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Start of test: Mon Sep 21 14:41:52 2020
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System running on (uname -a): Linux vld189 3.10.0-1127.19.1.el7.x86_64 #1 SMP Tue Aug 11 19:12:04 EDT 2020 x86_64 x86_64 x86_64 GNU/Linux
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Performing test: IT-1DVAR-05
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Running compiler / platform / module: gfortran_linux / vld189 / ropp_1dvar
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Running command / platform: . ./.ropp_test gfortran_linux; ROPP_testing/ropp_1dvar/tools/ropp_1dvar_bangle_gfortran_linux -y ROPP_testing/ropp_test_tmp/IT-1DVAR-05_y.nc -b ROPP_testing/ropp_test_tmp/IT-1DVAR-05_b.nc --bg-corr ROPP_testing/ropp_test_tmp/IT-1DVAR-05_c.nc -o ROPP_testing/ropp_test_tmp/IT-1DVAR-05.1.nc / vld189
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ROPP Bending Angle 1D-Var
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INFO (from ropp_1dvar_bangle): Reading observation data for profile 1 from the file
ROPP_testing/ropp_test_tmp/IT-1DVAR-05_y.nc.
WARNING (from ropp_fm_roprof2obs (1D bending angles)): Azimuth (of -0.1E+09 deg) out of range or missing.
WARNING (from ropp_fm_roprof2obs (1D bending angles)): Check input data and valid_range attributes.
WARNING (from ropp_fm_roprof2obs (1D bending angles)): Continuing, as azimuth not needed directly for 1D bending angles.
INFO (from ropp_1dvar_bangle): Reading background data for profile 1 from the file
ROPP_testing/ropp_test_tmp/IT-1DVAR-05_b.nc.
INFO (from ropp_qc_bgqc): Background quality control lets all bending angle values pass.
INFO (from ropp_1dvar_solve): Using background error covariance matrix for preconditioning.
INFO (from ropp_1dvar_cost): Using absolute decrease of cost function and relative change
of state vector as additional convergence criteria.
n_iter = 1 J = 84.746 max(relative change in state) = -
n_iter = 2 J = 70.432 max(relative change in state) = 0.47080
n_iter = 3 J = 51.881 max(relative change in state) = 1.8895
INFO (from ropp_1dvar_cost): Convergence assumed to be achieved as the cost function is increasing
INFO (from ropp_1dvar_cost): Minimization of cost function successfully finished (according to additional
convergence criteria). Number of required iterations: 4.
INFO (from ropp_1dvar_bangle): Writing 1DVar retrieval for profile 1 to the file
ROPP_testing/ropp_test_tmp/IT-1DVAR-05.1.nc.
INFO (from ropp_1dvar_bangle): Reading observation data for profile 2 from the file
ROPP_testing/ropp_test_tmp/IT-1DVAR-05_y.nc.
WARNING (from ropp_fm_roprof2obs (1D bending angles)): Azimuth (of -0.1E+09 deg) out of range or missing.
WARNING (from ropp_fm_roprof2obs (1D bending angles)): Check input data and valid_range attributes.
WARNING (from ropp_fm_roprof2obs (1D bending angles)): Continuing, as azimuth not needed directly for 1D bending angles.
INFO (from ropp_1dvar_bangle): Reading background data for profile 2 from the file
ROPP_testing/ropp_test_tmp/IT-1DVAR-05_b.nc.
INFO (from ropp_qc_bgqc): Background quality control lets all bending angle values pass.
INFO (from ropp_1dvar_solve): Using background error covariance matrix for preconditioning.
INFO (from ropp_1dvar_cost): Using absolute decrease of cost function and relative change
of state vector as additional convergence criteria.
n_iter = 1 J = 129.58 max(relative change in state) = -
n_iter = 2 J = 109.02 max(relative change in state) = 0.91279
n_iter = 3 J = 90.251 max(relative change in state) = 1.3313
n_iter = 4 J = 88.066 max(relative change in state) = 0.45251
n_iter = 5 J = 92.078 max(relative change in state) = 1.3799
n_iter = 6 J = 87.849 max(relative change in state) = 1.1312
n_iter = 7 J = 87.793 max(relative change in state) = 0.14543E-01
n_iter = 8 J = 87.623 max(relative change in state) = 0.25675
INFO (from ropp_1dvar_cost): Convergence assumed to be achieved as the cost function is increasing
INFO (from ropp_1dvar_cost): Minimization of cost function successfully finished (according to additional
convergence criteria). Number of required iterations: 9.
INFO (from ropp_1dvar_bangle): Appending 1DVar retrieval for profile 2 to the file
ROPP_testing/ropp_test_tmp/IT-1DVAR-05.1.nc.
INFO (from ropp_1dvar_bangle): Reading observation data for profile 3 from the file
ROPP_testing/ropp_test_tmp/IT-1DVAR-05_y.nc.
WARNING (from ropp_fm_roprof2obs (1D bending angles)): Azimuth (of -0.1E+09 deg) out of range or missing.
WARNING (from ropp_fm_roprof2obs (1D bending angles)): Check input data and valid_range attributes.
WARNING (from ropp_fm_roprof2obs (1D bending angles)): Continuing, as azimuth not needed directly for 1D bending angles.
INFO (from ropp_1dvar_bangle): Reading background data for profile 3 from the file
ROPP_testing/ropp_test_tmp/IT-1DVAR-05_b.nc.
INFO (from ropp_qc_bgqc): Background quality control lets all bending angle values pass.
INFO (from ropp_1dvar_solve): Using background error covariance matrix for preconditioning.
INFO (from ropp_1dvar_cost): Using absolute decrease of cost function and relative change
of state vector as additional convergence criteria.
n_iter = 1 J = 52.903 max(relative change in state) = -
n_iter = 2 J = 43.797 max(relative change in state) = 0.39130
n_iter = 3 J = 31.445 max(relative change in state) = 1.2651
n_iter = 4 J = 30.722 max(relative change in state) = 0.19078
n_iter = 5 J = 32.099 max(relative change in state) = 0.67412
n_iter = 6 J = 30.565 max(relative change in state) = 0.51966
n_iter = 7 J = 30.530 max(relative change in state) = 0.13738E-01
n_iter = 8 J = 30.386 max(relative change in state) = 0.11279
n_iter = 9 J = 30.351 max(relative change in state) = 0.73382E-01
n_iter = 10 J = 30.328 max(relative change in state) = 0.34746E-01
INFO (from ropp_1dvar_cost): Convergence assumed to be achieved as the state vector did not change by more
than 0.10000 relative to the assumed background errors for the last 2 iterations.
INFO (from ropp_1dvar_solve): Minimization of cost function successfully finished (according to additional
convergence criteria). Number of required iterations: 10.
INFO (from ropp_1dvar_bangle): Appending 1DVar retrieval for profile 3 to the file
ROPP_testing/ropp_test_tmp/IT-1DVAR-05.1.nc.
INFO (from ropp_1dvar_bangle): Reading observation data for profile 4 from the file
ROPP_testing/ropp_test_tmp/IT-1DVAR-05_y.nc.
WARNING (from ropp_fm_roprof2obs (1D bending angles)): Azimuth (of -0.1E+09 deg) out of range or missing.
WARNING (from ropp_fm_roprof2obs (1D bending angles)): Check input data and valid_range attributes.
WARNING (from ropp_fm_roprof2obs (1D bending angles)): Continuing, as azimuth not needed directly for 1D bending angles.
INFO (from ropp_1dvar_bangle): Reading background data for profile 4 from the file
ROPP_testing/ropp_test_tmp/IT-1DVAR-05_b.nc.
INFO (from ropp_qc_bgqc): Background quality control lets all bending angle values pass.
INFO (from ropp_1dvar_solve): Using background error covariance matrix for preconditioning.
INFO (from ropp_1dvar_cost): Using absolute decrease of cost function and relative change
of state vector as additional convergence criteria.
n_iter = 1 J = 150.10 max(relative change in state) = -
n_iter = 2 J = 110.74 max(relative change in state) = 1.4921
n_iter = 3 J = 88.966 max(relative change in state) = 1.4221
n_iter = 4 J = 94.933 max(relative change in state) = 2.1522
n_iter = 5 J = 87.243 max(relative change in state) = 1.5542
n_iter = 6 J = 86.992 max(relative change in state) = 0.14489
n_iter = 7 J = 86.464 max(relative change in state) = 0.40796
n_iter = 8 J = 86.211 max(relative change in state) = 0.96528E-01
n_iter = 9 J = 86.276 max(relative change in state) = 0.27273
n_iter = 10 J = 86.096 max(relative change in state) = 0.80448E-01
n_iter = 11 J = 86.081 max(relative change in state) = 0.52679E-01
INFO (from ropp_1dvar_cost): Convergence assumed to be achieved as the state vector did not change by more
than 0.10000 relative to the assumed background errors for the last 2 iterations.
INFO (from ropp_1dvar_solve): Minimization of cost function successfully finished (according to additional
convergence criteria). Number of required iterations: 11.
INFO (from ropp_1dvar_bangle): Appending 1DVar retrieval for profile 4 to the file
ROPP_testing/ropp_test_tmp/IT-1DVAR-05.1.nc.
INFO (from ropp_1dvar_bangle): Reading observation data for profile 5 from the file
ROPP_testing/ropp_test_tmp/IT-1DVAR-05_y.nc.
WARNING (from ropp_fm_roprof2obs (1D bending angles)): Azimuth (of -0.1E+09 deg) out of range or missing.
WARNING (from ropp_fm_roprof2obs (1D bending angles)): Check input data and valid_range attributes.
WARNING (from ropp_fm_roprof2obs (1D bending angles)): Continuing, as azimuth not needed directly for 1D bending angles.
INFO (from ropp_1dvar_bangle): Reading background data for profile 5 from the file
ROPP_testing/ropp_test_tmp/IT-1DVAR-05_b.nc.
INFO (from ropp_qc_bgqc): Background quality control removes 1 bending angle data points from the
observations as their deviation from the background exceeds 10.0
times the expected (1-sigma) error.
INFO (from ropp_1dvar_solve): Using background error covariance matrix for preconditioning.
INFO (from ropp_1dvar_cost): Using absolute decrease of cost function and relative change
of state vector as additional convergence criteria.
n_iter = 1 J = 141.20 max(relative change in state) = -
n_iter = 2 J = 112.54 max(relative change in state) = 1.1578
n_iter = 3 J = 85.645 max(relative change in state) = 3.7394
n_iter = 4 J = 86.076 max(relative change in state) = 0.96333
n_iter = 5 J = 84.410 max(relative change in state) = 0.85697
n_iter = 6 J = 83.661 max(relative change in state) = 0.17181
n_iter = 7 J = 83.381 max(relative change in state) = 0.90475E-01
n_iter = 8 J = 83.226 max(relative change in state) = 0.10111
n_iter = 9 J = 82.896 max(relative change in state) = 0.16696
n_iter = 10 J = 82.740 max(relative change in state) = 0.76004E-01
n_iter = 11 J = 82.839 max(relative change in state) = 0.11069
n_iter = 12 J = 82.463 max(relative change in state) = 0.11325
n_iter = 13 J = 82.592 max(relative change in state) = 0.12973
n_iter = 14 J = 82.276 max(relative change in state) = 0.13322
n_iter = 15 J = 82.109 max(relative change in state) = 0.20327
n_iter = 16 J = 81.954 max(relative change in state) = 0.28720
n_iter = 17 J = 81.783 max(relative change in state) = 0.19522
n_iter = 18 J = 81.695 max(relative change in state) = 0.23705
n_iter = 19 J = 81.623 max(relative change in state) = 0.12727
INFO (from ropp_1dvar_cost): Convergence assumed to be achieved as the cost function did not change by more
than 0.10000 for the last 2 iterations.
INFO (from ropp_1dvar_solve): Minimization of cost function successfully finished (according to additional
convergence criteria). Number of required iterations: 19.
INFO (from ropp_1dvar_bangle): Appending 1DVar retrieval for profile 5 to the file
ROPP_testing/ropp_test_tmp/IT-1DVAR-05.1.nc.
INFO (from ropp_1dvar_bangle): Reading observation data for profile 6 from the file
ROPP_testing/ropp_test_tmp/IT-1DVAR-05_y.nc.
WARNING (from ropp_fm_roprof2obs (1D bending angles)): Azimuth (of -0.1E+09 deg) out of range or missing.
WARNING (from ropp_fm_roprof2obs (1D bending angles)): Check input data and valid_range attributes.
WARNING (from ropp_fm_roprof2obs (1D bending angles)): Continuing, as azimuth not needed directly for 1D bending angles.
INFO (from ropp_1dvar_bangle): Reading background data for profile 6 from the file
ROPP_testing/ropp_test_tmp/IT-1DVAR-05_b.nc.
INFO (from ropp_qc_bgqc): Background quality control lets all bending angle values pass.
INFO (from ropp_1dvar_solve): Using background error covariance matrix for preconditioning.
INFO (from ropp_1dvar_cost): Using absolute decrease of cost function and relative change
of state vector as additional convergence criteria.
n_iter = 1 J = 468.14 max(relative change in state) = -
n_iter = 2 J = 345.76 max(relative change in state) = 9.7342
n_iter = 3 J = 245.48 max(relative change in state) = 3.9883
n_iter = 4 J = 243.15 max(relative change in state) = 1.2071
n_iter = 5 J = 240.96 max(relative change in state) = 0.69757
n_iter = 6 J = 240.43 max(relative change in state) = 0.23436
n_iter = 7 J = 239.89 max(relative change in state) = 0.41216
n_iter = 8 J = 239.38 max(relative change in state) = 0.10526
n_iter = 9 J = 239.16 max(relative change in state) = 0.53804
n_iter = 10 J = 239.01 max(relative change in state) = 0.21491
n_iter = 11 J = 238.81 max(relative change in state) = 0.58018E-01
n_iter = 12 J = 238.94 max(relative change in state) = 0.30597
n_iter = 13 J = 238.63 max(relative change in state) = 0.23673
n_iter = 14 J = 238.64 max(relative change in state) = 0.14823
n_iter = 15 J = 238.45 max(relative change in state) = 0.79462E-01
n_iter = 16 J = 238.54 max(relative change in state) = 0.36518
n_iter = 17 J = 238.24 max(relative change in state) = 0.27914
n_iter = 18 J = 238.31 max(relative change in state) = 0.19111
n_iter = 19 J = 238.08 max(relative change in state) = 0.17930
n_iter = 20 J = 238.15 max(relative change in state) = 0.13224
n_iter = 21 J = 238.11 max(relative change in state) = 0.27079
INFO (from ropp_1dvar_cost): Convergence assumed to be achieved as the cost function did not change by more
than 0.10000 for the last 2 iterations.
INFO (from ropp_1dvar_solve): Minimization of cost function successfully finished (according to additional
convergence criteria). Number of required iterations: 21.
INFO (from ropp_1dvar_bangle): Appending 1DVar retrieval for profile 6 to the file
ROPP_testing/ropp_test_tmp/IT-1DVAR-05.1.nc.
INFO (from ropp_1dvar_bangle): Reading observation data for profile 7 from the file
ROPP_testing/ropp_test_tmp/IT-1DVAR-05_y.nc.
WARNING (from ropp_fm_roprof2obs (1D bending angles)): Azimuth (of -0.1E+09 deg) out of range or missing.
WARNING (from ropp_fm_roprof2obs (1D bending angles)): Check input data and valid_range attributes.
WARNING (from ropp_fm_roprof2obs (1D bending angles)): Continuing, as azimuth not needed directly for 1D bending angles.
INFO (from ropp_1dvar_bangle): Reading background data for profile 7 from the file
ROPP_testing/ropp_test_tmp/IT-1DVAR-05_b.nc.
INFO (from ropp_qc_bgqc): Background quality control lets all bending angle values pass.
INFO (from ropp_1dvar_solve): Using background error covariance matrix for preconditioning.
INFO (from ropp_1dvar_cost): Using absolute decrease of cost function and relative change
of state vector as additional convergence criteria.
n_iter = 1 J = 116.61 max(relative change in state) = -
n_iter = 2 J = 97.286 max(relative change in state) = 0.77300
n_iter = 3 J = 78.418 max(relative change in state) = 1.4323
n_iter = 4 J = 77.197 max(relative change in state) = 0.42409
n_iter = 5 J = 76.469 max(relative change in state) = 0.30392
n_iter = 6 J = 76.402 max(relative change in state) = 0.75305E-01
n_iter = 7 J = 76.354 max(relative change in state) = 0.66765E-01
INFO (from ropp_1dvar_cost): Convergence assumed to be achieved as the state vector did not change by more
than 0.10000 relative to the assumed background errors for the last 2 iterations.
INFO (from ropp_1dvar_solve): Minimization of cost function successfully finished (according to additional
convergence criteria). Number of required iterations: 7.
INFO (from ropp_1dvar_bangle): Appending 1DVar retrieval for profile 7 to the file
ROPP_testing/ropp_test_tmp/IT-1DVAR-05.1.nc.
INFO (from ropp_1dvar_bangle): Reading observation data for profile 8 from the file
ROPP_testing/ropp_test_tmp/IT-1DVAR-05_y.nc.
WARNING (from ropp_fm_roprof2obs (1D bending angles)): Azimuth (of -0.1E+09 deg) out of range or missing.
WARNING (from ropp_fm_roprof2obs (1D bending angles)): Check input data and valid_range attributes.
WARNING (from ropp_fm_roprof2obs (1D bending angles)): Continuing, as azimuth not needed directly for 1D bending angles.
INFO (from ropp_1dvar_bangle): Reading background data for profile 8 from the file
ROPP_testing/ropp_test_tmp/IT-1DVAR-05_b.nc.
INFO (from ropp_qc_bgqc): Background quality control lets all bending angle values pass.
INFO (from ropp_1dvar_solve): Using background error covariance matrix for preconditioning.
INFO (from ropp_1dvar_cost): Using absolute decrease of cost function and relative change
of state vector as additional convergence criteria.
n_iter = 1 J = 123.56 max(relative change in state) = -
n_iter = 2 J = 103.32 max(relative change in state) = 0.76727
n_iter = 3 J = 81.215 max(relative change in state) = 2.3461
INFO (from ropp_1dvar_cost): Convergence assumed to be achieved as the cost function is increasing
INFO (from ropp_1dvar_cost): Minimization of cost function successfully finished (according to additional
convergence criteria). Number of required iterations: 4.
INFO (from ropp_1dvar_bangle): Appending 1DVar retrieval for profile 8 to the file
ROPP_testing/ropp_test_tmp/IT-1DVAR-05.1.nc.
INFO (from ropp_1dvar_bangle): Reading observation data for profile 9 from the file
ROPP_testing/ropp_test_tmp/IT-1DVAR-05_y.nc.
WARNING (from ropp_fm_roprof2obs (1D bending angles)): Azimuth (of -0.1E+09 deg) out of range or missing.
WARNING (from ropp_fm_roprof2obs (1D bending angles)): Check input data and valid_range attributes.
WARNING (from ropp_fm_roprof2obs (1D bending angles)): Continuing, as azimuth not needed directly for 1D bending angles.
INFO (from ropp_1dvar_bangle): Reading background data for profile 9 from the file
ROPP_testing/ropp_test_tmp/IT-1DVAR-05_b.nc.
INFO (from ropp_qc_bgqc): Background quality control lets all bending angle values pass.
INFO (from ropp_1dvar_solve): Using background error covariance matrix for preconditioning.
INFO (from ropp_1dvar_cost): Using absolute decrease of cost function and relative change
of state vector as additional convergence criteria.
n_iter = 1 J = 85.989 max(relative change in state) = -
n_iter = 2 J = 72.468 max(relative change in state) = 0.76733
n_iter = 3 J = 62.480 max(relative change in state) = 1.5413
n_iter = 4 J = 64.861 max(relative change in state) = 1.0730
n_iter = 5 J = 62.097 max(relative change in state) = 0.82676
n_iter = 6 J = 62.018 max(relative change in state) = 0.48206E-01
n_iter = 7 J = 61.803 max(relative change in state) = 0.18229
n_iter = 8 J = 61.751 max(relative change in state) = 0.89914E-01
n_iter = 9 J = 61.726 max(relative change in state) = 0.22903E-01
INFO (from ropp_1dvar_cost): Convergence assumed to be achieved as the state vector did not change by more
than 0.10000 relative to the assumed background errors for the last 2 iterations.
INFO (from ropp_1dvar_solve): Minimization of cost function successfully finished (according to additional
convergence criteria). Number of required iterations: 9.
INFO (from ropp_1dvar_bangle): Appending 1DVar retrieval for profile 9 to the file
ROPP_testing/ropp_test_tmp/IT-1DVAR-05.1.nc.
INFO (from ropp_1dvar_bangle): Reading observation data for profile 10 from the file
ROPP_testing/ropp_test_tmp/IT-1DVAR-05_y.nc.
WARNING (from ropp_fm_roprof2obs (1D bending angles)): Azimuth (of -0.1E+09 deg) out of range or missing.
WARNING (from ropp_fm_roprof2obs (1D bending angles)): Check input data and valid_range attributes.
WARNING (from ropp_fm_roprof2obs (1D bending angles)): Continuing, as azimuth not needed directly for 1D bending angles.
INFO (from ropp_1dvar_bangle): Reading background data for profile 10 from the file
ROPP_testing/ropp_test_tmp/IT-1DVAR-05_b.nc.
INFO (from ropp_qc_bgqc): Background quality control lets all bending angle values pass.
INFO (from ropp_1dvar_solve): Using background error covariance matrix for preconditioning.
INFO (from ropp_1dvar_cost): Using absolute decrease of cost function and relative change
of state vector as additional convergence criteria.
n_iter = 1 J = 53.781 max(relative change in state) = -
n_iter = 2 J = 45.049 max(relative change in state) = 0.48270
n_iter = 3 J = 35.663 max(relative change in state) = 1.1047
n_iter = 4 J = 35.575 max(relative change in state) = 0.45906
n_iter = 5 J = 34.813 max(relative change in state) = 0.28371
n_iter = 6 J = 34.766 max(relative change in state) = 0.10637
n_iter = 7 J = 34.740 max(relative change in state) = 0.60053E-01
INFO (from ropp_1dvar_cost): Convergence assumed to be achieved as the cost function did not change by more
than 0.10000 for the last 2 iterations.
INFO (from ropp_1dvar_solve): Minimization of cost function successfully finished (according to additional
convergence criteria). Number of required iterations: 7.
INFO (from ropp_1dvar_bangle): Appending 1DVar retrieval for profile 10 to the file
ROPP_testing/ropp_test_tmp/IT-1DVAR-05.1.nc.
Processing BA scenario: OC_20090501000049_META_G004_DMI_
Processing BA scenario: OC_20090501000102_META_G021_DMI_
Processing BA scenario: OC_20090501000152_META_G006_DMI_
Processing BA scenario: OC_20090501000623_META_G031_DMI_
Processing BA scenario: OC_20090501000755_META_G008_DMI_
Processing BA scenario: OC_20090501001552_META_G015_DMI_
Processing BA scenario: OC_20090501001716_META_G023_DMI_
Processing BA scenario: OC_20090501002017_META_G017_DMI_
Processing BA scenario: OC_20090501002135_META_G026_DMI_
Processing BA scenario: OC_20090501002245_META_G027_DMI_
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Running command / platform: . ./.ropp_test gfortran_linux; ROPP_testing/ropp_1dvar/tools/ropp_1dvar_refrac_gfortran_linux -y ROPP_testing/ropp_test_tmp/IT-1DVAR-05_y.nc -b ROPP_testing/ropp_test_tmp/IT-1DVAR-05_b.nc --bg-corr ROPP_testing/ropp_test_tmp/IT-1DVAR-05_c.nc -o ROPP_testing/ropp_test_tmp/IT-1DVAR-05.2.nc / vld189
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ROPP Refractivity 1D-Var
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INFO (from ropp_1dvar_refrac): Reading observation data for profile 1 from the file
ROPP_testing/ropp_test_tmp/IT-1DVAR-05_y.nc.
INFO (from ropp_1dvar_refrac): Reading background data for profile 1 from the file
ROPP_testing/ropp_test_tmp/IT-1DVAR-05_b.nc.
INFO (from ropp_qc_bgqc): Background quality control lets all refractivity values pass.
INFO (from ropp_1dvar_solve): Using background error covariance matrix for preconditioning.
INFO (from ropp_1dvar_cost): Using absolute decrease of cost function and relative change
of state vector as additional convergence criterium.
n_iter = 1 J = 57.369 max(relative change in state) = -
n_iter = 2 J = 53.348 max(relative change in state) = 0.31163
n_iter = 3 J = 47.030 max(relative change in state) = 1.0136
n_iter = 4 J = 50.313 max(relative change in state) = 0.69203
n_iter = 5 J = 45.967 max(relative change in state) = 0.74136
INFO (from ropp_1dvar_cost): Convergence assumed to be achieved as the cost function is increasing
INFO (from ropp_1dvar_cost): Minimization of cost function successfully finished (according to additional
convergence criteria). Number of required iterations: 6.
INFO (from ropp_1dvar_refrac): Writing 1DVar retrieval for profile 1 to the file
ROPP_testing/ropp_test_tmp/IT-1DVAR-05.2.nc.
INFO (from ropp_1dvar_refrac): Reading observation data for profile 2 from the file
ROPP_testing/ropp_test_tmp/IT-1DVAR-05_y.nc.
INFO (from ropp_1dvar_refrac): Reading background data for profile 2 from the file
ROPP_testing/ropp_test_tmp/IT-1DVAR-05_b.nc.
INFO (from ropp_qc_bgqc): Background quality control lets all refractivity values pass.
INFO (from ropp_1dvar_solve): Using background error covariance matrix for preconditioning.
INFO (from ropp_1dvar_cost): Using absolute decrease of cost function and relative change
of state vector as additional convergence criterium.
n_iter = 1 J = 166.54 max(relative change in state) = -
n_iter = 2 J = 165.36 max(relative change in state) = 4.2463
n_iter = 3 J = 144.42 max(relative change in state) = 2.7195
n_iter = 4 J = 144.69 max(relative change in state) = 0.74541
n_iter = 5 J = 143.96 max(relative change in state) = 0.42391
n_iter = 6 J = 143.85 max(relative change in state) = 0.16562
n_iter = 7 J = 143.78 max(relative change in state) = 0.17938
n_iter = 8 J = 143.68 max(relative change in state) = 0.54114E-01
INFO (from ropp_1dvar_cost): Convergence assumed to be achieved as the cost function did not change by more
than 0.10000 for the last 2 iterations.
INFO (from ropp_1dvar_solve): Minimization of cost function successfully finished (according to additional
convergence criteria). Number of required iterations: 8.
INFO (from ropp_1dvar_refrac): Appending 1DVar retrieval for profile 2 to the file
ROPP_testing/ropp_test_tmp/IT-1DVAR-05.2.nc.
INFO (from ropp_1dvar_refrac): Reading observation data for profile 3 from the file
ROPP_testing/ropp_test_tmp/IT-1DVAR-05_y.nc.
INFO (from ropp_1dvar_refrac): Reading background data for profile 3 from the file
ROPP_testing/ropp_test_tmp/IT-1DVAR-05_b.nc.
INFO (from ropp_qc_bgqc): Background quality control lets all refractivity values pass.
INFO (from ropp_1dvar_solve): Using background error covariance matrix for preconditioning.
INFO (from ropp_1dvar_cost): Using absolute decrease of cost function and relative change
of state vector as additional convergence criterium.
n_iter = 1 J = 36.703 max(relative change in state) = -
n_iter = 2 J = 31.236 max(relative change in state) = 0.56944
n_iter = 3 J = 27.896 max(relative change in state) = 1.1184
n_iter = 4 J = 30.512 max(relative change in state) = 1.0759
n_iter = 5 J = 27.816 max(relative change in state) = 0.94497
n_iter = 6 J = 27.791 max(relative change in state) = 0.22935E-01
n_iter = 7 J = 27.724 max(relative change in state) = 0.25286
INFO (from ropp_1dvar_cost): Convergence assumed to be achieved as the cost function did not change by more
than 0.10000 for the last 2 iterations.
INFO (from ropp_1dvar_solve): Minimization of cost function successfully finished (according to additional
convergence criteria). Number of required iterations: 7.
INFO (from ropp_1dvar_refrac): Appending 1DVar retrieval for profile 3 to the file
ROPP_testing/ropp_test_tmp/IT-1DVAR-05.2.nc.
INFO (from ropp_1dvar_refrac): Reading observation data for profile 4 from the file
ROPP_testing/ropp_test_tmp/IT-1DVAR-05_y.nc.
INFO (from ropp_1dvar_refrac): Reading background data for profile 4 from the file
ROPP_testing/ropp_test_tmp/IT-1DVAR-05_b.nc.
INFO (from ropp_qc_bgqc): Background quality control lets all refractivity values pass.
INFO (from ropp_1dvar_solve): Using background error covariance matrix for preconditioning.
INFO (from ropp_1dvar_cost): Using absolute decrease of cost function and relative change
of state vector as additional convergence criterium.
n_iter = 1 J = 60.011 max(relative change in state) = -
n_iter = 2 J = 52.203 max(relative change in state) = 1.1151
n_iter = 3 J = 50.432 max(relative change in state) = 1.0689
n_iter = 4 J = 57.291 max(relative change in state) = 1.8937
n_iter = 5 J = 50.372 max(relative change in state) = 1.7125
n_iter = 6 J = 50.368 max(relative change in state) = 0.69624E-02
n_iter = 7 J = 50.333 max(relative change in state) = 0.87808E-01
INFO (from ropp_1dvar_cost): Convergence assumed to be achieved as the state vector did not change by more
than 0.10000 relative to the assumed background errors for the last 2 iterations.
INFO (from ropp_1dvar_solve): Minimization of cost function successfully finished (according to additional
convergence criteria). Number of required iterations: 7.
INFO (from ropp_1dvar_refrac): Appending 1DVar retrieval for profile 4 to the file
ROPP_testing/ropp_test_tmp/IT-1DVAR-05.2.nc.
INFO (from ropp_1dvar_refrac): Reading observation data for profile 5 from the file
ROPP_testing/ropp_test_tmp/IT-1DVAR-05_y.nc.
INFO (from ropp_1dvar_refrac): Reading background data for profile 5 from the file
ROPP_testing/ropp_test_tmp/IT-1DVAR-05_b.nc.
INFO (from ropp_qc_bgqc): Background quality control lets all refractivity values pass.
INFO (from ropp_1dvar_solve): Using background error covariance matrix for preconditioning.
INFO (from ropp_1dvar_cost): Using absolute decrease of cost function and relative change
of state vector as additional convergence criterium.
n_iter = 1 J = 151.97 max(relative change in state) = -
n_iter = 2 J = 116.26 max(relative change in state) = 1.2383
n_iter = 3 J = 70.860 max(relative change in state) = 5.1383
n_iter = 4 J = 75.951 max(relative change in state) = 0.73250
n_iter = 5 J = 76.719 max(relative change in state) = 0.92278
INFO (from ropp_1dvar_cost): Convergence assumed to be achieved as the cost function is increasing
INFO (from ropp_1dvar_cost): Minimization of cost function successfully finished (according to additional
convergence criteria). Number of required iterations: 6.
INFO (from ropp_1dvar_refrac): Appending 1DVar retrieval for profile 5 to the file
ROPP_testing/ropp_test_tmp/IT-1DVAR-05.2.nc.
INFO (from ropp_1dvar_refrac): Reading observation data for profile 6 from the file
ROPP_testing/ropp_test_tmp/IT-1DVAR-05_y.nc.
INFO (from ropp_1dvar_refrac): Reading background data for profile 6 from the file
ROPP_testing/ropp_test_tmp/IT-1DVAR-05_b.nc.
INFO (from ropp_qc_bgqc): Background quality control lets all refractivity values pass.
INFO (from ropp_1dvar_solve): Using background error covariance matrix for preconditioning.
INFO (from ropp_1dvar_cost): Using absolute decrease of cost function and relative change
of state vector as additional convergence criterium.
n_iter = 1 J = 160.49 max(relative change in state) = -
n_iter = 2 J = 140.36 max(relative change in state) = 1.0590
n_iter = 3 J = 129.07 max(relative change in state) = 1.7746
n_iter = 4 J = 143.88 max(relative change in state) = 2.9196
n_iter = 5 J = 127.10 max(relative change in state) = 2.5276
n_iter = 6 J = 125.77 max(relative change in state) = 0.12020
n_iter = 7 J = 125.17 max(relative change in state) = 0.17718
n_iter = 8 J = 124.63 max(relative change in state) = 0.18473
n_iter = 9 J = 124.11 max(relative change in state) = 0.12491
n_iter = 10 J = 124.26 max(relative change in state) = 0.19559
n_iter = 11 J = 123.77 max(relative change in state) = 0.98724E-01
n_iter = 12 J = 123.61 max(relative change in state) = 0.46927E-01
INFO (from ropp_1dvar_cost): Convergence assumed to be achieved as the state vector did not change by more
than 0.10000 relative to the assumed background errors for the last 2 iterations.
INFO (from ropp_1dvar_solve): Minimization of cost function successfully finished (according to additional
convergence criteria). Number of required iterations: 12.
INFO (from ropp_1dvar_refrac): Appending 1DVar retrieval for profile 6 to the file
ROPP_testing/ropp_test_tmp/IT-1DVAR-05.2.nc.
INFO (from ropp_1dvar_refrac): Reading observation data for profile 7 from the file
ROPP_testing/ropp_test_tmp/IT-1DVAR-05_y.nc.
INFO (from ropp_1dvar_refrac): Reading background data for profile 7 from the file
ROPP_testing/ropp_test_tmp/IT-1DVAR-05_b.nc.
INFO (from ropp_qc_bgqc): Background quality control lets all refractivity values pass.
INFO (from ropp_1dvar_solve): Using background error covariance matrix for preconditioning.
INFO (from ropp_1dvar_cost): Using absolute decrease of cost function and relative change
of state vector as additional convergence criterium.
n_iter = 1 J = 56.727 max(relative change in state) = -
n_iter = 2 J = 49.372 max(relative change in state) = 1.1941
n_iter = 3 J = 47.786 max(relative change in state) = 0.94790
n_iter = 4 J = 49.267 max(relative change in state) = 1.0319
n_iter = 5 J = 47.763 max(relative change in state) = 0.93486
n_iter = 6 J = 47.756 max(relative change in state) = 0.12272E-01
n_iter = 7 J = 47.727 max(relative change in state) = 0.16373
INFO (from ropp_1dvar_cost): Convergence assumed to be achieved as the cost function did not change by more
than 0.10000 for the last 2 iterations.
INFO (from ropp_1dvar_solve): Minimization of cost function successfully finished (according to additional
convergence criteria). Number of required iterations: 7.
INFO (from ropp_1dvar_refrac): Appending 1DVar retrieval for profile 7 to the file
ROPP_testing/ropp_test_tmp/IT-1DVAR-05.2.nc.
INFO (from ropp_1dvar_refrac): Reading observation data for profile 8 from the file
ROPP_testing/ropp_test_tmp/IT-1DVAR-05_y.nc.
INFO (from ropp_1dvar_refrac): Reading background data for profile 8 from the file
ROPP_testing/ropp_test_tmp/IT-1DVAR-05_b.nc.
INFO (from ropp_qc_bgqc): Background quality control lets all refractivity values pass.
INFO (from ropp_1dvar_solve): Using background error covariance matrix for preconditioning.
INFO (from ropp_1dvar_cost): Using absolute decrease of cost function and relative change
of state vector as additional convergence criterium.
n_iter = 1 J = 96.140 max(relative change in state) = -
n_iter = 2 J = 89.455 max(relative change in state) = 0.90874
n_iter = 3 J = 86.069 max(relative change in state) = 0.89882
n_iter = 4 J = 88.843 max(relative change in state) = 1.4985
n_iter = 5 J = 85.181 max(relative change in state) = 1.2202
n_iter = 6 J = 84.759 max(relative change in state) = 0.17574
n_iter = 7 J = 84.588 max(relative change in state) = 0.18918
n_iter = 8 J = 84.175 max(relative change in state) = 0.25297
n_iter = 9 J = 83.821 max(relative change in state) = 0.16194
n_iter = 10 J = 83.594 max(relative change in state) = 0.18086
n_iter = 11 J = 83.395 max(relative change in state) = 0.20846
n_iter = 12 J = 83.256 max(relative change in state) = 0.10261
n_iter = 13 J = 83.201 max(relative change in state) = 0.25840E-01
n_iter = 14 J = 83.081 max(relative change in state) = 0.13023
n_iter = 15 J = 83.039 max(relative change in state) = 0.11801
n_iter = 16 J = 83.000 max(relative change in state) = 0.46992E-01
INFO (from ropp_1dvar_cost): Convergence assumed to be achieved as the cost function did not change by more
than 0.10000 for the last 2 iterations.
INFO (from ropp_1dvar_solve): Minimization of cost function successfully finished (according to additional
convergence criteria). Number of required iterations: 16.
INFO (from ropp_1dvar_refrac): Appending 1DVar retrieval for profile 8 to the file
ROPP_testing/ropp_test_tmp/IT-1DVAR-05.2.nc.
INFO (from ropp_1dvar_refrac): Reading observation data for profile 9 from the file
ROPP_testing/ropp_test_tmp/IT-1DVAR-05_y.nc.
INFO (from ropp_1dvar_refrac): Reading background data for profile 9 from the file
ROPP_testing/ropp_test_tmp/IT-1DVAR-05_b.nc.
INFO (from ropp_qc_bgqc): Background quality control lets all refractivity values pass.
INFO (from ropp_1dvar_solve): Using background error covariance matrix for preconditioning.
INFO (from ropp_1dvar_cost): Using absolute decrease of cost function and relative change
of state vector as additional convergence criterium.
n_iter = 1 J = 57.198 max(relative change in state) = -
n_iter = 2 J = 48.941 max(relative change in state) = 1.3026
n_iter = 3 J = 45.989 max(relative change in state) = 0.92784
n_iter = 4 J = 51.783 max(relative change in state) = 1.8301
n_iter = 5 J = 45.902 max(relative change in state) = 1.6343
n_iter = 6 J = 45.881 max(relative change in state) = 0.15328E-01
n_iter = 7 J = 45.820 max(relative change in state) = 0.34501
INFO (from ropp_1dvar_cost): Convergence assumed to be achieved as the cost function did not change by more
than 0.10000 for the last 2 iterations.
INFO (from ropp_1dvar_solve): Minimization of cost function successfully finished (according to additional
convergence criteria). Number of required iterations: 7.
INFO (from ropp_1dvar_refrac): Appending 1DVar retrieval for profile 9 to the file
ROPP_testing/ropp_test_tmp/IT-1DVAR-05.2.nc.
INFO (from ropp_1dvar_refrac): Reading observation data for profile 10 from the file
ROPP_testing/ropp_test_tmp/IT-1DVAR-05_y.nc.
INFO (from ropp_1dvar_refrac): Reading background data for profile 10 from the file
ROPP_testing/ropp_test_tmp/IT-1DVAR-05_b.nc.
INFO (from ropp_qc_bgqc): Background quality control lets all refractivity values pass.
INFO (from ropp_1dvar_solve): Using background error covariance matrix for preconditioning.
INFO (from ropp_1dvar_cost): Using absolute decrease of cost function and relative change
of state vector as additional convergence criterium.
n_iter = 1 J = 114.70 max(relative change in state) = -
n_iter = 2 J = 104.70 max(relative change in state) = 2.0266
n_iter = 3 J = 102.28 max(relative change in state) = 0.74660
n_iter = 4 J = 104.55 max(relative change in state) = 0.99601
n_iter = 5 J = 101.76 max(relative change in state) = 0.80095
n_iter = 6 J = 101.63 max(relative change in state) = 0.67162E-01
n_iter = 7 J = 101.45 max(relative change in state) = 0.20380
n_iter = 8 J = 101.39 max(relative change in state) = 0.11367
n_iter = 9 J = 101.34 max(relative change in state) = 0.36729E-01
INFO (from ropp_1dvar_cost): Convergence assumed to be achieved as the cost function did not change by more
than 0.10000 for the last 2 iterations.
INFO (from ropp_1dvar_solve): Minimization of cost function successfully finished (according to additional
convergence criteria). Number of required iterations: 9.
INFO (from ropp_1dvar_refrac): Appending 1DVar retrieval for profile 10 to the file
ROPP_testing/ropp_test_tmp/IT-1DVAR-05.2.nc.
Processing REF scenario: OC_20090501000049_META_G004_DMI_
Processing REF scenario: OC_20090501000102_META_G021_DMI_
Processing REF scenario: OC_20090501000152_META_G006_DMI_
Processing REF scenario: OC_20090501000623_META_G031_DMI_
Processing REF scenario: OC_20090501000755_META_G008_DMI_
Processing REF scenario: OC_20090501001552_META_G015_DMI_
Processing REF scenario: OC_20090501001716_META_G023_DMI_
Processing REF scenario: OC_20090501002017_META_G017_DMI_
Processing REF scenario: OC_20090501002135_META_G026_DMI_
Processing REF scenario: OC_20090501002245_META_G027_DMI_
--------------------------------------------------------------------
--------------------------------------------------------------------
Running command / platform: . ./.ropp_test gfortran_linux; ROPP_testing/ropp_1dvar/tools/ropp_1dvar_bangle_gfortran_linux -y ROPP_testing/ropp_test_tmp/IT-1DVAR-05_y.nc -b ROPP_testing/ropp_test_tmp/IT-1DVAR-05_b.nc --bg-corr ROPP_testing/ropp_test_tmp/IT-1DVAR-05_c.nc -o ROPP_testing/ropp_test_tmp/IT-1DVAR-05.1.nc -new_op / vld189
--------------------------------------------------------------------
--------------------------------------------------------------------
---------------------------------------------------------------------
ROPP Bending Angle 1D-Var
---------------------------------------------------------------------
INFO (from ropp_1dvar_bangle): Reading observation data for profile 1 from the file
ROPP_testing/ropp_test_tmp/IT-1DVAR-05_y.nc.
WARNING (from ropp_fm_roprof2obs (1D bending angles)): Azimuth (of -0.1E+09 deg) out of range or missing.
WARNING (from ropp_fm_roprof2obs (1D bending angles)): Check input data and valid_range attributes.
WARNING (from ropp_fm_roprof2obs (1D bending angles)): Continuing, as azimuth not needed directly for 1D bending angles.
INFO (from ropp_1dvar_bangle): Reading background data for profile 1 from the file
ROPP_testing/ropp_test_tmp/IT-1DVAR-05_b.nc.
INFO (from ropp_qc_bgqc): Background quality control lets all bending angle values pass.
INFO (from ropp_1dvar_solve): Using background error covariance matrix for preconditioning.
INFO (from ropp_1dvar_cost): Using absolute decrease of cost function and relative change
of state vector as additional convergence criteria.
n_iter = 1 J = 85.003 max(relative change in state) = -
n_iter = 2 J = 70.638 max(relative change in state) = 0.46977
n_iter = 3 J = 51.937 max(relative change in state) = 1.8920
INFO (from ropp_1dvar_cost): Convergence assumed to be achieved as the cost function is increasing
INFO (from ropp_1dvar_cost): Minimization of cost function successfully finished (according to additional
convergence criteria). Number of required iterations: 4.
INFO (from ropp_1dvar_bangle): Writing 1DVar retrieval for profile 1 to the file
ROPP_testing/ropp_test_tmp/IT-1DVAR-05.1.nc.
INFO (from ropp_1dvar_bangle): Reading observation data for profile 2 from the file
ROPP_testing/ropp_test_tmp/IT-1DVAR-05_y.nc.
WARNING (from ropp_fm_roprof2obs (1D bending angles)): Azimuth (of -0.1E+09 deg) out of range or missing.
WARNING (from ropp_fm_roprof2obs (1D bending angles)): Check input data and valid_range attributes.
WARNING (from ropp_fm_roprof2obs (1D bending angles)): Continuing, as azimuth not needed directly for 1D bending angles.
INFO (from ropp_1dvar_bangle): Reading background data for profile 2 from the file
ROPP_testing/ropp_test_tmp/IT-1DVAR-05_b.nc.
INFO (from ropp_qc_bgqc): Background quality control lets all bending angle values pass.
INFO (from ropp_1dvar_solve): Using background error covariance matrix for preconditioning.
INFO (from ropp_1dvar_cost): Using absolute decrease of cost function and relative change
of state vector as additional convergence criteria.
n_iter = 1 J = 129.84 max(relative change in state) = -
n_iter = 2 J = 109.24 max(relative change in state) = 0.91228
n_iter = 3 J = 90.454 max(relative change in state) = 1.3349
n_iter = 4 J = 88.266 max(relative change in state) = 0.45589
n_iter = 5 J = 92.243 max(relative change in state) = 1.3792
n_iter = 6 J = 88.051 max(relative change in state) = 1.1315
n_iter = 7 J = 87.995 max(relative change in state) = 0.14582E-01
n_iter = 8 J = 87.830 max(relative change in state) = 0.25599
INFO (from ropp_1dvar_cost): Convergence assumed to be achieved as the cost function is increasing
INFO (from ropp_1dvar_cost): Minimization of cost function successfully finished (according to additional
convergence criteria). Number of required iterations: 9.
INFO (from ropp_1dvar_bangle): Appending 1DVar retrieval for profile 2 to the file
ROPP_testing/ropp_test_tmp/IT-1DVAR-05.1.nc.
INFO (from ropp_1dvar_bangle): Reading observation data for profile 3 from the file
ROPP_testing/ropp_test_tmp/IT-1DVAR-05_y.nc.
WARNING (from ropp_fm_roprof2obs (1D bending angles)): Azimuth (of -0.1E+09 deg) out of range or missing.
WARNING (from ropp_fm_roprof2obs (1D bending angles)): Check input data and valid_range attributes.
WARNING (from ropp_fm_roprof2obs (1D bending angles)): Continuing, as azimuth not needed directly for 1D bending angles.
INFO (from ropp_1dvar_bangle): Reading background data for profile 3 from the file
ROPP_testing/ropp_test_tmp/IT-1DVAR-05_b.nc.
INFO (from ropp_qc_bgqc): Background quality control lets all bending angle values pass.
INFO (from ropp_1dvar_solve): Using background error covariance matrix for preconditioning.
INFO (from ropp_1dvar_cost): Using absolute decrease of cost function and relative change
of state vector as additional convergence criteria.
n_iter = 1 J = 52.907 max(relative change in state) = -
n_iter = 2 J = 43.799 max(relative change in state) = 0.39064
n_iter = 3 J = 31.419 max(relative change in state) = 1.2638
n_iter = 4 J = 30.687 max(relative change in state) = 0.19156
n_iter = 5 J = 32.085 max(relative change in state) = 0.67755
n_iter = 6 J = 30.530 max(relative change in state) = 0.52351
n_iter = 7 J = 30.494 max(relative change in state) = 0.13600E-01
n_iter = 8 J = 30.349 max(relative change in state) = 0.11401
n_iter = 9 J = 30.305 max(relative change in state) = 0.62257E-01
n_iter = 10 J = 30.294 max(relative change in state) = 0.56445E-01
INFO (from ropp_1dvar_cost): Convergence assumed to be achieved as the state vector did not change by more
than 0.10000 relative to the assumed background errors for the last 2 iterations.
INFO (from ropp_1dvar_solve): Minimization of cost function successfully finished (according to additional
convergence criteria). Number of required iterations: 10.
INFO (from ropp_1dvar_bangle): Appending 1DVar retrieval for profile 3 to the file
ROPP_testing/ropp_test_tmp/IT-1DVAR-05.1.nc.
INFO (from ropp_1dvar_bangle): Reading observation data for profile 4 from the file
ROPP_testing/ropp_test_tmp/IT-1DVAR-05_y.nc.
WARNING (from ropp_fm_roprof2obs (1D bending angles)): Azimuth (of -0.1E+09 deg) out of range or missing.
WARNING (from ropp_fm_roprof2obs (1D bending angles)): Check input data and valid_range attributes.
WARNING (from ropp_fm_roprof2obs (1D bending angles)): Continuing, as azimuth not needed directly for 1D bending angles.
INFO (from ropp_1dvar_bangle): Reading background data for profile 4 from the file
ROPP_testing/ropp_test_tmp/IT-1DVAR-05_b.nc.
INFO (from ropp_qc_bgqc): Background quality control lets all bending angle values pass.
INFO (from ropp_1dvar_solve): Using background error covariance matrix for preconditioning.
INFO (from ropp_1dvar_cost): Using absolute decrease of cost function and relative change
of state vector as additional convergence criteria.
n_iter = 1 J = 150.04 max(relative change in state) = -
n_iter = 2 J = 110.72 max(relative change in state) = 1.4862
n_iter = 3 J = 88.797 max(relative change in state) = 1.4215
n_iter = 4 J = 94.643 max(relative change in state) = 2.1393
n_iter = 5 J = 87.060 max(relative change in state) = 1.5408
n_iter = 6 J = 86.810 max(relative change in state) = 0.14684
n_iter = 7 J = 86.293 max(relative change in state) = 0.40703
n_iter = 8 J = 86.038 max(relative change in state) = 0.86701E-01
n_iter = 9 J = 86.143 max(relative change in state) = 0.33453
n_iter = 10 J = 85.920 max(relative change in state) = 0.12422
n_iter = 11 J = 85.904 max(relative change in state) = 0.57658E-01
n_iter = 12 J = 85.884 max(relative change in state) = 0.68735E-01
INFO (from ropp_1dvar_cost): Convergence assumed to be achieved as the state vector did not change by more
than 0.10000 relative to the assumed background errors for the last 2 iterations.
INFO (from ropp_1dvar_solve): Minimization of cost function successfully finished (according to additional
convergence criteria). Number of required iterations: 12.
INFO (from ropp_1dvar_bangle): Appending 1DVar retrieval for profile 4 to the file
ROPP_testing/ropp_test_tmp/IT-1DVAR-05.1.nc.
INFO (from ropp_1dvar_bangle): Reading observation data for profile 5 from the file
ROPP_testing/ropp_test_tmp/IT-1DVAR-05_y.nc.
WARNING (from ropp_fm_roprof2obs (1D bending angles)): Azimuth (of -0.1E+09 deg) out of range or missing.
WARNING (from ropp_fm_roprof2obs (1D bending angles)): Check input data and valid_range attributes.
WARNING (from ropp_fm_roprof2obs (1D bending angles)): Continuing, as azimuth not needed directly for 1D bending angles.
INFO (from ropp_1dvar_bangle): Reading background data for profile 5 from the file
ROPP_testing/ropp_test_tmp/IT-1DVAR-05_b.nc.
INFO (from ropp_qc_bgqc): Background quality control removes 1 bending angle data points from the
observations as their deviation from the background exceeds 10.0
times the expected (1-sigma) error.
INFO (from ropp_1dvar_solve): Using background error covariance matrix for preconditioning.
INFO (from ropp_1dvar_cost): Using absolute decrease of cost function and relative change
of state vector as additional convergence criteria.
n_iter = 1 J = 140.98 max(relative change in state) = -
n_iter = 2 J = 112.63 max(relative change in state) = 1.1403
n_iter = 3 J = 85.549 max(relative change in state) = 3.7594
n_iter = 4 J = 85.915 max(relative change in state) = 0.95658
n_iter = 5 J = 84.320 max(relative change in state) = 0.85539
n_iter = 6 J = 83.547 max(relative change in state) = 0.17975
n_iter = 7 J = 83.268 max(relative change in state) = 0.90645E-01
n_iter = 8 J = 83.109 max(relative change in state) = 0.10158
n_iter = 9 J = 82.773 max(relative change in state) = 0.16551
n_iter = 10 J = 82.617 max(relative change in state) = 0.78945E-01
n_iter = 11 J = 82.748 max(relative change in state) = 0.12044
n_iter = 12 J = 82.534 max(relative change in state) = 0.15789
n_iter = 13 J = 82.383 max(relative change in state) = 0.21796
n_iter = 14 J = 82.153 max(relative change in state) = 0.98988E-01
n_iter = 15 J = 82.147 max(relative change in state) = 0.13492
n_iter = 16 J = 82.059 max(relative change in state) = 0.36183E-01
INFO (from ropp_1dvar_cost): Convergence assumed to be achieved as the cost function did not change by more
than 0.10000 for the last 2 iterations.
INFO (from ropp_1dvar_solve): Minimization of cost function successfully finished (according to additional
convergence criteria). Number of required iterations: 16.
INFO (from ropp_1dvar_bangle): Appending 1DVar retrieval for profile 5 to the file
ROPP_testing/ropp_test_tmp/IT-1DVAR-05.1.nc.
INFO (from ropp_1dvar_bangle): Reading observation data for profile 6 from the file
ROPP_testing/ropp_test_tmp/IT-1DVAR-05_y.nc.
WARNING (from ropp_fm_roprof2obs (1D bending angles)): Azimuth (of -0.1E+09 deg) out of range or missing.
WARNING (from ropp_fm_roprof2obs (1D bending angles)): Check input data and valid_range attributes.
WARNING (from ropp_fm_roprof2obs (1D bending angles)): Continuing, as azimuth not needed directly for 1D bending angles.
INFO (from ropp_1dvar_bangle): Reading background data for profile 6 from the file
ROPP_testing/ropp_test_tmp/IT-1DVAR-05_b.nc.
INFO (from ropp_qc_bgqc): Background quality control lets all bending angle values pass.
INFO (from ropp_1dvar_solve): Using background error covariance matrix for preconditioning.
INFO (from ropp_1dvar_cost): Using absolute decrease of cost function and relative change
of state vector as additional convergence criteria.
n_iter = 1 J = 468.98 max(relative change in state) = -
n_iter = 2 J = 346.73 max(relative change in state) = 9.7346
n_iter = 3 J = 245.88 max(relative change in state) = 4.0022
n_iter = 4 J = 243.48 max(relative change in state) = 1.2033
n_iter = 5 J = 241.29 max(relative change in state) = 0.69768
n_iter = 6 J = 240.87 max(relative change in state) = 0.23185
n_iter = 7 J = 240.29 max(relative change in state) = 0.30652
n_iter = 8 J = 239.79 max(relative change in state) = 0.14373
INFO (from ropp_1dvar_cost): Convergence assumed to be achieved as the cost function is increasing
INFO (from ropp_1dvar_cost): Minimization of cost function successfully finished (according to additional
convergence criteria). Number of required iterations: 9.
INFO (from ropp_1dvar_bangle): Appending 1DVar retrieval for profile 6 to the file
ROPP_testing/ropp_test_tmp/IT-1DVAR-05.1.nc.
INFO (from ropp_1dvar_bangle): Reading observation data for profile 7 from the file
ROPP_testing/ropp_test_tmp/IT-1DVAR-05_y.nc.
WARNING (from ropp_fm_roprof2obs (1D bending angles)): Azimuth (of -0.1E+09 deg) out of range or missing.
WARNING (from ropp_fm_roprof2obs (1D bending angles)): Check input data and valid_range attributes.
WARNING (from ropp_fm_roprof2obs (1D bending angles)): Continuing, as azimuth not needed directly for 1D bending angles.
INFO (from ropp_1dvar_bangle): Reading background data for profile 7 from the file
ROPP_testing/ropp_test_tmp/IT-1DVAR-05_b.nc.
INFO (from ropp_qc_bgqc): Background quality control lets all bending angle values pass.
INFO (from ropp_1dvar_solve): Using background error covariance matrix for preconditioning.
INFO (from ropp_1dvar_cost): Using absolute decrease of cost function and relative change
of state vector as additional convergence criteria.
n_iter = 1 J = 115.99 max(relative change in state) = -
n_iter = 2 J = 96.769 max(relative change in state) = 0.77192
n_iter = 3 J = 77.939 max(relative change in state) = 1.4224
n_iter = 4 J = 76.716 max(relative change in state) = 0.42627
n_iter = 5 J = 75.972 max(relative change in state) = 0.30319
n_iter = 6 J = 75.910 max(relative change in state) = 0.70368E-01
n_iter = 7 J = 75.860 max(relative change in state) = 0.72340E-01
INFO (from ropp_1dvar_cost): Convergence assumed to be achieved as the state vector did not change by more
than 0.10000 relative to the assumed background errors for the last 2 iterations.
INFO (from ropp_1dvar_solve): Minimization of cost function successfully finished (according to additional
convergence criteria). Number of required iterations: 7.
INFO (from ropp_1dvar_bangle): Appending 1DVar retrieval for profile 7 to the file
ROPP_testing/ropp_test_tmp/IT-1DVAR-05.1.nc.
INFO (from ropp_1dvar_bangle): Reading observation data for profile 8 from the file
ROPP_testing/ropp_test_tmp/IT-1DVAR-05_y.nc.
WARNING (from ropp_fm_roprof2obs (1D bending angles)): Azimuth (of -0.1E+09 deg) out of range or missing.
WARNING (from ropp_fm_roprof2obs (1D bending angles)): Check input data and valid_range attributes.
WARNING (from ropp_fm_roprof2obs (1D bending angles)): Continuing, as azimuth not needed directly for 1D bending angles.
INFO (from ropp_1dvar_bangle): Reading background data for profile 8 from the file
ROPP_testing/ropp_test_tmp/IT-1DVAR-05_b.nc.
INFO (from ropp_qc_bgqc): Background quality control lets all bending angle values pass.
INFO (from ropp_1dvar_solve): Using background error covariance matrix for preconditioning.
INFO (from ropp_1dvar_cost): Using absolute decrease of cost function and relative change
of state vector as additional convergence criteria.
n_iter = 1 J = 123.26 max(relative change in state) = -
n_iter = 2 J = 103.06 max(relative change in state) = 0.76791
n_iter = 3 J = 81.001 max(relative change in state) = 2.3477
INFO (from ropp_1dvar_cost): Convergence assumed to be achieved as the cost function is increasing
INFO (from ropp_1dvar_cost): Minimization of cost function successfully finished (according to additional
convergence criteria). Number of required iterations: 4.
INFO (from ropp_1dvar_bangle): Appending 1DVar retrieval for profile 8 to the file
ROPP_testing/ropp_test_tmp/IT-1DVAR-05.1.nc.
INFO (from ropp_1dvar_bangle): Reading observation data for profile 9 from the file
ROPP_testing/ropp_test_tmp/IT-1DVAR-05_y.nc.
WARNING (from ropp_fm_roprof2obs (1D bending angles)): Azimuth (of -0.1E+09 deg) out of range or missing.
WARNING (from ropp_fm_roprof2obs (1D bending angles)): Check input data and valid_range attributes.
WARNING (from ropp_fm_roprof2obs (1D bending angles)): Continuing, as azimuth not needed directly for 1D bending angles.
INFO (from ropp_1dvar_bangle): Reading background data for profile 9 from the file
ROPP_testing/ropp_test_tmp/IT-1DVAR-05_b.nc.
INFO (from ropp_qc_bgqc): Background quality control lets all bending angle values pass.
INFO (from ropp_1dvar_solve): Using background error covariance matrix for preconditioning.
INFO (from ropp_1dvar_cost): Using absolute decrease of cost function and relative change
of state vector as additional convergence criteria.
n_iter = 1 J = 85.886 max(relative change in state) = -
n_iter = 2 J = 72.368 max(relative change in state) = 0.76692
n_iter = 3 J = 62.331 max(relative change in state) = 1.5337
n_iter = 4 J = 64.683 max(relative change in state) = 1.0663
n_iter = 5 J = 61.950 max(relative change in state) = 0.82093
n_iter = 6 J = 61.872 max(relative change in state) = 0.48925E-01
n_iter = 7 J = 61.665 max(relative change in state) = 0.18898
n_iter = 8 J = 61.614 max(relative change in state) = 0.84890E-01
n_iter = 9 J = 61.590 max(relative change in state) = 0.27529E-01
INFO (from ropp_1dvar_cost): Convergence assumed to be achieved as the state vector did not change by more
than 0.10000 relative to the assumed background errors for the last 2 iterations.
INFO (from ropp_1dvar_solve): Minimization of cost function successfully finished (according to additional
convergence criteria). Number of required iterations: 9.
INFO (from ropp_1dvar_bangle): Appending 1DVar retrieval for profile 9 to the file
ROPP_testing/ropp_test_tmp/IT-1DVAR-05.1.nc.
INFO (from ropp_1dvar_bangle): Reading observation data for profile 10 from the file
ROPP_testing/ropp_test_tmp/IT-1DVAR-05_y.nc.
WARNING (from ropp_fm_roprof2obs (1D bending angles)): Azimuth (of -0.1E+09 deg) out of range or missing.
WARNING (from ropp_fm_roprof2obs (1D bending angles)): Check input data and valid_range attributes.
WARNING (from ropp_fm_roprof2obs (1D bending angles)): Continuing, as azimuth not needed directly for 1D bending angles.
INFO (from ropp_1dvar_bangle): Reading background data for profile 10 from the file
ROPP_testing/ropp_test_tmp/IT-1DVAR-05_b.nc.
INFO (from ropp_qc_bgqc): Background quality control lets all bending angle values pass.
INFO (from ropp_1dvar_solve): Using background error covariance matrix for preconditioning.
INFO (from ropp_1dvar_cost): Using absolute decrease of cost function and relative change
of state vector as additional convergence criteria.
n_iter = 1 J = 53.521 max(relative change in state) = -
n_iter = 2 J = 44.831 max(relative change in state) = 0.48063
n_iter = 3 J = 35.480 max(relative change in state) = 1.1051
n_iter = 4 J = 35.364 max(relative change in state) = 0.45482
n_iter = 5 J = 34.613 max(relative change in state) = 0.28083
n_iter = 6 J = 34.567 max(relative change in state) = 0.10622
n_iter = 7 J = 34.540 max(relative change in state) = 0.63111E-01
INFO (from ropp_1dvar_cost): Convergence assumed to be achieved as the cost function did not change by more
than 0.10000 for the last 2 iterations.
INFO (from ropp_1dvar_solve): Minimization of cost function successfully finished (according to additional
convergence criteria). Number of required iterations: 7.
INFO (from ropp_1dvar_bangle): Appending 1DVar retrieval for profile 10 to the file
ROPP_testing/ropp_test_tmp/IT-1DVAR-05.1.nc.
Processing BA scenario: OC_20090501000049_META_G004_DMI_
Processing BA scenario: OC_20090501000102_META_G021_DMI_
Processing BA scenario: OC_20090501000152_META_G006_DMI_
Processing BA scenario: OC_20090501000623_META_G031_DMI_
Processing BA scenario: OC_20090501000755_META_G008_DMI_
Processing BA scenario: OC_20090501001552_META_G015_DMI_
Processing BA scenario: OC_20090501001716_META_G023_DMI_
Processing BA scenario: OC_20090501002017_META_G017_DMI_
Processing BA scenario: OC_20090501002135_META_G026_DMI_
Processing BA scenario: OC_20090501002245_META_G027_DMI_
--------------------------------------------------------------------
--------------------------------------------------------------------
Running command / platform: . ./.ropp_test gfortran_linux; ROPP_testing/ropp_1dvar/tools/ropp_1dvar_refrac_gfortran_linux -y ROPP_testing/ropp_test_tmp/IT-1DVAR-05_y.nc -b ROPP_testing/ropp_test_tmp/IT-1DVAR-05_b.nc --bg-corr ROPP_testing/ropp_test_tmp/IT-1DVAR-05_c.nc -o ROPP_testing/ropp_test_tmp/IT-1DVAR-05.2.nc -new_op / vld189
--------------------------------------------------------------------
--------------------------------------------------------------------
---------------------------------------------------------------------
ROPP Refractivity 1D-Var
---------------------------------------------------------------------
INFO (from ropp_1dvar_refrac): Reading observation data for profile 1 from the file
ROPP_testing/ropp_test_tmp/IT-1DVAR-05_y.nc.
INFO (from ropp_1dvar_refrac): Reading background data for profile 1 from the file
ROPP_testing/ropp_test_tmp/IT-1DVAR-05_b.nc.
INFO (from ropp_qc_bgqc): Background quality control lets all refractivity values pass.
INFO (from ropp_1dvar_solve): Using background error covariance matrix for preconditioning.
INFO (from ropp_1dvar_cost): Using absolute decrease of cost function and relative change
of state vector as additional convergence criterium.
n_iter = 1 J = 57.344 max(relative change in state) = -
n_iter = 2 J = 53.487 max(relative change in state) = 0.30089
n_iter = 3 J = 47.070 max(relative change in state) = 1.0286
n_iter = 4 J = 50.506 max(relative change in state) = 0.71323
n_iter = 5 J = 46.334 max(relative change in state) = 0.79457
INFO (from ropp_1dvar_cost): Convergence assumed to be achieved as the cost function is increasing
INFO (from ropp_1dvar_cost): Minimization of cost function successfully finished (according to additional
convergence criteria). Number of required iterations: 6.
INFO (from ropp_1dvar_refrac): Writing 1DVar retrieval for profile 1 to the file
ROPP_testing/ropp_test_tmp/IT-1DVAR-05.2.nc.
INFO (from ropp_1dvar_refrac): Reading observation data for profile 2 from the file
ROPP_testing/ropp_test_tmp/IT-1DVAR-05_y.nc.
INFO (from ropp_1dvar_refrac): Reading background data for profile 2 from the file
ROPP_testing/ropp_test_tmp/IT-1DVAR-05_b.nc.
INFO (from ropp_qc_bgqc): Background quality control lets all refractivity values pass.
INFO (from ropp_1dvar_solve): Using background error covariance matrix for preconditioning.
INFO (from ropp_1dvar_cost): Using absolute decrease of cost function and relative change
of state vector as additional convergence criterium.
n_iter = 1 J = 167.90 max(relative change in state) = -
n_iter = 2 J = 167.93 max(relative change in state) = 4.3382
n_iter = 3 J = 145.39 max(relative change in state) = 2.8101
n_iter = 4 J = 145.67 max(relative change in state) = 0.75191
n_iter = 5 J = 144.94 max(relative change in state) = 0.43010
n_iter = 6 J = 144.82 max(relative change in state) = 0.16337
n_iter = 7 J = 144.75 max(relative change in state) = 0.18258
n_iter = 8 J = 144.65 max(relative change in state) = 0.52738E-01
n_iter = 9 J = 144.30 max(relative change in state) = 0.50781
n_iter = 10 J = 144.57 max(relative change in state) = 0.10106
n_iter = 11 J = 144.26 max(relative change in state) = 0.56399E-01
n_iter = 12 J = 144.26 max(relative change in state) = 0.99766E-02
INFO (from ropp_1dvar_cost): Convergence assumed to be achieved as the state vector did not change by more
than 0.10000 relative to the assumed background errors for the last 2 iterations.
INFO (from ropp_1dvar_solve): Minimization of cost function successfully finished (according to additional
convergence criteria). Number of required iterations: 12.
INFO (from ropp_1dvar_refrac): Appending 1DVar retrieval for profile 2 to the file
ROPP_testing/ropp_test_tmp/IT-1DVAR-05.2.nc.
INFO (from ropp_1dvar_refrac): Reading observation data for profile 3 from the file
ROPP_testing/ropp_test_tmp/IT-1DVAR-05_y.nc.
INFO (from ropp_1dvar_refrac): Reading background data for profile 3 from the file
ROPP_testing/ropp_test_tmp/IT-1DVAR-05_b.nc.
INFO (from ropp_qc_bgqc): Background quality control lets all refractivity values pass.
INFO (from ropp_1dvar_solve): Using background error covariance matrix for preconditioning.
INFO (from ropp_1dvar_cost): Using absolute decrease of cost function and relative change
of state vector as additional convergence criterium.
n_iter = 1 J = 36.894 max(relative change in state) = -
n_iter = 2 J = 31.380 max(relative change in state) = 0.56595
n_iter = 3 J = 27.964 max(relative change in state) = 1.1452
n_iter = 4 J = 30.573 max(relative change in state) = 1.0718
n_iter = 5 J = 27.888 max(relative change in state) = 0.94334
n_iter = 6 J = 27.863 max(relative change in state) = 0.22390E-01
n_iter = 7 J = 27.799 max(relative change in state) = 0.25108
INFO (from ropp_1dvar_cost): Convergence assumed to be achieved as the cost function did not change by more
than 0.10000 for the last 2 iterations.
INFO (from ropp_1dvar_solve): Minimization of cost function successfully finished (according to additional
convergence criteria). Number of required iterations: 7.
INFO (from ropp_1dvar_refrac): Appending 1DVar retrieval for profile 3 to the file
ROPP_testing/ropp_test_tmp/IT-1DVAR-05.2.nc.
INFO (from ropp_1dvar_refrac): Reading observation data for profile 4 from the file
ROPP_testing/ropp_test_tmp/IT-1DVAR-05_y.nc.
INFO (from ropp_1dvar_refrac): Reading background data for profile 4 from the file
ROPP_testing/ropp_test_tmp/IT-1DVAR-05_b.nc.
INFO (from ropp_qc_bgqc): Background quality control lets all refractivity values pass.
INFO (from ropp_1dvar_solve): Using background error covariance matrix for preconditioning.
INFO (from ropp_1dvar_cost): Using absolute decrease of cost function and relative change
of state vector as additional convergence criterium.
n_iter = 1 J = 60.101 max(relative change in state) = -
n_iter = 2 J = 52.255 max(relative change in state) = 1.1109
n_iter = 3 J = 50.452 max(relative change in state) = 1.0855
n_iter = 4 J = 57.453 max(relative change in state) = 1.9143
n_iter = 5 J = 50.393 max(relative change in state) = 1.7335
n_iter = 6 J = 50.388 max(relative change in state) = 0.69267E-02
n_iter = 7 J = 50.353 max(relative change in state) = 0.86895E-01
INFO (from ropp_1dvar_cost): Convergence assumed to be achieved as the state vector did not change by more
than 0.10000 relative to the assumed background errors for the last 2 iterations.
INFO (from ropp_1dvar_solve): Minimization of cost function successfully finished (according to additional
convergence criteria). Number of required iterations: 7.
INFO (from ropp_1dvar_refrac): Appending 1DVar retrieval for profile 4 to the file
ROPP_testing/ropp_test_tmp/IT-1DVAR-05.2.nc.
INFO (from ropp_1dvar_refrac): Reading observation data for profile 5 from the file
ROPP_testing/ropp_test_tmp/IT-1DVAR-05_y.nc.
INFO (from ropp_1dvar_refrac): Reading background data for profile 5 from the file
ROPP_testing/ropp_test_tmp/IT-1DVAR-05_b.nc.
INFO (from ropp_qc_bgqc): Background quality control lets all refractivity values pass.
INFO (from ropp_1dvar_solve): Using background error covariance matrix for preconditioning.
INFO (from ropp_1dvar_cost): Using absolute decrease of cost function and relative change
of state vector as additional convergence criterium.
n_iter = 1 J = 152.06 max(relative change in state) = -
n_iter = 2 J = 116.26 max(relative change in state) = 1.2423
n_iter = 3 J = 71.167 max(relative change in state) = 5.1513
n_iter = 4 J = 76.259 max(relative change in state) = 0.72304
n_iter = 5 J = 76.965 max(relative change in state) = 0.92436
INFO (from ropp_1dvar_cost): Convergence assumed to be achieved as the cost function is increasing
INFO (from ropp_1dvar_cost): Minimization of cost function successfully finished (according to additional
convergence criteria). Number of required iterations: 6.
INFO (from ropp_1dvar_refrac): Appending 1DVar retrieval for profile 5 to the file
ROPP_testing/ropp_test_tmp/IT-1DVAR-05.2.nc.
INFO (from ropp_1dvar_refrac): Reading observation data for profile 6 from the file
ROPP_testing/ropp_test_tmp/IT-1DVAR-05_y.nc.
INFO (from ropp_1dvar_refrac): Reading background data for profile 6 from the file
ROPP_testing/ropp_test_tmp/IT-1DVAR-05_b.nc.
INFO (from ropp_qc_bgqc): Background quality control lets all refractivity values pass.
INFO (from ropp_1dvar_solve): Using background error covariance matrix for preconditioning.
INFO (from ropp_1dvar_cost): Using absolute decrease of cost function and relative change
of state vector as additional convergence criterium.
n_iter = 1 J = 161.18 max(relative change in state) = -
n_iter = 2 J = 140.81 max(relative change in state) = 1.0747
n_iter = 3 J = 129.54 max(relative change in state) = 1.7752
n_iter = 4 J = 145.02 max(relative change in state) = 2.9850
n_iter = 5 J = 127.59 max(relative change in state) = 2.5912
n_iter = 6 J = 126.11 max(relative change in state) = 0.11553
n_iter = 7 J = 125.98 max(relative change in state) = 0.23451
n_iter = 8 J = 125.15 max(relative change in state) = 0.79934E-01
n_iter = 9 J = 124.75 max(relative change in state) = 0.19410
n_iter = 10 J = 124.39 max(relative change in state) = 0.12628
INFO (from ropp_1dvar_cost): Convergence assumed to be achieved as the cost function is increasing
INFO (from ropp_1dvar_cost): Minimization of cost function successfully finished (according to additional
convergence criteria). Number of required iterations: 11.
INFO (from ropp_1dvar_refrac): Appending 1DVar retrieval for profile 6 to the file
ROPP_testing/ropp_test_tmp/IT-1DVAR-05.2.nc.
INFO (from ropp_1dvar_refrac): Reading observation data for profile 7 from the file
ROPP_testing/ropp_test_tmp/IT-1DVAR-05_y.nc.
INFO (from ropp_1dvar_refrac): Reading background data for profile 7 from the file
ROPP_testing/ropp_test_tmp/IT-1DVAR-05_b.nc.
INFO (from ropp_qc_bgqc): Background quality control lets all refractivity values pass.
INFO (from ropp_1dvar_solve): Using background error covariance matrix for preconditioning.
INFO (from ropp_1dvar_cost): Using absolute decrease of cost function and relative change
of state vector as additional convergence criterium.
n_iter = 1 J = 56.547 max(relative change in state) = -
n_iter = 2 J = 49.143 max(relative change in state) = 1.1954
n_iter = 3 J = 47.475 max(relative change in state) = 0.97463
n_iter = 4 J = 48.680 max(relative change in state) = 0.94292
n_iter = 5 J = 47.449 max(relative change in state) = 0.84581
n_iter = 6 J = 47.442 max(relative change in state) = 0.13035E-01
n_iter = 7 J = 47.413 max(relative change in state) = 0.15511
INFO (from ropp_1dvar_cost): Convergence assumed to be achieved as the cost function did not change by more
than 0.10000 for the last 2 iterations.
INFO (from ropp_1dvar_solve): Minimization of cost function successfully finished (according to additional
convergence criteria). Number of required iterations: 7.
INFO (from ropp_1dvar_refrac): Appending 1DVar retrieval for profile 7 to the file
ROPP_testing/ropp_test_tmp/IT-1DVAR-05.2.nc.
INFO (from ropp_1dvar_refrac): Reading observation data for profile 8 from the file
ROPP_testing/ropp_test_tmp/IT-1DVAR-05_y.nc.
INFO (from ropp_1dvar_refrac): Reading background data for profile 8 from the file
ROPP_testing/ropp_test_tmp/IT-1DVAR-05_b.nc.
INFO (from ropp_qc_bgqc): Background quality control lets all refractivity values pass.
INFO (from ropp_1dvar_solve): Using background error covariance matrix for preconditioning.
INFO (from ropp_1dvar_cost): Using absolute decrease of cost function and relative change
of state vector as additional convergence criterium.
n_iter = 1 J = 96.967 max(relative change in state) = -
n_iter = 2 J = 90.124 max(relative change in state) = 0.91684
n_iter = 3 J = 86.653 max(relative change in state) = 0.92785
n_iter = 4 J = 90.214 max(relative change in state) = 1.6378
n_iter = 5 J = 85.820 max(relative change in state) = 1.3650
n_iter = 6 J = 85.409 max(relative change in state) = 0.14905
n_iter = 7 J = 85.154 max(relative change in state) = 0.21392
n_iter = 8 J = 84.825 max(relative change in state) = 0.31952
n_iter = 9 J = 84.491 max(relative change in state) = 0.11525
n_iter = 10 J = 84.300 max(relative change in state) = 0.10830
n_iter = 11 J = 84.016 max(relative change in state) = 0.21296
INFO (from ropp_1dvar_cost): Convergence assumed to be achieved as the cost function is increasing
INFO (from ropp_1dvar_cost): Minimization of cost function successfully finished (according to additional
convergence criteria). Number of required iterations: 12.
INFO (from ropp_1dvar_refrac): Appending 1DVar retrieval for profile 8 to the file
ROPP_testing/ropp_test_tmp/IT-1DVAR-05.2.nc.
INFO (from ropp_1dvar_refrac): Reading observation data for profile 9 from the file
ROPP_testing/ropp_test_tmp/IT-1DVAR-05_y.nc.
INFO (from ropp_1dvar_refrac): Reading background data for profile 9 from the file
ROPP_testing/ropp_test_tmp/IT-1DVAR-05_b.nc.
INFO (from ropp_qc_bgqc): Background quality control lets all refractivity values pass.
INFO (from ropp_1dvar_solve): Using background error covariance matrix for preconditioning.
INFO (from ropp_1dvar_cost): Using absolute decrease of cost function and relative change
of state vector as additional convergence criterium.
n_iter = 1 J = 56.527 max(relative change in state) = -
n_iter = 2 J = 48.354 max(relative change in state) = 1.2909
n_iter = 3 J = 45.396 max(relative change in state) = 0.92564
n_iter = 4 J = 51.208 max(relative change in state) = 1.8325
n_iter = 5 J = 45.310 max(relative change in state) = 1.6376
n_iter = 6 J = 45.289 max(relative change in state) = 0.15157E-01
n_iter = 7 J = 45.230 max(relative change in state) = 0.34050
INFO (from ropp_1dvar_cost): Convergence assumed to be achieved as the cost function did not change by more
than 0.10000 for the last 2 iterations.
INFO (from ropp_1dvar_solve): Minimization of cost function successfully finished (according to additional
convergence criteria). Number of required iterations: 7.
INFO (from ropp_1dvar_refrac): Appending 1DVar retrieval for profile 9 to the file
ROPP_testing/ropp_test_tmp/IT-1DVAR-05.2.nc.
INFO (from ropp_1dvar_refrac): Reading observation data for profile 10 from the file
ROPP_testing/ropp_test_tmp/IT-1DVAR-05_y.nc.
INFO (from ropp_1dvar_refrac): Reading background data for profile 10 from the file
ROPP_testing/ropp_test_tmp/IT-1DVAR-05_b.nc.
INFO (from ropp_qc_bgqc): Background quality control lets all refractivity values pass.
INFO (from ropp_1dvar_solve): Using background error covariance matrix for preconditioning.
INFO (from ropp_1dvar_cost): Using absolute decrease of cost function and relative change
of state vector as additional convergence criterium.
n_iter = 1 J = 114.88 max(relative change in state) = -
n_iter = 2 J = 104.70 max(relative change in state) = 2.0097
n_iter = 3 J = 102.28 max(relative change in state) = 0.77574
n_iter = 4 J = 104.96 max(relative change in state) = 1.0639
n_iter = 5 J = 101.78 max(relative change in state) = 0.86572
n_iter = 6 J = 101.64 max(relative change in state) = 0.66355E-01
n_iter = 7 J = 101.45 max(relative change in state) = 0.20745
n_iter = 8 J = 101.39 max(relative change in state) = 0.13750
n_iter = 9 J = 101.34 max(relative change in state) = 0.28400E-01
INFO (from ropp_1dvar_cost): Convergence assumed to be achieved as the cost function did not change by more
than 0.10000 for the last 2 iterations.
INFO (from ropp_1dvar_solve): Minimization of cost function successfully finished (according to additional
convergence criteria). Number of required iterations: 9.
INFO (from ropp_1dvar_refrac): Appending 1DVar retrieval for profile 10 to the file
ROPP_testing/ropp_test_tmp/IT-1DVAR-05.2.nc.
Processing REF scenario: OC_20090501000049_META_G004_DMI_
Processing REF scenario: OC_20090501000102_META_G021_DMI_
Processing REF scenario: OC_20090501000152_META_G006_DMI_
Processing REF scenario: OC_20090501000623_META_G031_DMI_
Processing REF scenario: OC_20090501000755_META_G008_DMI_
Processing REF scenario: OC_20090501001552_META_G015_DMI_
Processing REF scenario: OC_20090501001716_META_G023_DMI_
Processing REF scenario: OC_20090501002017_META_G017_DMI_
Processing REF scenario: OC_20090501002135_META_G026_DMI_
Processing REF scenario: OC_20090501002245_META_G027_DMI_
Found max difference [K] in BA temperature scenarios : 2.6990
Found max difference [g/kg] in BA specific humidity scenarios: 0.5907
Found max difference [hPa] in BA pressure scenarios : 5.0527
Simplified BA cost function reduction (OC_20090501000049_META_G004_DMI_): 29.1%.
Simplified BA cost function reduction (OC_20090501000102_META_G021_DMI_): 24.3%.
Simplified BA cost function reduction (OC_20090501000152_META_G006_DMI_): 32.4%.
Simplified BA cost function reduction (OC_20090501000623_META_G031_DMI_): 40.9%.
Simplified BA cost function reduction (OC_20090501000755_META_G008_DMI_): 30.0%.
Simplified BA cost function reduction (OC_20090501001552_META_G015_DMI_): 45.3%.
Simplified BA cost function reduction (OC_20090501001716_META_G023_DMI_): 35.8%.
Simplified BA cost function reduction (OC_20090501002017_META_G017_DMI_): 25.5%.
Simplified BA cost function reduction (OC_20090501002135_META_G026_DMI_): 25.3%.
Simplified BA cost function reduction (OC_20090501002245_META_G027_DMI_): 27.1%.
Found max difference [K] in REF temperature scenarios : 4.1553
Found max difference [g/kg] in REF specific humidity scenarios: 0.6170
Found max difference [hPa] in REF pressure scenarios : 6.1752
Simplified REF cost function reduction (OC_20090501000049_META_G004_DMI_): 29.5%.
Simplified REF cost function reduction (OC_20090501000102_META_G021_DMI_): 33.9%.
Simplified REF cost function reduction (OC_20090501000152_META_G006_DMI_): 32.9%.
Simplified REF cost function reduction (OC_20090501000623_META_G031_DMI_): 24.2%.
Simplified REF cost function reduction (OC_20090501000755_META_G008_DMI_): 14.4%.
Simplified REF cost function reduction (OC_20090501001552_META_G015_DMI_): 38.0%.
Simplified REF cost function reduction (OC_20090501001716_META_G023_DMI_): 24.9%.
Simplified REF cost function reduction (OC_20090501002017_META_G017_DMI_): 39.7%.
Simplified REF cost function reduction (OC_20090501002135_META_G026_DMI_): 35.5%.
Simplified REF cost function reduction (OC_20090501002245_META_G027_DMI_): 26.9%.
Found max difference [K] in BA_newop temperature scenarios : 2.7033
Found max difference [g/kg] in BA_newop specific humidity scenarios: 0.5905
Found max difference [hPa] in BA_newop pressure scenarios : 5.2022
Simplified BA cost function reduction (OC_20090501000049_META_G004_DMI_): 29.1%.
Simplified BA cost function reduction (OC_20090501000102_META_G021_DMI_): 24.4%.
Simplified BA cost function reduction (OC_20090501000152_META_G006_DMI_): 32.4%.
Simplified BA cost function reduction (OC_20090501000623_META_G031_DMI_): 40.9%.
Simplified BA cost function reduction (OC_20090501000755_META_G008_DMI_): 26.4%.
Simplified BA cost function reduction (OC_20090501001552_META_G015_DMI_): 44.5%.
Simplified BA cost function reduction (OC_20090501001716_META_G023_DMI_): 36.0%.
Simplified BA cost function reduction (OC_20090501002017_META_G017_DMI_): 25.6%.
Simplified BA cost function reduction (OC_20090501002135_META_G026_DMI_): 25.3%.
Simplified BA cost function reduction (OC_20090501002245_META_G027_DMI_): 27.1%.
Found max difference [K] in REF_newop temperature scenarios : 4.9087
Found max difference [g/kg] in REF_newop specific humidity scenarios: 0.5185
Found max difference [hPa] in REF_newop pressure scenarios : 6.2294
Simplified REF_newop cost function reduction (OC_20090501000049_META_G004_DMI_): 28.5%.
Simplified REF_newop cost function reduction (OC_20090501000102_META_G021_DMI_): 35.1%.
Simplified REF_newop cost function reduction (OC_20090501000152_META_G006_DMI_): 32.6%.
Simplified REF_newop cost function reduction (OC_20090501000623_META_G031_DMI_): 24.3%.
Simplified REF_newop cost function reduction (OC_20090501000755_META_G008_DMI_): 13.6%.
Simplified REF_newop cost function reduction (OC_20090501001552_META_G015_DMI_): 35.9%.
Simplified REF_newop cost function reduction (OC_20090501001716_META_G023_DMI_): 24.8%.
Simplified REF_newop cost function reduction (OC_20090501002017_META_G017_DMI_): 40.0%.
Simplified REF_newop cost function reduction (OC_20090501002135_META_G026_DMI_): 35.8%.
Simplified REF_newop cost function reduction (OC_20090501002245_META_G027_DMI_): 27.1%.
--------------------------------------------------------------------
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Running processing time average
--------------------------------------------------------------------
--------------------------------------------------------------------
Time call 0, processing time found: 2.8000000
Time call 1, processing time found: 2.6300000
Time call 2, processing time found: 2.6400000
Time call 3, processing time found: 2.6600000
Time call 4, processing time found: 2.7500000
Average processing time [s]: 2.696
End of test: Mon Sep 21 14:44:59 2020, test done by: Ian Culverwell
Generating log file: ~/ROPP_testing/ropp_test/html/versions/10.0/logs/IT-1DVAR-05_gfortran_linux.html