.2834133 -0.2362433 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 8.8470191E-04 4.8320554E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.0891E-04 | 2: delta_r/delta_0: 1.3759E-05 | 3: delta_s/delta_0: 1.2962E-04 | 4: delta_r/delta_0: 5.2597E-06 | 5: delta_s/delta_0: 6.0018E-06 | 6: delta_r/delta_0: 8.1241E-07 | 7: delta_s/delta_0: 5.3890E-08 | 8: delta_r/delta_0: 2.9765E-08 | 9: delta_s/delta_0: 3.3600E-07 | 10: delta_r/delta_0: 6.5873E-09 | 11: delta_s/delta_0: 1.3974E-09 | 12: delta_r/delta_0: 4.7031E-10 | 13: delta_s/delta_0: 3.0079E-10 | 14: delta_r/delta_0: 4.5243E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.238523771206690E-002 4.026477670691807E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 6.0913E-04 | 2: delta_r/delta_0: 1.3765E-05 | 3: delta_s/delta_0: 1.2950E-04 | 4: delta_r/delta_0: 5.2533E-06 | 5: delta_s/delta_0: 5.9997E-06 | 6: delta_r/delta_0: 8.1198E-07 | 7: delta_s/delta_0: 5.3883E-08 | 8: delta_r/delta_0: 2.9771E-08 | 9: delta_s/delta_0: 3.3698E-07 | 10: delta_r/delta_0: 6.5961E-09 | 11: delta_s/delta_0: 1.3980E-09 | 12: delta_r/delta_0: 4.7033E-10 | 13: delta_s/delta_0: 3.0067E-10 | 14: delta_r/delta_0: 4.5248E-11 | Reached bicg-stab tolerance | BP delta = -4.7434531E-02 -7.9042852E-02 2827142.25060027 | BP delta = -4.7434531E-02 -8.4601164E-02 2827161.40689250 | 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 = 0.95792419 | --> Sampling calibration, mode = relcal | relcal = 0.1063304 0.1394727 -0.1102582 -0.1355449 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 8.9510139E-03 1.3038444E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.9570E-03 | 2: delta_r/delta_0: 4.5812E-05 | 3: delta_s/delta_0: 1.4783E-05 | 4: delta_r/delta_0: 4.3002E-07 | 5: delta_s/delta_0: 2.1764E-04 | 6: delta_r/delta_0: 1.7012E-05 | 7: delta_s/delta_0: 8.4534E-08 | 8: delta_r/delta_0: 2.8570E-08 | 9: delta_s/delta_0: 1.5441E-07 | 10: delta_r/delta_0: 4.6162E-09 | 11: delta_s/delta_0: 2.3185E-09 | 12: delta_r/delta_0: 7.7831E-10 | 13: delta_s/delta_0: 2.4801E-10 | 14: delta_r/delta_0: 1.6831E-10 | 15: delta_s/delta_0: 2.7453E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.409413303940144E-002 3.701995200014144E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.9570E-03 | 2: delta_r/delta_0: 4.5812E-05 | 3: delta_s/delta_0: 1.4783E-05 | 4: delta_r/delta_0: 4.3002E-07 | 5: delta_s/delta_0: 2.1761E-04 | 6: delta_r/delta_0: 1.7010E-05 | 7: delta_s/delta_0: 8.4534E-08 | 8: delta_r/delta_0: 2.8570E-08 | 9: delta_s/delta_0: 1.5442E-07 | 10: delta_r/delta_0: 4.6163E-09 | 11: delta_s/delta_0: 2.3185E-09 | 12: delta_r/delta_0: 7.7831E-10 | 13: delta_s/delta_0: 2.4801E-10 | 14: delta_r/delta_0: 1.6831E-10 | 15: delta_s/delta_0: 2.7453E-11 | Reached bicg-stab tolerance | BP delta = 0.2486565 0.2710253 3005273.77618143 | BP delta = 0.2486565 0.2733232 3005273.88102076 | 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 = 0.52094816 | --> Sampling calibration, mode = relcal | relcal = -5.1065091E-02 -3.7165026E-03 2.7248707E-02 2.7532885E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -1.2629079E-03 1.6890747E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.4809E-05 | 2: delta_r/delta_0: 4.4836E-06 | 3: delta_s/delta_0: 4.2376E-06 | 4: delta_r/delta_0: 6.6316E-07 | 5: delta_s/delta_0: 4.6843E-08 | 6: delta_r/delta_0: 2.7196E-08 | 7: delta_s/delta_0: 1.3079E-07 | 8: delta_r/delta_0: 5.2695E-09 | 9: delta_s/delta_0: 1.6288E-08 | 10: delta_r/delta_0: 9.0175E-09 | 11: delta_s/delta_0: 6.3723E-10 | 12: delta_r/delta_0: 4.4088E-10 | 13: delta_s/delta_0: 7.9575E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.009751690812581E-002 5.489908433115125E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 6.4809E-05 | 2: delta_r/delta_0: 4.4836E-06 | 3: delta_s/delta_0: 4.2376E-06 | 4: delta_r/delta_0: 6.6317E-07 | 5: delta_s/delta_0: 4.6845E-08 | 6: delta_r/delta_0: 2.7197E-08 | 7: delta_s/delta_0: 1.3076E-07 | 8: delta_r/delta_0: 5.2698E-09 | 9: delta_s/delta_0: 1.6424E-08 | 10: delta_r/delta_0: 9.0861E-09 | 11: delta_s/delta_0: 6.3933E-10 | 12: delta_r/delta_0: 4.4237E-10 | 13: delta_s/delta_0: 7.9661E-11 | Reached bicg-stab tolerance | BP delta = -0.1205506 -6.6367508E-04 2435337.81153875 | BP delta = -0.1205506 -7.7121868E-03 2435346.08797949 | BP chisq diff = 8.3, accept = T | | Finished processing 060-WMAP_V1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 060-WMAP_V2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.42103693 | --> Sampling calibration, mode = relcal | relcal = 4.5540396E-02 3.9599191E-02 -2.8216232E-02 -5.6923356E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.8980039E-03 6.1864043E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.3829E-05 | 2: delta_r/delta_0: 3.4741E-06 | 3: delta_s/delta_0: 2.0189E-06 | 4: delta_r/delta_0: 2.7089E-07 | 5: delta_s/delta_0: 5.5883E-08 | 6: delta_r/delta_0: 2.9895E-08 | 7: delta_s/delta_0: 5.6350E-08 | 8: delta_r/delta_0: 6.1883E-09 | 9: delta_s/delta_0: 2.2393E-09 | 10: delta_r/delta_0: 1.4601E-09 | 11: delta_s/delta_0: 4.3653E-09 | 12: delta_r/delta_0: 1.1792E-09 | 13: delta_s/delta_0: 8.0014E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.283985111364396E-002 5.002182934130505E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 6.3829E-05 | 2: delta_r/delta_0: 3.4741E-06 | 3: delta_s/delta_0: 2.0189E-06 | 4: delta_r/delta_0: 2.7089E-07 | 5: delta_s/delta_0: 5.5882E-08 | 6: delta_r/delta_0: 2.9895E-08 | 7: delta_s/delta_0: 5.6346E-08 | 8: delta_r/delta_0: 6.1884E-09 | 9: delta_s/delta_0: 2.2393E-09 | 10: delta_r/delta_0: 1.4602E-09 | 11: delta_s/delta_0: 4.3632E-09 | 12: delta_r/delta_0: 1.1791E-09 | 13: delta_s/delta_0: 7.9994E-11 | Reached bicg-stab tolerance | BP delta = -0.1355620 -0.1878929 2322072.75109704 | BP delta = -0.1355620 -0.2098358 2322089.47785536 | 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 = 0.28127793 | --> Sampling calibration, mode = relcal | relcal = 2.4084074E-02 4.5116559E-02 -2.3281658E-02 -4.5918975E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.1882185E-02 3.6025418E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.0901E-04 | 2: delta_r/delta_0: 8.9923E-06 | 3: delta_s/delta_0: 1.5263E-06 | 4: delta_r/delta_0: 1.9222E-07 | 5: delta_s/delta_0: 6.4982E-08 | 6: delta_r/delta_0: 1.5293E-08 | 7: delta_s/delta_0: 6.6189E-09 | 8: delta_r/delta_0: 4.1953E-09 | 9: delta_s/delta_0: 2.0328E-08 | 10: delta_r/delta_0: 4.1051E-09 | 11: delta_s/delta_0: 1.7303E-09 | 12: delta_r/delta_0: 5.0831E-10 | 13: delta_s/delta_0: 5.1761E-10 | 14: delta_r/delta_0: 1.6243E-10 | 15: delta_s/delta_0: 7.8437E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -8.561890070214080E-003 7.853115937364442E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.0901E-04 | 2: delta_r/delta_0: 8.9923E-06 | 3: delta_s/delta_0: 1.5263E-06 | 4: delta_r/delta_0: 1.9222E-07 | 5: delta_s/delta_0: 6.4981E-08 | 6: delta_r/delta_0: 1.5293E-08 | 7: delta_s/delta_0: 6.6189E-09 | 8: delta_r/delta_0: 4.1953E-09 | 9: delta_s/delta_0: 2.0328E-08 | 10: delta_r/delta_0: 4.1051E-09 | 11: delta_s/delta_0: 1.7303E-09 | 12: delta_r/delta_0: 5.0832E-10 | 13: delta_s/delta_0: 5.1761E-10 | 14: delta_r/delta_0: 1.6244E-10 | 15: delta_s/delta_0: 7.8437E-11 | Reached bicg-stab tolerance | BP delta = 6.0886353E-02 -0.1096587 2490120.72388675 | BP delta = 6.0886353E-02 -9.8313764E-02 2490122.94926981 | 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 = 0.29358326 | --> Sampling calibration, mode = relcal | relcal = 4.9204979E-04 1.0299062E-02 -3.7667763E-03 -7.0243357E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.6033374E-02 1.3609443E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.3117E-04 | 2: delta_r/delta_0: 1.1166E-05 | 3: delta_s/delta_0: 1.7853E-06 | 4: delta_r/delta_0: 2.3560E-07 | 5: delta_s/delta_0: 8.8207E-08 | 6: delta_r/delta_0: 1.9105E-08 | 7: delta_s/delta_0: 8.6199E-09 | 8: delta_r/delta_0: 5.8186E-09 | 9: delta_s/delta_0: 4.0771E-09 | 10: delta_r/delta_0: 2.4972E-09 | 11: delta_s/delta_0: 3.0282E-05 | 12: delta_r/delta_0: 2.3484E-08 | 13: delta_s/delta_0: 2.2827E-08 | 14: delta_r/delta_0: 6.7722E-09 | 15: delta_s/delta_0: 1.7033E-10 | 16: delta_r/delta_0: 5.3041E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.585031662020811E-003 8.316200519263534E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.3117E-04 | 2: delta_r/delta_0: 1.1166E-05 | 3: delta_s/delta_0: 1.7853E-06 | 4: delta_r/delta_0: 2.3560E-07 | 5: delta_s/delta_0: 8.8217E-08 | 6: delta_r/delta_0: 1.9106E-08 | 7: delta_s/delta_0: 8.6203E-09 | 8: delta_r/delta_0: 5.8187E-09 | 9: delta_s/delta_0: 4.0772E-09 | 10: delta_r/delta_0: 2.4975E-09 | 11: delta_s/delta_0: 3.0139E-05 | 12: delta_r/delta_0: 2.3342E-08 | 13: delta_s/delta_0: 2.2708E-08 | 14: delta_r/delta_0: 6.7473E-09 | 15: delta_s/delta_0: 1.7037E-10 | 16: delta_r/delta_0: 5.3090E-11 | Reached bicg-stab tolerance | BP delta = -0.6923832 -0.6313057 2737765.63667089 | BP delta = -0.6923832 -0.6212876 2737761.65210982 | BP chisq diff = -4.0, accept = T | | Finished processing 090-WMAP_W2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W3 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.26471967 | --> Sampling calibration, mode = relcal | relcal = -5.6047766E-03 1.5019645E-02 -2.2748008E-03 -7.1400679E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -6.7605567E-04 5.7310453E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4482E-04 | 2: delta_r/delta_0: 1.2386E-05 | 3: delta_s/delta_0: 2.1111E-06 | 4: delta_r/delta_0: 2.6303E-07 | 5: delta_s/delta_0: 9.0410E-08 | 6: delta_r/delta_0: 2.0163E-08 | 7: delta_s/delta_0: 7.8057E-09 | 8: delta_r/delta_0: 4.7935E-09 | 9: delta_s/delta_0: 3.8522E-09 | 10: delta_r/delta_0: 2.3365E-09 | 11: delta_s/delta_0: 5.6963E-03 | 12: delta_r/delta_0: 8.8540E-06 | 13: delta_s/delta_0: 6.5292E-09 | 14: delta_r/delta_0: 1.6915E-09 | 15: delta_s/delta_0: 7.9422E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -7.523486949921057E-003 9.165544700903508E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.4482E-04 | 2: delta_r/delta_0: 1.2386E-05 | 3: delta_s/delta_0: 2.1110E-06 | 4: delta_r/delta_0: 2.6300E-07 | 5: delta_s/delta_0: 9.0414E-08 | 6: delta_r/delta_0: 2.0161E-08 | 7: delta_s/delta_0: 7.8051E-09 | 8: delta_r/delta_0: 4.7932E-09 | 9: delta_s/delta_0: 3.8520E-09 | 10: delta_r/delta_0: 2.3362E-09 | 11: delta_s/delta_0: 5.5517E-03 | 12: delta_r/delta_0: 8.6298E-06 | 13: delta_s/delta_0: 6.5043E-09 | 14: delta_r/delta_0: 1.6819E-09 | 15: delta_s/delta_0: 7.9412E-11 | Reached bicg-stab tolerance | BP delta = 0.1954442 0.3039826 2516541.89587918 | BP delta = 0.1954442 0.3070031 2516541.72719467 | 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 = 0.25631199 | --> Sampling calibration, mode = relcal | relcal = -3.1669687E-02 -2.5823571E-02 3.6927786E-02 2.0565473E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.6088024E-02 2.0820484E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4446E-04 | 2: delta_r/delta_0: 1.2275E-05 | 3: delta_s/delta_0: 1.9611E-06 | 4: delta_r/delta_0: 3.8833E-07 | 5: delta_s/delta_0: 1.4051E-07 | 6: delta_r/delta_0: 2.4252E-08 | 7: delta_s/delta_0: 9.1208E-09 | 8: delta_r/delta_0: 5.2802E-09 | 9: delta_s/delta_0: 3.7599E-09 | 10: delta_r/delta_0: 2.7745E-09 | 11: delta_s/delta_0: 8.9185E-07 | 12: delta_r/delta_0: 2.7240E-08 | 13: delta_s/delta_0: 7.9526E-10 | 14: delta_r/delta_0: 5.1188E-10 | 15: delta_s/delta_0: 1.4866E-10 | 16: delta_r/delta_0: 1.2901E-10 | 17: delta_s/delta_0: 1.1799E-10 | 18: delta_r/delta_0: 1.0326E-10 | 19: delta_s/delta_0: 1.0220E-10 | 20: delta_r/delta_0: 9.2591E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -7.739139798519382E-003 8.682675338209720E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.4446E-04 | 2: delta_r/delta_0: 1.2275E-05 | 3: delta_s/delta_0: 1.9611E-06 | 4: delta_r/delta_0: 3.8833E-07 | 5: delta_s/delta_0: 1.4051E-07 | 6: delta_r/delta_0: 2.4252E-08 | 7: delta_s/delta_0: 9.1208E-09 | 8: delta_r/delta_0: 5.2802E-09 | 9: delta_s/delta_0: 3.7599E-09 | 10: delta_r/delta_0: 2.7745E-09 | 11: delta_s/delta_0: 8.9157E-07 | 12: delta_r/delta_0: 2.7234E-08 | 13: delta_s/delta_0: 7.9529E-10 | 14: delta_r/delta_0: 5.1186E-10 | 15: delta_s/delta_0: 1.4865E-10 | 16: delta_r/delta_0: 1.2900E-10 | 17: delta_s/delta_0: 1.1799E-10 | 18: delta_r/delta_0: 1.0325E-10 | 19: delta_s/delta_0: 1.0221E-10 | 20: delta_r/delta_0: 9.2619E-11 | Reached bicg-stab tolerance | BP delta = -0.6399711 -0.7122419 2707625.03847069 | BP delta = -0.6399711 -0.6939200 2707620.61711936 | BP chisq diff = -4.4, 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 = -3.261943 | New value = -3.195157 | poltype: 2 pol: 1 CPU time specind = 5.2969456E-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 = -3.118820 | New value = -3.108990 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.079719 | New value = -3.177593 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.157924 | New value = -3.127989 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.114184 | New value = -3.163192 | poltype: 2 pol: 2 CPU time specind = 2.1798611E-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 = 4.12 | CG iter. 1 -- res = 0.13534E+08, tol = 0.74285E+01, time = 1.54 | CG iter. 2 -- res = 0.42267E+05, tol = 0.74285E+01, time = 1.54 | CG iter. 3 -- res = 0.26947E+05, tol = 0.74285E+01, time = 1.56 | CG iter. 4 -- res = 0.12302E+05, tol = 0.74285E+01, time = 1.51 | CG iter. 5 -- res = 0.91441E+04, tol = 0.74285E+01, time = 1.58 | CG iter. 6 -- res = 0.58441E+04, tol = 0.74285E+01, time = 1.56 | CG iter. 7 -- res = 0.50083E+04, tol = 0.74285E+01, time = 1.55 | CG iter. 8 -- res = 0.37434E+04, tol = 0.74285E+01, time = 1.55 | CG iter. 9 -- res = 0.31944E+04, tol = 0.74285E+01, time = 1.52 | CG iter. 10 -- res = 0.39039E+04, tol = 0.74285E+01, time = 1.54 | CG iter. 11 -- res = 0.29388E+04, tol = 0.74285E+01, time = 1.50 | CG iter. 12 -- res = 0.17562E+04, tol = 0.74285E+01, time = 1.57 | CG iter. 13 -- res = 0.12480E+04, tol = 0.74285E+01, time = 1.56 | CG iter. 14 -- res = 0.11094E+04, tol = 0.74285E+01, time = 1.56 | CG iter. 15 -- res = 0.82172E+03, tol = 0.74285E+01, time = 1.56 | CG iter. 16 -- res = 0.72089E+03, tol = 0.74285E+01, time = 1.53 | CG iter. 17 -- res = 0.60500E+03, tol = 0.74285E+01, time = 1.55 | CG iter. 18 -- res = 0.41883E+03, tol = 0.74285E+01, time = 1.56 | CG iter. 19 -- res = 0.30779E+03, tol = 0.74285E+01, time = 1.60 | CG iter. 20 -- res = 0.21415E+03, tol = 0.74285E+01, time = 1.60 | CG iter. 21 -- res = 0.17931E+03, tol = 0.74285E+01, time = 1.55 | CG iter. 22 -- res = 0.16996E+03, tol = 0.74285E+01, time = 1.56 | CG iter. 23 -- res = 0.13263E+03, tol = 0.74285E+01, time = 1.54 | CG iter. 24 -- res = 0.10288E+03, tol = 0.74285E+01, time = 1.60 | CG iter. 25 -- res = 0.89986E+02, tol = 0.74285E+01, time = 1.52 | CG iter. 26 -- res = 0.76183E+02, tol = 0.74285E+01, time = 1.48 | CG iter. 27 -- res = 0.54572E+02, tol = 0.74285E+01, time = 1.51 | CG iter. 28 -- res = 0.43617E+02, tol = 0.74285E+01, time = 1.51 | CG iter. 29 -- res = 0.32801E+02, tol = 0.74285E+01, time = 1.55 | CG iter. 30 -- res = 0.27405E+02, tol = 0.74285E+01, time = 1.51 | CG iter. 31 -- res = 0.19683E+02, tol = 0.74285E+01, time = 1.57 | CG iter. 32 -- res = 0.16326E+02, tol = 0.74285E+01, time = 1.57 | CG iter. 33 -- res = 0.15223E+02, tol = 0.74285E+01, time = 1.53 | CG iter. 34 -- res = 0.10830E+02, tol = 0.74285E+01, time = 1.51 | CG iter. 35 -- res = 0.80922E+01, tol = 0.74285E+01, time = 1.57 | CG iter. 36 -- res = 0.65368E+01, tol = 0.74285E+01, time = 1.56 | CG iter. 37 -- res = 0.59249E+01, tol = 0.74285E+01, time = 1.56 | CG iter. 38 -- res = 0.42717E+01, tol = 0.74285E+01, time = 1.54 | CG iter. 39 -- res = 0.52079E+01, tol = 0.74285E+01, time = 1.59 | CG iter. 40 -- res = 0.37051E+01, tol = 0.74285E+01, time = 1.53 | CG iter. 41 -- res = 0.23828E+01, tol = 0.74285E+01, time = 1.52 | CG iter. 42 -- res = 0.18592E+01, tol = 0.74285E+01, time = 1.53 | CG iter. 43 -- res = 0.14188E+01, tol = 0.74285E+01, time = 1.54 | CG iter. 44 -- res = 0.12684E+01, tol = 0.74285E+01, time = 1.57 | CG iter. 45 -- res = 0.15723E+01, tol = 0.74285E+01, time = 1.56 | CG iter. 46 -- res = 0.10476E+01, tol = 0.74285E+01, time = 1.53 | CG iter. 47 -- res = 0.72119E+00, tol = 0.74285E+01, time = 1.57 | CG iter. 48 -- res = 0.87141E+00, tol = 0.74285E+01, time = 1.52 | CG iter. 49 -- res = 0.69223E+00, tol = 0.74285E+01, time = 1.54 | CG iter. 50 -- res = 0.49499E+00, tol = 0.74285E+01, time = 1.54 | Final CG iter 51 -- res = 0.49499E+00, tol = 0.74285E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 10743568.383 | Old band monopole 9179526.815 | Change to band monopole 1564041.569 | Change to component monopole -1564034.842 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 4.12 | CG iter. 1 -- res = 0.21429E+05, tol = 0.47627E+18, time = 0.40 | CG iter. 2 -- res = 0.21540E+02, tol = 0.47627E+18, time = 0.38 | CG iter. 3 -- res = 0.47904E+00, tol = 0.47627E+18, time = 0.37 | CG iter. 4 -- res = 0.88051E-04, tol = 0.47627E+18, time = 0.40 | Final CG iter 5 -- res = 0.74099E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10743522.173 | (Sampled value in CG: 10765266.489 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.484024 | New value = 1.507535 | poltype: 2 pol: 1 CPU time specind = 5.5489540E-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 = 1.520815 | New value = 1.480167 | poltype: 2 pol: 2 CPU time specind = 1.9040108E-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 = 4.11 | CG iter. 1 -- res = 0.24152E+08, tol = 0.47638E+04, time = 1.78 | CG iter. 2 -- res = 0.54292E+07, tol = 0.47638E+04, time = 1.75 | CG iter. 3 -- res = 0.86637E+06, tol = 0.47638E+04, time = 1.80 | CG iter. 4 -- res = 0.35315E+06, tol = 0.47638E+04, time = 1.74 | CG iter. 5 -- res = 0.15357E+06, tol = 0.47638E+04, time = 1.77 | CG iter. 6 -- res = 0.80576E+05, tol = 0.47638E+04, time = 1.74 | CG iter. 7 -- res = 0.43610E+05, tol = 0.47638E+04, time = 1.72 | CG iter. 8 -- res = 0.20636E+05, tol = 0.47638E+04, time = 1.73 | CG iter. 9 -- res = 0.90333E+04, tol = 0.47638E+04, time = 1.72 | CG iter. 10 -- res = 0.36659E+04, tol = 0.47638E+04, time = 1.74 | CG iter. 11 -- res = 0.16726E+04, tol = 0.47638E+04, time = 1.76 | CG iter. 12 -- res = 0.87433E+03, tol = 0.47638E+04, time = 1.79 | CG iter. 13 -- res = 0.49874E+03, tol = 0.47638E+04, time = 1.79 | CG iter. 14 -- res = 0.27867E+03, tol = 0.47638E+04, time = 1.75 | CG iter. 15 -- res = 0.14414E+03, tol = 0.47638E+04, time = 1.78 | CG iter. 16 -- res = 0.69051E+02, tol = 0.47638E+04, time = 1.77 | CG iter. 17 -- res = 0.32084E+02, tol = 0.47638E+04, time = 1.77 | CG iter. 18 -- res = 0.16293E+02, tol = 0.47638E+04, time = 1.78 | CG iter. 19 -- res = 0.88341E+01, tol = 0.47638E+04, time = 1.75 | CG iter. 20 -- res = 0.49187E+01, tol = 0.47638E+04, time = 1.84 | CG iter. 21 -- res = 0.26848E+01, tol = 0.47638E+04, time = 1.79 | CG iter. 22 -- res = 0.14014E+01, tol = 0.47638E+04, time = 1.78 | CG iter. 23 -- res = 0.70967E+00, tol = 0.47638E+04, time = 1.83 | CG iter. 24 -- res = 0.35802E+00, tol = 0.47638E+04, time = 1.76 | CG iter. 25 -- res = 0.19331E+00, tol = 0.47638E+04, time = 1.81 | CG iter. 26 -- res = 0.11195E+00, tol = 0.47638E+04, time = 1.78 | CG iter. 27 -- res = 0.64040E-01, tol = 0.47638E+04, time = 1.74 | CG iter. 28 -- res = 0.34178E-01, tol = 0.47638E+04, time = 1.75 | CG iter. 29 -- res = 0.17770E-01, tol = 0.47638E+04, time = 1.73 | CG iter. 30 -- res = 0.92597E-02, tol = 0.47638E+04, time = 1.71 | CG iter. 31 -- res = 0.48877E-02, tol = 0.47638E+04, time = 1.79 | CG iter. 32 -- res = 0.27329E-02, tol = 0.47638E+04, time = 1.81 | CG iter. 33 -- res = 0.15342E-02, tol = 0.47638E+04, time = 1.79 | CG iter. 34 -- res = 0.83131E-03, tol = 0.47638E+04, time = 1.76 | CG iter. 35 -- res = 0.43562E-03, tol = 0.47638E+04, time = 1.78 | Final CG iter 36 -- res = 0.43562E-03, tol = 0.47638E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 2.267 2.746 | New value -3.634 | Old value 2.267 | Difference -5.901 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 4.12 | CG iter. 1 -- res = 0.18013E+07, tol = 0.47627E+18, time = 0.38 | CG iter. 2 -- res = 0.24102E+02, tol = 0.47627E+18, time = 0.36 | CG iter. 3 -- res = 0.43177E+00, tol = 0.47627E+18, time = 0.39 | CG iter. 4 -- res = 0.28032E-03, tol = 0.47627E+18, time = 0.36 | Final CG iter 5 -- res = 0.16580E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10743522.173 | (Sampled value in CG: 10764081.814 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.736038 | New value = -3.551748 | poltype: 1 pol: 1 CPU time specind = 2.7120113E-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 = 4.11 | CG iter. 1 -- res = 0.22227E+07, tol = 0.11621E+01, time = 0.69 | CG iter. 2 -- res = 0.96676E+05, tol = 0.11621E+01, time = 0.67 | CG iter. 3 -- res = 0.42240E+05, tol = 0.11621E+01, time = 0.73 | CG iter. 4 -- res = 0.15103E+05, tol = 0.11621E+01, time = 0.65 | CG iter. 5 -- res = 0.39350E+04, tol = 0.11621E+01, time = 0.67 | CG iter. 6 -- res = 0.17024E+04, tol = 0.11621E+01, time = 0.65 | CG iter. 7 -- res = 0.57763E+03, tol = 0.11621E+01, time = 0.67 | CG iter. 8 -- res = 0.22428E+03, tol = 0.11621E+01, time = 0.65 | CG iter. 9 -- res = 0.12385E+03, tol = 0.11621E+01, time = 0.65 | CG iter. 10 -- res = 0.33257E+02, tol = 0.11621E+01, time = 0.64 | CG iter. 11 -- res = 0.15138E+02, tol = 0.11621E+01, time = 0.67 | CG iter. 12 -- res = 0.52324E+01, tol = 0.11621E+01, time = 0.66 | CG iter. 13 -- res = 0.19802E+01, tol = 0.11621E+01, time = 0.65 | CG iter. 14 -- res = 0.57363E+00, tol = 0.11621E+01, time = 0.64 | CG iter. 15 -- res = 0.18965E+00, tol = 0.11621E+01, time = 0.66 | CG iter. 16 -- res = 0.81932E-01, tol = 0.11621E+01, time = 0.68 | CG iter. 17 -- res = 0.27558E-01, tol = 0.11621E+01, time = 0.62 | CG iter. 18 -- res = 0.10109E-01, tol = 0.11621E+01, time = 0.65 | CG iter. 19 -- res = 0.32466E-02, tol = 0.11621E+01, time = 0.63 | CG iter. 20 -- res = 0.13979E-02, tol = 0.11621E+01, time = 0.63 | CG iter. 21 -- res = 0.51017E-03, tol = 0.11621E+01, time = 0.65 | CG iter. 22 -- res = 0.19869E-03, tol = 0.11621E+01, time = 0.62 | CG iter. 23 -- res = 0.68939E-04, tol = 0.11621E+01, time = 0.63 | CG iter. 24 -- res = 0.24143E-04, tol = 0.11621E+01, time = 0.63 | CG iter. 25 -- res = 0.68159E-05, tol = 0.11621E+01, time = 0.61 | CG iter. 26 -- res = 0.21278E-05, tol = 0.11621E+01, time = 0.65 | CG iter. 27 -- res = 0.84603E-06, tol = 0.11621E+01, time = 0.64 | CG iter. 28 -- res = 0.29121E-06, tol = 0.11621E+01, time = 0.68 | CG iter. 29 -- res = 0.87386E-07, tol = 0.11621E+01, time = 0.67 | CG iter. 30 -- res = 0.23346E-07, tol = 0.11621E+01, time = 0.66 | CG iter. 31 -- res = 0.69415E-08, tol = 0.11621E+01, time = 0.65 | CG iter. 32 -- res = 0.60544E-08, tol = 0.11621E+01, time = 0.64 | CG iter. 33 -- res = 0.19485E-08, tol = 0.11621E+01, time = 0.65 | CG iter. 34 -- res = 0.64185E-09, tol = 0.11621E+01, time = 0.66 | CG iter. 35 -- res = 0.19347E-09, tol = 0.11621E+01, time = 0.69 | CG iter. 36 -- res = 0.82430E-10, tol = 0.11621E+01, time = 0.67 | CG iter. 37 -- res = 0.61551E-10, tol = 0.11621E+01, time = 0.66 | CG iter. 38 -- res = 0.12899E-10, tol = 0.11621E+01, time = 0.63 | CG iter. 39 -- res = 0.39656E-11, tol = 0.11621E+01, time = 0.64 | CG iter. 40 -- res = 0.12298E-11, tol = 0.11621E+01, time = 0.62 | CG iter. 41 -- res = 0.33112E-12, tol = 0.11621E+01, time = 0.63 | CG iter. 42 -- res = 0.10453E-12, tol = 0.11621E+01, time = 0.67 | CG iter. 43 -- res = 0.32352E-13, tol = 0.11621E+01, time = 0.64 | CG iter. 44 -- res = 0.96524E-14, tol = 0.11621E+01, time = 0.68 | CG iter. 45 -- res = 0.35673E-14, tol = 0.11621E+01, time = 0.66 | CG iter. 46 -- res = 0.12947E-14, tol = 0.11621E+01, time = 0.61 | CG iter. 47 -- res = 0.42534E-15, tol = 0.11621E+01, time = 0.65 | CG iter. 48 -- res = 0.13240E-15, tol = 0.11621E+01, time = 0.68 | CG iter. 49 -- res = 0.38293E-16, tol = 0.11621E+01, time = 0.63 | CG iter. 50 -- res = 0.14072E-16, tol = 0.11621E+01, time = 0.68 | Final CG iter 51 -- res = 0.14072E-16, tol = 0.11621E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -2.126 2.698 | New value 4.059 | Old value -2.126 | Difference 6.185 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 4.11 | CG iter. 1 -- res = 0.23925E+05, tol = 0.47627E+18, time = 0.40 | CG iter. 2 -- res = 0.15181E+02, tol = 0.47627E+18, time = 0.38 | CG iter. 3 -- res = 0.20223E+00, tol = 0.47627E+18, time = 0.36 | Final CG iter 4 -- res = 0.19660E-04, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10743522.173 | (Sampled value in CG: 10756955.504 ) | CPU time specind = 276.1905 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 4.12 | CG iter. 1 -- res = 0.68793E+08, tol = 0.51482E+04, time = 3.10 | CG iter. 2 -- res = 0.33240E+08, tol = 0.51482E+04, time = 3.13 | CG iter. 3 -- res = 0.57437E+07, tol = 0.51482E+04, time = 3.18 | CG iter. 4 -- res = 0.28833E+07, tol = 0.51482E+04, time = 3.17 | CG iter. 5 -- res = 0.12815E+07, tol = 0.51482E+04, time = 3.15 | CG iter. 6 -- res = 0.69985E+06, tol = 0.51482E+04, time = 3.07 | CG iter. 7 -- res = 0.38752E+06, tol = 0.51482E+04, time = 3.08 | CG iter. 8 -- res = 0.19536E+06, tol = 0.51482E+04, time = 3.15 | CG iter. 9 -- res = 0.95917E+05, tol = 0.51482E+04, time = 3.16 | CG iter. 10 -- res = 0.42755E+05, tol = 0.51482E+04, time = 3.20 | CG iter. 11 -- res = 0.21794E+05, tol = 0.51482E+04, time = 3.18 | CG iter. 12 -- res = 0.12595E+05, tol = 0.51482E+04, time = 3.15 | CG iter. 13 -- res = 0.81436E+04, tol = 0.51482E+04, time = 3.10 | CG iter. 14 -- res = 0.57608E+04, tol = 0.51482E+04, time = 3.20 | CG iter. 15 -- res = 0.39008E+04, tol = 0.51482E+04, time = 3.19 | CG iter. 16 -- res = 0.28384E+04, tol = 0.51482E+04, time = 3.18 | CG iter. 17 -- res = 0.22738E+04, tol = 0.51482E+04, time = 3.08 | CG iter. 18 -- res = 0.21655E+04, tol = 0.51482E+04, time = 3.12 | CG iter. 19 -- res = 0.23169E+04, tol = 0.51482E+04, time = 3.24 | CG iter. 20 -- res = 0.24783E+04, tol = 0.51482E+04, time = 3.16 | CG iter. 21 -- res = 0.24642E+04, tol = 0.51482E+04, time = 3.14 | CG iter. 22 -- res = 0.21586E+04, tol = 0.51482E+04, time = 3.14 | CG iter. 23 -- res = 0.17878E+04, tol = 0.51482E+04, time = 3.17 | CG iter. 24 -- res = 0.14974E+04, tol = 0.51482E+04, time = 3.07 | CG iter. 25 -- res = 0.12760E+04, tol = 0.51482E+04, time = 3.11 | CG iter. 26 -- res = 0.10833E+04, tol = 0.51482E+04, time = 3.12 | CG iter. 27 -- res = 0.89591E+03, tol = 0.51482E+04, time = 3.15 | CG iter. 28 -- res = 0.74489E+03, tol = 0.51482E+04, time = 3.17 | CG iter. 29 -- res = 0.67067E+03, tol = 0.51482E+04, time = 3.14 | CG iter. 30 -- res = 0.68213E+03, tol = 0.51482E+04, time = 3.19 | CG iter. 31 -- res = 0.73131E+03, tol = 0.51482E+04, time = 3.25 | CG iter. 32 -- res = 0.78039E+03, tol = 0.51482E+04, time = 3.20 | CG iter. 33 -- res = 0.76634E+03, tol = 0.51482E+04, time = 3.20 | CG iter. 34 -- res = 0.70748E+03, tol = 0.51482E+04, time = 3.26 | CG iter. 35 -- res = 0.66156E+03, tol = 0.51482E+04, time = 3.05 | CG iter. 36 -- res = 0.65192E+03, tol = 0.51482E+04, time = 3.12 | CG iter. 37 -- res = 0.66693E+03, tol = 0.51482E+04, time = 3.18 | CG iter. 38 -- res = 0.64876E+03, tol = 0.51482E+04, time = 3.16 | CG iter. 39 -- res = 0.60728E+03, tol = 0.51482E+04, time = 3.20 | CG iter. 40 -- res = 0.56849E+03, tol = 0.51482E+04, time = 3.18 | CG iter. 41 -- res = 0.56777E+03, tol = 0.51482E+04, time = 3.20 | CG iter. 42 -- res = 0.60754E+03, tol = 0.51482E+04, time = 3.16 | CG iter. 43 -- res = 0.65413E+03, tol = 0.51482E+04, time = 3.22 | CG iter. 44 -- res = 0.66164E+03, tol = 0.51482E+04, time = 3.11 | CG iter. 45 -- res = 0.63023E+03, tol = 0.51482E+04, time = 3.26 | CG iter. 46 -- res = 0.59004E+03, tol = 0.51482E+04, time = 3.24 | CG iter. 47 -- res = 0.57694E+03, tol = 0.51482E+04, time = 3.20 | CG iter. 48 -- res = 0.59391E+03, tol = 0.51482E+04, time = 3.24 | CG iter. 49 -- res = 0.59826E+03, tol = 0.51482E+04, time = 3.14 | CG iter. 50 -- res = 0.56660E+03, tol = 0.51482E+04, time = 3.11 | CG iter. 51 -- res = 0.52122E+03, tol = 0.51482E+04, time = 3.09 | CG iter. 52 -- res = 0.50485E+03, tol = 0.51482E+04, time = 3.13 | CG iter. 53 -- res = 0.52170E+03, tol = 0.51482E+04, time = 3.19 | CG iter. 54 -- res = 0.54521E+03, tol = 0.51482E+04, time = 3.14 | CG iter. 55 -- res = 0.53228E+03, tol = 0.51482E+04, time = 3.15 | CG iter. 56 -- res = 0.48757E+03, tol = 0.51482E+04, time = 3.15 | CG iter. 57 -- res = 0.45310E+03, tol = 0.51482E+04, time = 3.12 | CG iter. 58 -- res = 0.44845E+03, tol = 0.51482E+04, time = 3.17 | CG iter. 59 -- res = 0.46842E+03, tol = 0.51482E+04, time = 3.15 | CG iter. 60 -- res = 0.47255E+03, tol = 0.51482E+04, time = 3.21 | Final CG iter 61 -- res = 0.47255E+03, tol = 0.51482E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 2.755 ( -231.555 -2234.478 2517.048 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 10722886.046 | Old band monopole 10743568.383 | Change to band monopole -20682.337 | Change to component monopole 20682.248 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -3.686 2.752 | New value -1.170 | Old value -3.686 | Difference 2.516 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -3.841 ( 8.297 11.392 -11.175 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 11.532 3.066 | New value -2.176 | Old value 11.532 | Difference -13.708 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 4.11 | CG iter. 1 -- res = 0.33581E+06, tol = 0.47627E+18, time = 0.37 | CG iter. 2 -- res = 0.57845E+02, tol = 0.47627E+18, time = 0.37 | CG iter. 3 -- res = 0.12021E+01, tol = 0.47627E+18, time = 0.36 | CG iter. 4 -- res = 0.36925E-03, tol = 0.47627E+18, time = 0.37 | Final CG iter 5 -- res = 0.27565E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10722839.925 | (Sampled value in CG: 10658309.186 ) | Chain = 1 -- chisq = 0.61536847E+09 | Chain = 1 -- wall time = 4717.118 sec --------------------------------------------------------------------- | Chain = 1 -- Iteration = 75 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18363864783235 | --> Sampling calibration, mode = relcal | relcal = -7.4878149E-02 -5.8561925E-02 9.1854624E-02 4.1585445E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -4.0936775E-05 4.7635064E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.0715E-05 | 2: delta_r/delta_0: 9.0422E-07 | 3: delta_s/delta_0: 2.1106E-07 | 4: delta_r/delta_0: 1.8101E-08 | 5: delta_s/delta_0: 4.8352E-09 | 6: delta_r/delta_0: 1.4260E-09 | 7: delta_s/delta_0: 4.8820E-10 | 8: delta_r/delta_0: 1.6555E-10 | 9: delta_s/delta_0: 7.5134E-10 | 10: delta_r/delta_0: 1.3068E-10 | 11: delta_s/delta_0: 5.4166E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 9.789049856215200E-004 2.735000946338101E-005 | BP delta = 5.1867189E-03 1.4258188E-02 29859080.7137419 | BP delta = 4.7099451E-03 1.3781414E-02 29859080.7509858 | 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 = 1.02522486 | --> Sampling calibration, mode = relcal | relcal = -0.1065400 -9.5448114E-02 0.1448204 5.7167765E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.5705906E-03 1.5456290E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 4.0666E-04 | 2: delta_r/delta_0: 8.9266E-06 | 3: delta_s/delta_0: 3.3895E-06 | 4: delta_r/delta_0: 3.2127E-07 | 5: delta_s/delta_0: 1.2666E-07 | 6: delta_r/delta_0: 7.1917E-09 | 7: delta_s/delta_0: 2.9775E-09 | 8: delta_r/delta_0: 9.6284E-10 | 9: delta_s/delta_0: 6.4303E-09 | 10: delta_r/delta_0: 3.0292E-10 | 11: delta_s/delta_0: 8.5865E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -7.125268522588326E-003 2.812916604782253E-005 | BP delta = -0.1831218 -0.1758612 34762544.4211297 | BP delta = -0.1795558 -0.1722952 34762544.6046183 | 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 = 0.81134405 | --> Sampling calibration, mode = relcal | relcal = 0.2952055 0.2245077 -0.2834232 -0.2362900 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 6.1154523E-04 5.0719613E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 5.2150E-04 | 2: delta_r/delta_0: 1.1763E-05 | 3: delta_s/delta_0: 1.9132E-03 | 4: delta_r/delta_0: 1.0849E-04 | 5: delta_s/delta_0: 1.2887E-03 | 6: delta_r/delta_0: 2.0306E-04 | 7: delta_s/delta_0: 5.9950E-08 | 8: delta_r/delta_0: 3.4296E-08 | 9: delta_s/delta_0: 4.4637E-07 | 10: delta_r/delta_0: 4.0978E-09 | 11: delta_s/delta_0: 8.2669E-10 | 12: delta_r/delta_0: 5.4228E-10 | 13: delta_s/delta_0: 4.0238E-10 | 14: delta_r/delta_0: 8.7168E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.306517797163693E-002 4.026053305384562E-005 | BP delta = -4.7434531E-02 -7.9042852E-02 43103722.9787645 | BP delta = -6.6133484E-02 -9.7741805E-02 43103722.7702367 | 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 = 0.95805373 | --> Sampling calibration, mode = relcal | relcal = 0.1063583 0.1392912 -0.1100656 -0.1355839 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0495775E-02 1.3313578E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 3.1007E-03 | 2: delta_r/delta_0: 7.3202E-05 | 3: delta_s/delta_0: 6.2845E-06 | 4: delta_r/delta_0: 5.1519E-07 | 5: delta_s/delta_0: 3.8700E-05 | 6: delta_r/delta_0: 7.7345E-07 | 7: delta_s/delta_0: 6.8400E-08 | 8: delta_r/delta_0: 2.8995E-08 | 9: delta_s/delta_0: 5.0838E-08 | 10: delta_r/delta_0: 9.3244E-09 | 11: delta_s/delta_0: 1.9458E-09 | 12: delta_r/delta_0: 8.2216E-10 | 13: delta_s/delta_0: 3.4264E-10 | 14: delta_r/delta_0: 2.3711E-10 | 15: delta_s/delta_0: 3.0356E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.445508390153839E-002 3.701323932239475E-005 | BP delta = 0.2486565 0.2733232 43050230.1672582 | BP delta = 0.2700889 0.2947556 43050230.6434011 | BP chisq diff = 0.5, accept = T | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 060-WMAP_V1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.52091561 | --> Sampling calibration, mode = relcal | relcal = -5.1016632E-02 -3.7062848E-03 2.7241139E-02 2.7481779E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -5.0006894E-04 5.4471591E-04 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.6511E-05 | 2: delta_r/delta_0: 4.6200E-06 | 3: delta_s/delta_0: 3.1443E-05 | 4: delta_r/delta_0: 2.0618E-06 | 5: delta_s/delta_0: 4.6524E-08 | 6: delta_r/delta_0: 2.3210E-08 | 7: delta_s/delta_0: 2.3097E-08 | 8: delta_r/delta_0: 7.1675E-09 | 9: delta_s/delta_0: 3.0679E-09 | 10: delta_r/delta_0: 9.5313E-10 | 11: delta_s/delta_0: 5.9486E-10 | 12: delta_r/delta_0: 2.2975E-10 | 13: delta_s/delta_0: 4.4744E-08 | 14: delta_r/delta_0: 1.5662E-08 | 15: delta_s/delta_0: 3.0611E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.074834536186307E-002 5.490150542262704E-005 | BP delta = -0.1205506 -7.7121868E-03 61509667.1561115 | BP delta = -0.1234007 -1.0562254E-02 61509667.1565315 | 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 = 0.42104146 | --> Sampling calibration, mode = relcal | relcal = 4.5522831E-02 3.9621707E-02 -2.8291469E-02 -5.6853071E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.7674382E-03 4.1239788E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.6819E-05 | 2: delta_r/delta_0: 3.4020E-06 | 3: delta_s/delta_0: 1.9483E-06 | 4: delta_r/delta_0: 2.4626E-07 | 5: delta_s/delta_0: 6.2000E-08 | 6: delta_r/delta_0: 3.3123E-08 | 7: delta_s/delta_0: 2.3284E-07 | 8: delta_r/delta_0: 4.1905E-09 | 9: delta_s/delta_0: 2.9095E-09 | 10: delta_r/delta_0: 1.4078E-09 | 11: delta_s/delta_0: 1.3733E-08 | 12: delta_r/delta_0: 4.0975E-09 | 13: delta_s/delta_0: 1.5651E-09 | 14: delta_r/delta_0: 8.9231E-10 | 15: delta_s/delta_0: 5.6313E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.296029814307964E-002 5.002092662961891E-005 | BP delta = -0.1355620 -0.1878929 61336419.6432600 | BP delta = -0.1455743 -0.1979052 61336419.7064426 | 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 = 0.28123932 | --> Sampling calibration, mode = relcal | relcal = 2.4137584E-02 4.5081470E-02 -2.3318700E-02 -4.5900356E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0627896E-02 2.3550324E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.1237E-04 | 2: delta_r/delta_0: 8.9833E-06 | 3: delta_s/delta_0: 1.5188E-06 | 4: delta_r/delta_0: 2.2064E-07 | 5: delta_s/delta_0: 7.0443E-08 | 6: delta_r/delta_0: 1.7611E-08 | 7: delta_s/delta_0: 7.4648E-09 | 8: delta_r/delta_0: 4.6432E-09 | 9: delta_s/delta_0: 1.1191E-08 | 10: delta_r/delta_0: 3.5428E-09 | 11: delta_s/delta_0: 1.2511E-08 | 12: delta_r/delta_0: 4.2297E-09 | 13: delta_s/delta_0: 2.7470E-10 | 14: delta_r/delta_0: 1.8846E-10 | 15: delta_s/delta_0: 9.2276E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -8.660129976183269E-003 7.854307512218633E-005 | BP delta = 6.0886353E-02 -0.1096587 94978090.0445684 | BP delta = 7.3990360E-02 -9.6554711E-02 94978090.1244761 | 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 = 0.29353306 | --> Sampling calibration, mode = relcal | relcal = 5.6535669E-04 1.0275261E-02 -3.8065293E-03 -7.0340890E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.6874542E-02 1.5580643E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.3386E-04 | 2: delta_r/delta_0: 1.1474E-05 | 3: delta_s/delta_0: 1.8504E-06 | 4: delta_r/delta_0: 3.5022E-07 | 5: delta_s/delta_0: 1.5821E-07 | 6: delta_r/delta_0: 2.4707E-08 | 7: delta_s/delta_0: 9.1690E-09 | 8: delta_r/delta_0: 5.6524E-09 | 9: delta_s/delta_0: 3.3511E-09 | 10: delta_r/delta_0: 2.3406E-09 | 11: delta_s/delta_0: 1.9159E-07 | 12: delta_r/delta_0: 2.2024E-09 | 13: delta_s/delta_0: 1.5356E-10 | 14: delta_r/delta_0: 9.2265E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -8.544824261442952E-003 8.317965381265651E-005 | BP delta = -0.6923832 -0.6212876 93497560.1372453 | BP delta = -0.6968462 -0.6257506 93497560.1259722 | 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 = 0.26472844 | --> Sampling calibration, mode = relcal | relcal = -5.6266170E-03 1.5003243E-02 -2.3526081E-03 -7.0240181E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -5.7411515E-05 4.1857515E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4384E-04 | 2: delta_r/delta_0: 1.2369E-05 | 3: delta_s/delta_0: 2.0982E-06 | 4: delta_r/delta_0: 2.6901E-07 | 5: delta_s/delta_0: 1.0355E-07 | 6: delta_r/delta_0: 2.1325E-08 | 7: delta_s/delta_0: 8.0173E-09 | 8: delta_r/delta_0: 4.9781E-09 | 9: delta_s/delta_0: 3.9336E-09 | 10: delta_r/delta_0: 2.3660E-09 | 11: delta_s/delta_0: 1.1163E-05 | 12: delta_r/delta_0: 5.5929E-09 | 13: delta_s/delta_0: 6.2037E-09 | 14: delta_r/delta_0: 4.3041E-09 | 15: delta_s/delta_0: 6.2984E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -7.878837841845005E-003 9.165477013405873E-005 | BP delta = 0.1954442 0.3070031 94712414.6826810 | BP delta = 0.1777598 0.2893186 94712414.6565294 | 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 = 0.25625741 | --> Sampling calibration, mode = relcal | relcal = -3.1708296E-02 -2.5836634E-02 3.6978960E-02 2.0565972E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.9597342E-02 2.1542694E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4782E-04 | 2: delta_r/delta_0: 1.2463E-05 | 3: delta_s/delta_0: 1.9970E-06 | 4: delta_r/delta_0: 3.1069E-07 | 5: delta_s/delta_0: 1.1244E-07 | 6: delta_r/delta_0: 2.6658E-08 | 7: delta_s/delta_0: 1.2569E-08 | 8: delta_r/delta_0: 8.1276E-09 | 9: delta_s/delta_0: 2.1819E-08 | 10: delta_r/delta_0: 5.9001E-09 | 11: delta_s/delta_0: 1.0298E-08 | 12: delta_r/delta_0: 2.4369E-09 | 13: delta_s/delta_0: 2.4356E-09 | 14: delta_r/delta_0: 1.3320E-09 | 15: delta_s/delta_0: 1.2048E-10 | 16: delta_r/delta_0: 1.0255E-10 | 17: delta_s/delta_0: 8.3558E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.006779237653737E-002 8.684997564826358E-005 | BP delta = -0.6399711 -0.6939200 93072034.5488656 | BP delta = -0.6291733 -0.6831222 93072034.5055472 | 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 = -3.195157 | New value = -3.159698 | poltype: 2 pol: 1 CPU time specind = 5.7621002E-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 = -3.108990 | New value = -3.072020 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.177593 | New value = -3.144930 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.127989 | New value = -3.139662 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.163192 | New value = -3.126522 | poltype: 2 pol: 2 CPU time specind = 3.5409927E-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 = 4.11 | CG iter. 1 -- res = 0.13540E+08, tol = 0.64677E+01, time = 1.52 | CG iter. 2 -- res = 0.43479E+05, tol = 0.64677E+01, time = 1.51 | CG iter. 3 -- res = 0.34036E+05, tol = 0.64677E+01, time = 1.52 | CG iter. 4 -- res = 0.12123E+05, tol = 0.64677E+01, time = 1.54 | CG iter. 5 -- res = 0.85570E+04, tol = 0.64677E+01, time = 1.56 | CG iter. 6 -- res = 0.63929E+04, tol = 0.64677E+01, time = 1.54 | CG iter. 7 -- res = 0.55184E+04, tol = 0.64677E+01, time = 1.52 | CG iter. 8 -- res = 0.39060E+04, tol = 0.64677E+01, time = 1.51 | CG iter. 9 -- res = 0.43025E+04, tol = 0.64677E+01, time = 1.55 | CG iter. 10 -- res = 0.39465E+04, tol = 0.64677E+01, time = 1.58 | CG iter. 11 -- res = 0.36453E+04, tol = 0.64677E+01, time = 1.49 | CG iter. 12 -- res = 0.23298E+04, tol = 0.64677E+01, time = 1.60 | CG iter. 13 -- res = 0.20470E+04, tol = 0.64677E+01, time = 1.58 | CG iter. 14 -- res = 0.17206E+04, tol = 0.64677E+01, time = 1.61 | CG iter. 15 -- res = 0.11786E+04, tol = 0.64677E+01, time = 1.58 | CG iter. 16 -- res = 0.87370E+03, tol = 0.64677E+01, time = 1.53 | CG iter. 17 -- res = 0.71468E+03, tol = 0.64677E+01, time = 1.61 | CG iter. 18 -- res = 0.59700E+03, tol = 0.64677E+01, time = 1.58 | CG iter. 19 -- res = 0.50837E+03, tol = 0.64677E+01, time = 1.56 | CG iter. 20 -- res = 0.34604E+03, tol = 0.64677E+01, time = 1.58 | CG iter. 21 -- res = 0.25951E+03, tol = 0.64677E+01, time = 1.53 | CG iter. 22 -- res = 0.23238E+03, tol = 0.64677E+01, time = 1.59 | CG iter. 23 -- res = 0.17722E+03, tol = 0.64677E+01, time = 1.54 | CG iter. 24 -- res = 0.14437E+03, tol = 0.64677E+01, time = 1.56 | CG iter. 25 -- res = 0.11398E+03, tol = 0.64677E+01, time = 1.57 | CG iter. 26 -- res = 0.10310E+03, tol = 0.64677E+01, time = 1.56 | CG iter. 27 -- res = 0.86087E+02, tol = 0.64677E+01, time = 1.56 | CG iter. 28 -- res = 0.72073E+02, tol = 0.64677E+01, time = 1.58 | CG iter. 29 -- res = 0.61600E+02, tol = 0.64677E+01, time = 1.49 | CG iter. 30 -- res = 0.53133E+02, tol = 0.64677E+01, time = 1.55 | CG iter. 31 -- res = 0.43466E+02, tol = 0.64677E+01, time = 1.56 | CG iter. 32 -- res = 0.39897E+02, tol = 0.64677E+01, time = 1.56 | CG iter. 33 -- res = 0.34408E+02, tol = 0.64677E+01, time = 1.53 | CG iter. 34 -- res = 0.27722E+02, tol = 0.64677E+01, time = 1.55 | CG iter. 35 -- res = 0.21573E+02, tol = 0.64677E+01, time = 1.55 | CG iter. 36 -- res = 0.18335E+02, tol = 0.64677E+01, time = 1.58 | CG iter. 37 -- res = 0.14750E+02, tol = 0.64677E+01, time = 1.53 | CG iter. 38 -- res = 0.10918E+02, tol = 0.64677E+01, time = 1.60 | CG iter. 39 -- res = 0.12432E+02, tol = 0.64677E+01, time = 1.56 | CG iter. 40 -- res = 0.12270E+02, tol = 0.64677E+01, time = 1.56 | CG iter. 41 -- res = 0.68647E+01, tol = 0.64677E+01, time = 1.60 | CG iter. 42 -- res = 0.50824E+01, tol = 0.64677E+01, time = 1.52 | CG iter. 43 -- res = 0.42710E+01, tol = 0.64677E+01, time = 1.56 | CG iter. 44 -- res = 0.36814E+01, tol = 0.64677E+01, time = 1.55 | CG iter. 45 -- res = 0.43237E+01, tol = 0.64677E+01, time = 1.56 | CG iter. 46 -- res = 0.28208E+01, tol = 0.64677E+01, time = 1.55 | CG iter. 47 -- res = 0.18262E+01, tol = 0.64677E+01, time = 1.56 | CG iter. 48 -- res = 0.14352E+01, tol = 0.64677E+01, time = 1.52 | CG iter. 49 -- res = 0.10235E+01, tol = 0.64677E+01, time = 1.52 | CG iter. 50 -- res = 0.81202E+00, tol = 0.64677E+01, time = 1.51 | Final CG iter 51 -- res = 0.81202E+00, tol = 0.64677E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8809030.513 | Old band monopole 10722886.046 | Change to band monopole -1913855.534 | Change to component monopole 1913847.302 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 4.10 | CG iter. 1 -- res = 0.10149E+06, tol = 0.47627E+18, time = 0.34 | CG iter. 2 -- res = 0.18645E+02, tol = 0.47627E+18, time = 0.33 | CG iter. 3 -- res = 0.22164E+00, tol = 0.47627E+18, time = 0.35 | CG iter. 4 -- res = 0.22090E-03, tol = 0.47627E+18, time = 0.41 | Final CG iter 5 -- res = 0.17705E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8808992.623 | (Sampled value in CG: 8822276.598 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.507535 | New value = 1.492304 | poltype: 2 pol: 1 CPU time specind = 5.7380199E-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 = 1.480167 | New value = 1.532972 | poltype: 2 pol: 2 CPU time specind = 2.2170544E-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 = 4.11 | CG iter. 1 -- res = 0.24105E+08, tol = 0.47556E+04, time = 1.77 | CG iter. 2 -- res = 0.54235E+07, tol = 0.47556E+04, time = 1.78 | CG iter. 3 -- res = 0.87020E+06, tol = 0.47556E+04, time = 1.80 | CG iter. 4 -- res = 0.36184E+06, tol = 0.47556E+04, time = 1.80 | CG iter. 5 -- res = 0.15497E+06, tol = 0.47556E+04, time = 1.76 | CG iter. 6 -- res = 0.80811E+05, tol = 0.47556E+04, time = 1.82 | CG iter. 7 -- res = 0.44304E+05, tol = 0.47556E+04, time = 1.70 | CG iter. 8 -- res = 0.21370E+05, tol = 0.47556E+04, time = 1.74 | CG iter. 9 -- res = 0.95301E+04, tol = 0.47556E+04, time = 1.74 | CG iter. 10 -- res = 0.38823E+04, tol = 0.47556E+04, time = 1.76 | CG iter. 11 -- res = 0.17506E+04, tol = 0.47556E+04, time = 1.79 | CG iter. 12 -- res = 0.88899E+03, tol = 0.47556E+04, time = 1.72 | CG iter. 13 -- res = 0.49444E+03, tol = 0.47556E+04, time = 1.77 | CG iter. 14 -- res = 0.28386E+03, tol = 0.47556E+04, time = 1.81 | CG iter. 15 -- res = 0.14859E+03, tol = 0.47556E+04, time = 1.75 | CG iter. 16 -- res = 0.69855E+02, tol = 0.47556E+04, time = 1.78 | CG iter. 17 -- res = 0.32099E+02, tol = 0.47556E+04, time = 1.83 | CG iter. 18 -- res = 0.15744E+02, tol = 0.47556E+04, time = 1.73 | CG iter. 19 -- res = 0.84499E+01, tol = 0.47556E+04, time = 1.82 | CG iter. 20 -- res = 0.47805E+01, tol = 0.47556E+04, time = 1.77 | CG iter. 21 -- res = 0.26731E+01, tol = 0.47556E+04, time = 1.75 | CG iter. 22 -- res = 0.13862E+01, tol = 0.47556E+04, time = 1.82 | CG iter. 23 -- res = 0.69730E+00, tol = 0.47556E+04, time = 1.78 | CG iter. 24 -- res = 0.35994E+00, tol = 0.47556E+04, time = 1.78 | CG iter. 25 -- res = 0.19412E+00, tol = 0.47556E+04, time = 1.85 | CG iter. 26 -- res = 0.10779E+00, tol = 0.47556E+04, time = 1.75 | CG iter. 27 -- res = 0.60185E-01, tol = 0.47556E+04, time = 1.77 | CG iter. 28 -- res = 0.32097E-01, tol = 0.47556E+04, time = 1.80 | CG iter. 29 -- res = 0.16898E-01, tol = 0.47556E+04, time = 1.79 | CG iter. 30 -- res = 0.87020E-02, tol = 0.47556E+04, time = 1.76 | CG iter. 31 -- res = 0.46261E-02, tol = 0.47556E+04, time = 1.78 | CG iter. 32 -- res = 0.26535E-02, tol = 0.47556E+04, time = 1.77 | CG iter. 33 -- res = 0.15206E-02, tol = 0.47556E+04, time = 1.74 | CG iter. 34 -- res = 0.84417E-03, tol = 0.47556E+04, time = 1.81 | CG iter. 35 -- res = 0.43509E-03, tol = 0.47556E+04, time = 1.80 | Final CG iter 36 -- res = 0.43509E-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) -1.161 2.746 | New value -1.207 | Old value -1.161 | Difference -0.046 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 4.10 | CG iter. 1 -- res = 0.45891E+03, tol = 0.47627E+18, time = 0.36 | CG iter. 2 -- res = 0.92561E+01, tol = 0.47627E+18, time = 0.37 | CG iter. 3 -- res = 0.91682E-01, tol = 0.47627E+18, time = 0.35 | Final CG iter 4 -- res = 0.17202E-04, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8808992.623 | (Sampled value in CG: 8821246.292 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.551748 | New value = -3.670953 | poltype: 1 pol: 1 CPU time specind = 2.8150082E-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 = 4.08 | CG iter. 1 -- res = 0.21362E+07, tol = 0.15365E+01, time = 0.66 | CG iter. 2 -- res = 0.39261E+05, tol = 0.15365E+01, time = 0.65 | CG iter. 3 -- res = 0.23663E+05, tol = 0.15365E+01, time = 0.71 | CG iter. 4 -- res = 0.78618E+04, tol = 0.15365E+01, time = 0.66 | CG iter. 5 -- res = 0.35100E+04, tol = 0.15365E+01, time = 0.69 | CG iter. 6 -- res = 0.13393E+04, tol = 0.15365E+01, time = 0.67 | CG iter. 7 -- res = 0.40304E+03, tol = 0.15365E+01, time = 0.68 | CG iter. 8 -- res = 0.11224E+03, tol = 0.15365E+01, time = 0.65 | CG iter. 9 -- res = 0.41635E+02, tol = 0.15365E+01, time = 0.66 | CG iter. 10 -- res = 0.17499E+02, tol = 0.15365E+01, time = 0.68 | CG iter. 11 -- res = 0.73677E+01, tol = 0.15365E+01, time = 0.66 | CG iter. 12 -- res = 0.54345E+01, tol = 0.15365E+01, time = 0.70 | CG iter. 13 -- res = 0.15010E+01, tol = 0.15365E+01, time = 0.68 | CG iter. 14 -- res = 0.52360E+00, tol = 0.15365E+01, time = 0.65 | CG iter. 15 -- res = 0.19053E+00, tol = 0.15365E+01, time = 0.68 | CG iter. 16 -- res = 0.65383E-01, tol = 0.15365E+01, time = 0.67 | CG iter. 17 -- res = 0.22232E-01, tol = 0.15365E+01, time = 0.67 | CG iter. 18 -- res = 0.93248E-02, tol = 0.15365E+01, time = 0.66 | CG iter. 19 -- res = 0.39306E-02, tol = 0.15365E+01, time = 0.66 | CG iter. 20 -- res = 0.14247E-02, tol = 0.15365E+01, time = 0.67 | CG iter. 21 -- res = 0.40454E-03, tol = 0.15365E+01, time = 0.68 | CG iter. 22 -- res = 0.15423E-03, tol = 0.15365E+01, time = 0.67 | CG iter. 23 -- res = 0.61766E-04, tol = 0.15365E+01, time = 0.66 | CG iter. 24 -- res = 0.20309E-04, tol = 0.15365E+01, time = 0.69 | CG iter. 25 -- res = 0.53025E-05, tol = 0.15365E+01, time = 0.64 | CG iter. 26 -- res = 0.19203E-05, tol = 0.15365E+01, time = 0.66 | CG iter. 27 -- res = 0.73797E-06, tol = 0.15365E+01, time = 0.67 | CG iter. 28 -- res = 0.24773E-06, tol = 0.15365E+01, time = 0.66 | CG iter. 29 -- res = 0.74146E-07, tol = 0.15365E+01, time = 0.63 | CG iter. 30 -- res = 0.21441E-07, tol = 0.15365E+01, time = 0.64 | CG iter. 31 -- res = 0.76640E-08, tol = 0.15365E+01, time = 0.64 | CG iter. 32 -- res = 0.28046E-08, tol = 0.15365E+01, time = 0.61 | CG iter. 33 -- res = 0.89737E-09, tol = 0.15365E+01, time = 0.64 | CG iter. 34 -- res = 0.51102E-09, tol = 0.15365E+01, time = 0.65 | CG iter. 35 -- res = 0.22998E-09, tol = 0.15365E+01, time = 0.68 | CG iter. 36 -- res = 0.61434E-10, tol = 0.15365E+01, time = 0.64 | CG iter. 37 -- res = 0.19862E-10, tol = 0.15365E+01, time = 0.65 | CG iter. 38 -- res = 0.67789E-11, tol = 0.15365E+01, time = 0.67 | CG iter. 39 -- res = 0.52865E-11, tol = 0.15365E+01, time = 0.61 | CG iter. 40 -- res = 0.13572E-11, tol = 0.15365E+01, time = 0.64 | CG iter. 41 -- res = 0.38819E-12, tol = 0.15365E+01, time = 0.68 | CG iter. 42 -- res = 0.13074E-12, tol = 0.15365E+01, time = 0.67 | CG iter. 43 -- res = 0.40232E-13, tol = 0.15365E+01, time = 0.64 | CG iter. 44 -- res = 0.10664E-13, tol = 0.15365E+01, time = 0.64 | CG iter. 45 -- res = 0.33127E-14, tol = 0.15365E+01, time = 0.68 | CG iter. 46 -- res = 0.11800E-14, tol = 0.15365E+01, time = 0.68 | CG iter. 47 -- res = 0.41631E-15, tol = 0.15365E+01, time = 0.68 | CG iter. 48 -- res = 0.13730E-15, tol = 0.15365E+01, time = 0.68 | CG iter. 49 -- res = 0.44036E-16, tol = 0.15365E+01, time = 0.67 | CG iter. 50 -- res = 0.13424E-16, tol = 0.15365E+01, time = 0.66 | Final CG iter 51 -- res = 0.13424E-16, tol = 0.15365E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -0.085 2.658 | New value 1.699 | Old value -0.085 | Difference 1.784 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 4.09 | CG iter. 1 -- res = 0.19864E+04, tol = 0.47627E+18, time = 0.37 | CG iter. 2 -- res = 0.14448E+02, tol = 0.47627E+18, time = 0.42 | CG iter. 3 -- res = 0.11943E+00, tol = 0.47627E+18, time = 0.34 | Final CG iter 4 -- res = 0.31723E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8808992.623 | (Sampled value in CG: 8819540.172 ) | CPU time specind = 276.9849 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 4.10 | CG iter. 1 -- res = 0.68506E+08, tol = 0.51515E+04, time = 3.16 | CG iter. 2 -- res = 0.33339E+08, tol = 0.51515E+04, time = 3.22 | CG iter. 3 -- res = 0.57266E+07, tol = 0.51515E+04, time = 3.10 | CG iter. 4 -- res = 0.29025E+07, tol = 0.51515E+04, time = 3.13 | CG iter. 5 -- res = 0.12833E+07, tol = 0.51515E+04, time = 3.13 | CG iter. 6 -- res = 0.70101E+06, tol = 0.51515E+04, time = 3.09 | CG iter. 7 -- res = 0.38625E+06, tol = 0.51515E+04, time = 3.13 | CG iter. 8 -- res = 0.19472E+06, tol = 0.51515E+04, time = 3.12 | CG iter. 9 -- res = 0.96902E+05, tol = 0.51515E+04, time = 3.18 | CG iter. 10 -- res = 0.43430E+05, tol = 0.51515E+04, time = 3.25 | CG iter. 11 -- res = 0.22356E+05, tol = 0.51515E+04, time = 3.11 | CG iter. 12 -- res = 0.12892E+05, tol = 0.51515E+04, time = 3.19 | CG iter. 13 -- res = 0.81761E+04, tol = 0.51515E+04, time = 3.14 | CG iter. 14 -- res = 0.58004E+04, tol = 0.51515E+04, time = 3.03 | CG iter. 15 -- res = 0.39836E+04, tol = 0.51515E+04, time = 3.18 | CG iter. 16 -- res = 0.29764E+04, tol = 0.51515E+04, time = 3.14 | CG iter. 17 -- res = 0.24547E+04, tol = 0.51515E+04, time = 3.15 | CG iter. 18 -- res = 0.23498E+04, tol = 0.51515E+04, time = 3.13 | CG iter. 19 -- res = 0.25464E+04, tol = 0.51515E+04, time = 3.11 | CG iter. 20 -- res = 0.28407E+04, tol = 0.51515E+04, time = 3.14 | CG iter. 21 -- res = 0.29583E+04, tol = 0.51515E+04, time = 3.19 | CG iter. 22 -- res = 0.26399E+04, tol = 0.51515E+04, time = 3.11 | CG iter. 23 -- res = 0.21660E+04, tol = 0.51515E+04, time = 3.16 | CG iter. 24 -- res = 0.17658E+04, tol = 0.51515E+04, time = 3.18 | CG iter. 25 -- res = 0.15162E+04, tol = 0.51515E+04, time = 3.16 | CG iter. 26 -- res = 0.13126E+04, tol = 0.51515E+04, time = 3.11 | CG iter. 27 -- res = 0.10883E+04, tol = 0.51515E+04, time = 3.14 | CG iter. 28 -- res = 0.88538E+03, tol = 0.51515E+04, time = 3.14 | CG iter. 29 -- res = 0.76906E+03, tol = 0.51515E+04, time = 3.20 | CG iter. 30 -- res = 0.76287E+03, tol = 0.51515E+04, time = 3.19 | CG iter. 31 -- res = 0.82444E+03, tol = 0.51515E+04, time = 3.22 | CG iter. 32 -- res = 0.87314E+03, tol = 0.51515E+04, time = 3.16 | CG iter. 33 -- res = 0.84210E+03, tol = 0.51515E+04, time = 3.16 | CG iter. 34 -- res = 0.74945E+03, tol = 0.51515E+04, time = 3.16 | CG iter. 35 -- res = 0.68324E+03, tol = 0.51515E+04, time = 3.16 | CG iter. 36 -- res = 0.67703E+03, tol = 0.51515E+04, time = 3.15 | CG iter. 37 -- res = 0.70294E+03, tol = 0.51515E+04, time = 3.23 | CG iter. 38 -- res = 0.68728E+03, tol = 0.51515E+04, time = 3.19 | CG iter. 39 -- res = 0.62227E+03, tol = 0.51515E+04, time = 3.19 | CG iter. 40 -- res = 0.56945E+03, tol = 0.51515E+04, time = 3.11 | CG iter. 41 -- res = 0.57906E+03, tol = 0.51515E+04, time = 3.14 | CG iter. 42 -- res = 0.64022E+03, tol = 0.51515E+04, time = 3.20 | CG iter. 43 -- res = 0.70455E+03, tol = 0.51515E+04, time = 3.14 | CG iter. 44 -- res = 0.70058E+03, tol = 0.51515E+04, time = 3.16 | CG iter. 45 -- res = 0.64573E+03, tol = 0.51515E+04, time = 3.17 | CG iter. 46 -- res = 0.61171E+03, tol = 0.51515E+04, time = 3.18 | CG iter. 47 -- res = 0.62225E+03, tol = 0.51515E+04, time = 3.25 | CG iter. 48 -- res = 0.65272E+03, tol = 0.51515E+04, time = 3.13 | CG iter. 49 -- res = 0.63945E+03, tol = 0.51515E+04, time = 3.17 | CG iter. 50 -- res = 0.58349E+03, tol = 0.51515E+04, time = 3.14 | CG iter. 51 -- res = 0.53411E+03, tol = 0.51515E+04, time = 3.17 | CG iter. 52 -- res = 0.52918E+03, tol = 0.51515E+04, time = 3.12 | CG iter. 53 -- res = 0.56194E+03, tol = 0.51515E+04, time = 3.04 | CG iter. 54 -- res = 0.57795E+03, tol = 0.51515E+04, time = 3.11 | CG iter. 55 -- res = 0.54087E+03, tol = 0.51515E+04, time = 3.20 | CG iter. 56 -- res = 0.48560E+03, tol = 0.51515E+04, time = 3.15 | CG iter. 57 -- res = 0.46078E+03, tol = 0.51515E+04, time = 3.18 | CG iter. 58 -- res = 0.47693E+03, tol = 0.51515E+04, time = 3.17 | CG iter. 59 -- res = 0.49488E+03, tol = 0.51515E+04, time = 3.12 | CG iter. 60 -- res = 0.47516E+03, tol = 0.51515E+04, time = 3.06 | Final CG iter 61 -- res = 0.47516E+03, tol = 0.51515E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 2.938 ( -231.844 -2233.884 2516.497 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9924442.302 | Old band monopole 8809030.513 | Change to band monopole 1115411.789 | Change to component monopole -1115406.991 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -1.197 2.735 | New value -1.823 | Old value -1.197 | Difference -0.625 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -3.886 ( 8.296 10.695 -10.477 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 12.551 3.027 | New value -0.099 | Old value 12.551 | Difference -12.650 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 4.10 | CG iter. 1 -- res = 0.42236E+05, tol = 0.47627E+18, time = 0.39 | CG iter. 2 -- res = 0.53509E+02, tol = 0.47627E+18, time = 0.39 | CG iter. 3 -- res = 0.11898E+01, tol = 0.47627E+18, time = 0.36 | CG iter. 4 -- res = 0.66329E-03, tol = 0.47627E+18, time = 0.38 | Final CG iter 5 -- res = 0.12835E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9924399.615 | (Sampled value in CG: 9861156.904 ) | Chain = 1 -- chisq = 0.61628278E+09 | Chain = 1 -- wall time = 4109.258 sec --------------------------------------------------------------------- | Chain = 1 -- Iteration = 76 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.17901468449005 | --> Sampling calibration, mode = relcal | relcal = -7.3685646E-02 -5.7519421E-02 9.0381928E-02 4.0823143E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -2.1378192E-04 2.9055092E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.5812E-04 | 2: delta_r/delta_0: 5.0570E-06 | 3: delta_s/delta_0: 1.6327E-07 | 4: delta_r/delta_0: 2.8048E-08 | 5: delta_s/delta_0: 9.3305E-09 | 6: delta_r/delta_0: 3.1812E-09 | 7: delta_s/delta_0: 4.9080E-10 | 8: delta_r/delta_0: 1.3045E-10 | 9: delta_s/delta_0: 4.4036E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.874285469865885E-006 2.745877487591712E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 2.5811E-04 | 2: delta_r/delta_0: 5.0576E-06 | 3: delta_s/delta_0: 1.6327E-07 | 4: delta_r/delta_0: 2.8046E-08 | 5: delta_s/delta_0: 9.3293E-09 | 6: delta_r/delta_0: 3.1807E-09 | 7: delta_s/delta_0: 4.9058E-10 | 8: delta_r/delta_0: 1.3042E-10 | 9: delta_s/delta_0: 4.4025E-11 | Reached bicg-stab tolerance | BP delta = 4.7099451E-03 1.3781414E-02 3874800.71458727 | BP delta = 4.7099451E-03 1.4560748E-02 3871636.03843629 | BP chisq diff = -3164.7, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02526509 | --> Sampling calibration, mode = relcal | relcal = -0.1065422 -9.5535569E-02 0.1448376 5.7240173E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.4050185E-03 1.6224463E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 3.2782E-04 | 2: delta_r/delta_0: 7.1780E-06 | 3: delta_s/delta_0: 2.4277E-06 | 4: delta_r/delta_0: 2.2955E-07 | 5: delta_s/delta_0: 7.1168E-08 | 6: delta_r/delta_0: 5.0916E-09 | 7: delta_s/delta_0: 3.9658E-09 | 8: delta_r/delta_0: 2.1128E-09 | 9: delta_s/delta_0: 4.5842E-09 | 10: delta_r/delta_0: 1.2080E-09 | 11: delta_s/delta_0: 1.9091E-10 | 12: delta_r/delta_0: 1.4221E-10 | 13: delta_s/delta_0: 4.4060E-10 | 14: delta_r/delta_0: 3.2152E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -7.380518306241477E-003 2.812820215711120E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 3.2781E-04 | 2: delta_r/delta_0: 7.1779E-06 | 3: delta_s/delta_0: 2.4277E-06 | 4: delta_r/delta_0: 2.2955E-07 | 5: delta_s/delta_0: 7.1166E-08 | 6: delta_r/delta_0: 5.0916E-09 | 7: delta_s/delta_0: 3.9662E-09 | 8: delta_r/delta_0: 2.1130E-09 | 9: delta_s/delta_0: 4.5830E-09 | 10: delta_r/delta_0: 1.2083E-09 | 11: delta_s/delta_0: 1.9093E-10 | 12: delta_r/delta_0: 1.4222E-10 | 13: delta_s/delta_0: 4.4049E-10 | 14: delta_r/delta_0: 3.2156E-11 | Reached bicg-stab tolerance | BP delta = -0.1795558 -0.1722952 2841894.79609387 | BP delta = -0.1795558 -0.1689922 2841897.81170413 | 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 = 0.81130020 | --> Sampling calibration, mode = relcal | relcal = 0.2951308 0.2245708 -0.2834638 -0.2362377 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -3.5547448E-04 4.7292775E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 8.5454E-04 | 2: delta_r/delta_0: 1.9446E-05 | 3: delta_s/delta_0: 3.6709E-05 | 4: delta_r/delta_0: 3.3812E-06 | 5: delta_s/delta_0: 5.2527E-07 | 6: delta_r/delta_0: 9.3777E-08 | 7: delta_s/delta_0: 6.1219E-08 | 8: delta_r/delta_0: 2.9681E-08 | 9: delta_s/delta_0: 1.6259E-07 | 10: delta_r/delta_0: 2.1986E-09 | 11: delta_s/delta_0: 8.1168E-10 | 12: delta_r/delta_0: 4.8981E-10 | 13: delta_s/delta_0: 3.1024E-10 | 14: delta_r/delta_0: 3.9640E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.959267572390399E-002 4.026338480661653E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 8.5487E-04 | 2: delta_r/delta_0: 1.9454E-05 | 3: delta_s/delta_0: 3.6694E-05 | 4: delta_r/delta_0: 3.3799E-06 | 5: delta_s/delta_0: 5.2546E-07 | 6: delta_r/delta_0: 9.3779E-08 | 7: delta_s/delta_0: 6.1214E-08 | 8: delta_r/delta_0: 2.9670E-08 | 9: delta_s/delta_0: 1.6237E-07 | 10: delta_r/delta_0: 2.1993E-09 | 11: delta_s/delta_0: 8.1201E-10 | 12: delta_r/delta_0: 4.8962E-10 | 13: delta_s/delta_0: 3.1134E-10 | 14: delta_r/delta_0: 3.9661E-11 | Reached bicg-stab tolerance | BP delta = -6.6133484E-02 -9.7741805E-02 2827318.77492865 | BP delta = -6.6133484E-02 -0.1052036 2827360.67677155 | 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 = 0.95797343 | --> Sampling calibration, mode = relcal | relcal = 0.1063946 0.1395948 -0.1103155 -0.1356739 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.7527346E-03 1.2333957E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 8.4324E-04 | 2: delta_r/delta_0: 1.9472E-05 | 3: delta_s/delta_0: 7.3348E-04 | 4: delta_r/delta_0: 3.2304E-05 | 5: delta_s/delta_0: 4.8100E-05 | 6: delta_r/delta_0: 7.2395E-06 | 7: delta_s/delta_0: 5.5274E-08 | 8: delta_r/delta_0: 3.8216E-08 | 9: delta_s/delta_0: 7.1150E-07 | 10: delta_r/delta_0: 3.0682E-09 | 11: delta_s/delta_0: 2.2886E-09 | 12: delta_r/delta_0: 3.6017E-10 | 13: delta_s/delta_0: 3.9892E-10 | 14: delta_r/delta_0: 2.4582E-10 | 15: delta_s/delta_0: 2.6646E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.043969787583157E-002 3.701873064371281E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 8.4301E-04 | 2: delta_r/delta_0: 1.9467E-05 | 3: delta_s/delta_0: 7.3277E-04 | 4: delta_r/delta_0: 3.2273E-05 | 5: delta_s/delta_0: 4.8010E-05 | 6: delta_r/delta_0: 7.2270E-06 | 7: delta_s/delta_0: 5.5288E-08 | 8: delta_r/delta_0: 3.8227E-08 | 9: delta_s/delta_0: 7.1140E-07 | 10: delta_r/delta_0: 3.0665E-09 | 11: delta_s/delta_0: 2.3026E-09 | 12: delta_r/delta_0: 3.5815E-10 | 13: delta_s/delta_0: 3.9844E-10 | 14: delta_r/delta_0: 2.4493E-10 | 15: delta_s/delta_0: 2.6612E-11 | Reached bicg-stab tolerance | BP delta = 0.2700889 0.2947556 3005134.52142441 | BP delta = 0.2700889 0.2858609 3005145.75379149 | 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 = 0.52089439 | --> Sampling calibration, mode = relcal | relcal = -5.1019710E-02 -3.6626740E-03 2.7192740E-02 2.7489644E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -2.9233922E-04 2.1057664E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.6854E-05 | 2: delta_r/delta_0: 4.6186E-06 | 3: delta_s/delta_0: 2.3888E-05 | 4: delta_r/delta_0: 1.6118E-06 | 5: delta_s/delta_0: 4.9422E-08 | 6: delta_r/delta_0: 2.3895E-08 | 7: delta_s/delta_0: 2.6801E-08 | 8: delta_r/delta_0: 7.6843E-09 | 9: delta_s/delta_0: 3.5519E-09 | 10: delta_r/delta_0: 1.0295E-09 | 11: delta_s/delta_0: 4.8074E-10 | 12: delta_r/delta_0: 3.4058E-10 | 13: delta_s/delta_0: 4.6094E-10 | 14: delta_r/delta_0: 2.1279E-10 | 15: delta_s/delta_0: 9.6186E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.088745736746814E-002 5.490386458131352E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 6.6854E-05 | 2: delta_r/delta_0: 4.6186E-06 | 3: delta_s/delta_0: 2.3894E-05 | 4: delta_r/delta_0: 1.6121E-06 | 5: delta_s/delta_0: 4.9421E-08 | 6: delta_r/delta_0: 2.3896E-08 | 7: delta_s/delta_0: 2.6794E-08 | 8: delta_r/delta_0: 7.6843E-09 | 9: delta_s/delta_0: 3.5523E-09 | 10: delta_r/delta_0: 1.0294E-09 | 11: delta_s/delta_0: 4.8069E-10 | 12: delta_r/delta_0: 3.4061E-10 | 13: delta_s/delta_0: 4.6004E-10 | 14: delta_r/delta_0: 2.1261E-10 | 15: delta_s/delta_0: 9.6240E-11 | Reached bicg-stab tolerance | BP delta = -0.1234007 -1.0562254E-02 2435397.85653185 | BP delta = -0.1234007 -2.0533727E-02 2435385.02523841 | BP chisq diff = -12.8, accept = T | | Finished processing 060-WMAP_V1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 060-WMAP_V2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.42103468 | --> Sampling calibration, mode = relcal | relcal = 4.5469500E-02 3.9682984E-02 -2.8284917E-02 -5.6867566E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.3713873E-03 5.1139398E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.8469E-05 | 2: delta_r/delta_0: 3.3359E-06 | 3: delta_s/delta_0: 1.9017E-06 | 4: delta_r/delta_0: 2.2959E-07 | 5: delta_s/delta_0: 5.8714E-08 | 6: delta_r/delta_0: 3.1043E-08 | 7: delta_s/delta_0: 5.5922E-08 | 8: delta_r/delta_0: 6.8368E-09 | 9: delta_s/delta_0: 2.2815E-09 | 10: delta_r/delta_0: 1.5532E-09 | 11: delta_s/delta_0: 1.5947E-09 | 12: delta_r/delta_0: 1.1325E-09 | 13: delta_s/delta_0: 1.0334E-10 | 14: delta_r/delta_0: 2.9631E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.289606871406176E-002 5.002246467804500E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 6.8469E-05 | 2: delta_r/delta_0: 3.3359E-06 | 3: delta_s/delta_0: 1.9017E-06 | 4: delta_r/delta_0: 2.2959E-07 | 5: delta_s/delta_0: 5.8714E-08 | 6: delta_r/delta_0: 3.1043E-08 | 7: delta_s/delta_0: 5.5923E-08 | 8: delta_r/delta_0: 6.8368E-09 | 9: delta_s/delta_0: 2.2815E-09 | 10: delta_r/delta_0: 1.5533E-09 | 11: delta_s/delta_0: 1.5951E-09 | 12: delta_r/delta_0: 1.1326E-09 | 13: delta_s/delta_0: 1.0328E-10 | 14: delta_r/delta_0: 2.9628E-11 | Reached bicg-stab tolerance | BP delta = -0.1455743 -0.1979052 2322083.72282769 | BP delta = -0.1455743 -0.1988176 2322070.78234176 | BP chisq diff = -12.9, accept = T | | Finished processing 060-WMAP_V2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.28129362 | --> Sampling calibration, mode = relcal | relcal = 2.4094673E-02 4.5049287E-02 -2.3306668E-02 -4.5837294E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.2147799E-02 2.9741982E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.0870E-04 | 2: delta_r/delta_0: 8.4771E-06 | 3: delta_s/delta_0: 1.2194E-06 | 4: delta_r/delta_0: 2.3131E-07 | 5: delta_s/delta_0: 4.9441E-08 | 6: delta_r/delta_0: 1.6040E-08 | 7: delta_s/delta_0: 7.0807E-09 | 8: delta_r/delta_0: 4.2884E-09 | 9: delta_s/delta_0: 2.3309E-07 | 10: delta_r/delta_0: 6.1810E-10 | 11: delta_s/delta_0: 4.8579E-09 | 12: delta_r/delta_0: 9.0928E-10 | 13: delta_s/delta_0: 1.8109E-10 | 14: delta_r/delta_0: 6.8775E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -8.261038062326245E-003 7.852105022661920E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.0870E-04 | 2: delta_r/delta_0: 8.4771E-06 | 3: delta_s/delta_0: 1.2194E-06 | 4: delta_r/delta_0: 2.3131E-07 | 5: delta_s/delta_0: 4.9441E-08 | 6: delta_r/delta_0: 1.6040E-08 | 7: delta_s/delta_0: 7.0810E-09 | 8: delta_r/delta_0: 4.2886E-09 | 9: delta_s/delta_0: 2.3313E-07 | 10: delta_r/delta_0: 6.1811E-10 | 11: delta_s/delta_0: 4.8579E-09 | 12: delta_r/delta_0: 9.0926E-10 | 13: delta_s/delta_0: 1.8114E-10 | 14: delta_r/delta_0: 6.8774E-11 | Reached bicg-stab tolerance | BP delta = 7.3990360E-02 -9.6554711E-02 2489998.77567066 | BP delta = 7.3990360E-02 -0.1026260 2490005.14026021 | 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 = 0.29362410 | --> Sampling calibration, mode = relcal | relcal = 5.6724559E-04 1.0278584E-02 -3.8281477E-03 -7.0176823E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.4036295E-02 1.5985843E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.3217E-04 | 2: delta_r/delta_0: 1.0823E-05 | 3: delta_s/delta_0: 1.4991E-06 | 4: delta_r/delta_0: 3.3409E-07 | 5: delta_s/delta_0: 7.7509E-08 | 6: delta_r/delta_0: 2.2821E-08 | 7: delta_s/delta_0: 9.3823E-09 | 8: delta_r/delta_0: 5.6877E-09 | 9: delta_s/delta_0: 9.6629E-09 | 10: delta_r/delta_0: 4.0421E-09 | 11: delta_s/delta_0: 1.2522E-07 | 12: delta_r/delta_0: 6.4861E-08 | 13: delta_s/delta_0: 3.8621E-10 | 14: delta_r/delta_0: 2.4195E-10 | 15: delta_s/delta_0: 1.1059E-10 | 16: delta_r/delta_0: 7.7049E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.282793221916125E-003 8.315232497835890E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.3217E-04 | 2: delta_r/delta_0: 1.0823E-05 | 3: delta_s/delta_0: 1.4992E-06 | 4: delta_r/delta_0: 3.3411E-07 | 5: delta_s/delta_0: 7.7510E-08 | 6: delta_r/delta_0: 2.2823E-08 | 7: delta_s/delta_0: 9.3828E-09 | 8: delta_r/delta_0: 5.6879E-09 | 9: delta_s/delta_0: 9.6620E-09 | 10: delta_r/delta_0: 4.0421E-09 | 11: delta_s/delta_0: 1.2558E-07 | 12: delta_r/delta_0: 6.5063E-08 | 13: delta_s/delta_0: 3.8636E-10 | 14: delta_r/delta_0: 2.4203E-10 | 15: delta_s/delta_0: 1.1058E-10 | 16: delta_r/delta_0: 7.7043E-11 | Reached bicg-stab tolerance | BP delta = -0.6968462 -0.6257506 2738652.21440440 | BP delta = -0.6968462 -0.6414356 2738658.62788576 | 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 = 0.26474241 | --> Sampling calibration, mode = relcal | relcal = -5.6015607E-03 1.5011371E-02 -2.3901840E-03 -7.0196260E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -2.4391504E-03 3.8562799E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4529E-04 | 2: delta_r/delta_0: 1.1638E-05 | 3: delta_s/delta_0: 1.7687E-06 | 4: delta_r/delta_0: 3.3674E-07 | 5: delta_s/delta_0: 7.4103E-08 | 6: delta_r/delta_0: 2.3239E-08 | 7: delta_s/delta_0: 9.1468E-09 | 8: delta_r/delta_0: 5.0537E-09 | 9: delta_s/delta_0: 7.6658E-09 | 10: delta_r/delta_0: 1.9092E-09 | 11: delta_s/delta_0: 7.2602E-06 | 12: delta_r/delta_0: 1.5875E-06 | 13: delta_s/delta_0: 4.2859E-09 | 14: delta_r/delta_0: 2.1909E-10 | 15: delta_s/delta_0: 8.7851E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -7.772940752179636E-003 9.164534450115153E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.4529E-04 | 2: delta_r/delta_0: 1.1638E-05 | 3: delta_s/delta_0: 1.7687E-06 | 4: delta_r/delta_0: 3.3678E-07 | 5: delta_s/delta_0: 7.4094E-08 | 6: delta_r/delta_0: 2.3245E-08 | 7: delta_s/delta_0: 9.1484E-09 | 8: delta_r/delta_0: 5.0542E-09 | 9: delta_s/delta_0: 7.6654E-09 | 10: delta_r/delta_0: 1.9094E-09 | 11: delta_s/delta_0: 7.2669E-06 | 12: delta_r/delta_0: 1.5888E-06 | 13: delta_s/delta_0: 4.2872E-09 | 14: delta_r/delta_0: 2.1899E-10 | 15: delta_s/delta_0: 8.7854E-11 | Reached bicg-stab tolerance | BP delta = 0.1777598 0.2893186 2516601.45348034 | BP delta = 0.1777598 0.2589989 2516600.96538053 | 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 = 0.25629575 | --> Sampling calibration, mode = relcal | relcal = -3.1585023E-02 -2.5898350E-02 3.6749572E-02 2.0733804E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.1120373E-02 1.8035939E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4515E-04 | 2: delta_r/delta_0: 1.2028E-05 | 3: delta_s/delta_0: 1.8020E-06 | 4: delta_r/delta_0: 3.9353E-07 | 5: delta_s/delta_0: 1.3814E-07 | 6: delta_r/delta_0: 3.1044E-08 | 7: delta_s/delta_0: 1.6810E-08 | 8: delta_r/delta_0: 8.0156E-09 | 9: delta_s/delta_0: 1.9989E-07 | 10: delta_r/delta_0: 6.8912E-09 | 11: delta_s/delta_0: 4.4414E-09 | 12: delta_r/delta_0: 1.9198E-09 | 13: delta_s/delta_0: 3.9755E-10 | 14: delta_r/delta_0: 2.6900E-10 | 15: delta_s/delta_0: 2.7130E-10 | 16: delta_r/delta_0: 2.2783E-10 | 17: delta_s/delta_0: 1.7072E-10 | 18: delta_r/delta_0: 1.3202E-10 | 19: delta_s/delta_0: 1.0297E-10 | 20: delta_r/delta_0: 9.3671E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.093914754581165E-002 8.683110447938472E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.4515E-04 | 2: delta_r/delta_0: 1.2029E-05 | 3: delta_s/delta_0: 1.8020E-06 | 4: delta_r/delta_0: 3.9355E-07 | 5: delta_s/delta_0: 1.3814E-07 | 6: delta_r/delta_0: 3.1046E-08 | 7: delta_s/delta_0: 1.6811E-08 | 8: delta_r/delta_0: 8.0160E-09 | 9: delta_s/delta_0: 1.9994E-07 | 10: delta_r/delta_0: 6.8917E-09 | 11: delta_s/delta_0: 4.4398E-09 | 12: delta_r/delta_0: 1.9189E-09 | 13: delta_s/delta_0: 3.9769E-10 | 14: delta_r/delta_0: 2.6894E-10 | 15: delta_s/delta_0: 2.7095E-10 | 16: delta_r/delta_0: 2.2712E-10 | 17: delta_s/delta_0: 1.7009E-10 | 18: delta_r/delta_0: 1.3227E-10 | 19: delta_s/delta_0: 1.0365E-10 | 20: delta_r/delta_0: 9.4353E-11 | Reached bicg-stab tolerance | BP delta = -0.6291733 -0.6831222 2705696.17137566 | BP delta = -0.6291733 -0.6696071 2705711.32967254 | 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 = -3.159698 | New value = -3.086620 | poltype: 2 pol: 1 CPU time specind = 2.6800632E-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 = -3.072020 | New value = -3.119389 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.144930 | New value = -3.161578 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.139662 | New value = -3.160132 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.126522 | New value = -3.131031 | poltype: 2 pol: 2 CPU time specind = 2.0089149E-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 = 4.14 | CG iter. 1 -- res = 0.13589E+08, tol = 0.70648E+01, time = 1.59 | CG iter. 2 -- res = 0.49977E+05, tol = 0.70648E+01, time = 1.58 | CG iter. 3 -- res = 0.45763E+05, tol = 0.70648E+01, time = 1.51 | CG iter. 4 -- res = 0.32386E+05, tol = 0.70648E+01, time = 1.58 | CG iter. 5 -- res = 0.33428E+05, tol = 0.70648E+01, time = 1.55 | CG iter. 6 -- res = 0.27303E+05, tol = 0.70648E+01, time = 1.50 | CG iter. 7 -- res = 0.24767E+05, tol = 0.70648E+01, time = 1.55 | CG iter. 8 -- res = 0.15704E+05, tol = 0.70648E+01, time = 1.53 | CG iter. 9 -- res = 0.13709E+05, tol = 0.70648E+01, time = 1.53 | CG iter. 10 -- res = 0.11149E+05, tol = 0.70648E+01, time = 1.53 | CG iter. 11 -- res = 0.76627E+04, tol = 0.70648E+01, time = 1.56 | CG iter. 12 -- res = 0.60133E+04, tol = 0.70648E+01, time = 1.54 | CG iter. 13 -- res = 0.54057E+04, tol = 0.70648E+01, time = 1.53 | CG iter. 14 -- res = 0.45491E+04, tol = 0.70648E+01, time = 1.56 | CG iter. 15 -- res = 0.30109E+04, tol = 0.70648E+01, time = 1.54 | CG iter. 16 -- res = 0.20470E+04, tol = 0.70648E+01, time = 1.57 | CG iter. 17 -- res = 0.14801E+04, tol = 0.70648E+01, time = 1.57 | CG iter. 18 -- res = 0.11657E+04, tol = 0.70648E+01, time = 1.53 | CG iter. 19 -- res = 0.89710E+03, tol = 0.70648E+01, time = 1.48 | CG iter. 20 -- res = 0.61595E+03, tol = 0.70648E+01, time = 1.56 | CG iter. 21 -- res = 0.50588E+03, tol = 0.70648E+01, time = 1.53 | CG iter. 22 -- res = 0.40213E+03, tol = 0.70648E+01, time = 1.48 | CG iter. 23 -- res = 0.24011E+03, tol = 0.70648E+01, time = 1.58 | CG iter. 24 -- res = 0.16886E+03, tol = 0.70648E+01, time = 1.55 | CG iter. 25 -- res = 0.14672E+03, tol = 0.70648E+01, time = 1.53 | CG iter. 26 -- res = 0.10532E+03, tol = 0.70648E+01, time = 1.54 | CG iter. 27 -- res = 0.79062E+02, tol = 0.70648E+01, time = 1.52 | CG iter. 28 -- res = 0.59609E+02, tol = 0.70648E+01, time = 1.50 | CG iter. 29 -- res = 0.44889E+02, tol = 0.70648E+01, time = 1.52 | CG iter. 30 -- res = 0.32473E+02, tol = 0.70648E+01, time = 1.53 | CG iter. 31 -- res = 0.21634E+02, tol = 0.70648E+01, time = 1.51 | CG iter. 32 -- res = 0.17212E+02, tol = 0.70648E+01, time = 1.54 | CG iter. 33 -- res = 0.14152E+02, tol = 0.70648E+01, time = 1.52 | CG iter. 34 -- res = 0.99562E+01, tol = 0.70648E+01, time = 1.53 | CG iter. 35 -- res = 0.72042E+01, tol = 0.70648E+01, time = 1.50 | CG iter. 36 -- res = 0.60388E+01, tol = 0.70648E+01, time = 1.52 | CG iter. 37 -- res = 0.46379E+01, tol = 0.70648E+01, time = 1.61 | CG iter. 38 -- res = 0.31220E+01, tol = 0.70648E+01, time = 1.50 | CG iter. 39 -- res = 0.24887E+01, tol = 0.70648E+01, time = 1.53 | CG iter. 40 -- res = 0.22070E+01, tol = 0.70648E+01, time = 1.50 | CG iter. 41 -- res = 0.27712E+01, tol = 0.70648E+01, time = 1.52 | CG iter. 42 -- res = 0.15027E+01, tol = 0.70648E+01, time = 1.54 | CG iter. 43 -- res = 0.10732E+01, tol = 0.70648E+01, time = 1.53 | CG iter. 44 -- res = 0.10190E+01, tol = 0.70648E+01, time = 1.55 | CG iter. 45 -- res = 0.14316E+01, tol = 0.70648E+01, time = 1.57 | CG iter. 46 -- res = 0.68136E+00, tol = 0.70648E+01, time = 1.61 | CG iter. 47 -- res = 0.54489E+00, tol = 0.70648E+01, time = 1.49 | CG iter. 48 -- res = 0.46423E+00, tol = 0.70648E+01, time = 1.52 | CG iter. 49 -- res = 0.36818E+00, tol = 0.70648E+01, time = 1.50 | CG iter. 50 -- res = 0.33420E+00, tol = 0.70648E+01, time = 1.54 | Final CG iter 51 -- res = 0.33420E+00, tol = 0.70648E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 6874167.527 | Old band monopole 9924442.302 | Change to band monopole -3050274.774 | Change to component monopole 3050261.655 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 4.14 | CG iter. 1 -- res = 0.61829E+06, tol = 0.47627E+18, time = 0.34 | CG iter. 2 -- res = 0.65904E+02, tol = 0.47627E+18, time = 0.37 | CG iter. 3 -- res = 0.20105E+01, tol = 0.47627E+18, time = 0.35 | CG iter. 4 -- res = 0.70749E-02, tol = 0.47627E+18, time = 0.42 | Final CG iter 5 -- res = 0.27292E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 6874137.960 | (Sampled value in CG: 6925967.985 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.492304 | New value = 1.529983 | poltype: 2 pol: 1 CPU time specind = 3.8330555E-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 = 1.532972 | New value = 1.527226 | poltype: 2 pol: 2 CPU time specind = 2.8610229E-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 = 4.14 | CG iter. 1 -- res = 0.24349E+08, tol = 0.47631E+04, time = 1.78 | CG iter. 2 -- res = 0.54651E+07, tol = 0.47631E+04, time = 1.82 | CG iter. 3 -- res = 0.87002E+06, tol = 0.47631E+04, time = 1.76 | CG iter. 4 -- res = 0.36984E+06, tol = 0.47631E+04, time = 1.80 | CG iter. 5 -- res = 0.15623E+06, tol = 0.47631E+04, time = 1.79 | CG iter. 6 -- res = 0.79310E+05, tol = 0.47631E+04, time = 1.76 | CG iter. 7 -- res = 0.43819E+05, tol = 0.47631E+04, time = 1.75 | CG iter. 8 -- res = 0.21528E+05, tol = 0.47631E+04, time = 1.79 | CG iter. 9 -- res = 0.96745E+04, tol = 0.47631E+04, time = 1.78 | CG iter. 10 -- res = 0.39313E+04, tol = 0.47631E+04, time = 1.78 | CG iter. 11 -- res = 0.17632E+04, tol = 0.47631E+04, time = 1.79 | CG iter. 12 -- res = 0.90451E+03, tol = 0.47631E+04, time = 1.77 | CG iter. 13 -- res = 0.50954E+03, tol = 0.47631E+04, time = 1.78 | CG iter. 14 -- res = 0.28767E+03, tol = 0.47631E+04, time = 1.76 | CG iter. 15 -- res = 0.14924E+03, tol = 0.47631E+04, time = 1.80 | CG iter. 16 -- res = 0.70951E+02, tol = 0.47631E+04, time = 1.73 | CG iter. 17 -- res = 0.32869E+02, tol = 0.47631E+04, time = 1.82 | CG iter. 18 -- res = 0.16284E+02, tol = 0.47631E+04, time = 1.77 | CG iter. 19 -- res = 0.87863E+01, tol = 0.47631E+04, time = 1.76 | CG iter. 20 -- res = 0.50398E+01, tol = 0.47631E+04, time = 1.78 | CG iter. 21 -- res = 0.28082E+01, tol = 0.47631E+04, time = 1.79 | CG iter. 22 -- res = 0.14383E+01, tol = 0.47631E+04, time = 1.79 | CG iter. 23 -- res = 0.70802E+00, tol = 0.47631E+04, time = 1.80 | CG iter. 24 -- res = 0.36235E+00, tol = 0.47631E+04, time = 1.78 | CG iter. 25 -- res = 0.19647E+00, tol = 0.47631E+04, time = 1.79 | CG iter. 26 -- res = 0.10937E+00, tol = 0.47631E+04, time = 1.79 | CG iter. 27 -- res = 0.61856E-01, tol = 0.47631E+04, time = 1.80 | CG iter. 28 -- res = 0.34131E-01, tol = 0.47631E+04, time = 1.78 | CG iter. 29 -- res = 0.17738E-01, tol = 0.47631E+04, time = 1.77 | CG iter. 30 -- res = 0.90772E-02, tol = 0.47631E+04, time = 1.73 | CG iter. 31 -- res = 0.49181E-02, tol = 0.47631E+04, time = 1.76 | CG iter. 32 -- res = 0.28041E-02, tol = 0.47631E+04, time = 1.79 | CG iter. 33 -- res = 0.15709E-02, tol = 0.47631E+04, time = 1.74 | CG iter. 34 -- res = 0.85073E-03, tol = 0.47631E+04, time = 1.75 | CG iter. 35 -- res = 0.44464E-03, tol = 0.47631E+04, time = 1.78 | Final CG iter 36 -- res = 0.44464E-03, tol = 0.47631E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -1.803 2.727 | New value 4.873 | Old value -1.803 | Difference 6.676 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 4.12 | CG iter. 1 -- res = 0.23135E+07, tol = 0.47627E+18, time = 0.40 | CG iter. 2 -- res = 0.53621E+02, tol = 0.47627E+18, time = 0.40 | CG iter. 3 -- res = 0.16336E+01, tol = 0.47627E+18, time = 0.38 | Final CG iter 4 -- res = 0.13186E-04, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 6874137.960 | (Sampled value in CG: 6925582.476 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.670953 | New value = -3.494033 | poltype: 1 pol: 1 CPU time specind = 3.0410290E-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 = 4.12 | CG iter. 1 -- res = 0.25817E+07, tol = 0.12234E+01, time = 0.69 | CG iter. 2 -- res = 0.10433E+06, tol = 0.12234E+01, time = 0.70 | CG iter. 3 -- res = 0.75344E+05, tol = 0.12234E+01, time = 0.65 | CG iter. 4 -- res = 0.23051E+05, tol = 0.12234E+01, time = 0.65 | CG iter. 5 -- res = 0.45658E+04, tol = 0.12234E+01, time = 0.67 | CG iter. 6 -- res = 0.22090E+04, tol = 0.12234E+01, time = 0.65 | CG iter. 7 -- res = 0.96883E+03, tol = 0.12234E+01, time = 0.67 | CG iter. 8 -- res = 0.44356E+03, tol = 0.12234E+01, time = 0.64 | CG iter. 9 -- res = 0.12968E+03, tol = 0.12234E+01, time = 0.72 | CG iter. 10 -- res = 0.33750E+02, tol = 0.12234E+01, time = 0.68 | CG iter. 11 -- res = 0.12935E+02, tol = 0.12234E+01, time = 0.71 | CG iter. 12 -- res = 0.54102E+01, tol = 0.12234E+01, time = 0.72 | CG iter. 13 -- res = 0.21464E+01, tol = 0.12234E+01, time = 0.70 | CG iter. 14 -- res = 0.79079E+00, tol = 0.12234E+01, time = 0.70 | CG iter. 15 -- res = 0.20798E+00, tol = 0.12234E+01, time = 0.69 | CG iter. 16 -- res = 0.81255E-01, tol = 0.12234E+01, time = 0.63 | CG iter. 17 -- res = 0.38948E-01, tol = 0.12234E+01, time = 0.67 | CG iter. 18 -- res = 0.14466E-01, tol = 0.12234E+01, time = 0.70 | CG iter. 19 -- res = 0.43632E-02, tol = 0.12234E+01, time = 0.69 | CG iter. 20 -- res = 0.14732E-02, tol = 0.12234E+01, time = 0.68 | CG iter. 21 -- res = 0.62585E-03, tol = 0.12234E+01, time = 0.65 | CG iter. 22 -- res = 0.28192E-03, tol = 0.12234E+01, time = 0.67 | CG iter. 23 -- res = 0.10391E-03, tol = 0.12234E+01, time = 0.65 | CG iter. 24 -- res = 0.33535E-04, tol = 0.12234E+01, time = 0.66 | CG iter. 25 -- res = 0.87292E-05, tol = 0.12234E+01, time = 0.66 | CG iter. 26 -- res = 0.28594E-05, tol = 0.12234E+01, time = 0.67 | CG iter. 27 -- res = 0.12176E-05, tol = 0.12234E+01, time = 0.65 | CG iter. 28 -- res = 0.40839E-06, tol = 0.12234E+01, time = 0.68 | CG iter. 29 -- res = 0.13016E-06, tol = 0.12234E+01, time = 0.66 | CG iter. 30 -- res = 0.35962E-07, tol = 0.12234E+01, time = 0.69 | CG iter. 31 -- res = 0.12290E-07, tol = 0.12234E+01, time = 0.67 | CG iter. 32 -- res = 0.11276E-07, tol = 0.12234E+01, time = 0.65 | CG iter. 33 -- res = 0.29775E-08, tol = 0.12234E+01, time = 0.68 | CG iter. 34 -- res = 0.78125E-09, tol = 0.12234E+01, time = 0.67 | CG iter. 35 -- res = 0.23049E-09, tol = 0.12234E+01, time = 0.69 | CG iter. 36 -- res = 0.17631E-09, tol = 0.12234E+01, time = 0.71 | CG iter. 37 -- res = 0.63866E-10, tol = 0.12234E+01, time = 0.65 | CG iter. 38 -- res = 0.20779E-10, tol = 0.12234E+01, time = 0.68 | CG iter. 39 -- res = 0.66414E-11, tol = 0.12234E+01, time = 0.65 | CG iter. 40 -- res = 0.18733E-11, tol = 0.12234E+01, time = 0.69 | CG iter. 41 -- res = 0.62305E-12, tol = 0.12234E+01, time = 0.70 | CG iter. 42 -- res = 0.20866E-12, tol = 0.12234E+01, time = 0.73 | CG iter. 43 -- res = 0.64304E-13, tol = 0.12234E+01, time = 0.73 | CG iter. 44 -- res = 0.19138E-13, tol = 0.12234E+01, time = 0.67 | CG iter. 45 -- res = 0.70558E-14, tol = 0.12234E+01, time = 0.66 | CG iter. 46 -- res = 0.25404E-14, tol = 0.12234E+01, time = 0.68 | CG iter. 47 -- res = 0.74605E-15, tol = 0.12234E+01, time = 0.66 | CG iter. 48 -- res = 0.21004E-15, tol = 0.12234E+01, time = 0.68 | CG iter. 49 -- res = 0.57970E-16, tol = 0.12234E+01, time = 0.66 | CG iter. 50 -- res = 0.16618E-16, tol = 0.12234E+01, time = 0.71 | Final CG iter 51 -- res = 0.16618E-16, tol = 0.12234E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 6.539 2.119 | New value 0.114 | Old value 6.539 | Difference -6.425 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 4.13 | CG iter. 1 -- res = 0.30885E+05, tol = 0.47627E+18, time = 0.35 | CG iter. 2 -- res = 0.41650E+02, tol = 0.47627E+18, time = 0.37 | CG iter. 3 -- res = 0.13128E+01, tol = 0.47627E+18, time = 0.34 | CG iter. 4 -- res = 0.52302E-04, tol = 0.47627E+18, time = 0.39 | Final CG iter 5 -- res = 0.69808E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 6874137.960 | (Sampled value in CG: 6914438.555 ) | CPU time specind = 277.7986 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 4.14 | CG iter. 1 -- res = 0.70381E+08, tol = 0.51634E+04, time = 3.24 | CG iter. 2 -- res = 0.32819E+08, tol = 0.51634E+04, time = 3.23 | CG iter. 3 -- res = 0.58472E+07, tol = 0.51634E+04, time = 3.30 | CG iter. 4 -- res = 0.31128E+07, tol = 0.51634E+04, time = 3.14 | CG iter. 5 -- res = 0.14060E+07, tol = 0.51634E+04, time = 3.13 | CG iter. 6 -- res = 0.74173E+06, tol = 0.51634E+04, time = 3.13 | CG iter. 7 -- res = 0.38905E+06, tol = 0.51634E+04, time = 3.25 | CG iter. 8 -- res = 0.19670E+06, tol = 0.51634E+04, time = 3.15 | CG iter. 9 -- res = 0.10543E+06, tol = 0.51634E+04, time = 3.21 | CG iter. 10 -- res = 0.53114E+05, tol = 0.51634E+04, time = 3.23 | CG iter. 11 -- res = 0.30258E+05, tol = 0.51634E+04, time = 3.17 | CG iter. 12 -- res = 0.19045E+05, tol = 0.51634E+04, time = 3.13 | CG iter. 13 -- res = 0.13969E+05, tol = 0.51634E+04, time = 3.19 | CG iter. 14 -- res = 0.12447E+05, tol = 0.51634E+04, time = 3.13 | CG iter. 15 -- res = 0.11179E+05, tol = 0.51634E+04, time = 3.13 | CG iter. 16 -- res = 0.10050E+05, tol = 0.51634E+04, time = 3.13 | CG iter. 17 -- res = 0.86228E+04, tol = 0.51634E+04, time = 3.19 | CG iter. 18 -- res = 0.80486E+04, tol = 0.51634E+04, time = 3.16 | CG iter. 19 -- res = 0.81885E+04, tol = 0.51634E+04, time = 3.10 | CG iter. 20 -- res = 0.80205E+04, tol = 0.51634E+04, time = 3.15 | CG iter. 21 -- res = 0.64661E+04, tol = 0.51634E+04, time = 3.22 | CG iter. 22 -- res = 0.42949E+04, tol = 0.51634E+04, time = 3.22 | CG iter. 23 -- res = 0.29273E+04, tol = 0.51634E+04, time = 3.19 | CG iter. 24 -- res = 0.24043E+04, tol = 0.51634E+04, time = 3.22 | CG iter. 25 -- res = 0.23139E+04, tol = 0.51634E+04, time = 3.22 | CG iter. 26 -- res = 0.21448E+04, tol = 0.51634E+04, time = 3.20 | CG iter. 27 -- res = 0.17604E+04, tol = 0.51634E+04, time = 3.18 | CG iter. 28 -- res = 0.14256E+04, tol = 0.51634E+04, time = 3.18 | CG iter. 29 -- res = 0.13269E+04, tol = 0.51634E+04, time = 3.12 | CG iter. 30 -- res = 0.14207E+04, tol = 0.51634E+04, time = 3.20 | CG iter. 31 -- res = 0.14528E+04, tol = 0.51634E+04, time = 3.14 | CG iter. 32 -- res = 0.12528E+04, tol = 0.51634E+04, time = 3.16 | CG iter. 33 -- res = 0.96851E+03, tol = 0.51634E+04, time = 3.18 | CG iter. 34 -- res = 0.81201E+03, tol = 0.51634E+04, time = 3.18 | CG iter. 35 -- res = 0.80023E+03, tol = 0.51634E+04, time = 3.17 | CG iter. 36 -- res = 0.84803E+03, tol = 0.51634E+04, time = 3.18 | CG iter. 37 -- res = 0.83315E+03, tol = 0.51634E+04, time = 3.19 | CG iter. 38 -- res = 0.74641E+03, tol = 0.51634E+04, time = 3.17 | CG iter. 39 -- res = 0.68701E+03, tol = 0.51634E+04, time = 3.17 | CG iter. 40 -- res = 0.70428E+03, tol = 0.51634E+04, time = 3.07 | CG iter. 41 -- res = 0.76187E+03, tol = 0.51634E+04, time = 3.14 | CG iter. 42 -- res = 0.76741E+03, tol = 0.51634E+04, time = 3.19 | CG iter. 43 -- res = 0.70440E+03, tol = 0.51634E+04, time = 3.20 | CG iter. 44 -- res = 0.63392E+03, tol = 0.51634E+04, time = 3.11 | CG iter. 45 -- res = 0.61047E+03, tol = 0.51634E+04, time = 3.16 | CG iter. 46 -- res = 0.62691E+03, tol = 0.51634E+04, time = 3.15 | CG iter. 47 -- res = 0.63174E+03, tol = 0.51634E+04, time = 3.17 | CG iter. 48 -- res = 0.61017E+03, tol = 0.51634E+04, time = 3.17 | CG iter. 49 -- res = 0.57914E+03, tol = 0.51634E+04, time = 3.16 | CG iter. 50 -- res = 0.57090E+03, tol = 0.51634E+04, time = 3.18 | CG iter. 51 -- res = 0.57458E+03, tol = 0.51634E+04, time = 3.14 | CG iter. 52 -- res = 0.57454E+03, tol = 0.51634E+04, time = 3.18 | CG iter. 53 -- res = 0.56099E+03, tol = 0.51634E+04, time = 3.23 | CG iter. 54 -- res = 0.54216E+03, tol = 0.51634E+04, time = 3.14 | CG iter. 55 -- res = 0.52383E+03, tol = 0.51634E+04, time = 3.18 | CG iter. 56 -- res = 0.50309E+03, tol = 0.51634E+04, time = 3.19 | CG iter. 57 -- res = 0.49249E+03, tol = 0.51634E+04, time = 3.23 | CG iter. 58 -- res = 0.49351E+03, tol = 0.51634E+04, time = 3.19 | CG iter. 59 -- res = 0.49667E+03, tol = 0.51634E+04, time = 3.20 | CG iter. 60 -- res = 0.49296E+03, tol = 0.51634E+04, time = 3.17 | Final CG iter 61 -- res = 0.49296E+03, tol = 0.51634E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 2.416 ( -231.532 -2234.529 2517.231 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8596354.711 | Old band monopole 6874167.527 | Change to band monopole 1722187.184 | Change to component monopole -1722179.776 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 4.885 2.752 | New value -2.973 | Old value 4.885 | Difference -7.859 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -3.446 ( 6.479 12.568 -13.811 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 5.231 2.333 | New value 1.567 | Old value 5.231 | Difference -3.663 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 4.13 | CG iter. 1 -- res = 0.32013E+07, tol = 0.47627E+18, time = 0.33 | CG iter. 2 -- res = 0.56544E+02, tol = 0.47627E+18, time = 0.37 | CG iter. 3 -- res = 0.16574E+01, tol = 0.47627E+18, time = 0.40 | CG iter. 4 -- res = 0.85164E-03, tol = 0.47627E+18, time = 0.35 | Final CG iter 5 -- res = 0.21716E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8596317.736 | (Sampled value in CG: 8539152.821 ) | Chain = 1 -- chisq = 0.61882825E+09 | Chain = 1 -- wall time = 4746.743 sec --------------------------------------------------------------------- | Chain = 1 -- Iteration = 77 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.17979533765018 | --> Sampling calibration, mode = relcal | relcal = -7.5027846E-02 -5.8431238E-02 9.1842949E-02 4.1616134E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 5.6015723E-04 4.4314805E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.0667E-05 | 2: delta_r/delta_0: 8.7196E-07 | 3: delta_s/delta_0: 2.2587E-07 | 4: delta_r/delta_0: 1.3843E-08 | 5: delta_s/delta_0: 2.5983E-09 | 6: delta_r/delta_0: 8.1707E-10 | 7: delta_s/delta_0: 2.0267E-10 | 8: delta_r/delta_0: 1.1363E-10 | 9: delta_s/delta_0: 4.4020E-09 | 10: delta_r/delta_0: 1.9718E-09 | 11: delta_s/delta_0: 1.8325E-10 | 12: delta_r/delta_0: 3.9746E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.081912076977881E-003 2.743874595363938E-005 | BP delta = 4.7099451E-03 1.4560748E-02 29859748.3176237 | BP delta = 5.9866076E-03 1.5837410E-02 29859748.1526436 | 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 = 1.02502248 | --> Sampling calibration, mode = relcal | relcal = -0.1065419 -9.5476538E-02 0.1448407 5.7177778E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.0462164E-03 1.5009710E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 4.0506E-04 | 2: delta_r/delta_0: 8.8904E-06 | 3: delta_s/delta_0: 3.2241E-06 | 4: delta_r/delta_0: 3.0474E-07 | 5: delta_s/delta_0: 1.4163E-07 | 6: delta_r/delta_0: 7.9213E-09 | 7: delta_s/delta_0: 2.8497E-09 | 8: delta_r/delta_0: 8.9991E-10 | 9: delta_s/delta_0: 3.9811E-09 | 10: delta_r/delta_0: 1.9338E-10 | 11: delta_s/delta_0: 7.6336E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -7.202823519881295E-003 2.813487718850651E-005 | BP delta = -0.1795558 -0.1722952 34764316.1883178 | BP delta = -0.1779238 -0.1706632 34764316.3682101 | 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 = 0.81148572 | --> Sampling calibration, mode = relcal | relcal = 0.2952892 0.2245288 -0.2834578 -0.2363603 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 7.0529006E-04 5.1429709E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 8.6454E-04 | 2: delta_r/delta_0: 1.9689E-05 | 3: delta_s/delta_0: 1.7309E-04 | 4: delta_r/delta_0: 6.3883E-06 | 5: delta_s/delta_0: 1.4974E-05 | 6: delta_r/delta_0: 1.9712E-06 | 7: delta_s/delta_0: 5.3512E-08 | 8: delta_r/delta_0: 3.8115E-08 | 9: delta_s/delta_0: 5.7561E-07 | 10: delta_r/delta_0: 4.0856E-09 | 11: delta_s/delta_0: 1.0357E-09 | 12: delta_r/delta_0: 5.7838E-10 | 13: delta_s/delta_0: 5.8887E-10 | 14: delta_r/delta_0: 1.0246E-10 | 15: delta_s/delta_0: 2.6378E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.047816430931021E-002 4.025399328374242E-005 | BP delta = -6.6133484E-02 -9.7741805E-02 43104044.6469773 | BP delta = -6.4367078E-02 -9.5975399E-02 43104044.6707454 | 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 = 0.95819773 | --> Sampling calibration, mode = relcal | relcal = 0.1063376 0.1394982 -0.1101289 -0.1357069 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0040152E-02 1.3221615E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 7.7079E-04 | 2: delta_r/delta_0: 1.7793E-05 | 3: delta_s/delta_0: 2.8160E-05 | 4: delta_r/delta_0: 6.9010E-07 | 5: delta_s/delta_0: 4.4130E-06 | 6: delta_r/delta_0: 4.6624E-07 | 7: delta_s/delta_0: 4.9613E-08 | 8: delta_r/delta_0: 3.6335E-08 | 9: delta_s/delta_0: 8.3077E-07 | 10: delta_r/delta_0: 4.3047E-09 | 11: delta_s/delta_0: 9.5013E-10 | 12: delta_r/delta_0: 6.2974E-10 | 13: delta_s/delta_0: 2.5959E-10 | 14: delta_r/delta_0: 6.9271E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.126277198863430E-002 3.700949468155874E-005 | BP delta = 0.2700889 0.2947556 43052187.6271893 | BP delta = 0.2702344 0.2949011 43052187.6308236 | 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 = 0.52096677 | --> Sampling calibration, mode = relcal | relcal = -5.1001739E-02 -3.7511974E-03 2.7215842E-02 2.7537096E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -1.1362789E-05 8.4412377E-04 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.5391E-05 | 2: delta_r/delta_0: 4.6319E-06 | 3: delta_s/delta_0: 6.4058E-06 | 4: delta_r/delta_0: 9.8372E-07 | 5: delta_s/delta_0: 4.5514E-08 | 6: delta_r/delta_0: 2.9089E-08 | 7: delta_s/delta_0: 6.1848E-08 | 8: delta_r/delta_0: 8.5416E-09 | 9: delta_s/delta_0: 2.1378E-09 | 10: delta_r/delta_0: 1.3968E-09 | 11: delta_s/delta_0: 2.5300E-09 | 12: delta_r/delta_0: 1.8693E-10 | 13: delta_s/delta_0: 5.4103E-09 | 14: delta_r/delta_0: 1.9331E-09 | 15: delta_s/delta_0: 1.9383E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.055680386718755E-002 5.489613314565493E-005 | BP delta = -0.1234007 -2.0533727E-02 61506706.0062169 | BP delta = -0.1172074 -1.4340500E-02 61506705.9902539 | 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 = 0.42105184 | --> Sampling calibration, mode = relcal | relcal = 4.5587517E-02 3.9563753E-02 -2.8219333E-02 -5.6931939E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.1391853E-03 7.0465892E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.2375E-05 | 2: delta_r/delta_0: 3.5889E-06 | 3: delta_s/delta_0: 2.1017E-06 | 4: delta_r/delta_0: 2.9265E-07 | 5: delta_s/delta_0: 5.5810E-08 | 6: delta_r/delta_0: 3.0982E-08 | 7: delta_s/delta_0: 5.0161E-08 | 8: delta_r/delta_0: 7.7313E-09 | 9: delta_s/delta_0: 2.1381E-09 | 10: delta_r/delta_0: 1.4004E-09 | 11: delta_s/delta_0: 1.9997E-09 | 12: delta_r/delta_0: 9.7230E-10 | 13: delta_s/delta_0: 7.0430E-10 | 14: delta_r/delta_0: 3.8925E-10 | 15: delta_s/delta_0: 3.8593E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.287916933239611E-002 5.001989425473508E-005 | BP delta = -0.1455743 -0.1988176 61335428.8825857 | BP delta = -0.1444641 -0.1977074 61335428.8754671 | 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 = 0.28118987 | --> Sampling calibration, mode = relcal | relcal = 2.4098035E-02 4.5046441E-02 -2.3316981E-02 -4.5827493E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 8.7300763E-03 1.4743408E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.1046E-04 | 2: delta_r/delta_0: 8.9786E-06 | 3: delta_s/delta_0: 1.4916E-06 | 4: delta_r/delta_0: 2.0446E-07 | 5: delta_s/delta_0: 6.4156E-08 | 6: delta_r/delta_0: 1.5269E-08 | 7: delta_s/delta_0: 6.1818E-09 | 8: delta_r/delta_0: 3.6006E-09 | 9: delta_s/delta_0: 1.1325E-08 | 10: delta_r/delta_0: 2.9193E-09 | 11: delta_s/delta_0: 3.9469E-09 | 12: delta_r/delta_0: 1.5492E-09 | 13: delta_s/delta_0: 1.8490E-10 | 14: delta_r/delta_0: 1.2941E-10 | 15: delta_s/delta_0: 7.9882E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -8.288678122954665E-003 7.855299668424583E-005 | BP delta = 7.3990360E-02 -9.6554711E-02 94973731.8651693 | BP delta = 6.5337613E-02 -0.1052075 94973731.8270113 | 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 = 0.29354510 | --> Sampling calibration, mode = relcal | relcal = 5.5431313E-04 1.0226632E-02 -3.7717049E-03 -7.0092403E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.6165541E-02 1.4128879E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.3179E-04 | 2: delta_r/delta_0: 1.0936E-05 | 3: delta_s/delta_0: 1.4823E-06 | 4: delta_r/delta_0: 3.6746E-07 | 5: delta_s/delta_0: 1.2474E-07 | 6: delta_r/delta_0: 2.2016E-08 | 7: delta_s/delta_0: 6.1130E-05 | 8: delta_r/delta_0: 1.7685E-05 | 9: delta_s/delta_0: 5.8006E-09 | 10: delta_r/delta_0: 1.9932E-09 | 11: delta_s/delta_0: 1.0523E-05 | 12: delta_r/delta_0: 1.2671E-06 | 13: delta_s/delta_0: 3.3771E-10 | 14: delta_r/delta_0: 1.3326E-10 | 15: delta_s/delta_0: 1.2385E-10 | 16: delta_r/delta_0: 1.0032E-10 | 17: delta_s/delta_0: 1.0193E-10 | 18: delta_r/delta_0: 5.8049E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.243796779119552E-003 8.317348032955534E-005 | BP delta = -0.6968462 -0.6257506 93507972.9664400 | BP delta = -0.6953813 -0.6242858 93507972.9663681 | 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 = 0.26465109 | --> Sampling calibration, mode = relcal | relcal = -5.5230749E-03 1.4990437E-02 -2.3749294E-03 -7.0924326E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -1.2689164E-03 4.5304000E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4322E-04 | 2: delta_r/delta_0: 1.2334E-05 | 3: delta_s/delta_0: 2.0168E-06 | 4: delta_r/delta_0: 2.8866E-07 | 5: delta_s/delta_0: 1.3325E-07 | 6: delta_r/delta_0: 2.2005E-08 | 7: delta_s/delta_0: 7.6395E-09 | 8: delta_r/delta_0: 4.7756E-09 | 9: delta_s/delta_0: 3.2296E-09 | 10: delta_r/delta_0: 1.1780E-09 | 11: delta_s/delta_0: 3.6061E-05 | 12: delta_r/delta_0: 1.6660E-08 | 13: delta_s/delta_0: 4.7834E-09 | 14: delta_r/delta_0: 1.7654E-09 | 15: delta_s/delta_0: 6.4145E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -7.707358676534943E-003 9.167937451625612E-005 | BP delta = 0.1777598 0.2589989 94708087.9823826 | BP delta = 0.1861955 0.2674346 94708087.9945789 | 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 = 0.25621896 | --> Sampling calibration, mode = relcal | relcal = -3.1695966E-02 -2.5927592E-02 3.6927111E-02 2.0696446E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.3980882E-02 1.7935168E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4526E-04 | 2: delta_r/delta_0: 1.2269E-05 | 3: delta_s/delta_0: 1.8918E-06 | 4: delta_r/delta_0: 3.5623E-07 | 5: delta_s/delta_0: 1.4349E-07 | 6: delta_r/delta_0: 2.6162E-08 | 7: delta_s/delta_0: 1.2526E-08 | 8: delta_r/delta_0: 6.3608E-09 | 9: delta_s/delta_0: 2.9614E-08 | 10: delta_r/delta_0: 4.3732E-09 | 11: delta_s/delta_0: 1.2416E-08 | 12: delta_r/delta_0: 7.0954E-09 | 13: delta_s/delta_0: 3.4667E-10 | 14: delta_r/delta_0: 2.7951E-10 | 15: delta_s/delta_0: 1.8112E-10 | 16: delta_r/delta_0: 1.2512E-10 | 17: delta_s/delta_0: 9.2404E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.020437569073037E-002 8.686531373959123E-005 | BP delta = -0.6291733 -0.6831222 93066535.6712901 | BP delta = -0.5997622 -0.6537111 93066535.6681058 | 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 = -3.086620 | New value = -3.140590 | poltype: 2 pol: 1 CPU time specind = 6.2341690E-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 = -3.119389 | New value = -3.254968 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.161578 | New value = -3.054719 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.160132 | New value = -3.195458 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.131031 | New value = -3.216757 | poltype: 2 pol: 2 CPU time specind = 2.3260117E-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 = 4.26 | CG iter. 1 -- res = 0.13535E+08, tol = 0.80767E+01, time = 1.58 | CG iter. 2 -- res = 0.64352E+05, tol = 0.80767E+01, time = 1.57 | CG iter. 3 -- res = 0.55056E+05, tol = 0.80767E+01, time = 1.54 | CG iter. 4 -- res = 0.19940E+05, tol = 0.80767E+01, time = 1.51 | CG iter. 5 -- res = 0.18107E+05, tol = 0.80767E+01, time = 1.55 | CG iter. 6 -- res = 0.20638E+05, tol = 0.80767E+01, time = 1.51 | CG iter. 7 -- res = 0.17174E+05, tol = 0.80767E+01, time = 1.50 | CG iter. 8 -- res = 0.12494E+05, tol = 0.80767E+01, time = 1.52 | CG iter. 9 -- res = 0.14288E+05, tol = 0.80767E+01, time = 1.51 | CG iter. 10 -- res = 0.12022E+05, tol = 0.80767E+01, time = 1.54 | CG iter. 11 -- res = 0.77335E+04, tol = 0.80767E+01, time = 1.54 | CG iter. 12 -- res = 0.48842E+04, tol = 0.80767E+01, time = 1.56 | CG iter. 13 -- res = 0.42050E+04, tol = 0.80767E+01, time = 1.55 | CG iter. 14 -- res = 0.35304E+04, tol = 0.80767E+01, time = 1.55 | CG iter. 15 -- res = 0.31452E+04, tol = 0.80767E+01, time = 1.54 | CG iter. 16 -- res = 0.19858E+04, tol = 0.80767E+01, time = 1.58 | CG iter. 17 -- res = 0.15002E+04, tol = 0.80767E+01, time = 1.60 | CG iter. 18 -- res = 0.10621E+04, tol = 0.80767E+01, time = 1.51 | CG iter. 19 -- res = 0.92274E+03, tol = 0.80767E+01, time = 1.56 | CG iter. 20 -- res = 0.70681E+03, tol = 0.80767E+01, time = 1.54 | CG iter. 21 -- res = 0.52622E+03, tol = 0.80767E+01, time = 1.56 | CG iter. 22 -- res = 0.46298E+03, tol = 0.80767E+01, time = 1.53 | CG iter. 23 -- res = 0.39626E+03, tol = 0.80767E+01, time = 1.54 | CG iter. 24 -- res = 0.30252E+03, tol = 0.80767E+01, time = 1.54 | CG iter. 25 -- res = 0.25213E+03, tol = 0.80767E+01, time = 1.54 | CG iter. 26 -- res = 0.22491E+03, tol = 0.80767E+01, time = 1.54 | CG iter. 27 -- res = 0.17081E+03, tol = 0.80767E+01, time = 1.53 | CG iter. 28 -- res = 0.12592E+03, tol = 0.80767E+01, time = 1.53 | CG iter. 29 -- res = 0.10760E+03, tol = 0.80767E+01, time = 1.53 | CG iter. 30 -- res = 0.10039E+03, tol = 0.80767E+01, time = 1.50 | CG iter. 31 -- res = 0.77602E+02, tol = 0.80767E+01, time = 1.55 | CG iter. 32 -- res = 0.63554E+02, tol = 0.80767E+01, time = 1.60 | CG iter. 33 -- res = 0.55300E+02, tol = 0.80767E+01, time = 1.57 | CG iter. 34 -- res = 0.51183E+02, tol = 0.80767E+01, time = 1.55 | CG iter. 35 -- res = 0.38244E+02, tol = 0.80767E+01, time = 1.51 | CG iter. 36 -- res = 0.32033E+02, tol = 0.80767E+01, time = 1.53 | CG iter. 37 -- res = 0.25951E+02, tol = 0.80767E+01, time = 1.56 | CG iter. 38 -- res = 0.24344E+02, tol = 0.80767E+01, time = 1.57 | CG iter. 39 -- res = 0.31710E+02, tol = 0.80767E+01, time = 1.56 | CG iter. 40 -- res = 0.17093E+02, tol = 0.80767E+01, time = 1.53 | CG iter. 41 -- res = 0.13243E+02, tol = 0.80767E+01, time = 1.58 | CG iter. 42 -- res = 0.11656E+02, tol = 0.80767E+01, time = 1.59 | CG iter. 43 -- res = 0.16106E+02, tol = 0.80767E+01, time = 1.56 | CG iter. 44 -- res = 0.89253E+01, tol = 0.80767E+01, time = 1.59 | CG iter. 45 -- res = 0.61856E+01, tol = 0.80767E+01, time = 1.56 | CG iter. 46 -- res = 0.51774E+01, tol = 0.80767E+01, time = 1.57 | CG iter. 47 -- res = 0.40594E+01, tol = 0.80767E+01, time = 1.50 | CG iter. 48 -- res = 0.31531E+01, tol = 0.80767E+01, time = 1.50 | CG iter. 49 -- res = 0.24588E+01, tol = 0.80767E+01, time = 1.58 | CG iter. 50 -- res = 0.20417E+01, tol = 0.80767E+01, time = 1.55 | Final CG iter 51 -- res = 0.20417E+01, tol = 0.80767E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8920653.763 | Old band monopole 8596354.711 | Change to band monopole 324299.052 | Change to component monopole -324297.657 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 4.24 | CG iter. 1 -- res = 0.16523E+06, tol = 0.47627E+18, time = 0.36 | CG iter. 2 -- res = 0.33007E+02, tol = 0.47627E+18, time = 0.35 | CG iter. 3 -- res = 0.98682E+00, tol = 0.47627E+18, time = 0.40 | CG iter. 4 -- res = 0.16330E-02, tol = 0.47627E+18, time = 0.40 | Final CG iter 5 -- res = 0.49479E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8920615.394 | (Sampled value in CG: 8882395.013 ) | 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 = 1.529983 | New value = 1.503916 | poltype: 2 pol: 1 CPU time specind = 6.0870647E-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 = 1.527226 | New value = 1.510680 | poltype: 2 pol: 2 CPU time specind = 2.6929379E-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 = 4.25 | CG iter. 1 -- res = 0.24183E+08, tol = 0.47546E+04, time = 1.78 | CG iter. 2 -- res = 0.53475E+07, tol = 0.47546E+04, time = 1.84 | CG iter. 3 -- res = 0.85554E+06, tol = 0.47546E+04, time = 1.80 | CG iter. 4 -- res = 0.35718E+06, tol = 0.47546E+04, time = 1.74 | CG iter. 5 -- res = 0.15735E+06, tol = 0.47546E+04, time = 1.78 | CG iter. 6 -- res = 0.83041E+05, tol = 0.47546E+04, time = 1.75 | CG iter. 7 -- res = 0.44389E+05, tol = 0.47546E+04, time = 1.71 | CG iter. 8 -- res = 0.21559E+05, tol = 0.47546E+04, time = 1.79 | CG iter. 9 -- res = 0.94956E+04, tol = 0.47546E+04, time = 1.83 | CG iter. 10 -- res = 0.38396E+04, tol = 0.47546E+04, time = 1.77 | CG iter. 11 -- res = 0.17206E+04, tol = 0.47546E+04, time = 1.75 | CG iter. 12 -- res = 0.87226E+03, tol = 0.47546E+04, time = 1.80 | CG iter. 13 -- res = 0.48987E+03, tol = 0.47546E+04, time = 1.78 | CG iter. 14 -- res = 0.28178E+03, tol = 0.47546E+04, time = 1.74 | CG iter. 15 -- res = 0.14555E+03, tol = 0.47546E+04, time = 1.77 | CG iter. 16 -- res = 0.68043E+02, tol = 0.47546E+04, time = 1.78 | CG iter. 17 -- res = 0.31949E+02, tol = 0.47546E+04, time = 1.76 | CG iter. 18 -- res = 0.15941E+02, tol = 0.47546E+04, time = 1.77 | CG iter. 19 -- res = 0.86743E+01, tol = 0.47546E+04, time = 1.78 | CG iter. 20 -- res = 0.49442E+01, tol = 0.47546E+04, time = 1.79 | CG iter. 21 -- res = 0.27617E+01, tol = 0.47546E+04, time = 1.79 | CG iter. 22 -- res = 0.14201E+01, tol = 0.47546E+04, time = 1.76 | CG iter. 23 -- res = 0.69845E+00, tol = 0.47546E+04, time = 1.83 | CG iter. 24 -- res = 0.35363E+00, tol = 0.47546E+04, time = 1.78 | CG iter. 25 -- res = 0.19498E+00, tol = 0.47546E+04, time = 1.76 | CG iter. 26 -- res = 0.11270E+00, tol = 0.47546E+04, time = 1.76 | CG iter. 27 -- res = 0.63978E-01, tol = 0.47546E+04, time = 1.77 | CG iter. 28 -- res = 0.34332E-01, tol = 0.47546E+04, time = 1.81 | CG iter. 29 -- res = 0.17742E-01, tol = 0.47546E+04, time = 1.81 | CG iter. 30 -- res = 0.91994E-02, tol = 0.47546E+04, time = 1.80 | CG iter. 31 -- res = 0.49783E-02, tol = 0.47546E+04, time = 1.78 | CG iter. 32 -- res = 0.27918E-02, tol = 0.47546E+04, time = 1.78 | CG iter. 33 -- res = 0.15865E-02, tol = 0.47546E+04, time = 1.82 | CG iter. 34 -- res = 0.85715E-03, tol = 0.47546E+04, time = 1.79 | CG iter. 35 -- res = 0.44629E-03, tol = 0.47546E+04, time = 1.78 | Final CG iter 36 -- res = 0.44629E-03, tol = 0.47546E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -3.026 2.725 | New value -1.219 | Old value -3.026 | Difference 1.807 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 4.24 | CG iter. 1 -- res = 0.17066E+06, tol = 0.47627E+18, time = 0.35 | CG iter. 2 -- res = 0.33829E+02, tol = 0.47627E+18, time = 0.41 | CG iter. 3 -- res = 0.10233E+01, tol = 0.47627E+18, time = 0.39 | CG iter. 4 -- res = 0.14594E-03, tol = 0.47627E+18, time = 0.39 | Final CG iter 5 -- res = 0.19774E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8920615.394 | (Sampled value in CG: 8881889.383 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.494033 | New value = -3.463644 | poltype: 1 pol: 1 CPU time specind = 3.4890175E-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 = 4.24 | CG iter. 1 -- res = 0.23603E+07, tol = 0.19604E+01, time = 0.69 | CG iter. 2 -- res = 0.63117E+05, tol = 0.19604E+01, time = 0.66 | CG iter. 3 -- res = 0.57653E+05, tol = 0.19604E+01, time = 0.64 | CG iter. 4 -- res = 0.14322E+05, tol = 0.19604E+01, time = 0.67 | CG iter. 5 -- res = 0.46931E+04, tol = 0.19604E+01, time = 0.67 | CG iter. 6 -- res = 0.15279E+04, tol = 0.19604E+01, time = 0.65 | CG iter. 7 -- res = 0.49697E+03, tol = 0.19604E+01, time = 0.65 | CG iter. 8 -- res = 0.16739E+03, tol = 0.19604E+01, time = 0.70 | CG iter. 9 -- res = 0.70719E+02, tol = 0.19604E+01, time = 0.67 | CG iter. 10 -- res = 0.34867E+02, tol = 0.19604E+01, time = 0.68 | CG iter. 11 -- res = 0.14163E+02, tol = 0.19604E+01, time = 0.68 | CG iter. 12 -- res = 0.43444E+01, tol = 0.19604E+01, time = 0.65 | CG iter. 13 -- res = 0.16288E+01, tol = 0.19604E+01, time = 0.64 | CG iter. 14 -- res = 0.71057E+00, tol = 0.19604E+01, time = 0.64 | CG iter. 15 -- res = 0.19834E+00, tol = 0.19604E+01, time = 0.67 | CG iter. 16 -- res = 0.64132E-01, tol = 0.19604E+01, time = 0.66 | CG iter. 17 -- res = 0.21622E-01, tol = 0.19604E+01, time = 0.68 | CG iter. 18 -- res = 0.84252E-02, tol = 0.19604E+01, time = 0.66 | CG iter. 19 -- res = 0.25517E-02, tol = 0.19604E+01, time = 0.64 | CG iter. 20 -- res = 0.86746E-03, tol = 0.19604E+01, time = 0.66 | CG iter. 21 -- res = 0.36392E-03, tol = 0.19604E+01, time = 0.65 | CG iter. 22 -- res = 0.15382E-03, tol = 0.19604E+01, time = 0.70 | CG iter. 23 -- res = 0.62331E-04, tol = 0.19604E+01, time = 0.66 | CG iter. 24 -- res = 0.19851E-04, tol = 0.19604E+01, time = 0.67 | CG iter. 25 -- res = 0.58597E-05, tol = 0.19604E+01, time = 0.62 | CG iter. 26 -- res = 0.16772E-05, tol = 0.19604E+01, time = 0.66 | CG iter. 27 -- res = 0.69693E-06, tol = 0.19604E+01, time = 0.68 | CG iter. 28 -- res = 0.24269E-06, tol = 0.19604E+01, time = 0.65 | CG iter. 29 -- res = 0.81113E-07, tol = 0.19604E+01, time = 0.68 | CG iter. 30 -- res = 0.25599E-07, tol = 0.19604E+01, time = 0.66 | CG iter. 31 -- res = 0.79421E-08, tol = 0.19604E+01, time = 0.66 | CG iter. 32 -- res = 0.52791E-08, tol = 0.19604E+01, time = 0.66 | CG iter. 33 -- res = 0.26250E-08, tol = 0.19604E+01, time = 0.65 | CG iter. 34 -- res = 0.70213E-09, tol = 0.19604E+01, time = 0.65 | CG iter. 35 -- res = 0.22003E-09, tol = 0.19604E+01, time = 0.64 | CG iter. 36 -- res = 0.66923E-10, tol = 0.19604E+01, time = 0.66 | CG iter. 37 -- res = 0.26249E-10, tol = 0.19604E+01, time = 0.62 | CG iter. 38 -- res = 0.23919E-10, tol = 0.19604E+01, time = 0.63 | CG iter. 39 -- res = 0.52792E-11, tol = 0.19604E+01, time = 0.66 | CG iter. 40 -- res = 0.13904E-11, tol = 0.19604E+01, time = 0.62 | CG iter. 41 -- res = 0.39087E-12, tol = 0.19604E+01, time = 0.65 | CG iter. 42 -- res = 0.13888E-12, tol = 0.19604E+01, time = 0.66 | CG iter. 43 -- res = 0.46547E-13, tol = 0.19604E+01, time = 0.68 | CG iter. 44 -- res = 0.16810E-13, tol = 0.19604E+01, time = 0.64 | CG iter. 45 -- res = 0.50414E-14, tol = 0.19604E+01, time = 0.68 | CG iter. 46 -- res = 0.15999E-14, tol = 0.19604E+01, time = 0.65 | CG iter. 47 -- res = 0.48229E-15, tol = 0.19604E+01, time = 0.68 | CG iter. 48 -- res = 0.14517E-15, tol = 0.19604E+01, time = 0.63 | CG iter. 49 -- res = 0.43208E-16, tol = 0.19604E+01, time = 0.65 | CG iter. 50 -- res = 0.13601E-16, tol = 0.19604E+01, time = 0.65 | Final CG iter 51 -- res = 0.13601E-16, tol = 0.19604E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -2.227 2.810 | New value -2.322 | Old value -2.227 | Difference -0.095 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 4.23 | CG iter. 1 -- res = 0.97202E+03, tol = 0.47627E+18, time = 0.37 | CG iter. 2 -- res = 0.64678E+01, tol = 0.47627E+18, time = 0.37 | CG iter. 3 -- res = 0.33440E-01, tol = 0.47627E+18, time = 0.36 | Final CG iter 4 -- res = 0.12774E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8920615.394 | (Sampled value in CG: 8891644.312 ) | CPU time specind = 277.7870 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 4.25 | CG iter. 1 -- res = 0.68765E+08, tol = 0.51510E+04, time = 3.09 | CG iter. 2 -- res = 0.32960E+08, tol = 0.51510E+04, time = 3.12 | CG iter. 3 -- res = 0.57558E+07, tol = 0.51510E+04, time = 3.18 | CG iter. 4 -- res = 0.29356E+07, tol = 0.51510E+04, time = 3.08 | CG iter. 5 -- res = 0.13125E+07, tol = 0.51510E+04, time = 3.14 | CG iter. 6 -- res = 0.71411E+06, tol = 0.51510E+04, time = 3.17 | CG iter. 7 -- res = 0.39393E+06, tol = 0.51510E+04, time = 3.28 | CG iter. 8 -- res = 0.19964E+06, tol = 0.51510E+04, time = 3.13 | CG iter. 9 -- res = 0.10016E+06, tol = 0.51510E+04, time = 3.16 | CG iter. 10 -- res = 0.46785E+05, tol = 0.51510E+04, time = 3.18 | CG iter. 11 -- res = 0.25300E+05, tol = 0.51510E+04, time = 3.13 | CG iter. 12 -- res = 0.15840E+05, tol = 0.51510E+04, time = 3.07 | CG iter. 13 -- res = 0.11172E+05, tol = 0.51510E+04, time = 3.12 | CG iter. 14 -- res = 0.89978E+04, tol = 0.51510E+04, time = 3.11 | CG iter. 15 -- res = 0.72273E+04, tol = 0.51510E+04, time = 3.14 | CG iter. 16 -- res = 0.63259E+04, tol = 0.51510E+04, time = 3.13 | CG iter. 17 -- res = 0.58105E+04, tol = 0.51510E+04, time = 3.14 | CG iter. 18 -- res = 0.57993E+04, tol = 0.51510E+04, time = 3.08 | CG iter. 19 -- res = 0.60208E+04, tol = 0.51510E+04, time = 3.16 | CG iter. 20 -- res = 0.60512E+04, tol = 0.51510E+04, time = 3.11 | CG iter. 21 -- res = 0.53127E+04, tol = 0.51510E+04, time = 3.12 | CG iter. 22 -- res = 0.39738E+04, tol = 0.51510E+04, time = 3.10 | CG iter. 23 -- res = 0.28564E+04, tol = 0.51510E+04, time = 3.21 | CG iter. 24 -- res = 0.21929E+04, tol = 0.51510E+04, time = 3.14 | CG iter. 25 -- res = 0.18720E+04, tol = 0.51510E+04, time = 3.15 | CG iter. 26 -- res = 0.16573E+04, tol = 0.51510E+04, time = 3.10 | CG iter. 27 -- res = 0.14031E+04, tol = 0.51510E+04, time = 3.16 | CG iter. 28 -- res = 0.11587E+04, tol = 0.51510E+04, time = 3.13 | CG iter. 29 -- res = 0.10230E+04, tol = 0.51510E+04, time = 3.15 | CG iter. 30 -- res = 0.10296E+04, tol = 0.51510E+04, time = 3.28 | CG iter. 31 -- res = 0.10632E+04, tol = 0.51510E+04, time = 3.16 | CG iter. 32 -- res = 0.10251E+04, tol = 0.51510E+04, time = 3.05 | CG iter. 33 -- res = 0.86498E+03, tol = 0.51510E+04, time = 3.21 | CG iter. 34 -- res = 0.70632E+03, tol = 0.51510E+04, time = 3.12 | CG iter. 35 -- res = 0.63126E+03, tol = 0.51510E+04, time = 3.18 | CG iter. 36 -- res = 0.62522E+03, tol = 0.51510E+04, time = 3.17 | CG iter. 37 -- res = 0.64070E+03, tol = 0.51510E+04, time = 3.13 | CG iter. 38 -- res = 0.61034E+03, tol = 0.51510E+04, time = 3.11 | CG iter. 39 -- res = 0.54671E+03, tol = 0.51510E+04, time = 3.16 | CG iter. 40 -- res = 0.51308E+03, tol = 0.51510E+04, time = 3.14 | CG iter. 41 -- res = 0.54037E+03, tol = 0.51510E+04, time = 3.10 | CG iter. 42 -- res = 0.59802E+03, tol = 0.51510E+04, time = 3.19 | CG iter. 43 -- res = 0.61918E+03, tol = 0.51510E+04, time = 3.10 | CG iter. 44 -- res = 0.57714E+03, tol = 0.51510E+04, time = 3.14 | CG iter. 45 -- res = 0.52405E+03, tol = 0.51510E+04, time = 3.15 | CG iter. 46 -- res = 0.51530E+03, tol = 0.51510E+04, time = 3.14 | CG iter. 47 -- res = 0.54911E+03, tol = 0.51510E+04, time = 3.16 | CG iter. 48 -- res = 0.58580E+03, tol = 0.51510E+04, time = 3.12 | CG iter. 49 -- res = 0.57399E+03, tol = 0.51510E+04, time = 3.10 | CG iter. 50 -- res = 0.54055E+03, tol = 0.51510E+04, time = 3.17 | CG iter. 51 -- res = 0.53008E+03, tol = 0.51510E+04, time = 3.22 | CG iter. 52 -- res = 0.56350E+03, tol = 0.51510E+04, time = 3.18 | CG iter. 53 -- res = 0.60434E+03, tol = 0.51510E+04, time = 3.16 | CG iter. 54 -- res = 0.59962E+03, tol = 0.51510E+04, time = 3.15 | CG iter. 55 -- res = 0.55081E+03, tol = 0.51510E+04, time = 3.14 | CG iter. 56 -- res = 0.50414E+03, tol = 0.51510E+04, time = 3.18 | CG iter. 57 -- res = 0.50195E+03, tol = 0.51510E+04, time = 3.14 | CG iter. 58 -- res = 0.52874E+03, tol = 0.51510E+04, time = 3.20 | CG iter. 59 -- res = 0.54209E+03, tol = 0.51510E+04, time = 3.20 | CG iter. 60 -- res = 0.50503E+03, tol = 0.51510E+04, time = 3.22 | Final CG iter 61 -- res = 0.50503E+03, tol = 0.51510E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 2.547 ( -231.454 -2234.337 2517.559 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9601000.714 | Old band monopole 8920653.763 | Change to band monopole 680346.951 | Change to component monopole -680344.025 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -1.184 2.733 | New value 2.995 | Old value -1.184 | Difference 4.179 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -4.102 ( 7.220 12.906 -13.621 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 15.251 2.649 | New value -1.698 | Old value 15.251 | Difference -16.949 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 4.21 | CG iter. 1 -- res = 0.93297E+06, tol = 0.47627E+18, time = 0.38 | CG iter. 2 -- res = 0.85016E+02, tol = 0.47627E+18, time = 0.38 | CG iter. 3 -- res = 0.25568E+01, tol = 0.47627E+18, time = 0.37 | CG iter. 4 -- res = 0.65824E-02, tol = 0.47627E+18, time = 0.41 | Final CG iter 5 -- res = 0.12388E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9600959.418 | (Sampled value in CG: 9531945.938 ) | Chain = 1 -- chisq = 0.61688454E+09 | Chain = 1 -- wall time = 4132.174 sec --------------------------------------------------------------------- | Chain = 1 -- Iteration = 78 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.17993889281062 | --> Sampling calibration, mode = relcal | relcal = -7.4897364E-02 -5.8432132E-02 9.1812931E-02 4.1516557E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.8145211E-04 4.6000476E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.1073E-05 | 2: delta_r/delta_0: 8.1897E-07 | 3: delta_s/delta_0: 2.9758E-07 | 4: delta_r/delta_0: 1.9943E-08 | 5: delta_s/delta_0: 1.4638E-08 | 6: delta_r/delta_0: 8.5957E-10 | 7: delta_s/delta_0: 3.1189E-10 | 8: delta_r/delta_0: 5.8938E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 7.762120098521287E-004 2.743541934708927E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.1075E-05 | 2: delta_r/delta_0: 8.1910E-07 | 3: delta_s/delta_0: 2.9768E-07 | 4: delta_r/delta_0: 1.9953E-08 | 5: delta_s/delta_0: 1.4675E-08 | 6: delta_r/delta_0: 8.5992E-10 | 7: delta_s/delta_0: 3.1194E-10 | 8: delta_r/delta_0: 5.8945E-11 | Reached bicg-stab tolerance | BP delta = 5.9866076E-03 1.5837410E-02 3747446.35479296 | BP delta = 5.9866076E-03 1.6431687E-02 3760130.40669222 | 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 = 1.02501273 | --> Sampling calibration, mode = relcal | relcal = -0.1066126 -9.5434681E-02 0.1448422 5.7205122E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.0083852E-03 1.2402806E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.5900E-04 | 2: delta_r/delta_0: 1.4514E-05 | 3: delta_s/delta_0: 4.2375E-06 | 4: delta_r/delta_0: 3.7921E-07 | 5: delta_s/delta_0: 4.5688E-07 | 6: delta_r/delta_0: 2.4099E-08 | 7: delta_s/delta_0: 3.2148E-09 | 8: delta_r/delta_0: 1.6339E-09 | 9: delta_s/delta_0: 1.9860E-08 | 10: delta_r/delta_0: 1.6120E-10 | 11: delta_s/delta_0: 1.2708E-10 | 12: delta_r/delta_0: 7.0934E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -5.085785891267488E-003 2.813526878079998E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 6.5895E-04 | 2: delta_r/delta_0: 1.4513E-05 | 3: delta_s/delta_0: 4.2372E-06 | 4: delta_r/delta_0: 3.7919E-07 | 5: delta_s/delta_0: 4.5677E-07 | 6: delta_r/delta_0: 2.4091E-08 | 7: delta_s/delta_0: 3.2143E-09 | 8: delta_r/delta_0: 1.6338E-09 | 9: delta_s/delta_0: 1.9860E-08 | 10: delta_r/delta_0: 1.6121E-10 | 11: delta_s/delta_0: 1.2707E-10 | 12: delta_r/delta_0: 7.0994E-11 | Reached bicg-stab tolerance | BP delta = -0.1779238 -0.1706632 2841503.69420219 | BP delta = -0.1779238 -0.1689924 2841509.57218244 | 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 = 0.81146459 | --> Sampling calibration, mode = relcal | relcal = 0.2951705 0.2246511 -0.2835059 -0.2363157 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -2.8873977E-04 4.9611977E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.7115E-04 | 2: delta_r/delta_0: 1.5219E-05 | 3: delta_s/delta_0: 1.6578E-03 | 4: delta_r/delta_0: 1.0218E-04 | 5: delta_s/delta_0: 1.8276E-05 | 6: delta_r/delta_0: 3.0426E-06 | 7: delta_s/delta_0: 5.9780E-08 | 8: delta_r/delta_0: 3.1169E-08 | 9: delta_s/delta_0: 2.5626E-07 | 10: delta_r/delta_0: 3.7806E-09 | 11: delta_s/delta_0: 9.3056E-10 | 12: delta_r/delta_0: 5.6847E-10 | 13: delta_s/delta_0: 2.9719E-10 | 14: delta_r/delta_0: 6.8504E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.166523719866655E-002 4.025519649583610E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 6.7157E-04 | 2: delta_r/delta_0: 1.5228E-05 | 3: delta_s/delta_0: 1.6564E-03 | 4: delta_r/delta_0: 1.0208E-04 | 5: delta_s/delta_0: 1.8329E-05 | 6: delta_r/delta_0: 3.0512E-06 | 7: delta_s/delta_0: 5.9771E-08 | 8: delta_r/delta_0: 3.1177E-08 | 9: delta_s/delta_0: 2.5726E-07 | 10: delta_r/delta_0: 3.7829E-09 | 11: delta_s/delta_0: 9.3010E-10 | 12: delta_r/delta_0: 5.6858E-10 | 13: delta_s/delta_0: 2.9745E-10 | 14: delta_r/delta_0: 6.8614E-11 | Reached bicg-stab tolerance | BP delta = -6.4367078E-02 -9.5975399E-02 2827491.17931350 | BP delta = -6.4367078E-02 -0.1169788 2827697.44360381 | 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 = 0.95824494 | --> Sampling calibration, mode = relcal | relcal = 0.1063908 0.1393230 -0.1101107 -0.1356031 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0823146E-02 1.4648750E-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: 3.3258E-05 | 3: delta_s/delta_0: 3.4676E-06 | 4: delta_r/delta_0: 3.9812E-07 | 5: delta_s/delta_0: 6.7709E-06 | 6: delta_r/delta_0: 2.1206E-07 | 7: delta_s/delta_0: 6.2739E-08 | 8: delta_r/delta_0: 4.1986E-08 | 9: delta_s/delta_0: 6.3070E-07 | 10: delta_r/delta_0: 8.3044E-09 | 11: delta_s/delta_0: 1.6361E-09 | 12: delta_r/delta_0: 1.0571E-09 | 13: delta_s/delta_0: 1.9919E-09 | 14: delta_r/delta_0: 1.0662E-10 | 15: delta_s/delta_0: 4.6199E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.216008574156599E-002 3.700618798300304E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.4190E-03 | 2: delta_r/delta_0: 3.3266E-05 | 3: delta_s/delta_0: 3.4682E-06 | 4: delta_r/delta_0: 3.9813E-07 | 5: delta_s/delta_0: 6.7725E-06 | 6: delta_r/delta_0: 2.1208E-07 | 7: delta_s/delta_0: 6.2738E-08 | 8: delta_r/delta_0: 4.1985E-08 | 9: delta_s/delta_0: 6.3031E-07 | 10: delta_r/delta_0: 8.3065E-09 | 11: delta_s/delta_0: 1.6362E-09 | 12: delta_r/delta_0: 1.0570E-09 | 13: delta_s/delta_0: 1.9832E-09 | 14: delta_r/delta_0: 1.0699E-10 | 15: delta_s/delta_0: 4.6189E-11 | Reached bicg-stab tolerance | BP delta = 0.2702344 0.2949011 3005378.73928911 | BP delta = 0.2702344 0.3069594 3005373.87773421 | BP chisq diff = -4.9, accept = T | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 060-WMAP_V1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.52095291 | --> Sampling calibration, mode = relcal | relcal = -5.0928865E-02 -3.7367737E-03 2.7086416E-02 2.7579220E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -4.6236784E-04 3.2320712E-04 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.4992E-05 | 2: delta_r/delta_0: 4.5608E-06 | 3: delta_s/delta_0: 6.8808E-06 | 4: delta_r/delta_0: 1.0360E-06 | 5: delta_s/delta_0: 4.5200E-08 | 6: delta_r/delta_0: 2.8854E-08 | 7: delta_s/delta_0: 8.1244E-08 | 8: delta_r/delta_0: 7.7417E-09 | 9: delta_s/delta_0: 2.4961E-09 | 10: delta_r/delta_0: 1.5368E-09 | 11: delta_s/delta_0: 6.1186E-10 | 12: delta_r/delta_0: 4.0532E-10 | 13: delta_s/delta_0: 1.6722E-10 | 14: delta_r/delta_0: 9.9529E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.046892448294420E-002 5.489723088079915E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 6.4992E-05 | 2: delta_r/delta_0: 4.5608E-06 | 3: delta_s/delta_0: 6.8809E-06 | 4: delta_r/delta_0: 1.0360E-06 | 5: delta_s/delta_0: 4.5200E-08 | 6: delta_r/delta_0: 2.8854E-08 | 7: delta_s/delta_0: 8.1244E-08 | 8: delta_r/delta_0: 7.7417E-09 | 9: delta_s/delta_0: 2.4961E-09 | 10: delta_r/delta_0: 1.5368E-09 | 11: delta_s/delta_0: 6.1184E-10 | 12: delta_r/delta_0: 4.0532E-10 | 13: delta_s/delta_0: 1.6723E-10 | 14: delta_r/delta_0: 9.9535E-11 | Reached bicg-stab tolerance | BP delta = -0.1172074 -1.4340500E-02 2435814.51239854 | BP delta = -0.1172074 -1.8919999E-02 2435814.22698731 | 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 = 0.42103309 | --> Sampling calibration, mode = relcal | relcal = 4.5584742E-02 3.9555591E-02 -2.8277941E-02 -5.6862392E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.2973215E-03 3.4830780E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.1082E-05 | 2: delta_r/delta_0: 3.7688E-06 | 3: delta_s/delta_0: 2.3539E-06 | 4: delta_r/delta_0: 3.7858E-07 | 5: delta_s/delta_0: 6.2230E-08 | 6: delta_r/delta_0: 3.6028E-08 | 7: delta_s/delta_0: 4.0531E-08 | 8: delta_r/delta_0: 1.2859E-08 | 9: delta_s/delta_0: 2.3583E-09 | 10: delta_r/delta_0: 1.4303E-09 | 11: delta_s/delta_0: 1.4562E-09 | 12: delta_r/delta_0: 4.3435E-10 | 13: delta_s/delta_0: 1.3287E-09 | 14: delta_r/delta_0: 5.0404E-10 | 15: delta_s/delta_0: 1.6728E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.360575417568837E-002 5.002240206169931E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 6.1082E-05 | 2: delta_r/delta_0: 3.7688E-06 | 3: delta_s/delta_0: 2.3539E-06 | 4: delta_r/delta_0: 3.7858E-07 | 5: delta_s/delta_0: 6.2230E-08 | 6: delta_r/delta_0: 3.6028E-08 | 7: delta_s/delta_0: 4.0530E-08 | 8: delta_r/delta_0: 1.2859E-08 | 9: delta_s/delta_0: 2.3583E-09 | 10: delta_r/delta_0: 1.4304E-09 | 11: delta_s/delta_0: 1.4563E-09 | 12: delta_r/delta_0: 4.3433E-10 | 13: delta_s/delta_0: 1.3288E-09 | 14: delta_r/delta_0: 5.0403E-10 | 15: delta_s/delta_0: 1.6728E-11 | Reached bicg-stab tolerance | BP delta = -0.1444641 -0.1977074 2322194.80292555 | BP delta = -0.1444641 -0.2097877 2322200.60556927 | 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 = 0.28122175 | --> Sampling calibration, mode = relcal | relcal = 2.4120204E-02 4.4990748E-02 -2.3259943E-02 -4.5851011E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.6569080E-03 2.2851399E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.0766E-04 | 2: delta_r/delta_0: 8.8067E-06 | 3: delta_s/delta_0: 1.4824E-06 | 4: delta_r/delta_0: 1.6277E-07 | 5: delta_s/delta_0: 6.4601E-08 | 6: delta_r/delta_0: 1.4624E-08 | 7: delta_s/delta_0: 7.1906E-09 | 8: delta_r/delta_0: 4.8570E-09 | 9: delta_s/delta_0: 6.9514E-08 | 10: delta_r/delta_0: 6.3209E-09 | 11: delta_s/delta_0: 8.7070E-10 | 12: delta_r/delta_0: 2.6355E-10 | 13: delta_s/delta_0: 4.2487E-10 | 14: delta_r/delta_0: 1.3223E-10 | 15: delta_s/delta_0: 7.3584E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.314045181636138E-003 7.854090800398856E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.0766E-04 | 2: delta_r/delta_0: 8.8067E-06 | 3: delta_s/delta_0: 1.4824E-06 | 4: delta_r/delta_0: 1.6277E-07 | 5: delta_s/delta_0: 6.4604E-08 | 6: delta_r/delta_0: 1.4624E-08 | 7: delta_s/delta_0: 7.1905E-09 | 8: delta_r/delta_0: 4.8570E-09 | 9: delta_s/delta_0: 6.9506E-08 | 10: delta_r/delta_0: 6.3209E-09 | 11: delta_s/delta_0: 8.7067E-10 | 12: delta_r/delta_0: 2.6353E-10 | 13: delta_s/delta_0: 4.2487E-10 | 14: delta_r/delta_0: 1.3222E-10 | 15: delta_s/delta_0: 7.3586E-11 | Reached bicg-stab tolerance | BP delta = 6.5337613E-02 -0.1052075 2490497.34641944 | BP delta = 6.5337613E-02 -0.1152641 2490491.03641984 | BP chisq diff = -6.3, accept = T | | Finished processing 090-WMAP_W1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.29353948 | --> Sampling calibration, mode = relcal | relcal = 5.8795436E-04 1.0210912E-02 -3.8120789E-03 -6.9867871E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.6991353E-02 1.5207336E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.3182E-04 | 2: delta_r/delta_0: 1.0991E-05 | 3: delta_s/delta_0: 1.6813E-06 | 4: delta_r/delta_0: 3.2437E-07 | 5: delta_s/delta_0: 9.0765E-08 | 6: delta_r/delta_0: 2.3040E-08 | 7: delta_s/delta_0: 1.0027E-08 | 8: delta_r/delta_0: 6.4341E-09 | 9: delta_s/delta_0: 7.3462E-09 | 10: delta_r/delta_0: 4.2870E-09 | 11: delta_s/delta_0: 3.0754E-07 | 12: delta_r/delta_0: 6.9156E-08 | 13: delta_s/delta_0: 3.5808E-10 | 14: delta_r/delta_0: 1.7236E-10 | 15: delta_s/delta_0: 9.8569E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.223412016976828E-003 8.317333994119966E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.3182E-04 | 2: delta_r/delta_0: 1.0990E-05 | 3: delta_s/delta_0: 1.6813E-06 | 4: delta_r/delta_0: 3.2435E-07 | 5: delta_s/delta_0: 9.0761E-08 | 6: delta_r/delta_0: 2.3039E-08 | 7: delta_s/delta_0: 1.0027E-08 | 8: delta_r/delta_0: 6.4338E-09 | 9: delta_s/delta_0: 7.3459E-09 | 10: delta_r/delta_0: 4.2868E-09 | 11: delta_s/delta_0: 3.0685E-07 | 12: delta_r/delta_0: 6.8968E-08 | 13: delta_s/delta_0: 3.5794E-10 | 14: delta_r/delta_0: 1.7234E-10 | 15: delta_s/delta_0: 9.8575E-11 | Reached bicg-stab tolerance | BP delta = -0.6953813 -0.6242858 2738223.18152925 | BP delta = -0.6953813 -0.6159923 2738218.17634004 | BP chisq diff = -5.0, accept = T | | Finished processing 090-WMAP_W2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W3 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.26465811 | --> Sampling calibration, mode = relcal | relcal = -5.5948938E-03 1.5078043E-02 -2.3889074E-03 -7.0942412E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -7.6053612E-04 3.3820865E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4520E-04 | 2: delta_r/delta_0: 1.2413E-05 | 3: delta_s/delta_0: 2.0587E-06 | 4: delta_r/delta_0: 2.7221E-07 | 5: delta_s/delta_0: 9.7551E-08 | 6: delta_r/delta_0: 2.0757E-08 | 7: delta_s/delta_0: 7.7507E-09 | 8: delta_r/delta_0: 4.7851E-09 | 9: delta_s/delta_0: 3.6743E-09 | 10: delta_r/delta_0: 2.2052E-09 | 11: delta_s/delta_0: 1.3019E-03 | 12: delta_r/delta_0: 1.4175E-06 | 13: delta_s/delta_0: 9.9600E-09 | 14: delta_r/delta_0: 2.9760E-09 | 15: delta_s/delta_0: 8.2561E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -7.121303989574984E-003 9.168115299290303E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.4520E-04 | 2: delta_r/delta_0: 1.2413E-05 | 3: delta_s/delta_0: 2.0587E-06 | 4: delta_r/delta_0: 2.7220E-07 | 5: delta_s/delta_0: 9.7551E-08 | 6: delta_r/delta_0: 2.0757E-08 | 7: delta_s/delta_0: 7.7506E-09 | 8: delta_r/delta_0: 4.7851E-09 | 9: delta_s/delta_0: 3.6743E-09 | 10: delta_r/delta_0: 2.2052E-09 | 11: delta_s/delta_0: 1.3023E-03 | 12: delta_r/delta_0: 1.4179E-06 | 13: delta_s/delta_0: 9.9586E-09 | 14: delta_r/delta_0: 2.9754E-09 | 15: delta_s/delta_0: 8.2560E-11 | Reached bicg-stab tolerance | BP delta = 0.1861955 0.2674346 2516782.65301011 | BP delta = 0.1861955 0.2646234 2516782.73306849 | 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 = 0.25623535 | --> Sampling calibration, mode = relcal | relcal = -3.1643167E-02 -2.5916805E-02 3.6959343E-02 2.0600630E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.4336971E-02 2.3146551E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4858E-04 | 2: delta_r/delta_0: 1.2497E-05 | 3: delta_s/delta_0: 1.9512E-06 | 4: delta_r/delta_0: 3.3494E-07 | 5: delta_s/delta_0: 1.2913E-07 | 6: delta_r/delta_0: 2.8144E-08 | 7: delta_s/delta_0: 1.3234E-08 | 8: delta_r/delta_0: 7.9480E-09 | 9: delta_s/delta_0: 1.7487E-08 | 10: delta_r/delta_0: 5.0528E-09 | 11: delta_s/delta_0: 1.3072E-08 | 12: delta_r/delta_0: 2.9843E-09 | 13: delta_s/delta_0: 1.4952E-08 | 14: delta_r/delta_0: 9.9376E-09 | 15: delta_s/delta_0: 1.0647E-10 | 16: delta_r/delta_0: 7.3300E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.005250576186431E-002 8.685998605844253E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.4858E-04 | 2: delta_r/delta_0: 1.2497E-05 | 3: delta_s/delta_0: 1.9512E-06 | 4: delta_r/delta_0: 3.3499E-07 | 5: delta_s/delta_0: 1.2916E-07 | 6: delta_r/delta_0: 2.8147E-08 | 7: delta_s/delta_0: 1.3235E-08 | 8: delta_r/delta_0: 7.9486E-09 | 9: delta_s/delta_0: 1.7491E-08 | 10: delta_r/delta_0: 5.0534E-09 | 11: delta_s/delta_0: 1.3059E-08 | 12: delta_r/delta_0: 2.9795E-09 | 13: delta_s/delta_0: 1.4554E-08 | 14: delta_r/delta_0: 9.6712E-09 | 15: delta_s/delta_0: 1.0639E-10 | 16: delta_r/delta_0: 7.3377E-11 | Reached bicg-stab tolerance | BP delta = -0.5997622 -0.6537111 2707237.11550839 | BP delta = -0.5997622 -0.6338326 2707269.92232906 | 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 = -3.140590 | New value = -3.145268 | poltype: 2 pol: 1 CPU time specind = 6.0069561E-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 = -3.254968 | New value = -3.158890 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.054719 | New value = -3.064006 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.195458 | New value = -3.050073 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.216757 | New value = -3.204970 | poltype: 2 pol: 2 CPU time specind = 2.6128292E-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 = 4.10 | CG iter. 1 -- res = 0.13539E+08, tol = 0.72799E+01, time = 1.59 | CG iter. 2 -- res = 0.42766E+05, tol = 0.72799E+01, time = 1.57 | CG iter. 3 -- res = 0.26130E+05, tol = 0.72799E+01, time = 1.58 | CG iter. 4 -- res = 0.80869E+04, tol = 0.72799E+01, time = 1.57 | CG iter. 5 -- res = 0.48034E+04, tol = 0.72799E+01, time = 1.56 | CG iter. 6 -- res = 0.29977E+04, tol = 0.72799E+01, time = 1.55 | CG iter. 7 -- res = 0.13314E+04, tol = 0.72799E+01, time = 1.55 | CG iter. 8 -- res = 0.61570E+03, tol = 0.72799E+01, time = 1.51 | CG iter. 9 -- res = 0.43090E+03, tol = 0.72799E+01, time = 1.51 | CG iter. 10 -- res = 0.44614E+03, tol = 0.72799E+01, time = 1.54 | CG iter. 11 -- res = 0.32630E+03, tol = 0.72799E+01, time = 1.52 | CG iter. 12 -- res = 0.24498E+03, tol = 0.72799E+01, time = 1.54 | CG iter. 13 -- res = 0.21341E+03, tol = 0.72799E+01, time = 1.57 | CG iter. 14 -- res = 0.12927E+03, tol = 0.72799E+01, time = 1.57 | CG iter. 15 -- res = 0.10188E+03, tol = 0.72799E+01, time = 1.55 | CG iter. 16 -- res = 0.79800E+02, tol = 0.72799E+01, time = 1.57 | CG iter. 17 -- res = 0.59694E+02, tol = 0.72799E+01, time = 1.56 | CG iter. 18 -- res = 0.49565E+02, tol = 0.72799E+01, time = 1.52 | CG iter. 19 -- res = 0.41778E+02, tol = 0.72799E+01, time = 1.59 | CG iter. 20 -- res = 0.32565E+02, tol = 0.72799E+01, time = 1.53 | CG iter. 21 -- res = 0.25174E+02, tol = 0.72799E+01, time = 1.52 | CG iter. 22 -- res = 0.19884E+02, tol = 0.72799E+01, time = 1.58 | CG iter. 23 -- res = 0.17051E+02, tol = 0.72799E+01, time = 1.51 | CG iter. 24 -- res = 0.12276E+02, tol = 0.72799E+01, time = 1.59 | CG iter. 25 -- res = 0.90032E+01, tol = 0.72799E+01, time = 1.58 | CG iter. 26 -- res = 0.74294E+01, tol = 0.72799E+01, time = 1.56 | CG iter. 27 -- res = 0.51703E+01, tol = 0.72799E+01, time = 1.61 | CG iter. 28 -- res = 0.35905E+01, tol = 0.72799E+01, time = 1.54 | CG iter. 29 -- res = 0.28000E+01, tol = 0.72799E+01, time = 1.49 | CG iter. 30 -- res = 0.22943E+01, tol = 0.72799E+01, time = 1.53 | CG iter. 31 -- res = 0.17146E+01, tol = 0.72799E+01, time = 1.51 | CG iter. 32 -- res = 0.12641E+01, tol = 0.72799E+01, time = 1.54 | CG iter. 33 -- res = 0.10211E+01, tol = 0.72799E+01, time = 1.55 | CG iter. 34 -- res = 0.77236E+00, tol = 0.72799E+01, time = 1.57 | CG iter. 35 -- res = 0.56471E+00, tol = 0.72799E+01, time = 1.52 | CG iter. 36 -- res = 0.44701E+00, tol = 0.72799E+01, time = 1.55 | CG iter. 37 -- res = 0.34329E+00, tol = 0.72799E+01, time = 1.59 | CG iter. 38 -- res = 0.24936E+00, tol = 0.72799E+01, time = 1.55 | CG iter. 39 -- res = 0.21389E+00, tol = 0.72799E+01, time = 1.53 | CG iter. 40 -- res = 0.25735E+00, tol = 0.72799E+01, time = 1.54 | CG iter. 41 -- res = 0.16977E+00, tol = 0.72799E+01, time = 1.54 | CG iter. 42 -- res = 0.11089E+00, tol = 0.72799E+01, time = 1.52 | CG iter. 43 -- res = 0.92046E-01, tol = 0.72799E+01, time = 1.54 | CG iter. 44 -- res = 0.12084E+00, tol = 0.72799E+01, time = 1.54 | CG iter. 45 -- res = 0.83126E-01, tol = 0.72799E+01, time = 1.53 | CG iter. 46 -- res = 0.57324E-01, tol = 0.72799E+01, time = 1.58 | CG iter. 47 -- res = 0.41769E-01, tol = 0.72799E+01, time = 1.57 | CG iter. 48 -- res = 0.31675E-01, tol = 0.72799E+01, time = 1.54 | CG iter. 49 -- res = 0.26865E-01, tol = 0.72799E+01, time = 1.55 | CG iter. 50 -- res = 0.29774E-01, tol = 0.72799E+01, time = 1.56 | Final CG iter 51 -- res = 0.29774E-01, tol = 0.72799E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9847949.773 | Old band monopole 9601000.714 | Change to band monopole 246949.059 | Change to component monopole -246947.997 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 4.09 | CG iter. 1 -- res = 0.39666E+04, tol = 0.47627E+18, time = 0.36 | CG iter. 2 -- res = 0.12517E+02, tol = 0.47627E+18, time = 0.38 | CG iter. 3 -- res = 0.32899E-01, tol = 0.47627E+18, time = 0.35 | Final CG iter 4 -- res = 0.42595E-04, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9847907.415 | (Sampled value in CG: 9843406.092 ) | 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 = 1.503916 | New value = 1.424036 | poltype: 2 pol: 1 CPU time specind = 6.0961246E-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 = 1.510680 | New value = 1.570929 | poltype: 2 pol: 2 CPU time specind = 2.3310184E-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 = 4.10 | CG iter. 1 -- res = 0.25402E+08, tol = 0.47472E+04, time = 1.75 | CG iter. 2 -- res = 0.55320E+07, tol = 0.47472E+04, time = 1.78 | CG iter. 3 -- res = 0.86495E+06, tol = 0.47472E+04, time = 1.75 | CG iter. 4 -- res = 0.35056E+06, tol = 0.47472E+04, time = 1.76 | CG iter. 5 -- res = 0.14597E+06, tol = 0.47472E+04, time = 1.75 | CG iter. 6 -- res = 0.77760E+05, tol = 0.47472E+04, time = 1.77 | CG iter. 7 -- res = 0.44342E+05, tol = 0.47472E+04, time = 1.81 | CG iter. 8 -- res = 0.21006E+05, tol = 0.47472E+04, time = 1.83 | CG iter. 9 -- res = 0.90968E+04, tol = 0.47472E+04, time = 1.74 | CG iter. 10 -- res = 0.37363E+04, tol = 0.47472E+04, time = 1.83 | CG iter. 11 -- res = 0.16697E+04, tol = 0.47472E+04, time = 1.76 | CG iter. 12 -- res = 0.83911E+03, tol = 0.47472E+04, time = 1.80 | CG iter. 13 -- res = 0.47515E+03, tol = 0.47472E+04, time = 1.79 | CG iter. 14 -- res = 0.26709E+03, tol = 0.47472E+04, time = 1.80 | CG iter. 15 -- res = 0.13855E+03, tol = 0.47472E+04, time = 1.74 | CG iter. 16 -- res = 0.67575E+02, tol = 0.47472E+04, time = 1.78 | CG iter. 17 -- res = 0.31805E+02, tol = 0.47472E+04, time = 1.76 | CG iter. 18 -- res = 0.15482E+02, tol = 0.47472E+04, time = 1.79 | CG iter. 19 -- res = 0.84825E+01, tol = 0.47472E+04, time = 1.80 | CG iter. 20 -- res = 0.48038E+01, tol = 0.47472E+04, time = 1.79 | CG iter. 21 -- res = 0.26730E+01, tol = 0.47472E+04, time = 1.81 | CG iter. 22 -- res = 0.14069E+01, tol = 0.47472E+04, time = 1.83 | CG iter. 23 -- res = 0.69230E+00, tol = 0.47472E+04, time = 1.82 | CG iter. 24 -- res = 0.34994E+00, tol = 0.47472E+04, time = 1.75 | CG iter. 25 -- res = 0.18844E+00, tol = 0.47472E+04, time = 1.81 | CG iter. 26 -- res = 0.10666E+00, tol = 0.47472E+04, time = 1.85 | CG iter. 27 -- res = 0.60380E-01, tol = 0.47472E+04, time = 1.82 | CG iter. 28 -- res = 0.32342E-01, tol = 0.47472E+04, time = 1.78 | CG iter. 29 -- res = 0.17327E-01, tol = 0.47472E+04, time = 1.78 | CG iter. 30 -- res = 0.91834E-02, tol = 0.47472E+04, time = 1.81 | CG iter. 31 -- res = 0.50626E-02, tol = 0.47472E+04, time = 1.76 | CG iter. 32 -- res = 0.29433E-02, tol = 0.47472E+04, time = 1.75 | CG iter. 33 -- res = 0.17028E-02, tol = 0.47472E+04, time = 1.77 | CG iter. 34 -- res = 0.93550E-03, tol = 0.47472E+04, time = 1.73 | CG iter. 35 -- res = 0.49940E-03, tol = 0.47472E+04, time = 1.86 | Final CG iter 36 -- res = 0.49940E-03, tol = 0.47472E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 3.024 2.759 | New value -4.793 | Old value 3.024 | Difference -7.818 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 4.10 | CG iter. 1 -- res = 0.31518E+07, tol = 0.47627E+18, time = 0.36 | CG iter. 2 -- res = 0.15022E+02, tol = 0.47627E+18, time = 0.38 | CG iter. 3 -- res = 0.63438E-01, tol = 0.47627E+18, time = 0.39 | CG iter. 4 -- res = 0.10908E-03, tol = 0.47627E+18, time = 0.38 | Final CG iter 5 -- res = 0.41677E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9847907.415 | (Sampled value in CG: 9842081.839 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.463644 | New value = -3.584596 | poltype: 1 pol: 1 CPU time specind = 3.5688877E-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 = 4.09 | CG iter. 1 -- res = 0.20624E+07, tol = 0.16646E+01, time = 0.62 | CG iter. 2 -- res = 0.35717E+05, tol = 0.16646E+01, time = 0.69 | CG iter. 3 -- res = 0.33396E+05, tol = 0.16646E+01, time = 0.67 | CG iter. 4 -- res = 0.82866E+04, tol = 0.16646E+01, time = 0.68 | CG iter. 5 -- res = 0.26832E+04, tol = 0.16646E+01, time = 0.66 | CG iter. 6 -- res = 0.10365E+04, tol = 0.16646E+01, time = 0.69 | CG iter. 7 -- res = 0.38042E+03, tol = 0.16646E+01, time = 0.66 | CG iter. 8 -- res = 0.14898E+03, tol = 0.16646E+01, time = 0.64 | CG iter. 9 -- res = 0.80421E+02, tol = 0.16646E+01, time = 0.63 | CG iter. 10 -- res = 0.22933E+02, tol = 0.16646E+01, time = 0.68 | CG iter. 11 -- res = 0.98521E+01, tol = 0.16646E+01, time = 0.66 | CG iter. 12 -- res = 0.33791E+01, tol = 0.16646E+01, time = 0.65 | CG iter. 13 -- res = 0.12126E+01, tol = 0.16646E+01, time = 0.63 | CG iter. 14 -- res = 0.44346E+00, tol = 0.16646E+01, time = 0.69 | CG iter. 15 -- res = 0.17908E+00, tol = 0.16646E+01, time = 0.67 | CG iter. 16 -- res = 0.53423E-01, tol = 0.16646E+01, time = 0.64 | CG iter. 17 -- res = 0.20664E-01, tol = 0.16646E+01, time = 0.65 | CG iter. 18 -- res = 0.79951E-02, tol = 0.16646E+01, time = 0.68 | CG iter. 19 -- res = 0.30432E-02, tol = 0.16646E+01, time = 0.63 | CG iter. 20 -- res = 0.12893E-02, tol = 0.16646E+01, time = 0.66 | CG iter. 21 -- res = 0.40074E-03, tol = 0.16646E+01, time = 0.66 | CG iter. 22 -- res = 0.14130E-03, tol = 0.16646E+01, time = 0.69 | CG iter. 23 -- res = 0.53667E-04, tol = 0.16646E+01, time = 0.67 | CG iter. 24 -- res = 0.19246E-04, tol = 0.16646E+01, time = 0.71 | CG iter. 25 -- res = 0.53530E-05, tol = 0.16646E+01, time = 0.68 | CG iter. 26 -- res = 0.17385E-05, tol = 0.16646E+01, time = 0.67 | CG iter. 27 -- res = 0.69668E-06, tol = 0.16646E+01, time = 0.65 | CG iter. 28 -- res = 0.25912E-06, tol = 0.16646E+01, time = 0.68 | CG iter. 29 -- res = 0.79933E-07, tol = 0.16646E+01, time = 0.66 | CG iter. 30 -- res = 0.23065E-07, tol = 0.16646E+01, time = 0.64 | CG iter. 31 -- res = 0.87220E-08, tol = 0.16646E+01, time = 0.66 | CG iter. 32 -- res = 0.65514E-08, tol = 0.16646E+01, time = 0.64 | CG iter. 33 -- res = 0.24103E-08, tol = 0.16646E+01, time = 0.66 | CG iter. 34 -- res = 0.63692E-09, tol = 0.16646E+01, time = 0.64 | CG iter. 35 -- res = 0.20579E-09, tol = 0.16646E+01, time = 0.65 | CG iter. 36 -- res = 0.70778E-10, tol = 0.16646E+01, time = 0.68 | CG iter. 37 -- res = 0.23436E-10, tol = 0.16646E+01, time = 0.68 | CG iter. 38 -- res = 0.22561E-10, tol = 0.16646E+01, time = 0.68 | CG iter. 39 -- res = 0.45341E-11, tol = 0.16646E+01, time = 0.67 | CG iter. 40 -- res = 0.10944E-11, tol = 0.16646E+01, time = 0.66 | CG iter. 41 -- res = 0.31396E-12, tol = 0.16646E+01, time = 0.63 | CG iter. 42 -- res = 0.10097E-12, tol = 0.16646E+01, time = 0.67 | CG iter. 43 -- res = 0.31591E-13, tol = 0.16646E+01, time = 0.68 | CG iter. 44 -- res = 0.10225E-13, tol = 0.16646E+01, time = 0.71 | CG iter. 45 -- res = 0.33341E-14, tol = 0.16646E+01, time = 0.72 | CG iter. 46 -- res = 0.12554E-14, tol = 0.16646E+01, time = 0.66 | CG iter. 47 -- res = 0.42501E-15, tol = 0.16646E+01, time = 0.66 | CG iter. 48 -- res = 0.11930E-15, tol = 0.16646E+01, time = 0.68 | CG iter. 49 -- res = 0.33246E-16, tol = 0.16646E+01, time = 0.67 | CG iter. 50 -- res = 0.10240E-16, tol = 0.16646E+01, time = 0.68 | Final CG iter 51 -- res = 0.10240E-16, tol = 0.16646E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -1.676 2.715 | New value -1.347 | Old value -1.676 | Difference 0.329 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 4.10 | CG iter. 1 -- res = 0.18930E+03, tol = 0.47627E+18, time = 0.37 | CG iter. 2 -- res = 0.91219E+01, tol = 0.47627E+18, time = 0.37 | CG iter. 3 -- res = 0.16980E-01, tol = 0.47627E+18, time = 0.37 | Final CG iter 4 -- res = 0.95309E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9847907.415 | (Sampled value in CG: 9844093.695 ) | CPU time specind = 277.3480 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 4.10 | CG iter. 1 -- res = 0.70243E+08, tol = 0.51345E+04, time = 3.17 | CG iter. 2 -- res = 0.33478E+08, tol = 0.51345E+04, time = 3.12 | CG iter. 3 -- res = 0.58568E+07, tol = 0.51345E+04, time = 3.08 | CG iter. 4 -- res = 0.30065E+07, tol = 0.51345E+04, time = 3.06 | CG iter. 5 -- res = 0.13461E+07, tol = 0.51345E+04, time = 3.10 | CG iter. 6 -- res = 0.72422E+06, tol = 0.51345E+04, time = 3.16 | CG iter. 7 -- res = 0.39001E+06, tol = 0.51345E+04, time = 3.22 | CG iter. 8 -- res = 0.19543E+06, tol = 0.51345E+04, time = 3.20 | CG iter. 9 -- res = 0.97288E+05, tol = 0.51345E+04, time = 3.20 | CG iter. 10 -- res = 0.43817E+05, tol = 0.51345E+04, time = 3.24 | CG iter. 11 -- res = 0.22130E+05, tol = 0.51345E+04, time = 3.19 | CG iter. 12 -- res = 0.12386E+05, tol = 0.51345E+04, time = 3.09 | CG iter. 13 -- res = 0.75240E+04, tol = 0.51345E+04, time = 3.14 | CG iter. 14 -- res = 0.50504E+04, tol = 0.51345E+04, time = 3.12 | CG iter. 15 -- res = 0.32461E+04, tol = 0.51345E+04, time = 3.20 | CG iter. 16 -- res = 0.22701E+04, tol = 0.51345E+04, time = 3.12 | CG iter. 17 -- res = 0.16940E+04, tol = 0.51345E+04, time = 3.17 | CG iter. 18 -- res = 0.14587E+04, tol = 0.51345E+04, time = 3.19 | CG iter. 19 -- res = 0.14702E+04, tol = 0.51345E+04, time = 3.27 | CG iter. 20 -- res = 0.16137E+04, tol = 0.51345E+04, time = 3.09 | CG iter. 21 -- res = 0.17613E+04, tol = 0.51345E+04, time = 3.10 | CG iter. 22 -- res = 0.16739E+04, tol = 0.51345E+04, time = 3.06 | CG iter. 23 -- res = 0.14401E+04, tol = 0.51345E+04, time = 3.22 | CG iter. 24 -- res = 0.12352E+04, tol = 0.51345E+04, time = 3.22 | CG iter. 25 -- res = 0.11083E+04, tol = 0.51345E+04, time = 3.20 | CG iter. 26 -- res = 0.10169E+04, tol = 0.51345E+04, time = 3.13 | CG iter. 27 -- res = 0.86857E+03, tol = 0.51345E+04, time = 3.16 | CG iter. 28 -- res = 0.70818E+03, tol = 0.51345E+04, time = 3.15 | CG iter. 29 -- res = 0.61154E+03, tol = 0.51345E+04, time = 3.20 | CG iter. 30 -- res = 0.61962E+03, tol = 0.51345E+04, time = 3.17 | CG iter. 31 -- res = 0.69451E+03, tol = 0.51345E+04, time = 3.18 | CG iter. 32 -- res = 0.78950E+03, tol = 0.51345E+04, time = 3.12 | CG iter. 33 -- res = 0.79509E+03, tol = 0.51345E+04, time = 3.16 | CG iter. 34 -- res = 0.73693E+03, tol = 0.51345E+04, time = 3.14 | CG iter. 35 -- res = 0.69152E+03, tol = 0.51345E+04, time = 3.08 | CG iter. 36 -- res = 0.70216E+03, tol = 0.51345E+04, time = 3.11 | CG iter. 37 -- res = 0.73694E+03, tol = 0.51345E+04, time = 3.09 | CG iter. 38 -- res = 0.71427E+03, tol = 0.51345E+04, time = 3.09 | CG iter. 39 -- res = 0.63522E+03, tol = 0.51345E+04, time = 3.21 | CG iter. 40 -- res = 0.57470E+03, tol = 0.51345E+04, time = 3.16 | CG iter. 41 -- res = 0.58120E+03, tol = 0.51345E+04, time = 3.15 | CG iter. 42 -- res = 0.64369E+03, tol = 0.51345E+04, time = 3.13 | CG iter. 43 -- res = 0.70760E+03, tol = 0.51345E+04, time = 3.14 | CG iter. 44 -- res = 0.70896E+03, tol = 0.51345E+04, time = 3.17 | CG iter. 45 -- res = 0.66257E+03, tol = 0.51345E+04, time = 3.21 | CG iter. 46 -- res = 0.64516E+03, tol = 0.51345E+04, time = 3.16 | CG iter. 47 -- res = 0.66943E+03, tol = 0.51345E+04, time = 3.11 | CG iter. 48 -- res = 0.69255E+03, tol = 0.51345E+04, time = 3.22 | CG iter. 49 -- res = 0.66497E+03, tol = 0.51345E+04, time = 3.17 | CG iter. 50 -- res = 0.59181E+03, tol = 0.51345E+04, time = 3.16 | CG iter. 51 -- res = 0.53524E+03, tol = 0.51345E+04, time = 3.20 | CG iter. 52 -- res = 0.52670E+03, tol = 0.51345E+04, time = 3.18 | CG iter. 53 -- res = 0.54086E+03, tol = 0.51345E+04, time = 3.12 | CG iter. 54 -- res = 0.53622E+03, tol = 0.51345E+04, time = 3.17 | CG iter. 55 -- res = 0.49032E+03, tol = 0.51345E+04, time = 3.24 | CG iter. 56 -- res = 0.43832E+03, tol = 0.51345E+04, time = 3.13 | CG iter. 57 -- res = 0.41740E+03, tol = 0.51345E+04, time = 3.15 | CG iter. 58 -- res = 0.42972E+03, tol = 0.51345E+04, time = 3.22 | CG iter. 59 -- res = 0.44371E+03, tol = 0.51345E+04, time = 3.12 | CG iter. 60 -- res = 0.42253E+03, tol = 0.51345E+04, time = 3.13 | Final CG iter 61 -- res = 0.42253E+03, tol = 0.51345E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 3.686 ( -231.310 -2234.927 2517.566 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 7878103.525 | Old band monopole 9847949.773 | Change to band monopole -1969846.248 | Change to component monopole 1969837.775 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -4.842 2.741 | New value 1.079 | Old value -4.842 | Difference 5.920 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -5.053 ( 8.307 12.770 -12.969 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 14.432 2.915 | New value 7.078 | Old value 14.432 | Difference -7.354 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 4.11 | CG iter. 1 -- res = 0.19658E+07, tol = 0.47627E+18, time = 0.36 | CG iter. 2 -- res = 0.11543E+03, tol = 0.47627E+18, time = 0.36 | CG iter. 3 -- res = 0.20591E+01, tol = 0.47627E+18, time = 0.40 | CG iter. 4 -- res = 0.25257E-01, tol = 0.47627E+18, time = 0.36 | Final CG iter 5 -- res = 0.10759E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7878069.640 | (Sampled value in CG: 7795790.999 ) | Chain = 1 -- chisq = 0.61739573E+09 | Chain = 1 -- wall time = 4700.293 sec --------------------------------------------------------------------- | Chain = 1 -- Iteration = 79 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18154841570995 | --> Sampling calibration, mode = relcal | relcal = -7.5241245E-02 -5.8751095E-02 9.2168778E-02 4.1823566E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -1.4036302E-04 5.1768902E-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: 9.9138E-07 | 3: delta_s/delta_0: 1.8779E-07 | 4: delta_r/delta_0: 1.9320E-08 | 5: delta_s/delta_0: 4.2677E-09 | 6: delta_r/delta_0: 1.5036E-09 | 7: delta_s/delta_0: 3.5105E-10 | 8: delta_r/delta_0: 8.6544E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 9.762642027440131E-004 2.739753738255020E-005 | BP delta = 5.9866076E-03 1.5837410E-02 29859410.6112519 | BP delta = 7.0565566E-03 1.6907360E-02 29859410.4363912 | 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 = 1.02509131 | --> Sampling calibration, mode = relcal | relcal = -0.1064857 -9.5512897E-02 0.1447973 5.7201311E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.0583246E-03 1.5329217E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.1655E-03 | 2: delta_r/delta_0: 4.6668E-05 | 3: delta_s/delta_0: 4.4313E-07 | 4: delta_r/delta_0: 6.6556E-08 | 5: delta_s/delta_0: 1.0759E-07 | 6: delta_r/delta_0: 1.6416E-08 | 7: delta_s/delta_0: 1.2604E-08 | 8: delta_r/delta_0: 3.8077E-09 | 9: delta_s/delta_0: 1.5815E-09 | 10: delta_r/delta_0: 1.1272E-09 | 11: delta_s/delta_0: 9.0631E-10 | 12: delta_r/delta_0: 3.3258E-10 | 13: delta_s/delta_0: 1.9198E-10 | 14: delta_r/delta_0: 3.1290E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.421102629171327E-002 2.813289082313342E-005 | BP delta = -0.1779238 -0.1706632 34769268.1521988 | BP delta = -0.1762673 -0.1690067 34769268.0578647 | 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 = 0.81147509 | --> Sampling calibration, mode = relcal | relcal = 0.2951043 0.2246568 -0.2835255 -0.2362356 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 6.8381225E-04 4.5734886E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 5.0359E-04 | 2: delta_r/delta_0: 1.1353E-05 | 3: delta_s/delta_0: 1.5544E-05 | 4: delta_r/delta_0: 4.2409E-07 | 5: delta_s/delta_0: 1.2538E-06 | 6: delta_r/delta_0: 1.6139E-07 | 7: delta_s/delta_0: 5.3680E-08 | 8: delta_r/delta_0: 2.8782E-08 | 9: delta_s/delta_0: 4.3374E-07 | 10: delta_r/delta_0: 1.0098E-08 | 11: delta_s/delta_0: 2.8168E-09 | 12: delta_r/delta_0: 4.8924E-10 | 13: delta_s/delta_0: 6.2495E-10 | 14: delta_r/delta_0: 1.1592E-10 | 15: delta_s/delta_0: 3.0466E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.379384001044293E-002 4.025370236110025E-005 | BP delta = -6.4367078E-02 -9.5975399E-02 43105267.3102845 | BP delta = -7.9806536E-02 -0.1114149 43105266.9633174 | 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 = 0.95811776 | --> Sampling calibration, mode = relcal | relcal = 0.1063766 0.1393489 -0.1100682 -0.1356573 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0097004E-02 1.2056483E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 3.9417E-04 | 2: delta_r/delta_0: 8.9586E-06 | 3: delta_s/delta_0: 1.0564E-03 | 4: delta_r/delta_0: 6.4658E-05 | 5: delta_s/delta_0: 2.1013E-04 | 6: delta_r/delta_0: 3.2730E-05 | 7: delta_s/delta_0: 5.7285E-08 | 8: delta_r/delta_0: 2.7842E-08 | 9: delta_s/delta_0: 7.6674E-08 | 10: delta_r/delta_0: 4.2412E-09 | 11: delta_s/delta_0: 1.8385E-09 | 12: delta_r/delta_0: 5.5349E-10 | 13: delta_s/delta_0: 4.2136E-09 | 14: delta_r/delta_0: 8.4717E-10 | 15: delta_s/delta_0: 4.1953E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.416211618464542E-002 3.701144099485670E-005 | BP delta = 0.2702344 0.3069594 43049019.8955543 | BP delta = 0.2700437 0.3067687 43049019.8857965 | 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 = 0.52090473 | --> Sampling calibration, mode = relcal | relcal = -5.0978366E-02 -3.6464692E-03 2.7184119E-02 2.7440716E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.6516442E-04 1.4513759E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.7393E-05 | 2: delta_r/delta_0: 4.6349E-06 | 3: delta_s/delta_0: 1.3930E-06 | 4: delta_r/delta_0: 1.0661E-07 | 5: delta_s/delta_0: 6.9665E-08 | 6: delta_r/delta_0: 3.5574E-08 | 7: delta_s/delta_0: 1.6134E-08 | 8: delta_r/delta_0: 1.0786E-08 | 9: delta_s/delta_0: 2.8450E-08 | 10: delta_r/delta_0: 1.1152E-09 | 11: delta_s/delta_0: 1.8025E-09 | 12: delta_r/delta_0: 1.3553E-09 | 13: delta_s/delta_0: 4.9739E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.197764214512900E-002 5.490233772255161E-005 | BP delta = -0.1172074 -1.8919999E-02 61506895.7999498 | BP delta = -0.1177110 -1.9423597E-02 61506895.7981979 | 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 = 0.42102858 | --> Sampling calibration, mode = relcal | relcal = 4.5487318E-02 3.9613392E-02 -2.8249333E-02 -5.6851380E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.6241850E-03 5.0160368E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.1508E-05 | 2: delta_r/delta_0: 3.8012E-06 | 3: delta_s/delta_0: 2.8528E-06 | 4: delta_r/delta_0: 4.7635E-07 | 5: delta_s/delta_0: 5.9830E-08 | 6: delta_r/delta_0: 3.5383E-08 | 7: delta_s/delta_0: 2.7281E-08 | 8: delta_r/delta_0: 1.2441E-08 | 9: delta_s/delta_0: 2.9174E-09 | 10: delta_r/delta_0: 1.4575E-09 | 11: delta_s/delta_0: 1.4111E-09 | 12: delta_r/delta_0: 1.0196E-09 | 13: delta_s/delta_0: 9.2288E-09 | 14: delta_r/delta_0: 1.8424E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.465519394843965E-002 5.002210410328650E-005 | BP delta = -0.1444641 -0.1977074 61339917.7028530 | BP delta = -0.1481381 -0.2013814 61339917.6897487 | 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 = 0.28116850 | --> Sampling calibration, mode = relcal | relcal = 2.4115067E-02 4.5132183E-02 -2.3277810E-02 -4.5969438E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.1310730E-02 3.4922259E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.2468E-04 | 2: delta_r/delta_0: 8.7559E-06 | 3: delta_s/delta_0: 1.5983E-06 | 4: delta_r/delta_0: 2.3507E-07 | 5: delta_s/delta_0: 5.4221E-08 | 6: delta_r/delta_0: 1.8752E-08 | 7: delta_s/delta_0: 8.2225E-09 | 8: delta_r/delta_0: 4.9632E-09 | 9: delta_s/delta_0: 2.9932E-08 | 10: delta_r/delta_0: 4.0080E-09 | 11: delta_s/delta_0: 3.0311E-09 | 12: delta_r/delta_0: 1.1670E-09 | 13: delta_s/delta_0: 1.6906E-10 | 14: delta_r/delta_0: 1.2718E-10 | 15: delta_s/delta_0: 9.1697E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.144343364635540E-003 7.856445711435346E-005 | BP delta = 6.5337613E-02 -0.1152641 94969461.8653693 | BP delta = 7.8703694E-02 -0.1018981 94969461.9800617 | 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 = 0.29347714 | --> Sampling calibration, mode = relcal | relcal = 5.7289004E-04 1.0149539E-02 -3.7561292E-03 -6.9662998E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.6976766E-02 1.4703747E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.3827E-04 | 2: delta_r/delta_0: 1.1414E-05 | 3: delta_s/delta_0: 1.9106E-06 | 4: delta_r/delta_0: 2.9783E-07 | 5: delta_s/delta_0: 1.0061E-07 | 6: delta_r/delta_0: 2.5141E-08 | 7: delta_s/delta_0: 1.0639E-08 | 8: delta_r/delta_0: 7.0430E-09 | 9: delta_s/delta_0: 4.6434E-09 | 10: delta_r/delta_0: 3.1549E-09 | 11: delta_s/delta_0: 3.4795E-06 | 12: delta_r/delta_0: 8.1411E-10 | 13: delta_s/delta_0: 6.6603E-10 | 14: delta_r/delta_0: 1.1917E-10 | 15: delta_s/delta_0: 3.9381E-10 | 16: delta_r/delta_0: 4.9210E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -8.990312979553043E-003 8.319175056096049E-005 | BP delta = -0.6953813 -0.6159923 93505749.2574929 | BP delta = -0.6956496 -0.6162606 93505749.2551993 | 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 = 0.26471839 | --> Sampling calibration, mode = relcal | relcal = -5.5859885E-03 1.5004254E-02 -2.2556451E-03 -7.1626203E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -2.7863886E-03 1.6148931E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4289E-04 | 2: delta_r/delta_0: 1.2320E-05 | 3: delta_s/delta_0: 2.1876E-06 | 4: delta_r/delta_0: 2.3744E-07 | 5: delta_s/delta_0: 8.0203E-08 | 6: delta_r/delta_0: 1.6313E-08 | 7: delta_s/delta_0: 6.7781E-09 | 8: delta_r/delta_0: 4.0049E-09 | 9: delta_s/delta_0: 3.4340E-09 | 10: delta_r/delta_0: 2.1551E-09 | 11: delta_s/delta_0: 5.4655E-04 | 12: delta_r/delta_0: 2.0534E-06 | 13: delta_s/delta_0: 4.4903E-10 | 14: delta_r/delta_0: 1.0394E-10 | 15: delta_s/delta_0: 1.1489E-10 | 16: delta_r/delta_0: 8.1317E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -6.658420871263190E-003 9.165743023836183E-005 | BP delta = 0.1861955 0.2646234 94708944.4753819 | BP delta = 0.1759021 0.2543300 94708944.4221087 | 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 = 0.25626246 | --> Sampling calibration, mode = relcal | relcal = -3.1562168E-02 -2.5917865E-02 3.6943853E-02 2.0536179E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.9019313E-02 1.6677853E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4961E-04 | 2: delta_r/delta_0: 1.2556E-05 | 3: delta_s/delta_0: 2.0734E-06 | 4: delta_r/delta_0: 3.9375E-07 | 5: delta_s/delta_0: 1.5251E-07 | 6: delta_r/delta_0: 3.0489E-08 | 7: delta_s/delta_0: 1.2589E-08 | 8: delta_r/delta_0: 7.8433E-09 | 9: delta_s/delta_0: 8.9142E-09 | 10: delta_r/delta_0: 5.0019E-09 | 11: delta_s/delta_0: 4.4476E-08 | 12: delta_r/delta_0: 1.0757E-09 | 13: delta_s/delta_0: 1.7470E-09 | 14: delta_r/delta_0: 4.8588E-10 | 15: delta_s/delta_0: 1.9054E-10 | 16: delta_r/delta_0: 1.6513E-10 | 17: delta_s/delta_0: 1.4961E-10 | 18: delta_r/delta_0: 1.3266E-10 | 19: delta_s/delta_0: 1.1787E-10 | 20: delta_r/delta_0: 8.6842E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.252885145149922E-003 8.684523057360048E-005 | BP delta = -0.5997622 -0.6537111 93065905.4285133 | BP delta = -0.5931791 -0.6471280 93065905.4768729 | 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 = -3.145268 | New value = -3.144703 | poltype: 2 pol: 1 CPU time specind = 6.5300465E-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 = -3.158890 | New value = -3.169689 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.064006 | New value = -3.135718 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.050073 | New value = -3.230804 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.204970 | New value = -3.138713 | poltype: 2 pol: 2 CPU time specind = 2.8967857E-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 = 4.13 | CG iter. 1 -- res = 0.13540E+08, tol = 0.84762E+01, time = 1.50 | CG iter. 2 -- res = 0.48333E+05, tol = 0.84762E+01, time = 1.57 | CG iter. 3 -- res = 0.33382E+05, tol = 0.84762E+01, time = 1.52 | CG iter. 4 -- res = 0.10178E+05, tol = 0.84762E+01, time = 1.54 | CG iter. 5 -- res = 0.45826E+04, tol = 0.84762E+01, time = 1.57 | CG iter. 6 -- res = 0.25215E+04, tol = 0.84762E+01, time = 1.55 | CG iter. 7 -- res = 0.17659E+04, tol = 0.84762E+01, time = 1.54 | CG iter. 8 -- res = 0.11181E+04, tol = 0.84762E+01, time = 1.54 | CG iter. 9 -- res = 0.82729E+03, tol = 0.84762E+01, time = 1.53 | CG iter. 10 -- res = 0.95385E+03, tol = 0.84762E+01, time = 1.52 | CG iter. 11 -- res = 0.68554E+03, tol = 0.84762E+01, time = 1.63 | CG iter. 12 -- res = 0.56151E+03, tol = 0.84762E+01, time = 1.56 | CG iter. 13 -- res = 0.43743E+03, tol = 0.84762E+01, time = 1.55 | CG iter. 14 -- res = 0.36196E+03, tol = 0.84762E+01, time = 1.56 | CG iter. 15 -- res = 0.35155E+03, tol = 0.84762E+01, time = 1.62 | CG iter. 16 -- res = 0.24463E+03, tol = 0.84762E+01, time = 1.58 | CG iter. 17 -- res = 0.15859E+03, tol = 0.84762E+01, time = 1.66 | CG iter. 18 -- res = 0.11934E+03, tol = 0.84762E+01, time = 1.62 | CG iter. 19 -- res = 0.11809E+03, tol = 0.84762E+01, time = 1.58 | CG iter. 20 -- res = 0.93396E+02, tol = 0.84762E+01, time = 1.55 | CG iter. 21 -- res = 0.65801E+02, tol = 0.84762E+01, time = 1.58 | CG iter. 22 -- res = 0.60319E+02, tol = 0.84762E+01, time = 1.55 | CG iter. 23 -- res = 0.51364E+02, tol = 0.84762E+01, time = 1.53 | CG iter. 24 -- res = 0.41015E+02, tol = 0.84762E+01, time = 1.55 | CG iter. 25 -- res = 0.33416E+02, tol = 0.84762E+01, time = 1.57 | CG iter. 26 -- res = 0.28776E+02, tol = 0.84762E+01, time = 1.50 | CG iter. 27 -- res = 0.24510E+02, tol = 0.84762E+01, time = 1.52 | CG iter. 28 -- res = 0.19626E+02, tol = 0.84762E+01, time = 1.51 | CG iter. 29 -- res = 0.16681E+02, tol = 0.84762E+01, time = 1.51 | CG iter. 30 -- res = 0.16135E+02, tol = 0.84762E+01, time = 1.51 | CG iter. 31 -- res = 0.12505E+02, tol = 0.84762E+01, time = 1.60 | CG iter. 32 -- res = 0.10201E+02, tol = 0.84762E+01, time = 1.58 | CG iter. 33 -- res = 0.92606E+01, tol = 0.84762E+01, time = 1.62 | CG iter. 34 -- res = 0.89702E+01, tol = 0.84762E+01, time = 1.55 | CG iter. 35 -- res = 0.72544E+01, tol = 0.84762E+01, time = 1.59 | CG iter. 36 -- res = 0.55214E+01, tol = 0.84762E+01, time = 1.59 | CG iter. 37 -- res = 0.45018E+01, tol = 0.84762E+01, time = 1.56 | CG iter. 38 -- res = 0.42551E+01, tol = 0.84762E+01, time = 1.57 | CG iter. 39 -- res = 0.42605E+01, tol = 0.84762E+01, time = 1.54 | CG iter. 40 -- res = 0.23027E+01, tol = 0.84762E+01, time = 1.59 | CG iter. 41 -- res = 0.16704E+01, tol = 0.84762E+01, time = 1.55 | CG iter. 42 -- res = 0.13493E+01, tol = 0.84762E+01, time = 1.61 | CG iter. 43 -- res = 0.17399E+01, tol = 0.84762E+01, time = 1.56 | CG iter. 44 -- res = 0.78792E+00, tol = 0.84762E+01, time = 1.63 | CG iter. 45 -- res = 0.63260E+00, tol = 0.84762E+01, time = 1.62 | CG iter. 46 -- res = 0.49813E+00, tol = 0.84762E+01, time = 1.54 | CG iter. 47 -- res = 0.34936E+00, tol = 0.84762E+01, time = 1.59 | CG iter. 48 -- res = 0.26101E+00, tol = 0.84762E+01, time = 1.55 | CG iter. 49 -- res = 0.20342E+00, tol = 0.84762E+01, time = 1.48 | CG iter. 50 -- res = 0.15668E+00, tol = 0.84762E+01, time = 1.55 | Final CG iter 51 -- res = 0.15668E+00, tol = 0.84762E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9476352.795 | Old band monopole 7878103.525 | Change to band monopole 1598249.269 | Change to component monopole -1598242.395 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 4.12 | CG iter. 1 -- res = 0.27534E+05, tol = 0.47627E+18, time = 0.36 | CG iter. 2 -- res = 0.13514E+02, tol = 0.47627E+18, time = 0.39 | CG iter. 3 -- res = 0.38947E-01, tol = 0.47627E+18, time = 0.35 | CG iter. 4 -- res = 0.80343E-04, tol = 0.47627E+18, time = 0.36 | Final CG iter 5 -- res = 0.20645E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9476312.035 | (Sampled value in CG: 9471641.784 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.424036 | New value = 1.492346 | poltype: 2 pol: 1 CPU time specind = 6.0091019E-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 = 1.570929 | New value = 1.538189 | poltype: 2 pol: 2 CPU time specind = 2.7229786E-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 = 4.12 | CG iter. 1 -- res = 0.25048E+08, tol = 0.47615E+04, time = 1.78 | CG iter. 2 -- res = 0.54495E+07, tol = 0.47615E+04, time = 1.74 | CG iter. 3 -- res = 0.87116E+06, tol = 0.47615E+04, time = 1.75 | CG iter. 4 -- res = 0.36201E+06, tol = 0.47615E+04, time = 1.80 | CG iter. 5 -- res = 0.15390E+06, tol = 0.47615E+04, time = 1.83 | CG iter. 6 -- res = 0.79274E+05, tol = 0.47615E+04, time = 1.76 | CG iter. 7 -- res = 0.43458E+05, tol = 0.47615E+04, time = 1.83 | CG iter. 8 -- res = 0.21542E+05, tol = 0.47615E+04, time = 1.80 | CG iter. 9 -- res = 0.97192E+04, tol = 0.47615E+04, time = 1.78 | CG iter. 10 -- res = 0.39443E+04, tol = 0.47615E+04, time = 1.79 | CG iter. 11 -- res = 0.17147E+04, tol = 0.47615E+04, time = 1.76 | CG iter. 12 -- res = 0.87362E+03, tol = 0.47615E+04, time = 1.74 | CG iter. 13 -- res = 0.48964E+03, tol = 0.47615E+04, time = 1.76 | CG iter. 14 -- res = 0.27890E+03, tol = 0.47615E+04, time = 1.81 | CG iter. 15 -- res = 0.14544E+03, tol = 0.47615E+04, time = 1.81 | CG iter. 16 -- res = 0.69777E+02, tol = 0.47615E+04, time = 1.78 | CG iter. 17 -- res = 0.32479E+02, tol = 0.47615E+04, time = 1.76 | CG iter. 18 -- res = 0.15825E+02, tol = 0.47615E+04, time = 1.83 | CG iter. 19 -- res = 0.82628E+01, tol = 0.47615E+04, time = 1.84 | CG iter. 20 -- res = 0.45273E+01, tol = 0.47615E+04, time = 1.85 | CG iter. 21 -- res = 0.24630E+01, tol = 0.47615E+04, time = 1.85 | CG iter. 22 -- res = 0.12541E+01, tol = 0.47615E+04, time = 1.83 | CG iter. 23 -- res = 0.64323E+00, tol = 0.47615E+04, time = 1.78 | CG iter. 24 -- res = 0.33469E+00, tol = 0.47615E+04, time = 1.85 | CG iter. 25 -- res = 0.18324E+00, tol = 0.47615E+04, time = 1.80 | CG iter. 26 -- res = 0.10508E+00, tol = 0.47615E+04, time = 1.85 | CG iter. 27 -- res = 0.58245E-01, tol = 0.47615E+04, time = 1.77 | CG iter. 28 -- res = 0.31129E-01, tol = 0.47615E+04, time = 1.77 | CG iter. 29 -- res = 0.16249E-01, tol = 0.47615E+04, time = 1.78 | CG iter. 30 -- res = 0.85263E-02, tol = 0.47615E+04, time = 1.82 | CG iter. 31 -- res = 0.46802E-02, tol = 0.47615E+04, time = 1.82 | CG iter. 32 -- res = 0.26373E-02, tol = 0.47615E+04, time = 1.84 | CG iter. 33 -- res = 0.15130E-02, tol = 0.47615E+04, time = 1.84 | CG iter. 34 -- res = 0.81591E-03, tol = 0.47615E+04, time = 1.91 | CG iter. 35 -- res = 0.42500E-03, tol = 0.47615E+04, time = 1.84 | Final CG iter 36 -- res = 0.42500E-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) 1.128 2.757 | New value 3.543 | Old value 1.128 | Difference 2.416 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 4.13 | CG iter. 1 -- res = 0.30622E+06, tol = 0.47627E+18, time = 0.33 | CG iter. 2 -- res = 0.19109E+02, tol = 0.47627E+18, time = 0.35 | CG iter. 3 -- res = 0.10705E+00, tol = 0.47627E+18, time = 0.35 | CG iter. 4 -- res = 0.12743E-03, tol = 0.47627E+18, time = 0.33 | Final CG iter 5 -- res = 0.52179E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9476312.035 | (Sampled value in CG: 9471363.117 ) | 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 = -3.584596 | New value = -3.631923 | poltype: 1 pol: 1 CPU time specind = 3.4790039E-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 = 4.12 | CG iter. 1 -- res = 0.20471E+07, tol = 0.10095E+01, time = 0.65 | CG iter. 2 -- res = 0.33438E+05, tol = 0.10095E+01, time = 0.66 | CG iter. 3 -- res = 0.22431E+05, tol = 0.10095E+01, time = 0.67 | CG iter. 4 -- res = 0.73480E+04, tol = 0.10095E+01, time = 0.68 | CG iter. 5 -- res = 0.33371E+04, tol = 0.10095E+01, time = 0.70 | CG iter. 6 -- res = 0.96368E+03, tol = 0.10095E+01, time = 0.68 | CG iter. 7 -- res = 0.33164E+03, tol = 0.10095E+01, time = 0.67 | CG iter. 8 -- res = 0.98976E+02, tol = 0.10095E+01, time = 0.67 | CG iter. 9 -- res = 0.39434E+02, tol = 0.10095E+01, time = 0.65 | CG iter. 10 -- res = 0.16189E+02, tol = 0.10095E+01, time = 0.64 | CG iter. 11 -- res = 0.99002E+01, tol = 0.10095E+01, time = 0.63 | CG iter. 12 -- res = 0.36968E+01, tol = 0.10095E+01, time = 0.65 | CG iter. 13 -- res = 0.11747E+01, tol = 0.10095E+01, time = 0.63 | CG iter. 14 -- res = 0.41730E+00, tol = 0.10095E+01, time = 0.64 | CG iter. 15 -- res = 0.16231E+00, tol = 0.10095E+01, time = 0.67 | CG iter. 16 -- res = 0.57183E-01, tol = 0.10095E+01, time = 0.67 | CG iter. 17 -- res = 0.21731E-01, tol = 0.10095E+01, time = 0.64 | CG iter. 18 -- res = 0.83699E-02, tol = 0.10095E+01, time = 0.66 | CG iter. 19 -- res = 0.34050E-02, tol = 0.10095E+01, time = 0.66 | CG iter. 20 -- res = 0.13330E-02, tol = 0.10095E+01, time = 0.70 | CG iter. 21 -- res = 0.35475E-03, tol = 0.10095E+01, time = 0.65 | CG iter. 22 -- res = 0.13112E-03, tol = 0.10095E+01, time = 0.67 | CG iter. 23 -- res = 0.45702E-04, tol = 0.10095E+01, time = 0.68 | CG iter. 24 -- res = 0.16166E-04, tol = 0.10095E+01, time = 0.64 | CG iter. 25 -- res = 0.50364E-05, tol = 0.10095E+01, time = 0.61 | CG iter. 26 -- res = 0.15994E-05, tol = 0.10095E+01, time = 0.65 | CG iter. 27 -- res = 0.55592E-06, tol = 0.10095E+01, time = 0.63 | CG iter. 28 -- res = 0.19079E-06, tol = 0.10095E+01, time = 0.64 | CG iter. 29 -- res = 0.64584E-07, tol = 0.10095E+01, time = 0.69 | CG iter. 30 -- res = 0.20566E-07, tol = 0.10095E+01, time = 0.69 | CG iter. 31 -- res = 0.66790E-08, tol = 0.10095E+01, time = 0.66 | CG iter. 32 -- res = 0.22341E-08, tol = 0.10095E+01, time = 0.64 | CG iter. 33 -- res = 0.99811E-09, tol = 0.10095E+01, time = 0.68 | CG iter. 34 -- res = 0.70238E-09, tol = 0.10095E+01, time = 0.68 | CG iter. 35 -- res = 0.18656E-09, tol = 0.10095E+01, time = 0.63 | CG iter. 36 -- res = 0.57929E-10, tol = 0.10095E+01, time = 0.63 | CG iter. 37 -- res = 0.17727E-10, tol = 0.10095E+01, time = 0.64 | CG iter. 38 -- res = 0.71660E-11, tol = 0.10095E+01, time = 0.64 | CG iter. 39 -- res = 0.57976E-11, tol = 0.10095E+01, time = 0.64 | CG iter. 40 -- res = 0.11532E-11, tol = 0.10095E+01, time = 0.70 | CG iter. 41 -- res = 0.34684E-12, tol = 0.10095E+01, time = 0.64 | CG iter. 42 -- res = 0.11444E-12, tol = 0.10095E+01, time = 0.63 | CG iter. 43 -- res = 0.34378E-13, tol = 0.10095E+01, time = 0.69 | CG iter. 44 -- res = 0.99443E-14, tol = 0.10095E+01, time = 0.68 | CG iter. 45 -- res = 0.29105E-14, tol = 0.10095E+01, time = 0.71 | CG iter. 46 -- res = 0.11703E-14, tol = 0.10095E+01, time = 0.63 | CG iter. 47 -- res = 0.42539E-15, tol = 0.10095E+01, time = 0.64 | CG iter. 48 -- res = 0.13084E-15, tol = 0.10095E+01, time = 0.63 | CG iter. 49 -- res = 0.39722E-16, tol = 0.10095E+01, time = 0.63 | CG iter. 50 -- res = 0.11479E-16, tol = 0.10095E+01, time = 0.64 | Final CG iter 51 -- res = 0.11479E-16, tol = 0.10095E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 6.378 2.990 | New value 0.164 | Old value 6.378 | Difference -6.213 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 4.11 | CG iter. 1 -- res = 0.23786E+05, tol = 0.47627E+18, time = 0.35 | CG iter. 2 -- res = 0.14936E+02, tol = 0.47627E+18, time = 0.37 | CG iter. 3 -- res = 0.41735E-02, tol = 0.47627E+18, time = 0.36 | Final CG iter 4 -- res = 0.80842E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9476312.035 | (Sampled value in CG: 9477220.950 ) | CPU time specind = 278.6072 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 4.14 | CG iter. 1 -- res = 0.69934E+08, tol = 0.51542E+04, time = 3.16 | CG iter. 2 -- res = 0.33286E+08, tol = 0.51542E+04, time = 3.15 | CG iter. 3 -- res = 0.58275E+07, tol = 0.51542E+04, time = 3.20 | CG iter. 4 -- res = 0.29653E+07, tol = 0.51542E+04, time = 3.08 | CG iter. 5 -- res = 0.13175E+07, tol = 0.51542E+04, time = 3.07 | CG iter. 6 -- res = 0.71932E+06, tol = 0.51542E+04, time = 3.10 | CG iter. 7 -- res = 0.39343E+06, tol = 0.51542E+04, time = 3.02 | CG iter. 8 -- res = 0.19773E+06, tol = 0.51542E+04, time = 3.12 | CG iter. 9 -- res = 0.98010E+05, tol = 0.51542E+04, time = 3.12 | CG iter. 10 -- res = 0.43708E+05, tol = 0.51542E+04, time = 3.11 | CG iter. 11 -- res = 0.22399E+05, tol = 0.51542E+04, time = 3.16 | CG iter. 12 -- res = 0.12656E+05, tol = 0.51542E+04, time = 3.13 | CG iter. 13 -- res = 0.78126E+04, tol = 0.51542E+04, time = 3.15 | CG iter. 14 -- res = 0.53621E+04, tol = 0.51542E+04, time = 3.16 | CG iter. 15 -- res = 0.35740E+04, tol = 0.51542E+04, time = 3.16 | CG iter. 16 -- res = 0.26163E+04, tol = 0.51542E+04, time = 3.23 | CG iter. 17 -- res = 0.20422E+04, tol = 0.51542E+04, time = 3.20 | CG iter. 18 -- res = 0.18414E+04, tol = 0.51542E+04, time = 3.20 | CG iter. 19 -- res = 0.19248E+04, tol = 0.51542E+04, time = 3.11 | CG iter. 20 -- res = 0.21551E+04, tol = 0.51542E+04, time = 3.17 | CG iter. 21 -- res = 0.23250E+04, tol = 0.51542E+04, time = 3.06 | CG iter. 22 -- res = 0.21445E+04, tol = 0.51542E+04, time = 3.13 | CG iter. 23 -- res = 0.17909E+04, tol = 0.51542E+04, time = 3.17 | CG iter. 24 -- res = 0.15007E+04, tol = 0.51542E+04, time = 3.12 | CG iter. 25 -- res = 0.13208E+04, tol = 0.51542E+04, time = 3.14 | CG iter. 26 -- res = 0.11779E+04, tol = 0.51542E+04, time = 3.16 | CG iter. 27 -- res = 0.99474E+03, tol = 0.51542E+04, time = 3.17 | CG iter. 28 -- res = 0.80574E+03, tol = 0.51542E+04, time = 3.15 | CG iter. 29 -- res = 0.70665E+03, tol = 0.51542E+04, time = 3.23 | CG iter. 30 -- res = 0.72429E+03, tol = 0.51542E+04, time = 3.15 | CG iter. 31 -- res = 0.81659E+03, tol = 0.51542E+04, time = 3.09 | CG iter. 32 -- res = 0.91456E+03, tol = 0.51542E+04, time = 3.11 | CG iter. 33 -- res = 0.90449E+03, tol = 0.51542E+04, time = 3.13 | CG iter. 34 -- res = 0.81978E+03, tol = 0.51542E+04, time = 3.13 | CG iter. 35 -- res = 0.76319E+03, tol = 0.51542E+04, time = 3.21 | CG iter. 36 -- res = 0.77021E+03, tol = 0.51542E+04, time = 3.04 | CG iter. 37 -- res = 0.80260E+03, tol = 0.51542E+04, time = 3.14 | CG iter. 38 -- res = 0.77172E+03, tol = 0.51542E+04, time = 3.15 | CG iter. 39 -- res = 0.68237E+03, tol = 0.51542E+04, time = 3.11 | CG iter. 40 -- res = 0.61618E+03, tol = 0.51542E+04, time = 3.18 | CG iter. 41 -- res = 0.61904E+03, tol = 0.51542E+04, time = 3.15 | CG iter. 42 -- res = 0.67620E+03, tol = 0.51542E+04, time = 3.23 | CG iter. 43 -- res = 0.72217E+03, tol = 0.51542E+04, time = 3.16 | CG iter. 44 -- res = 0.70016E+03, tol = 0.51542E+04, time = 3.10 | CG iter. 45 -- res = 0.64277E+03, tol = 0.51542E+04, time = 3.17 | CG iter. 46 -- res = 0.62143E+03, tol = 0.51542E+04, time = 3.18 | CG iter. 47 -- res = 0.64223E+03, tol = 0.51542E+04, time = 3.16 | CG iter. 48 -- res = 0.66499E+03, tol = 0.51542E+04, time = 3.11 | CG iter. 49 -- res = 0.64015E+03, tol = 0.51542E+04, time = 3.12 | CG iter. 50 -- res = 0.57158E+03, tol = 0.51542E+04, time = 3.18 | CG iter. 51 -- res = 0.52433E+03, tol = 0.51542E+04, time = 3.14 | CG iter. 52 -- res = 0.52770E+03, tol = 0.51542E+04, time = 3.24 | CG iter. 53 -- res = 0.55453E+03, tol = 0.51542E+04, time = 3.28 | CG iter. 54 -- res = 0.56124E+03, tol = 0.51542E+04, time = 3.25 | CG iter. 55 -- res = 0.52100E+03, tol = 0.51542E+04, time = 3.16 | CG iter. 56 -- res = 0.47349E+03, tol = 0.51542E+04, time = 3.21 | CG iter. 57 -- res = 0.46014E+03, tol = 0.51542E+04, time = 3.17 | CG iter. 58 -- res = 0.47809E+03, tol = 0.51542E+04, time = 3.21 | CG iter. 59 -- res = 0.49014E+03, tol = 0.51542E+04, time = 3.17 | CG iter. 60 -- res = 0.46629E+03, tol = 0.51542E+04, time = 3.24 | Final CG iter 61 -- res = 0.46629E+03, tol = 0.51542E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 2.966 ( -231.300 -2234.077 2517.229 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 13941337.765 | Old band monopole 9476352.795 | Change to band monopole 4464984.971 | Change to component monopole -4464965.766 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 3.559 2.761 | New value -5.527 | Old value 3.559 | Difference -9.085 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -3.448 ( 7.894 11.833 -12.118 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 8.000 2.958 | New value -1.482 | Old value 8.000 | Difference -9.482 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 4.12 | CG iter. 1 -- res = 0.44429E+07, tol = 0.47627E+18, time = 0.40 | CG iter. 2 -- res = 0.74588E+02, tol = 0.47627E+18, time = 0.38 | CG iter. 3 -- res = 0.23826E+01, tol = 0.47627E+18, time = 0.40 | CG iter. 4 -- res = 0.16641E-01, tol = 0.47627E+18, time = 0.34 | Final CG iter 5 -- res = 0.35923E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 13941277.801 | (Sampled value in CG: 13883601.168 ) | Chain = 1 -- chisq = 0.61601536E+09 | Chain = 1 -- wall time = 4127.836 sec --------------------------------------------------------------------- | Chain = 1 -- Iteration = 80 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18463529018570 | --> Sampling calibration, mode = relcal | relcal = -7.5593479E-02 -5.9053365E-02 9.2636988E-02 4.2009853E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 5.9067213E-05 5.9173666E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.5390E-05 | 2: delta_r/delta_0: 1.1940E-06 | 3: delta_s/delta_0: 1.8771E-07 | 4: delta_r/delta_0: 2.0211E-08 | 5: delta_s/delta_0: 5.1057E-09 | 6: delta_r/delta_0: 9.0618E-10 | 7: delta_s/delta_0: 3.1077E-10 | 8: delta_r/delta_0: 7.9830E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 8.764965806716913E-004 2.732591673338792E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.5383E-05 | 2: delta_r/delta_0: 1.1938E-06 | 3: delta_s/delta_0: 1.8771E-07 | 4: delta_r/delta_0: 2.0203E-08 | 5: delta_s/delta_0: 5.1017E-09 | 6: delta_r/delta_0: 9.0630E-10 | 7: delta_s/delta_0: 3.0980E-10 | 8: delta_r/delta_0: 7.9850E-11 | Reached bicg-stab tolerance | BP delta = 7.0565566E-03 1.6907360E-02 3707476.21834997 | BP delta = 7.0565566E-03 1.6918294E-02 3693086.83448418 | BP chisq diff = -14389.4, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02514295 | --> Sampling calibration, mode = relcal | relcal = -0.1065104 -9.5495656E-02 0.1448309 5.7175107E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.6516620E-03 1.5342636E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 3.5610E-04 | 2: delta_r/delta_0: 7.8120E-06 | 3: delta_s/delta_0: 2.5061E-06 | 4: delta_r/delta_0: 2.3543E-07 | 5: delta_s/delta_0: 8.9108E-08 | 6: delta_r/delta_0: 5.5580E-09 | 7: delta_s/delta_0: 3.2304E-09 | 8: delta_r/delta_0: 1.4597E-09 | 9: delta_s/delta_0: 8.8742E-09 | 10: delta_r/delta_0: 4.5551E-10 | 11: delta_s/delta_0: 1.2883E-10 | 12: delta_r/delta_0: 9.5620E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -7.270561401718856E-003 2.813165373311239E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 3.5610E-04 | 2: delta_r/delta_0: 7.8121E-06 | 3: delta_s/delta_0: 2.5061E-06 | 4: delta_r/delta_0: 2.3543E-07 | 5: delta_s/delta_0: 8.9109E-08 | 6: delta_r/delta_0: 5.5580E-09 | 7: delta_s/delta_0: 3.2304E-09 | 8: delta_r/delta_0: 1.4597E-09 | 9: delta_s/delta_0: 8.8743E-09 | 10: delta_r/delta_0: 4.5550E-10 | 11: delta_s/delta_0: 1.2883E-10 | 12: delta_r/delta_0: 9.5619E-11 | Reached bicg-stab tolerance | BP delta = -0.1762673 -0.1690067 2841615.16701233 | BP delta = -0.1762673 -0.1704792 2841615.27291226 | 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 = 0.81138374 | --> Sampling calibration, mode = relcal | relcal = 0.2951871 0.2246470 -0.2834441 -0.2363900 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.4845023E-03 5.5460404E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.2042E-03 | 2: delta_r/delta_0: 2.7604E-05 | 3: delta_s/delta_0: 4.3283E-03 | 4: delta_r/delta_0: 1.9296E-04 | 5: delta_s/delta_0: 1.5160E-01 | 6: delta_r/delta_0: 2.2125E-02 | 7: delta_s/delta_0: 5.3335E-08 | 8: delta_r/delta_0: 3.5629E-08 | 9: delta_s/delta_0: 4.0238E-07 | 10: delta_r/delta_0: 4.1706E-09 | 11: delta_s/delta_0: 1.2082E-09 | 12: delta_r/delta_0: 5.3567E-10 | 13: delta_s/delta_0: 4.4479E-10 | 14: delta_r/delta_0: 1.0205E-10 | 15: delta_s/delta_0: 2.3596E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.803150499276072E-002 4.025939145482584E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.2043E-03 | 2: delta_r/delta_0: 2.7605E-05 | 3: delta_s/delta_0: 4.3269E-03 | 4: delta_r/delta_0: 1.9290E-04 | 5: delta_s/delta_0: 1.5089E-01 | 6: delta_r/delta_0: 2.2022E-02 | 7: delta_s/delta_0: 5.3336E-08 | 8: delta_r/delta_0: 3.5630E-08 | 9: delta_s/delta_0: 4.0231E-07 | 10: delta_r/delta_0: 4.1706E-09 | 11: delta_s/delta_0: 1.2083E-09 | 12: delta_r/delta_0: 5.3561E-10 | 13: delta_s/delta_0: 4.4467E-10 | 14: delta_r/delta_0: 1.0205E-10 | 15: delta_s/delta_0: 2.3595E-11 | Reached bicg-stab tolerance | BP delta = -7.9806536E-02 -0.1114149 2827424.90183959 | BP delta = -7.9806536E-02 -0.1340973 2827427.74394049 | 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 = 0.95808903 | --> Sampling calibration, mode = relcal | relcal = 0.1063998 0.1394631 -0.1101848 -0.1356781 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.8176245E-03 1.2598956E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.8764E-04 | 2: delta_r/delta_0: 1.5815E-05 | 3: delta_s/delta_0: 1.0125E-02 | 4: delta_r/delta_0: 5.3356E-04 | 5: delta_s/delta_0: 5.4528E-04 | 6: delta_r/delta_0: 8.8169E-05 | 7: delta_s/delta_0: 5.4576E-08 | 8: delta_r/delta_0: 3.5671E-08 | 9: delta_s/delta_0: 7.4637E-07 | 10: delta_r/delta_0: 3.2753E-09 | 11: delta_s/delta_0: 1.6696E-07 | 12: delta_r/delta_0: 6.4822E-09 | 13: delta_s/delta_0: 2.3228E-10 | 14: delta_r/delta_0: 1.7234E-10 | 15: delta_s/delta_0: 3.1079E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.128411108870792E-002 3.701402797638233E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 6.8774E-04 | 2: delta_r/delta_0: 1.5817E-05 | 3: delta_s/delta_0: 1.0151E-02 | 4: delta_r/delta_0: 5.3494E-04 | 5: delta_s/delta_0: 5.4661E-04 | 6: delta_r/delta_0: 8.8386E-05 | 7: delta_s/delta_0: 5.4574E-08 | 8: delta_r/delta_0: 3.5669E-08 | 9: delta_s/delta_0: 7.4616E-07 | 10: delta_r/delta_0: 3.2759E-09 | 11: delta_s/delta_0: 1.6241E-07 | 12: delta_r/delta_0: 6.2782E-09 | 13: delta_s/delta_0: 2.3241E-10 | 14: delta_r/delta_0: 1.7244E-10 | 15: delta_s/delta_0: 3.1088E-11 | Reached bicg-stab tolerance | BP delta = 0.2700437 0.3067687 3005041.80551240 | BP delta = 0.2700437 0.3132853 3005070.73650341 | 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 = 0.52089215 | --> Sampling calibration, mode = relcal | relcal = -5.0886471E-02 -3.8125385E-03 2.7254831E-02 2.7444178E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -6.6032540E-04 2.5792972E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.5033E-05 | 2: delta_r/delta_0: 4.6063E-06 | 3: delta_s/delta_0: 9.9537E-06 | 4: delta_r/delta_0: 1.4462E-06 | 5: delta_s/delta_0: 4.6046E-08 | 6: delta_r/delta_0: 3.0283E-08 | 7: delta_s/delta_0: 5.3381E-08 | 8: delta_r/delta_0: 1.0082E-08 | 9: delta_s/delta_0: 2.6450E-09 | 10: delta_r/delta_0: 1.8142E-09 | 11: delta_s/delta_0: 7.5480E-10 | 12: delta_r/delta_0: 5.6580E-10 | 13: delta_s/delta_0: 9.4452E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.053641246589888E-002 5.490339136132992E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 6.5033E-05 | 2: delta_r/delta_0: 4.6063E-06 | 3: delta_s/delta_0: 9.9536E-06 | 4: delta_r/delta_0: 1.4462E-06 | 5: delta_s/delta_0: 4.6046E-08 | 6: delta_r/delta_0: 3.0283E-08 | 7: delta_s/delta_0: 5.3380E-08 | 8: delta_r/delta_0: 1.0082E-08 | 9: delta_s/delta_0: 2.6450E-09 | 10: delta_r/delta_0: 1.8142E-09 | 11: delta_s/delta_0: 7.5480E-10 | 12: delta_r/delta_0: 5.6580E-10 | 13: delta_s/delta_0: 9.4448E-11 | Reached bicg-stab tolerance | BP delta = -0.1177110 -1.9423597E-02 2435602.01562889 | BP delta = -0.1177110 -2.6151594E-02 2435602.17647928 | 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 = 0.42099912 | --> Sampling calibration, mode = relcal | relcal = 4.5605723E-02 3.9538365E-02 -2.8294032E-02 -5.6850053E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.2624921E-03 5.0431448E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 5.9930E-05 | 2: delta_r/delta_0: 3.8456E-06 | 3: delta_s/delta_0: 2.5037E-06 | 4: delta_r/delta_0: 4.1798E-07 | 5: delta_s/delta_0: 5.9664E-08 | 6: delta_r/delta_0: 3.5403E-08 | 7: delta_s/delta_0: 3.5471E-08 | 8: delta_r/delta_0: 1.3941E-08 | 9: delta_s/delta_0: 3.0143E-09 | 10: delta_r/delta_0: 1.2851E-09 | 11: delta_s/delta_0: 1.1110E-09 | 12: delta_r/delta_0: 3.8599E-10 | 13: delta_s/delta_0: 4.2949E-08 | 14: delta_r/delta_0: 1.9277E-09 | 15: delta_s/delta_0: 2.8356E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.340608305676789E-002 5.002664608936361E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 5.9930E-05 | 2: delta_r/delta_0: 3.8456E-06 | 3: delta_s/delta_0: 2.5037E-06 | 4: delta_r/delta_0: 4.1798E-07 | 5: delta_s/delta_0: 5.9664E-08 | 6: delta_r/delta_0: 3.5403E-08 | 7: delta_s/delta_0: 3.5471E-08 | 8: delta_r/delta_0: 1.3941E-08 | 9: delta_s/delta_0: 3.0144E-09 | 10: delta_r/delta_0: 1.2852E-09 | 11: delta_s/delta_0: 1.1111E-09 | 12: delta_r/delta_0: 3.8603E-10 | 13: delta_s/delta_0: 4.2792E-08 | 14: delta_r/delta_0: 1.9254E-09 | 15: delta_s/delta_0: 2.8356E-11 | Reached bicg-stab tolerance | BP delta = -0.1481381 -0.2013814 2322420.37715792 | BP delta = -0.1481381 -0.1976247 2322456.08472111 | 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 = 0.28125954 | --> Sampling calibration, mode = relcal | relcal = 2.4162555E-02 4.5078337E-02 -2.3321731E-02 -4.5919161E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.3084881E-02 3.4391167E-05 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.0796E-04 | 2: delta_r/delta_0: 8.7795E-06 | 3: delta_s/delta_0: 1.4069E-06 | 4: delta_r/delta_0: 2.0654E-07 | 5: delta_s/delta_0: 6.7988E-08 | 6: delta_r/delta_0: 1.5632E-08 | 7: delta_s/delta_0: 7.2633E-09 | 8: delta_r/delta_0: 4.3665E-09 | 9: delta_s/delta_0: 3.6718E-07 | 10: delta_r/delta_0: 7.6805E-09 | 11: delta_s/delta_0: 9.8495E-10 | 12: delta_r/delta_0: 3.2779E-10 | 13: delta_s/delta_0: 1.7460E-10 | 14: delta_r/delta_0: 6.1048E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.164864415868192E-003 7.853610149347727E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.0796E-04 | 2: delta_r/delta_0: 8.7795E-06 | 3: delta_s/delta_0: 1.4069E-06 | 4: delta_r/delta_0: 2.0655E-07 | 5: delta_s/delta_0: 6.7988E-08 | 6: delta_r/delta_0: 1.5632E-08 | 7: delta_s/delta_0: 7.2635E-09 | 8: delta_r/delta_0: 4.3665E-09 | 9: delta_s/delta_0: 3.6717E-07 | 10: delta_r/delta_0: 7.6805E-09 | 11: delta_s/delta_0: 9.8502E-10 | 12: delta_r/delta_0: 3.2783E-10 | 13: delta_s/delta_0: 1.7460E-10 | 14: delta_r/delta_0: 6.1048E-11 | Reached bicg-stab tolerance | BP delta = 7.8703694E-02 -0.1018981 2490104.57265230 | BP delta = 7.8703694E-02 -0.1138567 2490100.59750211 | BP chisq diff = -4.0, accept = T | | Finished processing 090-WMAP_W1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.29352027 | --> Sampling calibration, mode = relcal | relcal = 4.7881051E-04 1.0224024E-02 -3.8253255E-03 -6.8775089E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.4972028E-02 1.7918186E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.3237E-04 | 2: delta_r/delta_0: 1.1383E-05 | 3: delta_s/delta_0: 1.8400E-06 | 4: delta_r/delta_0: 2.9538E-07 | 5: delta_s/delta_0: 1.1850E-07 | 6: delta_r/delta_0: 2.3301E-08 | 7: delta_s/delta_0: 9.9165E-09 | 8: delta_r/delta_0: 6.3398E-09 | 9: delta_s/delta_0: 7.2029E-09 | 10: delta_r/delta_0: 4.1912E-09 | 11: delta_s/delta_0: 2.5458E-07 | 12: delta_r/delta_0: 3.8875E-08 | 13: delta_s/delta_0: 3.4358E-10 | 14: delta_r/delta_0: 1.2537E-10 | 15: delta_s/delta_0: 5.2085E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.414912042779392E-003 8.318082960603084E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.3237E-04 | 2: delta_r/delta_0: 1.1383E-05 | 3: delta_s/delta_0: 1.8400E-06 | 4: delta_r/delta_0: 2.9539E-07 | 5: delta_s/delta_0: 1.1850E-07 | 6: delta_r/delta_0: 2.3301E-08 | 7: delta_s/delta_0: 9.9167E-09 | 8: delta_r/delta_0: 6.3398E-09 | 9: delta_s/delta_0: 7.2030E-09 | 10: delta_r/delta_0: 4.1912E-09 | 11: delta_s/delta_0: 2.5489E-07 | 12: delta_r/delta_0: 3.8940E-08 | 13: delta_s/delta_0: 3.4368E-10 | 14: delta_r/delta_0: 1.2538E-10 | 15: delta_s/delta_0: 5.2079E-11 | Reached bicg-stab tolerance | BP delta = -0.6956496 -0.6162606 2737461.91165317 | BP delta = -0.6956496 -0.6309996 2737466.29509928 | 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 = 0.26473612 | --> Sampling calibration, mode = relcal | relcal = -5.6304219E-03 1.5013806E-02 -2.3249527E-03 -7.0584309E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -1.8523233E-03 4.6237139E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4442E-04 | 2: delta_r/delta_0: 1.1816E-05 | 3: delta_s/delta_0: 1.9012E-06 | 4: delta_r/delta_0: 4.0361E-07 | 5: delta_s/delta_0: 1.1504E-07 | 6: delta_r/delta_0: 2.7485E-08 | 7: delta_s/delta_0: 1.0002E-08 | 8: delta_r/delta_0: 6.0860E-09 | 9: delta_s/delta_0: 1.7213E-08 | 10: delta_r/delta_0: 5.5633E-09 | 11: delta_s/delta_0: 1.7663E-07 | 12: delta_r/delta_0: 7.2077E-08 | 13: delta_s/delta_0: 2.7831E-10 | 14: delta_r/delta_0: 1.8571E-10 | 15: delta_s/delta_0: 6.7245E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -8.100641439673806E-003 9.164971818404177E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.4442E-04 | 2: delta_r/delta_0: 1.1816E-05 | 3: delta_s/delta_0: 1.9012E-06 | 4: delta_r/delta_0: 4.0360E-07 | 5: delta_s/delta_0: 1.1505E-07 | 6: delta_r/delta_0: 2.7483E-08 | 7: delta_s/delta_0: 1.0001E-08 | 8: delta_r/delta_0: 6.0856E-09 | 9: delta_s/delta_0: 1.7212E-08 | 10: delta_r/delta_0: 5.5628E-09 | 11: delta_s/delta_0: 1.7661E-07 | 12: delta_r/delta_0: 7.2071E-08 | 13: delta_s/delta_0: 2.7832E-10 | 14: delta_r/delta_0: 1.8569E-10 | 15: delta_s/delta_0: 6.7240E-11 | Reached bicg-stab tolerance | BP delta = 0.1759021 0.2543300 2516604.33838913 | BP delta = 0.1759021 0.2557660 2516604.97713544 | BP chisq diff = 0.6, accept = T | | Finished processing 090-WMAP_W3 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W4 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.25627767 | --> Sampling calibration, mode = relcal | relcal = -3.1656068E-02 -2.5873417E-02 3.6756076E-02 2.0773409E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.3572421E-02 2.0742200E-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: 1.2002E-05 | 3: delta_s/delta_0: 1.8555E-06 | 4: delta_r/delta_0: 4.2632E-07 | 5: delta_s/delta_0: 1.4779E-07 | 6: delta_r/delta_0: 2.7633E-08 | 7: delta_s/delta_0: 1.1241E-08 | 8: delta_r/delta_0: 6.0166E-09 | 9: delta_s/delta_0: 1.0214E-08 | 10: delta_r/delta_0: 3.6268E-09 | 11: delta_s/delta_0: 1.2657E-05 | 12: delta_r/delta_0: 7.7568E-06 | 13: delta_s/delta_0: 6.0684E-10 | 14: delta_r/delta_0: 4.1766E-10 | 15: delta_s/delta_0: 1.0898E-10 | 16: delta_r/delta_0: 8.7231E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -8.907861532071475E-003 8.683897276547861E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.4475E-04 | 2: delta_r/delta_0: 1.2002E-05 | 3: delta_s/delta_0: 1.8555E-06 | 4: delta_r/delta_0: 4.2630E-07 | 5: delta_s/delta_0: 1.4778E-07 | 6: delta_r/delta_0: 2.7632E-08 | 7: delta_s/delta_0: 1.1241E-08 | 8: delta_r/delta_0: 6.0168E-09 | 9: delta_s/delta_0: 1.0215E-08 | 10: delta_r/delta_0: 3.6271E-09 | 11: delta_s/delta_0: 1.2869E-05 | 12: delta_r/delta_0: 7.8858E-06 | 13: delta_s/delta_0: 6.0690E-10 | 14: delta_r/delta_0: 4.1770E-10 | 15: delta_s/delta_0: 1.0899E-10 | 16: delta_r/delta_0: 8.7259E-11 | Reached bicg-stab tolerance | BP delta = -0.5931791 -0.6471280 2706393.24461017 | BP delta = -0.5931791 -0.6346855 2706417.98727561 | 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 = -3.144703 | New value = -3.165305 | poltype: 2 pol: 1 CPU time specind = 3.1960011E-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 = -3.169689 | New value = -3.188980 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.135718 | New value = -3.171652 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.230804 | New value = -3.072434 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.138713 | New value = -3.067831 | poltype: 2 pol: 2 CPU time specind = 3.0179024E-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 = 4.27 | CG iter. 1 -- res = 0.13536E+08, tol = 0.46534E+01, time = 1.58 | CG iter. 2 -- res = 0.46379E+05, tol = 0.46534E+01, time = 1.54 | CG iter. 3 -- res = 0.33209E+05, tol = 0.46534E+01, time = 1.61 | CG iter. 4 -- res = 0.97506E+04, tol = 0.46534E+01, time = 1.62 | CG iter. 5 -- res = 0.56419E+04, tol = 0.46534E+01, time = 1.58 | CG iter. 6 -- res = 0.39171E+04, tol = 0.46534E+01, time = 1.56 | CG iter. 7 -- res = 0.23935E+04, tol = 0.46534E+01, time = 1.54 | CG iter. 8 -- res = 0.14467E+04, tol = 0.46534E+01, time = 1.56 | CG iter. 9 -- res = 0.15116E+04, tol = 0.46534E+01, time = 1.54 | CG iter. 10 -- res = 0.18352E+04, tol = 0.46534E+01, time = 1.56 | CG iter. 11 -- res = 0.14069E+04, tol = 0.46534E+01, time = 1.58 | CG iter. 12 -- res = 0.10588E+04, tol = 0.46534E+01, time = 1.60 | CG iter. 13 -- res = 0.97873E+03, tol = 0.46534E+01, time = 1.60 | CG iter. 14 -- res = 0.61421E+03, tol = 0.46534E+01, time = 1.56 | CG iter. 15 -- res = 0.49164E+03, tol = 0.46534E+01, time = 1.52 | CG iter. 16 -- res = 0.36512E+03, tol = 0.46534E+01, time = 1.63 | CG iter. 17 -- res = 0.29908E+03, tol = 0.46534E+01, time = 1.62 | CG iter. 18 -- res = 0.25584E+03, tol = 0.46534E+01, time = 1.55 | CG iter. 19 -- res = 0.22925E+03, tol = 0.46534E+01, time = 1.61 | CG iter. 20 -- res = 0.17918E+03, tol = 0.46534E+01, time = 1.58 | CG iter. 21 -- res = 0.12058E+03, tol = 0.46534E+01, time = 1.57 | CG iter. 22 -- res = 0.10302E+03, tol = 0.46534E+01, time = 1.58 | CG iter. 23 -- res = 0.87252E+02, tol = 0.46534E+01, time = 1.59 | CG iter. 24 -- res = 0.64799E+02, tol = 0.46534E+01, time = 1.58 | CG iter. 25 -- res = 0.56514E+02, tol = 0.46534E+01, time = 1.58 | CG iter. 26 -- res = 0.49078E+02, tol = 0.46534E+01, time = 1.56 | CG iter. 27 -- res = 0.41408E+02, tol = 0.46534E+01, time = 1.56 | CG iter. 28 -- res = 0.31159E+02, tol = 0.46534E+01, time = 1.55 | CG iter. 29 -- res = 0.28106E+02, tol = 0.46534E+01, time = 1.56 | CG iter. 30 -- res = 0.27505E+02, tol = 0.46534E+01, time = 1.57 | CG iter. 31 -- res = 0.19655E+02, tol = 0.46534E+01, time = 1.57 | CG iter. 32 -- res = 0.16189E+02, tol = 0.46534E+01, time = 1.53 | CG iter. 33 -- res = 0.15726E+02, tol = 0.46534E+01, time = 1.56 | CG iter. 34 -- res = 0.13990E+02, tol = 0.46534E+01, time = 1.58 | CG iter. 35 -- res = 0.96863E+01, tol = 0.46534E+01, time = 1.58 | CG iter. 36 -- res = 0.81517E+01, tol = 0.46534E+01, time = 1.62 | CG iter. 37 -- res = 0.76577E+01, tol = 0.46534E+01, time = 1.65 | CG iter. 38 -- res = 0.61360E+01, tol = 0.46534E+01, time = 1.56 | CG iter. 39 -- res = 0.73413E+01, tol = 0.46534E+01, time = 1.56 | CG iter. 40 -- res = 0.45961E+01, tol = 0.46534E+01, time = 1.57 | CG iter. 41 -- res = 0.32122E+01, tol = 0.46534E+01, time = 1.60 | CG iter. 42 -- res = 0.26101E+01, tol = 0.46534E+01, time = 1.56 | CG iter. 43 -- res = 0.32351E+01, tol = 0.46534E+01, time = 1.57 | CG iter. 44 -- res = 0.19573E+01, tol = 0.46534E+01, time = 1.49 | CG iter. 45 -- res = 0.13274E+01, tol = 0.46534E+01, time = 1.55 | CG iter. 46 -- res = 0.11163E+01, tol = 0.46534E+01, time = 1.52 | CG iter. 47 -- res = 0.90362E+00, tol = 0.46534E+01, time = 1.57 | CG iter. 48 -- res = 0.75087E+00, tol = 0.46534E+01, time = 1.57 | CG iter. 49 -- res = 0.64878E+00, tol = 0.46534E+01, time = 1.59 | CG iter. 50 -- res = 0.53640E+00, tol = 0.46534E+01, time = 1.55 | Final CG iter 51 -- res = 0.53640E+00, tol = 0.46534E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 11010786.631 | Old band monopole 13941337.765 | Change to band monopole -2930551.135 | Change to component monopole 2930538.530 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 4.24 | CG iter. 1 -- res = 0.27604E+05, tol = 0.47627E+18, time = 0.40 | CG iter. 2 -- res = 0.15615E+02, tol = 0.47627E+18, time = 0.40 | CG iter. 3 -- res = 0.13067E+00, tol = 0.47627E+18, time = 0.35 | CG iter. 4 -- res = 0.61338E-04, tol = 0.47627E+18, time = 0.39 | Final CG iter 5 -- res = 0.48013E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 11010739.271 | (Sampled value in CG: 11000052.773 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.492346 | New value = 1.431345 | poltype: 2 pol: 1 CPU time specind = 6.3278675E-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 = 1.538189 | New value = 1.557893 | poltype: 2 pol: 2 CPU time specind = 1.8579960E-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 = 4.23 | CG iter. 1 -- res = 0.24832E+08, tol = 0.47381E+04, time = 1.76 | CG iter. 2 -- res = 0.54292E+07, tol = 0.47381E+04, time = 1.81 | CG iter. 3 -- res = 0.86022E+06, tol = 0.47381E+04, time = 1.77 | CG iter. 4 -- res = 0.35311E+06, tol = 0.47381E+04, time = 1.85 | CG iter. 5 -- res = 0.15113E+06, tol = 0.47381E+04, time = 1.75 | CG iter. 6 -- res = 0.78006E+05, tol = 0.47381E+04, time = 1.82 | CG iter. 7 -- res = 0.42785E+05, tol = 0.47381E+04, time = 1.80 | CG iter. 8 -- res = 0.20787E+05, tol = 0.47381E+04, time = 1.84 | CG iter. 9 -- res = 0.89740E+04, tol = 0.47381E+04, time = 1.83 | CG iter. 10 -- res = 0.36347E+04, tol = 0.47381E+04, time = 1.77 | CG iter. 11 -- res = 0.16688E+04, tol = 0.47381E+04, time = 1.75 | CG iter. 12 -- res = 0.86367E+03, tol = 0.47381E+04, time = 1.78 | CG iter. 13 -- res = 0.48689E+03, tol = 0.47381E+04, time = 1.80 | CG iter. 14 -- res = 0.26966E+03, tol = 0.47381E+04, time = 1.77 | CG iter. 15 -- res = 0.14035E+03, tol = 0.47381E+04, time = 1.78 | CG iter. 16 -- res = 0.68013E+02, tol = 0.47381E+04, time = 1.78 | CG iter. 17 -- res = 0.31761E+02, tol = 0.47381E+04, time = 1.81 | CG iter. 18 -- res = 0.15574E+02, tol = 0.47381E+04, time = 1.82 | CG iter. 19 -- res = 0.82240E+01, tol = 0.47381E+04, time = 1.84 | CG iter. 20 -- res = 0.46720E+01, tol = 0.47381E+04, time = 1.82 | CG iter. 21 -- res = 0.26182E+01, tol = 0.47381E+04, time = 1.76 | CG iter. 22 -- res = 0.13786E+01, tol = 0.47381E+04, time = 1.83 | CG iter. 23 -- res = 0.68772E+00, tol = 0.47381E+04, time = 1.81 | CG iter. 24 -- res = 0.35025E+00, tol = 0.47381E+04, time = 1.80 | CG iter. 25 -- res = 0.19556E+00, tol = 0.47381E+04, time = 1.77 | CG iter. 26 -- res = 0.11318E+00, tol = 0.47381E+04, time = 1.78 | CG iter. 27 -- res = 0.65450E-01, tol = 0.47381E+04, time = 1.79 | CG iter. 28 -- res = 0.35577E-01, tol = 0.47381E+04, time = 1.83 | CG iter. 29 -- res = 0.18736E-01, tol = 0.47381E+04, time = 1.79 | CG iter. 30 -- res = 0.97006E-02, tol = 0.47381E+04, time = 1.79 | CG iter. 31 -- res = 0.52498E-02, tol = 0.47381E+04, time = 1.81 | CG iter. 32 -- res = 0.29845E-02, tol = 0.47381E+04, time = 1.80 | CG iter. 33 -- res = 0.16859E-02, tol = 0.47381E+04, time = 1.77 | CG iter. 34 -- res = 0.90995E-03, tol = 0.47381E+04, time = 1.79 | CG iter. 35 -- res = 0.47476E-03, tol = 0.47381E+04, time = 1.77 | Final CG iter 36 -- res = 0.47476E-03, tol = 0.47381E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -5.609 2.720 | New value -2.879 | Old value -5.609 | Difference 2.731 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 4.26 | CG iter. 1 -- res = 0.38737E+06, tol = 0.47627E+18, time = 0.40 | CG iter. 2 -- res = 0.20498E+02, tol = 0.47627E+18, time = 0.34 | CG iter. 3 -- res = 0.22872E+00, tol = 0.47627E+18, time = 0.34 | CG iter. 4 -- res = 0.35797E-03, tol = 0.47627E+18, time = 0.35 | Final CG iter 5 -- res = 0.44553E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 11010739.271 | (Sampled value in CG: 10999719.173 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.631923 | New value = -3.553851 | poltype: 1 pol: 1 CPU time specind = 7.7209473E-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 = 4.24 | CG iter. 1 -- res = 0.21248E+07, tol = 0.13700E+01, time = 0.68 | CG iter. 2 -- res = 0.50741E+05, tol = 0.13700E+01, time = 0.69 | CG iter. 3 -- res = 0.46562E+05, tol = 0.13700E+01, time = 0.65 | CG iter. 4 -- res = 0.92383E+04, tol = 0.13700E+01, time = 0.70 | CG iter. 5 -- res = 0.30780E+04, tol = 0.13700E+01, time = 0.68 | CG iter. 6 -- res = 0.11681E+04, tol = 0.13700E+01, time = 0.71 | CG iter. 7 -- res = 0.56278E+03, tol = 0.13700E+01, time = 0.66 | CG iter. 8 -- res = 0.30071E+03, tol = 0.13700E+01, time = 0.67 | CG iter. 9 -- res = 0.80173E+02, tol = 0.13700E+01, time = 0.66 | CG iter. 10 -- res = 0.26379E+02, tol = 0.13700E+01, time = 0.69 | CG iter. 11 -- res = 0.11744E+02, tol = 0.13700E+01, time = 0.67 | CG iter. 12 -- res = 0.38483E+01, tol = 0.13700E+01, time = 0.69 | CG iter. 13 -- res = 0.13642E+01, tol = 0.13700E+01, time = 0.68 | CG iter. 14 -- res = 0.52801E+00, tol = 0.13700E+01, time = 0.65 | CG iter. 15 -- res = 0.18540E+00, tol = 0.13700E+01, time = 0.68 | CG iter. 16 -- res = 0.66248E-01, tol = 0.13700E+01, time = 0.62 | CG iter. 17 -- res = 0.21621E-01, tol = 0.13700E+01, time = 0.62 | CG iter. 18 -- res = 0.92121E-02, tol = 0.13700E+01, time = 0.63 | CG iter. 19 -- res = 0.44814E-02, tol = 0.13700E+01, time = 0.67 | CG iter. 20 -- res = 0.13558E-02, tol = 0.13700E+01, time = 0.68 | CG iter. 21 -- res = 0.37433E-03, tol = 0.13700E+01, time = 0.68 | CG iter. 22 -- res = 0.13133E-03, tol = 0.13700E+01, time = 0.69 | CG iter. 23 -- res = 0.49712E-04, tol = 0.13700E+01, time = 0.64 | CG iter. 24 -- res = 0.18066E-04, tol = 0.13700E+01, time = 0.63 | CG iter. 25 -- res = 0.52840E-05, tol = 0.13700E+01, time = 0.66 | CG iter. 26 -- res = 0.15353E-05, tol = 0.13700E+01, time = 0.63 | CG iter. 27 -- res = 0.55916E-06, tol = 0.13700E+01, time = 0.67 | CG iter. 28 -- res = 0.20506E-06, tol = 0.13700E+01, time = 0.67 | CG iter. 29 -- res = 0.68465E-07, tol = 0.13700E+01, time = 0.65 | CG iter. 30 -- res = 0.19881E-07, tol = 0.13700E+01, time = 0.66 | CG iter. 31 -- res = 0.64101E-08, tol = 0.13700E+01, time = 0.63 | CG iter. 32 -- res = 0.49405E-08, tol = 0.13700E+01, time = 0.65 | CG iter. 33 -- res = 0.17984E-08, tol = 0.13700E+01, time = 0.67 | CG iter. 34 -- res = 0.60327E-09, tol = 0.13700E+01, time = 0.67 | CG iter. 35 -- res = 0.19162E-09, tol = 0.13700E+01, time = 0.67 | CG iter. 36 -- res = 0.14636E-09, tol = 0.13700E+01, time = 0.70 | CG iter. 37 -- res = 0.44131E-10, tol = 0.13700E+01, time = 0.70 | CG iter. 38 -- res = 0.12371E-10, tol = 0.13700E+01, time = 0.67 | CG iter. 39 -- res = 0.40748E-11, tol = 0.13700E+01, time = 0.64 | CG iter. 40 -- res = 0.11183E-11, tol = 0.13700E+01, time = 0.65 | CG iter. 41 -- res = 0.31048E-12, tol = 0.13700E+01, time = 0.69 | CG iter. 42 -- res = 0.95332E-13, tol = 0.13700E+01, time = 0.69 | CG iter. 43 -- res = 0.30997E-13, tol = 0.13700E+01, time = 0.71 | CG iter. 44 -- res = 0.90617E-14, tol = 0.13700E+01, time = 0.69 | CG iter. 45 -- res = 0.26370E-14, tol = 0.13700E+01, time = 0.70 | CG iter. 46 -- res = 0.89966E-15, tol = 0.13700E+01, time = 0.67 | CG iter. 47 -- res = 0.36836E-15, tol = 0.13700E+01, time = 0.67 | CG iter. 48 -- res = 0.11130E-15, tol = 0.13700E+01, time = 0.69 | CG iter. 49 -- res = 0.32355E-16, tol = 0.13700E+01, time = 0.69 | CG iter. 50 -- res = 0.11843E-16, tol = 0.13700E+01, time = 0.71 | Final CG iter 51 -- res = 0.11843E-16, tol = 0.13700E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -3.192 3.335 | New value 4.014 | Old value -3.192 | Difference 7.206 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 4.25 | CG iter. 1 -- res = 0.32358E+05, tol = 0.47627E+18, time = 0.39 | CG iter. 2 -- res = 0.13357E+02, tol = 0.47627E+18, time = 0.37 | CG iter. 3 -- res = 0.62937E-01, tol = 0.47627E+18, time = 0.37 | Final CG iter 4 -- res = 0.21606E-04, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 11010739.271 | (Sampled value in CG: 11003341.537 ) | CPU time specind = 279.9793 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 4.27 | CG iter. 1 -- res = 0.69444E+08, tol = 0.51388E+04, time = 3.24 | CG iter. 2 -- res = 0.33167E+08, tol = 0.51388E+04, time = 3.22 | CG iter. 3 -- res = 0.57779E+07, tol = 0.51388E+04, time = 3.18 | CG iter. 4 -- res = 0.29407E+07, tol = 0.51388E+04, time = 3.16 | CG iter. 5 -- res = 0.12995E+07, tol = 0.51388E+04, time = 3.13 | CG iter. 6 -- res = 0.69869E+06, tol = 0.51388E+04, time = 3.09 | CG iter. 7 -- res = 0.37752E+06, tol = 0.51388E+04, time = 3.15 | CG iter. 8 -- res = 0.18900E+06, tol = 0.51388E+04, time = 3.15 | CG iter. 9 -- res = 0.93960E+05, tol = 0.51388E+04, time = 3.07 | CG iter. 10 -- res = 0.41763E+05, tol = 0.51388E+04, time = 3.14 | CG iter. 11 -- res = 0.21263E+05, tol = 0.51388E+04, time = 3.15 | CG iter. 12 -- res = 0.11903E+05, tol = 0.51388E+04, time = 3.12 | CG iter. 13 -- res = 0.72291E+04, tol = 0.51388E+04, time = 3.15 | CG iter. 14 -- res = 0.47953E+04, tol = 0.51388E+04, time = 3.07 | CG iter. 15 -- res = 0.30497E+04, tol = 0.51388E+04, time = 3.20 | CG iter. 16 -- res = 0.20838E+04, tol = 0.51388E+04, time = 3.20 | CG iter. 17 -- res = 0.15319E+04, tol = 0.51388E+04, time = 3.10 | CG iter. 18 -- res = 0.13271E+04, tol = 0.51388E+04, time = 3.09 | CG iter. 19 -- res = 0.13758E+04, tol = 0.51388E+04, time = 3.17 | CG iter. 20 -- res = 0.15574E+04, tol = 0.51388E+04, time = 3.10 | CG iter. 21 -- res = 0.17296E+04, tol = 0.51388E+04, time = 3.16 | CG iter. 22 -- res = 0.17093E+04, tol = 0.51388E+04, time = 3.13 | CG iter. 23 -- res = 0.15661E+04, tol = 0.51388E+04, time = 3.10 | CG iter. 24 -- res = 0.14137E+04, tol = 0.51388E+04, time = 3.17 | CG iter. 25 -- res = 0.13041E+04, tol = 0.51388E+04, time = 3.20 | CG iter. 26 -- res = 0.11940E+04, tol = 0.51388E+04, time = 3.16 | CG iter. 27 -- res = 0.10200E+04, tol = 0.51388E+04, time = 3.15 | CG iter. 28 -- res = 0.83459E+03, tol = 0.51388E+04, time = 3.07 | CG iter. 29 -- res = 0.72763E+03, tol = 0.51388E+04, time = 3.12 | CG iter. 30 -- res = 0.72381E+03, tol = 0.51388E+04, time = 3.14 | CG iter. 31 -- res = 0.78520E+03, tol = 0.51388E+04, time = 3.21 | CG iter. 32 -- res = 0.87005E+03, tol = 0.51388E+04, time = 3.09 | CG iter. 33 -- res = 0.87905E+03, tol = 0.51388E+04, time = 3.17 | CG iter. 34 -- res = 0.82289E+03, tol = 0.51388E+04, time = 3.13 | CG iter. 35 -- res = 0.77818E+03, tol = 0.51388E+04, time = 3.06 | CG iter. 36 -- res = 0.78693E+03, tol = 0.51388E+04, time = 3.09 | CG iter. 37 -- res = 0.81360E+03, tol = 0.51388E+04, time = 3.13 | CG iter. 38 -- res = 0.79326E+03, tol = 0.51388E+04, time = 3.10 | CG iter. 39 -- res = 0.72048E+03, tol = 0.51388E+04, time = 3.15 | CG iter. 40 -- res = 0.64503E+03, tol = 0.51388E+04, time = 3.10 | CG iter. 41 -- res = 0.62039E+03, tol = 0.51388E+04, time = 3.13 | CG iter. 42 -- res = 0.65101E+03, tol = 0.51388E+04, time = 3.22 | CG iter. 43 -- res = 0.69443E+03, tol = 0.51388E+04, time = 3.09 | CG iter. 44 -- res = 0.68627E+03, tol = 0.51388E+04, time = 3.12 | CG iter. 45 -- res = 0.63066E+03, tol = 0.51388E+04, time = 3.09 | CG iter. 46 -- res = 0.58853E+03, tol = 0.51388E+04, time = 3.21 | CG iter. 47 -- res = 0.59122E+03, tol = 0.51388E+04, time = 3.16 | CG iter. 48 -- res = 0.61402E+03, tol = 0.51388E+04, time = 3.15 | CG iter. 49 -- res = 0.60483E+03, tol = 0.51388E+04, time = 3.12 | CG iter. 50 -- res = 0.55117E+03, tol = 0.51388E+04, time = 3.15 | CG iter. 51 -- res = 0.49777E+03, tol = 0.51388E+04, time = 3.17 | CG iter. 52 -- res = 0.47866E+03, tol = 0.51388E+04, time = 3.18 | CG iter. 53 -- res = 0.49663E+03, tol = 0.51388E+04, time = 3.21 | CG iter. 54 -- res = 0.51722E+03, tol = 0.51388E+04, time = 3.16 | CG iter. 55 -- res = 0.49503E+03, tol = 0.51388E+04, time = 3.17 | CG iter. 56 -- res = 0.44614E+03, tol = 0.51388E+04, time = 3.14 | CG iter. 57 -- res = 0.42556E+03, tol = 0.51388E+04, time = 3.23 | CG iter. 58 -- res = 0.43976E+03, tol = 0.51388E+04, time = 3.19 | CG iter. 59 -- res = 0.46378E+03, tol = 0.51388E+04, time = 3.19 | CG iter. 60 -- res = 0.45759E+03, tol = 0.51388E+04, time = 3.14 | Final CG iter 61 -- res = 0.45759E+03, tol = 0.51388E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 2.526 ( -231.236 -2234.252 2516.515 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9799340.873 | Old band monopole 11010786.631 | Change to band monopole -1211445.757 | Change to component monopole 1211440.547 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -2.860 2.744 | New value -2.143 | Old value -2.860 | Difference 0.718 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -4.481 ( 8.146 10.488 -10.355 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 18.432 3.267 | New value 2.945 | Old value 18.432 | Difference -15.487 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 4.25 | CG iter. 1 -- res = 0.39163E+05, tol = 0.47627E+18, time = 0.38 | CG iter. 2 -- res = 0.63477E+02, tol = 0.47627E+18, time = 0.39 | CG iter. 3 -- res = 0.14669E+01, tol = 0.47627E+18, time = 0.34 | CG iter. 4 -- res = 0.30864E-03, tol = 0.47627E+18, time = 0.38 | Final CG iter 5 -- res = 0.37551E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9799298.724 | (Sampled value in CG: 9726611.426 ) | Chain = 1 -- chisq = 0.61647136E+09 | Chain = 1 -- wall time = 4689.468 sec --------------------------------------------------------------------- | Chain = 1 -- Iteration = 81 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18255974459329 | --> Sampling calibration, mode = relcal | relcal = -7.4264191E-02 -5.8153998E-02 9.1189228E-02 4.1228965E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.4646210E-04 4.1767848E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.2811E-04 | 2: delta_r/delta_0: 3.2323E-06 | 3: delta_s/delta_0: 2.1442E-07 | 4: delta_r/delta_0: 1.4940E-08 | 5: delta_s/delta_0: 3.3582E-09 | 6: delta_r/delta_0: 6.4464E-10 | 7: delta_s/delta_0: 2.6478E-10 | 8: delta_r/delta_0: 9.8821E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 5.556501252652537E-004 2.737566091988091E-005 | BP delta = 7.0565566E-03 1.6918294E-02 29860661.4063423 | BP delta = 8.9495722E-03 1.8811310E-02 29860662.4899598 | 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 = 1.02527791 | --> Sampling calibration, mode = relcal | relcal = -0.1065180 -9.5483139E-02 0.1447921 5.7208989E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.2281794E-03 1.7908707E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 3.9403E-03 | 2: delta_r/delta_0: 8.6711E-05 | 3: delta_s/delta_0: 1.3961E-04 | 4: delta_r/delta_0: 1.1186E-05 | 5: delta_s/delta_0: 1.8903E-06 | 6: delta_r/delta_0: 4.2769E-07 | 7: delta_s/delta_0: 1.7479E-06 | 8: delta_r/delta_0: 8.3924E-08 | 9: delta_s/delta_0: 1.5374E-07 | 10: delta_r/delta_0: 2.9087E-08 | 11: delta_s/delta_0: 2.0089E-07 | 12: delta_r/delta_0: 1.5244E-09 | 13: delta_s/delta_0: 1.3101E-09 | 14: delta_r/delta_0: 6.6792E-10 | 15: delta_s/delta_0: 3.2237E-10 | 16: delta_r/delta_0: 1.6552E-10 | 17: delta_s/delta_0: 5.2087E-07 | 18: delta_r/delta_0: 1.6349E-09 | 19: delta_s/delta_0: 8.7895E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 4.736931568311635E-002 2.812792744907712E-005 | BP delta = -0.1762673 -0.1704792 34763219.8244522 | BP delta = -0.1718973 -0.1661092 34763219.9067671 | 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 = 0.81128167 | --> Sampling calibration, mode = relcal | relcal = 0.2951356 0.2246940 -0.2835048 -0.2363248 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 4.5970406E-05 4.9193576E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.9197E-04 | 2: delta_r/delta_0: 1.5702E-05 | 3: delta_s/delta_0: 3.6246E-03 | 4: delta_r/delta_0: 2.1611E-04 | 5: delta_s/delta_0: 1.0722E-04 | 6: delta_r/delta_0: 1.8179E-05 | 7: delta_s/delta_0: 5.8829E-08 | 8: delta_r/delta_0: 3.8195E-08 | 9: delta_s/delta_0: 5.9054E-07 | 10: delta_r/delta_0: 3.6610E-09 | 11: delta_s/delta_0: 8.2668E-10 | 12: delta_r/delta_0: 5.6285E-10 | 13: delta_s/delta_0: 7.5208E-10 | 14: delta_r/delta_0: 9.6108E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.155626585529911E-002 4.026607509395730E-005 | BP delta = -7.9806536E-02 -0.1114149 43105025.7788007 | BP delta = -8.2781740E-02 -0.1143901 43105025.7131969 | 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 = 0.95803958 | --> Sampling calibration, mode = relcal | relcal = 0.1064274 0.1394131 -0.1100807 -0.1357597 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0105010E-02 1.3070537E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 7.3308E-04 | 2: delta_r/delta_0: 1.6942E-05 | 3: delta_s/delta_0: 2.1827E-06 | 4: delta_r/delta_0: 3.9596E-07 | 5: delta_s/delta_0: 3.2372E-06 | 6: delta_r/delta_0: 1.2271E-07 | 7: delta_s/delta_0: 5.6524E-08 | 8: delta_r/delta_0: 3.8833E-08 | 9: delta_s/delta_0: 2.1615E-06 | 10: delta_r/delta_0: 1.4489E-08 | 11: delta_s/delta_0: 1.5072E-09 | 12: delta_r/delta_0: 6.6842E-10 | 13: delta_s/delta_0: 2.6996E-10 | 14: delta_r/delta_0: 1.1615E-10 | 15: delta_s/delta_0: 3.7351E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.428404166141655E-002 3.701569087095852E-005 | BP delta = 0.2700437 0.3067687 43047788.6352050 | BP delta = 0.2570845 0.2938095 43047788.3465671 | 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 = 0.52085820 | --> Sampling calibration, mode = relcal | relcal = -5.1060829E-02 -3.5963280E-03 2.7212488E-02 2.7444668E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -4.4241085E-04 9.0907427E-04 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.6567E-05 | 2: delta_r/delta_0: 4.6139E-06 | 3: delta_s/delta_0: 3.3765E-06 | 4: delta_r/delta_0: 1.8305E-07 | 5: delta_s/delta_0: 5.9398E-08 | 6: delta_r/delta_0: 2.5659E-08 | 7: delta_s/delta_0: 1.8679E-08 | 8: delta_r/delta_0: 8.5632E-09 | 9: delta_s/delta_0: 8.6837E-09 | 10: delta_r/delta_0: 1.1425E-09 | 11: delta_s/delta_0: 1.6945E-09 | 12: delta_r/delta_0: 1.1068E-09 | 13: delta_s/delta_0: 8.6761E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.117547370548266E-002 5.490810211503494E-005 | BP delta = -0.1177110 -2.6151594E-02 61506413.2179736 | BP delta = -0.1006115 -9.0520279E-03 61506413.2699109 | 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 = 0.42104590 | --> Sampling calibration, mode = relcal | relcal = 4.5515165E-02 3.9561607E-02 -2.8216302E-02 -5.6860469E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.4319730E-03 5.7259295E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.1489E-04 | 2: delta_r/delta_0: 3.3309E-06 | 3: delta_s/delta_0: 1.6051E-06 | 4: delta_r/delta_0: 1.8754E-07 | 5: delta_s/delta_0: 8.0105E-08 | 6: delta_r/delta_0: 3.6913E-08 | 7: delta_s/delta_0: 1.2664E-06 | 8: delta_r/delta_0: 3.0959E-08 | 9: delta_s/delta_0: 3.4724E-09 | 10: delta_r/delta_0: 1.6123E-09 | 11: delta_s/delta_0: 2.0030E-05 | 12: delta_r/delta_0: 3.4375E-06 | 13: delta_s/delta_0: 7.2307E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.467998785290353E-002 5.001982657213215E-005 | BP delta = -0.1481381 -0.2013814 61337624.2025951 | BP delta = -0.1421140 -0.1953573 61337624.2027988 | 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 = 0.28123946 | --> Sampling calibration, mode = relcal | relcal = 2.4208192E-02 4.5037095E-02 -2.3346458E-02 -4.5898829E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.4226468E-02 4.4946200E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.1282E-04 | 2: delta_r/delta_0: 9.0303E-06 | 3: delta_s/delta_0: 1.5715E-06 | 4: delta_r/delta_0: 2.1381E-07 | 5: delta_s/delta_0: 5.7446E-08 | 6: delta_r/delta_0: 1.5636E-08 | 7: delta_s/delta_0: 6.6037E-09 | 8: delta_r/delta_0: 3.9936E-09 | 9: delta_s/delta_0: 1.4469E-08 | 10: delta_r/delta_0: 3.4415E-09 | 11: delta_s/delta_0: 3.1200E-09 | 12: delta_r/delta_0: 9.8467E-10 | 13: delta_s/delta_0: 1.5868E-10 | 14: delta_r/delta_0: 7.2251E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -7.880799358197615E-003 7.854156085567843E-005 | BP delta = 7.8703694E-02 -0.1138567 94961181.0951247 | BP delta = 5.9893906E-02 -0.1326665 94961180.8505655 | 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 = 0.29354472 | --> Sampling calibration, mode = relcal | relcal = 6.0879468E-04 1.0327949E-02 -3.9235740E-03 -7.0131691E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.1945074E-02 1.4889125E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.3392E-04 | 2: delta_r/delta_0: 1.1410E-05 | 3: delta_s/delta_0: 1.8592E-06 | 4: delta_r/delta_0: 2.7782E-07 | 5: delta_s/delta_0: 9.5135E-08 | 6: delta_r/delta_0: 2.2302E-08 | 7: delta_s/delta_0: 9.8133E-09 | 8: delta_r/delta_0: 6.3553E-09 | 9: delta_s/delta_0: 7.0767E-09 | 10: delta_r/delta_0: 4.2050E-09 | 11: delta_s/delta_0: 3.8372E-08 | 12: delta_r/delta_0: 1.1524E-09 | 13: delta_s/delta_0: 1.1473E-09 | 14: delta_r/delta_0: 4.0069E-10 | 15: delta_s/delta_0: 8.3244E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.099652084678146E-003 8.317512486532307E-005 | BP delta = -0.6956496 -0.6162606 93523265.0875743 | BP delta = -0.7121195 -0.6327304 93523264.9847169 | 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 = 0.26472078 | --> Sampling calibration, mode = relcal | relcal = -5.6596822E-03 1.5028984E-02 -2.3794968E-03 -6.9898060E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -2.1556753E-03 5.8644982E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4374E-04 | 2: delta_r/delta_0: 1.2365E-05 | 3: delta_s/delta_0: 2.1578E-06 | 4: delta_r/delta_0: 2.5289E-07 | 5: delta_s/delta_0: 9.0009E-08 | 6: delta_r/delta_0: 2.0197E-08 | 7: delta_s/delta_0: 8.5825E-09 | 8: delta_r/delta_0: 5.3555E-09 | 9: delta_s/delta_0: 6.2490E-09 | 10: delta_r/delta_0: 4.1030E-09 | 11: delta_s/delta_0: 1.5680E-07 | 12: delta_r/delta_0: 4.5526E-09 | 13: delta_s/delta_0: 4.9044E-09 | 14: delta_r/delta_0: 1.2335E-09 | 15: delta_s/delta_0: 6.4923E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -7.507386297265897E-003 9.165363759586042E-005 | BP delta = 0.1759021 0.2557660 94709263.8454406 | BP delta = 0.1695137 0.2493777 94709263.8119729 | 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 = 0.25618610 | --> Sampling calibration, mode = relcal | relcal = -3.1598322E-02 -2.5891658E-02 3.6870632E-02 2.0619346E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.9066542E-02 2.3346597E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.5664E-04 | 2: delta_r/delta_0: 1.2674E-05 | 3: delta_s/delta_0: 2.0737E-06 | 4: delta_r/delta_0: 4.2124E-07 | 5: delta_s/delta_0: 1.5565E-07 | 6: delta_r/delta_0: 3.5711E-08 | 7: delta_s/delta_0: 1.6584E-08 | 8: delta_r/delta_0: 8.3944E-09 | 9: delta_s/delta_0: 8.6554E-08 | 10: delta_r/delta_0: 6.4229E-09 | 11: delta_s/delta_0: 2.1820E-09 | 12: delta_r/delta_0: 4.9209E-10 | 13: delta_s/delta_0: 6.3108E-10 | 14: delta_r/delta_0: 3.5279E-10 | 15: delta_s/delta_0: 8.4053E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.033095956190868E-002 8.687417334486961E-005 | BP delta = -0.5931791 -0.6471280 93068308.1801101 | BP delta = -0.5909215 -0.6448704 93068308.1905207 | 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 = -3.165305 | New value = -3.162400 | poltype: 2 pol: 1 CPU time specind = 6.6440105E-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 = -3.188980 | New value = -3.181296 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.171652 | New value = -3.044355 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.072434 | New value = -3.179792 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.067831 | New value = -3.124564 | poltype: 2 pol: 2 CPU time specind = 3.6139488E-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 = 4.12 | CG iter. 1 -- res = 0.13560E+08, tol = 0.70573E+01, time = 1.56 | CG iter. 2 -- res = 0.45221E+05, tol = 0.70573E+01, time = 1.59 | CG iter. 3 -- res = 0.26748E+05, tol = 0.70573E+01, time = 1.51 | CG iter. 4 -- res = 0.97741E+04, tol = 0.70573E+01, time = 1.50 | CG iter. 5 -- res = 0.53520E+04, tol = 0.70573E+01, time = 1.53 | CG iter. 6 -- res = 0.27453E+04, tol = 0.70573E+01, time = 1.50 | CG iter. 7 -- res = 0.18629E+04, tol = 0.70573E+01, time = 1.49 | CG iter. 8 -- res = 0.11739E+04, tol = 0.70573E+01, time = 1.56 | CG iter. 9 -- res = 0.95619E+03, tol = 0.70573E+01, time = 1.51 | CG iter. 10 -- res = 0.11935E+04, tol = 0.70573E+01, time = 1.56 | CG iter. 11 -- res = 0.99250E+03, tol = 0.70573E+01, time = 1.57 | CG iter. 12 -- res = 0.65340E+03, tol = 0.70573E+01, time = 1.52 | CG iter. 13 -- res = 0.54504E+03, tol = 0.70573E+01, time = 1.53 | CG iter. 14 -- res = 0.43762E+03, tol = 0.70573E+01, time = 1.56 | CG iter. 15 -- res = 0.39679E+03, tol = 0.70573E+01, time = 1.54 | CG iter. 16 -- res = 0.32741E+03, tol = 0.70573E+01, time = 1.55 | CG iter. 17 -- res = 0.22985E+03, tol = 0.70573E+01, time = 1.55 | CG iter. 18 -- res = 0.16000E+03, tol = 0.70573E+01, time = 1.55 | CG iter. 19 -- res = 0.13587E+03, tol = 0.70573E+01, time = 1.51 | CG iter. 20 -- res = 0.11047E+03, tol = 0.70573E+01, time = 1.57 | CG iter. 21 -- res = 0.81827E+02, tol = 0.70573E+01, time = 1.53 | CG iter. 22 -- res = 0.72599E+02, tol = 0.70573E+01, time = 1.55 | CG iter. 23 -- res = 0.60499E+02, tol = 0.70573E+01, time = 1.54 | CG iter. 24 -- res = 0.48013E+02, tol = 0.70573E+01, time = 1.55 | CG iter. 25 -- res = 0.34136E+02, tol = 0.70573E+01, time = 1.53 | CG iter. 26 -- res = 0.34302E+02, tol = 0.70573E+01, time = 1.55 | CG iter. 27 -- res = 0.30992E+02, tol = 0.70573E+01, time = 1.56 | CG iter. 28 -- res = 0.23828E+02, tol = 0.70573E+01, time = 1.50 | CG iter. 29 -- res = 0.21992E+02, tol = 0.70573E+01, time = 1.60 | CG iter. 30 -- res = 0.19551E+02, tol = 0.70573E+01, time = 1.59 | CG iter. 31 -- res = 0.17283E+02, tol = 0.70573E+01, time = 1.54 | CG iter. 32 -- res = 0.15529E+02, tol = 0.70573E+01, time = 1.52 | CG iter. 33 -- res = 0.13344E+02, tol = 0.70573E+01, time = 1.54 | CG iter. 34 -- res = 0.11792E+02, tol = 0.70573E+01, time = 1.54 | CG iter. 35 -- res = 0.92255E+01, tol = 0.70573E+01, time = 1.52 | CG iter. 36 -- res = 0.78068E+01, tol = 0.70573E+01, time = 1.54 | CG iter. 37 -- res = 0.67152E+01, tol = 0.70573E+01, time = 1.55 | CG iter. 38 -- res = 0.48016E+01, tol = 0.70573E+01, time = 1.51 | CG iter. 39 -- res = 0.44621E+01, tol = 0.70573E+01, time = 1.58 | CG iter. 40 -- res = 0.47805E+01, tol = 0.70573E+01, time = 1.57 | CG iter. 41 -- res = 0.25947E+01, tol = 0.70573E+01, time = 1.52 | CG iter. 42 -- res = 0.18621E+01, tol = 0.70573E+01, time = 1.50 | CG iter. 43 -- res = 0.17135E+01, tol = 0.70573E+01, time = 1.53 | CG iter. 44 -- res = 0.16790E+01, tol = 0.70573E+01, time = 1.53 | CG iter. 45 -- res = 0.96111E+00, tol = 0.70573E+01, time = 1.54 | CG iter. 46 -- res = 0.68205E+00, tol = 0.70573E+01, time = 1.50 | CG iter. 47 -- res = 0.48129E+00, tol = 0.70573E+01, time = 1.49 | CG iter. 48 -- res = 0.39860E+00, tol = 0.70573E+01, time = 1.54 | CG iter. 49 -- res = 0.32226E+00, tol = 0.70573E+01, time = 1.52 | CG iter. 50 -- res = 0.25101E+00, tol = 0.70573E+01, time = 1.49 | Final CG iter 51 -- res = 0.25101E+00, tol = 0.70573E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9610922.788 | Old band monopole 9799340.873 | Change to band monopole -188418.086 | Change to component monopole 188417.275 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 4.12 | CG iter. 1 -- res = 0.57739E+03, tol = 0.47627E+18, time = 0.40 | CG iter. 2 -- res = 0.12231E+02, tol = 0.47627E+18, time = 0.35 | CG iter. 3 -- res = 0.11586E-01, tol = 0.47627E+18, time = 0.38 | Final CG iter 4 -- res = 0.15473E-04, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9610881.449 | (Sampled value in CG: 9608271.056 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.431345 | New value = 1.494909 | poltype: 2 pol: 1 CPU time specind = 6.5350533E-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 = 1.557893 | New value = 1.524272 | poltype: 2 pol: 2 CPU time specind = 2.7441978E-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 = 4.12 | CG iter. 1 -- res = 0.24899E+08, tol = 0.47578E+04, time = 1.81 | CG iter. 2 -- res = 0.53144E+07, tol = 0.47578E+04, time = 1.77 | CG iter. 3 -- res = 0.85042E+06, tol = 0.47578E+04, time = 1.75 | CG iter. 4 -- res = 0.35338E+06, tol = 0.47578E+04, time = 1.77 | CG iter. 5 -- res = 0.15021E+06, tol = 0.47578E+04, time = 1.68 | CG iter. 6 -- res = 0.79669E+05, tol = 0.47578E+04, time = 1.77 | CG iter. 7 -- res = 0.43979E+05, tol = 0.47578E+04, time = 1.76 | CG iter. 8 -- res = 0.21250E+05, tol = 0.47578E+04, time = 1.72 | CG iter. 9 -- res = 0.92195E+04, tol = 0.47578E+04, time = 1.72 | CG iter. 10 -- res = 0.37261E+04, tol = 0.47578E+04, time = 1.75 | CG iter. 11 -- res = 0.16873E+04, tol = 0.47578E+04, time = 1.80 | CG iter. 12 -- res = 0.85949E+03, tol = 0.47578E+04, time = 1.74 | CG iter. 13 -- res = 0.47529E+03, tol = 0.47578E+04, time = 1.74 | CG iter. 14 -- res = 0.26486E+03, tol = 0.47578E+04, time = 1.82 | CG iter. 15 -- res = 0.14006E+03, tol = 0.47578E+04, time = 1.78 | CG iter. 16 -- res = 0.67752E+02, tol = 0.47578E+04, time = 1.80 | CG iter. 17 -- res = 0.31104E+02, tol = 0.47578E+04, time = 1.76 | CG iter. 18 -- res = 0.15561E+02, tol = 0.47578E+04, time = 1.77 | CG iter. 19 -- res = 0.83052E+01, tol = 0.47578E+04, time = 1.81 | CG iter. 20 -- res = 0.45863E+01, tol = 0.47578E+04, time = 1.76 | CG iter. 21 -- res = 0.24902E+01, tol = 0.47578E+04, time = 1.77 | CG iter. 22 -- res = 0.12762E+01, tol = 0.47578E+04, time = 1.77 | CG iter. 23 -- res = 0.64558E+00, tol = 0.47578E+04, time = 1.79 | CG iter. 24 -- res = 0.34094E+00, tol = 0.47578E+04, time = 1.70 | CG iter. 25 -- res = 0.19125E+00, tol = 0.47578E+04, time = 1.78 | CG iter. 26 -- res = 0.10785E+00, tol = 0.47578E+04, time = 1.76 | CG iter. 27 -- res = 0.60663E-01, tol = 0.47578E+04, time = 1.81 | CG iter. 28 -- res = 0.33039E-01, tol = 0.47578E+04, time = 1.77 | CG iter. 29 -- res = 0.17542E-01, tol = 0.47578E+04, time = 1.77 | CG iter. 30 -- res = 0.92781E-02, tol = 0.47578E+04, time = 1.80 | CG iter. 31 -- res = 0.50255E-02, tol = 0.47578E+04, time = 1.79 | CG iter. 32 -- res = 0.27682E-02, tol = 0.47578E+04, time = 1.76 | CG iter. 33 -- res = 0.15634E-02, tol = 0.47578E+04, time = 1.79 | CG iter. 34 -- res = 0.84656E-03, tol = 0.47578E+04, time = 1.74 | CG iter. 35 -- res = 0.44383E-03, tol = 0.47578E+04, time = 1.79 | Final CG iter 36 -- res = 0.44383E-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) -2.111 2.742 | New value -1.000 | Old value -2.111 | Difference 1.111 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 4.12 | CG iter. 1 -- res = 0.66032E+05, tol = 0.47627E+18, time = 0.39 | CG iter. 2 -- res = 0.13389E+02, tol = 0.47627E+18, time = 0.37 | CG iter. 3 -- res = 0.81021E-01, tol = 0.47627E+18, time = 0.36 | Final CG iter 4 -- res = 0.21869E-04, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9610881.449 | (Sampled value in CG: 9609212.201 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.553851 | New value = -3.680805 | poltype: 1 pol: 1 CPU time specind = 3.6129951E-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 = 4.12 | CG iter. 1 -- res = 0.21146E+07, tol = 0.10179E+01, time = 0.70 | CG iter. 2 -- res = 0.37551E+05, tol = 0.10179E+01, time = 0.60 | CG iter. 3 -- res = 0.24704E+05, tol = 0.10179E+01, time = 0.67 | CG iter. 4 -- res = 0.65548E+04, tol = 0.10179E+01, time = 0.66 | CG iter. 5 -- res = 0.34082E+04, tol = 0.10179E+01, time = 0.67 | CG iter. 6 -- res = 0.10934E+04, tol = 0.10179E+01, time = 0.66 | CG iter. 7 -- res = 0.39874E+03, tol = 0.10179E+01, time = 0.65 | CG iter. 8 -- res = 0.14277E+03, tol = 0.10179E+01, time = 0.65 | CG iter. 9 -- res = 0.80722E+02, tol = 0.10179E+01, time = 0.66 | CG iter. 10 -- res = 0.28950E+02, tol = 0.10179E+01, time = 0.65 | CG iter. 11 -- res = 0.10266E+02, tol = 0.10179E+01, time = 0.63 | CG iter. 12 -- res = 0.36225E+01, tol = 0.10179E+01, time = 0.62 | CG iter. 13 -- res = 0.12029E+01, tol = 0.10179E+01, time = 0.64 | CG iter. 14 -- res = 0.41113E+00, tol = 0.10179E+01, time = 0.66 | CG iter. 15 -- res = 0.15745E+00, tol = 0.10179E+01, time = 0.65 | CG iter. 16 -- res = 0.58320E-01, tol = 0.10179E+01, time = 0.67 | CG iter. 17 -- res = 0.18545E-01, tol = 0.10179E+01, time = 0.64 | CG iter. 18 -- res = 0.84727E-02, tol = 0.10179E+01, time = 0.66 | CG iter. 19 -- res = 0.28428E-02, tol = 0.10179E+01, time = 0.64 | CG iter. 20 -- res = 0.12688E-02, tol = 0.10179E+01, time = 0.62 | CG iter. 21 -- res = 0.36169E-03, tol = 0.10179E+01, time = 0.62 | CG iter. 22 -- res = 0.11613E-03, tol = 0.10179E+01, time = 0.60 | CG iter. 23 -- res = 0.44379E-04, tol = 0.10179E+01, time = 0.65 | CG iter. 24 -- res = 0.15865E-04, tol = 0.10179E+01, time = 0.65 | CG iter. 25 -- res = 0.40331E-05, tol = 0.10179E+01, time = 0.64 | CG iter. 26 -- res = 0.11837E-05, tol = 0.10179E+01, time = 0.64 | CG iter. 27 -- res = 0.45441E-06, tol = 0.10179E+01, time = 0.64 | CG iter. 28 -- res = 0.16053E-06, tol = 0.10179E+01, time = 0.65 | CG iter. 29 -- res = 0.52395E-07, tol = 0.10179E+01, time = 0.63 | CG iter. 30 -- res = 0.15694E-07, tol = 0.10179E+01, time = 0.63 | CG iter. 31 -- res = 0.51502E-08, tol = 0.10179E+01, time = 0.67 | CG iter. 32 -- res = 0.15665E-08, tol = 0.10179E+01, time = 0.64 | CG iter. 33 -- res = 0.97831E-09, tol = 0.10179E+01, time = 0.66 | CG iter. 34 -- res = 0.44536E-09, tol = 0.10179E+01, time = 0.65 | CG iter. 35 -- res = 0.11766E-09, tol = 0.10179E+01, time = 0.65 | CG iter. 36 -- res = 0.38328E-10, tol = 0.10179E+01, time = 0.65 | CG iter. 37 -- res = 0.13678E-10, tol = 0.10179E+01, time = 0.65 | CG iter. 38 -- res = 0.97668E-11, tol = 0.10179E+01, time = 0.62 | CG iter. 39 -- res = 0.30676E-11, tol = 0.10179E+01, time = 0.66 | CG iter. 40 -- res = 0.75271E-12, tol = 0.10179E+01, time = 0.67 | CG iter. 41 -- res = 0.21001E-12, tol = 0.10179E+01, time = 0.64 | CG iter. 42 -- res = 0.66813E-13, tol = 0.10179E+01, time = 0.62 | CG iter. 43 -- res = 0.23410E-13, tol = 0.10179E+01, time = 0.64 | CG iter. 44 -- res = 0.86918E-14, tol = 0.10179E+01, time = 0.63 | CG iter. 45 -- res = 0.24374E-14, tol = 0.10179E+01, time = 0.64 | CG iter. 46 -- res = 0.83206E-15, tol = 0.10179E+01, time = 0.63 | CG iter. 47 -- res = 0.27063E-15, tol = 0.10179E+01, time = 0.61 | CG iter. 48 -- res = 0.76612E-16, tol = 0.10179E+01, time = 0.68 | CG iter. 49 -- res = 0.21202E-16, tol = 0.10179E+01, time = 0.64 | CG iter. 50 -- res = 0.68600E-17, tol = 0.10179E+01, time = 0.62 | Final CG iter 51 -- res = 0.68600E-17, tol = 0.10179E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 3.264 2.973 | New value 2.305 | Old value 3.264 | Difference -0.959 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 4.13 | CG iter. 1 -- res = 0.84184E+03, tol = 0.47627E+18, time = 0.35 | CG iter. 2 -- res = 0.91137E+01, tol = 0.47627E+18, time = 0.35 | CG iter. 3 -- res = 0.16780E-02, tol = 0.47627E+18, time = 0.35 | Final CG iter 4 -- res = 0.32075E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9610881.449 | (Sampled value in CG: 9610172.516 ) | CPU time specind = 274.5955 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 4.12 | CG iter. 1 -- res = 0.69721E+08, tol = 0.51500E+04, time = 3.18 | CG iter. 2 -- res = 0.33172E+08, tol = 0.51500E+04, time = 3.11 | CG iter. 3 -- res = 0.58009E+07, tol = 0.51500E+04, time = 3.17 | CG iter. 4 -- res = 0.29624E+07, tol = 0.51500E+04, time = 3.16 | CG iter. 5 -- res = 0.13158E+07, tol = 0.51500E+04, time = 3.13 | CG iter. 6 -- res = 0.71302E+06, tol = 0.51500E+04, time = 3.21 | CG iter. 7 -- res = 0.38944E+06, tol = 0.51500E+04, time = 3.22 | CG iter. 8 -- res = 0.19631E+06, tol = 0.51500E+04, time = 3.20 | CG iter. 9 -- res = 0.95904E+05, tol = 0.51500E+04, time = 3.18 | CG iter. 10 -- res = 0.42257E+05, tol = 0.51500E+04, time = 3.14 | CG iter. 11 -- res = 0.20853E+05, tol = 0.51500E+04, time = 3.16 | CG iter. 12 -- res = 0.11593E+05, tol = 0.51500E+04, time = 3.07 | CG iter. 13 -- res = 0.70242E+04, tol = 0.51500E+04, time = 3.07 | CG iter. 14 -- res = 0.45658E+04, tol = 0.51500E+04, time = 3.11 | CG iter. 15 -- res = 0.28596E+04, tol = 0.51500E+04, time = 3.13 | CG iter. 16 -- res = 0.19061E+04, tol = 0.51500E+04, time = 3.16 | CG iter. 17 -- res = 0.13544E+04, tol = 0.51500E+04, time = 3.18 | CG iter. 18 -- res = 0.11354E+04, tol = 0.51500E+04, time = 3.04 | CG iter. 19 -- res = 0.11298E+04, tol = 0.51500E+04, time = 3.18 | CG iter. 20 -- res = 0.12593E+04, tol = 0.51500E+04, time = 3.18 | CG iter. 21 -- res = 0.14247E+04, tol = 0.51500E+04, time = 3.06 | CG iter. 22 -- res = 0.14508E+04, tol = 0.51500E+04, time = 3.13 | CG iter. 23 -- res = 0.13755E+04, tol = 0.51500E+04, time = 3.09 | CG iter. 24 -- res = 0.12725E+04, tol = 0.51500E+04, time = 3.12 | CG iter. 25 -- res = 0.12066E+04, tol = 0.51500E+04, time = 3.11 | CG iter. 26 -- res = 0.11320E+04, tol = 0.51500E+04, time = 3.11 | CG iter. 27 -- res = 0.98826E+03, tol = 0.51500E+04, time = 3.15 | CG iter. 28 -- res = 0.81515E+03, tol = 0.51500E+04, time = 3.12 | CG iter. 29 -- res = 0.70022E+03, tol = 0.51500E+04, time = 3.12 | CG iter. 30 -- res = 0.68601E+03, tol = 0.51500E+04, time = 3.09 | CG iter. 31 -- res = 0.74618E+03, tol = 0.51500E+04, time = 3.17 | CG iter. 32 -- res = 0.82637E+03, tol = 0.51500E+04, time = 3.14 | CG iter. 33 -- res = 0.84084E+03, tol = 0.51500E+04, time = 3.07 | CG iter. 34 -- res = 0.79233E+03, tol = 0.51500E+04, time = 3.17 | CG iter. 35 -- res = 0.74972E+03, tol = 0.51500E+04, time = 3.22 | CG iter. 36 -- res = 0.75894E+03, tol = 0.51500E+04, time = 3.06 | CG iter. 37 -- res = 0.79064E+03, tol = 0.51500E+04, time = 3.07 | CG iter. 38 -- res = 0.77697E+03, tol = 0.51500E+04, time = 3.16 | CG iter. 39 -- res = 0.69902E+03, tol = 0.51500E+04, time = 3.23 | CG iter. 40 -- res = 0.61576E+03, tol = 0.51500E+04, time = 3.20 | CG iter. 41 -- res = 0.59065E+03, tol = 0.51500E+04, time = 3.15 | CG iter. 42 -- res = 0.62129E+03, tol = 0.51500E+04, time = 3.16 | CG iter. 43 -- res = 0.66223E+03, tol = 0.51500E+04, time = 3.19 | CG iter. 44 -- res = 0.65452E+03, tol = 0.51500E+04, time = 3.10 | CG iter. 45 -- res = 0.60847E+03, tol = 0.51500E+04, time = 3.10 | CG iter. 46 -- res = 0.58511E+03, tol = 0.51500E+04, time = 3.16 | CG iter. 47 -- res = 0.59255E+03, tol = 0.51500E+04, time = 3.15 | CG iter. 48 -- res = 0.61534E+03, tol = 0.51500E+04, time = 3.14 | CG iter. 49 -- res = 0.60479E+03, tol = 0.51500E+04, time = 3.08 | CG iter. 50 -- res = 0.55478E+03, tol = 0.51500E+04, time = 3.10 | CG iter. 51 -- res = 0.50094E+03, tol = 0.51500E+04, time = 3.18 | CG iter. 52 -- res = 0.48125E+03, tol = 0.51500E+04, time = 3.14 | CG iter. 53 -- res = 0.49973E+03, tol = 0.51500E+04, time = 3.16 | CG iter. 54 -- res = 0.51617E+03, tol = 0.51500E+04, time = 3.17 | CG iter. 55 -- res = 0.49239E+03, tol = 0.51500E+04, time = 3.17 | CG iter. 56 -- res = 0.44650E+03, tol = 0.51500E+04, time = 3.12 | CG iter. 57 -- res = 0.42517E+03, tol = 0.51500E+04, time = 3.20 | CG iter. 58 -- res = 0.43895E+03, tol = 0.51500E+04, time = 3.11 | CG iter. 59 -- res = 0.46441E+03, tol = 0.51500E+04, time = 3.21 | CG iter. 60 -- res = 0.45976E+03, tol = 0.51500E+04, time = 3.11 | Final CG iter 61 -- res = 0.45976E+03, tol = 0.51500E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 2.668 ( -231.621 -2234.015 2517.183 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 7389920.556 | Old band monopole 9610922.788 | Change to band monopole -2221002.232 | Change to component monopole 2220992.679 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -0.974 2.755 | New value 1.170 | Old value -0.974 | Difference 2.144 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -3.687 ( 8.108 10.932 -11.073 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 11.871 2.473 | New value 0.229 | Old value 11.871 | Difference -11.642 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 4.12 | CG iter. 1 -- res = 0.27523E+06, tol = 0.47627E+18, time = 0.38 | CG iter. 2 -- res = 0.59141E+02, tol = 0.47627E+18, time = 0.39 | CG iter. 3 -- res = 0.16439E+01, tol = 0.47627E+18, time = 0.38 | CG iter. 4 -- res = 0.30780E-02, tol = 0.47627E+18, time = 0.34 | Final CG iter 5 -- res = 0.54404E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7389888.770 | (Sampled value in CG: 7330166.829 ) | Chain = 1 -- chisq = 0.61519421E+09 | Chain = 1 -- wall time = 4095.978 sec --------------------------------------------------------------------- | Chain = 1 -- Iteration = 82 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.17896972226497 | --> Sampling calibration, mode = relcal | relcal = -7.3874988E-02 -5.7717167E-02 9.0661690E-02 4.0930469E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.6157784E-04 3.1587011E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.1556E-03 | 2: delta_r/delta_0: 2.5444E-05 | 3: delta_s/delta_0: 2.1526E-07 | 4: delta_r/delta_0: 2.2243E-08 | 5: delta_s/delta_0: 1.8649E-08 | 6: delta_r/delta_0: 4.7275E-09 | 7: delta_s/delta_0: 5.8283E-10 | 8: delta_r/delta_0: 1.5888E-10 | 9: delta_s/delta_0: 1.3794E-10 | 10: delta_r/delta_0: 5.7448E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.526283496614288E-003 2.745937337698819E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.1561E-03 | 2: delta_r/delta_0: 2.5466E-05 | 3: delta_s/delta_0: 2.1521E-07 | 4: delta_r/delta_0: 2.2235E-08 | 5: delta_s/delta_0: 1.8609E-08 | 6: delta_r/delta_0: 4.7191E-09 | 7: delta_s/delta_0: 5.8441E-10 | 8: delta_r/delta_0: 1.5875E-10 | 9: delta_s/delta_0: 1.3783E-10 | 10: delta_r/delta_0: 5.7334E-11 | Reached bicg-stab tolerance | BP delta = 8.9495722E-03 1.8811310E-02 3836495.08562512 | BP delta = 8.9495722E-03 1.9503014E-02 3827948.60771223 | BP chisq diff = -8546.5, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02521357 | --> Sampling calibration, mode = relcal | relcal = -0.1065299 -9.5486425E-02 0.1447833 5.7233017E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.2523915E-03 1.3705632E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.0859E-04 | 2: delta_r/delta_0: 4.5445E-06 | 3: delta_s/delta_0: 2.3309E-06 | 4: delta_r/delta_0: 2.2924E-07 | 5: delta_s/delta_0: 3.1830E-08 | 6: delta_r/delta_0: 5.3716E-09 | 7: delta_s/delta_0: 3.1057E-09 | 8: delta_r/delta_0: 2.0706E-09 | 9: delta_s/delta_0: 1.4088E-09 | 10: delta_r/delta_0: 9.1870E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -8.507654753091809E-003 2.812961235450562E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 2.0853E-04 | 2: delta_r/delta_0: 4.5433E-06 | 3: delta_s/delta_0: 2.3307E-06 | 4: delta_r/delta_0: 2.2923E-07 | 5: delta_s/delta_0: 3.1818E-08 | 6: delta_r/delta_0: 5.3717E-09 | 7: delta_s/delta_0: 3.1055E-09 | 8: delta_r/delta_0: 2.0705E-09 | 9: delta_s/delta_0: 1.4138E-09 | 10: delta_r/delta_0: 9.1567E-11 | Reached bicg-stab tolerance | BP delta = -0.1718973 -0.1661092 2841665.78163319 | BP delta = -0.1718973 -0.1603794 2841829.06904623 | 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 = 0.81134038 | --> Sampling calibration, mode = relcal | relcal = 0.2950780 0.2246282 -0.2834203 -0.2362859 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.1399308E-03 5.3299684E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.1693E-03 | 2: delta_r/delta_0: 5.0215E-05 | 3: delta_s/delta_0: 1.9460E-05 | 4: delta_r/delta_0: 4.0618E-07 | 5: delta_s/delta_0: 2.1013E-04 | 6: delta_r/delta_0: 1.6247E-05 | 7: delta_s/delta_0: 4.5261E-08 | 8: delta_r/delta_0: 2.8224E-08 | 9: delta_s/delta_0: 2.8360E-07 | 10: delta_r/delta_0: 3.4231E-09 | 11: delta_s/delta_0: 1.4739E-09 | 12: delta_r/delta_0: 5.1955E-10 | 13: delta_s/delta_0: 5.0590E-10 | 14: delta_r/delta_0: 2.1136E-10 | 15: delta_s/delta_0: 2.2895E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.369865330933990E-002 4.026104128904642E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 2.1691E-03 | 2: delta_r/delta_0: 5.0210E-05 | 3: delta_s/delta_0: 1.9467E-05 | 4: delta_r/delta_0: 4.0620E-07 | 5: delta_s/delta_0: 2.0992E-04 | 6: delta_r/delta_0: 1.6232E-05 | 7: delta_s/delta_0: 4.5261E-08 | 8: delta_r/delta_0: 2.8225E-08 | 9: delta_s/delta_0: 2.8366E-07 | 10: delta_r/delta_0: 3.4230E-09 | 11: delta_s/delta_0: 1.4746E-09 | 12: delta_r/delta_0: 5.1936E-10 | 13: delta_s/delta_0: 5.0586E-10 | 14: delta_r/delta_0: 2.1124E-10 | 15: delta_s/delta_0: 2.2905E-11 | Reached bicg-stab tolerance | BP delta = -8.2781740E-02 -0.1143901 2827559.10829501 | BP delta = -8.2781740E-02 -9.9319279E-02 2827561.18470358 | 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 = 0.95803123 | --> Sampling calibration, mode = relcal | relcal = 0.1063936 0.1393062 -0.1101561 -0.1355438 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.1008311E-02 1.1249737E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4866E-02 | 2: delta_r/delta_0: 3.5359E-04 | 3: delta_s/delta_0: 1.4027E-05 | 4: delta_r/delta_0: 1.2478E-06 | 5: delta_s/delta_0: 2.7886E-05 | 6: delta_r/delta_0: 1.2777E-06 | 7: delta_s/delta_0: 9.6949E-08 | 8: delta_r/delta_0: 4.0860E-08 | 9: delta_s/delta_0: 1.2084E-07 | 10: delta_r/delta_0: 1.1476E-08 | 11: delta_s/delta_0: 3.6891E-09 | 12: delta_r/delta_0: 1.2645E-09 | 13: delta_s/delta_0: 8.2712E-10 | 14: delta_r/delta_0: 5.5913E-10 | 15: delta_s/delta_0: 4.5757E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.437057161859793E-002 3.701401135400717E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.4852E-02 | 2: delta_r/delta_0: 3.5325E-04 | 3: delta_s/delta_0: 1.4020E-05 | 4: delta_r/delta_0: 1.2473E-06 | 5: delta_s/delta_0: 2.7865E-05 | 6: delta_r/delta_0: 1.2770E-06 | 7: delta_s/delta_0: 9.7006E-08 | 8: delta_r/delta_0: 4.0866E-08 | 9: delta_s/delta_0: 1.2086E-07 | 10: delta_r/delta_0: 1.1472E-08 | 11: delta_s/delta_0: 3.6891E-09 | 12: delta_r/delta_0: 1.2643E-09 | 13: delta_s/delta_0: 8.2718E-10 | 14: delta_r/delta_0: 5.5867E-10 | 15: delta_s/delta_0: 4.5808E-11 | Reached bicg-stab tolerance | BP delta = 0.2570845 0.2938095 3004910.43632200 | BP delta = 0.2570845 0.3235102 3004915.27878494 | 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 = 0.52091105 | --> Sampling calibration, mode = relcal | relcal = -5.1134799E-02 -3.6234336E-03 2.7171748E-02 2.7586486E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -1.9645842E-05 1.7214059E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.5812E-05 | 2: delta_r/delta_0: 4.4497E-06 | 3: delta_s/delta_0: 3.4091E-06 | 4: delta_r/delta_0: 5.2944E-07 | 5: delta_s/delta_0: 4.9776E-08 | 6: delta_r/delta_0: 2.7881E-08 | 7: delta_s/delta_0: 1.8489E-07 | 8: delta_r/delta_0: 4.7298E-09 | 9: delta_s/delta_0: 3.8389E-09 | 10: delta_r/delta_0: 1.5065E-09 | 11: delta_s/delta_0: 1.3332E-09 | 12: delta_r/delta_0: 1.5932E-10 | 13: delta_s/delta_0: 3.9311E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.041671823050635E-002 5.490275633550926E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 6.5812E-05 | 2: delta_r/delta_0: 4.4497E-06 | 3: delta_s/delta_0: 3.4091E-06 | 4: delta_r/delta_0: 5.2944E-07 | 5: delta_s/delta_0: 4.9776E-08 | 6: delta_r/delta_0: 2.7881E-08 | 7: delta_s/delta_0: 1.8488E-07 | 8: delta_r/delta_0: 4.7298E-09 | 9: delta_s/delta_0: 3.8389E-09 | 10: delta_r/delta_0: 1.5066E-09 | 11: delta_s/delta_0: 1.3333E-09 | 12: delta_r/delta_0: 1.5932E-10 | 13: delta_s/delta_0: 3.9311E-11 | Reached bicg-stab tolerance | BP delta = -0.1006115 -9.0520279E-03 2435602.63643216 | BP delta = -0.1006115 -1.2028582E-02 2435602.47121633 | 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 = 0.42097240 | --> Sampling calibration, mode = relcal | relcal = 4.5571383E-02 3.9569378E-02 -2.8241163E-02 -5.6899596E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.0123967E-03 5.3127268E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.1595E-05 | 2: delta_r/delta_0: 3.9342E-06 | 3: delta_s/delta_0: 4.4884E-06 | 4: delta_r/delta_0: 7.1388E-07 | 5: delta_s/delta_0: 5.8069E-08 | 6: delta_r/delta_0: 3.7233E-08 | 7: delta_s/delta_0: 2.9686E-08 | 8: delta_r/delta_0: 1.4556E-08 | 9: delta_s/delta_0: 5.1460E-09 | 10: delta_r/delta_0: 5.2278E-10 | 11: delta_s/delta_0: 5.8764E-10 | 12: delta_r/delta_0: 4.5045E-10 | 13: delta_s/delta_0: 2.0670E-10 | 14: delta_r/delta_0: 1.6511E-10 | 15: delta_s/delta_0: 1.7033E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.427576386340631E-002 5.002921016751281E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 6.1595E-05 | 2: delta_r/delta_0: 3.9342E-06 | 3: delta_s/delta_0: 4.4884E-06 | 4: delta_r/delta_0: 7.1386E-07 | 5: delta_s/delta_0: 5.8069E-08 | 6: delta_r/delta_0: 3.7232E-08 | 7: delta_s/delta_0: 2.9679E-08 | 8: delta_r/delta_0: 1.4556E-08 | 9: delta_s/delta_0: 5.1478E-09 | 10: delta_r/delta_0: 5.2276E-10 | 11: delta_s/delta_0: 5.8756E-10 | 12: delta_r/delta_0: 4.5034E-10 | 13: delta_s/delta_0: 2.0663E-10 | 14: delta_r/delta_0: 1.6504E-10 | 15: delta_s/delta_0: 1.7032E-11 | Reached bicg-stab tolerance | BP delta = -0.1421140 -0.1953573 2322034.75672406 | BP delta = -0.1421140 -0.1795070 2322079.11265307 | 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 = 0.28121385 | --> Sampling calibration, mode = relcal | relcal = 2.4110699E-02 4.5143262E-02 -2.3353931E-02 -4.5900028E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.1294171E-02 5.8598467E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.1046E-04 | 2: delta_r/delta_0: 8.9926E-06 | 3: delta_s/delta_0: 1.4670E-06 | 4: delta_r/delta_0: 1.8399E-07 | 5: delta_s/delta_0: 5.9636E-08 | 6: delta_r/delta_0: 1.4833E-08 | 7: delta_s/delta_0: 6.6787E-09 | 8: delta_r/delta_0: 4.3364E-09 | 9: delta_s/delta_0: 9.9102E-09 | 10: delta_r/delta_0: 3.3399E-09 | 11: delta_s/delta_0: 5.9291E-09 | 12: delta_r/delta_0: 1.0729E-09 | 13: delta_s/delta_0: 1.6139E-09 | 14: delta_r/delta_0: 8.2156E-10 | 15: delta_s/delta_0: 6.9028E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.187979845067362E-003 7.855147432100889E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.1046E-04 | 2: delta_r/delta_0: 8.9925E-06 | 3: delta_s/delta_0: 1.4670E-06 | 4: delta_r/delta_0: 1.8397E-07 | 5: delta_s/delta_0: 5.9634E-08 | 6: delta_r/delta_0: 1.4832E-08 | 7: delta_s/delta_0: 6.6783E-09 | 8: delta_r/delta_0: 4.3362E-09 | 9: delta_s/delta_0: 9.9102E-09 | 10: delta_r/delta_0: 3.3397E-09 | 11: delta_s/delta_0: 5.9283E-09 | 12: delta_r/delta_0: 1.0729E-09 | 13: delta_s/delta_0: 1.6150E-09 | 14: delta_r/delta_0: 8.2234E-10 | 15: delta_s/delta_0: 6.9034E-11 | Reached bicg-stab tolerance | BP delta = 5.9893906E-02 -0.1326665 2490260.93175645 | BP delta = 5.9893906E-02 -0.1137733 2490270.52093341 | 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 = 0.29356789 | --> Sampling calibration, mode = relcal | relcal = 6.2386278E-04 1.0220062E-02 -3.8322522E-03 -7.0116725E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.4496570E-02 1.1953248E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.3156E-04 | 2: delta_r/delta_0: 1.0900E-05 | 3: delta_s/delta_0: 1.6742E-06 | 4: delta_r/delta_0: 3.2462E-07 | 5: delta_s/delta_0: 1.0191E-07 | 6: delta_r/delta_0: 2.4323E-08 | 7: delta_s/delta_0: 1.0666E-08 | 8: delta_r/delta_0: 7.1517E-09 | 9: delta_s/delta_0: 8.9575E-09 | 10: delta_r/delta_0: 5.1101E-09 | 11: delta_s/delta_0: 2.3386E-08 | 12: delta_r/delta_0: 3.5520E-10 | 13: delta_s/delta_0: 8.6985E-10 | 14: delta_r/delta_0: 1.5719E-10 | 15: delta_s/delta_0: 7.8353E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.813919781914714E-003 8.316617218522601E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.3156E-04 | 2: delta_r/delta_0: 1.0900E-05 | 3: delta_s/delta_0: 1.6742E-06 | 4: delta_r/delta_0: 3.2461E-07 | 5: delta_s/delta_0: 1.0191E-07 | 6: delta_r/delta_0: 2.4323E-08 | 7: delta_s/delta_0: 1.0666E-08 | 8: delta_r/delta_0: 7.1517E-09 | 9: delta_s/delta_0: 8.9575E-09 | 10: delta_r/delta_0: 5.1101E-09 | 11: delta_s/delta_0: 2.3387E-08 | 12: delta_r/delta_0: 3.5522E-10 | 13: delta_s/delta_0: 8.6987E-10 | 14: delta_r/delta_0: 1.5720E-10 | 15: delta_s/delta_0: 7.8353E-11 | Reached bicg-stab tolerance | BP delta = -0.7121195 -0.6327304 2737910.88778995 | BP delta = -0.7121195 -0.6351253 2737911.65203429 | 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 = 0.26467794 | --> Sampling calibration, mode = relcal | relcal = -5.6549115E-03 1.5080159E-02 -2.3133736E-03 -7.1118735E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -1.8371253E-04 4.9289791E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4428E-04 | 2: delta_r/delta_0: 1.2406E-05 | 3: delta_s/delta_0: 2.0927E-06 | 4: delta_r/delta_0: 2.9945E-07 | 5: delta_s/delta_0: 1.1921E-07 | 6: delta_r/delta_0: 2.2303E-08 | 7: delta_s/delta_0: 7.7992E-09 | 8: delta_r/delta_0: 4.7038E-09 | 9: delta_s/delta_0: 3.7532E-09 | 10: delta_r/delta_0: 2.5694E-09 | 11: delta_s/delta_0: 5.3510E-07 | 12: delta_r/delta_0: 1.2071E-08 | 13: delta_s/delta_0: 1.5954E-09 | 14: delta_r/delta_0: 4.7956E-10 | 15: delta_s/delta_0: 4.8890E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -7.561407373999491E-003 9.167101559334802E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.4428E-04 | 2: delta_r/delta_0: 1.2406E-05 | 3: delta_s/delta_0: 2.0927E-06 | 4: delta_r/delta_0: 2.9946E-07 | 5: delta_s/delta_0: 1.1919E-07 | 6: delta_r/delta_0: 2.2304E-08 | 7: delta_s/delta_0: 7.7995E-09 | 8: delta_r/delta_0: 4.7040E-09 | 9: delta_s/delta_0: 3.7533E-09 | 10: delta_r/delta_0: 2.5695E-09 | 11: delta_s/delta_0: 5.3521E-07 | 12: delta_r/delta_0: 1.2073E-08 | 13: delta_s/delta_0: 1.5955E-09 | 14: delta_r/delta_0: 4.7959E-10 | 15: delta_s/delta_0: 4.8891E-11 | Reached bicg-stab tolerance | BP delta = 0.1695137 0.2493777 2516525.93053818 | BP delta = 0.1695137 0.2547835 2516525.84346453 | 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 = 0.25630256 | --> Sampling calibration, mode = relcal | relcal = -3.1621803E-02 -2.6025759E-02 3.6858547E-02 2.0789014E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.1099502E-02 2.0259624E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4626E-04 | 2: delta_r/delta_0: 1.2208E-05 | 3: delta_s/delta_0: 1.8849E-06 | 4: delta_r/delta_0: 3.8952E-07 | 5: delta_s/delta_0: 1.3729E-07 | 6: delta_r/delta_0: 2.5764E-08 | 7: delta_s/delta_0: 9.8342E-09 | 8: delta_r/delta_0: 6.2829E-09 | 9: delta_s/delta_0: 4.4280E-09 | 10: delta_r/delta_0: 3.0996E-09 | 11: delta_s/delta_0: 2.3471E-06 | 12: delta_r/delta_0: 9.5729E-10 | 13: delta_s/delta_0: 6.0513E-09 | 14: delta_r/delta_0: 4.3173E-09 | 15: delta_s/delta_0: 1.5125E-10 | 16: delta_r/delta_0: 1.2951E-10 | 17: delta_s/delta_0: 1.0881E-10 | 18: delta_r/delta_0: 9.8015E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -8.479695922565910E-003 8.683626532952935E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.4626E-04 | 2: delta_r/delta_0: 1.2208E-05 | 3: delta_s/delta_0: 1.8849E-06 | 4: delta_r/delta_0: 3.8952E-07 | 5: delta_s/delta_0: 1.3729E-07 | 6: delta_r/delta_0: 2.5763E-08 | 7: delta_s/delta_0: 9.8341E-09 | 8: delta_r/delta_0: 6.2829E-09 | 9: delta_s/delta_0: 4.4280E-09 | 10: delta_r/delta_0: 3.0996E-09 | 11: delta_s/delta_0: 2.3473E-06 | 12: delta_r/delta_0: 9.5740E-10 | 13: delta_s/delta_0: 6.0513E-09 | 14: delta_r/delta_0: 4.3173E-09 | 15: delta_s/delta_0: 1.5125E-10 | 16: delta_r/delta_0: 1.2951E-10 | 17: delta_s/delta_0: 1.0881E-10 | 18: delta_r/delta_0: 9.8014E-11 | Reached bicg-stab tolerance | BP delta = -0.5909215 -0.6448704 2706797.43180666 | BP delta = -0.5909215 -0.6408635 2706795.51748478 | BP chisq diff = -1.9, 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 = -3.162400 | New value = -3.205692 | poltype: 2 pol: 1 CPU time specind = 6.5181255E-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 = -3.181296 | New value = -3.184771 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.044355 | New value = -3.143380 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.179792 | New value = -3.218068 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.124564 | New value = -3.133869 | poltype: 2 pol: 2 CPU time specind = 3.1771660E-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 = 4.22 | CG iter. 1 -- res = 0.13526E+08, tol = 0.88578E+01, time = 1.56 | CG iter. 2 -- res = 0.43099E+05, tol = 0.88578E+01, time = 1.53 | CG iter. 3 -- res = 0.24568E+05, tol = 0.88578E+01, time = 1.51 | CG iter. 4 -- res = 0.12709E+05, tol = 0.88578E+01, time = 1.57 | CG iter. 5 -- res = 0.12700E+05, tol = 0.88578E+01, time = 1.57 | CG iter. 6 -- res = 0.11308E+05, tol = 0.88578E+01, time = 1.57 | CG iter. 7 -- res = 0.11450E+05, tol = 0.88578E+01, time = 1.54 | CG iter. 8 -- res = 0.93478E+04, tol = 0.88578E+01, time = 1.58 | CG iter. 9 -- res = 0.85511E+04, tol = 0.88578E+01, time = 1.57 | CG iter. 10 -- res = 0.83323E+04, tol = 0.88578E+01, time = 1.57 | CG iter. 11 -- res = 0.68620E+04, tol = 0.88578E+01, time = 1.53 | CG iter. 12 -- res = 0.43903E+04, tol = 0.88578E+01, time = 1.55 | CG iter. 13 -- res = 0.35603E+04, tol = 0.88578E+01, time = 1.60 | CG iter. 14 -- res = 0.31970E+04, tol = 0.88578E+01, time = 1.57 | CG iter. 15 -- res = 0.21949E+04, tol = 0.88578E+01, time = 1.53 | CG iter. 16 -- res = 0.17635E+04, tol = 0.88578E+01, time = 1.56 | CG iter. 17 -- res = 0.14540E+04, tol = 0.88578E+01, time = 1.56 | CG iter. 18 -- res = 0.12141E+04, tol = 0.88578E+01, time = 1.55 | CG iter. 19 -- res = 0.10086E+04, tol = 0.88578E+01, time = 1.57 | CG iter. 20 -- res = 0.73677E+03, tol = 0.88578E+01, time = 1.54 | CG iter. 21 -- res = 0.62786E+03, tol = 0.88578E+01, time = 1.53 | CG iter. 22 -- res = 0.54416E+03, tol = 0.88578E+01, time = 1.57 | CG iter. 23 -- res = 0.43945E+03, tol = 0.88578E+01, time = 1.55 | CG iter. 24 -- res = 0.37302E+03, tol = 0.88578E+01, time = 1.57 | CG iter. 25 -- res = 0.35777E+03, tol = 0.88578E+01, time = 1.60 | CG iter. 26 -- res = 0.35630E+03, tol = 0.88578E+01, time = 1.55 | CG iter. 27 -- res = 0.27654E+03, tol = 0.88578E+01, time = 1.53 | CG iter. 28 -- res = 0.23920E+03, tol = 0.88578E+01, time = 1.58 | CG iter. 29 -- res = 0.21145E+03, tol = 0.88578E+01, time = 1.56 | CG iter. 30 -- res = 0.18932E+03, tol = 0.88578E+01, time = 1.56 | CG iter. 31 -- res = 0.16159E+03, tol = 0.88578E+01, time = 1.59 | CG iter. 32 -- res = 0.12729E+03, tol = 0.88578E+01, time = 1.57 | CG iter. 33 -- res = 0.11240E+03, tol = 0.88578E+01, time = 1.52 | CG iter. 34 -- res = 0.94381E+02, tol = 0.88578E+01, time = 1.62 | CG iter. 35 -- res = 0.80566E+02, tol = 0.88578E+01, time = 1.53 | CG iter. 36 -- res = 0.76012E+02, tol = 0.88578E+01, time = 1.58 | CG iter. 37 -- res = 0.61042E+02, tol = 0.88578E+01, time = 1.56 | CG iter. 38 -- res = 0.45923E+02, tol = 0.88578E+01, time = 1.53 | CG iter. 39 -- res = 0.34665E+02, tol = 0.88578E+01, time = 1.52 | CG iter. 40 -- res = 0.42814E+02, tol = 0.88578E+01, time = 1.53 | CG iter. 41 -- res = 0.32999E+02, tol = 0.88578E+01, time = 1.53 | CG iter. 42 -- res = 0.19689E+02, tol = 0.88578E+01, time = 1.55 | CG iter. 43 -- res = 0.15206E+02, tol = 0.88578E+01, time = 1.52 | CG iter. 44 -- res = 0.13659E+02, tol = 0.88578E+01, time = 1.55 | CG iter. 45 -- res = 0.17133E+02, tol = 0.88578E+01, time = 1.54 | CG iter. 46 -- res = 0.10211E+02, tol = 0.88578E+01, time = 1.58 | CG iter. 47 -- res = 0.69476E+01, tol = 0.88578E+01, time = 1.59 | CG iter. 48 -- res = 0.60136E+01, tol = 0.88578E+01, time = 1.60 | CG iter. 49 -- res = 0.46304E+01, tol = 0.88578E+01, time = 1.57 | CG iter. 50 -- res = 0.37079E+01, tol = 0.88578E+01, time = 1.53 | Final CG iter 51 -- res = 0.37079E+01, tol = 0.88578E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9126417.578 | Old band monopole 7389920.556 | Change to band monopole 1736497.022 | Change to component monopole -1736489.553 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 4.21 | CG iter. 1 -- res = 0.13467E+06, tol = 0.47627E+18, time = 0.43 | CG iter. 2 -- res = 0.20233E+02, tol = 0.47627E+18, time = 0.36 | CG iter. 3 -- res = 0.58505E+00, tol = 0.47627E+18, time = 0.39 | CG iter. 4 -- res = 0.14243E-02, tol = 0.47627E+18, time = 0.40 | Final CG iter 5 -- res = 0.35398E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9126378.323 | (Sampled value in CG: 9106158.929 ) | 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 = 1.494909 | New value = 1.516425 | poltype: 2 pol: 1 CPU time specind = 6.7660809E-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 = 1.524272 | New value = 1.548374 | poltype: 2 pol: 2 CPU time specind = 3.2548904E-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 = 4.20 | CG iter. 1 -- res = 0.24161E+08, tol = 0.47628E+04, time = 1.87 | CG iter. 2 -- res = 0.54283E+07, tol = 0.47628E+04, time = 1.85 | CG iter. 3 -- res = 0.85175E+06, tol = 0.47628E+04, time = 1.79 | CG iter. 4 -- res = 0.35242E+06, tol = 0.47628E+04, time = 1.77 | CG iter. 5 -- res = 0.15416E+06, tol = 0.47628E+04, time = 1.81 | CG iter. 6 -- res = 0.80687E+05, tol = 0.47628E+04, time = 1.85 | CG iter. 7 -- res = 0.44053E+05, tol = 0.47628E+04, time = 1.79 | CG iter. 8 -- res = 0.21339E+05, tol = 0.47628E+04, time = 1.81 | CG iter. 9 -- res = 0.93630E+04, tol = 0.47628E+04, time = 1.81 | CG iter. 10 -- res = 0.38250E+04, tol = 0.47628E+04, time = 1.80 | CG iter. 11 -- res = 0.17368E+04, tol = 0.47628E+04, time = 1.80 | CG iter. 12 -- res = 0.89817E+03, tol = 0.47628E+04, time = 1.80 | CG iter. 13 -- res = 0.50264E+03, tol = 0.47628E+04, time = 1.79 | CG iter. 14 -- res = 0.28135E+03, tol = 0.47628E+04, time = 1.83 | CG iter. 15 -- res = 0.14489E+03, tol = 0.47628E+04, time = 1.81 | CG iter. 16 -- res = 0.70481E+02, tol = 0.47628E+04, time = 1.85 | CG iter. 17 -- res = 0.33611E+02, tol = 0.47628E+04, time = 1.81 | CG iter. 18 -- res = 0.16371E+02, tol = 0.47628E+04, time = 1.82 | CG iter. 19 -- res = 0.89067E+01, tol = 0.47628E+04, time = 1.85 | CG iter. 20 -- res = 0.51389E+01, tol = 0.47628E+04, time = 1.83 | CG iter. 21 -- res = 0.28561E+01, tol = 0.47628E+04, time = 1.81 | CG iter. 22 -- res = 0.14770E+01, tol = 0.47628E+04, time = 1.86 | CG iter. 23 -- res = 0.73907E+00, tol = 0.47628E+04, time = 1.82 | CG iter. 24 -- res = 0.37545E+00, tol = 0.47628E+04, time = 1.78 | CG iter. 25 -- res = 0.20509E+00, tol = 0.47628E+04, time = 1.81 | CG iter. 26 -- res = 0.11834E+00, tol = 0.47628E+04, time = 1.81 | CG iter. 27 -- res = 0.68526E-01, tol = 0.47628E+04, time = 1.79 | CG iter. 28 -- res = 0.37719E-01, tol = 0.47628E+04, time = 1.81 | CG iter. 29 -- res = 0.19455E-01, tol = 0.47628E+04, time = 1.80 | CG iter. 30 -- res = 0.99406E-02, tol = 0.47628E+04, time = 1.84 | CG iter. 31 -- res = 0.54140E-02, tol = 0.47628E+04, time = 1.77 | CG iter. 32 -- res = 0.30558E-02, tol = 0.47628E+04, time = 1.81 | CG iter. 33 -- res = 0.17321E-02, tol = 0.47628E+04, time = 1.83 | CG iter. 34 -- res = 0.93497E-03, tol = 0.47628E+04, time = 1.80 | CG iter. 35 -- res = 0.48272E-03, tol = 0.47628E+04, time = 1.80 | Final CG iter 36 -- res = 0.48272E-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) 1.169 2.749 | New value 1.968 | Old value 1.169 | Difference 0.799 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 4.21 | CG iter. 1 -- res = 0.33769E+05, tol = 0.47627E+18, time = 0.36 | CG iter. 2 -- res = 0.18545E+02, tol = 0.47627E+18, time = 0.39 | CG iter. 3 -- res = 0.31352E+00, tol = 0.47627E+18, time = 0.40 | Final CG iter 4 -- res = 0.39158E-04, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9126378.323 | (Sampled value in CG: 9107836.142 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.680805 | New value = -3.504835 | poltype: 1 pol: 1 CPU time specind = 3.8840771E-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 = 4.21 | CG iter. 1 -- res = 0.23408E+07, tol = 0.14407E+01, time = 0.65 | CG iter. 2 -- res = 0.59257E+05, tol = 0.14407E+01, time = 0.70 | CG iter. 3 -- res = 0.58220E+05, tol = 0.14407E+01, time = 0.65 | CG iter. 4 -- res = 0.12761E+05, tol = 0.14407E+01, time = 0.70 | CG iter. 5 -- res = 0.39595E+04, tol = 0.14407E+01, time = 0.68 | CG iter. 6 -- res = 0.15776E+04, tol = 0.14407E+01, time = 0.69 | CG iter. 7 -- res = 0.50476E+03, tol = 0.14407E+01, time = 0.68 | CG iter. 8 -- res = 0.18164E+03, tol = 0.14407E+01, time = 0.69 | CG iter. 9 -- res = 0.11408E+03, tol = 0.14407E+01, time = 0.69 | CG iter. 10 -- res = 0.31594E+02, tol = 0.14407E+01, time = 0.71 | CG iter. 11 -- res = 0.13906E+02, tol = 0.14407E+01, time = 0.65 | CG iter. 12 -- res = 0.49353E+01, tol = 0.14407E+01, time = 0.69 | CG iter. 13 -- res = 0.17479E+01, tol = 0.14407E+01, time = 0.68 | CG iter. 14 -- res = 0.66505E+00, tol = 0.14407E+01, time = 0.63 | CG iter. 15 -- res = 0.25283E+00, tol = 0.14407E+01, time = 0.67 | CG iter. 16 -- res = 0.75447E-01, tol = 0.14407E+01, time = 0.71 | CG iter. 17 -- res = 0.27459E-01, tol = 0.14407E+01, time = 0.64 | CG iter. 18 -- res = 0.14565E-01, tol = 0.14407E+01, time = 0.70 | CG iter. 19 -- res = 0.56783E-02, tol = 0.14407E+01, time = 0.68 | CG iter. 20 -- res = 0.20002E-02, tol = 0.14407E+01, time = 0.66 | CG iter. 21 -- res = 0.53893E-03, tol = 0.14407E+01, time = 0.69 | CG iter. 22 -- res = 0.18353E-03, tol = 0.14407E+01, time = 0.67 | CG iter. 23 -- res = 0.70364E-04, tol = 0.14407E+01, time = 0.67 | CG iter. 24 -- res = 0.26880E-04, tol = 0.14407E+01, time = 0.66 | CG iter. 25 -- res = 0.65163E-05, tol = 0.14407E+01, time = 0.66 | CG iter. 26 -- res = 0.21720E-05, tol = 0.14407E+01, time = 0.69 | CG iter. 27 -- res = 0.87965E-06, tol = 0.14407E+01, time = 0.68 | CG iter. 28 -- res = 0.30653E-06, tol = 0.14407E+01, time = 0.69 | CG iter. 29 -- res = 0.83314E-07, tol = 0.14407E+01, time = 0.68 | CG iter. 30 -- res = 0.24841E-07, tol = 0.14407E+01, time = 0.67 | CG iter. 31 -- res = 0.84896E-08, tol = 0.14407E+01, time = 0.68 | CG iter. 32 -- res = 0.34665E-08, tol = 0.14407E+01, time = 0.67 | CG iter. 33 -- res = 0.28063E-08, tol = 0.14407E+01, time = 0.73 | CG iter. 34 -- res = 0.50662E-09, tol = 0.14407E+01, time = 0.69 | CG iter. 35 -- res = 0.14384E-09, tol = 0.14407E+01, time = 0.64 | CG iter. 36 -- res = 0.55938E-10, tol = 0.14407E+01, time = 0.66 | CG iter. 37 -- res = 0.27106E-10, tol = 0.14407E+01, time = 0.68 | CG iter. 38 -- res = 0.19256E-10, tol = 0.14407E+01, time = 0.66 | CG iter. 39 -- res = 0.39736E-11, tol = 0.14407E+01, time = 0.69 | CG iter. 40 -- res = 0.11788E-11, tol = 0.14407E+01, time = 0.65 | CG iter. 41 -- res = 0.36844E-12, tol = 0.14407E+01, time = 0.63 | CG iter. 42 -- res = 0.12413E-12, tol = 0.14407E+01, time = 0.68 | CG iter. 43 -- res = 0.39378E-13, tol = 0.14407E+01, time = 0.66 | CG iter. 44 -- res = 0.14105E-13, tol = 0.14407E+01, time = 0.69 | CG iter. 45 -- res = 0.47070E-14, tol = 0.14407E+01, time = 0.63 | CG iter. 46 -- res = 0.14386E-14, tol = 0.14407E+01, time = 0.66 | CG iter. 47 -- res = 0.42319E-15, tol = 0.14407E+01, time = 0.69 | CG iter. 48 -- res = 0.12084E-15, tol = 0.14407E+01, time = 0.64 | CG iter. 49 -- res = 0.36016E-16, tol = 0.14407E+01, time = 0.68 | CG iter. 50 -- res = 0.12487E-16, tol = 0.14407E+01, time = 0.67 | Final CG iter 51 -- res = 0.12487E-16, tol = 0.14407E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -1.865 2.736 | New value 2.202 | Old value -1.865 | Difference 4.067 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 4.19 | CG iter. 1 -- res = 0.11622E+05, tol = 0.47627E+18, time = 0.36 | CG iter. 2 -- res = 0.20527E+02, tol = 0.47627E+18, time = 0.40 | CG iter. 3 -- res = 0.28038E+00, tol = 0.47627E+18, time = 0.37 | CG iter. 4 -- res = 0.95426E-04, tol = 0.47627E+18, time = 0.42 | Final CG iter 5 -- res = 0.41798E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9126378.323 | (Sampled value in CG: 9111486.960 ) | CPU time specind = 280.5945 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 4.22 | CG iter. 1 -- res = 0.68404E+08, tol = 0.51549E+04, time = 3.17 | CG iter. 2 -- res = 0.33542E+08, tol = 0.51549E+04, time = 3.18 | CG iter. 3 -- res = 0.57766E+07, tol = 0.51549E+04, time = 3.22 | CG iter. 4 -- res = 0.28651E+07, tol = 0.51549E+04, time = 3.23 | CG iter. 5 -- res = 0.12585E+07, tol = 0.51549E+04, time = 3.14 | CG iter. 6 -- res = 0.69412E+06, tol = 0.51549E+04, time = 3.15 | CG iter. 7 -- res = 0.39015E+06, tol = 0.51549E+04, time = 3.26 | CG iter. 8 -- res = 0.19757E+06, tol = 0.51549E+04, time = 3.17 | CG iter. 9 -- res = 0.97446E+05, tol = 0.51549E+04, time = 3.09 | CG iter. 10 -- res = 0.43747E+05, tol = 0.51549E+04, time = 3.13 | CG iter. 11 -- res = 0.23052E+05, tol = 0.51549E+04, time = 3.11 | CG iter. 12 -- res = 0.14265E+05, tol = 0.51549E+04, time = 3.10 | CG iter. 13 -- res = 0.10039E+05, tol = 0.51549E+04, time = 3.13 | CG iter. 14 -- res = 0.78430E+04, tol = 0.51549E+04, time = 3.22 | CG iter. 15 -- res = 0.59339E+04, tol = 0.51549E+04, time = 3.26 | CG iter. 16 -- res = 0.49519E+04, tol = 0.51549E+04, time = 3.19 | CG iter. 17 -- res = 0.45752E+04, tol = 0.51549E+04, time = 3.24 | CG iter. 18 -- res = 0.48336E+04, tol = 0.51549E+04, time = 3.24 | CG iter. 19 -- res = 0.54335E+04, tol = 0.51549E+04, time = 3.19 | CG iter. 20 -- res = 0.56670E+04, tol = 0.51549E+04, time = 3.21 | CG iter. 21 -- res = 0.50754E+04, tol = 0.51549E+04, time = 3.31 | CG iter. 22 -- res = 0.39642E+04, tol = 0.51549E+04, time = 3.27 | CG iter. 23 -- res = 0.29747E+04, tol = 0.51549E+04, time = 3.20 | CG iter. 24 -- res = 0.23477E+04, tol = 0.51549E+04, time = 3.39 | CG iter. 25 -- res = 0.19413E+04, tol = 0.51549E+04, time = 3.30 | CG iter. 26 -- res = 0.16113E+04, tol = 0.51549E+04, time = 3.30 | CG iter. 27 -- res = 0.13161E+04, tol = 0.51549E+04, time = 3.31 | CG iter. 28 -- res = 0.11165E+04, tol = 0.51549E+04, time = 3.33 | CG iter. 29 -- res = 0.10225E+04, tol = 0.51549E+04, time = 3.31 | CG iter. 30 -- res = 0.10404E+04, tol = 0.51549E+04, time = 3.23 | CG iter. 31 -- res = 0.10773E+04, tol = 0.51549E+04, time = 3.25 | CG iter. 32 -- res = 0.10619E+04, tol = 0.51549E+04, time = 3.28 | CG iter. 33 -- res = 0.95070E+03, tol = 0.51549E+04, time = 3.13 | CG iter. 34 -- res = 0.82271E+03, tol = 0.51549E+04, time = 3.22 | CG iter. 35 -- res = 0.72991E+03, tol = 0.51549E+04, time = 3.28 | CG iter. 36 -- res = 0.68394E+03, tol = 0.51549E+04, time = 3.24 | CG iter. 37 -- res = 0.66998E+03, tol = 0.51549E+04, time = 3.13 | CG iter. 38 -- res = 0.64654E+03, tol = 0.51549E+04, time = 3.18 | CG iter. 39 -- res = 0.60637E+03, tol = 0.51549E+04, time = 3.20 | CG iter. 40 -- res = 0.58345E+03, tol = 0.51549E+04, time = 3.21 | CG iter. 41 -- res = 0.59984E+03, tol = 0.51549E+04, time = 3.22 | CG iter. 42 -- res = 0.65120E+03, tol = 0.51549E+04, time = 3.25 | CG iter. 43 -- res = 0.69534E+03, tol = 0.51549E+04, time = 3.16 | CG iter. 44 -- res = 0.70000E+03, tol = 0.51549E+04, time = 3.24 | CG iter. 45 -- res = 0.66269E+03, tol = 0.51549E+04, time = 3.30 | CG iter. 46 -- res = 0.62783E+03, tol = 0.51549E+04, time = 3.19 | CG iter. 47 -- res = 0.61827E+03, tol = 0.51549E+04, time = 3.20 | CG iter. 48 -- res = 0.62775E+03, tol = 0.51549E+04, time = 3.27 | CG iter. 49 -- res = 0.63485E+03, tol = 0.51549E+04, time = 3.25 | CG iter. 50 -- res = 0.61502E+03, tol = 0.51549E+04, time = 3.20 | CG iter. 51 -- res = 0.58325E+03, tol = 0.51549E+04, time = 3.20 | CG iter. 52 -- res = 0.57743E+03, tol = 0.51549E+04, time = 3.23 | CG iter. 53 -- res = 0.60232E+03, tol = 0.51549E+04, time = 3.24 | CG iter. 54 -- res = 0.63444E+03, tol = 0.51549E+04, time = 3.25 | CG iter. 55 -- res = 0.62585E+03, tol = 0.51549E+04, time = 3.20 | CG iter. 56 -- res = 0.57750E+03, tol = 0.51549E+04, time = 3.19 | CG iter. 57 -- res = 0.53809E+03, tol = 0.51549E+04, time = 3.16 | CG iter. 58 -- res = 0.53268E+03, tol = 0.51549E+04, time = 3.22 | CG iter. 59 -- res = 0.55169E+03, tol = 0.51549E+04, time = 3.29 | CG iter. 60 -- res = 0.55096E+03, tol = 0.51549E+04, time = 3.26 | Final CG iter 61 -- res = 0.55096E+03, tol = 0.51549E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 2.739 ( -231.406 -2234.286 2517.806 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 5866470.420 | Old band monopole 9126417.578 | Change to band monopole -3259947.157 | Change to component monopole 3259933.136 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 1.994 2.775 | New value 0.611 | Old value 1.994 | Difference -1.383 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -3.669 ( 8.382 13.288 -13.898 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 14.526 2.766 | New value -1.988 | Old value 14.526 | Difference -16.514 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 4.22 | CG iter. 1 -- res = 0.11422E+06, tol = 0.47627E+18, time = 0.38 | CG iter. 2 -- res = 0.61947E+02, tol = 0.47627E+18, time = 0.40 | CG iter. 3 -- res = 0.17984E+01, tol = 0.47627E+18, time = 0.37 | CG iter. 4 -- res = 0.27287E-02, tol = 0.47627E+18, time = 0.42 | Final CG iter 5 -- res = 0.79939E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 5866445.187 | (Sampled value in CG: 5805137.775 ) | Chain = 1 -- chisq = 0.61447001E+09 | Chain = 1 -- wall time = 4722.220 sec --------------------------------------------------------------------- | Chain = 1 -- Iteration = 83 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18109564710385 | --> Sampling calibration, mode = relcal | relcal = -7.5381599E-02 -5.8697559E-02 9.2189029E-02 4.1890129E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 8.6911037E-05 5.4286472E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.2585E-05 | 2: delta_r/delta_0: 1.0235E-06 | 3: delta_s/delta_0: 1.8789E-07 | 4: delta_r/delta_0: 2.0016E-08 | 5: delta_s/delta_0: 4.5008E-09 | 6: delta_r/delta_0: 1.5821E-09 | 7: delta_s/delta_0: 1.6095E-09 | 8: delta_r/delta_0: 7.6631E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 9.766998880095356E-004 2.740793771884019E-005 | BP delta = 8.9495722E-03 1.9503014E-02 29861278.1056402 | BP delta = 7.4094916E-03 1.7962934E-02 29861278.7969974 | 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 = 1.02500262 | --> Sampling calibration, mode = relcal | relcal = -0.1065952 -9.5497027E-02 0.1448116 5.7280671E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.7882538E-03 1.5619985E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.5292E-04 | 2: delta_r/delta_0: 5.5220E-06 | 3: delta_s/delta_0: 2.2730E-06 | 4: delta_r/delta_0: 2.1899E-07 | 5: delta_s/delta_0: 4.1965E-08 | 6: delta_r/delta_0: 4.7785E-09 | 7: delta_s/delta_0: 2.6824E-09 | 8: delta_r/delta_0: 1.6768E-09 | 9: delta_s/delta_0: 1.1622E-08 | 10: delta_r/delta_0: 3.8866E-09 | 11: delta_s/delta_0: 2.0460E-10 | 12: delta_r/delta_0: 1.4432E-10 | 13: delta_s/delta_0: 3.5681E-10 | 14: delta_r/delta_0: 3.3011E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -8.126544832844780E-003 2.813546869509953E-005 | BP delta = -0.1718973 -0.1661092 34762814.7907768 | BP delta = -0.1740587 -0.1682706 34762814.6907156 | 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 = 0.81146780 | --> Sampling calibration, mode = relcal | relcal = 0.2952070 0.2246126 -0.2835012 -0.2363183 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 6.5450504E-04 5.5901473E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4144E-03 | 2: delta_r/delta_0: 3.2530E-05 | 3: delta_s/delta_0: 1.2399E-05 | 4: delta_r/delta_0: 3.2642E-07 | 5: delta_s/delta_0: 1.1644E-05 | 6: delta_r/delta_0: 8.9817E-07 | 7: delta_s/delta_0: 5.8910E-08 | 8: delta_r/delta_0: 3.4883E-08 | 9: delta_s/delta_0: 1.4412E-07 | 10: delta_r/delta_0: 6.1621E-09 | 11: delta_s/delta_0: 1.5357E-09 | 12: delta_r/delta_0: 5.1792E-10 | 13: delta_s/delta_0: 1.7340E-10 | 14: delta_r/delta_0: 1.3121E-10 | 15: delta_s/delta_0: 2.0916E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.790865658031419E-002 4.025439499883169E-005 | BP delta = -8.2781740E-02 -0.1143901 43104899.3745279 | BP delta = -8.0123171E-02 -0.1117315 43104899.3770324 | 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 = 0.95810053 | --> Sampling calibration, mode = relcal | relcal = 0.1064203 0.1395154 -0.1101994 -0.1357363 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0064164E-02 1.3735063E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.4339E-04 | 2: delta_r/delta_0: 1.4785E-05 | 3: delta_s/delta_0: 2.2093E-05 | 4: delta_r/delta_0: 2.3178E-06 | 5: delta_s/delta_0: 3.6864E-07 | 6: delta_r/delta_0: 7.9739E-08 | 7: delta_s/delta_0: 5.6801E-08 | 8: delta_r/delta_0: 3.0321E-08 | 9: delta_s/delta_0: 1.7519E-07 | 10: delta_r/delta_0: 2.1266E-09 | 11: delta_s/delta_0: 5.6957E-08 | 12: delta_r/delta_0: 4.3819E-09 | 13: delta_s/delta_0: 1.3024E-10 | 14: delta_r/delta_0: 7.5059E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.104274486909326E-002 3.701355524722632E-005 | BP delta = 0.2570845 0.2938095 43044382.4757794 | BP delta = 0.2511667 0.2878917 43044382.3169734 | 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 = 0.52089950 | --> Sampling calibration, mode = relcal | relcal = -5.1006142E-02 -3.6473244E-03 2.7144542E-02 2.7508924E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -3.2493970E-04 5.3263572E-04 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.9632E-05 | 2: delta_r/delta_0: 4.5546E-06 | 3: delta_s/delta_0: 7.9211E-07 | 4: delta_r/delta_0: 1.2104E-07 | 5: delta_s/delta_0: 1.0459E-07 | 6: delta_r/delta_0: 5.6858E-08 | 7: delta_s/delta_0: 1.7959E-08 | 8: delta_r/delta_0: 1.3583E-08 | 9: delta_s/delta_0: 4.7379E-07 | 10: delta_r/delta_0: 6.5343E-10 | 11: delta_s/delta_0: 5.4085E-10 | 12: delta_r/delta_0: 3.7579E-10 | 13: delta_s/delta_0: 1.6784E-09 | 14: delta_r/delta_0: 1.2626E-10 | 15: delta_s/delta_0: 1.1876E-10 | 16: delta_r/delta_0: 4.9786E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.096456284361374E-002 5.490326000648307E-005 | BP delta = -0.1006115 -1.2028582E-02 61505578.1710603 | BP delta = -0.1119525 -2.3369633E-02 61505578.1719878 | 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 = 0.42100150 | --> Sampling calibration, mode = relcal | relcal = 4.5648713E-02 3.9624516E-02 -2.8342383E-02 -5.6930847E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.8793165E-03 2.7491699E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 5.9667E-05 | 2: delta_r/delta_0: 3.9228E-06 | 3: delta_s/delta_0: 3.4846E-06 | 4: delta_r/delta_0: 5.9004E-07 | 5: delta_s/delta_0: 5.5121E-08 | 6: delta_r/delta_0: 3.4393E-08 | 7: delta_s/delta_0: 3.9493E-08 | 8: delta_r/delta_0: 1.2421E-08 | 9: delta_s/delta_0: 1.8785E-09 | 10: delta_r/delta_0: 8.3521E-10 | 11: delta_s/delta_0: 8.8764E-10 | 12: delta_r/delta_0: 6.0256E-10 | 13: delta_s/delta_0: 4.3806E-10 | 14: delta_r/delta_0: 2.9951E-10 | 15: delta_s/delta_0: 2.4709E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.332556472483227E-002 5.002801822793661E-005 | BP delta = -0.1421140 -0.1953573 61336034.3659846 | BP delta = -0.1362644 -0.1895078 61336034.3393249 | 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 = 0.28122976 | --> Sampling calibration, mode = relcal | relcal = 2.4162574E-02 4.5089234E-02 -2.3324747E-02 -4.5927063E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.4813453E-03 1.7888533E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.0763E-04 | 2: delta_r/delta_0: 8.6606E-06 | 3: delta_s/delta_0: 1.4040E-06 | 4: delta_r/delta_0: 1.5974E-07 | 5: delta_s/delta_0: 5.3402E-08 | 6: delta_r/delta_0: 1.2170E-08 | 7: delta_s/delta_0: 6.0773E-09 | 8: delta_r/delta_0: 3.8212E-09 | 9: delta_s/delta_0: 2.0067E-07 | 10: delta_r/delta_0: 5.5782E-09 | 11: delta_s/delta_0: 9.9103E-10 | 12: delta_r/delta_0: 2.7875E-10 | 13: delta_s/delta_0: 3.5010E-10 | 14: delta_r/delta_0: 2.1919E-10 | 15: delta_s/delta_0: 6.6852E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -8.834046330451864E-003 7.854615671364072E-005 | BP delta = 5.9893906E-02 -0.1326665 94984382.8203008 | BP delta = 6.7834020E-02 -0.1247264 94984382.8696090 | 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 = 0.29347284 | --> Sampling calibration, mode = relcal | relcal = 5.9939694E-04 1.0223673E-02 -3.8313542E-03 -6.9917156E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.3997889E-02 1.9346172E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.3412E-04 | 2: delta_r/delta_0: 1.1435E-05 | 3: delta_s/delta_0: 1.8500E-06 | 4: delta_r/delta_0: 2.7535E-07 | 5: delta_s/delta_0: 1.0823E-07 | 6: delta_r/delta_0: 2.4214E-08 | 7: delta_s/delta_0: 1.1464E-08 | 8: delta_r/delta_0: 7.6769E-09 | 9: delta_s/delta_0: 9.8107E-09 | 10: delta_r/delta_0: 5.2539E-09 | 11: delta_s/delta_0: 1.1265E-07 | 12: delta_r/delta_0: 2.0791E-08 | 13: delta_s/delta_0: 3.6737E-10 | 14: delta_r/delta_0: 1.8330E-10 | 15: delta_s/delta_0: 1.0793E-10 | 16: delta_r/delta_0: 8.8861E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.030873848960328E-002 8.319565235421739E-005 | BP delta = -0.7121195 -0.6327304 93514619.3503020 | BP delta = -0.7065483 -0.6271593 93514619.3711147 | 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 = 0.26466254 | --> Sampling calibration, mode = relcal | relcal = -5.5775573E-03 1.5027549E-02 -2.3709587E-03 -7.0790336E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -2.5105511E-04 5.0249235E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4282E-04 | 2: delta_r/delta_0: 1.2280E-05 | 3: delta_s/delta_0: 2.0306E-06 | 4: delta_r/delta_0: 2.2313E-07 | 5: delta_s/delta_0: 8.5279E-08 | 6: delta_r/delta_0: 1.7702E-08 | 7: delta_s/delta_0: 7.3243E-09 | 8: delta_r/delta_0: 4.6867E-09 | 9: delta_s/delta_0: 4.6655E-09 | 10: delta_r/delta_0: 3.2160E-09 | 11: delta_s/delta_0: 5.4746E-07 | 12: delta_r/delta_0: 1.3535E-08 | 13: delta_s/delta_0: 2.7834E-08 | 14: delta_r/delta_0: 1.4782E-08 | 15: delta_s/delta_0: 9.6552E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -7.857463621680338E-003 9.167783349099474E-005 | BP delta = 0.1695137 0.2547835 94710727.1155567 | BP delta = 0.1881371 0.2734069 94710727.1426814 | 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 = 0.25618261 | --> Sampling calibration, mode = relcal | relcal = -3.1617142E-02 -2.5844777E-02 3.6812618E-02 2.0649299E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.3646740E-02 1.6403610E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4456E-04 | 2: delta_r/delta_0: 1.2229E-05 | 3: delta_s/delta_0: 1.9027E-06 | 4: delta_r/delta_0: 3.2509E-07 | 5: delta_s/delta_0: 1.1864E-07 | 6: delta_r/delta_0: 2.3205E-08 | 7: delta_s/delta_0: 1.0202E-08 | 8: delta_r/delta_0: 5.9292E-09 | 9: delta_s/delta_0: 1.0604E-08 | 10: delta_r/delta_0: 3.7518E-09 | 11: delta_s/delta_0: 1.4230E-08 | 12: delta_r/delta_0: 3.9142E-09 | 13: delta_s/delta_0: 1.8017E-08 | 14: delta_r/delta_0: 1.1840E-08 | 15: delta_s/delta_0: 1.6294E-10 | 16: delta_r/delta_0: 1.2183E-10 | 17: delta_s/delta_0: 9.8720E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.648639916960671E-003 8.687092730882286E-005 | BP delta = -0.5909215 -0.6408635 93065674.3659000 | BP delta = -0.6024837 -0.6524258 93065674.3743435 | 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 = -3.205692 | New value = -3.201720 | poltype: 2 pol: 1 CPU time specind = 1.5828609E-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 = -3.184771 | New value = -3.086786 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.143380 | New value = -3.017113 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.218068 | New value = -3.163988 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.133869 | New value = -3.154570 | poltype: 2 pol: 2 CPU time specind = 8.3208084E-04 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 4.13 | CG iter. 1 -- res = 0.13547E+08, tol = 0.10129E+02, time = 1.50 | CG iter. 2 -- res = 0.41949E+05, tol = 0.10129E+02, time = 1.51 | CG iter. 3 -- res = 0.30105E+05, tol = 0.10129E+02, time = 1.49 | CG iter. 4 -- res = 0.88729E+04, tol = 0.10129E+02, time = 1.47 | CG iter. 5 -- res = 0.55903E+04, tol = 0.10129E+02, time = 1.49 | CG iter. 6 -- res = 0.35478E+04, tol = 0.10129E+02, time = 1.48 | CG iter. 7 -- res = 0.19280E+04, tol = 0.10129E+02, time = 1.57 | CG iter. 8 -- res = 0.12192E+04, tol = 0.10129E+02, time = 1.51 | CG iter. 9 -- res = 0.12548E+04, tol = 0.10129E+02, time = 1.45 | CG iter. 10 -- res = 0.15297E+04, tol = 0.10129E+02, time = 1.52 | CG iter. 11 -- res = 0.10489E+04, tol = 0.10129E+02, time = 1.50 | CG iter. 12 -- res = 0.93501E+03, tol = 0.10129E+02, time = 1.51 | CG iter. 13 -- res = 0.76289E+03, tol = 0.10129E+02, time = 1.53 | CG iter. 14 -- res = 0.58991E+03, tol = 0.10129E+02, time = 1.53 | CG iter. 15 -- res = 0.40826E+03, tol = 0.10129E+02, time = 1.55 | CG iter. 16 -- res = 0.28376E+03, tol = 0.10129E+02, time = 1.47 | CG iter. 17 -- res = 0.23526E+03, tol = 0.10129E+02, time = 1.48 | CG iter. 18 -- res = 0.19126E+03, tol = 0.10129E+02, time = 1.52 | CG iter. 19 -- res = 0.15479E+03, tol = 0.10129E+02, time = 1.53 | CG iter. 20 -- res = 0.11189E+03, tol = 0.10129E+02, time = 1.54 | CG iter. 21 -- res = 0.90919E+02, tol = 0.10129E+02, time = 1.49 | CG iter. 22 -- res = 0.84807E+02, tol = 0.10129E+02, time = 1.54 | CG iter. 23 -- res = 0.68544E+02, tol = 0.10129E+02, time = 1.51 | CG iter. 24 -- res = 0.59305E+02, tol = 0.10129E+02, time = 1.50 | CG iter. 25 -- res = 0.55410E+02, tol = 0.10129E+02, time = 1.49 | CG iter. 26 -- res = 0.47470E+02, tol = 0.10129E+02, time = 1.54 | CG iter. 27 -- res = 0.40447E+02, tol = 0.10129E+02, time = 1.50 | CG iter. 28 -- res = 0.35285E+02, tol = 0.10129E+02, time = 1.50 | CG iter. 29 -- res = 0.32668E+02, tol = 0.10129E+02, time = 1.51 | CG iter. 30 -- res = 0.27879E+02, tol = 0.10129E+02, time = 1.47 | CG iter. 31 -- res = 0.25037E+02, tol = 0.10129E+02, time = 1.52 | CG iter. 32 -- res = 0.23672E+02, tol = 0.10129E+02, time = 1.52 | CG iter. 33 -- res = 0.20159E+02, tol = 0.10129E+02, time = 1.49 | CG iter. 34 -- res = 0.17486E+02, tol = 0.10129E+02, time = 1.56 | CG iter. 35 -- res = 0.13271E+02, tol = 0.10129E+02, time = 1.53 | CG iter. 36 -- res = 0.11464E+02, tol = 0.10129E+02, time = 1.55 | CG iter. 37 -- res = 0.98515E+01, tol = 0.10129E+02, time = 1.50 | CG iter. 38 -- res = 0.70426E+01, tol = 0.10129E+02, time = 1.53 | CG iter. 39 -- res = 0.54765E+01, tol = 0.10129E+02, time = 1.52 | CG iter. 40 -- res = 0.51460E+01, tol = 0.10129E+02, time = 1.54 | CG iter. 41 -- res = 0.59005E+01, tol = 0.10129E+02, time = 1.54 | CG iter. 42 -- res = 0.28274E+01, tol = 0.10129E+02, time = 1.50 | CG iter. 43 -- res = 0.20570E+01, tol = 0.10129E+02, time = 1.49 | CG iter. 44 -- res = 0.20346E+01, tol = 0.10129E+02, time = 1.52 | CG iter. 45 -- res = 0.22495E+01, tol = 0.10129E+02, time = 1.49 | CG iter. 46 -- res = 0.10887E+01, tol = 0.10129E+02, time = 1.54 | CG iter. 47 -- res = 0.81561E+00, tol = 0.10129E+02, time = 1.53 | CG iter. 48 -- res = 0.66346E+00, tol = 0.10129E+02, time = 1.53 | CG iter. 49 -- res = 0.48527E+00, tol = 0.10129E+02, time = 1.50 | CG iter. 50 -- res = 0.44253E+00, tol = 0.10129E+02, time = 1.53 | Final CG iter 51 -- res = 0.44253E+00, tol = 0.10129E+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 7856957.726 | Old band monopole 5866470.420 | Change to band monopole 1990487.306 | Change to component monopole -1990478.744 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 4.11 | CG iter. 1 -- res = 0.20170E+05, tol = 0.47627E+18, time = 0.33 | CG iter. 2 -- res = 0.13761E+02, tol = 0.47627E+18, time = 0.39 | CG iter. 3 -- res = 0.12289E-01, tol = 0.47627E+18, time = 0.36 | Final CG iter 4 -- res = 0.17176E-04, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7856923.932 | (Sampled value in CG: 7855695.811 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.516425 | New value = 1.518692 | poltype: 2 pol: 1 CPU time specind = 4.5061111E-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 = 1.548374 | New value = 1.457055 | poltype: 2 pol: 2 CPU time specind = 8.6712837E-04 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 4.13 | CG iter. 1 -- res = 0.23999E+08, tol = 0.47621E+04, time = 1.76 | CG iter. 2 -- res = 0.52022E+07, tol = 0.47621E+04, time = 1.82 | CG iter. 3 -- res = 0.82819E+06, tol = 0.47621E+04, time = 1.76 | CG iter. 4 -- res = 0.34978E+06, tol = 0.47621E+04, time = 1.77 | CG iter. 5 -- res = 0.15348E+06, tol = 0.47621E+04, time = 1.78 | CG iter. 6 -- res = 0.80867E+05, tol = 0.47621E+04, time = 1.79 | CG iter. 7 -- res = 0.43566E+05, tol = 0.47621E+04, time = 1.76 | CG iter. 8 -- res = 0.20968E+05, tol = 0.47621E+04, time = 1.76 | CG iter. 9 -- res = 0.92019E+04, tol = 0.47621E+04, time = 1.76 | CG iter. 10 -- res = 0.37657E+04, tol = 0.47621E+04, time = 1.71 | CG iter. 11 -- res = 0.16638E+04, tol = 0.47621E+04, time = 1.75 | CG iter. 12 -- res = 0.83218E+03, tol = 0.47621E+04, time = 1.73 | CG iter. 13 -- res = 0.47416E+03, tol = 0.47621E+04, time = 1.78 | CG iter. 14 -- res = 0.27063E+03, tol = 0.47621E+04, time = 1.75 | CG iter. 15 -- res = 0.14065E+03, tol = 0.47621E+04, time = 1.75 | CG iter. 16 -- res = 0.66601E+02, tol = 0.47621E+04, time = 1.76 | CG iter. 17 -- res = 0.31254E+02, tol = 0.47621E+04, time = 1.78 | CG iter. 18 -- res = 0.15776E+02, tol = 0.47621E+04, time = 1.78 | CG iter. 19 -- res = 0.87456E+01, tol = 0.47621E+04, time = 1.78 | CG iter. 20 -- res = 0.50455E+01, tol = 0.47621E+04, time = 1.77 | CG iter. 21 -- res = 0.27689E+01, tol = 0.47621E+04, time = 1.80 | CG iter. 22 -- res = 0.13911E+01, tol = 0.47621E+04, time = 1.80 | CG iter. 23 -- res = 0.68109E+00, tol = 0.47621E+04, time = 1.76 | CG iter. 24 -- res = 0.34721E+00, tol = 0.47621E+04, time = 1.78 | CG iter. 25 -- res = 0.19532E+00, tol = 0.47621E+04, time = 1.77 | CG iter. 26 -- res = 0.11170E+00, tol = 0.47621E+04, time = 1.77 | CG iter. 27 -- res = 0.64278E-01, tol = 0.47621E+04, time = 1.77 | CG iter. 28 -- res = 0.34120E-01, tol = 0.47621E+04, time = 1.76 | CG iter. 29 -- res = 0.17787E-01, tol = 0.47621E+04, time = 1.76 | CG iter. 30 -- res = 0.94693E-02, tol = 0.47621E+04, time = 1.76 | CG iter. 31 -- res = 0.51406E-02, tol = 0.47621E+04, time = 1.76 | CG iter. 32 -- res = 0.29301E-02, tol = 0.47621E+04, time = 1.74 | CG iter. 33 -- res = 0.16418E-02, tol = 0.47621E+04, time = 1.76 | CG iter. 34 -- res = 0.88353E-03, tol = 0.47621E+04, time = 1.74 | CG iter. 35 -- res = 0.45293E-03, tol = 0.47621E+04, time = 1.73 | Final CG iter 36 -- res = 0.45293E-03, tol = 0.47621E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 0.600 2.747 | New value -3.155 | Old value 0.600 | Difference -3.754 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 4.13 | CG iter. 1 -- res = 0.72642E+06, tol = 0.47627E+18, time = 0.34 | CG iter. 2 -- res = 0.12552E+02, tol = 0.47627E+18, time = 0.34 | CG iter. 3 -- res = 0.12630E-01, tol = 0.47627E+18, time = 0.40 | Final CG iter 4 -- res = 0.11766E-04, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7856923.932 | (Sampled value in CG: 7855453.048 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.504835 | New value = -3.575281 | poltype: 1 pol: 1 CPU time specind = 1.8899441E-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 = 4.12 | CG iter. 1 -- res = 0.20228E+07, tol = 0.18638E+01, time = 0.59 | CG iter. 2 -- res = 0.32890E+05, tol = 0.18638E+01, time = 0.66 | CG iter. 3 -- res = 0.32624E+05, tol = 0.18638E+01, time = 0.63 | CG iter. 4 -- res = 0.63718E+04, tol = 0.18638E+01, time = 0.69 | CG iter. 5 -- res = 0.25075E+04, tol = 0.18638E+01, time = 0.65 | CG iter. 6 -- res = 0.89140E+03, tol = 0.18638E+01, time = 0.63 | CG iter. 7 -- res = 0.38484E+03, tol = 0.18638E+01, time = 0.61 | CG iter. 8 -- res = 0.22047E+03, tol = 0.18638E+01, time = 0.62 | CG iter. 9 -- res = 0.60056E+02, tol = 0.18638E+01, time = 0.65 | CG iter. 10 -- res = 0.20310E+02, tol = 0.18638E+01, time = 0.64 | CG iter. 11 -- res = 0.79314E+01, tol = 0.18638E+01, time = 0.60 | CG iter. 12 -- res = 0.35433E+01, tol = 0.18638E+01, time = 0.63 | CG iter. 13 -- res = 0.11050E+01, tol = 0.18638E+01, time = 0.61 | CG iter. 14 -- res = 0.38084E+00, tol = 0.18638E+01, time = 0.61 | CG iter. 15 -- res = 0.15993E+00, tol = 0.18638E+01, time = 0.60 | CG iter. 16 -- res = 0.47912E-01, tol = 0.18638E+01, time = 0.64 | CG iter. 17 -- res = 0.16620E-01, tol = 0.18638E+01, time = 0.65 | CG iter. 18 -- res = 0.83030E-02, tol = 0.18638E+01, time = 0.62 | CG iter. 19 -- res = 0.33892E-02, tol = 0.18638E+01, time = 0.63 | CG iter. 20 -- res = 0.10463E-02, tol = 0.18638E+01, time = 0.61 | CG iter. 21 -- res = 0.32910E-03, tol = 0.18638E+01, time = 0.61 | CG iter. 22 -- res = 0.10647E-03, tol = 0.18638E+01, time = 0.61 | CG iter. 23 -- res = 0.33382E-04, tol = 0.18638E+01, time = 0.65 | CG iter. 24 -- res = 0.11610E-04, tol = 0.18638E+01, time = 0.66 | CG iter. 25 -- res = 0.34345E-05, tol = 0.18638E+01, time = 0.67 | CG iter. 26 -- res = 0.12030E-05, tol = 0.18638E+01, time = 0.63 | CG iter. 27 -- res = 0.36650E-06, tol = 0.18638E+01, time = 0.63 | CG iter. 28 -- res = 0.11876E-06, tol = 0.18638E+01, time = 0.70 | CG iter. 29 -- res = 0.36265E-07, tol = 0.18638E+01, time = 0.65 | CG iter. 30 -- res = 0.11214E-07, tol = 0.18638E+01, time = 0.63 | CG iter. 31 -- res = 0.39730E-08, tol = 0.18638E+01, time = 0.69 | CG iter. 32 -- res = 0.25579E-08, tol = 0.18638E+01, time = 0.66 | CG iter. 33 -- res = 0.12332E-08, tol = 0.18638E+01, time = 0.62 | CG iter. 34 -- res = 0.32266E-09, tol = 0.18638E+01, time = 0.64 | CG iter. 35 -- res = 0.93992E-10, tol = 0.18638E+01, time = 0.60 | CG iter. 36 -- res = 0.74548E-10, tol = 0.18638E+01, time = 0.60 | CG iter. 37 -- res = 0.25838E-10, tol = 0.18638E+01, time = 0.64 | CG iter. 38 -- res = 0.88606E-11, tol = 0.18638E+01, time = 0.68 | CG iter. 39 -- res = 0.28676E-11, tol = 0.18638E+01, time = 0.62 | CG iter. 40 -- res = 0.80034E-12, tol = 0.18638E+01, time = 0.64 | CG iter. 41 -- res = 0.23416E-12, tol = 0.18638E+01, time = 0.66 | CG iter. 42 -- res = 0.77403E-13, tol = 0.18638E+01, time = 0.62 | CG iter. 43 -- res = 0.22570E-13, tol = 0.18638E+01, time = 0.68 | CG iter. 44 -- res = 0.66868E-14, tol = 0.18638E+01, time = 0.60 | CG iter. 45 -- res = 0.19019E-14, tol = 0.18638E+01, time = 0.62 | CG iter. 46 -- res = 0.57153E-15, tol = 0.18638E+01, time = 0.63 | CG iter. 47 -- res = 0.18823E-15, tol = 0.18638E+01, time = 0.66 | CG iter. 48 -- res = 0.67709E-16, tol = 0.18638E+01, time = 0.63 | CG iter. 49 -- res = 0.22244E-16, tol = 0.18638E+01, time = 0.62 | CG iter. 50 -- res = 0.76311E-17, tol = 0.18638E+01, time = 0.67 | Final CG iter 51 -- res = 0.76311E-17, tol = 0.18638E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -2.345 2.828 | New value -0.855 | Old value -2.345 | Difference 1.490 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 4.13 | CG iter. 1 -- res = 0.15439E+04, tol = 0.47627E+18, time = 0.36 | CG iter. 2 -- res = 0.11992E+02, tol = 0.47627E+18, time = 0.36 | CG iter. 3 -- res = 0.65154E-02, tol = 0.47627E+18, time = 0.35 | Final CG iter 4 -- res = 0.51731E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7856923.932 | (Sampled value in CG: 7854819.873 ) | CPU time specind = 272.6112 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 4.13 | CG iter. 1 -- res = 0.68188E+08, tol = 0.51513E+04, time = 3.07 | CG iter. 2 -- res = 0.33361E+08, tol = 0.51513E+04, time = 3.11 | CG iter. 3 -- res = 0.57786E+07, tol = 0.51513E+04, time = 2.97 | CG iter. 4 -- res = 0.28893E+07, tol = 0.51513E+04, time = 3.06 | CG iter. 5 -- res = 0.12801E+07, tol = 0.51513E+04, time = 3.15 | CG iter. 6 -- res = 0.69956E+06, tol = 0.51513E+04, time = 3.07 | CG iter. 7 -- res = 0.39377E+06, tol = 0.51513E+04, time = 3.14 | CG iter. 8 -- res = 0.20117E+06, tol = 0.51513E+04, time = 3.16 | CG iter. 9 -- res = 0.97105E+05, tol = 0.51513E+04, time = 3.04 | CG iter. 10 -- res = 0.42340E+05, tol = 0.51513E+04, time = 3.03 | CG iter. 11 -- res = 0.20959E+05, tol = 0.51513E+04, time = 3.07 | CG iter. 12 -- res = 0.11715E+05, tol = 0.51513E+04, time = 3.18 | CG iter. 13 -- res = 0.72024E+04, tol = 0.51513E+04, time = 3.09 | CG iter. 14 -- res = 0.48429E+04, tol = 0.51513E+04, time = 3.08 | CG iter. 15 -- res = 0.30310E+04, tol = 0.51513E+04, time = 3.09 | CG iter. 16 -- res = 0.20174E+04, tol = 0.51513E+04, time = 3.14 | CG iter. 17 -- res = 0.14641E+04, tol = 0.51513E+04, time = 3.19 | CG iter. 18 -- res = 0.12673E+04, tol = 0.51513E+04, time = 3.09 | CG iter. 19 -- res = 0.13235E+04, tol = 0.51513E+04, time = 3.12 | CG iter. 20 -- res = 0.14845E+04, tol = 0.51513E+04, time = 3.15 | CG iter. 21 -- res = 0.16319E+04, tol = 0.51513E+04, time = 3.16 | CG iter. 22 -- res = 0.16179E+04, tol = 0.51513E+04, time = 3.15 | CG iter. 23 -- res = 0.15020E+04, tol = 0.51513E+04, time = 3.15 | CG iter. 24 -- res = 0.13862E+04, tol = 0.51513E+04, time = 3.16 | CG iter. 25 -- res = 0.12817E+04, tol = 0.51513E+04, time = 3.16 | CG iter. 26 -- res = 0.11492E+04, tol = 0.51513E+04, time = 3.03 | CG iter. 27 -- res = 0.97742E+03, tol = 0.51513E+04, time = 3.09 | CG iter. 28 -- res = 0.80799E+03, tol = 0.51513E+04, time = 3.10 | CG iter. 29 -- res = 0.70536E+03, tol = 0.51513E+04, time = 3.16 | CG iter. 30 -- res = 0.70341E+03, tol = 0.51513E+04, time = 3.13 | CG iter. 31 -- res = 0.75230E+03, tol = 0.51513E+04, time = 3.18 | CG iter. 32 -- res = 0.81038E+03, tol = 0.51513E+04, time = 3.12 | CG iter. 33 -- res = 0.81953E+03, tol = 0.51513E+04, time = 3.12 | CG iter. 34 -- res = 0.78699E+03, tol = 0.51513E+04, time = 3.15 | CG iter. 35 -- res = 0.75909E+03, tol = 0.51513E+04, time = 3.12 | CG iter. 36 -- res = 0.74352E+03, tol = 0.51513E+04, time = 3.20 | CG iter. 37 -- res = 0.73664E+03, tol = 0.51513E+04, time = 3.19 | CG iter. 38 -- res = 0.71094E+03, tol = 0.51513E+04, time = 3.17 | CG iter. 39 -- res = 0.65187E+03, tol = 0.51513E+04, time = 3.20 | CG iter. 40 -- res = 0.59148E+03, tol = 0.51513E+04, time = 3.13 | CG iter. 41 -- res = 0.56861E+03, tol = 0.51513E+04, time = 3.14 | CG iter. 42 -- res = 0.59219E+03, tol = 0.51513E+04, time = 3.15 | CG iter. 43 -- res = 0.63124E+03, tol = 0.51513E+04, time = 3.16 | CG iter. 44 -- res = 0.64985E+03, tol = 0.51513E+04, time = 3.19 | CG iter. 45 -- res = 0.62723E+03, tol = 0.51513E+04, time = 3.11 | CG iter. 46 -- res = 0.60064E+03, tol = 0.51513E+04, time = 3.12 | CG iter. 47 -- res = 0.59046E+03, tol = 0.51513E+04, time = 3.08 | CG iter. 48 -- res = 0.59780E+03, tol = 0.51513E+04, time = 3.17 | CG iter. 49 -- res = 0.60080E+03, tol = 0.51513E+04, time = 3.16 | CG iter. 50 -- res = 0.56831E+03, tol = 0.51513E+04, time = 3.04 | CG iter. 51 -- res = 0.51552E+03, tol = 0.51513E+04, time = 3.09 | CG iter. 52 -- res = 0.48350E+03, tol = 0.51513E+04, time = 3.24 | CG iter. 53 -- res = 0.48761E+03, tol = 0.51513E+04, time = 3.11 | CG iter. 54 -- res = 0.51163E+03, tol = 0.51513E+04, time = 3.17 | CG iter. 55 -- res = 0.50896E+03, tol = 0.51513E+04, time = 3.14 | CG iter. 56 -- res = 0.47404E+03, tol = 0.51513E+04, time = 3.07 | CG iter. 57 -- res = 0.44363E+03, tol = 0.51513E+04, time = 3.11 | CG iter. 58 -- res = 0.44401E+03, tol = 0.51513E+04, time = 3.16 | CG iter. 59 -- res = 0.46729E+03, tol = 0.51513E+04, time = 3.17 | CG iter. 60 -- res = 0.47646E+03, tol = 0.51513E+04, time = 3.16 | Final CG iter 61 -- res = 0.47646E+03, tol = 0.51513E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 2.966 ( -232.310 -2234.300 2517.452 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 11202885.641 | Old band monopole 7856957.726 | Change to band monopole 3345927.915 | Change to component monopole -3345913.524 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -3.174 2.739 | New value -2.718 | Old value -3.174 | Difference 0.456 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -3.832 ( 8.775 11.962 -12.320 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 11.879 2.454 | New value 0.301 | Old value 11.879 | Difference -11.578 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 4.13 | CG iter. 1 -- res = 0.83315E+05, tol = 0.47627E+18, time = 0.33 | CG iter. 2 -- res = 0.66538E+02, tol = 0.47627E+18, time = 0.36 | CG iter. 3 -- res = 0.14314E+01, tol = 0.47627E+18, time = 0.35 | CG iter. 4 -- res = 0.17216E-02, tol = 0.47627E+18, time = 0.38 | Final CG iter 5 -- res = 0.19031E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 11202837.455 | (Sampled value in CG: 11138838.734 ) | Chain = 1 -- chisq = 0.61484497E+09 | Chain = 1 -- wall time = 4116.725 sec --------------------------------------------------------------------- | Chain = 1 -- Iteration = 84 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18217584100257 | --> Sampling calibration, mode = relcal | relcal = -7.5124428E-02 -5.8636740E-02 9.2023529E-02 4.1737635E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.6854328E-04 4.9389172E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.1133E-05 | 2: delta_r/delta_0: 9.4814E-07 | 3: delta_s/delta_0: 1.9872E-07 | 4: delta_r/delta_0: 1.8367E-08 | 5: delta_s/delta_0: 8.2671E-09 | 6: delta_r/delta_0: 1.7810E-09 | 7: delta_s/delta_0: 6.9161E-09 | 8: delta_r/delta_0: 1.6381E-10 | 9: delta_s/delta_0: 6.7020E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 7.968705952542390E-004 2.738328666360378E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.1133E-05 | 2: delta_r/delta_0: 9.4816E-07 | 3: delta_s/delta_0: 1.9872E-07 | 4: delta_r/delta_0: 1.8368E-08 | 5: delta_s/delta_0: 8.2692E-09 | 6: delta_r/delta_0: 1.7817E-09 | 7: delta_s/delta_0: 6.9129E-09 | 8: delta_r/delta_0: 1.6377E-10 | 9: delta_s/delta_0: 6.7009E-11 | Reached bicg-stab tolerance | BP delta = 7.4094916E-03 1.7962934E-02 3724173.11269754 | BP delta = 7.4094916E-03 1.7837334E-02 3725968.58078459 | 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 = 1.02507523 | --> Sampling calibration, mode = relcal | relcal = -0.1065474 -9.5431827E-02 0.1447869 5.7192322E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.5718956E-03 1.8104882E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.9290E-04 | 2: delta_r/delta_0: 4.1999E-06 | 3: delta_s/delta_0: 2.3578E-06 | 4: delta_r/delta_0: 2.3339E-07 | 5: delta_s/delta_0: 3.4865E-08 | 6: delta_r/delta_0: 6.5552E-09 | 7: delta_s/delta_0: 3.6552E-09 | 8: delta_r/delta_0: 2.3768E-09 | 9: delta_s/delta_0: 1.4546E-09 | 10: delta_r/delta_0: 2.8430E-10 | 11: delta_s/delta_0: 2.6031E-10 | 12: delta_r/delta_0: 1.8910E-10 | 13: delta_s/delta_0: 1.8737E-10 | 14: delta_r/delta_0: 5.0463E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -8.853853892028699E-003 2.813326822660119E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.9290E-04 | 2: delta_r/delta_0: 4.1998E-06 | 3: delta_s/delta_0: 2.3578E-06 | 4: delta_r/delta_0: 2.3339E-07 | 5: delta_s/delta_0: 3.4864E-08 | 6: delta_r/delta_0: 6.5551E-09 | 7: delta_s/delta_0: 3.6551E-09 | 8: delta_r/delta_0: 2.3768E-09 | 9: delta_s/delta_0: 1.4549E-09 | 10: delta_r/delta_0: 2.8415E-10 | 11: delta_s/delta_0: 2.6030E-10 | 12: delta_r/delta_0: 1.8905E-10 | 13: delta_s/delta_0: 1.8733E-10 | 14: delta_r/delta_0: 5.0424E-11 | Reached bicg-stab tolerance | BP delta = -0.1740587 -0.1682706 2841703.78443416 | BP delta = -0.1740587 -0.1691981 2841706.27135054 | 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 = 0.81133365 | --> Sampling calibration, mode = relcal | relcal = 0.2950793 0.2247047 -0.2834569 -0.2363271 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.4456533E-05 5.0714258E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 9.8026E-04 | 2: delta_r/delta_0: 2.2366E-05 | 3: delta_s/delta_0: 2.0053E-05 | 4: delta_r/delta_0: 2.0880E-06 | 5: delta_s/delta_0: 4.7261E-07 | 6: delta_r/delta_0: 7.8227E-08 | 7: delta_s/delta_0: 5.9078E-08 | 8: delta_r/delta_0: 2.8921E-08 | 9: delta_s/delta_0: 2.3395E-07 | 10: delta_r/delta_0: 1.8669E-09 | 11: delta_s/delta_0: 8.6659E-10 | 12: delta_r/delta_0: 4.0317E-10 | 13: delta_s/delta_0: 2.1303E-09 | 14: delta_r/delta_0: 2.8426E-10 | 15: delta_s/delta_0: 2.3753E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.827938211427526E-002 4.026249462489067E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 9.8075E-04 | 2: delta_r/delta_0: 2.2377E-05 | 3: delta_s/delta_0: 2.0046E-05 | 4: delta_r/delta_0: 2.0873E-06 | 5: delta_s/delta_0: 4.7292E-07 | 6: delta_r/delta_0: 7.8250E-08 | 7: delta_s/delta_0: 5.9078E-08 | 8: delta_r/delta_0: 2.8938E-08 | 9: delta_s/delta_0: 2.3508E-07 | 10: delta_r/delta_0: 1.8627E-09 | 11: delta_s/delta_0: 8.6476E-10 | 12: delta_r/delta_0: 4.0318E-10 | 13: delta_s/delta_0: 2.1226E-09 | 14: delta_r/delta_0: 2.8444E-10 | 15: delta_s/delta_0: 2.3756E-11 | Reached bicg-stab tolerance | BP delta = -8.0123171E-02 -0.1117315 2827170.38418213 | BP delta = -8.0123171E-02 -0.1180527 2827282.34704071 | 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 = 0.95805005 | --> Sampling calibration, mode = relcal | relcal = 0.1064416 0.1393969 -0.1101285 -0.1357100 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.8198792E-03 1.2603663E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 3.1658E-03 | 2: delta_r/delta_0: 7.4576E-05 | 3: delta_s/delta_0: 6.1634E-06 | 4: delta_r/delta_0: 5.0974E-07 | 5: delta_s/delta_0: 3.0014E-05 | 6: delta_r/delta_0: 6.5677E-07 | 7: delta_s/delta_0: 7.9553E-08 | 8: delta_r/delta_0: 3.0732E-08 | 9: delta_s/delta_0: 1.1198E-07 | 10: delta_r/delta_0: 5.0909E-09 | 11: delta_s/delta_0: 3.6064E-08 | 12: delta_r/delta_0: 2.1295E-08 | 13: delta_s/delta_0: 6.1684E-10 | 14: delta_r/delta_0: 2.3338E-10 | 15: delta_s/delta_0: 4.0848E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.495106535908856E-002 3.701440516618810E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 3.1671E-03 | 2: delta_r/delta_0: 7.4606E-05 | 3: delta_s/delta_0: 6.1662E-06 | 4: delta_r/delta_0: 5.0989E-07 | 5: delta_s/delta_0: 3.0036E-05 | 6: delta_r/delta_0: 6.5725E-07 | 7: delta_s/delta_0: 7.9544E-08 | 8: delta_r/delta_0: 3.0728E-08 | 9: delta_s/delta_0: 1.1188E-07 | 10: delta_r/delta_0: 5.0939E-09 | 11: delta_s/delta_0: 3.7071E-08 | 12: delta_r/delta_0: 2.1870E-08 | 13: delta_s/delta_0: 6.1759E-10 | 14: delta_r/delta_0: 2.3346E-10 | 15: delta_s/delta_0: 4.0911E-11 | Reached bicg-stab tolerance | BP delta = 0.2511667 0.2878917 3005345.74182910 | BP delta = 0.2511667 0.2808360 3005378.73473058 | 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 = 0.52093274 | --> Sampling calibration, mode = relcal | relcal = -5.0933529E-02 -3.6840986E-03 2.7226400E-02 2.7391227E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -1.0805181E-04 7.6855498E-04 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.5112E-05 | 2: delta_r/delta_0: 4.4371E-06 | 3: delta_s/delta_0: 3.4289E-06 | 4: delta_r/delta_0: 5.2831E-07 | 5: delta_s/delta_0: 4.5794E-08 | 6: delta_r/delta_0: 2.5762E-08 | 7: delta_s/delta_0: 3.2064E-07 | 8: delta_r/delta_0: 5.5136E-09 | 9: delta_s/delta_0: 3.0142E-09 | 10: delta_r/delta_0: 1.1141E-09 | 11: delta_s/delta_0: 8.4515E-09 | 12: delta_r/delta_0: 1.4992E-10 | 13: delta_s/delta_0: 1.0733E-10 | 14: delta_r/delta_0: 3.2667E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.983000319536352E-002 5.489976021714087E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 6.5112E-05 | 2: delta_r/delta_0: 4.4371E-06 | 3: delta_s/delta_0: 3.4289E-06 | 4: delta_r/delta_0: 5.2832E-07 | 5: delta_s/delta_0: 4.5794E-08 | 6: delta_r/delta_0: 2.5762E-08 | 7: delta_s/delta_0: 3.2060E-07 | 8: delta_r/delta_0: 5.5131E-09 | 9: delta_s/delta_0: 3.0141E-09 | 10: delta_r/delta_0: 1.1141E-09 | 11: delta_s/delta_0: 8.4450E-09 | 12: delta_r/delta_0: 1.4960E-10 | 13: delta_s/delta_0: 1.0717E-10 | 14: delta_r/delta_0: 3.2631E-11 | Reached bicg-stab tolerance | BP delta = -0.1119525 -2.3369633E-02 2435665.02449328 | BP delta = -0.1119525 -4.8486743E-02 2435668.87849313 | BP chisq diff = 3.9, accept = T | | Finished processing 060-WMAP_V1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 060-WMAP_V2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.42095701 | --> Sampling calibration, mode = relcal | relcal = 4.5566257E-02 3.9588802E-02 -2.8235398E-02 -5.6919664E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.1022637E-03 3.6094410E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.3987E-05 | 2: delta_r/delta_0: 3.9012E-06 | 3: delta_s/delta_0: 1.2773E-05 | 4: delta_r/delta_0: 1.6856E-06 | 5: delta_s/delta_0: 5.7673E-08 | 6: delta_r/delta_0: 3.8586E-08 | 7: delta_s/delta_0: 3.8004E-08 | 8: delta_r/delta_0: 1.4710E-08 | 9: delta_s/delta_0: 6.5174E-09 | 10: delta_r/delta_0: 3.3890E-10 | 11: delta_s/delta_0: 2.5750E-09 | 12: delta_r/delta_0: 1.9110E-09 | 13: delta_s/delta_0: 2.2821E-10 | 14: delta_r/delta_0: 9.4617E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.451736263983945E-002 5.003165009215072E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 6.3987E-05 | 2: delta_r/delta_0: 3.9012E-06 | 3: delta_s/delta_0: 1.2773E-05 | 4: delta_r/delta_0: 1.6856E-06 | 5: delta_s/delta_0: 5.7673E-08 | 6: delta_r/delta_0: 3.8586E-08 | 7: delta_s/delta_0: 3.8003E-08 | 8: delta_r/delta_0: 1.4710E-08 | 9: delta_s/delta_0: 6.5177E-09 | 10: delta_r/delta_0: 3.3888E-10 | 11: delta_s/delta_0: 2.5746E-09 | 12: delta_r/delta_0: 1.9108E-09 | 13: delta_s/delta_0: 2.2821E-10 | 14: delta_r/delta_0: 9.4621E-11 | Reached bicg-stab tolerance | BP delta = -0.1362644 -0.1895078 2322001.53807174 | BP delta = -0.1362644 -0.1992374 2322009.33821811 | 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 = 0.28122327 | --> Sampling calibration, mode = relcal | relcal = 2.4129461E-02 4.5104977E-02 -2.3340352E-02 -4.5894086E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 7.5265137E-03 3.3758129E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.0758E-04 | 2: delta_r/delta_0: 8.9021E-06 | 3: delta_s/delta_0: 1.4857E-06 | 4: delta_r/delta_0: 1.7324E-07 | 5: delta_s/delta_0: 6.1347E-08 | 6: delta_r/delta_0: 1.4285E-08 | 7: delta_s/delta_0: 6.8483E-09 | 8: delta_r/delta_0: 4.2038E-09 | 9: delta_s/delta_0: 9.3540E-08 | 10: delta_r/delta_0: 4.8562E-09 | 11: delta_s/delta_0: 1.3214E-09 | 12: delta_r/delta_0: 4.1238E-10 | 13: delta_s/delta_0: 3.9559E-10 | 14: delta_r/delta_0: 2.1399E-10 | 15: delta_s/delta_0: 8.7803E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -8.929550888818824E-003 7.854695151650651E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.0758E-04 | 2: delta_r/delta_0: 8.9021E-06 | 3: delta_s/delta_0: 1.4857E-06 | 4: delta_r/delta_0: 1.7324E-07 | 5: delta_s/delta_0: 6.1348E-08 | 6: delta_r/delta_0: 1.4285E-08 | 7: delta_s/delta_0: 6.8482E-09 | 8: delta_r/delta_0: 4.2038E-09 | 9: delta_s/delta_0: 9.3544E-08 | 10: delta_r/delta_0: 4.8561E-09 | 11: delta_s/delta_0: 1.3214E-09 | 12: delta_r/delta_0: 4.1239E-10 | 13: delta_s/delta_0: 3.9560E-10 | 14: delta_r/delta_0: 2.1402E-10 | 15: delta_s/delta_0: 8.7805E-11 | Reached bicg-stab tolerance | BP delta = 6.7834020E-02 -0.1247264 2489973.21291860 | BP delta = 6.7834020E-02 -0.1140266 2489980.28318545 | 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 = 0.29353963 | --> Sampling calibration, mode = relcal | relcal = 5.7791278E-04 1.0228646E-02 -3.8598690E-03 -6.9466894E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.5197756E-02 1.4278885E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.3122E-04 | 2: delta_r/delta_0: 1.1125E-05 | 3: delta_s/delta_0: 1.7361E-06 | 4: delta_r/delta_0: 2.6130E-07 | 5: delta_s/delta_0: 9.4502E-08 | 6: delta_r/delta_0: 1.9841E-08 | 7: delta_s/delta_0: 8.8960E-09 | 8: delta_r/delta_0: 6.0306E-09 | 9: delta_s/delta_0: 4.6282E-09 | 10: delta_r/delta_0: 3.5046E-09 | 11: delta_s/delta_0: 5.7300E-06 | 12: delta_r/delta_0: 3.1864E-08 | 13: delta_s/delta_0: 1.1953E-09 | 14: delta_r/delta_0: 3.7551E-10 | 15: delta_s/delta_0: 1.3988E-10 | 16: delta_r/delta_0: 4.7881E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.897987148747227E-003 8.317554190071781E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.3122E-04 | 2: delta_r/delta_0: 1.1125E-05 | 3: delta_s/delta_0: 1.7361E-06 | 4: delta_r/delta_0: 2.6130E-07 | 5: delta_s/delta_0: 9.4502E-08 | 6: delta_r/delta_0: 1.9841E-08 | 7: delta_s/delta_0: 8.8960E-09 | 8: delta_r/delta_0: 6.0306E-09 | 9: delta_s/delta_0: 4.6281E-09 | 10: delta_r/delta_0: 3.5046E-09 | 11: delta_s/delta_0: 5.7289E-06 | 12: delta_r/delta_0: 3.1855E-08 | 13: delta_s/delta_0: 1.1958E-09 | 14: delta_r/delta_0: 3.7567E-10 | 15: delta_s/delta_0: 1.3988E-10 | 16: delta_r/delta_0: 4.7878E-11 | Reached bicg-stab tolerance | BP delta = -0.7065483 -0.6271593 2737790.71027555 | BP delta = -0.7065483 -0.6256676 2737790.42843932 | 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 = 0.26473132 | --> Sampling calibration, mode = relcal | relcal = -5.5607604E-03 1.5089700E-02 -2.4181039E-03 -7.1108355E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -2.8270979E-03 3.5200773E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4374E-04 | 2: delta_r/delta_0: 1.1895E-05 | 3: delta_s/delta_0: 1.9581E-06 | 4: delta_r/delta_0: 3.2886E-07 | 5: delta_s/delta_0: 1.0781E-07 | 6: delta_r/delta_0: 2.3172E-08 | 7: delta_s/delta_0: 8.4928E-09 | 8: delta_r/delta_0: 5.2996E-09 | 9: delta_s/delta_0: 6.6210E-09 | 10: delta_r/delta_0: 4.1083E-09 | 11: delta_s/delta_0: 3.4444E-08 | 12: delta_r/delta_0: 3.0496E-10 | 13: delta_s/delta_0: 3.7557E-09 | 14: delta_r/delta_0: 6.7585E-10 | 15: delta_s/delta_0: 4.7472E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -7.916526385133555E-003 9.165728671552814E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.4374E-04 | 2: delta_r/delta_0: 1.1895E-05 | 3: delta_s/delta_0: 1.9581E-06 | 4: delta_r/delta_0: 3.2884E-07 | 5: delta_s/delta_0: 1.0782E-07 | 6: delta_r/delta_0: 2.3170E-08 | 7: delta_s/delta_0: 8.4922E-09 | 8: delta_r/delta_0: 5.2994E-09 | 9: delta_s/delta_0: 6.6205E-09 | 10: delta_r/delta_0: 4.1081E-09 | 11: delta_s/delta_0: 3.4451E-08 | 12: delta_r/delta_0: 3.0498E-10 | 13: delta_s/delta_0: 3.7556E-09 | 14: delta_r/delta_0: 6.7585E-10 | 15: delta_s/delta_0: 4.7471E-11 | Reached bicg-stab tolerance | BP delta = 0.1881371 0.2734069 2517083.10683200 | BP delta = 0.1881371 0.2820077 2517083.31467458 | 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 = 0.25616193 | --> Sampling calibration, mode = relcal | relcal = -3.1605601E-02 -2.5924657E-02 3.6831837E-02 2.0698423E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.8972738E-02 1.6730791E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4682E-04 | 2: delta_r/delta_0: 1.2337E-05 | 3: delta_s/delta_0: 1.9734E-06 | 4: delta_r/delta_0: 3.4663E-07 | 5: delta_s/delta_0: 1.3183E-07 | 6: delta_r/delta_0: 2.5592E-08 | 7: delta_s/delta_0: 1.0306E-08 | 8: delta_r/delta_0: 6.0589E-09 | 9: delta_s/delta_0: 5.7403E-09 | 10: delta_r/delta_0: 3.5673E-09 | 11: delta_s/delta_0: 1.1099E-05 | 12: delta_r/delta_0: 1.1854E-06 | 13: delta_s/delta_0: 6.5497E-10 | 14: delta_r/delta_0: 3.5825E-10 | 15: delta_s/delta_0: 1.3549E-10 | 16: delta_r/delta_0: 1.2216E-10 | 17: delta_s/delta_0: 1.0860E-10 | 18: delta_r/delta_0: 9.9618E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.050996305590329E-003 8.688266929162696E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.4682E-04 | 2: delta_r/delta_0: 1.2337E-05 | 3: delta_s/delta_0: 1.9734E-06 | 4: delta_r/delta_0: 3.4663E-07 | 5: delta_s/delta_0: 1.3183E-07 | 6: delta_r/delta_0: 2.5592E-08 | 7: delta_s/delta_0: 1.0306E-08 | 8: delta_r/delta_0: 6.0589E-09 | 9: delta_s/delta_0: 5.7403E-09 | 10: delta_r/delta_0: 3.5673E-09 | 11: delta_s/delta_0: 1.1095E-05 | 12: delta_r/delta_0: 1.1850E-06 | 13: delta_s/delta_0: 6.5497E-10 | 14: delta_r/delta_0: 3.5825E-10 | 15: delta_s/delta_0: 1.3549E-10 | 16: delta_r/delta_0: 1.2216E-10 | 17: delta_s/delta_0: 1.0860E-10 | 18: delta_r/delta_0: 9.9619E-11 | Reached bicg-stab tolerance | BP delta = -0.6024837 -0.6524258 2704644.99474780 | BP delta = -0.6024837 -0.6616119 2704645.96743033 | BP chisq diff = 1.0, 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 = -3.201720 | New value = -3.114191 | poltype: 2 pol: 1 CPU time specind = 5.7349205E-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 = -3.086786 | New value = -3.171552 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.017113 | New value = -3.199935 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.163988 | New value = -3.154556 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.154570 | New value = -3.115386 | poltype: 2 pol: 2 CPU time specind = 1.2879372E-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 = 4.26 | CG iter. 1 -- res = 0.13577E+08, tol = 0.62134E+01, time = 1.52 | CG iter. 2 -- res = 0.66312E+05, tol = 0.62134E+01, time = 1.54 | CG iter. 3 -- res = 0.79283E+05, tol = 0.62134E+01, time = 1.57 | CG iter. 4 -- res = 0.51670E+05, tol = 0.62134E+01, time = 1.60 | CG iter. 5 -- res = 0.56193E+05, tol = 0.62134E+01, time = 1.62 | CG iter. 6 -- res = 0.51950E+05, tol = 0.62134E+01, time = 1.57 | CG iter. 7 -- res = 0.48037E+05, tol = 0.62134E+01, time = 1.55 | CG iter. 8 -- res = 0.32198E+05, tol = 0.62134E+01, time = 1.55 | CG iter. 9 -- res = 0.29678E+05, tol = 0.62134E+01, time = 1.55 | CG iter. 10 -- res = 0.30295E+05, tol = 0.62134E+01, time = 1.55 | CG iter. 11 -- res = 0.18060E+05, tol = 0.62134E+01, time = 1.60 | CG iter. 12 -- res = 0.11689E+05, tol = 0.62134E+01, time = 1.54 | CG iter. 13 -- res = 0.10309E+05, tol = 0.62134E+01, time = 1.59 | CG iter. 14 -- res = 0.10031E+05, tol = 0.62134E+01, time = 1.57 | CG iter. 15 -- res = 0.76334E+04, tol = 0.62134E+01, time = 1.57 | CG iter. 16 -- res = 0.51704E+04, tol = 0.62134E+01, time = 1.58 | CG iter. 17 -- res = 0.35388E+04, tol = 0.62134E+01, time = 1.57 | CG iter. 18 -- res = 0.30397E+04, tol = 0.62134E+01, time = 1.61 | CG iter. 19 -- res = 0.27368E+04, tol = 0.62134E+01, time = 1.56 | CG iter. 20 -- res = 0.18251E+04, tol = 0.62134E+01, time = 1.54 | CG iter. 21 -- res = 0.14908E+04, tol = 0.62134E+01, time = 1.57 | CG iter. 22 -- res = 0.12616E+04, tol = 0.62134E+01, time = 1.50 | CG iter. 23 -- res = 0.91085E+03, tol = 0.62134E+01, time = 1.60 | CG iter. 24 -- res = 0.80226E+03, tol = 0.62134E+01, time = 1.55 | CG iter. 25 -- res = 0.74494E+03, tol = 0.62134E+01, time = 1.54 | CG iter. 26 -- res = 0.61132E+03, tol = 0.62134E+01, time = 1.55 | CG iter. 27 -- res = 0.47675E+03, tol = 0.62134E+01, time = 1.56 | CG iter. 28 -- res = 0.37550E+03, tol = 0.62134E+01, time = 1.53 | CG iter. 29 -- res = 0.33785E+03, tol = 0.62134E+01, time = 1.54 | CG iter. 30 -- res = 0.27997E+03, tol = 0.62134E+01, time = 1.60 | CG iter. 31 -- res = 0.19975E+03, tol = 0.62134E+01, time = 1.55 | CG iter. 32 -- res = 0.17473E+03, tol = 0.62134E+01, time = 1.51 | CG iter. 33 -- res = 0.14718E+03, tol = 0.62134E+01, time = 1.56 | CG iter. 34 -- res = 0.11905E+03, tol = 0.62134E+01, time = 1.55 | CG iter. 35 -- res = 0.89189E+02, tol = 0.62134E+01, time = 1.53 | CG iter. 36 -- res = 0.83314E+02, tol = 0.62134E+01, time = 1.49 | CG iter. 37 -- res = 0.61845E+02, tol = 0.62134E+01, time = 1.57 | CG iter. 38 -- res = 0.45779E+02, tol = 0.62134E+01, time = 1.58 | CG iter. 39 -- res = 0.43739E+02, tol = 0.62134E+01, time = 1.51 | CG iter. 40 -- res = 0.49213E+02, tol = 0.62134E+01, time = 1.53 | CG iter. 41 -- res = 0.27543E+02, tol = 0.62134E+01, time = 1.56 | CG iter. 42 -- res = 0.20490E+02, tol = 0.62134E+01, time = 1.55 | CG iter. 43 -- res = 0.15716E+02, tol = 0.62134E+01, time = 1.49 | CG iter. 44 -- res = 0.21527E+02, tol = 0.62134E+01, time = 1.48 | CG iter. 45 -- res = 0.11347E+02, tol = 0.62134E+01, time = 1.54 | CG iter. 46 -- res = 0.78596E+01, tol = 0.62134E+01, time = 1.55 | CG iter. 47 -- res = 0.55035E+01, tol = 0.62134E+01, time = 1.51 | CG iter. 48 -- res = 0.42115E+01, tol = 0.62134E+01, time = 1.54 | CG iter. 49 -- res = 0.30860E+01, tol = 0.62134E+01, time = 1.56 | CG iter. 50 -- res = 0.21217E+01, tol = 0.62134E+01, time = 1.60 | Final CG iter 51 -- res = 0.21217E+01, tol = 0.62134E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8404449.720 | Old band monopole 11202885.641 | Change to band monopole -2798435.921 | Change to component monopole 2798423.884 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 4.24 | CG iter. 1 -- res = 0.48053E+06, tol = 0.47627E+18, time = 0.42 | CG iter. 2 -- res = 0.42063E+02, tol = 0.47627E+18, time = 0.37 | CG iter. 3 -- res = 0.13279E+01, tol = 0.47627E+18, time = 0.35 | CG iter. 4 -- res = 0.17045E-02, tol = 0.47627E+18, time = 0.41 | Final CG iter 5 -- res = 0.44078E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8404413.571 | (Sampled value in CG: 8446279.543 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.518692 | New value = 1.551399 | poltype: 2 pol: 1 CPU time specind = 4.7168732E-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 = 1.457055 | New value = 1.502675 | poltype: 2 pol: 2 CPU time specind = 1.2249947E-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 = 4.25 | CG iter. 1 -- res = 0.24286E+08, tol = 0.47648E+04, time = 1.73 | CG iter. 2 -- res = 0.54186E+07, tol = 0.47648E+04, time = 1.80 | CG iter. 3 -- res = 0.86061E+06, tol = 0.47648E+04, time = 1.75 | CG iter. 4 -- res = 0.35537E+06, tol = 0.47648E+04, time = 1.72 | CG iter. 5 -- res = 0.14973E+06, tol = 0.47648E+04, time = 1.75 | CG iter. 6 -- res = 0.79060E+05, tol = 0.47648E+04, time = 1.74 | CG iter. 7 -- res = 0.43332E+05, tol = 0.47648E+04, time = 1.76 | CG iter. 8 -- res = 0.20864E+05, tol = 0.47648E+04, time = 1.77 | CG iter. 9 -- res = 0.93819E+04, tol = 0.47648E+04, time = 1.80 | CG iter. 10 -- res = 0.38776E+04, tol = 0.47648E+04, time = 1.80 | CG iter. 11 -- res = 0.17088E+04, tol = 0.47648E+04, time = 1.77 | CG iter. 12 -- res = 0.86938E+03, tol = 0.47648E+04, time = 1.76 | CG iter. 13 -- res = 0.48298E+03, tol = 0.47648E+04, time = 1.72 | CG iter. 14 -- res = 0.27803E+03, tol = 0.47648E+04, time = 1.76 | CG iter. 15 -- res = 0.14456E+03, tol = 0.47648E+04, time = 1.73 | CG iter. 16 -- res = 0.68722E+02, tol = 0.47648E+04, time = 1.77 | CG iter. 17 -- res = 0.32540E+02, tol = 0.47648E+04, time = 1.81 | CG iter. 18 -- res = 0.16220E+02, tol = 0.47648E+04, time = 1.80 | CG iter. 19 -- res = 0.88346E+01, tol = 0.47648E+04, time = 1.77 | CG iter. 20 -- res = 0.49997E+01, tol = 0.47648E+04, time = 1.77 | CG iter. 21 -- res = 0.27371E+01, tol = 0.47648E+04, time = 1.77 | CG iter. 22 -- res = 0.14101E+01, tol = 0.47648E+04, time = 1.77 | CG iter. 23 -- res = 0.71188E+00, tol = 0.47648E+04, time = 1.67 | CG iter. 24 -- res = 0.35921E+00, tol = 0.47648E+04, time = 1.78 | CG iter. 25 -- res = 0.19532E+00, tol = 0.47648E+04, time = 1.75 | CG iter. 26 -- res = 0.10883E+00, tol = 0.47648E+04, time = 1.76 | CG iter. 27 -- res = 0.60299E-01, tol = 0.47648E+04, time = 1.78 | CG iter. 28 -- res = 0.32529E-01, tol = 0.47648E+04, time = 1.74 | CG iter. 29 -- res = 0.16799E-01, tol = 0.47648E+04, time = 1.80 | CG iter. 30 -- res = 0.88700E-02, tol = 0.47648E+04, time = 1.77 | CG iter. 31 -- res = 0.48271E-02, tol = 0.47648E+04, time = 1.79 | CG iter. 32 -- res = 0.27646E-02, tol = 0.47648E+04, time = 1.79 | CG iter. 33 -- res = 0.15774E-02, tol = 0.47648E+04, time = 1.85 | CG iter. 34 -- res = 0.83597E-03, tol = 0.47648E+04, time = 1.77 | CG iter. 35 -- res = 0.43946E-03, tol = 0.47648E+04, time = 1.73 | Final CG iter 36 -- res = 0.43946E-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) -2.755 2.724 | New value -2.047 | Old value -2.755 | Difference 0.708 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 4.24 | CG iter. 1 -- res = 0.28826E+05, tol = 0.47627E+18, time = 0.39 | CG iter. 2 -- res = 0.35033E+02, tol = 0.47627E+18, time = 0.39 | CG iter. 3 -- res = 0.10950E+01, tol = 0.47627E+18, time = 0.39 | CG iter. 4 -- res = 0.72365E-04, tol = 0.47627E+18, time = 0.41 | Final CG iter 5 -- res = 0.52573E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8404413.571 | (Sampled value in CG: 8446006.859 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.575281 | New value = -3.815262 | poltype: 1 pol: 1 CPU time specind = 2.2251606E-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 = 4.25 | CG iter. 1 -- res = 0.26436E+07, tol = 0.15809E+01, time = 0.67 | CG iter. 2 -- res = 0.76384E+05, tol = 0.15809E+01, time = 0.70 | CG iter. 3 -- res = 0.78714E+05, tol = 0.15809E+01, time = 0.63 | CG iter. 4 -- res = 0.17257E+05, tol = 0.15809E+01, time = 0.69 | CG iter. 5 -- res = 0.48747E+04, tol = 0.15809E+01, time = 0.67 | CG iter. 6 -- res = 0.20550E+04, tol = 0.15809E+01, time = 0.67 | CG iter. 7 -- res = 0.58236E+03, tol = 0.15809E+01, time = 0.66 | CG iter. 8 -- res = 0.26376E+03, tol = 0.15809E+01, time = 0.64 | CG iter. 9 -- res = 0.11291E+03, tol = 0.15809E+01, time = 0.62 | CG iter. 10 -- res = 0.31471E+02, tol = 0.15809E+01, time = 0.63 | CG iter. 11 -- res = 0.15141E+02, tol = 0.15809E+01, time = 0.64 | CG iter. 12 -- res = 0.61793E+01, tol = 0.15809E+01, time = 0.66 | CG iter. 13 -- res = 0.20555E+01, tol = 0.15809E+01, time = 0.63 | CG iter. 14 -- res = 0.61776E+00, tol = 0.15809E+01, time = 0.65 | CG iter. 15 -- res = 0.25267E+00, tol = 0.15809E+01, time = 0.66 | CG iter. 16 -- res = 0.92114E-01, tol = 0.15809E+01, time = 0.65 | CG iter. 17 -- res = 0.32043E-01, tol = 0.15809E+01, time = 0.64 | CG iter. 18 -- res = 0.12696E-01, tol = 0.15809E+01, time = 0.63 | CG iter. 19 -- res = 0.50878E-02, tol = 0.15809E+01, time = 0.65 | CG iter. 20 -- res = 0.19753E-02, tol = 0.15809E+01, time = 0.66 | CG iter. 21 -- res = 0.62016E-03, tol = 0.15809E+01, time = 0.63 | CG iter. 22 -- res = 0.21699E-03, tol = 0.15809E+01, time = 0.61 | CG iter. 23 -- res = 0.76327E-04, tol = 0.15809E+01, time = 0.66 | CG iter. 24 -- res = 0.27345E-04, tol = 0.15809E+01, time = 0.64 | CG iter. 25 -- res = 0.69906E-05, tol = 0.15809E+01, time = 0.61 | CG iter. 26 -- res = 0.26973E-05, tol = 0.15809E+01, time = 0.62 | CG iter. 27 -- res = 0.97268E-06, tol = 0.15809E+01, time = 0.70 | CG iter. 28 -- res = 0.32306E-06, tol = 0.15809E+01, time = 0.61 | CG iter. 29 -- res = 0.10340E-06, tol = 0.15809E+01, time = 0.67 | CG iter. 30 -- res = 0.27579E-07, tol = 0.15809E+01, time = 0.64 | CG iter. 31 -- res = 0.10052E-07, tol = 0.15809E+01, time = 0.64 | CG iter. 32 -- res = 0.76625E-08, tol = 0.15809E+01, time = 0.68 | CG iter. 33 -- res = 0.24943E-08, tol = 0.15809E+01, time = 0.62 | CG iter. 34 -- res = 0.59402E-09, tol = 0.15809E+01, time = 0.72 | CG iter. 35 -- res = 0.18551E-09, tol = 0.15809E+01, time = 0.69 | CG iter. 36 -- res = 0.72046E-10, tol = 0.15809E+01, time = 0.65 | CG iter. 37 -- res = 0.48735E-10, tol = 0.15809E+01, time = 0.66 | CG iter. 38 -- res = 0.19848E-10, tol = 0.15809E+01, time = 0.62 | CG iter. 39 -- res = 0.51756E-11, tol = 0.15809E+01, time = 0.65 | CG iter. 40 -- res = 0.16136E-11, tol = 0.15809E+01, time = 0.60 | CG iter. 41 -- res = 0.46982E-12, tol = 0.15809E+01, time = 0.65 | CG iter. 42 -- res = 0.15871E-12, tol = 0.15809E+01, time = 0.65 | CG iter. 43 -- res = 0.53014E-13, tol = 0.15809E+01, time = 0.63 | CG iter. 44 -- res = 0.18422E-13, tol = 0.15809E+01, time = 0.66 | CG iter. 45 -- res = 0.61604E-14, tol = 0.15809E+01, time = 0.64 | CG iter. 46 -- res = 0.19231E-14, tol = 0.15809E+01, time = 0.66 | CG iter. 47 -- res = 0.56804E-15, tol = 0.15809E+01, time = 0.63 | CG iter. 48 -- res = 0.15795E-15, tol = 0.15809E+01, time = 0.67 | CG iter. 49 -- res = 0.48566E-16, tol = 0.15809E+01, time = 0.69 | CG iter. 50 -- res = 0.16466E-16, tol = 0.15809E+01, time = 0.62 | Final CG iter 51 -- res = 0.16466E-16, tol = 0.15809E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 5.599 2.227 | New value 0.364 | Old value 5.599 | Difference -5.235 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 4.24 | CG iter. 1 -- res = 0.20164E+05, tol = 0.47627E+18, time = 0.40 | CG iter. 2 -- res = 0.28953E+02, tol = 0.47627E+18, time = 0.43 | CG iter. 3 -- res = 0.88510E+00, tol = 0.47627E+18, time = 0.42 | Final CG iter 4 -- res = 0.22625E-04, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8404413.571 | (Sampled value in CG: 8437465.076 ) | CPU time specind = 277.0078 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 4.26 | CG iter. 1 -- res = 0.70294E+08, tol = 0.51584E+04, time = 3.25 | CG iter. 2 -- res = 0.32923E+08, tol = 0.51584E+04, time = 3.13 | CG iter. 3 -- res = 0.57835E+07, tol = 0.51584E+04, time = 3.19 | CG iter. 4 -- res = 0.30416E+07, tol = 0.51584E+04, time = 3.15 | CG iter. 5 -- res = 0.13799E+07, tol = 0.51584E+04, time = 3.17 | CG iter. 6 -- res = 0.74811E+06, tol = 0.51584E+04, time = 3.03 | CG iter. 7 -- res = 0.40251E+06, tol = 0.51584E+04, time = 3.12 | CG iter. 8 -- res = 0.20792E+06, tol = 0.51584E+04, time = 3.08 | CG iter. 9 -- res = 0.11165E+06, tol = 0.51584E+04, time = 3.20 | CG iter. 10 -- res = 0.57588E+05, tol = 0.51584E+04, time = 3.09 | CG iter. 11 -- res = 0.34922E+05, tol = 0.51584E+04, time = 3.22 | CG iter. 12 -- res = 0.24363E+05, tol = 0.51584E+04, time = 3.19 | CG iter. 13 -- res = 0.19967E+05, tol = 0.51584E+04, time = 3.18 | CG iter. 14 -- res = 0.19040E+05, tol = 0.51584E+04, time = 3.16 | CG iter. 15 -- res = 0.17955E+05, tol = 0.51584E+04, time = 3.18 | CG iter. 16 -- res = 0.17454E+05, tol = 0.51584E+04, time = 3.18 | CG iter. 17 -- res = 0.16050E+05, tol = 0.51584E+04, time = 3.17 | CG iter. 18 -- res = 0.14982E+05, tol = 0.51584E+04, time = 3.27 | CG iter. 19 -- res = 0.14210E+05, tol = 0.51584E+04, time = 3.18 | CG iter. 20 -- res = 0.12839E+05, tol = 0.51584E+04, time = 3.20 | CG iter. 21 -- res = 0.10031E+05, tol = 0.51584E+04, time = 3.20 | CG iter. 22 -- res = 0.67298E+04, tol = 0.51584E+04, time = 3.24 | CG iter. 23 -- res = 0.45747E+04, tol = 0.51584E+04, time = 3.18 | CG iter. 24 -- res = 0.36276E+04, tol = 0.51584E+04, time = 3.08 | CG iter. 25 -- res = 0.33681E+04, tol = 0.51584E+04, time = 3.07 | CG iter. 26 -- res = 0.31629E+04, tol = 0.51584E+04, time = 3.07 | CG iter. 27 -- res = 0.27120E+04, tol = 0.51584E+04, time = 3.14 | CG iter. 28 -- res = 0.22127E+04, tol = 0.51584E+04, time = 3.08 | CG iter. 29 -- res = 0.19344E+04, tol = 0.51584E+04, time = 3.11 | CG iter. 30 -- res = 0.18904E+04, tol = 0.51584E+04, time = 3.12 | CG iter. 31 -- res = 0.18582E+04, tol = 0.51584E+04, time = 3.08 | CG iter. 32 -- res = 0.15925E+04, tol = 0.51584E+04, time = 3.17 | CG iter. 33 -- res = 0.12021E+04, tol = 0.51584E+04, time = 3.18 | CG iter. 34 -- res = 0.93984E+03, tol = 0.51584E+04, time = 3.14 | CG iter. 35 -- res = 0.86825E+03, tol = 0.51584E+04, time = 3.15 | CG iter. 36 -- res = 0.90294E+03, tol = 0.51584E+04, time = 3.02 | CG iter. 37 -- res = 0.90119E+03, tol = 0.51584E+04, time = 3.20 | CG iter. 38 -- res = 0.80226E+03, tol = 0.51584E+04, time = 3.11 | CG iter. 39 -- res = 0.68677E+03, tol = 0.51584E+04, time = 3.11 | CG iter. 40 -- res = 0.65083E+03, tol = 0.51584E+04, time = 3.10 | CG iter. 41 -- res = 0.69106E+03, tol = 0.51584E+04, time = 3.06 | CG iter. 42 -- res = 0.71846E+03, tol = 0.51584E+04, time = 3.19 | CG iter. 43 -- res = 0.67209E+03, tol = 0.51584E+04, time = 3.08 | CG iter. 44 -- res = 0.58242E+03, tol = 0.51584E+04, time = 3.17 | CG iter. 45 -- res = 0.53206E+03, tol = 0.51584E+04, time = 3.02 | CG iter. 46 -- res = 0.55115E+03, tol = 0.51584E+04, time = 3.15 | CG iter. 47 -- res = 0.59091E+03, tol = 0.51584E+04, time = 3.13 | CG iter. 48 -- res = 0.59827E+03, tol = 0.51584E+04, time = 3.17 | CG iter. 49 -- res = 0.56558E+03, tol = 0.51584E+04, time = 3.07 | CG iter. 50 -- res = 0.53739E+03, tol = 0.51584E+04, time = 3.12 | CG iter. 51 -- res = 0.54801E+03, tol = 0.51584E+04, time = 3.09 | CG iter. 52 -- res = 0.58409E+03, tol = 0.51584E+04, time = 3.10 | CG iter. 53 -- res = 0.59189E+03, tol = 0.51584E+04, time = 3.13 | CG iter. 54 -- res = 0.55658E+03, tol = 0.51584E+04, time = 3.11 | CG iter. 55 -- res = 0.51701E+03, tol = 0.51584E+04, time = 3.06 | CG iter. 56 -- res = 0.50852E+03, tol = 0.51584E+04, time = 3.09 | CG iter. 57 -- res = 0.53277E+03, tol = 0.51584E+04, time = 3.10 | CG iter. 58 -- res = 0.55102E+03, tol = 0.51584E+04, time = 3.12 | CG iter. 59 -- res = 0.53742E+03, tol = 0.51584E+04, time = 3.09 | CG iter. 60 -- res = 0.51024E+03, tol = 0.51584E+04, time = 3.13 | Final CG iter 61 -- res = 0.51024E+03, tol = 0.51584E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 2.221 ( -232.380 -2233.558 2516.738 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8244712.548 | Old band monopole 8404449.720 | Change to band monopole -159737.172 | Change to component monopole 159736.485 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -2.022 2.748 | New value 2.996 | Old value -2.022 | Difference 5.018 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -3.223 ( 8.041 10.428 -11.104 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 8.554 1.731 | New value 2.121 | Old value 8.554 | Difference -6.432 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 4.24 | CG iter. 1 -- res = 0.13155E+07, tol = 0.47627E+18, time = 0.38 | CG iter. 2 -- res = 0.46959E+02, tol = 0.47627E+18, time = 0.43 | CG iter. 3 -- res = 0.12738E+01, tol = 0.47627E+18, time = 0.38 | CG iter. 4 -- res = 0.13140E-02, tol = 0.47627E+18, time = 0.39 | Final CG iter 5 -- res = 0.11776E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8244677.086 | (Sampled value in CG: 8190643.754 ) | Chain = 1 -- chisq = 0.61693458E+09 | Chain = 1 -- wall time = 4732.993 sec --------------------------------------------------------------------- | Chain = 1 -- Iteration = 85 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18306838827533 | --> Sampling calibration, mode = relcal | relcal = -7.5021110E-02 -5.8663130E-02 9.2031084E-02 4.1653156E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.5151143E-04 5.0924458E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.0832E-05 | 2: delta_r/delta_0: 9.2466E-07 | 3: delta_s/delta_0: 2.0427E-07 | 4: delta_r/delta_0: 1.8741E-08 | 5: delta_s/delta_0: 4.8962E-09 | 6: delta_r/delta_0: 1.4849E-09 | 7: delta_s/delta_0: 5.4317E-10 | 8: delta_r/delta_0: 9.3906E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 7.571535500725015E-004 2.736273493612595E-005 | BP delta = 7.4094916E-03 1.7962934E-02 29861368.6025205 | BP delta = 7.4677463E-03 1.8021189E-02 29861368.5897940 | 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 = 1.02513430 | --> Sampling calibration, mode = relcal | relcal = -0.1065861 -9.5526308E-02 0.1448437 5.7268672E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.5586117E-03 1.2290756E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 8.7020E-05 | 2: delta_r/delta_0: 1.9153E-06 | 3: delta_s/delta_0: 4.1530E-06 | 4: delta_r/delta_0: 4.1607E-07 | 5: delta_s/delta_0: 1.1176E-07 | 6: delta_r/delta_0: 1.9810E-08 | 7: delta_s/delta_0: 3.7018E-09 | 8: delta_r/delta_0: 2.4111E-09 | 9: delta_s/delta_0: 1.3247E-08 | 10: delta_r/delta_0: 2.8281E-10 | 11: delta_s/delta_0: 1.6520E-10 | 12: delta_r/delta_0: 9.3270E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.006944254368455E-002 2.813182476509654E-005 | BP delta = -0.1740587 -0.1682706 34761747.6069480 | BP delta = -0.1765125 -0.1707244 34761747.2551623 | 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 = 0.81131212 | --> Sampling calibration, mode = relcal | relcal = 0.2951793 0.2245604 -0.2833916 -0.2363481 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -1.9407526E-04 5.7280590E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.5530E-03 | 2: delta_r/delta_0: 1.5286E-04 | 3: delta_s/delta_0: 1.2723E-05 | 4: delta_r/delta_0: 1.3422E-06 | 5: delta_s/delta_0: 1.6247E-05 | 6: delta_r/delta_0: 6.9582E-07 | 7: delta_s/delta_0: 5.8814E-08 | 8: delta_r/delta_0: 4.8978E-09 | 9: delta_s/delta_0: 3.1485E-09 | 10: delta_r/delta_0: 1.4024E-09 | 11: delta_s/delta_0: 2.9325E-09 | 12: delta_r/delta_0: 3.0300E-10 | 13: delta_s/delta_0: 1.7183E-10 | 14: delta_r/delta_0: 6.8376E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -7.577223210226871E-004 4.026310780724199E-005 | BP delta = -8.0123171E-02 -0.1117315 43104890.9948432 | BP delta = -8.5557133E-02 -0.1171655 43104891.0356643 | 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 = 0.95794647 | --> Sampling calibration, mode = relcal | relcal = 0.1065093 0.1394720 -0.1102998 -0.1356815 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.7093480E-03 1.3418972E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.0496E-02 | 2: delta_r/delta_0: 2.4923E-04 | 3: delta_s/delta_0: 5.6934E-05 | 4: delta_r/delta_0: 5.1741E-06 | 5: delta_s/delta_0: 1.3576E-05 | 6: delta_r/delta_0: 1.7103E-06 | 7: delta_s/delta_0: 3.0716E-07 | 8: delta_r/delta_0: 4.7046E-09 | 9: delta_s/delta_0: 2.3808E-08 | 10: delta_r/delta_0: 6.4963E-09 | 11: delta_s/delta_0: 2.8282E-10 | 12: delta_r/delta_0: 1.5332E-10 | 13: delta_s/delta_0: 1.4357E-10 | 14: delta_r/delta_0: 3.3499E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 7.142720513298751E-003 3.701974307900481E-005 | BP delta = 0.2511667 0.2878917 43040858.0901154 | BP delta = 0.2601531 0.2968782 43040858.1728999 | 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 = 0.52090105 | --> Sampling calibration, mode = relcal | relcal = -5.0985456E-02 -3.7160187E-03 2.7247664E-02 2.7453810E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.5742407E-04 2.5932051E-04 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.6318E-05 | 2: delta_r/delta_0: 4.6671E-06 | 3: delta_s/delta_0: 5.2357E-05 | 4: delta_r/delta_0: 5.9500E-06 | 5: delta_s/delta_0: 4.4575E-08 | 6: delta_r/delta_0: 2.9217E-08 | 7: delta_s/delta_0: 1.1949E-07 | 8: delta_r/delta_0: 7.3893E-09 | 9: delta_s/delta_0: 1.3474E-09 | 10: delta_r/delta_0: 9.2088E-10 | 11: delta_s/delta_0: 5.3773E-10 | 12: delta_r/delta_0: 4.2469E-10 | 13: delta_s/delta_0: 1.7129E-09 | 14: delta_r/delta_0: 5.8179E-10 | 15: delta_s/delta_0: 2.4406E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.074530082078585E-002 5.490405156282730E-005 | BP delta = -0.1119525 -4.8486743E-02 61507013.1621703 | BP delta = -0.1148571 -5.1391352E-02 61507013.1722695 | 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 = 0.42098254 | --> Sampling calibration, mode = relcal | relcal = 4.5548432E-02 3.9537501E-02 -2.8250568E-02 -5.6835365E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.1719215E-03 4.8162807E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.0510E-05 | 2: delta_r/delta_0: 3.7441E-06 | 3: delta_s/delta_0: 2.3147E-06 | 4: delta_r/delta_0: 3.6290E-07 | 5: delta_s/delta_0: 5.5047E-08 | 6: delta_r/delta_0: 3.1278E-08 | 7: delta_s/delta_0: 2.0829E-07 | 8: delta_r/delta_0: 5.0264E-09 | 9: delta_s/delta_0: 2.8260E-09 | 10: delta_r/delta_0: 9.2492E-10 | 11: delta_s/delta_0: 8.2978E-10 | 12: delta_r/delta_0: 5.9605E-10 | 13: delta_s/delta_0: 3.9669E-10 | 14: delta_r/delta_0: 1.9243E-10 | 15: delta_s/delta_0: 2.2022E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.295460055046857E-002 5.002747562655063E-005 | BP delta = -0.1362644 -0.1895078 61334698.1905944 | BP delta = -0.1326634 -0.1859067 61334698.1655622 | 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 = 0.28122519 | --> Sampling calibration, mode = relcal | relcal = 2.4257556E-02 4.5009028E-02 -2.3309574E-02 -4.5957010E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0840391E-02 2.1666144E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.0771E-04 | 2: delta_r/delta_0: 8.7833E-06 | 3: delta_s/delta_0: 1.4000E-06 | 4: delta_r/delta_0: 1.7518E-07 | 5: delta_s/delta_0: 6.2753E-08 | 6: delta_r/delta_0: 1.4304E-08 | 7: delta_s/delta_0: 6.7360E-09 | 8: delta_r/delta_0: 4.2665E-09 | 9: delta_s/delta_0: 4.3507E-08 | 10: delta_r/delta_0: 3.9749E-09 | 11: delta_s/delta_0: 2.0005E-09 | 12: delta_r/delta_0: 1.0754E-09 | 13: delta_s/delta_0: 1.7261E-10 | 14: delta_r/delta_0: 5.7413E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.845940110125717E-003 7.854651239729535E-005 | BP delta = 6.7834020E-02 -0.1247264 94975609.4747010 | BP delta = 5.6913637E-02 -0.1356468 94975609.4627990 | 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 = 0.29354074 | --> Sampling calibration, mode = relcal | relcal = 5.4637087E-04 1.0212327E-02 -3.7736932E-03 -6.9850050E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.5263796E-02 1.6465951E-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: 1.0930E-05 | 3: delta_s/delta_0: 1.7162E-06 | 4: delta_r/delta_0: 3.2045E-07 | 5: delta_s/delta_0: 1.0271E-07 | 6: delta_r/delta_0: 2.2699E-08 | 7: delta_s/delta_0: 9.3406E-09 | 8: delta_r/delta_0: 6.1147E-09 | 9: delta_s/delta_0: 5.2459E-09 | 10: delta_r/delta_0: 3.8149E-09 | 11: delta_s/delta_0: 4.6076E-07 | 12: delta_r/delta_0: 3.7306E-08 | 13: delta_s/delta_0: 4.3482E-10 | 14: delta_r/delta_0: 1.0478E-10 | 15: delta_s/delta_0: 7.0401E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.884150937934587E-003 8.317347686877048E-005 | BP delta = -0.7065483 -0.6256676 93505339.7466067 | BP delta = -0.7278965 -0.6470158 93505339.7506359 | 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 = 0.26470408 | --> Sampling calibration, mode = relcal | relcal = -5.6789904E-03 1.4987829E-02 -2.2614228E-03 -7.0474157E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -8.2619872E-04 5.3210733E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4406E-04 | 2: delta_r/delta_0: 1.1801E-05 | 3: delta_s/delta_0: 1.9267E-06 | 4: delta_r/delta_0: 2.2668E-07 | 5: delta_s/delta_0: 8.2138E-08 | 6: delta_r/delta_0: 1.7754E-08 | 7: delta_s/delta_0: 7.8682E-09 | 8: delta_r/delta_0: 4.8705E-09 | 9: delta_s/delta_0: 5.1997E-09 | 10: delta_r/delta_0: 3.7138E-09 | 11: delta_s/delta_0: 1.2520E-06 | 12: delta_r/delta_0: 9.2100E-08 | 13: delta_s/delta_0: 9.2137E-10 | 14: delta_r/delta_0: 5.2710E-10 | 15: delta_s/delta_0: 9.5160E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -8.934468726911376E-003 9.165745648381842E-005 | BP delta = 0.1881371 0.2820077 94708597.0336335 | BP delta = 0.1795429 0.2734135 94708597.0460741 | 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 = 0.25631006 | --> Sampling calibration, mode = relcal | relcal = -3.1729225E-02 -2.5950637E-02 3.6927857E-02 2.0752003E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.5588552E-02 1.7516511E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4707E-04 | 2: delta_r/delta_0: 1.1814E-05 | 3: delta_s/delta_0: 1.6368E-06 | 4: delta_r/delta_0: 4.7776E-07 | 5: delta_s/delta_0: 5.4076E-07 | 6: delta_r/delta_0: 1.6506E-08 | 7: delta_s/delta_0: 1.8418E-08 | 8: delta_r/delta_0: 4.4885E-09 | 9: delta_s/delta_0: 4.0106E-09 | 10: delta_r/delta_0: 2.0610E-09 | 11: delta_s/delta_0: 4.4123E-06 | 12: delta_r/delta_0: 4.9466E-09 | 13: delta_s/delta_0: 1.1985E-08 | 14: delta_r/delta_0: 2.7596E-09 | 15: delta_s/delta_0: 1.3262E-10 | 16: delta_r/delta_0: 1.0225E-10 | 17: delta_s/delta_0: 8.9556E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.068407709901305E-002 8.683705244043731E-005 | BP delta = -0.6024837 -0.6616119 93071872.0641554 | BP delta = -0.5727818 -0.6319100 93071872.0497457 | 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 = -3.114191 | New value = -3.228073 | poltype: 2 pol: 1 CPU time specind = 1.6999245E-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 = -3.171552 | New value = -3.159305 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.199935 | New value = -3.123137 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.154556 | New value = -3.114336 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.115386 | New value = -3.157755 | poltype: 2 pol: 2 CPU time specind = 1.1579990E-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 = 4.12 | CG iter. 1 -- res = 0.13536E+08, tol = 0.82402E+01, time = 1.53 | CG iter. 2 -- res = 0.49515E+05, tol = 0.82402E+01, time = 1.56 | CG iter. 3 -- res = 0.41743E+05, tol = 0.82402E+01, time = 1.56 | CG iter. 4 -- res = 0.27671E+05, tol = 0.82402E+01, time = 1.58 | CG iter. 5 -- res = 0.26459E+05, tol = 0.82402E+01, time = 1.54 | CG iter. 6 -- res = 0.24751E+05, tol = 0.82402E+01, time = 1.55 | CG iter. 7 -- res = 0.20629E+05, tol = 0.82402E+01, time = 1.58 | CG iter. 8 -- res = 0.20064E+05, tol = 0.82402E+01, time = 1.58 | CG iter. 9 -- res = 0.16747E+05, tol = 0.82402E+01, time = 1.57 | CG iter. 10 -- res = 0.15542E+05, tol = 0.82402E+01, time = 1.54 | CG iter. 11 -- res = 0.10912E+05, tol = 0.82402E+01, time = 1.63 | CG iter. 12 -- res = 0.70010E+04, tol = 0.82402E+01, time = 1.54 | CG iter. 13 -- res = 0.58127E+04, tol = 0.82402E+01, time = 1.55 | CG iter. 14 -- res = 0.56098E+04, tol = 0.82402E+01, time = 1.52 | CG iter. 15 -- res = 0.48458E+04, tol = 0.82402E+01, time = 1.54 | CG iter. 16 -- res = 0.31370E+04, tol = 0.82402E+01, time = 1.55 | CG iter. 17 -- res = 0.23728E+04, tol = 0.82402E+01, time = 1.54 | CG iter. 18 -- res = 0.17868E+04, tol = 0.82402E+01, time = 1.57 | CG iter. 19 -- res = 0.15270E+04, tol = 0.82402E+01, time = 1.60 | CG iter. 20 -- res = 0.11612E+04, tol = 0.82402E+01, time = 1.55 | CG iter. 21 -- res = 0.95109E+03, tol = 0.82402E+01, time = 1.56 | CG iter. 22 -- res = 0.87024E+03, tol = 0.82402E+01, time = 1.55 | CG iter. 23 -- res = 0.68622E+03, tol = 0.82402E+01, time = 1.54 | CG iter. 24 -- res = 0.57290E+03, tol = 0.82402E+01, time = 1.54 | CG iter. 25 -- res = 0.54557E+03, tol = 0.82402E+01, time = 1.50 | CG iter. 26 -- res = 0.46977E+03, tol = 0.82402E+01, time = 1.55 | CG iter. 27 -- res = 0.35041E+03, tol = 0.82402E+01, time = 1.53 | CG iter. 28 -- res = 0.28408E+03, tol = 0.82402E+01, time = 1.54 | CG iter. 29 -- res = 0.26057E+03, tol = 0.82402E+01, time = 1.54 | CG iter. 30 -- res = 0.22638E+03, tol = 0.82402E+01, time = 1.52 | CG iter. 31 -- res = 0.17216E+03, tol = 0.82402E+01, time = 1.50 | CG iter. 32 -- res = 0.14528E+03, tol = 0.82402E+01, time = 1.53 | CG iter. 33 -- res = 0.12122E+03, tol = 0.82402E+01, time = 1.54 | CG iter. 34 -- res = 0.10507E+03, tol = 0.82402E+01, time = 1.51 | CG iter. 35 -- res = 0.90064E+02, tol = 0.82402E+01, time = 1.52 | CG iter. 36 -- res = 0.87233E+02, tol = 0.82402E+01, time = 1.55 | CG iter. 37 -- res = 0.74489E+02, tol = 0.82402E+01, time = 1.53 | CG iter. 38 -- res = 0.61276E+02, tol = 0.82402E+01, time = 1.58 | CG iter. 39 -- res = 0.53246E+02, tol = 0.82402E+01, time = 1.54 | CG iter. 40 -- res = 0.65707E+02, tol = 0.82402E+01, time = 1.57 | CG iter. 41 -- res = 0.53653E+02, tol = 0.82402E+01, time = 1.52 | CG iter. 42 -- res = 0.32094E+02, tol = 0.82402E+01, time = 1.58 | CG iter. 43 -- res = 0.27741E+02, tol = 0.82402E+01, time = 1.54 | CG iter. 44 -- res = 0.31982E+02, tol = 0.82402E+01, time = 1.58 | CG iter. 45 -- res = 0.33605E+02, tol = 0.82402E+01, time = 1.58 | CG iter. 46 -- res = 0.18987E+02, tol = 0.82402E+01, time = 1.58 | CG iter. 47 -- res = 0.15147E+02, tol = 0.82402E+01, time = 1.53 | CG iter. 48 -- res = 0.12636E+02, tol = 0.82402E+01, time = 1.55 | CG iter. 49 -- res = 0.10409E+02, tol = 0.82402E+01, time = 1.55 | CG iter. 50 -- res = 0.78810E+01, tol = 0.82402E+01, time = 1.55 | Final CG iter 51 -- res = 0.78810E+01, tol = 0.82402E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 10963930.518 | Old band monopole 8244712.548 | Change to band monopole 2719217.970 | Change to component monopole -2719206.274 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 4.11 | CG iter. 1 -- res = 0.67565E+06, tol = 0.47627E+18, time = 0.35 | CG iter. 2 -- res = 0.43139E+02, tol = 0.47627E+18, time = 0.37 | CG iter. 3 -- res = 0.12643E+01, tol = 0.47627E+18, time = 0.37 | CG iter. 4 -- res = 0.15618E-02, tol = 0.47627E+18, time = 0.39 | Final CG iter 5 -- res = 0.11642E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10963883.360 | (Sampled value in CG: 10917854.212 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.551399 | New value = 1.496967 | poltype: 2 pol: 1 CPU time specind = 5.1221848E-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 = 1.502675 | New value = 1.496753 | poltype: 2 pol: 2 CPU time specind = 2.5899410E-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 = 4.14 | CG iter. 1 -- res = 0.24690E+08, tol = 0.47579E+04, time = 1.77 | CG iter. 2 -- res = 0.54617E+07, tol = 0.47579E+04, time = 1.75 | CG iter. 3 -- res = 0.85745E+06, tol = 0.47579E+04, time = 1.77 | CG iter. 4 -- res = 0.35407E+06, tol = 0.47579E+04, time = 1.75 | CG iter. 5 -- res = 0.15142E+06, tol = 0.47579E+04, time = 1.78 | CG iter. 6 -- res = 0.81103E+05, tol = 0.47579E+04, time = 1.80 | CG iter. 7 -- res = 0.44129E+05, tol = 0.47579E+04, time = 1.78 | CG iter. 8 -- res = 0.21214E+05, tol = 0.47579E+04, time = 1.74 | CG iter. 9 -- res = 0.91723E+04, tol = 0.47579E+04, time = 1.75 | CG iter. 10 -- res = 0.37006E+04, tol = 0.47579E+04, time = 1.78 | CG iter. 11 -- res = 0.16909E+04, tol = 0.47579E+04, time = 1.78 | CG iter. 12 -- res = 0.87677E+03, tol = 0.47579E+04, time = 1.84 | CG iter. 13 -- res = 0.49574E+03, tol = 0.47579E+04, time = 1.77 | CG iter. 14 -- res = 0.27633E+03, tol = 0.47579E+04, time = 1.80 | CG iter. 15 -- res = 0.14387E+03, tol = 0.47579E+04, time = 1.86 | CG iter. 16 -- res = 0.68589E+02, tol = 0.47579E+04, time = 1.74 | CG iter. 17 -- res = 0.32302E+02, tol = 0.47579E+04, time = 1.75 | CG iter. 18 -- res = 0.15835E+02, tol = 0.47579E+04, time = 1.81 | CG iter. 19 -- res = 0.84032E+01, tol = 0.47579E+04, time = 1.76 | CG iter. 20 -- res = 0.45969E+01, tol = 0.47579E+04, time = 1.79 | CG iter. 21 -- res = 0.24958E+01, tol = 0.47579E+04, time = 1.81 | CG iter. 22 -- res = 0.13066E+01, tol = 0.47579E+04, time = 1.79 | CG iter. 23 -- res = 0.65805E+00, tol = 0.47579E+04, time = 1.85 | CG iter. 24 -- res = 0.34319E+00, tol = 0.47579E+04, time = 1.84 | CG iter. 25 -- res = 0.19066E+00, tol = 0.47579E+04, time = 1.81 | CG iter. 26 -- res = 0.10822E+00, tol = 0.47579E+04, time = 1.82 | CG iter. 27 -- res = 0.60353E-01, tol = 0.47579E+04, time = 1.83 | CG iter. 28 -- res = 0.32915E-01, tol = 0.47579E+04, time = 1.78 | CG iter. 29 -- res = 0.17251E-01, tol = 0.47579E+04, time = 1.77 | CG iter. 30 -- res = 0.89930E-02, tol = 0.47579E+04, time = 1.74 | CG iter. 31 -- res = 0.49938E-02, tol = 0.47579E+04, time = 1.88 | CG iter. 32 -- res = 0.28660E-02, tol = 0.47579E+04, time = 1.79 | CG iter. 33 -- res = 0.16064E-02, tol = 0.47579E+04, time = 1.77 | CG iter. 34 -- res = 0.85426E-03, tol = 0.47579E+04, time = 1.82 | CG iter. 35 -- res = 0.44357E-03, tol = 0.47579E+04, time = 1.82 | Final CG iter 36 -- res = 0.44357E-03, tol = 0.47579E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 3.021 2.738 | New value 0.049 | Old value 3.021 | Difference -2.972 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 4.11 | CG iter. 1 -- res = 0.46107E+06, tol = 0.47627E+18, time = 0.38 | CG iter. 2 -- res = 0.40638E+02, tol = 0.47627E+18, time = 0.35 | CG iter. 3 -- res = 0.12344E+01, tol = 0.47627E+18, time = 0.37 | CG iter. 4 -- res = 0.14350E-03, tol = 0.47627E+18, time = 0.37 | Final CG iter 5 -- res = 0.14457E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10963883.360 | (Sampled value in CG: 10917169.932 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.815262 | New value = -3.676718 | poltype: 1 pol: 1 CPU time specind = 2.0768642E-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 = 4.12 | CG iter. 1 -- res = 0.30014E+07, tol = 0.16893E+01, time = 0.69 | CG iter. 2 -- res = 0.17574E+06, tol = 0.16893E+01, time = 0.72 | CG iter. 3 -- res = 0.94021E+05, tol = 0.16893E+01, time = 0.66 | CG iter. 4 -- res = 0.27149E+05, tol = 0.16893E+01, time = 0.65 | CG iter. 5 -- res = 0.62317E+04, tol = 0.16893E+01, time = 0.68 | CG iter. 6 -- res = 0.25018E+04, tol = 0.16893E+01, time = 0.71 | CG iter. 7 -- res = 0.88953E+03, tol = 0.16893E+01, time = 0.69 | CG iter. 8 -- res = 0.38195E+03, tol = 0.16893E+01, time = 0.67 | CG iter. 9 -- res = 0.13112E+03, tol = 0.16893E+01, time = 0.67 | CG iter. 10 -- res = 0.34233E+02, tol = 0.16893E+01, time = 0.68 | CG iter. 11 -- res = 0.13006E+02, tol = 0.16893E+01, time = 0.65 | CG iter. 12 -- res = 0.66004E+01, tol = 0.16893E+01, time = 0.71 | CG iter. 13 -- res = 0.26400E+01, tol = 0.16893E+01, time = 0.71 | CG iter. 14 -- res = 0.74860E+00, tol = 0.16893E+01, time = 0.65 | CG iter. 15 -- res = 0.23678E+00, tol = 0.16893E+01, time = 0.69 | CG iter. 16 -- res = 0.10587E+00, tol = 0.16893E+01, time = 0.68 | CG iter. 17 -- res = 0.36211E-01, tol = 0.16893E+01, time = 0.68 | CG iter. 18 -- res = 0.14032E-01, tol = 0.16893E+01, time = 0.66 | CG iter. 19 -- res = 0.53077E-02, tol = 0.16893E+01, time = 0.68 | CG iter. 20 -- res = 0.23562E-02, tol = 0.16893E+01, time = 0.67 | CG iter. 21 -- res = 0.72651E-03, tol = 0.16893E+01, time = 0.63 | CG iter. 22 -- res = 0.28285E-03, tol = 0.16893E+01, time = 0.70 | CG iter. 23 -- res = 0.98640E-04, tol = 0.16893E+01, time = 0.66 | CG iter. 24 -- res = 0.31824E-04, tol = 0.16893E+01, time = 0.63 | CG iter. 25 -- res = 0.88313E-05, tol = 0.16893E+01, time = 0.61 | CG iter. 26 -- res = 0.28040E-05, tol = 0.16893E+01, time = 0.63 | CG iter. 27 -- res = 0.12907E-05, tol = 0.16893E+01, time = 0.60 | CG iter. 28 -- res = 0.37186E-06, tol = 0.16893E+01, time = 0.67 | CG iter. 29 -- res = 0.11867E-06, tol = 0.16893E+01, time = 0.63 | CG iter. 30 -- res = 0.35331E-07, tol = 0.16893E+01, time = 0.64 | CG iter. 31 -- res = 0.14410E-07, tol = 0.16893E+01, time = 0.62 | CG iter. 32 -- res = 0.12239E-07, tol = 0.16893E+01, time = 0.65 | CG iter. 33 -- res = 0.30290E-08, tol = 0.16893E+01, time = 0.66 | CG iter. 34 -- res = 0.94148E-09, tol = 0.16893E+01, time = 0.69 | CG iter. 35 -- res = 0.32202E-09, tol = 0.16893E+01, time = 0.65 | CG iter. 36 -- res = 0.24358E-09, tol = 0.16893E+01, time = 0.63 | CG iter. 37 -- res = 0.82858E-10, tol = 0.16893E+01, time = 0.62 | CG iter. 38 -- res = 0.22524E-10, tol = 0.16893E+01, time = 0.65 | CG iter. 39 -- res = 0.62780E-11, tol = 0.16893E+01, time = 0.65 | CG iter. 40 -- res = 0.17301E-11, tol = 0.16893E+01, time = 0.63 | CG iter. 41 -- res = 0.56913E-12, tol = 0.16893E+01, time = 0.68 | CG iter. 42 -- res = 0.19528E-12, tol = 0.16893E+01, time = 0.70 | CG iter. 43 -- res = 0.76805E-13, tol = 0.16893E+01, time = 0.68 | CG iter. 44 -- res = 0.22921E-13, tol = 0.16893E+01, time = 0.62 | CG iter. 45 -- res = 0.78946E-14, tol = 0.16893E+01, time = 0.67 | CG iter. 46 -- res = 0.24397E-14, tol = 0.16893E+01, time = 0.61 | CG iter. 47 -- res = 0.70952E-15, tol = 0.16893E+01, time = 0.68 | CG iter. 48 -- res = 0.20214E-15, tol = 0.16893E+01, time = 0.66 | CG iter. 49 -- res = 0.55422E-16, tol = 0.16893E+01, time = 0.68 | CG iter. 50 -- res = 0.15906E-16, tol = 0.16893E+01, time = 0.67 | Final CG iter 51 -- res = 0.15906E-16, tol = 0.16893E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -4.797 2.588 | New value 0.128 | Old value -4.797 | Difference 4.925 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 4.11 | CG iter. 1 -- res = 0.18830E+05, tol = 0.47627E+18, time = 0.39 | CG iter. 2 -- res = 0.25717E+02, tol = 0.47627E+18, time = 0.39 | CG iter. 3 -- res = 0.80767E+00, tol = 0.47627E+18, time = 0.36 | Final CG iter 4 -- res = 0.11366E-04, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10963883.360 | (Sampled value in CG: 10930641.591 ) | CPU time specind = 278.3458 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 4.12 | CG iter. 1 -- res = 0.70312E+08, tol = 0.51527E+04, time = 3.15 | CG iter. 2 -- res = 0.33465E+08, tol = 0.51527E+04, time = 3.20 | CG iter. 3 -- res = 0.57183E+07, tol = 0.51527E+04, time = 3.16 | CG iter. 4 -- res = 0.28900E+07, tol = 0.51527E+04, time = 3.14 | CG iter. 5 -- res = 0.12889E+07, tol = 0.51527E+04, time = 3.17 | CG iter. 6 -- res = 0.71684E+06, tol = 0.51527E+04, time = 3.21 | CG iter. 7 -- res = 0.40007E+06, tol = 0.51527E+04, time = 3.16 | CG iter. 8 -- res = 0.20731E+06, tol = 0.51527E+04, time = 3.23 | CG iter. 9 -- res = 0.10450E+06, tol = 0.51527E+04, time = 3.22 | CG iter. 10 -- res = 0.49618E+05, tol = 0.51527E+04, time = 3.09 | CG iter. 11 -- res = 0.28105E+05, tol = 0.51527E+04, time = 3.23 | CG iter. 12 -- res = 0.19270E+05, tol = 0.51527E+04, time = 3.14 | CG iter. 13 -- res = 0.15543E+05, tol = 0.51527E+04, time = 3.17 | CG iter. 14 -- res = 0.13889E+05, tol = 0.51527E+04, time = 3.22 | CG iter. 15 -- res = 0.11781E+05, tol = 0.51527E+04, time = 3.22 | CG iter. 16 -- res = 0.10674E+05, tol = 0.51527E+04, time = 3.16 | CG iter. 17 -- res = 0.10234E+05, tol = 0.51527E+04, time = 3.20 | CG iter. 18 -- res = 0.10459E+05, tol = 0.51527E+04, time = 3.30 | CG iter. 19 -- res = 0.10553E+05, tol = 0.51527E+04, time = 3.25 | CG iter. 20 -- res = 0.93735E+04, tol = 0.51527E+04, time = 3.12 | CG iter. 21 -- res = 0.72723E+04, tol = 0.51527E+04, time = 3.10 | CG iter. 22 -- res = 0.51661E+04, tol = 0.51527E+04, time = 3.17 | CG iter. 23 -- res = 0.37939E+04, tol = 0.51527E+04, time = 3.10 | CG iter. 24 -- res = 0.30470E+04, tol = 0.51527E+04, time = 3.23 | CG iter. 25 -- res = 0.26118E+04, tol = 0.51527E+04, time = 3.20 | CG iter. 26 -- res = 0.22290E+04, tol = 0.51527E+04, time = 3.21 | CG iter. 27 -- res = 0.18844E+04, tol = 0.51527E+04, time = 3.14 | CG iter. 28 -- res = 0.16419E+04, tol = 0.51527E+04, time = 3.14 | CG iter. 29 -- res = 0.15400E+04, tol = 0.51527E+04, time = 3.27 | CG iter. 30 -- res = 0.14968E+04, tol = 0.51527E+04, time = 3.21 | CG iter. 31 -- res = 0.13940E+04, tol = 0.51527E+04, time = 3.19 | CG iter. 32 -- res = 0.12348E+04, tol = 0.51527E+04, time = 3.24 | CG iter. 33 -- res = 0.10333E+04, tol = 0.51527E+04, time = 3.13 | CG iter. 34 -- res = 0.86594E+03, tol = 0.51527E+04, time = 3.20 | CG iter. 35 -- res = 0.76639E+03, tol = 0.51527E+04, time = 3.12 | CG iter. 36 -- res = 0.72612E+03, tol = 0.51527E+04, time = 3.12 | CG iter. 37 -- res = 0.71206E+03, tol = 0.51527E+04, time = 3.18 | CG iter. 38 -- res = 0.68272E+03, tol = 0.51527E+04, time = 3.31 | CG iter. 39 -- res = 0.64078E+03, tol = 0.51527E+04, time = 3.23 | CG iter. 40 -- res = 0.61466E+03, tol = 0.51527E+04, time = 3.18 | CG iter. 41 -- res = 0.60623E+03, tol = 0.51527E+04, time = 3.18 | CG iter. 42 -- res = 0.61297E+03, tol = 0.51527E+04, time = 3.21 | CG iter. 43 -- res = 0.61675E+03, tol = 0.51527E+04, time = 3.27 | CG iter. 44 -- res = 0.59438E+03, tol = 0.51527E+04, time = 3.16 | CG iter. 45 -- res = 0.55624E+03, tol = 0.51527E+04, time = 3.20 | CG iter. 46 -- res = 0.52576E+03, tol = 0.51527E+04, time = 3.19 | CG iter. 47 -- res = 0.52328E+03, tol = 0.51527E+04, time = 3.17 | CG iter. 48 -- res = 0.54845E+03, tol = 0.51527E+04, time = 3.22 | CG iter. 49 -- res = 0.56902E+03, tol = 0.51527E+04, time = 3.25 | CG iter. 50 -- res = 0.56352E+03, tol = 0.51527E+04, time = 3.15 | CG iter. 51 -- res = 0.54007E+03, tol = 0.51527E+04, time = 3.19 | CG iter. 52 -- res = 0.52466E+03, tol = 0.51527E+04, time = 3.26 | CG iter. 53 -- res = 0.53513E+03, tol = 0.51527E+04, time = 3.15 | CG iter. 54 -- res = 0.55502E+03, tol = 0.51527E+04, time = 3.16 | CG iter. 55 -- res = 0.54584E+03, tol = 0.51527E+04, time = 3.26 | CG iter. 56 -- res = 0.50968E+03, tol = 0.51527E+04, time = 3.21 | CG iter. 57 -- res = 0.48005E+03, tol = 0.51527E+04, time = 3.18 | CG iter. 58 -- res = 0.48461E+03, tol = 0.51527E+04, time = 3.12 | CG iter. 59 -- res = 0.50471E+03, tol = 0.51527E+04, time = 3.28 | CG iter. 60 -- res = 0.51085E+03, tol = 0.51527E+04, time = 3.14 | Final CG iter 61 -- res = 0.51085E+03, tol = 0.51527E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 2.958 ( -231.009 -2234.106 2517.157 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9664727.825 | Old band monopole 10963930.518 | Change to band monopole -1299202.693 | Change to component monopole 1299197.105 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 0.074 2.758 | New value 3.059 | Old value 0.074 | Difference 2.985 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -4.082 ( 8.888 11.089 -10.500 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 13.862 2.732 | New value 2.319 | Old value 13.862 | Difference -11.543 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 4.12 | CG iter. 1 -- res = 0.47798E+06, tol = 0.47627E+18, time = 0.35 | CG iter. 2 -- res = 0.61504E+02, tol = 0.47627E+18, time = 0.40 | CG iter. 3 -- res = 0.12977E+01, tol = 0.47627E+18, time = 0.36 | CG iter. 4 -- res = 0.11653E-02, tol = 0.47627E+18, time = 0.37 | Final CG iter 5 -- res = 0.17214E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9664686.255 | (Sampled value in CG: 9598819.047 ) | Chain = 1 -- chisq = 0.61491663E+09 | Chain = 1 -- wall time = 4105.281 sec --------------------------------------------------------------------- | Chain = 1 -- Iteration = 86 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18506294445187 | --> Sampling calibration, mode = relcal | relcal = -7.5191580E-02 -5.8890220E-02 9.2215337E-02 4.1866459E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.6803377E-04 5.1753391E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.2769E-05 | 2: delta_r/delta_0: 1.0414E-06 | 3: delta_s/delta_0: 1.8773E-07 | 4: delta_r/delta_0: 1.9808E-08 | 5: delta_s/delta_0: 5.3590E-09 | 6: delta_r/delta_0: 9.3146E-10 | 7: delta_s/delta_0: 2.6582E-07 | 8: delta_r/delta_0: 1.9233E-08 | 9: delta_s/delta_0: 4.6464E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 7.766822796119757E-004 2.731668577216576E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.2767E-05 | 2: delta_r/delta_0: 1.0413E-06 | 3: delta_s/delta_0: 1.8772E-07 | 4: delta_r/delta_0: 1.9801E-08 | 5: delta_s/delta_0: 5.3564E-09 | 6: delta_r/delta_0: 9.3114E-10 | 7: delta_s/delta_0: 2.6016E-07 | 8: delta_r/delta_0: 1.8868E-08 | 9: delta_s/delta_0: 4.6496E-11 | Reached bicg-stab tolerance | BP delta = 7.4677463E-03 1.8021189E-02 3724799.70182280 | BP delta = 7.4677463E-03 1.8277654E-02 3719047.23738409 | BP chisq diff = -5752.5, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02512459 | --> Sampling calibration, mode = relcal | relcal = -0.1065642 -9.5515601E-02 0.1448458 5.7234004E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.4840379E-03 1.3638281E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.0480E-04 | 2: delta_r/delta_0: 4.4589E-06 | 3: delta_s/delta_0: 2.1708E-06 | 4: delta_r/delta_0: 2.1281E-07 | 5: delta_s/delta_0: 2.7686E-08 | 6: delta_r/delta_0: 5.2334E-09 | 7: delta_s/delta_0: 3.1102E-09 | 8: delta_r/delta_0: 1.9469E-09 | 9: delta_s/delta_0: 4.5221E-09 | 10: delta_r/delta_0: 1.9642E-10 | 11: delta_s/delta_0: 1.5789E-10 | 12: delta_r/delta_0: 1.1712E-10 | 13: delta_s/delta_0: 2.3985E-10 | 14: delta_r/delta_0: 3.1807E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -8.566553840893625E-003 2.813195578957502E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 2.0480E-04 | 2: delta_r/delta_0: 4.4591E-06 | 3: delta_s/delta_0: 2.1708E-06 | 4: delta_r/delta_0: 2.1281E-07 | 5: delta_s/delta_0: 2.7687E-08 | 6: delta_r/delta_0: 5.2335E-09 | 7: delta_s/delta_0: 3.1102E-09 | 8: delta_r/delta_0: 1.9472E-09 | 9: delta_s/delta_0: 4.5219E-09 | 10: delta_r/delta_0: 1.9629E-10 | 11: delta_s/delta_0: 1.5792E-10 | 12: delta_r/delta_0: 1.1712E-10 | 13: delta_s/delta_0: 2.4007E-10 | 14: delta_r/delta_0: 3.1786E-11 | Reached bicg-stab tolerance | BP delta = -0.1765125 -0.1707244 2841508.90689409 | BP delta = -0.1765125 -0.1719139 2841494.12169563 | BP chisq diff = -14.8, accept = T | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81129448 | --> Sampling calibration, mode = relcal | relcal = 0.2950793 0.2246091 -0.2834452 -0.2362432 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -1.4438402E-04 4.7439029E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 3.7023E-03 | 2: delta_r/delta_0: 8.6082E-05 | 3: delta_s/delta_0: 6.3392E-06 | 4: delta_r/delta_0: 5.8927E-07 | 5: delta_s/delta_0: 7.7381E-05 | 6: delta_r/delta_0: 1.3181E-06 | 7: delta_s/delta_0: 6.5135E-08 | 8: delta_r/delta_0: 2.6582E-08 | 9: delta_s/delta_0: 7.9963E-08 | 10: delta_r/delta_0: 5.2158E-09 | 11: delta_s/delta_0: 1.5935E-09 | 12: delta_r/delta_0: 5.8575E-10 | 13: delta_s/delta_0: 7.4059E-10 | 14: delta_r/delta_0: 4.0794E-10 | 15: delta_s/delta_0: 2.9218E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.149586930939707E-002 4.026328706192142E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 3.6994E-03 | 2: delta_r/delta_0: 8.6013E-05 | 3: delta_s/delta_0: 6.3328E-06 | 4: delta_r/delta_0: 5.8950E-07 | 5: delta_s/delta_0: 7.7164E-05 | 6: delta_r/delta_0: 1.3152E-06 | 7: delta_s/delta_0: 6.5099E-08 | 8: delta_r/delta_0: 2.6596E-08 | 9: delta_s/delta_0: 8.0204E-08 | 10: delta_r/delta_0: 5.2126E-09 | 11: delta_s/delta_0: 1.5928E-09 | 12: delta_r/delta_0: 5.8574E-10 | 13: delta_s/delta_0: 7.3715E-10 | 14: delta_r/delta_0: 4.0706E-10 | 15: delta_s/delta_0: 2.9169E-11 | Reached bicg-stab tolerance | BP delta = -8.5557133E-02 -0.1171655 2827264.06220285 | BP delta = -8.5557133E-02 -0.1206131 2827296.80635824 | 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 = 0.95790673 | --> Sampling calibration, mode = relcal | relcal = 0.1063659 0.1394080 -0.1101658 -0.1356081 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0186020E-02 1.3667512E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.2329E-03 | 2: delta_r/delta_0: 2.8711E-05 | 3: delta_s/delta_0: 6.7355E-06 | 4: delta_r/delta_0: 3.2408E-07 | 5: delta_s/delta_0: 4.6599E-06 | 6: delta_r/delta_0: 3.9028E-07 | 7: delta_s/delta_0: 4.9577E-08 | 8: delta_r/delta_0: 3.5197E-08 | 9: delta_s/delta_0: 5.9994E-07 | 10: delta_r/delta_0: 4.4115E-09 | 11: delta_s/delta_0: 1.1618E-09 | 12: delta_r/delta_0: 7.5894E-10 | 13: delta_s/delta_0: 1.7119E-07 | 14: delta_r/delta_0: 1.6560E-08 | 15: delta_s/delta_0: 3.9238E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.905318681885979E-002 3.701949554170317E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.2337E-03 | 2: delta_r/delta_0: 2.8730E-05 | 3: delta_s/delta_0: 6.7303E-06 | 4: delta_r/delta_0: 3.2440E-07 | 5: delta_s/delta_0: 4.6710E-06 | 6: delta_r/delta_0: 3.9114E-07 | 7: delta_s/delta_0: 4.9590E-08 | 8: delta_r/delta_0: 3.5195E-08 | 9: delta_s/delta_0: 5.9692E-07 | 10: delta_r/delta_0: 4.4142E-09 | 11: delta_s/delta_0: 1.1633E-09 | 12: delta_r/delta_0: 7.5948E-10 | 13: delta_s/delta_0: 1.0267E-07 | 14: delta_r/delta_0: 9.2351E-09 | 15: delta_s/delta_0: 3.9112E-11 | Reached bicg-stab tolerance | BP delta = 0.2601531 0.2968782 3004909.55237592 | BP delta = 0.2601531 0.2951171 3005185.06670736 | 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 = 0.52089717 | --> Sampling calibration, mode = relcal | relcal = -5.0959080E-02 -3.7167440E-03 2.7266186E-02 2.7409641E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -1.0250697E-03 2.5010619E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.5449E-05 | 2: delta_r/delta_0: 4.5397E-06 | 3: delta_s/delta_0: 4.6735E-06 | 4: delta_r/delta_0: 7.3572E-07 | 5: delta_s/delta_0: 4.6396E-08 | 6: delta_r/delta_0: 2.8711E-08 | 7: delta_s/delta_0: 1.0457E-07 | 8: delta_r/delta_0: 6.6645E-09 | 9: delta_s/delta_0: 1.3925E-08 | 10: delta_r/delta_0: 1.3854E-09 | 11: delta_s/delta_0: 8.3673E-10 | 12: delta_r/delta_0: 3.0530E-10 | 13: delta_s/delta_0: 3.9043E-10 | 14: delta_r/delta_0: 5.1199E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.061780220545449E-002 5.490388750301084E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 6.5448E-05 | 2: delta_r/delta_0: 4.5397E-06 | 3: delta_s/delta_0: 4.6735E-06 | 4: delta_r/delta_0: 7.3571E-07 | 5: delta_s/delta_0: 4.6397E-08 | 6: delta_r/delta_0: 2.8711E-08 | 7: delta_s/delta_0: 1.0457E-07 | 8: delta_r/delta_0: 6.6646E-09 | 9: delta_s/delta_0: 1.3871E-08 | 10: delta_r/delta_0: 1.3771E-09 | 11: delta_s/delta_0: 8.3676E-10 | 12: delta_r/delta_0: 3.0532E-10 | 13: delta_s/delta_0: 3.9030E-10 | 14: delta_r/delta_0: 5.1167E-11 | Reached bicg-stab tolerance | BP delta = -0.1148571 -5.1391352E-02 2435328.27704362 | BP delta = -0.1148571 -6.0014889E-02 2435334.64707020 | 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 = 0.42097637 | --> Sampling calibration, mode = relcal | relcal = 4.5504924E-02 3.9591096E-02 -2.8200645E-02 -5.6895379E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.9437889E-03 5.1309210E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.2091E-05 | 2: delta_r/delta_0: 3.6227E-06 | 3: delta_s/delta_0: 2.1573E-06 | 4: delta_r/delta_0: 3.1859E-07 | 5: delta_s/delta_0: 5.9592E-08 | 6: delta_r/delta_0: 3.3423E-08 | 7: delta_s/delta_0: 8.3574E-08 | 8: delta_r/delta_0: 7.0772E-09 | 9: delta_s/delta_0: 2.2907E-09 | 10: delta_r/delta_0: 1.4194E-09 | 11: delta_s/delta_0: 1.9748E-08 | 12: delta_r/delta_0: 2.2701E-09 | 13: delta_s/delta_0: 2.1136E-09 | 14: delta_r/delta_0: 1.4732E-09 | 15: delta_s/delta_0: 2.8514E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.317184736954711E-002 5.002837471988323E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 6.2091E-05 | 2: delta_r/delta_0: 3.6227E-06 | 3: delta_s/delta_0: 2.1573E-06 | 4: delta_r/delta_0: 3.1859E-07 | 5: delta_s/delta_0: 5.9592E-08 | 6: delta_r/delta_0: 3.3423E-08 | 7: delta_s/delta_0: 8.3572E-08 | 8: delta_r/delta_0: 7.0772E-09 | 9: delta_s/delta_0: 2.2907E-09 | 10: delta_r/delta_0: 1.4195E-09 | 11: delta_s/delta_0: 1.9697E-08 | 12: delta_r/delta_0: 2.2671E-09 | 13: delta_s/delta_0: 2.1091E-09 | 14: delta_r/delta_0: 1.4707E-09 | 15: delta_s/delta_0: 2.8515E-11 | Reached bicg-stab tolerance | BP delta = -0.1326634 -0.1859067 2321980.70097059 | BP delta = -0.1326634 -0.1916067 2321995.42004126 | 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 = 0.28119257 | --> Sampling calibration, mode = relcal | relcal = 2.4205234E-02 4.5054499E-02 -2.3339182E-02 -4.5920551E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.0033961E-03 4.3164962E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.1292E-04 | 2: delta_r/delta_0: 8.9925E-06 | 3: delta_s/delta_0: 1.5367E-06 | 4: delta_r/delta_0: 2.3379E-07 | 5: delta_s/delta_0: 8.1533E-08 | 6: delta_r/delta_0: 1.9250E-08 | 7: delta_s/delta_0: 7.7899E-09 | 8: delta_r/delta_0: 5.0223E-09 | 9: delta_s/delta_0: 5.4844E-09 | 10: delta_r/delta_0: 3.3368E-09 | 11: delta_s/delta_0: 4.6163E-08 | 12: delta_r/delta_0: 3.8983E-10 | 13: delta_s/delta_0: 8.9181E-10 | 14: delta_r/delta_0: 2.3131E-10 | 15: delta_s/delta_0: 6.4331E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.314005325268436E-003 7.855665640270022E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.1292E-04 | 2: delta_r/delta_0: 8.9925E-06 | 3: delta_s/delta_0: 1.5367E-06 | 4: delta_r/delta_0: 2.3378E-07 | 5: delta_s/delta_0: 8.1529E-08 | 6: delta_r/delta_0: 1.9249E-08 | 7: delta_s/delta_0: 7.7898E-09 | 8: delta_r/delta_0: 5.0223E-09 | 9: delta_s/delta_0: 5.4847E-09 | 10: delta_r/delta_0: 3.3369E-09 | 11: delta_s/delta_0: 4.6155E-08 | 12: delta_r/delta_0: 3.8983E-10 | 13: delta_s/delta_0: 8.9181E-10 | 14: delta_r/delta_0: 2.3131E-10 | 15: delta_s/delta_0: 6.4331E-11 | Reached bicg-stab tolerance | BP delta = 5.6913637E-02 -0.1356468 2490173.52960941 | BP delta = 5.6913637E-02 -0.1239401 2490181.30585800 | 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 = 0.29349294 | --> Sampling calibration, mode = relcal | relcal = 5.4085423E-04 1.0253241E-02 -3.7629341E-03 -7.0311609E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.4518022E-02 1.5018466E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.3234E-04 | 2: delta_r/delta_0: 1.1344E-05 | 3: delta_s/delta_0: 1.8010E-06 | 4: delta_r/delta_0: 2.5481E-07 | 5: delta_s/delta_0: 9.9827E-08 | 6: delta_r/delta_0: 2.0523E-08 | 7: delta_s/delta_0: 8.7248E-09 | 8: delta_r/delta_0: 5.9047E-09 | 9: delta_s/delta_0: 3.8526E-09 | 10: delta_r/delta_0: 2.7890E-09 | 11: delta_s/delta_0: 4.4658E-06 | 12: delta_r/delta_0: 1.4137E-08 | 13: delta_s/delta_0: 6.8287E-09 | 14: delta_r/delta_0: 3.0073E-09 | 15: delta_s/delta_0: 2.3514E-10 | 16: delta_r/delta_0: 5.2105E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.592139662012181E-003 8.318765409454330E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.3234E-04 | 2: delta_r/delta_0: 1.1344E-05 | 3: delta_s/delta_0: 1.8010E-06 | 4: delta_r/delta_0: 2.5481E-07 | 5: delta_s/delta_0: 9.9819E-08 | 6: delta_r/delta_0: 2.0522E-08 | 7: delta_s/delta_0: 8.7247E-09 | 8: delta_r/delta_0: 5.9047E-09 | 9: delta_s/delta_0: 3.8524E-09 | 10: delta_r/delta_0: 2.7888E-09 | 11: delta_s/delta_0: 4.4514E-06 | 12: delta_r/delta_0: 1.4098E-08 | 13: delta_s/delta_0: 6.7969E-09 | 14: delta_r/delta_0: 2.9908E-09 | 15: delta_s/delta_0: 2.3509E-10 | 16: delta_r/delta_0: 5.2086E-11 | Reached bicg-stab tolerance | BP delta = -0.7278965 -0.6470158 2738006.62969430 | BP delta = -0.7278965 -0.6601699 2738011.44672717 | 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 = 0.26469531 | --> Sampling calibration, mode = relcal | relcal = -5.6115449E-03 1.5011270E-02 -2.3617214E-03 -7.0380028E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -1.1373535E-03 5.1673059E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4257E-04 | 2: delta_r/delta_0: 1.2078E-05 | 3: delta_s/delta_0: 2.0482E-06 | 4: delta_r/delta_0: 2.3095E-07 | 5: delta_s/delta_0: 9.0871E-08 | 6: delta_r/delta_0: 1.9124E-08 | 7: delta_s/delta_0: 8.0654E-09 | 8: delta_r/delta_0: 5.0617E-09 | 9: delta_s/delta_0: 6.3301E-09 | 10: delta_r/delta_0: 4.1072E-09 | 11: delta_s/delta_0: 1.7481E-06 | 12: delta_r/delta_0: 4.0565E-07 | 13: delta_s/delta_0: 1.4015E-09 | 14: delta_r/delta_0: 5.8643E-10 | 15: delta_s/delta_0: 7.9627E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -8.006092645817503E-003 9.166268000548817E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.4257E-04 | 2: delta_r/delta_0: 1.2078E-05 | 3: delta_s/delta_0: 2.0482E-06 | 4: delta_r/delta_0: 2.3094E-07 | 5: delta_s/delta_0: 9.0876E-08 | 6: delta_r/delta_0: 1.9124E-08 | 7: delta_s/delta_0: 8.0653E-09 | 8: delta_r/delta_0: 5.0616E-09 | 9: delta_s/delta_0: 6.3299E-09 | 10: delta_r/delta_0: 4.1071E-09 | 11: delta_s/delta_0: 1.7473E-06 | 12: delta_r/delta_0: 4.0546E-07 | 13: delta_s/delta_0: 1.4015E-09 | 14: delta_r/delta_0: 5.8641E-10 | 15: delta_s/delta_0: 7.9623E-11 | Reached bicg-stab tolerance | BP delta = 0.1795429 0.2734135 2516747.19722638 | BP delta = 0.1795429 0.2723294 2516747.40409009 | 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 = 0.25627221 | --> Sampling calibration, mode = relcal | relcal = -3.1795491E-02 -2.5901010E-02 3.6906309E-02 2.0790190E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.6365804E-02 1.6167039E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4647E-04 | 2: delta_r/delta_0: 1.2425E-05 | 3: delta_s/delta_0: 2.0235E-06 | 4: delta_r/delta_0: 3.6600E-07 | 5: delta_s/delta_0: 1.4495E-07 | 6: delta_r/delta_0: 2.7997E-08 | 7: delta_s/delta_0: 1.1718E-08 | 8: delta_r/delta_0: 7.2180E-09 | 9: delta_s/delta_0: 1.1556E-08 | 10: delta_r/delta_0: 4.9476E-09 | 11: delta_s/delta_0: 7.6159E-09 | 12: delta_r/delta_0: 4.3536E-10 | 13: delta_s/delta_0: 1.3032E-09 | 14: delta_r/delta_0: 3.5341E-10 | 15: delta_s/delta_0: 1.4187E-10 | 16: delta_r/delta_0: 1.2257E-10 | 17: delta_s/delta_0: 1.0774E-10 | 18: delta_r/delta_0: 9.7792E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.269910779025196E-003 8.685391628937420E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.4647E-04 | 2: delta_r/delta_0: 1.2425E-05 | 3: delta_s/delta_0: 2.0235E-06 | 4: delta_r/delta_0: 3.6596E-07 | 5: delta_s/delta_0: 1.4493E-07 | 6: delta_r/delta_0: 2.7995E-08 | 7: delta_s/delta_0: 1.1718E-08 | 8: delta_r/delta_0: 7.2178E-09 | 9: delta_s/delta_0: 1.1555E-08 | 10: delta_r/delta_0: 4.9476E-09 | 11: delta_s/delta_0: 7.6193E-09 | 12: delta_r/delta_0: 4.3527E-10 | 13: delta_s/delta_0: 1.3032E-09 | 14: delta_r/delta_0: 3.5341E-10 | 15: delta_s/delta_0: 1.4187E-10 | 16: delta_r/delta_0: 1.2257E-10 | 17: delta_s/delta_0: 1.0774E-10 | 18: delta_r/delta_0: 9.7797E-11 | Reached bicg-stab tolerance | BP delta = -0.5727818 -0.6319100 2706380.95420083 | BP delta = -0.5727818 -0.6384546 2706363.78189114 | BP chisq diff = -17.2, 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 = -3.228073 | New value = -3.154323 | poltype: 2 pol: 1 CPU time specind = 5.2459240E-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 = -3.159305 | New value = -3.050541 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.123137 | New value = -3.111699 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.114336 | New value = -3.165749 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.157755 | New value = -3.160544 | poltype: 2 pol: 2 CPU time specind = 5.8720112E-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 = 4.12 | CG iter. 1 -- res = 0.13553E+08, tol = 0.71546E+01, time = 1.54 | CG iter. 2 -- res = 0.46761E+05, tol = 0.71546E+01, time = 1.50 | CG iter. 3 -- res = 0.42190E+05, tol = 0.71546E+01, time = 1.58 | CG iter. 4 -- res = 0.27944E+05, tol = 0.71546E+01, time = 1.58 | CG iter. 5 -- res = 0.27009E+05, tol = 0.71546E+01, time = 1.65 | CG iter. 6 -- res = 0.23676E+05, tol = 0.71546E+01, time = 1.57 | CG iter. 7 -- res = 0.20621E+05, tol = 0.71546E+01, time = 1.52 | CG iter. 8 -- res = 0.19622E+05, tol = 0.71546E+01, time = 1.56 | CG iter. 9 -- res = 0.16080E+05, tol = 0.71546E+01, time = 1.54 | CG iter. 10 -- res = 0.16046E+05, tol = 0.71546E+01, time = 1.56 | CG iter. 11 -- res = 0.97037E+04, tol = 0.71546E+01, time = 1.62 | CG iter. 12 -- res = 0.60089E+04, tol = 0.71546E+01, time = 1.55 | CG iter. 13 -- res = 0.56951E+04, tol = 0.71546E+01, time = 1.56 | CG iter. 14 -- res = 0.49438E+04, tol = 0.71546E+01, time = 1.61 | CG iter. 15 -- res = 0.41621E+04, tol = 0.71546E+01, time = 1.64 | CG iter. 16 -- res = 0.26729E+04, tol = 0.71546E+01, time = 1.61 | CG iter. 17 -- res = 0.20893E+04, tol = 0.71546E+01, time = 1.52 | CG iter. 18 -- res = 0.16041E+04, tol = 0.71546E+01, time = 1.58 | CG iter. 19 -- res = 0.12248E+04, tol = 0.71546E+01, time = 1.58 | CG iter. 20 -- res = 0.96730E+03, tol = 0.71546E+01, time = 1.54 | CG iter. 21 -- res = 0.95574E+03, tol = 0.71546E+01, time = 1.50 | CG iter. 22 -- res = 0.74948E+03, tol = 0.71546E+01, time = 1.58 | CG iter. 23 -- res = 0.59205E+03, tol = 0.71546E+01, time = 1.61 | CG iter. 24 -- res = 0.56091E+03, tol = 0.71546E+01, time = 1.56 | CG iter. 25 -- res = 0.47525E+03, tol = 0.71546E+01, time = 1.60 | CG iter. 26 -- res = 0.37200E+03, tol = 0.71546E+01, time = 1.58 | CG iter. 27 -- res = 0.30107E+03, tol = 0.71546E+01, time = 1.60 | CG iter. 28 -- res = 0.27379E+03, tol = 0.71546E+01, time = 1.62 | CG iter. 29 -- res = 0.23434E+03, tol = 0.71546E+01, time = 1.58 | CG iter. 30 -- res = 0.18225E+03, tol = 0.71546E+01, time = 1.56 | CG iter. 31 -- res = 0.16740E+03, tol = 0.71546E+01, time = 1.54 | CG iter. 32 -- res = 0.14297E+03, tol = 0.71546E+01, time = 1.56 | CG iter. 33 -- res = 0.11458E+03, tol = 0.71546E+01, time = 1.63 | CG iter. 34 -- res = 0.88776E+02, tol = 0.71546E+01, time = 1.58 | CG iter. 35 -- res = 0.71873E+02, tol = 0.71546E+01, time = 1.57 | CG iter. 36 -- res = 0.59072E+02, tol = 0.71546E+01, time = 1.58 | CG iter. 37 -- res = 0.48177E+02, tol = 0.71546E+01, time = 1.58 | CG iter. 38 -- res = 0.38926E+02, tol = 0.71546E+01, time = 1.55 | CG iter. 39 -- res = 0.51029E+02, tol = 0.71546E+01, time = 1.56 | CG iter. 40 -- res = 0.30594E+02, tol = 0.71546E+01, time = 1.57 | CG iter. 41 -- res = 0.20133E+02, tol = 0.71546E+01, time = 1.56 | CG iter. 42 -- res = 0.14715E+02, tol = 0.71546E+01, time = 1.60 | CG iter. 43 -- res = 0.12227E+02, tol = 0.71546E+01, time = 1.54 | CG iter. 44 -- res = 0.10564E+02, tol = 0.71546E+01, time = 1.52 | CG iter. 45 -- res = 0.12050E+02, tol = 0.71546E+01, time = 1.55 | CG iter. 46 -- res = 0.71699E+01, tol = 0.71546E+01, time = 1.57 | CG iter. 47 -- res = 0.48223E+01, tol = 0.71546E+01, time = 1.55 | CG iter. 48 -- res = 0.37239E+01, tol = 0.71546E+01, time = 1.60 | CG iter. 49 -- res = 0.24710E+01, tol = 0.71546E+01, time = 1.57 | CG iter. 50 -- res = 0.18568E+01, tol = 0.71546E+01, time = 1.55 | Final CG iter 51 -- res = 0.18568E+01, tol = 0.71546E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9304949.610 | Old band monopole 9664727.825 | Change to band monopole -359778.215 | Change to component monopole 359776.667 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 4.11 | CG iter. 1 -- res = 0.12565E+06, tol = 0.47627E+18, time = 0.34 | CG iter. 2 -- res = 0.28915E+02, tol = 0.47627E+18, time = 0.34 | CG iter. 3 -- res = 0.77956E+00, tol = 0.47627E+18, time = 0.35 | CG iter. 4 -- res = 0.35095E-03, tol = 0.47627E+18, time = 0.41 | Final CG iter 5 -- res = 0.24893E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9304909.587 | (Sampled value in CG: 9334340.739 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.496967 | New value = 1.495316 | poltype: 2 pol: 1 CPU time specind = 6.0558319E-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 = 1.496753 | New value = 1.498648 | poltype: 2 pol: 2 CPU time specind = 1.5830994E-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 = 4.13 | CG iter. 1 -- res = 0.24018E+08, tol = 0.47614E+04, time = 1.84 | CG iter. 2 -- res = 0.52735E+07, tol = 0.47614E+04, time = 1.86 | CG iter. 3 -- res = 0.83817E+06, tol = 0.47614E+04, time = 1.84 | CG iter. 4 -- res = 0.34836E+06, tol = 0.47614E+04, time = 1.86 | CG iter. 5 -- res = 0.15086E+06, tol = 0.47614E+04, time = 1.82 | CG iter. 6 -- res = 0.80472E+05, tol = 0.47614E+04, time = 1.83 | CG iter. 7 -- res = 0.43476E+05, tol = 0.47614E+04, time = 1.84 | CG iter. 8 -- res = 0.20513E+05, tol = 0.47614E+04, time = 1.83 | CG iter. 9 -- res = 0.89659E+04, tol = 0.47614E+04, time = 1.80 | CG iter. 10 -- res = 0.36063E+04, tol = 0.47614E+04, time = 1.81 | CG iter. 11 -- res = 0.16456E+04, tol = 0.47614E+04, time = 1.78 | CG iter. 12 -- res = 0.86352E+03, tol = 0.47614E+04, time = 1.84 | CG iter. 13 -- res = 0.48850E+03, tol = 0.47614E+04, time = 1.83 | CG iter. 14 -- res = 0.27683E+03, tol = 0.47614E+04, time = 1.77 | CG iter. 15 -- res = 0.14432E+03, tol = 0.47614E+04, time = 1.88 | CG iter. 16 -- res = 0.67154E+02, tol = 0.47614E+04, time = 1.87 | CG iter. 17 -- res = 0.30934E+02, tol = 0.47614E+04, time = 1.89 | CG iter. 18 -- res = 0.15398E+02, tol = 0.47614E+04, time = 1.87 | CG iter. 19 -- res = 0.83518E+01, tol = 0.47614E+04, time = 1.79 | CG iter. 20 -- res = 0.46261E+01, tol = 0.47614E+04, time = 1.81 | CG iter. 21 -- res = 0.25258E+01, tol = 0.47614E+04, time = 1.80 | CG iter. 22 -- res = 0.13310E+01, tol = 0.47614E+04, time = 1.87 | CG iter. 23 -- res = 0.68214E+00, tol = 0.47614E+04, time = 1.85 | CG iter. 24 -- res = 0.35230E+00, tol = 0.47614E+04, time = 1.77 | CG iter. 25 -- res = 0.19379E+00, tol = 0.47614E+04, time = 1.75 | CG iter. 26 -- res = 0.10883E+00, tol = 0.47614E+04, time = 1.80 | CG iter. 27 -- res = 0.60938E-01, tol = 0.47614E+04, time = 1.80 | CG iter. 28 -- res = 0.33359E-01, tol = 0.47614E+04, time = 1.90 | CG iter. 29 -- res = 0.17777E-01, tol = 0.47614E+04, time = 1.89 | CG iter. 30 -- res = 0.93473E-02, tol = 0.47614E+04, time = 1.89 | CG iter. 31 -- res = 0.51428E-02, tol = 0.47614E+04, time = 1.83 | CG iter. 32 -- res = 0.29164E-02, tol = 0.47614E+04, time = 1.78 | CG iter. 33 -- res = 0.16373E-02, tol = 0.47614E+04, time = 1.84 | CG iter. 34 -- res = 0.89647E-03, tol = 0.47614E+04, time = 1.88 | CG iter. 35 -- res = 0.47480E-03, tol = 0.47614E+04, time = 1.80 | Final CG iter 36 -- res = 0.47480E-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) 3.050 2.747 | New value -4.357 | Old value 3.050 | Difference -7.408 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 4.12 | CG iter. 1 -- res = 0.28334E+07, tol = 0.47627E+18, time = 0.36 | CG iter. 2 -- res = 0.23573E+02, tol = 0.47627E+18, time = 0.43 | CG iter. 3 -- res = 0.68073E+00, tol = 0.47627E+18, time = 0.43 | CG iter. 4 -- res = 0.12671E-03, tol = 0.47627E+18, time = 0.41 | Final CG iter 5 -- res = 0.60641E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9304909.587 | (Sampled value in CG: 9335094.084 ) | 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 = -3.676718 | New value = -3.439522 | poltype: 1 pol: 1 CPU time specind = 2.2549629E-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 = 4.11 | CG iter. 1 -- res = 0.26441E+07, tol = 0.13357E+01, time = 0.64 | CG iter. 2 -- res = 0.98262E+05, tol = 0.13357E+01, time = 0.67 | CG iter. 3 -- res = 0.85138E+05, tol = 0.13357E+01, time = 0.65 | CG iter. 4 -- res = 0.20727E+05, tol = 0.13357E+01, time = 0.68 | CG iter. 5 -- res = 0.45070E+04, tol = 0.13357E+01, time = 0.65 | CG iter. 6 -- res = 0.22283E+04, tol = 0.13357E+01, time = 0.66 | CG iter. 7 -- res = 0.62033E+03, tol = 0.13357E+01, time = 0.68 | CG iter. 8 -- res = 0.28096E+03, tol = 0.13357E+01, time = 0.70 | CG iter. 9 -- res = 0.12133E+03, tol = 0.13357E+01, time = 0.69 | CG iter. 10 -- res = 0.30473E+02, tol = 0.13357E+01, time = 0.70 | CG iter. 11 -- res = 0.13132E+02, tol = 0.13357E+01, time = 0.70 | CG iter. 12 -- res = 0.53493E+01, tol = 0.13357E+01, time = 0.66 | CG iter. 13 -- res = 0.22170E+01, tol = 0.13357E+01, time = 0.71 | CG iter. 14 -- res = 0.69848E+00, tol = 0.13357E+01, time = 0.66 | CG iter. 15 -- res = 0.30494E+00, tol = 0.13357E+01, time = 0.66 | CG iter. 16 -- res = 0.91199E-01, tol = 0.13357E+01, time = 0.69 | CG iter. 17 -- res = 0.26961E-01, tol = 0.13357E+01, time = 0.68 | CG iter. 18 -- res = 0.10412E-01, tol = 0.13357E+01, time = 0.68 | CG iter. 19 -- res = 0.36783E-02, tol = 0.13357E+01, time = 0.70 | CG iter. 20 -- res = 0.12754E-02, tol = 0.13357E+01, time = 0.67 | CG iter. 21 -- res = 0.58055E-03, tol = 0.13357E+01, time = 0.68 | CG iter. 22 -- res = 0.19880E-03, tol = 0.13357E+01, time = 0.68 | CG iter. 23 -- res = 0.77936E-04, tol = 0.13357E+01, time = 0.70 | CG iter. 24 -- res = 0.27486E-04, tol = 0.13357E+01, time = 0.69 | CG iter. 25 -- res = 0.72939E-05, tol = 0.13357E+01, time = 0.66 | CG iter. 26 -- res = 0.25099E-05, tol = 0.13357E+01, time = 0.68 | CG iter. 27 -- res = 0.94346E-06, tol = 0.13357E+01, time = 0.68 | CG iter. 28 -- res = 0.33221E-06, tol = 0.13357E+01, time = 0.69 | CG iter. 29 -- res = 0.10313E-06, tol = 0.13357E+01, time = 0.67 | CG iter. 30 -- res = 0.30028E-07, tol = 0.13357E+01, time = 0.63 | CG iter. 31 -- res = 0.11102E-07, tol = 0.13357E+01, time = 0.69 | CG iter. 32 -- res = 0.96648E-08, tol = 0.13357E+01, time = 0.69 | CG iter. 33 -- res = 0.27705E-08, tol = 0.13357E+01, time = 0.70 | CG iter. 34 -- res = 0.92252E-09, tol = 0.13357E+01, time = 0.66 | CG iter. 35 -- res = 0.26941E-09, tol = 0.13357E+01, time = 0.69 | CG iter. 36 -- res = 0.15482E-09, tol = 0.13357E+01, time = 0.72 | CG iter. 37 -- res = 0.71453E-10, tol = 0.13357E+01, time = 0.71 | CG iter. 38 -- res = 0.20686E-10, tol = 0.13357E+01, time = 0.71 | CG iter. 39 -- res = 0.58989E-11, tol = 0.13357E+01, time = 0.76 | CG iter. 40 -- res = 0.16603E-11, tol = 0.13357E+01, time = 0.69 | CG iter. 41 -- res = 0.47123E-12, tol = 0.13357E+01, time = 0.69 | CG iter. 42 -- res = 0.15426E-12, tol = 0.13357E+01, time = 0.69 | CG iter. 43 -- res = 0.52636E-13, tol = 0.13357E+01, time = 0.69 | CG iter. 44 -- res = 0.17187E-13, tol = 0.13357E+01, time = 0.68 | CG iter. 45 -- res = 0.64081E-14, tol = 0.13357E+01, time = 0.67 | CG iter. 46 -- res = 0.19271E-14, tol = 0.13357E+01, time = 0.69 | CG iter. 47 -- res = 0.62412E-15, tol = 0.13357E+01, time = 0.68 | CG iter. 48 -- res = 0.19049E-15, tol = 0.13357E+01, time = 0.67 | CG iter. 49 -- res = 0.54327E-16, tol = 0.13357E+01, time = 0.69 | CG iter. 50 -- res = 0.16762E-16, tol = 0.13357E+01, time = 0.66 | Final CG iter 51 -- res = 0.16762E-16, tol = 0.13357E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 5.962 2.259 | New value 0.641 | Old value 5.962 | Difference -5.321 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 4.11 | CG iter. 1 -- res = 0.20359E+05, tol = 0.47627E+18, time = 0.39 | CG iter. 2 -- res = 0.22566E+02, tol = 0.47627E+18, time = 0.40 | CG iter. 3 -- res = 0.53733E+00, tol = 0.47627E+18, time = 0.34 | Final CG iter 4 -- res = 0.47303E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9304909.587 | (Sampled value in CG: 9329365.551 ) | CPU time specind = 281.4851 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 4.12 | CG iter. 1 -- res = 0.68982E+08, tol = 0.51472E+04, time = 3.22 | CG iter. 2 -- res = 0.33491E+08, tol = 0.51472E+04, time = 3.19 | CG iter. 3 -- res = 0.57624E+07, tol = 0.51472E+04, time = 3.21 | CG iter. 4 -- res = 0.29220E+07, tol = 0.51472E+04, time = 3.23 | CG iter. 5 -- res = 0.13221E+07, tol = 0.51472E+04, time = 3.22 | CG iter. 6 -- res = 0.72860E+06, tol = 0.51472E+04, time = 3.22 | CG iter. 7 -- res = 0.40299E+06, tol = 0.51472E+04, time = 3.22 | CG iter. 8 -- res = 0.20536E+06, tol = 0.51472E+04, time = 3.21 | CG iter. 9 -- res = 0.10368E+06, tol = 0.51472E+04, time = 3.21 | CG iter. 10 -- res = 0.48845E+05, tol = 0.51472E+04, time = 3.25 | CG iter. 11 -- res = 0.27063E+05, tol = 0.51472E+04, time = 3.28 | CG iter. 12 -- res = 0.17550E+05, tol = 0.51472E+04, time = 3.34 | CG iter. 13 -- res = 0.13064E+05, tol = 0.51472E+04, time = 3.26 | CG iter. 14 -- res = 0.11153E+05, tol = 0.51472E+04, time = 3.15 | CG iter. 15 -- res = 0.94566E+04, tol = 0.51472E+04, time = 3.17 | CG iter. 16 -- res = 0.86527E+04, tol = 0.51472E+04, time = 3.23 | CG iter. 17 -- res = 0.82783E+04, tol = 0.51472E+04, time = 3.24 | CG iter. 18 -- res = 0.84702E+04, tol = 0.51472E+04, time = 3.23 | CG iter. 19 -- res = 0.87700E+04, tol = 0.51472E+04, time = 3.21 | CG iter. 20 -- res = 0.84285E+04, tol = 0.51472E+04, time = 3.27 | CG iter. 21 -- res = 0.71068E+04, tol = 0.51472E+04, time = 3.31 | CG iter. 22 -- res = 0.51997E+04, tol = 0.51472E+04, time = 3.18 | CG iter. 23 -- res = 0.37129E+04, tol = 0.51472E+04, time = 3.18 | CG iter. 24 -- res = 0.28382E+04, tol = 0.51472E+04, time = 3.25 | CG iter. 25 -- res = 0.23756E+04, tol = 0.51472E+04, time = 3.20 | CG iter. 26 -- res = 0.20856E+04, tol = 0.51472E+04, time = 3.24 | CG iter. 27 -- res = 0.17825E+04, tol = 0.51472E+04, time = 3.30 | CG iter. 28 -- res = 0.14957E+04, tol = 0.51472E+04, time = 3.27 | CG iter. 29 -- res = 0.13159E+04, tol = 0.51472E+04, time = 3.24 | CG iter. 30 -- res = 0.12817E+04, tol = 0.51472E+04, time = 3.35 | CG iter. 31 -- res = 0.12842E+04, tol = 0.51472E+04, time = 3.32 | CG iter. 32 -- res = 0.12138E+04, tol = 0.51472E+04, time = 3.28 | CG iter. 33 -- res = 0.10087E+04, tol = 0.51472E+04, time = 3.26 | CG iter. 34 -- res = 0.80018E+03, tol = 0.51472E+04, time = 3.33 | CG iter. 35 -- res = 0.68221E+03, tol = 0.51472E+04, time = 3.33 | CG iter. 36 -- res = 0.65510E+03, tol = 0.51472E+04, time = 3.30 | CG iter. 37 -- res = 0.65833E+03, tol = 0.51472E+04, time = 3.16 | CG iter. 38 -- res = 0.62366E+03, tol = 0.51472E+04, time = 3.18 | CG iter. 39 -- res = 0.55844E+03, tol = 0.51472E+04, time = 3.20 | CG iter. 40 -- res = 0.51642E+03, tol = 0.51472E+04, time = 3.19 | CG iter. 41 -- res = 0.52893E+03, tol = 0.51472E+04, time = 3.15 | CG iter. 42 -- res = 0.57230E+03, tol = 0.51472E+04, time = 3.22 | CG iter. 43 -- res = 0.59653E+03, tol = 0.51472E+04, time = 3.32 | CG iter. 44 -- res = 0.55813E+03, tol = 0.51472E+04, time = 3.18 | CG iter. 45 -- res = 0.49956E+03, tol = 0.51472E+04, time = 3.25 | CG iter. 46 -- res = 0.48063E+03, tol = 0.51472E+04, time = 3.23 | CG iter. 47 -- res = 0.50602E+03, tol = 0.51472E+04, time = 3.29 | CG iter. 48 -- res = 0.54069E+03, tol = 0.51472E+04, time = 3.16 | CG iter. 49 -- res = 0.53430E+03, tol = 0.51472E+04, time = 3.28 | CG iter. 50 -- res = 0.50018E+03, tol = 0.51472E+04, time = 3.28 | CG iter. 51 -- res = 0.48436E+03, tol = 0.51472E+04, time = 3.25 | CG iter. 52 -- res = 0.50922E+03, tol = 0.51472E+04, time = 3.22 | CG iter. 53 -- res = 0.55674E+03, tol = 0.51472E+04, time = 3.29 | CG iter. 54 -- res = 0.57802E+03, tol = 0.51472E+04, time = 3.23 | CG iter. 55 -- res = 0.54028E+03, tol = 0.51472E+04, time = 3.30 | CG iter. 56 -- res = 0.49299E+03, tol = 0.51472E+04, time = 3.26 | CG iter. 57 -- res = 0.49439E+03, tol = 0.51472E+04, time = 3.36 | CG iter. 58 -- res = 0.53051E+03, tol = 0.51472E+04, time = 3.22 | CG iter. 59 -- res = 0.55744E+03, tol = 0.51472E+04, time = 3.27 | CG iter. 60 -- res = 0.53418E+03, tol = 0.51472E+04, time = 3.18 | Final CG iter 61 -- res = 0.53418E+03, tol = 0.51472E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 2.589 ( -231.472 -2234.273 2516.918 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8282395.972 | Old band monopole 9304949.610 | Change to band monopole -1022553.638 | Change to component monopole 1022549.240 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -4.368 2.741 | New value 5.437 | Old value -4.368 | Difference 9.804 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -4.084 ( 7.622 10.397 -10.515 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 8.486 3.001 | New value 4.748 | Old value 8.486 | Difference -3.738 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 4.12 | CG iter. 1 -- res = 0.50790E+07, tol = 0.47627E+18, time = 0.36 | CG iter. 2 -- res = 0.64787E+02, tol = 0.47627E+18, time = 0.38 | CG iter. 3 -- res = 0.13055E+01, tol = 0.47627E+18, time = 0.37 | CG iter. 4 -- res = 0.37172E-02, tol = 0.47627E+18, time = 0.38 | Final CG iter 5 -- res = 0.31155E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8282360.348 | (Sampled value in CG: 8215877.114 ) | Chain = 1 -- chisq = 0.61620966E+09 | Chain = 1 -- wall time = 4754.140 sec --------------------------------------------------------------------- | Chain = 1 -- Iteration = 87 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18112922188426 | --> Sampling calibration, mode = relcal | relcal = -7.3647968E-02 -5.7773177E-02 9.0565696E-02 4.0855452E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.9724501E-05 2.9902330E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 7.9602E-04 | 2: delta_r/delta_0: 1.7214E-05 | 3: delta_s/delta_0: 2.5808E-07 | 4: delta_r/delta_0: 3.3468E-08 | 5: delta_s/delta_0: 1.1424E-07 | 6: delta_r/delta_0: 2.1069E-08 | 7: delta_s/delta_0: 8.8591E-10 | 8: delta_r/delta_0: 2.8004E-10 | 9: delta_s/delta_0: 2.5852E-10 | 10: delta_r/delta_0: 1.5378E-10 | 11: delta_s/delta_0: 6.1835E-10 | 12: delta_r/delta_0: 1.1148E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 2.300381267009021E-003 2.740963508346716E-005 | BP delta = 7.4677463E-03 1.8277654E-02 29864612.6425008 | BP delta = 7.6994435E-03 1.8509351E-02 29864612.8035978 | 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 = 1.02517856 | --> Sampling calibration, mode = relcal | relcal = -0.1065567 -9.5526531E-02 0.1448801 5.7203174E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.1199036E-03 1.7303157E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.1418E-04 | 2: delta_r/delta_0: 4.6690E-06 | 3: delta_s/delta_0: 1.9022E-06 | 4: delta_r/delta_0: 1.8253E-07 | 5: delta_s/delta_0: 2.7744E-08 | 6: delta_r/delta_0: 4.9221E-09 | 7: delta_s/delta_0: 2.8645E-09 | 8: delta_r/delta_0: 1.8590E-09 | 9: delta_s/delta_0: 3.7636E-09 | 10: delta_r/delta_0: 2.0270E-10 | 11: delta_s/delta_0: 1.6574E-10 | 12: delta_r/delta_0: 7.6711E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -8.383269999491374E-003 2.813044368623531E-005 | BP delta = -0.1765125 -0.1719139 34767345.6981100 | BP delta = -0.1754494 -0.1708508 34767345.7356751 | 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 = 0.81119290 | --> Sampling calibration, mode = relcal | relcal = 0.2951384 0.2245077 -0.2833923 -0.2362538 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.9975859E-04 5.0077224E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.6091E-03 | 2: delta_r/delta_0: 3.7084E-05 | 3: delta_s/delta_0: 5.9457E-06 | 4: delta_r/delta_0: 4.3084E-07 | 5: delta_s/delta_0: 5.6152E-06 | 6: delta_r/delta_0: 4.7855E-07 | 7: delta_s/delta_0: 5.0039E-08 | 8: delta_r/delta_0: 3.3628E-08 | 9: delta_s/delta_0: 3.4435E-07 | 10: delta_r/delta_0: 5.1866E-09 | 11: delta_s/delta_0: 1.3060E-09 | 12: delta_r/delta_0: 6.9736E-10 | 13: delta_s/delta_0: 5.0122E-10 | 14: delta_r/delta_0: 1.2684E-10 | 15: delta_s/delta_0: 2.7063E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.753594059016843E-002 4.026813677615608E-005 | BP delta = -8.5557133E-02 -0.1171655 43106689.9551286 | BP delta = -9.2815794E-02 -0.1244241 43106689.8318296 | 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 = 0.95778913 | --> Sampling calibration, mode = relcal | relcal = 0.1063457 0.1394691 -0.1101592 -0.1356556 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.1061651E-02 1.2968253E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.5744E-04 | 2: delta_r/delta_0: 1.5130E-05 | 3: delta_s/delta_0: 1.6238E-04 | 4: delta_r/delta_0: 1.1940E-05 | 5: delta_s/delta_0: 2.4355E-06 | 6: delta_r/delta_0: 4.3869E-07 | 7: delta_s/delta_0: 6.0199E-08 | 8: delta_r/delta_0: 3.2506E-08 | 9: delta_s/delta_0: 3.5086E-07 | 10: delta_r/delta_0: 2.7773E-09 | 11: delta_s/delta_0: 2.2316E-09 | 12: delta_r/delta_0: 3.3296E-10 | 13: delta_s/delta_0: 3.0831E-10 | 14: delta_r/delta_0: 2.3271E-10 | 15: delta_s/delta_0: 3.0499E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.152166319245864E-002 3.702499862711513E-005 | BP delta = 0.2601531 0.2968782 43048757.3002382 | BP delta = 0.2479156 0.2846407 43048756.9116466 | 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 = 0.52086486 | --> Sampling calibration, mode = relcal | relcal = -5.1076178E-02 -3.6892069E-03 2.7240675E-02 2.7524710E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 6.3572970E-04 1.3142326E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.4863E-05 | 2: delta_r/delta_0: 4.5315E-06 | 3: delta_s/delta_0: 5.7181E-06 | 4: delta_r/delta_0: 8.7646E-07 | 5: delta_s/delta_0: 4.4855E-08 | 6: delta_r/delta_0: 2.7895E-08 | 7: delta_s/delta_0: 1.2174E-07 | 8: delta_r/delta_0: 6.0857E-09 | 9: delta_s/delta_0: 5.7159E-08 | 10: delta_r/delta_0: 2.8811E-08 | 11: delta_s/delta_0: 8.1334E-10 | 12: delta_r/delta_0: 2.9736E-10 | 13: delta_s/delta_0: 3.6336E-10 | 14: delta_r/delta_0: 9.9990E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.040655179097126E-002 5.490772661829819E-005 | BP delta = -0.1148571 -5.1391352E-02 61506194.9970123 | BP delta = -0.1279371 -6.4471297E-02 61506194.9884781 | 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 = 0.42093741 | --> Sampling calibration, mode = relcal | relcal = 4.5535032E-02 3.9595906E-02 -2.8240072E-02 -5.6890868E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.4528438E-03 5.4898597E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.0963E-05 | 2: delta_r/delta_0: 3.9137E-06 | 3: delta_s/delta_0: 3.1932E-06 | 4: delta_r/delta_0: 5.4595E-07 | 5: delta_s/delta_0: 6.0776E-08 | 6: delta_r/delta_0: 3.7635E-08 | 7: delta_s/delta_0: 4.6282E-08 | 8: delta_r/delta_0: 1.3107E-08 | 9: delta_s/delta_0: 2.0518E-09 | 10: delta_r/delta_0: 1.1659E-09 | 11: delta_s/delta_0: 1.9449E-09 | 12: delta_r/delta_0: 5.9602E-10 | 13: delta_s/delta_0: 6.8379E-10 | 14: delta_r/delta_0: 2.2080E-10 | 15: delta_s/delta_0: 1.4515E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.431605028296433E-002 5.003360036083955E-005 | BP delta = -0.1326634 -0.1859067 61334797.4477138 | BP delta = -0.1631765 -0.2164198 61334797.5551498 | 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 = 0.28120692 | --> Sampling calibration, mode = relcal | relcal = 2.4096550E-02 4.5083284E-02 -2.3354454E-02 -4.5825381E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0742964E-02 3.5734589E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.1230E-04 | 2: delta_r/delta_0: 9.0416E-06 | 3: delta_s/delta_0: 1.5648E-06 | 4: delta_r/delta_0: 2.3073E-07 | 5: delta_s/delta_0: 7.5540E-08 | 6: delta_r/delta_0: 1.9558E-08 | 7: delta_s/delta_0: 8.9422E-09 | 8: delta_r/delta_0: 5.3139E-09 | 9: delta_s/delta_0: 8.5467E-08 | 10: delta_r/delta_0: 5.5475E-09 | 11: delta_s/delta_0: 9.5565E-10 | 12: delta_r/delta_0: 3.6105E-10 | 13: delta_s/delta_0: 3.6274E-10 | 14: delta_r/delta_0: 1.6750E-10 | 15: delta_s/delta_0: 7.4674E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.541081264983037E-003 7.855019586980494E-005 | BP delta = 5.6913637E-02 -0.1356468 94960837.2179389 | BP delta = 6.2718749E-02 -0.1298416 94960837.2554165 | 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 = 0.29350387 | --> Sampling calibration, mode = relcal | relcal = 4.8997119E-04 1.0279690E-02 -3.8303086E-03 -6.9393530E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.4903910E-02 1.5464392E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.3472E-04 | 2: delta_r/delta_0: 1.1402E-05 | 3: delta_s/delta_0: 1.8771E-06 | 4: delta_r/delta_0: 2.7599E-07 | 5: delta_s/delta_0: 1.0349E-07 | 6: delta_r/delta_0: 2.4126E-08 | 7: delta_s/delta_0: 1.0682E-08 | 8: delta_r/delta_0: 7.2620E-09 | 9: delta_s/delta_0: 5.2864E-09 | 10: delta_r/delta_0: 2.7351E-09 | 11: delta_s/delta_0: 7.8096E-06 | 12: delta_r/delta_0: 1.8269E-09 | 13: delta_s/delta_0: 9.1030E-10 | 14: delta_r/delta_0: 2.9019E-10 | 15: delta_s/delta_0: 1.6550E-10 | 16: delta_r/delta_0: 9.6527E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.799635000748472E-003 8.318559202033297E-005 | BP delta = -0.7278965 -0.6470158 93515359.7185670 | BP delta = -0.7221442 -0.6412635 93515359.7384949 | 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 = 0.26467661 | --> Sampling calibration, mode = relcal | relcal = -5.5401730E-03 1.5035698E-02 -2.4917552E-03 -7.0037697E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -1.0496909E-04 4.0266928E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4463E-04 | 2: delta_r/delta_0: 1.2442E-05 | 3: delta_s/delta_0: 2.1539E-06 | 4: delta_r/delta_0: 2.8442E-07 | 5: delta_s/delta_0: 9.8331E-08 | 6: delta_r/delta_0: 2.1347E-08 | 7: delta_s/delta_0: 7.8219E-09 | 8: delta_r/delta_0: 4.7379E-09 | 9: delta_s/delta_0: 3.7715E-09 | 10: delta_r/delta_0: 2.3239E-09 | 11: delta_s/delta_0: 2.5385E-05 | 12: delta_r/delta_0: 5.9020E-08 | 13: delta_s/delta_0: 5.4257E-10 | 14: delta_r/delta_0: 1.4650E-10 | 15: delta_s/delta_0: 7.7169E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -7.500951689363019E-003 9.167423432525252E-005 | BP delta = 0.1795429 0.2723294 94708798.2412726 | BP delta = 0.1670892 0.2598757 94708798.2097586 | 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 = 0.25626643 | --> Sampling calibration, mode = relcal | relcal = -3.1714920E-02 -2.5861492E-02 3.6887970E-02 2.0688443E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.4278156E-02 1.7421827E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4438E-04 | 2: delta_r/delta_0: 1.2230E-05 | 3: delta_s/delta_0: 1.9792E-06 | 4: delta_r/delta_0: 3.4337E-07 | 5: delta_s/delta_0: 1.2523E-07 | 6: delta_r/delta_0: 2.5061E-08 | 7: delta_s/delta_0: 1.1977E-08 | 8: delta_r/delta_0: 5.9281E-09 | 9: delta_s/delta_0: 8.7204E-08 | 10: delta_r/delta_0: 5.2530E-09 | 11: delta_s/delta_0: 1.9573E-09 | 12: delta_r/delta_0: 5.1258E-10 | 13: delta_s/delta_0: 5.0778E-10 | 14: delta_r/delta_0: 3.3989E-10 | 15: delta_s/delta_0: 2.0412E-10 | 16: delta_r/delta_0: 1.6971E-10 | 17: delta_s/delta_0: 1.4169E-10 | 18: delta_r/delta_0: 1.2656E-10 | 19: delta_s/delta_0: 1.0857E-10 | 20: delta_r/delta_0: 1.0009E-10 | 21: delta_s/delta_0: 6.0699E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -8.889789832143164E-003 8.684848185271220E-005 | BP delta = -0.5727818 -0.6384546 93037974.0113133 | BP delta = -0.5761578 -0.6418306 93037974.0031491 | 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 = -3.154323 | New value = -3.106151 | poltype: 2 pol: 1 CPU time specind = 5.7799816E-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 = -3.050541 | New value = -3.163593 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.111699 | New value = -3.150074 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.165749 | New value = -3.111692 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.160544 | New value = -3.191858 | poltype: 2 pol: 2 CPU time specind = 1.6179085E-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 = 4.29 | CG iter. 1 -- res = 0.13564E+08, tol = 0.82734E+01, time = 1.49 | CG iter. 2 -- res = 0.52675E+05, tol = 0.82734E+01, time = 1.47 | CG iter. 3 -- res = 0.40133E+05, tol = 0.82734E+01, time = 1.48 | CG iter. 4 -- res = 0.18528E+05, tol = 0.82734E+01, time = 1.49 | CG iter. 5 -- res = 0.13090E+05, tol = 0.82734E+01, time = 1.48 | CG iter. 6 -- res = 0.13420E+05, tol = 0.82734E+01, time = 1.47 | CG iter. 7 -- res = 0.91421E+04, tol = 0.82734E+01, time = 1.46 | CG iter. 8 -- res = 0.63793E+04, tol = 0.82734E+01, time = 1.48 | CG iter. 9 -- res = 0.64716E+04, tol = 0.82734E+01, time = 1.47 | CG iter. 10 -- res = 0.61100E+04, tol = 0.82734E+01, time = 1.50 | CG iter. 11 -- res = 0.47018E+04, tol = 0.82734E+01, time = 1.52 | CG iter. 12 -- res = 0.30633E+04, tol = 0.82734E+01, time = 1.50 | CG iter. 13 -- res = 0.25185E+04, tol = 0.82734E+01, time = 1.49 | CG iter. 14 -- res = 0.19898E+04, tol = 0.82734E+01, time = 1.47 | CG iter. 15 -- res = 0.15782E+04, tol = 0.82734E+01, time = 1.52 | CG iter. 16 -- res = 0.10890E+04, tol = 0.82734E+01, time = 1.47 | CG iter. 17 -- res = 0.87906E+03, tol = 0.82734E+01, time = 1.56 | CG iter. 18 -- res = 0.63029E+03, tol = 0.82734E+01, time = 1.54 | CG iter. 19 -- res = 0.53929E+03, tol = 0.82734E+01, time = 1.58 | CG iter. 20 -- res = 0.39080E+03, tol = 0.82734E+01, time = 1.52 | CG iter. 21 -- res = 0.29173E+03, tol = 0.82734E+01, time = 1.58 | CG iter. 22 -- res = 0.22498E+03, tol = 0.82734E+01, time = 1.52 | CG iter. 23 -- res = 0.15416E+03, tol = 0.82734E+01, time = 1.56 | CG iter. 24 -- res = 0.10962E+03, tol = 0.82734E+01, time = 1.50 | CG iter. 25 -- res = 0.84295E+02, tol = 0.82734E+01, time = 1.57 | CG iter. 26 -- res = 0.75735E+02, tol = 0.82734E+01, time = 1.50 | CG iter. 27 -- res = 0.48727E+02, tol = 0.82734E+01, time = 1.52 | CG iter. 28 -- res = 0.32292E+02, tol = 0.82734E+01, time = 1.56 | CG iter. 29 -- res = 0.25589E+02, tol = 0.82734E+01, time = 1.56 | CG iter. 30 -- res = 0.20695E+02, tol = 0.82734E+01, time = 1.53 | CG iter. 31 -- res = 0.12691E+02, tol = 0.82734E+01, time = 1.52 | CG iter. 32 -- res = 0.98563E+01, tol = 0.82734E+01, time = 1.57 | CG iter. 33 -- res = 0.84486E+01, tol = 0.82734E+01, time = 1.50 | CG iter. 34 -- res = 0.56905E+01, tol = 0.82734E+01, time = 1.51 | CG iter. 35 -- res = 0.39633E+01, tol = 0.82734E+01, time = 1.51 | CG iter. 36 -- res = 0.30494E+01, tol = 0.82734E+01, time = 1.51 | CG iter. 37 -- res = 0.22848E+01, tol = 0.82734E+01, time = 1.52 | CG iter. 38 -- res = 0.16251E+01, tol = 0.82734E+01, time = 1.50 | CG iter. 39 -- res = 0.14543E+01, tol = 0.82734E+01, time = 1.53 | CG iter. 40 -- res = 0.13775E+01, tol = 0.82734E+01, time = 1.48 | CG iter. 41 -- res = 0.74805E+00, tol = 0.82734E+01, time = 1.52 | CG iter. 42 -- res = 0.49600E+00, tol = 0.82734E+01, time = 1.45 | CG iter. 43 -- res = 0.34104E+00, tol = 0.82734E+01, time = 1.56 | CG iter. 44 -- res = 0.33502E+00, tol = 0.82734E+01, time = 1.56 | CG iter. 45 -- res = 0.30534E+00, tol = 0.82734E+01, time = 1.55 | CG iter. 46 -- res = 0.16314E+00, tol = 0.82734E+01, time = 1.50 | CG iter. 47 -- res = 0.10627E+00, tol = 0.82734E+01, time = 1.48 | CG iter. 48 -- res = 0.79493E-01, tol = 0.82734E+01, time = 1.48 | CG iter. 49 -- res = 0.58760E-01, tol = 0.82734E+01, time = 1.53 | CG iter. 50 -- res = 0.45726E-01, tol = 0.82734E+01, time = 1.59 | Final CG iter 51 -- res = 0.45726E-01, tol = 0.82734E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9104349.099 | Old band monopole 8282395.972 | Change to band monopole 821953.127 | Change to component monopole -821949.592 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 4.24 | CG iter. 1 -- res = 0.44181E+05, tol = 0.47627E+18, time = 0.34 | CG iter. 2 -- res = 0.33375E+02, tol = 0.47627E+18, time = 0.40 | CG iter. 3 -- res = 0.99329E+00, tol = 0.47627E+18, time = 0.37 | CG iter. 4 -- res = 0.29807E-03, tol = 0.47627E+18, time = 0.41 | Final CG iter 5 -- res = 0.16588E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9104309.940 | (Sampled value in CG: 9137577.385 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.495316 | New value = 1.536373 | poltype: 2 pol: 1 CPU time specind = 5.4988861E-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 = 1.498648 | New value = 1.550722 | poltype: 2 pol: 2 CPU time specind = 1.7080307E-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 = 4.24 | CG iter. 1 -- res = 0.24433E+08, tol = 0.47724E+04, time = 1.72 | CG iter. 2 -- res = 0.53596E+07, tol = 0.47724E+04, time = 1.76 | CG iter. 3 -- res = 0.84079E+06, tol = 0.47724E+04, time = 1.76 | CG iter. 4 -- res = 0.35716E+06, tol = 0.47724E+04, time = 1.71 | CG iter. 5 -- res = 0.15465E+06, tol = 0.47724E+04, time = 1.75 | CG iter. 6 -- res = 0.80977E+05, tol = 0.47724E+04, time = 1.76 | CG iter. 7 -- res = 0.43814E+05, tol = 0.47724E+04, time = 1.74 | CG iter. 8 -- res = 0.21476E+05, tol = 0.47724E+04, time = 1.77 | CG iter. 9 -- res = 0.93384E+04, tol = 0.47724E+04, time = 1.75 | CG iter. 10 -- res = 0.38467E+04, tol = 0.47724E+04, time = 1.73 | CG iter. 11 -- res = 0.17253E+04, tol = 0.47724E+04, time = 1.74 | CG iter. 12 -- res = 0.87650E+03, tol = 0.47724E+04, time = 1.78 | CG iter. 13 -- res = 0.50244E+03, tol = 0.47724E+04, time = 1.74 | CG iter. 14 -- res = 0.28330E+03, tol = 0.47724E+04, time = 1.77 | CG iter. 15 -- res = 0.14513E+03, tol = 0.47724E+04, time = 1.77 | CG iter. 16 -- res = 0.70279E+02, tol = 0.47724E+04, time = 1.72 | CG iter. 17 -- res = 0.33332E+02, tol = 0.47724E+04, time = 1.73 | CG iter. 18 -- res = 0.16287E+02, tol = 0.47724E+04, time = 1.75 | CG iter. 19 -- res = 0.89527E+01, tol = 0.47724E+04, time = 1.72 | CG iter. 20 -- res = 0.51468E+01, tol = 0.47724E+04, time = 1.81 | CG iter. 21 -- res = 0.27803E+01, tol = 0.47724E+04, time = 1.74 | CG iter. 22 -- res = 0.14102E+01, tol = 0.47724E+04, time = 1.75 | CG iter. 23 -- res = 0.70251E+00, tol = 0.47724E+04, time = 1.76 | CG iter. 24 -- res = 0.35676E+00, tol = 0.47724E+04, time = 1.75 | CG iter. 25 -- res = 0.19131E+00, tol = 0.47724E+04, time = 1.78 | CG iter. 26 -- res = 0.11091E+00, tol = 0.47724E+04, time = 1.74 | CG iter. 27 -- res = 0.62864E-01, tol = 0.47724E+04, time = 1.75 | CG iter. 28 -- res = 0.33934E-01, tol = 0.47724E+04, time = 1.78 | CG iter. 29 -- res = 0.17502E-01, tol = 0.47724E+04, time = 1.79 | CG iter. 30 -- res = 0.88668E-02, tol = 0.47724E+04, time = 1.78 | CG iter. 31 -- res = 0.47518E-02, tol = 0.47724E+04, time = 1.76 | CG iter. 32 -- res = 0.26171E-02, tol = 0.47724E+04, time = 1.78 | CG iter. 33 -- res = 0.14661E-02, tol = 0.47724E+04, time = 1.71 | CG iter. 34 -- res = 0.79430E-03, tol = 0.47724E+04, time = 1.75 | CG iter. 35 -- res = 0.41202E-03, tol = 0.47724E+04, time = 1.79 | Final CG iter 36 -- res = 0.41202E-03, tol = 0.47724E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 5.498 2.763 | New value -4.553 | Old value 5.498 | Difference -10.052 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 4.27 | CG iter. 1 -- res = 0.52205E+07, tol = 0.47627E+18, time = 0.35 | CG iter. 2 -- res = 0.38558E+02, tol = 0.47627E+18, time = 0.41 | CG iter. 3 -- res = 0.10025E+01, tol = 0.47627E+18, time = 0.34 | CG iter. 4 -- res = 0.78371E-03, tol = 0.47627E+18, time = 0.38 | Final CG iter 5 -- res = 0.72547E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9104309.940 | (Sampled value in CG: 9137195.251 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.439522 | New value = -3.647935 | poltype: 1 pol: 1 CPU time specind = 2.5770664E-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 = 4.26 | CG iter. 1 -- res = 0.22034E+07, tol = 0.15286E+01, time = 0.66 | CG iter. 2 -- res = 0.80145E+05, tol = 0.15286E+01, time = 0.70 | CG iter. 3 -- res = 0.44676E+05, tol = 0.15286E+01, time = 0.65 | CG iter. 4 -- res = 0.12547E+05, tol = 0.15286E+01, time = 0.70 | CG iter. 5 -- res = 0.42238E+04, tol = 0.15286E+01, time = 0.68 | CG iter. 6 -- res = 0.14406E+04, tol = 0.15286E+01, time = 0.69 | CG iter. 7 -- res = 0.50551E+03, tol = 0.15286E+01, time = 0.64 | CG iter. 8 -- res = 0.13817E+03, tol = 0.15286E+01, time = 0.64 | CG iter. 9 -- res = 0.74845E+02, tol = 0.15286E+01, time = 0.69 | CG iter. 10 -- res = 0.30764E+02, tol = 0.15286E+01, time = 0.65 | CG iter. 11 -- res = 0.16363E+02, tol = 0.15286E+01, time = 0.65 | CG iter. 12 -- res = 0.48194E+01, tol = 0.15286E+01, time = 0.64 | CG iter. 13 -- res = 0.17830E+01, tol = 0.15286E+01, time = 0.62 | CG iter. 14 -- res = 0.59513E+00, tol = 0.15286E+01, time = 0.64 | CG iter. 15 -- res = 0.21303E+00, tol = 0.15286E+01, time = 0.67 | CG iter. 16 -- res = 0.77290E-01, tol = 0.15286E+01, time = 0.66 | CG iter. 17 -- res = 0.26645E-01, tol = 0.15286E+01, time = 0.68 | CG iter. 18 -- res = 0.12162E-01, tol = 0.15286E+01, time = 0.64 | CG iter. 19 -- res = 0.54096E-02, tol = 0.15286E+01, time = 0.66 | CG iter. 20 -- res = 0.16606E-02, tol = 0.15286E+01, time = 0.62 | CG iter. 21 -- res = 0.49382E-03, tol = 0.15286E+01, time = 0.68 | CG iter. 22 -- res = 0.18876E-03, tol = 0.15286E+01, time = 0.65 | CG iter. 23 -- res = 0.72400E-04, tol = 0.15286E+01, time = 0.62 | CG iter. 24 -- res = 0.22984E-04, tol = 0.15286E+01, time = 0.64 | CG iter. 25 -- res = 0.62881E-05, tol = 0.15286E+01, time = 0.65 | CG iter. 26 -- res = 0.20473E-05, tol = 0.15286E+01, time = 0.63 | CG iter. 27 -- res = 0.91389E-06, tol = 0.15286E+01, time = 0.69 | CG iter. 28 -- res = 0.28595E-06, tol = 0.15286E+01, time = 0.65 | CG iter. 29 -- res = 0.81388E-07, tol = 0.15286E+01, time = 0.63 | CG iter. 30 -- res = 0.27231E-07, tol = 0.15286E+01, time = 0.68 | CG iter. 31 -- res = 0.92556E-08, tol = 0.15286E+01, time = 0.67 | CG iter. 32 -- res = 0.84787E-08, tol = 0.15286E+01, time = 0.65 | CG iter. 33 -- res = 0.21051E-08, tol = 0.15286E+01, time = 0.66 | CG iter. 34 -- res = 0.58622E-09, tol = 0.15286E+01, time = 0.62 | CG iter. 35 -- res = 0.21519E-09, tol = 0.15286E+01, time = 0.70 | CG iter. 36 -- res = 0.72286E-10, tol = 0.15286E+01, time = 0.65 | CG iter. 37 -- res = 0.24417E-10, tol = 0.15286E+01, time = 0.67 | CG iter. 38 -- res = 0.87968E-11, tol = 0.15286E+01, time = 0.62 | CG iter. 39 -- res = 0.74911E-11, tol = 0.15286E+01, time = 0.69 | CG iter. 40 -- res = 0.16208E-11, tol = 0.15286E+01, time = 0.61 | CG iter. 41 -- res = 0.44991E-12, tol = 0.15286E+01, time = 0.71 | CG iter. 42 -- res = 0.15940E-12, tol = 0.15286E+01, time = 0.68 | CG iter. 43 -- res = 0.44893E-13, tol = 0.15286E+01, time = 0.63 | CG iter. 44 -- res = 0.13730E-13, tol = 0.15286E+01, time = 0.66 | CG iter. 45 -- res = 0.47596E-14, tol = 0.15286E+01, time = 0.61 | CG iter. 46 -- res = 0.18654E-14, tol = 0.15286E+01, time = 0.67 | CG iter. 47 -- res = 0.60170E-15, tol = 0.15286E+01, time = 0.67 | CG iter. 48 -- res = 0.16180E-15, tol = 0.15286E+01, time = 0.61 | CG iter. 49 -- res = 0.47294E-16, tol = 0.15286E+01, time = 0.66 | CG iter. 50 -- res = 0.15588E-16, tol = 0.15286E+01, time = 0.63 | Final CG iter 51 -- res = 0.15588E-16, tol = 0.15286E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 9.308 2.313 | New value 0.852 | Old value 9.308 | Difference -8.456 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 4.25 | CG iter. 1 -- res = 0.47403E+05, tol = 0.47627E+18, time = 0.35 | CG iter. 2 -- res = 0.23156E+02, tol = 0.47627E+18, time = 0.39 | CG iter. 3 -- res = 0.63639E+00, tol = 0.47627E+18, time = 0.38 | CG iter. 4 -- res = 0.11102E-03, tol = 0.47627E+18, time = 0.38 | Final CG iter 5 -- res = 0.32410E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9104309.940 | (Sampled value in CG: 9129961.489 ) | CPU time specind = 274.8811 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 4.27 | CG iter. 1 -- res = 0.69512E+08, tol = 0.51504E+04, time = 3.06 | CG iter. 2 -- res = 0.32783E+08, tol = 0.51504E+04, time = 3.11 | CG iter. 3 -- res = 0.57477E+07, tol = 0.51504E+04, time = 3.00 | CG iter. 4 -- res = 0.29987E+07, tol = 0.51504E+04, time = 3.08 | CG iter. 5 -- res = 0.13464E+07, tol = 0.51504E+04, time = 3.17 | CG iter. 6 -- res = 0.72543E+06, tol = 0.51504E+04, time = 3.19 | CG iter. 7 -- res = 0.38979E+06, tol = 0.51504E+04, time = 3.14 | CG iter. 8 -- res = 0.19788E+06, tol = 0.51504E+04, time = 3.16 | CG iter. 9 -- res = 0.10158E+06, tol = 0.51504E+04, time = 3.14 | CG iter. 10 -- res = 0.47984E+05, tol = 0.51504E+04, time = 3.15 | CG iter. 11 -- res = 0.25435E+05, tol = 0.51504E+04, time = 3.05 | CG iter. 12 -- res = 0.14714E+05, tol = 0.51504E+04, time = 3.08 | CG iter. 13 -- res = 0.94130E+04, tol = 0.51504E+04, time = 3.15 | CG iter. 14 -- res = 0.70873E+04, tol = 0.51504E+04, time = 3.17 | CG iter. 15 -- res = 0.54262E+04, tol = 0.51504E+04, time = 3.12 | CG iter. 16 -- res = 0.44558E+04, tol = 0.51504E+04, time = 3.11 | CG iter. 17 -- res = 0.37059E+04, tol = 0.51504E+04, time = 3.16 | CG iter. 18 -- res = 0.34242E+04, tol = 0.51504E+04, time = 3.08 | CG iter. 19 -- res = 0.35708E+04, tol = 0.51504E+04, time = 3.06 | CG iter. 20 -- res = 0.37957E+04, tol = 0.51504E+04, time = 3.20 | CG iter. 21 -- res = 0.35880E+04, tol = 0.51504E+04, time = 3.15 | CG iter. 22 -- res = 0.27796E+04, tol = 0.51504E+04, time = 3.10 | CG iter. 23 -- res = 0.19745E+04, tol = 0.51504E+04, time = 3.15 | CG iter. 24 -- res = 0.15302E+04, tol = 0.51504E+04, time = 3.23 | CG iter. 25 -- res = 0.13708E+04, tol = 0.51504E+04, time = 3.21 | CG iter. 26 -- res = 0.12475E+04, tol = 0.51504E+04, time = 3.07 | CG iter. 27 -- res = 0.10392E+04, tol = 0.51504E+04, time = 3.11 | CG iter. 28 -- res = 0.83758E+03, tol = 0.51504E+04, time = 3.20 | CG iter. 29 -- res = 0.75007E+03, tol = 0.51504E+04, time = 3.16 | CG iter. 30 -- res = 0.79735E+03, tol = 0.51504E+04, time = 3.15 | CG iter. 31 -- res = 0.89346E+03, tol = 0.51504E+04, time = 3.14 | CG iter. 32 -- res = 0.89737E+03, tol = 0.51504E+04, time = 3.17 | CG iter. 33 -- res = 0.76414E+03, tol = 0.51504E+04, time = 3.14 | CG iter. 34 -- res = 0.64273E+03, tol = 0.51504E+04, time = 3.11 | CG iter. 35 -- res = 0.61232E+03, tol = 0.51504E+04, time = 3.11 | CG iter. 36 -- res = 0.65514E+03, tol = 0.51504E+04, time = 3.15 | CG iter. 37 -- res = 0.68387E+03, tol = 0.51504E+04, time = 3.09 | CG iter. 38 -- res = 0.63691E+03, tol = 0.51504E+04, time = 3.10 | CG iter. 39 -- res = 0.57397E+03, tol = 0.51504E+04, time = 3.20 | CG iter. 40 -- res = 0.57111E+03, tol = 0.51504E+04, time = 3.15 | CG iter. 41 -- res = 0.63650E+03, tol = 0.51504E+04, time = 3.23 | CG iter. 42 -- res = 0.70501E+03, tol = 0.51504E+04, time = 3.27 | CG iter. 43 -- res = 0.69046E+03, tol = 0.51504E+04, time = 3.09 | CG iter. 44 -- res = 0.62668E+03, tol = 0.51504E+04, time = 3.06 | CG iter. 45 -- res = 0.58375E+03, tol = 0.51504E+04, time = 3.24 | CG iter. 46 -- res = 0.59294E+03, tol = 0.51504E+04, time = 3.26 | CG iter. 47 -- res = 0.61809E+03, tol = 0.51504E+04, time = 3.24 | CG iter. 48 -- res = 0.61006E+03, tol = 0.51504E+04, time = 3.12 | CG iter. 49 -- res = 0.56413E+03, tol = 0.51504E+04, time = 3.11 | CG iter. 50 -- res = 0.53219E+03, tol = 0.51504E+04, time = 3.14 | CG iter. 51 -- res = 0.53833E+03, tol = 0.51504E+04, time = 3.26 | CG iter. 52 -- res = 0.55856E+03, tol = 0.51504E+04, time = 3.26 | CG iter. 53 -- res = 0.55927E+03, tol = 0.51504E+04, time = 3.22 | CG iter. 54 -- res = 0.53730E+03, tol = 0.51504E+04, time = 3.14 | CG iter. 55 -- res = 0.50472E+03, tol = 0.51504E+04, time = 3.17 | CG iter. 56 -- res = 0.48826E+03, tol = 0.51504E+04, time = 3.10 | CG iter. 57 -- res = 0.48549E+03, tol = 0.51504E+04, time = 3.12 | CG iter. 58 -- res = 0.48876E+03, tol = 0.51504E+04, time = 3.13 | CG iter. 59 -- res = 0.47701E+03, tol = 0.51504E+04, time = 3.13 | CG iter. 60 -- res = 0.45391E+03, tol = 0.51504E+04, time = 3.13 | Final CG iter 61 -- res = 0.45391E+03, tol = 0.51504E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 3.184 ( -231.666 -2234.439 2517.765 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8846378.639 | Old band monopole 9104349.099 | Change to band monopole -257970.461 | Change to component monopole 257969.351 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -4.630 2.747 | New value -0.940 | Old value -4.630 | Difference 3.689 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -3.741 ( 7.572 11.538 -12.208 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 11.571 2.457 | New value 1.115 | Old value 11.571 | Difference -10.456 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 4.25 | CG iter. 1 -- res = 0.70881E+06, tol = 0.47627E+18, time = 0.36 | CG iter. 2 -- res = 0.51728E+02, tol = 0.47627E+18, time = 0.34 | CG iter. 3 -- res = 0.12186E+01, tol = 0.47627E+18, time = 0.37 | CG iter. 4 -- res = 0.22884E-03, tol = 0.47627E+18, time = 0.37 | Final CG iter 5 -- res = 0.28260E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8846340.589 | (Sampled value in CG: 8786863.493 ) | Chain = 1 -- chisq = 0.61754856E+09 | Chain = 1 -- wall time = 4133.106 sec --------------------------------------------------------------------- | Chain = 1 -- Iteration = 88 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18105819760957 | --> Sampling calibration, mode = relcal | relcal = -7.4676439E-02 -5.8340821E-02 9.1557920E-02 4.1459337E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.8231517E-04 4.0545133E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.3197E-05 | 2: delta_r/delta_0: 7.5074E-07 | 3: delta_s/delta_0: 2.4928E-07 | 4: delta_r/delta_0: 9.2731E-09 | 5: delta_s/delta_0: 2.7545E-09 | 6: delta_r/delta_0: 6.3519E-10 | 7: delta_s/delta_0: 1.2119E-10 | 8: delta_r/delta_0: 4.6386E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 7.092764804254582E-004 2.740992671185652E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.3196E-05 | 2: delta_r/delta_0: 7.5071E-07 | 3: delta_s/delta_0: 2.4927E-07 | 4: delta_r/delta_0: 9.2716E-09 | 5: delta_s/delta_0: 2.7533E-09 | 6: delta_r/delta_0: 6.3513E-10 | 7: delta_s/delta_0: 1.2117E-10 | 8: delta_r/delta_0: 4.6385E-11 | Reached bicg-stab tolerance | BP delta = 7.6994435E-03 1.8509351E-02 3772623.70273419 | BP delta = 7.6994435E-03 1.8316451E-02 3770013.69721905 | BP chisq diff = -2610.0, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02503430 | --> Sampling calibration, mode = relcal | relcal = -0.1065302 -9.5466360E-02 0.1448129 5.7183590E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 4.1586198E-03 1.5937607E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.1508E-04 | 2: delta_r/delta_0: 2.5036E-06 | 3: delta_s/delta_0: 2.5652E-06 | 4: delta_r/delta_0: 2.5341E-07 | 5: delta_s/delta_0: 5.5261E-08 | 6: delta_r/delta_0: 1.0331E-08 | 7: delta_s/delta_0: 3.5082E-09 | 8: delta_r/delta_0: 2.2003E-09 | 9: delta_s/delta_0: 1.3153E-08 | 10: delta_r/delta_0: 2.4730E-10 | 11: delta_s/delta_0: 1.4842E-10 | 12: delta_r/delta_0: 9.7733E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.509011890566519E-003 2.813444431407172E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.1509E-04 | 2: delta_r/delta_0: 2.5037E-06 | 3: delta_s/delta_0: 2.5651E-06 | 4: delta_r/delta_0: 2.5341E-07 | 5: delta_s/delta_0: 5.5256E-08 | 6: delta_r/delta_0: 1.0330E-08 | 7: delta_s/delta_0: 3.5083E-09 | 8: delta_r/delta_0: 2.2003E-09 | 9: delta_s/delta_0: 1.3153E-08 | 10: delta_r/delta_0: 2.4731E-10 | 11: delta_s/delta_0: 1.4842E-10 | 12: delta_r/delta_0: 9.7739E-11 | Reached bicg-stab tolerance | BP delta = -0.1754494 -0.1708508 2841569.36711168 | BP delta = -0.1754494 -0.1695009 2841578.97920037 | 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 = 0.81123141 | --> Sampling calibration, mode = relcal | relcal = 0.2950411 0.2245612 -0.2833722 -0.2362301 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.5466161E-04 5.1743365E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.9809E-03 | 2: delta_r/delta_0: 4.5721E-05 | 3: delta_s/delta_0: 2.0114E-05 | 4: delta_r/delta_0: 2.0336E-06 | 5: delta_s/delta_0: 1.1842E-06 | 6: delta_r/delta_0: 1.0685E-07 | 7: delta_s/delta_0: 6.0253E-08 | 8: delta_r/delta_0: 2.8925E-08 | 9: delta_s/delta_0: 3.8953E-07 | 10: delta_r/delta_0: 2.4467E-09 | 11: delta_s/delta_0: 1.3290E-09 | 12: delta_r/delta_0: 3.9079E-10 | 13: delta_s/delta_0: 6.5359E-10 | 14: delta_r/delta_0: 3.4147E-10 | 15: delta_s/delta_0: 6.2626E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.141640617296364E-002 4.026569063227656E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.9778E-03 | 2: delta_r/delta_0: 4.5646E-05 | 3: delta_s/delta_0: 2.0130E-05 | 4: delta_r/delta_0: 2.0351E-06 | 5: delta_s/delta_0: 1.1812E-06 | 6: delta_r/delta_0: 1.0663E-07 | 7: delta_s/delta_0: 6.0268E-08 | 8: delta_r/delta_0: 2.8909E-08 | 9: delta_s/delta_0: 3.8893E-07 | 10: delta_r/delta_0: 2.4388E-09 | 11: delta_s/delta_0: 1.3203E-09 | 12: delta_r/delta_0: 3.9082E-10 | 13: delta_s/delta_0: 6.6084E-10 | 14: delta_r/delta_0: 3.4272E-10 | 15: delta_s/delta_0: 6.2085E-11 | Reached bicg-stab tolerance | BP delta = -9.2815794E-02 -0.1244241 2827631.77301067 | BP delta = -9.2815794E-02 -0.1213151 2827948.52312864 | 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 = 0.95790059 | --> Sampling calibration, mode = relcal | relcal = 0.1063820 0.1393613 -0.1101733 -0.1355700 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.7166160E-03 1.2998789E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.5437E-03 | 2: delta_r/delta_0: 3.6013E-05 | 3: delta_s/delta_0: 8.8719E-05 | 4: delta_r/delta_0: 6.5517E-06 | 5: delta_s/delta_0: 6.7104E-06 | 6: delta_r/delta_0: 1.2918E-06 | 7: delta_s/delta_0: 6.9249E-08 | 8: delta_r/delta_0: 3.8027E-08 | 9: delta_s/delta_0: 7.7357E-07 | 10: delta_r/delta_0: 4.4296E-09 | 11: delta_s/delta_0: 2.8533E-09 | 12: delta_r/delta_0: 8.4910E-10 | 13: delta_s/delta_0: 3.3287E-10 | 14: delta_r/delta_0: 1.0055E-10 | 15: delta_s/delta_0: 3.3444E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.517200750760546E-002 3.702034410341527E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.5450E-03 | 2: delta_r/delta_0: 3.6043E-05 | 3: delta_s/delta_0: 8.8477E-05 | 4: delta_r/delta_0: 6.5370E-06 | 5: delta_s/delta_0: 6.7010E-06 | 6: delta_r/delta_0: 1.2887E-06 | 7: delta_s/delta_0: 6.9149E-08 | 8: delta_r/delta_0: 3.7977E-08 | 9: delta_s/delta_0: 7.7333E-07 | 10: delta_r/delta_0: 4.4107E-09 | 11: delta_s/delta_0: 2.8474E-09 | 12: delta_r/delta_0: 8.5181E-10 | 13: delta_s/delta_0: 3.3551E-10 | 14: delta_r/delta_0: 1.0074E-10 | 15: delta_s/delta_0: 3.3411E-11 | Reached bicg-stab tolerance | BP delta = 0.2479156 0.2846407 3004850.99470095 | BP delta = 0.2479156 0.2548538 3005222.92691820 | 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 = 0.52083761 | --> Sampling calibration, mode = relcal | relcal = -5.1055260E-02 -3.7036014E-03 2.7246768E-02 2.7512096E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -1.1552208E-04 1.5974992E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 7.8194E-05 | 2: delta_r/delta_0: 4.2336E-06 | 3: delta_s/delta_0: 5.0716E-07 | 4: delta_r/delta_0: 1.5854E-07 | 5: delta_s/delta_0: 1.4712E-07 | 6: delta_r/delta_0: 2.5660E-08 | 7: delta_s/delta_0: 2.1797E-08 | 8: delta_r/delta_0: 1.0581E-08 | 9: delta_s/delta_0: 6.7477E-08 | 10: delta_r/delta_0: 3.7135E-09 | 11: delta_s/delta_0: 8.0790E-10 | 12: delta_r/delta_0: 2.6658E-10 | 13: delta_s/delta_0: 7.6248E-10 | 14: delta_r/delta_0: 3.4126E-10 | 15: delta_s/delta_0: 2.6440E-10 | 16: delta_r/delta_0: 1.0584E-10 | 17: delta_s/delta_0: 1.0497E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.122873192692179E-002 5.491187147950614E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 7.8194E-05 | 2: delta_r/delta_0: 4.2336E-06 | 3: delta_s/delta_0: 5.0717E-07 | 4: delta_r/delta_0: 1.5854E-07 | 5: delta_s/delta_0: 1.4712E-07 | 6: delta_r/delta_0: 2.5660E-08 | 7: delta_s/delta_0: 2.1797E-08 | 8: delta_r/delta_0: 1.0581E-08 | 9: delta_s/delta_0: 6.7479E-08 | 10: delta_r/delta_0: 3.7134E-09 | 11: delta_s/delta_0: 8.0802E-10 | 12: delta_r/delta_0: 2.6657E-10 | 13: delta_s/delta_0: 7.6161E-10 | 14: delta_r/delta_0: 3.4093E-10 | 15: delta_s/delta_0: 2.6445E-10 | 16: delta_r/delta_0: 1.0585E-10 | 17: delta_s/delta_0: 1.0495E-11 | Reached bicg-stab tolerance | BP delta = -0.1279371 -6.4471297E-02 2435271.43882948 | BP delta = -0.1279371 -7.8289181E-02 2435270.11825415 | BP chisq diff = -1.3, accept = T | | Finished processing 060-WMAP_V1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 060-WMAP_V2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.42093855 | --> Sampling calibration, mode = relcal | relcal = 4.5560922E-02 3.9632615E-02 -2.8263340E-02 -5.6930199E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.9917571E-03 5.7052579E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.1763E-05 | 2: delta_r/delta_0: 3.9519E-06 | 3: delta_s/delta_0: 3.9194E-06 | 4: delta_r/delta_0: 6.4819E-07 | 5: delta_s/delta_0: 5.9360E-08 | 6: delta_r/delta_0: 3.7463E-08 | 7: delta_s/delta_0: 5.5423E-08 | 8: delta_r/delta_0: 1.2439E-08 | 9: delta_s/delta_0: 1.7691E-09 | 10: delta_r/delta_0: 6.9374E-10 | 11: delta_s/delta_0: 1.1595E-09 | 12: delta_r/delta_0: 5.4891E-10 | 13: delta_s/delta_0: 2.9967E-10 | 14: delta_r/delta_0: 1.2656E-10 | 15: delta_s/delta_0: 1.4205E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.419030287732613E-002 5.003455640952724E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 6.1763E-05 | 2: delta_r/delta_0: 3.9519E-06 | 3: delta_s/delta_0: 3.9194E-06 | 4: delta_r/delta_0: 6.4819E-07 | 5: delta_s/delta_0: 5.9361E-08 | 6: delta_r/delta_0: 3.7464E-08 | 7: delta_s/delta_0: 5.5428E-08 | 8: delta_r/delta_0: 1.2439E-08 | 9: delta_s/delta_0: 1.7692E-09 | 10: delta_r/delta_0: 6.9379E-10 | 11: delta_s/delta_0: 1.1597E-09 | 12: delta_r/delta_0: 5.4892E-10 | 13: delta_s/delta_0: 2.9965E-10 | 14: delta_r/delta_0: 1.2653E-10 | 15: delta_s/delta_0: 1.4204E-11 | Reached bicg-stab tolerance | BP delta = -0.1631765 -0.2164198 2322480.95917995 | BP delta = -0.1631765 -0.2040442 2322464.41935415 | BP chisq diff = -16.5, accept = T | | Finished processing 060-WMAP_V2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.28123102 | --> Sampling calibration, mode = relcal | relcal = 2.4138600E-02 4.5086537E-02 -2.3321541E-02 -4.5903593E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.1368002E-02 2.6451119E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.0756E-04 | 2: delta_r/delta_0: 8.8156E-06 | 3: delta_s/delta_0: 1.3985E-06 | 4: delta_r/delta_0: 2.1951E-07 | 5: delta_s/delta_0: 8.6608E-08 | 6: delta_r/delta_0: 1.5879E-08 | 7: delta_s/delta_0: 6.5908E-09 | 8: delta_r/delta_0: 4.1850E-09 | 9: delta_s/delta_0: 5.4087E-09 | 10: delta_r/delta_0: 2.8112E-09 | 11: delta_s/delta_0: 7.6355E-07 | 12: delta_r/delta_0: 2.5967E-07 | 13: delta_s/delta_0: 2.7692E-10 | 14: delta_r/delta_0: 1.3124E-10 | 15: delta_s/delta_0: 4.8433E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.439813471811553E-003 7.854676889923218E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.0756E-04 | 2: delta_r/delta_0: 8.8156E-06 | 3: delta_s/delta_0: 1.3985E-06 | 4: delta_r/delta_0: 2.1951E-07 | 5: delta_s/delta_0: 8.6608E-08 | 6: delta_r/delta_0: 1.5879E-08 | 7: delta_s/delta_0: 6.5910E-09 | 8: delta_r/delta_0: 4.1850E-09 | 9: delta_s/delta_0: 5.4091E-09 | 10: delta_r/delta_0: 2.8113E-09 | 11: delta_s/delta_0: 7.6352E-07 | 12: delta_r/delta_0: 2.5968E-07 | 13: delta_s/delta_0: 2.7693E-10 | 14: delta_r/delta_0: 1.3125E-10 | 15: delta_s/delta_0: 4.8432E-11 | Reached bicg-stab tolerance | BP delta = 6.2718749E-02 -0.1298416 2489885.01896757 | BP delta = 6.2718749E-02 -0.1032480 2489892.73311897 | 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 = 0.29345963 | --> Sampling calibration, mode = relcal | relcal = 6.1328220E-04 1.0252710E-02 -3.8495711E-03 -7.0164204E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.5111757E-02 1.7554484E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.3366E-04 | 2: delta_r/delta_0: 1.1426E-05 | 3: delta_s/delta_0: 1.8313E-06 | 4: delta_r/delta_0: 2.6077E-07 | 5: delta_s/delta_0: 9.6173E-08 | 6: delta_r/delta_0: 2.0810E-08 | 7: delta_s/delta_0: 9.0862E-09 | 8: delta_r/delta_0: 6.1617E-09 | 9: delta_s/delta_0: 4.1959E-09 | 10: delta_r/delta_0: 1.3384E-09 | 11: delta_s/delta_0: 2.3493E-04 | 12: delta_r/delta_0: 2.3939E-07 | 13: delta_s/delta_0: 5.3219E-07 | 14: delta_r/delta_0: 3.0578E-08 | 15: delta_s/delta_0: 6.2255E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.045783613468130E-002 8.319796002865480E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.3366E-04 | 2: delta_r/delta_0: 1.1426E-05 | 3: delta_s/delta_0: 1.8313E-06 | 4: delta_r/delta_0: 2.6076E-07 | 5: delta_s/delta_0: 9.6167E-08 | 6: delta_r/delta_0: 2.0809E-08 | 7: delta_s/delta_0: 9.0859E-09 | 8: delta_r/delta_0: 6.1616E-09 | 9: delta_s/delta_0: 4.1957E-09 | 10: delta_r/delta_0: 1.3386E-09 | 11: delta_s/delta_0: 2.3538E-04 | 12: delta_r/delta_0: 2.4002E-07 | 13: delta_s/delta_0: 5.3598E-07 | 14: delta_r/delta_0: 3.0748E-08 | 15: delta_s/delta_0: 6.2257E-11 | Reached bicg-stab tolerance | BP delta = -0.7221442 -0.6412635 2738657.15720342 | BP delta = -0.7221442 -0.6353967 2738659.65120557 | 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 = 0.26466347 | --> Sampling calibration, mode = relcal | relcal = -5.6458418E-03 1.5030452E-02 -2.3939507E-03 -6.9906595E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -1.1129807E-03 6.3031670E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4255E-04 | 2: delta_r/delta_0: 1.2211E-05 | 3: delta_s/delta_0: 2.0018E-06 | 4: delta_r/delta_0: 2.3101E-07 | 5: delta_s/delta_0: 9.8852E-08 | 6: delta_r/delta_0: 1.8900E-08 | 7: delta_s/delta_0: 7.4506E-09 | 8: delta_r/delta_0: 4.7490E-09 | 9: delta_s/delta_0: 3.9920E-09 | 10: delta_r/delta_0: 2.6843E-09 | 11: delta_s/delta_0: 2.2682E-05 | 12: delta_r/delta_0: 5.4217E-08 | 13: delta_s/delta_0: 5.7269E-08 | 14: delta_r/delta_0: 4.0455E-08 | 15: delta_s/delta_0: 9.0763E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -8.349208329731874E-003 9.167701080392603E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.4255E-04 | 2: delta_r/delta_0: 1.2211E-05 | 3: delta_s/delta_0: 2.0018E-06 | 4: delta_r/delta_0: 2.3101E-07 | 5: delta_s/delta_0: 9.8852E-08 | 6: delta_r/delta_0: 1.8900E-08 | 7: delta_s/delta_0: 7.4506E-09 | 8: delta_r/delta_0: 4.7490E-09 | 9: delta_s/delta_0: 3.9920E-09 | 10: delta_r/delta_0: 2.6843E-09 | 11: delta_s/delta_0: 2.2682E-05 | 12: delta_r/delta_0: 5.4216E-08 | 13: delta_s/delta_0: 5.7268E-08 | 14: delta_r/delta_0: 4.0454E-08 | 15: delta_s/delta_0: 9.0763E-11 | Reached bicg-stab tolerance | BP delta = 0.1670892 0.2598757 2516285.36032298 | BP delta = 0.1670892 0.2691784 2516285.33857646 | 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 = 0.25618638 | --> Sampling calibration, mode = relcal | relcal = -3.1633012E-02 -2.5942171E-02 3.6913082E-02 2.0662099E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.2414569E-02 1.6694590E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4428E-04 | 2: delta_r/delta_0: 1.2305E-05 | 3: delta_s/delta_0: 1.8615E-06 | 4: delta_r/delta_0: 3.9549E-07 | 5: delta_s/delta_0: 1.7527E-07 | 6: delta_r/delta_0: 2.4342E-08 | 7: delta_s/delta_0: 9.6224E-09 | 8: delta_r/delta_0: 5.7479E-09 | 9: delta_s/delta_0: 3.8753E-09 | 10: delta_r/delta_0: 2.9326E-09 | 11: delta_s/delta_0: 2.0515E-07 | 12: delta_r/delta_0: 1.0174E-08 | 13: delta_s/delta_0: 1.4028E-09 | 14: delta_r/delta_0: 6.9185E-10 | 15: delta_s/delta_0: 1.5838E-10 | 16: delta_r/delta_0: 1.3745E-10 | 17: delta_s/delta_0: 1.2888E-10 | 18: delta_r/delta_0: 1.2011E-10 | 19: delta_s/delta_0: 1.1012E-10 | 20: delta_r/delta_0: 8.7189E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.493427684489956E-003 8.687490532861658E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.4428E-04 | 2: delta_r/delta_0: 1.2305E-05 | 3: delta_s/delta_0: 1.8616E-06 | 4: delta_r/delta_0: 3.9548E-07 | 5: delta_s/delta_0: 1.7525E-07 | 6: delta_r/delta_0: 2.4342E-08 | 7: delta_s/delta_0: 9.6222E-09 | 8: delta_r/delta_0: 5.7478E-09 | 9: delta_s/delta_0: 3.8754E-09 | 10: delta_r/delta_0: 2.9327E-09 | 11: delta_s/delta_0: 2.0527E-07 | 12: delta_r/delta_0: 1.0179E-08 | 13: delta_s/delta_0: 1.4025E-09 | 14: delta_r/delta_0: 6.9167E-10 | 15: delta_s/delta_0: 1.5836E-10 | 16: delta_r/delta_0: 1.3745E-10 | 17: delta_s/delta_0: 1.2887E-10 | 18: delta_r/delta_0: 1.2010E-10 | 19: delta_s/delta_0: 1.1012E-10 | 20: delta_r/delta_0: 8.7128E-11 | Reached bicg-stab tolerance | BP delta = -0.5761578 -0.6418306 2705779.46614609 | BP delta = -0.5761578 -0.6264157 2705800.43674094 | 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 = -3.106151 | New value = -3.201773 | poltype: 2 pol: 1 CPU time specind = 5.6550503E-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 = -3.163593 | New value = -3.116473 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.150074 | New value = -3.203390 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.111692 | New value = -3.180678 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.191858 | New value = -3.133666 | poltype: 2 pol: 2 CPU time specind = 1.5430450E-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 = 4.12 | CG iter. 1 -- res = 0.13528E+08, tol = 0.78189E+01, time = 1.58 | CG iter. 2 -- res = 0.52419E+05, tol = 0.78189E+01, time = 1.49 | CG iter. 3 -- res = 0.52344E+05, tol = 0.78189E+01, time = 1.52 | CG iter. 4 -- res = 0.27761E+05, tol = 0.78189E+01, time = 1.53 | CG iter. 5 -- res = 0.30922E+05, tol = 0.78189E+01, time = 1.53 | CG iter. 6 -- res = 0.27790E+05, tol = 0.78189E+01, time = 1.51 | CG iter. 7 -- res = 0.27642E+05, tol = 0.78189E+01, time = 1.55 | CG iter. 8 -- res = 0.17651E+05, tol = 0.78189E+01, time = 1.54 | CG iter. 9 -- res = 0.20684E+05, tol = 0.78189E+01, time = 1.56 | CG iter. 10 -- res = 0.18439E+05, tol = 0.78189E+01, time = 1.57 | CG iter. 11 -- res = 0.97346E+04, tol = 0.78189E+01, time = 1.51 | CG iter. 12 -- res = 0.75938E+04, tol = 0.78189E+01, time = 1.54 | CG iter. 13 -- res = 0.71326E+04, tol = 0.78189E+01, time = 1.55 | CG iter. 14 -- res = 0.57643E+04, tol = 0.78189E+01, time = 1.54 | CG iter. 15 -- res = 0.40448E+04, tol = 0.78189E+01, time = 1.54 | CG iter. 16 -- res = 0.27885E+04, tol = 0.78189E+01, time = 1.49 | CG iter. 17 -- res = 0.20797E+04, tol = 0.78189E+01, time = 1.52 | CG iter. 18 -- res = 0.17909E+04, tol = 0.78189E+01, time = 1.55 | CG iter. 19 -- res = 0.15058E+04, tol = 0.78189E+01, time = 1.55 | CG iter. 20 -- res = 0.11563E+04, tol = 0.78189E+01, time = 1.54 | CG iter. 21 -- res = 0.10173E+04, tol = 0.78189E+01, time = 1.55 | CG iter. 22 -- res = 0.87723E+03, tol = 0.78189E+01, time = 1.54 | CG iter. 23 -- res = 0.65753E+03, tol = 0.78189E+01, time = 1.52 | CG iter. 24 -- res = 0.58245E+03, tol = 0.78189E+01, time = 1.53 | CG iter. 25 -- res = 0.52914E+03, tol = 0.78189E+01, time = 1.56 | CG iter. 26 -- res = 0.42414E+03, tol = 0.78189E+01, time = 1.56 | CG iter. 27 -- res = 0.34662E+03, tol = 0.78189E+01, time = 1.52 | CG iter. 28 -- res = 0.29430E+03, tol = 0.78189E+01, time = 1.49 | CG iter. 29 -- res = 0.25172E+03, tol = 0.78189E+01, time = 1.49 | CG iter. 30 -- res = 0.21762E+03, tol = 0.78189E+01, time = 1.56 | CG iter. 31 -- res = 0.17625E+03, tol = 0.78189E+01, time = 1.52 | CG iter. 32 -- res = 0.17398E+03, tol = 0.78189E+01, time = 1.60 | CG iter. 33 -- res = 0.14892E+03, tol = 0.78189E+01, time = 1.52 | CG iter. 34 -- res = 0.10733E+03, tol = 0.78189E+01, time = 1.55 | CG iter. 35 -- res = 0.89059E+02, tol = 0.78189E+01, time = 1.51 | CG iter. 36 -- res = 0.82904E+02, tol = 0.78189E+01, time = 1.50 | CG iter. 37 -- res = 0.70184E+02, tol = 0.78189E+01, time = 1.52 | CG iter. 38 -- res = 0.53887E+02, tol = 0.78189E+01, time = 1.56 | CG iter. 39 -- res = 0.74387E+02, tol = 0.78189E+01, time = 1.58 | CG iter. 40 -- res = 0.54441E+02, tol = 0.78189E+01, time = 1.56 | CG iter. 41 -- res = 0.37236E+02, tol = 0.78189E+01, time = 1.56 | CG iter. 42 -- res = 0.29936E+02, tol = 0.78189E+01, time = 1.55 | CG iter. 43 -- res = 0.33315E+02, tol = 0.78189E+01, time = 1.62 | CG iter. 44 -- res = 0.32112E+02, tol = 0.78189E+01, time = 1.52 | CG iter. 45 -- res = 0.19647E+02, tol = 0.78189E+01, time = 1.56 | CG iter. 46 -- res = 0.13682E+02, tol = 0.78189E+01, time = 1.54 | CG iter. 47 -- res = 0.11492E+02, tol = 0.78189E+01, time = 1.58 | CG iter. 48 -- res = 0.94595E+01, tol = 0.78189E+01, time = 1.57 | CG iter. 49 -- res = 0.70063E+01, tol = 0.78189E+01, time = 1.56 | CG iter. 50 -- res = 0.71016E+01, tol = 0.78189E+01, time = 1.58 | Final CG iter 51 -- res = 0.71016E+01, tol = 0.78189E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 7558172.981 | Old band monopole 8846378.639 | Change to band monopole -1288205.658 | Change to component monopole 1288200.117 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 4.13 | CG iter. 1 -- res = 0.20350E+06, tol = 0.47627E+18, time = 0.37 | CG iter. 2 -- res = 0.42784E+02, tol = 0.47627E+18, time = 0.37 | CG iter. 3 -- res = 0.13174E+01, tol = 0.47627E+18, time = 0.36 | CG iter. 4 -- res = 0.12174E-02, tol = 0.47627E+18, time = 0.38 | Final CG iter 5 -- res = 0.18153E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7558140.472 | (Sampled value in CG: 7514959.737 ) | 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 = 1.536373 | New value = 1.496334 | poltype: 2 pol: 1 CPU time specind = 5.6481361E-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 = 1.550722 | New value = 1.539132 | poltype: 2 pol: 2 CPU time specind = 1.7631054E-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 = 4.25 | CG iter. 1 -- res = 0.24398E+08, tol = 0.47544E+04, time = 1.78 | CG iter. 2 -- res = 0.53997E+07, tol = 0.47544E+04, time = 1.77 | CG iter. 3 -- res = 0.83397E+06, tol = 0.47544E+04, time = 1.83 | CG iter. 4 -- res = 0.34398E+06, tol = 0.47544E+04, time = 1.84 | CG iter. 5 -- res = 0.14606E+06, tol = 0.47544E+04, time = 1.79 | CG iter. 6 -- res = 0.76167E+05, tol = 0.47544E+04, time = 1.83 | CG iter. 7 -- res = 0.41827E+05, tol = 0.47544E+04, time = 1.78 | CG iter. 8 -- res = 0.20163E+05, tol = 0.47544E+04, time = 1.81 | CG iter. 9 -- res = 0.88670E+04, tol = 0.47544E+04, time = 1.78 | CG iter. 10 -- res = 0.36081E+04, tol = 0.47544E+04, time = 1.85 | CG iter. 11 -- res = 0.16286E+04, tol = 0.47544E+04, time = 1.82 | CG iter. 12 -- res = 0.84425E+03, tol = 0.47544E+04, time = 1.74 | CG iter. 13 -- res = 0.47591E+03, tol = 0.47544E+04, time = 1.76 | CG iter. 14 -- res = 0.26708E+03, tol = 0.47544E+04, time = 1.83 | CG iter. 15 -- res = 0.13947E+03, tol = 0.47544E+04, time = 1.82 | CG iter. 16 -- res = 0.68524E+02, tol = 0.47544E+04, time = 1.83 | CG iter. 17 -- res = 0.32152E+02, tol = 0.47544E+04, time = 1.81 | CG iter. 18 -- res = 0.15694E+02, tol = 0.47544E+04, time = 1.86 | CG iter. 19 -- res = 0.84006E+01, tol = 0.47544E+04, time = 1.89 | CG iter. 20 -- res = 0.47770E+01, tol = 0.47544E+04, time = 1.88 | CG iter. 21 -- res = 0.26392E+01, tol = 0.47544E+04, time = 1.79 | CG iter. 22 -- res = 0.13839E+01, tol = 0.47544E+04, time = 1.81 | CG iter. 23 -- res = 0.68649E+00, tol = 0.47544E+04, time = 1.84 | CG iter. 24 -- res = 0.34820E+00, tol = 0.47544E+04, time = 1.82 | CG iter. 25 -- res = 0.19258E+00, tol = 0.47544E+04, time = 1.80 | CG iter. 26 -- res = 0.11104E+00, tol = 0.47544E+04, time = 1.78 | CG iter. 27 -- res = 0.63434E-01, tol = 0.47544E+04, time = 1.78 | CG iter. 28 -- res = 0.33745E-01, tol = 0.47544E+04, time = 1.83 | CG iter. 29 -- res = 0.17826E-01, tol = 0.47544E+04, time = 1.85 | CG iter. 30 -- res = 0.93157E-02, tol = 0.47544E+04, time = 1.80 | CG iter. 31 -- res = 0.49457E-02, tol = 0.47544E+04, time = 1.78 | CG iter. 32 -- res = 0.27258E-02, tol = 0.47544E+04, time = 1.82 | CG iter. 33 -- res = 0.15493E-02, tol = 0.47544E+04, time = 1.82 | CG iter. 34 -- res = 0.84739E-03, tol = 0.47544E+04, time = 1.85 | CG iter. 35 -- res = 0.43463E-03, tol = 0.47544E+04, time = 1.78 | Final CG iter 36 -- res = 0.43463E-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) -0.952 2.740 | New value -2.406 | Old value -0.952 | Difference -1.455 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 4.23 | CG iter. 1 -- res = 0.11196E+06, tol = 0.47627E+18, time = 0.35 | CG iter. 2 -- res = 0.37933E+02, tol = 0.47627E+18, time = 0.41 | CG iter. 3 -- res = 0.11690E+01, tol = 0.47627E+18, time = 0.33 | CG iter. 4 -- res = 0.87654E-04, tol = 0.47627E+18, time = 0.42 | Final CG iter 5 -- res = 0.96792E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7558140.472 | (Sampled value in CG: 7514635.587 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.647935 | New value = -3.683955 | poltype: 1 pol: 1 CPU time specind = 2.7339458E-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 = 4.23 | CG iter. 1 -- res = 0.29079E+07, tol = 0.17903E+01, time = 0.66 | CG iter. 2 -- res = 0.12007E+06, tol = 0.17903E+01, time = 0.65 | CG iter. 3 -- res = 0.97593E+05, tol = 0.17903E+01, time = 0.63 | CG iter. 4 -- res = 0.28935E+05, tol = 0.17903E+01, time = 0.71 | CG iter. 5 -- res = 0.57288E+04, tol = 0.17903E+01, time = 0.67 | CG iter. 6 -- res = 0.28082E+04, tol = 0.17903E+01, time = 0.67 | CG iter. 7 -- res = 0.98379E+03, tol = 0.17903E+01, time = 0.62 | CG iter. 8 -- res = 0.49865E+03, tol = 0.17903E+01, time = 0.62 | CG iter. 9 -- res = 0.11765E+03, tol = 0.17903E+01, time = 0.62 | CG iter. 10 -- res = 0.36716E+02, tol = 0.17903E+01, time = 0.65 | CG iter. 11 -- res = 0.15945E+02, tol = 0.17903E+01, time = 0.65 | CG iter. 12 -- res = 0.68848E+01, tol = 0.17903E+01, time = 0.64 | CG iter. 13 -- res = 0.26525E+01, tol = 0.17903E+01, time = 0.64 | CG iter. 14 -- res = 0.65080E+00, tol = 0.17903E+01, time = 0.69 | CG iter. 15 -- res = 0.22521E+00, tol = 0.17903E+01, time = 0.61 | CG iter. 16 -- res = 0.95676E-01, tol = 0.17903E+01, time = 0.66 | CG iter. 17 -- res = 0.31552E-01, tol = 0.17903E+01, time = 0.63 | CG iter. 18 -- res = 0.11800E-01, tol = 0.17903E+01, time = 0.63 | CG iter. 19 -- res = 0.49991E-02, tol = 0.17903E+01, time = 0.64 | CG iter. 20 -- res = 0.18011E-02, tol = 0.17903E+01, time = 0.63 | CG iter. 21 -- res = 0.62453E-03, tol = 0.17903E+01, time = 0.65 | CG iter. 22 -- res = 0.23425E-03, tol = 0.17903E+01, time = 0.65 | CG iter. 23 -- res = 0.73811E-04, tol = 0.17903E+01, time = 0.63 | CG iter. 24 -- res = 0.24434E-04, tol = 0.17903E+01, time = 0.65 | CG iter. 25 -- res = 0.67588E-05, tol = 0.17903E+01, time = 0.66 | CG iter. 26 -- res = 0.21274E-05, tol = 0.17903E+01, time = 0.65 | CG iter. 27 -- res = 0.82114E-06, tol = 0.17903E+01, time = 0.66 | CG iter. 28 -- res = 0.27948E-06, tol = 0.17903E+01, time = 0.69 | CG iter. 29 -- res = 0.93952E-07, tol = 0.17903E+01, time = 0.67 | CG iter. 30 -- res = 0.29260E-07, tol = 0.17903E+01, time = 0.61 | CG iter. 31 -- res = 0.95292E-08, tol = 0.17903E+01, time = 0.65 | CG iter. 32 -- res = 0.60481E-08, tol = 0.17903E+01, time = 0.69 | CG iter. 33 -- res = 0.29707E-08, tol = 0.17903E+01, time = 0.67 | CG iter. 34 -- res = 0.83147E-09, tol = 0.17903E+01, time = 0.69 | CG iter. 35 -- res = 0.24599E-09, tol = 0.17903E+01, time = 0.66 | CG iter. 36 -- res = 0.84427E-10, tol = 0.17903E+01, time = 0.66 | CG iter. 37 -- res = 0.64151E-10, tol = 0.17903E+01, time = 0.65 | CG iter. 38 -- res = 0.23190E-10, tol = 0.17903E+01, time = 0.64 | CG iter. 39 -- res = 0.56482E-11, tol = 0.17903E+01, time = 0.65 | CG iter. 40 -- res = 0.15451E-11, tol = 0.17903E+01, time = 0.63 | CG iter. 41 -- res = 0.47550E-12, tol = 0.17903E+01, time = 0.66 | CG iter. 42 -- res = 0.15926E-12, tol = 0.17903E+01, time = 0.65 | CG iter. 43 -- res = 0.51613E-13, tol = 0.17903E+01, time = 0.68 | CG iter. 44 -- res = 0.17148E-13, tol = 0.17903E+01, time = 0.65 | CG iter. 45 -- res = 0.59676E-14, tol = 0.17903E+01, time = 0.67 | CG iter. 46 -- res = 0.19636E-14, tol = 0.17903E+01, time = 0.69 | CG iter. 47 -- res = 0.56662E-15, tol = 0.17903E+01, time = 0.68 | CG iter. 48 -- res = 0.17322E-15, tol = 0.17903E+01, time = 0.65 | CG iter. 49 -- res = 0.50699E-16, tol = 0.17903E+01, time = 0.65 | CG iter. 50 -- res = 0.15770E-16, tol = 0.17903E+01, time = 0.64 | Final CG iter 51 -- res = 0.15770E-16, tol = 0.17903E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -4.988 3.083 | New value 7.613 | Old value -4.988 | Difference 12.602 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 4.21 | CG iter. 1 -- res = 0.10384E+06, tol = 0.47627E+18, time = 0.38 | CG iter. 2 -- res = 0.32642E+02, tol = 0.47627E+18, time = 0.39 | CG iter. 3 -- res = 0.94936E+00, tol = 0.47627E+18, time = 0.44 | CG iter. 4 -- res = 0.84120E-04, tol = 0.47627E+18, time = 0.43 | Final CG iter 5 -- res = 0.24723E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7558140.472 | (Sampled value in CG: 7525833.001 ) | CPU time specind = 279.2129 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 4.25 | CG iter. 1 -- res = 0.69667E+08, tol = 0.51514E+04, time = 3.14 | CG iter. 2 -- res = 0.33331E+08, tol = 0.51514E+04, time = 3.14 | CG iter. 3 -- res = 0.57231E+07, tol = 0.51514E+04, time = 3.21 | CG iter. 4 -- res = 0.28888E+07, tol = 0.51514E+04, time = 3.12 | CG iter. 5 -- res = 0.12787E+07, tol = 0.51514E+04, time = 3.12 | CG iter. 6 -- res = 0.71020E+06, tol = 0.51514E+04, time = 3.14 | CG iter. 7 -- res = 0.39496E+06, tol = 0.51514E+04, time = 3.18 | CG iter. 8 -- res = 0.20448E+06, tol = 0.51514E+04, time = 3.22 | CG iter. 9 -- res = 0.10381E+06, tol = 0.51514E+04, time = 3.12 | CG iter. 10 -- res = 0.49045E+05, tol = 0.51514E+04, time = 3.18 | CG iter. 11 -- res = 0.28387E+05, tol = 0.51514E+04, time = 3.27 | CG iter. 12 -- res = 0.19698E+05, tol = 0.51514E+04, time = 3.19 | CG iter. 13 -- res = 0.15853E+05, tol = 0.51514E+04, time = 3.19 | CG iter. 14 -- res = 0.14029E+05, tol = 0.51514E+04, time = 3.10 | CG iter. 15 -- res = 0.11957E+05, tol = 0.51514E+04, time = 3.13 | CG iter. 16 -- res = 0.11053E+05, tol = 0.51514E+04, time = 3.20 | CG iter. 17 -- res = 0.10688E+05, tol = 0.51514E+04, time = 3.18 | CG iter. 18 -- res = 0.11011E+05, tol = 0.51514E+04, time = 3.19 | CG iter. 19 -- res = 0.11108E+05, tol = 0.51514E+04, time = 3.28 | CG iter. 20 -- res = 0.99550E+04, tol = 0.51514E+04, time = 3.11 | CG iter. 21 -- res = 0.77751E+04, tol = 0.51514E+04, time = 3.17 | CG iter. 22 -- res = 0.54989E+04, tol = 0.51514E+04, time = 3.24 | CG iter. 23 -- res = 0.39851E+04, tol = 0.51514E+04, time = 3.12 | CG iter. 24 -- res = 0.31624E+04, tol = 0.51514E+04, time = 3.28 | CG iter. 25 -- res = 0.26972E+04, tol = 0.51514E+04, time = 3.17 | CG iter. 26 -- res = 0.23342E+04, tol = 0.51514E+04, time = 3.20 | CG iter. 27 -- res = 0.20001E+04, tol = 0.51514E+04, time = 3.26 | CG iter. 28 -- res = 0.17347E+04, tol = 0.51514E+04, time = 3.17 | CG iter. 29 -- res = 0.15920E+04, tol = 0.51514E+04, time = 3.17 | CG iter. 30 -- res = 0.15342E+04, tol = 0.51514E+04, time = 3.16 | CG iter. 31 -- res = 0.14599E+04, tol = 0.51514E+04, time = 3.12 | CG iter. 32 -- res = 0.13094E+04, tol = 0.51514E+04, time = 3.21 | CG iter. 33 -- res = 0.10872E+04, tol = 0.51514E+04, time = 3.20 | CG iter. 34 -- res = 0.89002E+03, tol = 0.51514E+04, time = 3.17 | CG iter. 35 -- res = 0.77560E+03, tol = 0.51514E+04, time = 3.11 | CG iter. 36 -- res = 0.73940E+03, tol = 0.51514E+04, time = 3.20 | CG iter. 37 -- res = 0.74180E+03, tol = 0.51514E+04, time = 3.09 | CG iter. 38 -- res = 0.72459E+03, tol = 0.51514E+04, time = 3.17 | CG iter. 39 -- res = 0.67947E+03, tol = 0.51514E+04, time = 3.12 | CG iter. 40 -- res = 0.63886E+03, tol = 0.51514E+04, time = 3.20 | CG iter. 41 -- res = 0.63036E+03, tol = 0.51514E+04, time = 3.20 | CG iter. 42 -- res = 0.65085E+03, tol = 0.51514E+04, time = 3.17 | CG iter. 43 -- res = 0.66048E+03, tol = 0.51514E+04, time = 3.12 | CG iter. 44 -- res = 0.62735E+03, tol = 0.51514E+04, time = 3.19 | CG iter. 45 -- res = 0.56935E+03, tol = 0.51514E+04, time = 3.17 | CG iter. 46 -- res = 0.53454E+03, tol = 0.51514E+04, time = 3.17 | CG iter. 47 -- res = 0.54552E+03, tol = 0.51514E+04, time = 3.24 | CG iter. 48 -- res = 0.58290E+03, tol = 0.51514E+04, time = 3.31 | CG iter. 49 -- res = 0.60202E+03, tol = 0.51514E+04, time = 3.25 | CG iter. 50 -- res = 0.58192E+03, tol = 0.51514E+04, time = 3.28 | CG iter. 51 -- res = 0.55149E+03, tol = 0.51514E+04, time = 3.14 | CG iter. 52 -- res = 0.54718E+03, tol = 0.51514E+04, time = 3.20 | CG iter. 53 -- res = 0.57141E+03, tol = 0.51514E+04, time = 3.19 | CG iter. 54 -- res = 0.59481E+03, tol = 0.51514E+04, time = 3.11 | CG iter. 55 -- res = 0.57318E+03, tol = 0.51514E+04, time = 3.20 | CG iter. 56 -- res = 0.52479E+03, tol = 0.51514E+04, time = 3.18 | CG iter. 57 -- res = 0.49537E+03, tol = 0.51514E+04, time = 3.22 | CG iter. 58 -- res = 0.50752E+03, tol = 0.51514E+04, time = 3.19 | CG iter. 59 -- res = 0.53574E+03, tol = 0.51514E+04, time = 3.21 | CG iter. 60 -- res = 0.53629E+03, tol = 0.51514E+04, time = 3.17 | Final CG iter 61 -- res = 0.53629E+03, tol = 0.51514E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 2.693 ( -232.348 -2234.634 2517.353 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 7924004.547 | Old band monopole 7558172.981 | Change to band monopole 365831.566 | Change to component monopole -365829.992 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -2.384 2.744 | New value 1.167 | Old value -2.384 | Difference 3.550 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -4.083 ( 8.851 12.001 -11.946 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 24.232 2.304 | New value -1.999 | Old value 24.232 | Difference -26.231 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 4.23 | CG iter. 1 -- res = 0.78969E+06, tol = 0.47627E+18, time = 0.35 | CG iter. 2 -- res = 0.86670E+02, tol = 0.47627E+18, time = 0.36 | CG iter. 3 -- res = 0.22266E+01, tol = 0.47627E+18, time = 0.39 | CG iter. 4 -- res = 0.15766E-01, tol = 0.47627E+18, time = 0.39 | Final CG iter 5 -- res = 0.59182E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7923970.464 | (Sampled value in CG: 7855458.802 ) | Chain = 1 -- chisq = 0.61539457E+09 | Chain = 1 -- wall time = 4758.268 sec --------------------------------------------------------------------- | Chain = 1 -- Iteration = 89 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18136046557638 | --> Sampling calibration, mode = relcal | relcal = -7.4847288E-02 -5.8436491E-02 9.1746964E-02 4.1536819E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 4.2515152E-04 4.8731389E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.0903E-05 | 2: delta_r/delta_0: 8.3767E-07 | 3: delta_s/delta_0: 2.2684E-07 | 4: delta_r/delta_0: 1.3676E-08 | 5: delta_s/delta_0: 1.0545E-08 | 6: delta_r/delta_0: 2.7433E-09 | 7: delta_s/delta_0: 9.2436E-10 | 8: delta_r/delta_0: 3.2104E-10 | 9: delta_s/delta_0: 1.4497E-10 | 10: delta_r/delta_0: 6.7607E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 8.668581733493100E-004 2.740272715928350E-005 | BP delta = 7.6994435E-03 1.8316451E-02 29861774.8013890 | BP delta = 6.6430420E-03 1.7260049E-02 29861774.8195714 | 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 = 1.02503996 | --> Sampling calibration, mode = relcal | relcal = -0.1065631 -9.5466837E-02 0.1447469 5.7283048E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.6382081E-03 1.3669056E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.6414E-04 | 2: delta_r/delta_0: 5.7700E-06 | 3: delta_s/delta_0: 2.5565E-06 | 4: delta_r/delta_0: 2.4856E-07 | 5: delta_s/delta_0: 4.9252E-08 | 6: delta_r/delta_0: 4.9054E-09 | 7: delta_s/delta_0: 8.5348E-09 | 8: delta_r/delta_0: 3.6576E-09 | 9: delta_s/delta_0: 3.8324E-09 | 10: delta_r/delta_0: 2.2364E-09 | 11: delta_s/delta_0: 1.7082E-10 | 12: delta_r/delta_0: 1.3077E-10 | 13: delta_s/delta_0: 4.0234E-10 | 14: delta_r/delta_0: 3.3280E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -8.113158593567017E-003 2.813446431328729E-005 | BP delta = -0.1754494 -0.1708508 34764631.6646497 | BP delta = -0.1732825 -0.1686839 34764631.9047301 | 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 = 0.81120355 | --> Sampling calibration, mode = relcal | relcal = 0.2951382 0.2245119 -0.2833878 -0.2362624 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -2.3075682E-04 5.4688458E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 9.7005E-04 | 2: delta_r/delta_0: 2.2137E-05 | 3: delta_s/delta_0: 9.9364E-06 | 4: delta_r/delta_0: 1.1562E-06 | 5: delta_s/delta_0: 2.7728E-07 | 6: delta_r/delta_0: 5.8520E-08 | 7: delta_s/delta_0: 4.8876E-08 | 8: delta_r/delta_0: 3.1529E-08 | 9: delta_s/delta_0: 8.5489E-08 | 10: delta_r/delta_0: 2.1003E-09 | 11: delta_s/delta_0: 9.7812E-10 | 12: delta_r/delta_0: 5.2197E-10 | 13: delta_s/delta_0: 2.7927E-10 | 14: delta_r/delta_0: 1.9743E-10 | 15: delta_s/delta_0: 2.2718E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.700759253026231E-002 4.026845049886821E-005 | BP delta = -9.2815794E-02 -0.1244241 43106400.8825493 | BP delta = -9.2557602E-02 -0.1241659 43106400.8831765 | 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 = 0.95791965 | --> Sampling calibration, mode = relcal | relcal = 0.1063646 0.1394179 -0.1102068 -0.1355756 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0098264E-02 1.3726009E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.3625E-03 | 2: delta_r/delta_0: 3.1774E-05 | 3: delta_s/delta_0: 6.3817E-05 | 4: delta_r/delta_0: 1.5446E-06 | 5: delta_s/delta_0: 3.9666E-05 | 6: delta_r/delta_0: 4.1660E-06 | 7: delta_s/delta_0: 5.2315E-08 | 8: delta_r/delta_0: 3.2902E-08 | 9: delta_s/delta_0: 2.9804E-07 | 10: delta_r/delta_0: 3.2795E-09 | 11: delta_s/delta_0: 1.3306E-09 | 12: delta_r/delta_0: 6.9462E-10 | 13: delta_s/delta_0: 2.0135E-08 | 14: delta_r/delta_0: 9.5848E-10 | 15: delta_s/delta_0: 3.1379E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.720697274571381E-002 3.702011917145412E-005 | BP delta = 0.2479156 0.2846407 43047760.5253959 | BP delta = 0.2620490 0.2987740 43047761.0888409 | 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 = 0.52091375 | --> Sampling calibration, mode = relcal | relcal = -5.0917193E-02 -3.7733356E-03 2.7265705E-02 2.7424823E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.2868864E-04 1.4486300E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 7.6657E-05 | 2: delta_r/delta_0: 3.9363E-06 | 3: delta_s/delta_0: 2.1127E-06 | 4: delta_r/delta_0: 2.2771E-07 | 5: delta_s/delta_0: 5.6442E-08 | 6: delta_r/delta_0: 2.6301E-08 | 7: delta_s/delta_0: 1.3140E-07 | 8: delta_r/delta_0: 3.8228E-08 | 9: delta_s/delta_0: 3.2744E-09 | 10: delta_r/delta_0: 2.2431E-09 | 11: delta_s/delta_0: 7.0552E-09 | 12: delta_r/delta_0: 3.1404E-10 | 13: delta_s/delta_0: 3.9431E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.052874368124841E-002 5.490272306205227E-005 | BP delta = -0.1279371 -7.8289181E-02 61506615.3096151 | BP delta = -0.1109829 -6.1334983E-02 61506615.3361060 | 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 = 0.42092386 | --> Sampling calibration, mode = relcal | relcal = 4.5517325E-02 3.9599609E-02 -2.8234422E-02 -5.6882516E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.3963516E-03 4.9806610E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.2615E-05 | 2: delta_r/delta_0: 3.6005E-06 | 3: delta_s/delta_0: 2.1463E-06 | 4: delta_r/delta_0: 3.1411E-07 | 5: delta_s/delta_0: 6.1424E-08 | 6: delta_r/delta_0: 3.3454E-08 | 7: delta_s/delta_0: 1.1217E-07 | 8: delta_r/delta_0: 6.0818E-09 | 9: delta_s/delta_0: 2.3155E-09 | 10: delta_r/delta_0: 1.2422E-09 | 11: delta_s/delta_0: 9.5374E-10 | 12: delta_r/delta_0: 7.0644E-10 | 13: delta_s/delta_0: 1.0421E-07 | 14: delta_r/delta_0: 2.5518E-08 | 15: delta_s/delta_0: 3.5041E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.326530857978544E-002 5.003460228339222E-005 | BP delta = -0.1631765 -0.2040442 61337554.8117055 | BP delta = -0.1620376 -0.2029052 61337554.8014911 | 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 = 0.28117780 | --> Sampling calibration, mode = relcal | relcal = 2.4159865E-02 4.5023952E-02 -2.3203535E-02 -4.5980278E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0089654E-02 2.7659612E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.0933E-04 | 2: delta_r/delta_0: 8.9894E-06 | 3: delta_s/delta_0: 1.5332E-06 | 4: delta_r/delta_0: 2.1662E-07 | 5: delta_s/delta_0: 7.9318E-08 | 6: delta_r/delta_0: 1.6838E-08 | 7: delta_s/delta_0: 7.0395E-09 | 8: delta_r/delta_0: 4.2101E-09 | 9: delta_s/delta_0: 2.4184E-08 | 10: delta_r/delta_0: 3.8553E-09 | 11: delta_s/delta_0: 1.1322E-09 | 12: delta_r/delta_0: 2.4294E-10 | 13: delta_s/delta_0: 3.6383E-10 | 14: delta_r/delta_0: 9.2627E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -8.537780764915891E-003 7.855973455328462E-005 | BP delta = 6.2718749E-02 -0.1298416 94967199.4654841 | BP delta = 7.2038703E-02 -0.1205217 94967199.5205263 | 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 = 0.29347470 | --> Sampling calibration, mode = relcal | relcal = 4.9271196E-04 1.0301441E-02 -3.7365484E-03 -7.0576048E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.6634457E-02 1.5778622E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.3169E-04 | 2: delta_r/delta_0: 1.1254E-05 | 3: delta_s/delta_0: 1.8937E-06 | 4: delta_r/delta_0: 2.5512E-07 | 5: delta_s/delta_0: 1.0176E-07 | 6: delta_r/delta_0: 2.1339E-08 | 7: delta_s/delta_0: 9.5752E-09 | 8: delta_r/delta_0: 6.3890E-09 | 9: delta_s/delta_0: 8.6878E-09 | 10: delta_r/delta_0: 4.8523E-09 | 11: delta_s/delta_0: 8.3644E-08 | 12: delta_r/delta_0: 1.4014E-08 | 13: delta_s/delta_0: 3.5870E-10 | 14: delta_r/delta_0: 1.9006E-10 | 15: delta_s/delta_0: 7.7488E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.792528290006059E-003 8.319139921541319E-005 | BP delta = -0.7221442 -0.6412635 93511068.8988246 | BP delta = -0.7440189 -0.6631383 93511068.8432106 | 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 = 0.26464931 | --> Sampling calibration, mode = relcal | relcal = -5.6181177E-03 1.5002294E-02 -2.4036814E-03 -6.9804946E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -5.3009670E-05 4.7613825E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4235E-04 | 2: delta_r/delta_0: 1.2238E-05 | 3: delta_s/delta_0: 2.0850E-06 | 4: delta_r/delta_0: 2.2107E-07 | 5: delta_s/delta_0: 8.5637E-08 | 6: delta_r/delta_0: 1.7224E-08 | 7: delta_s/delta_0: 7.1910E-09 | 8: delta_r/delta_0: 4.4460E-09 | 9: delta_s/delta_0: 3.5544E-09 | 10: delta_r/delta_0: 1.9215E-09 | 11: delta_s/delta_0: 3.6869E-05 | 12: delta_r/delta_0: 4.2755E-08 | 13: delta_s/delta_0: 1.3391E-09 | 14: delta_r/delta_0: 8.6406E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -7.607718157176003E-003 9.168122771957488E-005 | BP delta = 0.1670892 0.2691784 94707936.9794355 | BP delta = 0.1464542 0.2485434 94707936.9517706 | 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 = 0.25621834 | --> Sampling calibration, mode = relcal | relcal = -3.1774350E-02 -2.5920315E-02 3.6916483E-02 2.0778183E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.2031255E-02 1.6918248E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4432E-04 | 2: delta_r/delta_0: 1.1932E-05 | 3: delta_s/delta_0: 1.9428E-06 | 4: delta_r/delta_0: 3.5507E-07 | 5: delta_s/delta_0: 1.0624E-07 | 6: delta_r/delta_0: 2.5532E-08 | 7: delta_s/delta_0: 1.1405E-08 | 8: delta_r/delta_0: 7.0802E-09 | 9: delta_s/delta_0: 3.5956E-08 | 10: delta_r/delta_0: 5.7526E-09 | 11: delta_s/delta_0: 1.2190E-08 | 12: delta_r/delta_0: 6.4993E-09 | 13: delta_s/delta_0: 3.4992E-10 | 14: delta_r/delta_0: 1.6995E-10 | 15: delta_s/delta_0: 4.1727E-10 | 16: delta_r/delta_0: 2.8495E-10 | 17: delta_s/delta_0: 7.1611E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.390361306913118E-003 8.686330744879652E-005 | BP delta = -0.5761578 -0.6418306 93054815.3225335 | BP delta = -0.5695854 -0.6352583 93054815.3399953 | 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 = -3.201773 | New value = -3.179453 | poltype: 2 pol: 1 CPU time specind = 2.5930405E-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 = -3.116473 | New value = -3.172865 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.203390 | New value = -3.133105 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.180678 | New value = -3.231793 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.133666 | New value = -3.153227 | poltype: 2 pol: 2 CPU time specind = 1.8959045E-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 = 4.12 | CG iter. 1 -- res = 0.13535E+08, tol = 0.84296E+01, time = 1.54 | CG iter. 2 -- res = 0.43538E+05, tol = 0.84296E+01, time = 1.58 | CG iter. 3 -- res = 0.24565E+05, tol = 0.84296E+01, time = 1.59 | CG iter. 4 -- res = 0.93074E+04, tol = 0.84296E+01, time = 1.56 | CG iter. 5 -- res = 0.59576E+04, tol = 0.84296E+01, time = 1.54 | CG iter. 6 -- res = 0.41907E+04, tol = 0.84296E+01, time = 1.56 | CG iter. 7 -- res = 0.23783E+04, tol = 0.84296E+01, time = 1.54 | CG iter. 8 -- res = 0.15289E+04, tol = 0.84296E+01, time = 1.55 | CG iter. 9 -- res = 0.12914E+04, tol = 0.84296E+01, time = 1.46 | CG iter. 10 -- res = 0.17745E+04, tol = 0.84296E+01, time = 1.55 | CG iter. 11 -- res = 0.14332E+04, tol = 0.84296E+01, time = 1.53 | CG iter. 12 -- res = 0.10287E+04, tol = 0.84296E+01, time = 1.55 | CG iter. 13 -- res = 0.82513E+03, tol = 0.84296E+01, time = 1.58 | CG iter. 14 -- res = 0.67891E+03, tol = 0.84296E+01, time = 1.51 | CG iter. 15 -- res = 0.52384E+03, tol = 0.84296E+01, time = 1.50 | CG iter. 16 -- res = 0.34462E+03, tol = 0.84296E+01, time = 1.55 | CG iter. 17 -- res = 0.24656E+03, tol = 0.84296E+01, time = 1.55 | CG iter. 18 -- res = 0.20267E+03, tol = 0.84296E+01, time = 1.57 | CG iter. 19 -- res = 0.16991E+03, tol = 0.84296E+01, time = 1.53 | CG iter. 20 -- res = 0.12331E+03, tol = 0.84296E+01, time = 1.55 | CG iter. 21 -- res = 0.93230E+02, tol = 0.84296E+01, time = 1.53 | CG iter. 22 -- res = 0.83321E+02, tol = 0.84296E+01, time = 1.52 | CG iter. 23 -- res = 0.68990E+02, tol = 0.84296E+01, time = 1.51 | CG iter. 24 -- res = 0.59653E+02, tol = 0.84296E+01, time = 1.55 | CG iter. 25 -- res = 0.53435E+02, tol = 0.84296E+01, time = 1.54 | CG iter. 26 -- res = 0.53052E+02, tol = 0.84296E+01, time = 1.55 | CG iter. 27 -- res = 0.46157E+02, tol = 0.84296E+01, time = 1.52 | CG iter. 28 -- res = 0.33162E+02, tol = 0.84296E+01, time = 1.50 | CG iter. 29 -- res = 0.29400E+02, tol = 0.84296E+01, time = 1.53 | CG iter. 30 -- res = 0.26418E+02, tol = 0.84296E+01, time = 1.54 | CG iter. 31 -- res = 0.22326E+02, tol = 0.84296E+01, time = 1.51 | CG iter. 32 -- res = 0.19306E+02, tol = 0.84296E+01, time = 1.55 | CG iter. 33 -- res = 0.17477E+02, tol = 0.84296E+01, time = 1.57 | CG iter. 34 -- res = 0.14856E+02, tol = 0.84296E+01, time = 1.59 | CG iter. 35 -- res = 0.10827E+02, tol = 0.84296E+01, time = 1.52 | CG iter. 36 -- res = 0.87908E+01, tol = 0.84296E+01, time = 1.52 | CG iter. 37 -- res = 0.75147E+01, tol = 0.84296E+01, time = 1.56 | CG iter. 38 -- res = 0.59966E+01, tol = 0.84296E+01, time = 1.55 | CG iter. 39 -- res = 0.71420E+01, tol = 0.84296E+01, time = 1.53 | CG iter. 40 -- res = 0.58372E+01, tol = 0.84296E+01, time = 1.55 | CG iter. 41 -- res = 0.40445E+01, tol = 0.84296E+01, time = 1.51 | CG iter. 42 -- res = 0.31524E+01, tol = 0.84296E+01, time = 1.54 | CG iter. 43 -- res = 0.23681E+01, tol = 0.84296E+01, time = 1.55 | CG iter. 44 -- res = 0.25094E+01, tol = 0.84296E+01, time = 1.52 | CG iter. 45 -- res = 0.24002E+01, tol = 0.84296E+01, time = 1.47 | CG iter. 46 -- res = 0.13591E+01, tol = 0.84296E+01, time = 1.46 | CG iter. 47 -- res = 0.10280E+01, tol = 0.84296E+01, time = 1.47 | CG iter. 48 -- res = 0.81423E+00, tol = 0.84296E+01, time = 1.50 | CG iter. 49 -- res = 0.64180E+00, tol = 0.84296E+01, time = 1.53 | CG iter. 50 -- res = 0.54269E+00, tol = 0.84296E+01, time = 1.48 | Final CG iter 51 -- res = 0.54269E+00, tol = 0.84296E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 7529675.390 | Old band monopole 7924004.547 | Change to band monopole -394329.157 | Change to component monopole 394327.461 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 4.11 | CG iter. 1 -- res = 0.17945E+05, tol = 0.47627E+18, time = 0.40 | CG iter. 2 -- res = 0.15674E+02, tol = 0.47627E+18, time = 0.38 | CG iter. 3 -- res = 0.10318E+00, tol = 0.47627E+18, time = 0.38 | CG iter. 4 -- res = 0.11038E-03, tol = 0.47627E+18, time = 0.38 | Final CG iter 5 -- res = 0.86541E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7529643.003 | (Sampled value in CG: 7538225.663 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.496334 | New value = 1.586503 | poltype: 2 pol: 1 CPU time specind = 5.7890415E-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 = 1.539132 | New value = 1.530818 | poltype: 2 pol: 2 CPU time specind = 2.0399094E-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 = 4.12 | CG iter. 1 -- res = 0.25929E+08, tol = 0.47784E+04, time = 1.78 | CG iter. 2 -- res = 0.54078E+07, tol = 0.47784E+04, time = 1.79 | CG iter. 3 -- res = 0.83956E+06, tol = 0.47784E+04, time = 1.83 | CG iter. 4 -- res = 0.34755E+06, tol = 0.47784E+04, time = 1.76 | CG iter. 5 -- res = 0.15375E+06, tol = 0.47784E+04, time = 1.76 | CG iter. 6 -- res = 0.80681E+05, tol = 0.47784E+04, time = 1.79 | CG iter. 7 -- res = 0.44076E+05, tol = 0.47784E+04, time = 1.84 | CG iter. 8 -- res = 0.21483E+05, tol = 0.47784E+04, time = 1.76 | CG iter. 9 -- res = 0.94250E+04, tol = 0.47784E+04, time = 1.89 | CG iter. 10 -- res = 0.38263E+04, tol = 0.47784E+04, time = 1.77 | CG iter. 11 -- res = 0.17084E+04, tol = 0.47784E+04, time = 1.82 | CG iter. 12 -- res = 0.88800E+03, tol = 0.47784E+04, time = 1.77 | CG iter. 13 -- res = 0.50291E+03, tol = 0.47784E+04, time = 1.77 | CG iter. 14 -- res = 0.28515E+03, tol = 0.47784E+04, time = 1.78 | CG iter. 15 -- res = 0.14586E+03, tol = 0.47784E+04, time = 1.77 | CG iter. 16 -- res = 0.69179E+02, tol = 0.47784E+04, time = 1.82 | CG iter. 17 -- res = 0.32233E+02, tol = 0.47784E+04, time = 1.71 | CG iter. 18 -- res = 0.16152E+02, tol = 0.47784E+04, time = 1.74 | CG iter. 19 -- res = 0.88537E+01, tol = 0.47784E+04, time = 1.77 | CG iter. 20 -- res = 0.49842E+01, tol = 0.47784E+04, time = 1.78 | CG iter. 21 -- res = 0.27703E+01, tol = 0.47784E+04, time = 1.78 | CG iter. 22 -- res = 0.14537E+01, tol = 0.47784E+04, time = 1.78 | CG iter. 23 -- res = 0.73272E+00, tol = 0.47784E+04, time = 1.79 | CG iter. 24 -- res = 0.37857E+00, tol = 0.47784E+04, time = 1.75 | CG iter. 25 -- res = 0.20531E+00, tol = 0.47784E+04, time = 1.72 | CG iter. 26 -- res = 0.11871E+00, tol = 0.47784E+04, time = 1.74 | CG iter. 27 -- res = 0.66594E-01, tol = 0.47784E+04, time = 1.75 | CG iter. 28 -- res = 0.35981E-01, tol = 0.47784E+04, time = 1.78 | CG iter. 29 -- res = 0.19433E-01, tol = 0.47784E+04, time = 1.72 | CG iter. 30 -- res = 0.10412E-01, tol = 0.47784E+04, time = 1.80 | CG iter. 31 -- res = 0.56954E-02, tol = 0.47784E+04, time = 1.78 | CG iter. 32 -- res = 0.31950E-02, tol = 0.47784E+04, time = 1.81 | CG iter. 33 -- res = 0.17669E-02, tol = 0.47784E+04, time = 1.77 | CG iter. 34 -- res = 0.97537E-03, tol = 0.47784E+04, time = 1.81 | CG iter. 35 -- res = 0.51150E-03, tol = 0.47784E+04, time = 1.79 | Final CG iter 36 -- res = 0.51150E-03, tol = 0.47784E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 1.207 2.764 | New value 1.800 | Old value 1.207 | Difference 0.594 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 4.10 | CG iter. 1 -- res = 0.22263E+05, tol = 0.47627E+18, time = 0.40 | CG iter. 2 -- res = 0.15000E+02, tol = 0.47627E+18, time = 0.41 | CG iter. 3 -- res = 0.17353E+00, tol = 0.47627E+18, time = 0.41 | CG iter. 4 -- res = 0.27909E-03, tol = 0.47627E+18, time = 0.39 | Final CG iter 5 -- res = 0.59672E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7529643.003 | (Sampled value in CG: 7537902.314 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.683955 | New value = -3.597262 | poltype: 1 pol: 1 CPU time specind = 2.9199123E-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 = 4.11 | CG iter. 1 -- res = 0.20380E+07, tol = 0.14156E+01, time = 0.69 | CG iter. 2 -- res = 0.30706E+05, tol = 0.14156E+01, time = 0.73 | CG iter. 3 -- res = 0.17976E+05, tol = 0.14156E+01, time = 0.64 | CG iter. 4 -- res = 0.68657E+04, tol = 0.14156E+01, time = 0.66 | CG iter. 5 -- res = 0.28027E+04, tol = 0.14156E+01, time = 0.66 | CG iter. 6 -- res = 0.96284E+03, tol = 0.14156E+01, time = 0.68 | CG iter. 7 -- res = 0.35049E+03, tol = 0.14156E+01, time = 0.69 | CG iter. 8 -- res = 0.12059E+03, tol = 0.14156E+01, time = 0.63 | CG iter. 9 -- res = 0.76353E+02, tol = 0.14156E+01, time = 0.68 | CG iter. 10 -- res = 0.21270E+02, tol = 0.14156E+01, time = 0.65 | CG iter. 11 -- res = 0.94320E+01, tol = 0.14156E+01, time = 0.68 | CG iter. 12 -- res = 0.33416E+01, tol = 0.14156E+01, time = 0.65 | CG iter. 13 -- res = 0.11167E+01, tol = 0.14156E+01, time = 0.59 | CG iter. 14 -- res = 0.49261E+00, tol = 0.14156E+01, time = 0.61 | CG iter. 15 -- res = 0.15453E+00, tol = 0.14156E+01, time = 0.60 | CG iter. 16 -- res = 0.49631E-01, tol = 0.14156E+01, time = 0.61 | CG iter. 17 -- res = 0.18172E-01, tol = 0.14156E+01, time = 0.63 | CG iter. 18 -- res = 0.75925E-02, tol = 0.14156E+01, time = 0.63 | CG iter. 19 -- res = 0.26006E-02, tol = 0.14156E+01, time = 0.65 | CG iter. 20 -- res = 0.11717E-02, tol = 0.14156E+01, time = 0.60 | CG iter. 21 -- res = 0.34916E-03, tol = 0.14156E+01, time = 0.60 | CG iter. 22 -- res = 0.11425E-03, tol = 0.14156E+01, time = 0.66 | CG iter. 23 -- res = 0.39616E-04, tol = 0.14156E+01, time = 0.65 | CG iter. 24 -- res = 0.14400E-04, tol = 0.14156E+01, time = 0.67 | CG iter. 25 -- res = 0.40512E-05, tol = 0.14156E+01, time = 0.63 | CG iter. 26 -- res = 0.12454E-05, tol = 0.14156E+01, time = 0.67 | CG iter. 27 -- res = 0.45538E-06, tol = 0.14156E+01, time = 0.63 | CG iter. 28 -- res = 0.16531E-06, tol = 0.14156E+01, time = 0.65 | CG iter. 29 -- res = 0.54091E-07, tol = 0.14156E+01, time = 0.67 | CG iter. 30 -- res = 0.16945E-07, tol = 0.14156E+01, time = 0.64 | CG iter. 31 -- res = 0.51372E-08, tol = 0.14156E+01, time = 0.62 | CG iter. 32 -- res = 0.17476E-08, tol = 0.14156E+01, time = 0.66 | CG iter. 33 -- res = 0.15120E-08, tol = 0.14156E+01, time = 0.70 | CG iter. 34 -- res = 0.40217E-09, tol = 0.14156E+01, time = 0.62 | CG iter. 35 -- res = 0.11412E-09, tol = 0.14156E+01, time = 0.66 | CG iter. 36 -- res = 0.47450E-10, tol = 0.14156E+01, time = 0.65 | CG iter. 37 -- res = 0.38428E-10, tol = 0.14156E+01, time = 0.66 | CG iter. 38 -- res = 0.10614E-10, tol = 0.14156E+01, time = 0.63 | CG iter. 39 -- res = 0.31790E-11, tol = 0.14156E+01, time = 0.65 | CG iter. 40 -- res = 0.90824E-12, tol = 0.14156E+01, time = 0.65 | CG iter. 41 -- res = 0.28716E-12, tol = 0.14156E+01, time = 0.68 | CG iter. 42 -- res = 0.92631E-13, tol = 0.14156E+01, time = 0.64 | CG iter. 43 -- res = 0.29857E-13, tol = 0.14156E+01, time = 0.63 | CG iter. 44 -- res = 0.90795E-14, tol = 0.14156E+01, time = 0.66 | CG iter. 45 -- res = 0.31891E-14, tol = 0.14156E+01, time = 0.64 | CG iter. 46 -- res = 0.11615E-14, tol = 0.14156E+01, time = 0.65 | CG iter. 47 -- res = 0.36059E-15, tol = 0.14156E+01, time = 0.66 | CG iter. 48 -- res = 0.10054E-15, tol = 0.14156E+01, time = 0.64 | CG iter. 49 -- res = 0.28795E-16, tol = 0.14156E+01, time = 0.65 | CG iter. 50 -- res = 0.81200E-17, tol = 0.14156E+01, time = 0.66 | Final CG iter 51 -- res = 0.81200E-17, tol = 0.14156E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -1.166 2.187 | New value 0.566 | Old value -1.166 | Difference 1.732 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 4.10 | CG iter. 1 -- res = 0.19662E+04, tol = 0.47627E+18, time = 0.39 | CG iter. 2 -- res = 0.15710E+02, tol = 0.47627E+18, time = 0.40 | CG iter. 3 -- res = 0.59118E-01, tol = 0.47627E+18, time = 0.38 | Final CG iter 4 -- res = 0.70376E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7529643.003 | (Sampled value in CG: 7536574.485 ) | CPU time specind = 276.1523 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 4.13 | CG iter. 1 -- res = 0.70598E+08, tol = 0.51667E+04, time = 3.22 | CG iter. 2 -- res = 0.33500E+08, tol = 0.51667E+04, time = 3.17 | CG iter. 3 -- res = 0.58116E+07, tol = 0.51667E+04, time = 3.24 | CG iter. 4 -- res = 0.29401E+07, tol = 0.51667E+04, time = 3.11 | CG iter. 5 -- res = 0.13028E+07, tol = 0.51667E+04, time = 3.17 | CG iter. 6 -- res = 0.70918E+06, tol = 0.51667E+04, time = 3.19 | CG iter. 7 -- res = 0.38404E+06, tol = 0.51667E+04, time = 3.23 | CG iter. 8 -- res = 0.19075E+06, tol = 0.51667E+04, time = 3.18 | CG iter. 9 -- res = 0.93312E+05, tol = 0.51667E+04, time = 3.22 | CG iter. 10 -- res = 0.41249E+05, tol = 0.51667E+04, time = 3.20 | CG iter. 11 -- res = 0.21307E+05, tol = 0.51667E+04, time = 3.11 | CG iter. 12 -- res = 0.12280E+05, tol = 0.51667E+04, time = 3.16 | CG iter. 13 -- res = 0.77454E+04, tol = 0.51667E+04, time = 3.15 | CG iter. 14 -- res = 0.52694E+04, tol = 0.51667E+04, time = 3.08 | CG iter. 15 -- res = 0.34266E+04, tol = 0.51667E+04, time = 3.20 | CG iter. 16 -- res = 0.24227E+04, tol = 0.51667E+04, time = 3.17 | CG iter. 17 -- res = 0.18583E+04, tol = 0.51667E+04, time = 3.12 | CG iter. 18 -- res = 0.17095E+04, tol = 0.51667E+04, time = 3.15 | CG iter. 19 -- res = 0.18046E+04, tol = 0.51667E+04, time = 3.17 | CG iter. 20 -- res = 0.19844E+04, tol = 0.51667E+04, time = 3.10 | CG iter. 21 -- res = 0.20629E+04, tol = 0.51667E+04, time = 3.10 | CG iter. 22 -- res = 0.18818E+04, tol = 0.51667E+04, time = 3.15 | CG iter. 23 -- res = 0.16013E+04, tol = 0.51667E+04, time = 3.19 | CG iter. 24 -- res = 0.13717E+04, tol = 0.51667E+04, time = 3.17 | CG iter. 25 -- res = 0.12206E+04, tol = 0.51667E+04, time = 3.28 | CG iter. 26 -- res = 0.10678E+04, tol = 0.51667E+04, time = 3.27 | CG iter. 27 -- res = 0.88995E+03, tol = 0.51667E+04, time = 3.16 | CG iter. 28 -- res = 0.72993E+03, tol = 0.51667E+04, time = 3.23 | CG iter. 29 -- res = 0.64841E+03, tol = 0.51667E+04, time = 3.08 | CG iter. 30 -- res = 0.65298E+03, tol = 0.51667E+04, time = 3.18 | CG iter. 31 -- res = 0.69812E+03, tol = 0.51667E+04, time = 3.15 | CG iter. 32 -- res = 0.74769E+03, tol = 0.51667E+04, time = 3.08