
--- Start of IFS output from processor    1 ----------------------------------
 TIME OF START= 18:10:38.798

 ---- Set up Background fields ------------------------------------ 
OPENFA: REFERENCE DATA TO BE READ FROM FILE
OPENFA:           2 ICMRFMINI0000
 YOU READ FIELDS OF THE :            4             1          2018
  HOUR AND MINUTE :           18              0
  FORECAST RANGE IN HOURS :            3
  SECONDS IN THE DAY :       75600
  IN HOUR         :          21
  HAF, HAF : CADRE : CADRE LECTURE   
 FILE HAS REDUCED GRID 
  FILE DOES NOT CONTAINS THE POLES 
 FILE HAS GAUSSIAN QUADRATURE
 FILE DOES NOT CONTAIN POLES 
 OROGRAPHY INITIALISED FROM SPECTRAL INPUT
OPENFA: MINIMIZATION DATA TO BE READ FROM FILE
OPENFA:           1 ICMSHMINIIMIN
 YOU READ FIELDS OF THE :            4             1          2018
  HOUR AND MINUTE :           18              0
  FORECAST RANGE IN HOURS :            3
  SECONDS IN THE DAY :       75600
  IN HOUR         :          21
  HAF, HAF : CADRE : CADRE LECTURE   
 FILE HAS REDUCED GRID 
  FILE DOES NOT CONTAINS THE POLES 
 FILE HAS GAUSSIAN QUADRATURE
 FILE DOES NOT CONTAIN POLES 
OPENFA: MINIMIZATION DATA TO BE READ FROM FILE
OPENFA:           1 ICMSHMINIIMIN
 YOU READ FIELDS OF THE :            4             1          2018
  HOUR AND MINUTE :           18              0
  FORECAST RANGE IN HOURS :            3
  SECONDS IN THE DAY :       75600
  IN HOUR         :          21
  HAF, HAF : CADRE : CADRE LECTURE   
 FILE HAS REDUCED GRID 
  FILE DOES NOT CONTAINS THE POLES 
 FILE HAS GAUSSIAN QUADRATURE
 FILE DOES NOT CONTAIN POLES 
 SUGRIDF: STATISTICS FOR ALL SURFACE FIELDS
 SOILB   3 FIELDS 
 GPNORM OUTPUT               AVERAGE               MINIMUM               MAXIMUM        
         AVE   0.286839553870864E+03 0.208420641422272E+03 0.315425794720650E+03
             1 0.286839553870864E+03 0.208420641422272E+03 0.315425794720650E+03
 GPNORM OUTPUT               AVERAGE               MINIMUM               MAXIMUM        
         AVE   0.580852159890932E+04 0.000000000000000E+00 0.800000000000000E+04
             1 0.580852159890932E+04 0.000000000000000E+00 0.800000000000000E+04
 GPNORM OUTPUT               AVERAGE               MINIMUM               MAXIMUM        
         AVE   0.568074816690020E+01 0.000000000000000E+00 0.150000000047612E+03
             1 0.568074816690020E+01 0.000000000000000E+00 0.150000000047612E+03
 SNOWG 
 GPNORM OUTPUT               AVERAGE               MINIMUM               MAXIMUM        
         AVE   0.731670345842171E+02 0.000000000000000E+00 0.206405646484375E+05
             1 0.291703472995449E+03 0.000000000000000E+00 0.206405646484375E+05
             2 0.842235804950645E+00 0.597341753542423E+00 0.850000000093132E+00
             3 0.122429536469182E+00 0.100000000000000E+00 0.300000000000000E+00
             4 0.000000000000000E+00 0.000000000000000E+00 0.000000000000000E+00
 RESVR 
 GPNORM OUTPUT               AVERAGE               MINIMUM               MAXIMUM        
         AVE   0.735346765401915E+02 0.000000000000000E+00 0.327724160552025E+03
             1 0.286261539890451E+03 0.204906109094620E+03 0.327724160552025E+03
             2 0.748258121086208E+01 0.000000000000000E+00 0.100000000000000E+02
             3 0.137660624938871E-01 0.000000000000000E+00 0.670611485044164E+00
             4 0.380818996958446E+00 0.000000000000000E+00 0.487830000110989E+01
 VARSF
 GPNORM OUTPUT               AVERAGE               MINIMUM               MAXIMUM        
         AVE   0.409229733621653E+02 -.157079632580280E+01 0.142762884576108E+05
             1 0.625817551253291E+01 0.980665000000000E-02 0.949828394811270E+03
             2 0.140452069740729E+00 0.579507732391357E-01 0.750000000000000E+00
             3 0.960697522207999E+00 0.943000000028405E+00 0.979999999981374E+00
             4 0.318780135119191E+03 0.000000000000000E+00 0.142762884576108E+05
             5 0.285271113095888E+00 0.000000000000000E+00 0.100000000000000E+01
             6 0.126698588571757E+00 0.000000000000000E+00 0.990000000223517E+00
             7 0.827719968483510E+00 0.000000000000000E+00 0.100000000000000E+01
             8 0.463700349878738E-02 -.157079632580280E+01 0.157079632580280E+01
 VCLIV
 GPNORM OUTPUT               AVERAGE               MINIMUM               MAXIMUM        
         AVE   0.382246061608828E+03 0.000000000000000E+00 0.500000000381470E+04
             1 0.858153600446578E+01 0.300000000000000E+01 0.580000000000000E+02
             2 0.172414478153389E+02 0.600000000000000E+01 0.920000000000000E+02
             3 0.614696631549321E+01 0.100000001490116E+00 0.800000000000000E+01
             4 0.161737920643973E+01 0.100000000000000E+01 0.400000000000000E+01
             5 0.378715254018874E+04 0.399999961853027E+02 0.500000000381470E+04
             6 0.470751919699202E+00 0.000000000000000E+00 0.600000000190448E+01
             7 0.863865500907394E+00 0.000000000000000E+00 0.100000000000000E+01
             8 0.178022879010974E+00 0.980665000000000E-03 0.394717269268577E+01
             9 0.126340645592087E+00 0.499999998737621E-01 0.800000000111822E+00
            10 0.817656125930560E-01 0.500000000000000E-01 0.250000000000000E+00
 VCLIA
 GPNORM OUTPUT               AVERAGE               MINIMUM               MAXIMUM        
         AVE   0.163185571773837E-01 0.609210924318559E-04 0.222567975055426E+00
             1 0.654212946604586E-02 0.609210924318559E-04 0.227097173025485E-01
             2 0.440316006428088E-01 0.569220725446939E-02 0.222567975055426E+00
             3 0.268140594761141E-02 0.616524924777924E-04 0.351090058970947E-01
             4 0.120190926530689E-01 0.748880632798956E-04 0.145313379435770E+00
 VO3ABC
 GPNORM OUTPUT               AVERAGE               MINIMUM               MAXIMUM        
         AVE   0.105635628845041E+04 0.461426525143906E-01 0.316600000000000E+04
             1 0.664998427792814E-01 0.461426525143906E-01 0.783450196613558E-01
             2 0.316599999999998E+04 0.316600000000000E+04 0.316600000000000E+04
             3 0.300236550846458E+01 0.287111673294567E+01 0.306174306385219E+01
 ---- Set up Jb gridpoint background error stdev --
 ---------------------------------- 
 IO-STREAM SETUP - IOTYPE =           2  NUMIOPROCS =           1  CPATH =
 errgrib MODE=r
 IO-STREAM CLOSED - errgrib
 MPI-TASK:   1 -    290417588 BYTES IN    421 RECORDS TRANSFERRED IN    0.3679 SECONDS   789.4 Mbytes/s, TOTAL TIME=    1.8885(19.5%)
 IO-STREAM SETUP - IOTYPE =           2  NUMIOPROCS =           1  CPATH =
 errgrib MODE=r
 IO-STREAM CLOSED - errgrib
 MPI-TASK:   1 -    290417588 BYTES IN    421 RECORDS TRANSFERRED IN    0.0901 SECONDS  3223.3 Mbytes/s, TOTAL TIME=    1.9433( 4.6%)

 SUINFCE WARNING: CLWC and CIWC not considered in  SPECRT convertion from T to Tv

 IO-STREAM SETUP - IOTYPE =           2  NUMIOPROCS =           1  CPATH =
 srenorm MODE=r
 IO-STREAM CLOSED - srenorm
 MPI-TASK:   1 -    290417588 BYTES IN    421 RECORDS TRANSFERRED IN    0.8800 SECONDS   330.0 Mbytes/s, TOTAL TIME=    2.2001(40.0%)
 IO-STREAM SETUP - IOTYPE =           2  NUMIOPROCS =           1  CPATH =
 srenorm MODE=r
 IO-STREAM CLOSED - srenorm
 MPI-TASK:   1 -    290417588 BYTES IN    421 RECORDS TRANSFERRED IN    0.0882 SECONDS  3292.7 Mbytes/s, TOTAL TIME=    1.7648( 5.0%)

 ----------------------------------------------------------------------- 
 ------ END OF SETUPS at level 0 --------------------------------------- 
 ----------------------------------------------------------------------- 
  
  
 VARIATIONAL JOB     1   131

 --- Variational job : setup initial fields ----------------------------
 MODEL FIELDS ARE INITIALIZED BY SU1YOM
OPENFA: MINIMIZATION DATA TO BE READ FROM FILE
OPENFA:           1 ICMSHMINIIMIN
 YOU READ FIELDS OF THE :            4             1          2018
  HOUR AND MINUTE :           18              0
  FORECAST RANGE IN HOURS :            3
  SECONDS IN THE DAY :       75600
  IN HOUR         :          21
  HAF, HAF : CADRE : CADRE LECTURE   
 FILE HAS REDUCED GRID 
  FILE DOES NOT CONTAINS THE POLES 
 FILE HAS GAUSSIAN QUADRATURE
 FILE DOES NOT CONTAIN POLES 
 OROGRAPHY INITIALISED FROM SPECTRAL INPUT
OPENFA: MINIMIZATION DATA TO BE READ FROM FILE
OPENFA:           1 ICMSHMINIIMIN
 YOU READ FIELDS OF THE :            4             1          2018
  HOUR AND MINUTE :           18              0
  FORECAST RANGE IN HOURS :            3
  SECONDS IN THE DAY :       75600
  IN HOUR         :          21
  HAF, HAF : CADRE : CADRE LECTURE   
 FILE HAS REDUCED GRID 
  FILE DOES NOT CONTAINS THE POLES 
 FILE HAS GAUSSIAN QUADRATURE
 FILE DOES NOT CONTAIN POLES 
 SUGRIDF: STATISTICS FOR ALL SURFACE FIELDS
 SOILB   3 FIELDS 
 GPNORM OUTPUT               AVERAGE               MINIMUM               MAXIMUM        
         AVE   0.286839553870864E+03 0.208420641422272E+03 0.315425794720650E+03
             1 0.286839553870864E+03 0.208420641422272E+03 0.315425794720650E+03
 GPNORM OUTPUT               AVERAGE               MINIMUM               MAXIMUM        
         AVE   0.580852159890932E+04 0.000000000000000E+00 0.800000000000000E+04
             1 0.580852159890932E+04 0.000000000000000E+00 0.800000000000000E+04
 GPNORM OUTPUT               AVERAGE               MINIMUM               MAXIMUM        
         AVE   0.568074816690020E+01 0.000000000000000E+00 0.150000000047612E+03
             1 0.568074816690020E+01 0.000000000000000E+00 0.150000000047612E+03
 SNOWG 
 GPNORM OUTPUT               AVERAGE               MINIMUM               MAXIMUM        
         AVE   0.731670345842171E+02 0.000000000000000E+00 0.206405646484375E+05
             1 0.291703472995449E+03 0.000000000000000E+00 0.206405646484375E+05
             2 0.842235804950645E+00 0.597341753542423E+00 0.850000000093132E+00
             3 0.122429536469182E+00 0.100000000000000E+00 0.300000000000000E+00
             4 0.000000000000000E+00 0.000000000000000E+00 0.000000000000000E+00
 RESVR 
 GPNORM OUTPUT               AVERAGE               MINIMUM               MAXIMUM        
         AVE   0.735346765401915E+02 0.000000000000000E+00 0.327724160552025E+03
             1 0.286261539890451E+03 0.204906109094620E+03 0.327724160552025E+03
             2 0.748258121086208E+01 0.000000000000000E+00 0.100000000000000E+02
             3 0.137660624938871E-01 0.000000000000000E+00 0.670611485044164E+00
             4 0.380818996958446E+00 0.000000000000000E+00 0.487830000110989E+01
 VARSF
 GPNORM OUTPUT               AVERAGE               MINIMUM               MAXIMUM        
         AVE   0.409229733621653E+02 -.157079632580280E+01 0.142762884576108E+05
             1 0.625817551253291E+01 0.980665000000000E-02 0.949828394811270E+03
             2 0.140452069740729E+00 0.579507732391357E-01 0.750000000000000E+00
             3 0.960697522207999E+00 0.943000000028405E+00 0.979999999981374E+00
             4 0.318780135119191E+03 0.000000000000000E+00 0.142762884576108E+05
             5 0.285271113095888E+00 0.000000000000000E+00 0.100000000000000E+01
             6 0.126698588571757E+00 0.000000000000000E+00 0.990000000223517E+00
             7 0.827719968483510E+00 0.000000000000000E+00 0.100000000000000E+01
             8 0.463700349878738E-02 -.157079632580280E+01 0.157079632580280E+01
 VCLIV
 GPNORM OUTPUT               AVERAGE               MINIMUM               MAXIMUM        
         AVE   0.382246061608828E+03 0.000000000000000E+00 0.500000000381470E+04
             1 0.858153600446578E+01 0.300000000000000E+01 0.580000000000000E+02
             2 0.172414478153389E+02 0.600000000000000E+01 0.920000000000000E+02
             3 0.614696631549321E+01 0.100000001490116E+00 0.800000000000000E+01
             4 0.161737920643973E+01 0.100000000000000E+01 0.400000000000000E+01
             5 0.378715254018874E+04 0.399999961853027E+02 0.500000000381470E+04
             6 0.470751919699202E+00 0.000000000000000E+00 0.600000000190448E+01
             7 0.863865500907394E+00 0.000000000000000E+00 0.100000000000000E+01
             8 0.178022879010974E+00 0.980665000000000E-03 0.394717269268577E+01
             9 0.126340645592087E+00 0.499999998737621E-01 0.800000000111822E+00
            10 0.817656125930560E-01 0.500000000000000E-01 0.250000000000000E+00
 VCLIA
 GPNORM OUTPUT               AVERAGE               MINIMUM               MAXIMUM        
         AVE   0.163185571773837E-01 0.609210924318559E-04 0.222567975055426E+00
             1 0.654212946604586E-02 0.609210924318559E-04 0.227097173025485E-01
             2 0.440316006428088E-01 0.569220725446939E-02 0.222567975055426E+00
             3 0.268140594761141E-02 0.616524924777924E-04 0.351090058970947E-01
             4 0.120190926530689E-01 0.748880632798956E-04 0.145313379435770E+00
 VO3ABC
 GPNORM OUTPUT               AVERAGE               MINIMUM               MAXIMUM        
         AVE   0.105635628845041E+04 0.461426525143906E-01 0.316600000000000E+04
             1 0.664998427792814E-01 0.461426525143906E-01 0.783450196613558E-01
             2 0.316599999999998E+04 0.316600000000000E+04 0.316600000000000E+04
             3 0.300236550846458E+01 0.287111673294567E+01 0.306174306385219E+01
OPENFA: MINIMIZATION DATA TO BE READ FROM FILE
OPENFA:           1 ICMSHMINIIMIN
 YOU READ FIELDS OF THE :            4             1          2018
  HOUR AND MINUTE :           18              0
  FORECAST RANGE IN HOURS :            3
  SECONDS IN THE DAY :       75600
  IN HOUR         :          21
  HAF, HAF : CADRE : CADRE LECTURE   
 FILE HAS REDUCED GRID 
  FILE DOES NOT CONTAINS THE POLES 
 FILE HAS GAUSSIAN QUADRATURE
 FILE DOES NOT CONTAIN POLES 
 SPECTRAL NORMS -    LOG(PREHYDS)    0.114928455089360E+02     OROGRAPHY      0.710531212649477E+04
 LEV     VORTICITY             DIVERGENCE           TEMPERATURE            HUMIDITY             KINETIC ENERGY    
 AVE 0.461038379542090E-04 0.318258540146628E-04 0.247903970802980E+03 0.291509127726197E-02 0.280192844875685E+03
 MODEL FIELDS ARE INITIALIZED BY SUVAZX
OPENFA: MINIMIZATION DATA TO BE READ FROM FILE
OPENFA:           1 ICMSHMINIIMIN
 YOU READ FIELDS OF THE :            4             1          2018
  HOUR AND MINUTE :           18              0
  FORECAST RANGE IN HOURS :            3
  SECONDS IN THE DAY :       75600
  IN HOUR         :          21
  HAF, HAF : CADRE : CADRE LECTURE   
 FILE HAS REDUCED GRID 
  FILE DOES NOT CONTAINS THE POLES 
 FILE HAS GAUSSIAN QUADRATURE
 FILE DOES NOT CONTAIN POLES 
 OROGRAPHY INITIALISED FROM SPECTRAL INPUT
OPENFA: MINIMIZATION DATA TO BE READ FROM FILE
OPENFA:           1 ICMSHMINIIMIN
 YOU READ FIELDS OF THE :            4             1          2018
  HOUR AND MINUTE :           18              0
  FORECAST RANGE IN HOURS :            3
  SECONDS IN THE DAY :       75600
  IN HOUR         :          21
  HAF, HAF : CADRE : CADRE LECTURE   
 FILE HAS REDUCED GRID 
  FILE DOES NOT CONTAINS THE POLES 
 FILE HAS GAUSSIAN QUADRATURE
 FILE DOES NOT CONTAIN POLES 
 SUGRIDF: STATISTICS FOR ALL SURFACE FIELDS
 SOILB   3 FIELDS 
 GPNORM OUTPUT               AVERAGE               MINIMUM               MAXIMUM        
         AVE   0.286839553870864E+03 0.208420641422272E+03 0.315425794720650E+03
             1 0.286839553870864E+03 0.208420641422272E+03 0.315425794720650E+03
 GPNORM OUTPUT               AVERAGE               MINIMUM               MAXIMUM        
         AVE   0.580852159890932E+04 0.000000000000000E+00 0.800000000000000E+04
             1 0.580852159890932E+04 0.000000000000000E+00 0.800000000000000E+04
 GPNORM OUTPUT               AVERAGE               MINIMUM               MAXIMUM        
         AVE   0.568074816690020E+01 0.000000000000000E+00 0.150000000047612E+03
             1 0.568074816690020E+01 0.000000000000000E+00 0.150000000047612E+03
 SNOWG 
 GPNORM OUTPUT               AVERAGE               MINIMUM               MAXIMUM        
         AVE   0.731670345842171E+02 0.000000000000000E+00 0.206405646484375E+05
             1 0.291703472995449E+03 0.000000000000000E+00 0.206405646484375E+05
             2 0.842235804950645E+00 0.597341753542423E+00 0.850000000093132E+00
             3 0.122429536469182E+00 0.100000000000000E+00 0.300000000000000E+00
             4 0.000000000000000E+00 0.000000000000000E+00 0.000000000000000E+00
 RESVR 
 GPNORM OUTPUT               AVERAGE               MINIMUM               MAXIMUM        
         AVE   0.735346765401915E+02 0.000000000000000E+00 0.327724160552025E+03
             1 0.286261539890451E+03 0.204906109094620E+03 0.327724160552025E+03
             2 0.748258121086208E+01 0.000000000000000E+00 0.100000000000000E+02
             3 0.137660624938871E-01 0.000000000000000E+00 0.670611485044164E+00
             4 0.380818996958446E+00 0.000000000000000E+00 0.487830000110989E+01
 VARSF
 GPNORM OUTPUT               AVERAGE               MINIMUM               MAXIMUM        
         AVE   0.409229733621653E+02 -.157079632580280E+01 0.142762884576108E+05
             1 0.625817551253291E+01 0.980665000000000E-02 0.949828394811270E+03
             2 0.140452069740729E+00 0.579507732391357E-01 0.750000000000000E+00
             3 0.960697522207999E+00 0.943000000028405E+00 0.979999999981374E+00
             4 0.318780135119191E+03 0.000000000000000E+00 0.142762884576108E+05
             5 0.285271113095888E+00 0.000000000000000E+00 0.100000000000000E+01
             6 0.126698588571757E+00 0.000000000000000E+00 0.990000000223517E+00
             7 0.827719968483510E+00 0.000000000000000E+00 0.100000000000000E+01
             8 0.463700349878738E-02 -.157079632580280E+01 0.157079632580280E+01
 VCLIV
 GPNORM OUTPUT               AVERAGE               MINIMUM               MAXIMUM        
         AVE   0.382246061608828E+03 0.000000000000000E+00 0.500000000381470E+04
             1 0.858153600446578E+01 0.300000000000000E+01 0.580000000000000E+02
             2 0.172414478153389E+02 0.600000000000000E+01 0.920000000000000E+02
             3 0.614696631549321E+01 0.100000001490116E+00 0.800000000000000E+01
             4 0.161737920643973E+01 0.100000000000000E+01 0.400000000000000E+01
             5 0.378715254018874E+04 0.399999961853027E+02 0.500000000381470E+04
             6 0.470751919699202E+00 0.000000000000000E+00 0.600000000190448E+01
             7 0.863865500907394E+00 0.000000000000000E+00 0.100000000000000E+01
             8 0.178022879010974E+00 0.980665000000000E-03 0.394717269268577E+01
             9 0.126340645592087E+00 0.499999998737621E-01 0.800000000111822E+00
            10 0.817656125930560E-01 0.500000000000000E-01 0.250000000000000E+00
 VCLIA
 GPNORM OUTPUT               AVERAGE               MINIMUM               MAXIMUM        
         AVE   0.163185571773837E-01 0.609210924318559E-04 0.222567975055426E+00
             1 0.654212946604586E-02 0.609210924318559E-04 0.227097173025485E-01
             2 0.440316006428088E-01 0.569220725446939E-02 0.222567975055426E+00
             3 0.268140594761141E-02 0.616524924777924E-04 0.351090058970947E-01
             4 0.120190926530689E-01 0.748880632798956E-04 0.145313379435770E+00
 VO3ABC
 GPNORM OUTPUT               AVERAGE               MINIMUM               MAXIMUM        
         AVE   0.105635628845041E+04 0.461426525143906E-01 0.316600000000000E+04
             1 0.664998427792814E-01 0.461426525143906E-01 0.783450196613558E-01
             2 0.316599999999998E+04 0.316600000000000E+04 0.316600000000000E+04
             3 0.300236550846458E+01 0.287111673294567E+01 0.306174306385219E+01
OPENFA: MINIMIZATION DATA TO BE READ FROM FILE
OPENFA:           1 ICMSHMINIIMIN
 YOU READ FIELDS OF THE :            4             1          2018
  HOUR AND MINUTE :           18              0
  FORECAST RANGE IN HOURS :            3
  SECONDS IN THE DAY :       75600
  IN HOUR         :          21
  HAF, HAF : CADRE : CADRE LECTURE   
 FILE HAS REDUCED GRID 
  FILE DOES NOT CONTAINS THE POLES 
 FILE HAS GAUSSIAN QUADRATURE
 FILE DOES NOT CONTAIN POLES 
 SPECTRAL NORMS -   LOG(PREHYDS)    0.114928455089360E+02
 LEV     VORTICITY             DIVERGENCE           TEMPERATURE            HUMIDITY             KINETIC ENERGY    
 AVE 0.461038379542090E-04 0.318258540146628E-04 0.247903970802980E+03 0.291509127726197E-02 0.280192844875685E+03
 SUVAZX: set up struct%YVAZX from binary files
 GETMINI: Read control variable from file 
 traj00+0000000                                                                 
                                                  
 IO-STREAM SETUP - IOTYPE =           2  NUMIOPROCS =           1  CPATH =
 traj00+0000000 MODE=r
 IO-STREAM CLOSED - traj00+0000000
 MPI-TASK:   1 -    820978364 BYTES IN      2 RECORDS TRANSFERRED IN    1.9142 SECONDS   428.9 Mbytes/s, TOTAL TIME=    1.9151(****%)
 INPUT CONTROL VECTOR HAS           14  WAVELET SCALES
 SUVAZX: set up spa3 from struct%YVAZX using CHAVARIN
 N1POS = 1 N1HIS = 1 N1GDI = 1 N1SDI = 1 N1DHP = 0 N1DHFG= 0 N1DHFZ= 0 N1DHFD= 0 N1CFU = 1 N1XFU = 1 N1ISP = 1 N1RES = 1 N1SFXHIS = 0
 LRFILAF =  F LWRSPEC =  T
 --- Variational job : setup linearization trajectory -----------------------
 START CNT3
 SPECTRAL NORMS -   LOG(PREHYDS)    0.114928075942073E+02
 LEV     VORTICITY             DIVERGENCE           TEMPERATURE            HUMIDITY             KINETIC ENERGY    
 AVE 0.462144697812099E-04 0.319576264247702E-04 0.247905154386208E+03 0.293857843374939E-02 0.281792573555823E+03
 START CNT4, NSIM4D=           0
ISTEP=       0 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5340
ISTEP=       0 ZI0= 1366.0000 ZSEASON= 1.034065865 REA=149597870000.00 RDEASO=147113087085.47
ISTEP=       0: Reset RSOLINC= 1366.0000 RIP0= 1412.5340
 SU_GHGCLIM, RCARDI,RCH4,RN2O,RCFC11,RCFC12,RNO2:   6.238537860078332E-004
  1.099313357294834E-006  5.003332597246667E-007  3.765430405811250E-009
  2.073829546835000E-009  7.940283000000001E-011
 STEP=       0 UPDTIM: IUPGHG=   2 RCARDI= 0.62385E-03
 UPDTIM TEGEN AEROSOL CLIMATOLOGY IS LOADED
SUECAEC: INLEV,ISYEAR,IEYEAR=  0  1957  2010
 SUECAEC: GLOBAL AVERAGE VOLCANIC SULPHATE FOR (KINDAT,KMINUT)     20180104
        1290  1.123423283705542E-004
 NORMS AT NSTEP CNT4    0
 SPECTRAL NORMS -   LOG(PREHYDS)    0.114928075942073E+02
 LEV     VORTICITY             DIVERGENCE           TEMPERATURE            HUMIDITY             KINETIC ENERGY    
 AVE 0.462144697812099E-04 0.319576264247702E-04 0.247905154386208E+03 0.293857843374939E-02 0.281792573555823E+03
 GPNORM LIQUID_WATER         AVERAGE               MINIMUM               MAXIMUM        
         AVE   0.000000000000000E+00 0.000000000000000E+00 0.000000000000000E+00
 GPNORM SOLID_WATER          AVERAGE               MINIMUM               MAXIMUM        
         AVE   0.000000000000000E+00 0.000000000000000E+00 0.000000000000000E+00
 GPNORM SNOW                 AVERAGE               MINIMUM               MAXIMUM        
         AVE   0.000000000000000E+00 0.000000000000000E+00 0.000000000000000E+00
 GPNORM RAIN                 AVERAGE               MINIMUM               MAXIMUM        
         AVE   0.000000000000000E+00 0.000000000000000E+00 0.000000000000000E+00
 GPNORM TKE                  AVERAGE               MINIMUM               MAXIMUM        
         AVE   0.000000000000000E+00 0.000000000000000E+00 0.000000000000000E+00
 GPNORM CV_PREC_FLUX         AVERAGE               MINIMUM               MAXIMUM        
         AVE   0.000000000000000E+00 0.000000000000000E+00 0.000000000000000E+00
 CHKOBTIM; TIME SLOT NO. :   1 TO BE USED WITH TIME STEP (NSTEP) :   0 ; MODEL TIME (SINCE START) :     0.
 NSTEP =     0 STEPO   TAAA0VAAA
 18:11:55 STEP    0 H=   0:00 +CPU=  9.423
 NSTEP =     1 STEPO   TAAA00AAA
 18:11:56 STEP    1 H=   0:12 +CPU=  1.776
 CHKOBTIM; TIME SLOT NO. :   2 TO BE USED WITH TIME STEP (NSTEP) :   2 ; MODEL TIME (SINCE START) :  1440.
 NSTEP =     2 STEPO   TAAA0VAAA
 18:11:56 STEP    2 H=   0:24 +CPU=  1.699
 NSTEP =     3 STEPO   TAAA00AAA
 18:11:56 STEP    3 H=   0:36 +CPU=  1.683
 NSTEP =     4 STEPO   TAAA00AAA
 18:11:57 STEP    4 H=   0:48 +CPU=  1.706
ISTEP=       5 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5331
ISTEP=       5 ZI0= 1366.0000 ZSEASON= 1.034065245 REA=149597870000.00 RDEASO=147113131193.21
ISTEP=       5: Reset RSOLINC= 1366.0000 RIP0= 1412.5331
 SU_GHGCLIM, RCARDI,RCH4,RN2O,RCFC11,RCFC12,RNO2:   6.238537860078332E-004
  1.099313357294834E-006  5.003332597246667E-007  3.765430405811250E-009
  2.073829546835000E-009  7.940283000000001E-011
 SUECAEC: GLOBAL AVERAGE VOLCANIC SULPHATE FOR (KINDAT,KMINUT)     20180104
        1350  1.123681761786600E-004
 CHKOBTIM; TIME SLOT NO. :   3 TO BE USED WITH TIME STEP (NSTEP) :   5 ; MODEL TIME (SINCE START) :  3600.
 NSTEP =     5 STEPO   TAAA0VAAA
 18:11:58 STEP    5 H=   1:00 +CPU=  4.010
 NSTEP =     6 STEPO   TAAA00AAA
 18:11:58 STEP    6 H=   1:12 +CPU=  1.678
 CHKOBTIM; TIME SLOT NO. :   4 TO BE USED WITH TIME STEP (NSTEP) :   7 ; MODEL TIME (SINCE START) :  5040.
 NSTEP =     7 STEPO   TAAA0VAAA
 18:11:58 STEP    7 H=   1:24 +CPU=  1.710
 NSTEP =     8 STEPO   TAAA00AAA
 18:11:59 STEP    8 H=   1:36 +CPU=  1.687
 NSTEP =     9 STEPO   TAAA00AAA
 18:11:59 STEP    9 H=   1:48 +CPU=  1.691
ISTEP=      10 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5323
ISTEP=      10 ZI0= 1366.0000 ZSEASON= 1.034064607 REA=149597870000.00 RDEASO=147113176585.14
ISTEP=      10: Reset RSOLINC= 1366.0000 RIP0= 1412.5323
 SU_GHGCLIM, RCARDI,RCH4,RN2O,RCFC11,RCFC12,RNO2:   6.238537860078332E-004
  1.099313357294834E-006  5.003332597246667E-007  3.765430405811250E-009
  2.073829546835000E-009  7.940283000000001E-011
 SUECAEC: GLOBAL AVERAGE VOLCANIC SULPHATE FOR (KINDAT,KMINUT)     20180104
        1410  1.123940239867659E-004
 CHKOBTIM; TIME SLOT NO. :   5 TO BE USED WITH TIME STEP (NSTEP) :  10 ; MODEL TIME (SINCE START) :  7200.
 NSTEP =    10 STEPO   TAAA0VAAA
 18:12:00 STEP   10 H=   2:00 +CPU=  3.993
 NSTEP =    11 STEPO   TAAA00AAA
 18:12:00 STEP   11 H=   2:12 +CPU=  1.683
 CHKOBTIM; TIME SLOT NO. :   6 TO BE USED WITH TIME STEP (NSTEP) :  12 ; MODEL TIME (SINCE START) :  8640.
 NSTEP =    12 STEPO   TAAA0VAAA
 18:12:00 STEP   12 H=   2:24 +CPU=  1.693
 NSTEP =    13 STEPO   TAAA00AAA
 18:12:01 STEP   13 H=   2:36 +CPU=  1.688
 NSTEP =    14 STEPO   TAAA00AAA
 18:12:01 STEP   14 H=   2:48 +CPU=  1.691
ISTEP=      15 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5314
ISTEP=      15 ZI0= 1366.0000 ZSEASON= 1.034063950 REA=149597870000.00 RDEASO=147113223261.23
ISTEP=      15: Reset RSOLINC= 1366.0000 RIP0= 1412.5314
 SU_GHGCLIM, RCARDI,RCH4,RN2O,RCFC11,RCFC12,RNO2:   6.238537860078332E-004
  1.099313357294834E-006  5.003332597246667E-007  3.765430405811250E-009
  2.073829546835000E-009  7.940283000000001E-011
 SUECAEC: GLOBAL AVERAGE VOLCANIC SULPHATE FOR (KINDAT,KMINUT)     20180104
        1470  1.124198717948718E-004
 CHKOBTIM; TIME SLOT NO. :   7 TO BE USED WITH TIME STEP (NSTEP) :  15 ; MODEL TIME (SINCE START) : 10800.
 NSTEP =    15 STEPO   TAAA0VAAA
 18:12:02 STEP   15 H=   3:00 +CPU=  3.987
 NSTEP =    16 STEPO   TAAA00AAA
 18:12:02 STEP   16 H=   3:12 +CPU=  1.686
 CHKOBTIM; TIME SLOT NO. :   8 TO BE USED WITH TIME STEP (NSTEP) :  17 ; MODEL TIME (SINCE START) : 12240.
 NSTEP =    17 STEPO   TAAA0VAAA
 18:12:03 STEP   17 H=   3:24 +CPU=  1.696
 NSTEP =    18 STEPO   TAAA00AAA
 18:12:03 STEP   18 H=   3:36 +CPU=  1.684
 NSTEP =    19 STEPO   TAAA00AAA
 18:12:03 STEP   19 H=   3:48 +CPU=  1.692
ISTEP=      20 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5304
ISTEP=      20 ZI0= 1366.0000 ZSEASON= 1.034063276 REA=149597870000.00 RDEASO=147113271221.47
ISTEP=      20: Reset RSOLINC= 1366.0000 RIP0= 1412.5304
 SU_GHGCLIM, RCARDI,RCH4,RN2O,RCFC11,RCFC12,RNO2:   6.238537860078332E-004
  1.099313357294834E-006  5.003332597246667E-007  3.765430405811250E-009
  2.073829546835000E-009  7.940283000000001E-011
 SUECAEC: GLOBAL AVERAGE VOLCANIC SULPHATE FOR (KINDAT,KMINUT)     20180104
        1530  1.124457196029777E-004
 CHKOBTIM; TIME SLOT NO. :   9 TO BE USED WITH TIME STEP (NSTEP) :  20 ; MODEL TIME (SINCE START) : 14400.
 NSTEP =    20 STEPO   TAAA0VAAA
 18:12:04 STEP   20 H=   4:00 +CPU=  3.992
 NSTEP =    21 STEPO   TAAA00AAA
 18:12:04 STEP   21 H=   4:12 +CPU=  1.684
 CHKOBTIM; TIME SLOT NO. :  10 TO BE USED WITH TIME STEP (NSTEP) :  22 ; MODEL TIME (SINCE START) : 15840.
 NSTEP =    22 STEPO   TAAA0VAAA
 18:12:05 STEP   22 H=   4:24 +CPU=  1.711
 NSTEP =    23 STEPO   TAAA00AAA
 18:12:05 STEP   23 H=   4:36 +CPU=  1.696
 NSTEP =    24 STEPO   TAAA00AAA
 18:12:05 STEP   24 H=   4:48 +CPU=  1.696
ISTEP=      25 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5295
ISTEP=      25 ZI0= 1366.0000 ZSEASON= 1.034062584 REA=149597870000.00 RDEASO=147113320465.82
ISTEP=      25: Reset RSOLINC= 1366.0000 RIP0= 1412.5295
 SU_GHGCLIM, RCARDI,RCH4,RN2O,RCFC11,RCFC12,RNO2:   6.238537860078332E-004
  1.099313357294834E-006  5.003332597246667E-007  3.765430405811250E-009
  2.073829546835000E-009  7.940283000000001E-011
 SUECAEC: GLOBAL AVERAGE VOLCANIC SULPHATE FOR (KINDAT,KMINUT)     20180104
        1590  1.124715674110835E-004
 CHKOBTIM; TIME SLOT NO. :  11 TO BE USED WITH TIME STEP (NSTEP) :  25 ; MODEL TIME (SINCE START) : 18000.
 NSTEP =    25 STEPO   TAAA0VAAA
 18:12:06 STEP   25 H=   5:00 +CPU=  3.995
 NSTEP =    26 STEPO   TAAA00AAA
 18:12:07 STEP   26 H=   5:12 +CPU=  1.697
 CHKOBTIM; TIME SLOT NO. :  12 TO BE USED WITH TIME STEP (NSTEP) :  27 ; MODEL TIME (SINCE START) : 19440.
 NSTEP =    27 STEPO   TAAA0VAAA
 18:12:07 STEP   27 H=   5:24 +CPU=  1.711
 NSTEP =    28 STEPO   TAAA00AAA
 18:12:07 STEP   28 H=   5:36 +CPU=  1.682
 NSTEP =    29 STEPO   TAAA00AAA
 18:12:08 STEP   29 H=   5:48 +CPU=  1.688
ISTEP=      30 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5285
ISTEP=      30 ZI0= 1366.0000 ZSEASON= 1.034061874 REA=149597870000.00 RDEASO=147113370994.27
ISTEP=      30: Reset RSOLINC= 1366.0000 RIP0= 1412.5285
 SU_GHGCLIM, RCARDI,RCH4,RN2O,RCFC11,RCFC12,RNO2:   6.238537860078332E-004
  1.099313357294834E-006  5.003332597246667E-007  3.765430405811250E-009
  2.073829546835000E-009  7.940283000000001E-011
 SUECAEC: GLOBAL AVERAGE VOLCANIC SULPHATE FOR (KINDAT,KMINUT)     20180104
        1650  1.124974152191894E-004
 CHKOBTIM; TIME SLOT NO. :  13 TO BE USED WITH TIME STEP (NSTEP) :  30 ; MODEL TIME (SINCE START) : 21600.
 NSTEP =    30 STEPO   TAA00V000
 18:12:08 STEP   30 H=   6:00 +CPU=  0.282
 COMPUTED VALUE OF NVSEPC IS   7
 COMPUTED VALUE OF NVSEPL IS   4
 END CNT3
  *** Using dry R in TL/AD model ***
 
 SUSLB PRINTOUT : POINTERS,NFIELDS

 1) BUFFER SLBUF2:
 MSLB2USI  =    1 105
 MSLB2VSI  =  106 105
 MSLB2TSI  =  211 105
 MSLB2SPSI =  316   1
 MSLB2VVEL =  317 105
 MSLB2URL  =  422 105
 MSLB2VRL  =  527 105
 MSLB2WRL  =  632 105
 MSLB2U15  =  737 105
 MSLB2V15  =  842 105
 MSLB2URL5 =  947 105
 MSLB2VRL5 = 1052 105
 MSLB2WRL5 = 1157 105
 
 2) BUFFER SLBUF1:
 MSLB1U9     =    1 107
 MSLB1V9     =  108 107
 MSLB1T9     =  215 107
 MSLB1GFL9   =  322 107
 MSLB1SP9    =  429   1
 MSLB1UR0    =  430 107
 MSLB1VR0    =  537 107
 MSLB1WR0    =  644 107
 MSLB1U0     =  751 107
 MSLB1V0     =  858 107
 MSLB1T0     =  965 107
 MSLB1C9     = 1072 107
 MSLB1C0     = 1179 107
 
 2) BUFFER SLBUF15:
 MSLB1U95    =    1 107
 MSLB1V95    =  108 107
 MSLB1T95    =  215 107
 MSLB1GFL95     322 107
 MSLB1U05    =  429 107
 MSLB1V05    =  536 107
 MSLB1T05    =  643 107
 MSLB1C95    =  750 107
 MSLB1C05    =  857 107
 MSLB1SP95   =  964   1
 MSLB1UR05   =  965 107
 MSLB1VR05   = 1072 107
 MSLB1WR05   = 1179 107
 
 ARRAY  RPARSL1   ALLOCATED     1285    1285
 ARRAY  RPARSL15  ALLOCATED     1285    1285
  CLOUD FIELDS DE-ACTIVATAD, YGFL%NUMGPFLDS=           0  YGFL%NUMFLDS_SL1=
           1
 --- Variational job : initial call to simulator ----------------------------
 SIM4D: LSUBBG= T
 -------Simulator : initializations ----------------------------------------
 AN WRITE-OUT EVENTS, IANATS 
 1
 GR WRITE OUT EVENTS, IGRATS 
 0
 -------Simulator : cost-function Jb ---------------------------------------
 -------Simulator : convert state from control to physical space -----------
 -------Simulator : change from model to TL  variables -------------------
 -------Simulator : call direct and adjoint  model -----------------------
 START CNT3TL
 START CNT4TL, NSIM4D=           0
 NORMS AT START CNT4TL
 SPECTRAL NORMS -   LOG(PREHYDS)    0.000000000000000E+00
 LEV     VORTICITY             DIVERGENCE           TEMPERATURE            HUMIDITY             KINETIC ENERGY    
 AVE 0.000000000000000E+00 0.000000000000000E+00 0.000000000000000E+00 0.000000000000000E+00 0.000000000000000E+00
ISTEP=       0 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5340
ISTEP=       0 ZI0= 1366.0000 ZSEASON= 1.034065865 REA=149597870000.00 RDEASO=147113087085.47
 NORMS AT NSTEP CNT4TL    0
 SPECTRAL NORMS -   LOG(PREHYDS)    0.000000000000000E+00
 LEV     VORTICITY             DIVERGENCE           TEMPERATURE            HUMIDITY             KINETIC ENERGY    
 AVE 0.000000000000000E+00 0.000000000000000E+00 0.000000000000000E+00 0.000000000000000E+00 0.000000000000000E+00
 NSTEP =     0 STEPOTL A00000000
 WRMLPPA NSTEP=           0  CDCONF=A
 WRITE ANALYSIS ON FILE   MXMINI000+0000
           0           1           0           0           0           0
           0           1           0       75600           0           0
           0         720           0           0           0           0
WRMLPPA: CDCONF = A LLWRSPECA =  T LLWRGRIDA =  T LLWRGRIDUA =  F LLWRXFU =  F LLWRFU =  F
 WRITE ANALYSIS ON FILE   MXMINI000+0000
           0           1           0           0           0           0
           0           1           0       75600           0           0
           0         720           0           0           0           0
 GPNORMS OF FIELDS TO BE WRITTEN OUT ON FILE :
                                   AVERAGE               MINIMUM               MAXIMUM
 PROFTEMPERATURE  : 0.286050998509251E+03 0.208816509483357E+03 0.315280063130541E+03
 PROFRESERV.EAU   : 0.578092848988895E+04 0.000000000000000E+00 0.800000000000000E+04
 PROFRESERV.GLACE : 0.601000543549456E+01 0.000000000000000E+00 0.152384131864366E+03
 SURFRESERV.NEIGE : 0.333084000290515E+03 0.000000000000000E+00 0.206408858032795E+05
 SURFALBEDO NEIGE : 0.843203322835650E+00 0.650000000000000E+00 0.850000000000000E+00
 SURFDENSIT.NEIGE : 0.122505326158229E+00 0.100000000000000E+00 0.300000000000000E+00
 SURFALBEDO HISTO : 0.185858653760117E+00 0.588194429874420E-01 0.849939954233516E+00
 SURFTEMPERATURE  : 0.285578306360334E+03 0.206566326984370E+03 0.341633203965630E+03
 SURFRESERV.EAU   : 0.742994955737180E+01 0.000000000000000E+00 0.100000000000000E+02
 SURFRESERV.INTER : 0.175944302616739E-01 0.000000000000000E+00 0.118800000064531E+01
 SURFRESERV.GLACE : 0.402076626947715E+00 0.000000000000000E+00 0.488933376757831E+01
 SURFZ0.FOIS.G    : 0.625366698340645E+01 0.727289230540960E-03 0.949828394811270E+03
 SURFALBEDO       : 0.146146167604952E+00 0.579507732391357E-01 0.750000000000000E+00
 SURFEMISSIVITE   : 0.960840258546274E+00 0.943000000028405E+00 0.979999999981374E+00
 SURFET.GEOPOTENT : 0.321064369664751E+03 0.000000000000000E+00 0.142762884576108E+05
 SURFIND.TERREMER : 0.288460643840715E+00 0.000000000000000E+00 0.100000000000000E+01
 SURFPROP.VEGETAT : 0.126394791657562E+00 0.000000000000000E+00 0.990000000223517E+00
 SURFVAR.GEOP.ANI : 0.824569371597062E+00 0.000000000000000E+00 0.100000000000000E+01
 SURFVAR.GEOP.DIR : 0.450054809002166E-02 -.157079632580280E+01 0.157079632580280E+01
 SURFPROP.ARGILE  : 0.847601170425716E+01 0.300000000000000E+01 0.580000000000000E+02
 SURFPROP.SABLE   : 0.172469684291613E+02 0.600000000000000E+01 0.920000000000000E+02
 SURFEPAIS.SOL    : 0.611723701592510E+01 0.100000001490116E+00 0.800000000000000E+01
 SURFIND.VEG.DOMI : 0.161950479158913E+01 0.100000000000000E+01 0.400000000000000E+01
 SURFRESI.STO.MIN : 0.379057850484097E+04 0.399999961853027E+02 0.500000000381470E+04
 SURFIND.FOLIAIRE : 0.463682523029734E+00 0.000000000000000E+00 0.600000000190448E+01
 SURFRES.EVAPOTRA : 0.886175591652181E+00 0.108397460809617E-02 0.100000000000000E+01
 SURFGZ0.THERM    : 0.169264715465199E+00 0.727289230540960E-03 0.394717269268577E+01
 SURFALBEDO.SOLNU : 0.129235808917262E+00 0.499999998737621E-01 0.800000000111822E+00
 SURFALBEDO.VEG   : 0.815877632535641E-01 0.500000000000000E-01 0.250000000000000E+00
 SURFAEROS.SEA    : 0.645174033742920E-02 0.609210924318559E-04 0.227097173025485E-01
 SURFAEROS.LAND   : 0.433952942943520E-01 0.569220725446939E-02 0.222567975055426E+00
 SURFAEROS.SOOT   : 0.265440506941241E-02 0.616524924777924E-04 0.351090058970947E-01
 SURFAEROS.DESERT : 0.118085931235026E-01 0.748880632798956E-04 0.145313379435770E+00
 SURFA.OF.OZONE   : 0.661049041734317E-01 0.461426525143906E-01 0.783450196613558E-01
 SURFB.OF.OZONE   : 0.316600000000000E+04 0.316600000000000E+04 0.316600000000000E+04
 SURFC.OF.OZONE   : 0.300111914914789E+01 0.287111673294567E+01 0.306174306385219E+01
 SUNSHI. DURATION : 0.775610881094157E+04 0.000000000000000E+00 0.216000000000000E+05
 CHKOBTIM; TIME SLOT NO. :   1 TO BE USED WITH TIME STEP (NSTEP) :   0 ; MODEL TIME (SINCE START) :     0.
 NSTEP =     0 STEPOTL IAAA0VAAA
 NSTEP =     1 STEPOTL 0AAA00AAA
 CHKOBTIM; TIME SLOT NO. :   2 TO BE USED WITH TIME STEP (NSTEP) :   2 ; MODEL TIME (SINCE START) :  1440.
 NSTEP =     2 STEPOTL 0AAA0VAAA
 NSTEP =     3 STEPOTL 0AAA00AAA
 NSTEP =     4 STEPOTL 0AAA00AAA
ISTEP=       5 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5331
ISTEP=       5 ZI0= 1366.0000 ZSEASON= 1.034065245 REA=149597870000.00 RDEASO=147113131193.21
 CHKOBTIM; TIME SLOT NO. :   3 TO BE USED WITH TIME STEP (NSTEP) :   5 ; MODEL TIME (SINCE START) :  3600.
 NSTEP =     5 STEPOTL 0AAA0VAAA
 NSTEP =     6 STEPOTL 0AAA00AAA
 CHKOBTIM; TIME SLOT NO. :   4 TO BE USED WITH TIME STEP (NSTEP) :   7 ; MODEL TIME (SINCE START) :  5040.
 NSTEP =     7 STEPOTL 0AAA0VAAA
 NSTEP =     8 STEPOTL 0AAA00AAA
 NSTEP =     9 STEPOTL 0AAA00AAA
ISTEP=      10 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5323
ISTEP=      10 ZI0= 1366.0000 ZSEASON= 1.034064607 REA=149597870000.00 RDEASO=147113176585.14
 CHKOBTIM; TIME SLOT NO. :   5 TO BE USED WITH TIME STEP (NSTEP) :  10 ; MODEL TIME (SINCE START) :  7200.
 NSTEP =    10 STEPOTL 0AAA0VAAA
 NSTEP =    11 STEPOTL 0AAA00AAA
 CHKOBTIM; TIME SLOT NO. :   6 TO BE USED WITH TIME STEP (NSTEP) :  12 ; MODEL TIME (SINCE START) :  8640.
 NSTEP =    12 STEPOTL 0AAA0VAAA
 NSTEP =    13 STEPOTL 0AAA00AAA
 NSTEP =    14 STEPOTL 0AAA00AAA
ISTEP=      15 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5314
ISTEP=      15 ZI0= 1366.0000 ZSEASON= 1.034063950 REA=149597870000.00 RDEASO=147113223261.23
 CHKOBTIM; TIME SLOT NO. :   7 TO BE USED WITH TIME STEP (NSTEP) :  15 ; MODEL TIME (SINCE START) : 10800.
 NSTEP =    15 STEPOTL 0AAA0VAAA
 NSTEP =    16 STEPOTL 0AAA00AAA
 CHKOBTIM; TIME SLOT NO. :   8 TO BE USED WITH TIME STEP (NSTEP) :  17 ; MODEL TIME (SINCE START) : 12240.
 NSTEP =    17 STEPOTL 0AAA0VAAA
 NSTEP =    18 STEPOTL 0AAA00AAA
 NSTEP =    19 STEPOTL 0AAA00AAA
ISTEP=      20 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5304
ISTEP=      20 ZI0= 1366.0000 ZSEASON= 1.034063276 REA=149597870000.00 RDEASO=147113271221.47
 CHKOBTIM; TIME SLOT NO. :   9 TO BE USED WITH TIME STEP (NSTEP) :  20 ; MODEL TIME (SINCE START) : 14400.
 NSTEP =    20 STEPOTL 0AAA0VAAA
 NSTEP =    21 STEPOTL 0AAA00AAA
 CHKOBTIM; TIME SLOT NO. :  10 TO BE USED WITH TIME STEP (NSTEP) :  22 ; MODEL TIME (SINCE START) : 15840.
 NSTEP =    22 STEPOTL 0AAA0VAAA
 NSTEP =    23 STEPOTL 0AAA00AAA
 NSTEP =    24 STEPOTL 0AAA00AAA
ISTEP=      25 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5295
ISTEP=      25 ZI0= 1366.0000 ZSEASON= 1.034062584 REA=149597870000.00 RDEASO=147113320465.82
 CHKOBTIM; TIME SLOT NO. :  11 TO BE USED WITH TIME STEP (NSTEP) :  25 ; MODEL TIME (SINCE START) : 18000.
 NSTEP =    25 STEPOTL 0AAA0VAAA
 NSTEP =    26 STEPOTL 0AAA00AAA
 CHKOBTIM; TIME SLOT NO. :  12 TO BE USED WITH TIME STEP (NSTEP) :  27 ; MODEL TIME (SINCE START) : 19440.
 NSTEP =    27 STEPOTL 0AAA0VAAA
 NSTEP =    28 STEPOTL 0AAA00AAA
 NSTEP =    29 STEPOTL 0AAA00AAA
ISTEP=      30 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5285
ISTEP=      30 ZI0= 1366.0000 ZSEASON= 1.034061874 REA=149597870000.00 RDEASO=147113370994.27
 CHKOBTIM; TIME SLOT NO. :  13 TO BE USED WITH TIME STEP (NSTEP) :  30 ; MODEL TIME (SINCE START) : 21600.
 NSTEP =    30 STEPOTL 0AA00V000
 NSTEP =    30 OBSVTL  0AA00V000
 END CNT3TL


    EVJCDFI2- Evaluation of the Jc cost function when the digital filter is used     NSPEC2 =    15670   ALPHAG =  100.000    
 EVJCDFI: DFI check, sum of coefs=  6.635317295611287E-017
         Global value of the Jc-DFI/ALPHAG cost function = 
  0.000000000000000E+000
 START CNT3AD
 START CNT4AD, NSIM4D=           0
 NSTEP =    30 OBSVAD  000000000
 CNT4AD (ADJOINT INTEGRATION); TIME SLOT NO :  13 TO BE USED WITH TIME STEP (NSTEP) :  30 ; MODEL TIME (SINCE START) : 21600.
 NSTEP =    30 STEPOAD 0AA00V000
 NSTEP =    29 STEPOAD 0AAA00AAA
 NSTEP =    28 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :  12 TO BE USED WITH TIME STEP (NSTEP) :  27 ; MODEL TIME (SINCE START) : 19440.
 NSTEP =    27 STEPOAD 0AAA0VAAA
 NSTEP =    26 STEPOAD 0AAA00AAA
ISTEP=      25 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5295
ISTEP=      25 ZI0= 1366.0000 ZSEASON= 1.034062584 REA=149597870000.00 RDEASO=147113320465.82
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :  11 TO BE USED WITH TIME STEP (NSTEP) :  25 ; MODEL TIME (SINCE START) : 18000.
 NSTEP =    25 STEPOAD 0AAA0VAAA
 NSTEP =    24 STEPOAD 0AAA00AAA
 NSTEP =    23 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :  10 TO BE USED WITH TIME STEP (NSTEP) :  22 ; MODEL TIME (SINCE START) : 15840.
 NSTEP =    22 STEPOAD 0AAA0VAAA
 NSTEP =    21 STEPOAD 0AAA00AAA
ISTEP=      20 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5304
ISTEP=      20 ZI0= 1366.0000 ZSEASON= 1.034063276 REA=149597870000.00 RDEASO=147113271221.47
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   9 TO BE USED WITH TIME STEP (NSTEP) :  20 ; MODEL TIME (SINCE START) : 14400.
 NSTEP =    20 STEPOAD 0AAA0VAAA
 NSTEP =    19 STEPOAD 0AAA00AAA
 NSTEP =    18 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   8 TO BE USED WITH TIME STEP (NSTEP) :  17 ; MODEL TIME (SINCE START) : 12240.
 NSTEP =    17 STEPOAD 0AAA0VAAA
 NSTEP =    16 STEPOAD 0AAA00AAA
ISTEP=      15 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5314
ISTEP=      15 ZI0= 1366.0000 ZSEASON= 1.034063950 REA=149597870000.00 RDEASO=147113223261.23
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   7 TO BE USED WITH TIME STEP (NSTEP) :  15 ; MODEL TIME (SINCE START) : 10800.
 NSTEP =    15 STEPOAD 0AAA0VAAA
 NSTEP =    14 STEPOAD 0AAA00AAA
 NSTEP =    13 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   6 TO BE USED WITH TIME STEP (NSTEP) :  12 ; MODEL TIME (SINCE START) :  8640.
 NSTEP =    12 STEPOAD 0AAA0VAAA
 NSTEP =    11 STEPOAD 0AAA00AAA
ISTEP=      10 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5323
ISTEP=      10 ZI0= 1366.0000 ZSEASON= 1.034064607 REA=149597870000.00 RDEASO=147113176585.14
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   5 TO BE USED WITH TIME STEP (NSTEP) :  10 ; MODEL TIME (SINCE START) :  7200.
 NSTEP =    10 STEPOAD 0AAA0VAAA
 NSTEP =     9 STEPOAD 0AAA00AAA
 NSTEP =     8 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   4 TO BE USED WITH TIME STEP (NSTEP) :   7 ; MODEL TIME (SINCE START) :  5040.
 NSTEP =     7 STEPOAD 0AAA0VAAA
 NSTEP =     6 STEPOAD 0AAA00AAA
ISTEP=       5 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5331
ISTEP=       5 ZI0= 1366.0000 ZSEASON= 1.034065245 REA=149597870000.00 RDEASO=147113131193.21
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   3 TO BE USED WITH TIME STEP (NSTEP) :   5 ; MODEL TIME (SINCE START) :  3600.
 NSTEP =     5 STEPOAD 0AAA0VAAA
 NSTEP =     4 STEPOAD 0AAA00AAA
 NSTEP =     3 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   2 TO BE USED WITH TIME STEP (NSTEP) :   2 ; MODEL TIME (SINCE START) :  1440.
 NSTEP =     2 STEPOAD 0AAA0VAAA
 NSTEP =     1 STEPOAD 0AAA00AAA
ISTEP=       0 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5340
ISTEP=       0 ZI0= 1366.0000 ZSEASON= 1.034065865 REA=149597870000.00 RDEASO=147113087085.47
 NORMS AT NSTEP CNT4AD    0
 SPECTRAL NORMS -   LOG(PREHYDS)    0.664868418770309E+08
 LEV     VORTICITY             DIVERGENCE           TEMPERATURE            HUMIDITY             KINETIC ENERGY    
 AVE 0.950704447909124E+09 0.134426001018956E+10 0.214009994283793E+05 0.268866928745625E+09 0.621661392896609E+31
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   1 TO BE USED WITH TIME STEP (NSTEP) :   0 ; MODEL TIME (SINCE START) :     0.
 NSTEP =     0 STEPOAD 0AAA0VAAA
 NORMS AT END CNT4AD 
 SPECTRAL NORMS -   LOG(PREHYDS)    0.732640374195702E+08
 LEV     VORTICITY             DIVERGENCE           TEMPERATURE            HUMIDITY             KINETIC ENERGY    
 AVE 0.972254685261116E+09 0.136175771916140E+10 0.221098071441786E+05 0.270611560113033E+09 0.669491178619964E+31
 END CNT3AD
 Jc-DFI cost function =   0.000000000000000E+000 --   NSIM4D =            0
 EVCOST3  =   0 PZF = 0.0000000000000000E+00
 DIST. FUNC. JB=0.413836E+05 NSIM4D=    0 ++
 Jp cost function =    468.866042840090      --   NSIM4D =            0
 OBS DISTANCE FUNCTION JO=0.1602797463057978E+07 NSIM4D=    0 ==
 GREPCOST - ITER,SIM,JO,JB,JC,JQ,JP    0   0   1602797.46306       41383.6403493       0.00000000000       0.00000000000       468.866042840    
   GREPCOST_hex - ITER,SIM,JO,JB,JC,JC-DFI,JQ,JP   0   0  413874ED768AF7B9  40E434F47DBDD4F9                 0                 0                 0  407D4DDB4FBCB1F2

 Diagnostic JO-table (JOT) MINIMISATION JOB T0499 NCONF=   131 NSIM4D=     0 NUPTRA=     1
 ===============================================================================
 ==========
 
      Obstype     1 === SYNOP, Land stations and ships  
      --------------------------------------------------
        Codetype    11 === SYNOP Land Manual Report        
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            H2                  774            517.8714484927           0.67    0.100E+00   0.133E+00
            Z                 10027            3666.879508644           0.37    0.785E+02   0.581E+02
        Codetype    14 === SYNOP Land Automatic Report     
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            H2                 1554            748.7291812819           0.48    0.100E+00   0.115E+00
            Z                 10406            2127.846140371           0.20    0.785E+02   0.642E+02
        Codetype    21 === SYNOP-SHIP Report               
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            U                   782            895.2256959030           1.14    0.225E+01   0.146E+01
            U10                   6            8.700382057683           1.45    0.225E+01   0.953E+00
            Z                   448            545.6992138752           1.22    0.785E+02   0.634E+02
        Codetype    24 === SYNOP Automatic SHIP Report     
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            U                  3054            1552.627602588           0.51    0.225E+01   0.168E+01
            U10                  18            5.073653589833           0.28    0.225E+01   0.139E+01
            Z                  2317            596.8425647952           0.26    0.785E+02   0.755E+02
        Codetype    16 === French RADOME                   
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            H2                   42            23.89650101862           0.57    0.100E+00   0.150E+00
            Z                  1637            235.3396637293           0.14    0.785E+02   0.635E+02
        Codetype   110 === Ground-based GPS                
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            APD               24518            25957.96445500           1.06    0.538E-02   0.124E-01
                         ----------   ---------------------------   --------
     ObsType  1 Total:      55583            36882.69601135           0.66
 
      Obstype     2 === AIREP, Aircraft data            
      --------------------------------------------------
        Codetype   141 === AIREP Aircraft Report           
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            U                  3782            2123.945059647           0.56    0.230E+01   0.292E+01
            T                  1940            1184.378679542           0.61    0.861E+00   0.702E+00
        Codetype   144 === AMDAR Aircraft Report           
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            U                 27982            15141.31118354           0.54    0.197E+01   0.235E+01
            T                 13842            6054.915076351           0.44    0.844E+00   0.745E+00
        Codetype   145 === ACARS Aircraft Report           
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            U                309322            120449.5992878           0.39    0.199E+01   0.233E+01
            T                152865            54933.40836516           0.36    0.837E+00   0.761E+00
                         ----------   ---------------------------   --------
     ObsType  2 Total:     509733            199887.5576521           0.39
 
      Obstype     3 === SATOB, Atmospheric motion winds 
      --------------------------------------------------
        Codetype    90 === METEOSAT    55 METHOD=WVCL1     
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            U                  1718            296.7112156464           0.17    0.367E+01   0.325E+01
        Codetype    90 === METEOSAT    55 METHOD=WVCL2     
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            U                  1342            213.5371801346           0.16    0.362E+01   0.324E+01
        Codetype    90 === METEOSAT    55 METHOD=VIS2      
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            U                   436            72.66380559522           0.17    0.210E+01   0.187E+01
        Codetype    90 === METEOSAT    55 METHOD=IR3       
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            U                  4396            651.5889915354           0.15    0.269E+01   0.233E+01
        Codetype    90 === METEOSAT    57 METHOD=WVCL1     
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            U                  2752            570.0317447669           0.21    0.363E+01   0.314E+01
        Codetype    90 === METEOSAT    57 METHOD=WVCL2     
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            U                  2516            520.5298567296           0.21    0.358E+01   0.324E+01
        Codetype    90 === METEOSAT    57 METHOD=IR3       
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            U                  7016            1049.202537794           0.15    0.271E+01   0.235E+01
        Codetype    90 === METEOSAT    57 METHOD=VIS3      
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            U                    10            1.438018269184           0.14    0.212E+01   0.188E+01
        Codetype    90 === HIMAWARI   173 METHOD=WVCL1     
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            U                  9752            1029.559367506           0.11    0.430E+01   0.264E+01
        Codetype    90 === HIMAWARI   173 METHOD=IR1       
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            U                 18148            2204.765083164           0.12    0.353E+01   0.223E+01
        Codetype    90 === HIMAWARI   173 METHOD=VIS1      
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            U                 10946            1219.645837129           0.11    0.246E+01   0.167E+01
        Codetype    90 === HIMAWARI   173 METHOD=WVCL2     
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            U                  3464            381.1471034129           0.11    0.430E+01   0.263E+01
        Codetype    90 === HIMAWARI   173 METHOD=WVCL3     
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            U                  4010            432.7571703674           0.11    0.432E+01   0.260E+01
        Codetype    90 === NOAA       206 METHOD=IR        
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            U                   538            167.4121727523           0.31    0.279E+01   0.372E+01
        Codetype    90 === NOAA       209 METHOD=IR        
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            U                  1670            518.2278489156           0.31    0.266E+01   0.357E+01
        Codetype    90 === NOAA       223 METHOD=IR        
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            U                  1222            369.5126262290           0.30    0.264E+01   0.324E+01
        Codetype    90 === GOES       257 METHOD=IR1       
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            U                  7288            1168.419870829           0.16    0.301E+01   0.236E+01
        Codetype    90 === GOES       257 METHOD=VIS1      
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            U                  2026            229.0004907374           0.11    0.210E+01   0.190E+01
        Codetype    90 === GOES       257 METHOD=WVCL3     
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            U                  4250            926.4089591355           0.22    0.369E+01   0.296E+01
        Codetype    90 === GOES       259 METHOD=IR1       
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            U                  5856            1054.094903882           0.18    0.310E+01   0.297E+01
        Codetype    90 === GOES       259 METHOD=VIS1      
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            U                  5820            804.0219036608           0.14    0.211E+01   0.199E+01
        Codetype    90 === GOES       259 METHOD=WVCL3     
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            U                  4210            931.9116598213           0.22    0.366E+01   0.358E+01
        Codetype    90 === MODIS      783 METHOD=IR        
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            U                   562            123.5848823847           0.22    0.371E+01   0.367E+01
        Codetype    90 === MODIS      784 METHOD=WVCL      
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            U                    68            13.03796581061           0.19    0.432E+01   0.332E+01
        Codetype    90 === MODIS      784 METHOD=IR        
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            U                   702            135.2601923416           0.19    0.350E+01   0.275E+01
        Codetype    90 === MODIS      784 METHOD=WVMW      
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            U                  1026            124.6851586740           0.12    0.421E+01   0.356E+01
                         ----------   ---------------------------   --------
     ObsType  3 Total:     101744            15209.15654722           0.15
 
      Obstype     4 === DRIBU, Drifing Buoys            
      --------------------------------------------------
        Codetype   165 === DRIBU Buoy Report               
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            U10                1016            292.4664790839           0.29    0.225E+01   0.134E+01
            Z                  4918            1137.168257905           0.23    0.588E+02   0.682E+02
                         ----------   ---------------------------   --------
     ObsType  4 Total:       5934            1429.634736989           0.24
 
      Obstype     5 === TEMP,  Radiosondes              
      --------------------------------------------------
        Codetype    35 === TEMP Land Report                
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            U                120652            64346.92117745           0.53    0.197E+01   0.259E+01
            T                 63861            34309.89454726           0.54    0.874E+00   0.913E+00
            Q                 32260            16663.97109284           0.52    0.752E-03   0.687E-03
        Codetype    36 === TEMP SHIP Report                
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            U                   130            38.75002206955           0.30    0.177E+01   0.324E+01
            U10                   4            21.05112369571           5.26    0.158E+01   0.217E+01
            T                    65            28.54377293385           0.44    0.779E+00   0.115E+01
            Q                    56            15.41908646388           0.28    0.409E-03   0.467E-03
                         ----------   ---------------------------   --------
     ObsType  5 Total:     217028            115424.5508227           0.53
 
      Obstype     6 === PILOT, Balloons and profilers   
      --------------------------------------------------
        Codetype    32 === PILOT Land Report               
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            U                 11108            10182.70706443           0.92    0.203E+01   0.255E+01
        Codetype   134 === European Wind Profiler          
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            U                 18108            12681.98201957           0.70    0.172E+01   0.254E+01
                         ----------   ---------------------------   --------
     ObsType  6 Total:      29216            22864.68908400           0.78
 
      Obstype     7 === SATEM, Satellite sounding data  
      --------------------------------------------------
        Codetype   210 === metop    1     3 SENSOR=hirs    
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            RAD              118625            21226.38239306           0.18    0.100E+01   0.945E+00
        Codetype   210 === metop    1     3 SENSOR=amsua   
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            RAD               83877            28059.67662312           0.33    0.317E+00   0.210E+00
        Codetype   210 === metop    1     3 SENSOR=mhs     
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            RAD               26225            3415.809421300           0.13    0.180E+01   0.167E+01
        Codetype   210 === metop    1     3 SENSOR=iasi    
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            RAD             3475746            340603.5546298           0.10    0.130E+01   0.100E+01
        Codetype   210 === metop    2     4 SENSOR=amsua   
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            RAD               67261            26559.79569804           0.39    0.345E+00   0.242E+00
        Codetype   210 === metop    2     4 SENSOR=mhs     
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            RAD               26525            3822.152264936           0.14    0.180E+01   0.166E+01
        Codetype   210 === metop    2     4 SENSOR=iasi    
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            RAD             3100263            347442.6940393           0.11    0.128E+01   0.100E+01
        Codetype   210 === meteosat 8    55 SENSOR=seviri  
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            RAD               54657            2321.436645614           0.04    0.180E+01   0.433E+00
        Codetype   210 === meteosat10    57 SENSOR=seviri  
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            RAD               59407            2543.857622689           0.04    0.180E+01   0.430E+00
        Codetype   210 === himawari 8   173 SENSOR=ahi     
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            RAD              143222            11088.34341960           0.08    0.180E+01   0.300E+01
        Codetype   210 === noaa    15   206 SENSOR=amsua   
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            RAD               62171            17784.75955359           0.29    0.335E+00   0.245E+00
        Codetype   210 === noaa    18   209 SENSOR=amsua   
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            RAD               58824            21254.49754509           0.36    0.358E+00   0.237E+00
        Codetype   210 === noaa    18   209 SENSOR=amsub   
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            RAD               25575            3238.135428283           0.13    0.180E+01   0.166E+01
        Codetype   210 === eos      2   222 SENSOR=amsua   
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            RAD               47290            14296.87716553           0.30    0.354E+00   0.217E+00
        Codetype   210 === noaa    19   223 SENSOR=amsua   
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            RAD               71806            27321.41601477           0.38    0.335E+00   0.229E+00
        Codetype   210 === noaa    19   223 SENSOR=mhs     
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            RAD               26567            10484.04608706           0.39    0.180E+01   0.170E+01
        Codetype   210 === jpss     0   224 SENSOR=atms    
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            RAD              192404            22853.83347738           0.12    0.924E+01   0.156E+01
        Codetype   210 === jpss     0   224 SENSOR=cris    
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            RAD             1136865            110197.1653036           0.10    0.133E+01   0.100E+01
        Codetype   210 === goes    13   257 SENSOR=imager  
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            RAD               44102            11124.66240138           0.25    0.135E+01   0.255E+01
        Codetype   210 === goes    15   259 SENSOR=imager  
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            RAD               37955            7590.470838921           0.20    0.129E+01   0.265E+01
        Codetype   210 === dmsp    17   285 SENSOR=ssmis   
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            RAD               65341            6013.243776398           0.09    0.108E+02   0.172E+01
        Codetype   210 === dmsp    18   286 SENSOR=ssmis   
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            RAD               26148            650.6013172281           0.02    0.174E+02   0.261E+01
        Codetype   210 === gpm      1   288 SENSOR=gmi     
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            RAD               31996            4102.589121270           0.13    0.170E+02   0.300E+01
        Codetype   210 === meghatr  1   440 SENSOR=saphir  
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            RAD               66471            9141.370012157           0.14    0.180E+01   0.175E+01
        Codetype   210 === fy3      3   522 SENSOR=mwhs2   
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            RAD              120158            32069.88473112           0.27    0.165E+01   0.300E+01
        Codetype   210 === eos      2   784 SENSOR=airs    
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            RAD             1022822            108721.7733082           0.11    0.145E+01   0.300E+00
                         ----------   ---------------------------   --------
     ObsType  7 Total:   10192303            1193929.028839           0.12
 
      Obstype     8 === PAOB,  Australian pseudo obs    
      --------------------------------------------------
 
      Obstype     9 === SCATT, Scatterometer            
      --------------------------------------------------
        Codetype   139 ===  METOP-A ASCAT                  
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            U10               18718            4904.096579050           0.26    0.147E+01   0.149E+01
        Codetype   139 ===  METOP-B ASCAT                  
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            U10               18978            4417.656451122           0.23    0.147E+01   0.145E+01
                         ----------   ---------------------------   --------
     ObsType  9 Total:      37696            9321.753030172           0.25
 
      Obstype    10 === LIMB, Limb observations         
      --------------------------------------------------
        Codetype   250 === METOP-1        3 SENSOR=GRAS    
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            RO                15562            2568.110732466           0.17    0.445E-04   0.445E-04
        Codetype   250 === METOP-2        4 SENSOR=GRAS    
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            RO                13600            2309.435388791           0.17    0.442E-04   0.442E-04
        Codetype   250 === TERRASAR-X    42                
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            RO                 7549            1161.307514806           0.15    0.197E-03   0.197E-03
        Codetype   250 === TANDEM-X      43                
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            RO                  839            145.0003323429           0.17    0.132E-03   0.132E-03
        Codetype   250 === COSMIC-1     740                
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            RO                10069            1351.492792028           0.13    0.176E-03   0.176E-03
        Codetype   250 === COSMIC-6     745                
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            RO                 2974            313.0495736385           0.11    0.193E-03   0.193E-03
                         ----------   ---------------------------   --------
     ObsType 10 Total:      50593            7848.396334072           0.16
 
      Obstype    11 === ISAC, in-situ atm. composition  
      --------------------------------------------------
 
      Obstype    12 === RALT, Radar Altimeter           
      --------------------------------------------------
 
      Obstype    13 === RADAR, meteorological radar     
      --------------------------------------------------
 
      Obstype    14 === Ground-based precip composites  
      --------------------------------------------------
 
      Obstype    15 === LIDAR, Lidar observations       
      --------------------------------------------------
 
      Obstype    16 === All-sky satellite radiances     
      --------------------------------------------------
 
      Obstype    17 === Rain gauge data                 
      --------------------------------------------------
 
      Obstype    18 === IMS Report                      
      --------------------------------------------------
 
  ---------------------------------------------------------------------------
        Jo Global :     11199830            1602797.463058           0.14
RESERVE_LUN reserves unit  57
FREE_LUN returns unit  57 to the pool
  ===========================================================================
 
  End of JO-table (JOT)
 GREPGRAD - LSIMPLE,ITER,SIM,GRAD,J      0   0 0.4786631893713723E+04 0.1644649969450126E+07
 GREPGRAD_hex - ITER,SIM,GRAD,J      0   0  40B2B2A1C3C952FD  41391869F82DE22C
 INITIAL GRADIENT NORM SQUARED :  0.2291184E+08 COST FUNCTION :  0.1644650E+07
  
 --- Variational job : minimization (Lanczos method)------------------
 ---- Lanczos Solver ----
 GREPMIN: Starting point : Estimated gradient norm= 0.4786631893713723E+04  40B2B2A1C3C952FD
 GREPMIN: Starting point : Estimated quadratic cost = 0.1644649969450126E+07  41391869F82DE22C
 GREPMIN: Starting point : scalar product znorm2l1= 0.2107738819737494E+08
 SIM4D: LSUBBG= T
 -------Simulator : initializations ----------------------------------------
 -------Simulator : cost-function Jb ---------------------------------------
 -------Simulator : convert state from control to physical space -----------
 -------Simulator : change from model to TL  variables -------------------
 -------Simulator : call direct and adjoint  model -----------------------
 START CNT3TL
 START CNT4TL, NSIM4D=           1
 NORMS AT START CNT4TL
 SPECTRAL NORMS -   LOG(PREHYDS)    0.193363149889519E-04
 LEV     VORTICITY             DIVERGENCE           TEMPERATURE            HUMIDITY             KINETIC ENERGY    
 AVE 0.273805244511435E-07 0.198052202412075E-07 0.574323870446834E-02 0.124952446055109E-05 0.262885821052809E-03
ISTEP=       0 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5340
ISTEP=       0 ZI0= 1366.0000 ZSEASON= 1.034065865 REA=149597870000.00 RDEASO=147113087085.47
 NORMS AT NSTEP CNT4TL    0
 SPECTRAL NORMS -   LOG(PREHYDS)    0.193363149889519E-04
 LEV     VORTICITY             DIVERGENCE           TEMPERATURE            HUMIDITY             KINETIC ENERGY    
 AVE 0.273805244511435E-07 0.198052202412075E-07 0.574323870446834E-02 0.124952446055109E-05 0.262885821052809E-03
 NSTEP =     0 STEPOTL IAAA0VAAA
 NSTEP =     1 STEPOTL 0AAA00AAA
 NSTEP =     2 STEPOTL 0AAA0VAAA
 NSTEP =     3 STEPOTL 0AAA00AAA
 NSTEP =     4 STEPOTL 0AAA00AAA
ISTEP=       5 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5331
ISTEP=       5 ZI0= 1366.0000 ZSEASON= 1.034065245 REA=149597870000.00 RDEASO=147113131193.21
 NSTEP =     5 STEPOTL 0AAA0VAAA
 NSTEP =     6 STEPOTL 0AAA00AAA
 NSTEP =     7 STEPOTL 0AAA0VAAA
 NSTEP =     8 STEPOTL 0AAA00AAA
 NSTEP =     9 STEPOTL 0AAA00AAA
ISTEP=      10 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5323
ISTEP=      10 ZI0= 1366.0000 ZSEASON= 1.034064607 REA=149597870000.00 RDEASO=147113176585.14
 NSTEP =    10 STEPOTL 0AAA0VAAA
 NSTEP =    11 STEPOTL 0AAA00AAA
 NSTEP =    12 STEPOTL 0AAA0VAAA
 NSTEP =    13 STEPOTL 0AAA00AAA
 NSTEP =    14 STEPOTL 0AAA00AAA
ISTEP=      15 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5314
ISTEP=      15 ZI0= 1366.0000 ZSEASON= 1.034063950 REA=149597870000.00 RDEASO=147113223261.23
 NSTEP =    15 STEPOTL 0AAA0VAAA
 NSTEP =    16 STEPOTL 0AAA00AAA
 NSTEP =    17 STEPOTL 0AAA0VAAA
 NSTEP =    18 STEPOTL 0AAA00AAA
 NSTEP =    19 STEPOTL 0AAA00AAA
ISTEP=      20 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5304
ISTEP=      20 ZI0= 1366.0000 ZSEASON= 1.034063276 REA=149597870000.00 RDEASO=147113271221.47
 NSTEP =    20 STEPOTL 0AAA0VAAA
 NSTEP =    21 STEPOTL 0AAA00AAA
 NSTEP =    22 STEPOTL 0AAA0VAAA
 NSTEP =    23 STEPOTL 0AAA00AAA
 NSTEP =    24 STEPOTL 0AAA00AAA
ISTEP=      25 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5295
ISTEP=      25 ZI0= 1366.0000 ZSEASON= 1.034062584 REA=149597870000.00 RDEASO=147113320465.82
 NSTEP =    25 STEPOTL 0AAA0VAAA
 NSTEP =    26 STEPOTL 0AAA00AAA
 NSTEP =    27 STEPOTL 0AAA0VAAA
 NSTEP =    28 STEPOTL 0AAA00AAA
 NSTEP =    29 STEPOTL 0AAA00AAA
ISTEP=      30 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5285
ISTEP=      30 ZI0= 1366.0000 ZSEASON= 1.034061874 REA=149597870000.00 RDEASO=147113370994.27
 NSTEP =    30 STEPOTL 0AA00V000
 NSTEP =    30 OBSVTL  0AA00V000
 END CNT3TL


    EVJCDFI2- Evaluation of the Jc cost function when the digital filter is used     NSPEC2 =    15670   ALPHAG =  100.000    
 EVJCDFI: DFI check, sum of coefs=  6.635317295611287E-017
         Global value of the Jc-DFI/ALPHAG cost function = 
  0.851824201018540     
 START CNT3AD
 START CNT4AD, NSIM4D=           1
 NSTEP =    30 OBSVAD  000000000
 CNT4AD (ADJOINT INTEGRATION); TIME SLOT NO :  13 TO BE USED WITH TIME STEP (NSTEP) :  30 ; MODEL TIME (SINCE START) : 21600.
 NSTEP =    30 STEPOAD 0AA00V000
 NSTEP =    29 STEPOAD 0AAA00AAA
 NSTEP =    28 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :  12 TO BE USED WITH TIME STEP (NSTEP) :  27 ; MODEL TIME (SINCE START) : 19440.
 NSTEP =    27 STEPOAD 0AAA0VAAA
 NSTEP =    26 STEPOAD 0AAA00AAA
ISTEP=      25 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5295
ISTEP=      25 ZI0= 1366.0000 ZSEASON= 1.034062584 REA=149597870000.00 RDEASO=147113320465.82
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :  11 TO BE USED WITH TIME STEP (NSTEP) :  25 ; MODEL TIME (SINCE START) : 18000.
 NSTEP =    25 STEPOAD 0AAA0VAAA
 NSTEP =    24 STEPOAD 0AAA00AAA
 NSTEP =    23 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :  10 TO BE USED WITH TIME STEP (NSTEP) :  22 ; MODEL TIME (SINCE START) : 15840.
 NSTEP =    22 STEPOAD 0AAA0VAAA
 NSTEP =    21 STEPOAD 0AAA00AAA
ISTEP=      20 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5304
ISTEP=      20 ZI0= 1366.0000 ZSEASON= 1.034063276 REA=149597870000.00 RDEASO=147113271221.47
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   9 TO BE USED WITH TIME STEP (NSTEP) :  20 ; MODEL TIME (SINCE START) : 14400.
 NSTEP =    20 STEPOAD 0AAA0VAAA
 NSTEP =    19 STEPOAD 0AAA00AAA
 NSTEP =    18 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   8 TO BE USED WITH TIME STEP (NSTEP) :  17 ; MODEL TIME (SINCE START) : 12240.
 NSTEP =    17 STEPOAD 0AAA0VAAA
 NSTEP =    16 STEPOAD 0AAA00AAA
ISTEP=      15 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5314
ISTEP=      15 ZI0= 1366.0000 ZSEASON= 1.034063950 REA=149597870000.00 RDEASO=147113223261.23
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   7 TO BE USED WITH TIME STEP (NSTEP) :  15 ; MODEL TIME (SINCE START) : 10800.
 NSTEP =    15 STEPOAD 0AAA0VAAA
 NSTEP =    14 STEPOAD 0AAA00AAA
 NSTEP =    13 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   6 TO BE USED WITH TIME STEP (NSTEP) :  12 ; MODEL TIME (SINCE START) :  8640.
 NSTEP =    12 STEPOAD 0AAA0VAAA
 NSTEP =    11 STEPOAD 0AAA00AAA
ISTEP=      10 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5323
ISTEP=      10 ZI0= 1366.0000 ZSEASON= 1.034064607 REA=149597870000.00 RDEASO=147113176585.14
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   5 TO BE USED WITH TIME STEP (NSTEP) :  10 ; MODEL TIME (SINCE START) :  7200.
 NSTEP =    10 STEPOAD 0AAA0VAAA
 NSTEP =     9 STEPOAD 0AAA00AAA
 NSTEP =     8 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   4 TO BE USED WITH TIME STEP (NSTEP) :   7 ; MODEL TIME (SINCE START) :  5040.
 NSTEP =     7 STEPOAD 0AAA0VAAA
 NSTEP =     6 STEPOAD 0AAA00AAA
ISTEP=       5 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5331
ISTEP=       5 ZI0= 1366.0000 ZSEASON= 1.034065245 REA=149597870000.00 RDEASO=147113131193.21
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   3 TO BE USED WITH TIME STEP (NSTEP) :   5 ; MODEL TIME (SINCE START) :  3600.
 NSTEP =     5 STEPOAD 0AAA0VAAA
 NSTEP =     4 STEPOAD 0AAA00AAA
 NSTEP =     3 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   2 TO BE USED WITH TIME STEP (NSTEP) :   2 ; MODEL TIME (SINCE START) :  1440.
 NSTEP =     2 STEPOAD 0AAA0VAAA
 NSTEP =     1 STEPOAD 0AAA00AAA
ISTEP=       0 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5340
ISTEP=       0 ZI0= 1366.0000 ZSEASON= 1.034065865 REA=149597870000.00 RDEASO=147113087085.47
 NORMS AT NSTEP CNT4AD    0
 SPECTRAL NORMS -   LOG(PREHYDS)    0.735684653706112E+08
 LEV     VORTICITY             DIVERGENCE           TEMPERATURE            HUMIDITY             KINETIC ENERGY    
 AVE 0.118188481822885E+10 0.168440714517053E+10 0.225163517997709E+05 0.271459510119975E+09 0.110753384041013E+32
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   1 TO BE USED WITH TIME STEP (NSTEP) :   0 ; MODEL TIME (SINCE START) :     0.
 NSTEP =     0 STEPOAD 0AAA0VAAA
 NORMS AT END CNT4AD 
 SPECTRAL NORMS -   LOG(PREHYDS)    0.797983820210912E+08
 LEV     VORTICITY             DIVERGENCE           TEMPERATURE            HUMIDITY             KINETIC ENERGY    
 AVE 0.121430181935665E+10 0.171930621711320E+10 0.231981373811990E+05 0.273267103832415E+09 0.118860623738259E+32
 END CNT3AD
 Jc-DFI cost function =    42.5912100509270      --   NSIM4D =            1
 EVCOST3  =   1 PZF = 0.4259121005092701E+02
 DIST. FUNC. JB=0.413978E+05 NSIM4D=    1 ++
 Jp cost function =    468.896418520809      --   NSIM4D =            1
 OBS DISTANCE FUNCTION JO=0.1608090760667856E+07 NSIM4D=    1 ==
 GREPCOST - ITER,SIM,JO,JB,JC,JQ,JP    1   1   1608090.76067       41397.7651306       42.5912100509       0.00000000000       468.896418521    
   GREPCOST_hex - ITER,SIM,JO,JB,JC,JC-DFI,JQ,JP   1   1  4138899AC2BB20EE  40E436B87BF3159C                 0  40454BACC55CE625                 0  407D4E57BAF2666E

 Diagnostic JO-table (JOT) MINIMISATION JOB T0499 NCONF=   131 NSIM4D=     1 NUPTRA=     1
 ===============================================================================
 ==========
 
      Obstype     1 === SYNOP, Land stations and ships  
      --------------------------------------------------
        Codetype    11 === SYNOP Land Manual Report        
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            H2                  774            518.2123349535           0.67    0.100E+00   0.133E+00
            Z                 10027            3682.924680954           0.37    0.785E+02   0.581E+02
        Codetype    14 === SYNOP Land Automatic Report     
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            H2                 1554            754.2685331052           0.49    0.100E+00   0.115E+00
            Z                 10406            2147.780233855           0.21    0.785E+02   0.642E+02
        Codetype    21 === SYNOP-SHIP Report               
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            U                   782            895.4826954682           1.15    0.225E+01   0.146E+01
            U10                   6            8.733310252311           1.46    0.225E+01   0.953E+00
            Z                   448            542.8693532652           1.21    0.785E+02   0.634E+02
        Codetype    24 === SYNOP Automatic SHIP Report     
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            U                  3054            1549.663375402           0.51    0.225E+01   0.168E+01
            U10                  18            5.069605690690           0.28    0.225E+01   0.139E+01
            Z                  2317            592.6903661496           0.26    0.785E+02   0.755E+02
        Codetype    16 === French RADOME                   
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            H2                   42            23.86938541945           0.57    0.100E+00   0.150E+00
            Z                  1637            236.5363663433           0.14    0.785E+02   0.635E+02
        Codetype   110 === Ground-based GPS                
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            APD               24518            26032.27979862           1.06    0.538E-02   0.124E-01
                         ----------   ---------------------------   --------
     ObsType  1 Total:      55583            36990.38003947           0.67
 
      Obstype     2 === AIREP, Aircraft data            
      --------------------------------------------------
        Codetype   141 === AIREP Aircraft Report           
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            U                  3782            2135.333565449           0.56    0.230E+01   0.292E+01
            T                  1940            1184.059469930           0.61    0.861E+00   0.702E+00
        Codetype   144 === AMDAR Aircraft Report           
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            U                 27982            15188.84697497           0.54    0.197E+01   0.235E+01
            T                 13842            6058.802297123           0.44    0.844E+00   0.745E+00
        Codetype   145 === ACARS Aircraft Report           
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            U                309322            121779.6664137           0.39    0.199E+01   0.233E+01
            T                152865            55661.75592426           0.36    0.837E+00   0.761E+00
                         ----------   ---------------------------   --------
     ObsType  2 Total:     509733            202008.4646454           0.40
 
      Obstype     3 === SATOB, Atmospheric motion winds 
      --------------------------------------------------
        Codetype    90 === METEOSAT    55 METHOD=WVCL1     
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            U                  1718            296.8156942628           0.17    0.367E+01   0.325E+01
        Codetype    90 === METEOSAT    55 METHOD=WVCL2     
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            U                  1342            213.6203395346           0.16    0.362E+01   0.324E+01
        Codetype    90 === METEOSAT    55 METHOD=VIS2      
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            U                   436            72.73678859971           0.17    0.210E+01   0.187E+01
        Codetype    90 === METEOSAT    55 METHOD=IR3       
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            U                  4396            651.9190106888           0.15    0.269E+01   0.233E+01
        Codetype    90 === METEOSAT    57 METHOD=WVCL1     
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            U                  2752            570.2338248791           0.21    0.363E+01   0.314E+01
        Codetype    90 === METEOSAT    57 METHOD=WVCL2     
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            U                  2516            520.8440373683           0.21    0.358E+01   0.324E+01
        Codetype    90 === METEOSAT    57 METHOD=IR3       
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            U                  7016            1050.022643659           0.15    0.271E+01   0.235E+01
        Codetype    90 === METEOSAT    57 METHOD=VIS3      
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            U                    10            1.422949177335           0.14    0.212E+01   0.188E+01
        Codetype    90 === HIMAWARI   173 METHOD=WVCL1     
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            U                  9752            1029.789674734           0.11    0.430E+01   0.264E+01
        Codetype    90 === HIMAWARI   173 METHOD=IR1       
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            U                 18148            2208.112036605           0.12    0.353E+01   0.223E+01
        Codetype    90 === HIMAWARI   173 METHOD=VIS1      
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            U                 10946            1223.066506481           0.11    0.246E+01   0.167E+01
        Codetype    90 === HIMAWARI   173 METHOD=WVCL2     
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            U                  3464            381.3300037770           0.11    0.430E+01   0.263E+01
        Codetype    90 === HIMAWARI   173 METHOD=WVCL3     
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            U                  4010            432.8955587028           0.11    0.432E+01   0.260E+01
        Codetype    90 === NOAA       206 METHOD=IR        
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            U                   538            167.5233690218           0.31    0.279E+01   0.372E+01
        Codetype    90 === NOAA       209 METHOD=IR        
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            U                  1670            518.5044190454           0.31    0.266E+01   0.357E+01
        Codetype    90 === NOAA       223 METHOD=IR        
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            U                  1222            369.6341924829           0.30    0.264E+01   0.324E+01
        Codetype    90 === GOES       257 METHOD=IR1       
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            U                  7288            1168.886016187           0.16    0.301E+01   0.236E+01
        Codetype    90 === GOES       257 METHOD=VIS1      
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            U                  2026            229.3208275413           0.11    0.210E+01   0.190E+01
        Codetype    90 === GOES       257 METHOD=WVCL3     
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            U                  4250            925.3296921057           0.22    0.369E+01   0.296E+01
        Codetype    90 === GOES       259 METHOD=IR1       
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            U                  5856            1055.674612875           0.18    0.310E+01   0.297E+01
        Codetype    90 === GOES       259 METHOD=VIS1      
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            U                  5820            803.9156166216           0.14    0.211E+01   0.199E+01
        Codetype    90 === GOES       259 METHOD=WVCL3     
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            U                  4210            932.0549869094           0.22    0.366E+01   0.358E+01
        Codetype    90 === MODIS      783 METHOD=IR        
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            U                   562            123.6217750358           0.22    0.371E+01   0.367E+01
        Codetype    90 === MODIS      784 METHOD=WVCL      
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            U                    68            13.02028003869           0.19    0.432E+01   0.332E+01
        Codetype    90 === MODIS      784 METHOD=IR        
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            U                   702            135.2412810949           0.19    0.350E+01   0.275E+01
        Codetype    90 === MODIS      784 METHOD=WVMW      
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            U                  1026            124.7711680763           0.12    0.421E+01   0.356E+01
                         ----------   ---------------------------   --------
     ObsType  3 Total:     101744            15220.30730551           0.15
 
      Obstype     4 === DRIBU, Drifing Buoys            
      --------------------------------------------------
        Codetype   165 === DRIBU Buoy Report               
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            U10                1016            292.8906738931           0.29    0.225E+01   0.134E+01
            Z                  4918            1146.206188147           0.23    0.588E+02   0.682E+02
                         ----------   ---------------------------   --------
     ObsType  4 Total:       5934            1439.096862040           0.24
 
      Obstype     5 === TEMP,  Radiosondes              
      --------------------------------------------------
        Codetype    35 === TEMP Land Report                
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            U                120652            64602.03962115           0.54    0.197E+01   0.259E+01
            T                 63861            34382.51317479           0.54    0.874E+00   0.913E+00
            Q                 32260            16749.96695761           0.52    0.752E-03   0.687E-03
        Codetype    36 === TEMP SHIP Report                
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            U                   130            38.72876032629           0.30    0.177E+01   0.324E+01
            U10                   4            21.06900804164           5.27    0.158E+01   0.217E+01
            T                    65            28.78132980017           0.44    0.779E+00   0.115E+01
            Q                    56            15.47133404220           0.28    0.409E-03   0.467E-03
                         ----------   ---------------------------   --------
     ObsType  5 Total:     217028            115838.5701858           0.53
 
      Obstype     6 === PILOT, Balloons and profilers   
      --------------------------------------------------
        Codetype    32 === PILOT Land Report               
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            U                 11108            10193.92145851           0.92    0.203E+01   0.255E+01
        Codetype   134 === European Wind Profiler          
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            U                 18108            12785.33445905           0.71    0.172E+01   0.254E+01
                         ----------   ---------------------------   --------
     ObsType  6 Total:      29216            22979.25591755           0.79
 
      Obstype     7 === SATEM, Satellite sounding data  
      --------------------------------------------------
        Codetype   210 === metop    1     3 SENSOR=hirs    
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            RAD              118625            21226.55116286           0.18    0.100E+01   0.945E+00
        Codetype   210 === metop    1     3 SENSOR=amsua   
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            RAD               83877            28189.31859914           0.34    0.317E+00   0.210E+00
        Codetype   210 === metop    1     3 SENSOR=mhs     
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            RAD               26225            3437.307768486           0.13    0.180E+01   0.167E+01
        Codetype   210 === metop    1     3 SENSOR=iasi    
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            RAD             3475746            341348.8669172           0.10    0.130E+01   0.100E+01
        Codetype   210 === metop    2     4 SENSOR=amsua   
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            RAD               67261            26693.88869770           0.40    0.345E+00   0.242E+00
        Codetype   210 === metop    2     4 SENSOR=mhs     
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            RAD               26525            3847.447855540           0.15    0.180E+01   0.166E+01
        Codetype   210 === metop    2     4 SENSOR=iasi    
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            RAD             3100263            348150.9214331           0.11    0.128E+01   0.100E+01
        Codetype   210 === meteosat 8    55 SENSOR=seviri  
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            RAD               54657            2323.413654612           0.04    0.180E+01   0.433E+00
        Codetype   210 === meteosat10    57 SENSOR=seviri  
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            RAD               59407            2552.121541353           0.04    0.180E+01   0.430E+00
        Codetype   210 === himawari 8   173 SENSOR=ahi     
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            RAD              143222            11117.14612042           0.08    0.180E+01   0.300E+01
        Codetype   210 === noaa    15   206 SENSOR=amsua   
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            RAD               62171            17823.34775614           0.29    0.335E+00   0.245E+00
        Codetype   210 === noaa    18   209 SENSOR=amsua   
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            RAD               58824            21299.22683853           0.36    0.358E+00   0.237E+00
        Codetype   210 === noaa    18   209 SENSOR=amsub   
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            RAD               25575            3257.331159168           0.13    0.180E+01   0.166E+01
        Codetype   210 === eos      2   222 SENSOR=amsua   
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            RAD               47290            14318.41814655           0.30    0.354E+00   0.217E+00
        Codetype   210 === noaa    19   223 SENSOR=amsua   
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            RAD               71806            27380.63686299           0.38    0.335E+00   0.229E+00
        Codetype   210 === noaa    19   223 SENSOR=mhs     
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            RAD               26567            10492.00154893           0.39    0.180E+01   0.170E+01
        Codetype   210 === jpss     0   224 SENSOR=atms    
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            RAD              192404            22939.37314133           0.12    0.924E+01   0.156E+01
        Codetype   210 === jpss     0   224 SENSOR=cris    
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            RAD             1136865            110509.0935224           0.10    0.133E+01   0.100E+01
        Codetype   210 === goes    13   257 SENSOR=imager  
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            RAD               44102            11129.73539094           0.25    0.135E+01   0.255E+01
        Codetype   210 === goes    15   259 SENSOR=imager  
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            RAD               37955            7592.695159449           0.20    0.129E+01   0.265E+01
        Codetype   210 === dmsp    17   285 SENSOR=ssmis   
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            RAD               65341            6031.719815787           0.09    0.108E+02   0.172E+01
        Codetype   210 === dmsp    18   286 SENSOR=ssmis   
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            RAD               26148            651.7327851293           0.02    0.174E+02   0.261E+01
        Codetype   210 === gpm      1   288 SENSOR=gmi     
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            RAD               31996            4106.815516632           0.13    0.170E+02   0.300E+01
        Codetype   210 === meghatr  1   440 SENSOR=saphir  
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            RAD               66471            9164.121062313           0.14    0.180E+01   0.175E+01
        Codetype   210 === fy3      3   522 SENSOR=mwhs2   
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            RAD              120158            32083.64565578           0.27    0.165E+01   0.300E+01
        Codetype   210 === eos      2   784 SENSOR=airs    
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            RAD             1022822            108748.4078565           0.11    0.145E+01   0.300E+00
                         ----------   ---------------------------   --------
     ObsType  7 Total:   10192303            1196415.285969           0.12
 
      Obstype     8 === PAOB,  Australian pseudo obs    
      --------------------------------------------------
 
      Obstype     9 === SCATT, Scatterometer            
      --------------------------------------------------
        Codetype   139 ===  METOP-A ASCAT                  
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            U10               18718            4914.910156134           0.26    0.147E+01   0.149E+01
        Codetype   139 ===  METOP-B ASCAT                  
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            U10               18978            4431.869256635           0.23    0.147E+01   0.145E+01
                         ----------   ---------------------------   --------
     ObsType  9 Total:      37696            9346.779412769           0.25
 
      Obstype    10 === LIMB, Limb observations         
      --------------------------------------------------
        Codetype   250 === METOP-1        3 SENSOR=GRAS    
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            RO                15562            2569.314443557           0.17    0.445E-04   0.445E-04
        Codetype   250 === METOP-2        4 SENSOR=GRAS    
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            RO                13600            2310.595855568           0.17    0.442E-04   0.442E-04
        Codetype   250 === TERRASAR-X    42                
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            RO                 7549            1161.523873991           0.15    0.197E-03   0.197E-03
        Codetype   250 === TANDEM-X      43                
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            RO                  839            145.3269471870           0.17    0.132E-03   0.132E-03
        Codetype   250 === COSMIC-1     740                
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            RO                10069            1352.683623981           0.13    0.176E-03   0.176E-03
        Codetype   250 === COSMIC-6     745                
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            RO                 2974            313.1755861037           0.11    0.193E-03   0.193E-03
                         ----------   ---------------------------   --------
     ObsType 10 Total:      50593            7852.620330388           0.16
 
      Obstype    11 === ISAC, in-situ atm. composition  
      --------------------------------------------------
 
      Obstype    12 === RALT, Radar Altimeter           
      --------------------------------------------------
 
      Obstype    13 === RADAR, meteorological radar     
      --------------------------------------------------
 
      Obstype    14 === Ground-based precip composites  
      --------------------------------------------------
 
      Obstype    15 === LIDAR, Lidar observations       
      --------------------------------------------------
 
      Obstype    16 === All-sky satellite radiances     
      --------------------------------------------------
 
      Obstype    17 === Rain gauge data                 
      --------------------------------------------------
 
      Obstype    18 === IMS Report                      
      --------------------------------------------------
 
  ---------------------------------------------------------------------------
        Jo Global :     11199830            1608090.760668           0.14
RESERVE_LUN reserves unit  57
FREE_LUN returns unit  57 to the pool
  ===========================================================================
 
  End of JO-table (JOT)
 GREPGRAD - LSIMPLE,ITER,SIM,GRAD,J      1   1 0.6493094524729622E+04 0.1650000013426988E+07
 GREPGRAD_hex - ITER,SIM,GRAD,J      1   1  40B95D1832C5CE64  41392D50036FF37B
 GREPMIN: Iteration    1 : Estimated gradient norm= 0.4703883335062019E+04  40B25FE2223F22C8
 Estimated reduction in norm of gradient is:   0.982712571075211     
 GREPMIN: Iteration    1 : Estimated quadratic cost= 0.1637707778670577E+07  4138FD4BC756F477
 congrad: ritz values are:    1518.06460429365     
 congrad: error bounds are:    1514.80577663725     
 congrad: End of iteration:            1


 -------Simulator : initializations ----------------------------------------
 -------Simulator : cost-function Jb ---------------------------------------
 -------Simulator : convert state from control to physical space -----------
 -------Simulator : change from model to TL  variables -------------------
 -------Simulator : call direct and adjoint  model -----------------------
 START CNT3TL
 START CNT4TL, NSIM4D=           2
 NORMS AT START CNT4TL
 SPECTRAL NORMS -   LOG(PREHYDS)    0.250192779695812E-04
 LEV     VORTICITY             DIVERGENCE           TEMPERATURE            HUMIDITY             KINETIC ENERGY    
 AVE 0.243841457400570E-07 0.174975210569572E-07 0.645173051551461E-02 0.224449393002476E-05 0.319829407526078E-03
ISTEP=       0 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5340
ISTEP=       0 ZI0= 1366.0000 ZSEASON= 1.034065865 REA=149597870000.00 RDEASO=147113087085.47
 NORMS AT NSTEP CNT4TL    0
 SPECTRAL NORMS -   LOG(PREHYDS)    0.250192779695812E-04
 LEV     VORTICITY             DIVERGENCE           TEMPERATURE            HUMIDITY             KINETIC ENERGY    
 AVE 0.243841457400570E-07 0.174975210569572E-07 0.645173051551461E-02 0.224449393002476E-05 0.319829407526078E-03
 NSTEP =     0 STEPOTL IAAA0VAAA
 NSTEP =     1 STEPOTL 0AAA00AAA
 NSTEP =     2 STEPOTL 0AAA0VAAA
 NSTEP =     3 STEPOTL 0AAA00AAA
 NSTEP =     4 STEPOTL 0AAA00AAA
ISTEP=       5 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5331
ISTEP=       5 ZI0= 1366.0000 ZSEASON= 1.034065245 REA=149597870000.00 RDEASO=147113131193.21
 NSTEP =     5 STEPOTL 0AAA0VAAA
 NSTEP =     6 STEPOTL 0AAA00AAA
 NSTEP =     7 STEPOTL 0AAA0VAAA
 NSTEP =     8 STEPOTL 0AAA00AAA
 NSTEP =     9 STEPOTL 0AAA00AAA
ISTEP=      10 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5323
ISTEP=      10 ZI0= 1366.0000 ZSEASON= 1.034064607 REA=149597870000.00 RDEASO=147113176585.14
 NSTEP =    10 STEPOTL 0AAA0VAAA
 NSTEP =    11 STEPOTL 0AAA00AAA
 NSTEP =    12 STEPOTL 0AAA0VAAA
 NSTEP =    13 STEPOTL 0AAA00AAA
 NSTEP =    14 STEPOTL 0AAA00AAA
ISTEP=      15 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5314
ISTEP=      15 ZI0= 1366.0000 ZSEASON= 1.034063950 REA=149597870000.00 RDEASO=147113223261.23
 NSTEP =    15 STEPOTL 0AAA0VAAA
 NSTEP =    16 STEPOTL 0AAA00AAA
 NSTEP =    17 STEPOTL 0AAA0VAAA
 NSTEP =    18 STEPOTL 0AAA00AAA
 NSTEP =    19 STEPOTL 0AAA00AAA
ISTEP=      20 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5304
ISTEP=      20 ZI0= 1366.0000 ZSEASON= 1.034063276 REA=149597870000.00 RDEASO=147113271221.47
 NSTEP =    20 STEPOTL 0AAA0VAAA
 NSTEP =    21 STEPOTL 0AAA00AAA
 NSTEP =    22 STEPOTL 0AAA0VAAA
 NSTEP =    23 STEPOTL 0AAA00AAA
 NSTEP =    24 STEPOTL 0AAA00AAA
ISTEP=      25 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5295
ISTEP=      25 ZI0= 1366.0000 ZSEASON= 1.034062584 REA=149597870000.00 RDEASO=147113320465.82
 NSTEP =    25 STEPOTL 0AAA0VAAA
 NSTEP =    26 STEPOTL 0AAA00AAA
 NSTEP =    27 STEPOTL 0AAA0VAAA
 NSTEP =    28 STEPOTL 0AAA00AAA
 NSTEP =    29 STEPOTL 0AAA00AAA
ISTEP=      30 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5285
ISTEP=      30 ZI0= 1366.0000 ZSEASON= 1.034061874 REA=149597870000.00 RDEASO=147113370994.27
 NSTEP =    30 STEPOTL 0AA00V000
 NSTEP =    30 OBSVTL  0AA00V000
 *** COMTC ARRIVAL        28164        7131         272
 END CNT3TL


    EVJCDFI2- Evaluation of the Jc cost function when the digital filter is used     NSPEC2 =    15670   ALPHAG =  100.000    
 EVJCDFI: DFI check, sum of coefs=  6.635317295611287E-017
         Global value of the Jc-DFI/ALPHAG cost function = 
   1.15537642709723     
 START CNT3AD
 START CNT4AD, NSIM4D=           2
 NSTEP =    30 OBSVAD  000000000
 CNT4AD (ADJOINT INTEGRATION); TIME SLOT NO :  13 TO BE USED WITH TIME STEP (NSTEP) :  30 ; MODEL TIME (SINCE START) : 21600.
 NSTEP =    30 STEPOAD 0AA00V000
 NSTEP =    29 STEPOAD 0AAA00AAA
 NSTEP =    28 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :  12 TO BE USED WITH TIME STEP (NSTEP) :  27 ; MODEL TIME (SINCE START) : 19440.
 NSTEP =    27 STEPOAD 0AAA0VAAA
 NSTEP =    26 STEPOAD 0AAA00AAA
ISTEP=      25 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5295
ISTEP=      25 ZI0= 1366.0000 ZSEASON= 1.034062584 REA=149597870000.00 RDEASO=147113320465.82
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :  11 TO BE USED WITH TIME STEP (NSTEP) :  25 ; MODEL TIME (SINCE START) : 18000.
 NSTEP =    25 STEPOAD 0AAA0VAAA
 NSTEP =    24 STEPOAD 0AAA00AAA
 NSTEP =    23 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :  10 TO BE USED WITH TIME STEP (NSTEP) :  22 ; MODEL TIME (SINCE START) : 15840.
 NSTEP =    22 STEPOAD 0AAA0VAAA
 NSTEP =    21 STEPOAD 0AAA00AAA
ISTEP=      20 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5304
ISTEP=      20 ZI0= 1366.0000 ZSEASON= 1.034063276 REA=149597870000.00 RDEASO=147113271221.47
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   9 TO BE USED WITH TIME STEP (NSTEP) :  20 ; MODEL TIME (SINCE START) : 14400.
 NSTEP =    20 STEPOAD 0AAA0VAAA
 NSTEP =    19 STEPOAD 0AAA00AAA
 NSTEP =    18 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   8 TO BE USED WITH TIME STEP (NSTEP) :  17 ; MODEL TIME (SINCE START) : 12240.
 NSTEP =    17 STEPOAD 0AAA0VAAA
 NSTEP =    16 STEPOAD 0AAA00AAA
ISTEP=      15 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5314
ISTEP=      15 ZI0= 1366.0000 ZSEASON= 1.034063950 REA=149597870000.00 RDEASO=147113223261.23
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   7 TO BE USED WITH TIME STEP (NSTEP) :  15 ; MODEL TIME (SINCE START) : 10800.
 NSTEP =    15 STEPOAD 0AAA0VAAA
 NSTEP =    14 STEPOAD 0AAA00AAA
 NSTEP =    13 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   6 TO BE USED WITH TIME STEP (NSTEP) :  12 ; MODEL TIME (SINCE START) :  8640.
 NSTEP =    12 STEPOAD 0AAA0VAAA
 NSTEP =    11 STEPOAD 0AAA00AAA
ISTEP=      10 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5323
ISTEP=      10 ZI0= 1366.0000 ZSEASON= 1.034064607 REA=149597870000.00 RDEASO=147113176585.14
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   5 TO BE USED WITH TIME STEP (NSTEP) :  10 ; MODEL TIME (SINCE START) :  7200.
 NSTEP =    10 STEPOAD 0AAA0VAAA
 NSTEP =     9 STEPOAD 0AAA00AAA
 NSTEP =     8 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   4 TO BE USED WITH TIME STEP (NSTEP) :   7 ; MODEL TIME (SINCE START) :  5040.
 NSTEP =     7 STEPOAD 0AAA0VAAA
 NSTEP =     6 STEPOAD 0AAA00AAA
ISTEP=       5 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5331
ISTEP=       5 ZI0= 1366.0000 ZSEASON= 1.034065245 REA=149597870000.00 RDEASO=147113131193.21
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   3 TO BE USED WITH TIME STEP (NSTEP) :   5 ; MODEL TIME (SINCE START) :  3600.
 NSTEP =     5 STEPOAD 0AAA0VAAA
 NSTEP =     4 STEPOAD 0AAA00AAA
 NSTEP =     3 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   2 TO BE USED WITH TIME STEP (NSTEP) :   2 ; MODEL TIME (SINCE START) :  1440.
 NSTEP =     2 STEPOAD 0AAA0VAAA
 NSTEP =     1 STEPOAD 0AAA00AAA
ISTEP=       0 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5340
ISTEP=       0 ZI0= 1366.0000 ZSEASON= 1.034065865 REA=149597870000.00 RDEASO=147113087085.47
 NORMS AT NSTEP CNT4AD    0
 SPECTRAL NORMS -   LOG(PREHYDS)    0.701220981270359E+08
 LEV     VORTICITY             DIVERGENCE           TEMPERATURE            HUMIDITY             KINETIC ENERGY    
 AVE 0.115519780438104E+10 0.158706661507487E+10 0.222395254504530E+05 0.268676470564533E+09 0.109104720461766E+32
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   1 TO BE USED WITH TIME STEP (NSTEP) :   0 ; MODEL TIME (SINCE START) :     0.
 NSTEP =     0 STEPOAD 0AAA0VAAA
 NORMS AT END CNT4AD 
 SPECTRAL NORMS -   LOG(PREHYDS)    0.763162533524711E+08
 LEV     VORTICITY             DIVERGENCE           TEMPERATURE            HUMIDITY             KINETIC ENERGY    
 AVE 0.118863974067123E+10 0.161953852246024E+10 0.228858593164788E+05 0.270451519353206E+09 0.116564437033162E+32
 END CNT3AD
 Jc-DFI cost function =    57.7688213548613      --   NSIM4D =            2
 EVCOST3  =   2 PZF = 0.5776882135486132E+02
 DIST. FUNC. JB=0.413729E+05 NSIM4D=    2 ++
 Jp cost function =    468.819889832694      --   NSIM4D =            2
 OBS DISTANCE FUNCTION JO=0.1604104402947493E+07 NSIM4D=    2 ==
 GREPCOST - ITER,SIM,JO,JB,JC,JQ,JP    2   2   1604104.40295       41372.9248339       57.7688213549       0.00000000000       468.819889833    
   GREPCOST_hex - ITER,SIM,JO,JB,JC,JC-DFI,JQ,JP   2   2  41387A0867279120  40E4339D983D49DC                 0  404CE268BCF7CC43                 0  407D4D1E44CD1BE5
 GREPGRAD - LSIMPLE,ITER,SIM,GRAD,J      2   2 0.6931784146177588E+04 0.1646003916492593E+07
 GREPGRAD_hex - ITER,SIM,GRAD,J      2   2  40BB13C8BDCDCC06  41391DB3EA9F4230
 GREPMIN: Iteration    2 : Estimated gradient norm= 0.4639121582903190E+04  40B21F1F200EA0F4
 Estimated reduction in norm of gradient is:   0.969182858827256     
 GREPMIN: Iteration    2 : Estimated quadratic cost= 0.1628936447253344E+07  4138DB08727F31F7
 congrad: ritz values are:    485.539610189246        3740.41907903826     
 congrad: error bounds are:    667.251910748279        978.917754674255     
 congrad: End of iteration:            2


 -------Simulator : initializations ----------------------------------------
 -------Simulator : cost-function Jb ---------------------------------------
 -------Simulator : convert state from control to physical space -----------
 -------Simulator : change from model to TL  variables -------------------
 -------Simulator : call direct and adjoint  model -----------------------
 START CNT3TL
 START CNT4TL, NSIM4D=           3
ISTEP=       0 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5340
ISTEP=       0 ZI0= 1366.0000 ZSEASON= 1.034065865 REA=149597870000.00 RDEASO=147113087085.47
 NSTEP =     0 STEPOTL IAAA0VAAA
 NSTEP =     1 STEPOTL 0AAA00AAA
 NSTEP =     2 STEPOTL 0AAA0VAAA
 NSTEP =     3 STEPOTL 0AAA00AAA
 NSTEP =     4 STEPOTL 0AAA00AAA
ISTEP=       5 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5331
ISTEP=       5 ZI0= 1366.0000 ZSEASON= 1.034065245 REA=149597870000.00 RDEASO=147113131193.21
 NSTEP =     5 STEPOTL 0AAA0VAAA
 NSTEP =     6 STEPOTL 0AAA00AAA
 NSTEP =     7 STEPOTL 0AAA0VAAA
 NSTEP =     8 STEPOTL 0AAA00AAA
 NSTEP =     9 STEPOTL 0AAA00AAA
ISTEP=      10 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5323
ISTEP=      10 ZI0= 1366.0000 ZSEASON= 1.034064607 REA=149597870000.00 RDEASO=147113176585.14
 NSTEP =    10 STEPOTL 0AAA0VAAA
 NSTEP =    11 STEPOTL 0AAA00AAA
 NSTEP =    12 STEPOTL 0AAA0VAAA
 NSTEP =    13 STEPOTL 0AAA00AAA
 NSTEP =    14 STEPOTL 0AAA00AAA
ISTEP=      15 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5314
ISTEP=      15 ZI0= 1366.0000 ZSEASON= 1.034063950 REA=149597870000.00 RDEASO=147113223261.23
 NSTEP =    15 STEPOTL 0AAA0VAAA
 NSTEP =    16 STEPOTL 0AAA00AAA
 NSTEP =    17 STEPOTL 0AAA0VAAA
 NSTEP =    18 STEPOTL 0AAA00AAA
 NSTEP =    19 STEPOTL 0AAA00AAA
ISTEP=      20 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5304
ISTEP=      20 ZI0= 1366.0000 ZSEASON= 1.034063276 REA=149597870000.00 RDEASO=147113271221.47
 NSTEP =    20 STEPOTL 0AAA0VAAA
 NSTEP =    21 STEPOTL 0AAA00AAA
 NSTEP =    22 STEPOTL 0AAA0VAAA
 NSTEP =    23 STEPOTL 0AAA00AAA
 NSTEP =    24 STEPOTL 0AAA00AAA
ISTEP=      25 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5295
ISTEP=      25 ZI0= 1366.0000 ZSEASON= 1.034062584 REA=149597870000.00 RDEASO=147113320465.82
 NSTEP =    25 STEPOTL 0AAA0VAAA
 NSTEP =    26 STEPOTL 0AAA00AAA
 NSTEP =    27 STEPOTL 0AAA0VAAA
 NSTEP =    28 STEPOTL 0AAA00AAA
 NSTEP =    29 STEPOTL 0AAA00AAA
ISTEP=      30 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5285
ISTEP=      30 ZI0= 1366.0000 ZSEASON= 1.034061874 REA=149597870000.00 RDEASO=147113370994.27
 NSTEP =    30 STEPOTL 0AA00V000
 NSTEP =    30 OBSVTL  0AA00V000
 *** COMTC ARRIVAL        28164        7131         272
 END CNT3TL


    EVJCDFI2- Evaluation of the Jc cost function when the digital filter is used     NSPEC2 =    15670   ALPHAG =  100.000    
 EVJCDFI: DFI check, sum of coefs=  6.635317295611287E-017
         Global value of the Jc-DFI/ALPHAG cost function = 
   1.15455220172305     
 START CNT3AD
 START CNT4AD, NSIM4D=           3
 NSTEP =    30 OBSVAD  000000000
 CNT4AD (ADJOINT INTEGRATION); TIME SLOT NO :  13 TO BE USED WITH TIME STEP (NSTEP) :  30 ; MODEL TIME (SINCE START) : 21600.
 NSTEP =    30 STEPOAD 0AA00V000
 NSTEP =    29 STEPOAD 0AAA00AAA
 NSTEP =    28 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :  12 TO BE USED WITH TIME STEP (NSTEP) :  27 ; MODEL TIME (SINCE START) : 19440.
 NSTEP =    27 STEPOAD 0AAA0VAAA
 NSTEP =    26 STEPOAD 0AAA00AAA
ISTEP=      25 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5295
ISTEP=      25 ZI0= 1366.0000 ZSEASON= 1.034062584 REA=149597870000.00 RDEASO=147113320465.82
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :  11 TO BE USED WITH TIME STEP (NSTEP) :  25 ; MODEL TIME (SINCE START) : 18000.
 NSTEP =    25 STEPOAD 0AAA0VAAA
 NSTEP =    24 STEPOAD 0AAA00AAA
 NSTEP =    23 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :  10 TO BE USED WITH TIME STEP (NSTEP) :  22 ; MODEL TIME (SINCE START) : 15840.
 NSTEP =    22 STEPOAD 0AAA0VAAA
 NSTEP =    21 STEPOAD 0AAA00AAA
ISTEP=      20 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5304
ISTEP=      20 ZI0= 1366.0000 ZSEASON= 1.034063276 REA=149597870000.00 RDEASO=147113271221.47
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   9 TO BE USED WITH TIME STEP (NSTEP) :  20 ; MODEL TIME (SINCE START) : 14400.
 NSTEP =    20 STEPOAD 0AAA0VAAA
 NSTEP =    19 STEPOAD 0AAA00AAA
 NSTEP =    18 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   8 TO BE USED WITH TIME STEP (NSTEP) :  17 ; MODEL TIME (SINCE START) : 12240.
 NSTEP =    17 STEPOAD 0AAA0VAAA
 NSTEP =    16 STEPOAD 0AAA00AAA
ISTEP=      15 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5314
ISTEP=      15 ZI0= 1366.0000 ZSEASON= 1.034063950 REA=149597870000.00 RDEASO=147113223261.23
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   7 TO BE USED WITH TIME STEP (NSTEP) :  15 ; MODEL TIME (SINCE START) : 10800.
 NSTEP =    15 STEPOAD 0AAA0VAAA
 NSTEP =    14 STEPOAD 0AAA00AAA
 NSTEP =    13 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   6 TO BE USED WITH TIME STEP (NSTEP) :  12 ; MODEL TIME (SINCE START) :  8640.
 NSTEP =    12 STEPOAD 0AAA0VAAA
 NSTEP =    11 STEPOAD 0AAA00AAA
ISTEP=      10 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5323
ISTEP=      10 ZI0= 1366.0000 ZSEASON= 1.034064607 REA=149597870000.00 RDEASO=147113176585.14
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   5 TO BE USED WITH TIME STEP (NSTEP) :  10 ; MODEL TIME (SINCE START) :  7200.
 NSTEP =    10 STEPOAD 0AAA0VAAA
 NSTEP =     9 STEPOAD 0AAA00AAA
 NSTEP =     8 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   4 TO BE USED WITH TIME STEP (NSTEP) :   7 ; MODEL TIME (SINCE START) :  5040.
 NSTEP =     7 STEPOAD 0AAA0VAAA
 NSTEP =     6 STEPOAD 0AAA00AAA
ISTEP=       5 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5331
ISTEP=       5 ZI0= 1366.0000 ZSEASON= 1.034065245 REA=149597870000.00 RDEASO=147113131193.21
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   3 TO BE USED WITH TIME STEP (NSTEP) :   5 ; MODEL TIME (SINCE START) :  3600.
 NSTEP =     5 STEPOAD 0AAA0VAAA
 NSTEP =     4 STEPOAD 0AAA00AAA
 NSTEP =     3 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   2 TO BE USED WITH TIME STEP (NSTEP) :   2 ; MODEL TIME (SINCE START) :  1440.
 NSTEP =     2 STEPOAD 0AAA0VAAA
 NSTEP =     1 STEPOAD 0AAA00AAA
ISTEP=       0 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5340
ISTEP=       0 ZI0= 1366.0000 ZSEASON= 1.034065865 REA=149597870000.00 RDEASO=147113087085.47
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   1 TO BE USED WITH TIME STEP (NSTEP) :   0 ; MODEL TIME (SINCE START) :     0.
 NSTEP =     0 STEPOAD 0AAA0VAAA
 END CNT3AD
 Jc-DFI cost function =    57.7276100861523      --   NSIM4D =            3
 EVCOST3  =   3 PZF = 0.5772761008615235E+02
 DIST. FUNC. JB=0.413928E+05 NSIM4D=    3 ++
 Jp cost function =    468.912635316872      --   NSIM4D =            3
 OBS DISTANCE FUNCTION JO=0.1604090563954655E+07 NSIM4D=    3 ==
 GREPCOST - ITER,SIM,JO,JB,JC,JQ,JP    3   3   1604090.56395       41392.7689983       57.7276100862       0.00000000000       468.912635317    
   GREPCOST_hex - ITER,SIM,JO,JB,JC,JC-DFI,JQ,JP   3   3  413879FA905F5510  40E436189BA25383                 0  404CDD2253CA21CD                 0  407D4E9A277D7237
 GREPGRAD - LSIMPLE,ITER,SIM,GRAD,J      3   3 0.5808290420484787E+04 0.1646009973198360E+07
 GREPGRAD_hex - ITER,SIM,GRAD,J      3   3  40B6B04A58FF3440  41391DB9F9238717
 GREPMIN: Iteration    3 : Estimated gradient norm= 0.4038317198917874E+04  40AF8CA267E58531
 Estimated reduction in norm of gradient is:   0.843665710793719     
 GREPMIN: Iteration    3 : Estimated quadratic cost= 0.1622284038815729E+07  4138C10C09EFD3DF
 congrad: ritz values are:    279.737488550553        2300.06571405696     
   4366.16298308706     
 congrad: error bounds are:    388.377398264974        1046.31089992469     
   709.141412380658     
 congrad: End of iteration:            3


 -------Simulator : initializations ----------------------------------------
 -------Simulator : cost-function Jb ---------------------------------------
 -------Simulator : convert state from control to physical space -----------
 -------Simulator : change from model to TL  variables -------------------
 -------Simulator : call direct and adjoint  model -----------------------
 START CNT3TL
 START CNT4TL, NSIM4D=           4
ISTEP=       0 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5340
ISTEP=       0 ZI0= 1366.0000 ZSEASON= 1.034065865 REA=149597870000.00 RDEASO=147113087085.47
 NSTEP =     0 STEPOTL IAAA0VAAA
 NSTEP =     1 STEPOTL 0AAA00AAA
 NSTEP =     2 STEPOTL 0AAA0VAAA
 NSTEP =     3 STEPOTL 0AAA00AAA
 NSTEP =     4 STEPOTL 0AAA00AAA
ISTEP=       5 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5331
ISTEP=       5 ZI0= 1366.0000 ZSEASON= 1.034065245 REA=149597870000.00 RDEASO=147113131193.21
 NSTEP =     5 STEPOTL 0AAA0VAAA
 NSTEP =     6 STEPOTL 0AAA00AAA
 NSTEP =     7 STEPOTL 0AAA0VAAA
 NSTEP =     8 STEPOTL 0AAA00AAA
 NSTEP =     9 STEPOTL 0AAA00AAA
ISTEP=      10 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5323
ISTEP=      10 ZI0= 1366.0000 ZSEASON= 1.034064607 REA=149597870000.00 RDEASO=147113176585.14
 NSTEP =    10 STEPOTL 0AAA0VAAA
 NSTEP =    11 STEPOTL 0AAA00AAA
 NSTEP =    12 STEPOTL 0AAA0VAAA
 NSTEP =    13 STEPOTL 0AAA00AAA
 NSTEP =    14 STEPOTL 0AAA00AAA
ISTEP=      15 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5314
ISTEP=      15 ZI0= 1366.0000 ZSEASON= 1.034063950 REA=149597870000.00 RDEASO=147113223261.23
 NSTEP =    15 STEPOTL 0AAA0VAAA
 NSTEP =    16 STEPOTL 0AAA00AAA
 NSTEP =    17 STEPOTL 0AAA0VAAA
 NSTEP =    18 STEPOTL 0AAA00AAA
 NSTEP =    19 STEPOTL 0AAA00AAA
ISTEP=      20 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5304
ISTEP=      20 ZI0= 1366.0000 ZSEASON= 1.034063276 REA=149597870000.00 RDEASO=147113271221.47
 NSTEP =    20 STEPOTL 0AAA0VAAA
 NSTEP =    21 STEPOTL 0AAA00AAA
 NSTEP =    22 STEPOTL 0AAA0VAAA
 NSTEP =    23 STEPOTL 0AAA00AAA
 NSTEP =    24 STEPOTL 0AAA00AAA
ISTEP=      25 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5295
ISTEP=      25 ZI0= 1366.0000 ZSEASON= 1.034062584 REA=149597870000.00 RDEASO=147113320465.82
 NSTEP =    25 STEPOTL 0AAA0VAAA
 NSTEP =    26 STEPOTL 0AAA00AAA
 NSTEP =    27 STEPOTL 0AAA0VAAA
 NSTEP =    28 STEPOTL 0AAA00AAA
 NSTEP =    29 STEPOTL 0AAA00AAA
ISTEP=      30 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5285
ISTEP=      30 ZI0= 1366.0000 ZSEASON= 1.034061874 REA=149597870000.00 RDEASO=147113370994.27
 NSTEP =    30 STEPOTL 0AA00V000
 NSTEP =    30 OBSVTL  0AA00V000
 *** COMTC ARRIVAL        28164        7131         272
 END CNT3TL


    EVJCDFI2- Evaluation of the Jc cost function when the digital filter is used     NSPEC2 =    15670   ALPHAG =  100.000    
 EVJCDFI: DFI check, sum of coefs=  6.635317295611287E-017
         Global value of the Jc-DFI/ALPHAG cost function = 
   1.72057764220267     
 START CNT3AD
 START CNT4AD, NSIM4D=           4
 NSTEP =    30 OBSVAD  000000000
 CNT4AD (ADJOINT INTEGRATION); TIME SLOT NO :  13 TO BE USED WITH TIME STEP (NSTEP) :  30 ; MODEL TIME (SINCE START) : 21600.
 NSTEP =    30 STEPOAD 0AA00V000
 NSTEP =    29 STEPOAD 0AAA00AAA
 NSTEP =    28 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :  12 TO BE USED WITH TIME STEP (NSTEP) :  27 ; MODEL TIME (SINCE START) : 19440.
 NSTEP =    27 STEPOAD 0AAA0VAAA
 NSTEP =    26 STEPOAD 0AAA00AAA
ISTEP=      25 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5295
ISTEP=      25 ZI0= 1366.0000 ZSEASON= 1.034062584 REA=149597870000.00 RDEASO=147113320465.82
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :  11 TO BE USED WITH TIME STEP (NSTEP) :  25 ; MODEL TIME (SINCE START) : 18000.
 NSTEP =    25 STEPOAD 0AAA0VAAA
 NSTEP =    24 STEPOAD 0AAA00AAA
 NSTEP =    23 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :  10 TO BE USED WITH TIME STEP (NSTEP) :  22 ; MODEL TIME (SINCE START) : 15840.
 NSTEP =    22 STEPOAD 0AAA0VAAA
 NSTEP =    21 STEPOAD 0AAA00AAA
ISTEP=      20 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5304
ISTEP=      20 ZI0= 1366.0000 ZSEASON= 1.034063276 REA=149597870000.00 RDEASO=147113271221.47
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   9 TO BE USED WITH TIME STEP (NSTEP) :  20 ; MODEL TIME (SINCE START) : 14400.
 NSTEP =    20 STEPOAD 0AAA0VAAA
 NSTEP =    19 STEPOAD 0AAA00AAA
 NSTEP =    18 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   8 TO BE USED WITH TIME STEP (NSTEP) :  17 ; MODEL TIME (SINCE START) : 12240.
 NSTEP =    17 STEPOAD 0AAA0VAAA
 NSTEP =    16 STEPOAD 0AAA00AAA
ISTEP=      15 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5314
ISTEP=      15 ZI0= 1366.0000 ZSEASON= 1.034063950 REA=149597870000.00 RDEASO=147113223261.23
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   7 TO BE USED WITH TIME STEP (NSTEP) :  15 ; MODEL TIME (SINCE START) : 10800.
 NSTEP =    15 STEPOAD 0AAA0VAAA
 NSTEP =    14 STEPOAD 0AAA00AAA
 NSTEP =    13 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   6 TO BE USED WITH TIME STEP (NSTEP) :  12 ; MODEL TIME (SINCE START) :  8640.
 NSTEP =    12 STEPOAD 0AAA0VAAA
 NSTEP =    11 STEPOAD 0AAA00AAA
ISTEP=      10 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5323
ISTEP=      10 ZI0= 1366.0000 ZSEASON= 1.034064607 REA=149597870000.00 RDEASO=147113176585.14
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   5 TO BE USED WITH TIME STEP (NSTEP) :  10 ; MODEL TIME (SINCE START) :  7200.
 NSTEP =    10 STEPOAD 0AAA0VAAA
 NSTEP =     9 STEPOAD 0AAA00AAA
 NSTEP =     8 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   4 TO BE USED WITH TIME STEP (NSTEP) :   7 ; MODEL TIME (SINCE START) :  5040.
 NSTEP =     7 STEPOAD 0AAA0VAAA
 NSTEP =     6 STEPOAD 0AAA00AAA
ISTEP=       5 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5331
ISTEP=       5 ZI0= 1366.0000 ZSEASON= 1.034065245 REA=149597870000.00 RDEASO=147113131193.21
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   3 TO BE USED WITH TIME STEP (NSTEP) :   5 ; MODEL TIME (SINCE START) :  3600.
 NSTEP =     5 STEPOAD 0AAA0VAAA
 NSTEP =     4 STEPOAD 0AAA00AAA
 NSTEP =     3 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   2 TO BE USED WITH TIME STEP (NSTEP) :   2 ; MODEL TIME (SINCE START) :  1440.
 NSTEP =     2 STEPOAD 0AAA0VAAA
 NSTEP =     1 STEPOAD 0AAA00AAA
ISTEP=       0 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5340
ISTEP=       0 ZI0= 1366.0000 ZSEASON= 1.034065865 REA=149597870000.00 RDEASO=147113087085.47
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   1 TO BE USED WITH TIME STEP (NSTEP) :   0 ; MODEL TIME (SINCE START) :     0.
 NSTEP =     0 STEPOAD 0AAA0VAAA
 END CNT3AD
 Jc-DFI cost function =    86.0288821101334      --   NSIM4D =            4
 EVCOST3  =   4 PZF = 0.8602888211013338E+02
 DIST. FUNC. JB=0.413761E+05 NSIM4D=    4 ++
 Jp cost function =    468.829115832600      --   NSIM4D =            4
 OBS DISTANCE FUNCTION JO=0.1603827022288905E+07 NSIM4D=    4 ==
 GREPCOST - ITER,SIM,JO,JB,JC,JQ,JP    4   4   1603827.02229       41376.0820872       86.0288821101       0.00000000000       468.829115833    
   GREPCOST_hex - ITER,SIM,JO,JB,JC,JC-DFI,JQ,JP   4   4  413878F305B4B9C6  40E43402A075593E                 0  405581D934599D97                 0  407D4D440EF699CA
 GREPGRAD - LSIMPLE,ITER,SIM,GRAD,J      4   4 0.5604636968808762E+04 0.1645757962374054E+07
 GREPGRAD_hex - ITER,SIM,GRAD,J      4   4  40B5E4A310634A34  41391CBDF65E2560
 GREPMIN: Iteration    4 : Estimated gradient norm= 0.3981029290043880E+04  40AF1A0EFF1AC920
 Estimated reduction in norm of gradient is:   0.831697397761495     
 GREPMIN: Iteration    4 : Estimated quadratic cost= 0.1615357537809755E+07  4138A5FD89ADE66D
 congrad: ritz values are:    172.669254459788        1212.08836549857     
   3147.60173963144        4629.59267396055     
 congrad: error bounds are:    280.006320079179        725.545108881282     
   626.613044615133        365.751004069494     
 congrad: End of iteration:            4


 -------Simulator : initializations ----------------------------------------
 -------Simulator : cost-function Jb ---------------------------------------
 -------Simulator : convert state from control to physical space -----------
 -------Simulator : change from model to TL  variables -------------------
 -------Simulator : call direct and adjoint  model -----------------------
 START CNT3TL
 START CNT4TL, NSIM4D=           5
ISTEP=       0 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5340
ISTEP=       0 ZI0= 1366.0000 ZSEASON= 1.034065865 REA=149597870000.00 RDEASO=147113087085.47
 NSTEP =     0 STEPOTL IAAA0VAAA
 NSTEP =     1 STEPOTL 0AAA00AAA
 NSTEP =     2 STEPOTL 0AAA0VAAA
 NSTEP =     3 STEPOTL 0AAA00AAA
 NSTEP =     4 STEPOTL 0AAA00AAA
ISTEP=       5 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5331
ISTEP=       5 ZI0= 1366.0000 ZSEASON= 1.034065245 REA=149597870000.00 RDEASO=147113131193.21
 NSTEP =     5 STEPOTL 0AAA0VAAA
 NSTEP =     6 STEPOTL 0AAA00AAA
 NSTEP =     7 STEPOTL 0AAA0VAAA
 NSTEP =     8 STEPOTL 0AAA00AAA
 NSTEP =     9 STEPOTL 0AAA00AAA
ISTEP=      10 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5323
ISTEP=      10 ZI0= 1366.0000 ZSEASON= 1.034064607 REA=149597870000.00 RDEASO=147113176585.14
 NSTEP =    10 STEPOTL 0AAA0VAAA
 NSTEP =    11 STEPOTL 0AAA00AAA
 NSTEP =    12 STEPOTL 0AAA0VAAA
 NSTEP =    13 STEPOTL 0AAA00AAA
 NSTEP =    14 STEPOTL 0AAA00AAA
ISTEP=      15 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5314
ISTEP=      15 ZI0= 1366.0000 ZSEASON= 1.034063950 REA=149597870000.00 RDEASO=147113223261.23
 NSTEP =    15 STEPOTL 0AAA0VAAA
 NSTEP =    16 STEPOTL 0AAA00AAA
 NSTEP =    17 STEPOTL 0AAA0VAAA
 NSTEP =    18 STEPOTL 0AAA00AAA
 NSTEP =    19 STEPOTL 0AAA00AAA
ISTEP=      20 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5304
ISTEP=      20 ZI0= 1366.0000 ZSEASON= 1.034063276 REA=149597870000.00 RDEASO=147113271221.47
 NSTEP =    20 STEPOTL 0AAA0VAAA
 NSTEP =    21 STEPOTL 0AAA00AAA
 NSTEP =    22 STEPOTL 0AAA0VAAA
 NSTEP =    23 STEPOTL 0AAA00AAA
 NSTEP =    24 STEPOTL 0AAA00AAA
ISTEP=      25 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5295
ISTEP=      25 ZI0= 1366.0000 ZSEASON= 1.034062584 REA=149597870000.00 RDEASO=147113320465.82
 NSTEP =    25 STEPOTL 0AAA0VAAA
 NSTEP =    26 STEPOTL 0AAA00AAA
 NSTEP =    27 STEPOTL 0AAA0VAAA
 NSTEP =    28 STEPOTL 0AAA00AAA
 NSTEP =    29 STEPOTL 0AAA00AAA
ISTEP=      30 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5285
ISTEP=      30 ZI0= 1366.0000 ZSEASON= 1.034061874 REA=149597870000.00 RDEASO=147113370994.27
 NSTEP =    30 STEPOTL 0AA00V000
 NSTEP =    30 OBSVTL  0AA00V000
 *** COMTC ARRIVAL        28164        7131         272
 END CNT3TL


    EVJCDFI2- Evaluation of the Jc cost function when the digital filter is used     NSPEC2 =    15670   ALPHAG =  100.000    
 EVJCDFI: DFI check, sum of coefs=  6.635317295611287E-017
         Global value of the Jc-DFI/ALPHAG cost function = 
   2.22011663562373     
 START CNT3AD
 START CNT4AD, NSIM4D=           5
 NSTEP =    30 OBSVAD  000000000
 CNT4AD (ADJOINT INTEGRATION); TIME SLOT NO :  13 TO BE USED WITH TIME STEP (NSTEP) :  30 ; MODEL TIME (SINCE START) : 21600.
 NSTEP =    30 STEPOAD 0AA00V000
 NSTEP =    29 STEPOAD 0AAA00AAA
 NSTEP =    28 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :  12 TO BE USED WITH TIME STEP (NSTEP) :  27 ; MODEL TIME (SINCE START) : 19440.
 NSTEP =    27 STEPOAD 0AAA0VAAA
 NSTEP =    26 STEPOAD 0AAA00AAA
ISTEP=      25 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5295
ISTEP=      25 ZI0= 1366.0000 ZSEASON= 1.034062584 REA=149597870000.00 RDEASO=147113320465.82
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :  11 TO BE USED WITH TIME STEP (NSTEP) :  25 ; MODEL TIME (SINCE START) : 18000.
 NSTEP =    25 STEPOAD 0AAA0VAAA
 NSTEP =    24 STEPOAD 0AAA00AAA
 NSTEP =    23 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :  10 TO BE USED WITH TIME STEP (NSTEP) :  22 ; MODEL TIME (SINCE START) : 15840.
 NSTEP =    22 STEPOAD 0AAA0VAAA
 NSTEP =    21 STEPOAD 0AAA00AAA
ISTEP=      20 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5304
ISTEP=      20 ZI0= 1366.0000 ZSEASON= 1.034063276 REA=149597870000.00 RDEASO=147113271221.47
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   9 TO BE USED WITH TIME STEP (NSTEP) :  20 ; MODEL TIME (SINCE START) : 14400.
 NSTEP =    20 STEPOAD 0AAA0VAAA
 NSTEP =    19 STEPOAD 0AAA00AAA
 NSTEP =    18 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   8 TO BE USED WITH TIME STEP (NSTEP) :  17 ; MODEL TIME (SINCE START) : 12240.
 NSTEP =    17 STEPOAD 0AAA0VAAA
 NSTEP =    16 STEPOAD 0AAA00AAA
ISTEP=      15 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5314
ISTEP=      15 ZI0= 1366.0000 ZSEASON= 1.034063950 REA=149597870000.00 RDEASO=147113223261.23
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   7 TO BE USED WITH TIME STEP (NSTEP) :  15 ; MODEL TIME (SINCE START) : 10800.
 NSTEP =    15 STEPOAD 0AAA0VAAA
 NSTEP =    14 STEPOAD 0AAA00AAA
 NSTEP =    13 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   6 TO BE USED WITH TIME STEP (NSTEP) :  12 ; MODEL TIME (SINCE START) :  8640.
 NSTEP =    12 STEPOAD 0AAA0VAAA
 NSTEP =    11 STEPOAD 0AAA00AAA
ISTEP=      10 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5323
ISTEP=      10 ZI0= 1366.0000 ZSEASON= 1.034064607 REA=149597870000.00 RDEASO=147113176585.14
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   5 TO BE USED WITH TIME STEP (NSTEP) :  10 ; MODEL TIME (SINCE START) :  7200.
 NSTEP =    10 STEPOAD 0AAA0VAAA
 NSTEP =     9 STEPOAD 0AAA00AAA
 NSTEP =     8 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   4 TO BE USED WITH TIME STEP (NSTEP) :   7 ; MODEL TIME (SINCE START) :  5040.
 NSTEP =     7 STEPOAD 0AAA0VAAA
 NSTEP =     6 STEPOAD 0AAA00AAA
ISTEP=       5 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5331
ISTEP=       5 ZI0= 1366.0000 ZSEASON= 1.034065245 REA=149597870000.00 RDEASO=147113131193.21
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   3 TO BE USED WITH TIME STEP (NSTEP) :   5 ; MODEL TIME (SINCE START) :  3600.
 NSTEP =     5 STEPOAD 0AAA0VAAA
 NSTEP =     4 STEPOAD 0AAA00AAA
 NSTEP =     3 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   2 TO BE USED WITH TIME STEP (NSTEP) :   2 ; MODEL TIME (SINCE START) :  1440.
 NSTEP =     2 STEPOAD 0AAA0VAAA
 NSTEP =     1 STEPOAD 0AAA00AAA
ISTEP=       0 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5340
ISTEP=       0 ZI0= 1366.0000 ZSEASON= 1.034065865 REA=149597870000.00 RDEASO=147113087085.47
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   1 TO BE USED WITH TIME STEP (NSTEP) :   0 ; MODEL TIME (SINCE START) :     0.
 NSTEP =     0 STEPOAD 0AAA0VAAA
 END CNT3AD
 Jc-DFI cost function =    111.005831781187      --   NSIM4D =            5
 EVCOST3  =   5 PZF = 0.1110058317811867E+03
 DIST. FUNC. JB=0.413906E+05 NSIM4D=    5 ++
 Jp cost function =    468.896600428457      --   NSIM4D =            5
 OBS DISTANCE FUNCTION JO=0.1603801411354227E+07 NSIM4D=    5 ==
 GREPCOST - ITER,SIM,JO,JB,JC,JQ,JP    5   5   1603801.41135       41390.6078049       111.005831781       0.00000000000       468.896600428    
   GREPCOST_hex - ITER,SIM,JO,JB,JC,JC-DFI,JQ,JP   5   5  413878D9694E82B6  40E435D37323562F                 0  405BC05F8C435E5E                 0  407D4E5879B0DCD3
 GREPGRAD - LSIMPLE,ITER,SIM,GRAD,J      5   5 0.5502853430978218E+04 0.1645771921591372E+07
 GREPGRAD_hex - ITER,SIM,GRAD,J      5   5  40B57EDA7A73DCD7  41391CCBEBED6983
 GREPMIN: Iteration    5 : Estimated gradient norm= 0.3685212564930735E+04  40ACCA6CD54F8390
 Estimated reduction in norm of gradient is:   0.769896797322251     
 GREPMIN: Iteration    5 : Estimated quadratic cost= 0.1609352429789474E+07  41388E886E06AED9
 congrad: ritz values are:    119.795023235059        819.706347325718     
   2272.36684592394        3498.48033710756        4695.50776245014     
 congrad: error bounds are:    207.182226068315        520.027497380772     
   791.694259726515        536.683132277203        199.041400251546     
 congrad: End of iteration:            5


 -------Simulator : initializations ----------------------------------------
 -------Simulator : cost-function Jb ---------------------------------------
 -------Simulator : convert state from control to physical space -----------
 -------Simulator : change from model to TL  variables -------------------
 -------Simulator : call direct and adjoint  model -----------------------
 START CNT3TL
 START CNT4TL, NSIM4D=           6
ISTEP=       0 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5340
ISTEP=       0 ZI0= 1366.0000 ZSEASON= 1.034065865 REA=149597870000.00 RDEASO=147113087085.47
 NSTEP =     0 STEPOTL IAAA0VAAA
 NSTEP =     1 STEPOTL 0AAA00AAA
 NSTEP =     2 STEPOTL 0AAA0VAAA
 NSTEP =     3 STEPOTL 0AAA00AAA
 NSTEP =     4 STEPOTL 0AAA00AAA
ISTEP=       5 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5331
ISTEP=       5 ZI0= 1366.0000 ZSEASON= 1.034065245 REA=149597870000.00 RDEASO=147113131193.21
 NSTEP =     5 STEPOTL 0AAA0VAAA
 NSTEP =     6 STEPOTL 0AAA00AAA
 NSTEP =     7 STEPOTL 0AAA0VAAA
 NSTEP =     8 STEPOTL 0AAA00AAA
 NSTEP =     9 STEPOTL 0AAA00AAA
ISTEP=      10 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5323
ISTEP=      10 ZI0= 1366.0000 ZSEASON= 1.034064607 REA=149597870000.00 RDEASO=147113176585.14
 NSTEP =    10 STEPOTL 0AAA0VAAA
 NSTEP =    11 STEPOTL 0AAA00AAA
 NSTEP =    12 STEPOTL 0AAA0VAAA
 NSTEP =    13 STEPOTL 0AAA00AAA
 NSTEP =    14 STEPOTL 0AAA00AAA
ISTEP=      15 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5314
ISTEP=      15 ZI0= 1366.0000 ZSEASON= 1.034063950 REA=149597870000.00 RDEASO=147113223261.23
 NSTEP =    15 STEPOTL 0AAA0VAAA
 NSTEP =    16 STEPOTL 0AAA00AAA
 NSTEP =    17 STEPOTL 0AAA0VAAA
 NSTEP =    18 STEPOTL 0AAA00AAA
 NSTEP =    19 STEPOTL 0AAA00AAA
ISTEP=      20 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5304
ISTEP=      20 ZI0= 1366.0000 ZSEASON= 1.034063276 REA=149597870000.00 RDEASO=147113271221.47
 NSTEP =    20 STEPOTL 0AAA0VAAA
 NSTEP =    21 STEPOTL 0AAA00AAA
 NSTEP =    22 STEPOTL 0AAA0VAAA
 NSTEP =    23 STEPOTL 0AAA00AAA
 NSTEP =    24 STEPOTL 0AAA00AAA
ISTEP=      25 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5295
ISTEP=      25 ZI0= 1366.0000 ZSEASON= 1.034062584 REA=149597870000.00 RDEASO=147113320465.82
 NSTEP =    25 STEPOTL 0AAA0VAAA
 NSTEP =    26 STEPOTL 0AAA00AAA
 NSTEP =    27 STEPOTL 0AAA0VAAA
 NSTEP =    28 STEPOTL 0AAA00AAA
 NSTEP =    29 STEPOTL 0AAA00AAA
ISTEP=      30 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5285
ISTEP=      30 ZI0= 1366.0000 ZSEASON= 1.034061874 REA=149597870000.00 RDEASO=147113370994.27
 NSTEP =    30 STEPOTL 0AA00V000
 NSTEP =    30 OBSVTL  0AA00V000
 *** COMTC ARRIVAL        28164        7131         272
 END CNT3TL


    EVJCDFI2- Evaluation of the Jc cost function when the digital filter is used     NSPEC2 =    15670   ALPHAG =  100.000    
 EVJCDFI: DFI check, sum of coefs=  6.635317295611287E-017
         Global value of the Jc-DFI/ALPHAG cost function = 
   2.31033857636897     
 START CNT3AD
 START CNT4AD, NSIM4D=           6
 NSTEP =    30 OBSVAD  000000000
 CNT4AD (ADJOINT INTEGRATION); TIME SLOT NO :  13 TO BE USED WITH TIME STEP (NSTEP) :  30 ; MODEL TIME (SINCE START) : 21600.
 NSTEP =    30 STEPOAD 0AA00V000
 NSTEP =    29 STEPOAD 0AAA00AAA
 NSTEP =    28 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :  12 TO BE USED WITH TIME STEP (NSTEP) :  27 ; MODEL TIME (SINCE START) : 19440.
 NSTEP =    27 STEPOAD 0AAA0VAAA
 NSTEP =    26 STEPOAD 0AAA00AAA
ISTEP=      25 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5295
ISTEP=      25 ZI0= 1366.0000 ZSEASON= 1.034062584 REA=149597870000.00 RDEASO=147113320465.82
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :  11 TO BE USED WITH TIME STEP (NSTEP) :  25 ; MODEL TIME (SINCE START) : 18000.
 NSTEP =    25 STEPOAD 0AAA0VAAA
 NSTEP =    24 STEPOAD 0AAA00AAA
 NSTEP =    23 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :  10 TO BE USED WITH TIME STEP (NSTEP) :  22 ; MODEL TIME (SINCE START) : 15840.
 NSTEP =    22 STEPOAD 0AAA0VAAA
 NSTEP =    21 STEPOAD 0AAA00AAA
ISTEP=      20 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5304
ISTEP=      20 ZI0= 1366.0000 ZSEASON= 1.034063276 REA=149597870000.00 RDEASO=147113271221.47
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   9 TO BE USED WITH TIME STEP (NSTEP) :  20 ; MODEL TIME (SINCE START) : 14400.
 NSTEP =    20 STEPOAD 0AAA0VAAA
 NSTEP =    19 STEPOAD 0AAA00AAA
 NSTEP =    18 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   8 TO BE USED WITH TIME STEP (NSTEP) :  17 ; MODEL TIME (SINCE START) : 12240.
 NSTEP =    17 STEPOAD 0AAA0VAAA
 NSTEP =    16 STEPOAD 0AAA00AAA
ISTEP=      15 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5314
ISTEP=      15 ZI0= 1366.0000 ZSEASON= 1.034063950 REA=149597870000.00 RDEASO=147113223261.23
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   7 TO BE USED WITH TIME STEP (NSTEP) :  15 ; MODEL TIME (SINCE START) : 10800.
 NSTEP =    15 STEPOAD 0AAA0VAAA
 NSTEP =    14 STEPOAD 0AAA00AAA
 NSTEP =    13 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   6 TO BE USED WITH TIME STEP (NSTEP) :  12 ; MODEL TIME (SINCE START) :  8640.
 NSTEP =    12 STEPOAD 0AAA0VAAA
 NSTEP =    11 STEPOAD 0AAA00AAA
ISTEP=      10 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5323
ISTEP=      10 ZI0= 1366.0000 ZSEASON= 1.034064607 REA=149597870000.00 RDEASO=147113176585.14
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   5 TO BE USED WITH TIME STEP (NSTEP) :  10 ; MODEL TIME (SINCE START) :  7200.
 NSTEP =    10 STEPOAD 0AAA0VAAA
 NSTEP =     9 STEPOAD 0AAA00AAA
 NSTEP =     8 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   4 TO BE USED WITH TIME STEP (NSTEP) :   7 ; MODEL TIME (SINCE START) :  5040.
 NSTEP =     7 STEPOAD 0AAA0VAAA
 NSTEP =     6 STEPOAD 0AAA00AAA
ISTEP=       5 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5331
ISTEP=       5 ZI0= 1366.0000 ZSEASON= 1.034065245 REA=149597870000.00 RDEASO=147113131193.21
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   3 TO BE USED WITH TIME STEP (NSTEP) :   5 ; MODEL TIME (SINCE START) :  3600.
 NSTEP =     5 STEPOAD 0AAA0VAAA
 NSTEP =     4 STEPOAD 0AAA00AAA
 NSTEP =     3 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   2 TO BE USED WITH TIME STEP (NSTEP) :   2 ; MODEL TIME (SINCE START) :  1440.
 NSTEP =     2 STEPOAD 0AAA0VAAA
 NSTEP =     1 STEPOAD 0AAA00AAA
ISTEP=       0 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5340
ISTEP=       0 ZI0= 1366.0000 ZSEASON= 1.034065865 REA=149597870000.00 RDEASO=147113087085.47
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   1 TO BE USED WITH TIME STEP (NSTEP) :   0 ; MODEL TIME (SINCE START) :     0.
 NSTEP =     0 STEPOAD 0AAA0VAAA
 END CNT3AD
 Jc-DFI cost function =    115.516928818449      --   NSIM4D =            6
 EVCOST3  =   6 PZF = 0.1155169288184486E+03
 DIST. FUNC. JB=0.413794E+05 NSIM4D=    6 ++
 Jp cost function =    468.842971396419      --   NSIM4D =            6
 OBS DISTANCE FUNCTION JO=0.1603831581203505E+07 NSIM4D=    6 ==
 GREPMIN: Iteration    6 : Estimated gradient norm= 0.3390578235367887E+04  40AA7D280E7754EE
 Estimated reduction in norm of gradient is:   0.708343217246500     
 GREPMIN: Iteration    6 : Estimated quadratic cost= 0.1604227462437392E+07  41387A8376624C02
 congrad: ritz values are:    90.1832778926108        608.987089311820     
   1589.60094579980        2909.09990006358        3781.90322067715     
   4716.87009385312     
 congrad: error bounds are:    162.352729935404        420.851380276583     
   677.851143841569        621.429693799005        519.586375304908     
   123.040608861969     
 congrad: End of iteration:            6


 -------Simulator : initializations ----------------------------------------
 -------Simulator : cost-function Jb ---------------------------------------
 -------Simulator : convert state from control to physical space -----------
 -------Simulator : change from model to TL  variables -------------------
 -------Simulator : call direct and adjoint  model -----------------------
 START CNT3TL
 START CNT4TL, NSIM4D=           7
ISTEP=       0 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5340
ISTEP=       0 ZI0= 1366.0000 ZSEASON= 1.034065865 REA=149597870000.00 RDEASO=147113087085.47
 NSTEP =     0 STEPOTL IAAA0VAAA
 NSTEP =     1 STEPOTL 0AAA00AAA
 NSTEP =     2 STEPOTL 0AAA0VAAA
 NSTEP =     3 STEPOTL 0AAA00AAA
 NSTEP =     4 STEPOTL 0AAA00AAA
ISTEP=       5 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5331
ISTEP=       5 ZI0= 1366.0000 ZSEASON= 1.034065245 REA=149597870000.00 RDEASO=147113131193.21
 NSTEP =     5 STEPOTL 0AAA0VAAA
 NSTEP =     6 STEPOTL 0AAA00AAA
 NSTEP =     7 STEPOTL 0AAA0VAAA
 NSTEP =     8 STEPOTL 0AAA00AAA
 NSTEP =     9 STEPOTL 0AAA00AAA
ISTEP=      10 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5323
ISTEP=      10 ZI0= 1366.0000 ZSEASON= 1.034064607 REA=149597870000.00 RDEASO=147113176585.14
 NSTEP =    10 STEPOTL 0AAA0VAAA
 NSTEP =    11 STEPOTL 0AAA00AAA
 NSTEP =    12 STEPOTL 0AAA0VAAA
 NSTEP =    13 STEPOTL 0AAA00AAA
 NSTEP =    14 STEPOTL 0AAA00AAA
ISTEP=      15 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5314
ISTEP=      15 ZI0= 1366.0000 ZSEASON= 1.034063950 REA=149597870000.00 RDEASO=147113223261.23
 NSTEP =    15 STEPOTL 0AAA0VAAA
 NSTEP =    16 STEPOTL 0AAA00AAA
 NSTEP =    17 STEPOTL 0AAA0VAAA
 NSTEP =    18 STEPOTL 0AAA00AAA
 NSTEP =    19 STEPOTL 0AAA00AAA
ISTEP=      20 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5304
ISTEP=      20 ZI0= 1366.0000 ZSEASON= 1.034063276 REA=149597870000.00 RDEASO=147113271221.47
 NSTEP =    20 STEPOTL 0AAA0VAAA
 NSTEP =    21 STEPOTL 0AAA00AAA
 NSTEP =    22 STEPOTL 0AAA0VAAA
 NSTEP =    23 STEPOTL 0AAA00AAA
 NSTEP =    24 STEPOTL 0AAA00AAA
ISTEP=      25 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5295
ISTEP=      25 ZI0= 1366.0000 ZSEASON= 1.034062584 REA=149597870000.00 RDEASO=147113320465.82
 NSTEP =    25 STEPOTL 0AAA0VAAA
 NSTEP =    26 STEPOTL 0AAA00AAA
 NSTEP =    27 STEPOTL 0AAA0VAAA
 NSTEP =    28 STEPOTL 0AAA00AAA
 NSTEP =    29 STEPOTL 0AAA00AAA
ISTEP=      30 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5285
ISTEP=      30 ZI0= 1366.0000 ZSEASON= 1.034061874 REA=149597870000.00 RDEASO=147113370994.27
 NSTEP =    30 STEPOTL 0AA00V000
 NSTEP =    30 OBSVTL  0AA00V000
 *** COMTC ARRIVAL        28164        7131         272
 END CNT3TL


    EVJCDFI2- Evaluation of the Jc cost function when the digital filter is used     NSPEC2 =    15670   ALPHAG =  100.000    
 EVJCDFI: DFI check, sum of coefs=  6.635317295611287E-017
         Global value of the Jc-DFI/ALPHAG cost function = 
   2.03233952314746     
 START CNT3AD
 START CNT4AD, NSIM4D=           7
 NSTEP =    30 OBSVAD  000000000
 CNT4AD (ADJOINT INTEGRATION); TIME SLOT NO :  13 TO BE USED WITH TIME STEP (NSTEP) :  30 ; MODEL TIME (SINCE START) : 21600.
 NSTEP =    30 STEPOAD 0AA00V000
 NSTEP =    29 STEPOAD 0AAA00AAA
 NSTEP =    28 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :  12 TO BE USED WITH TIME STEP (NSTEP) :  27 ; MODEL TIME (SINCE START) : 19440.
 NSTEP =    27 STEPOAD 0AAA0VAAA
 NSTEP =    26 STEPOAD 0AAA00AAA
ISTEP=      25 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5295
ISTEP=      25 ZI0= 1366.0000 ZSEASON= 1.034062584 REA=149597870000.00 RDEASO=147113320465.82
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :  11 TO BE USED WITH TIME STEP (NSTEP) :  25 ; MODEL TIME (SINCE START) : 18000.
 NSTEP =    25 STEPOAD 0AAA0VAAA
 NSTEP =    24 STEPOAD 0AAA00AAA
 NSTEP =    23 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :  10 TO BE USED WITH TIME STEP (NSTEP) :  22 ; MODEL TIME (SINCE START) : 15840.
 NSTEP =    22 STEPOAD 0AAA0VAAA
 NSTEP =    21 STEPOAD 0AAA00AAA
ISTEP=      20 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5304
ISTEP=      20 ZI0= 1366.0000 ZSEASON= 1.034063276 REA=149597870000.00 RDEASO=147113271221.47
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   9 TO BE USED WITH TIME STEP (NSTEP) :  20 ; MODEL TIME (SINCE START) : 14400.
 NSTEP =    20 STEPOAD 0AAA0VAAA
 NSTEP =    19 STEPOAD 0AAA00AAA
 NSTEP =    18 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   8 TO BE USED WITH TIME STEP (NSTEP) :  17 ; MODEL TIME (SINCE START) : 12240.
 NSTEP =    17 STEPOAD 0AAA0VAAA
 NSTEP =    16 STEPOAD 0AAA00AAA
ISTEP=      15 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5314
ISTEP=      15 ZI0= 1366.0000 ZSEASON= 1.034063950 REA=149597870000.00 RDEASO=147113223261.23
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   7 TO BE USED WITH TIME STEP (NSTEP) :  15 ; MODEL TIME (SINCE START) : 10800.
 NSTEP =    15 STEPOAD 0AAA0VAAA
 NSTEP =    14 STEPOAD 0AAA00AAA
 NSTEP =    13 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   6 TO BE USED WITH TIME STEP (NSTEP) :  12 ; MODEL TIME (SINCE START) :  8640.
 NSTEP =    12 STEPOAD 0AAA0VAAA
 NSTEP =    11 STEPOAD 0AAA00AAA
ISTEP=      10 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5323
ISTEP=      10 ZI0= 1366.0000 ZSEASON= 1.034064607 REA=149597870000.00 RDEASO=147113176585.14
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   5 TO BE USED WITH TIME STEP (NSTEP) :  10 ; MODEL TIME (SINCE START) :  7200.
 NSTEP =    10 STEPOAD 0AAA0VAAA
 NSTEP =     9 STEPOAD 0AAA00AAA
 NSTEP =     8 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   4 TO BE USED WITH TIME STEP (NSTEP) :   7 ; MODEL TIME (SINCE START) :  5040.
 NSTEP =     7 STEPOAD 0AAA0VAAA
 NSTEP =     6 STEPOAD 0AAA00AAA
ISTEP=       5 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5331
ISTEP=       5 ZI0= 1366.0000 ZSEASON= 1.034065245 REA=149597870000.00 RDEASO=147113131193.21
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   3 TO BE USED WITH TIME STEP (NSTEP) :   5 ; MODEL TIME (SINCE START) :  3600.
 NSTEP =     5 STEPOAD 0AAA0VAAA
 NSTEP =     4 STEPOAD 0AAA00AAA
 NSTEP =     3 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   2 TO BE USED WITH TIME STEP (NSTEP) :   2 ; MODEL TIME (SINCE START) :  1440.
 NSTEP =     2 STEPOAD 0AAA0VAAA
 NSTEP =     1 STEPOAD 0AAA00AAA
ISTEP=       0 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5340
ISTEP=       0 ZI0= 1366.0000 ZSEASON= 1.034065865 REA=149597870000.00 RDEASO=147113087085.47
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   1 TO BE USED WITH TIME STEP (NSTEP) :   0 ; MODEL TIME (SINCE START) :     0.
 NSTEP =     0 STEPOAD 0AAA0VAAA
 END CNT3AD
 Jc-DFI cost function =    101.616976157373      --   NSIM4D =            7
 EVCOST3  =   7 PZF = 0.1016169761573731E+03
 DIST. FUNC. JB=0.413874E+05 NSIM4D=    7 ++
 Jp cost function =    468.886450510648      --   NSIM4D =            7
 OBS DISTANCE FUNCTION JO=0.1603795374272494E+07 NSIM4D=    7 ==
 GREPMIN: Iteration    7 : Estimated gradient norm= 0.3205253661738706E+04  40A90A81DFF38FFA
 Estimated reduction in norm of gradient is:   0.669626103053414     
 GREPMIN: Iteration    7 : Estimated quadratic cost= 0.1599318525504325E+07  4138675686877393
 congrad: ritz values are:    69.8118387665006        457.868232770141     
   1158.83402776054        2251.32325494978        3236.34448198102     
   4003.82041664366        4725.16754215394     
 congrad: error bounds are:    127.808934077541        337.117946375685     
   501.239395005197        584.097340093267        432.220682775264     
   392.607601893140        69.4643067058353     
 congrad: End of iteration:            7


 -------Simulator : initializations ----------------------------------------
 -------Simulator : cost-function Jb ---------------------------------------
 -------Simulator : convert state from control to physical space -----------
 -------Simulator : change from model to TL  variables -------------------
 -------Simulator : call direct and adjoint  model -----------------------
 START CNT3TL
 START CNT4TL, NSIM4D=           8
ISTEP=       0 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5340
ISTEP=       0 ZI0= 1366.0000 ZSEASON= 1.034065865 REA=149597870000.00 RDEASO=147113087085.47
 NSTEP =     0 STEPOTL IAAA0VAAA
 NSTEP =     1 STEPOTL 0AAA00AAA
 NSTEP =     2 STEPOTL 0AAA0VAAA
 NSTEP =     3 STEPOTL 0AAA00AAA
 NSTEP =     4 STEPOTL 0AAA00AAA
ISTEP=       5 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5331
ISTEP=       5 ZI0= 1366.0000 ZSEASON= 1.034065245 REA=149597870000.00 RDEASO=147113131193.21
 NSTEP =     5 STEPOTL 0AAA0VAAA
 NSTEP =     6 STEPOTL 0AAA00AAA
 NSTEP =     7 STEPOTL 0AAA0VAAA
 NSTEP =     8 STEPOTL 0AAA00AAA
 NSTEP =     9 STEPOTL 0AAA00AAA
ISTEP=      10 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5323
ISTEP=      10 ZI0= 1366.0000 ZSEASON= 1.034064607 REA=149597870000.00 RDEASO=147113176585.14
 NSTEP =    10 STEPOTL 0AAA0VAAA
 NSTEP =    11 STEPOTL 0AAA00AAA
 NSTEP =    12 STEPOTL 0AAA0VAAA
 NSTEP =    13 STEPOTL 0AAA00AAA
 NSTEP =    14 STEPOTL 0AAA00AAA
ISTEP=      15 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5314
ISTEP=      15 ZI0= 1366.0000 ZSEASON= 1.034063950 REA=149597870000.00 RDEASO=147113223261.23
 NSTEP =    15 STEPOTL 0AAA0VAAA
 NSTEP =    16 STEPOTL 0AAA00AAA
 NSTEP =    17 STEPOTL 0AAA0VAAA
 NSTEP =    18 STEPOTL 0AAA00AAA
 NSTEP =    19 STEPOTL 0AAA00AAA
ISTEP=      20 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5304
ISTEP=      20 ZI0= 1366.0000 ZSEASON= 1.034063276 REA=149597870000.00 RDEASO=147113271221.47
 NSTEP =    20 STEPOTL 0AAA0VAAA
 NSTEP =    21 STEPOTL 0AAA00AAA
 NSTEP =    22 STEPOTL 0AAA0VAAA
 NSTEP =    23 STEPOTL 0AAA00AAA
 NSTEP =    24 STEPOTL 0AAA00AAA
ISTEP=      25 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5295
ISTEP=      25 ZI0= 1366.0000 ZSEASON= 1.034062584 REA=149597870000.00 RDEASO=147113320465.82
 NSTEP =    25 STEPOTL 0AAA0VAAA
 NSTEP =    26 STEPOTL 0AAA00AAA
 NSTEP =    27 STEPOTL 0AAA0VAAA
 NSTEP =    28 STEPOTL 0AAA00AAA
 NSTEP =    29 STEPOTL 0AAA00AAA
ISTEP=      30 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5285
ISTEP=      30 ZI0= 1366.0000 ZSEASON= 1.034061874 REA=149597870000.00 RDEASO=147113370994.27
 NSTEP =    30 STEPOTL 0AA00V000
 NSTEP =    30 OBSVTL  0AA00V000
 *** COMTC ARRIVAL        28164        7131         272
 END CNT3TL


    EVJCDFI2- Evaluation of the Jc cost function when the digital filter is used     NSPEC2 =    15670   ALPHAG =  100.000    
 EVJCDFI: DFI check, sum of coefs=  6.635317295611287E-017
         Global value of the Jc-DFI/ALPHAG cost function = 
   2.06356181020204     
 START CNT3AD
 START CNT4AD, NSIM4D=           8
 NSTEP =    30 OBSVAD  000000000
 CNT4AD (ADJOINT INTEGRATION); TIME SLOT NO :  13 TO BE USED WITH TIME STEP (NSTEP) :  30 ; MODEL TIME (SINCE START) : 21600.
 NSTEP =    30 STEPOAD 0AA00V000
 NSTEP =    29 STEPOAD 0AAA00AAA
 NSTEP =    28 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :  12 TO BE USED WITH TIME STEP (NSTEP) :  27 ; MODEL TIME (SINCE START) : 19440.
 NSTEP =    27 STEPOAD 0AAA0VAAA
 NSTEP =    26 STEPOAD 0AAA00AAA
ISTEP=      25 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5295
ISTEP=      25 ZI0= 1366.0000 ZSEASON= 1.034062584 REA=149597870000.00 RDEASO=147113320465.82
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :  11 TO BE USED WITH TIME STEP (NSTEP) :  25 ; MODEL TIME (SINCE START) : 18000.
 NSTEP =    25 STEPOAD 0AAA0VAAA
 NSTEP =    24 STEPOAD 0AAA00AAA
 NSTEP =    23 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :  10 TO BE USED WITH TIME STEP (NSTEP) :  22 ; MODEL TIME (SINCE START) : 15840.
 NSTEP =    22 STEPOAD 0AAA0VAAA
 NSTEP =    21 STEPOAD 0AAA00AAA
ISTEP=      20 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5304
ISTEP=      20 ZI0= 1366.0000 ZSEASON= 1.034063276 REA=149597870000.00 RDEASO=147113271221.47
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   9 TO BE USED WITH TIME STEP (NSTEP) :  20 ; MODEL TIME (SINCE START) : 14400.
 NSTEP =    20 STEPOAD 0AAA0VAAA
 NSTEP =    19 STEPOAD 0AAA00AAA
 NSTEP =    18 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   8 TO BE USED WITH TIME STEP (NSTEP) :  17 ; MODEL TIME (SINCE START) : 12240.
 NSTEP =    17 STEPOAD 0AAA0VAAA
 NSTEP =    16 STEPOAD 0AAA00AAA
ISTEP=      15 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5314
ISTEP=      15 ZI0= 1366.0000 ZSEASON= 1.034063950 REA=149597870000.00 RDEASO=147113223261.23
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   7 TO BE USED WITH TIME STEP (NSTEP) :  15 ; MODEL TIME (SINCE START) : 10800.
 NSTEP =    15 STEPOAD 0AAA0VAAA
 NSTEP =    14 STEPOAD 0AAA00AAA
 NSTEP =    13 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   6 TO BE USED WITH TIME STEP (NSTEP) :  12 ; MODEL TIME (SINCE START) :  8640.
 NSTEP =    12 STEPOAD 0AAA0VAAA
 NSTEP =    11 STEPOAD 0AAA00AAA
ISTEP=      10 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5323
ISTEP=      10 ZI0= 1366.0000 ZSEASON= 1.034064607 REA=149597870000.00 RDEASO=147113176585.14
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   5 TO BE USED WITH TIME STEP (NSTEP) :  10 ; MODEL TIME (SINCE START) :  7200.
 NSTEP =    10 STEPOAD 0AAA0VAAA
 NSTEP =     9 STEPOAD 0AAA00AAA
 NSTEP =     8 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   4 TO BE USED WITH TIME STEP (NSTEP) :   7 ; MODEL TIME (SINCE START) :  5040.
 NSTEP =     7 STEPOAD 0AAA0VAAA
 NSTEP =     6 STEPOAD 0AAA00AAA
ISTEP=       5 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5331
ISTEP=       5 ZI0= 1366.0000 ZSEASON= 1.034065245 REA=149597870000.00 RDEASO=147113131193.21
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   3 TO BE USED WITH TIME STEP (NSTEP) :   5 ; MODEL TIME (SINCE START) :  3600.
 NSTEP =     5 STEPOAD 0AAA0VAAA
 NSTEP =     4 STEPOAD 0AAA00AAA
 NSTEP =     3 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   2 TO BE USED WITH TIME STEP (NSTEP) :   2 ; MODEL TIME (SINCE START) :  1440.
 NSTEP =     2 STEPOAD 0AAA0VAAA
 NSTEP =     1 STEPOAD 0AAA00AAA
ISTEP=       0 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5340
ISTEP=       0 ZI0= 1366.0000 ZSEASON= 1.034065865 REA=149597870000.00 RDEASO=147113087085.47
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   1 TO BE USED WITH TIME STEP (NSTEP) :   0 ; MODEL TIME (SINCE START) :     0.
 NSTEP =     0 STEPOAD 0AAA0VAAA
 END CNT3AD
 Jc-DFI cost function =    103.178090510102      --   NSIM4D =            8
 EVCOST3  =   8 PZF = 0.1031780905101019E+03
 DIST. FUNC. JB=0.413817E+05 NSIM4D=    8 ++
 Jp cost function =    468.843567542941      --   NSIM4D =            8
 OBS DISTANCE FUNCTION JO=0.1603712047033691E+07 NSIM4D=    8 ==
 GREPMIN: Iteration    8 : Estimated gradient norm= 0.3053821489786238E+04  40A7DBA49A4F2BC8
 Estimated reduction in norm of gradient is:   0.637989625606435     
 GREPMIN: Iteration    8 : Estimated quadratic cost= 0.1595025544814536E+07  413856918B78F726
 congrad: ritz values are:    56.3128604252053        357.236938076303     
   909.481530616099        1727.74927712430        2657.52208961395     
   3396.26469941593        4102.72785610705        4727.44441329169     
 congrad: error bounds are:    109.198150117823        290.609818109941     
   431.803251893997        583.536620197799        532.847622789926     
   347.508401183708        252.398038000651        34.2396288712816     
 congrad: End of iteration:            8


 -------Simulator : initializations ----------------------------------------
 -------Simulator : cost-function Jb ---------------------------------------
 -------Simulator : convert state from control to physical space -----------
 -------Simulator : change from model to TL  variables -------------------
 -------Simulator : call direct and adjoint  model -----------------------
 START CNT3TL
 START CNT4TL, NSIM4D=           9
ISTEP=       0 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5340
ISTEP=       0 ZI0= 1366.0000 ZSEASON= 1.034065865 REA=149597870000.00 RDEASO=147113087085.47
 NSTEP =     0 STEPOTL IAAA0VAAA
 NSTEP =     1 STEPOTL 0AAA00AAA
 NSTEP =     2 STEPOTL 0AAA0VAAA
 NSTEP =     3 STEPOTL 0AAA00AAA
 NSTEP =     4 STEPOTL 0AAA00AAA
ISTEP=       5 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5331
ISTEP=       5 ZI0= 1366.0000 ZSEASON= 1.034065245 REA=149597870000.00 RDEASO=147113131193.21
 NSTEP =     5 STEPOTL 0AAA0VAAA
 NSTEP =     6 STEPOTL 0AAA00AAA
 NSTEP =     7 STEPOTL 0AAA0VAAA
 NSTEP =     8 STEPOTL 0AAA00AAA
 NSTEP =     9 STEPOTL 0AAA00AAA
ISTEP=      10 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5323
ISTEP=      10 ZI0= 1366.0000 ZSEASON= 1.034064607 REA=149597870000.00 RDEASO=147113176585.14
 NSTEP =    10 STEPOTL 0AAA0VAAA
 NSTEP =    11 STEPOTL 0AAA00AAA
 NSTEP =    12 STEPOTL 0AAA0VAAA
 NSTEP =    13 STEPOTL 0AAA00AAA
 NSTEP =    14 STEPOTL 0AAA00AAA
ISTEP=      15 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5314
ISTEP=      15 ZI0= 1366.0000 ZSEASON= 1.034063950 REA=149597870000.00 RDEASO=147113223261.23
 NSTEP =    15 STEPOTL 0AAA0VAAA
 NSTEP =    16 STEPOTL 0AAA00AAA
 NSTEP =    17 STEPOTL 0AAA0VAAA
 NSTEP =    18 STEPOTL 0AAA00AAA
 NSTEP =    19 STEPOTL 0AAA00AAA
ISTEP=      20 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5304
ISTEP=      20 ZI0= 1366.0000 ZSEASON= 1.034063276 REA=149597870000.00 RDEASO=147113271221.47
 NSTEP =    20 STEPOTL 0AAA0VAAA
 NSTEP =    21 STEPOTL 0AAA00AAA
 NSTEP =    22 STEPOTL 0AAA0VAAA
 NSTEP =    23 STEPOTL 0AAA00AAA
 NSTEP =    24 STEPOTL 0AAA00AAA
ISTEP=      25 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5295
ISTEP=      25 ZI0= 1366.0000 ZSEASON= 1.034062584 REA=149597870000.00 RDEASO=147113320465.82
 NSTEP =    25 STEPOTL 0AAA0VAAA
 NSTEP =    26 STEPOTL 0AAA00AAA
 NSTEP =    27 STEPOTL 0AAA0VAAA
 NSTEP =    28 STEPOTL 0AAA00AAA
 NSTEP =    29 STEPOTL 0AAA00AAA
ISTEP=      30 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5285
ISTEP=      30 ZI0= 1366.0000 ZSEASON= 1.034061874 REA=149597870000.00 RDEASO=147113370994.27
 NSTEP =    30 STEPOTL 0AA00V000
 NSTEP =    30 OBSVTL  0AA00V000
 *** COMTC ARRIVAL        28164        7131         272
 END CNT3TL


    EVJCDFI2- Evaluation of the Jc cost function when the digital filter is used     NSPEC2 =    15670   ALPHAG =  100.000    
 EVJCDFI: DFI check, sum of coefs=  6.635317295611287E-017
         Global value of the Jc-DFI/ALPHAG cost function = 
   2.01720026494786     
 START CNT3AD
 START CNT4AD, NSIM4D=           9
 NSTEP =    30 OBSVAD  000000000
 CNT4AD (ADJOINT INTEGRATION); TIME SLOT NO :  13 TO BE USED WITH TIME STEP (NSTEP) :  30 ; MODEL TIME (SINCE START) : 21600.
 NSTEP =    30 STEPOAD 0AA00V000
 NSTEP =    29 STEPOAD 0AAA00AAA
 NSTEP =    28 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :  12 TO BE USED WITH TIME STEP (NSTEP) :  27 ; MODEL TIME (SINCE START) : 19440.
 NSTEP =    27 STEPOAD 0AAA0VAAA
 NSTEP =    26 STEPOAD 0AAA00AAA
ISTEP=      25 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5295
ISTEP=      25 ZI0= 1366.0000 ZSEASON= 1.034062584 REA=149597870000.00 RDEASO=147113320465.82
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :  11 TO BE USED WITH TIME STEP (NSTEP) :  25 ; MODEL TIME (SINCE START) : 18000.
 NSTEP =    25 STEPOAD 0AAA0VAAA
 NSTEP =    24 STEPOAD 0AAA00AAA
 NSTEP =    23 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :  10 TO BE USED WITH TIME STEP (NSTEP) :  22 ; MODEL TIME (SINCE START) : 15840.
 NSTEP =    22 STEPOAD 0AAA0VAAA
 NSTEP =    21 STEPOAD 0AAA00AAA
ISTEP=      20 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5304
ISTEP=      20 ZI0= 1366.0000 ZSEASON= 1.034063276 REA=149597870000.00 RDEASO=147113271221.47
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   9 TO BE USED WITH TIME STEP (NSTEP) :  20 ; MODEL TIME (SINCE START) : 14400.
 NSTEP =    20 STEPOAD 0AAA0VAAA
 NSTEP =    19 STEPOAD 0AAA00AAA
 NSTEP =    18 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   8 TO BE USED WITH TIME STEP (NSTEP) :  17 ; MODEL TIME (SINCE START) : 12240.
 NSTEP =    17 STEPOAD 0AAA0VAAA
 NSTEP =    16 STEPOAD 0AAA00AAA
ISTEP=      15 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5314
ISTEP=      15 ZI0= 1366.0000 ZSEASON= 1.034063950 REA=149597870000.00 RDEASO=147113223261.23
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   7 TO BE USED WITH TIME STEP (NSTEP) :  15 ; MODEL TIME (SINCE START) : 10800.
 NSTEP =    15 STEPOAD 0AAA0VAAA
 NSTEP =    14 STEPOAD 0AAA00AAA
 NSTEP =    13 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   6 TO BE USED WITH TIME STEP (NSTEP) :  12 ; MODEL TIME (SINCE START) :  8640.
 NSTEP =    12 STEPOAD 0AAA0VAAA
 NSTEP =    11 STEPOAD 0AAA00AAA
ISTEP=      10 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5323
ISTEP=      10 ZI0= 1366.0000 ZSEASON= 1.034064607 REA=149597870000.00 RDEASO=147113176585.14
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   5 TO BE USED WITH TIME STEP (NSTEP) :  10 ; MODEL TIME (SINCE START) :  7200.
 NSTEP =    10 STEPOAD 0AAA0VAAA
 NSTEP =     9 STEPOAD 0AAA00AAA
 NSTEP =     8 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   4 TO BE USED WITH TIME STEP (NSTEP) :   7 ; MODEL TIME (SINCE START) :  5040.
 NSTEP =     7 STEPOAD 0AAA0VAAA
 NSTEP =     6 STEPOAD 0AAA00AAA
ISTEP=       5 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5331
ISTEP=       5 ZI0= 1366.0000 ZSEASON= 1.034065245 REA=149597870000.00 RDEASO=147113131193.21
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   3 TO BE USED WITH TIME STEP (NSTEP) :   5 ; MODEL TIME (SINCE START) :  3600.
 NSTEP =     5 STEPOAD 0AAA0VAAA
 NSTEP =     4 STEPOAD 0AAA00AAA
 NSTEP =     3 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   2 TO BE USED WITH TIME STEP (NSTEP) :   2 ; MODEL TIME (SINCE START) :  1440.
 NSTEP =     2 STEPOAD 0AAA0VAAA
 NSTEP =     1 STEPOAD 0AAA00AAA
ISTEP=       0 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5340
ISTEP=       0 ZI0= 1366.0000 ZSEASON= 1.034065865 REA=149597870000.00 RDEASO=147113087085.47
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   1 TO BE USED WITH TIME STEP (NSTEP) :   0 ; MODEL TIME (SINCE START) :     0.
 NSTEP =     0 STEPOAD 0AAA0VAAA
 END CNT3AD
 Jc-DFI cost function =    100.860013247393      --   NSIM4D =            9
 EVCOST3  =   9 PZF = 0.1008600132473930E+03
 DIST. FUNC. JB=0.413852E+05 NSIM4D=    9 ++
 Jp cost function =    468.893596116686      --   NSIM4D =            9
 OBS DISTANCE FUNCTION JO=0.1603690455770283E+07 NSIM4D=    9 ==
 GREPMIN: Iteration    9 : Estimated gradient norm= 0.3012249370413387E+04  40A7887FAD7A942D
 Estimated reduction in norm of gradient is:   0.629304579357642     
 GREPMIN: Iteration    9 : Estimated quadratic cost= 0.1590619208959299E+07  4138455B357E5B4C
 congrad: ritz values are:    45.4305178499814        277.722941767331     
   718.481253654112        1340.74679863101        2188.46574126187     
   2968.03691249827        3515.68620408767        4143.11066809423     
   4727.97175046257     
 congrad: error bounds are:    94.9299858013456        246.312234910924     
   358.585781293890        450.573804290151        473.646219569667     
   433.778102220794        301.902462600819        151.386207675405     
   14.8347357027521     
 congrad: End of iteration:            9


 -------Simulator : initializations ----------------------------------------
 -------Simulator : cost-function Jb ---------------------------------------
 -------Simulator : convert state from control to physical space -----------
 -------Simulator : change from model to TL  variables -------------------
 -------Simulator : call direct and adjoint  model -----------------------
 START CNT3TL
 START CNT4TL, NSIM4D=          10
ISTEP=       0 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5340
ISTEP=       0 ZI0= 1366.0000 ZSEASON= 1.034065865 REA=149597870000.00 RDEASO=147113087085.47
 NSTEP =     0 STEPOTL IAAA0VAAA
 NSTEP =     1 STEPOTL 0AAA00AAA
 NSTEP =     2 STEPOTL 0AAA0VAAA
 NSTEP =     3 STEPOTL 0AAA00AAA
 NSTEP =     4 STEPOTL 0AAA00AAA
ISTEP=       5 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5331
ISTEP=       5 ZI0= 1366.0000 ZSEASON= 1.034065245 REA=149597870000.00 RDEASO=147113131193.21
 NSTEP =     5 STEPOTL 0AAA0VAAA
 NSTEP =     6 STEPOTL 0AAA00AAA
 NSTEP =     7 STEPOTL 0AAA0VAAA
 NSTEP =     8 STEPOTL 0AAA00AAA
 NSTEP =     9 STEPOTL 0AAA00AAA
ISTEP=      10 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5323
ISTEP=      10 ZI0= 1366.0000 ZSEASON= 1.034064607 REA=149597870000.00 RDEASO=147113176585.14
 NSTEP =    10 STEPOTL 0AAA0VAAA
 NSTEP =    11 STEPOTL 0AAA00AAA
 NSTEP =    12 STEPOTL 0AAA0VAAA
 NSTEP =    13 STEPOTL 0AAA00AAA
 NSTEP =    14 STEPOTL 0AAA00AAA
ISTEP=      15 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5314
ISTEP=      15 ZI0= 1366.0000 ZSEASON= 1.034063950 REA=149597870000.00 RDEASO=147113223261.23
 NSTEP =    15 STEPOTL 0AAA0VAAA
 NSTEP =    16 STEPOTL 0AAA00AAA
 NSTEP =    17 STEPOTL 0AAA0VAAA
 NSTEP =    18 STEPOTL 0AAA00AAA
 NSTEP =    19 STEPOTL 0AAA00AAA
ISTEP=      20 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5304
ISTEP=      20 ZI0= 1366.0000 ZSEASON= 1.034063276 REA=149597870000.00 RDEASO=147113271221.47
 NSTEP =    20 STEPOTL 0AAA0VAAA
 NSTEP =    21 STEPOTL 0AAA00AAA
 NSTEP =    22 STEPOTL 0AAA0VAAA
 NSTEP =    23 STEPOTL 0AAA00AAA
 NSTEP =    24 STEPOTL 0AAA00AAA
ISTEP=      25 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5295
ISTEP=      25 ZI0= 1366.0000 ZSEASON= 1.034062584 REA=149597870000.00 RDEASO=147113320465.82
 NSTEP =    25 STEPOTL 0AAA0VAAA
 NSTEP =    26 STEPOTL 0AAA00AAA
 NSTEP =    27 STEPOTL 0AAA0VAAA
 NSTEP =    28 STEPOTL 0AAA00AAA
 NSTEP =    29 STEPOTL 0AAA00AAA
ISTEP=      30 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5285
ISTEP=      30 ZI0= 1366.0000 ZSEASON= 1.034061874 REA=149597870000.00 RDEASO=147113370994.27
 NSTEP =    30 STEPOTL 0AA00V000
 NSTEP =    30 OBSVTL  0AA00V000
 *** COMTC ARRIVAL        28164        7131         272
 END CNT3TL


    EVJCDFI2- Evaluation of the Jc cost function when the digital filter is used     NSPEC2 =    15670   ALPHAG =  100.000    
 EVJCDFI: DFI check, sum of coefs=  6.635317295611287E-017
         Global value of the Jc-DFI/ALPHAG cost function = 
   2.20217916619854     
 START CNT3AD
 START CNT4AD, NSIM4D=          10
 NSTEP =    30 OBSVAD  000000000
 CNT4AD (ADJOINT INTEGRATION); TIME SLOT NO :  13 TO BE USED WITH TIME STEP (NSTEP) :  30 ; MODEL TIME (SINCE START) : 21600.
 NSTEP =    30 STEPOAD 0AA00V000
 NSTEP =    29 STEPOAD 0AAA00AAA
 NSTEP =    28 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :  12 TO BE USED WITH TIME STEP (NSTEP) :  27 ; MODEL TIME (SINCE START) : 19440.
 NSTEP =    27 STEPOAD 0AAA0VAAA
 NSTEP =    26 STEPOAD 0AAA00AAA
ISTEP=      25 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5295
ISTEP=      25 ZI0= 1366.0000 ZSEASON= 1.034062584 REA=149597870000.00 RDEASO=147113320465.82
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :  11 TO BE USED WITH TIME STEP (NSTEP) :  25 ; MODEL TIME (SINCE START) : 18000.
 NSTEP =    25 STEPOAD 0AAA0VAAA
 NSTEP =    24 STEPOAD 0AAA00AAA
 NSTEP =    23 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :  10 TO BE USED WITH TIME STEP (NSTEP) :  22 ; MODEL TIME (SINCE START) : 15840.
 NSTEP =    22 STEPOAD 0AAA0VAAA
 NSTEP =    21 STEPOAD 0AAA00AAA
ISTEP=      20 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5304
ISTEP=      20 ZI0= 1366.0000 ZSEASON= 1.034063276 REA=149597870000.00 RDEASO=147113271221.47
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   9 TO BE USED WITH TIME STEP (NSTEP) :  20 ; MODEL TIME (SINCE START) : 14400.
 NSTEP =    20 STEPOAD 0AAA0VAAA
 NSTEP =    19 STEPOAD 0AAA00AAA
 NSTEP =    18 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   8 TO BE USED WITH TIME STEP (NSTEP) :  17 ; MODEL TIME (SINCE START) : 12240.
 NSTEP =    17 STEPOAD 0AAA0VAAA
 NSTEP =    16 STEPOAD 0AAA00AAA
ISTEP=      15 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5314
ISTEP=      15 ZI0= 1366.0000 ZSEASON= 1.034063950 REA=149597870000.00 RDEASO=147113223261.23
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   7 TO BE USED WITH TIME STEP (NSTEP) :  15 ; MODEL TIME (SINCE START) : 10800.
 NSTEP =    15 STEPOAD 0AAA0VAAA
 NSTEP =    14 STEPOAD 0AAA00AAA
 NSTEP =    13 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   6 TO BE USED WITH TIME STEP (NSTEP) :  12 ; MODEL TIME (SINCE START) :  8640.
 NSTEP =    12 STEPOAD 0AAA0VAAA
 NSTEP =    11 STEPOAD 0AAA00AAA
ISTEP=      10 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5323
ISTEP=      10 ZI0= 1366.0000 ZSEASON= 1.034064607 REA=149597870000.00 RDEASO=147113176585.14
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   5 TO BE USED WITH TIME STEP (NSTEP) :  10 ; MODEL TIME (SINCE START) :  7200.
 NSTEP =    10 STEPOAD 0AAA0VAAA
 NSTEP =     9 STEPOAD 0AAA00AAA
 NSTEP =     8 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   4 TO BE USED WITH TIME STEP (NSTEP) :   7 ; MODEL TIME (SINCE START) :  5040.
 NSTEP =     7 STEPOAD 0AAA0VAAA
 NSTEP =     6 STEPOAD 0AAA00AAA
ISTEP=       5 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5331
ISTEP=       5 ZI0= 1366.0000 ZSEASON= 1.034065245 REA=149597870000.00 RDEASO=147113131193.21
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   3 TO BE USED WITH TIME STEP (NSTEP) :   5 ; MODEL TIME (SINCE START) :  3600.
 NSTEP =     5 STEPOAD 0AAA0VAAA
 NSTEP =     4 STEPOAD 0AAA00AAA
 NSTEP =     3 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   2 TO BE USED WITH TIME STEP (NSTEP) :   2 ; MODEL TIME (SINCE START) :  1440.
 NSTEP =     2 STEPOAD 0AAA0VAAA
 NSTEP =     1 STEPOAD 0AAA00AAA
ISTEP=       0 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5340
ISTEP=       0 ZI0= 1366.0000 ZSEASON= 1.034065865 REA=149597870000.00 RDEASO=147113087085.47
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   1 TO BE USED WITH TIME STEP (NSTEP) :   0 ; MODEL TIME (SINCE START) :     0.
 NSTEP =     0 STEPOAD 0AAA0VAAA
 END CNT3AD
 Jc-DFI cost function =    110.108958309927      --   NSIM4D =           10
 EVCOST3  =  10 PZF = 0.1101089583099268E+03
 DIST. FUNC. JB=0.413841E+05 NSIM4D=   10 ++
 Jp cost function =    468.846320855318      --   NSIM4D =           10
 OBS DISTANCE FUNCTION JO=0.1603726310665486E+07 NSIM4D=   10 ==
 GREPMIN: Iteration   10 : Estimated gradient norm= 0.2761484145051724E+04  40A592F7E1DC3759
 Estimated reduction in norm of gradient is:   0.576915920499000     
 GREPMIN: Iteration   10 : Estimated quadratic cost= 0.1586949059906113E+07  413837050F5601CD
 congrad: ritz values are:    38.1747383170943        228.689345183685     
   605.578258694157        1132.54130379593        1821.82178730267     
   2516.24552747914        3165.43721216689        3609.79233979416     
   4158.00698839004        4728.07033892555     
 congrad: error bounds are:    79.3846354101774        200.262100111674     
   299.647389306788        401.242315219559        532.591946988714     
   503.965166943526        397.690571697956        302.014109820757     
   102.236337570959        6.95314330188123     
 congrad: End of iteration:           10


 -------Simulator : initializations ----------------------------------------
 -------Simulator : cost-function Jb ---------------------------------------
 -------Simulator : convert state from control to physical space -----------
 -------Simulator : change from model to TL  variables -------------------
 -------Simulator : call direct and adjoint  model -----------------------
 START CNT3TL
 START CNT4TL, NSIM4D=          11
ISTEP=       0 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5340
ISTEP=       0 ZI0= 1366.0000 ZSEASON= 1.034065865 REA=149597870000.00 RDEASO=147113087085.47
 NSTEP =     0 STEPOTL IAAA0VAAA
 NSTEP =     1 STEPOTL 0AAA00AAA
 NSTEP =     2 STEPOTL 0AAA0VAAA
 NSTEP =     3 STEPOTL 0AAA00AAA
 NSTEP =     4 STEPOTL 0AAA00AAA
ISTEP=       5 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5331
ISTEP=       5 ZI0= 1366.0000 ZSEASON= 1.034065245 REA=149597870000.00 RDEASO=147113131193.21
 NSTEP =     5 STEPOTL 0AAA0VAAA
 NSTEP =     6 STEPOTL 0AAA00AAA
 NSTEP =     7 STEPOTL 0AAA0VAAA
 NSTEP =     8 STEPOTL 0AAA00AAA
 NSTEP =     9 STEPOTL 0AAA00AAA
ISTEP=      10 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5323
ISTEP=      10 ZI0= 1366.0000 ZSEASON= 1.034064607 REA=149597870000.00 RDEASO=147113176585.14
 NSTEP =    10 STEPOTL 0AAA0VAAA
 NSTEP =    11 STEPOTL 0AAA00AAA
 NSTEP =    12 STEPOTL 0AAA0VAAA
 NSTEP =    13 STEPOTL 0AAA00AAA
 NSTEP =    14 STEPOTL 0AAA00AAA
ISTEP=      15 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5314
ISTEP=      15 ZI0= 1366.0000 ZSEASON= 1.034063950 REA=149597870000.00 RDEASO=147113223261.23
 NSTEP =    15 STEPOTL 0AAA0VAAA
 NSTEP =    16 STEPOTL 0AAA00AAA
 NSTEP =    17 STEPOTL 0AAA0VAAA
 NSTEP =    18 STEPOTL 0AAA00AAA
 NSTEP =    19 STEPOTL 0AAA00AAA
ISTEP=      20 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5304
ISTEP=      20 ZI0= 1366.0000 ZSEASON= 1.034063276 REA=149597870000.00 RDEASO=147113271221.47
 NSTEP =    20 STEPOTL 0AAA0VAAA
 NSTEP =    21 STEPOTL 0AAA00AAA
 NSTEP =    22 STEPOTL 0AAA0VAAA
 NSTEP =    23 STEPOTL 0AAA00AAA
 NSTEP =    24 STEPOTL 0AAA00AAA
ISTEP=      25 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5295
ISTEP=      25 ZI0= 1366.0000 ZSEASON= 1.034062584 REA=149597870000.00 RDEASO=147113320465.82
 NSTEP =    25 STEPOTL 0AAA0VAAA
 NSTEP =    26 STEPOTL 0AAA00AAA
 NSTEP =    27 STEPOTL 0AAA0VAAA
 NSTEP =    28 STEPOTL 0AAA00AAA
 NSTEP =    29 STEPOTL 0AAA00AAA
ISTEP=      30 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5285
ISTEP=      30 ZI0= 1366.0000 ZSEASON= 1.034061874 REA=149597870000.00 RDEASO=147113370994.27
 NSTEP =    30 STEPOTL 0AA00V000
 NSTEP =    30 OBSVTL  0AA00V000
 *** COMTC ARRIVAL        28164        7131         272
 END CNT3TL


    EVJCDFI2- Evaluation of the Jc cost function when the digital filter is used     NSPEC2 =    15670   ALPHAG =  100.000    
 EVJCDFI: DFI check, sum of coefs=  6.635317295611287E-017
         Global value of the Jc-DFI/ALPHAG cost function = 
   2.12206632204600     
 START CNT3AD
 START CNT4AD, NSIM4D=          11
 NSTEP =    30 OBSVAD  000000000
 CNT4AD (ADJOINT INTEGRATION); TIME SLOT NO :  13 TO BE USED WITH TIME STEP (NSTEP) :  30 ; MODEL TIME (SINCE START) : 21600.
 NSTEP =    30 STEPOAD 0AA00V000
 NSTEP =    29 STEPOAD 0AAA00AAA
 NSTEP =    28 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :  12 TO BE USED WITH TIME STEP (NSTEP) :  27 ; MODEL TIME (SINCE START) : 19440.
 NSTEP =    27 STEPOAD 0AAA0VAAA
 NSTEP =    26 STEPOAD 0AAA00AAA
ISTEP=      25 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5295
ISTEP=      25 ZI0= 1366.0000 ZSEASON= 1.034062584 REA=149597870000.00 RDEASO=147113320465.82
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :  11 TO BE USED WITH TIME STEP (NSTEP) :  25 ; MODEL TIME (SINCE START) : 18000.
 NSTEP =    25 STEPOAD 0AAA0VAAA
 NSTEP =    24 STEPOAD 0AAA00AAA
 NSTEP =    23 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :  10 TO BE USED WITH TIME STEP (NSTEP) :  22 ; MODEL TIME (SINCE START) : 15840.
 NSTEP =    22 STEPOAD 0AAA0VAAA
 NSTEP =    21 STEPOAD 0AAA00AAA
ISTEP=      20 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5304
ISTEP=      20 ZI0= 1366.0000 ZSEASON= 1.034063276 REA=149597870000.00 RDEASO=147113271221.47
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   9 TO BE USED WITH TIME STEP (NSTEP) :  20 ; MODEL TIME (SINCE START) : 14400.
 NSTEP =    20 STEPOAD 0AAA0VAAA
 NSTEP =    19 STEPOAD 0AAA00AAA
 NSTEP =    18 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   8 TO BE USED WITH TIME STEP (NSTEP) :  17 ; MODEL TIME (SINCE START) : 12240.
 NSTEP =    17 STEPOAD 0AAA0VAAA
 NSTEP =    16 STEPOAD 0AAA00AAA
ISTEP=      15 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5314
ISTEP=      15 ZI0= 1366.0000 ZSEASON= 1.034063950 REA=149597870000.00 RDEASO=147113223261.23
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   7 TO BE USED WITH TIME STEP (NSTEP) :  15 ; MODEL TIME (SINCE START) : 10800.
 NSTEP =    15 STEPOAD 0AAA0VAAA
 NSTEP =    14 STEPOAD 0AAA00AAA
 NSTEP =    13 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   6 TO BE USED WITH TIME STEP (NSTEP) :  12 ; MODEL TIME (SINCE START) :  8640.
 NSTEP =    12 STEPOAD 0AAA0VAAA
 NSTEP =    11 STEPOAD 0AAA00AAA
ISTEP=      10 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5323
ISTEP=      10 ZI0= 1366.0000 ZSEASON= 1.034064607 REA=149597870000.00 RDEASO=147113176585.14
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   5 TO BE USED WITH TIME STEP (NSTEP) :  10 ; MODEL TIME (SINCE START) :  7200.
 NSTEP =    10 STEPOAD 0AAA0VAAA
 NSTEP =     9 STEPOAD 0AAA00AAA
 NSTEP =     8 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   4 TO BE USED WITH TIME STEP (NSTEP) :   7 ; MODEL TIME (SINCE START) :  5040.
 NSTEP =     7 STEPOAD 0AAA0VAAA
 NSTEP =     6 STEPOAD 0AAA00AAA
ISTEP=       5 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5331
ISTEP=       5 ZI0= 1366.0000 ZSEASON= 1.034065245 REA=149597870000.00 RDEASO=147113131193.21
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   3 TO BE USED WITH TIME STEP (NSTEP) :   5 ; MODEL TIME (SINCE START) :  3600.
 NSTEP =     5 STEPOAD 0AAA0VAAA
 NSTEP =     4 STEPOAD 0AAA00AAA
 NSTEP =     3 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   2 TO BE USED WITH TIME STEP (NSTEP) :   2 ; MODEL TIME (SINCE START) :  1440.
 NSTEP =     2 STEPOAD 0AAA0VAAA
 NSTEP =     1 STEPOAD 0AAA00AAA
ISTEP=       0 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5340
ISTEP=       0 ZI0= 1366.0000 ZSEASON= 1.034065865 REA=149597870000.00 RDEASO=147113087085.47
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   1 TO BE USED WITH TIME STEP (NSTEP) :   0 ; MODEL TIME (SINCE START) :     0.
 NSTEP =     0 STEPOAD 0AAA0VAAA
 END CNT3AD
 Jc-DFI cost function =    106.103316102300      --   NSIM4D =           11
 EVCOST3  =  11 PZF = 0.1061033161022998E+03
 DIST. FUNC. JB=0.413838E+05 NSIM4D=   11 ++
 Jp cost function =    468.886508734649      --   NSIM4D =           11
 OBS DISTANCE FUNCTION JO=0.1603676628484178E+07 NSIM4D=   11 ==
 GREPMIN: Iteration   11 : Estimated gradient norm= 0.2863527064553563E+04  40A65F0DDB67B8DF
 Estimated reduction in norm of gradient is:   0.598234234037138     
 GREPMIN: Iteration   11 : Estimated quadratic cost= 0.1583426043720911E+07  413829420B314B2D
 congrad: ritz values are:    32.4028696305376        191.123228905507     
   508.659366991613        930.120043943988        1456.30930041162     
   2151.42802409566        2792.92419308657        3317.20742098793     
   3701.98573349778        4164.94503899181        4728.09166592103     
 congrad: error bounds are:    76.1708753254910        190.769381441425     
   307.422157203125        417.795354444991        466.431885023789     
   433.396651211577        431.173053880298        341.865977684136     
   296.812022626414        71.3157256370570        3.23534129322974     
 congrad: End of iteration:           11


 -------Simulator : initializations ----------------------------------------
 -------Simulator : cost-function Jb ---------------------------------------
 -------Simulator : convert state from control to physical space -----------
 -------Simulator : change from model to TL  variables -------------------
 -------Simulator : call direct and adjoint  model -----------------------
 START CNT3TL
 START CNT4TL, NSIM4D=          12
ISTEP=       0 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5340
ISTEP=       0 ZI0= 1366.0000 ZSEASON= 1.034065865 REA=149597870000.00 RDEASO=147113087085.47
 NSTEP =     0 STEPOTL IAAA0VAAA
 NSTEP =     1 STEPOTL 0AAA00AAA
 NSTEP =     2 STEPOTL 0AAA0VAAA
 NSTEP =     3 STEPOTL 0AAA00AAA
 NSTEP =     4 STEPOTL 0AAA00AAA
ISTEP=       5 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5331
ISTEP=       5 ZI0= 1366.0000 ZSEASON= 1.034065245 REA=149597870000.00 RDEASO=147113131193.21
 NSTEP =     5 STEPOTL 0AAA0VAAA
 NSTEP =     6 STEPOTL 0AAA00AAA
 NSTEP =     7 STEPOTL 0AAA0VAAA
 NSTEP =     8 STEPOTL 0AAA00AAA
 NSTEP =     9 STEPOTL 0AAA00AAA
ISTEP=      10 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5323
ISTEP=      10 ZI0= 1366.0000 ZSEASON= 1.034064607 REA=149597870000.00 RDEASO=147113176585.14
 NSTEP =    10 STEPOTL 0AAA0VAAA
 NSTEP =    11 STEPOTL 0AAA00AAA
 NSTEP =    12 STEPOTL 0AAA0VAAA
 NSTEP =    13 STEPOTL 0AAA00AAA
 NSTEP =    14 STEPOTL 0AAA00AAA
ISTEP=      15 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5314
ISTEP=      15 ZI0= 1366.0000 ZSEASON= 1.034063950 REA=149597870000.00 RDEASO=147113223261.23
 NSTEP =    15 STEPOTL 0AAA0VAAA
 NSTEP =    16 STEPOTL 0AAA00AAA
 NSTEP =    17 STEPOTL 0AAA0VAAA
 NSTEP =    18 STEPOTL 0AAA00AAA
 NSTEP =    19 STEPOTL 0AAA00AAA
ISTEP=      20 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5304
ISTEP=      20 ZI0= 1366.0000 ZSEASON= 1.034063276 REA=149597870000.00 RDEASO=147113271221.47
 NSTEP =    20 STEPOTL 0AAA0VAAA
 NSTEP =    21 STEPOTL 0AAA00AAA
 NSTEP =    22 STEPOTL 0AAA0VAAA
 NSTEP =    23 STEPOTL 0AAA00AAA
 NSTEP =    24 STEPOTL 0AAA00AAA
ISTEP=      25 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5295
ISTEP=      25 ZI0= 1366.0000 ZSEASON= 1.034062584 REA=149597870000.00 RDEASO=147113320465.82
 NSTEP =    25 STEPOTL 0AAA0VAAA
 NSTEP =    26 STEPOTL 0AAA00AAA
 NSTEP =    27 STEPOTL 0AAA0VAAA
 NSTEP =    28 STEPOTL 0AAA00AAA
 NSTEP =    29 STEPOTL 0AAA00AAA
ISTEP=      30 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5285
ISTEP=      30 ZI0= 1366.0000 ZSEASON= 1.034061874 REA=149597870000.00 RDEASO=147113370994.27
 NSTEP =    30 STEPOTL 0AA00V000
 NSTEP =    30 OBSVTL  0AA00V000
 *** COMTC ARRIVAL        28164        7131         272
 END CNT3TL


    EVJCDFI2- Evaluation of the Jc cost function when the digital filter is used     NSPEC2 =    15670   ALPHAG =  100.000    
 EVJCDFI: DFI check, sum of coefs=  6.635317295611287E-017
         Global value of the Jc-DFI/ALPHAG cost function = 
   2.65603991071624     
 START CNT3AD
 START CNT4AD, NSIM4D=          12
 NSTEP =    30 OBSVAD  000000000
 CNT4AD (ADJOINT INTEGRATION); TIME SLOT NO :  13 TO BE USED WITH TIME STEP (NSTEP) :  30 ; MODEL TIME (SINCE START) : 21600.
 NSTEP =    30 STEPOAD 0AA00V000
 NSTEP =    29 STEPOAD 0AAA00AAA
 NSTEP =    28 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :  12 TO BE USED WITH TIME STEP (NSTEP) :  27 ; MODEL TIME (SINCE START) : 19440.
 NSTEP =    27 STEPOAD 0AAA0VAAA
 NSTEP =    26 STEPOAD 0AAA00AAA
ISTEP=      25 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5295
ISTEP=      25 ZI0= 1366.0000 ZSEASON= 1.034062584 REA=149597870000.00 RDEASO=147113320465.82
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :  11 TO BE USED WITH TIME STEP (NSTEP) :  25 ; MODEL TIME (SINCE START) : 18000.
 NSTEP =    25 STEPOAD 0AAA0VAAA
 NSTEP =    24 STEPOAD 0AAA00AAA
 NSTEP =    23 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :  10 TO BE USED WITH TIME STEP (NSTEP) :  22 ; MODEL TIME (SINCE START) : 15840.
 NSTEP =    22 STEPOAD 0AAA0VAAA
 NSTEP =    21 STEPOAD 0AAA00AAA
ISTEP=      20 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5304
ISTEP=      20 ZI0= 1366.0000 ZSEASON= 1.034063276 REA=149597870000.00 RDEASO=147113271221.47
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   9 TO BE USED WITH TIME STEP (NSTEP) :  20 ; MODEL TIME (SINCE START) : 14400.
 NSTEP =    20 STEPOAD 0AAA0VAAA
 NSTEP =    19 STEPOAD 0AAA00AAA
 NSTEP =    18 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   8 TO BE USED WITH TIME STEP (NSTEP) :  17 ; MODEL TIME (SINCE START) : 12240.
 NSTEP =    17 STEPOAD 0AAA0VAAA
 NSTEP =    16 STEPOAD 0AAA00AAA
ISTEP=      15 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5314
ISTEP=      15 ZI0= 1366.0000 ZSEASON= 1.034063950 REA=149597870000.00 RDEASO=147113223261.23
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   7 TO BE USED WITH TIME STEP (NSTEP) :  15 ; MODEL TIME (SINCE START) : 10800.
 NSTEP =    15 STEPOAD 0AAA0VAAA
 NSTEP =    14 STEPOAD 0AAA00AAA
 NSTEP =    13 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   6 TO BE USED WITH TIME STEP (NSTEP) :  12 ; MODEL TIME (SINCE START) :  8640.
 NSTEP =    12 STEPOAD 0AAA0VAAA
 NSTEP =    11 STEPOAD 0AAA00AAA
ISTEP=      10 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5323
ISTEP=      10 ZI0= 1366.0000 ZSEASON= 1.034064607 REA=149597870000.00 RDEASO=147113176585.14
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   5 TO BE USED WITH TIME STEP (NSTEP) :  10 ; MODEL TIME (SINCE START) :  7200.
 NSTEP =    10 STEPOAD 0AAA0VAAA
 NSTEP =     9 STEPOAD 0AAA00AAA
 NSTEP =     8 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   4 TO BE USED WITH TIME STEP (NSTEP) :   7 ; MODEL TIME (SINCE START) :  5040.
 NSTEP =     7 STEPOAD 0AAA0VAAA
 NSTEP =     6 STEPOAD 0AAA00AAA
ISTEP=       5 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5331
ISTEP=       5 ZI0= 1366.0000 ZSEASON= 1.034065245 REA=149597870000.00 RDEASO=147113131193.21
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   3 TO BE USED WITH TIME STEP (NSTEP) :   5 ; MODEL TIME (SINCE START) :  3600.
 NSTEP =     5 STEPOAD 0AAA0VAAA
 NSTEP =     4 STEPOAD 0AAA00AAA
 NSTEP =     3 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   2 TO BE USED WITH TIME STEP (NSTEP) :   2 ; MODEL TIME (SINCE START) :  1440.
 NSTEP =     2 STEPOAD 0AAA0VAAA
 NSTEP =     1 STEPOAD 0AAA00AAA
ISTEP=       0 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5340
ISTEP=       0 ZI0= 1366.0000 ZSEASON= 1.034065865 REA=149597870000.00 RDEASO=147113087085.47
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   1 TO BE USED WITH TIME STEP (NSTEP) :   0 ; MODEL TIME (SINCE START) :     0.
 NSTEP =     0 STEPOAD 0AAA0VAAA
 END CNT3AD
 Jc-DFI cost function =    132.801995535812      --   NSIM4D =           12
 EVCOST3  =  12 PZF = 0.1328019955358119E+03
 DIST. FUNC. JB=0.413850E+05 NSIM4D=   12 ++
 Jp cost function =    468.855102722614      --   NSIM4D =           12
 OBS DISTANCE FUNCTION JO=0.1603805935305192E+07 NSIM4D=   12 ==
 GREPMIN: Iteration   12 : Estimated gradient norm= 0.2650385024360138E+04  40A4B4C521E9B5E9
 Estimated reduction in norm of gradient is:   0.553705629179650     
 GREPMIN: Iteration   12 : Estimated quadratic cost= 0.1580119189829582E+07  41381C573098ABE7
 congrad: ritz values are:    27.8548642681956        162.478541531828     
   430.173558734441        791.550348776989        1279.68243923949     
   1910.26748491005        2472.16147683963        3027.52364500389     
   3450.99637482130        3810.31696929554        4169.33001650397     
   4728.09702816589     
 congrad: error bounds are:    64.3314635199221        158.040103900025     
   255.105405200026        312.110733296219        343.194246698174     
   447.780574295261        476.384392650258        429.617077899360     
   350.156100043269        354.389248873666        66.4013085973225     
   1.79582539016301     
 congrad: End of iteration:           12


 -------Simulator : initializations ----------------------------------------
 -------Simulator : cost-function Jb ---------------------------------------
 -------Simulator : convert state from control to physical space -----------
 -------Simulator : change from model to TL  variables -------------------
 -------Simulator : call direct and adjoint  model -----------------------
 START CNT3TL
 START CNT4TL, NSIM4D=          13
ISTEP=       0 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5340
ISTEP=       0 ZI0= 1366.0000 ZSEASON= 1.034065865 REA=149597870000.00 RDEASO=147113087085.47
 NSTEP =     0 STEPOTL IAAA0VAAA
 NSTEP =     1 STEPOTL 0AAA00AAA
 NSTEP =     2 STEPOTL 0AAA0VAAA
 NSTEP =     3 STEPOTL 0AAA00AAA
 NSTEP =     4 STEPOTL 0AAA00AAA
ISTEP=       5 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5331
ISTEP=       5 ZI0= 1366.0000 ZSEASON= 1.034065245 REA=149597870000.00 RDEASO=147113131193.21
 NSTEP =     5 STEPOTL 0AAA0VAAA
 NSTEP =     6 STEPOTL 0AAA00AAA
 NSTEP =     7 STEPOTL 0AAA0VAAA
 NSTEP =     8 STEPOTL 0AAA00AAA
 NSTEP =     9 STEPOTL 0AAA00AAA
ISTEP=      10 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5323
ISTEP=      10 ZI0= 1366.0000 ZSEASON= 1.034064607 REA=149597870000.00 RDEASO=147113176585.14
 NSTEP =    10 STEPOTL 0AAA0VAAA
 NSTEP =    11 STEPOTL 0AAA00AAA
 NSTEP =    12 STEPOTL 0AAA0VAAA
 NSTEP =    13 STEPOTL 0AAA00AAA
 NSTEP =    14 STEPOTL 0AAA00AAA
ISTEP=      15 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5314
ISTEP=      15 ZI0= 1366.0000 ZSEASON= 1.034063950 REA=149597870000.00 RDEASO=147113223261.23
 NSTEP =    15 STEPOTL 0AAA0VAAA
 NSTEP =    16 STEPOTL 0AAA00AAA
 NSTEP =    17 STEPOTL 0AAA0VAAA
 NSTEP =    18 STEPOTL 0AAA00AAA
 NSTEP =    19 STEPOTL 0AAA00AAA
ISTEP=      20 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5304
ISTEP=      20 ZI0= 1366.0000 ZSEASON= 1.034063276 REA=149597870000.00 RDEASO=147113271221.47
 NSTEP =    20 STEPOTL 0AAA0VAAA
 NSTEP =    21 STEPOTL 0AAA00AAA
 NSTEP =    22 STEPOTL 0AAA0VAAA
 NSTEP =    23 STEPOTL 0AAA00AAA
 NSTEP =    24 STEPOTL 0AAA00AAA
ISTEP=      25 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5295
ISTEP=      25 ZI0= 1366.0000 ZSEASON= 1.034062584 REA=149597870000.00 RDEASO=147113320465.82
 NSTEP =    25 STEPOTL 0AAA0VAAA
 NSTEP =    26 STEPOTL 0AAA00AAA
 NSTEP =    27 STEPOTL 0AAA0VAAA
 NSTEP =    28 STEPOTL 0AAA00AAA
 NSTEP =    29 STEPOTL 0AAA00AAA
ISTEP=      30 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5285
ISTEP=      30 ZI0= 1366.0000 ZSEASON= 1.034061874 REA=149597870000.00 RDEASO=147113370994.27
 NSTEP =    30 STEPOTL 0AA00V000
 NSTEP =    30 OBSVTL  0AA00V000
 *** COMTC ARRIVAL        28164        7131         272
 END CNT3TL


    EVJCDFI2- Evaluation of the Jc cost function when the digital filter is used     NSPEC2 =    15670   ALPHAG =  100.000    
 EVJCDFI: DFI check, sum of coefs=  6.635317295611287E-017
         Global value of the Jc-DFI/ALPHAG cost function = 
   2.31068201471853     
 START CNT3AD
 START CNT4AD, NSIM4D=          13
 NSTEP =    30 OBSVAD  000000000
 CNT4AD (ADJOINT INTEGRATION); TIME SLOT NO :  13 TO BE USED WITH TIME STEP (NSTEP) :  30 ; MODEL TIME (SINCE START) : 21600.
 NSTEP =    30 STEPOAD 0AA00V000
 NSTEP =    29 STEPOAD 0AAA00AAA
 NSTEP =    28 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :  12 TO BE USED WITH TIME STEP (NSTEP) :  27 ; MODEL TIME (SINCE START) : 19440.
 NSTEP =    27 STEPOAD 0AAA0VAAA
 NSTEP =    26 STEPOAD 0AAA00AAA
ISTEP=      25 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5295
ISTEP=      25 ZI0= 1366.0000 ZSEASON= 1.034062584 REA=149597870000.00 RDEASO=147113320465.82
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :  11 TO BE USED WITH TIME STEP (NSTEP) :  25 ; MODEL TIME (SINCE START) : 18000.
 NSTEP =    25 STEPOAD 0AAA0VAAA
 NSTEP =    24 STEPOAD 0AAA00AAA
 NSTEP =    23 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :  10 TO BE USED WITH TIME STEP (NSTEP) :  22 ; MODEL TIME (SINCE START) : 15840.
 NSTEP =    22 STEPOAD 0AAA0VAAA
 NSTEP =    21 STEPOAD 0AAA00AAA
ISTEP=      20 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5304
ISTEP=      20 ZI0= 1366.0000 ZSEASON= 1.034063276 REA=149597870000.00 RDEASO=147113271221.47
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   9 TO BE USED WITH TIME STEP (NSTEP) :  20 ; MODEL TIME (SINCE START) : 14400.
 NSTEP =    20 STEPOAD 0AAA0VAAA
 NSTEP =    19 STEPOAD 0AAA00AAA
 NSTEP =    18 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   8 TO BE USED WITH TIME STEP (NSTEP) :  17 ; MODEL TIME (SINCE START) : 12240.
 NSTEP =    17 STEPOAD 0AAA0VAAA
 NSTEP =    16 STEPOAD 0AAA00AAA
ISTEP=      15 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5314
ISTEP=      15 ZI0= 1366.0000 ZSEASON= 1.034063950 REA=149597870000.00 RDEASO=147113223261.23
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   7 TO BE USED WITH TIME STEP (NSTEP) :  15 ; MODEL TIME (SINCE START) : 10800.
 NSTEP =    15 STEPOAD 0AAA0VAAA
 NSTEP =    14 STEPOAD 0AAA00AAA
 NSTEP =    13 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   6 TO BE USED WITH TIME STEP (NSTEP) :  12 ; MODEL TIME (SINCE START) :  8640.
 NSTEP =    12 STEPOAD 0AAA0VAAA
 NSTEP =    11 STEPOAD 0AAA00AAA
ISTEP=      10 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5323
ISTEP=      10 ZI0= 1366.0000 ZSEASON= 1.034064607 REA=149597870000.00 RDEASO=147113176585.14
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   5 TO BE USED WITH TIME STEP (NSTEP) :  10 ; MODEL TIME (SINCE START) :  7200.
 NSTEP =    10 STEPOAD 0AAA0VAAA
 NSTEP =     9 STEPOAD 0AAA00AAA
 NSTEP =     8 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   4 TO BE USED WITH TIME STEP (NSTEP) :   7 ; MODEL TIME (SINCE START) :  5040.
 NSTEP =     7 STEPOAD 0AAA0VAAA
 NSTEP =     6 STEPOAD 0AAA00AAA
ISTEP=       5 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5331
ISTEP=       5 ZI0= 1366.0000 ZSEASON= 1.034065245 REA=149597870000.00 RDEASO=147113131193.21
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   3 TO BE USED WITH TIME STEP (NSTEP) :   5 ; MODEL TIME (SINCE START) :  3600.
 NSTEP =     5 STEPOAD 0AAA0VAAA
 NSTEP =     4 STEPOAD 0AAA00AAA
 NSTEP =     3 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   2 TO BE USED WITH TIME STEP (NSTEP) :   2 ; MODEL TIME (SINCE START) :  1440.
 NSTEP =     2 STEPOAD 0AAA0VAAA
 NSTEP =     1 STEPOAD 0AAA00AAA
ISTEP=       0 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5340
ISTEP=       0 ZI0= 1366.0000 ZSEASON= 1.034065865 REA=149597870000.00 RDEASO=147113087085.47
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   1 TO BE USED WITH TIME STEP (NSTEP) :   0 ; MODEL TIME (SINCE START) :     0.
 NSTEP =     0 STEPOAD 0AAA0VAAA
 END CNT3AD
 Jc-DFI cost function =    115.534100735927      --   NSIM4D =           13
 EVCOST3  =  13 PZF = 0.1155341007359265E+03
 DIST. FUNC. JB=0.413822E+05 NSIM4D=   13 ++
 Jp cost function =    468.876238773016      --   NSIM4D =           13
 OBS DISTANCE FUNCTION JO=0.1603689473238358E+07 NSIM4D=   13 ==
 GREPMIN: Iteration   13 : Estimated gradient norm= 0.2649869624220172E+04  40A4B3BD3F62C2E5
 Estimated reduction in norm of gradient is:   0.553597954273493     
 GREPMIN: Iteration   13 : Estimated quadratic cost= 0.1576878501713661E+07  41380FAE80704E74
 congrad: ritz values are:    24.0797003299154        139.490462354599     
   367.340649313556        690.884692121723        1113.83443790145     
   1561.67932686514        2132.66530073406        2686.73722164920     
   3180.09933801048        3550.84928228455        3923.82935091783     
   4173.10624994872        4728.09855340568     
 congrad: error bounds are:    59.1053971935141        143.428647695772     
   232.388638919796        288.953211963676        384.898776806169     
   463.098385120958        366.904166138698        352.168484971173     
   297.815568673775        251.853290361789        294.882680669339     
   57.3522312040991       0.859952216665944     
 congrad: End of iteration:           13


 -------Simulator : initializations ----------------------------------------
 -------Simulator : cost-function Jb ---------------------------------------
 -------Simulator : convert state from control to physical space -----------
 -------Simulator : change from model to TL  variables -------------------
 -------Simulator : call direct and adjoint  model -----------------------
 START CNT3TL
 START CNT4TL, NSIM4D=          14
ISTEP=       0 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5340
ISTEP=       0 ZI0= 1366.0000 ZSEASON= 1.034065865 REA=149597870000.00 RDEASO=147113087085.47
 NSTEP =     0 STEPOTL IAAA0VAAA
 NSTEP =     1 STEPOTL 0AAA00AAA
 NSTEP =     2 STEPOTL 0AAA0VAAA
 NSTEP =     3 STEPOTL 0AAA00AAA
 NSTEP =     4 STEPOTL 0AAA00AAA
ISTEP=       5 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5331
ISTEP=       5 ZI0= 1366.0000 ZSEASON= 1.034065245 REA=149597870000.00 RDEASO=147113131193.21
 NSTEP =     5 STEPOTL 0AAA0VAAA
 NSTEP =     6 STEPOTL 0AAA00AAA
 NSTEP =     7 STEPOTL 0AAA0VAAA
 NSTEP =     8 STEPOTL 0AAA00AAA
 NSTEP =     9 STEPOTL 0AAA00AAA
ISTEP=      10 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5323
ISTEP=      10 ZI0= 1366.0000 ZSEASON= 1.034064607 REA=149597870000.00 RDEASO=147113176585.14
 NSTEP =    10 STEPOTL 0AAA0VAAA
 NSTEP =    11 STEPOTL 0AAA00AAA
 NSTEP =    12 STEPOTL 0AAA0VAAA
 NSTEP =    13 STEPOTL 0AAA00AAA
 NSTEP =    14 STEPOTL 0AAA00AAA
ISTEP=      15 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5314
ISTEP=      15 ZI0= 1366.0000 ZSEASON= 1.034063950 REA=149597870000.00 RDEASO=147113223261.23
 NSTEP =    15 STEPOTL 0AAA0VAAA
 NSTEP =    16 STEPOTL 0AAA00AAA
 NSTEP =    17 STEPOTL 0AAA0VAAA
 NSTEP =    18 STEPOTL 0AAA00AAA
 NSTEP =    19 STEPOTL 0AAA00AAA
ISTEP=      20 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5304
ISTEP=      20 ZI0= 1366.0000 ZSEASON= 1.034063276 REA=149597870000.00 RDEASO=147113271221.47
 NSTEP =    20 STEPOTL 0AAA0VAAA
 NSTEP =    21 STEPOTL 0AAA00AAA
 NSTEP =    22 STEPOTL 0AAA0VAAA
 NSTEP =    23 STEPOTL 0AAA00AAA
 NSTEP =    24 STEPOTL 0AAA00AAA
ISTEP=      25 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5295
ISTEP=      25 ZI0= 1366.0000 ZSEASON= 1.034062584 REA=149597870000.00 RDEASO=147113320465.82
 NSTEP =    25 STEPOTL 0AAA0VAAA
 NSTEP =    26 STEPOTL 0AAA00AAA
 NSTEP =    27 STEPOTL 0AAA0VAAA
 NSTEP =    28 STEPOTL 0AAA00AAA
 NSTEP =    29 STEPOTL 0AAA00AAA
ISTEP=      30 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5285
ISTEP=      30 ZI0= 1366.0000 ZSEASON= 1.034061874 REA=149597870000.00 RDEASO=147113370994.27
 NSTEP =    30 STEPOTL 0AA00V000
 NSTEP =    30 OBSVTL  0AA00V000
 *** COMTC ARRIVAL        28164        7131         272
 END CNT3TL


    EVJCDFI2- Evaluation of the Jc cost function when the digital filter is used     NSPEC2 =    15670   ALPHAG =  100.000    
 EVJCDFI: DFI check, sum of coefs=  6.635317295611287E-017
         Global value of the Jc-DFI/ALPHAG cost function = 
   2.30707736929144     
 START CNT3AD
 START CNT4AD, NSIM4D=          14
 NSTEP =    30 OBSVAD  000000000
 CNT4AD (ADJOINT INTEGRATION); TIME SLOT NO :  13 TO BE USED WITH TIME STEP (NSTEP) :  30 ; MODEL TIME (SINCE START) : 21600.
 NSTEP =    30 STEPOAD 0AA00V000
 NSTEP =    29 STEPOAD 0AAA00AAA
 NSTEP =    28 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :  12 TO BE USED WITH TIME STEP (NSTEP) :  27 ; MODEL TIME (SINCE START) : 19440.
 NSTEP =    27 STEPOAD 0AAA0VAAA
 NSTEP =    26 STEPOAD 0AAA00AAA
ISTEP=      25 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5295
ISTEP=      25 ZI0= 1366.0000 ZSEASON= 1.034062584 REA=149597870000.00 RDEASO=147113320465.82
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :  11 TO BE USED WITH TIME STEP (NSTEP) :  25 ; MODEL TIME (SINCE START) : 18000.
 NSTEP =    25 STEPOAD 0AAA0VAAA
 NSTEP =    24 STEPOAD 0AAA00AAA
 NSTEP =    23 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :  10 TO BE USED WITH TIME STEP (NSTEP) :  22 ; MODEL TIME (SINCE START) : 15840.
 NSTEP =    22 STEPOAD 0AAA0VAAA
 NSTEP =    21 STEPOAD 0AAA00AAA
ISTEP=      20 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5304
ISTEP=      20 ZI0= 1366.0000 ZSEASON= 1.034063276 REA=149597870000.00 RDEASO=147113271221.47
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   9 TO BE USED WITH TIME STEP (NSTEP) :  20 ; MODEL TIME (SINCE START) : 14400.
 NSTEP =    20 STEPOAD 0AAA0VAAA
 NSTEP =    19 STEPOAD 0AAA00AAA
 NSTEP =    18 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   8 TO BE USED WITH TIME STEP (NSTEP) :  17 ; MODEL TIME (SINCE START) : 12240.
 NSTEP =    17 STEPOAD 0AAA0VAAA
 NSTEP =    16 STEPOAD 0AAA00AAA
ISTEP=      15 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5314
ISTEP=      15 ZI0= 1366.0000 ZSEASON= 1.034063950 REA=149597870000.00 RDEASO=147113223261.23
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   7 TO BE USED WITH TIME STEP (NSTEP) :  15 ; MODEL TIME (SINCE START) : 10800.
 NSTEP =    15 STEPOAD 0AAA0VAAA
 NSTEP =    14 STEPOAD 0AAA00AAA
 NSTEP =    13 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   6 TO BE USED WITH TIME STEP (NSTEP) :  12 ; MODEL TIME (SINCE START) :  8640.
 NSTEP =    12 STEPOAD 0AAA0VAAA
 NSTEP =    11 STEPOAD 0AAA00AAA
ISTEP=      10 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5323
ISTEP=      10 ZI0= 1366.0000 ZSEASON= 1.034064607 REA=149597870000.00 RDEASO=147113176585.14
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   5 TO BE USED WITH TIME STEP (NSTEP) :  10 ; MODEL TIME (SINCE START) :  7200.
 NSTEP =    10 STEPOAD 0AAA0VAAA
 NSTEP =     9 STEPOAD 0AAA00AAA
 NSTEP =     8 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   4 TO BE USED WITH TIME STEP (NSTEP) :   7 ; MODEL TIME (SINCE START) :  5040.
 NSTEP =     7 STEPOAD 0AAA0VAAA
 NSTEP =     6 STEPOAD 0AAA00AAA
ISTEP=       5 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5331
ISTEP=       5 ZI0= 1366.0000 ZSEASON= 1.034065245 REA=149597870000.00 RDEASO=147113131193.21
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   3 TO BE USED WITH TIME STEP (NSTEP) :   5 ; MODEL TIME (SINCE START) :  3600.
 NSTEP =     5 STEPOAD 0AAA0VAAA
 NSTEP =     4 STEPOAD 0AAA00AAA
 NSTEP =     3 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   2 TO BE USED WITH TIME STEP (NSTEP) :   2 ; MODEL TIME (SINCE START) :  1440.
 NSTEP =     2 STEPOAD 0AAA0VAAA
 NSTEP =     1 STEPOAD 0AAA00AAA
ISTEP=       0 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5340
ISTEP=       0 ZI0= 1366.0000 ZSEASON= 1.034065865 REA=149597870000.00 RDEASO=147113087085.47
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   1 TO BE USED WITH TIME STEP (NSTEP) :   0 ; MODEL TIME (SINCE START) :     0.
 NSTEP =     0 STEPOAD 0AAA0VAAA
 END CNT3AD
 Jc-DFI cost function =    115.353868464572      --   NSIM4D =           14
 EVCOST3  =  14 PZF = 0.1153538684645718E+03
 DIST. FUNC. JB=0.413872E+05 NSIM4D=   14 ++
 Jp cost function =    468.855337151577      --   NSIM4D =           14
 OBS DISTANCE FUNCTION JO=0.1603704626826183E+07 NSIM4D=   14 ==
 GREPMIN: Iteration   14 : Estimated gradient norm= 0.2517072147888318E+04  40A3AA24F091699B
 Estimated reduction in norm of gradient is:   0.525854547368471     
 GREPMIN: Iteration   14 : Estimated quadratic cost= 0.1573745569733602E+07  4138037191DA0FB4
 congrad: ritz values are:    20.9687361405807        121.069970840559     
   317.274875722042        605.441445343454        951.341248791555     
   1365.18517853535        1932.75033960246        2390.65854240680     
   2853.95913444952        3269.27870124664        3604.66911060647     
   3988.46799739016        4175.70849151935        4728.09889092046     
 congrad: error bounds are:    51.7576272405351        124.004221967077     
   200.441390770916        260.189854074867        333.301803705442     
   320.422401934622        385.954401665015        436.849539070961     
   374.925376899922        266.371307561618        199.367983103488     
   208.020418524367        44.6986461518712       0.387748655493950     
 congrad: converged eigenvalue    4728.09889092046     
 congrad: End of iteration:           14


 -------Simulator : initializations ----------------------------------------
 -------Simulator : cost-function Jb ---------------------------------------
 -------Simulator : convert state from control to physical space -----------
 -------Simulator : change from model to TL  variables -------------------
 -------Simulator : call direct and adjoint  model -----------------------
 START CNT3TL
 START CNT4TL, NSIM4D=          15
ISTEP=       0 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5340
ISTEP=       0 ZI0= 1366.0000 ZSEASON= 1.034065865 REA=149597870000.00 RDEASO=147113087085.47
 NSTEP =     0 STEPOTL IAAA0VAAA
 NSTEP =     1 STEPOTL 0AAA00AAA
 NSTEP =     2 STEPOTL 0AAA0VAAA
 NSTEP =     3 STEPOTL 0AAA00AAA
 NSTEP =     4 STEPOTL 0AAA00AAA
ISTEP=       5 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5331
ISTEP=       5 ZI0= 1366.0000 ZSEASON= 1.034065245 REA=149597870000.00 RDEASO=147113131193.21
 NSTEP =     5 STEPOTL 0AAA0VAAA
 NSTEP =     6 STEPOTL 0AAA00AAA
 NSTEP =     7 STEPOTL 0AAA0VAAA
 NSTEP =     8 STEPOTL 0AAA00AAA
 NSTEP =     9 STEPOTL 0AAA00AAA
ISTEP=      10 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5323
ISTEP=      10 ZI0= 1366.0000 ZSEASON= 1.034064607 REA=149597870000.00 RDEASO=147113176585.14
 NSTEP =    10 STEPOTL 0AAA0VAAA
 NSTEP =    11 STEPOTL 0AAA00AAA
 NSTEP =    12 STEPOTL 0AAA0VAAA
 NSTEP =    13 STEPOTL 0AAA00AAA
 NSTEP =    14 STEPOTL 0AAA00AAA
ISTEP=      15 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5314
ISTEP=      15 ZI0= 1366.0000 ZSEASON= 1.034063950 REA=149597870000.00 RDEASO=147113223261.23
 NSTEP =    15 STEPOTL 0AAA0VAAA
 NSTEP =    16 STEPOTL 0AAA00AAA
 NSTEP =    17 STEPOTL 0AAA0VAAA
 NSTEP =    18 STEPOTL 0AAA00AAA
 NSTEP =    19 STEPOTL 0AAA00AAA
ISTEP=      20 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5304
ISTEP=      20 ZI0= 1366.0000 ZSEASON= 1.034063276 REA=149597870000.00 RDEASO=147113271221.47
 NSTEP =    20 STEPOTL 0AAA0VAAA
 NSTEP =    21 STEPOTL 0AAA00AAA
 NSTEP =    22 STEPOTL 0AAA0VAAA
 NSTEP =    23 STEPOTL 0AAA00AAA
 NSTEP =    24 STEPOTL 0AAA00AAA
ISTEP=      25 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5295
ISTEP=      25 ZI0= 1366.0000 ZSEASON= 1.034062584 REA=149597870000.00 RDEASO=147113320465.82
 NSTEP =    25 STEPOTL 0AAA0VAAA
 NSTEP =    26 STEPOTL 0AAA00AAA
 NSTEP =    27 STEPOTL 0AAA0VAAA
 NSTEP =    28 STEPOTL 0AAA00AAA
 NSTEP =    29 STEPOTL 0AAA00AAA
ISTEP=      30 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5285
ISTEP=      30 ZI0= 1366.0000 ZSEASON= 1.034061874 REA=149597870000.00 RDEASO=147113370994.27
 NSTEP =    30 STEPOTL 0AA00V000
 NSTEP =    30 OBSVTL  0AA00V000
 *** COMTC ARRIVAL        28164        7131         272
 END CNT3TL


    EVJCDFI2- Evaluation of the Jc cost function when the digital filter is used     NSPEC2 =    15670   ALPHAG =  100.000    
 EVJCDFI: DFI check, sum of coefs=  6.635317295611287E-017
         Global value of the Jc-DFI/ALPHAG cost function = 
   2.21126723231901     
 START CNT3AD
 START CNT4AD, NSIM4D=          15
 NSTEP =    30 OBSVAD  000000000
 CNT4AD (ADJOINT INTEGRATION); TIME SLOT NO :  13 TO BE USED WITH TIME STEP (NSTEP) :  30 ; MODEL TIME (SINCE START) : 21600.
 NSTEP =    30 STEPOAD 0AA00V000
 NSTEP =    29 STEPOAD 0AAA00AAA
 NSTEP =    28 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :  12 TO BE USED WITH TIME STEP (NSTEP) :  27 ; MODEL TIME (SINCE START) : 19440.
 NSTEP =    27 STEPOAD 0AAA0VAAA
 NSTEP =    26 STEPOAD 0AAA00AAA
ISTEP=      25 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5295
ISTEP=      25 ZI0= 1366.0000 ZSEASON= 1.034062584 REA=149597870000.00 RDEASO=147113320465.82
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :  11 TO BE USED WITH TIME STEP (NSTEP) :  25 ; MODEL TIME (SINCE START) : 18000.
 NSTEP =    25 STEPOAD 0AAA0VAAA
 NSTEP =    24 STEPOAD 0AAA00AAA
 NSTEP =    23 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :  10 TO BE USED WITH TIME STEP (NSTEP) :  22 ; MODEL TIME (SINCE START) : 15840.
 NSTEP =    22 STEPOAD 0AAA0VAAA
 NSTEP =    21 STEPOAD 0AAA00AAA
ISTEP=      20 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5304
ISTEP=      20 ZI0= 1366.0000 ZSEASON= 1.034063276 REA=149597870000.00 RDEASO=147113271221.47
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   9 TO BE USED WITH TIME STEP (NSTEP) :  20 ; MODEL TIME (SINCE START) : 14400.
 NSTEP =    20 STEPOAD 0AAA0VAAA
 NSTEP =    19 STEPOAD 0AAA00AAA
 NSTEP =    18 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   8 TO BE USED WITH TIME STEP (NSTEP) :  17 ; MODEL TIME (SINCE START) : 12240.
 NSTEP =    17 STEPOAD 0AAA0VAAA
 NSTEP =    16 STEPOAD 0AAA00AAA
ISTEP=      15 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5314
ISTEP=      15 ZI0= 1366.0000 ZSEASON= 1.034063950 REA=149597870000.00 RDEASO=147113223261.23
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   7 TO BE USED WITH TIME STEP (NSTEP) :  15 ; MODEL TIME (SINCE START) : 10800.
 NSTEP =    15 STEPOAD 0AAA0VAAA
 NSTEP =    14 STEPOAD 0AAA00AAA
 NSTEP =    13 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   6 TO BE USED WITH TIME STEP (NSTEP) :  12 ; MODEL TIME (SINCE START) :  8640.
 NSTEP =    12 STEPOAD 0AAA0VAAA
 NSTEP =    11 STEPOAD 0AAA00AAA
ISTEP=      10 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5323
ISTEP=      10 ZI0= 1366.0000 ZSEASON= 1.034064607 REA=149597870000.00 RDEASO=147113176585.14
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   5 TO BE USED WITH TIME STEP (NSTEP) :  10 ; MODEL TIME (SINCE START) :  7200.
 NSTEP =    10 STEPOAD 0AAA0VAAA
 NSTEP =     9 STEPOAD 0AAA00AAA
 NSTEP =     8 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   4 TO BE USED WITH TIME STEP (NSTEP) :   7 ; MODEL TIME (SINCE START) :  5040.
 NSTEP =     7 STEPOAD 0AAA0VAAA
 NSTEP =     6 STEPOAD 0AAA00AAA
ISTEP=       5 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5331
ISTEP=       5 ZI0= 1366.0000 ZSEASON= 1.034065245 REA=149597870000.00 RDEASO=147113131193.21
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   3 TO BE USED WITH TIME STEP (NSTEP) :   5 ; MODEL TIME (SINCE START) :  3600.
 NSTEP =     5 STEPOAD 0AAA0VAAA
 NSTEP =     4 STEPOAD 0AAA00AAA
 NSTEP =     3 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   2 TO BE USED WITH TIME STEP (NSTEP) :   2 ; MODEL TIME (SINCE START) :  1440.
 NSTEP =     2 STEPOAD 0AAA0VAAA
 NSTEP =     1 STEPOAD 0AAA00AAA
ISTEP=       0 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5340
ISTEP=       0 ZI0= 1366.0000 ZSEASON= 1.034065865 REA=149597870000.00 RDEASO=147113087085.47
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   1 TO BE USED WITH TIME STEP (NSTEP) :   0 ; MODEL TIME (SINCE START) :     0.
 NSTEP =     0 STEPOAD 0AAA0VAAA
 END CNT3AD
 Jc-DFI cost function =    110.563361615950      --   NSIM4D =           15
 EVCOST3  =  15 PZF = 0.1105633616159503E+03
 DIST. FUNC. JB=0.413804E+05 NSIM4D=   15 ++
 Jp cost function =    468.867689790725      --   NSIM4D =           15
 OBS DISTANCE FUNCTION JO=0.1603711429121269E+07 NSIM4D=   15 ==
 GREPMIN: Iteration   15 : Estimated gradient norm= 0.2515245146124439E+04  40A3A67D83CAF66A
 Estimated reduction in norm of gradient is:   0.525472858990412     
 GREPMIN: Iteration   15 : Estimated quadratic cost= 0.1571098690391020E+07  4137F91AB0BD7743
 congrad: ritz values are:    18.6912470660238        107.841904297540     
   281.245174144559        538.526518569241        841.023156138429     
   1239.71632229022        1656.86391627573        2121.87133874520     
   2606.77759668537        3029.57461830805        3355.79860325219     
   3644.43797270772        4019.81306220198        4177.16313327808     
   4728.09895803849     
 congrad: error bounds are:    49.4899591238490        118.446417624020     
   194.375260958960        265.843570975652        323.553890888958     
   363.700099202932        505.810131691710        387.949952220187     
   397.115150384004        408.380174093556        324.014596631749     
   215.359329380224        166.868293581537        36.6707903399089     
  0.195321620073093     
 congrad: converged eigenvalue    4728.09895803849     
 congrad: End of iteration:           15


 -------Simulator : initializations ----------------------------------------
 -------Simulator : cost-function Jb ---------------------------------------
 -------Simulator : convert state from control to physical space -----------
 -------Simulator : change from model to TL  variables -------------------
 -------Simulator : call direct and adjoint  model -----------------------
 START CNT3TL
 START CNT4TL, NSIM4D=          16
ISTEP=       0 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5340
ISTEP=       0 ZI0= 1366.0000 ZSEASON= 1.034065865 REA=149597870000.00 RDEASO=147113087085.47
 NSTEP =     0 STEPOTL IAAA0VAAA
 NSTEP =     1 STEPOTL 0AAA00AAA
 NSTEP =     2 STEPOTL 0AAA0VAAA
 NSTEP =     3 STEPOTL 0AAA00AAA
 NSTEP =     4 STEPOTL 0AAA00AAA
ISTEP=       5 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5331
ISTEP=       5 ZI0= 1366.0000 ZSEASON= 1.034065245 REA=149597870000.00 RDEASO=147113131193.21
 NSTEP =     5 STEPOTL 0AAA0VAAA
 NSTEP =     6 STEPOTL 0AAA00AAA
 NSTEP =     7 STEPOTL 0AAA0VAAA
 NSTEP =     8 STEPOTL 0AAA00AAA
 NSTEP =     9 STEPOTL 0AAA00AAA
ISTEP=      10 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5323
ISTEP=      10 ZI0= 1366.0000 ZSEASON= 1.034064607 REA=149597870000.00 RDEASO=147113176585.14
 NSTEP =    10 STEPOTL 0AAA0VAAA
 NSTEP =    11 STEPOTL 0AAA00AAA
 NSTEP =    12 STEPOTL 0AAA0VAAA
 NSTEP =    13 STEPOTL 0AAA00AAA
 NSTEP =    14 STEPOTL 0AAA00AAA
ISTEP=      15 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5314
ISTEP=      15 ZI0= 1366.0000 ZSEASON= 1.034063950 REA=149597870000.00 RDEASO=147113223261.23
 NSTEP =    15 STEPOTL 0AAA0VAAA
 NSTEP =    16 STEPOTL 0AAA00AAA
 NSTEP =    17 STEPOTL 0AAA0VAAA
 NSTEP =    18 STEPOTL 0AAA00AAA
 NSTEP =    19 STEPOTL 0AAA00AAA
ISTEP=      20 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5304
ISTEP=      20 ZI0= 1366.0000 ZSEASON= 1.034063276 REA=149597870000.00 RDEASO=147113271221.47
 NSTEP =    20 STEPOTL 0AAA0VAAA
 NSTEP =    21 STEPOTL 0AAA00AAA
 NSTEP =    22 STEPOTL 0AAA0VAAA
 NSTEP =    23 STEPOTL 0AAA00AAA
 NSTEP =    24 STEPOTL 0AAA00AAA
ISTEP=      25 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5295
ISTEP=      25 ZI0= 1366.0000 ZSEASON= 1.034062584 REA=149597870000.00 RDEASO=147113320465.82
 NSTEP =    25 STEPOTL 0AAA0VAAA
 NSTEP =    26 STEPOTL 0AAA00AAA
 NSTEP =    27 STEPOTL 0AAA0VAAA
 NSTEP =    28 STEPOTL 0AAA00AAA
 NSTEP =    29 STEPOTL 0AAA00AAA
ISTEP=      30 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5285
ISTEP=      30 ZI0= 1366.0000 ZSEASON= 1.034061874 REA=149597870000.00 RDEASO=147113370994.27
 NSTEP =    30 STEPOTL 0AA00V000
 NSTEP =    30 OBSVTL  0AA00V000
 *** COMTC ARRIVAL        28164        7131         272
 END CNT3TL


    EVJCDFI2- Evaluation of the Jc cost function when the digital filter is used     NSPEC2 =    15670   ALPHAG =  100.000    
 EVJCDFI: DFI check, sum of coefs=  6.635317295611287E-017
         Global value of the Jc-DFI/ALPHAG cost function = 
   2.53982304041870     
 START CNT3AD
 START CNT4AD, NSIM4D=          16
 NSTEP =    30 OBSVAD  000000000
 CNT4AD (ADJOINT INTEGRATION); TIME SLOT NO :  13 TO BE USED WITH TIME STEP (NSTEP) :  30 ; MODEL TIME (SINCE START) : 21600.
 NSTEP =    30 STEPOAD 0AA00V000
 NSTEP =    29 STEPOAD 0AAA00AAA
 NSTEP =    28 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :  12 TO BE USED WITH TIME STEP (NSTEP) :  27 ; MODEL TIME (SINCE START) : 19440.
 NSTEP =    27 STEPOAD 0AAA0VAAA
 NSTEP =    26 STEPOAD 0AAA00AAA
ISTEP=      25 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5295
ISTEP=      25 ZI0= 1366.0000 ZSEASON= 1.034062584 REA=149597870000.00 RDEASO=147113320465.82
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :  11 TO BE USED WITH TIME STEP (NSTEP) :  25 ; MODEL TIME (SINCE START) : 18000.
 NSTEP =    25 STEPOAD 0AAA0VAAA
 NSTEP =    24 STEPOAD 0AAA00AAA
 NSTEP =    23 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :  10 TO BE USED WITH TIME STEP (NSTEP) :  22 ; MODEL TIME (SINCE START) : 15840.
 NSTEP =    22 STEPOAD 0AAA0VAAA
 NSTEP =    21 STEPOAD 0AAA00AAA
ISTEP=      20 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5304
ISTEP=      20 ZI0= 1366.0000 ZSEASON= 1.034063276 REA=149597870000.00 RDEASO=147113271221.47
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   9 TO BE USED WITH TIME STEP (NSTEP) :  20 ; MODEL TIME (SINCE START) : 14400.
 NSTEP =    20 STEPOAD 0AAA0VAAA
 NSTEP =    19 STEPOAD 0AAA00AAA
 NSTEP =    18 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   8 TO BE USED WITH TIME STEP (NSTEP) :  17 ; MODEL TIME (SINCE START) : 12240.
 NSTEP =    17 STEPOAD 0AAA0VAAA
 NSTEP =    16 STEPOAD 0AAA00AAA
ISTEP=      15 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5314
ISTEP=      15 ZI0= 1366.0000 ZSEASON= 1.034063950 REA=149597870000.00 RDEASO=147113223261.23
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   7 TO BE USED WITH TIME STEP (NSTEP) :  15 ; MODEL TIME (SINCE START) : 10800.
 NSTEP =    15 STEPOAD 0AAA0VAAA
 NSTEP =    14 STEPOAD 0AAA00AAA
 NSTEP =    13 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   6 TO BE USED WITH TIME STEP (NSTEP) :  12 ; MODEL TIME (SINCE START) :  8640.
 NSTEP =    12 STEPOAD 0AAA0VAAA
 NSTEP =    11 STEPOAD 0AAA00AAA
ISTEP=      10 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5323
ISTEP=      10 ZI0= 1366.0000 ZSEASON= 1.034064607 REA=149597870000.00 RDEASO=147113176585.14
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   5 TO BE USED WITH TIME STEP (NSTEP) :  10 ; MODEL TIME (SINCE START) :  7200.
 NSTEP =    10 STEPOAD 0AAA0VAAA
 NSTEP =     9 STEPOAD 0AAA00AAA
 NSTEP =     8 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   4 TO BE USED WITH TIME STEP (NSTEP) :   7 ; MODEL TIME (SINCE START) :  5040.
 NSTEP =     7 STEPOAD 0AAA0VAAA
 NSTEP =     6 STEPOAD 0AAA00AAA
ISTEP=       5 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5331
ISTEP=       5 ZI0= 1366.0000 ZSEASON= 1.034065245 REA=149597870000.00 RDEASO=147113131193.21
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   3 TO BE USED WITH TIME STEP (NSTEP) :   5 ; MODEL TIME (SINCE START) :  3600.
 NSTEP =     5 STEPOAD 0AAA0VAAA
 NSTEP =     4 STEPOAD 0AAA00AAA
 NSTEP =     3 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   2 TO BE USED WITH TIME STEP (NSTEP) :   2 ; MODEL TIME (SINCE START) :  1440.
 NSTEP =     2 STEPOAD 0AAA0VAAA
 NSTEP =     1 STEPOAD 0AAA00AAA
ISTEP=       0 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5340
ISTEP=       0 ZI0= 1366.0000 ZSEASON= 1.034065865 REA=149597870000.00 RDEASO=147113087085.47
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   1 TO BE USED WITH TIME STEP (NSTEP) :   0 ; MODEL TIME (SINCE START) :     0.
 NSTEP =     0 STEPOAD 0AAA0VAAA
 END CNT3AD
 Jc-DFI cost function =    126.991152020935      --   NSIM4D =           16
 EVCOST3  =  16 PZF = 0.1269911520209352E+03
 DIST. FUNC. JB=0.413883E+05 NSIM4D=   16 ++
 Jp cost function =    468.866120756413      --   NSIM4D =           16
 OBS DISTANCE FUNCTION JO=0.1603765801069307E+07 NSIM4D=   16 ==
 GREPMIN: Iteration   16 : Estimated gradient norm= 0.2311382233955226E+04  40A20EC3B42B423B
 Estimated reduction in norm of gradient is:   0.482882804710920     
 GREPMIN: Iteration   16 : Estimated quadratic cost= 0.1568199707581141E+07  4137EDC7B52409A6
 congrad: ritz values are:    16.5074105072644        95.1808422574880     
   246.010116316646        469.139437060147        740.527860500621     
   1087.66258105135        1439.14576463451        1959.60913178826     
   2365.36457535786        2785.25198171993        3191.21523719244     
   3496.75994076092        3721.41092593662        4047.17207741583     
   4178.43333222454        4728.09897750660     
 congrad: error bounds are:    42.3511864274306        101.059312342646     
   165.936556148024        226.047179249503        254.483836171940     
   307.352452410013        294.695759161890        297.327278774857     
   352.713926462660        307.790414298572        274.715858220169     
   309.533642473936        296.294578304352        153.983495407770     
   33.3159153701892       9.602454016367359E-002
 congrad: converged eigenvalue    4728.09897750660     
 congrad: End of iteration:           16


 -------Simulator : initializations ----------------------------------------
 -------Simulator : cost-function Jb ---------------------------------------
 -------Simulator : convert state from control to physical space -----------
 -------Simulator : change from model to TL  variables -------------------
 -------Simulator : call direct and adjoint  model -----------------------
 START CNT3TL
 START CNT4TL, NSIM4D=          17
ISTEP=       0 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5340
ISTEP=       0 ZI0= 1366.0000 ZSEASON= 1.034065865 REA=149597870000.00 RDEASO=147113087085.47
 NSTEP =     0 STEPOTL IAAA0VAAA
 NSTEP =     1 STEPOTL 0AAA00AAA
 NSTEP =     2 STEPOTL 0AAA0VAAA
 NSTEP =     3 STEPOTL 0AAA00AAA
 NSTEP =     4 STEPOTL 0AAA00AAA
ISTEP=       5 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5331
ISTEP=       5 ZI0= 1366.0000 ZSEASON= 1.034065245 REA=149597870000.00 RDEASO=147113131193.21
 NSTEP =     5 STEPOTL 0AAA0VAAA
 NSTEP =     6 STEPOTL 0AAA00AAA
 NSTEP =     7 STEPOTL 0AAA0VAAA
 NSTEP =     8 STEPOTL 0AAA00AAA
 NSTEP =     9 STEPOTL 0AAA00AAA
ISTEP=      10 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5323
ISTEP=      10 ZI0= 1366.0000 ZSEASON= 1.034064607 REA=149597870000.00 RDEASO=147113176585.14
 NSTEP =    10 STEPOTL 0AAA0VAAA
 NSTEP =    11 STEPOTL 0AAA00AAA
 NSTEP =    12 STEPOTL 0AAA0VAAA
 NSTEP =    13 STEPOTL 0AAA00AAA
 NSTEP =    14 STEPOTL 0AAA00AAA
ISTEP=      15 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5314
ISTEP=      15 ZI0= 1366.0000 ZSEASON= 1.034063950 REA=149597870000.00 RDEASO=147113223261.23
 NSTEP =    15 STEPOTL 0AAA0VAAA
 NSTEP =    16 STEPOTL 0AAA00AAA
 NSTEP =    17 STEPOTL 0AAA0VAAA
 NSTEP =    18 STEPOTL 0AAA00AAA
 NSTEP =    19 STEPOTL 0AAA00AAA
ISTEP=      20 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5304
ISTEP=      20 ZI0= 1366.0000 ZSEASON= 1.034063276 REA=149597870000.00 RDEASO=147113271221.47
 NSTEP =    20 STEPOTL 0AAA0VAAA
 NSTEP =    21 STEPOTL 0AAA00AAA
 NSTEP =    22 STEPOTL 0AAA0VAAA
 NSTEP =    23 STEPOTL 0AAA00AAA
 NSTEP =    24 STEPOTL 0AAA00AAA
ISTEP=      25 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5295
ISTEP=      25 ZI0= 1366.0000 ZSEASON= 1.034062584 REA=149597870000.00 RDEASO=147113320465.82
 NSTEP =    25 STEPOTL 0AAA0VAAA
 NSTEP =    26 STEPOTL 0AAA00AAA
 NSTEP =    27 STEPOTL 0AAA0VAAA
 NSTEP =    28 STEPOTL 0AAA00AAA
 NSTEP =    29 STEPOTL 0AAA00AAA
ISTEP=      30 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5285
ISTEP=      30 ZI0= 1366.0000 ZSEASON= 1.034061874 REA=149597870000.00 RDEASO=147113370994.27
 NSTEP =    30 STEPOTL 0AA00V000
 NSTEP =    30 OBSVTL  0AA00V000
 *** COMTC ARRIVAL        28164        7131         272
 END CNT3TL


    EVJCDFI2- Evaluation of the Jc cost function when the digital filter is used     NSPEC2 =    15670   ALPHAG =  100.000    
 EVJCDFI: DFI check, sum of coefs=  6.635317295611287E-017
         Global value of the Jc-DFI/ALPHAG cost function = 
   2.04543541287163     
 START CNT3AD
 START CNT4AD, NSIM4D=          17
 NSTEP =    30 OBSVAD  000000000
 CNT4AD (ADJOINT INTEGRATION); TIME SLOT NO :  13 TO BE USED WITH TIME STEP (NSTEP) :  30 ; MODEL TIME (SINCE START) : 21600.
 NSTEP =    30 STEPOAD 0AA00V000
 NSTEP =    29 STEPOAD 0AAA00AAA
 NSTEP =    28 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :  12 TO BE USED WITH TIME STEP (NSTEP) :  27 ; MODEL TIME (SINCE START) : 19440.
 NSTEP =    27 STEPOAD 0AAA0VAAA
 NSTEP =    26 STEPOAD 0AAA00AAA
ISTEP=      25 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5295
ISTEP=      25 ZI0= 1366.0000 ZSEASON= 1.034062584 REA=149597870000.00 RDEASO=147113320465.82
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :  11 TO BE USED WITH TIME STEP (NSTEP) :  25 ; MODEL TIME (SINCE START) : 18000.
 NSTEP =    25 STEPOAD 0AAA0VAAA
 NSTEP =    24 STEPOAD 0AAA00AAA
 NSTEP =    23 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :  10 TO BE USED WITH TIME STEP (NSTEP) :  22 ; MODEL TIME (SINCE START) : 15840.
 NSTEP =    22 STEPOAD 0AAA0VAAA
 NSTEP =    21 STEPOAD 0AAA00AAA
ISTEP=      20 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5304
ISTEP=      20 ZI0= 1366.0000 ZSEASON= 1.034063276 REA=149597870000.00 RDEASO=147113271221.47
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   9 TO BE USED WITH TIME STEP (NSTEP) :  20 ; MODEL TIME (SINCE START) : 14400.
 NSTEP =    20 STEPOAD 0AAA0VAAA
 NSTEP =    19 STEPOAD 0AAA00AAA
 NSTEP =    18 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   8 TO BE USED WITH TIME STEP (NSTEP) :  17 ; MODEL TIME (SINCE START) : 12240.
 NSTEP =    17 STEPOAD 0AAA0VAAA
 NSTEP =    16 STEPOAD 0AAA00AAA
ISTEP=      15 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5314
ISTEP=      15 ZI0= 1366.0000 ZSEASON= 1.034063950 REA=149597870000.00 RDEASO=147113223261.23
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   7 TO BE USED WITH TIME STEP (NSTEP) :  15 ; MODEL TIME (SINCE START) : 10800.
 NSTEP =    15 STEPOAD 0AAA0VAAA
 NSTEP =    14 STEPOAD 0AAA00AAA
 NSTEP =    13 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   6 TO BE USED WITH TIME STEP (NSTEP) :  12 ; MODEL TIME (SINCE START) :  8640.
 NSTEP =    12 STEPOAD 0AAA0VAAA
 NSTEP =    11 STEPOAD 0AAA00AAA
ISTEP=      10 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5323
ISTEP=      10 ZI0= 1366.0000 ZSEASON= 1.034064607 REA=149597870000.00 RDEASO=147113176585.14
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   5 TO BE USED WITH TIME STEP (NSTEP) :  10 ; MODEL TIME (SINCE START) :  7200.
 NSTEP =    10 STEPOAD 0AAA0VAAA
 NSTEP =     9 STEPOAD 0AAA00AAA
 NSTEP =     8 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   4 TO BE USED WITH TIME STEP (NSTEP) :   7 ; MODEL TIME (SINCE START) :  5040.
 NSTEP =     7 STEPOAD 0AAA0VAAA
 NSTEP =     6 STEPOAD 0AAA00AAA
ISTEP=       5 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5331
ISTEP=       5 ZI0= 1366.0000 ZSEASON= 1.034065245 REA=149597870000.00 RDEASO=147113131193.21
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   3 TO BE USED WITH TIME STEP (NSTEP) :   5 ; MODEL TIME (SINCE START) :  3600.
 NSTEP =     5 STEPOAD 0AAA0VAAA
 NSTEP =     4 STEPOAD 0AAA00AAA
 NSTEP =     3 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   2 TO BE USED WITH TIME STEP (NSTEP) :   2 ; MODEL TIME (SINCE START) :  1440.
 NSTEP =     2 STEPOAD 0AAA0VAAA
 NSTEP =     1 STEPOAD 0AAA00AAA
ISTEP=       0 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5340
ISTEP=       0 ZI0= 1366.0000 ZSEASON= 1.034065865 REA=149597870000.00 RDEASO=147113087085.47
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   1 TO BE USED WITH TIME STEP (NSTEP) :   0 ; MODEL TIME (SINCE START) :     0.
 NSTEP =     0 STEPOAD 0AAA0VAAA
 END CNT3AD
 Jc-DFI cost function =    102.271770643581      --   NSIM4D =           17
 EVCOST3  =  17 PZF = 0.1022717706435815E+03
 DIST. FUNC. JB=0.413797E+05 NSIM4D=   17 ++
 Jp cost function =    468.858130857486      --   NSIM4D =           17
 OBS DISTANCE FUNCTION JO=0.1603634054538979E+07 NSIM4D=   17 ==
 GREPMIN: Iteration   17 : Estimated gradient norm= 0.2201289092792108E+04  40A1329403F86F3A
 Estimated reduction in norm of gradient is:   0.459882677772456     
 GREPMIN: Iteration   17 : Estimated quadratic cost= 0.1565600693556463E+07  4137E3A0B18CEA98
 congrad: ritz values are:    14.7903188683437        85.2605665677293     
   218.566994981414        416.597988672551        669.738711634800     
   970.523710104809        1318.20154912416        1704.47644330776     
   2089.39829561015        2506.30619782971        2878.77240338837     
   3244.92806019259        3555.11041197520        3793.23221476204     
   4064.17515676209        4179.20412483336        4728.09898137341     
 congrad: error bounds are:    37.9206343351816        90.7125943220725     
   149.061768534362        201.885220480382        232.913346272525     
   296.614798127299        305.266306512682        446.381354414909     
   320.027380041646        308.146777381755        253.694064587261     
   171.777360200879        162.518944007336        210.207434527367     
   102.113199217121        21.6854664518241       3.777685062091390E-002
 congrad: converged eigenvalue    4728.09898137341     
 congrad: End of iteration:           17


 -------Simulator : initializations ----------------------------------------
 -------Simulator : cost-function Jb ---------------------------------------
 -------Simulator : convert state from control to physical space -----------
 -------Simulator : change from model to TL  variables -------------------
 -------Simulator : call direct and adjoint  model -----------------------
 START CNT3TL
 START CNT4TL, NSIM4D=          18
ISTEP=       0 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5340
ISTEP=       0 ZI0= 1366.0000 ZSEASON= 1.034065865 REA=149597870000.00 RDEASO=147113087085.47
 NSTEP =     0 STEPOTL IAAA0VAAA
 NSTEP =     1 STEPOTL 0AAA00AAA
 NSTEP =     2 STEPOTL 0AAA0VAAA
 NSTEP =     3 STEPOTL 0AAA00AAA
 NSTEP =     4 STEPOTL 0AAA00AAA
ISTEP=       5 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5331
ISTEP=       5 ZI0= 1366.0000 ZSEASON= 1.034065245 REA=149597870000.00 RDEASO=147113131193.21
 NSTEP =     5 STEPOTL 0AAA0VAAA
 NSTEP =     6 STEPOTL 0AAA00AAA
 NSTEP =     7 STEPOTL 0AAA0VAAA
 NSTEP =     8 STEPOTL 0AAA00AAA
 NSTEP =     9 STEPOTL 0AAA00AAA
ISTEP=      10 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5323
ISTEP=      10 ZI0= 1366.0000 ZSEASON= 1.034064607 REA=149597870000.00 RDEASO=147113176585.14
 NSTEP =    10 STEPOTL 0AAA0VAAA
 NSTEP =    11 STEPOTL 0AAA00AAA
 NSTEP =    12 STEPOTL 0AAA0VAAA
 NSTEP =    13 STEPOTL 0AAA00AAA
 NSTEP =    14 STEPOTL 0AAA00AAA
ISTEP=      15 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5314
ISTEP=      15 ZI0= 1366.0000 ZSEASON= 1.034063950 REA=149597870000.00 RDEASO=147113223261.23
 NSTEP =    15 STEPOTL 0AAA0VAAA
 NSTEP =    16 STEPOTL 0AAA00AAA
 NSTEP =    17 STEPOTL 0AAA0VAAA
 NSTEP =    18 STEPOTL 0AAA00AAA
 NSTEP =    19 STEPOTL 0AAA00AAA
ISTEP=      20 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5304
ISTEP=      20 ZI0= 1366.0000 ZSEASON= 1.034063276 REA=149597870000.00 RDEASO=147113271221.47
 NSTEP =    20 STEPOTL 0AAA0VAAA
 NSTEP =    21 STEPOTL 0AAA00AAA
 NSTEP =    22 STEPOTL 0AAA0VAAA
 NSTEP =    23 STEPOTL 0AAA00AAA
 NSTEP =    24 STEPOTL 0AAA00AAA
ISTEP=      25 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5295
ISTEP=      25 ZI0= 1366.0000 ZSEASON= 1.034062584 REA=149597870000.00 RDEASO=147113320465.82
 NSTEP =    25 STEPOTL 0AAA0VAAA
 NSTEP =    26 STEPOTL 0AAA00AAA
 NSTEP =    27 STEPOTL 0AAA0VAAA
 NSTEP =    28 STEPOTL 0AAA00AAA
 NSTEP =    29 STEPOTL 0AAA00AAA
ISTEP=      30 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5285
ISTEP=      30 ZI0= 1366.0000 ZSEASON= 1.034061874 REA=149597870000.00 RDEASO=147113370994.27
 NSTEP =    30 STEPOTL 0AA00V000
 NSTEP =    30 OBSVTL  0AA00V000
 *** COMTC ARRIVAL        28164        7131         272
 END CNT3TL


    EVJCDFI2- Evaluation of the Jc cost function when the digital filter is used     NSPEC2 =    15670   ALPHAG =  100.000    
 EVJCDFI: DFI check, sum of coefs=  6.635317295611287E-017
         Global value of the Jc-DFI/ALPHAG cost function = 
   2.20660519175163     
 START CNT3AD
 START CNT4AD, NSIM4D=          18
 NSTEP =    30 OBSVAD  000000000
 CNT4AD (ADJOINT INTEGRATION); TIME SLOT NO :  13 TO BE USED WITH TIME STEP (NSTEP) :  30 ; MODEL TIME (SINCE START) : 21600.
 NSTEP =    30 STEPOAD 0AA00V000
 NSTEP =    29 STEPOAD 0AAA00AAA
 NSTEP =    28 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :  12 TO BE USED WITH TIME STEP (NSTEP) :  27 ; MODEL TIME (SINCE START) : 19440.
 NSTEP =    27 STEPOAD 0AAA0VAAA
 NSTEP =    26 STEPOAD 0AAA00AAA
ISTEP=      25 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5295
ISTEP=      25 ZI0= 1366.0000 ZSEASON= 1.034062584 REA=149597870000.00 RDEASO=147113320465.82
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :  11 TO BE USED WITH TIME STEP (NSTEP) :  25 ; MODEL TIME (SINCE START) : 18000.
 NSTEP =    25 STEPOAD 0AAA0VAAA
 NSTEP =    24 STEPOAD 0AAA00AAA
 NSTEP =    23 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :  10 TO BE USED WITH TIME STEP (NSTEP) :  22 ; MODEL TIME (SINCE START) : 15840.
 NSTEP =    22 STEPOAD 0AAA0VAAA
 NSTEP =    21 STEPOAD 0AAA00AAA
ISTEP=      20 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5304
ISTEP=      20 ZI0= 1366.0000 ZSEASON= 1.034063276 REA=149597870000.00 RDEASO=147113271221.47
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   9 TO BE USED WITH TIME STEP (NSTEP) :  20 ; MODEL TIME (SINCE START) : 14400.
 NSTEP =    20 STEPOAD 0AAA0VAAA
 NSTEP =    19 STEPOAD 0AAA00AAA
 NSTEP =    18 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   8 TO BE USED WITH TIME STEP (NSTEP) :  17 ; MODEL TIME (SINCE START) : 12240.
 NSTEP =    17 STEPOAD 0AAA0VAAA
 NSTEP =    16 STEPOAD 0AAA00AAA
ISTEP=      15 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5314
ISTEP=      15 ZI0= 1366.0000 ZSEASON= 1.034063950 REA=149597870000.00 RDEASO=147113223261.23
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   7 TO BE USED WITH TIME STEP (NSTEP) :  15 ; MODEL TIME (SINCE START) : 10800.
 NSTEP =    15 STEPOAD 0AAA0VAAA
 NSTEP =    14 STEPOAD 0AAA00AAA
 NSTEP =    13 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   6 TO BE USED WITH TIME STEP (NSTEP) :  12 ; MODEL TIME (SINCE START) :  8640.
 NSTEP =    12 STEPOAD 0AAA0VAAA
 NSTEP =    11 STEPOAD 0AAA00AAA
ISTEP=      10 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5323
ISTEP=      10 ZI0= 1366.0000 ZSEASON= 1.034064607 REA=149597870000.00 RDEASO=147113176585.14
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   5 TO BE USED WITH TIME STEP (NSTEP) :  10 ; MODEL TIME (SINCE START) :  7200.
 NSTEP =    10 STEPOAD 0AAA0VAAA
 NSTEP =     9 STEPOAD 0AAA00AAA
 NSTEP =     8 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   4 TO BE USED WITH TIME STEP (NSTEP) :   7 ; MODEL TIME (SINCE START) :  5040.
 NSTEP =     7 STEPOAD 0AAA0VAAA
 NSTEP =     6 STEPOAD 0AAA00AAA
ISTEP=       5 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5331
ISTEP=       5 ZI0= 1366.0000 ZSEASON= 1.034065245 REA=149597870000.00 RDEASO=147113131193.21
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   3 TO BE USED WITH TIME STEP (NSTEP) :   5 ; MODEL TIME (SINCE START) :  3600.
 NSTEP =     5 STEPOAD 0AAA0VAAA
 NSTEP =     4 STEPOAD 0AAA00AAA
 NSTEP =     3 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   2 TO BE USED WITH TIME STEP (NSTEP) :   2 ; MODEL TIME (SINCE START) :  1440.
 NSTEP =     2 STEPOAD 0AAA0VAAA
 NSTEP =     1 STEPOAD 0AAA00AAA
ISTEP=       0 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5340
ISTEP=       0 ZI0= 1366.0000 ZSEASON= 1.034065865 REA=149597870000.00 RDEASO=147113087085.47
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   1 TO BE USED WITH TIME STEP (NSTEP) :   0 ; MODEL TIME (SINCE START) :     0.
 NSTEP =     0 STEPOAD 0AAA0VAAA
 END CNT3AD
 Jc-DFI cost function =    110.330259587581      --   NSIM4D =           18
 EVCOST3  =  18 PZF = 0.1103302595875813E+03
 DIST. FUNC. JB=0.413892E+05 NSIM4D=   18 ++
 Jp cost function =    468.880351927464      --   NSIM4D =           18
 OBS DISTANCE FUNCTION JO=0.1603630232453197E+07 NSIM4D=   18 ==
 GREPMIN: Iteration   18 : Estimated gradient norm= 0.2305131608825842E+04  40A20243623B65B6
 Estimated reduction in norm of gradient is:   0.481576954320045     
 GREPMIN: Iteration   18 : Estimated quadratic cost= 0.1563291937904009E+07  4137DA9BF01A7A27
 congrad: ritz values are:    13.4277247942161        77.2991062518969     
   196.403930317487        373.933097807536        605.580080638469     
   861.150749446388        1180.71726195231        1485.19366790761     
   1953.83012752612        2298.44935428545        2660.30043044482     
   2974.83691869037        3276.20955515197        3574.82789234180     
   3824.27246490381        4070.76032957354        4179.48514366822     
   4728.09898195314     
 congrad: error bounds are:    37.5308783092010        90.7479706091439     
   150.496930759202        207.007572720044        256.904081174007     
   316.102224177552        345.622999864628        341.789665075066     
   321.755908278801        408.914712426528        391.462935719782     
   343.418234480304        183.785605890921        124.659877469363     
   151.533837830345        67.2512095755104        13.5654801918579     
  1.606772560479249E-002
 congrad: converged eigenvalue    4728.09898195314     
 congrad: End of iteration:           18


 -------Simulator : initializations ----------------------------------------
 -------Simulator : cost-function Jb ---------------------------------------
 -------Simulator : convert state from control to physical space -----------
 -------Simulator : change from model to TL  variables -------------------
 -------Simulator : call direct and adjoint  model -----------------------
 START CNT3TL
 START CNT4TL, NSIM4D=          19
ISTEP=       0 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5340
ISTEP=       0 ZI0= 1366.0000 ZSEASON= 1.034065865 REA=149597870000.00 RDEASO=147113087085.47
 NSTEP =     0 STEPOTL IAAA0VAAA
 NSTEP =     1 STEPOTL 0AAA00AAA
 NSTEP =     2 STEPOTL 0AAA0VAAA
 NSTEP =     3 STEPOTL 0AAA00AAA
 NSTEP =     4 STEPOTL 0AAA00AAA
ISTEP=       5 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5331
ISTEP=       5 ZI0= 1366.0000 ZSEASON= 1.034065245 REA=149597870000.00 RDEASO=147113131193.21
 NSTEP =     5 STEPOTL 0AAA0VAAA
 NSTEP =     6 STEPOTL 0AAA00AAA
 NSTEP =     7 STEPOTL 0AAA0VAAA
 NSTEP =     8 STEPOTL 0AAA00AAA
 NSTEP =     9 STEPOTL 0AAA00AAA
ISTEP=      10 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5323
ISTEP=      10 ZI0= 1366.0000 ZSEASON= 1.034064607 REA=149597870000.00 RDEASO=147113176585.14
 NSTEP =    10 STEPOTL 0AAA0VAAA
 NSTEP =    11 STEPOTL 0AAA00AAA
 NSTEP =    12 STEPOTL 0AAA0VAAA
 NSTEP =    13 STEPOTL 0AAA00AAA
 NSTEP =    14 STEPOTL 0AAA00AAA
ISTEP=      15 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5314
ISTEP=      15 ZI0= 1366.0000 ZSEASON= 1.034063950 REA=149597870000.00 RDEASO=147113223261.23
 NSTEP =    15 STEPOTL 0AAA0VAAA
 NSTEP =    16 STEPOTL 0AAA00AAA
 NSTEP =    17 STEPOTL 0AAA0VAAA
 NSTEP =    18 STEPOTL 0AAA00AAA
 NSTEP =    19 STEPOTL 0AAA00AAA
ISTEP=      20 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5304
ISTEP=      20 ZI0= 1366.0000 ZSEASON= 1.034063276 REA=149597870000.00 RDEASO=147113271221.47
 NSTEP =    20 STEPOTL 0AAA0VAAA
 NSTEP =    21 STEPOTL 0AAA00AAA
 NSTEP =    22 STEPOTL 0AAA0VAAA
 NSTEP =    23 STEPOTL 0AAA00AAA
 NSTEP =    24 STEPOTL 0AAA00AAA
ISTEP=      25 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5295
ISTEP=      25 ZI0= 1366.0000 ZSEASON= 1.034062584 REA=149597870000.00 RDEASO=147113320465.82
 NSTEP =    25 STEPOTL 0AAA0VAAA
 NSTEP =    26 STEPOTL 0AAA00AAA
 NSTEP =    27 STEPOTL 0AAA0VAAA
 NSTEP =    28 STEPOTL 0AAA00AAA
 NSTEP =    29 STEPOTL 0AAA00AAA
ISTEP=      30 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5285
ISTEP=      30 ZI0= 1366.0000 ZSEASON= 1.034061874 REA=149597870000.00 RDEASO=147113370994.27
 NSTEP =    30 STEPOTL 0AA00V000
 NSTEP =    30 OBSVTL  0AA00V000
 *** COMTC ARRIVAL        28164        7131         272
 END CNT3TL


    EVJCDFI2- Evaluation of the Jc cost function when the digital filter is used     NSPEC2 =    15670   ALPHAG =  100.000    
 EVJCDFI: DFI check, sum of coefs=  6.635317295611287E-017
         Global value of the Jc-DFI/ALPHAG cost function = 
   2.18479069524188     
 START CNT3AD
 START CNT4AD, NSIM4D=          19
 NSTEP =    30 OBSVAD  000000000
 CNT4AD (ADJOINT INTEGRATION); TIME SLOT NO :  13 TO BE USED WITH TIME STEP (NSTEP) :  30 ; MODEL TIME (SINCE START) : 21600.
 NSTEP =    30 STEPOAD 0AA00V000
 NSTEP =    29 STEPOAD 0AAA00AAA
 NSTEP =    28 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :  12 TO BE USED WITH TIME STEP (NSTEP) :  27 ; MODEL TIME (SINCE START) : 19440.
 NSTEP =    27 STEPOAD 0AAA0VAAA
 NSTEP =    26 STEPOAD 0AAA00AAA
ISTEP=      25 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5295
ISTEP=      25 ZI0= 1366.0000 ZSEASON= 1.034062584 REA=149597870000.00 RDEASO=147113320465.82
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :  11 TO BE USED WITH TIME STEP (NSTEP) :  25 ; MODEL TIME (SINCE START) : 18000.
 NSTEP =    25 STEPOAD 0AAA0VAAA
 NSTEP =    24 STEPOAD 0AAA00AAA
 NSTEP =    23 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :  10 TO BE USED WITH TIME STEP (NSTEP) :  22 ; MODEL TIME (SINCE START) : 15840.
 NSTEP =    22 STEPOAD 0AAA0VAAA
 NSTEP =    21 STEPOAD 0AAA00AAA
ISTEP=      20 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5304
ISTEP=      20 ZI0= 1366.0000 ZSEASON= 1.034063276 REA=149597870000.00 RDEASO=147113271221.47
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   9 TO BE USED WITH TIME STEP (NSTEP) :  20 ; MODEL TIME (SINCE START) : 14400.
 NSTEP =    20 STEPOAD 0AAA0VAAA
 NSTEP =    19 STEPOAD 0AAA00AAA
 NSTEP =    18 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   8 TO BE USED WITH TIME STEP (NSTEP) :  17 ; MODEL TIME (SINCE START) : 12240.
 NSTEP =    17 STEPOAD 0AAA0VAAA
 NSTEP =    16 STEPOAD 0AAA00AAA
ISTEP=      15 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5314
ISTEP=      15 ZI0= 1366.0000 ZSEASON= 1.034063950 REA=149597870000.00 RDEASO=147113223261.23
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   7 TO BE USED WITH TIME STEP (NSTEP) :  15 ; MODEL TIME (SINCE START) : 10800.
 NSTEP =    15 STEPOAD 0AAA0VAAA
 NSTEP =    14 STEPOAD 0AAA00AAA
 NSTEP =    13 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   6 TO BE USED WITH TIME STEP (NSTEP) :  12 ; MODEL TIME (SINCE START) :  8640.
 NSTEP =    12 STEPOAD 0AAA0VAAA
 NSTEP =    11 STEPOAD 0AAA00AAA
ISTEP=      10 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5323
ISTEP=      10 ZI0= 1366.0000 ZSEASON= 1.034064607 REA=149597870000.00 RDEASO=147113176585.14
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   5 TO BE USED WITH TIME STEP (NSTEP) :  10 ; MODEL TIME (SINCE START) :  7200.
 NSTEP =    10 STEPOAD 0AAA0VAAA
 NSTEP =     9 STEPOAD 0AAA00AAA
 NSTEP =     8 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   4 TO BE USED WITH TIME STEP (NSTEP) :   7 ; MODEL TIME (SINCE START) :  5040.
 NSTEP =     7 STEPOAD 0AAA0VAAA
 NSTEP =     6 STEPOAD 0AAA00AAA
ISTEP=       5 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5331
ISTEP=       5 ZI0= 1366.0000 ZSEASON= 1.034065245 REA=149597870000.00 RDEASO=147113131193.21
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   3 TO BE USED WITH TIME STEP (NSTEP) :   5 ; MODEL TIME (SINCE START) :  3600.
 NSTEP =     5 STEPOAD 0AAA0VAAA
 NSTEP =     4 STEPOAD 0AAA00AAA
 NSTEP =     3 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   2 TO BE USED WITH TIME STEP (NSTEP) :   2 ; MODEL TIME (SINCE START) :  1440.
 NSTEP =     2 STEPOAD 0AAA0VAAA
 NSTEP =     1 STEPOAD 0AAA00AAA
ISTEP=       0 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5340
ISTEP=       0 ZI0= 1366.0000 ZSEASON= 1.034065865 REA=149597870000.00 RDEASO=147113087085.47
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   1 TO BE USED WITH TIME STEP (NSTEP) :   0 ; MODEL TIME (SINCE START) :     0.
 NSTEP =     0 STEPOAD 0AAA0VAAA
 END CNT3AD
 Jc-DFI cost function =    109.239534762094      --   NSIM4D =           19
 EVCOST3  =  19 PZF = 0.1092395347620941E+03
 DIST. FUNC. JB=0.413792E+05 NSIM4D=   19 ++
 Jp cost function =    468.842835555662      --   NSIM4D =           19
 OBS DISTANCE FUNCTION JO=0.1603782088595613E+07 NSIM4D=   19 ==
 GREPMIN: Iteration   19 : Estimated gradient norm= 0.2171471705458735E+04  40A0F6F18360BD3A
 Estimated reduction in norm of gradient is:   0.453653373327188     
 GREPMIN: Iteration   19 : Estimated quadratic cost= 0.1560976407838935E+07  4137D190686821EA
 congrad: ritz values are:    12.1945456602944        69.9597644214110     
   175.947723679376        334.449099156590        542.025911609627     
   773.550599920126        1071.58990854068        1382.65111817411     
   1776.42886452149        2097.14064863714        2479.35223838049     
   2831.23411475806        3172.23749937150        3367.63646981559     
   3597.23848028174        3847.75494879190        4074.47570471520     
   4179.62182577319        4728.09898207585     
 congrad: error bounds are:    33.5226830218509        81.6593064695361     
   134.298293108541        182.329872838507        224.983758203774     
   241.788824561201        266.278779187650        253.672724472515     
   383.194531332912        302.692994911439        295.388740901731     
   282.875190775260        355.221484405965        389.862642267778     
   176.892556091290        155.117880936386        56.3465585041526     
   10.3036134696276       7.810391247232086E-003
 congrad: converged eigenvalue    4728.09898207585     
 congrad: End of iteration:           19


 -------Simulator : initializations ----------------------------------------
 -------Simulator : cost-function Jb ---------------------------------------
 -------Simulator : convert state from control to physical space -----------
 -------Simulator : change from model to TL  variables -------------------
 -------Simulator : call direct and adjoint  model -----------------------
 START CNT3TL
 START CNT4TL, NSIM4D=          20
ISTEP=       0 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5340
ISTEP=       0 ZI0= 1366.0000 ZSEASON= 1.034065865 REA=149597870000.00 RDEASO=147113087085.47
 NSTEP =     0 STEPOTL IAAA0VAAA
 NSTEP =     1 STEPOTL 0AAA00AAA
 NSTEP =     2 STEPOTL 0AAA0VAAA
 NSTEP =     3 STEPOTL 0AAA00AAA
 NSTEP =     4 STEPOTL 0AAA00AAA
ISTEP=       5 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5331
ISTEP=       5 ZI0= 1366.0000 ZSEASON= 1.034065245 REA=149597870000.00 RDEASO=147113131193.21
 NSTEP =     5 STEPOTL 0AAA0VAAA
 NSTEP =     6 STEPOTL 0AAA00AAA
 NSTEP =     7 STEPOTL 0AAA0VAAA
 NSTEP =     8 STEPOTL 0AAA00AAA
 NSTEP =     9 STEPOTL 0AAA00AAA
ISTEP=      10 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5323
ISTEP=      10 ZI0= 1366.0000 ZSEASON= 1.034064607 REA=149597870000.00 RDEASO=147113176585.14
 NSTEP =    10 STEPOTL 0AAA0VAAA
 NSTEP =    11 STEPOTL 0AAA00AAA
 NSTEP =    12 STEPOTL 0AAA0VAAA
 NSTEP =    13 STEPOTL 0AAA00AAA
 NSTEP =    14 STEPOTL 0AAA00AAA
ISTEP=      15 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5314
ISTEP=      15 ZI0= 1366.0000 ZSEASON= 1.034063950 REA=149597870000.00 RDEASO=147113223261.23
 NSTEP =    15 STEPOTL 0AAA0VAAA
 NSTEP =    16 STEPOTL 0AAA00AAA
 NSTEP =    17 STEPOTL 0AAA0VAAA
 NSTEP =    18 STEPOTL 0AAA00AAA
 NSTEP =    19 STEPOTL 0AAA00AAA
ISTEP=      20 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5304
ISTEP=      20 ZI0= 1366.0000 ZSEASON= 1.034063276 REA=149597870000.00 RDEASO=147113271221.47
 NSTEP =    20 STEPOTL 0AAA0VAAA
 NSTEP =    21 STEPOTL 0AAA00AAA
 NSTEP =    22 STEPOTL 0AAA0VAAA
 NSTEP =    23 STEPOTL 0AAA00AAA
 NSTEP =    24 STEPOTL 0AAA00AAA
ISTEP=      25 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5295
ISTEP=      25 ZI0= 1366.0000 ZSEASON= 1.034062584 REA=149597870000.00 RDEASO=147113320465.82
 NSTEP =    25 STEPOTL 0AAA0VAAA
 NSTEP =    26 STEPOTL 0AAA00AAA
 NSTEP =    27 STEPOTL 0AAA0VAAA
 NSTEP =    28 STEPOTL 0AAA00AAA
 NSTEP =    29 STEPOTL 0AAA00AAA
ISTEP=      30 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5285
ISTEP=      30 ZI0= 1366.0000 ZSEASON= 1.034061874 REA=149597870000.00 RDEASO=147113370994.27
 NSTEP =    30 STEPOTL 0AA00V000
 NSTEP =    30 OBSVTL  0AA00V000
 *** COMTC ARRIVAL        28164        7131         272
 END CNT3TL


    EVJCDFI2- Evaluation of the Jc cost function when the digital filter is used     NSPEC2 =    15670   ALPHAG =  100.000    
 EVJCDFI: DFI check, sum of coefs=  6.635317295611287E-017
         Global value of the Jc-DFI/ALPHAG cost function = 
   2.06994567933891     
 START CNT3AD
 START CNT4AD, NSIM4D=          20
 NSTEP =    30 OBSVAD  000000000
 CNT4AD (ADJOINT INTEGRATION); TIME SLOT NO :  13 TO BE USED WITH TIME STEP (NSTEP) :  30 ; MODEL TIME (SINCE START) : 21600.
 NSTEP =    30 STEPOAD 0AA00V000
 NSTEP =    29 STEPOAD 0AAA00AAA
 NSTEP =    28 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :  12 TO BE USED WITH TIME STEP (NSTEP) :  27 ; MODEL TIME (SINCE START) : 19440.
 NSTEP =    27 STEPOAD 0AAA0VAAA
 NSTEP =    26 STEPOAD 0AAA00AAA
ISTEP=      25 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5295
ISTEP=      25 ZI0= 1366.0000 ZSEASON= 1.034062584 REA=149597870000.00 RDEASO=147113320465.82
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :  11 TO BE USED WITH TIME STEP (NSTEP) :  25 ; MODEL TIME (SINCE START) : 18000.
 NSTEP =    25 STEPOAD 0AAA0VAAA
 NSTEP =    24 STEPOAD 0AAA00AAA
 NSTEP =    23 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :  10 TO BE USED WITH TIME STEP (NSTEP) :  22 ; MODEL TIME (SINCE START) : 15840.
 NSTEP =    22 STEPOAD 0AAA0VAAA
 NSTEP =    21 STEPOAD 0AAA00AAA
ISTEP=      20 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5304
ISTEP=      20 ZI0= 1366.0000 ZSEASON= 1.034063276 REA=149597870000.00 RDEASO=147113271221.47
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   9 TO BE USED WITH TIME STEP (NSTEP) :  20 ; MODEL TIME (SINCE START) : 14400.
 NSTEP =    20 STEPOAD 0AAA0VAAA
 NSTEP =    19 STEPOAD 0AAA00AAA
 NSTEP =    18 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   8 TO BE USED WITH TIME STEP (NSTEP) :  17 ; MODEL TIME (SINCE START) : 12240.
 NSTEP =    17 STEPOAD 0AAA0VAAA
 NSTEP =    16 STEPOAD 0AAA00AAA
ISTEP=      15 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5314
ISTEP=      15 ZI0= 1366.0000 ZSEASON= 1.034063950 REA=149597870000.00 RDEASO=147113223261.23
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   7 TO BE USED WITH TIME STEP (NSTEP) :  15 ; MODEL TIME (SINCE START) : 10800.
 NSTEP =    15 STEPOAD 0AAA0VAAA
 NSTEP =    14 STEPOAD 0AAA00AAA
 NSTEP =    13 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   6 TO BE USED WITH TIME STEP (NSTEP) :  12 ; MODEL TIME (SINCE START) :  8640.
 NSTEP =    12 STEPOAD 0AAA0VAAA
 NSTEP =    11 STEPOAD 0AAA00AAA
ISTEP=      10 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5323
ISTEP=      10 ZI0= 1366.0000 ZSEASON= 1.034064607 REA=149597870000.00 RDEASO=147113176585.14
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   5 TO BE USED WITH TIME STEP (NSTEP) :  10 ; MODEL TIME (SINCE START) :  7200.
 NSTEP =    10 STEPOAD 0AAA0VAAA
 NSTEP =     9 STEPOAD 0AAA00AAA
 NSTEP =     8 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   4 TO BE USED WITH TIME STEP (NSTEP) :   7 ; MODEL TIME (SINCE START) :  5040.
 NSTEP =     7 STEPOAD 0AAA0VAAA
 NSTEP =     6 STEPOAD 0AAA00AAA
ISTEP=       5 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5331
ISTEP=       5 ZI0= 1366.0000 ZSEASON= 1.034065245 REA=149597870000.00 RDEASO=147113131193.21
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   3 TO BE USED WITH TIME STEP (NSTEP) :   5 ; MODEL TIME (SINCE START) :  3600.
 NSTEP =     5 STEPOAD 0AAA0VAAA
 NSTEP =     4 STEPOAD 0AAA00AAA
 NSTEP =     3 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   2 TO BE USED WITH TIME STEP (NSTEP) :   2 ; MODEL TIME (SINCE START) :  1440.
 NSTEP =     2 STEPOAD 0AAA0VAAA
 NSTEP =     1 STEPOAD 0AAA00AAA
ISTEP=       0 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5340
ISTEP=       0 ZI0= 1366.0000 ZSEASON= 1.034065865 REA=149597870000.00 RDEASO=147113087085.47
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   1 TO BE USED WITH TIME STEP (NSTEP) :   0 ; MODEL TIME (SINCE START) :     0.
 NSTEP =     0 STEPOAD 0AAA0VAAA
 END CNT3AD
 Jc-DFI cost function =    103.497283966945      --   NSIM4D =           20
 EVCOST3  =  20 PZF = 0.1034972839669454E+03
 DIST. FUNC. JB=0.413895E+05 NSIM4D=   20 ++
 Jp cost function =    468.903677549316      --   NSIM4D =           20
 OBS DISTANCE FUNCTION JO=0.1603683922447190E+07 NSIM4D=   20 ==
 GREPMIN: Iteration   20 : Estimated gradient norm= 0.2115126009521141E+04  40A086408451E891
 Estimated reduction in norm of gradient is:   0.441881902867637     
 GREPMIN: Iteration   20 : Estimated quadratic cost= 0.1558815175139267E+07  4137C91F2CD5ED4E
 congrad: ritz values are:    11.1513340663267        63.6729309399172     
   158.888869535490        302.593241956395        492.175504451289     
   714.439528502850        983.912806688026        1277.07858255780     
   1547.90627498538        1957.23252338428        2256.80116613057     
   2584.87363881942        2899.92711806250        3237.79532669887     
   3506.88104133149        3651.79007634928        3873.31540222402     
   4077.03895379797        4179.69703845075        4728.09898210309     
 congrad: error bounds are:    31.2879212212592        76.6930466083130     
   124.284002552022        166.758773809288        204.978130386627     
   221.357706014467        282.111671562405        322.957441527164     
   374.895874888512        301.722345365412        362.399515336174     
   296.574671711549        218.420223821280        158.285301117925     
   265.384290657492        261.080245799766        160.546229261382     
   45.7292054980069        7.35437566131594       3.514248323409381E-003
 congrad: converged eigenvalue    4728.09898210309     
 congrad: End of iteration:           20


 -------Simulator : initializations ----------------------------------------
 -------Simulator : cost-function Jb ---------------------------------------
 -------Simulator : convert state from control to physical space -----------
 -------Simulator : change from model to TL  variables -------------------
 -------Simulator : call direct and adjoint  model -----------------------
 START CNT3TL
 START CNT4TL, NSIM4D=          21
ISTEP=       0 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5340
ISTEP=       0 ZI0= 1366.0000 ZSEASON= 1.034065865 REA=149597870000.00 RDEASO=147113087085.47
 NSTEP =     0 STEPOTL IAAA0VAAA
 NSTEP =     1 STEPOTL 0AAA00AAA
 NSTEP =     2 STEPOTL 0AAA0VAAA
 NSTEP =     3 STEPOTL 0AAA00AAA
 NSTEP =     4 STEPOTL 0AAA00AAA
ISTEP=       5 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5331
ISTEP=       5 ZI0= 1366.0000 ZSEASON= 1.034065245 REA=149597870000.00 RDEASO=147113131193.21
 NSTEP =     5 STEPOTL 0AAA0VAAA
 NSTEP =     6 STEPOTL 0AAA00AAA
 NSTEP =     7 STEPOTL 0AAA0VAAA
 NSTEP =     8 STEPOTL 0AAA00AAA
 NSTEP =     9 STEPOTL 0AAA00AAA
ISTEP=      10 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5323
ISTEP=      10 ZI0= 1366.0000 ZSEASON= 1.034064607 REA=149597870000.00 RDEASO=147113176585.14
 NSTEP =    10 STEPOTL 0AAA0VAAA
 NSTEP =    11 STEPOTL 0AAA00AAA
 NSTEP =    12 STEPOTL 0AAA0VAAA
 NSTEP =    13 STEPOTL 0AAA00AAA
 NSTEP =    14 STEPOTL 0AAA00AAA
ISTEP=      15 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5314
ISTEP=      15 ZI0= 1366.0000 ZSEASON= 1.034063950 REA=149597870000.00 RDEASO=147113223261.23
 NSTEP =    15 STEPOTL 0AAA0VAAA
 NSTEP =    16 STEPOTL 0AAA00AAA
 NSTEP =    17 STEPOTL 0AAA0VAAA
 NSTEP =    18 STEPOTL 0AAA00AAA
 NSTEP =    19 STEPOTL 0AAA00AAA
ISTEP=      20 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5304
ISTEP=      20 ZI0= 1366.0000 ZSEASON= 1.034063276 REA=149597870000.00 RDEASO=147113271221.47
 NSTEP =    20 STEPOTL 0AAA0VAAA
 NSTEP =    21 STEPOTL 0AAA00AAA
 NSTEP =    22 STEPOTL 0AAA0VAAA
 NSTEP =    23 STEPOTL 0AAA00AAA
 NSTEP =    24 STEPOTL 0AAA00AAA
ISTEP=      25 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5295
ISTEP=      25 ZI0= 1366.0000 ZSEASON= 1.034062584 REA=149597870000.00 RDEASO=147113320465.82
 NSTEP =    25 STEPOTL 0AAA0VAAA
 NSTEP =    26 STEPOTL 0AAA00AAA
 NSTEP =    27 STEPOTL 0AAA0VAAA
 NSTEP =    28 STEPOTL 0AAA00AAA
 NSTEP =    29 STEPOTL 0AAA00AAA
ISTEP=      30 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5285
ISTEP=      30 ZI0= 1366.0000 ZSEASON= 1.034061874 REA=149597870000.00 RDEASO=147113370994.27
 NSTEP =    30 STEPOTL 0AA00V000
 NSTEP =    30 OBSVTL  0AA00V000
 *** COMTC ARRIVAL        28164        7131         272
 END CNT3TL


    EVJCDFI2- Evaluation of the Jc cost function when the digital filter is used     NSPEC2 =    15670   ALPHAG =  100.000    
 EVJCDFI: DFI check, sum of coefs=  6.635317295611287E-017
         Global value of the Jc-DFI/ALPHAG cost function = 
   2.38490627279219     
 START CNT3AD
 START CNT4AD, NSIM4D=          21
 NSTEP =    30 OBSVAD  000000000
 CNT4AD (ADJOINT INTEGRATION); TIME SLOT NO :  13 TO BE USED WITH TIME STEP (NSTEP) :  30 ; MODEL TIME (SINCE START) : 21600.
 NSTEP =    30 STEPOAD 0AA00V000
 NSTEP =    29 STEPOAD 0AAA00AAA
 NSTEP =    28 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :  12 TO BE USED WITH TIME STEP (NSTEP) :  27 ; MODEL TIME (SINCE START) : 19440.
 NSTEP =    27 STEPOAD 0AAA0VAAA
 NSTEP =    26 STEPOAD 0AAA00AAA
ISTEP=      25 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5295
ISTEP=      25 ZI0= 1366.0000 ZSEASON= 1.034062584 REA=149597870000.00 RDEASO=147113320465.82
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :  11 TO BE USED WITH TIME STEP (NSTEP) :  25 ; MODEL TIME (SINCE START) : 18000.
 NSTEP =    25 STEPOAD 0AAA0VAAA
 NSTEP =    24 STEPOAD 0AAA00AAA
 NSTEP =    23 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :  10 TO BE USED WITH TIME STEP (NSTEP) :  22 ; MODEL TIME (SINCE START) : 15840.
 NSTEP =    22 STEPOAD 0AAA0VAAA
 NSTEP =    21 STEPOAD 0AAA00AAA
ISTEP=      20 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5304
ISTEP=      20 ZI0= 1366.0000 ZSEASON= 1.034063276 REA=149597870000.00 RDEASO=147113271221.47
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   9 TO BE USED WITH TIME STEP (NSTEP) :  20 ; MODEL TIME (SINCE START) : 14400.
 NSTEP =    20 STEPOAD 0AAA0VAAA
 NSTEP =    19 STEPOAD 0AAA00AAA
 NSTEP =    18 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   8 TO BE USED WITH TIME STEP (NSTEP) :  17 ; MODEL TIME (SINCE START) : 12240.
 NSTEP =    17 STEPOAD 0AAA0VAAA
 NSTEP =    16 STEPOAD 0AAA00AAA
ISTEP=      15 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5314
ISTEP=      15 ZI0= 1366.0000 ZSEASON= 1.034063950 REA=149597870000.00 RDEASO=147113223261.23
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   7 TO BE USED WITH TIME STEP (NSTEP) :  15 ; MODEL TIME (SINCE START) : 10800.
 NSTEP =    15 STEPOAD 0AAA0VAAA
 NSTEP =    14 STEPOAD 0AAA00AAA
 NSTEP =    13 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   6 TO BE USED WITH TIME STEP (NSTEP) :  12 ; MODEL TIME (SINCE START) :  8640.
 NSTEP =    12 STEPOAD 0AAA0VAAA
 NSTEP =    11 STEPOAD 0AAA00AAA
ISTEP=      10 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5323
ISTEP=      10 ZI0= 1366.0000 ZSEASON= 1.034064607 REA=149597870000.00 RDEASO=147113176585.14
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   5 TO BE USED WITH TIME STEP (NSTEP) :  10 ; MODEL TIME (SINCE START) :  7200.
 NSTEP =    10 STEPOAD 0AAA0VAAA
 NSTEP =     9 STEPOAD 0AAA00AAA
 NSTEP =     8 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   4 TO BE USED WITH TIME STEP (NSTEP) :   7 ; MODEL TIME (SINCE START) :  5040.
 NSTEP =     7 STEPOAD 0AAA0VAAA
 NSTEP =     6 STEPOAD 0AAA00AAA
ISTEP=       5 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5331
ISTEP=       5 ZI0= 1366.0000 ZSEASON= 1.034065245 REA=149597870000.00 RDEASO=147113131193.21
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   3 TO BE USED WITH TIME STEP (NSTEP) :   5 ; MODEL TIME (SINCE START) :  3600.
 NSTEP =     5 STEPOAD 0AAA0VAAA
 NSTEP =     4 STEPOAD 0AAA00AAA
 NSTEP =     3 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   2 TO BE USED WITH TIME STEP (NSTEP) :   2 ; MODEL TIME (SINCE START) :  1440.
 NSTEP =     2 STEPOAD 0AAA0VAAA
 NSTEP =     1 STEPOAD 0AAA00AAA
ISTEP=       0 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5340
ISTEP=       0 ZI0= 1366.0000 ZSEASON= 1.034065865 REA=149597870000.00 RDEASO=147113087085.47
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   1 TO BE USED WITH TIME STEP (NSTEP) :   0 ; MODEL TIME (SINCE START) :     0.
 NSTEP =     0 STEPOAD 0AAA0VAAA
 END CNT3AD
 Jc-DFI cost function =    119.245313639610      --   NSIM4D =           21
 EVCOST3  =  21 PZF = 0.1192453136396097E+03
 DIST. FUNC. JB=0.413792E+05 NSIM4D=   21 ++
 Jp cost function =    468.818253241886      --   NSIM4D =           21
 OBS DISTANCE FUNCTION JO=0.1603647602948462E+07 NSIM4D=   21 ==
 GREPMIN: Iteration   21 : Estimated gradient norm= 0.2069778057884026E+04  40A02B8E5D9A5C93
 Estimated reduction in norm of gradient is:   0.432408027991930     
 GREPMIN: Iteration   21 : Estimated quadratic cost= 0.1556559793913221E+07  4137C04FCB3DE596
 congrad: ritz values are:    10.1613257354541        57.6477440540379     
   143.116426521288        273.575900548768        446.040064142695     
   653.789239814159        877.110713256320        1142.91510496799     
   1417.26014154712        1795.49153768220        2083.39928512459     
   2428.78232280549        2727.75225415643        2973.74643841843     
   3259.60838637044        3547.06645146176        3713.79153408985     
   3897.33062104788        4078.60068258919        4179.73236658834     
   4728.09898210835     
 congrad: error bounds are:    29.0854256899955        71.4899045505131     
   113.386031297288        151.602595592420        189.363176899462     
   219.791797348442        272.679461952989        270.977857755865     
   231.960357933086        321.188365376854        261.941876480456     
   288.932096698001        322.109206881576        270.311207180741     
   122.925349302570        128.080371600849        197.238417538896     
   133.483933736336        31.4209422985980        4.42574508995443     
  1.380734154294132E-003
 congrad: converged eigenvalue    4728.09898210835     
 congrad: End of iteration:           21


 -------Simulator : initializations ----------------------------------------
 -------Simulator : cost-function Jb ---------------------------------------
 -------Simulator : convert state from control to physical space -----------
 -------Simulator : change from model to TL  variables -------------------
 -------Simulator : call direct and adjoint  model -----------------------
 START CNT3TL
 START CNT4TL, NSIM4D=          22
ISTEP=       0 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5340
ISTEP=       0 ZI0= 1366.0000 ZSEASON= 1.034065865 REA=149597870000.00 RDEASO=147113087085.47
 NSTEP =     0 STEPOTL IAAA0VAAA
 NSTEP =     1 STEPOTL 0AAA00AAA
 NSTEP =     2 STEPOTL 0AAA0VAAA
 NSTEP =     3 STEPOTL 0AAA00AAA
 NSTEP =     4 STEPOTL 0AAA00AAA
ISTEP=       5 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5331
ISTEP=       5 ZI0= 1366.0000 ZSEASON= 1.034065245 REA=149597870000.00 RDEASO=147113131193.21
 NSTEP =     5 STEPOTL 0AAA0VAAA
 NSTEP =     6 STEPOTL 0AAA00AAA
 NSTEP =     7 STEPOTL 0AAA0VAAA
 NSTEP =     8 STEPOTL 0AAA00AAA
 NSTEP =     9 STEPOTL 0AAA00AAA
ISTEP=      10 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5323
ISTEP=      10 ZI0= 1366.0000 ZSEASON= 1.034064607 REA=149597870000.00 RDEASO=147113176585.14
 NSTEP =    10 STEPOTL 0AAA0VAAA
 NSTEP =    11 STEPOTL 0AAA00AAA
 NSTEP =    12 STEPOTL 0AAA0VAAA
 NSTEP =    13 STEPOTL 0AAA00AAA
 NSTEP =    14 STEPOTL 0AAA00AAA
ISTEP=      15 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5314
ISTEP=      15 ZI0= 1366.0000 ZSEASON= 1.034063950 REA=149597870000.00 RDEASO=147113223261.23
 NSTEP =    15 STEPOTL 0AAA0VAAA
 NSTEP =    16 STEPOTL 0AAA00AAA
 NSTEP =    17 STEPOTL 0AAA0VAAA
 NSTEP =    18 STEPOTL 0AAA00AAA
 NSTEP =    19 STEPOTL 0AAA00AAA
ISTEP=      20 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5304
ISTEP=      20 ZI0= 1366.0000 ZSEASON= 1.034063276 REA=149597870000.00 RDEASO=147113271221.47
 NSTEP =    20 STEPOTL 0AAA0VAAA
 NSTEP =    21 STEPOTL 0AAA00AAA
 NSTEP =    22 STEPOTL 0AAA0VAAA
 NSTEP =    23 STEPOTL 0AAA00AAA
 NSTEP =    24 STEPOTL 0AAA00AAA
ISTEP=      25 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5295
ISTEP=      25 ZI0= 1366.0000 ZSEASON= 1.034062584 REA=149597870000.00 RDEASO=147113320465.82
 NSTEP =    25 STEPOTL 0AAA0VAAA
 NSTEP =    26 STEPOTL 0AAA00AAA
 NSTEP =    27 STEPOTL 0AAA0VAAA
 NSTEP =    28 STEPOTL 0AAA00AAA
 NSTEP =    29 STEPOTL 0AAA00AAA
ISTEP=      30 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5285
ISTEP=      30 ZI0= 1366.0000 ZSEASON= 1.034061874 REA=149597870000.00 RDEASO=147113370994.27
 NSTEP =    30 STEPOTL 0AA00V000
 NSTEP =    30 OBSVTL  0AA00V000
 *** COMTC ARRIVAL        28164        7131         272
 END CNT3TL


    EVJCDFI2- Evaluation of the Jc cost function when the digital filter is used     NSPEC2 =    15670   ALPHAG =  100.000    
 EVJCDFI: DFI check, sum of coefs=  6.635317295611287E-017
         Global value of the Jc-DFI/ALPHAG cost function = 
   2.60949136818478     
 START CNT3AD
 START CNT4AD, NSIM4D=          22
 NSTEP =    30 OBSVAD  000000000
 CNT4AD (ADJOINT INTEGRATION); TIME SLOT NO :  13 TO BE USED WITH TIME STEP (NSTEP) :  30 ; MODEL TIME (SINCE START) : 21600.
 NSTEP =    30 STEPOAD 0AA00V000
 NSTEP =    29 STEPOAD 0AAA00AAA
 NSTEP =    28 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :  12 TO BE USED WITH TIME STEP (NSTEP) :  27 ; MODEL TIME (SINCE START) : 19440.
 NSTEP =    27 STEPOAD 0AAA0VAAA
 NSTEP =    26 STEPOAD 0AAA00AAA
ISTEP=      25 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5295
ISTEP=      25 ZI0= 1366.0000 ZSEASON= 1.034062584 REA=149597870000.00 RDEASO=147113320465.82
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :  11 TO BE USED WITH TIME STEP (NSTEP) :  25 ; MODEL TIME (SINCE START) : 18000.
 NSTEP =    25 STEPOAD 0AAA0VAAA
 NSTEP =    24 STEPOAD 0AAA00AAA
 NSTEP =    23 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :  10 TO BE USED WITH TIME STEP (NSTEP) :  22 ; MODEL TIME (SINCE START) : 15840.
 NSTEP =    22 STEPOAD 0AAA0VAAA
 NSTEP =    21 STEPOAD 0AAA00AAA
ISTEP=      20 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5304
ISTEP=      20 ZI0= 1366.0000 ZSEASON= 1.034063276 REA=149597870000.00 RDEASO=147113271221.47
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   9 TO BE USED WITH TIME STEP (NSTEP) :  20 ; MODEL TIME (SINCE START) : 14400.
 NSTEP =    20 STEPOAD 0AAA0VAAA
 NSTEP =    19 STEPOAD 0AAA00AAA
 NSTEP =    18 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   8 TO BE USED WITH TIME STEP (NSTEP) :  17 ; MODEL TIME (SINCE START) : 12240.
 NSTEP =    17 STEPOAD 0AAA0VAAA
 NSTEP =    16 STEPOAD 0AAA00AAA
ISTEP=      15 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5314
ISTEP=      15 ZI0= 1366.0000 ZSEASON= 1.034063950 REA=149597870000.00 RDEASO=147113223261.23
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   7 TO BE USED WITH TIME STEP (NSTEP) :  15 ; MODEL TIME (SINCE START) : 10800.
 NSTEP =    15 STEPOAD 0AAA0VAAA
 NSTEP =    14 STEPOAD 0AAA00AAA
 NSTEP =    13 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   6 TO BE USED WITH TIME STEP (NSTEP) :  12 ; MODEL TIME (SINCE START) :  8640.
 NSTEP =    12 STEPOAD 0AAA0VAAA
 NSTEP =    11 STEPOAD 0AAA00AAA
ISTEP=      10 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5323
ISTEP=      10 ZI0= 1366.0000 ZSEASON= 1.034064607 REA=149597870000.00 RDEASO=147113176585.14
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   5 TO BE USED WITH TIME STEP (NSTEP) :  10 ; MODEL TIME (SINCE START) :  7200.
 NSTEP =    10 STEPOAD 0AAA0VAAA
 NSTEP =     9 STEPOAD 0AAA00AAA
 NSTEP =     8 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   4 TO BE USED WITH TIME STEP (NSTEP) :   7 ; MODEL TIME (SINCE START) :  5040.
 NSTEP =     7 STEPOAD 0AAA0VAAA
 NSTEP =     6 STEPOAD 0AAA00AAA
ISTEP=       5 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5331
ISTEP=       5 ZI0= 1366.0000 ZSEASON= 1.034065245 REA=149597870000.00 RDEASO=147113131193.21
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   3 TO BE USED WITH TIME STEP (NSTEP) :   5 ; MODEL TIME (SINCE START) :  3600.
 NSTEP =     5 STEPOAD 0AAA0VAAA
 NSTEP =     4 STEPOAD 0AAA00AAA
 NSTEP =     3 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   2 TO BE USED WITH TIME STEP (NSTEP) :   2 ; MODEL TIME (SINCE START) :  1440.
 NSTEP =     2 STEPOAD 0AAA0VAAA
 NSTEP =     1 STEPOAD 0AAA00AAA
ISTEP=       0 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5340
ISTEP=       0 ZI0= 1366.0000 ZSEASON= 1.034065865 REA=149597870000.00 RDEASO=147113087085.47
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   1 TO BE USED WITH TIME STEP (NSTEP) :   0 ; MODEL TIME (SINCE START) :     0.
 NSTEP =     0 STEPOAD 0AAA0VAAA
 END CNT3AD
 Jc-DFI cost function =    130.474568409239      --   NSIM4D =           22
 EVCOST3  =  22 PZF = 0.1304745684092391E+03
 DIST. FUNC. JB=0.413895E+05 NSIM4D=   22 ++
 Jp cost function =    468.915851876514      --   NSIM4D =           22
 OBS DISTANCE FUNCTION JO=0.1603626678870070E+07 NSIM4D=   22 ==
 GREPMIN: Iteration   22 : Estimated gradient norm= 0.2056379010564098E+04  40A010C20DAC3348
 Estimated reduction in norm of gradient is:   0.429608763787484     
 GREPMIN: Iteration   22 : Estimated quadratic cost= 0.1554595785141508E+07  4137B8A3C8FF08AD
 congrad: ritz values are:    9.37389692249812        52.8542768648441     
   131.105921906267        251.452955781160        409.707533195169     
   600.888028553654        802.354642221095        1064.12939978595     
   1341.60337136931        1606.40801965248        1954.70977492654     
   2214.27272622232        2526.55283028314        2833.99011005559     
   3086.60639041786        3280.03150817708        3559.38066889099     
   3742.74005589293        3911.00673464423        4079.25090970561     
   4179.74392862887        4728.09898210914     
 congrad: error bounds are:    27.3388947837379        67.2012973196189     
   104.819290266657        141.807071365415        181.366437878036     
   218.003730925000        239.059376671094        251.331816695335     
   274.521766895783        395.537229152916        315.502725526932     
   353.105863435298        276.095496766125        261.750763061976     
   344.020082457680        161.774973451589        95.7238973796496     
   144.461003313432        102.325588363762        20.9246820994093     
   2.64275198400824       5.736496399405058E-004
 congrad: converged eigenvalue    4728.09898210914     
 congrad: End of iteration:           22


 -------Simulator : initializations ----------------------------------------
 -------Simulator : cost-function Jb ---------------------------------------
 -------Simulator : convert state from control to physical space -----------
 -------Simulator : change from model to TL  variables -------------------
 -------Simulator : call direct and adjoint  model -----------------------
 START CNT3TL
 START CNT4TL, NSIM4D=          23
ISTEP=       0 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5340
ISTEP=       0 ZI0= 1366.0000 ZSEASON= 1.034065865 REA=149597870000.00 RDEASO=147113087085.47
 NSTEP =     0 STEPOTL IAAA0VAAA
 NSTEP =     1 STEPOTL 0AAA00AAA
 NSTEP =     2 STEPOTL 0AAA0VAAA
 NSTEP =     3 STEPOTL 0AAA00AAA
 NSTEP =     4 STEPOTL 0AAA00AAA
ISTEP=       5 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5331
ISTEP=       5 ZI0= 1366.0000 ZSEASON= 1.034065245 REA=149597870000.00 RDEASO=147113131193.21
 NSTEP =     5 STEPOTL 0AAA0VAAA
 NSTEP =     6 STEPOTL 0AAA00AAA
 NSTEP =     7 STEPOTL 0AAA0VAAA
 NSTEP =     8 STEPOTL 0AAA00AAA
 NSTEP =     9 STEPOTL 0AAA00AAA
ISTEP=      10 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5323
ISTEP=      10 ZI0= 1366.0000 ZSEASON= 1.034064607 REA=149597870000.00 RDEASO=147113176585.14
 NSTEP =    10 STEPOTL 0AAA0VAAA
 NSTEP =    11 STEPOTL 0AAA00AAA
 NSTEP =    12 STEPOTL 0AAA0VAAA
 NSTEP =    13 STEPOTL 0AAA00AAA
 NSTEP =    14 STEPOTL 0AAA00AAA
ISTEP=      15 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5314
ISTEP=      15 ZI0= 1366.0000 ZSEASON= 1.034063950 REA=149597870000.00 RDEASO=147113223261.23
 NSTEP =    15 STEPOTL 0AAA0VAAA
 NSTEP =    16 STEPOTL 0AAA00AAA
 NSTEP =    17 STEPOTL 0AAA0VAAA
 NSTEP =    18 STEPOTL 0AAA00AAA
 NSTEP =    19 STEPOTL 0AAA00AAA
ISTEP=      20 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5304
ISTEP=      20 ZI0= 1366.0000 ZSEASON= 1.034063276 REA=149597870000.00 RDEASO=147113271221.47
 NSTEP =    20 STEPOTL 0AAA0VAAA
 NSTEP =    21 STEPOTL 0AAA00AAA
 NSTEP =    22 STEPOTL 0AAA0VAAA
 NSTEP =    23 STEPOTL 0AAA00AAA
 NSTEP =    24 STEPOTL 0AAA00AAA
ISTEP=      25 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5295
ISTEP=      25 ZI0= 1366.0000 ZSEASON= 1.034062584 REA=149597870000.00 RDEASO=147113320465.82
 NSTEP =    25 STEPOTL 0AAA0VAAA
 NSTEP =    26 STEPOTL 0AAA00AAA
 NSTEP =    27 STEPOTL 0AAA0VAAA
 NSTEP =    28 STEPOTL 0AAA00AAA
 NSTEP =    29 STEPOTL 0AAA00AAA
ISTEP=      30 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5285
ISTEP=      30 ZI0= 1366.0000 ZSEASON= 1.034061874 REA=149597870000.00 RDEASO=147113370994.27
 NSTEP =    30 STEPOTL 0AA00V000
 NSTEP =    30 OBSVTL  0AA00V000
 *** COMTC ARRIVAL        28164        7131         272
 END CNT3TL


    EVJCDFI2- Evaluation of the Jc cost function when the digital filter is used     NSPEC2 =    15670   ALPHAG =  100.000    
 EVJCDFI: DFI check, sum of coefs=  6.635317295611287E-017
         Global value of the Jc-DFI/ALPHAG cost function = 
   2.65447823279727     
 START CNT3AD
 START CNT4AD, NSIM4D=          23
 NSTEP =    30 OBSVAD  000000000
 CNT4AD (ADJOINT INTEGRATION); TIME SLOT NO :  13 TO BE USED WITH TIME STEP (NSTEP) :  30 ; MODEL TIME (SINCE START) : 21600.
 NSTEP =    30 STEPOAD 0AA00V000
 NSTEP =    29 STEPOAD 0AAA00AAA
 NSTEP =    28 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :  12 TO BE USED WITH TIME STEP (NSTEP) :  27 ; MODEL TIME (SINCE START) : 19440.
 NSTEP =    27 STEPOAD 0AAA0VAAA
 NSTEP =    26 STEPOAD 0AAA00AAA
ISTEP=      25 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5295
ISTEP=      25 ZI0= 1366.0000 ZSEASON= 1.034062584 REA=149597870000.00 RDEASO=147113320465.82
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :  11 TO BE USED WITH TIME STEP (NSTEP) :  25 ; MODEL TIME (SINCE START) : 18000.
 NSTEP =    25 STEPOAD 0AAA0VAAA
 NSTEP =    24 STEPOAD 0AAA00AAA
 NSTEP =    23 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :  10 TO BE USED WITH TIME STEP (NSTEP) :  22 ; MODEL TIME (SINCE START) : 15840.
 NSTEP =    22 STEPOAD 0AAA0VAAA
 NSTEP =    21 STEPOAD 0AAA00AAA
ISTEP=      20 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5304
ISTEP=      20 ZI0= 1366.0000 ZSEASON= 1.034063276 REA=149597870000.00 RDEASO=147113271221.47
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   9 TO BE USED WITH TIME STEP (NSTEP) :  20 ; MODEL TIME (SINCE START) : 14400.
 NSTEP =    20 STEPOAD 0AAA0VAAA
 NSTEP =    19 STEPOAD 0AAA00AAA
 NSTEP =    18 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   8 TO BE USED WITH TIME STEP (NSTEP) :  17 ; MODEL TIME (SINCE START) : 12240.
 NSTEP =    17 STEPOAD 0AAA0VAAA
 NSTEP =    16 STEPOAD 0AAA00AAA
ISTEP=      15 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5314
ISTEP=      15 ZI0= 1366.0000 ZSEASON= 1.034063950 REA=149597870000.00 RDEASO=147113223261.23
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   7 TO BE USED WITH TIME STEP (NSTEP) :  15 ; MODEL TIME (SINCE START) : 10800.
 NSTEP =    15 STEPOAD 0AAA0VAAA
 NSTEP =    14 STEPOAD 0AAA00AAA
 NSTEP =    13 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   6 TO BE USED WITH TIME STEP (NSTEP) :  12 ; MODEL TIME (SINCE START) :  8640.
 NSTEP =    12 STEPOAD 0AAA0VAAA
 NSTEP =    11 STEPOAD 0AAA00AAA
ISTEP=      10 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5323
ISTEP=      10 ZI0= 1366.0000 ZSEASON= 1.034064607 REA=149597870000.00 RDEASO=147113176585.14
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   5 TO BE USED WITH TIME STEP (NSTEP) :  10 ; MODEL TIME (SINCE START) :  7200.
 NSTEP =    10 STEPOAD 0AAA0VAAA
 NSTEP =     9 STEPOAD 0AAA00AAA
 NSTEP =     8 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   4 TO BE USED WITH TIME STEP (NSTEP) :   7 ; MODEL TIME (SINCE START) :  5040.
 NSTEP =     7 STEPOAD 0AAA0VAAA
 NSTEP =     6 STEPOAD 0AAA00AAA
ISTEP=       5 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5331
ISTEP=       5 ZI0= 1366.0000 ZSEASON= 1.034065245 REA=149597870000.00 RDEASO=147113131193.21
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   3 TO BE USED WITH TIME STEP (NSTEP) :   5 ; MODEL TIME (SINCE START) :  3600.
 NSTEP =     5 STEPOAD 0AAA0VAAA
 NSTEP =     4 STEPOAD 0AAA00AAA
 NSTEP =     3 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   2 TO BE USED WITH TIME STEP (NSTEP) :   2 ; MODEL TIME (SINCE START) :  1440.
 NSTEP =     2 STEPOAD 0AAA0VAAA
 NSTEP =     1 STEPOAD 0AAA00AAA
ISTEP=       0 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5340
ISTEP=       0 ZI0= 1366.0000 ZSEASON= 1.034065865 REA=149597870000.00 RDEASO=147113087085.47
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   1 TO BE USED WITH TIME STEP (NSTEP) :   0 ; MODEL TIME (SINCE START) :     0.
 NSTEP =     0 STEPOAD 0AAA0VAAA
 END CNT3AD
 Jc-DFI cost function =    132.723911639864      --   NSIM4D =           23
 EVCOST3  =  23 PZF = 0.1327239116398635E+03
 DIST. FUNC. JB=0.413785E+05 NSIM4D=   23 ++
 Jp cost function =    468.815920666419      --   NSIM4D =           23
 OBS DISTANCE FUNCTION JO=0.1603630762835906E+07 NSIM4D=   23 ==
 GREPMIN: Iteration   23 : Estimated gradient norm= 0.1885414736697254E+04  409D75A8B0BC9CA0
 Estimated reduction in norm of gradient is:   0.393891734013089     
 GREPMIN: Iteration   23 : Estimated quadratic cost= 0.1552503011580331E+07  4137B07702F6EDB6
 congrad: ritz values are:    8.60363266314831        48.1720236868630     
   119.705826474777        229.667835283877        372.406927488134     
   545.333080334035        737.729411493525        973.146369235682     
   1212.18767830965        1446.72770552784        1806.97460256446     
   2073.23368071658        2384.61594868218        2642.73668914289     
   2903.70118203179        3206.55252993012        3340.24056449282     
   3569.06073516246        3760.41209560684        3919.30823530352     
   4079.54566964080        4179.74815106658        4728.09898210927     
 congrad: error bounds are:    24.4612097584957        59.9827746216439     
   92.3268047244073        127.518151811907        164.648887087912     
   194.447761815201        200.348129013247        247.902563863590     
   270.243558330065        221.663606133003        261.211937969850     
   217.543132605509        266.302250482626        270.197724607344     
   194.690603378311        223.050901127517        261.701485629431     
   86.6564538308700        104.595949637730        70.0663276218529     
   12.2522491963749        1.38993884625310       2.091395980910919E-004
 congrad: converged eigenvalue    4728.09898210927     
 congrad: End of iteration:           23


 -------Simulator : initializations ----------------------------------------
 -------Simulator : cost-function Jb ---------------------------------------
 -------Simulator : convert state from control to physical space -----------
 -------Simulator : change from model to TL  variables -------------------
 -------Simulator : call direct and adjoint  model -----------------------
 START CNT3TL
 START CNT4TL, NSIM4D=          24
ISTEP=       0 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5340
ISTEP=       0 ZI0= 1366.0000 ZSEASON= 1.034065865 REA=149597870000.00 RDEASO=147113087085.47
 NSTEP =     0 STEPOTL IAAA0VAAA
 NSTEP =     1 STEPOTL 0AAA00AAA
 NSTEP =     2 STEPOTL 0AAA0VAAA
 NSTEP =     3 STEPOTL 0AAA00AAA
 NSTEP =     4 STEPOTL 0AAA00AAA
ISTEP=       5 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5331
ISTEP=       5 ZI0= 1366.0000 ZSEASON= 1.034065245 REA=149597870000.00 RDEASO=147113131193.21
 NSTEP =     5 STEPOTL 0AAA0VAAA
 NSTEP =     6 STEPOTL 0AAA00AAA
 NSTEP =     7 STEPOTL 0AAA0VAAA
 NSTEP =     8 STEPOTL 0AAA00AAA
 NSTEP =     9 STEPOTL 0AAA00AAA
ISTEP=      10 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5323
ISTEP=      10 ZI0= 1366.0000 ZSEASON= 1.034064607 REA=149597870000.00 RDEASO=147113176585.14
 NSTEP =    10 STEPOTL 0AAA0VAAA
 NSTEP =    11 STEPOTL 0AAA00AAA
 NSTEP =    12 STEPOTL 0AAA0VAAA
 NSTEP =    13 STEPOTL 0AAA00AAA
 NSTEP =    14 STEPOTL 0AAA00AAA
ISTEP=      15 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5314
ISTEP=      15 ZI0= 1366.0000 ZSEASON= 1.034063950 REA=149597870000.00 RDEASO=147113223261.23
 NSTEP =    15 STEPOTL 0AAA0VAAA
 NSTEP =    16 STEPOTL 0AAA00AAA
 NSTEP =    17 STEPOTL 0AAA0VAAA
 NSTEP =    18 STEPOTL 0AAA00AAA
 NSTEP =    19 STEPOTL 0AAA00AAA
ISTEP=      20 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5304
ISTEP=      20 ZI0= 1366.0000 ZSEASON= 1.034063276 REA=149597870000.00 RDEASO=147113271221.47
 NSTEP =    20 STEPOTL 0AAA0VAAA
 NSTEP =    21 STEPOTL 0AAA00AAA
 NSTEP =    22 STEPOTL 0AAA0VAAA
 NSTEP =    23 STEPOTL 0AAA00AAA
 NSTEP =    24 STEPOTL 0AAA00AAA
ISTEP=      25 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5295
ISTEP=      25 ZI0= 1366.0000 ZSEASON= 1.034062584 REA=149597870000.00 RDEASO=147113320465.82
 NSTEP =    25 STEPOTL 0AAA0VAAA
 NSTEP =    26 STEPOTL 0AAA00AAA
 NSTEP =    27 STEPOTL 0AAA0VAAA
 NSTEP =    28 STEPOTL 0AAA00AAA
 NSTEP =    29 STEPOTL 0AAA00AAA
ISTEP=      30 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5285
ISTEP=      30 ZI0= 1366.0000 ZSEASON= 1.034061874 REA=149597870000.00 RDEASO=147113370994.27
 NSTEP =    30 STEPOTL 0AA00V000
 NSTEP =    30 OBSVTL  0AA00V000
 *** COMTC ARRIVAL        28164        7131         272
 END CNT3TL


    EVJCDFI2- Evaluation of the Jc cost function when the digital filter is used     NSPEC2 =    15670   ALPHAG =  100.000    
 EVJCDFI: DFI check, sum of coefs=  6.635317295611287E-017
         Global value of the Jc-DFI/ALPHAG cost function = 
   2.47035332015532     
 START CNT3AD
 START CNT4AD, NSIM4D=          24
 NSTEP =    30 OBSVAD  000000000
 CNT4AD (ADJOINT INTEGRATION); TIME SLOT NO :  13 TO BE USED WITH TIME STEP (NSTEP) :  30 ; MODEL TIME (SINCE START) : 21600.
 NSTEP =    30 STEPOAD 0AA00V000
 NSTEP =    29 STEPOAD 0AAA00AAA
 NSTEP =    28 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :  12 TO BE USED WITH TIME STEP (NSTEP) :  27 ; MODEL TIME (SINCE START) : 19440.
 NSTEP =    27 STEPOAD 0AAA0VAAA
 NSTEP =    26 STEPOAD 0AAA00AAA
ISTEP=      25 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5295
ISTEP=      25 ZI0= 1366.0000 ZSEASON= 1.034062584 REA=149597870000.00 RDEASO=147113320465.82
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :  11 TO BE USED WITH TIME STEP (NSTEP) :  25 ; MODEL TIME (SINCE START) : 18000.
 NSTEP =    25 STEPOAD 0AAA0VAAA
 NSTEP =    24 STEPOAD 0AAA00AAA
 NSTEP =    23 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :  10 TO BE USED WITH TIME STEP (NSTEP) :  22 ; MODEL TIME (SINCE START) : 15840.
 NSTEP =    22 STEPOAD 0AAA0VAAA
 NSTEP =    21 STEPOAD 0AAA00AAA
ISTEP=      20 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5304
ISTEP=      20 ZI0= 1366.0000 ZSEASON= 1.034063276 REA=149597870000.00 RDEASO=147113271221.47
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   9 TO BE USED WITH TIME STEP (NSTEP) :  20 ; MODEL TIME (SINCE START) : 14400.
 NSTEP =    20 STEPOAD 0AAA0VAAA
 NSTEP =    19 STEPOAD 0AAA00AAA
 NSTEP =    18 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   8 TO BE USED WITH TIME STEP (NSTEP) :  17 ; MODEL TIME (SINCE START) : 12240.
 NSTEP =    17 STEPOAD 0AAA0VAAA
 NSTEP =    16 STEPOAD 0AAA00AAA
ISTEP=      15 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5314
ISTEP=      15 ZI0= 1366.0000 ZSEASON= 1.034063950 REA=149597870000.00 RDEASO=147113223261.23
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   7 TO BE USED WITH TIME STEP (NSTEP) :  15 ; MODEL TIME (SINCE START) : 10800.
 NSTEP =    15 STEPOAD 0AAA0VAAA
 NSTEP =    14 STEPOAD 0AAA00AAA
 NSTEP =    13 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   6 TO BE USED WITH TIME STEP (NSTEP) :  12 ; MODEL TIME (SINCE START) :  8640.
 NSTEP =    12 STEPOAD 0AAA0VAAA
 NSTEP =    11 STEPOAD 0AAA00AAA
ISTEP=      10 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5323
ISTEP=      10 ZI0= 1366.0000 ZSEASON= 1.034064607 REA=149597870000.00 RDEASO=147113176585.14
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   5 TO BE USED WITH TIME STEP (NSTEP) :  10 ; MODEL TIME (SINCE START) :  7200.
 NSTEP =    10 STEPOAD 0AAA0VAAA
 NSTEP =     9 STEPOAD 0AAA00AAA
 NSTEP =     8 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   4 TO BE USED WITH TIME STEP (NSTEP) :   7 ; MODEL TIME (SINCE START) :  5040.
 NSTEP =     7 STEPOAD 0AAA0VAAA
 NSTEP =     6 STEPOAD 0AAA00AAA
ISTEP=       5 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5331
ISTEP=       5 ZI0= 1366.0000 ZSEASON= 1.034065245 REA=149597870000.00 RDEASO=147113131193.21
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   3 TO BE USED WITH TIME STEP (NSTEP) :   5 ; MODEL TIME (SINCE START) :  3600.
 NSTEP =     5 STEPOAD 0AAA0VAAA
 NSTEP =     4 STEPOAD 0AAA00AAA
 NSTEP =     3 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   2 TO BE USED WITH TIME STEP (NSTEP) :   2 ; MODEL TIME (SINCE START) :  1440.
 NSTEP =     2 STEPOAD 0AAA0VAAA
 NSTEP =     1 STEPOAD 0AAA00AAA
ISTEP=       0 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5340
ISTEP=       0 ZI0= 1366.0000 ZSEASON= 1.034065865 REA=149597870000.00 RDEASO=147113087085.47
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   1 TO BE USED WITH TIME STEP (NSTEP) :   0 ; MODEL TIME (SINCE START) :     0.
 NSTEP =     0 STEPOAD 0AAA0VAAA
 END CNT3AD
 Jc-DFI cost function =    123.517666007766      --   NSIM4D =           24
 EVCOST3  =  24 PZF = 0.1235176660077660E+03
 DIST. FUNC. JB=0.413902E+05 NSIM4D=   24 ++
 Jp cost function =    468.937230050275      --   NSIM4D =           24
 OBS DISTANCE FUNCTION JO=0.1603522272471319E+07 NSIM4D=   24 ==
 GREPMIN: Iteration   24 : Estimated gradient norm= 0.1843663975309253E+04  409CCEA7E924BA61
 Estimated reduction in norm of gradient is:   0.385169366737922     
 GREPMIN: Iteration   24 : Estimated quadratic cost= 0.1550603927366318E+07  4137A90BED67E108
 congrad: ritz values are:    7.96075135290353        44.2840203662262     
   110.405001309627        211.110269574719        340.696851146264     
   500.323426686744        685.928758553110        886.266952833321     
   1117.45283251054        1372.23915566038        1624.26658149384     
   1926.50815776843        2153.25296426540        2459.19859884039     
   2722.23631718544        2942.48892311685        3236.06501431202     
   3403.77633039975        3575.71474766502        3767.86067757573     
   3922.31577504767        4079.62634893239        4179.74911112939     
   4728.09898210929     
 congrad: error bounds are:    22.7531352886971        55.7263914745881     
   85.6066919856050        121.180626982335        155.630876933215     
   181.112668555707        196.349533843306        245.344168866862     
   237.530845531272        232.438662749051        360.333208609931     
   288.128542766182        261.047636099254        210.718100302304     
   223.582330171373        162.093135128358        107.290156345672     
   193.531372963252        65.9555090720576        61.4201645213808     
   37.1565817655419        5.71014241021581       0.598990791167089     
  6.714668814146910E-005
 congrad: converged eigenvalue    4728.09898210929     
 congrad: End of iteration:           24


 -------Simulator : initializations ----------------------------------------
 -------Simulator : cost-function Jb ---------------------------------------
 -------Simulator : convert state from control to physical space -----------
 -------Simulator : change from model to TL  variables -------------------
 -------Simulator : call direct and adjoint  model -----------------------
 START CNT3TL
 START CNT4TL, NSIM4D=          25
ISTEP=       0 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5340
ISTEP=       0 ZI0= 1366.0000 ZSEASON= 1.034065865 REA=149597870000.00 RDEASO=147113087085.47
 NSTEP =     0 STEPOTL IAAA0VAAA
 NSTEP =     1 STEPOTL 0AAA00AAA
 NSTEP =     2 STEPOTL 0AAA0VAAA
 NSTEP =     3 STEPOTL 0AAA00AAA
 NSTEP =     4 STEPOTL 0AAA00AAA
ISTEP=       5 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5331
ISTEP=       5 ZI0= 1366.0000 ZSEASON= 1.034065245 REA=149597870000.00 RDEASO=147113131193.21
 NSTEP =     5 STEPOTL 0AAA0VAAA
 NSTEP =     6 STEPOTL 0AAA00AAA
 NSTEP =     7 STEPOTL 0AAA0VAAA
 NSTEP =     8 STEPOTL 0AAA00AAA
 NSTEP =     9 STEPOTL 0AAA00AAA
ISTEP=      10 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5323
ISTEP=      10 ZI0= 1366.0000 ZSEASON= 1.034064607 REA=149597870000.00 RDEASO=147113176585.14
 NSTEP =    10 STEPOTL 0AAA0VAAA
 NSTEP =    11 STEPOTL 0AAA00AAA
 NSTEP =    12 STEPOTL 0AAA0VAAA
 NSTEP =    13 STEPOTL 0AAA00AAA
 NSTEP =    14 STEPOTL 0AAA00AAA
ISTEP=      15 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5314
ISTEP=      15 ZI0= 1366.0000 ZSEASON= 1.034063950 REA=149597870000.00 RDEASO=147113223261.23
 NSTEP =    15 STEPOTL 0AAA0VAAA
 NSTEP =    16 STEPOTL 0AAA00AAA
 NSTEP =    17 STEPOTL 0AAA0VAAA
 NSTEP =    18 STEPOTL 0AAA00AAA
 NSTEP =    19 STEPOTL 0AAA00AAA
ISTEP=      20 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5304
ISTEP=      20 ZI0= 1366.0000 ZSEASON= 1.034063276 REA=149597870000.00 RDEASO=147113271221.47
 NSTEP =    20 STEPOTL 0AAA0VAAA
 NSTEP =    21 STEPOTL 0AAA00AAA
 NSTEP =    22 STEPOTL 0AAA0VAAA
 NSTEP =    23 STEPOTL 0AAA00AAA
 NSTEP =    24 STEPOTL 0AAA00AAA
ISTEP=      25 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5295
ISTEP=      25 ZI0= 1366.0000 ZSEASON= 1.034062584 REA=149597870000.00 RDEASO=147113320465.82
 NSTEP =    25 STEPOTL 0AAA0VAAA
 NSTEP =    26 STEPOTL 0AAA00AAA
 NSTEP =    27 STEPOTL 0AAA0VAAA
 NSTEP =    28 STEPOTL 0AAA00AAA
 NSTEP =    29 STEPOTL 0AAA00AAA
ISTEP=      30 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5285
ISTEP=      30 ZI0= 1366.0000 ZSEASON= 1.034061874 REA=149597870000.00 RDEASO=147113370994.27
 NSTEP =    30 STEPOTL 0AA00V000
 NSTEP =    30 OBSVTL  0AA00V000
 *** COMTC ARRIVAL        28164        7131         272
 END CNT3TL


    EVJCDFI2- Evaluation of the Jc cost function when the digital filter is used     NSPEC2 =    15670   ALPHAG =  100.000    
 EVJCDFI: DFI check, sum of coefs=  6.635317295611287E-017
         Global value of the Jc-DFI/ALPHAG cost function = 
   2.30513618652237     
 START CNT3AD
 START CNT4AD, NSIM4D=          25
 NSTEP =    30 OBSVAD  000000000
 CNT4AD (ADJOINT INTEGRATION); TIME SLOT NO :  13 TO BE USED WITH TIME STEP (NSTEP) :  30 ; MODEL TIME (SINCE START) : 21600.
 NSTEP =    30 STEPOAD 0AA00V000
 NSTEP =    29 STEPOAD 0AAA00AAA
 NSTEP =    28 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :  12 TO BE USED WITH TIME STEP (NSTEP) :  27 ; MODEL TIME (SINCE START) : 19440.
 NSTEP =    27 STEPOAD 0AAA0VAAA
 NSTEP =    26 STEPOAD 0AAA00AAA
ISTEP=      25 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5295
ISTEP=      25 ZI0= 1366.0000 ZSEASON= 1.034062584 REA=149597870000.00 RDEASO=147113320465.82
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :  11 TO BE USED WITH TIME STEP (NSTEP) :  25 ; MODEL TIME (SINCE START) : 18000.
 NSTEP =    25 STEPOAD 0AAA0VAAA
 NSTEP =    24 STEPOAD 0AAA00AAA
 NSTEP =    23 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :  10 TO BE USED WITH TIME STEP (NSTEP) :  22 ; MODEL TIME (SINCE START) : 15840.
 NSTEP =    22 STEPOAD 0AAA0VAAA
 NSTEP =    21 STEPOAD 0AAA00AAA
ISTEP=      20 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5304
ISTEP=      20 ZI0= 1366.0000 ZSEASON= 1.034063276 REA=149597870000.00 RDEASO=147113271221.47
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   9 TO BE USED WITH TIME STEP (NSTEP) :  20 ; MODEL TIME (SINCE START) : 14400.
 NSTEP =    20 STEPOAD 0AAA0VAAA
 NSTEP =    19 STEPOAD 0AAA00AAA
 NSTEP =    18 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   8 TO BE USED WITH TIME STEP (NSTEP) :  17 ; MODEL TIME (SINCE START) : 12240.
 NSTEP =    17 STEPOAD 0AAA0VAAA
 NSTEP =    16 STEPOAD 0AAA00AAA
ISTEP=      15 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5314
ISTEP=      15 ZI0= 1366.0000 ZSEASON= 1.034063950 REA=149597870000.00 RDEASO=147113223261.23
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   7 TO BE USED WITH TIME STEP (NSTEP) :  15 ; MODEL TIME (SINCE START) : 10800.
 NSTEP =    15 STEPOAD 0AAA0VAAA
 NSTEP =    14 STEPOAD 0AAA00AAA
 NSTEP =    13 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   6 TO BE USED WITH TIME STEP (NSTEP) :  12 ; MODEL TIME (SINCE START) :  8640.
 NSTEP =    12 STEPOAD 0AAA0VAAA
 NSTEP =    11 STEPOAD 0AAA00AAA
ISTEP=      10 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5323
ISTEP=      10 ZI0= 1366.0000 ZSEASON= 1.034064607 REA=149597870000.00 RDEASO=147113176585.14
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   5 TO BE USED WITH TIME STEP (NSTEP) :  10 ; MODEL TIME (SINCE START) :  7200.
 NSTEP =    10 STEPOAD 0AAA0VAAA
 NSTEP =     9 STEPOAD 0AAA00AAA
 NSTEP =     8 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   4 TO BE USED WITH TIME STEP (NSTEP) :   7 ; MODEL TIME (SINCE START) :  5040.
 NSTEP =     7 STEPOAD 0AAA0VAAA
 NSTEP =     6 STEPOAD 0AAA00AAA
ISTEP=       5 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5331
ISTEP=       5 ZI0= 1366.0000 ZSEASON= 1.034065245 REA=149597870000.00 RDEASO=147113131193.21
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   3 TO BE USED WITH TIME STEP (NSTEP) :   5 ; MODEL TIME (SINCE START) :  3600.
 NSTEP =     5 STEPOAD 0AAA0VAAA
 NSTEP =     4 STEPOAD 0AAA00AAA
 NSTEP =     3 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   2 TO BE USED WITH TIME STEP (NSTEP) :   2 ; MODEL TIME (SINCE START) :  1440.
 NSTEP =     2 STEPOAD 0AAA0VAAA
 NSTEP =     1 STEPOAD 0AAA00AAA
ISTEP=       0 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5340
ISTEP=       0 ZI0= 1366.0000 ZSEASON= 1.034065865 REA=149597870000.00 RDEASO=147113087085.47
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   1 TO BE USED WITH TIME STEP (NSTEP) :   0 ; MODEL TIME (SINCE START) :     0.
 NSTEP =     0 STEPOAD 0AAA0VAAA
 END CNT3AD
 Jc-DFI cost function =    115.256809326118      --   NSIM4D =           25
 EVCOST3  =  25 PZF = 0.1152568093261185E+03
 DIST. FUNC. JB=0.413772E+05 NSIM4D=   25 ++
 Jp cost function =    468.790275603683      --   NSIM4D =           25
 OBS DISTANCE FUNCTION JO=0.1603514917441342E+07 NSIM4D=   25 ==
 GREPMIN: Iteration   25 : Estimated gradient norm= 0.1831245842980311E+04  409C9CFBBE43218C
 Estimated reduction in norm of gradient is:   0.382575030552335     
 GREPMIN: Iteration   25 : Estimated quadratic cost= 0.1548645539190793E+07  4137A1658A086868
 congrad: ritz values are:    7.34802624476400        40.5827314912410     
   101.507786409703        192.538143658014        309.817705404843     
   457.020737673366        628.921405579532        803.871112562679     
   1030.47795911500        1255.64585072706        1460.32001104024     
   1793.80340829210        2045.30454059828        2293.93739841053     
   2530.19183855321        2785.59267788809        2975.89426494233     
   3245.04370321506        3432.56149150043        3579.08399745406     
   3770.19153007470        3923.07699458739        4079.64246532913     
   4179.74927772662        4728.09898210930     
 congrad: error bounds are:    21.8721174151218        53.5399759134156     
   82.6779007752291        118.955337093268        149.080936208744     
   173.268027745538        198.815138029559        215.539917527528     
   226.333126489707        258.644478260052        215.786036887958     
   239.606565771753        216.114666731566        296.553871529548     
   231.214286572845        206.207819810936        158.965552525982     
   67.3218589334725        118.470934132403        41.4180163789104     
   30.8405640236946        16.6643810152829        2.29653946089887     
  0.226309548891125       1.953188258570010E-005
 congrad: converged eigenvalue    4179.74927772662     
 congrad: converged eigenvalue    4728.09898210930     
 congrad: End of iteration:           25


 -------Simulator : initializations ----------------------------------------
 -------Simulator : cost-function Jb ---------------------------------------
 -------Simulator : convert state from control to physical space -----------
 -------Simulator : change from model to TL  variables -------------------
 -------Simulator : call direct and adjoint  model -----------------------
 START CNT3TL
 START CNT4TL, NSIM4D=          26
ISTEP=       0 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5340
ISTEP=       0 ZI0= 1366.0000 ZSEASON= 1.034065865 REA=149597870000.00 RDEASO=147113087085.47
 NSTEP =     0 STEPOTL IAAA0VAAA
 NSTEP =     1 STEPOTL 0AAA00AAA
 NSTEP =     2 STEPOTL 0AAA0VAAA
 NSTEP =     3 STEPOTL 0AAA00AAA
 NSTEP =     4 STEPOTL 0AAA00AAA
ISTEP=       5 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5331
ISTEP=       5 ZI0= 1366.0000 ZSEASON= 1.034065245 REA=149597870000.00 RDEASO=147113131193.21
 NSTEP =     5 STEPOTL 0AAA0VAAA
 NSTEP =     6 STEPOTL 0AAA00AAA
 NSTEP =     7 STEPOTL 0AAA0VAAA
 NSTEP =     8 STEPOTL 0AAA00AAA
 NSTEP =     9 STEPOTL 0AAA00AAA
ISTEP=      10 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5323
ISTEP=      10 ZI0= 1366.0000 ZSEASON= 1.034064607 REA=149597870000.00 RDEASO=147113176585.14
 NSTEP =    10 STEPOTL 0AAA0VAAA
 NSTEP =    11 STEPOTL 0AAA00AAA
 NSTEP =    12 STEPOTL 0AAA0VAAA
 NSTEP =    13 STEPOTL 0AAA00AAA
 NSTEP =    14 STEPOTL 0AAA00AAA
ISTEP=      15 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5314
ISTEP=      15 ZI0= 1366.0000 ZSEASON= 1.034063950 REA=149597870000.00 RDEASO=147113223261.23
 NSTEP =    15 STEPOTL 0AAA0VAAA
 NSTEP =    16 STEPOTL 0AAA00AAA
 NSTEP =    17 STEPOTL 0AAA0VAAA
 NSTEP =    18 STEPOTL 0AAA00AAA
 NSTEP =    19 STEPOTL 0AAA00AAA
ISTEP=      20 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5304
ISTEP=      20 ZI0= 1366.0000 ZSEASON= 1.034063276 REA=149597870000.00 RDEASO=147113271221.47
 NSTEP =    20 STEPOTL 0AAA0VAAA
 NSTEP =    21 STEPOTL 0AAA00AAA
 NSTEP =    22 STEPOTL 0AAA0VAAA
 NSTEP =    23 STEPOTL 0AAA00AAA
 NSTEP =    24 STEPOTL 0AAA00AAA
ISTEP=      25 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5295
ISTEP=      25 ZI0= 1366.0000 ZSEASON= 1.034062584 REA=149597870000.00 RDEASO=147113320465.82
 NSTEP =    25 STEPOTL 0AAA0VAAA
 NSTEP =    26 STEPOTL 0AAA00AAA
 NSTEP =    27 STEPOTL 0AAA0VAAA
 NSTEP =    28 STEPOTL 0AAA00AAA
 NSTEP =    29 STEPOTL 0AAA00AAA
ISTEP=      30 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5285
ISTEP=      30 ZI0= 1366.0000 ZSEASON= 1.034061874 REA=149597870000.00 RDEASO=147113370994.27
 NSTEP =    30 STEPOTL 0AA00V000
 NSTEP =    30 OBSVTL  0AA00V000
 *** COMTC ARRIVAL        28164        7131         272
 END CNT3TL


    EVJCDFI2- Evaluation of the Jc cost function when the digital filter is used     NSPEC2 =    15670   ALPHAG =  100.000    
 EVJCDFI: DFI check, sum of coefs=  6.635317295611287E-017
         Global value of the Jc-DFI/ALPHAG cost function = 
   2.01385052839796     
 START CNT3AD
 START CNT4AD, NSIM4D=          26
 NSTEP =    30 OBSVAD  000000000
 CNT4AD (ADJOINT INTEGRATION); TIME SLOT NO :  13 TO BE USED WITH TIME STEP (NSTEP) :  30 ; MODEL TIME (SINCE START) : 21600.
 NSTEP =    30 STEPOAD 0AA00V000
 NSTEP =    29 STEPOAD 0AAA00AAA
 NSTEP =    28 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :  12 TO BE USED WITH TIME STEP (NSTEP) :  27 ; MODEL TIME (SINCE START) : 19440.
 NSTEP =    27 STEPOAD 0AAA0VAAA
 NSTEP =    26 STEPOAD 0AAA00AAA
ISTEP=      25 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5295
ISTEP=      25 ZI0= 1366.0000 ZSEASON= 1.034062584 REA=149597870000.00 RDEASO=147113320465.82
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :  11 TO BE USED WITH TIME STEP (NSTEP) :  25 ; MODEL TIME (SINCE START) : 18000.
 NSTEP =    25 STEPOAD 0AAA0VAAA
 NSTEP =    24 STEPOAD 0AAA00AAA
 NSTEP =    23 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :  10 TO BE USED WITH TIME STEP (NSTEP) :  22 ; MODEL TIME (SINCE START) : 15840.
 NSTEP =    22 STEPOAD 0AAA0VAAA
 NSTEP =    21 STEPOAD 0AAA00AAA
ISTEP=      20 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5304
ISTEP=      20 ZI0= 1366.0000 ZSEASON= 1.034063276 REA=149597870000.00 RDEASO=147113271221.47
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   9 TO BE USED WITH TIME STEP (NSTEP) :  20 ; MODEL TIME (SINCE START) : 14400.
 NSTEP =    20 STEPOAD 0AAA0VAAA
 NSTEP =    19 STEPOAD 0AAA00AAA
 NSTEP =    18 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   8 TO BE USED WITH TIME STEP (NSTEP) :  17 ; MODEL TIME (SINCE START) : 12240.
 NSTEP =    17 STEPOAD 0AAA0VAAA
 NSTEP =    16 STEPOAD 0AAA00AAA
ISTEP=      15 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5314
ISTEP=      15 ZI0= 1366.0000 ZSEASON= 1.034063950 REA=149597870000.00 RDEASO=147113223261.23
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   7 TO BE USED WITH TIME STEP (NSTEP) :  15 ; MODEL TIME (SINCE START) : 10800.
 NSTEP =    15 STEPOAD 0AAA0VAAA
 NSTEP =    14 STEPOAD 0AAA00AAA
 NSTEP =    13 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   6 TO BE USED WITH TIME STEP (NSTEP) :  12 ; MODEL TIME (SINCE START) :  8640.
 NSTEP =    12 STEPOAD 0AAA0VAAA
 NSTEP =    11 STEPOAD 0AAA00AAA
ISTEP=      10 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5323
ISTEP=      10 ZI0= 1366.0000 ZSEASON= 1.034064607 REA=149597870000.00 RDEASO=147113176585.14
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   5 TO BE USED WITH TIME STEP (NSTEP) :  10 ; MODEL TIME (SINCE START) :  7200.
 NSTEP =    10 STEPOAD 0AAA0VAAA
 NSTEP =     9 STEPOAD 0AAA00AAA
 NSTEP =     8 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   4 TO BE USED WITH TIME STEP (NSTEP) :   7 ; MODEL TIME (SINCE START) :  5040.
 NSTEP =     7 STEPOAD 0AAA0VAAA
 NSTEP =     6 STEPOAD 0AAA00AAA
ISTEP=       5 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5331
ISTEP=       5 ZI0= 1366.0000 ZSEASON= 1.034065245 REA=149597870000.00 RDEASO=147113131193.21
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   3 TO BE USED WITH TIME STEP (NSTEP) :   5 ; MODEL TIME (SINCE START) :  3600.
 NSTEP =     5 STEPOAD 0AAA0VAAA
 NSTEP =     4 STEPOAD 0AAA00AAA
 NSTEP =     3 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   2 TO BE USED WITH TIME STEP (NSTEP) :   2 ; MODEL TIME (SINCE START) :  1440.
 NSTEP =     2 STEPOAD 0AAA0VAAA
 NSTEP =     1 STEPOAD 0AAA00AAA
ISTEP=       0 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5340
ISTEP=       0 ZI0= 1366.0000 ZSEASON= 1.034065865 REA=149597870000.00 RDEASO=147113087085.47
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   1 TO BE USED WITH TIME STEP (NSTEP) :   0 ; MODEL TIME (SINCE START) :     0.
 NSTEP =     0 STEPOAD 0AAA0VAAA
 END CNT3AD
 Jc-DFI cost function =    100.692526419898      --   NSIM4D =           26
 EVCOST3  =  26 PZF = 0.1006925264198979E+03
 DIST. FUNC. JB=0.413909E+05 NSIM4D=   26 ++
 Jp cost function =    468.949661539521      --   NSIM4D =           26
 OBS DISTANCE FUNCTION JO=0.1603556643078583E+07 NSIM4D=   26 ==
 GREPMIN: Iteration   26 : Estimated gradient norm= 0.1855494084322202E+04  409CFDF9F13D954D
 Estimated reduction in norm of gradient is:   0.387640855934424     
 GREPMIN: Iteration   26 : Estimated quadratic cost= 0.1546914298225687E+07  41379AA24C5884C4
 congrad: ritz values are:    6.84550406124972        37.5585968667279     
   94.1828191917715        177.157401004114        285.856844193729     
   423.487588769761        582.743430876974        751.972669563837     
   960.844786448282        1167.79928585320        1396.86093378516     
   1642.18312378951        1905.33863077581        2117.77650595765     
   2402.91954808271        2617.70355500489        2844.41109045564     
   3013.99343861040        3249.45463115988        3443.79505106083     
   3580.36264972839        3770.77525078289        3923.22922839149     
   4079.64507901326        4179.74930168393        4728.09898210930     
 congrad: error bounds are:    21.4384654993650        52.3947232721985     
   81.3131539788220        116.468294965560        141.830223277941     
   166.736009819537        193.160368144980        196.754434905219     
   239.761732707334        250.970231726824        225.115076492693     
   373.623582055299        305.450036681554        249.382187552717     
   261.259425875885        282.806298353019        234.487619507757     
   209.136047713891        60.9248612804842        87.9501314150491     
   28.8199812232394        17.6816638912464        8.53590684778754     
   1.06348241379112       9.892056710285310E-002  6.620276871063251E-006
 congrad: converged eigenvalue    4179.74930168393     
 congrad: converged eigenvalue    4728.09898210930     
 congrad: End of iteration:           26


 -------Simulator : initializations ----------------------------------------
 -------Simulator : cost-function Jb ---------------------------------------
 -------Simulator : convert state from control to physical space -----------
 -------Simulator : change from model to TL  variables -------------------
 -------Simulator : call direct and adjoint  model -----------------------
 START CNT3TL
 START CNT4TL, NSIM4D=          27
ISTEP=       0 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5340
ISTEP=       0 ZI0= 1366.0000 ZSEASON= 1.034065865 REA=149597870000.00 RDEASO=147113087085.47
 NSTEP =     0 STEPOTL IAAA0VAAA
 NSTEP =     1 STEPOTL 0AAA00AAA
 NSTEP =     2 STEPOTL 0AAA0VAAA
 NSTEP =     3 STEPOTL 0AAA00AAA
 NSTEP =     4 STEPOTL 0AAA00AAA
ISTEP=       5 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5331
ISTEP=       5 ZI0= 1366.0000 ZSEASON= 1.034065245 REA=149597870000.00 RDEASO=147113131193.21
 NSTEP =     5 STEPOTL 0AAA0VAAA
 NSTEP =     6 STEPOTL 0AAA00AAA
 NSTEP =     7 STEPOTL 0AAA0VAAA
 NSTEP =     8 STEPOTL 0AAA00AAA
 NSTEP =     9 STEPOTL 0AAA00AAA
ISTEP=      10 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5323
ISTEP=      10 ZI0= 1366.0000 ZSEASON= 1.034064607 REA=149597870000.00 RDEASO=147113176585.14
 NSTEP =    10 STEPOTL 0AAA0VAAA
 NSTEP =    11 STEPOTL 0AAA00AAA
 NSTEP =    12 STEPOTL 0AAA0VAAA
 NSTEP =    13 STEPOTL 0AAA00AAA
 NSTEP =    14 STEPOTL 0AAA00AAA
ISTEP=      15 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5314
ISTEP=      15 ZI0= 1366.0000 ZSEASON= 1.034063950 REA=149597870000.00 RDEASO=147113223261.23
 NSTEP =    15 STEPOTL 0AAA0VAAA
 NSTEP =    16 STEPOTL 0AAA00AAA
 NSTEP =    17 STEPOTL 0AAA0VAAA
 NSTEP =    18 STEPOTL 0AAA00AAA
 NSTEP =    19 STEPOTL 0AAA00AAA
ISTEP=      20 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5304
ISTEP=      20 ZI0= 1366.0000 ZSEASON= 1.034063276 REA=149597870000.00 RDEASO=147113271221.47
 NSTEP =    20 STEPOTL 0AAA0VAAA
 NSTEP =    21 STEPOTL 0AAA00AAA
 NSTEP =    22 STEPOTL 0AAA0VAAA
 NSTEP =    23 STEPOTL 0AAA00AAA
 NSTEP =    24 STEPOTL 0AAA00AAA
ISTEP=      25 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5295
ISTEP=      25 ZI0= 1366.0000 ZSEASON= 1.034062584 REA=149597870000.00 RDEASO=147113320465.82
 NSTEP =    25 STEPOTL 0AAA0VAAA
 NSTEP =    26 STEPOTL 0AAA00AAA
 NSTEP =    27 STEPOTL 0AAA0VAAA
 NSTEP =    28 STEPOTL 0AAA00AAA
 NSTEP =    29 STEPOTL 0AAA00AAA
ISTEP=      30 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5285
ISTEP=      30 ZI0= 1366.0000 ZSEASON= 1.034061874 REA=149597870000.00 RDEASO=147113370994.27
 NSTEP =    30 STEPOTL 0AA00V000
 NSTEP =    30 OBSVTL  0AA00V000
 *** COMTC ARRIVAL        28164        7131         272
 END CNT3TL


    EVJCDFI2- Evaluation of the Jc cost function when the digital filter is used     NSPEC2 =    15670   ALPHAG =  100.000    
 EVJCDFI: DFI check, sum of coefs=  6.635317295611287E-017
         Global value of the Jc-DFI/ALPHAG cost function = 
   1.97742773049904     
 START CNT3AD
 START CNT4AD, NSIM4D=          27
 NSTEP =    30 OBSVAD  000000000
 CNT4AD (ADJOINT INTEGRATION); TIME SLOT NO :  13 TO BE USED WITH TIME STEP (NSTEP) :  30 ; MODEL TIME (SINCE START) : 21600.
 NSTEP =    30 STEPOAD 0AA00V000
 NSTEP =    29 STEPOAD 0AAA00AAA
 NSTEP =    28 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :  12 TO BE USED WITH TIME STEP (NSTEP) :  27 ; MODEL TIME (SINCE START) : 19440.
 NSTEP =    27 STEPOAD 0AAA0VAAA
 NSTEP =    26 STEPOAD 0AAA00AAA
ISTEP=      25 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5295
ISTEP=      25 ZI0= 1366.0000 ZSEASON= 1.034062584 REA=149597870000.00 RDEASO=147113320465.82
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :  11 TO BE USED WITH TIME STEP (NSTEP) :  25 ; MODEL TIME (SINCE START) : 18000.
 NSTEP =    25 STEPOAD 0AAA0VAAA
 NSTEP =    24 STEPOAD 0AAA00AAA
 NSTEP =    23 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :  10 TO BE USED WITH TIME STEP (NSTEP) :  22 ; MODEL TIME (SINCE START) : 15840.
 NSTEP =    22 STEPOAD 0AAA0VAAA
 NSTEP =    21 STEPOAD 0AAA00AAA
ISTEP=      20 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5304
ISTEP=      20 ZI0= 1366.0000 ZSEASON= 1.034063276 REA=149597870000.00 RDEASO=147113271221.47
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   9 TO BE USED WITH TIME STEP (NSTEP) :  20 ; MODEL TIME (SINCE START) : 14400.
 NSTEP =    20 STEPOAD 0AAA0VAAA
 NSTEP =    19 STEPOAD 0AAA00AAA
 NSTEP =    18 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   8 TO BE USED WITH TIME STEP (NSTEP) :  17 ; MODEL TIME (SINCE START) : 12240.
 NSTEP =    17 STEPOAD 0AAA0VAAA
 NSTEP =    16 STEPOAD 0AAA00AAA
ISTEP=      15 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5314
ISTEP=      15 ZI0= 1366.0000 ZSEASON= 1.034063950 REA=149597870000.00 RDEASO=147113223261.23
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   7 TO BE USED WITH TIME STEP (NSTEP) :  15 ; MODEL TIME (SINCE START) : 10800.
 NSTEP =    15 STEPOAD 0AAA0VAAA
 NSTEP =    14 STEPOAD 0AAA00AAA
 NSTEP =    13 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   6 TO BE USED WITH TIME STEP (NSTEP) :  12 ; MODEL TIME (SINCE START) :  8640.
 NSTEP =    12 STEPOAD 0AAA0VAAA
 NSTEP =    11 STEPOAD 0AAA00AAA
ISTEP=      10 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5323
ISTEP=      10 ZI0= 1366.0000 ZSEASON= 1.034064607 REA=149597870000.00 RDEASO=147113176585.14
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   5 TO BE USED WITH TIME STEP (NSTEP) :  10 ; MODEL TIME (SINCE START) :  7200.
 NSTEP =    10 STEPOAD 0AAA0VAAA
 NSTEP =     9 STEPOAD 0AAA00AAA
 NSTEP =     8 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   4 TO BE USED WITH TIME STEP (NSTEP) :   7 ; MODEL TIME (SINCE START) :  5040.
 NSTEP =     7 STEPOAD 0AAA0VAAA
 NSTEP =     6 STEPOAD 0AAA00AAA
ISTEP=       5 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5331
ISTEP=       5 ZI0= 1366.0000 ZSEASON= 1.034065245 REA=149597870000.00 RDEASO=147113131193.21
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   3 TO BE USED WITH TIME STEP (NSTEP) :   5 ; MODEL TIME (SINCE START) :  3600.
 NSTEP =     5 STEPOAD 0AAA0VAAA
 NSTEP =     4 STEPOAD 0AAA00AAA
 NSTEP =     3 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   2 TO BE USED WITH TIME STEP (NSTEP) :   2 ; MODEL TIME (SINCE START) :  1440.
 NSTEP =     2 STEPOAD 0AAA0VAAA
 NSTEP =     1 STEPOAD 0AAA00AAA
ISTEP=       0 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5340
ISTEP=       0 ZI0= 1366.0000 ZSEASON= 1.034065865 REA=149597870000.00 RDEASO=147113087085.47
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   1 TO BE USED WITH TIME STEP (NSTEP) :   0 ; MODEL TIME (SINCE START) :     0.
 NSTEP =     0 STEPOAD 0AAA0VAAA
 END CNT3AD
 Jc-DFI cost function =    98.8713865249521      --   NSIM4D =           27
 EVCOST3  =  27 PZF = 0.9887138652495211E+02
 DIST. FUNC. JB=0.413771E+05 NSIM4D=   27 ++
 Jp cost function =    468.769562499751      --   NSIM4D =           27
 OBS DISTANCE FUNCTION JO=0.1603696055750777E+07 NSIM4D=   27 ==
 GREPMIN: Iteration   27 : Estimated gradient norm= 0.1722115059976347E+04  409AE875D2484DF6
 Estimated reduction in norm of gradient is:   0.359775954829115     
 GREPMIN: Iteration   27 : Estimated quadratic cost= 0.1545325139315638E+07  4137946D23AA308D
 congrad: ritz values are:    6.41412106366398        34.9756031118856     
   87.8824371581882        164.238064139302        266.641138841687     
   395.605312969763        544.009047045556        709.400304379811     
   890.365527568901        1092.90863711989        1313.12641714368     
   1492.10266417132        1805.08878158763        2042.00651971864     
   2262.95637119390        2495.77295503209        2732.93075577321     
   2927.86290314309        3128.07700438861        3257.57003009885     
   3453.44326362030        3581.23503695323        3771.02453614291     
   3923.27902906504        4079.64575818278        4179.74930715167     
   4728.09898210929     
 congrad: error bounds are:    19.1269494200883        46.6290686839696     
   72.6260319123580        102.479654368106        123.349596307233     
   149.142075476420        173.943862066719        183.663923926625     
   232.958971765863        227.897382709454        256.802467057806     
   248.592727673259        229.417320617716        218.782515287881     
   306.921441812004        238.210643414720        262.153660260926     
   235.813638916271        386.324619535653        123.742705634180     
   103.253156644366        28.7825207940553        13.4157536279735     
   5.55239597586669       0.607788631081155       5.260489489300786E-002
  2.593144794602418E-006
 congrad: converged eigenvalue    4179.74930715167     
 congrad: converged eigenvalue    4728.09898210929     
 congrad: End of iteration:           27


 -------Simulator : initializations ----------------------------------------
 -------Simulator : cost-function Jb ---------------------------------------
 -------Simulator : convert state from control to physical space -----------
 -------Simulator : change from model to TL  variables -------------------
 -------Simulator : call direct and adjoint  model -----------------------
 START CNT3TL
 START CNT4TL, NSIM4D=          28
ISTEP=       0 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5340
ISTEP=       0 ZI0= 1366.0000 ZSEASON= 1.034065865 REA=149597870000.00 RDEASO=147113087085.47
 NSTEP =     0 STEPOTL IAAA0VAAA
 NSTEP =     1 STEPOTL 0AAA00AAA
 NSTEP =     2 STEPOTL 0AAA0VAAA
 NSTEP =     3 STEPOTL 0AAA00AAA
 NSTEP =     4 STEPOTL 0AAA00AAA
ISTEP=       5 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5331
ISTEP=       5 ZI0= 1366.0000 ZSEASON= 1.034065245 REA=149597870000.00 RDEASO=147113131193.21
 NSTEP =     5 STEPOTL 0AAA0VAAA
 NSTEP =     6 STEPOTL 0AAA00AAA
 NSTEP =     7 STEPOTL 0AAA0VAAA
 NSTEP =     8 STEPOTL 0AAA00AAA
 NSTEP =     9 STEPOTL 0AAA00AAA
ISTEP=      10 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5323
ISTEP=      10 ZI0= 1366.0000 ZSEASON= 1.034064607 REA=149597870000.00 RDEASO=147113176585.14
 NSTEP =    10 STEPOTL 0AAA0VAAA
 NSTEP =    11 STEPOTL 0AAA00AAA
 NSTEP =    12 STEPOTL 0AAA0VAAA
 NSTEP =    13 STEPOTL 0AAA00AAA
 NSTEP =    14 STEPOTL 0AAA00AAA
ISTEP=      15 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5314
ISTEP=      15 ZI0= 1366.0000 ZSEASON= 1.034063950 REA=149597870000.00 RDEASO=147113223261.23
 NSTEP =    15 STEPOTL 0AAA0VAAA
 NSTEP =    16 STEPOTL 0AAA00AAA
 NSTEP =    17 STEPOTL 0AAA0VAAA
 NSTEP =    18 STEPOTL 0AAA00AAA
 NSTEP =    19 STEPOTL 0AAA00AAA
ISTEP=      20 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5304
ISTEP=      20 ZI0= 1366.0000 ZSEASON= 1.034063276 REA=149597870000.00 RDEASO=147113271221.47
 NSTEP =    20 STEPOTL 0AAA0VAAA
 NSTEP =    21 STEPOTL 0AAA00AAA
 NSTEP =    22 STEPOTL 0AAA0VAAA
 NSTEP =    23 STEPOTL 0AAA00AAA
 NSTEP =    24 STEPOTL 0AAA00AAA
ISTEP=      25 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5295
ISTEP=      25 ZI0= 1366.0000 ZSEASON= 1.034062584 REA=149597870000.00 RDEASO=147113320465.82
 NSTEP =    25 STEPOTL 0AAA0VAAA
 NSTEP =    26 STEPOTL 0AAA00AAA
 NSTEP =    27 STEPOTL 0AAA0VAAA
 NSTEP =    28 STEPOTL 0AAA00AAA
 NSTEP =    29 STEPOTL 0AAA00AAA
ISTEP=      30 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5285
ISTEP=      30 ZI0= 1366.0000 ZSEASON= 1.034061874 REA=149597870000.00 RDEASO=147113370994.27
 NSTEP =    30 STEPOTL 0AA00V000
 NSTEP =    30 OBSVTL  0AA00V000
 *** COMTC ARRIVAL        28164        7131         272
 END CNT3TL


    EVJCDFI2- Evaluation of the Jc cost function when the digital filter is used     NSPEC2 =    15670   ALPHAG =  100.000    
 EVJCDFI: DFI check, sum of coefs=  6.635317295611287E-017
         Global value of the Jc-DFI/ALPHAG cost function = 
   2.25120574875126     
 START CNT3AD
 START CNT4AD, NSIM4D=          28
 NSTEP =    30 OBSVAD  000000000
 CNT4AD (ADJOINT INTEGRATION); TIME SLOT NO :  13 TO BE USED WITH TIME STEP (NSTEP) :  30 ; MODEL TIME (SINCE START) : 21600.
 NSTEP =    30 STEPOAD 0AA00V000
 NSTEP =    29 STEPOAD 0AAA00AAA
 NSTEP =    28 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :  12 TO BE USED WITH TIME STEP (NSTEP) :  27 ; MODEL TIME (SINCE START) : 19440.
 NSTEP =    27 STEPOAD 0AAA0VAAA
 NSTEP =    26 STEPOAD 0AAA00AAA
ISTEP=      25 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5295
ISTEP=      25 ZI0= 1366.0000 ZSEASON= 1.034062584 REA=149597870000.00 RDEASO=147113320465.82
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :  11 TO BE USED WITH TIME STEP (NSTEP) :  25 ; MODEL TIME (SINCE START) : 18000.
 NSTEP =    25 STEPOAD 0AAA0VAAA
 NSTEP =    24 STEPOAD 0AAA00AAA
 NSTEP =    23 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :  10 TO BE USED WITH TIME STEP (NSTEP) :  22 ; MODEL TIME (SINCE START) : 15840.
 NSTEP =    22 STEPOAD 0AAA0VAAA
 NSTEP =    21 STEPOAD 0AAA00AAA
ISTEP=      20 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5304
ISTEP=      20 ZI0= 1366.0000 ZSEASON= 1.034063276 REA=149597870000.00 RDEASO=147113271221.47
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   9 TO BE USED WITH TIME STEP (NSTEP) :  20 ; MODEL TIME (SINCE START) : 14400.
 NSTEP =    20 STEPOAD 0AAA0VAAA
 NSTEP =    19 STEPOAD 0AAA00AAA
 NSTEP =    18 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   8 TO BE USED WITH TIME STEP (NSTEP) :  17 ; MODEL TIME (SINCE START) : 12240.
 NSTEP =    17 STEPOAD 0AAA0VAAA
 NSTEP =    16 STEPOAD 0AAA00AAA
ISTEP=      15 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5314
ISTEP=      15 ZI0= 1366.0000 ZSEASON= 1.034063950 REA=149597870000.00 RDEASO=147113223261.23
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   7 TO BE USED WITH TIME STEP (NSTEP) :  15 ; MODEL TIME (SINCE START) : 10800.
 NSTEP =    15 STEPOAD 0AAA0VAAA
 NSTEP =    14 STEPOAD 0AAA00AAA
 NSTEP =    13 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   6 TO BE USED WITH TIME STEP (NSTEP) :  12 ; MODEL TIME (SINCE START) :  8640.
 NSTEP =    12 STEPOAD 0AAA0VAAA
 NSTEP =    11 STEPOAD 0AAA00AAA
ISTEP=      10 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5323
ISTEP=      10 ZI0= 1366.0000 ZSEASON= 1.034064607 REA=149597870000.00 RDEASO=147113176585.14
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   5 TO BE USED WITH TIME STEP (NSTEP) :  10 ; MODEL TIME (SINCE START) :  7200.
 NSTEP =    10 STEPOAD 0AAA0VAAA
 NSTEP =     9 STEPOAD 0AAA00AAA
 NSTEP =     8 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   4 TO BE USED WITH TIME STEP (NSTEP) :   7 ; MODEL TIME (SINCE START) :  5040.
 NSTEP =     7 STEPOAD 0AAA0VAAA
 NSTEP =     6 STEPOAD 0AAA00AAA
ISTEP=       5 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5331
ISTEP=       5 ZI0= 1366.0000 ZSEASON= 1.034065245 REA=149597870000.00 RDEASO=147113131193.21
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   3 TO BE USED WITH TIME STEP (NSTEP) :   5 ; MODEL TIME (SINCE START) :  3600.
 NSTEP =     5 STEPOAD 0AAA0VAAA
 NSTEP =     4 STEPOAD 0AAA00AAA
 NSTEP =     3 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   2 TO BE USED WITH TIME STEP (NSTEP) :   2 ; MODEL TIME (SINCE START) :  1440.
 NSTEP =     2 STEPOAD 0AAA0VAAA
 NSTEP =     1 STEPOAD 0AAA00AAA
ISTEP=       0 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5340
ISTEP=       0 ZI0= 1366.0000 ZSEASON= 1.034065865 REA=149597870000.00 RDEASO=147113087085.47
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   1 TO BE USED WITH TIME STEP (NSTEP) :   0 ; MODEL TIME (SINCE START) :     0.
 NSTEP =     0 STEPOAD 0AAA0VAAA
 END CNT3AD
 Jc-DFI cost function =    112.560287437563      --   NSIM4D =           28
 EVCOST3  =  28 PZF = 0.1125602874375632E+03
 DIST. FUNC. JB=0.413918E+05 NSIM4D=   28 ++
 Jp cost function =    468.975706206113      --   NSIM4D =           28
 OBS DISTANCE FUNCTION JO=0.1603591250304625E+07 NSIM4D=   28 ==
 GREPMIN: Iteration   28 : Estimated gradient norm= 0.1765742290027476E+04  409B96F81AE0809E
 Estimated reduction in norm of gradient is:   0.368890344867844     
 GREPMIN: Iteration   28 : Estimated quadratic cost= 0.1543862743014141E+07  41378EB6BE362CBE
 congrad: ritz values are:    6.04039997660457        32.7422216195424     
   82.3648759446110        153.188774499667        250.043982049934     
   369.599816080791        507.022688732612        663.698988458463     
   820.807979711347        1021.75520856920        1217.51138520039     
   1419.64149877728        1667.33456730045        1898.39809480253     
   2101.23840484993        2362.49569165435        2561.15058022910     
   2791.50530626328        2969.53085485706        3234.76142129999     
   3329.42967907430        3471.15115985102        3582.26144742964     
   3771.17202853844        3923.29992930766        4079.64597465263     
   4179.74930865203        4728.09898210930     
 congrad: error bounds are:    18.4494012390428        45.0277387964066     
   70.8370895514633        99.2844031802070        122.144004465137     
   154.362890844836        182.056308856498        203.894029548854     
   230.160828625558        233.844105410734        256.434034733225     
   210.342753547299        344.848284439311        281.707765430858     
   211.204332375433        239.871122052809        216.708360635593     
   182.990602198408        147.513179896307        140.942624296962     
   312.035376499032        154.947128355922        33.6456152777017     
   10.3908632605357        3.55804591278986       0.336659026685951     
  2.695965626960730E-002  9.703405176814949E-007
 congrad: converged eigenvalue    4079.64597465263     
 congrad: converged eigenvalue    4179.74930865203     
 congrad: converged eigenvalue    4728.09898210930     
 congrad: End of iteration:           28


 -------Simulator : initializations ----------------------------------------
 -------Simulator : cost-function Jb ---------------------------------------
 -------Simulator : convert state from control to physical space -----------
 -------Simulator : change from model to TL  variables -------------------
 -------Simulator : call direct and adjoint  model -----------------------
 START CNT3TL
 START CNT4TL, NSIM4D=          29
ISTEP=       0 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5340
ISTEP=       0 ZI0= 1366.0000 ZSEASON= 1.034065865 REA=149597870000.00 RDEASO=147113087085.47
 NSTEP =     0 STEPOTL IAAA0VAAA
 NSTEP =     1 STEPOTL 0AAA00AAA
 NSTEP =     2 STEPOTL 0AAA0VAAA
 NSTEP =     3 STEPOTL 0AAA00AAA
 NSTEP =     4 STEPOTL 0AAA00AAA
ISTEP=       5 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5331
ISTEP=       5 ZI0= 1366.0000 ZSEASON= 1.034065245 REA=149597870000.00 RDEASO=147113131193.21
 NSTEP =     5 STEPOTL 0AAA0VAAA
 NSTEP =     6 STEPOTL 0AAA00AAA
 NSTEP =     7 STEPOTL 0AAA0VAAA
 NSTEP =     8 STEPOTL 0AAA00AAA
 NSTEP =     9 STEPOTL 0AAA00AAA
ISTEP=      10 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5323
ISTEP=      10 ZI0= 1366.0000 ZSEASON= 1.034064607 REA=149597870000.00 RDEASO=147113176585.14
 NSTEP =    10 STEPOTL 0AAA0VAAA
 NSTEP =    11 STEPOTL 0AAA00AAA
 NSTEP =    12 STEPOTL 0AAA0VAAA
 NSTEP =    13 STEPOTL 0AAA00AAA
 NSTEP =    14 STEPOTL 0AAA00AAA
ISTEP=      15 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5314
ISTEP=      15 ZI0= 1366.0000 ZSEASON= 1.034063950 REA=149597870000.00 RDEASO=147113223261.23
 NSTEP =    15 STEPOTL 0AAA0VAAA
 NSTEP =    16 STEPOTL 0AAA00AAA
 NSTEP =    17 STEPOTL 0AAA0VAAA
 NSTEP =    18 STEPOTL 0AAA00AAA
 NSTEP =    19 STEPOTL 0AAA00AAA
ISTEP=      20 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5304
ISTEP=      20 ZI0= 1366.0000 ZSEASON= 1.034063276 REA=149597870000.00 RDEASO=147113271221.47
 NSTEP =    20 STEPOTL 0AAA0VAAA
 NSTEP =    21 STEPOTL 0AAA00AAA
 NSTEP =    22 STEPOTL 0AAA0VAAA
 NSTEP =    23 STEPOTL 0AAA00AAA
 NSTEP =    24 STEPOTL 0AAA00AAA
ISTEP=      25 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5295
ISTEP=      25 ZI0= 1366.0000 ZSEASON= 1.034062584 REA=149597870000.00 RDEASO=147113320465.82
 NSTEP =    25 STEPOTL 0AAA0VAAA
 NSTEP =    26 STEPOTL 0AAA00AAA
 NSTEP =    27 STEPOTL 0AAA0VAAA
 NSTEP =    28 STEPOTL 0AAA00AAA
 NSTEP =    29 STEPOTL 0AAA00AAA
ISTEP=      30 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5285
ISTEP=      30 ZI0= 1366.0000 ZSEASON= 1.034061874 REA=149597870000.00 RDEASO=147113370994.27
 NSTEP =    30 STEPOTL 0AA00V000
 NSTEP =    30 OBSVTL  0AA00V000
 *** COMTC ARRIVAL        28164        7131         272
 END CNT3TL


    EVJCDFI2- Evaluation of the Jc cost function when the digital filter is used     NSPEC2 =    15670   ALPHAG =  100.000    
 EVJCDFI: DFI check, sum of coefs=  6.635317295611287E-017
         Global value of the Jc-DFI/ALPHAG cost function = 
   2.42399574651069     
 START CNT3AD
 START CNT4AD, NSIM4D=          29
 NSTEP =    30 OBSVAD  000000000
 CNT4AD (ADJOINT INTEGRATION); TIME SLOT NO :  13 TO BE USED WITH TIME STEP (NSTEP) :  30 ; MODEL TIME (SINCE START) : 21600.
 NSTEP =    30 STEPOAD 0AA00V000
 NSTEP =    29 STEPOAD 0AAA00AAA
 NSTEP =    28 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :  12 TO BE USED WITH TIME STEP (NSTEP) :  27 ; MODEL TIME (SINCE START) : 19440.
 NSTEP =    27 STEPOAD 0AAA0VAAA
 NSTEP =    26 STEPOAD 0AAA00AAA
ISTEP=      25 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5295
ISTEP=      25 ZI0= 1366.0000 ZSEASON= 1.034062584 REA=149597870000.00 RDEASO=147113320465.82
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :  11 TO BE USED WITH TIME STEP (NSTEP) :  25 ; MODEL TIME (SINCE START) : 18000.
 NSTEP =    25 STEPOAD 0AAA0VAAA
 NSTEP =    24 STEPOAD 0AAA00AAA
 NSTEP =    23 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :  10 TO BE USED WITH TIME STEP (NSTEP) :  22 ; MODEL TIME (SINCE START) : 15840.
 NSTEP =    22 STEPOAD 0AAA0VAAA
 NSTEP =    21 STEPOAD 0AAA00AAA
ISTEP=      20 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5304
ISTEP=      20 ZI0= 1366.0000 ZSEASON= 1.034063276 REA=149597870000.00 RDEASO=147113271221.47
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   9 TO BE USED WITH TIME STEP (NSTEP) :  20 ; MODEL TIME (SINCE START) : 14400.
 NSTEP =    20 STEPOAD 0AAA0VAAA
 NSTEP =    19 STEPOAD 0AAA00AAA
 NSTEP =    18 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   8 TO BE USED WITH TIME STEP (NSTEP) :  17 ; MODEL TIME (SINCE START) : 12240.
 NSTEP =    17 STEPOAD 0AAA0VAAA
 NSTEP =    16 STEPOAD 0AAA00AAA
ISTEP=      15 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5314
ISTEP=      15 ZI0= 1366.0000 ZSEASON= 1.034063950 REA=149597870000.00 RDEASO=147113223261.23
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   7 TO BE USED WITH TIME STEP (NSTEP) :  15 ; MODEL TIME (SINCE START) : 10800.
 NSTEP =    15 STEPOAD 0AAA0VAAA
 NSTEP =    14 STEPOAD 0AAA00AAA
 NSTEP =    13 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   6 TO BE USED WITH TIME STEP (NSTEP) :  12 ; MODEL TIME (SINCE START) :  8640.
 NSTEP =    12 STEPOAD 0AAA0VAAA
 NSTEP =    11 STEPOAD 0AAA00AAA
ISTEP=      10 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5323
ISTEP=      10 ZI0= 1366.0000 ZSEASON= 1.034064607 REA=149597870000.00 RDEASO=147113176585.14
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   5 TO BE USED WITH TIME STEP (NSTEP) :  10 ; MODEL TIME (SINCE START) :  7200.
 NSTEP =    10 STEPOAD 0AAA0VAAA
 NSTEP =     9 STEPOAD 0AAA00AAA
 NSTEP =     8 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   4 TO BE USED WITH TIME STEP (NSTEP) :   7 ; MODEL TIME (SINCE START) :  5040.
 NSTEP =     7 STEPOAD 0AAA0VAAA
 NSTEP =     6 STEPOAD 0AAA00AAA
ISTEP=       5 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5331
ISTEP=       5 ZI0= 1366.0000 ZSEASON= 1.034065245 REA=149597870000.00 RDEASO=147113131193.21
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   3 TO BE USED WITH TIME STEP (NSTEP) :   5 ; MODEL TIME (SINCE START) :  3600.
 NSTEP =     5 STEPOAD 0AAA0VAAA
 NSTEP =     4 STEPOAD 0AAA00AAA
 NSTEP =     3 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   2 TO BE USED WITH TIME STEP (NSTEP) :   2 ; MODEL TIME (SINCE START) :  1440.
 NSTEP =     2 STEPOAD 0AAA0VAAA
 NSTEP =     1 STEPOAD 0AAA00AAA
ISTEP=       0 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5340
ISTEP=       0 ZI0= 1366.0000 ZSEASON= 1.034065865 REA=149597870000.00 RDEASO=147113087085.47
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   1 TO BE USED WITH TIME STEP (NSTEP) :   0 ; MODEL TIME (SINCE START) :     0.
 NSTEP =     0 STEPOAD 0AAA0VAAA
 END CNT3AD
 Jc-DFI cost function =    121.199787325534      --   NSIM4D =           29
 EVCOST3  =  29 PZF = 0.1211997873255343E+03
 DIST. FUNC. JB=0.413767E+05 NSIM4D=   29 ++
 Jp cost function =    468.743537012006      --   NSIM4D =           29
 OBS DISTANCE FUNCTION JO=0.1603631662000983E+07 NSIM4D=   29 ==
 GREPMIN: Iteration   29 : Estimated gradient norm= 0.1818902377064480E+04  409C6B9C08BBB267
 Estimated reduction in norm of gradient is:   0.379996293312891     
 GREPMIN: Iteration   29 : Estimated quadratic cost= 0.1542432071119119E+07  413789201234DCD2
 congrad: ritz values are:    5.69444917200719        30.6665273242366     
   77.1215147648947        142.816393416837        233.562655593261     
   342.275467318719        469.286956548168        615.536400560792     
   766.305918398746        956.163736502275        1141.60091678912     
   1352.59974724703        1521.53327808534        1810.09992883480     
   2034.10802355783        2224.07702258460        2452.76431102890     
   2647.61972821199        2840.45346992570        2997.12872579802     
   3244.71096823881        3406.55313586927        3513.41585648020     
   3584.16048568688        3771.26650605250        3923.30883878418     
   4079.64604295474        4179.74930905613        4728.09898210929     
 congrad: error bounds are:    18.6587967509274        45.6683335733042     
   72.6985329287979        101.273863860804        128.421457768491     
   163.095585700835        184.356948378117        201.704485726596     
   198.853636923053        228.581114156162        232.392978087620     
   241.509691994702        277.243743644057        230.859991531755     
   239.347958167075        331.969974152623        270.190392767092     
   305.089910797689        234.199012468633        175.085797082364     
   67.6946692417332        202.021723490203        233.580942788097     
   55.7922932712329        9.05632263892336        2.49431471690656     
  0.202095534455576       1.493085938280943E-002  3.901097067633103E-007
 congrad: converged eigenvalue    4079.64604295474     
 congrad: converged eigenvalue    4179.74930905613     
 congrad: converged eigenvalue    4728.09898210929     
 congrad: End of iteration:           29


 -------Simulator : initializations ----------------------------------------
 -------Simulator : cost-function Jb ---------------------------------------
 -------Simulator : convert state from control to physical space -----------
 -------Simulator : change from model to TL  variables -------------------
 -------Simulator : call direct and adjoint  model -----------------------
 START CNT3TL
 START CNT4TL, NSIM4D=          30
ISTEP=       0 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5340
ISTEP=       0 ZI0= 1366.0000 ZSEASON= 1.034065865 REA=149597870000.00 RDEASO=147113087085.47
 NSTEP =     0 STEPOTL IAAA0VAAA
 NSTEP =     1 STEPOTL 0AAA00AAA
 NSTEP =     2 STEPOTL 0AAA0VAAA
 NSTEP =     3 STEPOTL 0AAA00AAA
 NSTEP =     4 STEPOTL 0AAA00AAA
ISTEP=       5 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5331
ISTEP=       5 ZI0= 1366.0000 ZSEASON= 1.034065245 REA=149597870000.00 RDEASO=147113131193.21
 NSTEP =     5 STEPOTL 0AAA0VAAA
 NSTEP =     6 STEPOTL 0AAA00AAA
 NSTEP =     7 STEPOTL 0AAA0VAAA
 NSTEP =     8 STEPOTL 0AAA00AAA
 NSTEP =     9 STEPOTL 0AAA00AAA
ISTEP=      10 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5323
ISTEP=      10 ZI0= 1366.0000 ZSEASON= 1.034064607 REA=149597870000.00 RDEASO=147113176585.14
 NSTEP =    10 STEPOTL 0AAA0VAAA
 NSTEP =    11 STEPOTL 0AAA00AAA
 NSTEP =    12 STEPOTL 0AAA0VAAA
 NSTEP =    13 STEPOTL 0AAA00AAA
 NSTEP =    14 STEPOTL 0AAA00AAA
ISTEP=      15 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5314
ISTEP=      15 ZI0= 1366.0000 ZSEASON= 1.034063950 REA=149597870000.00 RDEASO=147113223261.23
 NSTEP =    15 STEPOTL 0AAA0VAAA
 NSTEP =    16 STEPOTL 0AAA00AAA
 NSTEP =    17 STEPOTL 0AAA0VAAA
 NSTEP =    18 STEPOTL 0AAA00AAA
 NSTEP =    19 STEPOTL 0AAA00AAA
ISTEP=      20 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5304
ISTEP=      20 ZI0= 1366.0000 ZSEASON= 1.034063276 REA=149597870000.00 RDEASO=147113271221.47
 NSTEP =    20 STEPOTL 0AAA0VAAA
 NSTEP =    21 STEPOTL 0AAA00AAA
 NSTEP =    22 STEPOTL 0AAA0VAAA
 NSTEP =    23 STEPOTL 0AAA00AAA
 NSTEP =    24 STEPOTL 0AAA00AAA
ISTEP=      25 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5295
ISTEP=      25 ZI0= 1366.0000 ZSEASON= 1.034062584 REA=149597870000.00 RDEASO=147113320465.82
 NSTEP =    25 STEPOTL 0AAA0VAAA
 NSTEP =    26 STEPOTL 0AAA00AAA
 NSTEP =    27 STEPOTL 0AAA0VAAA
 NSTEP =    28 STEPOTL 0AAA00AAA
 NSTEP =    29 STEPOTL 0AAA00AAA
ISTEP=      30 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5285
ISTEP=      30 ZI0= 1366.0000 ZSEASON= 1.034061874 REA=149597870000.00 RDEASO=147113370994.27
 NSTEP =    30 STEPOTL 0AA00V000
 NSTEP =    30 OBSVTL  0AA00V000
 *** COMTC ARRIVAL        28164        7131         272
 END CNT3TL


    EVJCDFI2- Evaluation of the Jc cost function when the digital filter is used     NSPEC2 =    15670   ALPHAG =  100.000    
 EVJCDFI: DFI check, sum of coefs=  6.635317295611287E-017
         Global value of the Jc-DFI/ALPHAG cost function = 
   3.04731763501738     
 START CNT3AD
 START CNT4AD, NSIM4D=          30
 NSTEP =    30 OBSVAD  000000000
 CNT4AD (ADJOINT INTEGRATION); TIME SLOT NO :  13 TO BE USED WITH TIME STEP (NSTEP) :  30 ; MODEL TIME (SINCE START) : 21600.
 NSTEP =    30 STEPOAD 0AA00V000
 NSTEP =    29 STEPOAD 0AAA00AAA
 NSTEP =    28 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :  12 TO BE USED WITH TIME STEP (NSTEP) :  27 ; MODEL TIME (SINCE START) : 19440.
 NSTEP =    27 STEPOAD 0AAA0VAAA
 NSTEP =    26 STEPOAD 0AAA00AAA
ISTEP=      25 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5295
ISTEP=      25 ZI0= 1366.0000 ZSEASON= 1.034062584 REA=149597870000.00 RDEASO=147113320465.82
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :  11 TO BE USED WITH TIME STEP (NSTEP) :  25 ; MODEL TIME (SINCE START) : 18000.
 NSTEP =    25 STEPOAD 0AAA0VAAA
 NSTEP =    24 STEPOAD 0AAA00AAA
 NSTEP =    23 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :  10 TO BE USED WITH TIME STEP (NSTEP) :  22 ; MODEL TIME (SINCE START) : 15840.
 NSTEP =    22 STEPOAD 0AAA0VAAA
 NSTEP =    21 STEPOAD 0AAA00AAA
ISTEP=      20 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5304
ISTEP=      20 ZI0= 1366.0000 ZSEASON= 1.034063276 REA=149597870000.00 RDEASO=147113271221.47
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   9 TO BE USED WITH TIME STEP (NSTEP) :  20 ; MODEL TIME (SINCE START) : 14400.
 NSTEP =    20 STEPOAD 0AAA0VAAA
 NSTEP =    19 STEPOAD 0AAA00AAA
 NSTEP =    18 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   8 TO BE USED WITH TIME STEP (NSTEP) :  17 ; MODEL TIME (SINCE START) : 12240.
 NSTEP =    17 STEPOAD 0AAA0VAAA
 NSTEP =    16 STEPOAD 0AAA00AAA
ISTEP=      15 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5314
ISTEP=      15 ZI0= 1366.0000 ZSEASON= 1.034063950 REA=149597870000.00 RDEASO=147113223261.23
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   7 TO BE USED WITH TIME STEP (NSTEP) :  15 ; MODEL TIME (SINCE START) : 10800.
 NSTEP =    15 STEPOAD 0AAA0VAAA
 NSTEP =    14 STEPOAD 0AAA00AAA
 NSTEP =    13 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   6 TO BE USED WITH TIME STEP (NSTEP) :  12 ; MODEL TIME (SINCE START) :  8640.
 NSTEP =    12 STEPOAD 0AAA0VAAA
 NSTEP =    11 STEPOAD 0AAA00AAA
ISTEP=      10 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5323
ISTEP=      10 ZI0= 1366.0000 ZSEASON= 1.034064607 REA=149597870000.00 RDEASO=147113176585.14
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   5 TO BE USED WITH TIME STEP (NSTEP) :  10 ; MODEL TIME (SINCE START) :  7200.
 NSTEP =    10 STEPOAD 0AAA0VAAA
 NSTEP =     9 STEPOAD 0AAA00AAA
 NSTEP =     8 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   4 TO BE USED WITH TIME STEP (NSTEP) :   7 ; MODEL TIME (SINCE START) :  5040.
 NSTEP =     7 STEPOAD 0AAA0VAAA
 NSTEP =     6 STEPOAD 0AAA00AAA
ISTEP=       5 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5331
ISTEP=       5 ZI0= 1366.0000 ZSEASON= 1.034065245 REA=149597870000.00 RDEASO=147113131193.21
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   3 TO BE USED WITH TIME STEP (NSTEP) :   5 ; MODEL TIME (SINCE START) :  3600.
 NSTEP =     5 STEPOAD 0AAA0VAAA
 NSTEP =     4 STEPOAD 0AAA00AAA
 NSTEP =     3 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   2 TO BE USED WITH TIME STEP (NSTEP) :   2 ; MODEL TIME (SINCE START) :  1440.
 NSTEP =     2 STEPOAD 0AAA0VAAA
 NSTEP =     1 STEPOAD 0AAA00AAA
ISTEP=       0 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5340
ISTEP=       0 ZI0= 1366.0000 ZSEASON= 1.034065865 REA=149597870000.00 RDEASO=147113087085.47
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   1 TO BE USED WITH TIME STEP (NSTEP) :   0 ; MODEL TIME (SINCE START) :     0.
 NSTEP =     0 STEPOAD 0AAA0VAAA
 END CNT3AD
 Jc-DFI cost function =    152.365881750869      --   NSIM4D =           30
 EVCOST3  =  30 PZF = 0.1523658817508690E+03
 DIST. FUNC. JB=0.413912E+05 NSIM4D=   30 ++
 Jp cost function =    468.998737044606      --   NSIM4D =           30
 OBS DISTANCE FUNCTION JO=0.1603684985915314E+07 NSIM4D=   30 ==
 GREPMIN: Iteration   30 : Estimated gradient norm= 0.1635923303331807E+04  40998FB1766DB997
 Estimated reduction in norm of gradient is:   0.341769189621676     
 GREPMIN: Iteration   30 : Estimated quadratic cost= 0.1541035466225535E+07  413783AB775A8E82
 congrad: ritz values are:    5.37430658851884        28.7394932653815     
   72.1746329052193        133.267203477575        217.810334963516     
   317.630169427575        438.920015115954        579.055167542677     
   730.119271284515        901.145862743531        1083.81858789985     
   1277.73910160885        1449.71151397488        1711.53360863665     
   1913.62357043222        2100.97767624200        2347.33330702771     
   2539.17776455098        2761.33819692544        2935.43753583013     
   3091.65475165583        3250.77552808185        3436.60217373807     
   3573.53358038110        3607.82429002273        3771.36796186700     
   3923.31434539188        4079.64607241192        4179.74930920156     
   4728.09898210930     
 congrad: error bounds are:    16.7049365383918        40.9068928995205     
   65.4064481041401        89.5253785207516        114.357572286415     
   137.608452828407        147.720995414259        159.987706564357     
   160.415288759964        203.404432851481        204.473389464393     
   236.077308295222        198.707805049816        297.127916659955     
   275.160487067039        201.851413749805        234.362753367071     
   211.632088076858        222.437988204734        233.469151346650     
   362.949119638878        85.6345217185760        129.716808272673     
   144.174784619287        258.475258357899        10.9165389686214     
   2.15160061783159       0.142057853863705       9.492927542855795E-003
  1.703079341373024E-007
 congrad: converged eigenvalue    4079.64607241192     
 congrad: converged eigenvalue    4179.74930920156     
 congrad: converged eigenvalue    4728.09898210930     
 congrad: End of iteration:           30


 -------Simulator : initializations ----------------------------------------
 -------Simulator : cost-function Jb ---------------------------------------
 -------Simulator : convert state from control to physical space -----------
 -------Simulator : change from model to TL  variables -------------------
 -------Simulator : call direct and adjoint  model -----------------------
 START CNT3TL
 START CNT4TL, NSIM4D=          31
ISTEP=       0 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5340
ISTEP=       0 ZI0= 1366.0000 ZSEASON= 1.034065865 REA=149597870000.00 RDEASO=147113087085.47
 NSTEP =     0 STEPOTL IAAA0VAAA
 NSTEP =     1 STEPOTL 0AAA00AAA
 NSTEP =     2 STEPOTL 0AAA0VAAA
 NSTEP =     3 STEPOTL 0AAA00AAA
 NSTEP =     4 STEPOTL 0AAA00AAA
ISTEP=       5 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5331
ISTEP=       5 ZI0= 1366.0000 ZSEASON= 1.034065245 REA=149597870000.00 RDEASO=147113131193.21
 NSTEP =     5 STEPOTL 0AAA0VAAA
 NSTEP =     6 STEPOTL 0AAA00AAA
 NSTEP =     7 STEPOTL 0AAA0VAAA
 NSTEP =     8 STEPOTL 0AAA00AAA
 NSTEP =     9 STEPOTL 0AAA00AAA
ISTEP=      10 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5323
ISTEP=      10 ZI0= 1366.0000 ZSEASON= 1.034064607 REA=149597870000.00 RDEASO=147113176585.14
 NSTEP =    10 STEPOTL 0AAA0VAAA
 NSTEP =    11 STEPOTL 0AAA00AAA
 NSTEP =    12 STEPOTL 0AAA0VAAA
 NSTEP =    13 STEPOTL 0AAA00AAA
 NSTEP =    14 STEPOTL 0AAA00AAA
ISTEP=      15 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5314
ISTEP=      15 ZI0= 1366.0000 ZSEASON= 1.034063950 REA=149597870000.00 RDEASO=147113223261.23
 NSTEP =    15 STEPOTL 0AAA0VAAA
 NSTEP =    16 STEPOTL 0AAA00AAA
 NSTEP =    17 STEPOTL 0AAA0VAAA
 NSTEP =    18 STEPOTL 0AAA00AAA
 NSTEP =    19 STEPOTL 0AAA00AAA
ISTEP=      20 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5304
ISTEP=      20 ZI0= 1366.0000 ZSEASON= 1.034063276 REA=149597870000.00 RDEASO=147113271221.47
 NSTEP =    20 STEPOTL 0AAA0VAAA
 NSTEP =    21 STEPOTL 0AAA00AAA
 NSTEP =    22 STEPOTL 0AAA0VAAA
 NSTEP =    23 STEPOTL 0AAA00AAA
 NSTEP =    24 STEPOTL 0AAA00AAA
ISTEP=      25 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5295
ISTEP=      25 ZI0= 1366.0000 ZSEASON= 1.034062584 REA=149597870000.00 RDEASO=147113320465.82
 NSTEP =    25 STEPOTL 0AAA0VAAA
 NSTEP =    26 STEPOTL 0AAA00AAA
 NSTEP =    27 STEPOTL 0AAA0VAAA
 NSTEP =    28 STEPOTL 0AAA00AAA
 NSTEP =    29 STEPOTL 0AAA00AAA
ISTEP=      30 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5285
ISTEP=      30 ZI0= 1366.0000 ZSEASON= 1.034061874 REA=149597870000.00 RDEASO=147113370994.27
 NSTEP =    30 STEPOTL 0AA00V000
 NSTEP =    30 OBSVTL  0AA00V000
 *** COMTC ARRIVAL        28164        7131         272
 END CNT3TL


    EVJCDFI2- Evaluation of the Jc cost function when the digital filter is used     NSPEC2 =    15670   ALPHAG =  100.000    
 EVJCDFI: DFI check, sum of coefs=  6.635317295611287E-017
         Global value of the Jc-DFI/ALPHAG cost function = 
   2.34842036666335     
 START CNT3AD
 START CNT4AD, NSIM4D=          31
 NSTEP =    30 OBSVAD  000000000
 CNT4AD (ADJOINT INTEGRATION); TIME SLOT NO :  13 TO BE USED WITH TIME STEP (NSTEP) :  30 ; MODEL TIME (SINCE START) : 21600.
 NSTEP =    30 STEPOAD 0AA00V000
 NSTEP =    29 STEPOAD 0AAA00AAA
 NSTEP =    28 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :  12 TO BE USED WITH TIME STEP (NSTEP) :  27 ; MODEL TIME (SINCE START) : 19440.
 NSTEP =    27 STEPOAD 0AAA0VAAA
 NSTEP =    26 STEPOAD 0AAA00AAA
ISTEP=      25 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5295
ISTEP=      25 ZI0= 1366.0000 ZSEASON= 1.034062584 REA=149597870000.00 RDEASO=147113320465.82
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :  11 TO BE USED WITH TIME STEP (NSTEP) :  25 ; MODEL TIME (SINCE START) : 18000.
 NSTEP =    25 STEPOAD 0AAA0VAAA
 NSTEP =    24 STEPOAD 0AAA00AAA
 NSTEP =    23 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :  10 TO BE USED WITH TIME STEP (NSTEP) :  22 ; MODEL TIME (SINCE START) : 15840.
 NSTEP =    22 STEPOAD 0AAA0VAAA
 NSTEP =    21 STEPOAD 0AAA00AAA
ISTEP=      20 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5304
ISTEP=      20 ZI0= 1366.0000 ZSEASON= 1.034063276 REA=149597870000.00 RDEASO=147113271221.47
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   9 TO BE USED WITH TIME STEP (NSTEP) :  20 ; MODEL TIME (SINCE START) : 14400.
 NSTEP =    20 STEPOAD 0AAA0VAAA
 NSTEP =    19 STEPOAD 0AAA00AAA
 NSTEP =    18 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   8 TO BE USED WITH TIME STEP (NSTEP) :  17 ; MODEL TIME (SINCE START) : 12240.
 NSTEP =    17 STEPOAD 0AAA0VAAA
 NSTEP =    16 STEPOAD 0AAA00AAA
ISTEP=      15 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5314
ISTEP=      15 ZI0= 1366.0000 ZSEASON= 1.034063950 REA=149597870000.00 RDEASO=147113223261.23
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   7 TO BE USED WITH TIME STEP (NSTEP) :  15 ; MODEL TIME (SINCE START) : 10800.
 NSTEP =    15 STEPOAD 0AAA0VAAA
 NSTEP =    14 STEPOAD 0AAA00AAA
 NSTEP =    13 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   6 TO BE USED WITH TIME STEP (NSTEP) :  12 ; MODEL TIME (SINCE START) :  8640.
 NSTEP =    12 STEPOAD 0AAA0VAAA
 NSTEP =    11 STEPOAD 0AAA00AAA
ISTEP=      10 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5323
ISTEP=      10 ZI0= 1366.0000 ZSEASON= 1.034064607 REA=149597870000.00 RDEASO=147113176585.14
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   5 TO BE USED WITH TIME STEP (NSTEP) :  10 ; MODEL TIME (SINCE START) :  7200.
 NSTEP =    10 STEPOAD 0AAA0VAAA
 NSTEP =     9 STEPOAD 0AAA00AAA
 NSTEP =     8 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   4 TO BE USED WITH TIME STEP (NSTEP) :   7 ; MODEL TIME (SINCE START) :  5040.
 NSTEP =     7 STEPOAD 0AAA0VAAA
 NSTEP =     6 STEPOAD 0AAA00AAA
ISTEP=       5 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5331
ISTEP=       5 ZI0= 1366.0000 ZSEASON= 1.034065245 REA=149597870000.00 RDEASO=147113131193.21
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   3 TO BE USED WITH TIME STEP (NSTEP) :   5 ; MODEL TIME (SINCE START) :  3600.
 NSTEP =     5 STEPOAD 0AAA0VAAA
 NSTEP =     4 STEPOAD 0AAA00AAA
 NSTEP =     3 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   2 TO BE USED WITH TIME STEP (NSTEP) :   2 ; MODEL TIME (SINCE START) :  1440.
 NSTEP =     2 STEPOAD 0AAA0VAAA
 NSTEP =     1 STEPOAD 0AAA00AAA
ISTEP=       0 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5340
ISTEP=       0 ZI0= 1366.0000 ZSEASON= 1.034065865 REA=149597870000.00 RDEASO=147113087085.47
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   1 TO BE USED WITH TIME STEP (NSTEP) :   0 ; MODEL TIME (SINCE START) :     0.
 NSTEP =     0 STEPOAD 0AAA0VAAA
 END CNT3AD
 Jc-DFI cost function =    117.421018333168      --   NSIM4D =           31
 EVCOST3  =  31 PZF = 0.1174210183331676E+03
 DIST. FUNC. JB=0.413767E+05 NSIM4D=   31 ++
 Jp cost function =    468.723237802274      --   NSIM4D =           31
 OBS DISTANCE FUNCTION JO=0.1603575206782783E+07 NSIM4D=   31 ==
 GREPMIN: Iteration   31 : Estimated gradient norm= 0.1500273697957389E+04  409771184446FFDD
 Estimated reduction in norm of gradient is:   0.313429929702281     
 GREPMIN: Iteration   31 : Estimated quadratic cost= 0.1539613841256502E+07  41377E1DD75C960A
 congrad: ritz values are:    5.06521171284157        26.8769501575559     
   67.3645353675407        124.319388319133        202.946464134680     
   296.675609573654        413.736319357777        546.561384852242     
   691.791480444340        836.214003355257        1013.43227611855     
   1185.08265588807        1378.64900387672        1543.00743650981     
   1808.29686766425        2018.60974350667        2180.32762732671     
   2409.03547382737        2587.78155963519        2798.32513218698     
   2967.78412422878        3205.60667571975        3267.26150623036     
   3449.25269356728        3579.80738822292        3677.43524036235     
   3771.51298155174        3923.31788858885        4079.64608488059     
   4179.74930925207        4728.09898210930     
 congrad: error bounds are:    14.9825424574206        36.6994349457437     
   58.7445949781046        78.8812894079681        100.847292392427     
   116.283076415440        128.662535207078        149.820182985545     
   169.755360796149        208.325026732954        210.971705978286     
   219.814220965760        199.777214682543        246.624045972386     
   186.354095841977        201.664395443825        234.398663722407     
   180.728633310915        164.699568900956        123.477086888435     
   101.428136019114        196.756052176748        137.726393488615     
   76.6282478937139        32.6590866056100        192.302988608476     
   10.7639947996561        1.33489236314788       7.114899343429046E-002
  4.313342092884331E-003  5.464146740557201E-008
 congrad: converged eigenvalue    4079.64608488059     
 congrad: converged eigenvalue    4179.74930925207     
 congrad: converged eigenvalue    4728.09898210930     
 congrad: End of iteration:           31


 -------Simulator : initializations ----------------------------------------
 -------Simulator : cost-function Jb ---------------------------------------
 -------Simulator : convert state from control to physical space -----------
 -------Simulator : change from model to TL  variables -------------------
 -------Simulator : call direct and adjoint  model -----------------------
 START CNT3TL
 START CNT4TL, NSIM4D=          32
ISTEP=       0 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5340
ISTEP=       0 ZI0= 1366.0000 ZSEASON= 1.034065865 REA=149597870000.00 RDEASO=147113087085.47
 NSTEP =     0 STEPOTL IAAA0VAAA
 NSTEP =     1 STEPOTL 0AAA00AAA
 NSTEP =     2 STEPOTL 0AAA0VAAA
 NSTEP =     3 STEPOTL 0AAA00AAA
 NSTEP =     4 STEPOTL 0AAA00AAA
ISTEP=       5 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5331
ISTEP=       5 ZI0= 1366.0000 ZSEASON= 1.034065245 REA=149597870000.00 RDEASO=147113131193.21
 NSTEP =     5 STEPOTL 0AAA0VAAA
 NSTEP =     6 STEPOTL 0AAA00AAA
 NSTEP =     7 STEPOTL 0AAA0VAAA
 NSTEP =     8 STEPOTL 0AAA00AAA
 NSTEP =     9 STEPOTL 0AAA00AAA
ISTEP=      10 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5323
ISTEP=      10 ZI0= 1366.0000 ZSEASON= 1.034064607 REA=149597870000.00 RDEASO=147113176585.14
 NSTEP =    10 STEPOTL 0AAA0VAAA
 NSTEP =    11 STEPOTL 0AAA00AAA
 NSTEP =    12 STEPOTL 0AAA0VAAA
 NSTEP =    13 STEPOTL 0AAA00AAA
 NSTEP =    14 STEPOTL 0AAA00AAA
ISTEP=      15 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5314
ISTEP=      15 ZI0= 1366.0000 ZSEASON= 1.034063950 REA=149597870000.00 RDEASO=147113223261.23
 NSTEP =    15 STEPOTL 0AAA0VAAA
 NSTEP =    16 STEPOTL 0AAA00AAA
 NSTEP =    17 STEPOTL 0AAA0VAAA
 NSTEP =    18 STEPOTL 0AAA00AAA
 NSTEP =    19 STEPOTL 0AAA00AAA
ISTEP=      20 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5304
ISTEP=      20 ZI0= 1366.0000 ZSEASON= 1.034063276 REA=149597870000.00 RDEASO=147113271221.47
 NSTEP =    20 STEPOTL 0AAA0VAAA
 NSTEP =    21 STEPOTL 0AAA00AAA
 NSTEP =    22 STEPOTL 0AAA0VAAA
 NSTEP =    23 STEPOTL 0AAA00AAA
 NSTEP =    24 STEPOTL 0AAA00AAA
ISTEP=      25 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5295
ISTEP=      25 ZI0= 1366.0000 ZSEASON= 1.034062584 REA=149597870000.00 RDEASO=147113320465.82
 NSTEP =    25 STEPOTL 0AAA0VAAA
 NSTEP =    26 STEPOTL 0AAA00AAA
 NSTEP =    27 STEPOTL 0AAA0VAAA
 NSTEP =    28 STEPOTL 0AAA00AAA
 NSTEP =    29 STEPOTL 0AAA00AAA
ISTEP=      30 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5285
ISTEP=      30 ZI0= 1366.0000 ZSEASON= 1.034061874 REA=149597870000.00 RDEASO=147113370994.27
 NSTEP =    30 STEPOTL 0AA00V000
 NSTEP =    30 OBSVTL  0AA00V000
 *** COMTC ARRIVAL        28164        7131         272
 END CNT3TL


    EVJCDFI2- Evaluation of the Jc cost function when the digital filter is used     NSPEC2 =    15670   ALPHAG =  100.000    
 EVJCDFI: DFI check, sum of coefs=  6.635317295611287E-017
         Global value of the Jc-DFI/ALPHAG cost function = 
   2.12506148194766     
 START CNT3AD
 START CNT4AD, NSIM4D=          32
 NSTEP =    30 OBSVAD  000000000
 CNT4AD (ADJOINT INTEGRATION); TIME SLOT NO :  13 TO BE USED WITH TIME STEP (NSTEP) :  30 ; MODEL TIME (SINCE START) : 21600.
 NSTEP =    30 STEPOAD 0AA00V000
 NSTEP =    29 STEPOAD 0AAA00AAA
 NSTEP =    28 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :  12 TO BE USED WITH TIME STEP (NSTEP) :  27 ; MODEL TIME (SINCE START) : 19440.
 NSTEP =    27 STEPOAD 0AAA0VAAA
 NSTEP =    26 STEPOAD 0AAA00AAA
ISTEP=      25 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5295
ISTEP=      25 ZI0= 1366.0000 ZSEASON= 1.034062584 REA=149597870000.00 RDEASO=147113320465.82
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :  11 TO BE USED WITH TIME STEP (NSTEP) :  25 ; MODEL TIME (SINCE START) : 18000.
 NSTEP =    25 STEPOAD 0AAA0VAAA
 NSTEP =    24 STEPOAD 0AAA00AAA
 NSTEP =    23 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :  10 TO BE USED WITH TIME STEP (NSTEP) :  22 ; MODEL TIME (SINCE START) : 15840.
 NSTEP =    22 STEPOAD 0AAA0VAAA
 NSTEP =    21 STEPOAD 0AAA00AAA
ISTEP=      20 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5304
ISTEP=      20 ZI0= 1366.0000 ZSEASON= 1.034063276 REA=149597870000.00 RDEASO=147113271221.47
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   9 TO BE USED WITH TIME STEP (NSTEP) :  20 ; MODEL TIME (SINCE START) : 14400.
 NSTEP =    20 STEPOAD 0AAA0VAAA
 NSTEP =    19 STEPOAD 0AAA00AAA
 NSTEP =    18 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   8 TO BE USED WITH TIME STEP (NSTEP) :  17 ; MODEL TIME (SINCE START) : 12240.
 NSTEP =    17 STEPOAD 0AAA0VAAA
 NSTEP =    16 STEPOAD 0AAA00AAA
ISTEP=      15 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5314
ISTEP=      15 ZI0= 1366.0000 ZSEASON= 1.034063950 REA=149597870000.00 RDEASO=147113223261.23
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   7 TO BE USED WITH TIME STEP (NSTEP) :  15 ; MODEL TIME (SINCE START) : 10800.
 NSTEP =    15 STEPOAD 0AAA0VAAA
 NSTEP =    14 STEPOAD 0AAA00AAA
 NSTEP =    13 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   6 TO BE USED WITH TIME STEP (NSTEP) :  12 ; MODEL TIME (SINCE START) :  8640.
 NSTEP =    12 STEPOAD 0AAA0VAAA
 NSTEP =    11 STEPOAD 0AAA00AAA
ISTEP=      10 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5323
ISTEP=      10 ZI0= 1366.0000 ZSEASON= 1.034064607 REA=149597870000.00 RDEASO=147113176585.14
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   5 TO BE USED WITH TIME STEP (NSTEP) :  10 ; MODEL TIME (SINCE START) :  7200.
 NSTEP =    10 STEPOAD 0AAA0VAAA
 NSTEP =     9 STEPOAD 0AAA00AAA
 NSTEP =     8 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   4 TO BE USED WITH TIME STEP (NSTEP) :   7 ; MODEL TIME (SINCE START) :  5040.
 NSTEP =     7 STEPOAD 0AAA0VAAA
 NSTEP =     6 STEPOAD 0AAA00AAA
ISTEP=       5 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5331
ISTEP=       5 ZI0= 1366.0000 ZSEASON= 1.034065245 REA=149597870000.00 RDEASO=147113131193.21
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   3 TO BE USED WITH TIME STEP (NSTEP) :   5 ; MODEL TIME (SINCE START) :  3600.
 NSTEP =     5 STEPOAD 0AAA0VAAA
 NSTEP =     4 STEPOAD 0AAA00AAA
 NSTEP =     3 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   2 TO BE USED WITH TIME STEP (NSTEP) :   2 ; MODEL TIME (SINCE START) :  1440.
 NSTEP =     2 STEPOAD 0AAA0VAAA
 NSTEP =     1 STEPOAD 0AAA00AAA
ISTEP=       0 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5340
ISTEP=       0 ZI0= 1366.0000 ZSEASON= 1.034065865 REA=149597870000.00 RDEASO=147113087085.47
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   1 TO BE USED WITH TIME STEP (NSTEP) :   0 ; MODEL TIME (SINCE START) :     0.
 NSTEP =     0 STEPOAD 0AAA0VAAA
 END CNT3AD
 Jc-DFI cost function =    106.253074097383      --   NSIM4D =           32
 EVCOST3  =  32 PZF = 0.1062530740973828E+03
 DIST. FUNC. JB=0.413925E+05 NSIM4D=   32 ++
 Jp cost function =    469.024006938595      --   NSIM4D =           32
 OBS DISTANCE FUNCTION JO=0.1603466651699521E+07 NSIM4D=   32 ==
 GREPMIN: Iteration   32 : Estimated gradient norm= 0.1638982675462703E+04  40999BEE4279FB90
 Estimated reduction in norm of gradient is:   0.342408338860395     
 GREPMIN: Iteration   32 : Estimated quadratic cost= 0.1538323303326419E+07  413779134DA6CCD9
 congrad: ritz values are:    4.79824679680590        25.2647870776437     
   63.1881585980752        116.770040652482        190.264738473557     
   279.485240240963        390.144201251134        510.957607038375     
   642.505975628689        774.823325650503        945.626783132504     
   1114.12740778089        1300.41276435859        1456.53160995503     
   1693.97078957191        1879.89583982341        2071.61026684136     
   2268.92437368635        2457.22416370111        2625.93853159600     
   2814.55927222138        2976.52793256169        3226.93625448513     
   3286.66621086079        3453.27859646196        3580.37663682979     
   3699.32081244330        3771.59546264804        3923.31885105045     
   4079.64608728579        4179.74930926037        4728.09898210929     
 congrad: error bounds are:    15.8685577168856        38.9659012060202     
   62.5738176132413        83.3955688819136        108.009114183663     
   125.218688027444        151.717130700095        187.094334686135     
   211.756362705510        205.716294321381        220.035613494433     
   216.274125142941        242.992169246410        213.486852595219     
   316.916389771610        260.746837195872        191.846342765052     
   266.437268881030        209.129462276931        191.255287197212     
   114.339139431403        75.9810282713957        89.7772153406515     
   116.883074359755        46.6242866009637        15.5233691078258     
   100.396946072589        6.82951457492383       0.642713430338421     
  3.013434175977096E-002  1.714626885863388E-003  1.680136546009930E-008
 congrad: converged eigenvalue    4079.64608728579     
 congrad: converged eigenvalue    4179.74930926037     
 congrad: converged eigenvalue    4728.09898210929     
 congrad: End of iteration:           32


 -------Simulator : initializations ----------------------------------------
 -------Simulator : cost-function Jb ---------------------------------------
 -------Simulator : convert state from control to physical space -----------
 -------Simulator : change from model to TL  variables -------------------
 -------Simulator : call direct and adjoint  model -----------------------
 START CNT3TL
 START CNT4TL, NSIM4D=          33
ISTEP=       0 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5340
ISTEP=       0 ZI0= 1366.0000 ZSEASON= 1.034065865 REA=149597870000.00 RDEASO=147113087085.47
 NSTEP =     0 STEPOTL IAAA0VAAA
 NSTEP =     1 STEPOTL 0AAA00AAA
 NSTEP =     2 STEPOTL 0AAA0VAAA
 NSTEP =     3 STEPOTL 0AAA00AAA
 NSTEP =     4 STEPOTL 0AAA00AAA
ISTEP=       5 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5331
ISTEP=       5 ZI0= 1366.0000 ZSEASON= 1.034065245 REA=149597870000.00 RDEASO=147113131193.21
 NSTEP =     5 STEPOTL 0AAA0VAAA
 NSTEP =     6 STEPOTL 0AAA00AAA
 NSTEP =     7 STEPOTL 0AAA0VAAA
 NSTEP =     8 STEPOTL 0AAA00AAA
 NSTEP =     9 STEPOTL 0AAA00AAA
ISTEP=      10 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5323
ISTEP=      10 ZI0= 1366.0000 ZSEASON= 1.034064607 REA=149597870000.00 RDEASO=147113176585.14
 NSTEP =    10 STEPOTL 0AAA0VAAA
 NSTEP =    11 STEPOTL 0AAA00AAA
 NSTEP =    12 STEPOTL 0AAA0VAAA
 NSTEP =    13 STEPOTL 0AAA00AAA
 NSTEP =    14 STEPOTL 0AAA00AAA
ISTEP=      15 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5314
ISTEP=      15 ZI0= 1366.0000 ZSEASON= 1.034063950 REA=149597870000.00 RDEASO=147113223261.23
 NSTEP =    15 STEPOTL 0AAA0VAAA
 NSTEP =    16 STEPOTL 0AAA00AAA
 NSTEP =    17 STEPOTL 0AAA0VAAA
 NSTEP =    18 STEPOTL 0AAA00AAA
 NSTEP =    19 STEPOTL 0AAA00AAA
ISTEP=      20 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5304
ISTEP=      20 ZI0= 1366.0000 ZSEASON= 1.034063276 REA=149597870000.00 RDEASO=147113271221.47
 NSTEP =    20 STEPOTL 0AAA0VAAA
 NSTEP =    21 STEPOTL 0AAA00AAA
 NSTEP =    22 STEPOTL 0AAA0VAAA
 NSTEP =    23 STEPOTL 0AAA00AAA
 NSTEP =    24 STEPOTL 0AAA00AAA
ISTEP=      25 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5295
ISTEP=      25 ZI0= 1366.0000 ZSEASON= 1.034062584 REA=149597870000.00 RDEASO=147113320465.82
 NSTEP =    25 STEPOTL 0AAA0VAAA
 NSTEP =    26 STEPOTL 0AAA00AAA
 NSTEP =    27 STEPOTL 0AAA0VAAA
 NSTEP =    28 STEPOTL 0AAA00AAA
 NSTEP =    29 STEPOTL 0AAA00AAA
ISTEP=      30 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5285
ISTEP=      30 ZI0= 1366.0000 ZSEASON= 1.034061874 REA=149597870000.00 RDEASO=147113370994.27
 NSTEP =    30 STEPOTL 0AA00V000
 NSTEP =    30 OBSVTL  0AA00V000
 *** COMTC ARRIVAL        28164        7131         272
 END CNT3TL


    EVJCDFI2- Evaluation of the Jc cost function when the digital filter is used     NSPEC2 =    15670   ALPHAG =  100.000    
 EVJCDFI: DFI check, sum of coefs=  6.635317295611287E-017
         Global value of the Jc-DFI/ALPHAG cost function = 
   2.20174188762040     
 START CNT3AD
 START CNT4AD, NSIM4D=          33
 NSTEP =    30 OBSVAD  000000000
 CNT4AD (ADJOINT INTEGRATION); TIME SLOT NO :  13 TO BE USED WITH TIME STEP (NSTEP) :  30 ; MODEL TIME (SINCE START) : 21600.
 NSTEP =    30 STEPOAD 0AA00V000
 NSTEP =    29 STEPOAD 0AAA00AAA
 NSTEP =    28 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :  12 TO BE USED WITH TIME STEP (NSTEP) :  27 ; MODEL TIME (SINCE START) : 19440.
 NSTEP =    27 STEPOAD 0AAA0VAAA
 NSTEP =    26 STEPOAD 0AAA00AAA
ISTEP=      25 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5295
ISTEP=      25 ZI0= 1366.0000 ZSEASON= 1.034062584 REA=149597870000.00 RDEASO=147113320465.82
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :  11 TO BE USED WITH TIME STEP (NSTEP) :  25 ; MODEL TIME (SINCE START) : 18000.
 NSTEP =    25 STEPOAD 0AAA0VAAA
 NSTEP =    24 STEPOAD 0AAA00AAA
 NSTEP =    23 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :  10 TO BE USED WITH TIME STEP (NSTEP) :  22 ; MODEL TIME (SINCE START) : 15840.
 NSTEP =    22 STEPOAD 0AAA0VAAA
 NSTEP =    21 STEPOAD 0AAA00AAA
ISTEP=      20 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5304
ISTEP=      20 ZI0= 1366.0000 ZSEASON= 1.034063276 REA=149597870000.00 RDEASO=147113271221.47
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   9 TO BE USED WITH TIME STEP (NSTEP) :  20 ; MODEL TIME (SINCE START) : 14400.
 NSTEP =    20 STEPOAD 0AAA0VAAA
 NSTEP =    19 STEPOAD 0AAA00AAA
 NSTEP =    18 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   8 TO BE USED WITH TIME STEP (NSTEP) :  17 ; MODEL TIME (SINCE START) : 12240.
 NSTEP =    17 STEPOAD 0AAA0VAAA
 NSTEP =    16 STEPOAD 0AAA00AAA
ISTEP=      15 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5314
ISTEP=      15 ZI0= 1366.0000 ZSEASON= 1.034063950 REA=149597870000.00 RDEASO=147113223261.23
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   7 TO BE USED WITH TIME STEP (NSTEP) :  15 ; MODEL TIME (SINCE START) : 10800.
 NSTEP =    15 STEPOAD 0AAA0VAAA
 NSTEP =    14 STEPOAD 0AAA00AAA
 NSTEP =    13 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   6 TO BE USED WITH TIME STEP (NSTEP) :  12 ; MODEL TIME (SINCE START) :  8640.
 NSTEP =    12 STEPOAD 0AAA0VAAA
 NSTEP =    11 STEPOAD 0AAA00AAA
ISTEP=      10 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5323
ISTEP=      10 ZI0= 1366.0000 ZSEASON= 1.034064607 REA=149597870000.00 RDEASO=147113176585.14
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   5 TO BE USED WITH TIME STEP (NSTEP) :  10 ; MODEL TIME (SINCE START) :  7200.
 NSTEP =    10 STEPOAD 0AAA0VAAA
 NSTEP =     9 STEPOAD 0AAA00AAA
 NSTEP =     8 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   4 TO BE USED WITH TIME STEP (NSTEP) :   7 ; MODEL TIME (SINCE START) :  5040.
 NSTEP =     7 STEPOAD 0AAA0VAAA
 NSTEP =     6 STEPOAD 0AAA00AAA
ISTEP=       5 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5331
ISTEP=       5 ZI0= 1366.0000 ZSEASON= 1.034065245 REA=149597870000.00 RDEASO=147113131193.21
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   3 TO BE USED WITH TIME STEP (NSTEP) :   5 ; MODEL TIME (SINCE START) :  3600.
 NSTEP =     5 STEPOAD 0AAA0VAAA
 NSTEP =     4 STEPOAD 0AAA00AAA
 NSTEP =     3 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   2 TO BE USED WITH TIME STEP (NSTEP) :   2 ; MODEL TIME (SINCE START) :  1440.
 NSTEP =     2 STEPOAD 0AAA0VAAA
 NSTEP =     1 STEPOAD 0AAA00AAA
ISTEP=       0 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5340
ISTEP=       0 ZI0= 1366.0000 ZSEASON= 1.034065865 REA=149597870000.00 RDEASO=147113087085.47
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   1 TO BE USED WITH TIME STEP (NSTEP) :   0 ; MODEL TIME (SINCE START) :     0.
 NSTEP =     0 STEPOAD 0AAA0VAAA
 END CNT3AD
 Jc-DFI cost function =    110.087094381020      --   NSIM4D =           33
 EVCOST3  =  33 PZF = 0.1100870943810199E+03
 DIST. FUNC. JB=0.413766E+05 NSIM4D=   33 ++
 Jp cost function =    468.717909427778      --   NSIM4D =           33
 OBS DISTANCE FUNCTION JO=0.1603719624280511E+07 NSIM4D=   33 ==
 GREPMIN: Iteration   33 : Estimated gradient norm= 0.1457110470079803E+04  4096C4711F118FC3
 Estimated reduction in norm of gradient is:   0.304412476754986     
 GREPMIN: Iteration   33 : Estimated quadratic cost= 0.1537172946290127E+07  41377494F24011DC
 congrad: ritz values are:    4.57049710538647        23.8860899494525     
   59.6151666746438        110.415177802086        179.405509810691     
   264.505555713037        366.653744761637        476.991536011052     
   603.255019695943        740.297701385716        899.802216801627     
   1066.76782719115        1235.78504206052        1408.02381783340     
   1580.30081629081        1817.84205767931        2020.12161186774     
   2171.61439749719        2391.82429457446        2561.98847860367     
   2756.17447379122        2879.77252510504        2994.18936282814     
   3235.62308736863        3306.83870927049        3455.76771970967     
   3580.59409515139        3707.65355316904        3771.63580252587     
   3923.31913712963        4079.64608783550        4179.74930926202     
   4728.09898210929     
 congrad: error bounds are:    14.0713333202824        34.5769100456766     
   55.4530481130757        73.4115561784443        95.6992237848804     
   112.304326409119        141.147125606653        159.650124072212     
   160.440954603124        147.592607258728        179.995989848978     
   185.454259693825        213.631836779240        184.418756827627     
   260.436681448782        188.260986077854        212.851410566364     
   257.617218417517        232.876211835536        248.081792252810     
   338.919392136176        395.036202080072        213.794977144931     
   92.0028479439341        162.441801991879        52.2215519996451     
   13.7416859454706        81.0456721286582        5.79522420930670     
  0.436735968882374       1.789889752767369E-002  9.477002148249066E-004
  6.857925272020239E-009
 congrad: converged eigenvalue    3923.31913712963     
 congrad: converged eigenvalue    4079.64608783550     
 congrad: converged eigenvalue    4179.74930926202     
 congrad: converged eigenvalue    4728.09898210929     
 congrad: End of iteration:           33


 -------Simulator : initializations ----------------------------------------
 -------Simulator : cost-function Jb ---------------------------------------
 -------Simulator : convert state from control to physical space -----------
 -------Simulator : change from model to TL  variables -------------------
 -------Simulator : call direct and adjoint  model -----------------------
 START CNT3TL
 START CNT4TL, NSIM4D=          34
ISTEP=       0 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5340
ISTEP=       0 ZI0= 1366.0000 ZSEASON= 1.034065865 REA=149597870000.00 RDEASO=147113087085.47
 NSTEP =     0 STEPOTL IAAA0VAAA
 NSTEP =     1 STEPOTL 0AAA00AAA
 NSTEP =     2 STEPOTL 0AAA0VAAA
 NSTEP =     3 STEPOTL 0AAA00AAA
 NSTEP =     4 STEPOTL 0AAA00AAA
ISTEP=       5 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5331
ISTEP=       5 ZI0= 1366.0000 ZSEASON= 1.034065245 REA=149597870000.00 RDEASO=147113131193.21
 NSTEP =     5 STEPOTL 0AAA0VAAA
 NSTEP =     6 STEPOTL 0AAA00AAA
 NSTEP =     7 STEPOTL 0AAA0VAAA
 NSTEP =     8 STEPOTL 0AAA00AAA
 NSTEP =     9 STEPOTL 0AAA00AAA
ISTEP=      10 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5323
ISTEP=      10 ZI0= 1366.0000 ZSEASON= 1.034064607 REA=149597870000.00 RDEASO=147113176585.14
 NSTEP =    10 STEPOTL 0AAA0VAAA
 NSTEP =    11 STEPOTL 0AAA00AAA
 NSTEP =    12 STEPOTL 0AAA0VAAA
 NSTEP =    13 STEPOTL 0AAA00AAA
 NSTEP =    14 STEPOTL 0AAA00AAA
ISTEP=      15 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5314
ISTEP=      15 ZI0= 1366.0000 ZSEASON= 1.034063950 REA=149597870000.00 RDEASO=147113223261.23
 NSTEP =    15 STEPOTL 0AAA0VAAA
 NSTEP =    16 STEPOTL 0AAA00AAA
 NSTEP =    17 STEPOTL 0AAA0VAAA
 NSTEP =    18 STEPOTL 0AAA00AAA
 NSTEP =    19 STEPOTL 0AAA00AAA
ISTEP=      20 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5304
ISTEP=      20 ZI0= 1366.0000 ZSEASON= 1.034063276 REA=149597870000.00 RDEASO=147113271221.47
 NSTEP =    20 STEPOTL 0AAA0VAAA
 NSTEP =    21 STEPOTL 0AAA00AAA
 NSTEP =    22 STEPOTL 0AAA0VAAA
 NSTEP =    23 STEPOTL 0AAA00AAA
 NSTEP =    24 STEPOTL 0AAA00AAA
ISTEP=      25 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5295
ISTEP=      25 ZI0= 1366.0000 ZSEASON= 1.034062584 REA=149597870000.00 RDEASO=147113320465.82
 NSTEP =    25 STEPOTL 0AAA0VAAA
 NSTEP =    26 STEPOTL 0AAA00AAA
 NSTEP =    27 STEPOTL 0AAA0VAAA
 NSTEP =    28 STEPOTL 0AAA00AAA
 NSTEP =    29 STEPOTL 0AAA00AAA
ISTEP=      30 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5285
ISTEP=      30 ZI0= 1366.0000 ZSEASON= 1.034061874 REA=149597870000.00 RDEASO=147113370994.27
 NSTEP =    30 STEPOTL 0AA00V000
 NSTEP =    30 OBSVTL  0AA00V000
 *** COMTC ARRIVAL        28164        7131         272
 END CNT3TL


    EVJCDFI2- Evaluation of the Jc cost function when the digital filter is used     NSPEC2 =    15670   ALPHAG =  100.000    
 EVJCDFI: DFI check, sum of coefs=  6.635317295611287E-017
         Global value of the Jc-DFI/ALPHAG cost function = 
   2.25592211812939     
 START CNT3AD
 START CNT4AD, NSIM4D=          34
 NSTEP =    30 OBSVAD  000000000
 CNT4AD (ADJOINT INTEGRATION); TIME SLOT NO :  13 TO BE USED WITH TIME STEP (NSTEP) :  30 ; MODEL TIME (SINCE START) : 21600.
 NSTEP =    30 STEPOAD 0AA00V000
 NSTEP =    29 STEPOAD 0AAA00AAA
 NSTEP =    28 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :  12 TO BE USED WITH TIME STEP (NSTEP) :  27 ; MODEL TIME (SINCE START) : 19440.
 NSTEP =    27 STEPOAD 0AAA0VAAA
 NSTEP =    26 STEPOAD 0AAA00AAA
ISTEP=      25 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5295
ISTEP=      25 ZI0= 1366.0000 ZSEASON= 1.034062584 REA=149597870000.00 RDEASO=147113320465.82
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :  11 TO BE USED WITH TIME STEP (NSTEP) :  25 ; MODEL TIME (SINCE START) : 18000.
 NSTEP =    25 STEPOAD 0AAA0VAAA
 NSTEP =    24 STEPOAD 0AAA00AAA
 NSTEP =    23 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :  10 TO BE USED WITH TIME STEP (NSTEP) :  22 ; MODEL TIME (SINCE START) : 15840.
 NSTEP =    22 STEPOAD 0AAA0VAAA
 NSTEP =    21 STEPOAD 0AAA00AAA
ISTEP=      20 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5304
ISTEP=      20 ZI0= 1366.0000 ZSEASON= 1.034063276 REA=149597870000.00 RDEASO=147113271221.47
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   9 TO BE USED WITH TIME STEP (NSTEP) :  20 ; MODEL TIME (SINCE START) : 14400.
 NSTEP =    20 STEPOAD 0AAA0VAAA
 NSTEP =    19 STEPOAD 0AAA00AAA
 NSTEP =    18 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   8 TO BE USED WITH TIME STEP (NSTEP) :  17 ; MODEL TIME (SINCE START) : 12240.
 NSTEP =    17 STEPOAD 0AAA0VAAA
 NSTEP =    16 STEPOAD 0AAA00AAA
ISTEP=      15 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5314
ISTEP=      15 ZI0= 1366.0000 ZSEASON= 1.034063950 REA=149597870000.00 RDEASO=147113223261.23
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   7 TO BE USED WITH TIME STEP (NSTEP) :  15 ; MODEL TIME (SINCE START) : 10800.
 NSTEP =    15 STEPOAD 0AAA0VAAA
 NSTEP =    14 STEPOAD 0AAA00AAA
 NSTEP =    13 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   6 TO BE USED WITH TIME STEP (NSTEP) :  12 ; MODEL TIME (SINCE START) :  8640.
 NSTEP =    12 STEPOAD 0AAA0VAAA
 NSTEP =    11 STEPOAD 0AAA00AAA
ISTEP=      10 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5323
ISTEP=      10 ZI0= 1366.0000 ZSEASON= 1.034064607 REA=149597870000.00 RDEASO=147113176585.14
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   5 TO BE USED WITH TIME STEP (NSTEP) :  10 ; MODEL TIME (SINCE START) :  7200.
 NSTEP =    10 STEPOAD 0AAA0VAAA
 NSTEP =     9 STEPOAD 0AAA00AAA
 NSTEP =     8 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   4 TO BE USED WITH TIME STEP (NSTEP) :   7 ; MODEL TIME (SINCE START) :  5040.
 NSTEP =     7 STEPOAD 0AAA0VAAA
 NSTEP =     6 STEPOAD 0AAA00AAA
ISTEP=       5 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5331
ISTEP=       5 ZI0= 1366.0000 ZSEASON= 1.034065245 REA=149597870000.00 RDEASO=147113131193.21
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   3 TO BE USED WITH TIME STEP (NSTEP) :   5 ; MODEL TIME (SINCE START) :  3600.
 NSTEP =     5 STEPOAD 0AAA0VAAA
 NSTEP =     4 STEPOAD 0AAA00AAA
 NSTEP =     3 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   2 TO BE USED WITH TIME STEP (NSTEP) :   2 ; MODEL TIME (SINCE START) :  1440.
 NSTEP =     2 STEPOAD 0AAA0VAAA
 NSTEP =     1 STEPOAD 0AAA00AAA
ISTEP=       0 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5340
ISTEP=       0 ZI0= 1366.0000 ZSEASON= 1.034065865 REA=149597870000.00 RDEASO=147113087085.47
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   1 TO BE USED WITH TIME STEP (NSTEP) :   0 ; MODEL TIME (SINCE START) :     0.
 NSTEP =     0 STEPOAD 0AAA0VAAA
 END CNT3AD
 Jc-DFI cost function =    112.796105906470      --   NSIM4D =           34
 EVCOST3  =  34 PZF = 0.1127961059064696E+03
 DIST. FUNC. JB=0.413922E+05 NSIM4D=   34 ++
 Jp cost function =    469.028615448895      --   NSIM4D =           34
 OBS DISTANCE FUNCTION JO=0.1603550600018776E+07 NSIM4D=   34 ==
 GREPMIN: Iteration   34 : Estimated gradient norm= 0.1401506870425448E+04  4095E607090A7271
 Estimated reduction in norm of gradient is:   0.292796041464155     
 GREPMIN: Iteration   34 : Estimated quadratic cost= 0.1535986447174046E+07  41376FF27279FF90
 congrad: ritz values are:    4.34501786400493        22.5167437327925     
   56.0674040556446        104.131963167650        168.470139854802     
   248.870402851462        341.711176820952        447.412662291639     
   572.366943836653        708.855398194663        844.418483422449     
   1001.31321859606        1153.68880584096        1330.31830139638     
   1471.74411685294        1699.25632121112        1871.92414174092     
   2061.17056155432        2238.44466780788        2433.08290621110     
   2601.29885593875        2800.98675230417        2965.82418116831     
   3143.93429842771        3247.68723344071        3355.60288798123     
   3460.07452426112        3580.78999222746        3713.18208895312     
   3771.66402384389        3923.31926366859        4079.64608801882     
   4179.74930926250        4728.09898210930     
 congrad: error bounds are:    13.1625664257143        32.4120474649239     
   51.9963190303455        68.9228672485798        90.6975241659861     
   108.452609031666        133.404651494776        137.713301294638     
   142.918886841218        155.960741783112        206.641134308217     
   216.783974295832        216.274918362060        217.692488794165     
   197.803182071285        255.638928109225        194.710412254899     
   137.466274622179        178.711427366659        129.672603826360     
   116.312176521958        88.3795678024419        90.4094359330506     
   280.721862433551        98.6028648786122        214.548409911650     
   66.9926933637763        11.7167284455409        55.8386380835397     
   4.00344313557364       0.238204002514974       8.420241381732639E-003
  4.126365621152954E-004  2.186824980068526E-009
 congrad: converged eigenvalue    3923.31926366859     
 congrad: converged eigenvalue    4079.64608801882     
 congrad: converged eigenvalue    4179.74930926250     
 congrad: converged eigenvalue    4728.09898210930     
 congrad: End of iteration:           34


 -------Simulator : initializations ----------------------------------------
 -------Simulator : cost-function Jb ---------------------------------------
 -------Simulator : convert state from control to physical space -----------
 -------Simulator : change from model to TL  variables -------------------
 -------Simulator : call direct and adjoint  model -----------------------
 START CNT3TL
 START CNT4TL, NSIM4D=          35
ISTEP=       0 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5340
ISTEP=       0 ZI0= 1366.0000 ZSEASON= 1.034065865 REA=149597870000.00 RDEASO=147113087085.47
 NSTEP =     0 STEPOTL IAAA0VAAA
 NSTEP =     1 STEPOTL 0AAA00AAA
 NSTEP =     2 STEPOTL 0AAA0VAAA
 NSTEP =     3 STEPOTL 0AAA00AAA
 NSTEP =     4 STEPOTL 0AAA00AAA
ISTEP=       5 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5331
ISTEP=       5 ZI0= 1366.0000 ZSEASON= 1.034065245 REA=149597870000.00 RDEASO=147113131193.21
 NSTEP =     5 STEPOTL 0AAA0VAAA
 NSTEP =     6 STEPOTL 0AAA00AAA
 NSTEP =     7 STEPOTL 0AAA0VAAA
 NSTEP =     8 STEPOTL 0AAA00AAA
 NSTEP =     9 STEPOTL 0AAA00AAA
ISTEP=      10 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5323
ISTEP=      10 ZI0= 1366.0000 ZSEASON= 1.034064607 REA=149597870000.00 RDEASO=147113176585.14
 NSTEP =    10 STEPOTL 0AAA0VAAA
 NSTEP =    11 STEPOTL 0AAA00AAA
 NSTEP =    12 STEPOTL 0AAA0VAAA
 NSTEP =    13 STEPOTL 0AAA00AAA
 NSTEP =    14 STEPOTL 0AAA00AAA
ISTEP=      15 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5314
ISTEP=      15 ZI0= 1366.0000 ZSEASON= 1.034063950 REA=149597870000.00 RDEASO=147113223261.23
 NSTEP =    15 STEPOTL 0AAA0VAAA
 NSTEP =    16 STEPOTL 0AAA00AAA
 NSTEP =    17 STEPOTL 0AAA0VAAA
 NSTEP =    18 STEPOTL 0AAA00AAA
 NSTEP =    19 STEPOTL 0AAA00AAA
ISTEP=      20 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5304
ISTEP=      20 ZI0= 1366.0000 ZSEASON= 1.034063276 REA=149597870000.00 RDEASO=147113271221.47
 NSTEP =    20 STEPOTL 0AAA0VAAA
 NSTEP =    21 STEPOTL 0AAA00AAA
 NSTEP =    22 STEPOTL 0AAA0VAAA
 NSTEP =    23 STEPOTL 0AAA00AAA
 NSTEP =    24 STEPOTL 0AAA00AAA
ISTEP=      25 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5295
ISTEP=      25 ZI0= 1366.0000 ZSEASON= 1.034062584 REA=149597870000.00 RDEASO=147113320465.82
 NSTEP =    25 STEPOTL 0AAA0VAAA
 NSTEP =    26 STEPOTL 0AAA00AAA
 NSTEP =    27 STEPOTL 0AAA0VAAA
 NSTEP =    28 STEPOTL 0AAA00AAA
 NSTEP =    29 STEPOTL 0AAA00AAA
ISTEP=      30 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5285
ISTEP=      30 ZI0= 1366.0000 ZSEASON= 1.034061874 REA=149597870000.00 RDEASO=147113370994.27
 NSTEP =    30 STEPOTL 0AA00V000
 NSTEP =    30 OBSVTL  0AA00V000
 *** COMTC ARRIVAL        28164        7131         272
 END CNT3TL


    EVJCDFI2- Evaluation of the Jc cost function when the digital filter is used     NSPEC2 =    15670   ALPHAG =  100.000    
 EVJCDFI: DFI check, sum of coefs=  6.635317295611287E-017
         Global value of the Jc-DFI/ALPHAG cost function = 
   2.37635976219506     
 START CNT3AD
 START CNT4AD, NSIM4D=          35
 NSTEP =    30 OBSVAD  000000000
 CNT4AD (ADJOINT INTEGRATION); TIME SLOT NO :  13 TO BE USED WITH TIME STEP (NSTEP) :  30 ; MODEL TIME (SINCE START) : 21600.
 NSTEP =    30 STEPOAD 0AA00V000
 NSTEP =    29 STEPOAD 0AAA00AAA
 NSTEP =    28 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :  12 TO BE USED WITH TIME STEP (NSTEP) :  27 ; MODEL TIME (SINCE START) : 19440.
 NSTEP =    27 STEPOAD 0AAA0VAAA
 NSTEP =    26 STEPOAD 0AAA00AAA
ISTEP=      25 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5295
ISTEP=      25 ZI0= 1366.0000 ZSEASON= 1.034062584 REA=149597870000.00 RDEASO=147113320465.82
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :  11 TO BE USED WITH TIME STEP (NSTEP) :  25 ; MODEL TIME (SINCE START) : 18000.
 NSTEP =    25 STEPOAD 0AAA0VAAA
 NSTEP =    24 STEPOAD 0AAA00AAA
 NSTEP =    23 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :  10 TO BE USED WITH TIME STEP (NSTEP) :  22 ; MODEL TIME (SINCE START) : 15840.
 NSTEP =    22 STEPOAD 0AAA0VAAA
 NSTEP =    21 STEPOAD 0AAA00AAA
ISTEP=      20 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5304
ISTEP=      20 ZI0= 1366.0000 ZSEASON= 1.034063276 REA=149597870000.00 RDEASO=147113271221.47
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   9 TO BE USED WITH TIME STEP (NSTEP) :  20 ; MODEL TIME (SINCE START) : 14400.
 NSTEP =    20 STEPOAD 0AAA0VAAA
 NSTEP =    19 STEPOAD 0AAA00AAA
 NSTEP =    18 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   8 TO BE USED WITH TIME STEP (NSTEP) :  17 ; MODEL TIME (SINCE START) : 12240.
 NSTEP =    17 STEPOAD 0AAA0VAAA
 NSTEP =    16 STEPOAD 0AAA00AAA
ISTEP=      15 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5314
ISTEP=      15 ZI0= 1366.0000 ZSEASON= 1.034063950 REA=149597870000.00 RDEASO=147113223261.23
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   7 TO BE USED WITH TIME STEP (NSTEP) :  15 ; MODEL TIME (SINCE START) : 10800.
 NSTEP =    15 STEPOAD 0AAA0VAAA
 NSTEP =    14 STEPOAD 0AAA00AAA
 NSTEP =    13 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   6 TO BE USED WITH TIME STEP (NSTEP) :  12 ; MODEL TIME (SINCE START) :  8640.
 NSTEP =    12 STEPOAD 0AAA0VAAA
 NSTEP =    11 STEPOAD 0AAA00AAA
ISTEP=      10 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5323
ISTEP=      10 ZI0= 1366.0000 ZSEASON= 1.034064607 REA=149597870000.00 RDEASO=147113176585.14
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   5 TO BE USED WITH TIME STEP (NSTEP) :  10 ; MODEL TIME (SINCE START) :  7200.
 NSTEP =    10 STEPOAD 0AAA0VAAA
 NSTEP =     9 STEPOAD 0AAA00AAA
 NSTEP =     8 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   4 TO BE USED WITH TIME STEP (NSTEP) :   7 ; MODEL TIME (SINCE START) :  5040.
 NSTEP =     7 STEPOAD 0AAA0VAAA
 NSTEP =     6 STEPOAD 0AAA00AAA
ISTEP=       5 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5331
ISTEP=       5 ZI0= 1366.0000 ZSEASON= 1.034065245 REA=149597870000.00 RDEASO=147113131193.21
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   3 TO BE USED WITH TIME STEP (NSTEP) :   5 ; MODEL TIME (SINCE START) :  3600.
 NSTEP =     5 STEPOAD 0AAA0VAAA
 NSTEP =     4 STEPOAD 0AAA00AAA
 NSTEP =     3 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   2 TO BE USED WITH TIME STEP (NSTEP) :   2 ; MODEL TIME (SINCE START) :  1440.
 NSTEP =     2 STEPOAD 0AAA0VAAA
 NSTEP =     1 STEPOAD 0AAA00AAA
ISTEP=       0 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5340
ISTEP=       0 ZI0= 1366.0000 ZSEASON= 1.034065865 REA=149597870000.00 RDEASO=147113087085.47
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   1 TO BE USED WITH TIME STEP (NSTEP) :   0 ; MODEL TIME (SINCE START) :     0.
 NSTEP =     0 STEPOAD 0AAA0VAAA
 END CNT3AD
 Jc-DFI cost function =    118.817988109753      --   NSIM4D =           35
 EVCOST3  =  35 PZF = 0.1188179881097532E+03
 DIST. FUNC. JB=0.413765E+05 NSIM4D=   35 ++
 Jp cost function =    468.674099359310      --   NSIM4D =           35
 OBS DISTANCE FUNCTION JO=0.1603518278999514E+07 NSIM4D=   35 ==
 GREPMIN: Iteration   35 : Estimated gradient norm= 0.1431000507917877E+04  40965C008525CAAE
 Estimated reduction in norm of gradient is:   0.298957709657433     
 GREPMIN: Iteration   35 : Estimated quadratic cost= 0.1534927802502732E+07  41376BCFCD70D1AB
 congrad: ritz values are:    4.15134914147290        21.3347004456452     
   53.0000313032170        98.6551549780891        158.798484158855     
   234.639871809608        320.732997434698        424.799249777330     
   544.070578289503        668.344328113091        785.299816192233     
   940.001132805921        1096.07606356251        1262.28704253156     
   1419.68851644105        1587.93854253510        1809.65628736253     
   1989.36885006674        2118.48182796954        2306.38565631231     
   2463.42643137256        2620.00916502756        2808.27415763945     
   2971.27611141956        3192.19988939283        3257.01418936191     
   3396.48144577342        3465.59914898946        3580.90288178898     
   3715.27006722757        3771.67443724493        3923.31929501336     
   4079.64608805378        4179.74930926258        4728.09898210929     
 congrad: error bounds are:    13.1918994742229        32.5958537033513     
   52.4133250976769        70.0228189998249        92.7413872564052     
   112.148034641543        131.742836689987        136.586406465731     
   160.705153085421        195.644608296509        200.948376143428     
   197.356293253750        187.793308063020        212.674445281115     
   184.094289269044        268.475759780228        213.868505621618     
   292.777358338953        274.735905422165        280.155159174769     
   193.665000175625        139.447754407430        73.2343781137609     
   53.6415763995419        141.450027038342        80.5300080089067     
   159.601691467927        72.5170687724391        8.64349605968262     
   33.5065872290987        2.33377430235011       0.118064636265091     
  3.724922082594256E-003  1.716331352123961E-004  7.002319436579379E-010
 congrad: converged eigenvalue    3923.31929501336     
 congrad: converged eigenvalue    4079.64608805378     
 congrad: converged eigenvalue    4179.74930926258     
 congrad: converged eigenvalue    4728.09898210929     
 congrad: End of iteration:           35


 -------Simulator : initializations ----------------------------------------
 -------Simulator : cost-function Jb ---------------------------------------
 -------Simulator : convert state from control to physical space -----------
 -------Simulator : change from model to TL  variables -------------------
 -------Simulator : call direct and adjoint  model -----------------------
 START CNT3TL
 START CNT4TL, NSIM4D=          36
ISTEP=       0 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5340
ISTEP=       0 ZI0= 1366.0000 ZSEASON= 1.034065865 REA=149597870000.00 RDEASO=147113087085.47
 NSTEP =     0 STEPOTL IAAA0VAAA
 NSTEP =     1 STEPOTL 0AAA00AAA
 NSTEP =     2 STEPOTL 0AAA0VAAA
 NSTEP =     3 STEPOTL 0AAA00AAA
 NSTEP =     4 STEPOTL 0AAA00AAA
ISTEP=       5 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5331
ISTEP=       5 ZI0= 1366.0000 ZSEASON= 1.034065245 REA=149597870000.00 RDEASO=147113131193.21
 NSTEP =     5 STEPOTL 0AAA0VAAA
 NSTEP =     6 STEPOTL 0AAA00AAA
 NSTEP =     7 STEPOTL 0AAA0VAAA
 NSTEP =     8 STEPOTL 0AAA00AAA
 NSTEP =     9 STEPOTL 0AAA00AAA
ISTEP=      10 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5323
ISTEP=      10 ZI0= 1366.0000 ZSEASON= 1.034064607 REA=149597870000.00 RDEASO=147113176585.14
 NSTEP =    10 STEPOTL 0AAA0VAAA
 NSTEP =    11 STEPOTL 0AAA00AAA
 NSTEP =    12 STEPOTL 0AAA0VAAA
 NSTEP =    13 STEPOTL 0AAA00AAA
 NSTEP =    14 STEPOTL 0AAA00AAA
ISTEP=      15 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5314
ISTEP=      15 ZI0= 1366.0000 ZSEASON= 1.034063950 REA=149597870000.00 RDEASO=147113223261.23
 NSTEP =    15 STEPOTL 0AAA0VAAA
 NSTEP =    16 STEPOTL 0AAA00AAA
 NSTEP =    17 STEPOTL 0AAA0VAAA
 NSTEP =    18 STEPOTL 0AAA00AAA
 NSTEP =    19 STEPOTL 0AAA00AAA
ISTEP=      20 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5304
ISTEP=      20 ZI0= 1366.0000 ZSEASON= 1.034063276 REA=149597870000.00 RDEASO=147113271221.47
 NSTEP =    20 STEPOTL 0AAA0VAAA
 NSTEP =    21 STEPOTL 0AAA00AAA
 NSTEP =    22 STEPOTL 0AAA0VAAA
 NSTEP =    23 STEPOTL 0AAA00AAA
 NSTEP =    24 STEPOTL 0AAA00AAA
ISTEP=      25 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5295
ISTEP=      25 ZI0= 1366.0000 ZSEASON= 1.034062584 REA=149597870000.00 RDEASO=147113320465.82
 NSTEP =    25 STEPOTL 0AAA0VAAA
 NSTEP =    26 STEPOTL 0AAA00AAA
 NSTEP =    27 STEPOTL 0AAA0VAAA
 NSTEP =    28 STEPOTL 0AAA00AAA
 NSTEP =    29 STEPOTL 0AAA00AAA
ISTEP=      30 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5285
ISTEP=      30 ZI0= 1366.0000 ZSEASON= 1.034061874 REA=149597870000.00 RDEASO=147113370994.27
 NSTEP =    30 STEPOTL 0AA00V000
 NSTEP =    30 OBSVTL  0AA00V000
 *** COMTC ARRIVAL        28164        7131         272
 END CNT3TL


    EVJCDFI2- Evaluation of the Jc cost function when the digital filter is used     NSPEC2 =    15670   ALPHAG =  100.000    
 EVJCDFI: DFI check, sum of coefs=  6.635317295611287E-017
         Global value of the Jc-DFI/ALPHAG cost function = 
   2.40396382624137     
 START CNT3AD
 START CNT4AD, NSIM4D=          36
 NSTEP =    30 OBSVAD  000000000
 CNT4AD (ADJOINT INTEGRATION); TIME SLOT NO :  13 TO BE USED WITH TIME STEP (NSTEP) :  30 ; MODEL TIME (SINCE START) : 21600.
 NSTEP =    30 STEPOAD 0AA00V000
 NSTEP =    29 STEPOAD 0AAA00AAA
 NSTEP =    28 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :  12 TO BE USED WITH TIME STEP (NSTEP) :  27 ; MODEL TIME (SINCE START) : 19440.
 NSTEP =    27 STEPOAD 0AAA0VAAA
 NSTEP =    26 STEPOAD 0AAA00AAA
ISTEP=      25 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5295
ISTEP=      25 ZI0= 1366.0000 ZSEASON= 1.034062584 REA=149597870000.00 RDEASO=147113320465.82
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :  11 TO BE USED WITH TIME STEP (NSTEP) :  25 ; MODEL TIME (SINCE START) : 18000.
 NSTEP =    25 STEPOAD 0AAA0VAAA
 NSTEP =    24 STEPOAD 0AAA00AAA
 NSTEP =    23 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :  10 TO BE USED WITH TIME STEP (NSTEP) :  22 ; MODEL TIME (SINCE START) : 15840.
 NSTEP =    22 STEPOAD 0AAA0VAAA
 NSTEP =    21 STEPOAD 0AAA00AAA
ISTEP=      20 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5304
ISTEP=      20 ZI0= 1366.0000 ZSEASON= 1.034063276 REA=149597870000.00 RDEASO=147113271221.47
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   9 TO BE USED WITH TIME STEP (NSTEP) :  20 ; MODEL TIME (SINCE START) : 14400.
 NSTEP =    20 STEPOAD 0AAA0VAAA
 NSTEP =    19 STEPOAD 0AAA00AAA
 NSTEP =    18 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   8 TO BE USED WITH TIME STEP (NSTEP) :  17 ; MODEL TIME (SINCE START) : 12240.
 NSTEP =    17 STEPOAD 0AAA0VAAA
 NSTEP =    16 STEPOAD 0AAA00AAA
ISTEP=      15 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5314
ISTEP=      15 ZI0= 1366.0000 ZSEASON= 1.034063950 REA=149597870000.00 RDEASO=147113223261.23
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   7 TO BE USED WITH TIME STEP (NSTEP) :  15 ; MODEL TIME (SINCE START) : 10800.
 NSTEP =    15 STEPOAD 0AAA0VAAA
 NSTEP =    14 STEPOAD 0AAA00AAA
 NSTEP =    13 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   6 TO BE USED WITH TIME STEP (NSTEP) :  12 ; MODEL TIME (SINCE START) :  8640.
 NSTEP =    12 STEPOAD 0AAA0VAAA
 NSTEP =    11 STEPOAD 0AAA00AAA
ISTEP=      10 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5323
ISTEP=      10 ZI0= 1366.0000 ZSEASON= 1.034064607 REA=149597870000.00 RDEASO=147113176585.14
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   5 TO BE USED WITH TIME STEP (NSTEP) :  10 ; MODEL TIME (SINCE START) :  7200.
 NSTEP =    10 STEPOAD 0AAA0VAAA
 NSTEP =     9 STEPOAD 0AAA00AAA
 NSTEP =     8 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   4 TO BE USED WITH TIME STEP (NSTEP) :   7 ; MODEL TIME (SINCE START) :  5040.
 NSTEP =     7 STEPOAD 0AAA0VAAA
 NSTEP =     6 STEPOAD 0AAA00AAA
ISTEP=       5 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5331
ISTEP=       5 ZI0= 1366.0000 ZSEASON= 1.034065245 REA=149597870000.00 RDEASO=147113131193.21
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   3 TO BE USED WITH TIME STEP (NSTEP) :   5 ; MODEL TIME (SINCE START) :  3600.
 NSTEP =     5 STEPOAD 0AAA0VAAA
 NSTEP =     4 STEPOAD 0AAA00AAA
 NSTEP =     3 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   2 TO BE USED WITH TIME STEP (NSTEP) :   2 ; MODEL TIME (SINCE START) :  1440.
 NSTEP =     2 STEPOAD 0AAA0VAAA
 NSTEP =     1 STEPOAD 0AAA00AAA
ISTEP=       0 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5340
ISTEP=       0 ZI0= 1366.0000 ZSEASON= 1.034065865 REA=149597870000.00 RDEASO=147113087085.47
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   1 TO BE USED WITH TIME STEP (NSTEP) :   0 ; MODEL TIME (SINCE START) :     0.
 NSTEP =     0 STEPOAD 0AAA0VAAA
 END CNT3AD
 Jc-DFI cost function =    120.198191312068      --   NSIM4D =           36
 EVCOST3  =  36 PZF = 0.1201981913120684E+03
 DIST. FUNC. JB=0.413912E+05 NSIM4D=   36 ++
 Jp cost function =    469.058455523579      --   NSIM4D =           36
 OBS DISTANCE FUNCTION JO=0.1603572496695650E+07 NSIM4D=   36 ==
 GREPMIN: Iteration   36 : Estimated gradient norm= 0.1272952873631461E+04  4093E3CFBE1AF161
 Estimated reduction in norm of gradient is:   0.265939161794168     
 GREPMIN: Iteration   36 : Estimated quadratic cost= 0.1533840545698222E+07  413767908BB2E0F3
 congrad: ritz values are:    3.95928395735983        20.1547764356556     
   49.9294653847130        93.0902409113187        148.983963903217     
   220.159215195069        301.418478150312        402.332760833228     
   509.980508287486        622.879585137958        746.100062991839     
   894.669047567216        1047.55698685329        1194.29041844337     
   1358.09137042060        1489.03669142514        1707.32044620302     
   1869.01648494235        2055.22791000843        2220.12773270399     
   2414.87646660607        2572.22313959689        2716.35159722625     
   2824.55982881162        2975.64700413308        3209.63389035220     
   3264.39846992178        3418.86571584237        3472.27255795952     
   3580.96998129889        3716.08699878931        3771.67821269112     
   3923.31930334744        4079.64608806117        4179.74930926259     
   4728.09898210929     
 congrad: error bounds are:    11.5356009196907        28.5815187097922     
   45.9490442941762        61.7344017258477        80.9965496685059     
   97.0357172035119        108.459387356880        119.781023078092     
   146.592334953311        152.668755243657        131.288078252748     
   154.890047443736        168.192774877822        191.452683762537     
   186.996652979143        186.697807717129        218.093168259762     
   164.952895574637        121.491008479617        169.221279479790     
   155.871835173952        205.307770880218        335.290327909702     
   164.867567304915        64.0450158640891        94.0601986006509     
   70.6884176940179        106.689105514516        71.1377593696618     
   6.15518915521647        19.3235718432974        1.28278747418506     
  5.597372976372225E-002  1.573885124156428E-003  6.803124781902203E-005
  2.108331314561056E-010
 congrad: converged eigenvalue    3923.31930334744     
 congrad: converged eigenvalue    4079.64608806117     
 congrad: converged eigenvalue    4179.74930926259     
 congrad: converged eigenvalue    4728.09898210929     
 congrad: End of iteration:           36


 -------Simulator : initializations ----------------------------------------
 -------Simulator : cost-function Jb ---------------------------------------
 -------Simulator : convert state from control to physical space -----------
 -------Simulator : change from model to TL  variables -------------------
 -------Simulator : call direct and adjoint  model -----------------------
 START CNT3TL
 START CNT4TL, NSIM4D=          37
ISTEP=       0 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5340
ISTEP=       0 ZI0= 1366.0000 ZSEASON= 1.034065865 REA=149597870000.00 RDEASO=147113087085.47
 NSTEP =     0 STEPOTL IAAA0VAAA
 NSTEP =     1 STEPOTL 0AAA00AAA
 NSTEP =     2 STEPOTL 0AAA0VAAA
 NSTEP =     3 STEPOTL 0AAA00AAA
 NSTEP =     4 STEPOTL 0AAA00AAA
ISTEP=       5 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5331
ISTEP=       5 ZI0= 1366.0000 ZSEASON= 1.034065245 REA=149597870000.00 RDEASO=147113131193.21
 NSTEP =     5 STEPOTL 0AAA0VAAA
 NSTEP =     6 STEPOTL 0AAA00AAA
 NSTEP =     7 STEPOTL 0AAA0VAAA
 NSTEP =     8 STEPOTL 0AAA00AAA
 NSTEP =     9 STEPOTL 0AAA00AAA
ISTEP=      10 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5323
ISTEP=      10 ZI0= 1366.0000 ZSEASON= 1.034064607 REA=149597870000.00 RDEASO=147113176585.14
 NSTEP =    10 STEPOTL 0AAA0VAAA
 NSTEP =    11 STEPOTL 0AAA00AAA
 NSTEP =    12 STEPOTL 0AAA0VAAA
 NSTEP =    13 STEPOTL 0AAA00AAA
 NSTEP =    14 STEPOTL 0AAA00AAA
ISTEP=      15 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5314
ISTEP=      15 ZI0= 1366.0000 ZSEASON= 1.034063950 REA=149597870000.00 RDEASO=147113223261.23
 NSTEP =    15 STEPOTL 0AAA0VAAA
 NSTEP =    16 STEPOTL 0AAA00AAA
 NSTEP =    17 STEPOTL 0AAA0VAAA
 NSTEP =    18 STEPOTL 0AAA00AAA
 NSTEP =    19 STEPOTL 0AAA00AAA
ISTEP=      20 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5304
ISTEP=      20 ZI0= 1366.0000 ZSEASON= 1.034063276 REA=149597870000.00 RDEASO=147113271221.47
 NSTEP =    20 STEPOTL 0AAA0VAAA
 NSTEP =    21 STEPOTL 0AAA00AAA
 NSTEP =    22 STEPOTL 0AAA0VAAA
 NSTEP =    23 STEPOTL 0AAA00AAA
 NSTEP =    24 STEPOTL 0AAA00AAA
ISTEP=      25 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5295
ISTEP=      25 ZI0= 1366.0000 ZSEASON= 1.034062584 REA=149597870000.00 RDEASO=147113320465.82
 NSTEP =    25 STEPOTL 0AAA0VAAA
 NSTEP =    26 STEPOTL 0AAA00AAA
 NSTEP =    27 STEPOTL 0AAA0VAAA
 NSTEP =    28 STEPOTL 0AAA00AAA
 NSTEP =    29 STEPOTL 0AAA00AAA
ISTEP=      30 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5285
ISTEP=      30 ZI0= 1366.0000 ZSEASON= 1.034061874 REA=149597870000.00 RDEASO=147113370994.27
 NSTEP =    30 STEPOTL 0AA00V000
 NSTEP =    30 OBSVTL  0AA00V000
 *** COMTC ARRIVAL        28164        7131         272
 END CNT3TL


    EVJCDFI2- Evaluation of the Jc cost function when the digital filter is used     NSPEC2 =    15670   ALPHAG =  100.000    
 EVJCDFI: DFI check, sum of coefs=  6.635317295611287E-017
         Global value of the Jc-DFI/ALPHAG cost function = 
   2.06384533159930     
 START CNT3AD
 START CNT4AD, NSIM4D=          37
 NSTEP =    30 OBSVAD  000000000
 CNT4AD (ADJOINT INTEGRATION); TIME SLOT NO :  13 TO BE USED WITH TIME STEP (NSTEP) :  30 ; MODEL TIME (SINCE START) : 21600.
 NSTEP =    30 STEPOAD 0AA00V000
 NSTEP =    29 STEPOAD 0AAA00AAA
 NSTEP =    28 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :  12 TO BE USED WITH TIME STEP (NSTEP) :  27 ; MODEL TIME (SINCE START) : 19440.
 NSTEP =    27 STEPOAD 0AAA0VAAA
 NSTEP =    26 STEPOAD 0AAA00AAA
ISTEP=      25 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5295
ISTEP=      25 ZI0= 1366.0000 ZSEASON= 1.034062584 REA=149597870000.00 RDEASO=147113320465.82
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :  11 TO BE USED WITH TIME STEP (NSTEP) :  25 ; MODEL TIME (SINCE START) : 18000.
 NSTEP =    25 STEPOAD 0AAA0VAAA
 NSTEP =    24 STEPOAD 0AAA00AAA
 NSTEP =    23 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :  10 TO BE USED WITH TIME STEP (NSTEP) :  22 ; MODEL TIME (SINCE START) : 15840.
 NSTEP =    22 STEPOAD 0AAA0VAAA
 NSTEP =    21 STEPOAD 0AAA00AAA
ISTEP=      20 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5304
ISTEP=      20 ZI0= 1366.0000 ZSEASON= 1.034063276 REA=149597870000.00 RDEASO=147113271221.47
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   9 TO BE USED WITH TIME STEP (NSTEP) :  20 ; MODEL TIME (SINCE START) : 14400.
 NSTEP =    20 STEPOAD 0AAA0VAAA
 NSTEP =    19 STEPOAD 0AAA00AAA
 NSTEP =    18 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   8 TO BE USED WITH TIME STEP (NSTEP) :  17 ; MODEL TIME (SINCE START) : 12240.
 NSTEP =    17 STEPOAD 0AAA0VAAA
 NSTEP =    16 STEPOAD 0AAA00AAA
ISTEP=      15 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5314
ISTEP=      15 ZI0= 1366.0000 ZSEASON= 1.034063950 REA=149597870000.00 RDEASO=147113223261.23
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   7 TO BE USED WITH TIME STEP (NSTEP) :  15 ; MODEL TIME (SINCE START) : 10800.
 NSTEP =    15 STEPOAD 0AAA0VAAA
 NSTEP =    14 STEPOAD 0AAA00AAA
 NSTEP =    13 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   6 TO BE USED WITH TIME STEP (NSTEP) :  12 ; MODEL TIME (SINCE START) :  8640.
 NSTEP =    12 STEPOAD 0AAA0VAAA
 NSTEP =    11 STEPOAD 0AAA00AAA
ISTEP=      10 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5323
ISTEP=      10 ZI0= 1366.0000 ZSEASON= 1.034064607 REA=149597870000.00 RDEASO=147113176585.14
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   5 TO BE USED WITH TIME STEP (NSTEP) :  10 ; MODEL TIME (SINCE START) :  7200.
 NSTEP =    10 STEPOAD 0AAA0VAAA
 NSTEP =     9 STEPOAD 0AAA00AAA
 NSTEP =     8 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   4 TO BE USED WITH TIME STEP (NSTEP) :   7 ; MODEL TIME (SINCE START) :  5040.
 NSTEP =     7 STEPOAD 0AAA0VAAA
 NSTEP =     6 STEPOAD 0AAA00AAA
ISTEP=       5 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5331
ISTEP=       5 ZI0= 1366.0000 ZSEASON= 1.034065245 REA=149597870000.00 RDEASO=147113131193.21
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   3 TO BE USED WITH TIME STEP (NSTEP) :   5 ; MODEL TIME (SINCE START) :  3600.
 NSTEP =     5 STEPOAD 0AAA0VAAA
 NSTEP =     4 STEPOAD 0AAA00AAA
 NSTEP =     3 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   2 TO BE USED WITH TIME STEP (NSTEP) :   2 ; MODEL TIME (SINCE START) :  1440.
 NSTEP =     2 STEPOAD 0AAA0VAAA
 NSTEP =     1 STEPOAD 0AAA00AAA
ISTEP=       0 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5340
ISTEP=       0 ZI0= 1366.0000 ZSEASON= 1.034065865 REA=149597870000.00 RDEASO=147113087085.47
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   1 TO BE USED WITH TIME STEP (NSTEP) :   0 ; MODEL TIME (SINCE START) :     0.
 NSTEP =     0 STEPOAD 0AAA0VAAA
 END CNT3AD
 Jc-DFI cost function =    103.192266579965      --   NSIM4D =           37
 EVCOST3  =  37 PZF = 0.1031922665799649E+03
 DIST. FUNC. JB=0.413770E+05 NSIM4D=   37 ++
 Jp cost function =    468.641146123136      --   NSIM4D =           37
 OBS DISTANCE FUNCTION JO=0.1603474305194857E+07 NSIM4D=   37 ==
 GREPMIN: Iteration   37 : Estimated gradient norm= 0.1350003332819502E+04  4095180369ADBB10
 Estimated reduction in norm of gradient is:   0.282036171319641     
 GREPMIN: Iteration   37 : Estimated quadratic cost= 0.1532927908878836E+07  413763FFE8AC488D
 congrad: ritz values are:    3.80305741125867        19.1884556981801     
   47.4101268281515        88.4608222413474        140.991316646177     
   208.533217942199        286.761571944056        382.450567029800     
   480.684197829060        592.899289978293        719.985394022462     
   847.609181652598        986.200373189240        1124.33569708262     
   1282.41209549380        1426.21708621947        1583.69380134083     
   1790.73696758895        1936.19976596674        2079.32220025501     
   2253.46720610739        2434.66658107822        2597.44258820333     
   2789.34356361792        2894.41126767027        2983.21589674344     
   3216.81710972375        3268.94076898530        3426.73894941972     
   3476.40361652500        3580.99575330269        3716.30493266522     
   3771.67913230039        3923.31930491323        4079.64608806230     
   4179.74930926260        4728.09898210929     
 congrad: error bounds are:    11.9395515114804        29.7270049389467     
   47.9614581064901        65.0968634572533        84.7362163350336     
   101.628032494070        113.437680392145        136.337258265542     
   158.778315281651        155.499827737977        158.372113644077     
   222.401192998130        239.864403131282        225.440795580629     
   235.494805618800        200.079655622598        281.155271131570     
   237.744725178817        275.672298091280        161.405084214754     
   161.932449531095        107.008019200854        100.499702334122     
   130.643434064931        258.395954159229        101.129518703428     
   66.4943858852895        56.1147574180863        64.3450408171796     
   50.7896850514051        3.69347144885064        9.94790034425532     
  0.632390532184636       2.467654273585502E-002  6.316099232989426E-004
  2.587872325633701E-005  6.319951874729639E-011
 congrad: converged eigenvalue    3923.31930491323     
 congrad: converged eigenvalue    4079.64608806230     
 congrad: converged eigenvalue    4179.74930926260     
 congrad: converged eigenvalue    4728.09898210929     
 congrad: End of iteration:           37


 -------Simulator : initializations ----------------------------------------
 -------Simulator : cost-function Jb ---------------------------------------
 -------Simulator : convert state from control to physical space -----------
 -------Simulator : change from model to TL  variables -------------------
 -------Simulator : call direct and adjoint  model -----------------------
 START CNT3TL
 START CNT4TL, NSIM4D=          38
ISTEP=       0 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5340
ISTEP=       0 ZI0= 1366.0000 ZSEASON= 1.034065865 REA=149597870000.00 RDEASO=147113087085.47
 NSTEP =     0 STEPOTL IAAA0VAAA
 NSTEP =     1 STEPOTL 0AAA00AAA
 NSTEP =     2 STEPOTL 0AAA0VAAA
 NSTEP =     3 STEPOTL 0AAA00AAA
 NSTEP =     4 STEPOTL 0AAA00AAA
ISTEP=       5 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5331
ISTEP=       5 ZI0= 1366.0000 ZSEASON= 1.034065245 REA=149597870000.00 RDEASO=147113131193.21
 NSTEP =     5 STEPOTL 0AAA0VAAA
 NSTEP =     6 STEPOTL 0AAA00AAA
 NSTEP =     7 STEPOTL 0AAA0VAAA
 NSTEP =     8 STEPOTL 0AAA00AAA
 NSTEP =     9 STEPOTL 0AAA00AAA
ISTEP=      10 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5323
ISTEP=      10 ZI0= 1366.0000 ZSEASON= 1.034064607 REA=149597870000.00 RDEASO=147113176585.14
 NSTEP =    10 STEPOTL 0AAA0VAAA
 NSTEP =    11 STEPOTL 0AAA00AAA
 NSTEP =    12 STEPOTL 0AAA0VAAA
 NSTEP =    13 STEPOTL 0AAA00AAA
 NSTEP =    14 STEPOTL 0AAA00AAA
ISTEP=      15 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5314
ISTEP=      15 ZI0= 1366.0000 ZSEASON= 1.034063950 REA=149597870000.00 RDEASO=147113223261.23
 NSTEP =    15 STEPOTL 0AAA0VAAA
 NSTEP =    16 STEPOTL 0AAA00AAA
 NSTEP =    17 STEPOTL 0AAA0VAAA
 NSTEP =    18 STEPOTL 0AAA00AAA
 NSTEP =    19 STEPOTL 0AAA00AAA
ISTEP=      20 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5304
ISTEP=      20 ZI0= 1366.0000 ZSEASON= 1.034063276 REA=149597870000.00 RDEASO=147113271221.47
 NSTEP =    20 STEPOTL 0AAA0VAAA
 NSTEP =    21 STEPOTL 0AAA00AAA
 NSTEP =    22 STEPOTL 0AAA0VAAA
 NSTEP =    23 STEPOTL 0AAA00AAA
 NSTEP =    24 STEPOTL 0AAA00AAA
ISTEP=      25 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5295
ISTEP=      25 ZI0= 1366.0000 ZSEASON= 1.034062584 REA=149597870000.00 RDEASO=147113320465.82
 NSTEP =    25 STEPOTL 0AAA0VAAA
 NSTEP =    26 STEPOTL 0AAA00AAA
 NSTEP =    27 STEPOTL 0AAA0VAAA
 NSTEP =    28 STEPOTL 0AAA00AAA
 NSTEP =    29 STEPOTL 0AAA00AAA
ISTEP=      30 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5285
ISTEP=      30 ZI0= 1366.0000 ZSEASON= 1.034061874 REA=149597870000.00 RDEASO=147113370994.27
 NSTEP =    30 STEPOTL 0AA00V000
 NSTEP =    30 OBSVTL  0AA00V000
 *** COMTC ARRIVAL        28164        7131         272
 END CNT3TL


    EVJCDFI2- Evaluation of the Jc cost function when the digital filter is used     NSPEC2 =    15670   ALPHAG =  100.000    
 EVJCDFI: DFI check, sum of coefs=  6.635317295611287E-017
         Global value of the Jc-DFI/ALPHAG cost function = 
   2.17422123558718     
 START CNT3AD
 START CNT4AD, NSIM4D=          38
 NSTEP =    30 OBSVAD  000000000
 CNT4AD (ADJOINT INTEGRATION); TIME SLOT NO :  13 TO BE USED WITH TIME STEP (NSTEP) :  30 ; MODEL TIME (SINCE START) : 21600.
 NSTEP =    30 STEPOAD 0AA00V000
 NSTEP =    29 STEPOAD 0AAA00AAA
 NSTEP =    28 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :  12 TO BE USED WITH TIME STEP (NSTEP) :  27 ; MODEL TIME (SINCE START) : 19440.
 NSTEP =    27 STEPOAD 0AAA0VAAA
 NSTEP =    26 STEPOAD 0AAA00AAA
ISTEP=      25 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5295
ISTEP=      25 ZI0= 1366.0000 ZSEASON= 1.034062584 REA=149597870000.00 RDEASO=147113320465.82
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :  11 TO BE USED WITH TIME STEP (NSTEP) :  25 ; MODEL TIME (SINCE START) : 18000.
 NSTEP =    25 STEPOAD 0AAA0VAAA
 NSTEP =    24 STEPOAD 0AAA00AAA
 NSTEP =    23 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :  10 TO BE USED WITH TIME STEP (NSTEP) :  22 ; MODEL TIME (SINCE START) : 15840.
 NSTEP =    22 STEPOAD 0AAA0VAAA
 NSTEP =    21 STEPOAD 0AAA00AAA
ISTEP=      20 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5304
ISTEP=      20 ZI0= 1366.0000 ZSEASON= 1.034063276 REA=149597870000.00 RDEASO=147113271221.47
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   9 TO BE USED WITH TIME STEP (NSTEP) :  20 ; MODEL TIME (SINCE START) : 14400.
 NSTEP =    20 STEPOAD 0AAA0VAAA
 NSTEP =    19 STEPOAD 0AAA00AAA
 NSTEP =    18 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   8 TO BE USED WITH TIME STEP (NSTEP) :  17 ; MODEL TIME (SINCE START) : 12240.
 NSTEP =    17 STEPOAD 0AAA0VAAA
 NSTEP =    16 STEPOAD 0AAA00AAA
ISTEP=      15 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5314
ISTEP=      15 ZI0= 1366.0000 ZSEASON= 1.034063950 REA=149597870000.00 RDEASO=147113223261.23
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   7 TO BE USED WITH TIME STEP (NSTEP) :  15 ; MODEL TIME (SINCE START) : 10800.
 NSTEP =    15 STEPOAD 0AAA0VAAA
 NSTEP =    14 STEPOAD 0AAA00AAA
 NSTEP =    13 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   6 TO BE USED WITH TIME STEP (NSTEP) :  12 ; MODEL TIME (SINCE START) :  8640.
 NSTEP =    12 STEPOAD 0AAA0VAAA
 NSTEP =    11 STEPOAD 0AAA00AAA
ISTEP=      10 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5323
ISTEP=      10 ZI0= 1366.0000 ZSEASON= 1.034064607 REA=149597870000.00 RDEASO=147113176585.14
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   5 TO BE USED WITH TIME STEP (NSTEP) :  10 ; MODEL TIME (SINCE START) :  7200.
 NSTEP =    10 STEPOAD 0AAA0VAAA
 NSTEP =     9 STEPOAD 0AAA00AAA
 NSTEP =     8 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   4 TO BE USED WITH TIME STEP (NSTEP) :   7 ; MODEL TIME (SINCE START) :  5040.
 NSTEP =     7 STEPOAD 0AAA0VAAA
 NSTEP =     6 STEPOAD 0AAA00AAA
ISTEP=       5 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5331
ISTEP=       5 ZI0= 1366.0000 ZSEASON= 1.034065245 REA=149597870000.00 RDEASO=147113131193.21
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   3 TO BE USED WITH TIME STEP (NSTEP) :   5 ; MODEL TIME (SINCE START) :  3600.
 NSTEP =     5 STEPOAD 0AAA0VAAA
 NSTEP =     4 STEPOAD 0AAA00AAA
 NSTEP =     3 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   2 TO BE USED WITH TIME STEP (NSTEP) :   2 ; MODEL TIME (SINCE START) :  1440.
 NSTEP =     2 STEPOAD 0AAA0VAAA
 NSTEP =     1 STEPOAD 0AAA00AAA
ISTEP=       0 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5340
ISTEP=       0 ZI0= 1366.0000 ZSEASON= 1.034065865 REA=149597870000.00 RDEASO=147113087085.47
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   1 TO BE USED WITH TIME STEP (NSTEP) :   0 ; MODEL TIME (SINCE START) :     0.
 NSTEP =     0 STEPOAD 0AAA0VAAA
 END CNT3AD
 Jc-DFI cost function =    108.711061779359      --   NSIM4D =           38
 EVCOST3  =  38 PZF = 0.1087110617793592E+03
 DIST. FUNC. JB=0.413895E+05 NSIM4D=   38 ++
 Jp cost function =    469.066530499954      --   NSIM4D =           38
 OBS DISTANCE FUNCTION JO=0.1603561353742103E+07 NSIM4D=   38 ==
 GREPMIN: Iteration   38 : Estimated gradient norm= 0.1260788369670501E+04  4093B3274A60FFD7
 Estimated reduction in norm of gradient is:   0.263397812421359     
 GREPMIN: Iteration   38 : Estimated quadratic cost= 0.1531912354193065E+07  413760085AAC6590
 congrad: ritz values are:    3.63406395462573        18.1326106754850     
   44.6422249295052        83.2872144906601        132.298969751913     
   195.875561175545        270.544858259932        357.491484705739     
   450.031555285008        561.557457204569        678.283209783145     
   783.114578078916        925.346407971141        1072.67832318549     
   1219.53922726130        1374.50856360539        1500.74197502173     
   1710.17364347154        1865.18920469685        2048.49640224577     
   2194.98386669729        2360.59149450369        2473.75567605722     
   2615.22789673024        2802.71146091545        2957.79905505007     
   3022.48057792444        3221.84710806163        3272.66561926641     
   3430.28694743005        3478.72314055037        3581.00629283654     
   3716.37068611731        3771.67938550463        3923.31930525589     
   4079.64608806250        4179.74930926260        4728.09898210930     
 congrad: error bounds are:    11.1418140060338        27.8605204002665     
   44.9579987413322        61.2635369145294        77.9867992737239     
   93.1932503561255        105.092796996146        129.349485672067     
   132.912258598213        137.520871960882        164.893493194101     
   164.966935558702        148.669710131894        140.666552206172     
   159.856459781739        152.804256467530        164.428233944305     
   187.048216082132        146.760829705454        129.628336587395     
   217.907502487674        293.734220073696        236.082432601949     
   132.094981833316        76.6596723582017        133.856207173159     
   221.757049924060        58.9687515430198        51.8875024649562     
   43.2455229279319        35.8613497649165        2.24802516832632     
   5.20704735412728       0.315430247692041       1.093964989868215E-002
  2.528036551193217E-004  9.769600943583860E-006  1.849598138692202E-011
 congrad: converged eigenvalue    3771.67938550463     
 congrad: converged eigenvalue    3923.31930525589     
 congrad: converged eigenvalue    4079.64608806250     
 congrad: converged eigenvalue    4179.74930926260     
 congrad: converged eigenvalue    4728.09898210930     
 congrad: End of iteration:           38


 -------Simulator : initializations ----------------------------------------
 -------Simulator : cost-function Jb ---------------------------------------
 -------Simulator : convert state from control to physical space -----------
 -------Simulator : change from model to TL  variables -------------------
 -------Simulator : call direct and adjoint  model -----------------------
 START CNT3TL
 START CNT4TL, NSIM4D=          39
ISTEP=       0 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5340
ISTEP=       0 ZI0= 1366.0000 ZSEASON= 1.034065865 REA=149597870000.00 RDEASO=147113087085.47
 NSTEP =     0 STEPOTL IAAA0VAAA
 NSTEP =     1 STEPOTL 0AAA00AAA
 NSTEP =     2 STEPOTL 0AAA0VAAA
 NSTEP =     3 STEPOTL 0AAA00AAA
 NSTEP =     4 STEPOTL 0AAA00AAA
ISTEP=       5 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5331
ISTEP=       5 ZI0= 1366.0000 ZSEASON= 1.034065245 REA=149597870000.00 RDEASO=147113131193.21
 NSTEP =     5 STEPOTL 0AAA0VAAA
 NSTEP =     6 STEPOTL 0AAA00AAA
 NSTEP =     7 STEPOTL 0AAA0VAAA
 NSTEP =     8 STEPOTL 0AAA00AAA
 NSTEP =     9 STEPOTL 0AAA00AAA
ISTEP=      10 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5323
ISTEP=      10 ZI0= 1366.0000 ZSEASON= 1.034064607 REA=149597870000.00 RDEASO=147113176585.14
 NSTEP =    10 STEPOTL 0AAA0VAAA
 NSTEP =    11 STEPOTL 0AAA00AAA
 NSTEP =    12 STEPOTL 0AAA0VAAA
 NSTEP =    13 STEPOTL 0AAA00AAA
 NSTEP =    14 STEPOTL 0AAA00AAA
ISTEP=      15 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5314
ISTEP=      15 ZI0= 1366.0000 ZSEASON= 1.034063950 REA=149597870000.00 RDEASO=147113223261.23
 NSTEP =    15 STEPOTL 0AAA0VAAA
 NSTEP =    16 STEPOTL 0AAA00AAA
 NSTEP =    17 STEPOTL 0AAA0VAAA
 NSTEP =    18 STEPOTL 0AAA00AAA
 NSTEP =    19 STEPOTL 0AAA00AAA
ISTEP=      20 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5304
ISTEP=      20 ZI0= 1366.0000 ZSEASON= 1.034063276 REA=149597870000.00 RDEASO=147113271221.47
 NSTEP =    20 STEPOTL 0AAA0VAAA
 NSTEP =    21 STEPOTL 0AAA00AAA
 NSTEP =    22 STEPOTL 0AAA0VAAA
 NSTEP =    23 STEPOTL 0AAA00AAA
 NSTEP =    24 STEPOTL 0AAA00AAA
ISTEP=      25 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5295
ISTEP=      25 ZI0= 1366.0000 ZSEASON= 1.034062584 REA=149597870000.00 RDEASO=147113320465.82
 NSTEP =    25 STEPOTL 0AAA0VAAA
 NSTEP =    26 STEPOTL 0AAA00AAA
 NSTEP =    27 STEPOTL 0AAA0VAAA
 NSTEP =    28 STEPOTL 0AAA00AAA
 NSTEP =    29 STEPOTL 0AAA00AAA
ISTEP=      30 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5285
ISTEP=      30 ZI0= 1366.0000 ZSEASON= 1.034061874 REA=149597870000.00 RDEASO=147113370994.27
 NSTEP =    30 STEPOTL 0AA00V000
 NSTEP =    30 OBSVTL  0AA00V000
 *** COMTC ARRIVAL        28164        7131         272
 END CNT3TL


    EVJCDFI2- Evaluation of the Jc cost function when the digital filter is used     NSPEC2 =    15670   ALPHAG =  100.000    
 EVJCDFI: DFI check, sum of coefs=  6.635317295611287E-017
         Global value of the Jc-DFI/ALPHAG cost function = 
   2.35728286823110     
 START CNT3AD
 START CNT4AD, NSIM4D=          39
 NSTEP =    30 OBSVAD  000000000
 CNT4AD (ADJOINT INTEGRATION); TIME SLOT NO :  13 TO BE USED WITH TIME STEP (NSTEP) :  30 ; MODEL TIME (SINCE START) : 21600.
 NSTEP =    30 STEPOAD 0AA00V000
 NSTEP =    29 STEPOAD 0AAA00AAA
 NSTEP =    28 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :  12 TO BE USED WITH TIME STEP (NSTEP) :  27 ; MODEL TIME (SINCE START) : 19440.
 NSTEP =    27 STEPOAD 0AAA0VAAA
 NSTEP =    26 STEPOAD 0AAA00AAA
ISTEP=      25 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5295
ISTEP=      25 ZI0= 1366.0000 ZSEASON= 1.034062584 REA=149597870000.00 RDEASO=147113320465.82
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :  11 TO BE USED WITH TIME STEP (NSTEP) :  25 ; MODEL TIME (SINCE START) : 18000.
 NSTEP =    25 STEPOAD 0AAA0VAAA
 NSTEP =    24 STEPOAD 0AAA00AAA
 NSTEP =    23 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :  10 TO BE USED WITH TIME STEP (NSTEP) :  22 ; MODEL TIME (SINCE START) : 15840.
 NSTEP =    22 STEPOAD 0AAA0VAAA
 NSTEP =    21 STEPOAD 0AAA00AAA
ISTEP=      20 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5304
ISTEP=      20 ZI0= 1366.0000 ZSEASON= 1.034063276 REA=149597870000.00 RDEASO=147113271221.47
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   9 TO BE USED WITH TIME STEP (NSTEP) :  20 ; MODEL TIME (SINCE START) : 14400.
 NSTEP =    20 STEPOAD 0AAA0VAAA
 NSTEP =    19 STEPOAD 0AAA00AAA
 NSTEP =    18 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   8 TO BE USED WITH TIME STEP (NSTEP) :  17 ; MODEL TIME (SINCE START) : 12240.
 NSTEP =    17 STEPOAD 0AAA0VAAA
 NSTEP =    16 STEPOAD 0AAA00AAA
ISTEP=      15 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5314
ISTEP=      15 ZI0= 1366.0000 ZSEASON= 1.034063950 REA=149597870000.00 RDEASO=147113223261.23
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   7 TO BE USED WITH TIME STEP (NSTEP) :  15 ; MODEL TIME (SINCE START) : 10800.
 NSTEP =    15 STEPOAD 0AAA0VAAA
 NSTEP =    14 STEPOAD 0AAA00AAA
 NSTEP =    13 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   6 TO BE USED WITH TIME STEP (NSTEP) :  12 ; MODEL TIME (SINCE START) :  8640.
 NSTEP =    12 STEPOAD 0AAA0VAAA
 NSTEP =    11 STEPOAD 0AAA00AAA
ISTEP=      10 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5323
ISTEP=      10 ZI0= 1366.0000 ZSEASON= 1.034064607 REA=149597870000.00 RDEASO=147113176585.14
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   5 TO BE USED WITH TIME STEP (NSTEP) :  10 ; MODEL TIME (SINCE START) :  7200.
 NSTEP =    10 STEPOAD 0AAA0VAAA
 NSTEP =     9 STEPOAD 0AAA00AAA
 NSTEP =     8 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   4 TO BE USED WITH TIME STEP (NSTEP) :   7 ; MODEL TIME (SINCE START) :  5040.
 NSTEP =     7 STEPOAD 0AAA0VAAA
 NSTEP =     6 STEPOAD 0AAA00AAA
ISTEP=       5 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5331
ISTEP=       5 ZI0= 1366.0000 ZSEASON= 1.034065245 REA=149597870000.00 RDEASO=147113131193.21
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   3 TO BE USED WITH TIME STEP (NSTEP) :   5 ; MODEL TIME (SINCE START) :  3600.
 NSTEP =     5 STEPOAD 0AAA0VAAA
 NSTEP =     4 STEPOAD 0AAA00AAA
 NSTEP =     3 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   2 TO BE USED WITH TIME STEP (NSTEP) :   2 ; MODEL TIME (SINCE START) :  1440.
 NSTEP =     2 STEPOAD 0AAA0VAAA
 NSTEP =     1 STEPOAD 0AAA00AAA
ISTEP=       0 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5340
ISTEP=       0 ZI0= 1366.0000 ZSEASON= 1.034065865 REA=149597870000.00 RDEASO=147113087085.47
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   1 TO BE USED WITH TIME STEP (NSTEP) :   0 ; MODEL TIME (SINCE START) :     0.
 NSTEP =     0 STEPOAD 0AAA0VAAA
 END CNT3AD
 Jc-DFI cost function =    117.864143411555      --   NSIM4D =           39
 EVCOST3  =  39 PZF = 0.1178641434115548E+03
 DIST. FUNC. JB=0.413806E+05 NSIM4D=   39 ++
 Jp cost function =    468.655196815983      --   NSIM4D =           39
 OBS DISTANCE FUNCTION JO=0.1603497983555627E+07 NSIM4D=   39 ==
 GREPMIN: Iteration   39 : Estimated gradient norm= 0.1215814699526866E+04  4092FF424097BFD1
 Estimated reduction in norm of gradient is:   0.254002130626254     
 GREPMIN: Iteration   39 : Estimated quadratic cost= 0.1531055364468460E+07  41375CAF5D4DCE13
 congrad: ritz values are:    3.49526044713105        17.2597133597159     
   42.3628960851108        79.0293952744693        125.487390111769     
   186.022834878138        257.658568138119        338.157715133923     
   430.286769276494        537.569351318799        643.964449920603     
   754.090085839513        895.224356574868        1036.64957825425     
   1166.23025398850        1312.74148411229        1439.16873187695     
   1589.05592243079        1777.83103730283        1909.55525085992     
   2066.95652398602        2233.22052086682        2418.21967184057     
   2562.29903658673        2663.03141710167        2809.94248016262     
   2968.43564038044        3080.45094360877        3225.58446533480     
   3275.52659514282        3431.74667237778        3479.71248695679     
   3581.00972791173        3716.38688553587        3771.67944241216     
   3923.31930531746        4079.64608806253        4179.74930926259     
   4728.09898210930     
 congrad: error bounds are:    10.6105331120169        26.6135744103303     
   42.8447781084856        58.2870643152552        72.6071139825021     
   86.9997815169910        99.6084635146327        119.016832147211     
   117.872679195872        136.008498056730        156.119237278981     
   134.268446926212        156.283515980114        189.437289843574     
   226.048289451495        244.732304486844        215.854975669630     
   291.131396535169        234.941229734676        217.148794696950     
   114.121946839813        133.125246010259        124.182052316575     
   203.497628595208        241.311406380064        78.7857470826858     
   63.9986971743851        202.357766178797        53.5680602304529     
   46.7317598505118        28.7265743691612        23.4893557968055     
   1.30222593862752        2.65128920410281       0.153751222775331     
  4.796465942541735E-003  1.009590754987176E-004  3.697102281782625E-006
  5.530866755849690E-012
 congrad: converged eigenvalue    3771.67944241216     
 congrad: converged eigenvalue    3923.31930531746     
 congrad: converged eigenvalue    4079.64608806253     
 congrad: converged eigenvalue    4179.74930926259     
 congrad: converged eigenvalue    4728.09898210930     
 congrad: End of iteration:           39


 -------Simulator : initializations ----------------------------------------
 -------Simulator : cost-function Jb ---------------------------------------
 -------Simulator : convert state from control to physical space -----------
 -------Simulator : change from model to TL  variables -------------------
 -------Simulator : call direct and adjoint  model -----------------------
 START CNT3TL
 START CNT4TL, NSIM4D=          40
ISTEP=       0 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5340
ISTEP=       0 ZI0= 1366.0000 ZSEASON= 1.034065865 REA=149597870000.00 RDEASO=147113087085.47
 NSTEP =     0 STEPOTL IAAA0VAAA
 NSTEP =     1 STEPOTL 0AAA00AAA
 NSTEP =     2 STEPOTL 0AAA0VAAA
 NSTEP =     3 STEPOTL 0AAA00AAA
 NSTEP =     4 STEPOTL 0AAA00AAA
ISTEP=       5 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5331
ISTEP=       5 ZI0= 1366.0000 ZSEASON= 1.034065245 REA=149597870000.00 RDEASO=147113131193.21
 NSTEP =     5 STEPOTL 0AAA0VAAA
 NSTEP =     6 STEPOTL 0AAA00AAA
 NSTEP =     7 STEPOTL 0AAA0VAAA
 NSTEP =     8 STEPOTL 0AAA00AAA
 NSTEP =     9 STEPOTL 0AAA00AAA
ISTEP=      10 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5323
ISTEP=      10 ZI0= 1366.0000 ZSEASON= 1.034064607 REA=149597870000.00 RDEASO=147113176585.14
 NSTEP =    10 STEPOTL 0AAA0VAAA
 NSTEP =    11 STEPOTL 0AAA00AAA
 NSTEP =    12 STEPOTL 0AAA0VAAA
 NSTEP =    13 STEPOTL 0AAA00AAA
 NSTEP =    14 STEPOTL 0AAA00AAA
ISTEP=      15 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5314
ISTEP=      15 ZI0= 1366.0000 ZSEASON= 1.034063950 REA=149597870000.00 RDEASO=147113223261.23
 NSTEP =    15 STEPOTL 0AAA0VAAA
 NSTEP =    16 STEPOTL 0AAA00AAA
 NSTEP =    17 STEPOTL 0AAA0VAAA
 NSTEP =    18 STEPOTL 0AAA00AAA
 NSTEP =    19 STEPOTL 0AAA00AAA
ISTEP=      20 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5304
ISTEP=      20 ZI0= 1366.0000 ZSEASON= 1.034063276 REA=149597870000.00 RDEASO=147113271221.47
 NSTEP =    20 STEPOTL 0AAA0VAAA
 NSTEP =    21 STEPOTL 0AAA00AAA
 NSTEP =    22 STEPOTL 0AAA0VAAA
 NSTEP =    23 STEPOTL 0AAA00AAA
 NSTEP =    24 STEPOTL 0AAA00AAA
ISTEP=      25 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5295
ISTEP=      25 ZI0= 1366.0000 ZSEASON= 1.034062584 REA=149597870000.00 RDEASO=147113320465.82
 NSTEP =    25 STEPOTL 0AAA0VAAA
 NSTEP =    26 STEPOTL 0AAA00AAA
 NSTEP =    27 STEPOTL 0AAA0VAAA
 NSTEP =    28 STEPOTL 0AAA00AAA
 NSTEP =    29 STEPOTL 0AAA00AAA
ISTEP=      30 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5285
ISTEP=      30 ZI0= 1366.0000 ZSEASON= 1.034061874 REA=149597870000.00 RDEASO=147113370994.27
 NSTEP =    30 STEPOTL 0AA00V000
 NSTEP =    30 OBSVTL  0AA00V000
 *** COMTC ARRIVAL        28164        7131         272
 END CNT3TL


    EVJCDFI2- Evaluation of the Jc cost function when the digital filter is used     NSPEC2 =    15670   ALPHAG =  100.000    
 EVJCDFI: DFI check, sum of coefs=  6.635317295611287E-017
         Global value of the Jc-DFI/ALPHAG cost function = 
   2.58440711218878     
 START CNT3AD
 START CNT4AD, NSIM4D=          40
 NSTEP =    30 OBSVAD  000000000
 CNT4AD (ADJOINT INTEGRATION); TIME SLOT NO :  13 TO BE USED WITH TIME STEP (NSTEP) :  30 ; MODEL TIME (SINCE START) : 21600.
 NSTEP =    30 STEPOAD 0AA00V000
 NSTEP =    29 STEPOAD 0AAA00AAA
 NSTEP =    28 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :  12 TO BE USED WITH TIME STEP (NSTEP) :  27 ; MODEL TIME (SINCE START) : 19440.
 NSTEP =    27 STEPOAD 0AAA0VAAA
 NSTEP =    26 STEPOAD 0AAA00AAA
ISTEP=      25 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5295
ISTEP=      25 ZI0= 1366.0000 ZSEASON= 1.034062584 REA=149597870000.00 RDEASO=147113320465.82
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :  11 TO BE USED WITH TIME STEP (NSTEP) :  25 ; MODEL TIME (SINCE START) : 18000.
 NSTEP =    25 STEPOAD 0AAA0VAAA
 NSTEP =    24 STEPOAD 0AAA00AAA
 NSTEP =    23 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :  10 TO BE USED WITH TIME STEP (NSTEP) :  22 ; MODEL TIME (SINCE START) : 15840.
 NSTEP =    22 STEPOAD 0AAA0VAAA
 NSTEP =    21 STEPOAD 0AAA00AAA
ISTEP=      20 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5304
ISTEP=      20 ZI0= 1366.0000 ZSEASON= 1.034063276 REA=149597870000.00 RDEASO=147113271221.47
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   9 TO BE USED WITH TIME STEP (NSTEP) :  20 ; MODEL TIME (SINCE START) : 14400.
 NSTEP =    20 STEPOAD 0AAA0VAAA
 NSTEP =    19 STEPOAD 0AAA00AAA
 NSTEP =    18 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   8 TO BE USED WITH TIME STEP (NSTEP) :  17 ; MODEL TIME (SINCE START) : 12240.
 NSTEP =    17 STEPOAD 0AAA0VAAA
 NSTEP =    16 STEPOAD 0AAA00AAA
ISTEP=      15 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5314
ISTEP=      15 ZI0= 1366.0000 ZSEASON= 1.034063950 REA=149597870000.00 RDEASO=147113223261.23
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   7 TO BE USED WITH TIME STEP (NSTEP) :  15 ; MODEL TIME (SINCE START) : 10800.
 NSTEP =    15 STEPOAD 0AAA0VAAA
 NSTEP =    14 STEPOAD 0AAA00AAA
 NSTEP =    13 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   6 TO BE USED WITH TIME STEP (NSTEP) :  12 ; MODEL TIME (SINCE START) :  8640.
 NSTEP =    12 STEPOAD 0AAA0VAAA
 NSTEP =    11 STEPOAD 0AAA00AAA
ISTEP=      10 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5323
ISTEP=      10 ZI0= 1366.0000 ZSEASON= 1.034064607 REA=149597870000.00 RDEASO=147113176585.14
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   5 TO BE USED WITH TIME STEP (NSTEP) :  10 ; MODEL TIME (SINCE START) :  7200.
 NSTEP =    10 STEPOAD 0AAA0VAAA
 NSTEP =     9 STEPOAD 0AAA00AAA
 NSTEP =     8 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   4 TO BE USED WITH TIME STEP (NSTEP) :   7 ; MODEL TIME (SINCE START) :  5040.
 NSTEP =     7 STEPOAD 0AAA0VAAA
 NSTEP =     6 STEPOAD 0AAA00AAA
ISTEP=       5 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5331
ISTEP=       5 ZI0= 1366.0000 ZSEASON= 1.034065245 REA=149597870000.00 RDEASO=147113131193.21
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   3 TO BE USED WITH TIME STEP (NSTEP) :   5 ; MODEL TIME (SINCE START) :  3600.
 NSTEP =     5 STEPOAD 0AAA0VAAA
 NSTEP =     4 STEPOAD 0AAA00AAA
 NSTEP =     3 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   2 TO BE USED WITH TIME STEP (NSTEP) :   2 ; MODEL TIME (SINCE START) :  1440.
 NSTEP =     2 STEPOAD 0AAA0VAAA
 NSTEP =     1 STEPOAD 0AAA00AAA
ISTEP=       0 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5340
ISTEP=       0 ZI0= 1366.0000 ZSEASON= 1.034065865 REA=149597870000.00 RDEASO=147113087085.47
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   1 TO BE USED WITH TIME STEP (NSTEP) :   0 ; MODEL TIME (SINCE START) :     0.
 NSTEP =     0 STEPOAD 0AAA0VAAA
 END CNT3AD
 Jc-DFI cost function =    129.220355609439      --   NSIM4D =           40
 EVCOST3  =  40 PZF = 0.1292203556094389E+03
 DIST. FUNC. JB=0.413859E+05 NSIM4D=   40 ++
 Jp cost function =    469.092356792986      --   NSIM4D =           40
 OBS DISTANCE FUNCTION JO=0.1603506627636276E+07 NSIM4D=   40 ==
 GREPMIN: Iteration   40 : Estimated gradient norm= 0.1179776720701928E+04  40926F1B5CABF3A1
 Estimated reduction in norm of gradient is:   0.246473250272562     
 GREPMIN: Iteration   40 : Estimated quadratic cost= 0.1530237138612393E+07  4137597D237C1A0D
 congrad: ritz values are:    3.36571941187197        16.4398509428084     
   40.2325382799556        75.0641181465637        119.365040142738     
   176.991200639344        245.358735194254        320.822597904284     
   412.131810620373        510.162684477316        610.247283595902     
   726.131464288360        841.746063292768        962.139019669716     
   1093.46936354156        1236.91910244397        1384.11719124842     
   1507.32142658521        1708.85505825097        1859.54965158406     
   2035.80937185350        2143.41973894539        2279.31658289974     
   2437.39853618020        2594.28589287694        2753.61422702961     
   2825.90362845909        2972.63785097976        3126.00439964533     
   3229.15026013098        3278.10122963550        3432.44146004837     
   3480.15664451069        3581.01093433525        3716.39127676838     
   3771.67945652888        3923.31930532978        4079.64608806254     
   4179.74930926259        4728.09898210930     
 congrad: error bounds are:    10.1789658555998        25.6170878018896     
   41.1423461191628        55.8883841410140        68.7302946984484     
   83.7598086436009        98.2069456826954        113.944852874347     
   119.466577106949        149.881619919925        155.832263836624     
   150.912418889609        214.908357843993        207.523071168723     
   166.579078427097        166.083814940062        146.405710154162     
   159.563271535172        180.238410572954        150.587791640592     
   186.682776865724        294.452624679158        236.629075733819     
   120.398136886460        112.243781944125        238.686621719264     
   153.703682479265        54.0812859782224        177.845136499226     
   54.9889113702956        45.7095076115735        20.1646440544322     
   15.7686836051637       0.772857619188291        1.38170346575898     
  7.659517065474999E-002  2.142105210630608E-003  4.093278605893452E-005
  1.417690732997382E-006  1.540868814691561E-012
 congrad: converged eigenvalue    3771.67945652888     
 congrad: converged eigenvalue    3923.31930532978     
 congrad: converged eigenvalue    4079.64608806254     
 congrad: converged eigenvalue    4179.74930926259     
 congrad: converged eigenvalue    4728.09898210930     
 congrad: End of iteration:           40


 Summary of Lanczos iteration:
    Number of iterations performed:           40
    Maximum allowed number of iterations:           40
    Minimum allowed number of iterations:            0
    Required reduction in norm of gradient:   1.000000000000000E-003
    Achieved reduction in norm of gradient:   0.246473250272562     
    *** Failed to meet convergence criterion ***
    Number of sufficiently-converged eigenpairs:           19
  
 --- Variational job : final call to simulator -----------------------------
 SIM4D: LSUBBG= T
 -------Simulator : initializations ----------------------------------------
 -------Simulator : cost-function Jb ---------------------------------------
 -------Simulator : convert state from control to physical space -----------
 -------Simulator : change from model to TL  variables -------------------
 -------Simulator : call direct and adjoint  model -----------------------
 START CNT3TL
 START CNT4TL, NSIM4D=         999
 NORMS AT START CNT4TL
 SPECTRAL NORMS -   LOG(PREHYDS)    0.138084852582595E-03
 LEV     VORTICITY             DIVERGENCE           TEMPERATURE            HUMIDITY             KINETIC ENERGY    
 AVE 0.327552603773185E-05 0.280047395401444E-05 0.159481088083608E+00 0.834638208596595E-04 0.199017716793409E+00
ISTEP=       0 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5340
ISTEP=       0 ZI0= 1366.0000 ZSEASON= 1.034065865 REA=149597870000.00 RDEASO=147113087085.47
 NORMS AT NSTEP CNT4TL    0
 SPECTRAL NORMS -   LOG(PREHYDS)    0.138084852582595E-03
 LEV     VORTICITY             DIVERGENCE           TEMPERATURE            HUMIDITY             KINETIC ENERGY    
 AVE 0.327552603773185E-05 0.280047395401444E-05 0.159481088083608E+00 0.834638208596595E-04 0.199017716793409E+00
 NSTEP =     0 STEPOTL A00000000
 WRMLPPA NSTEP=           0  CDCONF=A
 WRITE ANALYSIS ON FILE   MXMINI999+0000
           0           1           0           0           0           0
           0           1           0       75600           0           0
           0         720           0           0           0           0
WRMLPPA: CDCONF = A LLWRSPECA =  T LLWRGRIDA =  T LLWRGRIDUA =  F LLWRXFU =  F LLWRFU =  F
 WRITE ANALYSIS ON FILE   MXMINI999+0000
           0           1           0           0           0           0
           0           1           0       75600           0           0
           0         720           0           0           0           0
 GPNORMS OF FIELDS TO BE WRITTEN OUT ON FILE :
                                   AVERAGE               MINIMUM               MAXIMUM
 PROFTEMPERATURE  : 0.286050998509251E+03 0.208816509483357E+03 0.315280063130541E+03
 PROFRESERV.EAU   : 0.578092848988895E+04 0.000000000000000E+00 0.800000000000000E+04
 PROFRESERV.GLACE : 0.601000543549456E+01 0.000000000000000E+00 0.152384131864366E+03
 SURFRESERV.NEIGE : 0.333084000290515E+03 0.000000000000000E+00 0.206408858032795E+05
 SURFALBEDO NEIGE : 0.843203322835650E+00 0.650000000000000E+00 0.850000000000000E+00
 SURFDENSIT.NEIGE : 0.122505326158229E+00 0.100000000000000E+00 0.300000000000000E+00
 SURFALBEDO HISTO : 0.185858653760117E+00 0.588194429874420E-01 0.849939954233516E+00
 SURFTEMPERATURE  : 0.285578306360334E+03 0.206566326984370E+03 0.341633203965630E+03
 SURFRESERV.EAU   : 0.742994955737180E+01 0.000000000000000E+00 0.100000000000000E+02
 SURFRESERV.INTER : 0.175944302616739E-01 0.000000000000000E+00 0.118800000064531E+01
 SURFRESERV.GLACE : 0.402076626947715E+00 0.000000000000000E+00 0.488933376757831E+01
 SURFZ0.FOIS.G    : 0.625366698340645E+01 0.727289230540960E-03 0.949828394811270E+03
 SURFALBEDO       : 0.146146167604952E+00 0.579507732391357E-01 0.750000000000000E+00
 SURFEMISSIVITE   : 0.960840258546274E+00 0.943000000028405E+00 0.979999999981374E+00
 SURFET.GEOPOTENT : 0.321064369664751E+03 0.000000000000000E+00 0.142762884576108E+05
 SURFIND.TERREMER : 0.288460643840715E+00 0.000000000000000E+00 0.100000000000000E+01
 SURFPROP.VEGETAT : 0.126394791657562E+00 0.000000000000000E+00 0.990000000223517E+00
 SURFVAR.GEOP.ANI : 0.824569371597062E+00 0.000000000000000E+00 0.100000000000000E+01
 SURFVAR.GEOP.DIR : 0.450054809002166E-02 -.157079632580280E+01 0.157079632580280E+01
 SURFPROP.ARGILE  : 0.847601170425716E+01 0.300000000000000E+01 0.580000000000000E+02
 SURFPROP.SABLE   : 0.172469684291613E+02 0.600000000000000E+01 0.920000000000000E+02
 SURFEPAIS.SOL    : 0.611723701592510E+01 0.100000001490116E+00 0.800000000000000E+01
 SURFIND.VEG.DOMI : 0.161950479158913E+01 0.100000000000000E+01 0.400000000000000E+01
 SURFRESI.STO.MIN : 0.379057850484097E+04 0.399999961853027E+02 0.500000000381470E+04
 SURFIND.FOLIAIRE : 0.463682523029734E+00 0.000000000000000E+00 0.600000000190448E+01
 SURFRES.EVAPOTRA : 0.886175591652181E+00 0.108397460809617E-02 0.100000000000000E+01
 SURFGZ0.THERM    : 0.169264715465199E+00 0.727289230540960E-03 0.394717269268577E+01
 SURFALBEDO.SOLNU : 0.129235808917262E+00 0.499999998737621E-01 0.800000000111822E+00
 SURFALBEDO.VEG   : 0.815877632535641E-01 0.500000000000000E-01 0.250000000000000E+00
 SURFAEROS.SEA    : 0.645174033742920E-02 0.609210924318559E-04 0.227097173025485E-01
 SURFAEROS.LAND   : 0.433952942943520E-01 0.569220725446939E-02 0.222567975055426E+00
 SURFAEROS.SOOT   : 0.265440506941241E-02 0.616524924777924E-04 0.351090058970947E-01
 SURFAEROS.DESERT : 0.118085931235026E-01 0.748880632798956E-04 0.145313379435770E+00
 SURFA.OF.OZONE   : 0.661049041734317E-01 0.461426525143906E-01 0.783450196613558E-01
 SURFB.OF.OZONE   : 0.316600000000000E+04 0.316600000000000E+04 0.316600000000000E+04
 SURFC.OF.OZONE   : 0.300111914914789E+01 0.287111673294567E+01 0.306174306385219E+01
 SUNSHI. DURATION : 0.775610881094157E+04 0.000000000000000E+00 0.216000000000000E+05
 NSTEP =     0 STEPOTL IAAA0VAAA
 NSTEP =     1 STEPOTL 0AAA00AAA
 NSTEP =     2 STEPOTL 0AAA0VAAA
 NSTEP =     3 STEPOTL 0AAA00AAA
 NSTEP =     4 STEPOTL 0AAA00AAA
ISTEP=       5 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5331
ISTEP=       5 ZI0= 1366.0000 ZSEASON= 1.034065245 REA=149597870000.00 RDEASO=147113131193.21
 NSTEP =     5 STEPOTL 0AAA0VAAA
 NSTEP =     6 STEPOTL 0AAA00AAA
 NSTEP =     7 STEPOTL 0AAA0VAAA
 NSTEP =     8 STEPOTL 0AAA00AAA
 NSTEP =     9 STEPOTL 0AAA00AAA
ISTEP=      10 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5323
ISTEP=      10 ZI0= 1366.0000 ZSEASON= 1.034064607 REA=149597870000.00 RDEASO=147113176585.14
 NSTEP =    10 STEPOTL 0AAA0VAAA
 NSTEP =    11 STEPOTL 0AAA00AAA
 NSTEP =    12 STEPOTL 0AAA0VAAA
 NSTEP =    13 STEPOTL 0AAA00AAA
 NSTEP =    14 STEPOTL 0AAA00AAA
ISTEP=      15 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5314
ISTEP=      15 ZI0= 1366.0000 ZSEASON= 1.034063950 REA=149597870000.00 RDEASO=147113223261.23
 NSTEP =    15 STEPOTL 0AAA0VAAA
 NSTEP =    16 STEPOTL 0AAA00AAA
 NSTEP =    17 STEPOTL 0AAA0VAAA
 NSTEP =    18 STEPOTL 0AAA00AAA
 NSTEP =    19 STEPOTL 0AAA00AAA
ISTEP=      20 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5304
ISTEP=      20 ZI0= 1366.0000 ZSEASON= 1.034063276 REA=149597870000.00 RDEASO=147113271221.47
 NSTEP =    20 STEPOTL 0AAA0VAAA
 NSTEP =    21 STEPOTL 0AAA00AAA
 NSTEP =    22 STEPOTL 0AAA0VAAA
 NSTEP =    23 STEPOTL 0AAA00AAA
 NSTEP =    24 STEPOTL 0AAA00AAA
ISTEP=      25 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5295
ISTEP=      25 ZI0= 1366.0000 ZSEASON= 1.034062584 REA=149597870000.00 RDEASO=147113320465.82
 NSTEP =    25 STEPOTL 0AAA0VAAA
 NSTEP =    26 STEPOTL 0AAA00AAA
 NSTEP =    27 STEPOTL 0AAA0VAAA
 NSTEP =    28 STEPOTL 0AAA00AAA
 NSTEP =    29 STEPOTL 0AAA00AAA
ISTEP=      30 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5285
ISTEP=      30 ZI0= 1366.0000 ZSEASON= 1.034061874 REA=149597870000.00 RDEASO=147113370994.27
 NSTEP =    30 STEPOTL 0AA00V000
 NSTEP =    30 OBSVTL  0AA00V000
 END CNT3TL


    EVJCDFI2- Evaluation of the Jc cost function when the digital filter is used     NSPEC2 =    15670   ALPHAG =  100.000    
 EVJCDFI: DFI check, sum of coefs=  6.635317295611287E-017
 Jc-DFI Diagnostic Table
   1   0.000E+00   3.643E+02   0.000E+00   0.000E+00
   2   0.000E+00   9.762E+01   0.000E+00   0.000E+00
   3   0.000E+00   9.788E+01   0.000E+00   0.000E+00
   4   0.000E+00   8.893E+01   0.000E+00   0.000E+00
   5   0.000E+00   8.809E+01   0.000E+00   0.000E+00
   6   0.000E+00   8.867E+01   0.000E+00   0.000E+00
   7   0.000E+00   1.012E+02   0.000E+00   0.000E+00
   8   0.000E+00   1.044E+02   0.000E+00   0.000E+00
   9   0.000E+00   1.090E+02   0.000E+00   0.000E+00
  10   0.000E+00   1.230E+02   0.000E+00   0.000E+00
  11   0.000E+00   1.268E+02   0.000E+00   0.000E+00
  12   0.000E+00   1.288E+02   0.000E+00   0.000E+00
  13   0.000E+00   1.243E+02   0.000E+00   0.000E+00
  14   0.000E+00   1.217E+02   0.000E+00   0.000E+00
  15   0.000E+00   1.179E+02   0.000E+00   0.000E+00
  16   0.000E+00   1.154E+02   0.000E+00   0.000E+00
  17   0.000E+00   1.130E+02   0.000E+00   0.000E+00
  18   0.000E+00   1.116E+02   0.000E+00   0.000E+00
  19   0.000E+00   1.065E+02   0.000E+00   0.000E+00
  20   0.000E+00   1.030E+02   0.000E+00   0.000E+00
  21   0.000E+00   1.082E+02   0.000E+00   0.000E+00
  22   0.000E+00   1.090E+02   0.000E+00   0.000E+00
  23   0.000E+00   1.112E+02   0.000E+00   0.000E+00
  24   0.000E+00   1.100E+02   0.000E+00   0.000E+00
  25   0.000E+00   1.069E+02   0.000E+00   0.000E+00
  26   0.000E+00   1.032E+02   0.000E+00   0.000E+00
  27   0.000E+00   1.017E+02   0.000E+00   0.000E+00
  28   0.000E+00   9.820E+01   0.000E+00   0.000E+00
  29   0.000E+00   9.673E+01   0.000E+00   0.000E+00
  30   0.000E+00   9.196E+01   0.000E+00   0.000E+00
  31   0.000E+00   9.002E+01   0.000E+00   0.000E+00
  32   0.000E+00   9.431E+01   0.000E+00   0.000E+00
  33   0.000E+00   9.591E+01   0.000E+00   0.000E+00
  34   0.000E+00   9.997E+01   0.000E+00   0.000E+00
  35   0.000E+00   1.050E+02   0.000E+00   0.000E+00
  36   0.000E+00   1.127E+02   0.000E+00   0.000E+00
  37   0.000E+00   1.233E+02   0.000E+00   0.000E+00
  38   0.000E+00   1.342E+02   0.000E+00   0.000E+00
  39   0.000E+00   1.491E+02   0.000E+00   0.000E+00
  40   0.000E+00   1.671E+02   0.000E+00   0.000E+00
  41   0.000E+00   1.940E+02   0.000E+00   0.000E+00
  42   0.000E+00   2.245E+02   0.000E+00   0.000E+00
  43   0.000E+00   2.518E+02   0.000E+00   0.000E+00
  44   0.000E+00   2.608E+02   0.000E+00   0.000E+00
  45   0.000E+00   2.701E+02   0.000E+00   0.000E+00
  46   0.000E+00   2.803E+02   0.000E+00   0.000E+00
  47   0.000E+00   2.833E+02   0.000E+00   0.000E+00
  48   0.000E+00   2.744E+02   0.000E+00   0.000E+00
  49   0.000E+00   2.654E+02   0.000E+00   0.000E+00
  50   0.000E+00   2.570E+02   0.000E+00   0.000E+00
  51   0.000E+00   2.494E+02   0.000E+00   0.000E+00
  52   0.000E+00   2.419E+02   0.000E+00   0.000E+00
  53   0.000E+00   2.386E+02   0.000E+00   0.000E+00
  54   0.000E+00   2.306E+02   0.000E+00   0.000E+00
  55   0.000E+00   2.241E+02   0.000E+00   0.000E+00
  56   0.000E+00   2.252E+02   0.000E+00   0.000E+00
  57   0.000E+00   2.258E+02   0.000E+00   0.000E+00
  58   0.000E+00   2.305E+02   0.000E+00   0.000E+00
  59   0.000E+00   2.369E+02   0.000E+00   0.000E+00
  60   0.000E+00   2.431E+02   0.000E+00   0.000E+00
  61   0.000E+00   2.480E+02   0.000E+00   0.000E+00
  62   0.000E+00   2.463E+02   0.000E+00   0.000E+00
  63   0.000E+00   2.472E+02   0.000E+00   0.000E+00
  64   0.000E+00   2.471E+02   0.000E+00   0.000E+00
  65   0.000E+00   2.438E+02   0.000E+00   0.000E+00
  66   0.000E+00   2.402E+02   0.000E+00   0.000E+00
  67   0.000E+00   2.350E+02   0.000E+00   0.000E+00
  68   0.000E+00   2.357E+02   0.000E+00   0.000E+00
  69   0.000E+00   2.413E+02   0.000E+00   0.000E+00
  70   0.000E+00   2.429E+02   0.000E+00   0.000E+00
  71   0.000E+00   2.396E+02   0.000E+00   0.000E+00
  72   0.000E+00   2.366E+02   0.000E+00   0.000E+00
  73   0.000E+00   2.375E+02   0.000E+00   0.000E+00
  74   0.000E+00   2.375E+02   0.000E+00   0.000E+00
  75   0.000E+00   2.333E+02   0.000E+00   0.000E+00
  76   0.000E+00   2.248E+02   0.000E+00   0.000E+00
  77   0.000E+00   2.186E+02   0.000E+00   0.000E+00
  78   0.000E+00   2.128E+02   0.000E+00   0.000E+00
  79   0.000E+00   2.035E+02   0.000E+00   0.000E+00
  80   0.000E+00   1.942E+02   0.000E+00   0.000E+00
  81   0.000E+00   1.855E+02   0.000E+00   0.000E+00
  82   0.000E+00   1.724E+02   0.000E+00   0.000E+00
  83   0.000E+00   1.606E+02   0.000E+00   0.000E+00
  84   0.000E+00   1.526E+02   0.000E+00   0.000E+00
  85   0.000E+00   1.443E+02   0.000E+00   0.000E+00
  86   0.000E+00   1.352E+02   0.000E+00   0.000E+00
  87   0.000E+00   1.274E+02   0.000E+00   0.000E+00
  88   0.000E+00   1.208E+02   0.000E+00   0.000E+00
  89   0.000E+00   1.156E+02   0.000E+00   0.000E+00
  90   0.000E+00   1.120E+02   0.000E+00   0.000E+00
  91   0.000E+00   1.096E+02   0.000E+00   0.000E+00
  92   0.000E+00   1.068E+02   0.000E+00   0.000E+00
  93   0.000E+00   1.034E+02   0.000E+00   0.000E+00
  94   0.000E+00   1.002E+02   0.000E+00   0.000E+00
  95   0.000E+00   9.640E+01   0.000E+00   0.000E+00
  96   0.000E+00   9.142E+01   0.000E+00   0.000E+00
  97   0.000E+00   8.510E+01   0.000E+00   0.000E+00
  98   0.000E+00   7.823E+01   0.000E+00   0.000E+00
  99   0.000E+00   7.148E+01   0.000E+00   0.000E+00
 100   0.000E+00   6.459E+01   0.000E+00   0.000E+00
 101   0.000E+00   5.784E+01   0.000E+00   0.000E+00
 102   0.000E+00   5.120E+01   0.000E+00   0.000E+00
 103   0.000E+00   4.487E+01   0.000E+00   0.000E+00
 104   0.000E+00   3.791E+01   0.000E+00   0.000E+00
 105   0.000E+00   2.748E+01   0.000E+00   0.000E+00
Surf   5.737E+02
 Jc-DFI Diagnostic Table End
         Global value of the Jc-DFI/ALPHAG cost function = 
   173.410848061039     
 START CNT3AD
 START CNT4AD, NSIM4D=         999
 NSTEP =    30 OBSVAD  000000000
 CNT4AD (ADJOINT INTEGRATION); TIME SLOT NO :  13 TO BE USED WITH TIME STEP (NSTEP) :  30 ; MODEL TIME (SINCE START) : 21600.
 NSTEP =    30 STEPOAD 0AA00V000
 NSTEP =    29 STEPOAD 0AAA00AAA
 NSTEP =    28 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :  12 TO BE USED WITH TIME STEP (NSTEP) :  27 ; MODEL TIME (SINCE START) : 19440.
 NSTEP =    27 STEPOAD 0AAA0VAAA
 NSTEP =    26 STEPOAD 0AAA00AAA
ISTEP=      25 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5295
ISTEP=      25 ZI0= 1366.0000 ZSEASON= 1.034062584 REA=149597870000.00 RDEASO=147113320465.82
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :  11 TO BE USED WITH TIME STEP (NSTEP) :  25 ; MODEL TIME (SINCE START) : 18000.
 NSTEP =    25 STEPOAD 0AAA0VAAA
 NSTEP =    24 STEPOAD 0AAA00AAA
 NSTEP =    23 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :  10 TO BE USED WITH TIME STEP (NSTEP) :  22 ; MODEL TIME (SINCE START) : 15840.
 NSTEP =    22 STEPOAD 0AAA0VAAA
 NSTEP =    21 STEPOAD 0AAA00AAA
ISTEP=      20 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5304
ISTEP=      20 ZI0= 1366.0000 ZSEASON= 1.034063276 REA=149597870000.00 RDEASO=147113271221.47
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   9 TO BE USED WITH TIME STEP (NSTEP) :  20 ; MODEL TIME (SINCE START) : 14400.
 NSTEP =    20 STEPOAD 0AAA0VAAA
 NSTEP =    19 STEPOAD 0AAA00AAA
 NSTEP =    18 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   8 TO BE USED WITH TIME STEP (NSTEP) :  17 ; MODEL TIME (SINCE START) : 12240.
 NSTEP =    17 STEPOAD 0AAA0VAAA
 NSTEP =    16 STEPOAD 0AAA00AAA
ISTEP=      15 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5314
ISTEP=      15 ZI0= 1366.0000 ZSEASON= 1.034063950 REA=149597870000.00 RDEASO=147113223261.23
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   7 TO BE USED WITH TIME STEP (NSTEP) :  15 ; MODEL TIME (SINCE START) : 10800.
 NSTEP =    15 STEPOAD 0AAA0VAAA
 NSTEP =    14 STEPOAD 0AAA00AAA
 NSTEP =    13 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   6 TO BE USED WITH TIME STEP (NSTEP) :  12 ; MODEL TIME (SINCE START) :  8640.
 NSTEP =    12 STEPOAD 0AAA0VAAA
 NSTEP =    11 STEPOAD 0AAA00AAA
ISTEP=      10 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5323
ISTEP=      10 ZI0= 1366.0000 ZSEASON= 1.034064607 REA=149597870000.00 RDEASO=147113176585.14
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   5 TO BE USED WITH TIME STEP (NSTEP) :  10 ; MODEL TIME (SINCE START) :  7200.
 NSTEP =    10 STEPOAD 0AAA0VAAA
 NSTEP =     9 STEPOAD 0AAA00AAA
 NSTEP =     8 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   4 TO BE USED WITH TIME STEP (NSTEP) :   7 ; MODEL TIME (SINCE START) :  5040.
 NSTEP =     7 STEPOAD 0AAA0VAAA
 NSTEP =     6 STEPOAD 0AAA00AAA
ISTEP=       5 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5331
ISTEP=       5 ZI0= 1366.0000 ZSEASON= 1.034065245 REA=149597870000.00 RDEASO=147113131193.21
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   3 TO BE USED WITH TIME STEP (NSTEP) :   5 ; MODEL TIME (SINCE START) :  3600.
 NSTEP =     5 STEPOAD 0AAA0VAAA
 NSTEP =     4 STEPOAD 0AAA00AAA
 NSTEP =     3 STEPOAD 0AAA00AAA
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   2 TO BE USED WITH TIME STEP (NSTEP) :   2 ; MODEL TIME (SINCE START) :  1440.
 NSTEP =     2 STEPOAD 0AAA0VAAA
 NSTEP =     1 STEPOAD 0AAA00AAA
ISTEP=       0 RSOLINC= 1366.0000 RI0= 1366.0000 ZI0= 1366.0000 RIP0= 1412.5340
ISTEP=       0 ZI0= 1366.0000 ZSEASON= 1.034065865 REA=149597870000.00 RDEASO=147113087085.47
 NORMS AT NSTEP CNT4AD    0
 SPECTRAL NORMS -   LOG(PREHYDS)    0.232006643005181E+08
 LEV     VORTICITY             DIVERGENCE           TEMPERATURE            HUMIDITY             KINETIC ENERGY    
 AVE 0.345306300015136E+09 0.401179347284886E+09 0.991386088040841E+04 0.185535909560866E+09 0.542251960070670E+30
 CNT4AD (TEMPORAL LOOP); TIME SLOT NO :   1 TO BE USED WITH TIME STEP (NSTEP) :   0 ; MODEL TIME (SINCE START) :     0.
 NSTEP =     0 STEPOAD 0AAA0VAAA
 NORMS AT END CNT4AD 
 SPECTRAL NORMS -   LOG(PREHYDS)    0.342664725641722E+08
 LEV     VORTICITY             DIVERGENCE           TEMPERATURE            HUMIDITY             KINETIC ENERGY    
 AVE 0.346271961245276E+09 0.402748850920723E+09 0.106402205736598E+05 0.186916218205099E+09 0.535558484767601E+30
 END CNT3AD
 Jc-DFI cost function =    8670.54240305195      --   NSIM4D =          999
 EVCOST3  = 999 PZF = 0.8670542403051948E+04
 DIST. FUNC. JB=0.603195E+05 NSIM4D=  999 ++
 Jp cost function =    807.444421289847      --   NSIM4D =          999
 OBS DISTANCE FUNCTION JO=0.1460439651403424E+07 NSIM4D=  999 ==
 GREPCOST - ITER,SIM,JO,JB,JC,JQ,JP  999 999   1460439.65140       60319.5003848       8670.54240305       0.00000000000       807.444421290    
   GREPCOST_hex - ITER,SIM,JO,JB,JC,JC-DFI,JQ,JP 999 999  413648D7A6C25FF1  40ED73F003270A1A                 0  40C0EF456D7694AF                 0  40893B8E2CBFCC4C

 Diagnostic JO-table (JOT) MINIMISATION JOB T0499 NCONF=   131 NSIM4D=   999 NUPTRA=     1
 ===============================================================================
 ==========
 
      Obstype     1 === SYNOP, Land stations and ships  
      --------------------------------------------------
        Codetype    11 === SYNOP Land Manual Report        
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            H2                  774            414.5243632573           0.54    0.100E+00   0.133E+00
            Z                 10027            3376.198256135           0.34    0.785E+02   0.581E+02
        Codetype    14 === SYNOP Land Automatic Report     
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            H2                 1554            462.7562970180           0.30    0.100E+00   0.115E+00
            Z                 10406            1824.608285780           0.18    0.785E+02   0.642E+02
        Codetype    21 === SYNOP-SHIP Report               
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            U                   782            777.5731148145           0.99    0.225E+01   0.146E+01
            U10                   6            7.514050514187           1.25    0.225E+01   0.953E+00
            Z                   448            531.1504418133           1.19    0.785E+02   0.634E+02
        Codetype    24 === SYNOP Automatic SHIP Report     
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            U                  3054            1305.565997659           0.43    0.225E+01   0.168E+01
            U10                  18            4.602628920121           0.26    0.225E+01   0.139E+01
            Z                  2317            493.7767459898           0.21    0.785E+02   0.755E+02
        Codetype    16 === French RADOME                   
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            H2                   42            20.71586520433           0.49    0.100E+00   0.150E+00
            Z                  1637            174.8789686257           0.11    0.785E+02   0.635E+02
        Codetype   110 === Ground-based GPS                
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            APD               24518            23648.45006836           0.96    0.538E-02   0.124E-01
                         ----------   ---------------------------   --------
     ObsType  1 Total:      55583            33042.31508409           0.59
 
      Obstype     2 === AIREP, Aircraft data            
      --------------------------------------------------
        Codetype   141 === AIREP Aircraft Report           
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            U                  3782            1407.082913696           0.37    0.230E+01   0.292E+01
            T                  1940            959.0933839149           0.49    0.861E+00   0.702E+00
        Codetype   144 === AMDAR Aircraft Report           
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            U                 27982            11019.70731324           0.39    0.197E+01   0.235E+01
            T                 13842            4932.414149535           0.36    0.844E+00   0.745E+00
        Codetype   145 === ACARS Aircraft Report           
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            U                309322            92963.92950537           0.30    0.199E+01   0.233E+01
            T                152865            45707.28187909           0.30    0.837E+00   0.761E+00
                         ----------   ---------------------------   --------
     ObsType  2 Total:     509733            156989.5091448           0.31
 
      Obstype     3 === SATOB, Atmospheric motion winds 
      --------------------------------------------------
        Codetype    90 === METEOSAT    55 METHOD=WVCL1     
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            U                  1718            237.2198892850           0.14    0.367E+01   0.325E+01
        Codetype    90 === METEOSAT    55 METHOD=WVCL2     
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            U                  1342            164.4377212850           0.12    0.362E+01   0.324E+01
        Codetype    90 === METEOSAT    55 METHOD=VIS2      
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            U                   436            47.21446337591           0.11    0.210E+01   0.187E+01
        Codetype    90 === METEOSAT    55 METHOD=IR3       
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            U                  4396            497.9496766186           0.11    0.269E+01   0.233E+01
        Codetype    90 === METEOSAT    57 METHOD=WVCL1     
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            U                  2752            471.3974034958           0.17    0.363E+01   0.314E+01
        Codetype    90 === METEOSAT    57 METHOD=WVCL2     
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            U                  2516            424.8245211922           0.17    0.358E+01   0.324E+01
        Codetype    90 === METEOSAT    57 METHOD=IR3       
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            U                  7016            821.1300270413           0.12    0.271E+01   0.235E+01
        Codetype    90 === METEOSAT    57 METHOD=VIS3      
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            U                    10           0.7525834055616           0.08    0.212E+01   0.188E+01
        Codetype    90 === HIMAWARI   173 METHOD=WVCL1     
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            U                  9752            870.5111080649           0.09    0.430E+01   0.264E+01
        Codetype    90 === HIMAWARI   173 METHOD=IR1       
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            U                 18148            1848.684843259           0.10    0.353E+01   0.223E+01
        Codetype    90 === HIMAWARI   173 METHOD=VIS1      
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            U                 10946            981.8581506287           0.09    0.246E+01   0.167E+01
        Codetype    90 === HIMAWARI   173 METHOD=WVCL2     
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            U                  3464            329.5521444105           0.10    0.430E+01   0.263E+01
        Codetype    90 === HIMAWARI   173 METHOD=WVCL3     
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            U                  4010            371.7666377356           0.09    0.432E+01   0.260E+01
        Codetype    90 === NOAA       206 METHOD=IR        
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            U                   538            136.1642170414           0.25    0.279E+01   0.372E+01
        Codetype    90 === NOAA       209 METHOD=IR        
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            U                  1670            423.8834790455           0.25    0.266E+01   0.357E+01
        Codetype    90 === NOAA       223 METHOD=IR        
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            U                  1222            300.6790998879           0.25    0.264E+01   0.324E+01
        Codetype    90 === GOES       257 METHOD=IR1       
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            U                  7288            957.4868089422           0.13    0.301E+01   0.236E+01
        Codetype    90 === GOES       257 METHOD=VIS1      
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            U                  2026            167.8597538438           0.08    0.210E+01   0.190E+01
        Codetype    90 === GOES       257 METHOD=WVCL3     
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            U                  4250            812.8946688077           0.19    0.369E+01   0.296E+01
        Codetype    90 === GOES       259 METHOD=IR1       
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            U                  5856            844.3696275470           0.14    0.310E+01   0.297E+01
        Codetype    90 === GOES       259 METHOD=VIS1      
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            U                  5820            613.1238666011           0.11    0.211E+01   0.199E+01
        Codetype    90 === GOES       259 METHOD=WVCL3     
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            U                  4210            777.1522159832           0.18    0.366E+01   0.358E+01
        Codetype    90 === MODIS      783 METHOD=IR        
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            U                   562            102.6527128576           0.18    0.371E+01   0.367E+01
        Codetype    90 === MODIS      784 METHOD=WVCL      
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            U                    68            11.33669575378           0.17    0.432E+01   0.332E+01
        Codetype    90 === MODIS      784 METHOD=IR        
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            U                   702            116.6032622718           0.17    0.350E+01   0.275E+01
        Codetype    90 === MODIS      784 METHOD=WVMW      
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            U                  1026            104.2889508425           0.10    0.421E+01   0.356E+01
                         ----------   ---------------------------   --------
     ObsType  3 Total:     101744            12435.79452922           0.12
 
      Obstype     4 === DRIBU, Drifing Buoys            
      --------------------------------------------------
        Codetype   165 === DRIBU Buoy Report               
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            U10                1016            209.9718484039           0.21    0.225E+01   0.134E+01
            Z                  4918            990.5549772630           0.20    0.588E+02   0.682E+02
                         ----------   ---------------------------   --------
     ObsType  4 Total:       5934            1200.526825667           0.20
 
      Obstype     5 === TEMP,  Radiosondes              
      --------------------------------------------------
        Codetype    35 === TEMP Land Report                
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            U                120652            43590.71825788           0.36    0.197E+01   0.259E+01
            T                 63861            26700.96162726           0.42    0.874E+00   0.913E+00
            Q                 32260            11325.86618226           0.35    0.752E-03   0.687E-03
        Codetype    36 === TEMP SHIP Report                
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            U                   130            16.06726953436           0.12    0.177E+01   0.324E+01
            U10                   4            18.80453772627           4.70    0.158E+01   0.217E+01
            T                    65            18.04185186045           0.28    0.779E+00   0.115E+01
            Q                    56            13.03239046341           0.23    0.409E-03   0.467E-03
                         ----------   ---------------------------   --------
     ObsType  5 Total:     217028            81683.49211699           0.38
 
      Obstype     6 === PILOT, Balloons and profilers   
      --------------------------------------------------
        Codetype    32 === PILOT Land Report               
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            U                 11108            8721.561257515           0.79    0.203E+01   0.255E+01
        Codetype   134 === European Wind Profiler          
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            U                 18108            7185.699286204           0.40    0.172E+01   0.254E+01
                         ----------   ---------------------------   --------
     ObsType  6 Total:      29216            15907.26054372           0.54
 
      Obstype     7 === SATEM, Satellite sounding data  
      --------------------------------------------------
        Codetype   210 === metop    1     3 SENSOR=hirs    
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            RAD              118625            21132.59520054           0.18    0.100E+01   0.945E+00
        Codetype   210 === metop    1     3 SENSOR=amsua   
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            RAD               83877            26155.52331334           0.31    0.317E+00   0.210E+00
        Codetype   210 === metop    1     3 SENSOR=mhs     
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            RAD               26225            2640.109955668           0.10    0.180E+01   0.167E+01
        Codetype   210 === metop    1     3 SENSOR=iasi    
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            RAD             3475746            329191.1098254           0.09    0.130E+01   0.100E+01
        Codetype   210 === metop    2     4 SENSOR=amsua   
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            RAD               67261            24631.11431283           0.37    0.345E+00   0.242E+00
        Codetype   210 === metop    2     4 SENSOR=mhs     
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            RAD               26525            2911.168348103           0.11    0.180E+01   0.166E+01
        Codetype   210 === metop    2     4 SENSOR=iasi    
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            RAD             3100263            337304.9260882           0.11    0.128E+01   0.100E+01
        Codetype   210 === meteosat 8    55 SENSOR=seviri  
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            RAD               54657            1942.142327734           0.04    0.180E+01   0.433E+00
        Codetype   210 === meteosat10    57 SENSOR=seviri  
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            RAD               59407            2119.768271977           0.04    0.180E+01   0.430E+00
        Codetype   210 === himawari 8   173 SENSOR=ahi     
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            RAD              143222            9376.347941930           0.07    0.180E+01   0.300E+01
        Codetype   210 === noaa    15   206 SENSOR=amsua   
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            RAD               62171            16335.07392780           0.26    0.335E+00   0.245E+00
        Codetype   210 === noaa    18   209 SENSOR=amsua   
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            RAD               58824            19694.21928599           0.33    0.358E+00   0.237E+00
        Codetype   210 === noaa    18   209 SENSOR=amsub   
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            RAD               25575            2486.137597983           0.10    0.180E+01   0.166E+01
        Codetype   210 === eos      2   222 SENSOR=amsua   
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            RAD               47290            13417.90390092           0.28    0.354E+00   0.217E+00
        Codetype   210 === noaa    19   223 SENSOR=amsua   
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            RAD               71806            25529.16604051           0.36    0.335E+00   0.229E+00
        Codetype   210 === noaa    19   223 SENSOR=mhs     
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            RAD               26567            10105.94900053           0.38    0.180E+01   0.170E+01
        Codetype   210 === jpss     0   224 SENSOR=atms    
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            RAD              192404            20502.17725576           0.11    0.924E+01   0.156E+01
        Codetype   210 === jpss     0   224 SENSOR=cris    
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            RAD             1136865            106683.7297462           0.09    0.133E+01   0.100E+01
        Codetype   210 === goes    13   257 SENSOR=imager  
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            RAD               44102            10872.88712363           0.25    0.135E+01   0.255E+01
        Codetype   210 === goes    15   259 SENSOR=imager  
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            RAD               37955            7305.332338901           0.19    0.129E+01   0.265E+01
        Codetype   210 === dmsp    17   285 SENSOR=ssmis   
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            RAD               65341            5577.812846782           0.09    0.108E+02   0.172E+01
        Codetype   210 === dmsp    18   286 SENSOR=ssmis   
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            RAD               26148            502.4996727464           0.02    0.174E+02   0.261E+01
        Codetype   210 === gpm      1   288 SENSOR=gmi     
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            RAD               31996            3842.589984596           0.12    0.170E+02   0.300E+01
        Codetype   210 === meghatr  1   440 SENSOR=saphir  
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            RAD               66471            7717.503772250           0.12    0.180E+01   0.175E+01
        Codetype   210 === fy3      3   522 SENSOR=mwhs2   
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            RAD              120158            31137.24321894           0.26    0.165E+01   0.300E+01
        Codetype   210 === eos      2   784 SENSOR=airs    
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            RAD             1022822            108117.4924009           0.11    0.145E+01   0.300E+00
                         ----------   ---------------------------   --------
     ObsType  7 Total:   10192303            1147232.523700           0.11
 
      Obstype     8 === PAOB,  Australian pseudo obs    
      --------------------------------------------------
 
      Obstype     9 === SCATT, Scatterometer            
      --------------------------------------------------
        Codetype   139 ===  METOP-A ASCAT                  
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            U10               18718            3045.324617740           0.16    0.147E+01   0.149E+01
        Codetype   139 ===  METOP-B ASCAT                  
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            U10               18978            2704.570496745           0.14    0.147E+01   0.145E+01
                         ----------   ---------------------------   --------
     ObsType  9 Total:      37696            5749.895114485           0.15
 
      Obstype    10 === LIMB, Limb observations         
      --------------------------------------------------
        Codetype   250 === METOP-1        3 SENSOR=GRAS    
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            RO                15562            2057.271667108           0.13    0.445E-04   0.445E-04
        Codetype   250 === METOP-2        4 SENSOR=GRAS    
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            RO                13600            1869.884221847           0.14    0.442E-04   0.442E-04
        Codetype   250 === TERRASAR-X    42                
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            RO                 7549            919.9335314061           0.12    0.197E-03   0.197E-03
        Codetype   250 === TANDEM-X      43                
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            RO                  839            103.7858825923           0.12    0.132E-03   0.132E-03
        Codetype   250 === COSMIC-1     740                
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            RO                10069            1002.349606471           0.10    0.176E-03   0.176E-03
        Codetype   250 === COSMIC-6     745                
          Variable          DataCount          Jo_Costfunction         JO/n       ObsErr      BgErr
            RO                 2974            245.1094348751           0.08    0.193E-03   0.193E-03
                         ----------   ---------------------------   --------
     ObsType 10 Total:      50593            6198.334344300           0.12
 
      Obstype    11 === ISAC, in-situ atm. composition  
      --------------------------------------------------
 
      Obstype    12 === RALT, Radar Altimeter           
      --------------------------------------------------
 
      Obstype    13 === RADAR, meteorological radar     
      --------------------------------------------------
 
      Obstype    14 === Ground-based precip composites  
      --------------------------------------------------
 
      Obstype    15 === LIDAR, Lidar observations       
      --------------------------------------------------
 
      Obstype    16 === All-sky satellite radiances     
      --------------------------------------------------
 
      Obstype    17 === Rain gauge data                 
      --------------------------------------------------
 
      Obstype    18 === IMS Report                      
      --------------------------------------------------
 
  ---------------------------------------------------------------------------
        Jo Global :     11199830            1460439.651403           0.13
RESERVE_LUN reserves unit  57
FREE_LUN returns unit  57 to the pool
  ===========================================================================
 
  End of JO-table (JOT)
 GREPGRAD - LSIMPLE,ITER,SIM,GRAD,J    999 999 0.1179776720727286E+04 0.1530237138612592E+07
 GREPGRAD_hex - ITER,SIM,GRAD,J    999 999  40926F1B5CADA745  4137597D237C1D65
   FINAL GRADIENT NORM SQUARED :  0.1391873E+07 COST FUNCTION :  0.1530237E+07
 --- Variational job : diagnose quality of the minimization ----------------
 RATIO FINAL/INITIAL GRADIENT SQUARED :  0.6074906E-01 COST FUNCTION :  0.9304333E+00
Ratio final/initial gradient norm =  2.465E-01
Ratio final/initial cost function =  9.304E-01
 Relative Error of CONGRAD's gradient =   6.528807234991541E-010
  *** END CNT0 *** 
