Ticket #646: IT-1DVAR-03_gfortran_linux_ROPP10.html

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  Start of test: Mon Sep 21 14:38:08 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-03
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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-03_y.nc -b  ROPP_testing/ropp_test_tmp/IT-1DVAR-03_b.nc --bg-corr  ROPP_testing/ropp_test_tmp/IT-1DVAR-03_c.nc -o  ROPP_testing/ropp_test_tmp/IT-1DVAR-03.1.nc / vld189
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                   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-03_y.nc.

INFO (from ropp_1dvar_bangle):  Reading background data for profile 1 from the file
       ROPP_testing/ropp_test_tmp/IT-1DVAR-03_b.nc.

INFO (from ropp_qc_cutoff):  4 points rejected for being above maximum impact height of 60.0 km.

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 = 206.08            max(relative change in state) =  -
      n_iter =    2   J = 119.99            max(relative change in state) = 0.34101
      n_iter =    3   J = 63.160            max(relative change in state) = 0.55012
      n_iter =    4   J = 50.929            max(relative change in state) = 0.18262
      n_iter =    5   J = 42.314            max(relative change in state) = 0.12822
      n_iter =    6   J = 32.378            max(relative change in state) = 0.20368
      n_iter =    7   J = 27.748            max(relative change in state) = 0.16416
      n_iter =    8   J = 23.770            max(relative change in state) = 0.92587E-01
      n_iter =    9   J = 19.958            max(relative change in state) = 0.14694
      n_iter =   10   J = 16.197            max(relative change in state) = 0.20782
      n_iter =   11   J = 14.819            max(relative change in state) = 0.11343
      n_iter =   12   J = 13.724            max(relative change in state) = 0.30200E-01
      n_iter =   13   J = 13.173            max(relative change in state) = 0.19778E-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: 13.

INFO (from ropp_1dvar_bangle):  Writing 1DVar retrieval for profile 1 to the file
       ROPP_testing/ropp_test_tmp/IT-1DVAR-03.1.nc.

INFO (from ropp_1dvar_bangle):  Reading observation data for profile 2 from the file
       ROPP_testing/ropp_test_tmp/IT-1DVAR-03_y.nc.

INFO (from ropp_1dvar_bangle):  Reading background data for profile 2 from the file
       ROPP_testing/ropp_test_tmp/IT-1DVAR-03_b.nc.

INFO (from ropp_qc_cutoff):  4 points rejected for being above maximum impact height of 60.0 km.

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 = 143.36            max(relative change in state) =  -
      n_iter =    2   J = 117.92            max(relative change in state) = 0.12460
      n_iter =    3   J = 53.608            max(relative change in state) = 0.65005
      n_iter =    4   J = 40.597            max(relative change in state) = 0.23016
      n_iter =    5   J = 32.901            max(relative change in state) = 0.19553
      n_iter =    6   J = 26.525            max(relative change in state) = 0.14635
      n_iter =    7   J = 19.990            max(relative change in state) = 0.22886
      n_iter =    8   J = 18.552            max(relative change in state) = 0.19856
      n_iter =    9   J = 15.712            max(relative change in state) = 0.82515E-01
      n_iter =   10   J = 15.044            max(relative change in state) = 0.28007E-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 2 to the file
       ROPP_testing/ropp_test_tmp/IT-1DVAR-03.1.nc.

INFO (from ropp_1dvar_bangle):  Reading observation data for profile 3 from the file
       ROPP_testing/ropp_test_tmp/IT-1DVAR-03_y.nc.

INFO (from ropp_1dvar_bangle):  Reading background data for profile 3 from the file
       ROPP_testing/ropp_test_tmp/IT-1DVAR-03_b.nc.

INFO (from ropp_qc_cutoff):  4 points rejected for being above maximum impact height of 60.0 km.

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 = 83.120            max(relative change in state) =  -
      n_iter =    2   J = 68.005            max(relative change in state) = 0.12063
      n_iter =    3   J = 28.500            max(relative change in state) = 0.59408
      n_iter =    4   J = 22.374            max(relative change in state) = 0.19541
      n_iter =    5   J = 16.241            max(relative change in state) = 0.30500
      n_iter =    6   J = 14.263            max(relative change in state) = 0.34340
      n_iter =    7   J = 12.307            max(relative change in state) = 0.86619E-01
      n_iter =    8   J = 11.708            max(relative change in state) = 0.43776E-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: 8.

INFO (from ropp_1dvar_bangle):  Appending 1DVar retrieval for profile 3 to the file
       ROPP_testing/ropp_test_tmp/IT-1DVAR-03.1.nc.

INFO (from ropp_1dvar_bangle):  Reading observation data for profile 4 from the file
       ROPP_testing/ropp_test_tmp/IT-1DVAR-03_y.nc.

INFO (from ropp_1dvar_bangle):  Reading background data for profile 4 from the file
       ROPP_testing/ropp_test_tmp/IT-1DVAR-03_b.nc.

INFO (from ropp_qc_cutoff):  4 points rejected for being above maximum impact height of 60.0 km.

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 = 108.24            max(relative change in state) =  -
      n_iter =    2   J = 88.731            max(relative change in state) = 0.12758
      n_iter =    3   J = 38.465            max(relative change in state) = 0.71729
      n_iter =    4   J = 30.264            max(relative change in state) = 0.18672
      n_iter =    5   J = 23.999            max(relative change in state) = 0.15241
      n_iter =    6   J = 17.885            max(relative change in state) = 0.19449
      n_iter =    7   J = 14.730            max(relative change in state) = 0.22415
      n_iter =    8   J = 12.812            max(relative change in state) = 0.11170
      n_iter =    9   J = 11.971            max(relative change in state) = 0.26351E-01
      n_iter =   10   J = 9.9401            max(relative change in state) = 0.10254
      n_iter =   11   J = 9.4066            max(relative change in state) = 0.87693E-01
      n_iter =   12   J = 9.1388            max(relative change in state) = 0.49718E-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-03.1.nc.

INFO (from ropp_1dvar_bangle):  Reading observation data for profile 5 from the file
       ROPP_testing/ropp_test_tmp/IT-1DVAR-03_y.nc.

INFO (from ropp_1dvar_bangle):  Reading background data for profile 5 from the file
       ROPP_testing/ropp_test_tmp/IT-1DVAR-03_b.nc.

INFO (from ropp_qc_cutoff):  4 points rejected for being above maximum impact height of 60.0 km.

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 = 77.715            max(relative change in state) =  -
      n_iter =    2   J = 63.647            max(relative change in state) = 0.14739
      n_iter =    3   J = 27.961            max(relative change in state) = 0.59717
      n_iter =    4   J = 22.336            max(relative change in state) = 0.25185
      n_iter =    5   J = 16.436            max(relative change in state) = 0.39137
      n_iter =    6   J = 13.498            max(relative change in state) = 0.60202
      n_iter =    7   J = 12.783            max(relative change in state) = 0.20916
      n_iter =    8   J = 12.198            max(relative change in state) = 0.76801E-01
      n_iter =    9   J = 11.996            max(relative change in state) = 0.35103E-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 5 to the file
       ROPP_testing/ropp_test_tmp/IT-1DVAR-03.1.nc.

INFO (from ropp_1dvar_bangle):  Reading observation data for profile 6 from the file
       ROPP_testing/ropp_test_tmp/IT-1DVAR-03_y.nc.

INFO (from ropp_1dvar_bangle):  Reading background data for profile 6 from the file
       ROPP_testing/ropp_test_tmp/IT-1DVAR-03_b.nc.

INFO (from ropp_qc_cutoff):  4 points rejected for being above maximum impact height of 60.0 km.

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 = 95.324            max(relative change in state) =  -
      n_iter =    2   J = 77.977            max(relative change in state) = 0.14524
      n_iter =    3   J = 30.641            max(relative change in state) = 0.63340
      n_iter =    4   J = 23.711            max(relative change in state) = 0.13280
      n_iter =    5   J = 16.349            max(relative change in state) = 0.27531
      n_iter =    6   J = 13.473            max(relative change in state) = 0.22347
      n_iter =    7   J = 11.572            max(relative change in state) = 0.17603
      n_iter =    8   J = 10.287            max(relative change in state) = 0.18029
      n_iter =    9   J = 9.9036            max(relative change in state) = 0.11929
      n_iter =   10   J = 9.6054            max(relative change in state) = 0.48861E-01
      n_iter =   11   J = 9.4312            max(relative change in state) = 0.45787E-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 6 to the file
       ROPP_testing/ropp_test_tmp/IT-1DVAR-03.1.nc.

INFO (from ropp_1dvar_bangle):  Reading observation data for profile 7 from the file
       ROPP_testing/ropp_test_tmp/IT-1DVAR-03_y.nc.

INFO (from ropp_1dvar_bangle):  Reading background data for profile 7 from the file
       ROPP_testing/ropp_test_tmp/IT-1DVAR-03_b.nc.

INFO (from ropp_qc_cutoff):  4 points rejected for being above maximum impact height of 60.0 km.

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 = 91.306            max(relative change in state) =  -
      n_iter =    2   J = 74.698            max(relative change in state) = 0.10783
      n_iter =    3   J = 29.239            max(relative change in state) = 0.63875
      n_iter =    4   J = 21.339            max(relative change in state) = 0.17356
      n_iter =    5   J = 15.684            max(relative change in state) = 0.27563
      n_iter =    6   J = 13.612            max(relative change in state) = 0.20406
      n_iter =    7   J = 12.318            max(relative change in state) = 0.55234E-01
      n_iter =    8   J = 11.166            max(relative change in state) = 0.88454E-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: 8.

INFO (from ropp_1dvar_bangle):  Appending 1DVar retrieval for profile 7 to the file
       ROPP_testing/ropp_test_tmp/IT-1DVAR-03.1.nc.

INFO (from ropp_1dvar_bangle):  Reading observation data for profile 8 from the file
       ROPP_testing/ropp_test_tmp/IT-1DVAR-03_y.nc.

INFO (from ropp_1dvar_bangle):  Reading background data for profile 8 from the file
       ROPP_testing/ropp_test_tmp/IT-1DVAR-03_b.nc.

INFO (from ropp_qc_cutoff):  4 points rejected for being above maximum impact height of 60.0 km.

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 = 99.544            max(relative change in state) =  -
      n_iter =    2   J = 81.357            max(relative change in state) = 0.13734
      n_iter =    3   J = 31.027            max(relative change in state) = 0.70028
      n_iter =    4   J = 24.531            max(relative change in state) = 0.13395
      n_iter =    5   J = 18.911            max(relative change in state) = 0.15476
      n_iter =    6   J = 15.535            max(relative change in state) = 0.23075
      n_iter =    7   J = 13.285            max(relative change in state) = 0.13908
      n_iter =    8   J = 11.958            max(relative change in state) = 0.12008
      n_iter =    9   J = 11.227            max(relative change in state) = 0.18720
      n_iter =   10   J = 10.439            max(relative change in state) = 0.51445E-01
      n_iter =   11   J = 10.307            max(relative change in state) = 0.12380E-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 8 to the file
       ROPP_testing/ropp_test_tmp/IT-1DVAR-03.1.nc.



   Processing BA scenario: FASCOD_TRO






   Processing BA scenario: FASCOD_MLS






   Processing BA scenario: FASCOD_MLW






   Processing BA scenario: FASCOD_SAS






   Processing BA scenario: FASCOD_SAW






   Processing BA scenario: DUCTING_00






   Processing BA scenario: DUCTING_01






   Processing BA scenario: DUCTING_02







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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-03_y.nc -b  ROPP_testing/ropp_test_tmp/IT-1DVAR-03_b.nc --bg-corr  ROPP_testing/ropp_test_tmp/IT-1DVAR-03_c.nc -o  ROPP_testing/ropp_test_tmp/IT-1DVAR-03.2.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-03_y.nc.

INFO (from ropp_1dvar_refrac):  Reading background data for profile 1 from the file
       ROPP_testing/ropp_test_tmp/IT-1DVAR-03_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 = 62.523            max(relative change in state) =  -
      n_iter =    2   J = 51.061            max(relative change in state) = 0.17528
      n_iter =    3   J = 18.386            max(relative change in state) = 0.89550
      n_iter =    4   J = 13.642            max(relative change in state) = 0.22620
      n_iter =    5   J = 9.1789            max(relative change in state) = 0.33569
      n_iter =    6   J = 8.1878            max(relative change in state) = 0.25155
      n_iter =    7   J = 7.6714            max(relative change in state) = 0.96797E-01
      n_iter =    8   J = 7.5742            max(relative change in state) = 0.36383E-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: 8.

INFO (from ropp_1dvar_refrac):  Writing 1DVar retrieval for profile 1 to the file
       ROPP_testing/ropp_test_tmp/IT-1DVAR-03.2.nc.

INFO (from ropp_1dvar_refrac):  Reading observation data for profile 2 from the file
       ROPP_testing/ropp_test_tmp/IT-1DVAR-03_y.nc.

INFO (from ropp_1dvar_refrac):  Reading background data for profile 2 from the file
       ROPP_testing/ropp_test_tmp/IT-1DVAR-03_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 = 50.379            max(relative change in state) =  -
      n_iter =    2   J = 41.095            max(relative change in state) = 0.17382
      n_iter =    3   J = 13.617            max(relative change in state) = 0.92139
      n_iter =    4   J = 10.535            max(relative change in state) = 0.22291
      n_iter =    5   J = 7.7792            max(relative change in state) = 0.43987
      n_iter =    6   J = 7.6869            max(relative change in state) = 0.14378
      n_iter =    7   J = 7.5649            max(relative change in state) = 0.55837E-01
      n_iter =    8   J = 7.5610            max(relative change in state) = 0.75134E-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: 8.

INFO (from ropp_1dvar_refrac):  Appending 1DVar retrieval for profile 2 to the file
       ROPP_testing/ropp_test_tmp/IT-1DVAR-03.2.nc.

INFO (from ropp_1dvar_refrac):  Reading observation data for profile 3 from the file
       ROPP_testing/ropp_test_tmp/IT-1DVAR-03_y.nc.

INFO (from ropp_1dvar_refrac):  Reading background data for profile 3 from the file
       ROPP_testing/ropp_test_tmp/IT-1DVAR-03_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 = 38.233            max(relative change in state) =  -
      n_iter =    2   J = 31.351            max(relative change in state) = 0.18157
      n_iter =    3   J = 14.727            max(relative change in state) = 0.55397
      n_iter =    4   J = 11.630            max(relative change in state) = 0.26762
      n_iter =    5   J = 9.9449            max(relative change in state) = 0.47031
      n_iter =    6   J = 9.4829            max(relative change in state) = 0.21284
      n_iter =    7   J = 9.2232            max(relative change in state) = 0.72068E-01
      n_iter =    8   J = 9.1755            max(relative change in state) = 0.24597E-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: 8.

INFO (from ropp_1dvar_refrac):  Appending 1DVar retrieval for profile 3 to the file
       ROPP_testing/ropp_test_tmp/IT-1DVAR-03.2.nc.

INFO (from ropp_1dvar_refrac):  Reading observation data for profile 4 from the file
       ROPP_testing/ropp_test_tmp/IT-1DVAR-03_y.nc.

INFO (from ropp_1dvar_refrac):  Reading background data for profile 4 from the file
       ROPP_testing/ropp_test_tmp/IT-1DVAR-03_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 = 44.867            max(relative change in state) =  -
      n_iter =    2   J = 36.553            max(relative change in state) = 0.16127
      n_iter =    3   J = 11.661            max(relative change in state) = 0.97462
      n_iter =    4   J = 9.2106            max(relative change in state) = 0.23181
      n_iter =    5   J = 8.5669            max(relative change in state) = 0.38011
      n_iter =    6   J = 7.9524            max(relative change in state) = 0.20421
      n_iter =    7   J = 7.8982            max(relative change in state) = 0.30328E-01
      n_iter =    8   J = 7.8887            max(relative change in state) = 0.82621E-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: 8.

INFO (from ropp_1dvar_refrac):  Appending 1DVar retrieval for profile 4 to the file
       ROPP_testing/ropp_test_tmp/IT-1DVAR-03.2.nc.

INFO (from ropp_1dvar_refrac):  Reading observation data for profile 5 from the file
       ROPP_testing/ropp_test_tmp/IT-1DVAR-03_y.nc.

INFO (from ropp_1dvar_refrac):  Reading background data for profile 5 from the file
       ROPP_testing/ropp_test_tmp/IT-1DVAR-03_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 = 36.727            max(relative change in state) =  -
      n_iter =    2   J = 30.169            max(relative change in state) = 0.19158
      n_iter =    3   J = 15.426            max(relative change in state) = 0.52327
      n_iter =    4   J = 12.636            max(relative change in state) = 0.25878
      n_iter =    5   J = 10.254            max(relative change in state) = 0.66683
      n_iter =    6   J = 10.041            max(relative change in state) = 0.26894
      n_iter =    7   J = 9.6296            max(relative change in state) = 0.10533
      n_iter =    8   J = 9.5775            max(relative change in state) = 0.27383E-01
      n_iter =    9   J = 9.5108            max(relative change in state) = 0.36448E-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_refrac):  Appending 1DVar retrieval for profile 5 to the file
       ROPP_testing/ropp_test_tmp/IT-1DVAR-03.2.nc.

INFO (from ropp_1dvar_refrac):  Reading observation data for profile 6 from the file
       ROPP_testing/ropp_test_tmp/IT-1DVAR-03_y.nc.

INFO (from ropp_1dvar_refrac):  Reading background data for profile 6 from the file
       ROPP_testing/ropp_test_tmp/IT-1DVAR-03_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 = 43.919            max(relative change in state) =  -
      n_iter =    2   J = 35.885            max(relative change in state) = 0.16013
      n_iter =    3   J = 13.705            max(relative change in state) = 0.69759
      n_iter =    4   J = 11.051            max(relative change in state) = 0.18812
      n_iter =    5   J = 8.7436            max(relative change in state) = 0.36790
      n_iter =    6   J = 8.5006            max(relative change in state) = 0.21980
      n_iter =    7   J = 8.1684            max(relative change in state) = 0.10598
      n_iter =    8   J = 8.1401            max(relative change in state) = 0.11309E-01
      n_iter =    9   J = 8.1041            max(relative change in state) = 0.32367E-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_refrac):  Appending 1DVar retrieval for profile 6 to the file
       ROPP_testing/ropp_test_tmp/IT-1DVAR-03.2.nc.

INFO (from ropp_1dvar_refrac):  Reading observation data for profile 7 from the file
       ROPP_testing/ropp_test_tmp/IT-1DVAR-03_y.nc.

INFO (from ropp_1dvar_refrac):  Reading background data for profile 7 from the file
       ROPP_testing/ropp_test_tmp/IT-1DVAR-03_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 = 42.124            max(relative change in state) =  -
      n_iter =    2   J = 34.405            max(relative change in state) = 0.13347
      n_iter =    3   J = 13.574            max(relative change in state) = 0.66513
      n_iter =    4   J = 11.093            max(relative change in state) = 0.20171
      n_iter =    5   J = 9.4859            max(relative change in state) = 0.30623
      n_iter =    6   J = 8.9340            max(relative change in state) = 0.14062
      n_iter =    7   J = 8.7620            max(relative change in state) = 0.47041E-01
      n_iter =    8   J = 8.6649            max(relative change in state) = 0.72348E-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: 8.

INFO (from ropp_1dvar_refrac):  Appending 1DVar retrieval for profile 7 to the file
       ROPP_testing/ropp_test_tmp/IT-1DVAR-03.2.nc.

INFO (from ropp_1dvar_refrac):  Reading observation data for profile 8 from the file
       ROPP_testing/ropp_test_tmp/IT-1DVAR-03_y.nc.

INFO (from ropp_1dvar_refrac):  Reading background data for profile 8 from the file
       ROPP_testing/ropp_test_tmp/IT-1DVAR-03_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 = 43.462            max(relative change in state) =  -
      n_iter =    2   J = 35.487            max(relative change in state) = 0.12549
      n_iter =    3   J = 13.575            max(relative change in state) = 0.71702
      n_iter =    4   J = 11.067            max(relative change in state) = 0.19221
      n_iter =    5   J = 9.4600            max(relative change in state) = 0.31047
      n_iter =    6   J = 8.8203            max(relative change in state) = 0.20050
      n_iter =    7   J = 8.6415            max(relative change in state) = 0.43538E-01
      n_iter =    8   J = 8.5656            max(relative change in state) = 0.38451E-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: 8.

INFO (from ropp_1dvar_refrac):  Appending 1DVar retrieval for profile 8 to the file
       ROPP_testing/ropp_test_tmp/IT-1DVAR-03.2.nc.



   Processing REF scenario: FASCOD_TRO






   Processing REF scenario: FASCOD_MLS






   Processing REF scenario: FASCOD_MLW






   Processing REF scenario: FASCOD_SAS






   Processing REF scenario: FASCOD_SAW






   Processing REF scenario: DUCTING_00






   Processing REF scenario: DUCTING_01






   Processing REF scenario: DUCTING_02






   Found max difference [K] in BA temperature scenarios      :       2.5010






   Found max difference [%] in BA specific humidity scenarios:      12.1800






   Found max difference [%] in BA pressure scenarios         :       0.9198






   Simplified BA cost function reduction (FASCOD_TRO):   90.8%.






   Simplified BA cost function reduction (FASCOD_MLS):   85.5%.






   Simplified BA cost function reduction (FASCOD_MLW):   75.2%.






   Simplified BA cost function reduction (FASCOD_SAS):   89.3%.






   Simplified BA cost function reduction (FASCOD_SAW):   71.9%.






   Simplified BA cost function reduction (DUCTING_00):   83.6%.






   Simplified BA cost function reduction (DUCTING_01):   75.2%.






   Simplified BA cost function reduction (DUCTING_02):   82.9%.






   Found max difference [K] in REF temperature scenarios      :       2.2784






   Found max difference [%] in REF specific humidity scenarios:      12.2305






   Found max difference [%] in REF pressure scenarios         :       0.9401






   Simplified REF cost function reduction (FASCOD_TRO):   86.6%.






   Simplified REF cost function reduction (FASCOD_MLS):   84.0%.






   Simplified REF cost function reduction (FASCOD_MLW):   62.7%.






   Simplified REF cost function reduction (FASCOD_SAS):   81.3%.






   Simplified REF cost function reduction (FASCOD_SAW):   49.0%.






   Simplified REF cost function reduction (DUCTING_00):   74.1%.






   Simplified REF cost function reduction (DUCTING_01):   69.5%.






   Simplified REF cost function reduction (DUCTING_02):   71.5%.







--------------------------------------------------------------------
--------------------------------------------------------------------
      Running processing time average
--------------------------------------------------------------------
--------------------------------------------------------------------



Time call   0, processing time found:        1.9700000
Time call   1, processing time found:        1.9900000
Time call   2, processing time found:        1.9300000
Time call   3, processing time found:        2.0100000
Time call   4, processing time found:        2.0000000


      Average processing time [s]:                1.980






      End of test: Mon Sep 21 14:39:51 2020, test done by: Ian Culverwell






      Generating log file:  ~/ROPP_testing/ropp_test/html/versions/10.0/logs/IT-1DVAR-03_gfortran_linux.html






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