 == UNIVERSITY OF VICTORIA EARTH SYSTEM CLIMATE MODEL ==
                                             
 The following files will be renamed:
   wy.nc renamed data/wy.nc
   wx.nc renamed data/wx.nc
   wsa.nc renamed data/wsa.nc
   ws.nc renamed data/ws.nc
   tbar.nc renamed data/tbar.nc
   tauy.nc renamed data/tauy.nc
   taux.nc renamed data/taux.nc
   sf_alb.dta renamed data/sf_alb.dta
   sst.nc renamed data/sst.nc
   sss.nc renamed data/sss.nc
   rivers.map renamed data/rivers.map
   kmt.map renamed data/kmt.map
   region_masks renamed data/region_masks
   region_masks.out renamed data/region_masks.out
   lat.nc renamed data/lat.nc
   kmt.nc renamed data/kmt.nc
   hflx.nc renamed data/hflx.nc
   grid.nc renamed data/grid.nc
   elev.nc renamed data/elev.nc
 &CONTRL
 INIT= T,RUNLEN= 365.000000000000,RUNUNITS=days    ,RESTRT= T,INITPT= T
 NUM_PROCESSORS= 1,RUNSTEP= 73000.0000000000
 /
 &TSTEPS
 DTTS= 108000.000000000,DTUV= 1125.00000000000,DTSF= 1125.00000000000,DTATM=
  54000.0000000000,DTATMS= 43200.0000000000,NAMIX= 10,SEGTIM= 2.50000000000000
 /
 &RIGLID
 MXSCAN= 200,SOR= 1.60000000000000,TOLRSF= 500000000.000000,TOLRSP=
  1.00000000000000D-004,TOLRFS= 1.00000000000000D-004
 /
 &MIXING
 AM= 2000000000.00000,AH= 20000000.0000000,AMBI= 1.00000000000000D+023,AHBI=
  5.00000000000000D+022,KAPPA_M= 10.0000000000000,KAPPA_H= 1.00000000000000
 CDBOT= 1.30000000000000D-003,SPNEP= 300000.000000000,SENEP= 1200000.00000000
 AIDIF= 0.500000000000000,NCON= 1,NMIX= 16,EB= F,ACOR= 0.0
 DAMPTS=   30.0000000000000     ,   60.0000000000000     
 DAMPDZ=   5000.00000000000     ,   5000.00000000000     
 ANNLEV= F,ANNLEVOBC= F
 /
 &DIAGN
 TSIINT= 5.00000000000000,TSIPER= 5.00000000000000,TAVGINT= -365000.000000000
 ITAVG= T,TMBINT= -365000.000000000,TMBPER= 365.000000000000,ITMB= T,STABINT=
  -365000.000000000,ZMBCINT= -365000.000000000,GLENINT= -365000.000000000
 TRMBINT= -365000.000000000,ITRMB= T,VMSFINT= -365000.000000000,GYREINT=
  -365000.000000000,IGYRE= T,EXTINT= -365000.000000000,PRXZINT=
  -365000.000000000,TRAJINT= -365000.000000000,EXCONVINT= -36500.0000000000
 DSPINT= -365000.000000000,DSPPER= -365.000000000000,SNAPINT= 365000.000000000
 SNAPLS= -90.0000000000000,SNAPLE= 90.0000000000000,SNAPDE= 500000.000000000
 TIMAVGINT= 365.000000000000,TIMAVGPER= 365.000000000000,CMIXINT=
  -36500.0000000000
 PRLAT=  -60.0000000000000     ,                0.0     
          27.0000000000000     ,   55.0000000000000     
          100.000000000000     ,   100.000000000000     
          100.000000000000     ,   100.000000000000     
          100.000000000000     ,   100.000000000000     
 PRSLON=   180.000000000000     ,   180.000000000000     
           180.000000000000     ,   180.000000000000     
                        0.0     ,                0.0     
                        0.0     ,                0.0     
                        0.0     ,                0.0     
 PRELON=   250.000000000000     ,   250.000000000000     
           250.000000000000     ,   250.000000000000     
                        0.0     ,                0.0     
                        0.0     ,                0.0     
                        0.0     ,                0.0     
 PRSDPT=                0.0     ,                0.0     
                        0.0     ,                0.0     
                        0.0     ,                0.0     
                        0.0     ,                0.0     
                        0.0     ,                0.0     
 PREDPT=   600000.000000000     ,   600000.000000000     
           600000.000000000     ,   600000.000000000     
           600000.000000000     ,   600000.000000000     
           600000.000000000     ,   600000.000000000     
           600000.000000000     ,   600000.000000000     
 SLATXY= -90.0000000000000,ELATXY= 90.0000000000000,SLONXY= 3.00000000000000
 ELONXY= 357.000000000000,CFLONS= 0.0,CFLONE= 360.000000000000,CFLATS=
  -90.0000000000000,CFLATE= 90.0000000000000,CFLDPS= 0.0,CFLDPE=
  600000.000000000,MAXCFL= 3,XBTINT= -365000.000000000,XBTPER=
  -365.000000000000,CROSSINT= 365000.000000000,DENSITYINT= -36500.0000000000
 FCTINT= -36500.0000000000,TYZINT= -36500.0000000000,RESTINT= 36500.0000000000
 TBTINT= -365000.000000000,TBTPER= -365.000000000000
 /
 &IO
 EXPNAM= test                                                       ,IOTAVG= 6
 IOTMB= 6,IOTRMB= 6,IOGLEN= 6,IOVMSF= 6,IOGYRE= 6,IOPRXZ= 6,IOEXT= 6,IODSP= 6
 IOTSI= -1,IOZMBC= 6,IOTRAJ= 6,IOXBT= 6,UVIC_MK= T,ISOT1= 2,IEOT1= 101,ISOT2= 2
 IEOT2= 1,JSOT= 2,JEOT= 101,KSOT= 1,KEOT= 19,MROT= 0
 /
 &ICTIME
 YEAR0= 1,MONTH0= 1,DAY0= 1,HOUR0= 0,MIN0= 0,SEC0= 0,RYEAR= 1,RMONTH= 1,RDAY= 1
 RHOUR= 0,RMIN= 0,RSEC= 0,REFRUN= F,REFINIT= T,REFUSER= F,EQYEAR= T,EQMON= F
 MONLEN= 30,INIT_TIME= F
 /
  
 Mk Options are:
  Code_Directory(0) <= /den/eby/UVic_ESCM/2.6/example/code
  Code_Extension(0) <= f
  Compiler_F(0) <= ifc -r8 -O3 -tpp7 -W0 -c
  Compiler_F90(0) <= ifc -r8 -O3 -tpp7 -W0 -FR -c
  Compiler_F90_aix(0) <= xlf90 -O3 -qstrict -qarch=pwr2
  -qrealsize=8 -c
  Compiler_F90_linux(0) <= ifc -r8 -O3 -tpp7 -W0 -FR -c
  Compiler_F90_linux-gnu(0) <= ifc -r8 -O3 -tpp7 -W0 -FR
  -c
  Compiler_F90_minerva8.UVic.CA(0) <= xlf90 -O3 -qstrict
  -qarch=pwr3 -qrealsize=8 -c
  Compiler_F_aix(0) <= xlf90 -O3 -qstrict -qfixed=132
  -qarch=pwr2 -qrealsize=8 -c
  Compiler_F_linux(0) <= ifc -r8 -O3 -tpp7 -W0 -c
  Compiler_F_linux-gnu(0) <= ifc -r8 -O3 -tpp7 -W0 -c
  Compiler_F_minerva8.UVic.CA(0) <= xlf90 -O3 -qstrict
  -qfixed=132 -qarch=pwr3 -qrealsize=8 -c
  Data_Directory(0) <= /den/eby/UVic_ESCM/2.6/example/data
  Data_Source(0) <= /den/eby/UVic_ESCM/2.6/data/mth
  Definitions_Down(0) <= false
  Definitions_Up(0) <= true
  Dependency_Directory(0) <=
  /den/eby/UVic_ESCM/2.6/example/code/D
  Executable_Directory(0) <=
  /den/eby/UVic_ESCM/2.6/example
  Executable_File(0) <=
  /den/eby/UVic_ESCM/2.6/example/UVic_ESCM
  Include_Extension(0) <= h inc
  Input_File(0) <=
  /den/eby/UVic_ESCM/2.6/example/control.in
  Libraries(0) <= -lnetcdf
  Libraries_Directory(0) <=
  /den/eby/UVic_ESCM/2.6/lib/lib_linux
  Libraries_Directory_Prefix(0) <= -L
  Libraries_Directory_aix(0) <= lib_aix
  Libraries_Directory_linux(0) <= lib_linux
  Libraries_Directory_linux-gnu(0) <= lib_linux
  Libraries_aix(0) <= -lnetcdf
  Libraries_linux(0) <= -lnetcdf
  Libraries_linux-gnu(0) <= -lnetcdf
  Libraries_minerva8.UVic.CA(0) <= -lnetcdf
  Linker(0) <= ifc -r8 -O3 -tpp7 -W0 -o
  Linker_aix(0) <= xlf90 -o
  Linker_linux(0) <= ifc -r8 -O3 -tpp7 -W0 -o
  Linker_linux-gnu(0) <= ifc -r8 -O3 -tpp7 -W0 -o
  Log_File(0) <= /den/eby/UVic_ESCM/2.6/example/log
  Mk_Include_File(0) <= uvic_mk.h
  Mk_Include_Start(0) <=       print*,
  Mk_Include_Width(0) <= 70
  Model_Options(0) <= bryan_lewis_vertical
  conjugate_gradient consthmix constvmix cyclic
  energy_analysis fourfil fullconvect gyre_components
  idealized_ic meridional_overturning ramdrive
  read_my_grid read_my_kmt readrmsk sf_5_point snapshots
  stability_tests stream_function term_balances
  time_averages time_step_monitor time_varying_sbc_data
  tracer_averages uvic_embm uvic_embm_adv_q
  uvic_embm_even_fluxes uvic_embm_slap uvic_ice
  uvic_ice_evp uvic_mom uvic_old_albedo uvic_old_ws
  Module_Extension(0) <= d
  Module_Extension_aix(0) <= mod
  Module_Extension_linux(0) <= d
  Module_Extension_linux-gnu(0) <= d
  Object_Directory(0) <=
  /den/eby/UVic_ESCM/2.6/example/code/O
  Object_Extension(0) <= o
  Option_Prefix(0) <= -D
  Output_File(0) <= /den/eby/UVic_ESCM/2.6/example/pr
  Preprocessor(0) <= /lib/cpp -traditional -P -C
  Preprocessor_aix(0) <= /lib/cpp -P -C
  Preprocessor_linux(0) <= /lib/cpp -traditional -P -C
  Preprocessor_linux-gnu(0) <= /lib/cpp -traditional -P -C
  Run_File(0) <= /den/eby/UVic_ESCM/2.6/run/run_linux
  Run_File_aix(0) <= run/run_aix
  Run_File_linux(0) <= run/run_linux
  Run_File_linux-gnu(0) <= run/run_linux
  Run_File_minerva8.UVic.CA(0) <= run/run_minerva.UVic.CA
  Source_Comment_Character(0) <= !
  Source_Directory(0) <= /den/eby/UVic_ESCM/2.6/updates
  Source_Extension(0) <= F F90
  Updates_Level(0) <=
  /den/eby/UVic_ESCM/2.6/updates/latest
  Version_Directory(0) <= /den/eby/UVic_ESCM/2.6
  Code_Directory(1) <= /den/eby/UVic_ESCM/2.6/example/code
  Code_Extension(1) <= f
  Compiler_F(1) <= ifc -r8 -O3 -tpp7 -W0 -c
  Compiler_F90(1) <= ifc -r8 -O3 -tpp7 -W0 -FR -c
  Compiler_F90_aix(1) <= xlf90 -O3 -qstrict -qarch=pwr2
  -qrealsize=8 -c
  Compiler_F90_linux(1) <= ifc -r8 -O3 -tpp7 -W0 -FR -c
  Compiler_F90_linux-gnu(1) <= ifc -r8 -O3 -tpp7 -W0 -FR
  -c
  Compiler_F90_minerva8.UVic.CA(1) <= xlf90 -O3 -qstrict
  -qarch=pwr3 -qrealsize=8 -c
  Compiler_F_aix(1) <= xlf90 -O3 -qstrict -qfixed=132
  -qarch=pwr2 -qrealsize=8 -c
  Compiler_F_linux(1) <= ifc -r8 -O3 -tpp7 -W0 -c
  Compiler_F_linux-gnu(1) <= ifc -r8 -O3 -tpp7 -W0 -c
  Compiler_F_minerva8.UVic.CA(1) <= xlf90 -O3 -qstrict
  -qfixed=132 -qarch=pwr3 -qrealsize=8 -c
  Data_Directory(1) <= /den/eby/UVic_ESCM/2.6/example/data
  Data_Source(1) <= /den/eby/UVic_ESCM/2.6/data/mth
  Definitions_Down(1) <= false
  Definitions_Up(1) <= true
  Dependency_Directory(1) <=
  /den/eby/UVic_ESCM/2.6/example/code/D
  Executable_Directory(1) <=
  /den/eby/UVic_ESCM/2.6/example
  Executable_File(1) <=
  /den/eby/UVic_ESCM/2.6/example/UVic_ESCM
  Include_Extension(1) <= h inc
  Input_File(1) <=
  /den/eby/UVic_ESCM/2.6/example/control.in
  Libraries(1) <= -lnetcdf
  Libraries_Directory(1) <=
  /den/eby/UVic_ESCM/2.6/lib/lib_linux
  Libraries_Directory_Prefix(1) <= -L
  Libraries_Directory_aix(1) <= lib_aix
  Libraries_Directory_linux(1) <= lib_linux
  Libraries_Directory_linux-gnu(1) <= lib_linux
  Libraries_aix(1) <= -lnetcdf
  Libraries_linux(1) <= -lnetcdf
  Libraries_linux-gnu(1) <= -lnetcdf
  Libraries_minerva8.UVic.CA(1) <= -lnetcdf
  Linker(1) <= ifc -r8 -O3 -tpp7 -W0 -o
  Linker_aix(1) <= xlf90 -o
  Linker_linux(1) <= ifc -r8 -O3 -tpp7 -W0 -o
  Linker_linux-gnu(1) <= ifc -r8 -O3 -tpp7 -W0 -o
  Log_File(1) <= /den/eby/UVic_ESCM/2.6/example/log
  Mk_Include_File(1) <= uvic_mk.h
  Mk_Include_Start(1) <=       print*,
  Mk_Include_Width(1) <= 70
  Model_Options(1) <= bryan_lewis_vertical
  conjugate_gradient consthmix constvmix cyclic
  energy_analysis fourfil fullconvect gyre_components
  idealized_ic meridional_overturning ramdrive
  read_my_grid read_my_kmt readrmsk sf_5_point snapshots
  stability_tests stream_function term_balances
  time_averages time_step_monitor time_varying_sbc_data
  tracer_averages uvic_embm uvic_embm_adv_q
  uvic_embm_even_fluxes uvic_embm_slap uvic_ice
  uvic_ice_evp uvic_mom uvic_old_albedo uvic_old_ws
  Module_Extension(1) <= d
  Module_Extension_aix(1) <= mod
  Module_Extension_linux(1) <= d
  Module_Extension_linux-gnu(1) <= d
  Object_Directory(1) <=
  /den/eby/UVic_ESCM/2.6/example/code/O
  Object_Extension(1) <= o
  Option_Prefix(1) <= -D
  Output_File(1) <= /den/eby/UVic_ESCM/2.6/example/pr
  Preprocessor(1) <= /lib/cpp -traditional -P -C
  Preprocessor_aix(1) <= /lib/cpp -P -C
  Preprocessor_linux(1) <= /lib/cpp -traditional -P -C
  Preprocessor_linux-gnu(1) <= /lib/cpp -traditional -P -C
  Run_File(1) <= /den/eby/UVic_ESCM/2.6/run/run_linux
  Run_File_aix(1) <= run/run_aix
  Run_File_linux(1) <= run/run_linux
  Run_File_linux-gnu(1) <= run/run_linux
  Run_File_minerva8.UVic.CA(1) <= run/run_minerva.UVic.CA
  Source_Comment_Character(1) <= !
  Source_Directory(1) <=
  /den/eby/UVic_ESCM/2.6/source/common
  Source_Extension(1) <= F F90
  Updates_Level(1) <=
  /den/eby/UVic_ESCM/2.6/updates/latest
  Version_Directory(1) <= /den/eby/UVic_ESCM/2.6
  Code_Directory(2) <= /den/eby/UVic_ESCM/2.6/example/code
  Code_Extension(2) <= f
  Compiler_F(2) <= ifc -r8 -O3 -tpp7 -W0 -c
  Compiler_F90(2) <= ifc -r8 -O3 -tpp7 -W0 -FR -c
  Compiler_F90_aix(2) <= xlf90 -O3 -qstrict -qarch=pwr2
  -qrealsize=8 -c
  Compiler_F90_linux(2) <= ifc -r8 -O3 -tpp7 -W0 -FR -c
  Compiler_F90_linux-gnu(2) <= ifc -r8 -O3 -tpp7 -W0 -FR
  -c
  Compiler_F90_minerva8.UVic.CA(2) <= xlf90 -O3 -qstrict
  -qarch=pwr3 -qrealsize=8 -c
  Compiler_F_aix(2) <= xlf90 -O3 -qstrict -qfixed=132
  -qarch=pwr2 -qrealsize=8 -c
  Compiler_F_linux(2) <= ifc -r8 -O3 -tpp7 -W0 -c
  Compiler_F_linux-gnu(2) <= ifc -r8 -O3 -tpp7 -W0 -c
  Compiler_F_minerva8.UVic.CA(2) <= xlf90 -O3 -qstrict
  -qfixed=132 -qarch=pwr3 -qrealsize=8 -c
  Data_Directory(2) <= /den/eby/UVic_ESCM/2.6/example/data
  Data_Source(2) <= /den/eby/UVic_ESCM/2.6/data/mth
  Definitions_Down(2) <= false
  Definitions_Up(2) <= true
  Dependency_Directory(2) <=
  /den/eby/UVic_ESCM/2.6/example/code/D
  Executable_Directory(2) <=
  /den/eby/UVic_ESCM/2.6/example
  Executable_File(2) <=
  /den/eby/UVic_ESCM/2.6/example/UVic_ESCM
  Include_Extension(2) <= h inc
  Input_File(2) <=
  /den/eby/UVic_ESCM/2.6/example/control.in
  Libraries(2) <= -lnetcdf
  Libraries_Directory(2) <=
  /den/eby/UVic_ESCM/2.6/lib/lib_linux
  Libraries_Directory_Prefix(2) <= -L
  Libraries_Directory_aix(2) <= lib_aix
  Libraries_Directory_linux(2) <= lib_linux
  Libraries_Directory_linux-gnu(2) <= lib_linux
  Libraries_aix(2) <= -lnetcdf
  Libraries_linux(2) <= -lnetcdf
  Libraries_linux-gnu(2) <= -lnetcdf
  Libraries_minerva8.UVic.CA(2) <= -lnetcdf
  Linker(2) <= ifc -r8 -O3 -tpp7 -W0 -o
  Linker_aix(2) <= xlf90 -o
  Linker_linux(2) <= ifc -r8 -O3 -tpp7 -W0 -o
  Linker_linux-gnu(2) <= ifc -r8 -O3 -tpp7 -W0 -o
  Log_File(2) <= /den/eby/UVic_ESCM/2.6/example/log
  Mk_Include_File(2) <= uvic_mk.h
  Mk_Include_Start(2) <=       print*,
  Mk_Include_Width(2) <= 70
  Model_Options(2) <= bryan_lewis_vertical
  conjugate_gradient consthmix constvmix cyclic
  energy_analysis fourfil fullconvect gyre_components
  idealized_ic meridional_overturning ramdrive
  read_my_grid read_my_kmt readrmsk sf_5_point snapshots
  stability_tests stream_function term_balances
  time_averages time_step_monitor time_varying_sbc_data
  tracer_averages uvic_embm uvic_embm_adv_q
  uvic_embm_even_fluxes uvic_embm_slap uvic_ice
  uvic_ice_evp uvic_mom uvic_old_albedo uvic_old_ws
  Module_Extension(2) <= d
  Module_Extension_aix(2) <= mod
  Module_Extension_linux(2) <= d
  Module_Extension_linux-gnu(2) <= d
  Object_Directory(2) <=
  /den/eby/UVic_ESCM/2.6/example/code/O
  Object_Extension(2) <= o
  Option_Prefix(2) <= -D
  Output_File(2) <= /den/eby/UVic_ESCM/2.6/example/pr
  Preprocessor(2) <= /lib/cpp -traditional -P -C
  Preprocessor_aix(2) <= /lib/cpp -P -C
  Preprocessor_linux(2) <= /lib/cpp -traditional -P -C
  Preprocessor_linux-gnu(2) <= /lib/cpp -traditional -P -C
  Run_File(2) <= /den/eby/UVic_ESCM/2.6/run/run_linux
  Run_File_aix(2) <= run/run_aix
  Run_File_linux(2) <= run/run_linux
  Run_File_linux-gnu(2) <= run/run_linux
  Run_File_minerva8.UVic.CA(2) <= run/run_minerva.UVic.CA
  Source_Comment_Character(2) <= !
  Source_Directory(2) <= /den/eby/UVic_ESCM/2.6/source/mom
  Source_Extension(2) <= F F90
  Updates_Level(2) <=
  /den/eby/UVic_ESCM/2.6/updates/latest
  Version_Directory(2) <= /den/eby/UVic_ESCM/2.6
  Code_Directory(3) <= /den/eby/UVic_ESCM/2.6/example/code
  Code_Extension(3) <= f
  Compiler_F(3) <= ifc -r8 -O3 -tpp7 -W0 -c
  Compiler_F90(3) <= ifc -r8 -O3 -tpp7 -W0 -FR -c
  Compiler_F90_aix(3) <= xlf90 -O3 -qstrict -qarch=pwr2
  -qrealsize=8 -c
  Compiler_F90_linux(3) <= ifc -r8 -O3 -tpp7 -W0 -FR -c
  Compiler_F90_linux-gnu(3) <= ifc -r8 -O3 -tpp7 -W0 -FR
  -c
  Compiler_F90_minerva8.UVic.CA(3) <= xlf90 -O3 -qstrict
  -qarch=pwr3 -qrealsize=8 -c
  Compiler_F_aix(3) <= xlf90 -O3 -qstrict -qfixed=132
  -qarch=pwr2 -qrealsize=8 -c
  Compiler_F_linux(3) <= ifc -r8 -O3 -tpp7 -W0 -c
  Compiler_F_linux-gnu(3) <= ifc -r8 -O3 -tpp7 -W0 -c
  Compiler_F_minerva8.UVic.CA(3) <= xlf90 -O3 -qstrict
  -qfixed=132 -qarch=pwr3 -qrealsize=8 -c
  Data_Directory(3) <= /den/eby/UVic_ESCM/2.6/example/data
  Data_Source(3) <= /den/eby/UVic_ESCM/2.6/data/mth
  Definitions_Down(3) <= false
  Definitions_Up(3) <= true
  Dependency_Directory(3) <=
  /den/eby/UVic_ESCM/2.6/example/code/D
  Executable_Directory(3) <=
  /den/eby/UVic_ESCM/2.6/example
  Executable_File(3) <=
  /den/eby/UVic_ESCM/2.6/example/UVic_ESCM
  Include_Extension(3) <= h inc
  Input_File(3) <=
  /den/eby/UVic_ESCM/2.6/example/control.in
  Libraries(3) <= -lnetcdf
  Libraries_Directory(3) <=
  /den/eby/UVic_ESCM/2.6/lib/lib_linux
  Libraries_Directory_Prefix(3) <= -L
  Libraries_Directory_aix(3) <= lib_aix
  Libraries_Directory_linux(3) <= lib_linux
  Libraries_Directory_linux-gnu(3) <= lib_linux
  Libraries_aix(3) <= -lnetcdf
  Libraries_linux(3) <= -lnetcdf
  Libraries_linux-gnu(3) <= -lnetcdf
  Libraries_minerva8.UVic.CA(3) <= -lnetcdf
  Linker(3) <= ifc -r8 -O3 -tpp7 -W0 -o
  Linker_aix(3) <= xlf90 -o
  Linker_linux(3) <= ifc -r8 -O3 -tpp7 -W0 -o
  Linker_linux-gnu(3) <= ifc -r8 -O3 -tpp7 -W0 -o
  Log_File(3) <= /den/eby/UVic_ESCM/2.6/example/log
  Mk_Include_File(3) <= uvic_mk.h
  Mk_Include_Start(3) <=       print*,
  Mk_Include_Width(3) <= 70
  Model_Options(3) <= bryan_lewis_vertical
  conjugate_gradient consthmix constvmix cyclic
  energy_analysis fourfil fullconvect gyre_components
  idealized_ic meridional_overturning ramdrive
  read_my_grid read_my_kmt readrmsk sf_5_point snapshots
  stability_tests stream_function term_balances
  time_averages time_step_monitor time_varying_sbc_data
  tracer_averages uvic_embm uvic_embm_adv_q
  uvic_embm_even_fluxes uvic_embm_slap uvic_ice
  uvic_ice_evp uvic_mom uvic_old_albedo uvic_old_ws
  Module_Extension(3) <= d
  Module_Extension_aix(3) <= mod
  Module_Extension_linux(3) <= d
  Module_Extension_linux-gnu(3) <= d
  Object_Directory(3) <=
  /den/eby/UVic_ESCM/2.6/example/code/O
  Object_Extension(3) <= o
  Option_Prefix(3) <= -D
  Output_File(3) <= /den/eby/UVic_ESCM/2.6/example/pr
  Preprocessor(3) <= /lib/cpp -traditional -P -C
  Preprocessor_aix(3) <= /lib/cpp -P -C
  Preprocessor_linux(3) <= /lib/cpp -traditional -P -C
  Preprocessor_linux-gnu(3) <= /lib/cpp -traditional -P -C
  Run_File(3) <= /den/eby/UVic_ESCM/2.6/run/run_linux
  Run_File_aix(3) <= run/run_aix
  Run_File_linux(3) <= run/run_linux
  Run_File_linux-gnu(3) <= run/run_linux
  Run_File_minerva8.UVic.CA(3) <= run/run_minerva.UVic.CA
  Source_Comment_Character(3) <= !
  Source_Directory(3) <=
  /den/eby/UVic_ESCM/2.6/source/embm
  Source_Extension(3) <= F F90
  Updates_Level(3) <=
  /den/eby/UVic_ESCM/2.6/updates/latest
  Version_Directory(3) <= /den/eby/UVic_ESCM/2.6
  Code_Directory(4) <= /den/eby/UVic_ESCM/2.6/example/code
  Code_Extension(4) <= f
  Compiler_F(4) <= ifc -r8 -O3 -tpp7 -W0 -c
  Compiler_F90(4) <= ifc -r8 -O3 -tpp7 -W0 -FR -c
  Compiler_F90_aix(4) <= xlf90 -O3 -qstrict -qarch=pwr2
  -qrealsize=8 -c
  Compiler_F90_linux(4) <= ifc -r8 -O3 -tpp7 -W0 -FR -c
  Compiler_F90_linux-gnu(4) <= ifc -r8 -O3 -tpp7 -W0 -FR
  -c
  Compiler_F90_minerva8.UVic.CA(4) <= xlf90 -O3 -qstrict
  -qarch=pwr3 -qrealsize=8 -c
  Compiler_F_aix(4) <= xlf90 -O3 -qstrict -qfixed=132
  -qarch=pwr2 -qrealsize=8 -c
  Compiler_F_linux(4) <= ifc -r8 -O3 -tpp7 -W0 -c
  Compiler_F_linux-gnu(4) <= ifc -r8 -O3 -tpp7 -W0 -c
  Compiler_F_minerva8.UVic.CA(4) <= xlf90 -O3 -qstrict
  -qfixed=132 -qarch=pwr3 -qrealsize=8 -c
  Data_Directory(4) <= /den/eby/UVic_ESCM/2.6/example/data
  Data_Source(4) <= /den/eby/UVic_ESCM/2.6/data/mth
  Definitions_Down(4) <= false
  Definitions_Up(4) <= true
  Dependency_Directory(4) <=
  /den/eby/UVic_ESCM/2.6/example/code/D
  Executable_Directory(4) <=
  /den/eby/UVic_ESCM/2.6/example
  Executable_File(4) <=
  /den/eby/UVic_ESCM/2.6/example/UVic_ESCM
  Include_Extension(4) <= h inc
  Input_File(4) <=
  /den/eby/UVic_ESCM/2.6/example/control.in
  Libraries(4) <= -lnetcdf
  Libraries_Directory(4) <=
  /den/eby/UVic_ESCM/2.6/lib/lib_linux
  Libraries_Directory_Prefix(4) <= -L
  Libraries_Directory_aix(4) <= lib_aix
  Libraries_Directory_linux(4) <= lib_linux
  Libraries_Directory_linux-gnu(4) <= lib_linux
  Libraries_aix(4) <= -lnetcdf
  Libraries_linux(4) <= -lnetcdf
  Libraries_linux-gnu(4) <= -lnetcdf
  Libraries_minerva8.UVic.CA(4) <= -lnetcdf
  Linker(4) <= ifc -r8 -O3 -tpp7 -W0 -o
  Linker_aix(4) <= xlf90 -o
  Linker_linux(4) <= ifc -r8 -O3 -tpp7 -W0 -o
  Linker_linux-gnu(4) <= ifc -r8 -O3 -tpp7 -W0 -o
  Log_File(4) <= /den/eby/UVic_ESCM/2.6/example/log
  Mk_Include_File(4) <= uvic_mk.h
  Mk_Include_Start(4) <=       print*,
  Mk_Include_Width(4) <= 70
  Model_Options(4) <= bryan_lewis_vertical
  conjugate_gradient consthmix constvmix cyclic
  energy_analysis fourfil fullconvect gyre_components
  idealized_ic meridional_overturning ramdrive
  read_my_grid read_my_kmt readrmsk sf_5_point snapshots
  stability_tests stream_function term_balances
  time_averages time_step_monitor time_varying_sbc_data
  tracer_averages uvic_embm uvic_embm_adv_q
  uvic_embm_even_fluxes uvic_embm_slap uvic_ice
  uvic_ice_evp uvic_mom uvic_old_albedo uvic_old_ws
  Module_Extension(4) <= d
  Module_Extension_aix(4) <= mod
  Module_Extension_linux(4) <= d
  Module_Extension_linux-gnu(4) <= d
  Object_Directory(4) <=
  /den/eby/UVic_ESCM/2.6/example/code/O
  Object_Extension(4) <= o
  Option_Prefix(4) <= -D
  Output_File(4) <= /den/eby/UVic_ESCM/2.6/example/pr
  Preprocessor(4) <= /lib/cpp -traditional -P -C
  Preprocessor_aix(4) <= /lib/cpp -P -C
  Preprocessor_linux(4) <= /lib/cpp -traditional -P -C
  Preprocessor_linux-gnu(4) <= /lib/cpp -traditional -P -C
  Run_File(4) <= /den/eby/UVic_ESCM/2.6/run/run_linux
  Run_File_aix(4) <= run/run_aix
  Run_File_linux(4) <= run/run_linux
  Run_File_linux-gnu(4) <= run/run_linux
  Run_File_minerva8.UVic.CA(4) <= run/run_minerva.UVic.CA
  Source_Comment_Character(4) <= !
  Source_Directory(4) <= /den/eby/UVic_ESCM/2.6/source/ice
  Source_Extension(4) <= F F90
  Updates_Level(4) <=
  /den/eby/UVic_ESCM/2.6/updates/latest
  Version_Directory(4) <= /den/eby/UVic_ESCM/2.6
  




                                         Grid Point Coordinate details: 

 The western edge of the 2nd "t" cell is at longitude:  0.000000     (deg)
 (the 1st "t" cell is a boundary cell)
 The southern edge of the 2nd "t" cell is at latitude: -90.00000     (deg)
 (the 1st "t" cell is a boundary cell)
 The top edge of the 1st "t" cell is at z =  0.000000     (cm)

 The western edge of the 1st "u" cell is at longitude: -1.800000     (deg)
 (the 1st "u" cell is a boundary point)
 The southern edge of the 1st "u" cell is at latitude: -90.90000     (deg)
 (the 1st "u" cell is a boundary point)
 The top edge of the 1st "w" cell is at z =  2500.000     (cm)


 Depth to "t" & "u" grid points (cm): zt(k) k=1, 19
    2500.00   8800.00  17700.00  29200.00  43300.00  60000.00  79300.00 101200.00 125700.00 152800.00
  182500.00 214800.00 249700.00 287200.00 327300.00 370000.00 415300.00 463200.00 513700.00

 Depth to "w" grid points (cm): zw(k) k=1, 19
    5000.00  12600.00  22800.00  35600.00  51000.00  69000.00  89600.00 112800.00 138600.00 167000.00
  198000.00 231600.00 267800.00 306600.00 348000.00 392000.00 438600.00 487800.00 539600.00

 Latitude of "t" points (deg): yt(j) j=1, 102
   -90.9000  -89.1000  -87.3000  -85.5000  -83.7000  -81.9000  -80.1000  -78.3000  -76.5000  -74.7000
   -72.9000  -71.1000  -69.3000  -67.5000  -65.7000  -63.9000  -62.1000  -60.3000  -58.5000  -56.7000
   -54.9000  -53.1000  -51.3000  -49.5000  -47.7000  -45.9000  -44.1000  -42.3000  -40.5000  -38.7000
   -36.9000  -35.1000  -33.3000  -31.5000  -29.7000  -27.9000  -26.1000  -24.3000  -22.5000  -20.7000
   -18.9000  -17.1000  -15.3000  -13.5000  -11.7000   -9.9000   -8.1000   -6.3000   -4.5000   -2.7000
    -0.9000    0.9000    2.7000    4.5000    6.3000    8.1000    9.9000   11.7000   13.5000   15.3000
    17.1000   18.9000   20.7000   22.5000   24.3000   26.1000   27.9000   29.7000   31.5000   33.3000
    35.1000   36.9000   38.7000   40.5000   42.3000   44.1000   45.9000   47.7000   49.5000   51.3000
    53.1000   54.9000   56.7000   58.5000   60.3000   62.1000   63.9000   65.7000   67.5000   69.3000
    71.1000   72.9000   74.7000   76.5000   78.3000   80.1000   81.9000   83.7000   85.5000   87.3000
    89.1000   90.9000

 Latitude of "u" points (deg): yu(j) j=1, 102
   -90.0000  -88.2000  -86.4000  -84.6000  -82.8000  -81.0000  -79.2000  -77.4000  -75.6000  -73.8000
   -72.0000  -70.2000  -68.4000  -66.6000  -64.8000  -63.0000  -61.2000  -59.4000  -57.6000  -55.8000
   -54.0000  -52.2000  -50.4000  -48.6000  -46.8000  -45.0000  -43.2000  -41.4000  -39.6000  -37.8000
   -36.0000  -34.2000  -32.4000  -30.6000  -28.8000  -27.0000  -25.2000  -23.4000  -21.6000  -19.8000
   -18.0000  -16.2000  -14.4000  -12.6000  -10.8000   -9.0000   -7.2000   -5.4000   -3.6000   -1.8000
     0.0000    1.8000    3.6000    5.4000    7.2000    9.0000   10.8000   12.6000   14.4000   16.2000
    18.0000   19.8000   21.6000   23.4000   25.2000   27.0000   28.8000   30.6000   32.4000   34.2000
    36.0000   37.8000   39.6000   41.4000   43.2000   45.0000   46.8000   48.6000   50.4000   52.2000
    54.0000   55.8000   57.6000   59.4000   61.2000   63.0000   64.8000   66.6000   68.4000   70.2000
    72.0000   73.8000   75.6000   77.4000   79.2000   81.0000   82.8000   84.6000   86.4000   88.2000
    90.0000   91.8000

 Longitude of "t" points (deg): xt(i) i=1, 102
    -1.8000    1.8000    5.4000    9.0000   12.6000   16.2000   19.8000   23.4000   27.0000   30.6000
    34.2000   37.8000   41.4000   45.0000   48.6000   52.2000   55.8000   59.4000   63.0000   66.6000
    70.2000   73.8000   77.4000   81.0000   84.6000   88.2000   91.8000   95.4000   99.0000  102.6000
   106.2000  109.8000  113.4000  117.0000  120.6000  124.2000  127.8000  131.4000  135.0000  138.6000
   142.2000  145.8000  149.4000  153.0000  156.6000  160.2000  163.8000  167.4000  171.0000  174.6000
   178.2000  181.8000  185.4000  189.0000  192.6000  196.2000  199.8000  203.4000  207.0000  210.6000
   214.2000  217.8000  221.4000  225.0000  228.6000  232.2000  235.8000  239.4000  243.0000  246.6000
   250.2000  253.8000  257.4000  261.0000  264.6000  268.2000  271.8000  275.4000  279.0000  282.6000
   286.2000  289.8000  293.4000  297.0000  300.6000  304.2000  307.8000  311.4000  315.0000  318.6000
   322.2000  325.8000  329.4000  333.0000  336.6000  340.2000  343.8000  347.4000  351.0000  354.6000
   358.2000  361.8000

 Longitude of "u" points (deg): xu(i) i=1, 102
     0.0000    3.6000    7.2000   10.8000   14.4000   18.0000   21.6000   25.2000   28.8000   32.4000
    36.0000   39.6000   43.2000   46.8000   50.4000   54.0000   57.6000   61.2000   64.8000   68.4000
    72.0000   75.6000   79.2000   82.8000   86.4000   90.0000   93.6000   97.2000  100.8000  104.4000
   108.0000  111.6000  115.2000  118.8000  122.4000  126.0000  129.6000  133.2000  136.8000  140.4000
   144.0000  147.6000  151.2000  154.8000  158.4000  162.0000  165.6000  169.2000  172.8000  176.4000
   180.0000  183.6000  187.2000  190.8000  194.4000  198.0000  201.6000  205.2000  208.8000  212.4000
   216.0000  219.6000  223.2000  226.8000  230.4000  234.0000  237.6000  241.2000  244.8000  248.4000
   252.0000  255.6000  259.2000  262.8000  266.4000  270.0000  273.6000  277.2000  280.8000  284.4000
   288.0000  291.6000  295.2000  298.8000  302.4000  306.0000  309.6000  313.2000  316.8000  320.4000
   324.0000  327.6000  331.2000  334.8000  338.4000  342.0000  345.6000  349.2000  352.8000  356.4000
   360.0000  363.6000


 Grid checksum =    8684772.39999127     


    density coefficients were calculated  
    (employing the UNESCO equation of state)
    and are valid for the following depths and both INSITU and POTENTIAL T and S ranges
      k      depth        tmin      tmax           smin      smax    Pot tmin  Pot tmax
      1      25.00e2     -2.000    29.000        28.5000   37.0000    -2.000    28.993
      2      88.00e2     -2.000    29.000        28.5000   37.0000    -2.001    28.977
      3     177.00e2     -2.000    29.000        28.5000   37.0000    -2.001    28.953
      4     292.00e2     -2.000    19.000        33.7000   36.6000    -2.005    18.946
      5     433.00e2     -2.000    19.000        33.7000   36.6000    -2.008    18.919
      6     600.00e2     -2.000    14.000        34.0000   35.8000    -2.012    13.909
      7     793.00e2     -2.000    11.000        34.1000   35.7000    -2.018    10.896
      8    1012.00e2     -1.000     9.000        34.2000   35.3000    -1.034     8.882
      9    1257.00e2     -1.000     7.000        34.4000   35.1000    -1.046     6.870
     10    1528.00e2     -1.000     7.000        34.5000   35.1000    -1.060     6.839
     11    1825.00e2     -1.000     7.000        34.5000   35.0000    -1.076     6.804
     12    2148.00e2     -1.000     7.000        34.6000   35.0000    -1.096     6.765
     13    2497.00e2     -1.000     7.000        34.6000   35.0000    -1.119     6.721
     14    2872.00e2     -1.000     7.000        34.6000   35.0000    -1.147     6.672
     15    3273.00e2     -1.000     7.000        34.6000   35.0000    -1.178     6.618
     16    3700.00e2     -1.000     7.000        34.6000   35.0000    -1.215     6.559
     17    4153.00e2     -1.000     7.000        34.6000   35.0000    -1.256     6.493
     18    4632.00e2     -1.000     7.000        34.6000   35.0000    -1.304     6.422
     19    5137.00e2      0.000     7.000        34.6000   35.0000    -0.398     6.344

Note: density coefficients were calculated using the UNESCO
      formulation.

      Checksum for density coefficients = 0.1085434E+03


                                    T O P O G R A P H Y    G E N E R A T I O N

kmt_min =    2


==> The kmt field has been imported.



number of ocean T cells =  87307.
surface area (T cells)  =   0.356684E+19 cm**2
ocean volume (T cells)  =   0.121070E+25 cm**3


 Original "kmt" checksum =   239304953.000000     

Searching for and correcting minimum level violations

->No modifications needed


Searching for and correcting island PERIMETER VIOLATIONS...


Finding perimeters of all land masses

Default action is "-Dfill_perimeter_violations"

Exploring land mass   1
number of island perimeter points: nippts( 1)= 100
Exploring land mass   2
number of island perimeter points: nippts( 2)= 762
Exploring land mass   3
number of island perimeter points: nippts( 3)=  14
Exploring land mass   4
number of island perimeter points: nippts( 4)=  16
Exploring land mass   5
number of island perimeter points: nippts( 5)=  60
Exploring land mass   6
number of island perimeter points: nippts( 6)=  20
Exploring land mass   7
number of island perimeter points: nippts( 7)=  18
Exploring land mass   8
number of island perimeter points: nippts( 8)= 152
   <none>



  Island perimeter statistics:
 maximum queue size was          423
 number of land masses is            8
 number of island perimeter points is         1142


number of ocean T cells =  87307.
surface area (T cells)  =   0.356684E+19 cm**2
ocean volume (T cells)  =   0.121070E+25 cm**3


 Pass #  1 complete.  kmt checksum =        239304953.000000     

All changes have now been made to kmt


Use -Dskip_island_map eliminate the following map


                                           Land Masses and Perimeters
  
         5   10   15   20   25   30   35   40   45   50   55   60   65   70   75   80   85   90   95  100  105
 102 111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111
 101 111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111
 100 000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000
  99 000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000
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  68 222222222222222222222222222222222220000000000000000000000000000000000222222002200000000000000000002222
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  66 222222222222222222222222222222222200000000000000000000000000000000000002220000000000000000000000022222
  65 222222222222222222222222222222222000000000000000000000000000000000000002220000000000000000000000022222
  64 222222222222222222000222222222220000000000000000000000000000000000000002220000000000000000000000022222
  63 222222222222222222000222222222220000000000000000000000000000000000000002220000000000000000000000222222
  62 222222222222222220000222000222220000000000000000000000000000000000000000222200000000000000000000022222
  61 222222222222222200000220000222220000000000000000000000000000000000000000022200000000000000000000022222
  60 222222222222222200000220000222220000000000000000000000000000000000000000000222000000000000000000222222
  59 222222222222200000000220000002220000000000000000000000000000000000000000000022000000000000000000222222
  58 222222222222200000000020000000220000000000000000000000000000000000000000000002000000000000000000222222
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  32 000000000000000000000000000000000000000555000000000000000000000000000000000000000222200000000000000000
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  27 000000000000000000000000000000000000000000000000700000000000000000000000000000002220000000000000000000
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  25 000000000000000000000000000000000000000000000000000000000000000000000000000000002220000000000000000000
  24 000000000000000000000000000000000000000000000000000000000000000000000000000000002200000000000000000000
  23 000000000000000000000000000000000000000000000000000000000000000000000000000000002200000000000000000000
  22 000000000000000000000000000000000000000000000000000000000000000000000000000000000200000000000000000000
  21 000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000
  20 000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000
  19 000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000
  18 000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000
  17 000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000
  16 000000000000000000000000000000000000000000000000000000000000000000000000000000000000880000000000000000
  15 000000000000000880000000000008000000000000000000000000000000000000000000000000000008000000000000000000
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  12 888888888888888888888888888888888888888888888880000000000000000000000000000000008888000000000000000888
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   6 888888888888888888888888888888888888888888888888000000088888888888888888888888888888888888888888888888
   5 888888888888888888888888888888888888888888888888888888888888888888888888888888888888888888888888888888
   4 888888888888888888888888888888888888888888888888888888888888888888888888888888888888888888888888888888
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   2 888888888888888888888888888888888888888888888888888888888888888888888888888888888888888888888888888888
   1 888888888888888888888888888888888888888888888888888888888888888888888888888888888888888888888888888888
         5   10   15   20   25   30   35   40   45   50   55   60   65   70   75   80   85   90   95  100  105
  

Use -Dskip_kmt_map to eliminate the following map


                     The "kmt" field follows:

  
  
  "iplot" mapping of integers to characters is as follows:
      0 is printed as .         1 is printed as a         2 is printed as b
      3 is printed as c         4 is printed as d         5 is printed as e
      6 is printed as f         7 is printed as g         8 is printed as h
      9 is printed as i        10 is printed as j        11 is printed as k
     12 is printed as l        13 is printed as m        14 is printed as n
     15 is printed as o        16 is printed as p        17 is printed as q
     18 is printed as r        19 is printed as s
  

     1   5   9  13  17  21  25  29  33  37  41  45  49  53  57  61  65  69  73  77  81  85  89  93  97 101
 102 ......................................................................................................
 101 ......................................................................................................
 100 mmoooooooooooooooooooooooooooooooooonnnnkkkkkkmmmmmmkklllllllljjjjjjjjjjjjjjjjjjjjhhhhhhiijjjjiimmmmmm
  99 mmoooooooooooooooooooooooooooooooooonnnnkkkkmmmmmmmmkklllllllljjjjjjjjjjjjjjjjjjjjhhhhhhiijjjjiimmmmmm
  98 mmoonnnnllllllllllllkkkkkmmmmmmoooooonnnjjjmmmmmmmmmllllmmmmmmmmmmmlllkjjjhiiiifffgggddeeijjjjiimmmmmm
  97 kkkkkjjjjhhhhhhhhhhhhhggiiiiiillooooonnnjjjmmmmmmmklllllmnnnnnooommlllkhhhgggg....................kkkk
  96 kkkkk..fffdeeedddddddggeee..hhhllllmmmmmjjjjlllllkkllllllnnoooooomlllhhhedd......................ggkkk
  95 lllk...bbbbbccccccccccccbbb...hhhhlllliiiihhhhhhhhjjjjhhlllooooomljihhdddbb......................hhkll
  94 lllkhhdcccccccccc..bbbbbbbb.....hhhhhhhheeeedddddfhhhggiklloooollihfeddbbb......................hhhlll
  93 llllhhfdccccccc..bbbbbbbb........ddddd.....bbbbbbdddeehikkkmmmmljihebbbbb......cceee...........ehhllll
  92 llllkgfdccccccc..bbbb......................bbbbbbbbbddhhhhikkkkiife............cdeeedb.........eiillll
  91 llllkhdd.ccccbbb.bb..........................bbb.bbbbddddeggghhhe...............dddddb........deiiklll
  90 llkkhhd...bbbbbb...................................bbbb...........................ddd.........hhhijlll
  89 llkgg.......bb.....................................................................bcc......hhhhhijlll
  88 llid................................................bb........................bb...cdd....hhhhhhhhilll
  87 lii................................................bbbb.......................bbb..chhh...ijjhhhhhhlli
  86 he................................................cccbb....................bbbbbbbbcill..hlljhhhhhhhhe
  85 eb.............................................ggggggccc...................bbbbbbbbclllkgklljjjjhhhfeb
  84 bb.......................................bbb...kkkkkkgcc....ll.............bbbb.....lllkkkllklljhhh.bb
  83 bbb.....................................cccc..llkmmmkgg...llllkg............bbb.....hllnnnnkmmljghh.bb
  82 bbb.....................................cddd.hllnnmmmkhhhhllookk.............bb.....hhknnnnlmnnjjfe.bb
  81 .........................................ggg.lllnnmmmkjllllppokk.....................gklnnnnnookkg....
  80 .........................................ggghlppppnnkknnlppppoomi.....................hlnnppnoookif...
  79 .........................................ghhhlppprrrooopppqqqpppmk....................hjlmppooppmjgg..
  78 g.......................................gkkkllpsssssssssrrrrrqqpmkg...................fhimppompppkkgg.
  77 g.......................................gkkkoppsssssssssssrrrqqommg.................dddhlmppnmpppokkg.
  76 .........................................gkoossrsssssssssssrrqqpnm................hhhhhhpppomloppokk..
  75 ..ee..................................hh.kkoossssssssssssssrrqqpom...............hhlllllpqqollnoook...
  74 .ffedff.............................gghhgkooosssrsssssssssrrrrrppmi..............hllnppppqqmklnookk..f
  73 effefjj.............................gghhgkoqqqqrrrsssssssssssrrrqmm.............hllpprrrrqqkjjnookggef
  72 effefjjff...........................fff.kkoqqqrrrrqrssssssssssrrqmm.............ilpprssrrpommmnookigef
  71 ....fjjggg........................bb....oooqqqssqqopssssssssssrrqml............gkmqqrssqqpnmnpqqomig..
  70 .....fgggg........................bddggkossspssssqqrssssssssssrrqplh...........gkqqqrssqpomnnqqqomi...
  69 ..................................bddhkkosssqssssrrrsssrrsssssqqqpplh..........gkrrqrssqpnoooqqqok....
  68 ...................................dhhloossssssssrrqrssrrssssrrqqqpll......bb..gnrrrsssqoopppqqook....
  67 ..................................ddhllooqsssssssssrqqqrrsssrrrqqqqpl.....beecfjnrssssrqoprrrrqokg....
  66 ..................................hhhlppmqssssssssssqonrrrssrrrqqqqplhh...eeecfjnossssrqoqrrrrqmk.....
  65 .................................hhillppmqrrrrssssssrqpqqrssrrrrrqqpplh...eeeefjkossssrpoqssrrqmi.....
  64 ..................kkh...........hhhlmpppnqrrrrssrrprrqqooqrsssrrrqpppll...cceffgkopsssrporssrrqmi.....
  63 ..................llh...........hhllpqqqpprrqqrrrnprrqqqqnrsssssrrpppon...bbdgggkllpprrporssrrqm......
  62 .................illk...gii.....hllnpqrrporrrrrroppppoqssorsssssrrppponj....egghhhhlprrpprssrpomi.....
  61 ................jmmll..hkki.....hllnpprrqnqqrrrrpqqoqqqssqrssssrrrqppoonn...eefhllliorrpprrrrrnmi.....
  60 ................mnool..klli.....hllllorrqnrssrrrrqrrrrrsssssssrrrrqppponnkj...fjlllkoqqoorrssrnm......
  59 .............ehimpppl..kllhee...ikkhkorrpprssrrrrrrrrrrssssssrrrrrqqqpponnnn..fjlllknpppoqrsssrm......
  58 .............ehimppplh.kllligc..iiggkoqqpprssrqqrssrrrrrrssssrrrrrqqqpponoook.fjjhhjlppppprsssrm......
  57 ...............loppplhhgkllkgc.eiifhkoqqpoooqqqpqssssrqqqrrrrrrrrrqqqpoonooolh.....hllooppprrrrp......
  56 ..............hlopppolhgkllkgc.effhhlooonmkoqqqopsssssrqprrrrrrqqqqppppooooolhh.....hkkmppppqrrpm.....
  55 ..............ilppooolkkkkkjg.bee.hllpppnoooppqqpssrssrqorrrrrrqqqqppppooooolll......gimnnoooppomm....
  54 hh............ilppoonkkoookgf.bbb.lllpppnpppopqqqrrrsssroqrrrqqqqqqqpppoooomkll........jjnppoppoomlhhh
  53 lnnj..........jlpppnnkoqqokj..bb..llllppnpppmnqqqqrrrssrrqqrrqqqqqqqppponnmkkll........fjnppnppppollln
  52 oonj.........fjppppooloqqonm......hhhllnnopplmpqqprrrssrroqqqqqqqqqqpppoonnkkkh........fjmppoopppoppoo
  51 qqnj........fjmpppoooopqqoomi......jjhjkkmmmlloqqqqrrssrrqqqqqqqqqqqqqppooonkkh.........immmppppoopqqq
  50 qqnk........jjmmmmooooqqqppmi......kkgggiiikkknppqrssrrrrrrqqqqqqqqqqqppoooonlh...........imprrrqopqqq
  49 qqook.......mnnmimooonqrrppmlh...fgkkkg..ghhjjmooqrsssqrrrrrqqqqqqqqqqpoooppolj............mnrrrqopqqq
  48 qpook.......ooomlmnnmnqrrqqpll..cgjkkkgc..gijjlnqqrsssqqrrrrqqqqqqqqqppnpppppnn............jnrrrqopqqp
  47 qplkg.......ooomllkkknnrrrrpllj.ggjkkggc..giihlpqqqrrqqprrrrroqqqqqppponppppppo............jnrrrpmpqqp
  46 qplhd.......lnnmlkjknqrrrrrqpnnkkkigggccfhhillnpqqoppppoqrrrrpoqqppppnopppppppo............knrrrpnpqqp
  45 qplh........hllllkgkorrrrrqrrrrokkiecccbfjlllnnnnmmopppoqrrrrppppppponopppppppok..........gkorrrpopqqp
  44 qplh........kkhllkknorrrqpqrrrrqokieb....jlllnnmmmlmoorrqrrnnppppppoonoppppppook..........kkorrroopqqp
  43 rpll.......kkk.llknnprrrqmqsssrqokg......hjknnnkkkkkkorrrrqnjnnppppoonoppopppokkg.........klorrrooprrp
  42 rollj......kkk.nnknnprrrqorsssqookg.......ggnnnkkkgikorrrrqnnknppppoonoppppqqokkg.........hlprrqooprro
  41 rookj......kk.jnnnnnpqrrqorsssqmkg........eikkjkkkkikorrrqqoonnnpppoonoppppqqqokk.........ilpssqonqrro
  40 rrokg.....hll.nnoommpqrrqprssrqmi..........iihhklnnkkorrqqqqqpnopppoonoppppqqqooo.........kmpssrpnqrrr
  39 rrokk.....hll.nopponpqrrqqrssrqmi..........ijjjhlnnllssrqqqqqppoooooonopppppppppp........gkoqssrpprrrr
  38 rronl.....hll.norrqpoopqqqrssqqmi..........jjjkklnnlpsssrrqqppppoonnnnooppoppoppp.......hkkorssroprrrr
  37 rrnnm.....hlmmkorrqponpppnqqqqqmi..........jkkkmmmllpsssrrrqoppppoonnmnnnnooopppp.......hloorrrqoppqrr
  36 rrqqm.....hlmmmqrrpppopppnooqqqmi..........ikkkmmnnnpsssrrrqqopqqpooonnoooooopppp.......jlooprrponoqrr
  35 qpqqm.....llmmnqqpqqqooppmllnppmi..........kkkjllnnnrsssssrrrqqqqppoonnoooooopppp.......jnnloqqppnoqqp
  34 qoqqm....hlnnknqqqqqqonoollllppmk..........kllillnnprssssssrrrrqqppoonnoooooopppp......fjnnmoqqppnoqqo
  33 opqqmmi.hllnnjnppqqqqonoooopppplk...hh.....jmmijjlnprsssssssrrrqqppponnoooooppppp......jjnqqoppoonooop
  32 qrrqqmihllppnnnoprrqqonooppqqqqphllllhh...fjmmiiihloorssssssrrrqqpppoonoooopppppp....fjjnnqqppppooooqr
  31 rrrrqmllopppnnnmprrqqqnmoppqqqqplppppllh..jjnniiigkkqrrrsssssrrrrqqpoonoooopppppo....fjjnrrrqqppnooprr
  30 rrrrqpppopppommpqrrqqqmnooopqqqppqrrppllh.nnnnkggegmqqqrrrssssrrrrqqpnooppooopppo....jjjnrrrqqqpnnoprr
  29 rrrrqrrpppppomnpqrrqqpmnnnooqqqqqqrrrrplk.nppokji.immqqrrrrssssrrrqqpnoopponooonn...hlnnnrrrqqqpnnpprr
  28 nnqqqrrorrpommnnqrrqoommmmnnoppqqqrrrrpok.lpqqnmi.iiimprrrrssssrrrqqpnnopppppoon...dhlpprrrrqqqpnoppnn
  27 pqqqqrrrrrpllkmnqqookmnnnnnnoppqqqqrrrqoohlpqqpm.gggklrrrrrrsssrrrqppnnopqqqpoom...dhlpprrrrrrrpnopppq
  26 pqqqqqqrrrolijjjnnkkjlnooonnnoopqqqqrrqppllpqqp.ghiikprrrrrrrrrrrqpoonnopqqqppom...dhlppprrrrrrpoooopq
  25 ppppqqqrrpommnnmookghlnoooonnnnopppqqqpppllpqqphghimoqrrrrrrrrrrqqponnnopqqqqppn...dhllppqqrrrqponoopp
  24 oooppqqrrqppoopppokghlnopppoonnnnpppppoooooqqqlhehjmorrrrrrrqqqqqqpomnoopqqqqppn..ddhhlmmmqqqqqppnnmoo
  23 nnoooooqqrrpooqqqookjhjopppoooooooqqoonnoppqqplhellnqrrrrrqqpqqqqqpomooppqqrrppl..ddghlmmmnnqqqppoolnn
  22 lnnnnnoppssoloqqqqonlhgkoqqppppoppqqpponnppqqpliilpprrrrqqqqppoooooonoppqqqrrpllh.ddgkllljjnppppppomln
  21 lllpppqqqssoppqqqqonlkkkoqqqppppqqqrrqponoppppmkklrrrrrrqqppoomooonnoopqqqqrrplllhhhhknnnnlnpppppppnll
  20 ppprrqrrsssssrssqrrplkkknqqqqqqqqqrrrqqponoooonnoprrrrrqqponmnooopqqoqqqqqqrrppllllllloooonnnmpppppopp
  19 rrssssrssssssssssrrpnjijnqqqqqqqqqrrrqqqoonnooppqqrrrqqqqonmnooppqqqrrrrrqqrrrpppplllloooonnnmpppprrrr
  18 ssssssrssssssssssrrpnnmlnqqqppqqqqqqqqqqpponnoppqqqqqppponmnppppqqrrrrrrrrrrrrrppplllllkklmmmnoooqssss
  17 sssrssrrrrrrrrrrrpppnnmllnooonoooopqqqqqppoollmmmppppoonnnnoppqqqqrrrrrrrrrrrrronnllhhkmmmpqqqrrrrssss
  16 rqqrrrrrrrppqqqoolpplmmlllkkkjkkkkmmmmmmoooolmmmmnnnnmmnnooppqqqrrrrrrrrrrrrqqookllh..imppqrrrrrrrrrrq
  15 ppoooopppplppmm..lllllklljjgg.ggggiiiiijkkkklmmmnnnmmnopppqqqqqqrrrrrrrrqqqpppookjj.eiimppqrrrrrrrrppp
  14 nnoollllllhll.......hhh..................hhhhlllnnooooppppqqqqqqqqppoqqnqqqmpplkkg..eiilppqqqqppppplnn
  13 jlllhlllhhh.................................hiikkkoooopppqqqqqqopppnknnjmmmmlllhhg..ehhlppppppppllljjl
  12 ...............................................ggkkjllpppqqqppooollkkkkjjjiiihhh....dhhlllllmmmmllh...
  11 .................................................ffhllppooppookkkkhhgggff..eee.......hhhhhlllllii.....
  10 ...............................................eeefhlllkklllkkg.....................ddddhhhhhhh.......
   9 ...............................................eeeehhhgghhh.........................dddddddd..........
   8 ...............................................bbcccccccc.............................................
   7 ...............................................bbbbbbbb...............................................
   6 ................................................bbbbbbb...............................................
   5 ......................................................................................................
   4 ......................................................................................................
   3 ......................................................................................................
   2 ......................................................................................................
   1 ......................................................................................................


number of ocean T cells =  87307.
surface area (T cells)  =   0.356684E+19 cm**2
ocean volume (T cells)  =   0.121070E+25 cm**3


 Final "kmt" checksum =   239304953.000000     
=> Note: initialized T & S to internally generated idealized values for a test case.
  I.C. checksum for t =   507235.456118823     
  I.C. checksum for s =   24.9393200000002     
  I.C. checksum for u =   0.00000000000000D+000
  I.C. checksum for v =   0.00000000000000D+000


          Time manager initialization

Calendar selection:

  equal years of  365 days
  days per month = 31 28 31 30 31 30 31 31 30 31 30 31

Initial Conditions: d/m/y= 1/ 1/    1,h:m:s= 0: 0: 0
  
  Time since initial conditions =  0.000000     days

Start of Run: d/m/y= 1/ 1/    1,h:m:s= 0: 0: 0
Corresponding to time step "itt" =         0

  "refinit = .true." selected.
  intervals for diagnostic switches are referenced to   the initial conditions time.

          Initialization completed




  Global ocean statistics:
  the total ocean surface area (t cells) = 3.56684292E+18cm**2
  the total ocean volume (t cells)       = 1.21070385E+24cm**3
  the total ocean surface area (u cells) = 3.30167150E+18cm**2
  the total ocean volume (u cells)       = 1.05968458E+24cm**3

 Horizontal regional volumes [cubic m] and areas [sq m]
    k  All Regions        1            2            3
    1 0.178342E+17 0.516501E+16 0.880922E+16 0.385999E+16
    2 0.271080E+17 0.785082E+16 0.133900E+17 0.586718E+16
    3 0.358436E+17 0.101546E+17 0.178306E+17 0.785843E+16
    4 0.446094E+17 0.125687E+17 0.222903E+17 0.975042E+16
    5 0.532128E+17 0.147593E+17 0.267225E+17 0.117310E+17
    6 0.615873E+17 0.168639E+17 0.310961E+17 0.136272E+17
    7 0.697897E+17 0.188304E+17 0.354620E+17 0.154973E+17
    8 0.766757E+17 0.205594E+17 0.391647E+17 0.169515E+17
    9 0.816329E+17 0.212776E+17 0.421781E+17 0.181771E+17
   10 0.878578E+17 0.228068E+17 0.455951E+17 0.194559E+17
   11 0.933424E+17 0.236231E+17 0.489897E+17 0.207296E+17
   12 0.949254E+17 0.240757E+17 0.504430E+17 0.204068E+17
   13 0.933348E+17 0.229844E+17 0.510035E+17 0.193469E+17
   14 0.944017E+17 0.226531E+17 0.528002E+17 0.189484E+17
   15 0.903977E+17 0.214168E+17 0.515882E+17 0.173926E+17
   16 0.781007E+17 0.179861E+17 0.459812E+17 0.141334E+17
   17 0.579872E+17 0.126052E+17 0.355047E+17 0.987725E+16
   18 0.378230E+17 0.858940E+16 0.242536E+17 0.497996E+16
   19 0.142396E+17 0.227127E+16 0.107023E+17 0.126603E+16
  SUM 0.121070E+19 0.307042E+18 0.653805E+18 0.249857E+18

 AREA 0.356684E+15 0.103300E+15 0.176184E+15 0.771997E+14
  the horizontal regional masks cover 100.000% of the total ocean surface area.
  there are      3 regions over which tracer & momentum balances will be computed
  accounting for 100.00% of the total ocean volume.
  45.95% of the grid points lie within the ocean.


Finding perimeters of all land masses

Default action is "-Dfill_perimeter_violations"

Exploring land mass   1
number of island perimeter points: nippts( 1)= 100
Exploring land mass   2
number of island perimeter points: nippts( 2)= 762
Exploring land mass   3
number of island perimeter points: nippts( 3)=  14
Exploring land mass   4
number of island perimeter points: nippts( 4)=  16
Exploring land mass   5
number of island perimeter points: nippts( 5)=  60
Exploring land mass   6
number of island perimeter points: nippts( 6)=  20
Exploring land mass   7
number of island perimeter points: nippts( 7)=  18
Exploring land mass   8
number of island perimeter points: nippts( 8)= 152
   <none>



  Island perimeter statistics:
 maximum queue size was          423
 number of land masses is            8
 number of island perimeter points is         1142
=> calculations enabled for mid ocean points
=> calculations enabled for ocean perimeter of land mass  1
=> calculations enabled for ocean perimeter of land mass  2
=> calculations enabled for ocean perimeter of land mass  3
=> calculations enabled for ocean perimeter of land mass  4
=> calculations enabled for ocean perimeter of land mass  5
=> calculations enabled for ocean perimeter of land mass  6
=> calculations enabled for ocean perimeter of land mass  7
=> calculations enabled for ocean perimeter of land mass  8
dpsi normalized to zero on land mass   2
  (user may set "imain" to any valid land mass number)
  
  density coefficient checksum =    108.543403587513     
  checksum for psi(,,1) =    0.00000000000000D+000
  checksum for psi(,,2) =    0.00000000000000D+000

 ==== start and end indices for fourier filtering ====

 == filtering indices for t,s ==

 Note: enable -Dshow_details to see filtering indices


 == filtering indices for u,v ==

 Note: enable -Dshow_details to see filtering indices


 == filtering indices for stream function ==

 Note: enable -Dshow_details to see filtering indices


 "dtxcel(km)" tracer timestep multipliers:
    1.000    1.000    1.000    1.000    1.000    1.000    1.000    1.000    1.000    1.000
    1.000    1.000    1.000    1.000    1.000    1.000    1.000    1.000    1.000

B R Y A N - L E W I S   M I X I N G   C O E F F S

 &BLMIX
 AHV=  0.605232500521896     ,  0.606194823236876     ,  0.607586625075133     
       0.609518674945405     ,  0.612168778594169     ,  0.615830089283691     
       0.621011540119767     ,  0.628668259772125     ,  0.640807910161903     
       0.662434019605785     ,  0.709980193618735     ,  0.868855586446083     
        1.32571924472316     ,   1.49995722938788     ,   1.55047225179181     
        1.57311637994715     ,   1.58579987922295     ,   1.59385734568690     
        1.59940364486522     
 AHH= 10000000.0000000
 /




                    T I M E   A V E R A G E S   G R I D   I N I T I A L I Z E D


  Time averages will be taken at the following grid points:

  102 grid "t" longitudes:
      -1.80      1.80      5.40      9.00     12.60     16.20     19.80     23.40     27.00     30.60
      34.20     37.80     41.40     45.00     48.60     52.20     55.80     59.40     63.00     66.60
      70.20     73.80     77.40     81.00     84.60     88.20     91.80     95.40     99.00    102.60
     106.20    109.80    113.40    117.00    120.60    124.20    127.80    131.40    135.00    138.60
     142.20    145.80    149.40    153.00    156.60    160.20    163.80    167.40    171.00    174.60
     178.20    181.80    185.40    189.00    192.60    196.20    199.80    203.40    207.00    210.60
     214.20    217.80    221.40    225.00    228.60    232.20    235.80    239.40    243.00    246.60
     250.20    253.80    257.40    261.00    264.60    268.20    271.80    275.40    279.00    282.60
     286.20    289.80    293.40    297.00    300.60    304.20    307.80    311.40    315.00    318.60
     322.20    325.80    329.40    333.00    336.60    340.20    343.80    347.40    351.00    354.60
     358.20    361.80
  102 grid "v" longitudes:
       0.00      3.60      7.20     10.80     14.40     18.00     21.60     25.20     28.80     32.40
      36.00     39.60     43.20     46.80     50.40     54.00     57.60     61.20     64.80     68.40
      72.00     75.60     79.20     82.80     86.40     90.00     93.60     97.20    100.80    104.40
     108.00    111.60    115.20    118.80    122.40    126.00    129.60    133.20    136.80    140.40
     144.00    147.60    151.20    154.80    158.40    162.00    165.60    169.20    172.80    176.40
     180.00    183.60    187.20    190.80    194.40    198.00    201.60    205.20    208.80    212.40
     216.00    219.60    223.20    226.80    230.40    234.00    237.60    241.20    244.80    248.40
     252.00    255.60    259.20    262.80    266.40    270.00    273.60    277.20    280.80    284.40
     288.00    291.60    295.20    298.80    302.40    306.00    309.60    313.20    316.80    320.40
     324.00    327.60    331.20    334.80    338.40    342.00    345.60    349.20    352.80    356.40
     360.00    363.60
  100 grid "t" latitudes:
     -89.10    -87.30    -85.50    -83.70    -81.90    -80.10    -78.30    -76.50    -74.70    -72.90
     -71.10    -69.30    -67.50    -65.70    -63.90    -62.10    -60.30    -58.50    -56.70    -54.90
     -53.10    -51.30    -49.50    -47.70    -45.90    -44.10    -42.30    -40.50    -38.70    -36.90
     -35.10    -33.30    -31.50    -29.70    -27.90    -26.10    -24.30    -22.50    -20.70    -18.90
     -17.10    -15.30    -13.50    -11.70     -9.90     -8.10     -6.30     -4.50     -2.70     -0.90
       0.90      2.70      4.50      6.30      8.10      9.90     11.70     13.50     15.30     17.10
      18.90     20.70     22.50     24.30     26.10     27.90     29.70     31.50     33.30     35.10
      36.90     38.70     40.50     42.30     44.10     45.90     47.70     49.50     51.30     53.10
      54.90     56.70     58.50     60.30     62.10     63.90     65.70     67.50     69.30     71.10
      72.90     74.70     76.50     78.30     80.10     81.90     83.70     85.50     87.30     89.10
  100 grid "v" latitudes:
     -88.20    -86.40    -84.60    -82.80    -81.00    -79.20    -77.40    -75.60    -73.80    -72.00
     -70.20    -68.40    -66.60    -64.80    -63.00    -61.20    -59.40    -57.60    -55.80    -54.00
     -52.20    -50.40    -48.60    -46.80    -45.00    -43.20    -41.40    -39.60    -37.80    -36.00
     -34.20    -32.40    -30.60    -28.80    -27.00    -25.20    -23.40    -21.60    -19.80    -18.00
     -16.20    -14.40    -12.60    -10.80     -9.00     -7.20     -5.40     -3.60     -1.80      0.00
       1.80      3.60      5.40      7.20      9.00     10.80     12.60     14.40     16.20     18.00
      19.80     21.60     23.40     25.20     27.00     28.80     30.60     32.40     34.20     36.00
      37.80     39.60     41.40     43.20     45.00     46.80     48.60     50.40     52.20     54.00
      55.80     57.60     59.40     61.20     63.00     64.80     66.60     68.40     70.20     72.00
      73.80     75.60     77.40     79.20     81.00     82.80     84.60     86.40     88.20     90.00
   19 "t" grid depths:
    2500.00   8800.00  17700.00  29200.00  43300.00  60000.00  79300.00 101200.00 125700.00 152800.00
  182500.00 214800.00 249700.00 287200.00 327300.00 370000.00 415300.00 463200.00 513700.00
   19 "w" grid depths:
    5000.00  12600.00  22800.00  35600.00  51000.00  69000.00  89600.00 112800.00 138600.00 167000.00
  198000.00 231600.00 267800.00 306600.00 348000.00 392000.00 438600.00 487800.00 539600.00


 Time average grid checksum =    7604107.20001435     



                    G E N E R A L    C O N S I S T E N C Y    C H E C K S


 ==> Warning: "num_processors" = 1 for unitasking               

 ==> Warning: "jmw" > 3 ("jmw"=3 will use the minimum memory)   

 ==> Warning: The MW is open all the way ("jmw" = "jmt") which  
              is the maximum memory configuration. Note that    
              latitude rows are kept in the MW and not on disk! 

 ==> Warning: the damping time scale "dampts" is > zero but     
              the "restorst" otpion is not enabled              

 ==> Warning: the damping thickness "dampdz" is > zero but      
              the "restorst" otpion is not enabled              

 ==> Warning: although "sf_5_point" has no null space, it does  
              not conserve total energy.                        

 ==> Warning: "itmb" is set to "true". set it to "false" in     
              subsequent runs to prevent the time independent   
              basin mask from being written more than once.     
              This reduces the size of the diagnostic file.     

 ==> Warning: "itrmb" is set to "true". set it to "false" in    
              subsequent runs to prevent the time independent   
              region masks from being written more than once.   
              This reduces the size of the diagnostic file.     

 ==> Warning: "itavg" is set to "true". set it to "false" in    
              subsequent runs to prevent the time independent   
              region masks from being written more than once.   
              This reduces the size of the diagnostic file.     

 ==> Warning: "option "time_averages" is enabled but            
              "time_averages_disk" is not. extra memory will be 
              used. Note that"time_averages_disk" does not work 
              with option "ramdrive"                            

 ==> Warning: the averaging interval "xbtint"  is > zero but    
              the "xbts" option is not enabled                  

 ==> Warning: the averaging interval "dspint"  is > zero but    
              option "diagnostic_surf_height" is not enabled    

 ==> Warning: use of unequal time steps implies the transient   
              response is unimportant and multiple equilibria   
              do not exist.                                     

 ==> Warning: lateral diffusive criteria exceeded for "ah".     
               use a smaller "dtts", "dtxcel", and/or "ah"      
                                    at latitude -89.10,  j=  2
                                    at latitude -87.30,  j=  3
                                    at latitude  87.30,  j=100
                                    at latitude  89.10,  j=101

 ==> Warning: lateral diffusive criteria exceeded for "am".     
              use a smaller "dtuv" and/or "am"                  
                                    at latitude -89.10,  j=  2
                                    at latitude -87.30,  j=  3
                                    at latitude  87.30,  j=100
                                    at latitude  89.10,  j=101

 ==> Warning: the full convective scheme is enabled.            
              it will ignore "ncon" and remove all instability  

 ==> Warning: "aidif" was not = 0.0  but "implicivmix" or       
              "isopycmix" is not defined, so vertical mixing    
               will be fully explicit.                          

                     E N D    C O N S I S T E N C Y    C H E C K S


  ==> Note: the atmos setup follows:

 &TSTEPS
 DTTS= 108000.000000000,DTUV= 1125.00000000000,DTSF= 1125.00000000000,DTATM=
  54000.0000000000,DTATMS= 1800.00000000000,NAMIX= 10,SEGTIM= 2.50000000000000
 /
 &CO2
 CO2CCN= 365.000000000000,CO2YRI= 1.00000000000000D+020,CO2YRF=
  1.00000000000000D+020,CO2RATE= 0.0,CO2FOR= 5770.00000000000
 /
 &PALEO
 PYEAR= 2003.00000000000
 /
 &ICE
 NIATS= 1,NIVTS= 1,DAMPICE= 5.00000000000000,TSNO= -5.00000000000000,HSNO_MAX=
  1000.00000000000
 /
 &ADV_Q
 DIFFACTOR= 50.0000000000000
 /

 ==> Time averages will be written every     365.00 days, 
     with an averaging period of             365.00 days. 
 
 CO2 concentration (versus today) =   1.04285714285714     
 Yields radiative forcing (W/m2) =   0.242133428801416     
 orbital year =    2003.0 eccentricity = 0.0166800 obliquity = 23.439935 longitude of perihelion = 283.08387
 
 ========== initializing river model ==========
 
 ==> Reading river data from file rivers.map
             34  river basins (nb)
           3614  basin points (nbp)
            865  discharge points (ndp)
 
summary:             basin name                 area (km**2)        ndp
   number  symbol                           basin      discharge
      29       1    Arctica               125808.9       377301.5   100
      30       2    Spitsbergen            76268.6       138691.2     9
      32       5    Madagascar            451511.8      1052834.3    14
      31       6    New Guinea            477514.2       795333.3    10
      33       8    New Zealand           233404.6       583223.6    10
      34       9    Antarctica          13633982.8      3097448.2   112
      11       A    Amazon               6598527.1      1252756.9    12
      24       C    Congo                7156655.5       717851.4     5
      20       E    E Africa             9351901.1      1802959.1    19
      17       G    Ganges-Indus         9168780.0      2069588.4    18
      18       K    Mekong               3524514.6       758656.8    10
      14       L    Lena                 9325023.5       688578.1    29
       5       M    Mississippi          3097607.0       209932.8     3
      22       N    Nile                 2374405.4       267777.9     4
      13       O    Ob-Yenisei           7952854.2       764524.8    25
      12       P    Parana               3344948.9      1067551.6    13
       4       S    St Lawrence          2047072.8       388179.4     2
      16       Y    Yangtze-Yellow       9325630.0      1594885.2    20
      15       a    Amur                 8597241.1      1012572.0    18
       2       b    Hudson Bay           4643925.0      1398920.4    33
      28       d    Murray-Darling       2089909.9       259034.9     4
      25       e    Europe               3243308.6      1003331.7    22
       6       f    W North Am           6909367.7      1476442.1    29
       1       g    Greenland            2569697.0       962751.3    51
       8       k    E Central Am         1064121.2      1146295.9    15
      19       l    SE Asia              2872596.0      2391283.3    30
       3       m    Mackenzie            2645132.5       398263.2    11
      23       n    Niger                9187529.2      1642137.7    17
      21       o    S Africa             2301375.3      1508348.9    21
       7       q    E North Am           1216570.1       658619.0    10
      10       r    Orinoco              2472160.1       632566.2     4
      27       t    Australia            5895197.1      2898882.9    41
       9       w    W South Am           7011760.0      3297683.5    47
      26       x    Mediterranean        2254712.6      1128796.2    18
 maxnb =           40  but minimum memory used if maxnb =           34
 maxnbp =         5000  but minimum memory used if maxnbp =         3614
 maxndp =         2000  but minimum memory used if maxndp =          865
 
 ======= end river model initialization =======
 

 Assigning interpolation method  3 to dataset #   1


 Assigning interpolation method  3 to dataset #   2


 Assigning interpolation method  3 to dataset #   3


 Assigning interpolation method  3 to dataset #   4


 Assigning interpolation method  3 to dataset #   5

 x component of windstress
 y component of windstress
 surface wind speed
 x component of advecting wind
 y component of advecting wind


 The model has been configured to run for  365.0000     days in        146 segments of   2.500000     days each.
 There will be      2 ocean time steps per segment and      4 atmosphere time steps per segment.

  The ocean "dtts" =  108000.0     seconds, and the atmosphere "dtatm" =  54000.00     seconds


  
     (checking S.B.C. setup)
     (End of S.B.C. checks) 
  
 ts=      4 d/m/y= 6/ 1/    1,h:m:s= 0: 0: 0, ke= 3.349533E-03 |dT|= 2.227167E-08 |dS|= 5.667715E-13 Tbar= 3.979811E+00 Sbar=-2.800509E-04 Tvar= 1.282006E+01 Svar= 1.974734E-12 scans= 1.122500E+02
d/m/y= 6/ 1/    1,h:m:s= 0: 0: 0 iterations = 5.525000E+01 TAbar= 7.564661E+00 QAbar= 6.803789E-03 HFbar= 4.505577E+04 SFbar=-6.271568E-08 Snow_vol= 3.300069E+17 Ocn_ice_vol= 0.000000E+00 Lnd_ice_vol= 0.000000E+00
 ts=      8 d/m/y=11/ 1/    1,h:m:s= 0: 0: 0, ke= 2.925559E-02 |dT|= 1.278310E-08 |dS|= 1.780480E-13 Tbar= 3.976316E+00 Sbar=-2.800409E-04 Tvar= 1.271512E+01 Svar= 5.903429E-12 scans= 7.225000E+01
d/m/y=11/ 1/    1,h:m:s= 0: 0: 0 iterations = 5.587500E+01 TAbar= 1.149186E+01 QAbar= 7.567664E-03 HFbar=-1.103227E+05 SFbar= 1.155559E-09 Snow_vol= 4.973787E+17 Ocn_ice_vol= 0.000000E+00 Lnd_ice_vol= 0.000000E+00
 ts=     12 d/m/y=16/ 1/    1,h:m:s= 0: 0: 0, ke= 7.988533E-02 |dT|= 1.144727E-08 |dS|= 1.209432E-13 Tbar= 3.974754E+00 Sbar=-2.800249E-04 Tvar= 1.267591E+01 Svar= 9.182396E-12 scans= 6.275000E+01
d/m/y=16/ 1/    1,h:m:s= 0: 0: 0 iterations = 5.700000E+01 TAbar= 1.251845E+01 QAbar= 8.142753E-03 HFbar=-4.628986E+03 SFbar= 2.814041E-08 Snow_vol= 7.457863E+17 Ocn_ice_vol= 0.000000E+00 Lnd_ice_vol= 0.000000E+00
 ts=     16 d/m/y=21/ 1/    1,h:m:s= 0: 0: 0, ke= 1.459338E-01 |dT|= 1.325941E-08 |dS|= 9.997845E-14 Tbar= 3.974929E+00 Sbar=-2.800033E-04 Tvar= 1.268918E+01 Svar= 1.146037E-11 scans= 6.575000E+01
d/m/y=21/ 1/    1,h:m:s= 0: 0: 0 iterations = 5.700000E+01 TAbar= 1.241453E+01 QAbar= 8.529108E-03 HFbar= 8.494571E+03 SFbar= 5.042269E-09 Snow_vol= 1.096089E+18 Ocn_ice_vol= 0.000000E+00 Lnd_ice_vol= 0.000000E+00
 ts=     20 d/m/y=26/ 1/    1,h:m:s= 0: 0: 0, ke= 2.166644E-01 |dT|= 1.443324E-08 |dS|= 9.940389E-14 Tbar= 3.976471E+00 Sbar=-2.800350E-04 Tvar= 1.273986E+01 Svar= 1.550676E-11 scans= 7.975000E+01
d/m/y=26/ 1/    1,h:m:s= 0: 0: 0 iterations = 5.700000E+01 TAbar= 1.245417E+01 QAbar= 8.568164E-03 HFbar= 1.014815E+04 SFbar= 6.060312E-09 Snow_vol= 1.526776E+18 Ocn_ice_vol= 0.000000E+00 Lnd_ice_vol= 0.000000E+00
 ts=     24 d/m/y=31/ 1/    1,h:m:s= 0: 0: 0, ke= 2.795975E-01 |dT|= 1.542505E-08 |dS|= 1.003428E-13 Tbar= 3.976798E+00 Sbar=-2.800275E-04 Tvar= 1.276311E+01 Svar= 1.743651E-11 scans= 7.875000E+01
d/m/y=31/ 1/    1,h:m:s= 0: 0: 0 iterations = 5.700000E+01 TAbar= 1.243321E+01 QAbar= 8.656022E-03 HFbar= 1.165745E+04 SFbar= 5.578840E-09 Snow_vol= 1.995974E+18 Ocn_ice_vol= 0.000000E+00 Lnd_ice_vol= 0.000000E+00
 ts=     28 d/m/y= 5/ 2/    1,h:m:s= 0: 0: 0, ke= 3.266813E-01 |dT|= 1.642291E-08 |dS|= 9.984725E-14 Tbar= 3.977160E+00 Sbar=-2.800211E-04 Tvar= 1.278905E+01 Svar= 1.966198E-11 scans= 7.675000E+01
d/m/y= 5/ 2/    1,h:m:s= 0: 0: 0 iterations = 5.700000E+01 TAbar= 1.239972E+01 QAbar= 8.702924E-03 HFbar= 1.180954E+04 SFbar= 5.062857E-09 Snow_vol= 2.490030E+18 Ocn_ice_vol= 0.000000E+00 Lnd_ice_vol= 0.000000E+00
 ts=     32 d/m/y=10/ 2/    1,h:m:s= 0: 0: 0, ke= 3.534564E-01 |dT|= 1.726002E-08 |dS|= 9.959316E-14 Tbar= 3.977511E+00 Sbar=-2.800150E-04 Tvar= 1.281609E+01 Svar= 2.205769E-11 scans= 7.675000E+01
d/m/y=10/ 2/    1,h:m:s= 0: 0: 0 iterations = 5.750000E+01 TAbar= 1.237561E+01 QAbar= 8.741325E-03 HFbar= 1.103714E+04 SFbar= 5.026783E-09 Snow_vol= 3.004935E+18 Ocn_ice_vol= 0.000000E+00 Lnd_ice_vol= 0.000000E+00
 ts=     36 d/m/y=15/ 2/    1,h:m:s= 0: 0: 0, ke= 3.616083E-01 |dT|= 1.779040E-08 |dS|= 9.946384E-14 Tbar= 3.977836E+00 Sbar=-2.800088E-04 Tvar= 1.284327E+01 Svar= 2.476834E-11 scans= 6.425000E+01
d/m/y=15/ 2/    1,h:m:s= 0: 0: 0 iterations = 5.800000E+01 TAbar= 1.236568E+01 QAbar= 8.778716E-03 HFbar= 1.005240E+04 SFbar= 5.234683E-09 Snow_vol= 3.532214E+18 Ocn_ice_vol= 0.000000E+00 Lnd_ice_vol= 0.000000E+00
 ts=     40 d/m/y=20/ 2/    1,h:m:s= 0: 0: 0, ke= 3.524666E-01 |dT|= 1.790824E-08 |dS|= 9.875054E-14 Tbar= 3.978129E+00 Sbar=-2.800025E-04 Tvar= 1.287073E+01 Svar= 2.710022E-11 scans= 7.900000E+01
d/m/y=20/ 2/    1,h:m:s= 0: 0: 0 iterations = 5.800000E+01 TAbar= 1.236651E+01 QAbar= 8.813620E-03 HFbar= 9.190735E+03 SFbar= 5.062108E-09 Snow_vol= 4.064773E+18 Ocn_ice_vol= 0.000000E+00 Lnd_ice_vol= 0.000000E+00
 ts=     44 d/m/y=25/ 2/    1,h:m:s= 0: 0: 0, ke= 3.347828E-01 |dT|= 1.768941E-08 |dS|= 9.725132E-14 Tbar= 3.978396E+00 Sbar=-2.799965E-04 Tvar= 1.289815E+01 Svar= 3.034269E-11 scans= 8.300000E+01
d/m/y=25/ 2/    1,h:m:s= 0: 0: 0 iterations = 5.800000E+01 TAbar= 1.237289E+01 QAbar= 8.841876E-03 HFbar= 8.264076E+03 SFbar= 4.837866E-09 Snow_vol= 4.593679E+18 Ocn_ice_vol= 0.000000E+00 Lnd_ice_vol= 0.000000E+00
 ts=     48 d/m/y= 2/ 3/    1,h:m:s= 0: 0: 0, ke= 3.163585E-01 |dT|= 1.735469E-08 |dS|= 9.585514E-14 Tbar= 3.978629E+00 Sbar=-2.799906E-04 Tvar= 1.292513E+01 Svar= 3.379745E-11 scans= 8.350000E+01
d/m/y= 2/ 3/    1,h:m:s= 0: 0: 0 iterations = 5.800000E+01 TAbar= 1.238671E+01 QAbar= 8.871948E-03 HFbar= 6.964812E+03 SFbar= 4.811772E-09 Snow_vol= 5.114972E+18 Ocn_ice_vol= 0.000000E+00 Lnd_ice_vol= 0.000000E+00
 ts=     52 d/m/y= 7/ 3/    1,h:m:s= 0: 0: 0, ke= 3.041050E-01 |dT|= 1.701325E-08 |dS|= 9.521425E-14 Tbar= 3.978835E+00 Sbar=-2.799847E-04 Tvar= 1.295167E+01 Svar= 3.739903E-11 scans= 6.100000E+01
d/m/y= 7/ 3/    1,h:m:s= 0: 0: 0 iterations = 5.800000E+01 TAbar= 1.241492E+01 QAbar= 8.901457E-03 HFbar= 5.328622E+03 SFbar= 4.668429E-09 Snow_vol= 5.615231E+18 Ocn_ice_vol= 0.000000E+00 Lnd_ice_vol= 0.000000E+00
 ts=     56 d/m/y=12/ 3/    1,h:m:s= 0: 0: 0, ke= 3.011408E-01 |dT|= 1.673771E-08 |dS|= 9.524596E-14 Tbar= 3.978973E+00 Sbar=-2.799791E-04 Tvar= 1.297642E+01 Svar= 4.148371E-11 scans= 7.350000E+01
d/m/y=12/ 3/    1,h:m:s= 0: 0: 0 iterations = 5.800000E+01 TAbar= 1.245680E+01 QAbar= 8.933109E-03 HFbar= 3.736293E+03 SFbar= 4.579649E-09 Snow_vol= 6.096275E+18 Ocn_ice_vol= 0.000000E+00 Lnd_ice_vol= 0.000000E+00
 ts=     60 d/m/y=17/ 3/    1,h:m:s= 0: 0: 0, ke= 3.088701E-01 |dT|= 1.652765E-08 |dS|= 9.567919E-14 Tbar= 3.979062E+00 Sbar=-2.799735E-04 Tvar= 1.299976E+01 Svar= 4.576370E-11 scans= 7.325000E+01
d/m/y=17/ 3/    1,h:m:s= 0: 0: 0 iterations = 5.800000E+01 TAbar= 1.250890E+01 QAbar= 8.965005E-03 HFbar= 2.063314E+03 SFbar= 4.411490E-09 Snow_vol= 6.562019E+18 Ocn_ice_vol= 0.000000E+00 Lnd_ice_vol= 0.000000E+00
 ts=     64 d/m/y=22/ 3/    1,h:m:s= 0: 0: 0, ke= 3.249703E-01 |dT|= 1.641439E-08 |dS|= 9.633677E-14 Tbar= 3.979108E+00 Sbar=-2.799683E-04 Tvar= 1.302158E+01 Svar= 5.013145E-11 scans= 5.450000E+01
d/m/y=22/ 3/    1,h:m:s= 0: 0: 0 iterations = 5.800000E+01 TAbar= 1.256864E+01 QAbar= 8.994025E-03 HFbar= 1.026518E+03 SFbar= 4.040234E-09 Snow_vol= 7.000508E+18 Ocn_ice_vol= 0.000000E+00 Lnd_ice_vol= 0.000000E+00
 ts=     68 d/m/y=27/ 3/    1,h:m:s= 0: 0: 0, ke= 3.453256E-01 |dT|= 1.658255E-08 |dS|= 9.719971E-14 Tbar= 3.979144E+00 Sbar=-2.799634E-04 Tvar= 1.304282E+01 Svar= 5.477917E-11 scans= 4.500000E+01
d/m/y=27/ 3/    1,h:m:s= 0: 0: 0 iterations = 5.712500E+01 TAbar= 1.263735E+01 QAbar= 9.022982E-03 HFbar=-6.972345E+01 SFbar= 3.743716E-09 Snow_vol= 7.397146E+18 Ocn_ice_vol= 0.000000E+00 Lnd_ice_vol= 0.000000E+00
 ts=     72 d/m/y= 1/ 4/    1,h:m:s= 0: 0: 0, ke= 3.642289E-01 |dT|= 1.691452E-08 |dS|= 9.819382E-14 Tbar= 3.979122E+00 Sbar=-2.799590E-04 Tvar= 1.306132E+01 Svar= 5.958976E-11 scans= 3.900000E+01
d/m/y= 1/ 4/    1,h:m:s= 0: 0: 0 iterations = 5.700000E+01 TAbar= 1.272309E+01 QAbar= 9.052377E-03 HFbar=-1.230454E+03 SFbar= 3.642515E-09 Snow_vol= 7.759313E+18 Ocn_ice_vol= 0.000000E+00 Lnd_ice_vol= 0.000000E+00
 ts=     76 d/m/y= 6/ 4/    1,h:m:s= 0: 0: 0, ke= 3.780813E-01 |dT|= 1.732087E-08 |dS|= 1.003790E-13 Tbar= 3.979064E+00 Sbar=-2.799548E-04 Tvar= 1.307787E+01 Svar= 6.461442E-11 scans= 3.900000E+01
d/m/y= 6/ 4/    1,h:m:s= 0: 0: 0 iterations = 5.700000E+01 TAbar= 1.282460E+01 QAbar= 9.085695E-03 HFbar=-2.574904E+03 SFbar= 3.010671E-09 Snow_vol= 8.062771E+18 Ocn_ice_vol= 0.000000E+00 Lnd_ice_vol= 0.000000E+00
 ts=     80 d/m/y=11/ 4/    1,h:m:s= 0: 0: 0, ke= 3.847995E-01 |dT|= 1.770958E-08 |dS|= 1.032982E-13 Tbar= 3.978965E+00 Sbar=-2.799515E-04 Tvar= 1.309220E+01 Svar= 6.995362E-11 scans= 3.925000E+01
d/m/y=11/ 4/    1,h:m:s= 0: 0: 0 iterations = 5.700000E+01 TAbar= 1.294773E+01 QAbar= 9.123588E-03 HFbar=-3.975096E+03 SFbar= 2.240274E-09 Snow_vol= 8.260355E+18 Ocn_ice_vol= 0.000000E+00 Lnd_ice_vol= 0.000000E+00
 ts=     84 d/m/y=16/ 4/    1,h:m:s= 0: 0: 0, ke= 3.853721E-01 |dT|= 1.807485E-08 |dS|= 1.073323E-13 Tbar= 3.978846E+00 Sbar=-2.799489E-04 Tvar= 1.310555E+01 Svar= 7.571615E-11 scans= 6.225000E+01
d/m/y=16/ 4/    1,h:m:s= 0: 0: 0 iterations = 5.700000E+01 TAbar= 1.308720E+01 QAbar= 9.169713E-03 HFbar=-5.087023E+03 SFbar= 1.407731E-09 Snow_vol= 8.320243E+18 Ocn_ice_vol= 0.000000E+00 Lnd_ice_vol= 0.000000E+00
 ts=     88 d/m/y=21/ 4/    1,h:m:s= 0: 0: 0, ke= 3.800261E-01 |dT|= 1.843526E-08 |dS|= 1.100822E-13 Tbar= 3.978672E+00 Sbar=-2.799478E-04 Tvar= 1.311550E+01 Svar= 8.220383E-11 scans= 4.275000E+01
d/m/y=21/ 4/    1,h:m:s= 0: 0: 0 iterations = 5.700000E+01 TAbar= 1.324730E+01 QAbar= 9.218408E-03 HFbar=-6.268170E+03 SFbar= 4.371281E-10 Snow_vol= 8.242496E+18 Ocn_ice_vol= 0.000000E+00 Lnd_ice_vol= 0.000000E+00
 ts=     92 d/m/y=26/ 4/    1,h:m:s= 0: 0: 0, ke= 3.729474E-01 |dT|= 1.892482E-08 |dS|= 1.129142E-13 Tbar= 3.978464E+00 Sbar=-2.799477E-04 Tvar= 1.312342E+01 Svar= 8.928261E-11 scans= 4.250000E+01
d/m/y=26/ 4/    1,h:m:s= 0: 0: 0 iterations = 5.700000E+01 TAbar= 1.341772E+01 QAbar= 9.268694E-03 HFbar=-7.262939E+03 SFbar= 4.151327E-11 Snow_vol= 8.069480E+18 Ocn_ice_vol= 5.116868E+13 Lnd_ice_vol= 0.000000E+00
 ts=     96 d/m/y= 1/ 5/    1,h:m:s= 0: 0: 0, ke= 3.672528E-01 |dT|= 1.957588E-08 |dS|= 1.133216E-13 Tbar= 3.978223E+00 Sbar=-2.799478E-04 Tvar= 1.312933E+01 Svar= 9.691411E-11 scans= 4.050000E+01
d/m/y= 1/ 5/    1,h:m:s= 0: 0: 0 iterations = 5.700000E+01 TAbar= 1.359638E+01 QAbar= 9.324397E-03 HFbar=-8.587829E+03 SFbar=-1.405788E-10 Snow_vol= 7.864650E+18 Ocn_ice_vol= 5.247619E+14 Lnd_ice_vol= 0.000000E+00
 ts=    100 d/m/y= 6/ 5/    1,h:m:s= 0: 0: 0, ke= 3.655438E-01 |dT|= 2.032997E-08 |dS|= 1.136749E-13 Tbar= 3.977963E+00 Sbar=-2.799478E-04 Tvar= 1.313460E+01 Svar= 1.047332E-10 scans= 4.025000E+01
d/m/y= 6/ 5/    1,h:m:s= 0: 0: 0 iterations = 5.700000E+01 TAbar= 1.378637E+01 QAbar= 9.380345E-03 HFbar=-9.713625E+03 SFbar=-6.123216E-10 Snow_vol= 7.618562E+18 Ocn_ice_vol= 1.569472E+15 Lnd_ice_vol= 0.000000E+00
 ts=    104 d/m/y=11/ 5/    1,h:m:s= 0: 0: 0, ke= 3.678978E-01 |dT|= 2.106748E-08 |dS|= 1.107439E-13 Tbar= 3.977658E+00 Sbar=-2.799479E-04 Tvar= 1.313702E+01 Svar= 1.125937E-10 scans= 4.700000E+01
d/m/y=11/ 5/    1,h:m:s= 0: 0: 0 iterations = 5.650000E+01 TAbar= 1.397562E+01 QAbar= 9.440560E-03 HFbar=-1.034295E+04 SFbar= 4.230102E-10 Snow_vol= 7.418547E+18 Ocn_ice_vol= 1.753525E+14 Lnd_ice_vol= 0.000000E+00
 ts=    108 d/m/y=16/ 5/    1,h:m:s= 0: 0: 0, ke= 3.745190E-01 |dT|= 2.188265E-08 |dS|= 1.080117E-13 Tbar= 3.977332E+00 Sbar=-2.799464E-04 Tvar= 1.313825E+01 Svar= 1.193268E-10 scans= 4.900000E+01
d/m/y=16/ 5/    1,h:m:s= 0: 0: 0 iterations = 5.475000E+01 TAbar= 1.417095E+01 QAbar= 9.499519E-03 HFbar=-1.110090E+04 SFbar= 1.737965E-09 Snow_vol= 7.404683E+18 Ocn_ice_vol= 0.000000E+00 Lnd_ice_vol= 0.000000E+00
 ts=    112 d/m/y=21/ 5/    1,h:m:s= 0: 0: 0, ke= 3.840058E-01 |dT|= 2.263860E-08 |dS|= 1.079129E-13 Tbar= 3.976986E+00 Sbar=-2.799439E-04 Tvar= 1.313846E+01 Svar= 1.249411E-10 scans= 6.025000E+01
d/m/y=21/ 5/    1,h:m:s= 0: 0: 0 iterations = 5.400000E+01 TAbar= 1.436335E+01 QAbar= 9.558911E-03 HFbar=-1.161432E+04 SFbar= 2.578332E-09 Snow_vol= 7.487817E+18 Ocn_ice_vol= 0.000000E+00 Lnd_ice_vol= 0.000000E+00
 ts=    116 d/m/y=26/ 5/    1,h:m:s= 0: 0: 0, ke= 3.947102E-01 |dT|= 2.341943E-08 |dS|= 1.087926E-13 Tbar= 3.976633E+00 Sbar=-2.799410E-04 Tvar= 1.313884E+01 Svar= 1.305426E-10 scans= 4.825000E+01
d/m/y=26/ 5/    1,h:m:s= 0: 0: 0 iterations = 5.325000E+01 TAbar= 1.454164E+01 QAbar= 9.618122E-03 HFbar=-1.235488E+04 SFbar= 2.755149E-09 Snow_vol= 7.640639E+18 Ocn_ice_vol= 0.000000E+00 Lnd_ice_vol= 0.000000E+00
 ts=    120 d/m/y=31/ 5/    1,h:m:s= 0: 0: 0, ke= 4.043351E-01 |dT|= 2.398565E-08 |dS|= 1.100173E-13 Tbar= 3.976247E+00 Sbar=-2.799377E-04 Tvar= 1.313764E+01 Svar= 1.356732E-10 scans= 6.950000E+01
d/m/y=31/ 5/    1,h:m:s= 0: 0: 0 iterations = 5.312500E+01 TAbar= 1.470832E+01 QAbar= 9.674364E-03 HFbar=-1.297296E+04 SFbar= 2.511596E-09 Snow_vol= 7.784687E+18 Ocn_ice_vol= 0.000000E+00 Lnd_ice_vol= 0.000000E+00
 ts=    124 d/m/y= 5/ 6/    1,h:m:s= 0: 0: 0, ke= 4.119293E-01 |dT|= 2.426826E-08 |dS|= 1.130865E-13 Tbar= 3.975847E+00 Sbar=-2.799346E-04 Tvar= 1.313629E+01 Svar= 1.413768E-10 scans= 7.000000E+01
d/m/y= 5/ 6/    1,h:m:s= 0: 0: 0 iterations = 5.262500E+01 TAbar= 1.485780E+01 QAbar= 9.732742E-03 HFbar=-1.340063E+04 SFbar= 2.406371E-09 Snow_vol= 7.905221E+18 Ocn_ice_vol= 0.000000E+00 Lnd_ice_vol= 0.000000E+00
 ts=    128 d/m/y=10/ 6/    1,h:m:s= 0: 0: 0, ke= 4.171884E-01 |dT|= 2.436316E-08 |dS|= 1.162645E-13 Tbar= 3.975431E+00 Sbar=-2.799320E-04 Tvar= 1.313502E+01 Svar= 1.470922E-10 scans= 7.000000E+01
d/m/y=10/ 6/    1,h:m:s= 0: 0: 0 iterations = 5.162500E+01 TAbar= 1.499910E+01 QAbar= 9.788692E-03 HFbar=-1.390987E+04 SFbar= 1.926241E-09 Snow_vol= 7.969886E+18 Ocn_ice_vol= 0.000000E+00 Lnd_ice_vol= 0.000000E+00
 ts=    132 d/m/y=15/ 6/    1,h:m:s= 0: 0: 0, ke= 4.210222E-01 |dT|= 2.422509E-08 |dS|= 1.184161E-13 Tbar= 3.975012E+00 Sbar=-2.799294E-04 Tvar= 1.313464E+01 Svar= 1.531537E-10 scans= 5.425000E+01
d/m/y=15/ 6/    1,h:m:s= 0: 0: 0 iterations = 5.100000E+01 TAbar= 1.513166E+01 QAbar= 9.844976E-03 HFbar=-1.414555E+04 SFbar= 2.283208E-09 Snow_vol= 8.048895E+18 Ocn_ice_vol= 0.000000E+00 Lnd_ice_vol= 0.000000E+00
 ts=    136 d/m/y=20/ 6/    1,h:m:s= 0: 0: 0, ke= 4.240375E-01 |dT|= 2.389885E-08 |dS|= 1.202712E-13 Tbar= 3.974580E+00 Sbar=-2.799268E-04 Tvar= 1.313441E+01 Svar= 1.598526E-10 scans= 6.225000E+01
d/m/y=20/ 6/    1,h:m:s= 0: 0: 0 iterations = 5.112500E+01 TAbar= 1.525181E+01 QAbar= 9.901485E-03 HFbar=-1.414206E+04 SFbar= 2.026879E-09 Snow_vol= 8.119365E+18 Ocn_ice_vol= 0.000000E+00 Lnd_ice_vol= 0.000000E+00
 ts=    140 d/m/y=25/ 6/    1,h:m:s= 0: 0: 0, ke= 4.278250E-01 |dT|= 2.355755E-08 |dS|= 1.192393E-13 Tbar= 3.974153E+00 Sbar=-2.799242E-04 Tvar= 1.313533E+01 Svar= 1.669240E-10 scans= 7.050000E+01
d/m/y=25/ 6/    1,h:m:s= 0: 0: 0 iterations = 5.112500E+01 TAbar= 1.535511E+01 QAbar= 9.954013E-03 HFbar=-1.401317E+04 SFbar= 2.219296E-09 Snow_vol= 8.221411E+18 Ocn_ice_vol= 0.000000E+00 Lnd_ice_vol= 0.000000E+00
 ts=    144 d/m/y=30/ 6/    1,h:m:s= 0: 0: 0, ke= 4.334210E-01 |dT|= 2.333600E-08 |dS|= 1.198466E-13 Tbar= 3.973730E+00 Sbar=-2.799211E-04 Tvar= 1.313747E+01 Svar= 1.737493E-10 scans= 6.750000E+01
d/m/y=30/ 6/    1,h:m:s= 0: 0: 0 iterations = 5.112500E+01 TAbar= 1.544009E+01 QAbar= 1.001057E-02 HFbar=-1.383258E+04 SFbar= 2.734050E-09 Snow_vol= 8.360017E+18 Ocn_ice_vol= 0.000000E+00 Lnd_ice_vol= 0.000000E+00
 ts=    148 d/m/y= 5/ 7/    1,h:m:s= 0: 0: 0, ke= 4.417751E-01 |dT|= 2.361424E-08 |dS|= 1.194813E-13 Tbar= 3.973310E+00 Sbar=-2.799177E-04 Tvar= 1.314093E+01 Svar= 1.804975E-10 scans= 5.625000E+01
d/m/y= 5/ 7/    1,h:m:s= 0: 0: 0 iterations = 5.112500E+01 TAbar= 1.551456E+01 QAbar= 1.006615E-02 HFbar=-1.361743E+04 SFbar= 3.097075E-09 Snow_vol= 8.551911E+18 Ocn_ice_vol= 4.233567E+13 Lnd_ice_vol= 0.000000E+00
 ts=    152 d/m/y=10/ 7/    1,h:m:s= 0: 0: 0, ke= 4.521558E-01 |dT|= 2.411246E-08 |dS|= 1.203067E-13 Tbar= 3.972904E+00 Sbar=-2.799138E-04 Tvar= 1.314575E+01 Svar= 1.870183E-10 scans= 6.975000E+01
d/m/y=10/ 7/    1,h:m:s= 0: 0: 0 iterations = 5.137500E+01 TAbar= 1.557623E+01 QAbar= 1.012122E-02 HFbar=-1.311020E+04 SFbar= 3.460465E-09 Snow_vol= 8.780954E+18 Ocn_ice_vol= 2.642735E+14 Lnd_ice_vol= 0.000000E+00
 ts=    156 d/m/y=15/ 7/    1,h:m:s= 0: 0: 0, ke= 4.644415E-01 |dT|= 2.456866E-08 |dS|= 1.218074E-13 Tbar= 3.972514E+00 Sbar=-2.799096E-04 Tvar= 1.315212E+01 Svar= 1.937648E-10 scans= 6.150000E+01
d/m/y=15/ 7/    1,h:m:s= 0: 0: 0 iterations = 5.137500E+01 TAbar= 1.562311E+01 QAbar= 1.017686E-02 HFbar=-1.248735E+04 SFbar= 3.417148E-09 Snow_vol= 9.024819E+18 Ocn_ice_vol= 6.361818E+14 Lnd_ice_vol= 0.000000E+00
 ts=    160 d/m/y=20/ 7/    1,h:m:s= 0: 0: 0, ke= 4.776817E-01 |dT|= 2.482283E-08 |dS|= 1.233290E-13 Tbar= 3.972147E+00 Sbar=-2.799055E-04 Tvar= 1.316010E+01 Svar= 2.007055E-10 scans= 4.850000E+01
d/m/y=20/ 7/    1,h:m:s= 0: 0: 0 iterations = 5.162500E+01 TAbar= 1.565876E+01 QAbar= 1.022863E-02 HFbar=-1.159148E+04 SFbar= 3.183793E-09 Snow_vol= 9.269207E+18 Ocn_ice_vol= 1.682542E+15 Lnd_ice_vol= 0.000000E+00
 ts=    164 d/m/y=25/ 7/    1,h:m:s= 0: 0: 0, ke= 4.910198E-01 |dT|= 2.478546E-08 |dS|= 1.246767E-13 Tbar= 3.971805E+00 Sbar=-2.799016E-04 Tvar= 1.316970E+01 Svar= 2.077554E-10 scans= 5.600000E+01
d/m/y=25/ 7/    1,h:m:s= 0: 0: 0 iterations = 5.250000E+01 TAbar= 1.567788E+01 QAbar= 1.027394E-02 HFbar=-1.012451E+04 SFbar= 3.180818E-09 Snow_vol= 9.515109E+18 Ocn_ice_vol= 4.017711E+15 Lnd_ice_vol= 0.000000E+00
 ts=    168 d/m/y=30/ 7/    1,h:m:s= 0: 0: 0, ke= 5.026160E-01 |dT|= 2.442169E-08 |dS|= 1.260031E-13 Tbar= 3.971519E+00 Sbar=-2.798978E-04 Tvar= 1.318155E+01 Svar= 2.147214E-10 scans= 7.525000E+01
d/m/y=30/ 7/    1,h:m:s= 0: 0: 0 iterations = 5.250000E+01 TAbar= 1.568458E+01 QAbar= 1.031424E-02 HFbar=-8.723440E+03 SFbar= 3.064961E-09 Snow_vol= 9.765501E+18 Ocn_ice_vol= 6.378572E+15 Lnd_ice_vol= 0.000000E+00
 ts=    172 d/m/y= 4/ 8/    1,h:m:s= 0: 0: 0, ke= 5.126711E-01 |dT|= 2.378767E-08 |dS|= 1.278209E-13 Tbar= 3.971278E+00 Sbar=-2.798942E-04 Tvar= 1.319520E+01 Svar= 2.218273E-10 scans= 7.575000E+01
d/m/y= 4/ 8/    1,h:m:s= 0: 0: 0 iterations = 5.300000E+01 TAbar= 1.568071E+01 QAbar= 1.034865E-02 HFbar=-7.215973E+03 SFbar= 3.059537E-09 Snow_vol= 1.001722E+19 Ocn_ice_vol= 9.312297E+15 Lnd_ice_vol= 0.000000E+00
 ts=    176 d/m/y= 9/ 8/    1,h:m:s= 0: 0: 0, ke= 5.214413E-01 |dT|= 2.292832E-08 |dS|= 1.299694E-13 Tbar= 3.971083E+00 Sbar=-2.798905E-04 Tvar= 1.321058E+01 Svar= 2.292920E-10 scans= 6.750000E+01
d/m/y= 9/ 8/    1,h:m:s= 0: 0: 0 iterations = 5.312500E+01 TAbar= 1.566589E+01 QAbar= 1.038021E-02 HFbar=-5.603660E+03 SFbar= 3.022158E-09 Snow_vol= 1.027724E+19 Ocn_ice_vol= 1.393291E+16 Lnd_ice_vol= 0.000000E+00
 ts=    180 d/m/y=14/ 8/    1,h:m:s= 0: 0: 0, ke= 5.300039E-01 |dT|= 2.197682E-08 |dS|= 1.323589E-13 Tbar= 3.970914E+00 Sbar=-2.798868E-04 Tvar= 1.322705E+01 Svar= 2.369407E-10 scans= 6.625000E+01
d/m/y=14/ 8/    1,h:m:s= 0: 0: 0 iterations = 5.400000E+01 TAbar= 1.564146E+01 QAbar= 1.040631E-02 HFbar=-3.969258E+03 SFbar= 2.791281E-09 Snow_vol= 1.054257E+19 Ocn_ice_vol= 2.097623E+16 Lnd_ice_vol= 0.000000E+00
 ts=    184 d/m/y=19/ 8/    1,h:m:s= 0: 0: 0, ke= 5.381218E-01 |dT|= 2.103449E-08 |dS|= 1.354367E-13 Tbar= 3.970820E+00 Sbar=-2.798832E-04 Tvar= 1.324557E+01 Svar= 2.450950E-10 scans= 7.150000E+01
d/m/y=19/ 8/    1,h:m:s= 0: 0: 0 iterations = 5.387500E+01 TAbar= 1.560452E+01 QAbar= 1.042644E-02 HFbar=-2.262032E+03 SFbar= 2.983130E-09 Snow_vol= 1.081475E+19 Ocn_ice_vol= 3.370045E+16 Lnd_ice_vol= 0.000000E+00
 ts=    188 d/m/y=24/ 8/    1,h:m:s= 0: 0: 0, ke= 5.466344E-01 |dT|= 2.038444E-08 |dS|= 1.359328E-13 Tbar= 3.970780E+00 Sbar=-2.798799E-04 Tvar= 1.326550E+01 Svar= 2.536668E-10 scans= 3.225000E+01
d/m/y=24/ 8/    1,h:m:s= 0: 0: 0 iterations = 5.437500E+01 TAbar= 1.554683E+01 QAbar= 1.043575E-02 HFbar=-4.506453E+02 SFbar= 2.529695E-09 Snow_vol= 1.108872E+19 Ocn_ice_vol= 4.511985E+16 Lnd_ice_vol= 0.000000E+00
 ts=    192 d/m/y=29/ 8/    1,h:m:s= 0: 0: 0, ke= 5.553145E-01 |dT|= 2.017822E-08 |dS|= 1.358093E-13 Tbar= 3.970791E+00 Sbar=-2.798771E-04 Tvar= 1.328656E+01 Svar= 2.626785E-10 scans= 5.575000E+01
d/m/y=29/ 8/    1,h:m:s= 0: 0: 0 iterations = 5.462500E+01 TAbar= 1.547201E+01 QAbar= 1.043174E-02 HFbar= 1.077019E+03 SFbar= 2.241180E-09 Snow_vol= 1.136255E+19 Ocn_ice_vol= 5.488786E+16 Lnd_ice_vol= 0.000000E+00
 ts=    196 d/m/y= 3/ 9/    1,h:m:s= 0: 0: 0, ke= 5.640684E-01 |dT|= 2.044285E-08 |dS|= 1.350547E-13 Tbar= 3.970821E+00 Sbar=-2.798744E-04 Tvar= 1.330797E+01 Svar= 2.718537E-10 scans= 3.350000E+01
d/m/y= 3/ 9/    1,h:m:s= 0: 0: 0 iterations = 5.587500E+01 TAbar= 1.538200E+01 QAbar= 1.042119E-02 HFbar= 2.583237E+03 SFbar= 2.042822E-09 Snow_vol= 1.163761E+19 Ocn_ice_vol= 6.465783E+16 Lnd_ice_vol= 0.000000E+00
 ts=    200 d/m/y= 8/ 9/    1,h:m:s= 0: 0: 0, ke= 5.711926E-01 |dT|= 2.080373E-08 |dS|= 1.350416E-13 Tbar= 3.970921E+00 Sbar=-2.798721E-04 Tvar= 1.333032E+01 Svar= 2.814374E-10 scans= 5.725000E+01
d/m/y= 8/ 9/    1,h:m:s= 0: 0: 0 iterations = 5.612500E+01 TAbar= 1.528304E+01 QAbar= 1.040087E-02 HFbar= 3.974056E+03 SFbar= 1.608383E-09 Snow_vol= 1.191132E+19 Ocn_ice_vol= 7.533034E+16 Lnd_ice_vol= 0.000000E+00
 ts=    204 d/m/y=13/ 9/    1,h:m:s= 0: 0: 0, ke= 5.764300E-01 |dT|= 2.095006E-08 |dS|= 1.340216E-13 Tbar= 3.971061E+00 Sbar=-2.798702E-04 Tvar= 1.335296E+01 Svar= 2.912873E-10 scans= 4.900000E+01
d/m/y=13/ 9/    1,h:m:s= 0: 0: 0 iterations = 5.687500E+01 TAbar= 1.517670E+01 QAbar= 1.037331E-02 HFbar= 5.264004E+03 SFbar= 1.596772E-09 Snow_vol= 1.218399E+19 Ocn_ice_vol= 8.313449E+16 Lnd_ice_vol= 0.000000E+00
 ts=    208 d/m/y=18/ 9/    1,h:m:s= 0: 0: 0, ke= 5.794363E-01 |dT|= 2.073108E-08 |dS|= 1.333540E-13 Tbar= 3.971243E+00 Sbar=-2.798685E-04 Tvar= 1.337571E+01 Svar= 3.011733E-10 scans= 4.100000E+01
d/m/y=18/ 9/    1,h:m:s= 0: 0: 0 iterations = 5.662500E+01 TAbar= 1.506337E+01 QAbar= 1.033889E-02 HFbar= 6.617559E+03 SFbar= 1.319851E-09 Snow_vol= 1.245689E+19 Ocn_ice_vol= 9.184458E+16 Lnd_ice_vol= 0.000000E+00
 ts=    212 d/m/y=23/ 9/    1,h:m:s= 0: 0: 0, ke= 5.807252E-01 |dT|= 2.025491E-08 |dS|= 1.323186E-13 Tbar= 3.971444E+00 Sbar=-2.798671E-04 Tvar= 1.339831E+01 Svar= 3.114312E-10 scans= 6.700000E+01
d/m/y=23/ 9/    1,h:m:s= 0: 0: 0 iterations = 5.687500E+01 TAbar= 1.494085E+01 QAbar= 1.029576E-02 HFbar= 7.839665E+03 SFbar= 9.446166E-10 Snow_vol= 1.272938E+19 Ocn_ice_vol= 9.114345E+16 Lnd_ice_vol= 0.000000E+00
 ts=    216 d/m/y=28/ 9/    1,h:m:s= 0: 0: 0, ke= 5.801621E-01 |dT|= 1.959639E-08 |dS|= 1.313720E-13 Tbar= 3.971701E+00 Sbar=-2.798659E-04 Tvar= 1.342047E+01 Svar= 3.218447E-10 scans= 6.675000E+01
d/m/y=28/ 9/    1,h:m:s= 0: 0: 0 iterations = 5.700000E+01 TAbar= 1.480771E+01 QAbar= 1.024796E-02 HFbar= 9.066533E+03 SFbar= 1.003046E-09 Snow_vol= 1.300997E+19 Ocn_ice_vol= 9.513512E+16 Lnd_ice_vol= 0.000000E+00
 ts=    220 d/m/y= 3/10/    1,h:m:s= 0: 0: 0, ke= 5.793619E-01 |dT|= 1.908503E-08 |dS|= 1.319553E-13 Tbar= 3.971993E+00 Sbar=-2.798647E-04 Tvar= 1.344211E+01 Svar= 3.322113E-10 scans= 6.525000E+01
d/m/y= 3/10/    1,h:m:s= 0: 0: 0 iterations = 5.700000E+01 TAbar= 1.466799E+01 QAbar= 1.019281E-02 HFbar= 1.020254E+04 SFbar= 8.236437E-10 Snow_vol= 1.330271E+19 Ocn_ice_vol= 1.000101E+17 Lnd_ice_vol= 0.000000E+00
 ts=    224 d/m/y= 8/10/    1,h:m:s= 0: 0: 0, ke= 5.794517E-01 |dT|= 1.889953E-08 |dS|= 1.323568E-13 Tbar= 3.972319E+00 Sbar=-2.798637E-04 Tvar= 1.346320E+01 Svar= 3.424110E-10 scans= 5.250000E+01
d/m/y= 8/10/    1,h:m:s= 0: 0: 0 iterations = 5.700000E+01 TAbar= 1.452312E+01 QAbar= 1.013335E-02 HFbar= 1.120970E+04 SFbar= 9.811382E-10 Snow_vol= 1.361230E+19 Ocn_ice_vol= 1.057811E+17 Lnd_ice_vol= 0.000000E+00
 ts=    228 d/m/y=13/10/    1,h:m:s= 0: 0: 0, ke= 5.813127E-01 |dT|= 1.930366E-08 |dS|= 1.340652E-13 Tbar= 3.972661E+00 Sbar=-2.798625E-04 Tvar= 1.348412E+01 Svar= 3.525766E-10 scans= 4.275000E+01
d/m/y=13/10/    1,h:m:s= 0: 0: 0 iterations = 5.700000E+01 TAbar= 1.437216E+01 QAbar= 1.007031E-02 HFbar= 1.233322E+04 SFbar= 9.913298E-10 Snow_vol= 1.393023E+19 Ocn_ice_vol= 1.148687E+17 Lnd_ice_vol= 0.000000E+00
 ts=    232 d/m/y=18/10/    1,h:m:s= 0: 0: 0, ke= 5.843049E-01 |dT|= 2.008658E-08 |dS|= 1.355793E-13 Tbar= 3.973051E+00 Sbar=-2.798614E-04 Tvar= 1.350395E+01 Svar= 3.625855E-10 scans= 5.625000E+01
d/m/y=18/10/    1,h:m:s= 0: 0: 0 iterations = 5.687500E+01 TAbar= 1.422046E+01 QAbar= 1.000435E-02 HFbar= 1.319169E+04 SFbar= 1.060979E-09 Snow_vol= 1.425868E+19 Ocn_ice_vol= 1.236339E+17 Lnd_ice_vol= 0.000000E+00
 ts=    236 d/m/y=23/10/    1,h:m:s= 0: 0: 0, ke= 5.879192E-01 |dT|= 2.083303E-08 |dS|= 1.364015E-13 Tbar= 3.973463E+00 Sbar=-2.798602E-04 Tvar= 1.352299E+01 Svar= 3.723444E-10 scans= 8.375000E+01
d/m/y=23/10/    1,h:m:s= 0: 0: 0 iterations = 5.700000E+01 TAbar= 1.406258E+01 QAbar= 9.938787E-03 HFbar= 1.392635E+04 SFbar= 8.481492E-10 Snow_vol= 1.460534E+19 Ocn_ice_vol= 1.220067E+17 Lnd_ice_vol= 0.000000E+00
 ts=    240 d/m/y=28/10/    1,h:m:s= 0: 0: 0, ke= 5.909544E-01 |dT|= 2.133809E-08 |dS|= 1.361824E-13 Tbar= 3.973888E+00 Sbar=-2.798589E-04 Tvar= 1.354097E+01 Svar= 3.819645E-10 scans= 8.425000E+01
d/m/y=28/10/    1,h:m:s= 0: 0: 0 iterations = 5.700000E+01 TAbar= 1.390153E+01 QAbar= 9.874472E-03 HFbar= 1.396543E+04 SFbar= 1.164261E-09 Snow_vol= 1.497511E+19 Ocn_ice_vol= 1.214839E+17 Lnd_ice_vol= 0.000000E+00
 ts=    244 d/m/y= 2/11/    1,h:m:s= 0: 0: 0, ke= 5.927903E-01 |dT|= 2.151558E-08 |dS|= 1.359022E-13 Tbar= 3.974301E+00 Sbar=-2.798572E-04 Tvar= 1.355835E+01 Svar= 3.913901E-10 scans= 8.050000E+01
d/m/y= 2/11/    1,h:m:s= 0: 0: 0 iterations = 5.700000E+01 TAbar= 1.374696E+01 QAbar= 9.817209E-03 HFbar= 1.358531E+04 SFbar= 1.748528E-09 Snow_vol= 1.537872E+19 Ocn_ice_vol= 1.211154E+17 Lnd_ice_vol= 0.000000E+00
 ts=    248 d/m/y= 7/11/    1,h:m:s= 0: 0: 0, ke= 5.928441E-01 |dT|= 2.130974E-08 |dS|= 1.367660E-13 Tbar= 3.974707E+00 Sbar=-2.798548E-04 Tvar= 1.357336E+01 Svar= 4.002510E-10 scans= 8.450000E+01
d/m/y= 7/11/    1,h:m:s= 0: 0: 0 iterations = 5.700000E+01 TAbar= 1.360078E+01 QAbar= 9.766809E-03 HFbar= 1.314890E+04 SFbar= 2.230374E-09 Snow_vol= 1.581579E+19 Ocn_ice_vol= 1.221508E+17 Lnd_ice_vol= 0.000000E+00
 ts=    252 d/m/y=12/11/    1,h:m:s= 0: 0: 0, ke= 5.920457E-01 |dT|= 2.083981E-08 |dS|= 1.382569E-13 Tbar= 3.975100E+00 Sbar=-2.798520E-04 Tvar= 1.358713E+01 Svar= 4.087559E-10 scans= 8.450000E+01
d/m/y=12/11/    1,h:m:s= 0: 0: 0 iterations = 5.700000E+01 TAbar= 1.346307E+01 QAbar= 9.719632E-03 HFbar= 1.265896E+04 SFbar= 2.474112E-09 Snow_vol= 1.627734E+19 Ocn_ice_vol= 1.236276E+17 Lnd_ice_vol= 0.000000E+00
 ts=    256 d/m/y=17/11/    1,h:m:s= 0: 0: 0, ke= 5.915825E-01 |dT|= 2.055974E-08 |dS|= 1.406486E-13 Tbar= 3.975477E+00 Sbar=-2.798488E-04 Tvar= 1.359987E+01 Svar= 4.168626E-10 scans= 8.350000E+01
d/m/y=17/11/    1,h:m:s= 0: 0: 0 iterations = 5.700000E+01 TAbar= 1.333127E+01 QAbar= 9.677765E-03 HFbar= 1.219786E+04 SFbar= 2.818784E-09 Snow_vol= 1.675949E+19 Ocn_ice_vol= 1.283448E+17 Lnd_ice_vol= 0.000000E+00
 ts=    260 d/m/y=22/11/    1,h:m:s= 0: 0: 0, ke= 5.926495E-01 |dT|= 2.087713E-08 |dS|= 1.431113E-13 Tbar= 3.975852E+00 Sbar=-2.798454E-04 Tvar= 1.361294E+01 Svar= 4.247853E-10 scans= 8.900000E+01
d/m/y=22/11/    1,h:m:s= 0: 0: 0 iterations = 5.700000E+01 TAbar= 1.320556E+01 QAbar= 9.637392E-03 HFbar= 1.212326E+04 SFbar= 2.796685E-09 Snow_vol= 1.725687E+19 Ocn_ice_vol= 1.325649E+17 Lnd_ice_vol= 0.000000E+00
 ts=    264 d/m/y=27/11/    1,h:m:s= 0: 0: 0, ke= 5.957404E-01 |dT|= 2.158817E-08 |dS|= 1.457809E-13 Tbar= 3.976216E+00 Sbar=-2.798417E-04 Tvar= 1.362460E+01 Svar= 4.317740E-10 scans= 1.010000E+02
d/m/y=27/11/    1,h:m:s= 0: 0: 0 iterations = 5.700000E+01 TAbar= 1.308764E+01 QAbar= 9.603958E-03 HFbar= 1.183368E+04 SFbar= 3.214087E-09 Snow_vol= 1.776539E+19 Ocn_ice_vol= 1.342319E+17 Lnd_ice_vol= 0.000000E+00
 ts=    268 d/m/y= 2/12/    1,h:m:s= 0: 0: 0, ke= 6.008714E-01 |dT|= 2.232074E-08 |dS|= 1.479748E-13 Tbar= 3.976570E+00 Sbar=-2.798377E-04 Tvar= 1.363585E+01 Svar= 4.378356E-10 scans= 9.925000E+01
d/m/y= 2/12/    1,h:m:s= 0: 0: 0 iterations = 5.700000E+01 TAbar= 1.298259E+01 QAbar= 9.578891E-03 HFbar= 1.139348E+04 SFbar= 3.450044E-09 Snow_vol= 1.828475E+19 Ocn_ice_vol= 1.355189E+17 Lnd_ice_vol= 0.000000E+00
 ts=    272 d/m/y= 7/12/    1,h:m:s= 0: 0: 0, ke= 6.075454E-01 |dT|= 2.271034E-08 |dS|= 1.512492E-13 Tbar= 3.976910E+00 Sbar=-2.798334E-04 Tvar= 1.364691E+01 Svar= 4.439921E-10 scans= 9.025000E+01
d/m/y= 7/12/    1,h:m:s= 0: 0: 0 iterations = 5.700000E+01 TAbar= 1.289233E+01 QAbar= 9.560059E-03 HFbar= 1.093682E+04 SFbar= 3.535461E-09 Snow_vol= 1.880561E+19 Ocn_ice_vol= 1.327044E+17 Lnd_ice_vol= 0.000000E+00
 ts=    276 d/m/y=12/12/    1,h:m:s= 0: 0: 0, ke= 6.152100E-01 |dT|= 2.273810E-08 |dS|= 1.552570E-13 Tbar= 3.977242E+00 Sbar=-2.798290E-04 Tvar= 1.365877E+01 Svar= 4.494491E-10 scans= 8.750000E+01
d/m/y=12/12/    1,h:m:s= 0: 0: 0 iterations = 5.700000E+01 TAbar= 1.281562E+01 QAbar= 9.548806E-03 HFbar= 1.060090E+04 SFbar= 3.936059E-09 Snow_vol= 1.933115E+19 Ocn_ice_vol= 1.327010E+17 Lnd_ice_vol= 0.000000E+00
 ts=    280 d/m/y=17/12/    1,h:m:s= 0: 0: 0, ke= 6.236847E-01 |dT|= 2.231548E-08 |dS|= 1.589305E-13 Tbar= 3.977560E+00 Sbar=-2.798240E-04 Tvar= 1.367009E+01 Svar= 4.535662E-10 scans= 9.925000E+01
d/m/y=17/12/    1,h:m:s= 0: 0: 0 iterations = 5.687500E+01 TAbar= 1.274900E+01 QAbar= 9.545624E-03 HFbar= 1.025777E+04 SFbar= 4.064657E-09 Snow_vol= 1.986391E+19 Ocn_ice_vol= 1.351793E+17 Lnd_ice_vol= 0.000000E+00
 ts=    284 d/m/y=22/12/    1,h:m:s= 0: 0: 0, ke= 6.329679E-01 |dT|= 2.166146E-08 |dS|= 1.627511E-13 Tbar= 3.977871E+00 Sbar=-2.798192E-04 Tvar= 1.368219E+01 Svar= 4.569115E-10 scans= 6.975000E+01
d/m/y=22/12/    1,h:m:s= 0: 0: 0 iterations = 5.600000E+01 TAbar= 1.269429E+01 QAbar= 9.540425E-03 HFbar= 1.024256E+04 SFbar= 4.020472E-09 Snow_vol= 2.039241E+19 Ocn_ice_vol= 1.352457E+17 Lnd_ice_vol= 0.000000E+00
 ts=    288 d/m/y=27/12/    1,h:m:s= 0: 0: 0, ke= 6.429346E-01 |dT|= 2.136652E-08 |dS|= 1.652790E-13 Tbar= 3.978186E+00 Sbar=-2.798139E-04 Tvar= 1.369547E+01 Svar= 4.590175E-10 scans= 4.900000E+01
d/m/y=27/12/    1,h:m:s= 0: 0: 0 iterations = 5.600000E+01 TAbar= 1.264204E+01 QAbar= 9.541542E-03 HFbar= 1.030931E+04 SFbar= 4.472782E-09 Snow_vol= 2.091151E+19 Ocn_ice_vol= 1.514979E+17 Lnd_ice_vol= 0.000000E+00
 ts=    292 d/m/y= 1/ 1/    2,h:m:s= 0: 0: 0, ke= 6.533241E-01 |dT|= 2.155521E-08 |dS|= 1.681856E-13 Tbar= 3.978496E+00 Sbar=-2.798085E-04 Tvar= 1.371001E+01 Svar= 4.620497E-10 scans= 5.200000E+01
=> Ocn time means #   1 written to time_mean.00002.01.01.nc on ts =        292, d/m/y= 1/ 1/    2,h:m:s= 0: 0: 0
 => Ocn restart written to restocn.nc on d/m/y= 1/ 1/    2,h:m:s= 0: 0: 0
 MOMdone
d/m/y= 1/ 1/    2,h:m:s= 0: 0: 0 iterations = 5.600000E+01 TAbar= 1.260568E+01 QAbar= 9.546733E-03 HFbar= 9.871767E+03 SFbar= 4.666469E-09 Snow_vol= 2.142229E+19 Ocn_ice_vol= 1.711102E+17 Lnd_ice_vol= 0.000000E+00
=> Atm time means #    1 written to time_mean.00002.01.01.nc on d/m/y= 1/ 1/    2,h:m:s= 0: 0: 0
 
  time averaged river runoff by basin 
 Greenland      (Sv)   2.66396361948335D-002
 Hudson Bay     (Sv)   3.59104222342869D-002
 Mackenzie      (Sv)   1.33771702394644D-002
 St Lawrence    (Sv)   1.05799004211457D-002
 Mississippi    (Sv)   7.20235495662613D-003
 W North Am     (Sv)  0.127241033991939     
 E North Am     (Sv)   1.08142688042213D-002
 E Central Am   (Sv)   3.43303602474096D-002
 W South Am     (Sv)  0.235012614330800     
 Orinoco        (Sv)   6.05606922939282D-002
 Amazon         (Sv)   7.78940977332981D-002
 Parana         (Sv)   1.96167982448151D-002
 Ob-Yenisei     (Sv)   3.32933668164178D-002
 Lena           (Sv)   2.54301072088379D-002
 Amur           (Sv)   4.19656221527741D-002
 Yangtze-Yellow (Sv)   5.95308194442525D-002
 Ganges-Indus   (Sv)   6.43612136481988D-002
 Mekong         (Sv)   7.62801871496916D-002
 SE Asia        (Sv)   7.04818774138554D-002
 E Africa       (Sv)  0.151144471200283     
 S Africa       (Sv)   5.55080804985774D-002
 Nile           (Sv)   2.43533140094968D-003
 Niger          (Sv)   7.89922675042004D-002
 Congo          (Sv)   3.52930003509423D-002
 Europe         (Sv)   4.95292302200180D-002
 Mediterranean  (Sv)   2.82294068552419D-002
 Australia      (Sv)   7.37518914187659D-002
 Murray-Darling (Sv)   7.35792736141453D-003
 Arctica        (Sv)   1.78938506439110D-003
 Spitsbergen    (Sv)   1.47036848911449D-003
 New Guinea     (Sv)   2.17396244561576D-002
 Madagascar     (Sv)   1.69112016518819D-002
 New Zealand    (Sv)   6.59414416381933D-003
 Antarctica     (Sv)   4.18966871586732D-002
 
 => Atm restart written to restatm.nc on d/m/y= 1/ 1/    2,h:m:s= 0: 0: 0

           ==>  M.O.M. integration is complete.

  Files Used in This Run

      hidden file name
   1    F    reserved
   2    F    stdin
   3    F    stdout/stderr
   4    F    control.in
   5    F    data/region_masks
   6    F    data/rivers.map
