======================================================================== I/O: io_nml namelist settings: &IO_NML NUM_IOTASKS=1, LREDIRECT_STDOUT=T, LOG_FILENAME=/ptmp/mai/b40.1850.track1.1deg.006/run/ocn.log.090919-180336 , LUSE_POINTER_FILES=T, POINTER_FILENAME=./rpointer.ocn , LUSE_NF_64BIT_OFFSET=F / ======================================================================== Context: context_nml namelist settings: &CONTEXT_NML LCOUPLED=T, LCCSM=T, B4B_FLAG=F / ======================================================================== Parallel Ocean Program (POP) Version 2.1alpha Jan 2005 Modified for CCSM ======================================================================== Overflows: overflows_nml namelist settings: &OVERFLOWS_NML OVERFLOWS_ON=T, OVERFLOWS_INTERACTIVE=T, OVERFLOWS_INFILE=/ptmp/mai/b40.1850.track1.1deg.006/ocn/input/gx1v6_overflow , OVERFLOWS_DIAG_OUTFILE=/ptmp/mai/b40.1850.track1.1deg.006/run/b40.1850.track1.1deg.006.pop.do , OVERFLOWS_RESTART_TYPE=continue , OVERFLOWS_RESTFILE=./b40.1850.track1.1deg.006.pop.ro / Reading overflow pointer file: ./rpointer.ocn.ovf ovf_read_restart unit (mu) = 12 file name = ./b40.1850.track1.1deg.006.pop.ro.0089-01-01-00000 ovf read restart label = ! Overflow Restart File for yyyymmdd =00890101 number of overflows = 4 ------------------------------------------------------------------------ Domain Information ------------------------------------------------------------------------ Horizontal domain: nx = 320 ny = 384 Vertical domain: km = 60 Number of tracers: nt = 3 Block size: nx_block = 44 ny_block = 52 max_blocks_clinic = 1 max_blocks_tropic = 1 Processors for baroclinic: 64 Processors for barotropic: 64 Distribution for baroclinic: balanced Distribution for barotropic: cartesian Number of ghost cells: 2 ======================================================================== Grid: grid_nml namelist settings: &GRID_NML HORIZ_GRID_OPT=file , VERT_GRID_OPT=file , TOPOGRAPHY_OPT=file , HORIZ_GRID_FILE=/fis/cgd/cseg/csm/inputdata/ocn/pop/gx1v6/grid/horiz_grid_20010402.ieeer8 , VERT_GRID_FILE=/ptmp/mai/b40.1850.track1.1deg.006/ocn/input/gx1v6_vert_grid , TOPOGRAPHY_FILE=/fis/cgd/cseg/csm/inputdata/ocn/pop/gx1v6/grid/topography_20090204.ieeei4 , TOPOGRAPHY_OUTFILE=./b40.1850.track1.1deg.006.pop.h.topography_bathymetry.ieeer8 , BATHYMETRY_FILE=unknown_bathymetry , N_TOPO_SMOOTH=0, FLAT_BOTTOM=F, LREMOVE_POINTS=F, REGION_MASK_FILE=/fis/cgd/cseg/csm/inputdata/ocn/pop/gx1v6/grid/region_mask_20090205.ieeei4 , REGION_INFO_FILE=/ptmp/mai/b40.1850.track1.1deg.006/ocn/input/gx1v6_region_ids , SFC_LAYER_OPT=varthick , PARTIAL_BOTTOM_CELLS=F, BOTTOM_CELL_FILE=unknown_bottom_cell , KMT_KMIN=3 / Active Ocean blocks: 64 Reading topography from file:/fis/cgd/cseg/csm/inputdata/ocn/pop/gx1v6/grid/topography_20090204.ieeei4 init_overflows_kmt: KMT = 36 at global (i,j) = 5 9 changed to 35 init_overflows_kmt: KMT = 36 at global (i,j) = 6 9 changed to 35 init_overflows_kmt: KMT = 36 at global (i,j) = 7 9 changed to 35 init_overflows_kmt: KMT = 36 at global (i,j) = 8 9 changed to 35 Overflow: Weddell Sea Source region mask at global (ij)= 5 6 Overflow: Weddell Sea Source region mask at global (ij)= 6 6 Overflow: Weddell Sea Source region mask at global (ij)= 7 6 Overflow: Weddell Sea Source region mask at global (ij)= 8 6 Overflow: Weddell Sea Source region mask at global (ij)= 5 7 Overflow: Weddell Sea Source region mask at global (ij)= 6 7 Overflow: Weddell Sea Source region mask at global (ij)= 7 7 Overflow: Weddell Sea Source region mask at global (ij)= 8 7 Overflow: Weddell Sea Source region mask at global (ij)= 5 8 Overflow: Weddell Sea Source region mask at global (ij)= 6 8 Overflow: Weddell Sea Source region mask at global (ij)= 7 8 Overflow: Weddell Sea Source region mask at global (ij)= 8 8 Overflow: Weddell Sea Source adjacent mask at global (ij)= 5 8 Overflow: Weddell Sea Source adjacent mask at global (ij)= 6 8 Overflow: Weddell Sea Source adjacent mask at global (ij)= 7 8 Overflow: Weddell Sea Source adjacent mask at global (ij)= 8 8 Overflow: Weddell Sea Inflow region mask at global (ij)= 5 10 Overflow: Weddell Sea Inflow region mask at global (ij)= 6 10 Overflow: Weddell Sea Inflow region mask at global (ij)= 7 10 Overflow: Weddell Sea Inflow region mask at global (ij)= 8 10 Overflow: Weddell Sea Inflow region mask at global (ij)= 5 11 Overflow: Weddell Sea Inflow region mask at global (ij)= 6 11 Overflow: Weddell Sea Inflow region mask at global (ij)= 7 11 Overflow: Weddell Sea Inflow region mask at global (ij)= 8 11 Overflow: Weddell Sea Entrainment region mask at global (ij)= 1 11 Overflow: Weddell Sea Entrainment region mask at global (ij)= 2 11 Overflow: Weddell Sea Entrainment region mask at global (ij)= 3 11 Overflow: Weddell Sea Entrainment adjacent mask at global (ij)= 1 11 Overflow: Weddell Sea Entrainment adjacent mask at global (ij)= 2 11 Overflow: Weddell Sea Entrainment adjacent mask at global (ij)= 3 11 Overflow: Weddell Sea Inflow region mask at global (ij)= 5 12 Overflow: Weddell Sea Inflow region mask at global (ij)= 6 12 Overflow: Weddell Sea Inflow region mask at global (ij)= 7 12 Overflow: Weddell Sea Inflow region mask at global (ij)= 8 12 Overflow: Weddell Sea Entrainment region mask at global (ij)= 1 12 Overflow: Weddell Sea Entrainment region mask at global (ij)= 2 12 Overflow: Weddell Sea Entrainment region mask at global (ij)= 3 12 Overflow: Weddell Sea Inflow region mask at global (ij)= 5 13 Overflow: Weddell Sea Inflow region mask at global (ij)= 6 13 Overflow: Weddell Sea Inflow region mask at global (ij)= 7 13 Overflow: Weddell Sea Inflow region mask at global (ij)= 8 13 Overflow: Weddell Sea Entrainment region mask at global (ij)= 1 13 Overflow: Weddell Sea Entrainment region mask at global (ij)= 2 13 Overflow: Weddell Sea Entrainment region mask at global (ij)= 3 13 ------------------------------------------------------------------------ Grid options Reading horizontal grid from file:/fis/cgd/cseg/csm/inputdata/ocn/pop/gx1v6/grid/horiz_grid_20010402.ieeer8 Using variable thickness surface layer Reading vertical grid from file:/ptmp/mai/b40.1850.track1.1deg.006/ocn/input/gx1v6_vert_grid Vertical grid: k Thickness (cm) Depth (cm) --- -------------- ------------ 1 1.00000E+03 5.00000E+02 2 1.00000E+03 1.50000E+03 3 1.00000E+03 2.50000E+03 4 1.00000E+03 3.50000E+03 5 1.00000E+03 4.50000E+03 6 1.00000E+03 5.50000E+03 7 1.00000E+03 6.50000E+03 8 1.00000E+03 7.50000E+03 9 1.00000E+03 8.50000E+03 10 1.00000E+03 9.50000E+03 11 1.00000E+03 1.05000E+04 12 1.00000E+03 1.15000E+04 13 1.00000E+03 1.25000E+04 14 1.00000E+03 1.35000E+04 15 1.00000E+03 1.45000E+04 16 1.00000E+03 1.55000E+04 17 1.01968E+03 1.65098E+04 18 1.05645E+03 1.75479E+04 19 1.10600E+03 1.86291E+04 20 1.16781E+03 1.97660E+04 21 1.24241E+03 2.09711E+04 22 1.33097E+03 2.22578E+04 23 1.43514E+03 2.36409E+04 24 1.55713E+03 2.51370E+04 25 1.69968E+03 2.67654E+04 26 1.86621E+03 2.85484E+04 27 2.06090E+03 3.05119E+04 28 2.28885E+03 3.26868E+04 29 2.55625E+03 3.51093E+04 30 2.87057E+03 3.78228E+04 31 3.24084E+03 4.08785E+04 32 3.67777E+03 4.43378E+04 33 4.19403E+03 4.82737E+04 34 4.80422E+03 5.27728E+04 35 5.52475E+03 5.79373E+04 36 6.37319E+03 6.38863E+04 37 7.36694E+03 7.07563E+04 38 8.52089E+03 7.87002E+04 39 9.84366E+03 8.78825E+04 40 1.13325E+04 9.84706E+04 41 1.29672E+04 1.10620E+05 42 1.47053E+04 1.24457E+05 43 1.64807E+04 1.40050E+05 44 1.82091E+04 1.57395E+05 45 1.98022E+04 1.76400E+05 46 2.11860E+04 1.96894E+05 47 2.23165E+04 2.18646E+05 48 2.31865E+04 2.41397E+05 49 2.38194E+04 2.64900E+05 50 2.42572E+04 2.88938E+05 51 2.45468E+04 3.13340E+05 52 2.47310E+04 3.37979E+05 53 2.48443E+04 3.62767E+05 54 2.49120E+04 3.87645E+05 55 2.49513E+04 4.12577E+05 56 2.49736E+04 4.37539E+05 57 2.49860E+04 4.62519E+05 58 2.49927E+04 4.87508E+05 59 2.49962E+04 5.12503E+05 60 2.49981E+04 5.37500E+05 Partial bottom cells disabled # surface (T,U) points 86212 83047 # ocean (T,U) points 4247887 4072855 T-area, U-area (km^2) 3.611401902571847E+08 3.493125918041768E+08 T-volume, U-volume (km^3) 1.325140287265677E+09 1.252749733593949E+09 Region masks initialized from file: /fis/cgd/cseg/csm/inputdata/ocn/pop/gx1v6/grid/region_mask_20090205.ieeei4 Region # 5 is a marginal sea area (km^2) = 0.46932E+06 volume (km^3) = 0.15828E+06 Region #12 is a marginal sea area (km^2) = 0.36793E+06 volume (km^3) = 0.18857E+05 Region #13 is a marginal sea area (km^2) = 0.41826E+06 volume (km^3) = 0.55031E+06 Region #14 is a marginal sea area (km^2) = 0.62852E+06 volume (km^3) = 0.18856E+05 +-----------------------+ | Marginal Seas Only | Region Region | Area Volume | Number Name | (km^2) (km^3) | ------ ------------------- ----------- ----------- 1 Southern Ocean 2 Pacific Ocean 3 Indian Ocean 4 Persian Gulf -5 Red Sea 4.69319E+05 1.58282E+05 6 Atlantic Ocean 7 Mediterranean Sea 8 Labrador Sea 9 GIN Sea 10 Arctic Ocean 11 Hudson Bay -12 Baltic Sea 3.67925E+05 1.88573E+04 -13 Black Sea 4.18260E+05 5.50313E+05 -14 Caspian Sea 6.28518E+05 1.88555E+04 Marginal Sea (E+P+M+R) Balancing Information Region Region Bal. Bal. Search Number Name Lat Lon Area (cm^2) ------ ------------------- ------ ------ ----------- -5 Red Sea 14.00 47.00 3.00000E+15 -12 Baltic Sea 56.00 8.00 3.00000E+15 -13 Black Sea 40.00 25.00 3.00000E+15 -14 Caspian Sea 70.00 65.00 3.00000E+15 ======================================================================== Time Management: time_manager_nml namelist settings: &TIME_MANAGER_NML RUNID=b40.1850.track1.1deg.006 , TIME_MIX_OPT=avgfit , TIME_MIX_FREQ=17, IMPCOR=T, LACCEL=F, ACCEL_FILE=/ptmp/mai/b40.1850.track1.1deg.006/ocn/input/gx1v6_depth_accel , DTUXCEL=1.00000000000000000, IYEAR0=1, IMONTH0=1, IDAY0=2, IHOUR0=0, IMINUTE0=0, ISECOND0=0, DT_OPTION=steps_per_day , DT_COUNT=23.0000000000000000, STOP_OPTION=nyear , STOP_COUNT=1000, DATE_SEPARATOR=-, ALLOW_LEAPYEAR=F, FIT_FREQ=1 / The following information documents the time-step distribution for one full model day. time_mix_freq = 17 fullsteps_per_day = 23 halfsteps_per_day = 2 nsteps_per_day = 25 Step Full/ Time in Number Half Seconds 1 F 3600.000000000000000 2 H 5400.000000000000000 3 F 9000.000000000000000 4 F 12600.000000000000000 5 F 16200.000000000000000 6 F 19800.000000000000000 7 F 23400.000000000000000 8 F 27000.000000000000000 9 F 30600.000000000000000 10 F 34200.000000000000000 11 F 37800.000000000000000 12 F 41400.000000000000000 13 F 45000.000000000000000 14 F 48600.000000000000000 15 F 52200.000000000000000 16 F 55800.000000000000000 17 H 57600.000000000000000 18 F 61200.000000000000000 19 F 64800.000000000000000 20 F 68400.000000000000000 21 F 72000.000000000000000 22 F 75600.000000000000000 23 F 79200.000000000000000 24 F 82800.000000000000000 25 F 86400.000000000000000 <-- LAST STEP in day hour, min, sec at end of interval = 0 0 0 ======================================================================== Equation of state options ------------------------------------------------------------------------ Using McDougall, Wright ,Jackett and Feistel EOS EOS computed as if in valid T,S range ======================================================================== Topographic stress options ------------------------------------------------------------------------ Topographic stress disabled ======================================================================== Horizontal mixing options hmix_nml namelist settings: &HMIX_NML HMIX_MOMENTUM_CHOICE=anis , HMIX_TRACER_CHOICE=gent , LSUBMESOSCALE_MIXING=T / ------------------------------------------------------------------------ Anisotropic horizontal momentum mixing used. Gent-McWilliams tracer mixing used. Submesoscale mixed layer parameterization is on. ======================================================================== Anisotropic viscosity options: &HMIX_ANISO_NML HMIX_ALIGNMENT_CHOICE=east , LVARIABLE_HMIX_ANISO=T, LSMAG_ANISO=F, VISC_PARA=500000000.000000000, VISC_PERP=500000000.000000000, C_PARA=8.00000000000000000, C_PERP=8.00000000000000000, U_PARA=5.00000000000000000, U_PERP=5.00000000000000000, VCONST_1=6000000.00000000000, VCONST_2=0.500000000000000000, VCONST_3=0.160000000000000003, VCONST_4=0.200000000000000004E-07, VCONST_5=3, VCONST_6=6000000.00000000000, VCONST_7=45.0000000000000000, SMAG_LAT=20.0000000000000000, SMAG_LAT_FACT=0.979999999999999982, SMAG_LAT_GAUSS=98.0000000000000000, VAR_VISCOSITY_INFILE=ccsm-internal , VAR_VISCOSITY_INFILE_FMT=bin , VAR_VISCOSITY_OUTFILE=./b40.1850.track1.1deg.006.pop.hv , VAR_VISCOSITY_OUTFILE_FMT=nc / Anisotropy aligned along east-west direction Using input anisotropic viscosities: visc_para = 5.00000E+08 visc_perp = 5.00000E+08 Using variable anisotropic parameters: vconst_1 = 6.00000E+06 vconst_2 = 5.00000E-01 vconst_3 = 1.60000E-01 vconst_4 = 2.00000E-08 vconst_5 = 3 vconst_6 = 6.00000E+06 vconst_7 = 4.50000E+01 Computed variable viscosity output to file: ./b40.1850.track1.1deg.006.pop.hv vertical level = 1 Min F_PARA = 6.00000E+06 Max F_PARA = 7.16621E+07 Min F_PERP = 6.00000E+06 Max F_PERP = 7.16621E+07 vertical level = 2 Min F_PARA = 6.00000E+06 Max F_PARA = 7.16621E+07 Min F_PERP = 6.00000E+06 Max F_PERP = 7.16621E+07 vertical level = 3 Min F_PARA = 6.00000E+06 Max F_PARA = 7.16621E+07 Min F_PERP = 6.00000E+06 Max F_PERP = 7.16621E+07 vertical level = 4 Min F_PARA = 6.00000E+06 Max F_PARA = 7.16621E+07 Min F_PERP = 6.00000E+06 Max F_PERP = 7.16621E+07 vertical level = 5 Min F_PARA = 6.00000E+06 Max F_PARA = 7.16621E+07 Min F_PERP = 6.00000E+06 Max F_PERP = 7.16621E+07 vertical level = 6 Min F_PARA = 6.00000E+06 Max F_PARA = 7.16621E+07 Min F_PERP = 6.00000E+06 Max F_PERP = 7.16621E+07 vertical level = 7 Min F_PARA = 6.00000E+06 Max F_PARA = 7.16621E+07 Min F_PERP = 6.00000E+06 Max F_PERP = 7.16621E+07 vertical level = 8 Min F_PARA = 6.00000E+06 Max F_PARA = 7.16621E+07 Min F_PERP = 6.00000E+06 Max F_PERP = 7.16621E+07 vertical level = 9 Min F_PARA = 6.00000E+06 Max F_PARA = 7.16621E+07 Min F_PERP = 6.00000E+06 Max F_PERP = 7.16621E+07 vertical level = 10 Min F_PARA = 6.00000E+06 Max F_PARA = 7.16621E+07 Min F_PERP = 6.00000E+06 Max F_PERP = 7.16621E+07 vertical level = 11 Min F_PARA = 6.00000E+06 Max F_PARA = 7.16621E+07 Min F_PERP = 6.00000E+06 Max F_PERP = 7.16621E+07 vertical level = 12 Min F_PARA = 6.00000E+06 Max F_PARA = 7.16621E+07 Min F_PERP = 6.00000E+06 Max F_PERP = 7.16621E+07 vertical level = 13 Min F_PARA = 6.00000E+06 Max F_PARA = 7.16621E+07 Min F_PERP = 6.00000E+06 Max F_PERP = 7.16621E+07 vertical level = 14 Min F_PARA = 6.00000E+06 Max F_PARA = 7.16621E+07 Min F_PERP = 6.00000E+06 Max F_PERP = 7.16621E+07 vertical level = 15 Min F_PARA = 6.00000E+06 Max F_PARA = 7.16621E+07 Min F_PERP = 6.00000E+06 Max F_PERP = 7.16621E+07 vertical level = 16 Min F_PARA = 6.00000E+06 Max F_PARA = 7.16621E+07 Min F_PERP = 6.00000E+06 Max F_PERP = 7.16621E+07 vertical level = 17 Min F_PARA = 6.00000E+06 Max F_PARA = 7.16621E+07 Min F_PERP = 6.00000E+06 Max F_PERP = 7.16621E+07 vertical level = 18 Min F_PARA = 6.00000E+06 Max F_PARA = 7.16621E+07 Min F_PERP = 6.00000E+06 Max F_PERP = 7.16621E+07 vertical level = 19 Min F_PARA = 6.00000E+06 Max F_PARA = 7.16621E+07 Min F_PERP = 6.00000E+06 Max F_PERP = 7.16621E+07 vertical level = 20 Min F_PARA = 6.00000E+06 Max F_PARA = 7.16621E+07 Min F_PERP = 6.00000E+06 Max F_PERP = 7.16621E+07 vertical level = 21 Min F_PARA = 6.00000E+06 Max F_PARA = 7.16621E+07 Min F_PERP = 6.00000E+06 Max F_PERP = 7.16621E+07 vertical level = 22 Min F_PARA = 6.00000E+06 Max F_PARA = 7.16621E+07 Min F_PERP = 6.00000E+06 Max F_PERP = 7.16621E+07 vertical level = 23 Min F_PARA = 6.00000E+06 Max F_PARA = 7.16621E+07 Min F_PERP = 6.00000E+06 Max F_PERP = 7.16621E+07 vertical level = 24 Min F_PARA = 6.00000E+06 Max F_PARA = 7.16621E+07 Min F_PERP = 6.00000E+06 Max F_PERP = 7.16621E+07 vertical level = 25 Min F_PARA = 6.00000E+06 Max F_PARA = 7.16621E+07 Min F_PERP = 6.00000E+06 Max F_PERP = 7.16621E+07 vertical level = 26 Min F_PARA = 6.00000E+06 Max F_PARA = 7.16621E+07 Min F_PERP = 6.00000E+06 Max F_PERP = 7.16621E+07 vertical level = 27 Min F_PARA = 6.00000E+06 Max F_PARA = 7.16621E+07 Min F_PERP = 6.00000E+06 Max F_PERP = 7.16621E+07 vertical level = 28 Min F_PARA = 6.00000E+06 Max F_PARA = 7.16621E+07 Min F_PERP = 6.00000E+06 Max F_PERP = 7.16621E+07 vertical level = 29 Min F_PARA = 6.00000E+06 Max F_PARA = 7.16621E+07 Min F_PERP = 6.00000E+06 Max F_PERP = 7.16621E+07 vertical level = 30 Min F_PARA = 6.00000E+06 Max F_PARA = 7.16621E+07 Min F_PERP = 6.00000E+06 Max F_PERP = 7.16621E+07 vertical level = 31 Min F_PARA = 6.00000E+06 Max F_PARA = 7.16621E+07 Min F_PERP = 6.00000E+06 Max F_PERP = 7.16621E+07 vertical level = 32 Min F_PARA = 6.00000E+06 Max F_PARA = 7.16621E+07 Min F_PERP = 6.00000E+06 Max F_PERP = 7.16621E+07 vertical level = 33 Min F_PARA = 6.00000E+06 Max F_PARA = 7.16621E+07 Min F_PERP = 6.00000E+06 Max F_PERP = 7.16621E+07 vertical level = 34 Min F_PARA = 6.00000E+06 Max F_PARA = 7.16621E+07 Min F_PERP = 6.00000E+06 Max F_PERP = 7.16621E+07 vertical level = 35 Min F_PARA = 6.00000E+06 Max F_PARA = 7.16621E+07 Min F_PERP = 6.00000E+06 Max F_PERP = 7.16621E+07 vertical level = 36 Min F_PARA = 6.00000E+06 Max F_PARA = 7.16621E+07 Min F_PERP = 6.00000E+06 Max F_PERP = 7.16621E+07 vertical level = 37 Min F_PARA = 6.00000E+06 Max F_PARA = 7.16621E+07 Min F_PERP = 6.00000E+06 Max F_PERP = 7.16621E+07 vertical level = 38 Min F_PARA = 6.00000E+06 Max F_PARA = 7.16621E+07 Min F_PERP = 6.00000E+06 Max F_PERP = 7.16621E+07 vertical level = 39 Min F_PARA = 6.00000E+06 Max F_PARA = 7.16621E+07 Min F_PERP = 6.00000E+06 Max F_PERP = 7.16621E+07 vertical level = 40 Min F_PARA = 6.00000E+06 Max F_PARA = 7.16621E+07 Min F_PERP = 6.00000E+06 Max F_PERP = 7.16621E+07 vertical level = 41 Min F_PARA = 6.00000E+06 Max F_PARA = 7.16621E+07 Min F_PERP = 6.00000E+06 Max F_PERP = 7.16621E+07 vertical level = 42 Min F_PARA = 6.00000E+06 Max F_PARA = 7.16621E+07 Min F_PERP = 6.00000E+06 Max F_PERP = 7.16621E+07 vertical level = 43 Min F_PARA = 6.00000E+06 Max F_PARA = 7.16621E+07 Min F_PERP = 6.00000E+06 Max F_PERP = 7.16621E+07 vertical level = 44 Min F_PARA = 6.00000E+06 Max F_PARA = 7.16621E+07 Min F_PERP = 6.00000E+06 Max F_PERP = 7.16621E+07 vertical level = 45 Min F_PARA = 6.00000E+06 Max F_PARA = 7.16621E+07 Min F_PERP = 6.00000E+06 Max F_PERP = 7.16621E+07 vertical level = 46 Min F_PARA = 6.00000E+06 Max F_PARA = 7.16621E+07 Min F_PERP = 6.00000E+06 Max F_PERP = 7.16621E+07 vertical level = 47 Min F_PARA = 6.00000E+06 Max F_PARA = 7.16621E+07 Min F_PERP = 6.00000E+06 Max F_PERP = 7.16621E+07 vertical level = 48 Min F_PARA = 6.00000E+06 Max F_PARA = 7.16621E+07 Min F_PERP = 6.00000E+06 Max F_PERP = 7.16621E+07 vertical level = 49 Min F_PARA = 6.00000E+06 Max F_PARA = 7.16621E+07 Min F_PERP = 6.00000E+06 Max F_PERP = 7.16621E+07 vertical level = 50 Min F_PARA = 6.00000E+06 Max F_PARA = 7.16621E+07 Min F_PERP = 6.00000E+06 Max F_PERP = 7.16621E+07 vertical level = 51 Min F_PARA = 6.00000E+06 Max F_PARA = 7.16621E+07 Min F_PERP = 6.00000E+06 Max F_PERP = 7.16621E+07 vertical level = 52 Min F_PARA = 6.00000E+06 Max F_PARA = 7.16621E+07 Min F_PERP = 6.00000E+06 Max F_PERP = 7.16621E+07 vertical level = 53 Min F_PARA = 6.00000E+06 Max F_PARA = 7.16621E+07 Min F_PERP = 6.00000E+06 Max F_PERP = 7.16621E+07 vertical level = 54 Min F_PARA = 6.00000E+06 Max F_PARA = 7.16621E+07 Min F_PERP = 6.00000E+06 Max F_PERP = 7.16621E+07 vertical level = 55 Min F_PARA = 6.00000E+06 Max F_PARA = 7.16621E+07 Min F_PERP = 6.00000E+06 Max F_PERP = 7.16621E+07 vertical level = 56 Min F_PARA = 6.00000E+06 Max F_PARA = 7.16621E+07 Min F_PERP = 6.00000E+06 Max F_PERP = 7.16621E+07 vertical level = 57 Min F_PARA = 6.00000E+06 Max F_PARA = 7.16621E+07 Min F_PERP = 6.00000E+06 Max F_PERP = 7.16621E+07 vertical level = 58 Min F_PARA = 6.00000E+06 Max F_PARA = 7.16621E+07 Min F_PERP = 6.00000E+06 Max F_PERP = 7.16621E+07 vertical level = 59 Min F_PARA = 6.00000E+06 Max F_PARA = 7.16621E+07 Min F_PERP = 6.00000E+06 Max F_PERP = 7.16621E+07 vertical level = 60 Min F_PARA = 6.00000E+06 Max F_PARA = 7.16621E+07 Min F_PERP = 6.00000E+06 Max F_PERP = 7.16621E+07 Document Namelist Parameters: ============================ &HMIX_GM_NML KAPPA_ISOP_CHOICE=bfre , KAPPA_THIC_CHOICE=bfre , KAPPA_FREQ_CHOICE=once_a_day , SLOPE_CONTROL_CHOICE=notanh , KAPPA_DEPTH_1=1.00000000000000000, KAPPA_DEPTH_2=0.000000000000000000E+00, KAPPA_DEPTH_SCALE=150000.000000000000, AH=30000000.0000000000, AH_BOLUS=30000000.0000000000, USE_CONST_AH_BKG_SRFBL=T, AH_BKG_SRFBL=30000000.0000000000, AH_BKG_BOTTOM=0.000000000000000000E+00, SLM_R=0.299999999999999989, SLM_B=0.299999999999999989, DIAG_GM_BOLUS=T, TRANSITION_LAYER_ON=T, READ_N2_DATA=F, BUOYANCY_FREQ_FILENAME=/ptmp/mai/b40.1850.track1.1deg.006/ocn/input/buoyancy_freq , BUOYANCY_FREQ_FMT=nc , CONST_EG=1.19999999999999996, GAMMA_EG=500.000000000000000, KAPPA_MIN_EG=3500000.00000000000, KAPPA_MAX_EG=20000000.0000000000 / Gent-McWilliams options: kappa_isop choice is bfre kappa_thic choice is bfre kappa computation frequency choice is once_a_day slope control choice is notanh isopycnal diffusion = 3.000000E+07 thickness diffusion = 3.000000E+07 backgroud diff. (bottom) = 0.000000E+00 backgroud diff. (srfbl) = 3.000000E+07 max. slope for redi = 3.000000E-01 max. slope for bolus = 3.000000E-01 diagnostic bolus velocity computation is on Maximum horizontal background diffusion coefficient within the boundary layer is constant at ah_bkg_srfbl. transition layer scheme is on. using model data to compute N^2. define_tavg_field: id = 1 KAPPA_ISOP define_tavg_field: id = 2 KAPPA_THIC define_tavg_field: id = 3 HOR_DIFF define_tavg_field: id = 4 DIA_DEPTH define_tavg_field: id = 5 TLT define_tavg_field: id = 6 INT_DEPTH define_tavg_field: id = 7 UISOP define_tavg_field: id = 8 VISOP define_tavg_field: id = 9 WISOP define_tavg_field: id = 10 ADVT_ISOP define_tavg_field: id = 11 ADVS_ISOP define_tavg_field: id = 12 VNT_ISOP define_tavg_field: id = 13 VNS_ISOP Document Namelist Parameters: ============================ &MIX_SUBMESO_NML EFFICIENCY_FACTOR=0.700000000000000067E-01, TIME_SCALE_CONSTANT=86400.0000000000000, LUSE_CONST_HORIZ_LEN_SCALE=F, HOR_LENGTH_SCALE=500000.000000000000 / Submesoscale mixing options: efficiency factor = 7.000000E-02 time scale constant = 8.640000E+04 horizontal length scale varies both in space and time define_tavg_field: id = 14 USUBM define_tavg_field: id = 15 VSUBM define_tavg_field: id = 16 WSUBM define_tavg_field: id = 17 HLS_SUBM define_tavg_field: id = 18 ADVT_SUBM define_tavg_field: id = 19 ADVS_SUBM define_tavg_field: id = 20 VNT_SUBM define_tavg_field: id = 21 VNS_SUBM define_tavg_field: id = 22 HDIFT define_tavg_field: id = 23 HDIFS ======================================================================== Tidal mixing information tidal_nml namelist settings: &TIDAL_NML LTIDAL_MIXING=T, LOCAL_MIXING_FRACTION=0.330000000000000016, MIXING_EFFICIENCY=0.200000000000000011, VERTICAL_DECAY_SCALE=50000.0000000000000, TIDAL_ENERGY_FILE=/fis/cgd/cseg/csm/inputdata/ocn/pop/gx1v6/forcing/tidal_energy_gx1v6_20090205.ieeer8 , TIDAL_MIX_MAX=100.000000000000000, TIDAL_ENERGY_FILE_FMT=bin / ltidal_mixing = T local_mixing_fraction = 3.30000E-01 mixing_efficiency = 2.00000E-01 vertical_decay_scale = 5.00000E+04 tidal_energy_file = /fis/cgd/cseg/csm/inputdata/ocn/pop/gx1v6/forcing/tidal_energy_gx1v6_20090205.ie WARNING: Input header file does not exist for file: /fis/cgd/cseg/csm/inputdata/ocn/pop/gx1v6/forcing/tidal_energy_gx1v6_20090205.ieeer8.hdr Assuming fields will be read in sequential order file read: /fis/cgd/cseg/csm/inputdata/ocn/pop/gx1v6/forcing/tidal_energy_gx1v6_20090205.ieeer8 ======================================================================== Vertical mixing options ------------------------------------------------------------------------ Implicit vertical mixing enabled Using KPP vertical mixing aidif = 1.00000E+00 bottom_drag = 1.00000E-03 Convection simulated by strong diffusion convect_diff = 1.000E+04 convect_visc = 1.000E+04 Bottom geothermal heat flux disabled ------------------------------------------------------------------------ vmix_kpp_nml namelist settings: &VMIX_KPP_NML BCKGRND_VDC1=0.160000000000000003, BCKGRND_VDC2=0.000000000000000000E+00, BCKGRND_VDC_EQ=0.100000000000000002E-01, BCKGRND_VDC_PSIM=0.130000000000000004, BCKGRND_VDC_BAN=1.00000000000000000, BCKGRND_VDC_DPTH=100000.000000000000, BCKGRND_VDC_LINV=0.450000000000000028E-04, PRANDTL=10.0000000000000000, RICH_MIX=50.0000000000000000, NUM_V_SMOOTH_RI=1, LRICH=T, LDBL_DIFF=T, LSHORT_WAVE=T, LCHECKEKMO=F, LHORIZ_VARYING_BCKGRND=T, LLANGMUIR=F, LINERTIAL=F / bckgrnd_vdc1 = 1.60000E-01 bckgrnd_vdc2 = 0.00000E+00 bckgrnd_vdc_dpth = 1.00000E+05 bckgrnd_vdc_linv = 4.50000E-05 bckgrnd_vdc_eq = 1.00000E-02 bckgrnd_vdc_psim = 1.30000E-01 bckgrnd_vdc_ban = 1.00000E+00 Prandtl = 1.00000E+01 rich_mix = 5.00000E+01 Ri mixing = T double-diff = T short_wave = T lcheckekmo = F num_smooth_Ri = 1 lhoriz_varying_bckgrnd = T langmuir parameterization = F inertial mixing param. = F define_tavg_field: id = 24 QSW_HBL define_tavg_field: id = 25 KVMIX define_tavg_field: id = 26 TPOWER define_tavg_field: id = 27 VUF define_tavg_field: id = 28 VVF ======================================================================== Pressure gradient options ------------------------------------------------------------------------ Pressure averaging enabled Density correction disabled ======================================================================== Baroclinic: baroclinic_nml namelist settings: &BAROCLINIC_NML RESET_TO_FREEZING=F / ------------------------------------------------------------------------ Baroclinic options ------------------------------------------------------------------------ Surface temperature reset to freezing off define_tavg_field: id = 29 UDP define_tavg_field: id = 30 U1_8 define_tavg_field: id = 31 V1_8 define_tavg_field: id = 32 T1_8 define_tavg_field: id = 33 S1_8 define_tavg_field: id = 34 UVEL define_tavg_field: id = 35 VVEL define_tavg_field: id = 36 KE define_tavg_field: id = 37 TEMP define_tavg_field: id = 38 TEMP_MAX define_tavg_field: id = 39 TEMP_MIN define_tavg_field: id = 40 dTEMP_POS_3D define_tavg_field: id = 41 dTEMP_POS_2D define_tavg_field: id = 42 dTEMP_NEG_3D define_tavg_field: id = 43 dTEMP_NEG_2D define_tavg_field: id = 44 SALT define_tavg_field: id = 45 TEMP2 define_tavg_field: id = 46 SALT2 define_tavg_field: id = 47 ST define_tavg_field: id = 48 RHO define_tavg_field: id = 49 UV define_tavg_field: id = 50 RESID_T define_tavg_field: id = 51 RESID_S define_tavg_field: id = 52 SU define_tavg_field: id = 53 SV define_tavg_field: id = 54 SSH define_tavg_field: id = 55 H2 define_tavg_field: id = 56 H3 ======================================================================== Ice: ice_nml namelist settings: &ICE_NML KMXICE=1, ICE_FREQ_OPT=coupled , ICE_FREQ=100000, LACTIVE_ICE=T / ------------------------------------------------------------------------ Ice formation computed on coupler time steps Ice salinity(ppt) = 4.000E+00 Ice formation computed in top 1 levels only. ======================================================================== Initial T,S: init_ts_nml namelist settings: &INIT_TS_NML INIT_TS_OPTION=continue , INIT_TS_FILE=/fis/cgd/cseg/csm/inputdata/ocn/pop/gx1v6/ic/ts_PHC2_jan_ic_gx1v6_20090205.ieeer8 , INIT_TS_FILE_FMT=bin , INIT_TS_SUBOPTION=null , INIT_TS_OUTFILE=./b40.1850.track1.1deg.006.pop.h.ts_ic , INIT_TS_OUTFILE_FMT=nc / In this case, the init_ts_file name will be read from the pointer file. Reading pointer file: ./rpointer.ocn.restart file read: ./b40.1850.track1.1deg.006.pop.r.0089-01-01-00000 ======================================================================== Time Information ------------------------------------------------------------------------ Run id: b40.1850.track1.1deg.006 This simulation started from date(month-day-year): 01-02-0001 hour: 0 minute: 0 second: 0 This run started from date(month-day-year): 01-01-0089 hour: 0 minute: 0 second: 0 step: 802975 This run will terminate at 00:00:00 on date(month-day-year): 01-01-1089 after running for 1000 years unless a stop signal is received from external source (eg, cpl) Starting elapsed time in years: 88.000 months: 1056.000 days: 32119.000 hours: 770856.000 seconds: 2775081600.000 Automatic time step option (auto_dt) disabled dt_count = 2.300000E+01 There are 23 full steps each day There are 2 half steps each day There are 25 total steps each day time_mix_freq = 17 Time mixing option: avgfit -- time averaging with timestep chosen to fit exactly into one day or coupling interval Averaging time steps at the 2nd and 17th step of every day or coupled interval Surface tracer time step = 3.600000E+03 seconds Surface momentum time step = 3.600000E+03 seconds Surface barotropic time step = 3.600000E+03 seconds Tracer acceleration disabled Leap years not allowed Implicit treatment of Coriolis terms (impcor): ON ======================================================================== Forcing options ------------------------------------------------------------------------ No Surface Wind Stress No Surface Heat Flux No Surface Fresh Water Flux Fresh water flux input as virtual salt flux No Interior Potential Temperature Forcing No Interior Salinity Forcing No Surface Atmospheric Pressure define_tavg_field: id = 57 SHF define_tavg_field: id = 58 SHF_QSW define_tavg_field: id = 59 SFWF define_tavg_field: id = 60 TAUX define_tavg_field: id = 61 TAUY define_tavg_field: id = 62 FW define_tavg_field: id = 63 TFW_T define_tavg_field: id = 64 TFW_S ======================================================================== Coupling: coupled_nml namelist settings: &COUPLED_NML COUPLED_FREQ_OPT=nhour , COUPLED_FREQ=24, QSW_DISTRB_OPT=cosz / define_tavg_field: id = 65 EVAP_F define_tavg_field: id = 66 PREC_F define_tavg_field: id = 67 SNOW_F define_tavg_field: id = 68 MELT_F define_tavg_field: id = 69 ROFF_F define_tavg_field: id = 70 IOFF_F define_tavg_field: id = 71 SALT_F define_tavg_field: id = 72 SENH_F define_tavg_field: id = 73 LWUP_F define_tavg_field: id = 74 LWDN_F define_tavg_field: id = 75 MELTH_F define_tavg_field: id = 76 IFRAC Document Namelist Parameters: ============================ &PASSIVE_TRACERS_ON_NML ECOSYS_ON=F, CFC_ON=F, IAGE_ON=T / ------------------------------------------------------------------------ IAGE ind_begin = 3 IAGE ind_end = 3 ------------------------------------------------------------------------ (passive_tracer_tools:rest_read_tracer_block) reading tracer block from ./b40.1850.track1.1deg.006.pop.r.0089-01-01-00000 (passive_tracer_tools:read_field_3D) reading IAGE_CUR from ./b40.1850.track1.1deg.006.pop.r.0089-01-01-00000 (passive_tracer_tools:read_field_3D) reading IAGE_OLD from ./b40.1850.track1.1deg.006.pop.r.0089-01-01-00000 ------------------------------------------------------------------------ TRACER INDEX TRACER NAME 1 TEMP 2 SALT 3 Ideal Age ------------------------------------------------------------------------ define_tavg_field: id = 77 IAGE define_tavg_field: id = 78 IAGE_SQR define_tavg_field: id = 79 J_IAGE define_tavg_field: id = 80 Jint_IAGE define_tavg_field: id = 81 STF_IAGE define_tavg_field: id = 82 RESID_IAGE define_tavg_field: id = 83 FvPER_IAGE define_tavg_field: id = 84 FvICE_IAGE ======================================================================== Advection: advect_nml namelist settings: &ADVECT_NML TADVECT_CTYPE=upwind3 / ------------------------------------------------------------------------ Advection options ------------------------------------------------------------------------ Using upwind3 for all tracers. define_tavg_field: id = 85 WVEL define_tavg_field: id = 86 UEU define_tavg_field: id = 87 VNU define_tavg_field: id = 88 UEV define_tavg_field: id = 89 VNV define_tavg_field: id = 90 WTU define_tavg_field: id = 91 WTV define_tavg_field: id = 92 UET define_tavg_field: id = 93 VNT define_tavg_field: id = 94 WTT define_tavg_field: id = 95 UES define_tavg_field: id = 96 VNS define_tavg_field: id = 97 WTS define_tavg_field: id = 98 ADVT define_tavg_field: id = 99 ADVS define_tavg_field: id = 100 UE_IAGE define_tavg_field: id = 101 VN_IAGE define_tavg_field: id = 102 WT_IAGE define_tavg_field: id = 103 ADV_IAGE define_tavg_field: id = 104 PV define_tavg_field: id = 105 Q define_tavg_field: id = 106 PD define_tavg_field: id = 107 RHOU define_tavg_field: id = 108 RHOV define_tavg_field: id = 109 URHO define_tavg_field: id = 110 VRHO define_tavg_field: id = 111 WRHO define_tavg_field: id = 112 PVWM define_tavg_field: id = 113 PVWP define_tavg_field: id = 114 UPV define_tavg_field: id = 115 VPV define_tavg_field: id = 116 UQ define_tavg_field: id = 117 VQ ======================================================================== Short-wave absorption: sw_absorption namelist &SW_ABSORPTION_NML SW_ABSORPTION_TYPE=chlorophyll , JERLOV_WATER_TYPE=3, CHL_OPTION=file , CHL_FILENAME=/fis/cgd/cseg/csm/inputdata/ocn/pop/gx1v6/forcing/chl_filled_20061230.ieeer8 , CHL_FILE_FMT=bin / Chlorophyll transmission table computed WARNING: Input header file does not exist for file: /fis/cgd/cseg/csm/inputdata/ocn/pop/gx1v6/forcing/chl_filled_20061230.ieeer8.hdr Assuming fields will be read in sequential order CHL monthly file read: /fis/cgd/cseg/csm/inputdata/ocn/pop/gx1v6/forcing/chl_filled_20061230.ieeer8 define_tavg_field: id = 118 QSW_HTP define_tavg_field: id = 119 QFLUX ------------------------------------------------------------------------ Marginal-sea balancing information ------------------------------------------------------------------------ ------------------------------------------------------------------------ Diagnostic options ------------------------------------------------------------------------ Global diagnostics computed every 1 months Global diagnostics written to file: /ptmp/mai/b40.1850.track1.1deg.006/run/b40.1850.track1.1deg.006.pop.dd.0089-01-01-00000 Equatorial velocities written to file: /ptmp/mai/b40.1850.track1.1deg.006/run/b40.1850.track1.1deg.006.pop.dv.0089-01-01-00000 CFL diagnostics computed every 1 months CFL diagnostics written to file: /ptmp/mai/b40.1850.track1.1deg.006/run/b40.1850.track1.1deg.006.pop.dd.0089-01-01-00000 Transport diagnostics computed every 1 months Transport diagnostics written to file: /ptmp/mai/b40.1850.track1.1deg.006/run/b40.1850.track1.1deg.006.pop.dt.0089-01-01-00000 The following 11 transports will be computed Drake Passage Mozambique Channel Bering Strait Northwest Passage Indonesian Throughflow I Indonesian Throughflow II Florida Strait Windward Passage I Windward Passage II Gibraltar Nares Strait define_tavg_field: id = 120 HMXL define_tavg_field: id = 121 XMXL define_tavg_field: id = 122 TMXL define_tavg_field: id = 123 HBLT define_tavg_field: id = 124 XBLT define_tavg_field: id = 125 TBLT Velocity diagnostics will be computed at the following locations: (231,187) ( 0.000000000000000, 219.875006118579222) (231,194) ( 1.871044944959805, 219.875081237234184) ( 13,187) ( 0.000000000000000, 334.625009311788915) ( 13,195) ( 2.128333088942848, 334.624980961780523) (258,187) ( 0.000000000000000, 250.250006963840605) ------------------------------------------------------------------------ End Diagnostic opt ------------------------------------------------------------------------ Overflow diagnostics written to file: /ptmp/mai/b40.1850.track1.1deg.006/run/b40.1850.track1.1deg.006.pop.do.0089-01-01-00000 regular restart writes will start at step 0 ======================================================================== History output options ------------------------------------------------------------------------ History output disabled ------------------------------------------------------------------------ Movie option ------------------------------------------------------------------------ ======================================================================== Movie: movie_nml namelist settings: &MOVIE_NML MOVIE_FREQ_OPT=never , MOVIE_FREQ=1, MOVIE_OUTFILE=./b40.1850.track1.1deg.006.pop.hm , MOVIE_CONTENTS=/ptmp/mai/b40.1850.track1.1deg.006/ocn/input/gx1v6_movie_contents , MOVIE_FMT=nc / movie diagnostics of ======================================================================== Tavg: ------------------------------------------------------------------------ tavg_nml namelist settings: &TAVG_NML TAVG_FREQ_OPT=nmonth , TAVG_FREQ=1, TAVG_INFILE=./b40.1850.track1.1deg.006.pop.hrestart.end , TAVG_OUTFILE=./b40.1850.track1.1deg.006.pop.h , TAVG_CONTENTS=/ptmp/mai/b40.1850.track1.1deg.006/ocn/input/gx1v6_tavg_contents , TAVG_START_OPT=nstep , TAVG_START=0, TAVG_FMT_IN=nc , TAVG_FMT_OUT=nc , LTAVG_NINO_DIAGS=T, LTAVG_HAS_OFFSET_DATE=F, TAVG_OFFSET_YEAR=1, TAVG_OFFSET_MONTH=1, TAVG_OFFSET_DAY=2 / ------------------------------------------------------------------------ tavg diagnostics every 1 months tavg sums accumulated starting at step 0 define_tavg_field: id = 126 BSF There are 80 tavg fields requested via tavg_contents. tavg diagnostics requested for fields: QFLUX BSF TFW_T TFW_S RESID_T RESID_S QSW_HTP QSW_HBL SHF SHF_QSW SFWF PREC_F SNOW_F EVAP_F MELT_F ROFF_F IOFF_F SALT_F SENH_F LWUP_F LWDN_F MELTH_F IFRAC SSH TAUX TAUY SU SV HMXL XMXL TMXL HBLT XBLT TBLT FW ADVT ADVS HDIFT HDIFS UVEL VVEL WVEL TEMP dTEMP_POS_2D dTEMP_NEG_2D SALT PD Q RHO UET UES VNT VNS WTT WTS KAPPA_ISOP KAPPA_THIC HOR_DIFF PV UISOP VISOP WISOP ADVT_ISOP ADVS_ISOP VNT_ISOP VNS_ISOP KVMIX TPOWER DIA_DEPTH TLT INT_DEPTH USUBM VSUBM WSUBM ADVT_SUBM ADVS_SUBM VNT_SUBM VNS_SUBM HLS_SUBM IAGE ======================================================================== Barotropic Streamfunction Diagnostic: bsf_diagnostic_nml namelist settings: &BSF_DIAGNOSTIC_NML LDIAG_BSF=T / Initializing diagnostic BSF variables .... number of islands = 35 island 1 # points on boundary = 500 island 2 # points on boundary = 1763 island 3 # points on boundary = 44 island 4 # points on boundary = 2330 island 5 # points on boundary = 14 island 6 # points on boundary = 8 island 7 # points on boundary = 8 island 8 # points on boundary = 94 island 9 # points on boundary = 8 island 10 # points on boundary = 58 island 11 # points on boundary = 56 island 12 # points on boundary = 8 island 13 # points on boundary = 21 island 14 # points on boundary = 472 island 15 # points on boundary = 16 island 16 # points on boundary = 14 island 17 # points on boundary = 44 island 18 # points on boundary = 128 island 19 # points on boundary = 16 island 20 # points on boundary = 22 island 21 # points on boundary = 14 island 22 # points on boundary = 56 island 23 # points on boundary = 24 island 24 # points on boundary = 24 island 25 # points on boundary = 18 island 26 # points on boundary = 8 island 27 # points on boundary = 70 island 28 # points on boundary = 10 island 29 # points on boundary = 10 island 30 # points on boundary = 8 island 31 # points on boundary = 14 island 32 # points on boundary = 34 island 33 # points on boundary = 8 island 34 # points on boundary = 32 island 35 # points on boundary = 12 island coefficients: island 1 coefficient = -342.065849211389093 island 2 coefficient = -1081.57639039629862 island 3 coefficient = -36.3214440006148465 island 4 coefficient = -1430.03121351935579 island 5 coefficient = -10.3586397347403487 island 6 coefficient = -3.43863814922055777 island 7 coefficient = -11.3186625866052744 island 8 coefficient = -55.7548100369990252 island 9 coefficient = -19.2818224871181343 island 10 coefficient = -44.4635017900952079 island 11 coefficient = -39.4207603751023754 island 12 coefficient = -10.5066377649549736 island 13 coefficient = -24.3593168124559547 island 14 coefficient = -376.069185571957121 island 15 coefficient = -31.8482616686224667 island 16 coefficient = -14.7284219388453650 island 17 coefficient = -49.4991249925430736 island 18 coefficient = -95.3971300688251347 island 19 coefficient = -34.7871545591952724 island 20 coefficient = -32.3446545602341686 island 21 coefficient = -23.5895845128127881 island 22 coefficient = -37.7042718854958281 island 23 coefficient = -19.0002030799944492 island 24 coefficient = -15.2638322786330640 island 25 coefficient = -20.0387490549100420 island 26 coefficient = -15.5023992311597461 island 27 coefficient = -52.0819547854241520 island 28 coefficient = -9.95405658931480275 island 29 coefficient = -19.0791575464352903 island 30 coefficient = -14.5418973646152754 island 31 coefficient = -23.6682185450111611 island 32 coefficient = -39.2381968899928779 island 33 coefficient = -16.5856905262603398 island 34 coefficient = -49.2625734766268479 island 35 coefficient = -13.4814208183381474 ======================================================================== Transport Diagnostics: transports_nml namelist settings: &TRANSPORTS_NML LAT_AUX_GRID_TYPE=southern , LAT_AUX_BEGIN=-90.0000000000000000, LAT_AUX_END=90.0000000000000000, N_LAT_AUX_GRID=180, MOC=T, N_HEAT_TRANS=T, N_SALT_TRANS=T, TRANSPORT_REG2_NAMES=Atlantic Ocean Mediterranean Sea Labrador Sea GIN Sea Arctic Ocean Hudson Bay , N_TRANSPORT_REG=2 / Transport Diagnostics Information _________________________________ Latitudinal Auxiliary Grid Choice is: ... based on flipped Southern Hemisphere latititude grid Transport diagnostics include: MOC N_HEAT N_SALT The following 6 regions will be included in the n_transport_reg = 2 transports: Atlantic Ocean ( 6) Mediterranean Sea ( 7) Labrador Sea ( 8) GIN Sea ( 9) Arctic Ocean (10) Hudson Bay (11) (init_moc_ts_transport_arrays) allocate TR_TRANS_G End of transport regions initialization ======================================================================== ======================================================================== Budget Diagnostics: budget_diagnostics_nml namelist settings: &BUDGET_DIAGNOSTICS_NML LDIAG_GLOBAL_TRACER_BUDGETS=T / ------------------------------------------------------------------------ Budget Diagnostic Options ------------------------------------------------------------------------ Global tracer budgets diagnostics will be computed (init_budget_diag): tracer budgets are for every 1 months ======================================================================== POP_check: Check for Option Inconsistencies Warning: time-averaging and coupling frequency may be incompatible; tavg must be integer multiple of coupling freq No fatal error conditions detected ======================================================================== Constants used in this run: grav = 9.806160000000000E+02 cm/s^2 omega = 7.292123516990375E-05 rad/s radius = 6.371220000000000E+08 cm cp_sw = 3.996000000000000E+07 erg/g/K cp_air = 1.004640000000000E+03 J/kg/K rho_air = 1.292318284692468E+00 kg/m^3 rho_sw = 1.026000000000000E+00 g/cm^3 rho_fw = 1.000000000000000E+00 g/cm^3 sound = 1.500000000000000E+05 cm/s vonkar = 4.000000000000000E-01 emissivity = 1.000000000000000E+00 stefan_boltzmann = 5.670000000000000E-08 W/m^2/K^4 latent_heat_vapor = 2.501000000000000E+06 J/kg latent_heat_fusion = 3.337000000000000E+09 erg/g ocn_ref_salinity = 3.470000000000000E+01 psu sea_ice_salinity = 4.000000000000000E+00 psu T0_Kelvin = 2.731500000000000E+02 K pi = 3.141592653589793E+00 ======================================================================== (ocn_import_mct) orb_eccen = 1.6707719799280658E-02 (ocn_import_mct) orb_mvelpp = 4.9344679089867318E+00 (ocn_import_mct) orb_lambm0 = -3.2503635878519378E-02 (ocn_import_mct) orb_obliqr = 4.0912382465788016E-01 ======================================================================== Time Flags time_flag id = 1 name = stop_now owner = init_time1 has_default = T default = F freq_opt = 0 (never) freq = 0 value = F old_value = F has_offset_date = F time_flag id = 2 name = coupled_ts owner = pop_init_coupled has_default = F default = F freq_opt = 4 (nhour) freq = 24 value = F old_value = T has_offset_date = F time_flag id = 3 name = ice owner = init_ice has_default = T default = F freq_opt = 0 (never) freq = 100000 value = F old_value = F has_offset_date = F time_flag id = 4 name = diag_global owner = init_diagnostics has_default = T default = F freq_opt = 2 (nmonth) freq = 1 value = F old_value = F has_offset_date = F time_flag id = 5 name = diag_cfl owner = init_diagnostics has_default = T default = F freq_opt = 2 (nmonth) freq = 1 value = F old_value = F has_offset_date = F time_flag id = 6 name = diag_transp owner = init_diagnostics has_default = T default = F freq_opt = 2 (nmonth) freq = 1 value = F old_value = F has_offset_date = F time_flag id = 7 name = restart owner = init_restart has_default = T default = F freq_opt = 1 (nyear) freq = 100000 value = F old_value = F has_offset_date = F time_flag id = 8 name = evenodd owner = init_restart has_default = T default = F freq_opt = 0 (never) freq = 100000 value = F old_value = F has_offset_date = F time_flag id = 9 name = cpl_write_restart owner = ocn_init_mct has_default = F default = F freq_opt = 0 (never) freq = 0 value = F old_value = F has_offset_date = F time_flag id = 10 name = history owner = init_history has_default = T default = F freq_opt = 0 (never) freq = 1 value = F old_value = F has_offset_date = F time_flag id = 11 name = movie owner = init_movie has_default = T default = F freq_opt = 0 (never) freq = 1 value = F old_value = F has_offset_date = F time_flag id = 12 name = tavg owner = init_tavg has_default = T default = F freq_opt = 2 (nmonth) freq = 1 value = T old_value = F has_offset_date = F time_flag id = 13 name = cpl_write_history owner = ocn_init_mct has_default = F default = F freq_opt = 0 (never) freq = 0 value = F old_value = F has_offset_date = F time_flag id = 14 name = cpl_write_tavg owner = ocn_init_mct has_default = F default = F freq_opt = 0 (never) freq = 0 value = F old_value = F has_offset_date = F time_flag id = 15 name = cpl_diag_global owner = ocn_init_mct has_default = F default = F freq_opt = 0 (never) freq = 0 value = F old_value = F has_offset_date = F time_flag id = 16 name = cpl_diag_transp owner = ocn_init_mct has_default = F default = F freq_opt = 0 (never) freq = 0 value = F old_value = F has_offset_date = F ======================================================================== End of initialization ======================================================================== VOLUME AND TRACER BUDGET INITIALIZATION: ======================================== volume_t (cm^3) = 0.132514028745E+25 SUM [volume*T] (C cm^3) = 0.466148215177E+25 SUM [volume*S] (ppt cm^3) = 0.460109284561E+26 (time_manager) ocn date 0089-jan-02, 0.000000E+00 sec (time_manager) ocn date 0089-jan-03, 0.000000E+00 sec (time_manager) ocn date 0089-jan-04, 0.000000E+00 sec (time_manager) ocn date 0089-jan-05, 0.000000E+00 sec (time_manager) ocn date 0089-jan-06, 0.000000E+00 sec (time_manager) ocn date 0089-jan-07, 0.000000E+00 sec (time_manager) ocn date 0089-jan-08, 0.000000E+00 sec (time_manager) ocn date 0089-jan-09, 0.000000E+00 sec (time_manager) ocn date 0089-jan-10, 0.000000E+00 sec (time_manager) ocn date 0089-jan-11, 0.000000E+00 sec (time_manager) ocn date 0089-jan-12, 0.000000E+00 sec (time_manager) ocn date 0089-jan-13, 0.000000E+00 sec (time_manager) ocn date 0089-jan-14, 0.000000E+00 sec (time_manager) ocn date 0089-jan-15, 0.000000E+00 sec (time_manager) ocn date 0089-jan-16, 0.000000E+00 sec (time_manager) ocn date 0089-jan-17, 0.000000E+00 sec (time_manager) ocn date 0089-jan-18, 0.000000E+00 sec (time_manager) ocn date 0089-jan-19, 0.000000E+00 sec (time_manager) ocn date 0089-jan-20, 0.000000E+00 sec (time_manager) ocn date 0089-jan-21, 0.000000E+00 sec (time_manager) ocn date 0089-jan-22, 0.000000E+00 sec (time_manager) ocn date 0089-jan-23, 0.000000E+00 sec (time_manager) ocn date 0089-jan-24, 0.000000E+00 sec (time_manager) ocn date 0089-jan-25, 0.000000E+00 sec (time_manager) ocn date 0089-jan-26, 0.000000E+00 sec (time_manager) ocn date 0089-jan-27, 0.000000E+00 sec (time_manager) ocn date 0089-jan-28, 0.000000E+00 sec (time_manager) ocn date 0089-jan-29, 0.000000E+00 sec (time_manager) ocn date 0089-jan-30, 0.000000E+00 sec (time_manager) ocn date 0089-jan-31, 0.000000E+00 sec (time_manager) ocn date 0089-feb-01, 0.000000E+00 sec Step number : 803750 Date : 01 feb 0089 Hour : 0 Minute : 0 Second : 0 Time(years) : 88.084932 max. cfl number for zonal advection : 7.6811E-02 20 371 33 max. cfl number for meridional advection : 7.6799E-02 138 214 1 max. cfl number for vertical advection : 3.2693E-01 29 336 16 max. cfl number for total advection : 3.3439E-01 29 336 16 max. cfl number for horizontal tracer mixing : 6.0948E-01 175 380 6 max. cfl number for horiz. momentum mixing : 1.2672E-01 318 214 56 K.E. diagnostics: mean K.E. : 8.598914892508482E+00 K.E. change from horiz. visc. :-3.682565629876858E-06 K.E. change from vert. visc. : 1.056515561542658E-05 K.E. change from wind stress : 3.130783406862451E-05 advective K.E. balance :-7.746695874205293E-10 : 1.183338453731043E-10 P.E. verses pressure work : 7.220574681688717E-04 :-6.740696522195150E-06 surface-pressure contribution :-5.350496400785589E-08 :-5.565876252973200E-08 Tracer diagnostics: mean value of tracer 1 : 3.518986670016351E+00 abs change in tracer 1 : 1.512156833798034E-07 mean change in tracer 1 : 3.005700251718203E-09 mean change in tracer 1 from advection :-1.886592705711599E-25 mean change in tracer 1 from horiz. diff.:-3.537361323209248E-26 mean change in tracer 1 from vert. diff.:-1.243624383121588E-08 mean change in tracer 1 from sources : 1.528098251167990E-08 surface flux of tracer 1 : 0.000000000000000E+00 mean value of tracer 2 : 3.472154140550126E+01 abs change in tracer 2 : 1.375545423816124E-11 mean change in tracer 2 : 7.395308744802014E-14 mean change in tracer 2 from advection :-6.218017950953757E-28 mean change in tracer 2 from horiz. diff.: 6.117263030452191E-30 mean change in tracer 2 from vert. diff.: 1.324071389162268E-14 mean change in tracer 2 from sources :-2.001355401095919E-31 surface flux of tracer 2 : 0.000000000000000E+00 mean value of tracer 3 : 2.223841481376517E+02 abs change in tracer 3 : 2.569609645323307E-06 mean change in tracer 3 : 1.831232613457519E-08 mean change in tracer 3 from advection :-5.282459575992477E-23 mean change in tracer 3 from horiz. diff.:-9.432963528557995E-26 mean change in tracer 3 from vert. diff.: 2.038186741949376E-25 mean change in tracer 3 from sources : 3.162337335760043E-08 surface flux of tracer 3 : 0.000000000000000E+00 Other diagnostics: global mean sea level: 5.066014771901568E-05 residual, scans : 7.749619994073756E-14 240 Timing information: Timer number 1 Time = 31.14 seconds HMIX_MOMENTUM_ANISO Timer number 2 Time = 28.32 seconds HMIX_TRACER_GM_NLOOP Timer number 3 Time = 157.24 seconds HMIX_TRACER_GM Timer number 4 Time = 85.36 seconds VMIX_COEFFICIENTS_KPP Timer number 5 Time = 4.39 seconds VMIX_EXPLICIT_TRACER Timer number 6 Time = 2.16 seconds VMIX_EXPLICIT_MOMENTUM Timer number 7 Time = 13.62 seconds VMIX_IMPLICIT_TRACER Timer number 8 Time = 3.30 seconds VMIX_IMPLICIT_MOMENTUM Timer number 9 Time = 0.48 seconds COMPUTE_COSZ Timer number 10 Time = 5.85 seconds ADVECTION_MOMENTUM Timer number 11 Time = 30.51 seconds ADVECTION_TRACER_UPWIND3 Timer number 12 Time = 0.00 seconds MOC Timer number 13 Time = 0.00 seconds TRACER_TRANSPORTS Timer number 14 Time = 0.00 seconds TAVG_WRITE_STD Timer number 15 Time = 0.00 seconds TAVG_WRITE_NONSTD Timer number 16 Time = 0.00 seconds TAVG_CCSM_DIAGS_BSF Timer number 17 Time = 0.00 seconds TAVG_CCSM_DIAGS_MOC Timer number 18 Time = 0.00 seconds TAVG_CCSM_DIAGS_TRANS Timer number 19 Time = 470.53 seconds STEP Timer number 20 Time = 399.72 seconds BAROCLINIC Timer number 21 Time = 54.53 seconds BAROTROPIC Timer number 22 Time = 9.54 seconds 3D-UPDATE Timer number 23 Time = 470.92 seconds TOTAL Timer number 24 Time = 0.01 seconds OUTPUT Timer number 25 Time = 0.00 seconds OUTPUT TAVG Timer number 26 Time = 0.01 seconds OUTPUT REST ------------------------------------------------------------------------ (diag_print) file written: /ptmp/mai/b40.1850.track1.1deg.006/run/b40.1850.track1.1deg.006.pop.dd.0089-01-01-00000 (diag_transport) file written: /ptmp/mai/b40.1850.track1.1deg.006/run/b40.1850.track1.1deg.006.pop.dt.0089-01-01-00000 AFTER CALL IN tracer_budgets (final): ===================================== volume_t (cm^3) = 0.132514028745E+25 SUM [volume*T] (C cm^3) = 0.466314454478E+25 SUM [volume*S] (ppt cm^3) = 0.460109133176E+26 VOLUME AND TRACER BUDGETS: ========================== Please note the following about the budgets: * These budgets are meaningful when time-averaging starts at the first time step of an intended budget interval. * Positive-signed quantities ==> ocean gain Negative-signed quantities ==> ocean loss * The imbalance should be small in comparison to the tendency term, except for the volume budget when a fixed-volume ocean is used (e.g., when lfw_as_salt_flx = .false.) * These budgets are computed from single-precision TAVG terms, which contributes to inaccuracy in the imbalance term. VOLUME BUDGET FOR THE GIVEN TAVG INTERVAL (cm/s): ------------------------------------------------- tendency = -.552535109983E-13 FW flux = 0.000000000000E+00 Imbalance = 0.552535109983E-13 Imbalance = -tendency + FW flux HEAT BUDGET FOR THE GIVEN TAVG INTERVAL (W/m^2): ------------------------------------------------ tendency = 0.704620519820E+01 SHF flux = 0.689441166038E+01 ice formation = 0.151793998665E+00 FW heat content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = 0.460847363770E-06 Imbalance = -tendency + SHF flux + ice formation + FW heat content + free-srf non-consv. IMPLIED FW BUDGET FOR THE GIVEN TAVG INTERVAL (kg of freshwater/m^2/s): ----------------------------------------------------- tendency = 0.451026966192E-06 SFWF flux = 0.853472657316E-06 ice formation = -.402445703878E-06 FW salt content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = -.127542742539E-13 Imbalance = -tendency + SFWF flux + ice formation + FW salt content + free-srf non-consv. Global Time Averages: 02-01-0089 00:00:00 KAPPA_ISOP: 3487536.73678094381 KAPPA_THIC: 3951229.75508475490 HOR_DIFF: 508961.523456427618 DIA_DEPTH: 5972.80307647319660 TLT: 411.468337483176754 INT_DEPTH: 6384.26619801254674 UISOP: 0.562416363058444802E-04 VISOP: -0.319791969800856308E-03 WISOP: -0.779552009330559629E-14 ADVT_ISOP: 0.296644513231683580E-10 ADVS_ISOP: 0.105754494000087871E-14 VNT_ISOP: -0.560711848420747734E-10 VNS_ISOP: -0.195679120026580656E-11 USUBM: -0.266569070851008358E-04 VSUBM: 0.991723775310188763E-04 WSUBM: -0.134548357056616994E-08 HLS_SUBM: 741639.077565481653 ADVT_SUBM: -0.156214448673019132E-11 ADVS_SUBM: 0.535348138777131443E-15 VNT_SUBM: 0.335695810675882596E-09 VNS_SUBM: 0.749825406214322303E-12 HDIFT: -0.375085967584714742E-10 HDIFS: -0.309721777148726261E-14 QSW_HBL: 163.351843880962804 KVMIX: 1.37279762424030394 TPOWER: 0.221785353299362764E-05 UVEL: 0.303052300645112849 VVEL: 0.131526313477951426E-02 TEMP: 3.51667257963216073 dTEMP_POS_2D: 0.797279527565048773E-01 dTEMP_NEG_2D: -0.619931409559034974E-01 SALT: 0.347215030145653775E-01 RHO: 1.03743373178631915 RESID_T: 0.000000000000000000E+00 RESID_S: 0.000000000000000000E+00 SU: 108699.654460091188 SV: 423.391738426325048 SSH: 0.506726800145307609E-04 SHF: 6.89441166038002340 SHF_QSW: 192.152285063381186 SFWF: 0.853472657315828604E-06 TAUX: 0.341443524112468103E-01 TAUY: -0.831598796834224219E-01 FW: 0.000000000000000000E+00 TFW_T: 0.000000000000000000E+00 TFW_S: 0.000000000000000000E+00 EVAP_F: -0.430680732261716557E-04 PREC_F: 0.369835118705399946E-04 SNOW_F: 0.114976155761591787E-05 MELT_F: 0.396246139670374367E-05 ROFF_F: 0.316704713162695758E-05 IOFF_F: 0.138977920709916752E-06 SALT_F: 0.114661974351016988E-07 SENH_F: -16.1588404959106491 LWUP_F: -390.219409335262412 LWDN_F: 331.490404180861958 MELTH_F: -2.22671668902159414 IFRAC: 0.703854915850018470E-01 IAGE: 222.359375454467681 WVEL: 0.766320577675268719E-06 UET: 0.347842223012212019E-07 VNT: 0.135111267792371569E-06 WTT: -0.175672712389598675E-07 UES: 0.150512919327690398E-08 VNS: -0.340771437514448956E-11 WTS: 0.619787966106462399E-12 ADVT: -0.209894076524043384E-10 ADVS: -0.275289494165369814E-14 PV: 0.117577432138234177E-12 Q: -0.981495475608765905E-08 PD: 1.02752280527413520 QSW_HTP: 140.623164889223261 QFLUX: 0.151793998665294028 HMXL: 5974.84554667502925 XMXL: 7145.49444702889377 TMXL: 4570.76978409756975 HBLT: 4267.91395107561129 XBLT: 6896.49926836356008 TBLT: 961.813088399158119 BSF: 0.000000000000000000E+00 convergence info from pcg_diag_bsf: iter = 0 rms_resid = 0.114292604015045332 iter = 100 rms_resid = 0.419904320501741490E-02 iter = 200 rms_resid = 0.872511971260164819E-03 iter = 300 rms_resid = 0.335412865810883539E-03 iter = 400 rms_resid = 0.237980849292726961E-03 iter = 500 rms_resid = 0.179397431401920538E-03 iter = 600 rms_resid = 0.492314476469241574E-04 iter = 700 rms_resid = 0.160101718836286588E-04 iter = 800 rms_resid = 0.188529140446045084E-05 iter = 900 rms_resid = 0.153235764881047594E-06 Local Time- and Space-Averages for Nino Regions: 00:00:00 0089-02-01 NINO_1_PLUS_2: 26.3355575509332880 NINO_3: 26.2417851586030721 NINO_3_POINT_4: 26.9880266224288548 NINO_4: 28.4797263120881290 tavg file written: ./b40.1850.track1.1deg.006.pop.h.0089-01.nc (time_manager) ocn date 0089-feb-02, 0.000000E+00 sec (time_manager) ocn date 0089-feb-03, 0.000000E+00 sec (time_manager) ocn date 0089-feb-04, 0.000000E+00 sec (time_manager) ocn date 0089-feb-05, 0.000000E+00 sec (time_manager) ocn date 0089-feb-06, 0.000000E+00 sec (time_manager) ocn date 0089-feb-07, 0.000000E+00 sec (time_manager) ocn date 0089-feb-08, 0.000000E+00 sec (time_manager) ocn date 0089-feb-09, 0.000000E+00 sec (time_manager) ocn date 0089-feb-10, 0.000000E+00 sec (time_manager) ocn date 0089-feb-11, 0.000000E+00 sec (time_manager) ocn date 0089-feb-12, 0.000000E+00 sec (time_manager) ocn date 0089-feb-13, 0.000000E+00 sec (time_manager) ocn date 0089-feb-14, 0.000000E+00 sec (time_manager) ocn date 0089-feb-15, 0.000000E+00 sec (time_manager) ocn date 0089-feb-16, 0.000000E+00 sec (time_manager) ocn date 0089-feb-17, 0.000000E+00 sec (time_manager) ocn date 0089-feb-18, 0.000000E+00 sec (time_manager) ocn date 0089-feb-19, 0.000000E+00 sec (time_manager) ocn date 0089-feb-20, 0.000000E+00 sec (time_manager) ocn date 0089-feb-21, 0.000000E+00 sec (time_manager) ocn date 0089-feb-22, 0.000000E+00 sec (time_manager) ocn date 0089-feb-23, 0.000000E+00 sec (time_manager) ocn date 0089-feb-24, 0.000000E+00 sec (time_manager) ocn date 0089-feb-25, 0.000000E+00 sec (time_manager) ocn date 0089-feb-26, 0.000000E+00 sec (time_manager) ocn date 0089-feb-27, 0.000000E+00 sec (time_manager) ocn date 0089-feb-28, 0.000000E+00 sec (time_manager) ocn date 0089-mar-01, 0.000000E+00 sec Step number : 804450 Date : 01 mar 0089 Hour : 0 Minute : 0 Second : 0 Time(years) : 88.161644 max. cfl number for zonal advection : 8.3693E-02 7 367 1 max. cfl number for meridional advection : 7.2078E-02 1 363 1 max. cfl number for vertical advection : 7.2783E-01 320 362 20 max. cfl number for total advection : 7.5118E-01 320 362 20 max. cfl number for horizontal tracer mixing : 6.0948E-01 175 380 6 max. cfl number for horiz. momentum mixing : 1.2672E-01 318 214 56 K.E. diagnostics: mean K.E. : 8.946705505460102E+00 K.E. change from horiz. visc. :-3.884604407394869E-06 K.E. change from vert. visc. : 9.929056632326950E-06 K.E. change from wind stress : 3.421938009255801E-05 advective K.E. balance :-7.314594495372638E-10 : 1.263339898133308E-10 P.E. verses pressure work : 6.915294563403329E-04 :-6.363457627266932E-06 surface-pressure contribution : 7.972706536960908E-07 :-9.351296762066756E-07 Tracer diagnostics: mean value of tracer 1 : 3.520471592981230E+00 abs change in tracer 1 : 1.456585575495575E-07 mean change in tracer 1 : 2.345617749395850E-09 mean change in tracer 1 from advection :-4.221251179029703E-24 mean change in tracer 1 from horiz. diff.: 5.306041984813872E-26 mean change in tracer 1 from vert. diff.:-1.262821667972764E-08 mean change in tracer 1 from sources : 1.481748361790542E-08 surface flux of tracer 1 : 0.000000000000000E+00 mean value of tracer 2 : 3.472154347985380E+01 abs change in tracer 2 : 1.325323160374600E-11 mean change in tracer 2 : 5.982447990954827E-14 mean change in tracer 2 from advection : 7.369502756685933E-28 mean change in tracer 2 from horiz. diff.: 1.943130609673049E-29 mean change in tracer 2 from vert. diff.: 8.512182636941889E-16 mean change in tracer 2 from sources :-2.713919585154052E-31 surface flux of tracer 2 : 0.000000000000000E+00 mean value of tracer 3 : 2.224260174621564E+02 abs change in tracer 3 : 2.421500537645441E-06 mean change in tracer 3 : 1.608968029135355E-08 mean change in tracer 3 from advection :-8.753790154501820E-23 mean change in tracer 3 from horiz. diff.: 1.886592705711599E-25 mean change in tracer 3 from vert. diff.: 5.089232333445157E-25 mean change in tracer 3 from sources : 3.162337335760043E-08 surface flux of tracer 3 : 0.000000000000000E+00 Other diagnostics: global mean sea level: 5.004589961695972E-05 residual, scans : 7.917332188947335E-14 240 Timing information: Timer number 1 Time = 59.30 seconds HMIX_MOMENTUM_ANISO Timer number 2 Time = 53.89 seconds HMIX_TRACER_GM_NLOOP Timer number 3 Time = 299.75 seconds HMIX_TRACER_GM Timer number 4 Time = 162.17 seconds VMIX_COEFFICIENTS_KPP Timer number 5 Time = 8.34 seconds VMIX_EXPLICIT_TRACER Timer number 6 Time = 4.13 seconds VMIX_EXPLICIT_MOMENTUM Timer number 7 Time = 25.91 seconds VMIX_IMPLICIT_TRACER Timer number 8 Time = 6.28 seconds VMIX_IMPLICIT_MOMENTUM Timer number 9 Time = 0.91 seconds COMPUTE_COSZ Timer number 10 Time = 11.17 seconds ADVECTION_MOMENTUM Timer number 11 Time = 58.06 seconds ADVECTION_TRACER_UPWIND3 Timer number 12 Time = 2.21 seconds MOC Timer number 13 Time = 2.21 seconds TRACER_TRANSPORTS Timer number 14 Time = 37.91 seconds TAVG_WRITE_STD Timer number 15 Time = 2.02 seconds TAVG_WRITE_NONSTD Timer number 16 Time = 2.09 seconds TAVG_CCSM_DIAGS_BSF Timer number 17 Time = 2.21 seconds TAVG_CCSM_DIAGS_MOC Timer number 18 Time = 2.21 seconds TAVG_CCSM_DIAGS_TRANS Timer number 19 Time = 897.30 seconds STEP Timer number 20 Time = 760.11 seconds BAROCLINIC Timer number 21 Time = 105.28 seconds BAROTROPIC Timer number 22 Time = 18.18 seconds 3D-UPDATE Timer number 23 Time = 944.90 seconds TOTAL Timer number 24 Time = 46.89 seconds OUTPUT Timer number 25 Time = 46.88 seconds OUTPUT TAVG Timer number 26 Time = 0.01 seconds OUTPUT REST ------------------------------------------------------------------------ (diag_print) file written: /ptmp/mai/b40.1850.track1.1deg.006/run/b40.1850.track1.1deg.006.pop.dd.0089-01-01-00000 (diag_transport) file written: /ptmp/mai/b40.1850.track1.1deg.006/run/b40.1850.track1.1deg.006.pop.dt.0089-01-01-00000 AFTER CALL IN tracer_budgets (final): ===================================== volume_t (cm^3) = 0.132514028745E+25 SUM [volume*T] (C cm^3) = 0.466511367095E+25 SUM [volume*S] (ppt cm^3) = 0.460109160920E+26 VOLUME AND TRACER BUDGETS: ========================== Please note the following about the budgets: * These budgets are meaningful when time-averaging starts at the first time step of an intended budget interval. * Positive-signed quantities ==> ocean gain Negative-signed quantities ==> ocean loss * The imbalance should be small in comparison to the tendency term, except for the volume budget when a fixed-volume ocean is used (e.g., when lfw_as_salt_flx = .false.) * These budgets are computed from single-precision TAVG terms, which contributes to inaccuracy in the imbalance term. VOLUME BUDGET FOR THE GIVEN TAVG INTERVAL (cm/s): ------------------------------------------------- tendency = -.253911628428E-12 FW flux = 0.000000000000E+00 Imbalance = 0.253911628428E-12 Imbalance = -tendency + FW flux HEAT BUDGET FOR THE GIVEN TAVG INTERVAL (W/m^2): ------------------------------------------------ tendency = 0.924057055461E+01 SHF flux = 0.907118148127E+01 ice formation = 0.169389311362E+00 FW heat content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = 0.238027780486E-06 Imbalance = -tendency + SHF flux + ice formation + FW heat content + free-srf non-consv. IMPLIED FW BUDGET FOR THE GIVEN TAVG INTERVAL (kg of freshwater/m^2/s): ----------------------------------------------------- tendency = -.915175828278E-07 SFWF flux = 0.357578289495E-06 ice formation = -.449095492837E-06 FW salt content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = 0.379485464703E-12 Imbalance = -tendency + SFWF flux + ice formation + FW salt content + free-srf non-consv. Global Time Averages: 03-01-0089 00:00:00 KAPPA_ISOP: 3641624.43490338651 KAPPA_THIC: 4179536.01474689227 HOR_DIFF: 583317.245082736830 DIA_DEPTH: 6850.32188237739592 TLT: 475.187406964786931 INT_DEPTH: 7325.50568571638905 UISOP: 0.396635742409093701E-04 VISOP: -0.286852102693349955E-03 WISOP: -0.145903954290126503E-12 ADVT_ISOP: -0.144823932107014003E-10 ADVS_ISOP: 0.224054666662974196E-14 VNT_ISOP: 0.161408197814109971E-09 VNS_ISOP: -0.172430571405481147E-11 USUBM: -0.219246818569210456E-04 VSUBM: 0.112183168814427355E-03 WSUBM: -0.304215056581376356E-08 HLS_SUBM: 735073.632856549928 ADVT_SUBM: 0.344560513771112040E-11 ADVS_SUBM: 0.157741517550486012E-15 VNT_SUBM: 0.569626896841420934E-09 VNS_SUBM: 0.853596448130833832E-12 HDIFT: -0.200582336723514892E-11 HDIFS: 0.251948371872554728E-14 QSW_HBL: 162.870814808715181 KVMIX: 1.38096884398944320 TPOWER: 0.223297209405926503E-05 UVEL: 0.320256428221815326 VVEL: 0.960646117827829095E-03 TEMP: 3.51825320615348769 dTEMP_POS_2D: 0.871774591727429438E-01 dTEMP_NEG_2D: -0.660679948904379921E-01 SALT: 0.347215038018202707E-01 RHO: 1.03743331971653441 RESID_T: 0.000000000000000000E+00 RESID_S: 0.000000000000000000E+00 SU: 114868.426901279483 SV: 293.145506800548787 SSH: 0.504061776111047971E-04 SHF: 9.07118148127210056 SHF_QSW: 190.653548437353436 SFWF: 0.357578289495184292E-06 TAUX: 0.690810011702421845E-01 TAUY: -0.984937561855600829E-01 FW: 0.000000000000000000E+00 TFW_T: 0.000000000000000000E+00 TFW_S: 0.000000000000000000E+00 EVAP_F: -0.419554264219262058E-04 PREC_F: 0.373372426031128699E-04 SNOW_F: 0.123836644640081844E-05 MELT_F: 0.182507628450915770E-05 ROFF_F: 0.308557999117653362E-05 IOFF_F: 0.185480177441214007E-06 SALT_F: 0.417658003438119396E-08 SENH_F: -15.7680903203167020 LWUP_F: -392.827835083214723 LWDN_F: 334.099916074548560 MELTH_F: -1.68069706784413953 IFRAC: 0.646236449277258901E-01 IAGE: 222.404975802382893 WVEL: 0.730412694298190662E-06 UET: 0.334621852690237892E-08 VNT: 0.140639702246546064E-06 WTT: -0.170750406303451559E-07 UES: 0.156690032644884131E-08 VNS: -0.720281567414553467E-11 WTS: 0.931497923663418941E-12 ADVT: 0.225763645077091386E-10 ADVS: 0.762065830319451568E-14 PV: 0.143291047790524917E-12 Q: -0.989613005766387536E-08 PD: 1.02752238355748227 QSW_HTP: 139.466337747604769 QFLUX: 0.169389311361802686 HMXL: 6853.00967423911698 XMXL: 8089.89025742619378 TMXL: 4859.43215683936887 HBLT: 4524.67659270999957 XBLT: 7671.61528787290990 TBLT: 978.859043565232923 BSF: 0.000000000000000000E+00 convergence info from pcg_diag_bsf: iter = 0 rms_resid = 0.108197384989984755 iter = 100 rms_resid = 0.426518337645037399E-02 iter = 200 rms_resid = 0.929743474572765219E-03 iter = 300 rms_resid = 0.375784811612651481E-03 iter = 400 rms_resid = 0.254419670794699983E-03 iter = 500 rms_resid = 0.196271115588918027E-03 iter = 600 rms_resid = 0.516173005215439943E-04 iter = 700 rms_resid = 0.155007964200675602E-04 iter = 800 rms_resid = 0.180882524264933168E-05 iter = 900 rms_resid = 0.145685113222296290E-06 Local Time- and Space-Averages for Nino Regions: 00:00:00 0089-03-01 NINO_1_PLUS_2: 27.3088554835180446 NINO_3: 26.0111205845742468 NINO_3_POINT_4: 26.8979824225127864 NINO_4: 28.3710289277057441 tavg file written: ./b40.1850.track1.1deg.006.pop.h.0089-02.nc (time_manager) ocn date 0089-mar-02, 0.000000E+00 sec (time_manager) ocn date 0089-mar-03, 0.000000E+00 sec (time_manager) ocn date 0089-mar-04, 0.000000E+00 sec (time_manager) ocn date 0089-mar-05, 0.000000E+00 sec (time_manager) ocn date 0089-mar-06, 0.000000E+00 sec (time_manager) ocn date 0089-mar-07, 0.000000E+00 sec (time_manager) ocn date 0089-mar-08, 0.000000E+00 sec (time_manager) ocn date 0089-mar-09, 0.000000E+00 sec (time_manager) ocn date 0089-mar-10, 0.000000E+00 sec (time_manager) ocn date 0089-mar-11, 0.000000E+00 sec (time_manager) ocn date 0089-mar-12, 0.000000E+00 sec (time_manager) ocn date 0089-mar-13, 0.000000E+00 sec (time_manager) ocn date 0089-mar-14, 0.000000E+00 sec (time_manager) ocn date 0089-mar-15, 0.000000E+00 sec (time_manager) ocn date 0089-mar-16, 0.000000E+00 sec (time_manager) ocn date 0089-mar-17, 0.000000E+00 sec (time_manager) ocn date 0089-mar-18, 0.000000E+00 sec (time_manager) ocn date 0089-mar-19, 0.000000E+00 sec (time_manager) ocn date 0089-mar-20, 0.000000E+00 sec (time_manager) ocn date 0089-mar-21, 0.000000E+00 sec (time_manager) ocn date 0089-mar-22, 0.000000E+00 sec (time_manager) ocn date 0089-mar-23, 0.000000E+00 sec (time_manager) ocn date 0089-mar-24, 0.000000E+00 sec (time_manager) ocn date 0089-mar-25, 0.000000E+00 sec (time_manager) ocn date 0089-mar-26, 0.000000E+00 sec (time_manager) ocn date 0089-mar-27, 0.000000E+00 sec (time_manager) ocn date 0089-mar-28, 0.000000E+00 sec (time_manager) ocn date 0089-mar-29, 0.000000E+00 sec (time_manager) ocn date 0089-mar-30, 0.000000E+00 sec (time_manager) ocn date 0089-mar-31, 0.000000E+00 sec (time_manager) ocn date 0089-apr-01, 0.000000E+00 sec Step number : 805225 Date : 01 apr 0089 Hour : 0 Minute : 0 Second : 0 Time(years) : 88.246575 max. cfl number for zonal advection : 7.0226E-02 20 371 33 max. cfl number for meridional advection : 6.7902E-02 149 208 5 max. cfl number for vertical advection : 4.5679E-01 22 373 17 max. cfl number for total advection : 4.7368E-01 22 373 17 max. cfl number for horizontal tracer mixing : 6.0948E-01 175 380 6 max. cfl number for horiz. momentum mixing : 1.2672E-01 318 214 56 K.E. diagnostics: mean K.E. : 8.601604704196788E+00 K.E. change from horiz. visc. :-3.580997364190066E-06 K.E. change from vert. visc. : 7.298843614886307E-06 K.E. change from wind stress : 2.348130210099222E-05 advective K.E. balance : 3.471446860500827E-10 :-5.823488040294685E-10 P.E. verses pressure work : 6.543792334476049E-04 :-4.364318731209713E-06 surface-pressure contribution : 8.773506863316875E-08 :-1.181553428387639E-07 Tracer diagnostics: mean value of tracer 1 : 3.522267722518776E+00 abs change in tracer 1 : 1.469916210529960E-07 mean change in tracer 1 : 3.485513785234402E-09 mean change in tracer 1 from advection :-1.886592705711599E-24 mean change in tracer 1 from horiz. diff.:-1.503378562363930E-25 mean change in tracer 1 from vert. diff.:-1.138853296681077E-08 mean change in tracer 1 from sources : 1.469081857466138E-08 surface flux of tracer 1 : 0.000000000000000E+00 mean value of tracer 2 : 3.472164168993299E+01 abs change in tracer 2 : 1.382757432300401E-11 mean change in tracer 2 : 1.069407552286048E-13 mean change in tracer 2 from advection :-9.787620848723506E-28 mean change in tracer 2 from horiz. diff.: 1.799195008956527E-29 mean change in tracer 2 from vert. diff.: 3.782974031615789E-14 mean change in tracer 2 from sources :-1.020809750159400E-31 surface flux of tracer 2 : 0.000000000000000E+00 mean value of tracer 3 : 2.224836407014678E+02 abs change in tracer 3 : 2.520460161198658E-06 mean change in tracer 3 : 2.390775243658617E-08 mean change in tracer 3 from advection :-3.773185411423198E-23 mean change in tracer 3 from horiz. diff.:-3.301537234995298E-25 mean change in tracer 3 from vert. diff.:-8.848167071711213E-27 mean change in tracer 3 from sources : 3.162337335760043E-08 surface flux of tracer 3 : 0.000000000000000E+00 Other diagnostics: global mean sea level: 5.067372282888231E-05 residual, scans : 7.547977600946121E-14 250 Timing information: Timer number 1 Time = 91.29 seconds HMIX_MOMENTUM_ANISO Timer number 2 Time = 82.27 seconds HMIX_TRACER_GM_NLOOP Timer number 3 Time = 458.55 seconds HMIX_TRACER_GM Timer number 4 Time = 246.64 seconds VMIX_COEFFICIENTS_KPP Timer number 5 Time = 12.72 seconds VMIX_EXPLICIT_TRACER Timer number 6 Time = 6.30 seconds VMIX_EXPLICIT_MOMENTUM Timer number 7 Time = 39.54 seconds VMIX_IMPLICIT_TRACER Timer number 8 Time = 9.48 seconds VMIX_IMPLICIT_MOMENTUM Timer number 9 Time = 1.39 seconds COMPUTE_COSZ Timer number 10 Time = 17.11 seconds ADVECTION_MOMENTUM Timer number 11 Time = 88.57 seconds ADVECTION_TRACER_UPWIND3 Timer number 12 Time = 4.36 seconds MOC Timer number 13 Time = 4.36 seconds TRACER_TRANSPORTS Timer number 14 Time = 73.80 seconds TAVG_WRITE_STD Timer number 15 Time = 4.89 seconds TAVG_WRITE_NONSTD Timer number 16 Time = 4.10 seconds TAVG_CCSM_DIAGS_BSF Timer number 17 Time = 4.36 seconds TAVG_CCSM_DIAGS_MOC Timer number 18 Time = 4.36 seconds TAVG_CCSM_DIAGS_TRANS Timer number 19 Time = 1368.81 seconds STEP Timer number 20 Time = 1159.55 seconds BAROCLINIC Timer number 21 Time = 159.69 seconds BAROTROPIC Timer number 22 Time = 27.81 seconds 3D-UPDATE Timer number 23 Time = 1462.13 seconds TOTAL Timer number 24 Time = 92.24 seconds OUTPUT Timer number 25 Time = 92.22 seconds OUTPUT TAVG Timer number 26 Time = 0.01 seconds OUTPUT REST ------------------------------------------------------------------------ (diag_print) file written: /ptmp/mai/b40.1850.track1.1deg.006/run/b40.1850.track1.1deg.006.pop.dd.0089-01-01-00000 (diag_transport) file written: /ptmp/mai/b40.1850.track1.1deg.006/run/b40.1850.track1.1deg.006.pop.dt.0089-01-01-00000 AFTER CALL IN tracer_budgets (final): ===================================== volume_t (cm^3) = 0.132514028745E+25 SUM [volume*T] (C cm^3) = 0.466749143894E+25 SUM [volume*S] (ppt cm^3) = 0.460110461485E+26 VOLUME AND TRACER BUDGETS: ========================== Please note the following about the budgets: * These budgets are meaningful when time-averaging starts at the first time step of an intended budget interval. * Positive-signed quantities ==> ocean gain Negative-signed quantities ==> ocean loss * The imbalance should be small in comparison to the tendency term, except for the volume budget when a fixed-volume ocean is used (e.g., when lfw_as_salt_flx = .false.) * These budgets are computed from single-precision TAVG terms, which contributes to inaccuracy in the imbalance term. VOLUME BUDGET FOR THE GIVEN TAVG INTERVAL (cm/s): ------------------------------------------------- tendency = 0.234418085084E-12 FW flux = 0.000000000000E+00 Imbalance = -.234418085084E-12 Imbalance = -tendency + FW flux HEAT BUDGET FOR THE GIVEN TAVG INTERVAL (W/m^2): ------------------------------------------------ tendency = 0.100783876233E+02 SHF flux = 0.981959536883E+01 ice formation = 0.258791936023E+00 FW heat content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = -.318427048285E-06 Imbalance = -tendency + SHF flux + ice formation + FW heat content + free-srf non-consv. IMPLIED FW BUDGET FOR THE GIVEN TAVG INTERVAL (kg of freshwater/m^2/s): ----------------------------------------------------- tendency = -.387481601148E-05 SFWF flux = -.318869068870E-05 ice formation = -.686125299857E-06 FW salt content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = 0.229201422407E-13 Imbalance = -tendency + SFWF flux + ice formation + FW salt content + free-srf non-consv. Global Time Averages: 04-01-0089 00:00:00 KAPPA_ISOP: 3847872.05457361974 KAPPA_THIC: 4409044.60676544067 HOR_DIFF: 607516.622635680600 DIA_DEPTH: 7127.09118723155825 TLT: 512.259986955923182 INT_DEPTH: 7639.34655975839451 UISOP: 0.574495184100679777E-04 VISOP: -0.259276822422230594E-03 WISOP: 0.141851747683762712E-12 ADVT_ISOP: -0.907009119071611746E-11 ADVS_ISOP: -0.258141559805254544E-14 VNT_ISOP: 0.495115151309517742E-09 VNS_ISOP: -0.154275886768288525E-11 USUBM: -0.540822482503828325E-05 VSUBM: 0.100638705588154616E-03 WSUBM: -0.762589691312360273E-08 HLS_SUBM: 791686.383283060160 ADVT_SUBM: 0.253425237376316040E-11 ADVS_SUBM: 0.691069570427357097E-15 VNT_SUBM: 0.721856161012020307E-09 VNS_SUBM: 0.786133447475705865E-12 HDIFT: -0.511870915171719910E-11 HDIFS: -0.204127178944670658E-14 QSW_HBL: 158.104179480075373 KVMIX: 1.37949242145359374 TPOWER: 0.223315064470177205E-05 UVEL: 0.325053521205588336 VVEL: 0.971584336628358381E-03 TEMP: 3.51969852519881066 dTEMP_POS_2D: 0.846939479659798433E-01 dTEMP_NEG_2D: -0.672278401934108677E-01 SALT: 0.347215516263520083E-01 RHO: 1.03743302860621212 RESID_T: 0.000000000000000000E+00 RESID_S: 0.000000000000000000E+00 SU: 116588.885590938371 SV: 298.726714777895666 SSH: 0.502233726364088615E-04 SHF: 9.81959536882617279 SHF_QSW: 185.941952841616711 SFWF: -0.318869068869849488E-05 TAUX: 0.121569508035357793 TAUY: -0.928096031782329189E-01 FW: 0.000000000000000000E+00 TFW_T: 0.000000000000000000E+00 TFW_S: 0.000000000000000000E+00 EVAP_F: -0.404229539786440259E-04 PREC_F: 0.347190124650093688E-04 SNOW_F: 0.116722280173309223E-05 MELT_F: -0.985458783942760393E-06 ROFF_F: 0.306894517297032105E-05 IOFF_F: 0.241605520393249292E-06 SALT_F: -0.659879643944920428E-08 SENH_F: -14.2854870307998638 LWUP_F: -392.065136174683062 LWDN_F: 332.659448083177551 MELTH_F: -0.863255840416363385 IFRAC: 0.671932093669872638E-01 IAGE: 222.453255546816706 WVEL: 0.687404839593629547E-06 UET: 0.283974507629232876E-07 VNT: 0.123089192565641012E-06 WTT: -0.137838453647637089E-07 UES: 0.158696499124765489E-08 VNS: -0.329481562000238698E-11 WTS: 0.145157915415224218E-11 ADVT: 0.281850880184415037E-10 ADVS: -0.190095864189868955E-13 PV: 0.140045655949518121E-12 Q: -0.990197477789886744E-08 PD: 1.02752209844348474 QSW_HTP: 136.160006691287293 QFLUX: 0.258791936023259339 HMXL: 7129.29881886295061 XMXL: 8826.24536454040572 TMXL: 4261.36016505202861 HBLT: 4329.48498599170580 XBLT: 7892.96043015391569 TBLT: 896.464575189233528 BSF: 0.000000000000000000E+00 convergence info from pcg_diag_bsf: iter = 0 rms_resid = 0.103903801173581320 iter = 100 rms_resid = 0.441619990486896014E-02 iter = 200 rms_resid = 0.936593664135852537E-03 iter = 300 rms_resid = 0.376712104283069614E-03 iter = 400 rms_resid = 0.264930246132241785E-03 iter = 500 rms_resid = 0.193983353869471489E-03 iter = 600 rms_resid = 0.516428560534735757E-04 iter = 700 rms_resid = 0.157809127012019269E-04 iter = 800 rms_resid = 0.179279334138729237E-05 iter = 900 rms_resid = 0.145769785621522682E-06 Local Time- and Space-Averages for Nino Regions: 00:00:00 0089-04-01 NINO_1_PLUS_2: 27.2264562320100367 NINO_3: 26.1717371811262396 NINO_3_POINT_4: 26.9245631338926614 NINO_4: 28.1908775385342061 tavg file written: ./b40.1850.track1.1deg.006.pop.h.0089-03.nc (time_manager) ocn date 0089-apr-02, 0.000000E+00 sec (time_manager) ocn date 0089-apr-03, 0.000000E+00 sec (time_manager) ocn date 0089-apr-04, 0.000000E+00 sec (time_manager) ocn date 0089-apr-05, 0.000000E+00 sec (time_manager) ocn date 0089-apr-06, 0.000000E+00 sec (time_manager) ocn date 0089-apr-07, 0.000000E+00 sec (time_manager) ocn date 0089-apr-08, 0.000000E+00 sec (time_manager) ocn date 0089-apr-09, 0.000000E+00 sec (time_manager) ocn date 0089-apr-10, 0.000000E+00 sec (time_manager) ocn date 0089-apr-11, 0.000000E+00 sec (time_manager) ocn date 0089-apr-12, 0.000000E+00 sec (time_manager) ocn date 0089-apr-13, 0.000000E+00 sec (time_manager) ocn date 0089-apr-14, 0.000000E+00 sec (time_manager) ocn date 0089-apr-15, 0.000000E+00 sec (time_manager) ocn date 0089-apr-16, 0.000000E+00 sec (time_manager) ocn date 0089-apr-17, 0.000000E+00 sec (time_manager) ocn date 0089-apr-18, 0.000000E+00 sec (time_manager) ocn date 0089-apr-19, 0.000000E+00 sec (time_manager) ocn date 0089-apr-20, 0.000000E+00 sec (time_manager) ocn date 0089-apr-21, 0.000000E+00 sec (time_manager) ocn date 0089-apr-22, 0.000000E+00 sec (time_manager) ocn date 0089-apr-23, 0.000000E+00 sec (time_manager) ocn date 0089-apr-24, 0.000000E+00 sec (time_manager) ocn date 0089-apr-25, 0.000000E+00 sec (time_manager) ocn date 0089-apr-26, 0.000000E+00 sec (time_manager) ocn date 0089-apr-27, 0.000000E+00 sec (time_manager) ocn date 0089-apr-28, 0.000000E+00 sec (time_manager) ocn date 0089-apr-29, 0.000000E+00 sec (time_manager) ocn date 0089-apr-30, 0.000000E+00 sec (time_manager) ocn date 0089-may-01, 0.000000E+00 sec Step number : 805975 Date : 01 may 0089 Hour : 0 Minute : 0 Second : 0 Time(years) : 88.328767 max. cfl number for zonal advection : 6.9581E-02 20 371 33 max. cfl number for meridional advection : 7.6026E-02 6 169 7 max. cfl number for vertical advection : 3.9796E-01 29 336 16 max. cfl number for total advection : 4.0635E-01 29 336 16 max. cfl number for horizontal tracer mixing : 6.0948E-01 175 380 7 max. cfl number for horiz. momentum mixing : 1.2672E-01 318 214 56 K.E. diagnostics: mean K.E. : 8.751163674227495E+00 K.E. change from horiz. visc. :-3.410755959206762E-06 K.E. change from vert. visc. : 9.972053132869859E-06 K.E. change from wind stress : 2.880812667126287E-05 advective K.E. balance :-5.782845978894693E-10 : 2.401246657310063E-10 P.E. verses pressure work : 6.421558701878658E-04 :-4.769565139016763E-06 surface-pressure contribution : 3.470236335473974E-07 :-4.051825642920338E-07 Tracer diagnostics: mean value of tracer 1 : 3.522530049292574E+00 abs change in tracer 1 : 1.341980102876996E-07 mean change in tracer 1 : 1.893231388317782E-09 mean change in tracer 1 from advection : 1.084790805784169E-24 mean change in tracer 1 from horiz. diff.: 1.621290606470906E-25 mean change in tracer 1 from vert. diff.:-1.170535122271482E-08 mean change in tracer 1 from sources : 1.339537328040917E-08 surface flux of tracer 1 : 0.000000000000000E+00 mean value of tracer 2 : 3.472173696330975E+01 abs change in tracer 2 : 1.296030624254746E-11 mean change in tracer 2 : 9.021311636861823E-14 mean change in tracer 2 from advection :-3.224157456050096E-28 mean change in tracer 2 from horiz. diff.: 7.196780035826107E-31 mean change in tracer 2 from vert. diff.: 1.356549983037436E-14 mean change in tracer 2 from sources :-3.098825884514953E-31 surface flux of tracer 2 : 0.000000000000000E+00 mean value of tracer 3 : 2.225454463772400E+02 abs change in tracer 3 : 2.349981200376383E-06 mean change in tracer 3 : 2.306663322002797E-08 mean change in tracer 3 from advection :-2.263911246853919E-23 mean change in tracer 3 from horiz. diff.:-9.432963528557995E-25 mean change in tracer 3 from vert. diff.: 7.982310484469859E-26 mean change in tracer 3 from sources : 3.162337335760043E-08 surface flux of tracer 3 : 0.000000000000000E+00 Other diagnostics: global mean sea level: 5.055855281959595E-05 residual, scans : 8.609270664430683E-14 230 Timing information: Timer number 1 Time = 121.73 seconds HMIX_MOMENTUM_ANISO Timer number 2 Time = 109.46 seconds HMIX_TRACER_GM_NLOOP Timer number 3 Time = 611.57 seconds HMIX_TRACER_GM Timer number 4 Time = 328.10 seconds VMIX_COEFFICIENTS_KPP Timer number 5 Time = 16.95 seconds VMIX_EXPLICIT_TRACER Timer number 6 Time = 8.39 seconds VMIX_EXPLICIT_MOMENTUM Timer number 7 Time = 52.71 seconds VMIX_IMPLICIT_TRACER Timer number 8 Time = 12.62 seconds VMIX_IMPLICIT_MOMENTUM Timer number 9 Time = 1.85 seconds COMPUTE_COSZ Timer number 10 Time = 22.79 seconds ADVECTION_MOMENTUM Timer number 11 Time = 118.09 seconds ADVECTION_TRACER_UPWIND3 Timer number 12 Time = 6.51 seconds MOC Timer number 13 Time = 6.52 seconds TRACER_TRANSPORTS Timer number 14 Time = 111.27 seconds TAVG_WRITE_STD Timer number 15 Time = 7.83 seconds TAVG_WRITE_NONSTD Timer number 16 Time = 6.11 seconds TAVG_CCSM_DIAGS_BSF Timer number 17 Time = 6.51 seconds TAVG_CCSM_DIAGS_MOC Timer number 18 Time = 6.52 seconds TAVG_CCSM_DIAGS_TRANS Timer number 19 Time = 1825.90 seconds STEP Timer number 20 Time = 1547.22 seconds BAROCLINIC Timer number 21 Time = 212.02 seconds BAROTROPIC Timer number 22 Time = 37.11 seconds 3D-UPDATE Timer number 23 Time = 1966.59 seconds TOTAL Timer number 24 Time = 139.25 seconds OUTPUT Timer number 25 Time = 139.23 seconds OUTPUT TAVG Timer number 26 Time = 0.02 seconds OUTPUT REST ------------------------------------------------------------------------ (diag_print) file written: /ptmp/mai/b40.1850.track1.1deg.006/run/b40.1850.track1.1deg.006.pop.dd.0089-01-01-00000 (diag_transport) file written: /ptmp/mai/b40.1850.track1.1deg.006/run/b40.1850.track1.1deg.006.pop.dt.0089-01-01-00000 AFTER CALL IN tracer_budgets (final): ===================================== volume_t (cm^3) = 0.132514028745E+25 SUM [volume*T] (C cm^3) = 0.466784282810E+25 SUM [volume*S] (ppt cm^3) = 0.460111724574E+26 VOLUME AND TRACER BUDGETS: ========================== Please note the following about the budgets: * These budgets are meaningful when time-averaging starts at the first time step of an intended budget interval. * Positive-signed quantities ==> ocean gain Negative-signed quantities ==> ocean loss * The imbalance should be small in comparison to the tendency term, except for the volume budget when a fixed-volume ocean is used (e.g., when lfw_as_salt_flx = .false.) * These budgets are computed from single-precision TAVG terms, which contributes to inaccuracy in the imbalance term. VOLUME BUDGET FOR THE GIVEN TAVG INTERVAL (cm/s): ------------------------------------------------- tendency = -.444488733211E-13 FW flux = 0.000000000000E+00 Imbalance = 0.444488733211E-13 Imbalance = -tendency + FW flux HEAT BUDGET FOR THE GIVEN TAVG INTERVAL (W/m^2): ------------------------------------------------ tendency = 0.153904171050E+01 SHF flux = 0.127738555918E+01 ice formation = 0.261656390942E+00 FW heat content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = 0.239622727105E-06 Imbalance = -tendency + SHF flux + ice formation + FW heat content + free-srf non-consv. IMPLIED FW BUDGET FOR THE GIVEN TAVG INTERVAL (kg of freshwater/m^2/s): ----------------------------------------------------- tendency = -.388860329842E-05 SFWF flux = -.319488365921E-05 ice formation = -.693719721153E-06 FW salt content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = -.819444418183E-13 Imbalance = -tendency + SFWF flux + ice formation + FW salt content + free-srf non-consv. Global Time Averages: 05-01-0089 00:00:00 KAPPA_ISOP: 3774628.24093560129 KAPPA_THIC: 4262953.78380503692 HOR_DIFF: 535594.445111194276 DIA_DEPTH: 6274.51359483969554 TLT: 459.020469627463058 INT_DEPTH: 6733.53419715183099 UISOP: 0.737541875632107165E-04 VISOP: -0.216568726701283422E-03 WISOP: -0.484115768246677947E-14 ADVT_ISOP: 0.286604619001159502E-10 ADVS_ISOP: 0.174268463811458783E-14 VNT_ISOP: 0.511210473724976754E-09 VNS_ISOP: -0.125073440153415748E-11 USUBM: 0.138608145276163276E-05 VSUBM: 0.536036971038689143E-04 WSUBM: -0.460793553458457519E-08 HLS_SUBM: 835123.491145692999 ADVT_SUBM: 0.229222306404668987E-11 ADVS_SUBM: -0.399276538697548869E-15 VNT_SUBM: 0.410401879985579087E-09 VNS_SUBM: 0.425760030038836294E-12 HDIFT: 0.184256455092438191E-10 HDIFS: -0.534157238342045800E-15 QSW_HBL: 146.395018627601388 KVMIX: 1.37103990241763252 TPOWER: 0.223408283991225113E-05 UVEL: 0.312268002731549421 VVEL: 0.134158161151438741E-02 TEMP: 3.52100728184738898 dTEMP_POS_2D: 0.887236654541026515E-01 dTEMP_NEG_2D: -0.711747202175368188E-01 SALT: 0.347216661508182103E-01 RHO: 1.03743262815292159 RESID_T: 0.000000000000000000E+00 RESID_S: 0.000000000000000000E+00 SU: 112003.713075828899 SV: 432.604378671774327 SSH: 0.503881726062101130E-04 SHF: 1.27738555917879126 SHF_QSW: 174.207561805434381 SFWF: -0.319488365921190458E-05 TAUX: 0.113574849002116757 TAUY: -0.293571958554142941E-01 FW: 0.000000000000000000E+00 TFW_T: 0.000000000000000000E+00 TFW_S: 0.000000000000000000E+00 EVAP_F: -0.394606836905174810E-04 PREC_F: 0.341359001170602714E-04 SNOW_F: 0.110681476452151005E-05 MELT_F: -0.209708572140053899E-05 ROFF_F: 0.362195258307394455E-05 IOFF_F: 0.282662224919228516E-06 SALT_F: -0.111856305652801755E-07 SENH_F: -14.1410785503660694 LWUP_F: -389.366054224585241 LWDN_F: 330.333834981651705 MELTH_F: -0.602038919742465595 IFRAC: 0.755078774675669445E-01 IAGE: 222.514483802716597 WVEL: 0.664581524613052333E-06 UET: 0.596231881732169384E-07 VNT: 0.784975044992908830E-07 WTT: -0.130928712634322250E-07 UES: 0.153642861204622237E-08 VNS: 0.327068915971888266E-11 WTS: 0.104385221375181154E-11 ADVT: 0.447709531561291953E-10 ADVS: -0.751887580157240447E-14 PV: 0.115258811985613214E-12 Q: -0.989383305536305165E-08 PD: 1.02752169408994276 QSW_HTP: 127.934795151541948 QFLUX: 0.261656390942090034 HMXL: 6275.44202071100517 XMXL: 8447.64765368401095 TMXL: 4154.69400414196389 HBLT: 3836.13139064423058 XBLT: 7147.15642196697718 TBLT: 886.967155228778893 BSF: 0.000000000000000000E+00 convergence info from pcg_diag_bsf: iter = 0 rms_resid = 0.987772009830702180E-01 iter = 100 rms_resid = 0.430233971653804295E-02 iter = 200 rms_resid = 0.882632452165721371E-03 iter = 300 rms_resid = 0.363484110850587625E-03 iter = 400 rms_resid = 0.260511796109048584E-03 iter = 500 rms_resid = 0.191341238093759182E-03 iter = 600 rms_resid = 0.488607531963572225E-04 iter = 700 rms_resid = 0.153115905536606535E-04 iter = 800 rms_resid = 0.180675038171176656E-05 iter = 900 rms_resid = 0.149317577405514524E-06 Local Time- and Space-Averages for Nino Regions: 00:00:00 0089-05-01 NINO_1_PLUS_2: 27.0029564235311170 NINO_3: 26.4177212001755954 NINO_3_POINT_4: 27.4476381201520852 NINO_4: 28.6304979964912967 tavg file written: ./b40.1850.track1.1deg.006.pop.h.0089-04.nc (time_manager) ocn date 0089-may-02, 0.000000E+00 sec (time_manager) ocn date 0089-may-03, 0.000000E+00 sec (time_manager) ocn date 0089-may-04, 0.000000E+00 sec (time_manager) ocn date 0089-may-05, 0.000000E+00 sec (time_manager) ocn date 0089-may-06, 0.000000E+00 sec (time_manager) ocn date 0089-may-07, 0.000000E+00 sec (time_manager) ocn date 0089-may-08, 0.000000E+00 sec (time_manager) ocn date 0089-may-09, 0.000000E+00 sec (time_manager) ocn date 0089-may-10, 0.000000E+00 sec (time_manager) ocn date 0089-may-11, 0.000000E+00 sec (time_manager) ocn date 0089-may-12, 0.000000E+00 sec (time_manager) ocn date 0089-may-13, 0.000000E+00 sec (time_manager) ocn date 0089-may-14, 0.000000E+00 sec (time_manager) ocn date 0089-may-15, 0.000000E+00 sec (time_manager) ocn date 0089-may-16, 0.000000E+00 sec (time_manager) ocn date 0089-may-17, 0.000000E+00 sec (time_manager) ocn date 0089-may-18, 0.000000E+00 sec (time_manager) ocn date 0089-may-19, 0.000000E+00 sec (time_manager) ocn date 0089-may-20, 0.000000E+00 sec (time_manager) ocn date 0089-may-21, 0.000000E+00 sec (time_manager) ocn date 0089-may-22, 0.000000E+00 sec (time_manager) ocn date 0089-may-23, 0.000000E+00 sec (time_manager) ocn date 0089-may-24, 0.000000E+00 sec (time_manager) ocn date 0089-may-25, 0.000000E+00 sec (time_manager) ocn date 0089-may-26, 0.000000E+00 sec (time_manager) ocn date 0089-may-27, 0.000000E+00 sec (time_manager) ocn date 0089-may-28, 0.000000E+00 sec (time_manager) ocn date 0089-may-29, 0.000000E+00 sec (time_manager) ocn date 0089-may-30, 0.000000E+00 sec (time_manager) ocn date 0089-may-31, 0.000000E+00 sec (time_manager) ocn date 0089-jun-01, 0.000000E+00 sec Step number : 806750 Date : 01 jun 0089 Hour : 0 Minute : 0 Second : 0 Time(years) : 88.413699 max. cfl number for zonal advection : 7.4687E-02 20 371 33 max. cfl number for meridional advection : 9.7245E-02 6 169 5 max. cfl number for vertical advection : 2.1622E-01 298 46 14 max. cfl number for total advection : 2.2353E-01 298 46 14 max. cfl number for horizontal tracer mixing : 6.0948E-01 175 380 7 max. cfl number for horiz. momentum mixing : 1.2672E-01 318 214 56 K.E. diagnostics: mean K.E. : 9.033623548420003E+00 K.E. change from horiz. visc. :-3.477707644743654E-06 K.E. change from vert. visc. : 7.252122297481400E-06 K.E. change from wind stress : 2.557771454203621E-05 advective K.E. balance :-7.147784845660009E-10 : 2.398112254874226E-10 P.E. verses pressure work : 6.609720190401620E-04 :-3.437975996290136E-06 surface-pressure contribution : 4.569602867466761E-08 :-1.070126835606469E-07 Tracer diagnostics: mean value of tracer 1 : 3.520512922689718E+00 abs change in tracer 1 : 1.300642685522139E-07 mean change in tracer 1 : 1.247586463248335E-09 mean change in tracer 1 from advection :-1.792263070426019E-24 mean change in tracer 1 from horiz. diff.: 0.000000000000000E+00 mean change in tracer 1 from vert. diff.:-1.169884619029500E-08 mean change in tracer 1 from sources : 1.280315297632427E-08 surface flux of tracer 1 : 0.000000000000000E+00 mean value of tracer 2 : 3.472174578895106E+01 abs change in tracer 2 : 1.296234406086356E-11 mean change in tracer 2 : 4.876238400270515E-14 mean change in tracer 2 from advection :-7.427076996972542E-28 mean change in tracer 2 from horiz. diff.: 7.916458039408718E-30 mean change in tracer 2 from vert. diff.:-5.280635200916931E-15 mean change in tracer 2 from sources :-1.738607533908790E-31 surface flux of tracer 2 : 0.000000000000000E+00 mean value of tracer 3 : 2.226003008362622E+02 abs change in tracer 3 : 2.329254219103780E-06 mean change in tracer 3 : 1.793896741166144E-08 mean change in tracer 3 from advection :-8.301007905131036E-23 mean change in tracer 3 from horiz. diff.:-1.037625988141380E-24 mean change in tracer 3 from vert. diff.: 1.566518270035289E-25 mean change in tracer 3 from sources : 3.162337335760043E-08 surface flux of tracer 3 : 0.000000000000000E+00 Other diagnostics: global mean sea level: 5.063262098142349E-05 residual, scans : 7.795395497945835E-14 240 Timing information: Timer number 1 Time = 152.76 seconds HMIX_MOMENTUM_ANISO Timer number 2 Time = 137.31 seconds HMIX_TRACER_GM_NLOOP Timer number 3 Time = 768.76 seconds HMIX_TRACER_GM Timer number 4 Time = 409.65 seconds VMIX_COEFFICIENTS_KPP Timer number 5 Time = 21.31 seconds VMIX_EXPLICIT_TRACER Timer number 6 Time = 10.55 seconds VMIX_EXPLICIT_MOMENTUM Timer number 7 Time = 66.32 seconds VMIX_IMPLICIT_TRACER Timer number 8 Time = 15.91 seconds VMIX_IMPLICIT_MOMENTUM Timer number 9 Time = 2.33 seconds COMPUTE_COSZ Timer number 10 Time = 28.67 seconds ADVECTION_MOMENTUM Timer number 11 Time = 148.59 seconds ADVECTION_TRACER_UPWIND3 Timer number 12 Time = 8.68 seconds MOC Timer number 13 Time = 8.68 seconds TRACER_TRANSPORTS Timer number 14 Time = 148.76 seconds TAVG_WRITE_STD Timer number 15 Time = 10.89 seconds TAVG_WRITE_NONSTD Timer number 16 Time = 8.13 seconds TAVG_CCSM_DIAGS_BSF Timer number 17 Time = 8.68 seconds TAVG_CCSM_DIAGS_MOC Timer number 18 Time = 8.68 seconds TAVG_CCSM_DIAGS_TRANS Timer number 19 Time = 2296.75 seconds STEP Timer number 20 Time = 1948.00 seconds BAROCLINIC Timer number 21 Time = 265.18 seconds BAROTROPIC Timer number 22 Time = 46.80 seconds 3D-UPDATE Timer number 23 Time = 2484.98 seconds TOTAL Timer number 24 Time = 186.43 seconds OUTPUT Timer number 25 Time = 186.40 seconds OUTPUT TAVG Timer number 26 Time = 0.02 seconds OUTPUT REST ------------------------------------------------------------------------ (diag_print) file written: /ptmp/mai/b40.1850.track1.1deg.006/run/b40.1850.track1.1deg.006.pop.dd.0089-01-01-00000 (diag_transport) file written: /ptmp/mai/b40.1850.track1.1deg.006/run/b40.1850.track1.1deg.006.pop.dt.0089-01-01-00000 AFTER CALL IN tracer_budgets (final): ===================================== volume_t (cm^3) = 0.132514028745E+25 SUM [volume*T] (C cm^3) = 0.466517110538E+25 SUM [volume*S] (ppt cm^3) = 0.460111841980E+26 VOLUME AND TRACER BUDGETS: ========================== Please note the following about the budgets: * These budgets are meaningful when time-averaging starts at the first time step of an intended budget interval. * Positive-signed quantities ==> ocean gain Negative-signed quantities ==> ocean loss * The imbalance should be small in comparison to the tendency term, except for the volume budget when a fixed-volume ocean is used (e.g., when lfw_as_salt_flx = .false.) * These budgets are computed from single-precision TAVG terms, which contributes to inaccuracy in the imbalance term. VOLUME BUDGET FOR THE GIVEN TAVG INTERVAL (cm/s): ------------------------------------------------- tendency = 0.276683829560E-13 FW flux = 0.000000000000E+00 Imbalance = -.276683829560E-13 Imbalance = -tendency + FW flux HEAT BUDGET FOR THE GIVEN TAVG INTERVAL (W/m^2): ------------------------------------------------ tendency = -.113243417233E+02 SHF flux = -.115215004694E+02 ice formation = 0.197158816477E+00 FW heat content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = 0.703970886029E-07 Imbalance = -tendency + SHF flux + ice formation + FW heat content + free-srf non-consv. IMPLIED FW BUDGET FOR THE GIVEN TAVG INTERVAL (kg of freshwater/m^2/s): ----------------------------------------------------- tendency = -.349794475592E-06 SFWF flux = 0.172924715069E-06 ice formation = -.522719734445E-06 FW salt content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = -.543784291481E-12 Imbalance = -tendency + SFWF flux + ice formation + FW salt content + free-srf non-consv. Global Time Averages: 06-01-0089 00:00:00 KAPPA_ISOP: 3531478.30313290609 KAPPA_THIC: 3979439.96461486816 HOR_DIFF: 493722.025121831626 DIA_DEPTH: 5813.26142138741125 TLT: 357.724700852843398 INT_DEPTH: 6170.98074947108307 UISOP: 0.749246149095496734E-04 VISOP: -0.283655164465052045E-03 WISOP: -0.220873749741517687E-12 ADVT_ISOP: 0.487158888079208304E-11 ADVS_ISOP: 0.178886031665429495E-14 VNT_ISOP: -0.489030686544104840E-09 VNS_ISOP: -0.178271241614201501E-11 USUBM: 0.208767435915466969E-05 VSUBM: -0.136806606505755728E-05 WSUBM: -0.142511821396609387E-08 HLS_SUBM: 812182.146793836146 ADVT_SUBM: -0.759127842439227392E-12 ADVS_SUBM: 0.125436461107181535E-15 VNT_SUBM: 0.565498914179301769E-10 VNS_SUBM: -0.806560547925293191E-15 HDIFT: -0.729119611688022028E-10 HDIFS: -0.300359746841867053E-14 QSW_HBL: 134.178636276865888 KVMIX: 1.36202376034384920 TPOWER: 0.222524198210622463E-05 UVEL: 0.329553238474536492 VVEL: 0.171635453546622324E-02 TEMP: 3.51990721643752069 dTEMP_POS_2D: 0.942023501995558760E-01 dTEMP_NEG_2D: -0.767300814040572376E-01 SALT: 0.347217174629484149E-01 RHO: 1.03743288742059714 RESID_T: 0.000000000000000000E+00 RESID_S: 0.000000000000000000E+00 SU: 118204.139304400320 SV: 572.898535647148492 SSH: 0.505032192175664839E-04 SHF: -11.5215004693588661 SHF_QSW: 159.741363458726340 SFWF: 0.172924715069462704E-06 TAUX: 0.166849278743162410 TAUY: -0.205304402486515512E-01 FW: 0.000000000000000000E+00 TFW_T: 0.000000000000000000E+00 TFW_S: 0.000000000000000000E+00 EVAP_F: -0.394538011111304052E-04 PREC_F: 0.355381334669438949E-04 SNOW_F: 0.956316480940240578E-06 MELT_F: -0.767725264596326156E-06 ROFF_F: 0.431634945640258239E-05 IOFF_F: 0.326958767676067008E-06 SALT_F: -0.739040183923817117E-08 SENH_F: -13.7656400955691183 LWUP_F: -387.150781859184463 LWDN_F: 329.472386053096841 MELTH_F: -0.716641033095824276 IFRAC: 0.804396109722390479E-01 IAGE: 222.574050600757630 WVEL: 0.664598367271288415E-06 UET: 0.114697553230323312E-06 VNT: 0.300174898751533331E-07 WTT: -0.148488401009831536E-07 UES: 0.160308572428389545E-08 VNS: 0.951657400138294541E-11 WTS: 0.101377105524722206E-11 ADVT: 0.502254090302304431E-10 ADVS: 0.460815490732009322E-14 PV: 0.698241988302122248E-13 Q: -0.982173391726740496E-08 PD: 1.02752197420190350 QSW_HTP: 118.115413146994911 QFLUX: 0.197158816476858956 HMXL: 5813.56539914355835 XMXL: 7425.93527911287674 TMXL: 4528.04329592765225 HBLT: 4030.59869540285808 XBLT: 6734.43472191849560 TBLT: 981.218392577041300 BSF: 0.000000000000000000E+00 convergence info from pcg_diag_bsf: iter = 0 rms_resid = 0.996065278062044229E-01 iter = 100 rms_resid = 0.435429434902669370E-02 iter = 200 rms_resid = 0.931891827208888206E-03 iter = 300 rms_resid = 0.434475852490713631E-03 iter = 400 rms_resid = 0.304024495701280114E-03 iter = 500 rms_resid = 0.201065067286050375E-03 iter = 600 rms_resid = 0.509605385694710230E-04 iter = 700 rms_resid = 0.155194182411456977E-04 iter = 800 rms_resid = 0.190642212555986249E-05 iter = 900 rms_resid = 0.156162821598246803E-06 Local Time- and Space-Averages for Nino Regions: 00:00:00 0089-06-01 NINO_1_PLUS_2: 26.2084877309696438 NINO_3: 26.5947291184287060 NINO_3_POINT_4: 27.7249892056906049 NINO_4: 28.9499490294920712 tavg file written: ./b40.1850.track1.1deg.006.pop.h.0089-05.nc (time_manager) ocn date 0089-jun-02, 0.000000E+00 sec (time_manager) ocn date 0089-jun-03, 0.000000E+00 sec (time_manager) ocn date 0089-jun-04, 0.000000E+00 sec (time_manager) ocn date 0089-jun-05, 0.000000E+00 sec (time_manager) ocn date 0089-jun-06, 0.000000E+00 sec (time_manager) ocn date 0089-jun-07, 0.000000E+00 sec (time_manager) ocn date 0089-jun-08, 0.000000E+00 sec (time_manager) ocn date 0089-jun-09, 0.000000E+00 sec (time_manager) ocn date 0089-jun-10, 0.000000E+00 sec (time_manager) ocn date 0089-jun-11, 0.000000E+00 sec (time_manager) ocn date 0089-jun-12, 0.000000E+00 sec (time_manager) ocn date 0089-jun-13, 0.000000E+00 sec (time_manager) ocn date 0089-jun-14, 0.000000E+00 sec (time_manager) ocn date 0089-jun-15, 0.000000E+00 sec (time_manager) ocn date 0089-jun-16, 0.000000E+00 sec (time_manager) ocn date 0089-jun-17, 0.000000E+00 sec (time_manager) ocn date 0089-jun-18, 0.000000E+00 sec (time_manager) ocn date 0089-jun-19, 0.000000E+00 sec (time_manager) ocn date 0089-jun-20, 0.000000E+00 sec (time_manager) ocn date 0089-jun-21, 0.000000E+00 sec (time_manager) ocn date 0089-jun-22, 0.000000E+00 sec (time_manager) ocn date 0089-jun-23, 0.000000E+00 sec (time_manager) ocn date 0089-jun-24, 0.000000E+00 sec (time_manager) ocn date 0089-jun-25, 0.000000E+00 sec (time_manager) ocn date 0089-jun-26, 0.000000E+00 sec (time_manager) ocn date 0089-jun-27, 0.000000E+00 sec (time_manager) ocn date 0089-jun-28, 0.000000E+00 sec (time_manager) ocn date 0089-jun-29, 0.000000E+00 sec (time_manager) ocn date 0089-jun-30, 0.000000E+00 sec (time_manager) ocn date 0089-jul-01, 0.000000E+00 sec Step number : 807500 Date : 01 jul 0089 Hour : 0 Minute : 0 Second : 0 Time(years) : 88.495890 max. cfl number for zonal advection : 7.9759E-02 20 371 33 max. cfl number for meridional advection : 1.1474E-01 76 188 1 max. cfl number for vertical advection : 4.2114E-01 298 46 14 max. cfl number for total advection : 4.3034E-01 298 46 14 max. cfl number for horizontal tracer mixing : 6.3830E-01 88 383 2 max. cfl number for horiz. momentum mixing : 1.2672E-01 318 214 56 K.E. diagnostics: mean K.E. : 9.261330586255063E+00 K.E. change from horiz. visc. :-4.174012062353455E-06 K.E. change from vert. visc. : 1.084540805149684E-05 K.E. change from wind stress : 3.313272380476724E-05 advective K.E. balance : 1.935887865672654E-11 :-7.067809115828819E-10 P.E. verses pressure work : 6.831858554455447E-04 :-7.393184448273241E-06 surface-pressure contribution :-5.566646438377854E-07 : 4.942726005125897E-07 Tracer diagnostics: mean value of tracer 1 : 3.516369967176956E+00 abs change in tracer 1 : 1.376367859338092E-07 mean change in tracer 1 : 6.199961911072718E-10 mean change in tracer 1 from advection :-9.432963528557995E-26 mean change in tracer 1 from horiz. diff.:-5.306041984813872E-26 mean change in tracer 1 from vert. diff.:-1.153480710138528E-08 mean change in tracer 1 from sources : 1.206074991873122E-08 surface flux of tracer 1 : 0.000000000000000E+00 mean value of tracer 2 : 3.472166473369330E+01 abs change in tracer 2 : 1.356160339740895E-11 mean change in tracer 2 :-2.443353045357538E-14 mean change in tracer 2 from advection :-4.721087703501926E-28 mean change in tracer 2 from horiz. diff.: 7.196780035826107E-31 mean change in tracer 2 from vert. diff.:-5.990910091133441E-14 mean change in tracer 2 from sources :-3.619404187325943E-32 surface flux of tracer 2 : 0.000000000000000E+00 mean value of tracer 3 : 2.226381520542848E+02 abs change in tracer 3 : 2.533073640649850E-06 mean change in tracer 3 : 8.105502871859911E-09 mean change in tracer 3 from advection : 3.169475745595487E-23 mean change in tracer 3 from horiz. diff.:-2.829889058567399E-25 mean change in tracer 3 from vert. diff.: 1.493533597980381E-25 mean change in tracer 3 from sources : 3.162337335760043E-08 surface flux of tracer 3 : 0.000000000000000E+00 Other diagnostics: global mean sea level: 5.106424264953469E-05 residual, scans : 6.368477047344380E-14 250 Timing information: Timer number 1 Time = 182.70 seconds HMIX_MOMENTUM_ANISO Timer number 2 Time = 164.15 seconds HMIX_TRACER_GM_NLOOP Timer number 3 Time = 920.81 seconds HMIX_TRACER_GM Timer number 4 Time = 480.54 seconds VMIX_COEFFICIENTS_KPP Timer number 5 Time = 25.53 seconds VMIX_EXPLICIT_TRACER Timer number 6 Time = 12.64 seconds VMIX_EXPLICIT_MOMENTUM Timer number 7 Time = 79.50 seconds VMIX_IMPLICIT_TRACER Timer number 8 Time = 19.12 seconds VMIX_IMPLICIT_MOMENTUM Timer number 9 Time = 2.79 seconds COMPUTE_COSZ Timer number 10 Time = 34.28 seconds ADVECTION_MOMENTUM Timer number 11 Time = 178.10 seconds ADVECTION_TRACER_UPWIND3 Timer number 12 Time = 10.83 seconds MOC Timer number 13 Time = 10.82 seconds TRACER_TRANSPORTS Timer number 14 Time = 190.72 seconds TAVG_WRITE_STD Timer number 15 Time = 14.34 seconds TAVG_WRITE_NONSTD Timer number 16 Time = 10.14 seconds TAVG_CCSM_DIAGS_BSF Timer number 17 Time = 10.83 seconds TAVG_CCSM_DIAGS_MOC Timer number 18 Time = 10.82 seconds TAVG_CCSM_DIAGS_TRANS Timer number 19 Time = 2751.95 seconds STEP Timer number 20 Time = 2335.51 seconds BAROCLINIC Timer number 21 Time = 317.10 seconds BAROTROPIC Timer number 22 Time = 56.10 seconds 3D-UPDATE Timer number 23 Time = 2992.63 seconds TOTAL Timer number 24 Time = 238.52 seconds OUTPUT Timer number 25 Time = 238.48 seconds OUTPUT TAVG Timer number 26 Time = 0.03 seconds OUTPUT REST ------------------------------------------------------------------------ (diag_print) file written: /ptmp/mai/b40.1850.track1.1deg.006/run/b40.1850.track1.1deg.006.pop.dd.0089-01-01-00000 (diag_transport) file written: /ptmp/mai/b40.1850.track1.1deg.006/run/b40.1850.track1.1deg.006.pop.dt.0089-01-01-00000 AFTER CALL IN tracer_budgets (final): ===================================== volume_t (cm^3) = 0.132514028745E+25 SUM [volume*T] (C cm^3) = 0.465968262904E+25 SUM [volume*S] (ppt cm^3) = 0.460110769199E+26 VOLUME AND TRACER BUDGETS: ========================== Please note the following about the budgets: * These budgets are meaningful when time-averaging starts at the first time step of an intended budget interval. * Positive-signed quantities ==> ocean gain Negative-signed quantities ==> ocean loss * The imbalance should be small in comparison to the tendency term, except for the volume budget when a fixed-volume ocean is used (e.g., when lfw_as_salt_flx = .false.) * These budgets are computed from single-precision TAVG terms, which contributes to inaccuracy in the imbalance term. VOLUME BUDGET FOR THE GIVEN TAVG INTERVAL (cm/s): ------------------------------------------------- tendency = 0.166525553146E-12 FW flux = 0.000000000000E+00 Imbalance = -.166525553146E-12 Imbalance = -tendency + FW flux HEAT BUDGET FOR THE GIVEN TAVG INTERVAL (W/m^2): ------------------------------------------------ tendency = -.240388571604E+02 SHF flux = -.241860250469E+02 ice formation = 0.147168155423E+00 FW heat content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = 0.268898042777E-06 Imbalance = -tendency + SHF flux + ice formation + FW heat content + free-srf non-consv. IMPLIED FW BUDGET FOR THE GIVEN TAVG INTERVAL (kg of freshwater/m^2/s): ----------------------------------------------------- tendency = 0.330271334981E-05 SFWF flux = 0.369289537195E-05 ice formation = -.390181380149E-06 FW salt content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = 0.641993296210E-12 Imbalance = -tendency + SFWF flux + ice formation + FW salt content + free-srf non-consv. Global Time Averages: 07-01-0089 00:00:00 KAPPA_ISOP: 3419716.79055795306 KAPPA_THIC: 3910536.49206889467 HOR_DIFF: 536600.396280660760 DIA_DEPTH: 6343.62241169621939 TLT: 347.054657239734127 INT_DEPTH: 6690.67022486743281 UISOP: 0.863628820360846846E-04 VISOP: -0.374819602047653082E-03 WISOP: -0.253369013869787664E-12 ADVT_ISOP: 0.149159047167337343E-10 ADVS_ISOP: 0.117439014953960097E-14 VNT_ISOP: -0.952936568804371472E-09 VNS_ISOP: -0.243100172687532692E-11 USUBM: 0.365932086900039435E-05 VSUBM: -0.175746577172028766E-04 WSUBM: -0.113899039952029494E-08 HLS_SUBM: 749898.861494683311 ADVT_SUBM: -0.123424003150976225E-12 ADVS_SUBM: 0.863918619909392641E-16 VNT_SUBM: -0.759711935562739028E-10 VNS_SUBM: -0.108833885417384730E-12 HDIFT: -0.497165138456328478E-11 HDIFS: -0.523183574538168503E-14 QSW_HBL: 128.856859310070860 KVMIX: 1.36586500353205453 TPOWER: 0.222049535354409176E-05 UVEL: 0.348341558631912740 VVEL: 0.174324089301084958E-02 TEMP: 3.51678100077522249 dTEMP_POS_2D: 0.913620780061716181E-01 dTEMP_NEG_2D: -0.730677342969007909E-01 SALT: 0.347216909301146931E-01 RHO: 1.03743354712050118 RESID_T: 0.000000000000000000E+00 RESID_S: 0.000000000000000000E+00 SU: 124943.279059279856 SV: 592.834808072892770 SSH: 0.510783054759692418E-04 SHF: -24.1860250468835183 SHF_QSW: 150.972405730394371 SFWF: 0.369289537195067302E-05 TAUX: 0.170070776104801064 TAUY: 0.152466863901157840E-01 FW: 0.000000000000000000E+00 TFW_T: 0.000000000000000000E+00 TFW_S: 0.000000000000000000E+00 EVAP_F: -0.414019463843857334E-04 PREC_F: 0.371355077239881671E-04 SNOW_F: 0.914532122084386550E-06 MELT_F: 0.270976308704038771E-05 ROFF_F: 0.505573708084242210E-05 IOFF_F: 0.300655583893231248E-06 SALT_F: 0.370718696425835516E-08 SENH_F: -13.7678110733993471 LWUP_F: -386.374056859815255 LWDN_F: 330.248816879015521 MELTH_F: -1.31360004491102034 IFRAC: 0.813485512581959141E-01 IAGE: 222.621236093974773 WVEL: 0.697984496550362315E-06 UET: 0.833130567810130993E-07 VNT: -0.141726701772092316E-07 WTT: -0.178867079047629898E-07 UES: 0.169800932437372212E-08 VNS: 0.745433491837036531E-11 WTS: 0.104912553921466972E-11 ADVT: 0.386714702648906093E-10 ADVS: 0.669929714198103438E-15 PV: 0.144871160797814020E-13 Q: -0.977390823505756630E-08 PD: 1.02752264684141981 QSW_HTP: 111.620765409616993 QFLUX: 0.147168155422744917 HMXL: 6344.02897485908306 XMXL: 7315.01604516040516 TMXL: 5232.30214311678810 HBLT: 4772.51384789687472 XBLT: 7278.60904224030401 TBLT: 1064.55784636674798 BSF: 0.000000000000000000E+00 convergence info from pcg_diag_bsf: iter = 0 rms_resid = 0.102837140738031380 iter = 100 rms_resid = 0.447847056876251714E-02 iter = 200 rms_resid = 0.963055506678200577E-03 iter = 300 rms_resid = 0.451301598437345178E-03 iter = 400 rms_resid = 0.323411508715323729E-03 iter = 500 rms_resid = 0.205725727011463400E-03 iter = 600 rms_resid = 0.518077401371894996E-04 iter = 700 rms_resid = 0.157548888279403683E-04 iter = 800 rms_resid = 0.188564644343270298E-05 iter = 900 rms_resid = 0.158256763810403457E-06 Local Time- and Space-Averages for Nino Regions: 00:00:00 0089-07-01 NINO_1_PLUS_2: 24.8024836991299225 NINO_3: 26.0491558492295034 NINO_3_POINT_4: 27.7522076977274921 NINO_4: 29.1422587642006086 tavg file written: ./b40.1850.track1.1deg.006.pop.h.0089-06.nc (time_manager) ocn date 0089-jul-02, 0.000000E+00 sec (time_manager) ocn date 0089-jul-03, 0.000000E+00 sec (time_manager) ocn date 0089-jul-04, 0.000000E+00 sec (time_manager) ocn date 0089-jul-05, 0.000000E+00 sec (time_manager) ocn date 0089-jul-06, 0.000000E+00 sec (time_manager) ocn date 0089-jul-07, 0.000000E+00 sec (time_manager) ocn date 0089-jul-08, 0.000000E+00 sec (time_manager) ocn date 0089-jul-09, 0.000000E+00 sec (time_manager) ocn date 0089-jul-10, 0.000000E+00 sec (time_manager) ocn date 0089-jul-11, 0.000000E+00 sec (time_manager) ocn date 0089-jul-12, 0.000000E+00 sec (time_manager) ocn date 0089-jul-13, 0.000000E+00 sec (time_manager) ocn date 0089-jul-14, 0.000000E+00 sec (time_manager) ocn date 0089-jul-15, 0.000000E+00 sec (time_manager) ocn date 0089-jul-16, 0.000000E+00 sec (time_manager) ocn date 0089-jul-17, 0.000000E+00 sec (time_manager) ocn date 0089-jul-18, 0.000000E+00 sec (time_manager) ocn date 0089-jul-19, 0.000000E+00 sec (time_manager) ocn date 0089-jul-20, 0.000000E+00 sec (time_manager) ocn date 0089-jul-21, 0.000000E+00 sec (time_manager) ocn date 0089-jul-22, 0.000000E+00 sec (time_manager) ocn date 0089-jul-23, 0.000000E+00 sec (time_manager) ocn date 0089-jul-24, 0.000000E+00 sec (time_manager) ocn date 0089-jul-25, 0.000000E+00 sec (time_manager) ocn date 0089-jul-26, 0.000000E+00 sec (time_manager) ocn date 0089-jul-27, 0.000000E+00 sec (time_manager) ocn date 0089-jul-28, 0.000000E+00 sec (time_manager) ocn date 0089-jul-29, 0.000000E+00 sec (time_manager) ocn date 0089-jul-30, 0.000000E+00 sec (time_manager) ocn date 0089-jul-31, 0.000000E+00 sec (time_manager) ocn date 0089-aug-01, 0.000000E+00 sec Step number : 808275 Date : 01 aug 0089 Hour : 0 Minute : 0 Second : 0 Time(years) : 88.580822 max. cfl number for zonal advection : 8.2519E-02 20 371 33 max. cfl number for meridional advection : 1.0444E-01 312 203 1 max. cfl number for vertical advection : 3.3002E-01 298 46 14 max. cfl number for total advection : 3.3805E-01 298 46 14 max. cfl number for horizontal tracer mixing : 6.3830E-01 88 383 2 max. cfl number for horiz. momentum mixing : 1.2672E-01 318 214 56 K.E. diagnostics: mean K.E. : 9.352216449272074E+00 K.E. change from horiz. visc. :-4.097184980505453E-06 K.E. change from vert. visc. : 8.752337099993195E-06 K.E. change from wind stress : 2.978018588953607E-05 advective K.E. balance : 4.362419776920150E-10 :-1.021154776970237E-09 P.E. verses pressure work : 6.950375408759251E-04 :-8.065470730819009E-06 surface-pressure contribution :-1.222158151914255E-06 : 1.162658914506730E-06 Tracer diagnostics: mean value of tracer 1 : 3.512496653948559E+00 abs change in tracer 1 : 1.385258627536163E-07 mean change in tracer 1 : 1.091613264250251E-09 mean change in tracer 1 from advection :-1.792263070426019E-24 mean change in tracer 1 from horiz. diff.: 5.600822095081309E-26 mean change in tracer 1 from vert. diff.:-1.128877049340958E-08 mean change in tracer 1 from sources : 1.231105999688394E-08 surface flux of tracer 1 : 0.000000000000000E+00 mean value of tracer 2 : 3.472153303609488E+01 abs change in tracer 2 : 1.311108678891696E-11 mean change in tracer 2 :-7.282542003895114E-15 mean change in tracer 2 from advection :-3.454454417196531E-28 mean change in tracer 2 from horiz. diff.: 2.878712014330443E-30 mean change in tracer 2 from vert. diff.:-3.343046058946001E-14 mean change in tracer 2 from sources : 2.141930443713073E-32 surface flux of tracer 2 : 0.000000000000000E+00 mean value of tracer 3 : 2.226633212028453E+02 abs change in tracer 3 : 2.524597034866691E-06 mean change in tracer 3 : 1.030050900487587E-08 mean change in tracer 3 from advection :-2.339374955082383E-23 mean change in tracer 3 from horiz. diff.:-4.716481764278997E-25 mean change in tracer 3 from vert. diff.:-3.143194192792260E-25 mean change in tracer 3 from sources : 3.162337335760043E-08 surface flux of tracer 3 : 0.000000000000000E+00 Other diagnostics: global mean sea level: 5.077592789122809E-05 residual, scans : 9.900236323308278E-14 230 Timing information: Timer number 1 Time = 213.65 seconds HMIX_MOMENTUM_ANISO Timer number 2 Time = 191.80 seconds HMIX_TRACER_GM_NLOOP Timer number 3 Time = 1077.92 seconds HMIX_TRACER_GM Timer number 4 Time = 560.53 seconds VMIX_COEFFICIENTS_KPP Timer number 5 Time = 29.91 seconds VMIX_EXPLICIT_TRACER Timer number 6 Time = 14.80 seconds VMIX_EXPLICIT_MOMENTUM Timer number 7 Time = 93.12 seconds VMIX_IMPLICIT_TRACER Timer number 8 Time = 22.44 seconds VMIX_IMPLICIT_MOMENTUM Timer number 9 Time = 3.26 seconds COMPUTE_COSZ Timer number 10 Time = 40.13 seconds ADVECTION_MOMENTUM Timer number 11 Time = 208.58 seconds ADVECTION_TRACER_UPWIND3 Timer number 12 Time = 12.98 seconds MOC Timer number 13 Time = 12.97 seconds TRACER_TRANSPORTS Timer number 14 Time = 228.20 seconds TAVG_WRITE_STD Timer number 15 Time = 17.32 seconds TAVG_WRITE_NONSTD Timer number 16 Time = 12.18 seconds TAVG_CCSM_DIAGS_BSF Timer number 17 Time = 12.98 seconds TAVG_CCSM_DIAGS_MOC Timer number 18 Time = 12.97 seconds TAVG_CCSM_DIAGS_TRANS Timer number 19 Time = 3222.37 seconds STEP Timer number 20 Time = 2736.30 seconds BAROCLINIC Timer number 21 Time = 370.65 seconds BAROTROPIC Timer number 22 Time = 65.82 seconds 3D-UPDATE Timer number 23 Time = 3510.47 seconds TOTAL Timer number 24 Time = 285.56 seconds OUTPUT Timer number 25 Time = 285.52 seconds OUTPUT TAVG Timer number 26 Time = 0.03 seconds OUTPUT REST ------------------------------------------------------------------------ (diag_print) file written: /ptmp/mai/b40.1850.track1.1deg.006/run/b40.1850.track1.1deg.006.pop.dd.0089-01-01-00000 (diag_transport) file written: /ptmp/mai/b40.1850.track1.1deg.006/run/b40.1850.track1.1deg.006.pop.dt.0089-01-01-00000 AFTER CALL IN tracer_budgets (final): ===================================== volume_t (cm^3) = 0.132514028745E+25 SUM [volume*T] (C cm^3) = 0.465454878115E+25 SUM [volume*S] (ppt cm^3) = 0.460109023407E+26 VOLUME AND TRACER BUDGETS: ========================== Please note the following about the budgets: * These budgets are meaningful when time-averaging starts at the first time step of an intended budget interval. * Positive-signed quantities ==> ocean gain Negative-signed quantities ==> ocean loss * The imbalance should be small in comparison to the tendency term, except for the volume budget when a fixed-volume ocean is used (e.g., when lfw_as_salt_flx = .false.) * These budgets are computed from single-precision TAVG terms, which contributes to inaccuracy in the imbalance term. VOLUME BUDGET FOR THE GIVEN TAVG INTERVAL (cm/s): ------------------------------------------------- tendency = -.107648603296E-12 FW flux = 0.000000000000E+00 Imbalance = 0.107648603296E-12 Imbalance = -tendency + FW flux HEAT BUDGET FOR THE GIVEN TAVG INTERVAL (W/m^2): ------------------------------------------------ tendency = -.217602849455E+02 SHF flux = -.218934170894E+02 ice formation = 0.133132077561E+00 FW heat content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = -.662876090962E-07 Imbalance = -tendency + SHF flux + ice formation + FW heat content + free-srf non-consv. IMPLIED FW BUDGET FOR THE GIVEN TAVG INTERVAL (kg of freshwater/m^2/s): ----------------------------------------------------- tendency = 0.520129982729E-05 SFWF flux = 0.555426701278E-05 ice formation = -.352968056272E-06 FW salt content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = -.870782695904E-12 Imbalance = -tendency + SFWF flux + ice formation + FW salt content + free-srf non-consv. Global Time Averages: 08-01-0089 00:00:00 KAPPA_ISOP: 3569398.19001237582 KAPPA_THIC: 4133615.18503126642 HOR_DIFF: 609715.523297306732 DIA_DEPTH: 7209.89105780425052 TLT: 407.470090606730878 INT_DEPTH: 7617.35675081559111 UISOP: 0.654568413395789021E-04 VISOP: -0.396171412620465368E-03 WISOP: 0.155294370927165989E-12 ADVT_ISOP: 0.412393608910000364E-10 ADVS_ISOP: 0.984634200257915727E-15 VNT_ISOP: -0.106759506654279064E-08 VNS_ISOP: -0.246553015894078277E-11 USUBM: -0.101967608079805585E-04 VSUBM: -0.263067345473097423E-04 WSUBM: -0.949896523125819173E-09 HLS_SUBM: 713762.584754555020 ADVT_SUBM: 0.169085315916047822E-11 ADVS_SUBM: 0.126932548616331004E-15 VNT_SUBM: -0.182021857457507562E-09 VNS_SUBM: -0.152647260267544662E-12 HDIFT: -0.334503623454581280E-10 HDIFS: -0.116850698092472827E-14 QSW_HBL: 128.746146541844126 KVMIX: 1.37138688726860991 TPOWER: 0.221717877170656343E-05 UVEL: 0.323982477073712138 VVEL: 0.110398594558895483E-02 TEMP: 3.51248795160045280 dTEMP_POS_2D: 0.912676850642959586E-01 dTEMP_NEG_2D: -0.713725424644036655E-01 SALT: 0.347215592253017832E-01 RHO: 1.03743443252786283 RESID_T: 0.000000000000000000E+00 RESID_S: 0.000000000000000000E+00 SU: 116209.604919259407 SV: 366.354952887372519 SSH: 0.508981334831497717E-04 SHF: -21.8934170893506916 SHF_QSW: 149.934753452515451 SFWF: 0.555426701278235319E-05 TAUX: 0.137958203296645959 TAUY: 0.526147554662497116E-01 FW: 0.000000000000000000E+00 TFW_T: 0.000000000000000000E+00 TFW_S: 0.000000000000000000E+00 EVAP_F: -0.404594912585282349E-04 PREC_F: 0.367032744603837862E-04 SNOW_F: 0.938174499575242948E-06 MELT_F: 0.454197651371444743E-05 ROFF_F: 0.485213788300158224E-05 IOFF_F: 0.253691182912423616E-06 SALT_F: 0.117050185416158443E-07 SENH_F: -14.0483793688520784 LWUP_F: -386.177756712610005 LWDN_F: 331.731529760767444 MELTH_F: -1.74665214051557882 IFRAC: 0.800059796102696591E-01 IAGE: 222.648999672052668 WVEL: 0.705441675943283667E-06 UET: 0.142396279083919071E-07 VNT: -0.175739552956594803E-08 WTT: -0.206083494340474361E-07 UES: 0.161150161328117507E-08 VNS: 0.182856342475432978E-11 WTS: 0.727924018685158804E-12 ADVT: 0.291532000164981979E-10 ADVS: 0.673535491660793201E-14 PV: -0.353809586602102133E-13 Q: -0.974316597973258104E-08 PD: 1.02752353622753878 QSW_HTP: 110.827743239855806 QFLUX: 0.133132077560911360 HMXL: 7210.84399324218884 XMXL: 8201.79152286267890 TMXL: 5893.81116292814932 HBLT: 5228.75295552056923 XBLT: 8252.08045779591885 TBLT: 1028.91334407905288 BSF: 0.000000000000000000E+00 convergence info from pcg_diag_bsf: iter = 0 rms_resid = 0.102001286223828383 iter = 100 rms_resid = 0.424645440200484888E-02 iter = 200 rms_resid = 0.906680034483288606E-03 iter = 300 rms_resid = 0.384357464908484099E-03 iter = 400 rms_resid = 0.287862691978458477E-03 iter = 500 rms_resid = 0.192825568401818191E-03 iter = 600 rms_resid = 0.500107957316308597E-04 iter = 700 rms_resid = 0.149508382936272812E-04 iter = 800 rms_resid = 0.173895845712380484E-05 iter = 900 rms_resid = 0.154975542174289606E-06 Local Time- and Space-Averages for Nino Regions: 00:00:00 0089-08-01 NINO_1_PLUS_2: 24.2337558114964686 NINO_3: 25.2950595055191449 NINO_3_POINT_4: 27.0945771058701084 NINO_4: 28.9275868878622830 tavg file written: ./b40.1850.track1.1deg.006.pop.h.0089-07.nc (time_manager) ocn date 0089-aug-02, 0.000000E+00 sec (time_manager) ocn date 0089-aug-03, 0.000000E+00 sec (time_manager) ocn date 0089-aug-04, 0.000000E+00 sec (time_manager) ocn date 0089-aug-05, 0.000000E+00 sec (time_manager) ocn date 0089-aug-06, 0.000000E+00 sec (time_manager) ocn date 0089-aug-07, 0.000000E+00 sec (time_manager) ocn date 0089-aug-08, 0.000000E+00 sec (time_manager) ocn date 0089-aug-09, 0.000000E+00 sec (time_manager) ocn date 0089-aug-10, 0.000000E+00 sec (time_manager) ocn date 0089-aug-11, 0.000000E+00 sec (time_manager) ocn date 0089-aug-12, 0.000000E+00 sec (time_manager) ocn date 0089-aug-13, 0.000000E+00 sec ovf_loc_prd: nsteps_total= 808584 ovf= 3 swap ovf UV old/new prd set old/new= 1 5 ovf_loc_prd: nsteps_total= 808590 ovf= 3 swap ovf UV old/new prd set old/new= 5 1 ovf_loc_prd: nsteps_total= 808591 ovf= 3 swap ovf UV old/new prd set old/new= 1 5 ovf_loc_prd: nsteps_total= 808599 ovf= 3 swap ovf UV old/new prd set old/new= 5 1 (time_manager) ocn date 0089-aug-14, 0.000000E+00 sec ovf_loc_prd: nsteps_total= 808600 ovf= 3 swap ovf UV old/new prd set old/new= 1 5 ovf_loc_prd: nsteps_total= 808601 ovf= 3 swap ovf UV old/new prd set old/new= 5 1 (time_manager) ocn date 0089-aug-15, 0.000000E+00 sec (time_manager) ocn date 0089-aug-16, 0.000000E+00 sec (time_manager) ocn date 0089-aug-17, 0.000000E+00 sec (time_manager) ocn date 0089-aug-18, 0.000000E+00 sec (time_manager) ocn date 0089-aug-19, 0.000000E+00 sec (time_manager) ocn date 0089-aug-20, 0.000000E+00 sec (time_manager) ocn date 0089-aug-21, 0.000000E+00 sec (time_manager) ocn date 0089-aug-22, 0.000000E+00 sec (time_manager) ocn date 0089-aug-23, 0.000000E+00 sec (time_manager) ocn date 0089-aug-24, 0.000000E+00 sec (time_manager) ocn date 0089-aug-25, 0.000000E+00 sec (time_manager) ocn date 0089-aug-26, 0.000000E+00 sec (time_manager) ocn date 0089-aug-27, 0.000000E+00 sec (time_manager) ocn date 0089-aug-28, 0.000000E+00 sec (time_manager) ocn date 0089-aug-29, 0.000000E+00 sec (time_manager) ocn date 0089-aug-30, 0.000000E+00 sec (time_manager) ocn date 0089-aug-31, 0.000000E+00 sec (time_manager) ocn date 0089-sep-01, 0.000000E+00 sec Step number : 809050 Date : 01 sep 0089 Hour : 0 Minute : 0 Second : 0 Time(years) : 88.665753 max. cfl number for zonal advection : 8.5724E-02 20 371 33 max. cfl number for meridional advection : 1.0918E-01 312 203 1 max. cfl number for vertical advection : 3.5401E-01 298 46 14 max. cfl number for total advection : 3.6190E-01 298 46 14 max. cfl number for horizontal tracer mixing : 6.0948E-01 175 380 3 max. cfl number for horiz. momentum mixing : 1.2672E-01 318 214 56 K.E. diagnostics: mean K.E. : 9.098917724787775E+00 K.E. change from horiz. visc. :-3.910810884259640E-06 K.E. change from vert. visc. : 7.614433702962513E-06 K.E. change from wind stress : 2.338298559665091E-05 advective K.E. balance : 2.525587923621424E-10 :-9.104577352018420E-10 P.E. verses pressure work : 7.083929749764478E-04 :-4.694718763410616E-06 surface-pressure contribution :-5.652774268120126E-07 : 4.986717769384175E-07 Tracer diagnostics: mean value of tracer 1 : 3.511283143208757E+00 abs change in tracer 1 : 1.307322542408990E-07 mean change in tracer 1 : 2.693173333566465E-09 mean change in tracer 1 from advection : 1.886592705711599E-25 mean change in tracer 1 from horiz. diff.: 1.886592705711599E-25 mean change in tracer 1 from vert. diff.:-1.122393531654281E-08 mean change in tracer 1 from sources : 1.380262789133428E-08 surface flux of tracer 1 : 0.000000000000000E+00 mean value of tracer 2 : 3.472148227260215E+01 abs change in tracer 2 : 1.279892140716359E-11 mean change in tracer 2 : 3.493959840097357E-14 mean change in tracer 2 from advection : 5.757424028660885E-29 mean change in tracer 2 from horiz. diff.: 5.037746025078275E-29 mean change in tracer 2 from vert. diff.:-8.240885844969711E-15 mean change in tracer 2 from sources :-1.150771807301020E-31 surface flux of tracer 2 : 0.000000000000000E+00 mean value of tracer 3 : 2.226918101927547E+02 abs change in tracer 3 : 2.388815463818699E-06 mean change in tracer 3 : 1.176677277468971E-08 mean change in tracer 3 from advection :-7.848225655760252E-23 mean change in tracer 3 from horiz. diff.:-7.546370822846396E-25 mean change in tracer 3 from vert. diff.: 1.031760798457633E-24 mean change in tracer 3 from sources : 3.162337335760043E-08 surface flux of tracer 3 : 0.000000000000000E+00 Other diagnostics: global mean sea level: 5.127270468854282E-05 residual, scans : 8.760117472477279E-14 240 Timing information: Timer number 1 Time = 244.50 seconds HMIX_MOMENTUM_ANISO Timer number 2 Time = 219.53 seconds HMIX_TRACER_GM_NLOOP Timer number 3 Time = 1234.78 seconds HMIX_TRACER_GM Timer number 4 Time = 641.97 seconds VMIX_COEFFICIENTS_KPP Timer number 5 Time = 34.28 seconds VMIX_EXPLICIT_TRACER Timer number 6 Time = 16.95 seconds VMIX_EXPLICIT_MOMENTUM Timer number 7 Time = 106.74 seconds VMIX_IMPLICIT_TRACER Timer number 8 Time = 25.75 seconds VMIX_IMPLICIT_MOMENTUM Timer number 9 Time = 3.74 seconds COMPUTE_COSZ Timer number 10 Time = 45.99 seconds ADVECTION_MOMENTUM Timer number 11 Time = 239.07 seconds ADVECTION_TRACER_UPWIND3 Timer number 12 Time = 15.15 seconds MOC Timer number 13 Time = 15.13 seconds TRACER_TRANSPORTS Timer number 14 Time = 267.44 seconds TAVG_WRITE_STD Timer number 15 Time = 20.94 seconds TAVG_WRITE_NONSTD Timer number 16 Time = 14.32 seconds TAVG_CCSM_DIAGS_BSF Timer number 17 Time = 15.15 seconds TAVG_CCSM_DIAGS_MOC Timer number 18 Time = 15.13 seconds TAVG_CCSM_DIAGS_TRANS Timer number 19 Time = 3694.69 seconds STEP Timer number 20 Time = 3136.80 seconds BAROCLINIC Timer number 21 Time = 425.32 seconds BAROTROPIC Timer number 22 Time = 75.55 seconds 3D-UPDATE Timer number 23 Time = 4032.92 seconds TOTAL Timer number 24 Time = 335.32 seconds OUTPUT Timer number 25 Time = 335.27 seconds OUTPUT TAVG Timer number 26 Time = 0.04 seconds OUTPUT REST ------------------------------------------------------------------------ (diag_print) file written: /ptmp/mai/b40.1850.track1.1deg.006/run/b40.1850.track1.1deg.006.pop.dd.0089-01-01-00000 (diag_transport) file written: /ptmp/mai/b40.1850.track1.1deg.006/run/b40.1850.track1.1deg.006.pop.dt.0089-01-01-00000 AFTER CALL IN tracer_budgets (final): ===================================== volume_t (cm^3) = 0.132514028745E+25 SUM [volume*T] (C cm^3) = 0.465293689426E+25 SUM [volume*S] (ppt cm^3) = 0.460108350091E+26 VOLUME AND TRACER BUDGETS: ========================== Please note the following about the budgets: * These budgets are meaningful when time-averaging starts at the first time step of an intended budget interval. * Positive-signed quantities ==> ocean gain Negative-signed quantities ==> ocean loss * The imbalance should be small in comparison to the tendency term, except for the volume budget when a fixed-volume ocean is used (e.g., when lfw_as_salt_flx = .false.) * These budgets are computed from single-precision TAVG terms, which contributes to inaccuracy in the imbalance term. VOLUME BUDGET FOR THE GIVEN TAVG INTERVAL (cm/s): ------------------------------------------------- tendency = 0.185464195882E-12 FW flux = 0.000000000000E+00 Imbalance = -.185464195882E-12 Imbalance = -tendency + FW flux HEAT BUDGET FOR THE GIVEN TAVG INTERVAL (W/m^2): ------------------------------------------------ tendency = -.683213035864E+01 SHF flux = -.694826035494E+01 ice formation = 0.116129750649E+00 FW heat content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = -.245659933618E-06 Imbalance = -tendency + SHF flux + ice formation + FW heat content + free-srf non-consv. IMPLIED FW BUDGET FOR THE GIVEN TAVG INTERVAL (kg of freshwater/m^2/s): ----------------------------------------------------- tendency = 0.200603250954E-05 SFWF flux = 0.231392227661E-05 ice formation = -.307890428159E-06 FW salt content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = -.661079898569E-12 Imbalance = -tendency + SFWF flux + ice formation + FW salt content + free-srf non-consv. Global Time Averages: 09-01-0089 00:00:00 KAPPA_ISOP: 3938114.12470014300 KAPPA_THIC: 4561637.89161702245 HOR_DIFF: 668005.912537686178 DIA_DEPTH: 7902.09009432956464 TLT: 453.716310720625074 INT_DEPTH: 8355.80045205731949 UISOP: 0.763716429313366328E-04 VISOP: -0.388625553064650419E-03 WISOP: -0.322310579400256128E-12 ADVT_ISOP: -0.247959712931849350E-10 ADVS_ISOP: 0.461843914460934535E-14 VNT_ISOP: -0.157182298081895150E-08 VNS_ISOP: -0.229137285663144133E-11 USUBM: -0.110230705924690085E-04 VSUBM: -0.322479774645512802E-04 WSUBM: -0.733220963465398950E-09 HLS_SUBM: 755998.696163746761 ADVT_SUBM: -0.138634247344423336E-11 ADVS_SUBM: -0.508231836588298702E-15 VNT_SUBM: -0.430176290205950316E-09 VNS_SUBM: -0.188518668935112992E-12 HDIFT: 0.441462025088029200E-10 HDIFS: -0.315138849758457101E-14 QSW_HBL: 138.140695668277601 KVMIX: 1.36967013934284232 TPOWER: 0.223142663108633942E-05 UVEL: 0.325501602515100352 VVEL: 0.155815696222303388E-02 TEMP: 3.50989998617545274 dTEMP_POS_2D: 0.815758000611142009E-01 dTEMP_NEG_2D: -0.630105711054985557E-01 SALT: 0.347214709441316521E-01 RHO: 1.03743478041437398 RESID_T: 0.000000000000000000E+00 RESID_S: 0.000000000000000000E+00 SU: 116753.596803096894 SV: 533.283685659572711 SSH: 0.513204536198438868E-04 SHF: -6.94826035494443772 SHF_QSW: 161.634614407746142 SFWF: 0.231392227661463242E-05 TAUX: 0.153484051488748940 TAUY: 0.493287701465200124E-01 FW: 0.000000000000000000E+00 TFW_T: 0.000000000000000000E+00 TFW_S: 0.000000000000000000E+00 EVAP_F: -0.386428283164030168E-04 PREC_F: 0.343565385067957224E-04 SNOW_F: 0.979998127277720103E-06 MELT_F: 0.251422465176490226E-05 ROFF_F: 0.387055879991257889E-05 IOFF_F: 0.368964967171765320E-06 SALT_F: 0.532772240982420061E-08 SENH_F: -14.0298596697653473 LWUP_F: -386.867446354378046 LWDN_F: 330.826926592938889 MELTH_F: -1.41664320972653024 IFRAC: 0.781409251866024834E-01 IAGE: 222.676814542934409 WVEL: 0.725118106737593944E-06 UET: 0.906738227981550315E-08 VNT: -0.269528957634796878E-07 WTT: -0.189323900488749779E-07 UES: 0.156861867293411445E-08 VNS: 0.480369638929441461E-11 WTS: 0.806696969744397670E-12 ADVT: -0.361734167901827080E-10 ADVS: 0.302320809725934834E-15 PV: -0.669069160564947870E-13 Q: -0.979077991458287237E-08 PD: 1.02752386156500686 QSW_HTP: 119.402431426673601 QFLUX: 0.116129750648912400 HMXL: 7903.52088769448983 XMXL: 8987.37259502514826 TMXL: 5792.62982018915318 HBLT: 5068.28235813154606 XBLT: 8559.84764770170659 TBLT: 987.646236547255853 BSF: 0.000000000000000000E+00 convergence info from pcg_diag_bsf: iter = 0 rms_resid = 0.980396162817738087E-01 iter = 100 rms_resid = 0.439541793720336482E-02 iter = 200 rms_resid = 0.935634941594902601E-03 iter = 300 rms_resid = 0.436465612703407192E-03 iter = 400 rms_resid = 0.311614495590505905E-03 iter = 500 rms_resid = 0.208430353471294615E-03 iter = 600 rms_resid = 0.492970296626786574E-04 iter = 700 rms_resid = 0.146235575321500999E-04 iter = 800 rms_resid = 0.191178047908326850E-05 iter = 900 rms_resid = 0.154982219089642454E-06 Local Time- and Space-Averages for Nino Regions: 00:00:00 0089-09-01 NINO_1_PLUS_2: 23.4416431741412126 NINO_3: 24.7827257763209907 NINO_3_POINT_4: 26.5987111560832403 NINO_4: 28.7256124466783689 tavg file written: ./b40.1850.track1.1deg.006.pop.h.0089-08.nc (time_manager) ocn date 0089-sep-02, 0.000000E+00 sec (time_manager) ocn date 0089-sep-03, 0.000000E+00 sec (time_manager) ocn date 0089-sep-04, 0.000000E+00 sec (time_manager) ocn date 0089-sep-05, 0.000000E+00 sec (time_manager) ocn date 0089-sep-06, 0.000000E+00 sec (time_manager) ocn date 0089-sep-07, 0.000000E+00 sec (time_manager) ocn date 0089-sep-08, 0.000000E+00 sec (time_manager) ocn date 0089-sep-09, 0.000000E+00 sec (time_manager) ocn date 0089-sep-10, 0.000000E+00 sec (time_manager) ocn date 0089-sep-11, 0.000000E+00 sec (time_manager) ocn date 0089-sep-12, 0.000000E+00 sec (time_manager) ocn date 0089-sep-13, 0.000000E+00 sec (time_manager) ocn date 0089-sep-14, 0.000000E+00 sec (time_manager) ocn date 0089-sep-15, 0.000000E+00 sec (time_manager) ocn date 0089-sep-16, 0.000000E+00 sec (time_manager) ocn date 0089-sep-17, 0.000000E+00 sec (time_manager) ocn date 0089-sep-18, 0.000000E+00 sec (time_manager) ocn date 0089-sep-19, 0.000000E+00 sec (time_manager) ocn date 0089-sep-20, 0.000000E+00 sec (time_manager) ocn date 0089-sep-21, 0.000000E+00 sec (time_manager) ocn date 0089-sep-22, 0.000000E+00 sec (time_manager) ocn date 0089-sep-23, 0.000000E+00 sec (time_manager) ocn date 0089-sep-24, 0.000000E+00 sec (time_manager) ocn date 0089-sep-25, 0.000000E+00 sec (time_manager) ocn date 0089-sep-26, 0.000000E+00 sec (time_manager) ocn date 0089-sep-27, 0.000000E+00 sec (time_manager) ocn date 0089-sep-28, 0.000000E+00 sec (time_manager) ocn date 0089-sep-29, 0.000000E+00 sec (time_manager) ocn date 0089-sep-30, 0.000000E+00 sec (time_manager) ocn date 0089-oct-01, 0.000000E+00 sec Step number : 809800 Date : 01 oct 0089 Hour : 0 Minute : 0 Second : 0 Time(years) : 88.747945 max. cfl number for zonal advection : 8.8031E-02 20 371 33 max. cfl number for meridional advection : 1.0807E-01 312 203 1 max. cfl number for vertical advection : 4.1829E-01 298 46 14 max. cfl number for total advection : 4.2629E-01 298 46 14 max. cfl number for horizontal tracer mixing : 6.0948E-01 175 380 3 max. cfl number for horiz. momentum mixing : 1.2672E-01 318 214 56 K.E. diagnostics: mean K.E. : 9.028586007878486E+00 K.E. change from horiz. visc. :-3.727373190344893E-06 K.E. change from vert. visc. : 7.846516521421281E-06 K.E. change from wind stress : 2.510491038437942E-05 advective K.E. balance :-1.323404311798376E-09 : 4.558972566993401E-10 P.E. verses pressure work : 7.219356292018528E-04 :-4.406189568634839E-06 surface-pressure contribution : 3.192185496862537E-07 :-3.973805027018661E-07 Tracer diagnostics: mean value of tracer 1 : 3.511905679414014E+00 abs change in tracer 1 : 1.300319795783610E-07 mean change in tracer 1 : 3.127235928446497E-09 mean change in tracer 1 from advection :-4.716481764278997E-24 mean change in tracer 1 from horiz. diff.: 1.768680661604624E-26 mean change in tracer 1 from vert. diff.:-1.172351169914520E-08 mean change in tracer 1 from sources : 1.471993710211562E-08 surface flux of tracer 1 : 0.000000000000000E+00 mean value of tracer 2 : 3.472148250368037E+01 abs change in tracer 2 : 1.248772263530770E-11 mean change in tracer 2 : 7.961012581658844E-14 mean change in tracer 2 from advection :-6.707398993389932E-28 mean change in tracer 2 from horiz. diff.:-2.842728114151312E-29 mean change in tracer 2 from vert. diff.: 3.027029006623128E-14 mean change in tracer 2 from sources : 2.973324215804735E-32 surface flux of tracer 2 : 0.000000000000000E+00 mean value of tracer 3 : 2.227252469012969E+02 abs change in tracer 3 : 2.324082772411841E-06 mean change in tracer 3 : 1.417851262823895E-08 mean change in tracer 3 from advection : 1.811128997483135E-23 mean change in tracer 3 from horiz. diff.: 3.254372417352508E-24 mean change in tracer 3 from vert. diff.: 1.884782149536555E-24 mean change in tracer 3 from sources : 3.162337335760043E-08 surface flux of tracer 3 : 0.000000000000000E+00 Other diagnostics: global mean sea level: 5.106343522621524E-05 residual, scans : 7.505003953409759E-14 240 Timing information: Timer number 1 Time = 274.69 seconds HMIX_MOMENTUM_ANISO Timer number 2 Time = 246.51 seconds HMIX_TRACER_GM_NLOOP Timer number 3 Time = 1386.82 seconds HMIX_TRACER_GM Timer number 4 Time = 720.64 seconds VMIX_COEFFICIENTS_KPP Timer number 5 Time = 38.51 seconds VMIX_EXPLICIT_TRACER Timer number 6 Time = 19.04 seconds VMIX_EXPLICIT_MOMENTUM Timer number 7 Time = 119.91 seconds VMIX_IMPLICIT_TRACER Timer number 8 Time = 28.99 seconds VMIX_IMPLICIT_MOMENTUM Timer number 9 Time = 4.20 seconds COMPUTE_COSZ Timer number 10 Time = 51.61 seconds ADVECTION_MOMENTUM Timer number 11 Time = 268.58 seconds ADVECTION_TRACER_UPWIND3 Timer number 12 Time = 17.30 seconds MOC Timer number 13 Time = 17.28 seconds TRACER_TRANSPORTS Timer number 14 Time = 305.41 seconds TAVG_WRITE_STD Timer number 15 Time = 23.75 seconds TAVG_WRITE_NONSTD Timer number 16 Time = 16.35 seconds TAVG_CCSM_DIAGS_BSF Timer number 17 Time = 17.30 seconds TAVG_CCSM_DIAGS_MOC Timer number 18 Time = 17.28 seconds TAVG_CCSM_DIAGS_TRANS Timer number 19 Time = 4150.34 seconds STEP Timer number 20 Time = 3524.80 seconds BAROCLINIC Timer number 21 Time = 477.45 seconds BAROTROPIC Timer number 22 Time = 84.98 seconds 3D-UPDATE Timer number 23 Time = 4536.32 seconds TOTAL Timer number 24 Time = 382.71 seconds OUTPUT Timer number 25 Time = 382.65 seconds OUTPUT TAVG Timer number 26 Time = 0.04 seconds OUTPUT REST ------------------------------------------------------------------------ (diag_print) file written: /ptmp/mai/b40.1850.track1.1deg.006/run/b40.1850.track1.1deg.006.pop.dd.0089-01-01-00000 (diag_transport) file written: /ptmp/mai/b40.1850.track1.1deg.006/run/b40.1850.track1.1deg.006.pop.dt.0089-01-01-00000 AFTER CALL IN tracer_budgets (final): ===================================== volume_t (cm^3) = 0.132514028745E+25 SUM [volume*T] (C cm^3) = 0.465376089282E+25 SUM [volume*S] (ppt cm^3) = 0.460108352215E+26 VOLUME AND TRACER BUDGETS: ========================== Please note the following about the budgets: * These budgets are meaningful when time-averaging starts at the first time step of an intended budget interval. * Positive-signed quantities ==> ocean gain Negative-signed quantities ==> ocean loss * The imbalance should be small in comparison to the tendency term, except for the volume budget when a fixed-volume ocean is used (e.g., when lfw_as_salt_flx = .false.) * These budgets are computed from single-precision TAVG terms, which contributes to inaccuracy in the imbalance term. VOLUME BUDGET FOR THE GIVEN TAVG INTERVAL (cm/s): ------------------------------------------------- tendency = -.807248892896E-13 FW flux = 0.000000000000E+00 Imbalance = 0.807248892896E-13 Imbalance = -tendency + FW flux HEAT BUDGET FOR THE GIVEN TAVG INTERVAL (W/m^2): ------------------------------------------------ tendency = 0.360901318892E+01 SHF flux = 0.347594122157E+01 ice formation = 0.133071880762E+00 FW heat content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = -.865847938902E-07 Imbalance = -tendency + SHF flux + ice formation + FW heat content + free-srf non-consv. IMPLIED FW BUDGET FOR THE GIVEN TAVG INTERVAL (kg of freshwater/m^2/s): ----------------------------------------------------- tendency = -.653995163015E-08 SFWF flux = 0.346268448992E-06 ice formation = -.352808458769E-06 FW salt content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = -.581466218783E-13 Imbalance = -tendency + SFWF flux + ice formation + FW salt content + free-srf non-consv. Global Time Averages: 10-01-0089 00:00:00 KAPPA_ISOP: 4535131.67748854775 KAPPA_THIC: 5171031.68744514044 HOR_DIFF: 680671.988967111916 DIA_DEPTH: 8017.62910925008418 TLT: 535.378410320324065 INT_DEPTH: 8553.00199059834631 UISOP: 0.715649029628135508E-04 VISOP: -0.398043428564258026E-03 WISOP: 0.178529539539942047E-14 ADVT_ISOP: 0.524614885892347408E-10 ADVS_ISOP: -0.209409461597165460E-14 VNT_ISOP: -0.246093472667829979E-08 VNS_ISOP: -0.230321840918160043E-11 USUBM: -0.529563202470370722E-05 VSUBM: -0.376996816939776942E-04 WSUBM: 0.180827825116789103E-09 HLS_SUBM: 776802.864505929057 ADVT_SUBM: 0.568526326445553354E-12 ADVS_SUBM: 0.356443893430123134E-15 VNT_SUBM: -0.861983956294933976E-09 VNS_SUBM: -0.268251455091221063E-12 HDIFT: -0.697799562505570570E-10 HDIFS: 0.200833337413902125E-14 QSW_HBL: 148.757073718769391 KVMIX: 1.36648583029135628 TPOWER: 0.222620124901558386E-05 UVEL: 0.317349941908720956 VVEL: 0.868145505932396092E-03 TEMP: 3.50961314474616737 dTEMP_POS_2D: 0.802127551392226579E-01 dTEMP_NEG_2D: -0.618267104600179473E-01 SALT: 0.347214504987815101E-01 RHO: 1.03743463102448530 RESID_T: 0.000000000000000000E+00 RESID_S: 0.000000000000000000E+00 SU: 113829.834169839465 SV: 288.297973150249163 SSH: 0.511787547100580833E-04 SHF: 3.47594122157281449 SHF_QSW: 173.081120171993092 SFWF: 0.346268448992303410E-06 TAUX: 0.169845268560829071 TAUY: 0.428181281818139012E-01 FW: 0.000000000000000000E+00 TFW_T: 0.000000000000000000E+00 TFW_S: 0.000000000000000000E+00 EVAP_F: -0.387449206583321843E-04 PREC_F: 0.347851663515774985E-04 SNOW_F: 0.865557520329604217E-06 MELT_F: 0.586595694729020792E-06 ROFF_F: 0.329726991518391456E-05 IOFF_F: 0.364917281397903095E-06 SALT_F: -0.198623232753194236E-08 SENH_F: -13.5636994545270024 LWUP_F: -386.887026967346685 LWDN_F: 329.118297580684100 MELTH_F: -0.961096033410727690 IFRAC: 0.776867353892504720E-01 IAGE: 222.708280525325421 WVEL: 0.738950811355768251E-06 UET: -0.281066131572860746E-07 VNT: -0.264686413317460737E-07 WTT: -0.192828906668047470E-07 UES: 0.156628348503077961E-08 VNS: -0.321361208651443335E-11 WTS: 0.133276846606751821E-11 ADVT: 0.166124316089792486E-10 ADVS: -0.436302352990145530E-14 PV: -0.640131128535583335E-13 Q: -0.973282803945046353E-08 PD: 1.02752368770830182 QSW_HTP: 127.395669162395222 QFLUX: 0.133071880761759798 HMXL: 8019.07261334602754 XMXL: 9704.35159620392187 TMXL: 4488.77293883104903 HBLT: 4592.62880972521361 XBLT: 8471.87363255741730 TBLT: 950.832637725110089 BSF: 0.000000000000000000E+00 convergence info from pcg_diag_bsf: iter = 0 rms_resid = 0.958923565368957898E-01 iter = 100 rms_resid = 0.414507844551823251E-02 iter = 200 rms_resid = 0.891442245963028584E-03 iter = 300 rms_resid = 0.417129762365912502E-03 iter = 400 rms_resid = 0.291392921010040224E-03 iter = 500 rms_resid = 0.197837447140536128E-03 iter = 600 rms_resid = 0.480715979139472295E-04 iter = 700 rms_resid = 0.140058565058716597E-04 iter = 800 rms_resid = 0.187291626326160709E-05 iter = 900 rms_resid = 0.148100331987144656E-06 Local Time- and Space-Averages for Nino Regions: 00:00:00 0089-10-01 NINO_1_PLUS_2: 23.6782913087159734 NINO_3: 24.5560676607785062 NINO_3_POINT_4: 26.0701442106846031 NINO_4: 28.2189198934529522 tavg file written: ./b40.1850.track1.1deg.006.pop.h.0089-09.nc (time_manager) ocn date 0089-oct-02, 0.000000E+00 sec (time_manager) ocn date 0089-oct-03, 0.000000E+00 sec (time_manager) ocn date 0089-oct-04, 0.000000E+00 sec (time_manager) ocn date 0089-oct-05, 0.000000E+00 sec (time_manager) ocn date 0089-oct-06, 0.000000E+00 sec (time_manager) ocn date 0089-oct-07, 0.000000E+00 sec (time_manager) ocn date 0089-oct-08, 0.000000E+00 sec (time_manager) ocn date 0089-oct-09, 0.000000E+00 sec (time_manager) ocn date 0089-oct-10, 0.000000E+00 sec (time_manager) ocn date 0089-oct-11, 0.000000E+00 sec (time_manager) ocn date 0089-oct-12, 0.000000E+00 sec (time_manager) ocn date 0089-oct-13, 0.000000E+00 sec (time_manager) ocn date 0089-oct-14, 0.000000E+00 sec (time_manager) ocn date 0089-oct-15, 0.000000E+00 sec (time_manager) ocn date 0089-oct-16, 0.000000E+00 sec (time_manager) ocn date 0089-oct-17, 0.000000E+00 sec (time_manager) ocn date 0089-oct-18, 0.000000E+00 sec (time_manager) ocn date 0089-oct-19, 0.000000E+00 sec (time_manager) ocn date 0089-oct-20, 0.000000E+00 sec (time_manager) ocn date 0089-oct-21, 0.000000E+00 sec (time_manager) ocn date 0089-oct-22, 0.000000E+00 sec (time_manager) ocn date 0089-oct-23, 0.000000E+00 sec (time_manager) ocn date 0089-oct-24, 0.000000E+00 sec (time_manager) ocn date 0089-oct-25, 0.000000E+00 sec (time_manager) ocn date 0089-oct-26, 0.000000E+00 sec (time_manager) ocn date 0089-oct-27, 0.000000E+00 sec (time_manager) ocn date 0089-oct-28, 0.000000E+00 sec (time_manager) ocn date 0089-oct-29, 0.000000E+00 sec (time_manager) ocn date 0089-oct-30, 0.000000E+00 sec (time_manager) ocn date 0089-oct-31, 0.000000E+00 sec (time_manager) ocn date 0089-nov-01, 0.000000E+00 sec Step number : 810575 Date : 01 nov 0089 Hour : 0 Minute : 0 Second : 0 Time(years) : 88.832877 max. cfl number for zonal advection : 8.7205E-02 20 371 33 max. cfl number for meridional advection : 9.1511E-02 313 204 2 max. cfl number for vertical advection : 2.7229E-01 320 362 21 max. cfl number for total advection : 2.8600E-01 320 362 21 max. cfl number for horizontal tracer mixing : 6.0948E-01 175 380 4 max. cfl number for horiz. momentum mixing : 1.2672E-01 318 214 56 K.E. diagnostics: mean K.E. : 8.837425970608427E+00 K.E. change from horiz. visc. :-3.636602776389774E-06 K.E. change from vert. visc. : 7.511332347623044E-06 K.E. change from wind stress : 2.263978724404989E-05 advective K.E. balance :-8.836389689243680E-10 :-5.328021130102725E-11 P.E. verses pressure work : 7.163070137250186E-04 :-3.276369690118478E-06 surface-pressure contribution : 4.785381652518607E-07 :-5.425523975105301E-07 Tracer diagnostics: mean value of tracer 1 : 3.513919983362515E+00 abs change in tracer 1 : 1.341424385602037E-07 mean change in tracer 1 : 4.017530158635710E-09 mean change in tracer 1 from advection :-7.546370822846396E-25 mean change in tracer 1 from horiz. diff.:-1.002252374909287E-25 mean change in tracer 1 from vert. diff.:-1.156504822322217E-08 mean change in tracer 1 from sources : 1.547842881678421E-08 surface flux of tracer 1 : 0.000000000000000E+00 mean value of tracer 2 : 3.472153555617178E+01 abs change in tracer 2 : 1.285563078626310E-11 mean change in tracer 2 : 6.357636494177727E-14 mean change in tracer 2 from advection :-9.672472368150289E-28 mean change in tracer 2 from horiz. diff.: 2.410921312001746E-29 mean change in tracer 2 from vert. diff.: 2.429265733881784E-14 mean change in tracer 2 from sources : 2.116148806912672E-31 surface flux of tracer 2 : 0.000000000000000E+00 mean value of tracer 3 : 2.227763136161209E+02 abs change in tracer 3 : 2.390596758323893E-06 mean change in tracer 3 : 2.213685706457907E-08 mean change in tracer 3 from advection :-7.395443406389468E-23 mean change in tracer 3 from horiz. diff.: 1.320614893998119E-24 mean change in tracer 3 from vert. diff.: 5.988747387747181E-25 mean change in tracer 3 from sources : 3.162337335760043E-08 surface flux of tracer 3 : 0.000000000000000E+00 Other diagnostics: global mean sea level: 5.166150378973399E-05 residual, scans : 7.130577765285249E-14 240 Timing information: Timer number 1 Time = 306.09 seconds HMIX_MOMENTUM_ANISO Timer number 2 Time = 274.54 seconds HMIX_TRACER_GM_NLOOP Timer number 3 Time = 1543.36 seconds HMIX_TRACER_GM Timer number 4 Time = 802.40 seconds VMIX_COEFFICIENTS_KPP Timer number 5 Time = 42.88 seconds VMIX_EXPLICIT_TRACER Timer number 6 Time = 21.22 seconds VMIX_EXPLICIT_MOMENTUM Timer number 7 Time = 133.52 seconds VMIX_IMPLICIT_TRACER Timer number 8 Time = 32.30 seconds VMIX_IMPLICIT_MOMENTUM Timer number 9 Time = 4.68 seconds COMPUTE_COSZ Timer number 10 Time = 57.42 seconds ADVECTION_MOMENTUM Timer number 11 Time = 299.07 seconds ADVECTION_TRACER_UPWIND3 Timer number 12 Time = 19.45 seconds MOC Timer number 13 Time = 19.43 seconds TRACER_TRANSPORTS Timer number 14 Time = 342.80 seconds TAVG_WRITE_STD Timer number 15 Time = 27.66 seconds TAVG_WRITE_NONSTD Timer number 16 Time = 18.37 seconds TAVG_CCSM_DIAGS_BSF Timer number 17 Time = 19.45 seconds TAVG_CCSM_DIAGS_MOC Timer number 18 Time = 19.43 seconds TAVG_CCSM_DIAGS_TRANS Timer number 19 Time = 4621.19 seconds STEP Timer number 20 Time = 3924.80 seconds BAROCLINIC Timer number 21 Time = 531.01 seconds BAROTROPIC Timer number 22 Time = 94.57 seconds 3D-UPDATE Timer number 23 Time = 5055.48 seconds TOTAL Timer number 24 Time = 430.65 seconds OUTPUT Timer number 25 Time = 430.59 seconds OUTPUT TAVG Timer number 26 Time = 0.05 seconds OUTPUT REST ------------------------------------------------------------------------ (diag_print) file written: /ptmp/mai/b40.1850.track1.1deg.006/run/b40.1850.track1.1deg.006.pop.dd.0089-01-01-00000 (diag_transport) file written: /ptmp/mai/b40.1850.track1.1deg.006/run/b40.1850.track1.1deg.006.pop.dt.0089-01-01-00000 AFTER CALL IN tracer_budgets (final): ===================================== volume_t (cm^3) = 0.132514028745E+25 SUM [volume*T] (C cm^3) = 0.465642762207E+25 SUM [volume*S] (ppt cm^3) = 0.460109055407E+26 VOLUME AND TRACER BUDGETS: ========================== Please note the following about the budgets: * These budgets are meaningful when time-averaging starts at the first time step of an intended budget interval. * Positive-signed quantities ==> ocean gain Negative-signed quantities ==> ocean loss * The imbalance should be small in comparison to the tendency term, except for the volume budget when a fixed-volume ocean is used (e.g., when lfw_as_salt_flx = .false.) * These budgets are computed from single-precision TAVG terms, which contributes to inaccuracy in the imbalance term. VOLUME BUDGET FOR THE GIVEN TAVG INTERVAL (cm/s): ------------------------------------------------- tendency = 0.223289678299E-12 FW flux = 0.000000000000E+00 Imbalance = -.223289678299E-12 Imbalance = -tendency + FW flux HEAT BUDGET FOR THE GIVEN TAVG INTERVAL (W/m^2): ------------------------------------------------ tendency = 0.113031764460E+02 SHF flux = 0.111320542821E+02 ice formation = 0.171122469281E+00 FW heat content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = 0.305336057660E-06 Imbalance = -tendency + SHF flux + ice formation + FW heat content + free-srf non-consv. IMPLIED FW BUDGET FOR THE GIVEN TAVG INTERVAL (kg of freshwater/m^2/s): ----------------------------------------------------- tendency = -.209504292664E-05 SFWF flux = -.164135207428E-05 ice formation = -.453690549064E-06 FW salt content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = 0.303304193024E-12 Imbalance = -tendency + SFWF flux + ice formation + FW salt content + free-srf non-consv. Global Time Averages: 11-01-0089 00:00:00 KAPPA_ISOP: 4566346.01171322726 KAPPA_THIC: 5084684.31268433388 HOR_DIFF: 563285.638799420442 DIA_DEPTH: 6594.09027945752587 TLT: 509.498867080309481 INT_DEPTH: 7103.58873312221567 UISOP: 0.356894249818602262E-04 VISOP: -0.408712414523964239E-03 WISOP: -0.222481756615950586E-12 ADVT_ISOP: -0.149226632610848725E-10 ADVS_ISOP: 0.249390535806724856E-14 VNT_ISOP: -0.236342449231291780E-08 VNS_ISOP: -0.229127548852025633E-11 USUBM: 0.639244259519134519E-05 VSUBM: -0.221522924695519548E-04 WSUBM: 0.220451571711448798E-09 HLS_SUBM: 846797.250180548406 ADVT_SUBM: 0.736464215374141206E-12 ADVS_SUBM: 0.858647131362179283E-16 VNT_SUBM: -0.672245763896240470E-09 VNS_SUBM: -0.157839525463685640E-12 HDIFT: -0.384858074013382725E-10 HDIFS: -0.176296743367490517E-14 QSW_HBL: 157.108006733898122 KVMIX: 1.35990208752384389 TPOWER: 0.221477560578654238E-05 UVEL: 0.309048269980445101 VVEL: 0.102253573932974172E-02 TEMP: 3.51111172081708878 dTEMP_POS_2D: 0.897049243797283652E-01 dTEMP_NEG_2D: -0.718444945549219643E-01 SALT: 0.347214861954205159E-01 RHO: 1.03743428872411991 RESID_T: 0.000000000000000000E+00 RESID_S: 0.000000000000000000E+00 SU: 110853.303366118867 SV: 340.273346633169865 SSH: 0.511654446494817062E-04 SHF: 11.1320542820984141 SHF_QSW: 184.925643208046978 SFWF: -0.164135207427569130E-05 TAUX: 0.137032273671426758 TAUY: 0.173054678744653584E-02 FW: 0.000000000000000000E+00 TFW_T: 0.000000000000000000E+00 TFW_S: 0.000000000000000000E+00 EVAP_F: -0.394148173319516706E-04 PREC_F: 0.345322528143337385E-04 SNOW_F: 0.944414259173948766E-06 MELT_F: -0.191629148057779409E-06 ROFF_F: 0.298320700166350374E-05 IOFF_F: 0.315894680391955749E-06 SALT_F: -0.464073051318149789E-08 SENH_F: -14.5695010166621142 LWUP_F: -385.809875635164758 LWDN_F: 326.474607678989287 MELTH_F: -0.891794329784986406 IFRAC: 0.800496917319905577E-01 IAGE: 222.749064416417639 WVEL: 0.747662326090305339E-06 UET: 0.137144310644925738E-07 VNT: -0.822619014331803723E-08 WTT: -0.168113656026674406E-07 UES: 0.151605164818587924E-08 VNS: -0.158598414852304846E-11 WTS: 0.752193535213233722E-12 ADVT: -0.123812188663336661E-10 ADVS: -0.422145675906888811E-14 PV: -0.326848700714334373E-13 Q: -0.964035054936700735E-08 PD: 1.02752331781486572 QSW_HTP: 135.709186086644593 QFLUX: 0.171122469281169809 HMXL: 6594.98803733903696 XMXL: 9480.82677035940105 TMXL: 3651.87385347436657 HBLT: 3820.81800274203442 XBLT: 7348.47124267737672 TBLT: 860.528531670319580 BSF: 0.000000000000000000E+00 convergence info from pcg_diag_bsf: iter = 0 rms_resid = 0.978996280937365349E-01 iter = 100 rms_resid = 0.415904930832662265E-02 iter = 200 rms_resid = 0.861577757199200457E-03 iter = 300 rms_resid = 0.398467733079206990E-03 iter = 400 rms_resid = 0.275426982648822557E-03 iter = 500 rms_resid = 0.183980076650725410E-03 iter = 600 rms_resid = 0.469293847143026553E-04 iter = 700 rms_resid = 0.143684094124373055E-04 iter = 800 rms_resid = 0.162526231913058297E-05 iter = 900 rms_resid = 0.144258871000855798E-06 Local Time- and Space-Averages for Nino Regions: 00:00:00 0089-11-01 NINO_1_PLUS_2: 24.3020939309239310 NINO_3: 24.6853080315170423 NINO_3_POINT_4: 25.8558506766893288 NINO_4: 27.9328940885418824 tavg file written: ./b40.1850.track1.1deg.006.pop.h.0089-10.nc (time_manager) ocn date 0089-nov-02, 0.000000E+00 sec (time_manager) ocn date 0089-nov-03, 0.000000E+00 sec (time_manager) ocn date 0089-nov-04, 0.000000E+00 sec (time_manager) ocn date 0089-nov-05, 0.000000E+00 sec (time_manager) ocn date 0089-nov-06, 0.000000E+00 sec (time_manager) ocn date 0089-nov-07, 0.000000E+00 sec (time_manager) ocn date 0089-nov-08, 0.000000E+00 sec (time_manager) ocn date 0089-nov-09, 0.000000E+00 sec (time_manager) ocn date 0089-nov-10, 0.000000E+00 sec (time_manager) ocn date 0089-nov-11, 0.000000E+00 sec (time_manager) ocn date 0089-nov-12, 0.000000E+00 sec (time_manager) ocn date 0089-nov-13, 0.000000E+00 sec (time_manager) ocn date 0089-nov-14, 0.000000E+00 sec (time_manager) ocn date 0089-nov-15, 0.000000E+00 sec (time_manager) ocn date 0089-nov-16, 0.000000E+00 sec (time_manager) ocn date 0089-nov-17, 0.000000E+00 sec (time_manager) ocn date 0089-nov-18, 0.000000E+00 sec (time_manager) ocn date 0089-nov-19, 0.000000E+00 sec (time_manager) ocn date 0089-nov-20, 0.000000E+00 sec (time_manager) ocn date 0089-nov-21, 0.000000E+00 sec (time_manager) ocn date 0089-nov-22, 0.000000E+00 sec (time_manager) ocn date 0089-nov-23, 0.000000E+00 sec (time_manager) ocn date 0089-nov-24, 0.000000E+00 sec (time_manager) ocn date 0089-nov-25, 0.000000E+00 sec (time_manager) ocn date 0089-nov-26, 0.000000E+00 sec (time_manager) ocn date 0089-nov-27, 0.000000E+00 sec (time_manager) ocn date 0089-nov-28, 0.000000E+00 sec (time_manager) ocn date 0089-nov-29, 0.000000E+00 sec (time_manager) ocn date 0089-nov-30, 0.000000E+00 sec (time_manager) ocn date 0089-dec-01, 0.000000E+00 sec Step number : 811325 Date : 01 dec 0089 Hour : 0 Minute : 0 Second : 0 Time(years) : 88.915068 max. cfl number for zonal advection : 8.8948E-02 20 371 33 max. cfl number for meridional advection : 1.0363E-01 251 190 1 max. cfl number for vertical advection : 4.0229E-01 318 356 18 max. cfl number for total advection : 4.1183E-01 318 356 18 max. cfl number for horizontal tracer mixing : 6.0948E-01 175 380 4 max. cfl number for horiz. momentum mixing : 1.2672E-01 318 214 56 K.E. diagnostics: mean K.E. : 8.610263970841089E+00 K.E. change from horiz. visc. :-3.742898592682577E-06 K.E. change from vert. visc. : 8.099682527878883E-06 K.E. change from wind stress : 2.310998690078930E-05 advective K.E. balance : 2.587340920928685E-10 :-1.276615021159275E-09 P.E. verses pressure work : 7.611251376497206E-04 :-2.977050657831474E-06 surface-pressure contribution :-8.894973023855707E-07 : 8.006131039967803E-07 Tracer diagnostics: mean value of tracer 1 : 3.515872034179115E+00 abs change in tracer 1 : 1.465483811683958E-07 mean change in tracer 1 : 3.961413301931777E-09 mean change in tracer 1 from advection :-4.527822493707838E-24 mean change in tracer 1 from horiz. diff.: 6.190382315616185E-26 mean change in tracer 1 from vert. diff.:-1.158521398260750E-08 mean change in tracer 1 from sources : 1.539149845287272E-08 surface flux of tracer 1 : 0.000000000000000E+00 mean value of tracer 2 : 3.472158881567165E+01 abs change in tracer 2 : 1.398369814847242E-11 mean change in tracer 2 : 4.555528665808966E-14 mean change in tracer 2 from advection :-5.008958904934971E-28 mean change in tracer 2 from horiz. diff.:-3.598390017913053E-30 mean change in tracer 2 from vert. diff.:-1.295706199824707E-14 mean change in tracer 2 from sources : 1.217516714984209E-31 surface flux of tracer 2 : 0.000000000000000E+00 mean value of tracer 3 : 2.228381540156696E+02 abs change in tracer 3 : 2.573856171976797E-06 mean change in tracer 3 : 2.489765711403750E-08 mean change in tracer 3 from advection :-3.924112827880126E-23 mean change in tracer 3 from horiz. diff.: 7.546370822846396E-25 mean change in tracer 3 from vert. diff.: 2.183058268092363E-25 mean change in tracer 3 from sources : 3.162337335760043E-08 surface flux of tracer 3 : 0.000000000000000E+00 Other diagnostics: global mean sea level: 5.108991858281643E-05 residual, scans : 8.332668574369556E-14 240 Timing information: Timer number 1 Time = 336.36 seconds HMIX_MOMENTUM_ANISO Timer number 2 Time = 301.99 seconds HMIX_TRACER_GM_NLOOP Timer number 3 Time = 1695.42 seconds HMIX_TRACER_GM Timer number 4 Time = 881.96 seconds VMIX_COEFFICIENTS_KPP Timer number 5 Time = 47.10 seconds VMIX_EXPLICIT_TRACER Timer number 6 Time = 23.32 seconds VMIX_EXPLICIT_MOMENTUM Timer number 7 Time = 146.70 seconds VMIX_IMPLICIT_TRACER Timer number 8 Time = 35.52 seconds VMIX_IMPLICIT_MOMENTUM Timer number 9 Time = 5.14 seconds COMPUTE_COSZ Timer number 10 Time = 63.11 seconds ADVECTION_MOMENTUM Timer number 11 Time = 328.59 seconds ADVECTION_TRACER_UPWIND3 Timer number 12 Time = 21.61 seconds MOC Timer number 13 Time = 21.60 seconds TRACER_TRANSPORTS Timer number 14 Time = 381.40 seconds TAVG_WRITE_STD Timer number 15 Time = 30.82 seconds TAVG_WRITE_NONSTD Timer number 16 Time = 20.39 seconds TAVG_CCSM_DIAGS_BSF Timer number 17 Time = 21.61 seconds TAVG_CCSM_DIAGS_MOC Timer number 18 Time = 21.60 seconds TAVG_CCSM_DIAGS_TRANS Timer number 19 Time = 5077.05 seconds STEP Timer number 20 Time = 4311.83 seconds BAROCLINIC Timer number 21 Time = 582.97 seconds BAROTROPIC Timer number 22 Time = 103.98 seconds 3D-UPDATE Timer number 23 Time = 5560.02 seconds TOTAL Timer number 24 Time = 478.96 seconds OUTPUT Timer number 25 Time = 478.89 seconds OUTPUT TAVG Timer number 26 Time = 0.05 seconds OUTPUT REST ------------------------------------------------------------------------ (diag_print) file written: /ptmp/mai/b40.1850.track1.1deg.006/run/b40.1850.track1.1deg.006.pop.dd.0089-01-01-00000 (diag_transport) file written: /ptmp/mai/b40.1850.track1.1deg.006/run/b40.1850.track1.1deg.006.pop.dt.0089-01-01-00000 AFTER CALL IN tracer_budgets (final): ===================================== volume_t (cm^3) = 0.132514028745E+25 SUM [volume*T] (C cm^3) = 0.465901461704E+25 SUM [volume*S] (ppt cm^3) = 0.460109762048E+26 VOLUME AND TRACER BUDGETS: ========================== Please note the following about the budgets: * These budgets are meaningful when time-averaging starts at the first time step of an intended budget interval. * Positive-signed quantities ==> ocean gain Negative-signed quantities ==> ocean loss * The imbalance should be small in comparison to the tendency term, except for the volume budget when a fixed-volume ocean is used (e.g., when lfw_as_salt_flx = .false.) * These budgets are computed from single-precision TAVG terms, which contributes to inaccuracy in the imbalance term. VOLUME BUDGET FOR THE GIVEN TAVG INTERVAL (cm/s): ------------------------------------------------- tendency = -.220523765058E-12 FW flux = 0.000000000000E+00 Imbalance = 0.220523765058E-12 Imbalance = -tendency + FW flux HEAT BUDGET FOR THE GIVEN TAVG INTERVAL (W/m^2): ------------------------------------------------ tendency = 0.113307225341E+02 SHF flux = 0.111756432374E+02 ice formation = 0.155079925923E+00 FW heat content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = 0.629234919697E-06 Imbalance = -tendency + SHF flux + ice formation + FW heat content + free-srf non-consv. IMPLIED FW BUDGET FOR THE GIVEN TAVG INTERVAL (kg of freshwater/m^2/s): ----------------------------------------------------- tendency = -.217549805304E-05 SFWF flux = -.176434018321E-05 ice formation = -.411157558891E-06 FW salt content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = 0.310945777202E-12 Imbalance = -tendency + SFWF flux + ice formation + FW salt content + free-srf non-consv. Global Time Averages: 12-01-0089 00:00:00 KAPPA_ISOP: 3841281.80669257278 KAPPA_THIC: 4254844.97033479903 HOR_DIFF: 458297.421610353340 DIA_DEPTH: 5354.33127707625499 TLT: 415.071173742397775 INT_DEPTH: 5769.40306563051854 UISOP: 0.235690020604047821E-04 VISOP: -0.323226295741667780E-03 WISOP: -0.371587816090722664E-12 ADVT_ISOP: -0.305306264330322459E-10 ADVS_ISOP: -0.227251981266662057E-15 VNT_ISOP: -0.983024055734324784E-09 VNS_ISOP: -0.178783582179066039E-11 USUBM: -0.497785159941239545E-05 VSUBM: 0.143182541691084092E-06 WSUBM: -0.389095924605309658E-09 HLS_SUBM: 833817.689992187079 ADVT_SUBM: 0.613417915377695750E-12 ADVS_SUBM: 0.179361778062530544E-15 VNT_SUBM: -0.166944157319731838E-09 VNS_SUBM: 0.283867737509150231E-13 HDIFT: -0.245804377230609502E-10 HDIFS: -0.165969655614115905E-14 QSW_HBL: 161.577023443649779 KVMIX: 1.36019239492284116 TPOWER: 0.219811849015039676E-05 UVEL: 0.300031198762668816 VVEL: 0.573441677316892731E-03 TEMP: 3.51299700249668545 dTEMP_POS_2D: 0.877211652477791620E-01 dTEMP_NEG_2D: -0.706256753234483642E-01 SALT: 0.347215428454631103E-01 RHO: 1.03743400488946991 RESID_T: 0.000000000000000000E+00 RESID_S: 0.000000000000000000E+00 SU: 107619.519941061211 SV: 165.709523140205732 SSH: 0.516316713965483910E-04 SHF: 11.1756432374173098 SHF_QSW: 190.584842508742838 SFWF: -0.176434018320705695E-05 TAUX: 0.108740085218598084 TAUY: -0.266249528946184838E-01 FW: 0.000000000000000000E+00 TFW_T: 0.000000000000000000E+00 TFW_S: 0.000000000000000000E+00 EVAP_F: -0.410901123598690502E-04 PREC_F: 0.349819135785764596E-04 SNOW_F: 0.941408653066256659E-06 MELT_F: 0.121594860641825979E-05 ROFF_F: 0.296349351283519085E-05 IOFF_F: 0.199138574464004659E-06 SALT_F: 0.120485463662091511E-08 SENH_F: -15.1423858667305300 LWUP_F: -385.926693356668807 LWDN_F: 325.999084726435285 MELTH_F: -1.19223470566477352 IFRAC: 0.789210261738246960E-01 IAGE: 222.807155995433391 WVEL: 0.765172271936225300E-06 UET: 0.709958920180213683E-07 VNT: 0.246974781186223846E-07 WTT: -0.187778260706608734E-07 UES: 0.144391394756489034E-08 VNS: -0.650371544783744966E-11 WTS: 0.403452753752635393E-12 ADVT: 0.234579566056381362E-10 ADVS: -0.581518189940390871E-14 PV: 0.132119640354673941E-13 Q: -0.958810794295953830E-08 PD: 1.02752302929727946 QSW_HTP: 139.620603694208910 QFLUX: 0.155079925923419876 HMXL: 5354.88594295088569 XMXL: 7428.86366058034309 TMXL: 3443.54524683836416 HBLT: 3487.07697529568668 XBLT: 6434.48923741245653 TBLT: 842.562612205602250 BSF: 0.000000000000000000E+00 convergence info from pcg_diag_bsf: iter = 0 rms_resid = 0.103512307362936179 iter = 100 rms_resid = 0.425033086689076151E-02 iter = 200 rms_resid = 0.851136210770272496E-03 iter = 300 rms_resid = 0.354619307345565259E-03 iter = 400 rms_resid = 0.256392796580781894E-03 iter = 500 rms_resid = 0.182835446414980591E-03 iter = 600 rms_resid = 0.471233605220163569E-04 iter = 700 rms_resid = 0.157743715616138454E-04 iter = 800 rms_resid = 0.173927782989202623E-05 iter = 900 rms_resid = 0.150441723562898914E-06 Local Time- and Space-Averages for Nino Regions: 00:00:00 0089-12-01 NINO_1_PLUS_2: 24.5858460624620783 NINO_3: 24.9956941266825972 NINO_3_POINT_4: 26.1729942388943719 NINO_4: 28.0897916100886249 tavg file written: ./b40.1850.track1.1deg.006.pop.h.0089-11.nc (time_manager) ocn date 0089-dec-02, 0.000000E+00 sec (time_manager) ocn date 0089-dec-03, 0.000000E+00 sec (time_manager) ocn date 0089-dec-04, 0.000000E+00 sec (time_manager) ocn date 0089-dec-05, 0.000000E+00 sec (time_manager) ocn date 0089-dec-06, 0.000000E+00 sec (time_manager) ocn date 0089-dec-07, 0.000000E+00 sec (time_manager) ocn date 0089-dec-08, 0.000000E+00 sec (time_manager) ocn date 0089-dec-09, 0.000000E+00 sec (time_manager) ocn date 0089-dec-10, 0.000000E+00 sec (time_manager) ocn date 0089-dec-11, 0.000000E+00 sec (time_manager) ocn date 0089-dec-12, 0.000000E+00 sec (time_manager) ocn date 0089-dec-13, 0.000000E+00 sec (time_manager) ocn date 0089-dec-14, 0.000000E+00 sec (time_manager) ocn date 0089-dec-15, 0.000000E+00 sec (time_manager) ocn date 0089-dec-16, 0.000000E+00 sec (time_manager) ocn date 0089-dec-17, 0.000000E+00 sec (time_manager) ocn date 0089-dec-18, 0.000000E+00 sec (time_manager) ocn date 0089-dec-19, 0.000000E+00 sec (time_manager) ocn date 0089-dec-20, 0.000000E+00 sec (time_manager) ocn date 0089-dec-21, 0.000000E+00 sec (time_manager) ocn date 0089-dec-22, 0.000000E+00 sec (time_manager) ocn date 0089-dec-23, 0.000000E+00 sec (time_manager) ocn date 0089-dec-24, 0.000000E+00 sec (time_manager) ocn date 0089-dec-25, 0.000000E+00 sec (time_manager) ocn date 0089-dec-26, 0.000000E+00 sec (time_manager) ocn date 0089-dec-27, 0.000000E+00 sec (time_manager) ocn date 0089-dec-28, 0.000000E+00 sec (time_manager) ocn date 0089-dec-29, 0.000000E+00 sec (time_manager) ocn date 0089-dec-30, 0.000000E+00 sec (time_manager) ocn date 0089-dec-31, 0.000000E+00 sec (ocn_comp_mct(run):) driver requests restart file at eod 0089/12/31 (time_manager) ocn date 0090-jan-01, 0.000000E+00 sec Step number : 812100 Date : 01 jan 0090 Hour : 0 Minute : 0 Second : 0 Time(years) : 89.000000 max. cfl number for zonal advection : 8.3798E-02 20 371 33 max. cfl number for meridional advection : 1.0647E-01 80 202 1 max. cfl number for vertical advection : 2.9142E-01 320 362 21 max. cfl number for total advection : 3.0393E-01 320 362 21 max. cfl number for horizontal tracer mixing : 6.0948E-01 175 380 5 max. cfl number for horiz. momentum mixing : 1.2672E-01 318 214 56 K.E. diagnostics: mean K.E. : 8.881180875519730E+00 K.E. change from horiz. visc. :-3.788765296931782E-06 K.E. change from vert. visc. : 1.083073457208856E-05 K.E. change from wind stress : 2.905827299270837E-05 advective K.E. balance :-4.131514571296518E-10 :-3.062777221293254E-10 P.E. verses pressure work : 7.449699196492173E-04 :-8.559761334558657E-06 surface-pressure contribution :-4.100933538392647E-07 : 3.573298542668080E-07 Tracer diagnostics: mean value of tracer 1 : 3.517324064752193E+00 abs change in tracer 1 : 1.507490596743090E-07 mean change in tracer 1 : 2.511800683032965E-09 mean change in tracer 1 from advection :-6.037096658277117E-24 mean change in tracer 1 from horiz. diff.: 7.369502756685933E-26 mean change in tracer 1 from vert. diff.:-1.244301492144145E-08 mean change in tracer 1 from sources : 1.476454326710469E-08 surface flux of tracer 1 : 0.000000000000000E+00 mean value of tracer 2 : 3.472158055223531E+01 abs change in tracer 2 : 1.432850249999875E-11 mean change in tracer 2 : 4.944478274706051E-14 mean change in tracer 2 from advection : 2.072672650317919E-28 mean change in tracer 2 from horiz. diff.: 6.836941034034802E-30 mean change in tracer 2 from vert. diff.:-2.232318729587474E-14 mean change in tracer 2 from sources : 7.257682568310450E-32 surface flux of tracer 2 : 0.000000000000000E+00 mean value of tracer 3 : 2.228973636745143E+02 abs change in tracer 3 : 2.565304089048730E-06 mean change in tracer 3 : 2.035553857027561E-08 mean change in tracer 3 from advection :-3.622257994966270E-23 mean change in tracer 3 from horiz. diff.:-4.244833587851098E-25 mean change in tracer 3 from vert. diff.:-2.222740121518494E-25 mean change in tracer 3 from sources : 3.162337335760043E-08 surface flux of tracer 3 : 0.000000000000000E+00 Other diagnostics: global mean sea level: 5.137770176648366E-05 residual, scans : 8.479334047326730E-14 240 Timing information: Timer number 1 Time = 367.41 seconds HMIX_MOMENTUM_ANISO Timer number 2 Time = 330.57 seconds HMIX_TRACER_GM_NLOOP Timer number 3 Time = 1852.64 seconds HMIX_TRACER_GM Timer number 4 Time = 964.30 seconds VMIX_COEFFICIENTS_KPP Timer number 5 Time = 51.48 seconds VMIX_EXPLICIT_TRACER Timer number 6 Time = 25.49 seconds VMIX_EXPLICIT_MOMENTUM Timer number 7 Time = 160.33 seconds VMIX_IMPLICIT_TRACER Timer number 8 Time = 38.84 seconds VMIX_IMPLICIT_MOMENTUM Timer number 9 Time = 5.62 seconds COMPUTE_COSZ Timer number 10 Time = 68.91 seconds ADVECTION_MOMENTUM Timer number 11 Time = 359.09 seconds ADVECTION_TRACER_UPWIND3 Timer number 12 Time = 23.79 seconds MOC Timer number 13 Time = 23.75 seconds TRACER_TRANSPORTS Timer number 14 Time = 418.23 seconds TAVG_WRITE_STD Timer number 15 Time = 33.73 seconds TAVG_WRITE_NONSTD Timer number 16 Time = 22.41 seconds TAVG_CCSM_DIAGS_BSF Timer number 17 Time = 23.79 seconds TAVG_CCSM_DIAGS_MOC Timer number 18 Time = 23.75 seconds TAVG_CCSM_DIAGS_TRANS Timer number 19 Time = 5548.01 seconds STEP Timer number 20 Time = 4711.33 seconds BAROCLINIC Timer number 21 Time = 637.12 seconds BAROTROPIC Timer number 22 Time = 113.68 seconds 3D-UPDATE Timer number 23 Time = 6077.73 seconds TOTAL Timer number 24 Time = 525.34 seconds OUTPUT Timer number 25 Time = 525.27 seconds OUTPUT TAVG Timer number 26 Time = 0.06 seconds OUTPUT REST ------------------------------------------------------------------------ (diag_print) file written: /ptmp/mai/b40.1850.track1.1deg.006/run/b40.1850.track1.1deg.006.pop.dd.0089-01-01-00000 (diag_transport) file written: /ptmp/mai/b40.1850.track1.1deg.006/run/b40.1850.track1.1deg.006.pop.dt.0089-01-01-00000 AFTER CALL IN tracer_budgets (final): ===================================== volume_t (cm^3) = 0.132514028745E+25 SUM [volume*T] (C cm^3) = 0.466094237190E+25 SUM [volume*S] (ppt cm^3) = 0.460109652759E+26 VOLUME AND TRACER BUDGETS: ========================== Please note the following about the budgets: * These budgets are meaningful when time-averaging starts at the first time step of an intended budget interval. * Positive-signed quantities ==> ocean gain Negative-signed quantities ==> ocean loss * The imbalance should be small in comparison to the tendency term, except for the volume budget when a fixed-volume ocean is used (e.g., when lfw_as_salt_flx = .false.) * These budgets are computed from single-precision TAVG terms, which contributes to inaccuracy in the imbalance term. VOLUME BUDGET FOR THE GIVEN TAVG INTERVAL (cm/s): ------------------------------------------------- tendency = 0.107454341831E-12 FW flux = 0.000000000000E+00 Imbalance = -.107454341831E-12 Imbalance = -tendency + FW flux HEAT BUDGET FOR THE GIVEN TAVG INTERVAL (W/m^2): ------------------------------------------------ tendency = 0.817096569905E+01 SHF flux = 0.797683979778E+01 ice formation = 0.194126322674E+00 FW heat content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = 0.421407546025E-06 Imbalance = -tendency + SHF flux + ice formation + FW heat content + free-srf non-consv. IMPLIED FW BUDGET FOR THE GIVEN TAVG INTERVAL (kg of freshwater/m^2/s): ----------------------------------------------------- tendency = 0.325609739942E-06 SFWF flux = 0.840289577496E-06 ice formation = -.514679797993E-06 FW salt content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = 0.395599964928E-13 Imbalance = -tendency + SFWF flux + ice formation + FW salt content + free-srf non-consv. restart file written: ./b40.1850.track1.1deg.006.pop.r.0090-01-01-00000 restart pointer file written: ./rpointer.ocn.restart ovf_write_restart unit (mu) = 19 file name = ./b40.1850.track1.1deg.006.pop.ro.0090-01-01-00000 ovf write restart cdate yyyymmdd = 00900101 overflow restart pointer file written: ./rpointer.ocn.ovf Global Time Averages: 01-01-0090 00:00:00 KAPPA_ISOP: 3485710.06648315489 KAPPA_THIC: 3898585.08780993894 HOR_DIFF: 458165.113949174876 DIA_DEPTH: 5364.12034225659681 TLT: 388.125343592854108 INT_DEPTH: 5752.24181449142361 UISOP: 0.265526036348830682E-04 VISOP: -0.292093610157240972E-03 WISOP: 0.290013833273888547E-12 ADVT_ISOP: -0.129380631311967396E-10 ADVS_ISOP: -0.507061948532968039E-15 VNT_ISOP: -0.371146655622720067E-09 VNS_ISOP: -0.165248233946103438E-11 USUBM: -0.150137224235193672E-04 VSUBM: 0.406018228751253794E-04 WSUBM: -0.990037066076675326E-09 HLS_SUBM: 777890.082973820390 ADVT_SUBM: 0.847890056112382942E-12 ADVS_SUBM: 0.291411176583909065E-15 VNT_SUBM: 0.667648814530402339E-10 VNS_SUBM: 0.321824393447288295E-12 HDIFT: -0.297375875566680286E-11 HDIFS: -0.102111109270611510E-14 QSW_HBL: 165.130245145858197 KVMIX: 1.36495628270885860 TPOWER: 0.220010931373316220E-05 UVEL: 0.302654820540958880 VVEL: 0.922169650597670274E-03 TEMP: 3.51504314610801494 dTEMP_POS_2D: 0.832909486649551500E-01 dTEMP_NEG_2D: -0.667032663944591014E-01 SALT: 0.347215645067656190E-01 RHO: 1.03743383646164555 RESID_T: 0.000000000000000000E+00 RESID_S: 0.000000000000000000E+00 SU: 108560.607111620368 SV: 285.240873659872761 SSH: 0.510745019824786618E-04 SHF: 7.97683979778384167 SHF_QSW: 193.008899793397120 SFWF: 0.840289577495635310E-06 TAUX: 0.508232020870227758E-01 TAUY: -0.735219827345307553E-01 FW: 0.000000000000000000E+00 TFW_T: 0.000000000000000000E+00 TFW_S: 0.000000000000000000E+00 EVAP_F: -0.429456189030983225E-04 PREC_F: 0.366319614119181439E-04 SNOW_F: 0.996554431934473951E-06 MELT_F: 0.449106627052710936E-05 ROFF_F: 0.287902773212835905E-05 IOFF_F: 0.152178857140802988E-06 SALT_F: 0.127808444216687940E-07 SENH_F: -15.4464605774360084 LWUP_F: -387.321210703983070 LWDN_F: 327.800982558236512 MELTH_F: -2.27504692700268940 IFRAC: 0.761783720672878223E-01 IAGE: 222.868638676109811 WVEL: 0.792397430671136414E-06 UET: 0.584880590788782521E-07 VNT: 0.843142328451942283E-07 WTT: -0.188057706463073171E-07 UES: 0.151042691155277498E-08 VNS: -0.347533313654748102E-11 WTS: 0.506690638327143756E-12 ADVT: -0.304818352223935116E-10 ADVS: 0.899889467062203706E-14 PV: 0.664598204706831196E-13 Q: -0.964388072755094459E-08 PD: 1.02752288792802293 QSW_HTP: 141.575691535735132 QFLUX: 0.194126322673854379 HMXL: 5365.32448949853915 XMXL: 6722.87985731009758 TMXL: 3869.75040620465870 HBLT: 3838.71194933741299 XBLT: 6471.59504681571434 TBLT: 898.669766797404122 BSF: 0.000000000000000000E+00 convergence info from pcg_diag_bsf: iter = 0 rms_resid = 0.110286891799274062 iter = 100 rms_resid = 0.418855427946665092E-02 iter = 200 rms_resid = 0.851686193347095215E-03 iter = 300 rms_resid = 0.314302759477528421E-03 iter = 400 rms_resid = 0.230925382498308786E-03 iter = 500 rms_resid = 0.167853816216558053E-03 iter = 600 rms_resid = 0.479033278565013185E-04 iter = 700 rms_resid = 0.158076063665593836E-04 iter = 800 rms_resid = 0.181891231363567552E-05 iter = 900 rms_resid = 0.152183590313846251E-06 Local Time- and Space-Averages for Nino Regions: 00:00:00 0090-01-01 NINO_1_PLUS_2: 24.9371023620449499 NINO_3: 25.4129315342896795 NINO_3_POINT_4: 26.3703237272888806 NINO_4: 28.1354745029456730 tavg file written: ./b40.1850.track1.1deg.006.pop.h.0089-12.nc (time_manager) ocn date 0090-jan-02, 0.000000E+00 sec (time_manager) ocn date 0090-jan-03, 0.000000E+00 sec (time_manager) ocn date 0090-jan-04, 0.000000E+00 sec (time_manager) ocn date 0090-jan-05, 0.000000E+00 sec (time_manager) ocn date 0090-jan-06, 0.000000E+00 sec (time_manager) ocn date 0090-jan-07, 0.000000E+00 sec (time_manager) ocn date 0090-jan-08, 0.000000E+00 sec (time_manager) ocn date 0090-jan-09, 0.000000E+00 sec (time_manager) ocn date 0090-jan-10, 0.000000E+00 sec (time_manager) ocn date 0090-jan-11, 0.000000E+00 sec (time_manager) ocn date 0090-jan-12, 0.000000E+00 sec (time_manager) ocn date 0090-jan-13, 0.000000E+00 sec (time_manager) ocn date 0090-jan-14, 0.000000E+00 sec (time_manager) ocn date 0090-jan-15, 0.000000E+00 sec (time_manager) ocn date 0090-jan-16, 0.000000E+00 sec (time_manager) ocn date 0090-jan-17, 0.000000E+00 sec (time_manager) ocn date 0090-jan-18, 0.000000E+00 sec (time_manager) ocn date 0090-jan-19, 0.000000E+00 sec (time_manager) ocn date 0090-jan-20, 0.000000E+00 sec (time_manager) ocn date 0090-jan-21, 0.000000E+00 sec (time_manager) ocn date 0090-jan-22, 0.000000E+00 sec (time_manager) ocn date 0090-jan-23, 0.000000E+00 sec (time_manager) ocn date 0090-jan-24, 0.000000E+00 sec (time_manager) ocn date 0090-jan-25, 0.000000E+00 sec (time_manager) ocn date 0090-jan-26, 0.000000E+00 sec (time_manager) ocn date 0090-jan-27, 0.000000E+00 sec (time_manager) ocn date 0090-jan-28, 0.000000E+00 sec (time_manager) ocn date 0090-jan-29, 0.000000E+00 sec (time_manager) ocn date 0090-jan-30, 0.000000E+00 sec (time_manager) ocn date 0090-jan-31, 0.000000E+00 sec (time_manager) ocn date 0090-feb-01, 0.000000E+00 sec Step number : 812875 Date : 01 feb 0090 Hour : 0 Minute : 0 Second : 0 Time(years) : 89.084932 max. cfl number for zonal advection : 7.4810E-02 20 371 33 max. cfl number for meridional advection : 7.5788E-02 75 180 1 max. cfl number for vertical advection : 4.7771E-01 22 373 17 max. cfl number for total advection : 4.9701E-01 22 373 17 max. cfl number for horizontal tracer mixing : 6.0948E-01 175 380 6 max. cfl number for horiz. momentum mixing : 1.2672E-01 318 214 56 K.E. diagnostics: mean K.E. : 8.332771530663013E+00 K.E. change from horiz. visc. :-3.722882695491307E-06 K.E. change from vert. visc. : 8.644105440131927E-06 K.E. change from wind stress : 2.616165907813442E-05 advective K.E. balance :-8.381881742761628E-10 : 3.952302100706748E-10 P.E. verses pressure work : 6.946902271492115E-04 :-3.517473325199863E-06 surface-pressure contribution : 2.444501802529671E-07 :-3.228292899471309E-07 Tracer diagnostics: mean value of tracer 1 : 3.519070044852843E+00 abs change in tracer 1 : 1.476174692797495E-07 mean change in tracer 1 : 2.574779348140544E-09 mean change in tracer 1 from advection :-1.037625988141380E-24 mean change in tracer 1 from horiz. diff.: 6.779942536151059E-26 mean change in tracer 1 from vert. diff.:-1.251575520898668E-08 mean change in tracer 1 from sources : 1.495348587699249E-08 surface flux of tracer 1 : 0.000000000000000E+00 mean value of tracer 2 : 3.472153756226427E+01 abs change in tracer 2 : 1.366042763719865E-11 mean change in tracer 2 : 3.589879916508845E-14 mean change in tracer 2 from advection :-1.197544197961464E-27 mean change in tracer 2 from horiz. diff.:-8.995975044782634E-30 mean change in tracer 2 from vert. diff.:-1.579397817843658E-14 mean change in tracer 2 from sources : 2.450071870006288E-31 surface flux of tracer 2 : 0.000000000000000E+00 mean value of tracer 3 : 2.229505660984909E+02 abs change in tracer 3 : 2.493887673376270E-06 mean change in tracer 3 : 1.868331316714024E-08 mean change in tracer 3 from advection :-5.074934378364202E-23 mean change in tracer 3 from horiz. diff.: 4.244833587851098E-25 mean change in tracer 3 from vert. diff.:-2.280891086230173E-25 mean change in tracer 3 from sources : 3.162337335760043E-08 surface flux of tracer 3 : 0.000000000000000E+00 Other diagnostics: global mean sea level: 5.089039128417740E-05 residual, scans : 9.675295187753571E-14 240 Timing information: Timer number 1 Time = 398.17 seconds HMIX_MOMENTUM_ANISO Timer number 2 Time = 358.87 seconds HMIX_TRACER_GM_NLOOP Timer number 3 Time = 2010.48 seconds HMIX_TRACER_GM Timer number 4 Time = 1046.19 seconds VMIX_COEFFICIENTS_KPP Timer number 5 Time = 55.85 seconds VMIX_EXPLICIT_TRACER Timer number 6 Time = 27.66 seconds VMIX_EXPLICIT_MOMENTUM Timer number 7 Time = 173.95 seconds VMIX_IMPLICIT_TRACER Timer number 8 Time = 42.16 seconds VMIX_IMPLICIT_MOMENTUM Timer number 9 Time = 6.09 seconds COMPUTE_COSZ Timer number 10 Time = 74.77 seconds ADVECTION_MOMENTUM Timer number 11 Time = 389.58 seconds ADVECTION_TRACER_UPWIND3 Timer number 12 Time = 26.01 seconds MOC Timer number 13 Time = 25.94 seconds TRACER_TRANSPORTS Timer number 14 Time = 454.29 seconds TAVG_WRITE_STD Timer number 15 Time = 36.32 seconds TAVG_WRITE_NONSTD Timer number 16 Time = 24.43 seconds TAVG_CCSM_DIAGS_BSF Timer number 17 Time = 26.01 seconds TAVG_CCSM_DIAGS_MOC Timer number 18 Time = 25.94 seconds TAVG_CCSM_DIAGS_TRANS Timer number 19 Time = 6018.08 seconds STEP Timer number 20 Time = 5110.09 seconds BAROCLINIC Timer number 21 Time = 690.75 seconds BAROTROPIC Timer number 22 Time = 123.32 seconds 3D-UPDATE Timer number 23 Time = 6598.96 seconds TOTAL Timer number 24 Time = 576.13 seconds OUTPUT Timer number 25 Time = 570.52 seconds OUTPUT TAVG Timer number 26 Time = 5.57 seconds OUTPUT REST ------------------------------------------------------------------------ (diag_print) file written: /ptmp/mai/b40.1850.track1.1deg.006/run/b40.1850.track1.1deg.006.pop.dd.0089-01-01-00000 (diag_transport) file written: /ptmp/mai/b40.1850.track1.1deg.006/run/b40.1850.track1.1deg.006.pop.dt.0089-01-01-00000 AFTER CALL IN tracer_budgets (final): ===================================== volume_t (cm^3) = 0.132514028745E+25 SUM [volume*T] (C cm^3) = 0.466325572684E+25 SUM [volume*S] (ppt cm^3) = 0.460109082943E+26 VOLUME AND TRACER BUDGETS: ========================== Please note the following about the budgets: * These budgets are meaningful when time-averaging starts at the first time step of an intended budget interval. * Positive-signed quantities ==> ocean gain Negative-signed quantities ==> ocean loss * The imbalance should be small in comparison to the tendency term, except for the volume budget when a fixed-volume ocean is used (e.g., when lfw_as_salt_flx = .false.) * These budgets are computed from single-precision TAVG terms, which contributes to inaccuracy in the imbalance term. VOLUME BUDGET FOR THE GIVEN TAVG INTERVAL (cm/s): ------------------------------------------------- tendency = -.181939737873E-12 FW flux = 0.000000000000E+00 Imbalance = 0.181939737873E-12 Imbalance = -tendency + FW flux HEAT BUDGET FOR THE GIVEN TAVG INTERVAL (W/m^2): ------------------------------------------------ tendency = 0.980536699024E+01 SHF flux = 0.961086306862E+01 ice formation = 0.194503924302E+00 FW heat content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = 0.268057159802E-08 Imbalance = -tendency + SHF flux + ice formation + FW heat content + free-srf non-consv. IMPLIED FW BUDGET FOR THE GIVEN TAVG INTERVAL (kg of freshwater/m^2/s): ----------------------------------------------------- tendency = 0.169767283330E-05 SFWF flux = 0.221335372725E-05 ice formation = -.515680918948E-06 FW salt content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = -.249943874386E-13 Imbalance = -tendency + SFWF flux + ice formation + FW salt content + free-srf non-consv. Global Time Averages: 02-01-0090 00:00:00 KAPPA_ISOP: 3480402.42272628564 KAPPA_THIC: 3950492.51808778802 HOR_DIFF: 515584.185015306401 DIA_DEPTH: 6048.43438892173435 TLT: 423.216903689815751 INT_DEPTH: 6471.64710299740727 UISOP: 0.165414749184085149E-05 VISOP: -0.282708587655590643E-03 WISOP: -0.255994895933572136E-12 ADVT_ISOP: -0.307909210252085226E-10 ADVS_ISOP: -0.145533478573363339E-14 VNT_ISOP: -0.211499163826950173E-09 VNS_ISOP: -0.156856935867088490E-11 USUBM: -0.291563965767578661E-04 VSUBM: 0.981174025573200345E-04 WSUBM: -0.145958992933156054E-08 HLS_SUBM: 742408.296275459230 ADVT_SUBM: 0.132630992066681677E-11 ADVS_SUBM: -0.702416049808242611E-15 VNT_SUBM: 0.350646256269714009E-09 VNS_SUBM: 0.746203582420265725E-12 HDIFT: -0.180112299294532635E-11 HDIFS: -0.461150672146607636E-14 QSW_HBL: 163.204416908935542 KVMIX: 1.37443433262284875 TPOWER: 0.221385925786215376E-05 UVEL: 0.314199854423358682 VVEL: 0.849382039818347709E-03 TEMP: 3.51648083063711736 dTEMP_POS_2D: 0.810734511311904521E-01 dTEMP_NEG_2D: -0.636805555099732717E-01 SALT: 0.347215212300135412E-01 RHO: 1.03743372146665647 RESID_T: 0.000000000000000000E+00 RESID_S: 0.000000000000000000E+00 SU: 112698.483507858677 SV: 258.976456852798719 SSH: 0.510564220914563985E-04 SHF: 9.61086306861545125 SHF_QSW: 192.484875859524294 SFWF: 0.221335372725361376E-05 TAUX: 0.617506038314483141E-01 TAUY: -0.100007059117326408 FW: 0.000000000000000000E+00 TFW_T: 0.000000000000000000E+00 TFW_S: 0.000000000000000000E+00 EVAP_F: -0.419710825999129343E-04 PREC_F: 0.364083034603753799E-04 SNOW_F: 0.121154243590232159E-05 MELT_F: 0.493420698346305062E-05 ROFF_F: 0.312181502298252898E-05 IOFF_F: 0.155027268410931306E-06 SALT_F: 0.150901545696551483E-07 SENH_F: -16.2321316625620540 LWUP_F: -390.150537181289849 LWDN_F: 331.502355903461876 MELTH_F: -2.56799441460490385 IFRAC: 0.701048375513330796E-01 IAGE: 222.924178896251590 WVEL: 0.749969366577900048E-06 UET: 0.336774457806861575E-07 VNT: 0.118693437122836294E-06 WTT: -0.174116422537191727E-07 UES: 0.155561948163779570E-08 VNS: -0.738324466989015742E-11 WTS: 0.101432556283861479E-11 ADVT: 0.867268035659522997E-10 ADVS: 0.495414613671499384E-16 PV: 0.117652426355992139E-12 Q: -0.977227652921605419E-08 PD: 1.02752278222571269 QSW_HTP: 140.895211615493764 QFLUX: 0.194503924301647146 HMXL: 6050.83718939639311 XMXL: 7156.84353344505598 TMXL: 4585.08286331849195 HBLT: 4196.87308152288551 XBLT: 6942.97086759335252 TBLT: 922.517063215952021 BSF: 0.000000000000000000E+00 convergence info from pcg_diag_bsf: iter = 0 rms_resid = 0.111882600936513227 iter = 100 rms_resid = 0.427410883133627195E-02 iter = 200 rms_resid = 0.891494906636028784E-03 iter = 300 rms_resid = 0.349390685869251300E-03 iter = 400 rms_resid = 0.250000648782082208E-03 iter = 500 rms_resid = 0.187949921722831603E-03 iter = 600 rms_resid = 0.502567983261757904E-04 iter = 700 rms_resid = 0.161018004009894754E-04 iter = 800 rms_resid = 0.177565111753947679E-05 iter = 900 rms_resid = 0.151943853236924429E-06 Local Time- and Space-Averages for Nino Regions: 00:00:00 0090-02-01 NINO_1_PLUS_2: 25.7242918546255410 NINO_3: 25.6130344751025909 NINO_3_POINT_4: 26.4399391179288692 NINO_4: 28.0193481204689974 tavg file written: ./b40.1850.track1.1deg.006.pop.h.0090-01.nc (time_manager) ocn date 0090-feb-02, 0.000000E+00 sec (time_manager) ocn date 0090-feb-03, 0.000000E+00 sec (time_manager) ocn date 0090-feb-04, 0.000000E+00 sec (time_manager) ocn date 0090-feb-05, 0.000000E+00 sec (time_manager) ocn date 0090-feb-06, 0.000000E+00 sec (time_manager) ocn date 0090-feb-07, 0.000000E+00 sec (time_manager) ocn date 0090-feb-08, 0.000000E+00 sec (time_manager) ocn date 0090-feb-09, 0.000000E+00 sec (time_manager) ocn date 0090-feb-10, 0.000000E+00 sec (time_manager) ocn date 0090-feb-11, 0.000000E+00 sec (time_manager) ocn date 0090-feb-12, 0.000000E+00 sec (time_manager) ocn date 0090-feb-13, 0.000000E+00 sec (time_manager) ocn date 0090-feb-14, 0.000000E+00 sec (time_manager) ocn date 0090-feb-15, 0.000000E+00 sec (time_manager) ocn date 0090-feb-16, 0.000000E+00 sec (time_manager) ocn date 0090-feb-17, 0.000000E+00 sec (time_manager) ocn date 0090-feb-18, 0.000000E+00 sec (time_manager) ocn date 0090-feb-19, 0.000000E+00 sec (time_manager) ocn date 0090-feb-20, 0.000000E+00 sec (time_manager) ocn date 0090-feb-21, 0.000000E+00 sec (time_manager) ocn date 0090-feb-22, 0.000000E+00 sec (time_manager) ocn date 0090-feb-23, 0.000000E+00 sec (time_manager) ocn date 0090-feb-24, 0.000000E+00 sec (time_manager) ocn date 0090-feb-25, 0.000000E+00 sec (time_manager) ocn date 0090-feb-26, 0.000000E+00 sec (time_manager) ocn date 0090-feb-27, 0.000000E+00 sec (time_manager) ocn date 0090-feb-28, 0.000000E+00 sec (time_manager) ocn date 0090-mar-01, 0.000000E+00 sec Step number : 813575 Date : 01 mar 0090 Hour : 0 Minute : 0 Second : 0 Time(years) : 89.161644 max. cfl number for zonal advection : 7.0040E-02 20 371 33 max. cfl number for meridional advection : 7.2089E-02 265 201 2 max. cfl number for vertical advection : 2.7062E-01 15 367 20 max. cfl number for total advection : 2.8986E-01 15 367 20 max. cfl number for horizontal tracer mixing : 6.0948E-01 175 380 6 max. cfl number for horiz. momentum mixing : 1.2672E-01 318 214 56 K.E. diagnostics: mean K.E. : 8.119024499090079E+00 K.E. change from horiz. visc. :-3.381512075583826E-06 K.E. change from vert. visc. : 6.546926905618149E-06 K.E. change from wind stress : 1.993658227540414E-05 advective K.E. balance :-9.684419276908202E-10 : 5.339351193409836E-10 P.E. verses pressure work : 6.457200637948140E-04 :-4.181789530982900E-06 surface-pressure contribution :-5.015602656943283E-07 : 4.350992396803936E-07 Tracer diagnostics: mean value of tracer 1 : 3.520728090895144E+00 abs change in tracer 1 : 1.469704411865870E-07 mean change in tracer 1 : 3.528518447074468E-09 mean change in tracer 1 from advection :-1.886592705711599E-25 mean change in tracer 1 from horiz. diff.: 4.716481764278997E-26 mean change in tracer 1 from vert. diff.:-1.162195305762632E-08 mean change in tracer 1 from sources : 1.497177131003066E-08 surface flux of tracer 1 : 0.000000000000000E+00 mean value of tracer 2 : 3.472155601904397E+01 abs change in tracer 2 : 1.342887056948970E-11 mean change in tracer 2 : 7.711438613134464E-14 mean change in tracer 2 from advection :-7.830096678978805E-28 mean change in tracer 2 from horiz. diff.:-7.916458039408718E-30 mean change in tracer 2 from vert. diff.: 9.711260721559355E-15 mean change in tracer 2 from sources :-9.118833895765072E-32 surface flux of tracer 2 : 0.000000000000000E+00 mean value of tracer 3 : 2.229961495970063E+02 abs change in tracer 3 : 2.457747339688823E-06 mean change in tracer 3 : 2.343270374216931E-08 mean change in tracer 3 from advection :-5.735241825363261E-23 mean change in tracer 3 from horiz. diff.:-5.659778117134797E-25 mean change in tracer 3 from vert. diff.: 1.507662914767448E-25 mean change in tracer 3 from sources : 3.162337335760043E-08 surface flux of tracer 3 : 0.000000000000000E+00 Other diagnostics: global mean sea level: 5.059394445998606E-05 residual, scans : 7.900596562033742E-14 250 Timing information: Timer number 1 Time = 426.14 seconds HMIX_MOMENTUM_ANISO Timer number 2 Time = 384.44 seconds HMIX_TRACER_GM_NLOOP Timer number 3 Time = 2152.98 seconds HMIX_TRACER_GM Timer number 4 Time = 1119.71 seconds VMIX_COEFFICIENTS_KPP Timer number 5 Time = 59.79 seconds VMIX_EXPLICIT_TRACER Timer number 6 Time = 29.61 seconds VMIX_EXPLICIT_MOMENTUM Timer number 7 Time = 186.25 seconds VMIX_IMPLICIT_TRACER Timer number 8 Time = 45.14 seconds VMIX_IMPLICIT_MOMENTUM Timer number 9 Time = 6.53 seconds COMPUTE_COSZ Timer number 10 Time = 80.09 seconds ADVECTION_MOMENTUM Timer number 11 Time = 417.27 seconds ADVECTION_TRACER_UPWIND3 Timer number 12 Time = 28.19 seconds MOC Timer number 13 Time = 28.55 seconds TRACER_TRANSPORTS Timer number 14 Time = 490.69 seconds TAVG_WRITE_STD Timer number 15 Time = 39.42 seconds TAVG_WRITE_NONSTD Timer number 16 Time = 26.57 seconds TAVG_CCSM_DIAGS_BSF Timer number 17 Time = 28.19 seconds TAVG_CCSM_DIAGS_MOC Timer number 18 Time = 28.55 seconds TAVG_CCSM_DIAGS_TRANS Timer number 19 Time = 6445.57 seconds STEP Timer number 20 Time = 5472.09 seconds BAROCLINIC Timer number 21 Time = 740.00 seconds BAROTROPIC Timer number 22 Time = 132.14 seconds 3D-UPDATE Timer number 23 Time = 7073.56 seconds TOTAL Timer number 24 Time = 622.90 seconds OUTPUT Timer number 25 Time = 617.28 seconds OUTPUT TAVG Timer number 26 Time = 5.57 seconds OUTPUT REST ------------------------------------------------------------------------ (diag_print) file written: /ptmp/mai/b40.1850.track1.1deg.006/run/b40.1850.track1.1deg.006.pop.dd.0089-01-01-00000 (diag_transport) file written: /ptmp/mai/b40.1850.track1.1deg.006/run/b40.1850.track1.1deg.006.pop.dt.0089-01-01-00000 AFTER CALL IN tracer_budgets (final): ===================================== volume_t (cm^3) = 0.132514028745E+25 SUM [volume*T] (C cm^3) = 0.466545084118E+25 SUM [volume*S] (ppt cm^3) = 0.460109326863E+26 VOLUME AND TRACER BUDGETS: ========================== Please note the following about the budgets: * These budgets are meaningful when time-averaging starts at the first time step of an intended budget interval. * Positive-signed quantities ==> ocean gain Negative-signed quantities ==> ocean loss * The imbalance should be small in comparison to the tendency term, except for the volume budget when a fixed-volume ocean is used (e.g., when lfw_as_salt_flx = .false.) * These budgets are computed from single-precision TAVG terms, which contributes to inaccuracy in the imbalance term. VOLUME BUDGET FOR THE GIVEN TAVG INTERVAL (cm/s): ------------------------------------------------- tendency = -.122531410234E-12 FW flux = 0.000000000000E+00 Imbalance = 0.122531410234E-12 Imbalance = -tendency + FW flux HEAT BUDGET FOR THE GIVEN TAVG INTERVAL (W/m^2): ------------------------------------------------ tendency = 0.103010712510E+02 SHF flux = 0.101042997273E+02 ice formation = 0.196771756546E+00 FW heat content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = 0.232876433331E-06 Imbalance = -tendency + SHF flux + ice formation + FW heat content + free-srf non-consv. IMPLIED FW BUDGET FOR THE GIVEN TAVG INTERVAL (kg of freshwater/m^2/s): ----------------------------------------------------- tendency = -.804584706399E-06 SFWF flux = -.282891476509E-06 ice formation = -.521693537050E-06 FW salt content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = -.307160200561E-12 Imbalance = -tendency + SFWF flux + ice formation + FW salt content + free-srf non-consv. Global Time Averages: 03-01-0090 00:00:00 KAPPA_ISOP: 3602116.68019654229 KAPPA_THIC: 4140993.36324516172 HOR_DIFF: 584427.709823484765 DIA_DEPTH: 6861.38723817269874 TLT: 479.393045505022087 INT_DEPTH: 7340.77836693652262 UISOP: 0.162923755925673042E-04 VISOP: -0.247348476110177370E-03 WISOP: 0.534227237330968610E-13 ADVT_ISOP: -0.277159724549539900E-10 ADVS_ISOP: -0.193440133838370939E-14 VNT_ISOP: -0.415900145194690340E-10 VNS_ISOP: -0.136298410908649205E-11 USUBM: -0.206874830616895466E-04 VSUBM: 0.117730713215936369E-03 WSUBM: -0.487478575847365574E-08 HLS_SUBM: 756510.186408056645 ADVT_SUBM: 0.841827641584276378E-12 ADVS_SUBM: -0.143579072370792697E-15 VNT_SUBM: 0.521317904881465420E-09 VNS_SUBM: 0.902773780975785650E-12 HDIFT: -0.469560417207664707E-10 HDIFS: -0.320762475314471844E-14 QSW_HBL: 162.604583490024140 KVMIX: 1.38122917345537521 TPOWER: 0.222655929354292994E-05 UVEL: 0.314728587438967700 VVEL: 0.514046497510491779E-03 TEMP: 3.51813993067455932 dTEMP_POS_2D: 0.839169784698922533E-01 dTEMP_NEG_2D: -0.641366954955705226E-01 SALT: 0.347215036310130967E-01 RHO: 1.03743327145008379 RESID_T: 0.000000000000000000E+00 RESID_S: 0.000000000000000000E+00 SU: 112887.779366287854 SV: 133.225910235018603 SSH: 0.507992290708317266E-04 SHF: 10.1042997272971391 SHF_QSW: 191.518376752727505 SFWF: -0.282891476509363337E-06 TAUX: 0.980408451960672195E-01 TAUY: -0.854150268943504459E-01 FW: 0.000000000000000000E+00 TFW_T: 0.000000000000000000E+00 TFW_S: 0.000000000000000000E+00 EVAP_F: -0.415413686113103671E-04 PREC_F: 0.358537788885241094E-04 SNOW_F: 0.119344303115099570E-05 MELT_F: 0.229129269486938822E-05 ROFF_F: 0.302091070963925359E-05 IOFF_F: 0.250596258563998647E-06 SALT_F: 0.548522001503668915E-08 SENH_F: -16.0194290798293437 LWUP_F: -392.702957940009696 LWDN_F: 333.498372388810822 MELTH_F: -1.81322148294162000 IFRAC: 0.640297176364894305E-01 IAGE: 222.973128911453557 WVEL: 0.694826295489577303E-06 UET: 0.137219901800929231E-07 VNT: 0.119767048987559345E-06 WTT: -0.141651642287929056E-07 UES: 0.154298238581609655E-08 VNS: -0.548523681985908819E-11 WTS: 0.918912963088921762E-12 ADVT: -0.114039418559940300E-10 ADVS: -0.166745699597611226E-14 PV: 0.141962897448823041E-12 Q: -0.984576270116898297E-08 PD: 1.02752231649572212 QSW_HTP: 140.156543858928700 QFLUX: 0.196771756546449156 HMXL: 6864.13812273210169 XMXL: 7897.89063429794896 TMXL: 4845.45929645065189 HBLT: 4396.86109982326980 XBLT: 7512.21303923182768 TBLT: 930.514848664760166 BSF: 0.000000000000000000E+00 convergence info from pcg_diag_bsf: iter = 0 rms_resid = 0.105695466865862064 iter = 100 rms_resid = 0.420873877221287270E-02 iter = 200 rms_resid = 0.890525608601647136E-03 iter = 300 rms_resid = 0.373826389567820665E-03 iter = 400 rms_resid = 0.254271756591383218E-03 iter = 500 rms_resid = 0.195826763599648700E-03 iter = 600 rms_resid = 0.500828427534364868E-04 iter = 700 rms_resid = 0.150863472805047421E-04 iter = 800 rms_resid = 0.162537770162624919E-05 iter = 900 rms_resid = 0.136275537296023414E-06 Local Time- and Space-Averages for Nino Regions: 00:00:00 0090-03-01 NINO_1_PLUS_2: 26.2892241190266525 NINO_3: 25.4167270821182143 NINO_3_POINT_4: 26.5507215358479414 NINO_4: 27.9432068951486983 tavg file written: ./b40.1850.track1.1deg.006.pop.h.0090-02.nc (time_manager) ocn date 0090-mar-02, 0.000000E+00 sec (time_manager) ocn date 0090-mar-03, 0.000000E+00 sec (time_manager) ocn date 0090-mar-04, 0.000000E+00 sec (time_manager) ocn date 0090-mar-05, 0.000000E+00 sec (time_manager) ocn date 0090-mar-06, 0.000000E+00 sec (time_manager) ocn date 0090-mar-07, 0.000000E+00 sec (time_manager) ocn date 0090-mar-08, 0.000000E+00 sec (time_manager) ocn date 0090-mar-09, 0.000000E+00 sec (time_manager) ocn date 0090-mar-10, 0.000000E+00 sec (time_manager) ocn date 0090-mar-11, 0.000000E+00 sec (time_manager) ocn date 0090-mar-12, 0.000000E+00 sec (time_manager) ocn date 0090-mar-13, 0.000000E+00 sec (time_manager) ocn date 0090-mar-14, 0.000000E+00 sec (time_manager) ocn date 0090-mar-15, 0.000000E+00 sec (time_manager) ocn date 0090-mar-16, 0.000000E+00 sec (time_manager) ocn date 0090-mar-17, 0.000000E+00 sec (time_manager) ocn date 0090-mar-18, 0.000000E+00 sec (time_manager) ocn date 0090-mar-19, 0.000000E+00 sec (time_manager) ocn date 0090-mar-20, 0.000000E+00 sec (time_manager) ocn date 0090-mar-21, 0.000000E+00 sec (time_manager) ocn date 0090-mar-22, 0.000000E+00 sec (time_manager) ocn date 0090-mar-23, 0.000000E+00 sec (time_manager) ocn date 0090-mar-24, 0.000000E+00 sec (time_manager) ocn date 0090-mar-25, 0.000000E+00 sec (time_manager) ocn date 0090-mar-26, 0.000000E+00 sec (time_manager) ocn date 0090-mar-27, 0.000000E+00 sec (time_manager) ocn date 0090-mar-28, 0.000000E+00 sec (time_manager) ocn date 0090-mar-29, 0.000000E+00 sec (time_manager) ocn date 0090-mar-30, 0.000000E+00 sec (time_manager) ocn date 0090-mar-31, 0.000000E+00 sec (time_manager) ocn date 0090-apr-01, 0.000000E+00 sec Step number : 814350 Date : 01 apr 0090 Hour : 0 Minute : 0 Second : 0 Time(years) : 89.246575 max. cfl number for zonal advection : 6.6905E-02 187 379 2 max. cfl number for meridional advection : 8.3072E-02 151 205 2 max. cfl number for vertical advection : 4.6173E-01 68 359 11 max. cfl number for total advection : 4.7428E-01 68 359 11 max. cfl number for horizontal tracer mixing : 6.0948E-01 175 380 7 max. cfl number for horiz. momentum mixing : 1.2672E-01 318 214 56 K.E. diagnostics: mean K.E. : 8.650865814518484E+00 K.E. change from horiz. visc. :-3.512771987018853E-06 K.E. change from vert. visc. : 9.242111506664278E-06 K.E. change from wind stress : 2.547207252380465E-05 advective K.E. balance :-1.629733473500317E-09 : 1.451928015882162E-09 P.E. verses pressure work : 6.053488923094562E-04 :-5.723989788437211E-06 surface-pressure contribution : 5.580403117136220E-08 :-1.347186258417979E-07 Tracer diagnostics: mean value of tracer 1 : 3.522428994521400E+00 abs change in tracer 1 : 1.394188334327651E-07 mean change in tracer 1 : 2.968667473086042E-09 mean change in tracer 1 from advection : 3.796767820244593E-24 mean change in tracer 1 from horiz. diff.: 1.002252374909287E-25 mean change in tracer 1 from vert. diff.:-1.152222311232124E-08 mean change in tracer 1 from sources : 1.421581199544432E-08 surface flux of tracer 1 : 0.000000000000000E+00 mean value of tracer 2 : 3.472163945065890E+01 abs change in tracer 2 : 1.324856470290270E-11 mean change in tracer 2 : 1.158085505632061E-13 mean change in tracer 2 from advection :-1.704197512483622E-27 mean change in tracer 2 from horiz. diff.: 7.196780035826107E-30 mean change in tracer 2 from vert. diff.: 1.205289024636559E-14 mean change in tracer 2 from sources :-2.053490637663678E-31 surface flux of tracer 2 : 0.000000000000000E+00 mean value of tracer 3 : 2.230571872081686E+02 abs change in tracer 3 : 2.453476922493574E-06 mean change in tracer 3 : 2.419232343305378E-08 mean change in tracer 3 from advection :-3.320403162052414E-23 mean change in tracer 3 from horiz. diff.: 9.432963528557995E-26 mean change in tracer 3 from vert. diff.: 1.109798223015612E-24 mean change in tracer 3 from sources : 3.162337335760043E-08 surface flux of tracer 3 : 0.000000000000000E+00 Other diagnostics: global mean sea level: 5.048423060586702E-05 residual, scans : 7.338929744942548E-14 240 Timing information: Timer number 1 Time = 457.11 seconds HMIX_MOMENTUM_ANISO Timer number 2 Time = 412.65 seconds HMIX_TRACER_GM_NLOOP Timer number 3 Time = 2310.98 seconds HMIX_TRACER_GM Timer number 4 Time = 1201.79 seconds VMIX_COEFFICIENTS_KPP Timer number 5 Time = 64.18 seconds VMIX_EXPLICIT_TRACER Timer number 6 Time = 31.78 seconds VMIX_EXPLICIT_MOMENTUM Timer number 7 Time = 199.85 seconds VMIX_IMPLICIT_TRACER Timer number 8 Time = 48.42 seconds VMIX_IMPLICIT_MOMENTUM Timer number 9 Time = 7.01 seconds COMPUTE_COSZ Timer number 10 Time = 85.97 seconds ADVECTION_MOMENTUM Timer number 11 Time = 447.79 seconds ADVECTION_TRACER_UPWIND3 Timer number 12 Time = 30.35 seconds MOC Timer number 13 Time = 30.71 seconds TRACER_TRANSPORTS Timer number 14 Time = 527.41 seconds TAVG_WRITE_STD Timer number 15 Time = 43.41 seconds TAVG_WRITE_NONSTD Timer number 16 Time = 28.60 seconds TAVG_CCSM_DIAGS_BSF Timer number 17 Time = 30.35 seconds TAVG_CCSM_DIAGS_MOC Timer number 18 Time = 30.72 seconds TAVG_CCSM_DIAGS_TRANS Timer number 19 Time = 6917.88 seconds STEP Timer number 20 Time = 5872.36 seconds BAROCLINIC Timer number 21 Time = 794.55 seconds BAROTROPIC Timer number 22 Time = 141.86 seconds 3D-UPDATE Timer number 23 Time = 7593.59 seconds TOTAL Timer number 24 Time = 670.25 seconds OUTPUT Timer number 25 Time = 664.63 seconds OUTPUT TAVG Timer number 26 Time = 5.58 seconds OUTPUT REST ------------------------------------------------------------------------ (diag_print) file written: /ptmp/mai/b40.1850.track1.1deg.006/run/b40.1850.track1.1deg.006.pop.dd.0089-01-01-00000 (diag_transport) file written: /ptmp/mai/b40.1850.track1.1deg.006/run/b40.1850.track1.1deg.006.pop.dt.0089-01-01-00000 AFTER CALL IN tracer_budgets (final): ===================================== volume_t (cm^3) = 0.132514028745E+25 SUM [volume*T] (C cm^3) = 0.466770647471E+25 SUM [volume*S] (ppt cm^3) = 0.460110432393E+26 VOLUME AND TRACER BUDGETS: ========================== Please note the following about the budgets: * These budgets are meaningful when time-averaging starts at the first time step of an intended budget interval. * Positive-signed quantities ==> ocean gain Negative-signed quantities ==> ocean loss * The imbalance should be small in comparison to the tendency term, except for the volume budget when a fixed-volume ocean is used (e.g., when lfw_as_salt_flx = .false.) * These budgets are computed from single-precision TAVG terms, which contributes to inaccuracy in the imbalance term. VOLUME BUDGET FOR THE GIVEN TAVG INTERVAL (cm/s): ------------------------------------------------- tendency = -.409891691334E-13 FW flux = 0.000000000000E+00 Imbalance = 0.409891691334E-13 Imbalance = -tendency + FW flux HEAT BUDGET FOR THE GIVEN TAVG INTERVAL (W/m^2): ------------------------------------------------ tendency = 0.956070953611E+01 SHF flux = 0.929792291618E+01 ice formation = 0.262786842663E+00 FW heat content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = 0.222737738087E-06 Imbalance = -tendency + SHF flux + ice formation + FW heat content + free-srf non-consv. IMPLIED FW BUDGET FOR THE GIVEN TAVG INTERVAL (kg of freshwater/m^2/s): ----------------------------------------------------- tendency = -.329374336018E-05 SFWF flux = -.259702637225E-05 ice formation = -.696716845167E-06 FW salt content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = 0.142767413742E-12 Imbalance = -tendency + SFWF flux + ice formation + FW salt content + free-srf non-consv. Global Time Averages: 04-01-0090 00:00:00 KAPPA_ISOP: 3816424.88574595051 KAPPA_THIC: 4362114.29457115661 HOR_DIFF: 592031.410542001366 DIA_DEPTH: 6935.51901474591796 TLT: 517.097063197002058 INT_DEPTH: 7452.61486297411102 UISOP: 0.279882381756772537E-04 VISOP: -0.189182718251638076E-03 WISOP: -0.186451986578379524E-12 ADVT_ISOP: 0.513997526941958297E-10 ADVS_ISOP: -0.104683890647180793E-15 VNT_ISOP: 0.452228421675189107E-09 VNS_ISOP: -0.976224809621746305E-12 USUBM: -0.129524817137350858E-04 VSUBM: 0.116331463511166143E-03 WSUBM: -0.619418420062675713E-08 HLS_SUBM: 828325.431404733798 ADVT_SUBM: -0.231206702356872648E-11 ADVS_SUBM: -0.494371746929136039E-15 VNT_SUBM: 0.737168279723565172E-09 VNS_SUBM: 0.894370981702708231E-12 HDIFT: 0.329503084452514165E-10 HDIFS: 0.160851461776082141E-14 QSW_HBL: 157.240873280009680 KVMIX: 1.37543248998862877 TPOWER: 0.223442794537595069E-05 UVEL: 0.309151463212720967 VVEL: 0.744815251311071254E-03 TEMP: 3.51986753551536324 dTEMP_POS_2D: 0.799256033556711432E-01 dTEMP_NEG_2D: -0.620483154656174124E-01 SALT: 0.347215578388226503E-01 RHO: 1.03743290529360754 RESID_T: 0.000000000000000000E+00 RESID_S: 0.000000000000000000E+00 SU: 110888.013336042743 SV: 217.048764821015311 SSH: 0.504017629859770117E-04 SHF: 9.29792291618369759 SHF_QSW: 185.690571463074406 SFWF: -0.259702637224689510E-05 TAUX: 0.146168142953359781 TAUY: -0.553488708695178272E-01 FW: 0.000000000000000000E+00 TFW_T: 0.000000000000000000E+00 TFW_S: 0.000000000000000000E+00 EVAP_F: -0.403341916319759232E-04 PREC_F: 0.351283886002799791E-04 SNOW_F: 0.117077356632611627E-05 MELT_F: -0.993271857222111480E-06 ROFF_F: 0.313122742249060522E-05 IOFF_F: 0.285377884524182083E-06 SALT_F: -0.643535465600567861E-08 SENH_F: -14.6317959110751925 LWUP_F: -392.121768425922085 LWDN_F: 332.555155365311577 MELTH_F: -0.832510010912096976 IFRAC: 0.665618304698072233E-01 IAGE: 223.026225822024145 WVEL: 0.636464292775140524E-06 UET: 0.383857293267001909E-07 VNT: 0.846716156326996493E-07 WTT: -0.172374143945313043E-07 UES: 0.150636775556060912E-08 VNS: -0.909157410337843135E-12 WTS: 0.629771963588933772E-12 ADVT: 0.568372507910831711E-10 ADVS: -0.723756242412919416E-14 PV: 0.141599812939060633E-12 Q: -0.988962053532556632E-08 PD: 1.02752195978121774 QSW_HTP: 135.947037350503422 QFLUX: 0.262786842663273179 HMXL: 6937.85413559915742 XMXL: 8607.20005388060781 TMXL: 4290.99959807455343 HBLT: 4093.64848691896759 XBLT: 7476.43231918073434 TBLT: 864.331403334817651 BSF: 0.000000000000000000E+00 convergence info from pcg_diag_bsf: iter = 0 rms_resid = 0.102437318830392088 iter = 100 rms_resid = 0.421998817990896970E-02 iter = 200 rms_resid = 0.882929116541594696E-03 iter = 300 rms_resid = 0.364902520148690623E-03 iter = 400 rms_resid = 0.258345314143905110E-03 iter = 500 rms_resid = 0.183632552885602460E-03 iter = 600 rms_resid = 0.487581991354941422E-04 iter = 700 rms_resid = 0.148851239617211122E-04 iter = 800 rms_resid = 0.188013923920787220E-05 iter = 900 rms_resid = 0.147819961897929119E-06 Local Time- and Space-Averages for Nino Regions: 00:00:00 0090-04-01 NINO_1_PLUS_2: 26.5651704393542758 NINO_3: 25.2571578394311729 NINO_3_POINT_4: 26.5404828952991849 NINO_4: 28.1450025305475329 tavg file written: ./b40.1850.track1.1deg.006.pop.h.0090-03.nc (time_manager) ocn date 0090-apr-02, 0.000000E+00 sec (time_manager) ocn date 0090-apr-03, 0.000000E+00 sec (time_manager) ocn date 0090-apr-04, 0.000000E+00 sec (time_manager) ocn date 0090-apr-05, 0.000000E+00 sec (time_manager) ocn date 0090-apr-06, 0.000000E+00 sec (time_manager) ocn date 0090-apr-07, 0.000000E+00 sec (time_manager) ocn date 0090-apr-08, 0.000000E+00 sec (time_manager) ocn date 0090-apr-09, 0.000000E+00 sec (time_manager) ocn date 0090-apr-10, 0.000000E+00 sec (time_manager) ocn date 0090-apr-11, 0.000000E+00 sec (time_manager) ocn date 0090-apr-12, 0.000000E+00 sec (time_manager) ocn date 0090-apr-13, 0.000000E+00 sec (time_manager) ocn date 0090-apr-14, 0.000000E+00 sec (time_manager) ocn date 0090-apr-15, 0.000000E+00 sec (time_manager) ocn date 0090-apr-16, 0.000000E+00 sec (time_manager) ocn date 0090-apr-17, 0.000000E+00 sec (time_manager) ocn date 0090-apr-18, 0.000000E+00 sec (time_manager) ocn date 0090-apr-19, 0.000000E+00 sec (time_manager) ocn date 0090-apr-20, 0.000000E+00 sec (time_manager) ocn date 0090-apr-21, 0.000000E+00 sec (time_manager) ocn date 0090-apr-22, 0.000000E+00 sec (time_manager) ocn date 0090-apr-23, 0.000000E+00 sec (time_manager) ocn date 0090-apr-24, 0.000000E+00 sec (time_manager) ocn date 0090-apr-25, 0.000000E+00 sec (time_manager) ocn date 0090-apr-26, 0.000000E+00 sec (time_manager) ocn date 0090-apr-27, 0.000000E+00 sec (time_manager) ocn date 0090-apr-28, 0.000000E+00 sec (time_manager) ocn date 0090-apr-29, 0.000000E+00 sec (time_manager) ocn date 0090-apr-30, 0.000000E+00 sec (time_manager) ocn date 0090-may-01, 0.000000E+00 sec Step number : 815100 Date : 01 may 0090 Hour : 0 Minute : 0 Second : 0 Time(years) : 89.328767 max. cfl number for zonal advection : 6.9898E-02 20 371 33 max. cfl number for meridional advection : 7.7125E-02 149 208 4 max. cfl number for vertical advection : 2.1412E-01 240 377 11 max. cfl number for total advection : 2.3620E-01 240 377 11 max. cfl number for horizontal tracer mixing : 6.0948E-01 175 380 7 max. cfl number for horiz. momentum mixing : 1.2672E-01 318 214 56 K.E. diagnostics: mean K.E. : 9.012752999153802E+00 K.E. change from horiz. visc. :-3.513613889983328E-06 K.E. change from vert. visc. : 9.425606048520388E-06 K.E. change from wind stress : 2.602888549129610E-05 advective K.E. balance :-2.014092047697957E-09 : 1.549971782786657E-09 P.E. verses pressure work : 6.240437737745051E-04 :-3.499708350868463E-06 surface-pressure contribution : 8.109042487926188E-07 :-8.818936637918953E-07 Tracer diagnostics: mean value of tracer 1 : 3.522248559392193E+00 abs change in tracer 1 : 1.375507011168077E-07 mean change in tracer 1 : 1.474304209899205E-09 mean change in tracer 1 from advection :-2.924218693852978E-24 mean change in tracer 1 from horiz. diff.: 7.664282866953371E-26 mean change in tracer 1 from vert. diff.:-1.219429145190912E-08 mean change in tracer 1 from sources : 1.349654443545919E-08 surface flux of tracer 1 : 0.000000000000000E+00 mean value of tracer 2 : 3.472171202627746E+01 abs change in tracer 2 : 1.339856204098607E-11 mean change in tracer 2 : 9.791473984483866E-14 mean change in tracer 2 from advection : 4.260493781209055E-28 mean change in tracer 2 from horiz. diff.:-3.598390017913053E-30 mean change in tracer 2 from vert. diff.: 3.301950899266799E-14 mean change in tracer 2 from sources : 1.329627882910516E-31 surface flux of tracer 2 : 0.000000000000000E+00 mean value of tracer 3 : 2.231176697256048E+02 abs change in tracer 3 : 2.422864653605197E-06 mean change in tracer 3 : 2.192711205643175E-08 mean change in tracer 3 from advection :-9.659354653243387E-23 mean change in tracer 3 from horiz. diff.:-1.792263070426019E-24 mean change in tracer 3 from vert. diff.: 1.481621330666328E-26 mean change in tracer 3 from sources : 3.162337335760043E-08 surface flux of tracer 3 : 0.000000000000000E+00 Other diagnostics: global mean sea level: 5.018544904475869E-05 residual, scans : 7.344674079735177E-14 240 Timing information: Timer number 1 Time = 487.72 seconds HMIX_MOMENTUM_ANISO Timer number 2 Time = 439.80 seconds HMIX_TRACER_GM_NLOOP Timer number 3 Time = 2463.85 seconds HMIX_TRACER_GM Timer number 4 Time = 1281.28 seconds VMIX_COEFFICIENTS_KPP Timer number 5 Time = 68.41 seconds VMIX_EXPLICIT_TRACER Timer number 6 Time = 33.88 seconds VMIX_EXPLICIT_MOMENTUM Timer number 7 Time = 213.02 seconds VMIX_IMPLICIT_TRACER Timer number 8 Time = 51.52 seconds VMIX_IMPLICIT_MOMENTUM Timer number 9 Time = 7.47 seconds COMPUTE_COSZ Timer number 10 Time = 91.72 seconds ADVECTION_MOMENTUM Timer number 11 Time = 477.29 seconds ADVECTION_TRACER_UPWIND3 Timer number 12 Time = 32.50 seconds MOC Timer number 13 Time = 32.94 seconds TRACER_TRANSPORTS Timer number 14 Time = 563.42 seconds TAVG_WRITE_STD Timer number 15 Time = 45.93 seconds TAVG_WRITE_NONSTD Timer number 16 Time = 30.62 seconds TAVG_CCSM_DIAGS_BSF Timer number 17 Time = 32.50 seconds TAVG_CCSM_DIAGS_MOC Timer number 18 Time = 32.94 seconds TAVG_CCSM_DIAGS_TRANS Timer number 19 Time = 7373.21 seconds STEP Timer number 20 Time = 6259.61 seconds BAROCLINIC Timer number 21 Time = 846.36 seconds BAROTROPIC Timer number 22 Time = 151.22 seconds 3D-UPDATE Timer number 23 Time = 8094.50 seconds TOTAL Timer number 24 Time = 715.47 seconds OUTPUT Timer number 25 Time = 709.84 seconds OUTPUT TAVG Timer number 26 Time = 5.58 seconds OUTPUT REST ------------------------------------------------------------------------ (diag_print) file written: /ptmp/mai/b40.1850.track1.1deg.006/run/b40.1850.track1.1deg.006.pop.dd.0089-01-01-00000 (diag_transport) file written: /ptmp/mai/b40.1850.track1.1deg.006/run/b40.1850.track1.1deg.006.pop.dt.0089-01-01-00000 AFTER CALL IN tracer_budgets (final): ===================================== volume_t (cm^3) = 0.132514028745E+25 SUM [volume*T] (C cm^3) = 0.466747075607E+25 SUM [volume*S] (ppt cm^3) = 0.460111393659E+26 VOLUME AND TRACER BUDGETS: ========================== Please note the following about the budgets: * These budgets are meaningful when time-averaging starts at the first time step of an intended budget interval. * Positive-signed quantities ==> ocean gain Negative-signed quantities ==> ocean loss * The imbalance should be small in comparison to the tendency term, except for the volume budget when a fixed-volume ocean is used (e.g., when lfw_as_salt_flx = .false.) * These budgets are computed from single-precision TAVG terms, which contributes to inaccuracy in the imbalance term. VOLUME BUDGET FOR THE GIVEN TAVG INTERVAL (cm/s): ------------------------------------------------- tendency = -.115251627018E-12 FW flux = 0.000000000000E+00 Imbalance = 0.115251627018E-12 Imbalance = -tendency + FW flux HEAT BUDGET FOR THE GIVEN TAVG INTERVAL (W/m^2): ------------------------------------------------ tendency = -.103241890622E+01 SHF flux = -.133318143394E+01 ice formation = 0.300762257272E+00 FW heat content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = -.270452432505E-06 Imbalance = -tendency + SHF flux + ice formation + FW heat content + free-srf non-consv. IMPLIED FW BUDGET FOR THE GIVEN TAVG INTERVAL (kg of freshwater/m^2/s): ----------------------------------------------------- tendency = -.295939478544E-05 SFWF flux = -.216199542650E-05 ice formation = -.797399629708E-06 FW salt content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = -.270775892371E-12 Imbalance = -tendency + SFWF flux + ice formation + FW salt content + free-srf non-consv. Global Time Averages: 05-01-0090 00:00:00 KAPPA_ISOP: 3816648.44735983480 KAPPA_THIC: 4301371.69294822589 HOR_DIFF: 531238.570107126026 DIA_DEPTH: 6225.83427341705010 TLT: 451.160562448801272 INT_DEPTH: 6676.99663320184754 UISOP: 0.803503044434924579E-04 VISOP: -0.147515973206510279E-03 WISOP: -0.191673271441743910E-12 ADVT_ISOP: 0.156065041023722471E-10 ADVS_ISOP: 0.113819484436229784E-14 VNT_ISOP: 0.639245274304575593E-09 VNS_ISOP: -0.689265110620280885E-12 USUBM: -0.278126628740964435E-05 VSUBM: 0.576893773644121755E-04 WSUBM: -0.173197182500205568E-08 HLS_SUBM: 818546.742665945087 ADVT_SUBM: -0.675525265164894662E-12 ADVS_SUBM: 0.474325629310678507E-15 VNT_SUBM: 0.567602923486892878E-09 VNS_SUBM: 0.459656821472948081E-12 HDIFT: 0.674349382562454326E-10 HDIFS: 0.119820227705564945E-14 QSW_HBL: 146.176244701940959 KVMIX: 1.36555487012727839 TPOWER: 0.223730053262569728E-05 UVEL: 0.315493365203321496 VVEL: 0.127223812267571071E-02 TEMP: 3.52085714081558532 dTEMP_POS_2D: 0.878252246861037644E-01 dTEMP_NEG_2D: -0.711282035078596303E-01 SALT: 0.347216487482506567E-01 RHO: 1.03743256554122487 RESID_T: 0.000000000000000000E+00 RESID_S: 0.000000000000000000E+00 SU: 113165.002496853573 SV: 406.319140395736952 SSH: 0.503335238848649671E-04 SHF: -1.33318143393986865 SHF_QSW: 172.780714813516909 SFWF: -0.216199542650343905E-05 TAUX: 0.962394187311119836E-01 TAUY: -0.352021691315314370E-01 FW: 0.000000000000000000E+00 TFW_T: 0.000000000000000000E+00 TFW_S: 0.000000000000000000E+00 EVAP_F: -0.399872411605240542E-04 PREC_F: 0.354016071686262713E-04 SNOW_F: 0.996526172137419635E-06 MELT_F: -0.195273440711339605E-05 ROFF_F: 0.372826408966123163E-05 IOFF_F: 0.333816042310329363E-06 SALT_F: -0.109047920175599680E-07 SENH_F: -13.9415279600834285 LWUP_F: -388.838701930038326 LWDN_F: 329.693096091762072 MELTH_F: -0.574738472739978357 IFRAC: 0.762128470959844706E-01 IAGE: 223.087892324315760 WVEL: 0.634867720448354505E-06 UET: 0.730766663464141937E-07 VNT: 0.607539395307407925E-07 WTT: -0.144161331340903076E-07 UES: 0.154856540742924816E-08 VNS: 0.448471777228537319E-11 WTS: 0.107210230606981575E-11 ADVT: 0.119528890400985203E-09 ADVS: 0.232381617677626455E-14 PV: 0.115037793588272328E-12 Q: -0.987395175786644125E-08 PD: 1.02752161492165861 QSW_HTP: 126.908964455493617 QFLUX: 0.300762257271861067 HMXL: 6226.66651254260069 XMXL: 8564.63715945299737 TMXL: 4039.53700270684158 HBLT: 3789.61123778490719 XBLT: 7155.66969740577952 TBLT: 900.878841548034188 BSF: 0.000000000000000000E+00 convergence info from pcg_diag_bsf: iter = 0 rms_resid = 0.995290225496320569E-01 iter = 100 rms_resid = 0.420617588387505598E-02 iter = 200 rms_resid = 0.906544509195318844E-03 iter = 300 rms_resid = 0.378619026005386499E-03 iter = 400 rms_resid = 0.267721746344949771E-03 iter = 500 rms_resid = 0.194821617126793973E-03 iter = 600 rms_resid = 0.509146187615228482E-04 iter = 700 rms_resid = 0.155244508594477839E-04 iter = 800 rms_resid = 0.189194095720845467E-05 iter = 900 rms_resid = 0.156300799633503250E-06 Local Time- and Space-Averages for Nino Regions: 00:00:00 0090-05-01 NINO_1_PLUS_2: 26.4078548672890072 NINO_3: 26.1987926946801331 NINO_3_POINT_4: 26.8312271517883403 NINO_4: 28.1358674403612916 tavg file written: ./b40.1850.track1.1deg.006.pop.h.0090-04.nc (time_manager) ocn date 0090-may-02, 0.000000E+00 sec (time_manager) ocn date 0090-may-03, 0.000000E+00 sec (time_manager) ocn date 0090-may-04, 0.000000E+00 sec (time_manager) ocn date 0090-may-05, 0.000000E+00 sec (time_manager) ocn date 0090-may-06, 0.000000E+00 sec (time_manager) ocn date 0090-may-07, 0.000000E+00 sec (time_manager) ocn date 0090-may-08, 0.000000E+00 sec (time_manager) ocn date 0090-may-09, 0.000000E+00 sec (time_manager) ocn date 0090-may-10, 0.000000E+00 sec (time_manager) ocn date 0090-may-11, 0.000000E+00 sec (time_manager) ocn date 0090-may-12, 0.000000E+00 sec (time_manager) ocn date 0090-may-13, 0.000000E+00 sec (time_manager) ocn date 0090-may-14, 0.000000E+00 sec (time_manager) ocn date 0090-may-15, 0.000000E+00 sec (time_manager) ocn date 0090-may-16, 0.000000E+00 sec (time_manager) ocn date 0090-may-17, 0.000000E+00 sec (time_manager) ocn date 0090-may-18, 0.000000E+00 sec (time_manager) ocn date 0090-may-19, 0.000000E+00 sec (time_manager) ocn date 0090-may-20, 0.000000E+00 sec (time_manager) ocn date 0090-may-21, 0.000000E+00 sec (time_manager) ocn date 0090-may-22, 0.000000E+00 sec (time_manager) ocn date 0090-may-23, 0.000000E+00 sec (time_manager) ocn date 0090-may-24, 0.000000E+00 sec (time_manager) ocn date 0090-may-25, 0.000000E+00 sec (time_manager) ocn date 0090-may-26, 0.000000E+00 sec (time_manager) ocn date 0090-may-27, 0.000000E+00 sec (time_manager) ocn date 0090-may-28, 0.000000E+00 sec (time_manager) ocn date 0090-may-29, 0.000000E+00 sec (time_manager) ocn date 0090-may-30, 0.000000E+00 sec (time_manager) ocn date 0090-may-31, 0.000000E+00 sec (time_manager) ocn date 0090-jun-01, 0.000000E+00 sec Step number : 815875 Date : 01 jun 0090 Hour : 0 Minute : 0 Second : 0 Time(years) : 89.413699 max. cfl number for zonal advection : 7.5964E-02 20 371 33 max. cfl number for meridional advection : 9.7732E-02 6 169 4 max. cfl number for vertical advection : 1.6031E-01 240 377 11 max. cfl number for total advection : 1.7776E-01 240 377 11 max. cfl number for horizontal tracer mixing : 6.0948E-01 175 380 7 max. cfl number for horiz. momentum mixing : 1.2672E-01 318 214 56 K.E. diagnostics: mean K.E. : 9.109993648979088E+00 K.E. change from horiz. visc. :-3.657821016385590E-06 K.E. change from vert. visc. : 6.509419273677234E-06 K.E. change from wind stress : 2.289754437534914E-05 advective K.E. balance :-1.097790336806740E-09 : 6.174733023281619E-10 P.E. verses pressure work : 6.451800140593778E-04 :-1.768002256686360E-06 surface-pressure contribution :-4.863395219011523E-07 : 4.311639495396454E-07 Tracer diagnostics: mean value of tracer 1 : 3.520114137696015E+00 abs change in tracer 1 : 1.389990585949526E-07 mean change in tracer 1 : 1.382242240676937E-09 mean change in tracer 1 from advection :-3.631690958494828E-24 mean change in tracer 1 from horiz. diff.:-3.537361323209248E-26 mean change in tracer 1 from vert. diff.:-1.135050321767647E-08 mean change in tracer 1 from sources : 1.254995206990289E-08 surface flux of tracer 1 : 0.000000000000000E+00 mean value of tracer 2 : 3.472171963753829E+01 abs change in tracer 2 : 1.356560007878019E-11 mean change in tracer 2 : 5.314498741031472E-14 mean change in tracer 2 from advection :-5.987720989807321E-28 mean change in tracer 2 from horiz. diff.: 1.439356007165221E-29 mean change in tracer 2 from vert. diff.:-1.580203141384080E-14 mean change in tracer 2 from sources :-1.313925658868539E-31 surface flux of tracer 2 : 0.000000000000000E+00 mean value of tracer 3 : 2.231733150145649E+02 abs change in tracer 3 : 2.490320909793659E-06 mean change in tracer 3 : 1.906712228546635E-08 mean change in tracer 3 from advection :-2.112983830396991E-23 mean change in tracer 3 from horiz. diff.: 0.000000000000000E+00 mean change in tracer 3 from vert. diff.: 4.081726568271890E-25 mean change in tracer 3 from sources : 3.162337335760043E-08 surface flux of tracer 3 : 0.000000000000000E+00 Other diagnostics: global mean sea level: 5.043320351901835E-05 residual, scans : 9.933908176909997E-14 240 Timing information: Timer number 1 Time = 518.96 seconds HMIX_MOMENTUM_ANISO Timer number 2 Time = 467.66 seconds HMIX_TRACER_GM_NLOOP Timer number 3 Time = 2621.55 seconds HMIX_TRACER_GM Timer number 4 Time = 1363.62 seconds VMIX_COEFFICIENTS_KPP Timer number 5 Time = 72.78 seconds VMIX_EXPLICIT_TRACER Timer number 6 Time = 36.04 seconds VMIX_EXPLICIT_MOMENTUM Timer number 7 Time = 226.64 seconds VMIX_IMPLICIT_TRACER Timer number 8 Time = 54.78 seconds VMIX_IMPLICIT_MOMENTUM Timer number 9 Time = 7.94 seconds COMPUTE_COSZ Timer number 10 Time = 97.61 seconds ADVECTION_MOMENTUM Timer number 11 Time = 507.78 seconds ADVECTION_TRACER_UPWIND3 Timer number 12 Time = 34.67 seconds MOC Timer number 13 Time = 35.10 seconds TRACER_TRANSPORTS Timer number 14 Time = 599.75 seconds TAVG_WRITE_STD Timer number 15 Time = 49.06 seconds TAVG_WRITE_NONSTD Timer number 16 Time = 32.63 seconds TAVG_CCSM_DIAGS_BSF Timer number 17 Time = 34.67 seconds TAVG_CCSM_DIAGS_MOC Timer number 18 Time = 35.10 seconds TAVG_CCSM_DIAGS_TRANS Timer number 19 Time = 7843.19 seconds STEP Timer number 20 Time = 6660.02 seconds BAROCLINIC Timer number 21 Time = 899.40 seconds BAROTROPIC Timer number 22 Time = 160.85 seconds 3D-UPDATE Timer number 23 Time = 8610.99 seconds TOTAL Timer number 24 Time = 761.60 seconds OUTPUT Timer number 25 Time = 755.96 seconds OUTPUT TAVG Timer number 26 Time = 5.58 seconds OUTPUT REST ------------------------------------------------------------------------ (diag_print) file written: /ptmp/mai/b40.1850.track1.1deg.006/run/b40.1850.track1.1deg.006.pop.dd.0089-01-01-00000 (diag_transport) file written: /ptmp/mai/b40.1850.track1.1deg.006/run/b40.1850.track1.1deg.006.pop.dt.0089-01-01-00000 AFTER CALL IN tracer_budgets (final): ===================================== volume_t (cm^3) = 0.132514028745E+25 SUM [volume*T] (C cm^3) = 0.466464249173E+25 SUM [volume*S] (ppt cm^3) = 0.460111495671E+26 VOLUME AND TRACER BUDGETS: ========================== Please note the following about the budgets: * These budgets are meaningful when time-averaging starts at the first time step of an intended budget interval. * Positive-signed quantities ==> ocean gain Negative-signed quantities ==> ocean loss * The imbalance should be small in comparison to the tendency term, except for the volume budget when a fixed-volume ocean is used (e.g., when lfw_as_salt_flx = .false.) * These budgets are computed from single-precision TAVG terms, which contributes to inaccuracy in the imbalance term. VOLUME BUDGET FOR THE GIVEN TAVG INTERVAL (cm/s): ------------------------------------------------- tendency = 0.924962090193E-13 FW flux = 0.000000000000E+00 Imbalance = -.924962090193E-13 Imbalance = -tendency + FW flux HEAT BUDGET FOR THE GIVEN TAVG INTERVAL (W/m^2): ------------------------------------------------ tendency = -.119878577214E+02 SHF flux = -.121956709924E+02 ice formation = 0.207813531866E+00 FW heat content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = 0.260889344295E-06 Imbalance = -tendency + SHF flux + ice formation + FW heat content + free-srf non-consv. IMPLIED FW BUDGET FOR THE GIVEN TAVG INTERVAL (kg of freshwater/m^2/s): ----------------------------------------------------- tendency = -.303930491089E-06 SFWF flux = 0.247037899659E-06 ice formation = -.550968179523E-06 FW salt content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = 0.211224722736E-12 Imbalance = -tendency + SFWF flux + ice formation + FW salt content + free-srf non-consv. Global Time Averages: 06-01-0090 00:00:00 KAPPA_ISOP: 3516356.19289223943 KAPPA_THIC: 3963430.14539566310 HOR_DIFF: 492680.976433888020 DIA_DEPTH: 5801.40444924159419 TLT: 356.241682377551058 INT_DEPTH: 6157.64012765617372 UISOP: 0.518332660205326928E-04 VISOP: -0.264875173676539487E-03 WISOP: 0.149613940123646693E-12 ADVT_ISOP: -0.258801993369491086E-10 ADVS_ISOP: 0.607373875052236337E-14 VNT_ISOP: -0.578303358185511740E-09 VNS_ISOP: -0.157638853173631926E-11 USUBM: 0.113371959176590124E-05 VSUBM: -0.168648314579095283E-05 WSUBM: -0.856086714390469254E-09 HLS_SUBM: 805555.476920913788 ADVT_SUBM: -0.738209592243766617E-12 ADVS_SUBM: -0.151983076221797108E-15 VNT_SUBM: 0.794521802796534663E-10 VNS_SUBM: -0.112925531505837360E-13 HDIFT: 0.808697462107942872E-12 HDIFS: -0.106260651599466854E-15 QSW_HBL: 135.569657898760028 KVMIX: 1.35962308688008604 TPOWER: 0.222367976371528285E-05 UVEL: 0.328528902279169921 VVEL: 0.151061060483726633E-02 TEMP: 3.51952402425654620 dTEMP_POS_2D: 0.941269376458569312E-01 dTEMP_NEG_2D: -0.753792707128872475E-01 SALT: 0.347216952120652858E-01 RHO: 1.03743289898820268 RESID_T: 0.000000000000000000E+00 RESID_S: 0.000000000000000000E+00 SU: 117839.666943550488 SV: 499.356995647117628 SSH: 0.502301382193057436E-04 SHF: -12.1956709923698963 SHF_QSW: 160.185134000307215 SFWF: 0.247037899658703294E-06 TAUX: 0.119378983161127064 TAUY: -0.169569662170839693E-01 FW: 0.000000000000000000E+00 TFW_T: 0.000000000000000000E+00 TFW_S: 0.000000000000000000E+00 EVAP_F: -0.398859502198192534E-04 PREC_F: 0.357158445793729566E-04 SNOW_F: 0.879395065216441474E-06 MELT_F: -0.391708885814118184E-06 ROFF_F: 0.426010480669336502E-05 IOFF_F: 0.382277683120472403E-06 SALT_F: -0.577388784337381174E-08 SENH_F: -13.7359661703910199 LWUP_F: -386.697894180248056 LWDN_F: 329.004791134404286 MELTH_F: -0.775957604609935458 IFRAC: 0.805545844093240732E-01 IAGE: 223.146536752080181 WVEL: 0.652601483842923130E-06 UET: 0.847836204844063350E-07 VNT: 0.275133938608153669E-07 WTT: -0.161508371662390910E-07 UES: 0.162639613853004717E-08 VNS: 0.493956283489729602E-11 WTS: 0.761955060813513121E-12 ADVT: -0.305408981335111967E-10 ADVS: 0.627038643019612302E-15 PV: 0.695365574528381883E-13 Q: -0.978447548023532113E-08 PD: 1.02752196217969360 QSW_HTP: 118.527774345854823 QFLUX: 0.207813531865955914 HMXL: 5801.74086846703267 XMXL: 7491.88385354536149 TMXL: 4543.55599076871295 HBLT: 4022.19516482927065 XBLT: 6750.14236436760802 TBLT: 928.828584231467289 BSF: 0.000000000000000000E+00 convergence info from pcg_diag_bsf: iter = 0 rms_resid = 0.101462152748640830 iter = 100 rms_resid = 0.429741942179207026E-02 iter = 200 rms_resid = 0.943964315703747043E-03 iter = 300 rms_resid = 0.406537211570903376E-03 iter = 400 rms_resid = 0.298087797971960096E-03 iter = 500 rms_resid = 0.195210559449899218E-03 iter = 600 rms_resid = 0.505951888153638628E-04 iter = 700 rms_resid = 0.152284481644406888E-04 iter = 800 rms_resid = 0.184985602261407707E-05 iter = 900 rms_resid = 0.150255029967077994E-06 Local Time- and Space-Averages for Nino Regions: 00:00:00 0090-06-01 NINO_1_PLUS_2: 25.6760676992492520 NINO_3: 26.2153450193899538 NINO_3_POINT_4: 27.2008733561718188 NINO_4: 28.5633350461448430 tavg file written: ./b40.1850.track1.1deg.006.pop.h.0090-05.nc (time_manager) ocn date 0090-jun-02, 0.000000E+00 sec (time_manager) ocn date 0090-jun-03, 0.000000E+00 sec (time_manager) ocn date 0090-jun-04, 0.000000E+00 sec (time_manager) ocn date 0090-jun-05, 0.000000E+00 sec (time_manager) ocn date 0090-jun-06, 0.000000E+00 sec (time_manager) ocn date 0090-jun-07, 0.000000E+00 sec (time_manager) ocn date 0090-jun-08, 0.000000E+00 sec (time_manager) ocn date 0090-jun-09, 0.000000E+00 sec (time_manager) ocn date 0090-jun-10, 0.000000E+00 sec (time_manager) ocn date 0090-jun-11, 0.000000E+00 sec (time_manager) ocn date 0090-jun-12, 0.000000E+00 sec (time_manager) ocn date 0090-jun-13, 0.000000E+00 sec (time_manager) ocn date 0090-jun-14, 0.000000E+00 sec (time_manager) ocn date 0090-jun-15, 0.000000E+00 sec (time_manager) ocn date 0090-jun-16, 0.000000E+00 sec (time_manager) ocn date 0090-jun-17, 0.000000E+00 sec (time_manager) ocn date 0090-jun-18, 0.000000E+00 sec (time_manager) ocn date 0090-jun-19, 0.000000E+00 sec (time_manager) ocn date 0090-jun-20, 0.000000E+00 sec (time_manager) ocn date 0090-jun-21, 0.000000E+00 sec (time_manager) ocn date 0090-jun-22, 0.000000E+00 sec (time_manager) ocn date 0090-jun-23, 0.000000E+00 sec (time_manager) ocn date 0090-jun-24, 0.000000E+00 sec (time_manager) ocn date 0090-jun-25, 0.000000E+00 sec (time_manager) ocn date 0090-jun-26, 0.000000E+00 sec (time_manager) ocn date 0090-jun-27, 0.000000E+00 sec (time_manager) ocn date 0090-jun-28, 0.000000E+00 sec (time_manager) ocn date 0090-jun-29, 0.000000E+00 sec (time_manager) ocn date 0090-jun-30, 0.000000E+00 sec (time_manager) ocn date 0090-jul-01, 0.000000E+00 sec Step number : 816625 Date : 01 jul 0090 Hour : 0 Minute : 0 Second : 0 Time(years) : 89.495890 max. cfl number for zonal advection : 7.9938E-02 20 371 33 max. cfl number for meridional advection : 1.0547E-01 75 181 1 max. cfl number for vertical advection : 2.0182E-01 320 362 21 max. cfl number for total advection : 2.1809E-01 239 377 11 max. cfl number for horizontal tracer mixing : 6.2792E-01 87 383 2 max. cfl number for horiz. momentum mixing : 1.2672E-01 318 214 56 K.E. diagnostics: mean K.E. : 8.762424093639968E+00 K.E. change from horiz. visc. :-3.882029676458791E-06 K.E. change from vert. visc. : 7.992326788603807E-06 K.E. change from wind stress : 2.439931806786705E-05 advective K.E. balance :-3.436312811678006E-10 :-2.405157778196568E-10 P.E. verses pressure work : 6.598320589337205E-04 :-4.852515089070336E-06 surface-pressure contribution :-1.371350583195746E-07 : 7.427102400771136E-08 Tracer diagnostics: mean value of tracer 1 : 3.516552534478425E+00 abs change in tracer 1 : 1.334046937717793E-07 mean change in tracer 1 : 9.690667817405176E-10 mean change in tracer 1 from advection :-5.471118846563637E-24 mean change in tracer 1 from horiz. diff.: 5.895602205348747E-26 mean change in tracer 1 from vert. diff.:-1.113472711899448E-08 mean change in tracer 1 from sources : 1.199215535781149E-08 surface flux of tracer 1 : 0.000000000000000E+00 mean value of tracer 2 : 3.472165747722699E+01 abs change in tracer 2 : 1.319089296299503E-11 mean change in tracer 2 : 1.016586306698695E-14 mean change in tracer 2 from advection : 5.527127067514450E-28 mean change in tracer 2 from horiz. diff.:-1.439356007165221E-30 mean change in tracer 2 from vert. diff.:-3.194257852199221E-14 mean change in tracer 2 from sources :-6.700903816749303E-32 surface flux of tracer 2 : 0.000000000000000E+00 mean value of tracer 3 : 2.232116445422541E+02 abs change in tracer 3 : 2.479831641167415E-06 mean change in tracer 3 : 1.252535258743253E-08 mean change in tracer 3 from advection :-1.207419331655423E-23 mean change in tracer 3 from horiz. diff.: 2.075251976282759E-24 mean change in tracer 3 from vert. diff.: 9.185394639217353E-25 mean change in tracer 3 from sources : 3.162337335760043E-08 surface flux of tracer 3 : 0.000000000000000E+00 Other diagnostics: global mean sea level: 5.028054935987438E-05 residual, scans : 9.671122552315282E-14 230 Timing information: Timer number 1 Time = 549.04 seconds HMIX_MOMENTUM_ANISO Timer number 2 Time = 494.55 seconds HMIX_TRACER_GM_NLOOP Timer number 3 Time = 2773.61 seconds HMIX_TRACER_GM Timer number 4 Time = 1443.54 seconds VMIX_COEFFICIENTS_KPP Timer number 5 Time = 77.02 seconds VMIX_EXPLICIT_TRACER Timer number 6 Time = 38.12 seconds VMIX_EXPLICIT_MOMENTUM Timer number 7 Time = 239.82 seconds VMIX_IMPLICIT_TRACER Timer number 8 Time = 57.98 seconds VMIX_IMPLICIT_MOMENTUM Timer number 9 Time = 8.41 seconds COMPUTE_COSZ Timer number 10 Time = 103.26 seconds ADVECTION_MOMENTUM Timer number 11 Time = 537.29 seconds ADVECTION_TRACER_UPWIND3 Timer number 12 Time = 36.83 seconds MOC Timer number 13 Time = 37.26 seconds TRACER_TRANSPORTS Timer number 14 Time = 637.55 seconds TAVG_WRITE_STD Timer number 15 Time = 52.51 seconds TAVG_WRITE_NONSTD Timer number 16 Time = 34.67 seconds TAVG_CCSM_DIAGS_BSF Timer number 17 Time = 36.83 seconds TAVG_CCSM_DIAGS_MOC Timer number 18 Time = 37.26 seconds TAVG_CCSM_DIAGS_TRANS Timer number 19 Time = 8298.43 seconds STEP Timer number 20 Time = 7047.59 seconds BAROCLINIC Timer number 21 Time = 951.36 seconds BAROTROPIC Timer number 22 Time = 170.18 seconds 3D-UPDATE Timer number 23 Time = 9114.57 seconds TOTAL Timer number 24 Time = 809.51 seconds OUTPUT Timer number 25 Time = 803.87 seconds OUTPUT TAVG Timer number 26 Time = 5.58 seconds OUTPUT REST ------------------------------------------------------------------------ (diag_print) file written: /ptmp/mai/b40.1850.track1.1deg.006/run/b40.1850.track1.1deg.006.pop.dd.0089-01-01-00000 (diag_transport) file written: /ptmp/mai/b40.1850.track1.1deg.006/run/b40.1850.track1.1deg.006.pop.dt.0089-01-01-00000 AFTER CALL IN tracer_budgets (final): ===================================== volume_t (cm^3) = 0.132514028745E+25 SUM [volume*T] (C cm^3) = 0.465992364415E+25 SUM [volume*S] (ppt cm^3) = 0.460110672360E+26 VOLUME AND TRACER BUDGETS: ========================== Please note the following about the budgets: * These budgets are meaningful when time-averaging starts at the first time step of an intended budget interval. * Positive-signed quantities ==> ocean gain Negative-signed quantities ==> ocean loss * The imbalance should be small in comparison to the tendency term, except for the volume budget when a fixed-volume ocean is used (e.g., when lfw_as_salt_flx = .false.) * These budgets are computed from single-precision TAVG terms, which contributes to inaccuracy in the imbalance term. VOLUME BUDGET FOR THE GIVEN TAVG INTERVAL (cm/s): ------------------------------------------------- tendency = -.589019263236E-13 FW flux = 0.000000000000E+00 Imbalance = 0.589019263236E-13 Imbalance = -tendency + FW flux HEAT BUDGET FOR THE GIVEN TAVG INTERVAL (W/m^2): ------------------------------------------------ tendency = -.206679770343E+02 SHF flux = -.208454059034E+02 ice formation = 0.177429173042E+00 FW heat content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = 0.303934882651E-06 Imbalance = -tendency + SHF flux + ice formation + FW heat content + free-srf non-consv. IMPLIED FW BUDGET FOR THE GIVEN TAVG INTERVAL (kg of freshwater/m^2/s): ----------------------------------------------------- tendency = 0.253468314547E-05 SFWF flux = 0.300509457961E-05 ice formation = -.470411274895E-06 FW salt content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = 0.159244410822E-12 Imbalance = -tendency + SFWF flux + ice formation + FW salt content + free-srf non-consv. Global Time Averages: 07-01-0090 00:00:00 KAPPA_ISOP: 3432647.21069802344 KAPPA_THIC: 3920174.96862264955 HOR_DIFF: 533106.959204774699 DIA_DEPTH: 6296.79232378239340 TLT: 356.135683057597987 INT_DEPTH: 6652.92021203187869 UISOP: 0.567696747746717172E-04 VISOP: -0.343169083394711269E-03 WISOP: 0.729675866381963542E-14 ADVT_ISOP: -0.106166138355683072E-10 ADVS_ISOP: 0.917556809301365304E-15 VNT_ISOP: -0.104011759228322977E-08 VNS_ISOP: -0.215183462841569933E-11 USUBM: 0.785425114629613007E-06 VSUBM: -0.184071747322619898E-04 WSUBM: -0.128110044894667523E-08 HLS_SUBM: 783588.194271804881 ADVT_SUBM: 0.650136826306908087E-12 ADVS_SUBM: 0.568252872421664721E-16 VNT_SUBM: -0.820234319006255152E-10 VNS_SUBM: -0.123192055545162781E-12 HDIFT: -0.129105574661571824E-10 HDIFS: -0.470515501224506365E-14 QSW_HBL: 127.501154288323022 KVMIX: 1.36157357928086831 TPOWER: 0.221891490705952865E-05 UVEL: 0.330191029105138811 VVEL: 0.114955948297976499E-02 TEMP: 3.51664733384206851 dTEMP_POS_2D: 0.937072451388773625E-01 dTEMP_NEG_2D: -0.736253715661970426E-01 SALT: 0.347216666007499411E-01 RHO: 1.03743347780405792 RESID_T: 0.000000000000000000E+00 RESID_S: 0.000000000000000000E+00 SU: 118436.817913205712 SV: 375.890314935832407 SSH: 0.505183756954042705E-04 SHF: -20.8454059034110770 SHF_QSW: 151.025643298105678 SFWF: 0.300509457960844808E-05 TAUX: 0.144420496205914795 TAUY: 0.321938302820361441E-01 FW: 0.000000000000000000E+00 TFW_T: 0.000000000000000000E+00 TFW_S: 0.000000000000000000E+00 EVAP_F: -0.399111007439116713E-04 PREC_F: 0.357248281116356056E-04 SNOW_F: 0.972949633337712227E-06 MELT_F: 0.202660625131456317E-05 ROFF_F: 0.488299353037387157E-05 IOFF_F: 0.315677872213359859E-06 SALT_F: 0.117737000920151644E-08 SENH_F: -14.1403668115683754 LWUP_F: -385.723594585696503 LWDN_F: 329.537933375761668 MELTH_F: -1.29734311008832992 IFRAC: 0.820153202472488352E-01 IAGE: 223.194343475240942 WVEL: 0.671435753749081986E-06 UET: 0.694035148850827405E-07 VNT: -0.244871300322035851E-07 WTT: -0.177007655611203793E-07 UES: 0.160369191047280124E-08 VNS: 0.462431106684838944E-11 WTS: 0.940389659032388394E-12 ADVT: 0.382011173954425256E-10 ADVS: 0.263499347889974889E-14 PV: 0.157994518355812497E-13 Q: -0.974225339453209977E-08 PD: 1.02752254449717095 QSW_HTP: 111.666385501065335 QFLUX: 0.177429173042448041 HMXL: 6297.19851913594994 XMXL: 7288.27911599290110 TMXL: 5122.15066884642238 HBLT: 4611.11381172236725 XBLT: 7076.88513668500309 TBLT: 1045.16667445780990 BSF: 0.000000000000000000E+00 convergence info from pcg_diag_bsf: iter = 0 rms_resid = 0.996173495666695941E-01 iter = 100 rms_resid = 0.431739586200507574E-02 iter = 200 rms_resid = 0.911436338065420553E-03 iter = 300 rms_resid = 0.421559095087342629E-03 iter = 400 rms_resid = 0.317059951558884274E-03 iter = 500 rms_resid = 0.188876920976567184E-03 iter = 600 rms_resid = 0.487727740452817009E-04 iter = 700 rms_resid = 0.151579125853311784E-04 iter = 800 rms_resid = 0.178785903764109978E-05 iter = 900 rms_resid = 0.159115952280345265E-06 Local Time- and Space-Averages for Nino Regions: 00:00:00 0090-07-01 NINO_1_PLUS_2: 24.2094068585234261 NINO_3: 25.5146561159808236 NINO_3_POINT_4: 27.2254650103324991 NINO_4: 28.8113952269229152 tavg file written: ./b40.1850.track1.1deg.006.pop.h.0090-06.nc (time_manager) ocn date 0090-jul-02, 0.000000E+00 sec (time_manager) ocn date 0090-jul-03, 0.000000E+00 sec (time_manager) ocn date 0090-jul-04, 0.000000E+00 sec (time_manager) ocn date 0090-jul-05, 0.000000E+00 sec (time_manager) ocn date 0090-jul-06, 0.000000E+00 sec (time_manager) ocn date 0090-jul-07, 0.000000E+00 sec (time_manager) ocn date 0090-jul-08, 0.000000E+00 sec (time_manager) ocn date 0090-jul-09, 0.000000E+00 sec (time_manager) ocn date 0090-jul-10, 0.000000E+00 sec (time_manager) ocn date 0090-jul-11, 0.000000E+00 sec (time_manager) ocn date 0090-jul-12, 0.000000E+00 sec (time_manager) ocn date 0090-jul-13, 0.000000E+00 sec (time_manager) ocn date 0090-jul-14, 0.000000E+00 sec (time_manager) ocn date 0090-jul-15, 0.000000E+00 sec (time_manager) ocn date 0090-jul-16, 0.000000E+00 sec (time_manager) ocn date 0090-jul-17, 0.000000E+00 sec (time_manager) ocn date 0090-jul-18, 0.000000E+00 sec (time_manager) ocn date 0090-jul-19, 0.000000E+00 sec (time_manager) ocn date 0090-jul-20, 0.000000E+00 sec (time_manager) ocn date 0090-jul-21, 0.000000E+00 sec (time_manager) ocn date 0090-jul-22, 0.000000E+00 sec (time_manager) ocn date 0090-jul-23, 0.000000E+00 sec (time_manager) ocn date 0090-jul-24, 0.000000E+00 sec ovf_loc_prd: nsteps_total= 817223 ovf= 3 swap ovf UV old/new prd set old/new= 1 5 (time_manager) ocn date 0090-jul-25, 0.000000E+00 sec (time_manager) ocn date 0090-jul-26, 0.000000E+00 sec (time_manager) ocn date 0090-jul-27, 0.000000E+00 sec ovf_loc_prd: nsteps_total= 817283 ovf= 3 swap ovf UV old/new prd set old/new= 5 1 (time_manager) ocn date 0090-jul-28, 0.000000E+00 sec (time_manager) ocn date 0090-jul-29, 0.000000E+00 sec (time_manager) ocn date 0090-jul-30, 0.000000E+00 sec (time_manager) ocn date 0090-jul-31, 0.000000E+00 sec (time_manager) ocn date 0090-aug-01, 0.000000E+00 sec Step number : 817400 Date : 01 aug 0090 Hour : 0 Minute : 0 Second : 0 Time(years) : 89.580822 max. cfl number for zonal advection : 8.2927E-02 20 371 33 max. cfl number for meridional advection : 1.0680E-01 316 191 1 max. cfl number for vertical advection : 1.8872E-01 298 46 14 max. cfl number for total advection : 1.9557E-01 298 46 14 max. cfl number for horizontal tracer mixing : 6.3830E-01 88 383 2 max. cfl number for horiz. momentum mixing : 1.2672E-01 318 214 56 K.E. diagnostics: mean K.E. : 9.139313690242389E+00 K.E. change from horiz. visc. :-4.053764724093535E-06 K.E. change from vert. visc. : 1.004345127831427E-05 K.E. change from wind stress : 3.016984021809855E-05 advective K.E. balance :-1.650793665358159E-09 : 1.031852315834362E-09 P.E. verses pressure work : 6.793818544960391E-04 :-6.180844175113345E-06 surface-pressure contribution : 2.657792861733278E-07 :-3.371938360847428E-07 Tracer diagnostics: mean value of tracer 1 : 3.513114707774178E+00 abs change in tracer 1 : 1.325381265852641E-07 mean change in tracer 1 : 1.335017031254156E-09 mean change in tracer 1 from advection : 1.509274164569279E-24 mean change in tracer 1 from horiz. diff.: 2.240328838032524E-25 mean change in tracer 1 from vert. diff.:-1.144609909524345E-08 mean change in tracer 1 from sources : 1.265532232307249E-08 surface flux of tracer 1 : 0.000000000000000E+00 mean value of tracer 2 : 3.472153800985171E+01 abs change in tracer 2 : 1.299506772307384E-11 mean change in tracer 2 : 1.246140009422078E-14 mean change in tracer 2 from advection : 1.698440088454961E-28 mean change in tracer 2 from horiz. diff.: 3.094615415405226E-29 mean change in tracer 2 from vert. diff.:-3.498620075265570E-14 mean change in tracer 2 from sources :-2.741023522259756E-31 surface flux of tracer 2 : 0.000000000000000E+00 mean value of tracer 3 : 2.232413109906953E+02 abs change in tracer 3 : 2.458555017751506E-06 mean change in tracer 3 : 1.025385757949696E-08 mean change in tracer 3 from advection :-3.018548329138558E-24 mean change in tracer 3 from horiz. diff.: 3.773185411423198E-25 mean change in tracer 3 from vert. diff.: 6.019035156835706E-25 mean change in tracer 3 from sources : 3.162337335760043E-08 surface flux of tracer 3 : 0.000000000000000E+00 Other diagnostics: global mean sea level: 5.084282552532967E-05 residual, scans : 7.534036804274064E-14 240 Timing information: Timer number 1 Time = 580.29 seconds HMIX_MOMENTUM_ANISO Timer number 2 Time = 522.16 seconds HMIX_TRACER_GM_NLOOP Timer number 3 Time = 2930.38 seconds HMIX_TRACER_GM Timer number 4 Time = 1525.90 seconds VMIX_COEFFICIENTS_KPP Timer number 5 Time = 81.38 seconds VMIX_EXPLICIT_TRACER Timer number 6 Time = 40.30 seconds VMIX_EXPLICIT_MOMENTUM Timer number 7 Time = 253.44 seconds VMIX_IMPLICIT_TRACER Timer number 8 Time = 61.26 seconds VMIX_IMPLICIT_MOMENTUM Timer number 9 Time = 8.88 seconds COMPUTE_COSZ Timer number 10 Time = 109.13 seconds ADVECTION_MOMENTUM Timer number 11 Time = 567.78 seconds ADVECTION_TRACER_UPWIND3 Timer number 12 Time = 38.98 seconds MOC Timer number 13 Time = 39.41 seconds TRACER_TRANSPORTS Timer number 14 Time = 676.18 seconds TAVG_WRITE_STD Timer number 15 Time = 56.12 seconds TAVG_WRITE_NONSTD Timer number 16 Time = 36.71 seconds TAVG_CCSM_DIAGS_BSF Timer number 17 Time = 38.99 seconds TAVG_CCSM_DIAGS_MOC Timer number 18 Time = 39.41 seconds TAVG_CCSM_DIAGS_TRANS Timer number 19 Time = 8770.97 seconds STEP Timer number 20 Time = 7449.26 seconds BAROCLINIC Timer number 21 Time = 1005.25 seconds BAROTROPIC Timer number 22 Time = 179.87 seconds 3D-UPDATE Timer number 23 Time = 9636.40 seconds TOTAL Timer number 24 Time = 858.44 seconds OUTPUT Timer number 25 Time = 852.79 seconds OUTPUT TAVG Timer number 26 Time = 5.59 seconds OUTPUT REST ------------------------------------------------------------------------ (diag_print) file written: /ptmp/mai/b40.1850.track1.1deg.006/run/b40.1850.track1.1deg.006.pop.dd.0089-01-01-00000 (diag_transport) file written: /ptmp/mai/b40.1850.track1.1deg.006/run/b40.1850.track1.1deg.006.pop.dt.0089-01-01-00000 AFTER CALL IN tracer_budgets (final): ===================================== volume_t (cm^3) = 0.132514028745E+25 SUM [volume*T] (C cm^3) = 0.465536729353E+25 SUM [volume*S] (ppt cm^3) = 0.460109089329E+26 VOLUME AND TRACER BUDGETS: ========================== Please note the following about the budgets: * These budgets are meaningful when time-averaging starts at the first time step of an intended budget interval. * Positive-signed quantities ==> ocean gain Negative-signed quantities ==> ocean loss * The imbalance should be small in comparison to the tendency term, except for the volume budget when a fixed-volume ocean is used (e.g., when lfw_as_salt_flx = .false.) * These budgets are computed from single-precision TAVG terms, which contributes to inaccuracy in the imbalance term. VOLUME BUDGET FOR THE GIVEN TAVG INTERVAL (cm/s): ------------------------------------------------- tendency = 0.209941140483E-12 FW flux = 0.000000000000E+00 Imbalance = -.209941140483E-12 Imbalance = -tendency + FW flux HEAT BUDGET FOR THE GIVEN TAVG INTERVAL (W/m^2): ------------------------------------------------ tendency = -.193125098193E+02 SHF flux = -.194377078912E+02 ice formation = 0.125198230382E+00 FW heat content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = 0.158485933321E-06 Imbalance = -tendency + SHF flux + ice formation + FW heat content + free-srf non-consv. IMPLIED FW BUDGET FOR THE GIVEN TAVG INTERVAL (kg of freshwater/m^2/s): ----------------------------------------------------- tendency = 0.471637956384E-05 SFWF flux = 0.504831259746E-05 ice formation = -.331933346464E-06 FW salt content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = -.312836824791E-12 Imbalance = -tendency + SFWF flux + ice formation + FW salt content + free-srf non-consv. Global Time Averages: 08-01-0090 00:00:00 KAPPA_ISOP: 3563835.63834215701 KAPPA_THIC: 4112992.06430723611 HOR_DIFF: 594533.570186839090 DIA_DEPTH: 7026.49341806650136 TLT: 402.458555849714287 INT_DEPTH: 7428.94691246521961 UISOP: 0.413825625377686705E-04 VISOP: -0.350625778242356597E-03 WISOP: -0.174393032385601356E-12 ADVT_ISOP: 0.698365385528529459E-11 ADVS_ISOP: -0.207045226231871260E-14 VNT_ISOP: -0.109832295837568233E-08 VNS_ISOP: -0.210362686097272106E-11 USUBM: -0.933118067486401734E-05 VSUBM: -0.279619914212589441E-04 WSUBM: -0.109484574959880323E-08 HLS_SUBM: 745213.879495832953 ADVT_SUBM: -0.122530852376283418E-11 ADVS_SUBM: -0.942835933412856437E-17 VNT_SUBM: -0.208254577260519245E-09 VNS_SUBM: -0.178689724360742147E-12 HDIFT: 0.291662949784651425E-10 HDIFS: 0.569970186743860765E-14 QSW_HBL: 128.739729142126976 KVMIX: 1.36847085513871591 TPOWER: 0.222819200538514569E-05 UVEL: 0.311417566430190029 VVEL: 0.195560516134212457E-02 TEMP: 3.51308020248460329 dTEMP_POS_2D: 0.884042930134439076E-01 dTEMP_NEG_2D: -0.687266579511218861E-01 SALT: 0.347215618504134876E-01 RHO: 1.03743416140879807 RESID_T: 0.000000000000000000E+00 RESID_S: 0.000000000000000000E+00 SU: 111704.945444936267 SV: 670.205127423310614 SSH: 0.506055525714186897E-04 SHF: -19.4377078912455623 SHF_QSW: 151.836935324334462 SFWF: 0.504831259746443269E-05 TAUX: 0.102420897109106623 TAUY: 0.516917868393842461E-01 FW: 0.000000000000000000E+00 TFW_T: 0.000000000000000000E+00 TFW_S: 0.000000000000000000E+00 EVAP_F: -0.396199942195275012E-04 PREC_F: 0.355287985343092020E-04 SNOW_F: 0.918776267986883153E-06 MELT_F: 0.436528403285820112E-05 ROFF_F: 0.482169449568575107E-05 IOFF_F: 0.275360505464878341E-06 SALT_F: 0.112022221274820730E-07 SENH_F: -14.5101528280424148 LWUP_F: -385.667436144301462 LWDN_F: 330.018212451338570 MELTH_F: -1.62718073673794450 IFRAC: 0.817007277913225916E-01 IAGE: 223.227162871150455 WVEL: 0.699840852559546490E-06 UET: 0.184464537737174222E-07 VNT: -0.202770991968616358E-07 WTT: -0.186286751070211900E-07 UES: 0.155577890037039311E-08 VNS: 0.875742873735289418E-11 WTS: 0.360581094562801271E-12 ADVT: -0.926363362262109990E-11 ADVS: -0.136508425931979158E-14 PV: -0.377348092892344239E-13 Q: -0.978792653511951075E-08 PD: 1.02752323023576730 QSW_HTP: 112.218760086893241 QFLUX: 0.125198230381579345 HMXL: 7027.28640475310658 XMXL: 8009.75450103171261 TMXL: 5778.21931057250640 HBLT: 5055.92052299893749 XBLT: 7877.66928702628502 TBLT: 985.450374865488357 BSF: 0.000000000000000000E+00 convergence info from pcg_diag_bsf: iter = 0 rms_resid = 0.998813185321748565E-01 iter = 100 rms_resid = 0.409893966240637998E-02 iter = 200 rms_resid = 0.883998240461498683E-03 iter = 300 rms_resid = 0.376039200178279005E-03 iter = 400 rms_resid = 0.302857501635106735E-03 iter = 500 rms_resid = 0.188032427877961420E-03 iter = 600 rms_resid = 0.486898784766100329E-04 iter = 700 rms_resid = 0.138511273652184035E-04 iter = 800 rms_resid = 0.188206716566908292E-05 iter = 900 rms_resid = 0.160462305185424848E-06 Local Time- and Space-Averages for Nino Regions: 00:00:00 0090-08-01 NINO_1_PLUS_2: 22.7851255168020259 NINO_3: 24.7141879780079279 NINO_3_POINT_4: 26.8588476566375540 NINO_4: 28.8067999855480252 tavg file written: ./b40.1850.track1.1deg.006.pop.h.0090-07.nc (time_manager) ocn date 0090-aug-02, 0.000000E+00 sec (time_manager) ocn date 0090-aug-03, 0.000000E+00 sec (time_manager) ocn date 0090-aug-04, 0.000000E+00 sec (time_manager) ocn date 0090-aug-05, 0.000000E+00 sec (time_manager) ocn date 0090-aug-06, 0.000000E+00 sec (time_manager) ocn date 0090-aug-07, 0.000000E+00 sec (time_manager) ocn date 0090-aug-08, 0.000000E+00 sec (time_manager) ocn date 0090-aug-09, 0.000000E+00 sec (time_manager) ocn date 0090-aug-10, 0.000000E+00 sec (time_manager) ocn date 0090-aug-11, 0.000000E+00 sec (time_manager) ocn date 0090-aug-12, 0.000000E+00 sec (time_manager) ocn date 0090-aug-13, 0.000000E+00 sec (time_manager) ocn date 0090-aug-14, 0.000000E+00 sec (time_manager) ocn date 0090-aug-15, 0.000000E+00 sec (time_manager) ocn date 0090-aug-16, 0.000000E+00 sec (time_manager) ocn date 0090-aug-17, 0.000000E+00 sec (time_manager) ocn date 0090-aug-18, 0.000000E+00 sec (time_manager) ocn date 0090-aug-19, 0.000000E+00 sec (time_manager) ocn date 0090-aug-20, 0.000000E+00 sec (time_manager) ocn date 0090-aug-21, 0.000000E+00 sec (time_manager) ocn date 0090-aug-22, 0.000000E+00 sec (time_manager) ocn date 0090-aug-23, 0.000000E+00 sec (time_manager) ocn date 0090-aug-24, 0.000000E+00 sec (time_manager) ocn date 0090-aug-25, 0.000000E+00 sec (time_manager) ocn date 0090-aug-26, 0.000000E+00 sec (time_manager) ocn date 0090-aug-27, 0.000000E+00 sec (time_manager) ocn date 0090-aug-28, 0.000000E+00 sec (time_manager) ocn date 0090-aug-29, 0.000000E+00 sec (time_manager) ocn date 0090-aug-30, 0.000000E+00 sec (time_manager) ocn date 0090-aug-31, 0.000000E+00 sec (time_manager) ocn date 0090-sep-01, 0.000000E+00 sec Step number : 818175 Date : 01 sep 0090 Hour : 0 Minute : 0 Second : 0 Time(years) : 89.665753 max. cfl number for zonal advection : 8.6071E-02 20 371 33 max. cfl number for meridional advection : 1.1358E-01 312 203 1 max. cfl number for vertical advection : 2.4541E-01 298 46 14 max. cfl number for total advection : 2.5281E-01 298 46 14 max. cfl number for horizontal tracer mixing : 6.3830E-01 88 383 2 max. cfl number for horiz. momentum mixing : 1.2672E-01 318 214 56 K.E. diagnostics: mean K.E. : 9.273335483401519E+00 K.E. change from horiz. visc. :-4.040798316782754E-06 K.E. change from vert. visc. : 8.943309187841478E-06 K.E. change from wind stress : 2.551026489617611E-05 advective K.E. balance : 2.233477087558365E-10 :-7.955155186728670E-10 P.E. verses pressure work : 7.019775675237958E-04 :-5.008608868917552E-06 surface-pressure contribution : 4.964891666613462E-08 :-1.155232222911827E-07 Tracer diagnostics: mean value of tracer 1 : 3.511058609781518E+00 abs change in tracer 1 : 1.308828018502233E-07 mean change in tracer 1 : 3.300529240266015E-09 mean change in tracer 1 from advection :-4.433492858422258E-24 mean change in tracer 1 from horiz. diff.:-2.358240882139499E-26 mean change in tracer 1 from vert. diff.:-1.081146912238331E-08 mean change in tracer 1 from sources : 1.399188151559822E-08 surface flux of tracer 1 : 0.000000000000000E+00 mean value of tracer 2 : 3.472149199673355E+01 abs change in tracer 2 : 1.232241294597594E-11 mean change in tracer 2 : 5.736488384981183E-14 mean change in tracer 2 from advection : 4.605939222928708E-29 mean change in tracer 2 from horiz. diff.: 2.266985711285224E-29 mean change in tracer 2 from vert. diff.: 1.205854873082302E-14 mean change in tracer 2 from sources : 1.977000945012397E-31 surface flux of tracer 2 : 0.000000000000000E+00 mean value of tracer 3 : 2.232672676268142E+02 abs change in tracer 3 : 2.381037587340203E-06 mean change in tracer 3 : 1.350152035331016E-08 mean change in tracer 3 from advection :-3.924112827880126E-23 mean change in tracer 3 from horiz. diff.: 1.745098252783229E-24 mean change in tracer 3 from vert. diff.: 9.228644221778268E-25 mean change in tracer 3 from sources : 3.162337335760043E-08 surface flux of tracer 3 : 0.000000000000000E+00 Other diagnostics: global mean sea level: 5.092754178725723E-05 residual, scans : 8.302481174689619E-14 240 Timing information: Timer number 1 Time = 611.52 seconds HMIX_MOMENTUM_ANISO Timer number 2 Time = 549.83 seconds HMIX_TRACER_GM_NLOOP Timer number 3 Time = 3087.05 seconds HMIX_TRACER_GM Timer number 4 Time = 1607.76 seconds VMIX_COEFFICIENTS_KPP Timer number 5 Time = 85.74 seconds VMIX_EXPLICIT_TRACER Timer number 6 Time = 42.46 seconds VMIX_EXPLICIT_MOMENTUM Timer number 7 Time = 267.05 seconds VMIX_IMPLICIT_TRACER Timer number 8 Time = 64.61 seconds VMIX_IMPLICIT_MOMENTUM Timer number 9 Time = 9.36 seconds COMPUTE_COSZ Timer number 10 Time = 114.99 seconds ADVECTION_MOMENTUM Timer number 11 Time = 598.27 seconds ADVECTION_TRACER_UPWIND3 Timer number 12 Time = 41.14 seconds MOC Timer number 13 Time = 41.56 seconds TRACER_TRANSPORTS Timer number 14 Time = 712.56 seconds TAVG_WRITE_STD Timer number 15 Time = 59.08 seconds TAVG_WRITE_NONSTD Timer number 16 Time = 38.72 seconds TAVG_CCSM_DIAGS_BSF Timer number 17 Time = 41.14 seconds TAVG_CCSM_DIAGS_MOC Timer number 18 Time = 41.56 seconds TAVG_CCSM_DIAGS_TRANS Timer number 19 Time = 9241.98 seconds STEP Timer number 20 Time = 7849.89 seconds BAROCLINIC Timer number 21 Time = 1058.90 seconds BAROTROPIC Timer number 22 Time = 189.84 seconds 3D-UPDATE Timer number 23 Time = 10153.72 seconds TOTAL Timer number 24 Time = 904.38 seconds OUTPUT Timer number 25 Time = 898.73 seconds OUTPUT TAVG Timer number 26 Time = 5.59 seconds OUTPUT REST ------------------------------------------------------------------------ (diag_print) file written: /ptmp/mai/b40.1850.track1.1deg.006/run/b40.1850.track1.1deg.006.pop.dd.0089-01-01-00000 (diag_transport) file written: /ptmp/mai/b40.1850.track1.1deg.006/run/b40.1850.track1.1deg.006.pop.dt.0089-01-01-00000 AFTER CALL IN tracer_budgets (final): ===================================== volume_t (cm^3) = 0.132514028745E+25 SUM [volume*T] (C cm^3) = 0.465263787282E+25 SUM [volume*S] (ppt cm^3) = 0.460108478463E+26 VOLUME AND TRACER BUDGETS: ========================== Please note the following about the budgets: * These budgets are meaningful when time-averaging starts at the first time step of an intended budget interval. * Positive-signed quantities ==> ocean gain Negative-signed quantities ==> ocean loss * The imbalance should be small in comparison to the tendency term, except for the volume budget when a fixed-volume ocean is used (e.g., when lfw_as_salt_flx = .false.) * These budgets are computed from single-precision TAVG terms, which contributes to inaccuracy in the imbalance term. VOLUME BUDGET FOR THE GIVEN TAVG INTERVAL (cm/s): ------------------------------------------------- tendency = 0.316368671713E-13 FW flux = 0.000000000000E+00 Imbalance = -.316368671713E-13 Imbalance = -tendency + FW flux HEAT BUDGET FOR THE GIVEN TAVG INTERVAL (W/m^2): ------------------------------------------------ tendency = -.115688999272E+02 SHF flux = -.116860149445E+02 ice formation = 0.117115215837E+00 FW heat content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = 0.198499028159E-06 Imbalance = -tendency + SHF flux + ice formation + FW heat content + free-srf non-consv. IMPLIED FW BUDGET FOR THE GIVEN TAVG INTERVAL (kg of freshwater/m^2/s): ----------------------------------------------------- tendency = 0.181997398399E-05 SFWF flux = 0.213047711455E-05 ice formation = -.310503154846E-06 FW salt content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = -.242787494715E-13 Imbalance = -tendency + SFWF flux + ice formation + FW salt content + free-srf non-consv. Global Time Averages: 09-01-0090 00:00:00 KAPPA_ISOP: 3881754.38264222071 KAPPA_THIC: 4494336.82649723813 HOR_DIFF: 657092.284149096464 DIA_DEPTH: 7766.47840182647906 TLT: 458.676936863941876 INT_DEPTH: 8225.14917276792403 UISOP: 0.184195202504241322E-04 VISOP: -0.358597151559298744E-03 WISOP: 0.218896521792510285E-12 ADVT_ISOP: 0.270514716988307085E-10 ADVS_ISOP: -0.244402496571151124E-14 VNT_ISOP: -0.128461615004833348E-08 VNS_ISOP: -0.202379084515991046E-11 USUBM: -0.391525533829441595E-05 VSUBM: -0.325536037497963917E-04 WSUBM: -0.539710066275162266E-09 HLS_SUBM: 709265.768403524533 ADVT_SUBM: 0.590785877232872677E-12 ADVS_SUBM: -0.125249453543020563E-15 VNT_SUBM: -0.402534835891852007E-09 VNS_SUBM: -0.193637737644583540E-12 HDIFT: 0.288958066512450841E-10 HDIFS: -0.539310725722409815E-14 QSW_HBL: 137.399629399312914 KVMIX: 1.36738842521395432 TPOWER: 0.223243681811022646E-05 UVEL: 0.326562367611185844 VVEL: 0.137838581472559426E-02 TEMP: 3.50995024624171981 dTEMP_POS_2D: 0.818590615435564328E-01 dTEMP_NEG_2D: -0.629922276992069263E-01 SALT: 0.347214792443654580E-01 RHO: 1.03743463828236915 RESID_T: 0.000000000000000000E+00 RESID_S: 0.000000000000000000E+00 SU: 117136.974308299657 SV: 466.122505885071405 SSH: 0.507776181752996644E-04 SHF: -11.6860149445271606 SHF_QSW: 159.427060336845329 SFWF: 0.213047711455356733E-05 TAUX: 0.144754916251017329 TAUY: 0.805532651338789762E-01 FW: 0.000000000000000000E+00 TFW_T: 0.000000000000000000E+00 TFW_S: 0.000000000000000000E+00 EVAP_F: -0.396905507669234026E-04 PREC_F: 0.359357727825095069E-04 SNOW_F: 0.102678366816633811E-05 MELT_F: 0.175300236138924994E-05 ROFF_F: 0.390946644019719925E-05 IOFF_F: 0.302764961848888574E-06 SALT_F: 0.277525129228903381E-08 SENH_F: -14.1757085319702227 LWUP_F: -385.746507548318050 LWDN_F: 329.854817709518159 MELTH_F: -1.33593607399114100 IFRAC: 0.807895159332969737E-01 IAGE: 223.253748417089696 WVEL: 0.712570994028768190E-06 UET: -0.848035481501310588E-08 VNT: -0.391262865694100581E-07 WTT: -0.208377146941905330E-07 UES: 0.158065666444752993E-08 VNS: 0.545290543526365201E-11 WTS: 0.103865783808592368E-11 ADVT: -0.375575947447278675E-10 ADVS: -0.202308691345384255E-14 PV: -0.674904881136682792E-13 Q: -0.976564362286683574E-08 PD: 1.02752369183830639 QSW_HTP: 117.833058393450244 QFLUX: 0.117115215836780806 HMXL: 7767.56003150669130 XMXL: 8845.95922392583634 TMXL: 5822.23877412329875 HBLT: 5175.53543247995640 XBLT: 8581.59078894100458 TBLT: 1020.65429439102854 BSF: 0.000000000000000000E+00 convergence info from pcg_diag_bsf: iter = 0 rms_resid = 0.978764404058524579E-01 iter = 100 rms_resid = 0.431169216723965854E-02 iter = 200 rms_resid = 0.940674780489140073E-03 iter = 300 rms_resid = 0.427074312669941693E-03 iter = 400 rms_resid = 0.306841938269768113E-03 iter = 500 rms_resid = 0.195530737504065027E-03 iter = 600 rms_resid = 0.493257981914819850E-04 iter = 700 rms_resid = 0.150687608691480926E-04 iter = 800 rms_resid = 0.187826282965217326E-05 iter = 900 rms_resid = 0.156853553978855999E-06 Local Time- and Space-Averages for Nino Regions: 00:00:00 0090-09-01 NINO_1_PLUS_2: 22.5402041397304593 NINO_3: 24.3410043681202346 NINO_3_POINT_4: 26.1904296009136637 NINO_4: 28.2922113073883708 tavg file written: ./b40.1850.track1.1deg.006.pop.h.0090-08.nc (time_manager) ocn date 0090-sep-02, 0.000000E+00 sec (time_manager) ocn date 0090-sep-03, 0.000000E+00 sec (time_manager) ocn date 0090-sep-04, 0.000000E+00 sec (time_manager) ocn date 0090-sep-05, 0.000000E+00 sec (time_manager) ocn date 0090-sep-06, 0.000000E+00 sec (time_manager) ocn date 0090-sep-07, 0.000000E+00 sec (time_manager) ocn date 0090-sep-08, 0.000000E+00 sec (time_manager) ocn date 0090-sep-09, 0.000000E+00 sec (time_manager) ocn date 0090-sep-10, 0.000000E+00 sec (time_manager) ocn date 0090-sep-11, 0.000000E+00 sec (time_manager) ocn date 0090-sep-12, 0.000000E+00 sec (time_manager) ocn date 0090-sep-13, 0.000000E+00 sec (time_manager) ocn date 0090-sep-14, 0.000000E+00 sec (time_manager) ocn date 0090-sep-15, 0.000000E+00 sec (time_manager) ocn date 0090-sep-16, 0.000000E+00 sec (time_manager) ocn date 0090-sep-17, 0.000000E+00 sec (time_manager) ocn date 0090-sep-18, 0.000000E+00 sec (time_manager) ocn date 0090-sep-19, 0.000000E+00 sec (time_manager) ocn date 0090-sep-20, 0.000000E+00 sec (time_manager) ocn date 0090-sep-21, 0.000000E+00 sec (time_manager) ocn date 0090-sep-22, 0.000000E+00 sec (time_manager) ocn date 0090-sep-23, 0.000000E+00 sec (time_manager) ocn date 0090-sep-24, 0.000000E+00 sec (time_manager) ocn date 0090-sep-25, 0.000000E+00 sec (time_manager) ocn date 0090-sep-26, 0.000000E+00 sec (time_manager) ocn date 0090-sep-27, 0.000000E+00 sec (time_manager) ocn date 0090-sep-28, 0.000000E+00 sec (time_manager) ocn date 0090-sep-29, 0.000000E+00 sec (time_manager) ocn date 0090-sep-30, 0.000000E+00 sec (time_manager) ocn date 0090-oct-01, 0.000000E+00 sec Step number : 818925 Date : 01 oct 0090 Hour : 0 Minute : 0 Second : 0 Time(years) : 89.747945 max. cfl number for zonal advection : 8.8519E-02 20 371 33 max. cfl number for meridional advection : 9.5010E-02 312 205 1 max. cfl number for vertical advection : 1.9741E-01 188 62 20 max. cfl number for total advection : 2.1141E-01 240 377 11 max. cfl number for horizontal tracer mixing : 6.0948E-01 175 380 3 max. cfl number for horiz. momentum mixing : 1.2672E-01 318 214 56 K.E. diagnostics: mean K.E. : 9.317236716705576E+00 K.E. change from horiz. visc. :-4.096613572085540E-06 K.E. change from vert. visc. : 7.563008756345685E-06 K.E. change from wind stress : 2.487150901886293E-05 advective K.E. balance : 5.980467257008363E-10 :-1.395026823532321E-09 P.E. verses pressure work : 7.277476301634115E-04 :-4.376389645675421E-06 surface-pressure contribution : 3.048292093121573E-07 :-3.759712619358739E-07 Tracer diagnostics: mean value of tracer 1 : 3.511140291775702E+00 abs change in tracer 1 : 1.377414819855571E-07 mean change in tracer 1 : 3.403064619037852E-09 mean change in tracer 1 from advection :-3.773185411423198E-24 mean change in tracer 1 from horiz. diff.: 2.476152926246474E-25 mean change in tracer 1 from vert. diff.:-1.105094220271499E-08 mean change in tracer 1 from sources : 1.427905942237058E-08 surface flux of tracer 1 : 0.000000000000000E+00 mean value of tracer 2 : 3.472151339677800E+01 abs change in tracer 2 : 1.388218363647516E-11 mean change in tracer 2 : 4.069010217973697E-14 mean change in tracer 2 from advection : 9.211878445857417E-29 mean change in tracer 2 from horiz. diff.: 4.246100221137403E-29 mean change in tracer 2 from vert. diff.:-2.529752319675844E-14 mean change in tracer 2 from sources :-1.785042679483453E-32 surface flux of tracer 2 : 0.000000000000000E+00 mean value of tracer 3 : 2.232957255452974E+02 abs change in tracer 3 : 2.479714974713516E-06 mean change in tracer 3 : 1.643718854059662E-08 mean change in tracer 3 from advection :-5.433386992449405E-23 mean change in tracer 3 from horiz. diff.: 3.301537234995298E-24 mean change in tracer 3 from vert. diff.:-1.348704410033762E-25 mean change in tracer 3 from sources : 3.162337335760043E-08 surface flux of tracer 3 : 0.000000000000000E+00 Other diagnostics: global mean sea level: 5.080999951879199E-05 residual, scans : 9.715191124315691E-14 230 Timing information: Timer number 1 Time = 641.89 seconds HMIX_MOMENTUM_ANISO Timer number 2 Time = 576.83 seconds HMIX_TRACER_GM_NLOOP Timer number 3 Time = 3238.60 seconds HMIX_TRACER_GM Timer number 4 Time = 1686.66 seconds VMIX_COEFFICIENTS_KPP Timer number 5 Time = 90.00 seconds VMIX_EXPLICIT_TRACER Timer number 6 Time = 44.56 seconds VMIX_EXPLICIT_MOMENTUM Timer number 7 Time = 280.21 seconds VMIX_IMPLICIT_TRACER Timer number 8 Time = 67.82 seconds VMIX_IMPLICIT_MOMENTUM Timer number 9 Time = 9.82 seconds COMPUTE_COSZ Timer number 10 Time = 120.63 seconds ADVECTION_MOMENTUM Timer number 11 Time = 627.77 seconds ADVECTION_TRACER_UPWIND3 Timer number 12 Time = 43.29 seconds MOC Timer number 13 Time = 43.70 seconds TRACER_TRANSPORTS Timer number 14 Time = 749.90 seconds TAVG_WRITE_STD Timer number 15 Time = 62.02 seconds TAVG_WRITE_NONSTD Timer number 16 Time = 40.76 seconds TAVG_CCSM_DIAGS_BSF Timer number 17 Time = 43.29 seconds TAVG_CCSM_DIAGS_MOC Timer number 18 Time = 43.71 seconds TAVG_CCSM_DIAGS_TRANS Timer number 19 Time = 9696.68 seconds STEP Timer number 20 Time = 8236.59 seconds BAROCLINIC Timer number 21 Time = 1110.85 seconds BAROTROPIC Timer number 22 Time = 199.23 seconds 3D-UPDATE Timer number 23 Time = 10655.62 seconds TOTAL Timer number 24 Time = 951.21 seconds OUTPUT Timer number 25 Time = 945.55 seconds OUTPUT TAVG Timer number 26 Time = 5.59 seconds OUTPUT REST ------------------------------------------------------------------------ (diag_print) file written: /ptmp/mai/b40.1850.track1.1deg.006/run/b40.1850.track1.1deg.006.pop.dd.0089-01-01-00000 (diag_transport) file written: /ptmp/mai/b40.1850.track1.1deg.006/run/b40.1850.track1.1deg.006.pop.dt.0089-01-01-00000 AFTER CALL IN tracer_budgets (final): ===================================== volume_t (cm^3) = 0.132514028745E+25 SUM [volume*T] (C cm^3) = 0.465274602604E+25 SUM [volume*S] (ppt cm^3) = 0.460108762918E+26 VOLUME AND TRACER BUDGETS: ========================== Please note the following about the budgets: * These budgets are meaningful when time-averaging starts at the first time step of an intended budget interval. * Positive-signed quantities ==> ocean gain Negative-signed quantities ==> ocean loss * The imbalance should be small in comparison to the tendency term, except for the volume budget when a fixed-volume ocean is used (e.g., when lfw_as_salt_flx = .false.) * These budgets are computed from single-precision TAVG terms, which contributes to inaccuracy in the imbalance term. VOLUME BUDGET FOR THE GIVEN TAVG INTERVAL (cm/s): ------------------------------------------------- tendency = -.453665274800E-13 FW flux = 0.000000000000E+00 Imbalance = 0.453665274800E-13 Imbalance = -tendency + FW flux HEAT BUDGET FOR THE GIVEN TAVG INTERVAL (W/m^2): ------------------------------------------------ tendency = 0.473697941774E+00 SHF flux = 0.329953841471E+00 ice formation = 0.143744382170E+00 FW heat content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = 0.281867425345E-06 Imbalance = -tendency + SHF flux + ice formation + FW heat content + free-srf non-consv. IMPLIED FW BUDGET FOR THE GIVEN TAVG INTERVAL (kg of freshwater/m^2/s): ----------------------------------------------------- tendency = -.875736084769E-06 SFWF flux = -.494631276262E-06 ice formation = -.381104059247E-06 FW salt content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = 0.749258935713E-12 Imbalance = -tendency + SFWF flux + ice formation + FW salt content + free-srf non-consv. Global Time Averages: 10-01-0090 00:00:00 KAPPA_ISOP: 4489463.91936212778 KAPPA_THIC: 5117099.61116465088 HOR_DIFF: 672368.008542991709 DIA_DEPTH: 7916.40177963199130 TLT: 535.479424322567979 INT_DEPTH: 8451.87603027974728 UISOP: 0.466442879267775631E-04 VISOP: -0.386489144102765425E-03 WISOP: -0.249908196958180686E-12 ADVT_ISOP: 0.203986408693449282E-10 ADVS_ISOP: -0.919277260048388256E-15 VNT_ISOP: -0.221616899347989720E-08 VNS_ISOP: -0.216267746619602754E-11 USUBM: 0.306801728890699243E-05 VSUBM: -0.339625221994244535E-04 WSUBM: -0.136012486200832581E-09 HLS_SUBM: 782030.442051071674 ADVT_SUBM: 0.234661943616962582E-11 ADVS_SUBM: -0.561765012289915830E-16 VNT_SUBM: -0.721443499418063159E-09 VNS_SUBM: -0.225293574533373311E-12 HDIFT: -0.555137034485871832E-10 HDIFS: 0.396258544622452630E-14 QSW_HBL: 149.901174911411573 KVMIX: 1.36014693240960005 TPOWER: 0.222201183210260725E-05 UVEL: 0.330055103016871076 VVEL: 0.100779592546805410E-02 TEMP: 3.50928894654974943 dTEMP_POS_2D: 0.837145760936485045E-01 dTEMP_NEG_2D: -0.658196504483568590E-01 SALT: 0.347214837947204952E-01 RHO: 1.03743462257538321 RESID_T: 0.000000000000000000E+00 RESID_S: 0.000000000000000000E+00 SU: 118389.948890066138 SV: 333.419776134235917 SSH: 0.508009890810374922E-04 SHF: 0.329953841471329890 SHF_QSW: 172.559473578425411 SFWF: -0.494631276262164055E-06 TAUX: 0.172952953413381849 TAUY: 0.512822310535021725E-01 FW: 0.000000000000000000E+00 TFW_T: 0.000000000000000000E+00 TFW_S: 0.000000000000000000E+00 EVAP_F: -0.398856038413431742E-04 PREC_F: 0.351771816434599970E-04 SNOW_F: 0.946268178416302212E-06 MELT_F: 0.309152181081702637E-06 ROFF_F: 0.350998290936712611E-05 IOFF_F: 0.297172330391379767E-06 SALT_F: -0.338264675391088874E-08 SENH_F: -13.6822868477888147 LWUP_F: -385.190627531665370 LWDN_F: 327.829920603722655 MELTH_F: -1.01768739390807217 IFRAC: 0.811718066531688792E-01 IAGE: 223.280048655673824 WVEL: 0.739898053911233630E-06 UET: -0.235540524469015019E-07 VNT: -0.483866586722795801E-07 WTT: -0.212325194165435837E-07 UES: 0.162991610012993548E-08 VNS: -0.177317465028325510E-11 WTS: 0.100697362524773733E-11 ADVT: 0.219125435204114957E-10 ADVS: -0.211206122660202072E-14 PV: -0.632678768081899116E-13 Q: -0.966299128972597916E-08 PD: 1.02752364315798528 QSW_HTP: 127.107523245159271 QFLUX: 0.143744382169668283 HMXL: 7917.68371833060610 XMXL: 9683.87263781329420 TMXL: 4493.02377701814657 HBLT: 4799.33152531341784 XBLT: 8604.81281338298686 TBLT: 962.634734052898352 BSF: 0.000000000000000000E+00 convergence info from pcg_diag_bsf: iter = 0 rms_resid = 0.978645554188175837E-01 iter = 100 rms_resid = 0.429758452539946711E-02 iter = 200 rms_resid = 0.922038581560993180E-03 iter = 300 rms_resid = 0.431689921932591704E-03 iter = 400 rms_resid = 0.317017173389728523E-03 iter = 500 rms_resid = 0.193819817029044730E-03 iter = 600 rms_resid = 0.490319656957623548E-04 iter = 700 rms_resid = 0.149630803055958478E-04 iter = 800 rms_resid = 0.186418873973500691E-05 iter = 900 rms_resid = 0.156168059154469377E-06 Local Time- and Space-Averages for Nino Regions: 00:00:00 0090-10-01 NINO_1_PLUS_2: 22.9103904682225910 NINO_3: 23.8511162896229436 NINO_3_POINT_4: 25.6871076291922122 NINO_4: 28.0129272738001092 tavg file written: ./b40.1850.track1.1deg.006.pop.h.0090-09.nc (time_manager) ocn date 0090-oct-02, 0.000000E+00 sec (time_manager) ocn date 0090-oct-03, 0.000000E+00 sec (time_manager) ocn date 0090-oct-04, 0.000000E+00 sec (time_manager) ocn date 0090-oct-05, 0.000000E+00 sec (time_manager) ocn date 0090-oct-06, 0.000000E+00 sec (time_manager) ocn date 0090-oct-07, 0.000000E+00 sec (time_manager) ocn date 0090-oct-08, 0.000000E+00 sec (time_manager) ocn date 0090-oct-09, 0.000000E+00 sec (time_manager) ocn date 0090-oct-10, 0.000000E+00 sec (time_manager) ocn date 0090-oct-11, 0.000000E+00 sec (time_manager) ocn date 0090-oct-12, 0.000000E+00 sec (time_manager) ocn date 0090-oct-13, 0.000000E+00 sec (time_manager) ocn date 0090-oct-14, 0.000000E+00 sec (time_manager) ocn date 0090-oct-15, 0.000000E+00 sec (time_manager) ocn date 0090-oct-16, 0.000000E+00 sec (time_manager) ocn date 0090-oct-17, 0.000000E+00 sec (time_manager) ocn date 0090-oct-18, 0.000000E+00 sec (time_manager) ocn date 0090-oct-19, 0.000000E+00 sec (time_manager) ocn date 0090-oct-20, 0.000000E+00 sec (time_manager) ocn date 0090-oct-21, 0.000000E+00 sec (time_manager) ocn date 0090-oct-22, 0.000000E+00 sec (time_manager) ocn date 0090-oct-23, 0.000000E+00 sec (time_manager) ocn date 0090-oct-24, 0.000000E+00 sec (time_manager) ocn date 0090-oct-25, 0.000000E+00 sec (time_manager) ocn date 0090-oct-26, 0.000000E+00 sec (time_manager) ocn date 0090-oct-27, 0.000000E+00 sec (time_manager) ocn date 0090-oct-28, 0.000000E+00 sec (time_manager) ocn date 0090-oct-29, 0.000000E+00 sec (time_manager) ocn date 0090-oct-30, 0.000000E+00 sec (time_manager) ocn date 0090-oct-31, 0.000000E+00 sec ovf_loc_prd: nsteps_total= 819686 ovf= 3 swap ovf UV old/new prd set old/new= 1 5 (time_manager) ocn date 0090-nov-01, 0.000000E+00 sec Step number : 819700 Date : 01 nov 0090 Hour : 0 Minute : 0 Second : 0 Time(years) : 89.832877 max. cfl number for zonal advection : 8.7394E-02 20 371 33 max. cfl number for meridional advection : 9.0543E-02 247 188 1 max. cfl number for vertical advection : 4.0288E-01 298 46 14 max. cfl number for total advection : 4.1155E-01 298 46 14 max. cfl number for horizontal tracer mixing : 6.0948E-01 175 380 5 max. cfl number for horiz. momentum mixing : 1.2672E-01 318 214 56 K.E. diagnostics: mean K.E. : 8.566833294098140E+00 K.E. change from horiz. visc. :-3.695476977678530E-06 K.E. change from vert. visc. : 7.215722758410515E-06 K.E. change from wind stress : 2.201015198335019E-05 advective K.E. balance :-1.265066964746817E-09 : 3.535696486500275E-10 P.E. verses pressure work : 8.535781990785645E-04 :-2.447930535124509E-06 surface-pressure contribution : 1.921753206623226E-07 :-2.652040058840681E-07 Tracer diagnostics: mean value of tracer 1 : 3.513061541889715E+00 abs change in tracer 1 : 1.343911178791849E-07 mean change in tracer 1 : 3.612925708695780E-09 mean change in tracer 1 from advection :-2.145999202746944E-24 mean change in tracer 1 from horiz. diff.: 8.843403308023120E-26 mean change in tracer 1 from vert. diff.:-1.149209478637957E-08 mean change in tracer 1 from sources : 1.499229343377266E-08 surface flux of tracer 1 : 0.000000000000000E+00 mean value of tracer 2 : 3.472154556142986E+01 abs change in tracer 2 : 1.299868289723980E-11 mean change in tracer 2 : 3.514171994330429E-14 mean change in tracer 2 from advection : 1.249361014219412E-27 mean change in tracer 2 from horiz. diff.: 1.835178909135657E-29 mean change in tracer 2 from vert. diff.:-7.377295014022225E-15 mean change in tracer 2 from sources :-3.651106980430051E-31 surface flux of tracer 2 : 0.000000000000000E+00 mean value of tracer 3 : 2.233450445735682E+02 abs change in tracer 3 : 2.448717931831124E-06 mean change in tracer 3 : 2.270031782168201E-08 mean change in tracer 3 from advection : 5.376789211278057E-23 mean change in tracer 3 from horiz. diff.:-3.018548329138558E-24 mean change in tracer 3 from vert. diff.: 1.045806581288790E-25 mean change in tracer 3 from sources : 3.162337335760043E-08 surface flux of tracer 3 : 0.000000000000000E+00 Other diagnostics: global mean sea level: 5.089563319338793E-05 residual, scans : 8.730181021187969E-14 240 Timing information: Timer number 1 Time = 673.11 seconds HMIX_MOMENTUM_ANISO Timer number 2 Time = 604.85 seconds HMIX_TRACER_GM_NLOOP Timer number 3 Time = 3395.58 seconds HMIX_TRACER_GM Timer number 4 Time = 1768.59 seconds VMIX_COEFFICIENTS_KPP Timer number 5 Time = 94.36 seconds VMIX_EXPLICIT_TRACER Timer number 6 Time = 46.72 seconds VMIX_EXPLICIT_MOMENTUM Timer number 7 Time = 293.83 seconds VMIX_IMPLICIT_TRACER Timer number 8 Time = 71.12 seconds VMIX_IMPLICIT_MOMENTUM Timer number 9 Time = 10.30 seconds COMPUTE_COSZ Timer number 10 Time = 126.47 seconds ADVECTION_MOMENTUM Timer number 11 Time = 658.27 seconds ADVECTION_TRACER_UPWIND3 Timer number 12 Time = 45.47 seconds MOC Timer number 13 Time = 45.85 seconds TRACER_TRANSPORTS Timer number 14 Time = 786.21 seconds TAVG_WRITE_STD Timer number 15 Time = 65.06 seconds TAVG_WRITE_NONSTD Timer number 16 Time = 42.99 seconds TAVG_CCSM_DIAGS_BSF Timer number 17 Time = 45.47 seconds TAVG_CCSM_DIAGS_MOC Timer number 18 Time = 45.86 seconds TAVG_CCSM_DIAGS_TRANS Timer number 19 Time = 10168.29 seconds STEP Timer number 20 Time = 8637.05 seconds BAROCLINIC Timer number 21 Time = 1164.99 seconds BAROTROPIC Timer number 22 Time = 209.04 seconds 3D-UPDATE Timer number 23 Time = 11173.76 seconds TOTAL Timer number 24 Time = 997.37 seconds OUTPUT Timer number 25 Time = 991.71 seconds OUTPUT TAVG Timer number 26 Time = 5.60 seconds OUTPUT REST ------------------------------------------------------------------------ (diag_print) file written: /ptmp/mai/b40.1850.track1.1deg.006/run/b40.1850.track1.1deg.006.pop.dd.0089-01-01-00000 (diag_transport) file written: /ptmp/mai/b40.1850.track1.1deg.006/run/b40.1850.track1.1deg.006.pop.dt.0089-01-01-00000 AFTER CALL IN tracer_budgets (final): ===================================== volume_t (cm^3) = 0.132514028745E+25 SUM [volume*T] (C cm^3) = 0.465529111061E+25 SUM [volume*S] (ppt cm^3) = 0.460109188742E+26 VOLUME AND TRACER BUDGETS: ========================== Please note the following about the budgets: * These budgets are meaningful when time-averaging starts at the first time step of an intended budget interval. * Positive-signed quantities ==> ocean gain Negative-signed quantities ==> ocean loss * The imbalance should be small in comparison to the tendency term, except for the volume budget when a fixed-volume ocean is used (e.g., when lfw_as_salt_flx = .false.) * These budgets are computed from single-precision TAVG terms, which contributes to inaccuracy in the imbalance term. VOLUME BUDGET FOR THE GIVEN TAVG INTERVAL (cm/s): ------------------------------------------------- tendency = 0.319698868258E-13 FW flux = 0.000000000000E+00 Imbalance = -.319698868258E-13 Imbalance = -tendency + FW flux HEAT BUDGET FOR THE GIVEN TAVG INTERVAL (W/m^2): ------------------------------------------------ tendency = 0.107875742490E+02 SHF flux = 0.106236711295E+02 ice formation = 0.163902977644E+00 FW heat content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = -.141852211755E-06 Imbalance = -tendency + SHF flux + ice formation + FW heat content + free-srf non-consv. IMPLIED FW BUDGET FOR THE GIVEN TAVG INTERVAL (kg of freshwater/m^2/s): ----------------------------------------------------- tendency = -.126867195495E-05 SFWF flux = -.834122352739E-06 ice formation = -.434549783164E-06 FW salt content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = -.180951549578E-12 Imbalance = -tendency + SFWF flux + ice formation + FW salt content + free-srf non-consv. Global Time Averages: 11-01-0090 00:00:00 KAPPA_ISOP: 4445949.65070447885 KAPPA_THIC: 4964799.90994135570 HOR_DIFF: 563678.925518998876 DIA_DEPTH: 6605.69542733843264 TLT: 495.668921371020417 INT_DEPTH: 7101.36337997802639 UISOP: 0.426762374165879111E-04 VISOP: -0.393352001012700961E-03 WISOP: -0.158340857475562462E-12 ADVT_ISOP: 0.596553022901779603E-11 ADVS_ISOP: -0.128816925629042249E-15 VNT_ISOP: -0.185976237879351205E-08 VNS_ISOP: -0.213113110227703906E-11 USUBM: 0.566915935247726983E-05 VSUBM: -0.164677436204454904E-04 WSUBM: -0.197110891959523865E-10 HLS_SUBM: 863114.751682912582 ADVT_SUBM: 0.691434154106003680E-12 ADVS_SUBM: -0.411724179801772615E-15 VNT_SUBM: -0.471679161954455992E-09 VNS_SUBM: -0.834698313549022186E-13 HDIFT: -0.232689288147776911E-10 HDIFS: -0.368075179021314724E-14 QSW_HBL: 156.129897576743531 KVMIX: 1.35494132730424210 TPOWER: 0.220372298531816211E-05 UVEL: 0.316055915329658654 VVEL: 0.605275009905486216E-03 TEMP: 3.51029005101375358 dTEMP_POS_2D: 0.891988053202266429E-01 dTEMP_NEG_2D: -0.721627342438026370E-01 SALT: 0.347215043959461164E-01 RHO: 1.03743445322612771 RESID_T: 0.000000000000000000E+00 RESID_S: 0.000000000000000000E+00 SU: 113369.017748719139 SV: 187.328774855773219 SSH: 0.508571782607079029E-04 SHF: 10.6236711294610569 SHF_QSW: 183.268330072352285 SFWF: -0.834122352738622646E-06 TAUX: 0.163143958425349983 TAUY: 0.331665972355096807E-03 FW: 0.000000000000000000E+00 TFW_T: 0.000000000000000000E+00 TFW_S: 0.000000000000000000E+00 EVAP_F: -0.389740372837665112E-04 PREC_F: 0.341870987582623676E-04 SNOW_F: 0.917211012234617549E-06 MELT_F: 0.313114802307272985E-06 ROFF_F: 0.327935773350120780E-05 IOFF_F: 0.260441687132041796E-06 SALT_F: -0.346659491673704392E-08 SENH_F: -14.7344869818418971 LWUP_F: -384.308474948199034 LWDN_F: 325.286658484957343 MELTH_F: -1.02130534276068130 IFRAC: 0.825376609200170336E-01 IAGE: 223.318816027855178 WVEL: 0.755057285089388271E-06 UET: 0.390558928625610740E-07 VNT: -0.294179125655814922E-07 WTT: -0.143160913019371229E-07 UES: 0.155281930384122825E-08 VNS: -0.602804069221650815E-11 WTS: 0.117176220460311340E-11 ADVT: -0.831277214158354272E-10 ADVS: -0.500565419406076528E-14 PV: -0.313813287496433498E-13 Q: -0.955572042099286114E-08 PD: 1.02752344596367462 QSW_HTP: 134.496680751876283 QFLUX: 0.163902977644013959 HMXL: 6606.37955048925505 XMXL: 9306.16451814355787 TMXL: 3820.94781880101573 HBLT: 3982.23928323969176 XBLT: 7296.70407031961440 TBLT: 881.872594465048223 BSF: 0.000000000000000000E+00 convergence info from pcg_diag_bsf: iter = 0 rms_resid = 0.102147056624263530 iter = 100 rms_resid = 0.424780322387665471E-02 iter = 200 rms_resid = 0.877408500663457726E-03 iter = 300 rms_resid = 0.368526400601134176E-03 iter = 400 rms_resid = 0.274072096463745508E-03 iter = 500 rms_resid = 0.182503002156711588E-03 iter = 600 rms_resid = 0.487320305070038990E-04 iter = 700 rms_resid = 0.149918495970388064E-04 iter = 800 rms_resid = 0.184726842114070614E-05 iter = 900 rms_resid = 0.152093551900535596E-06 Local Time- and Space-Averages for Nino Regions: 00:00:00 0090-11-01 NINO_1_PLUS_2: 23.2750027675415723 NINO_3: 24.3005188366738274 NINO_3_POINT_4: 25.8414930266864218 NINO_4: 28.1385171555062215 tavg file written: ./b40.1850.track1.1deg.006.pop.h.0090-10.nc ovf_loc_prd: nsteps_total= 819711 ovf= 3 swap ovf UV old/new prd set old/new= 5 1 ovf_loc_prd: nsteps_total= 819713 ovf= 3 swap ovf UV old/new prd set old/new= 1 5 ovf_loc_prd: nsteps_total= 819714 ovf= 3 swap ovf UV old/new prd set old/new= 5 1 (time_manager) ocn date 0090-nov-02, 0.000000E+00 sec (time_manager) ocn date 0090-nov-03, 0.000000E+00 sec (time_manager) ocn date 0090-nov-04, 0.000000E+00 sec (time_manager) ocn date 0090-nov-05, 0.000000E+00 sec (time_manager) ocn date 0090-nov-06, 0.000000E+00 sec (time_manager) ocn date 0090-nov-07, 0.000000E+00 sec (time_manager) ocn date 0090-nov-08, 0.000000E+00 sec (time_manager) ocn date 0090-nov-09, 0.000000E+00 sec (time_manager) ocn date 0090-nov-10, 0.000000E+00 sec (time_manager) ocn date 0090-nov-11, 0.000000E+00 sec (time_manager) ocn date 0090-nov-12, 0.000000E+00 sec (time_manager) ocn date 0090-nov-13, 0.000000E+00 sec (time_manager) ocn date 0090-nov-14, 0.000000E+00 sec (time_manager) ocn date 0090-nov-15, 0.000000E+00 sec (time_manager) ocn date 0090-nov-16, 0.000000E+00 sec (time_manager) ocn date 0090-nov-17, 0.000000E+00 sec (time_manager) ocn date 0090-nov-18, 0.000000E+00 sec (time_manager) ocn date 0090-nov-19, 0.000000E+00 sec (time_manager) ocn date 0090-nov-20, 0.000000E+00 sec (time_manager) ocn date 0090-nov-21, 0.000000E+00 sec (time_manager) ocn date 0090-nov-22, 0.000000E+00 sec (time_manager) ocn date 0090-nov-23, 0.000000E+00 sec (time_manager) ocn date 0090-nov-24, 0.000000E+00 sec (time_manager) ocn date 0090-nov-25, 0.000000E+00 sec (time_manager) ocn date 0090-nov-26, 0.000000E+00 sec (time_manager) ocn date 0090-nov-27, 0.000000E+00 sec (time_manager) ocn date 0090-nov-28, 0.000000E+00 sec (time_manager) ocn date 0090-nov-29, 0.000000E+00 sec (time_manager) ocn date 0090-nov-30, 0.000000E+00 sec (time_manager) ocn date 0090-dec-01, 0.000000E+00 sec Step number : 820450 Date : 01 dec 0090 Hour : 0 Minute : 0 Second : 0 Time(years) : 89.915068 max. cfl number for zonal advection : 8.7306E-02 20 371 33 max. cfl number for meridional advection : 7.9793E-02 254 184 1 max. cfl number for vertical advection : 2.7669E-01 190 325 18 max. cfl number for total advection : 2.7753E-01 190 325 18 max. cfl number for horizontal tracer mixing : 6.0948E-01 175 380 6 max. cfl number for horiz. momentum mixing : 1.2672E-01 318 214 56 K.E. diagnostics: mean K.E. : 8.530553889269431E+00 K.E. change from horiz. visc. :-3.694892299087428E-06 K.E. change from vert. visc. : 7.362891070204759E-06 K.E. change from wind stress : 2.237469760753761E-05 advective K.E. balance :-7.701738859502369E-10 :-1.246601319258377E-11 P.E. verses pressure work : 7.636601315798868E-04 :-5.019731883257687E-06 surface-pressure contribution :-4.027356476253640E-07 : 3.071802082178137E-07 Tracer diagnostics: mean value of tracer 1 : 3.515070565529370E+00 abs change in tracer 1 : 1.421534240597410E-07 mean change in tracer 1 : 3.643020009470855E-09 mean change in tracer 1 from advection :-4.716481764278997E-24 mean change in tracer 1 from horiz. diff.:-1.503378562363930E-25 mean change in tracer 1 from vert. diff.:-1.156307225227342E-08 mean change in tracer 1 from sources : 1.505331490352308E-08 surface flux of tracer 1 : 0.000000000000000E+00 mean value of tracer 2 : 3.472158890272501E+01 abs change in tracer 2 : 1.349181558404450E-11 mean change in tracer 2 : 3.168155405143691E-14 mean change in tracer 2 from advection :-4.605939222928708E-28 mean change in tracer 2 from horiz. diff.: 9.175894545678286E-30 mean change in tracer 2 from vert. diff.:-2.594385287609605E-14 mean change in tracer 2 from sources : 1.829677281734370E-31 surface flux of tracer 2 : 0.000000000000000E+00 mean value of tracer 3 : 2.234061600197570E+02 abs change in tracer 3 : 2.502026242775617E-06 mean change in tracer 3 : 2.392406974188783E-08 mean change in tracer 3 from advection :-1.886592705711599E-23 mean change in tracer 3 from horiz. diff.: 2.546900152710659E-24 mean change in tracer 3 from vert. diff.: 9.993004668469503E-27 mean change in tracer 3 from sources : 3.162337335760043E-08 surface flux of tracer 3 : 0.000000000000000E+00 Other diagnostics: global mean sea level: 5.095067331070150E-05 residual, scans : 9.469378462261667E-14 240 Timing information: Timer number 1 Time = 703.23 seconds HMIX_MOMENTUM_ANISO Timer number 2 Time = 632.32 seconds HMIX_TRACER_GM_NLOOP Timer number 3 Time = 3547.87 seconds HMIX_TRACER_GM Timer number 4 Time = 1848.22 seconds VMIX_COEFFICIENTS_KPP Timer number 5 Time = 98.60 seconds VMIX_EXPLICIT_TRACER Timer number 6 Time = 48.82 seconds VMIX_EXPLICIT_MOMENTUM Timer number 7 Time = 307.02 seconds VMIX_IMPLICIT_TRACER Timer number 8 Time = 74.35 seconds VMIX_IMPLICIT_MOMENTUM Timer number 9 Time = 10.76 seconds COMPUTE_COSZ Timer number 10 Time = 132.10 seconds ADVECTION_MOMENTUM Timer number 11 Time = 687.79 seconds ADVECTION_TRACER_UPWIND3 Timer number 12 Time = 47.62 seconds MOC Timer number 13 Time = 48.01 seconds TRACER_TRANSPORTS Timer number 14 Time = 823.80 seconds TAVG_WRITE_STD Timer number 15 Time = 68.07 seconds TAVG_WRITE_NONSTD Timer number 16 Time = 45.00 seconds TAVG_CCSM_DIAGS_BSF Timer number 17 Time = 47.62 seconds TAVG_CCSM_DIAGS_MOC Timer number 18 Time = 48.01 seconds TAVG_CCSM_DIAGS_TRANS Timer number 19 Time = 10623.73 seconds STEP Timer number 20 Time = 9023.99 seconds BAROCLINIC Timer number 21 Time = 1217.16 seconds BAROTROPIC Timer number 22 Time = 218.31 seconds 3D-UPDATE Timer number 23 Time = 11676.80 seconds TOTAL Timer number 24 Time = 1044.61 seconds OUTPUT Timer number 25 Time = 1038.94 seconds OUTPUT TAVG Timer number 26 Time = 5.60 seconds OUTPUT REST ------------------------------------------------------------------------ (diag_print) file written: /ptmp/mai/b40.1850.track1.1deg.006/run/b40.1850.track1.1deg.006.pop.dd.0089-01-01-00000 (diag_transport) file written: /ptmp/mai/b40.1850.track1.1deg.006/run/b40.1850.track1.1deg.006.pop.dt.0089-01-01-00000 AFTER CALL IN tracer_budgets (final): ===================================== volume_t (cm^3) = 0.132514028745E+25 SUM [volume*T] (C cm^3) = 0.465795327040E+25 SUM [volume*S] (ppt cm^3) = 0.460109763516E+26 VOLUME AND TRACER BUDGETS: ========================== Please note the following about the budgets: * These budgets are meaningful when time-averaging starts at the first time step of an intended budget interval. * Positive-signed quantities ==> ocean gain Negative-signed quantities ==> ocean loss * The imbalance should be small in comparison to the tendency term, except for the volume budget when a fixed-volume ocean is used (e.g., when lfw_as_salt_flx = .false.) * These budgets are computed from single-precision TAVG terms, which contributes to inaccuracy in the imbalance term. VOLUME BUDGET FOR THE GIVEN TAVG INTERVAL (cm/s): ------------------------------------------------- tendency = 0.212494291167E-13 FW flux = 0.000000000000E+00 Imbalance = -.212494291167E-13 Imbalance = -tendency + FW flux HEAT BUDGET FOR THE GIVEN TAVG INTERVAL (W/m^2): ------------------------------------------------ tendency = 0.116599352937E+02 SHF flux = 0.115088067909E+02 ice formation = 0.151129082997E+00 FW heat content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = 0.580231409281E-06 Imbalance = -tendency + SHF flux + ice formation + FW heat content + free-srf non-consv. IMPLIED FW BUDGET FOR THE GIVEN TAVG INTERVAL (kg of freshwater/m^2/s): ----------------------------------------------------- tendency = -.176952613679E-05 SFWF flux = -.136884319726E-05 ice formation = -.400682838043E-06 FW salt content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = 0.101482510938E-12 Imbalance = -tendency + SFWF flux + ice formation + FW salt content + free-srf non-consv. Global Time Averages: 12-01-0090 00:00:00 KAPPA_ISOP: 3915703.66169143561 KAPPA_THIC: 4346243.80686783697 HOR_DIFF: 475407.646996730822 DIA_DEPTH: 5565.15586777759563 TLT: 411.837834857644225 INT_DEPTH: 5976.99382291400889 UISOP: 0.193775644843223537E-04 VISOP: -0.318970155963402041E-03 WISOP: -0.131303513881614175E-13 ADVT_ISOP: -0.839473279470235702E-11 ADVS_ISOP: -0.144338241406321817E-14 VNT_ISOP: -0.727427272887944232E-09 VNS_ISOP: -0.162875679786714911E-11 USUBM: -0.294278575976118798E-05 VSUBM: 0.624786018157527366E-05 WSUBM: -0.616213630290078100E-09 HLS_SUBM: 855225.723767856485 ADVT_SUBM: 0.118575498452873142E-11 ADVS_SUBM: 0.317105505845246326E-15 VNT_SUBM: -0.150289602816632478E-09 VNS_SUBM: 0.763503391858808285E-13 HDIFT: -0.209874416373276009E-10 HDIFS: 0.702566884533333125E-15 QSW_HBL: 163.455173744010096 KVMIX: 1.35422531109813304 TPOWER: 0.219084619579750293E-05 UVEL: 0.309299245398427902 VVEL: 0.878815594635409944E-03 TEMP: 3.51231205812332625 dTEMP_POS_2D: 0.841326242798060148E-01 dTEMP_NEG_2D: -0.676988151141099948E-01 SALT: 0.347215541715456197E-01 RHO: 1.03743415703910546 RESID_T: 0.000000000000000000E+00 RESID_S: 0.000000000000000000E+00 SU: 110946.461176560857 SV: 270.740515878726114 SSH: 0.507296131775298033E-04 SHF: 11.5088067909258545 SHF_QSW: 191.896571718317773 SFWF: -0.136884319726048849E-05 TAUX: 0.112658820148554425 TAUY: -0.543625583883472971E-01 FW: 0.000000000000000000E+00 TFW_T: 0.000000000000000000E+00 TFW_S: 0.000000000000000000E+00 EVAP_F: -0.413566863727407566E-04 PREC_F: 0.352601705008319296E-04 SNOW_F: 0.996101451871820045E-06 MELT_F: 0.165999574260691880E-05 ROFF_F: 0.290011604691567984E-05 IOFF_F: 0.230533813004890055E-06 SALT_F: 0.218520894000773039E-08 SENH_F: -14.8309171053350042 LWUP_F: -385.121366836310870 LWDN_F: 324.748058356519095 MELTH_F: -1.34114053429834112 IFRAC: 0.800371986474727043E-01 IAGE: 223.375588088203074 WVEL: 0.771731569201585705E-06 UET: 0.772004398219237879E-07 VNT: 0.123239819205618828E-07 WTT: -0.150253840626898321E-07 UES: 0.153172651053141930E-08 VNS: -0.236874375828044629E-11 WTS: 0.736501103788958524E-12 ADVT: 0.703467164897226389E-10 ADVS: -0.401120690460880851E-16 PV: 0.136884007528852497E-13 Q: -0.953521660149400423E-08 PD: 1.02752315199806810 QSW_HTP: 140.601454653363874 QFLUX: 0.151129082997003700 HMXL: 5565.83441913594834 XMXL: 7438.90706173345461 TMXL: 3596.61871702626468 HBLT: 3671.30867927930922 XBLT: 6525.37541464066271 TBLT: 870.488059343232521 BSF: 0.000000000000000000E+00 convergence info from pcg_diag_bsf: iter = 0 rms_resid = 0.108666925594843242 iter = 100 rms_resid = 0.429921454753314121E-02 iter = 200 rms_resid = 0.860329530079084748E-03 iter = 300 rms_resid = 0.344903761314839920E-03 iter = 400 rms_resid = 0.258563563235110201E-03 iter = 500 rms_resid = 0.175084894088918156E-03 iter = 600 rms_resid = 0.479158498593992559E-04 iter = 700 rms_resid = 0.154788279842273604E-04 iter = 800 rms_resid = 0.182192542407575840E-05 iter = 900 rms_resid = 0.153393566958118980E-06 Local Time- and Space-Averages for Nino Regions: 00:00:00 0090-12-01 NINO_1_PLUS_2: 23.6464151012205122 NINO_3: 24.8546340557282726 NINO_3_POINT_4: 26.3322704788767794 NINO_4: 28.3889091153795050 tavg file written: ./b40.1850.track1.1deg.006.pop.h.0090-11.nc (time_manager) ocn date 0090-dec-02, 0.000000E+00 sec (time_manager) ocn date 0090-dec-03, 0.000000E+00 sec (time_manager) ocn date 0090-dec-04, 0.000000E+00 sec (time_manager) ocn date 0090-dec-05, 0.000000E+00 sec (time_manager) ocn date 0090-dec-06, 0.000000E+00 sec (time_manager) ocn date 0090-dec-07, 0.000000E+00 sec (time_manager) ocn date 0090-dec-08, 0.000000E+00 sec (time_manager) ocn date 0090-dec-09, 0.000000E+00 sec (time_manager) ocn date 0090-dec-10, 0.000000E+00 sec (time_manager) ocn date 0090-dec-11, 0.000000E+00 sec (time_manager) ocn date 0090-dec-12, 0.000000E+00 sec (time_manager) ocn date 0090-dec-13, 0.000000E+00 sec (time_manager) ocn date 0090-dec-14, 0.000000E+00 sec (time_manager) ocn date 0090-dec-15, 0.000000E+00 sec (time_manager) ocn date 0090-dec-16, 0.000000E+00 sec (time_manager) ocn date 0090-dec-17, 0.000000E+00 sec (time_manager) ocn date 0090-dec-18, 0.000000E+00 sec (time_manager) ocn date 0090-dec-19, 0.000000E+00 sec (time_manager) ocn date 0090-dec-20, 0.000000E+00 sec (time_manager) ocn date 0090-dec-21, 0.000000E+00 sec (time_manager) ocn date 0090-dec-22, 0.000000E+00 sec (time_manager) ocn date 0090-dec-23, 0.000000E+00 sec (time_manager) ocn date 0090-dec-24, 0.000000E+00 sec (time_manager) ocn date 0090-dec-25, 0.000000E+00 sec (time_manager) ocn date 0090-dec-26, 0.000000E+00 sec (time_manager) ocn date 0090-dec-27, 0.000000E+00 sec (time_manager) ocn date 0090-dec-28, 0.000000E+00 sec (time_manager) ocn date 0090-dec-29, 0.000000E+00 sec (time_manager) ocn date 0090-dec-30, 0.000000E+00 sec (time_manager) ocn date 0090-dec-31, 0.000000E+00 sec (ocn_comp_mct(run):) driver requests restart file at eod 0090/12/31 (time_manager) ocn date 0091-jan-01, 0.000000E+00 sec Step number : 821225 Date : 01 jan 0091 Hour : 0 Minute : 0 Second : 0 Time(years) : 90.000000 max. cfl number for zonal advection : 8.1740E-02 20 371 33 max. cfl number for meridional advection : 6.6324E-02 133 212 1 max. cfl number for vertical advection : 5.5259E-01 311 355 14 max. cfl number for total advection : 5.5825E-01 311 355 14 max. cfl number for horizontal tracer mixing : 6.0948E-01 175 380 6 max. cfl number for horiz. momentum mixing : 1.2672E-01 318 214 56 K.E. diagnostics: mean K.E. : 8.253291413056269E+00 K.E. change from horiz. visc. :-3.612190363036083E-06 K.E. change from vert. visc. : 8.330068777899525E-06 K.E. change from wind stress : 2.503936370986679E-05 advective K.E. balance :-8.051090009066615E-10 : 4.414677054644091E-10 P.E. verses pressure work : 7.311549367593102E-04 :-4.519331578142358E-06 surface-pressure contribution : 3.512070180986857E-07 :-4.099895554748746E-07 Tracer diagnostics: mean value of tracer 1 : 3.516547755782643E+00 abs change in tracer 1 : 1.510352017748445E-07 mean change in tracer 1 : 2.936742859981802E-09 mean change in tracer 1 from advection :-1.886592705711599E-24 mean change in tracer 1 from horiz. diff.:-3.537361323209248E-26 mean change in tracer 1 from vert. diff.:-1.220065483096430E-08 mean change in tracer 1 from sources : 1.491906217418742E-08 surface flux of tracer 1 : 0.000000000000000E+00 mean value of tracer 2 : 3.472156371727798E+01 abs change in tracer 2 : 1.420687008064794E-11 mean change in tracer 2 : 5.572101612551513E-14 mean change in tracer 2 from advection : 1.168757077818160E-27 mean change in tracer 2 from horiz. diff.: 2.374937411822615E-29 mean change in tracer 2 from vert. diff.:-2.663197875866089E-14 mean change in tracer 2 from sources : 1.539290140991485E-31 surface flux of tracer 2 : 0.000000000000000E+00 mean value of tracer 3 : 2.234650167907540E+02 abs change in tracer 3 : 2.657294044327675E-06 mean change in tracer 3 : 2.077707663486991E-08 mean change in tracer 3 from advection :-5.282459575992477E-23 mean change in tracer 3 from horiz. diff.: 2.263911246853919E-24 mean change in tracer 3 from vert. diff.: 1.682186845778495E-25 mean change in tracer 3 from sources : 3.162337335760043E-08 surface flux of tracer 3 : 0.000000000000000E+00 Other diagnostics: global mean sea level: 5.114454910828508E-05 residual, scans : 8.211362503636396E-14 240 Timing information: Timer number 1 Time = 734.26 seconds HMIX_MOMENTUM_ANISO Timer number 2 Time = 660.70 seconds HMIX_TRACER_GM_NLOOP Timer number 3 Time = 3705.31 seconds HMIX_TRACER_GM Timer number 4 Time = 1930.55 seconds VMIX_COEFFICIENTS_KPP Timer number 5 Time = 102.97 seconds VMIX_EXPLICIT_TRACER Timer number 6 Time = 50.98 seconds VMIX_EXPLICIT_MOMENTUM Timer number 7 Time = 320.65 seconds VMIX_IMPLICIT_TRACER Timer number 8 Time = 77.67 seconds VMIX_IMPLICIT_MOMENTUM Timer number 9 Time = 11.24 seconds COMPUTE_COSZ Timer number 10 Time = 137.93 seconds ADVECTION_MOMENTUM Timer number 11 Time = 718.31 seconds ADVECTION_TRACER_UPWIND3 Timer number 12 Time = 49.77 seconds MOC Timer number 13 Time = 50.16 seconds TRACER_TRANSPORTS Timer number 14 Time = 861.95 seconds TAVG_WRITE_STD Timer number 15 Time = 71.12 seconds TAVG_WRITE_NONSTD Timer number 16 Time = 47.01 seconds TAVG_CCSM_DIAGS_BSF Timer number 17 Time = 49.77 seconds TAVG_CCSM_DIAGS_MOC Timer number 18 Time = 50.17 seconds TAVG_CCSM_DIAGS_TRANS Timer number 19 Time = 11095.76 seconds STEP Timer number 20 Time = 9423.66 seconds BAROCLINIC Timer number 21 Time = 1271.22 seconds BAROTROPIC Timer number 22 Time = 227.96 seconds 3D-UPDATE Timer number 23 Time = 12197.02 seconds TOTAL Timer number 24 Time = 1092.42 seconds OUTPUT Timer number 25 Time = 1086.75 seconds OUTPUT TAVG Timer number 26 Time = 5.60 seconds OUTPUT REST ------------------------------------------------------------------------ (diag_print) file written: /ptmp/mai/b40.1850.track1.1deg.006/run/b40.1850.track1.1deg.006.pop.dd.0089-01-01-00000 (diag_transport) file written: /ptmp/mai/b40.1850.track1.1deg.006/run/b40.1850.track1.1deg.006.pop.dt.0089-01-01-00000 AFTER CALL IN tracer_budgets (final): ===================================== volume_t (cm^3) = 0.132514028745E+25 SUM [volume*T] (C cm^3) = 0.465991278715E+25 SUM [volume*S] (ppt cm^3) = 0.460109429742E+26 VOLUME AND TRACER BUDGETS: ========================== Please note the following about the budgets: * These budgets are meaningful when time-averaging starts at the first time step of an intended budget interval. * Positive-signed quantities ==> ocean gain Negative-signed quantities ==> ocean loss * The imbalance should be small in comparison to the tendency term, except for the volume budget when a fixed-volume ocean is used (e.g., when lfw_as_salt_flx = .false.) * These budgets are computed from single-precision TAVG terms, which contributes to inaccuracy in the imbalance term. VOLUME BUDGET FOR THE GIVEN TAVG INTERVAL (cm/s): ------------------------------------------------- tendency = 0.723762715639E-13 FW flux = 0.000000000000E+00 Imbalance = -.723762715639E-13 Imbalance = -tendency + FW flux HEAT BUDGET FOR THE GIVEN TAVG INTERVAL (W/m^2): ------------------------------------------------ tendency = 0.830559139265E+01 SHF flux = 0.810187586118E+01 ice formation = 0.203715083204E+00 FW heat content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = -.448266954750E-06 Imbalance = -tendency + SHF flux + ice formation + FW heat content + free-srf non-consv. IMPLIED FW BUDGET FOR THE GIVEN TAVG INTERVAL (kg of freshwater/m^2/s): ----------------------------------------------------- tendency = 0.994424163614E-06 SFWF flux = 0.153452650542E-05 ice formation = -.540102117155E-06 FW salt content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = 0.224649608591E-12 Imbalance = -tendency + SFWF flux + ice formation + FW salt content + free-srf non-consv. restart file written: ./b40.1850.track1.1deg.006.pop.r.0091-01-01-00000 restart pointer file written: ./rpointer.ocn.restart ovf_write_restart unit (mu) = 19 file name = ./b40.1850.track1.1deg.006.pop.ro.0091-01-01-00000 ovf write restart cdate yyyymmdd = 00910101 overflow restart pointer file written: ./rpointer.ocn.ovf Global Time Averages: 01-01-0091 00:00:00 KAPPA_ISOP: 3548955.21773219248 KAPPA_THIC: 3968874.46545707248 HOR_DIFF: 465178.364159652672 DIA_DEPTH: 5450.45924429836668 TLT: 387.776609464411308 INT_DEPTH: 5838.23318169802587 UISOP: 0.128904732340152684E-04 VISOP: -0.296617596285333280E-03 WISOP: -0.766836792393636620E-14 ADVT_ISOP: -0.150928226370227243E-10 ADVS_ISOP: -0.836111629375260319E-15 VNT_ISOP: -0.177345600983929510E-09 VNS_ISOP: -0.161218147871795445E-11 USUBM: -0.233140229050550405E-04 VSUBM: 0.488282923207257859E-04 WSUBM: -0.118603582245182389E-08 HLS_SUBM: 777856.069339579204 ADVT_SUBM: 0.137819870810131219E-12 ADVS_SUBM: 0.228329837057269551E-15 VNT_SUBM: 0.920563830138060476E-10 VNS_SUBM: 0.383085114520376925E-12 HDIFT: -0.531356931299674473E-12 HDIFS: 0.171032417318186513E-14 QSW_HBL: 163.115965654710237 KVMIX: 1.36088419392015036 TPOWER: 0.219212748212337469E-05 UVEL: 0.307890005190167015 VVEL: 0.331686185129716226E-03 TEMP: 3.51406063988798767 dTEMP_POS_2D: 0.830048605405137307E-01 dTEMP_NEG_2D: -0.658595163730102268E-01 SALT: 0.347215621360664681E-01 RHO: 1.03743406009098660 RESID_T: 0.000000000000000000E+00 RESID_S: 0.000000000000000000E+00 SU: 110439.421999747588 SV: 70.3528617098620686 SSH: 0.511176019092184972E-04 SHF: 8.10187586118272485 SHF_QSW: 192.313130193659418 SFWF: 0.153452650541814014E-05 TAUX: 0.756213243952161968E-01 TAUY: -0.797774399740138751E-01 FW: 0.000000000000000000E+00 TFW_T: 0.000000000000000000E+00 TFW_S: 0.000000000000000000E+00 EVAP_F: -0.424238169218940536E-04 PREC_F: 0.362626369237450748E-04 SNOW_F: 0.113468167822550531E-05 MELT_F: 0.512319468221918196E-05 ROFF_F: 0.278805683755888129E-05 IOFF_F: 0.194765717823623092E-06 SALT_F: 0.142377722166708955E-07 SENH_F: -16.1412441006396001 LWUP_F: -386.544136520541997 LWDN_F: 327.386393263981176 MELTH_F: -2.36665950248831169 IFRAC: 0.774183525534214156E-01 IAGE: 223.436086859501330 WVEL: 0.771562462086256904E-06 UET: 0.582353720754487562E-07 VNT: 0.668130464181222888E-07 WTT: -0.155794762410469417E-07 UES: 0.152240016053020388E-08 VNS: -0.868928915712930606E-11 WTS: 0.784440676488179533E-12 ADVT: 0.336444992483077757E-11 ADVS: -0.251873846751591198E-14 PV: 0.666055056120002983E-13 Q: -0.959793365164296649E-08 PD: 1.02752308119407121 QSW_HTP: 141.081649727438958 QFLUX: 0.203715083203941744 HMXL: 5451.74701543637457 XMXL: 6833.66206285661610 TMXL: 3839.10339569583130 HBLT: 3840.95143031583211 XBLT: 6581.97103425618116 TBLT: 887.712274083625630 BSF: 0.000000000000000000E+00 convergence info from pcg_diag_bsf: iter = 0 rms_resid = 0.113326192741576667 iter = 100 rms_resid = 0.436768149659187265E-02 iter = 200 rms_resid = 0.842019251586298943E-03 iter = 300 rms_resid = 0.325437847198439747E-03 iter = 400 rms_resid = 0.238569277682080725E-03 iter = 500 rms_resid = 0.173610447879122393E-03 iter = 600 rms_resid = 0.481132939422107190E-04 iter = 700 rms_resid = 0.161863620341735213E-04 iter = 800 rms_resid = 0.184394692089518125E-05 iter = 900 rms_resid = 0.152295678651723269E-06 Local Time- and Space-Averages for Nino Regions: 00:00:00 0091-01-01 NINO_1_PLUS_2: 24.6396825457262167 NINO_3: 25.3633671830670551 NINO_3_POINT_4: 26.4993984627694026 NINO_4: 28.3004295509232833 tavg file written: ./b40.1850.track1.1deg.006.pop.h.0090-12.nc ------------------------------------------------------------------------ Successful completion of POP model ------------------------------------------------------------------------ Timing information: Timer number 1 Time = 734.26 seconds HMIX_MOMENTUM_ANISO Timer stats (node): min = 574.40 seconds max = 734.26 seconds mean= 660.04 seconds Timer stats(block): min = 574.92 seconds max = 734.73 seconds mean= 660.56 seconds Timer number 2 Time = 660.70 seconds HMIX_TRACER_GM_NLOOP Timer stats (node): min = 624.46 seconds max = 660.70 seconds mean= 635.25 seconds Timer stats(block): min = 625.04 seconds max = 661.23 seconds mean= 635.82 seconds Timer number 3 Time = 3705.31 seconds HMIX_TRACER_GM Timer stats (node): min = 3326.48 seconds max = 3705.31 seconds mean= 3573.20 seconds Timer stats(block): min = 3326.97 seconds max = 3705.86 seconds mean= 3573.75 seconds Timer number 4 Time = 1930.55 seconds VMIX_COEFFICIENTS_KPP Timer stats (node): min = 1648.22 seconds max = 1930.55 seconds mean= 1827.28 seconds Timer stats(block): min = 1648.71 seconds max = 1931.06 seconds mean= 1827.79 seconds Timer number 5 Time = 102.97 seconds VMIX_EXPLICIT_TRACER Timer stats (node): min = 47.96 seconds max = 102.97 seconds mean= 87.56 seconds Timer stats(block): min = 48.58 seconds max = 103.67 seconds mean= 88.18 seconds Timer number 6 Time = 50.98 seconds VMIX_EXPLICIT_MOMENTUM Timer stats (node): min = 38.47 seconds max = 50.98 seconds mean= 45.00 seconds Timer stats(block): min = 38.94 seconds max = 51.48 seconds mean= 45.49 seconds Timer number 7 Time = 320.65 seconds VMIX_IMPLICIT_TRACER Timer stats (node): min = 113.47 seconds max = 320.65 seconds mean= 240.70 seconds Timer stats(block): min = 113.51 seconds max = 320.69 seconds mean= 240.74 seconds Timer number 8 Time = 77.67 seconds VMIX_IMPLICIT_MOMENTUM Timer stats (node): min = 39.06 seconds max = 77.67 seconds mean= 60.30 seconds Timer stats(block): min = 39.08 seconds max = 77.69 seconds mean= 60.32 seconds Timer number 9 Time = 11.24 seconds COMPUTE_COSZ Timer stats (node): min = 8.46 seconds max = 11.24 seconds mean= 9.23 seconds Timer stats(block): min = 8.47 seconds max = 11.26 seconds mean= 9.24 seconds Timer number 10 Time = 137.93 seconds ADVECTION_MOMENTUM Timer stats (node): min = 127.20 seconds max = 137.93 seconds mean= 133.49 seconds Timer stats(block): min = 127.69 seconds max = 138.51 seconds mean= 134.00 seconds Timer number 11 Time = 718.31 seconds ADVECTION_TRACER_UPWIND3 Timer stats (node): min = 678.15 seconds max = 718.31 seconds mean= 695.71 seconds Timer stats(block): min = 678.64 seconds max = 718.87 seconds mean= 696.27 seconds Timer number 12 Time = 51.94 seconds MOC Timer stats (node): min = 51.87 seconds max = 51.94 seconds mean= 51.89 seconds Timer stats(block): min = 0.00 seconds max = 0.00 seconds mean= 0.00 seconds Timer number 13 Time = 52.32 seconds TRACER_TRANSPORTS Timer stats (node): min = 52.29 seconds max = 52.32 seconds mean= 52.32 seconds Timer stats(block): min = 0.00 seconds max = 0.00 seconds mean= 0.00 seconds Timer number 14 Time = 901.65 seconds TAVG_WRITE_STD Timer stats (node): min = 901.65 seconds max = 901.65 seconds mean= 901.65 seconds Timer stats(block): min = 0.00 seconds max = 0.00 seconds mean= 0.00 seconds Timer number 15 Time = 74.55 seconds TAVG_WRITE_NONSTD Timer stats (node): min = 74.55 seconds max = 74.55 seconds mean= 74.55 seconds Timer stats(block): min = 0.00 seconds max = 0.00 seconds mean= 0.00 seconds Timer number 16 Time = 49.03 seconds TAVG_CCSM_DIAGS_BSF Timer stats (node): min = 49.02 seconds max = 49.03 seconds mean= 49.02 seconds Timer stats(block): min = 0.00 seconds max = 0.00 seconds mean= 0.00 seconds Timer number 17 Time = 51.94 seconds TAVG_CCSM_DIAGS_MOC Timer stats (node): min = 51.87 seconds max = 51.94 seconds mean= 51.89 seconds Timer stats(block): min = 0.00 seconds max = 0.00 seconds mean= 0.00 seconds Timer number 18 Time = 52.32 seconds TAVG_CCSM_DIAGS_TRANS Timer stats (node): min = 52.29 seconds max = 52.32 seconds mean= 52.32 seconds Timer stats(block): min = 0.00 seconds max = 0.00 seconds mean= 0.00 seconds Timer number 19 Time = 11095.83 seconds STEP Timer stats (node): min = 11090.19 seconds max = 11095.83 seconds mean= 11092.26 seconds Timer stats(block): min = 0.00 seconds max = 0.00 seconds mean= 0.00 seconds Timer number 20 Time = 9423.66 seconds BAROCLINIC Timer stats (node): min = 9099.28 seconds max = 9423.66 seconds mean= 9277.48 seconds Timer stats(block): min = 0.00 seconds max = 0.00 seconds mean= 0.00 seconds Timer number 21 Time = 1271.22 seconds BAROTROPIC Timer stats (node): min = 1263.52 seconds max = 1271.22 seconds mean= 1269.30 seconds Timer stats(block): min = 0.00 seconds max = 0.00 seconds mean= 0.00 seconds Timer number 22 Time = 227.96 seconds 3D-UPDATE Timer stats (node): min = 143.32 seconds max = 227.96 seconds mean= 176.41 seconds Timer stats(block): min = 0.00 seconds max = 0.00 seconds mean= 0.00 seconds Timer number 23 Time = 12252.15 seconds TOTAL Timer stats (node): min = 12245.33 seconds max = 12252.15 seconds mean= 12246.30 seconds Timer stats(block): min = 0.00 seconds max = 0.00 seconds mean= 0.00 seconds Timer number 24 Time = 1147.48 seconds OUTPUT Timer stats (node): min = 1145.97 seconds max = 1147.48 seconds mean= 1146.10 seconds Timer stats(block): min = 0.00 seconds max = 0.00 seconds mean= 0.00 seconds Timer number 25 Time = 1136.36 seconds OUTPUT TAVG Timer stats (node): min = 1135.19 seconds max = 1136.36 seconds mean= 1135.30 seconds Timer stats(block): min = 0.00 seconds max = 0.00 seconds mean= 0.00 seconds Timer number 26 Time = 11.05 seconds OUTPUT REST Timer stats (node): min = 10.68 seconds max = 11.05 seconds mean= 10.70 seconds Timer stats(block): min = 0.00 seconds max = 0.00 seconds mean= 0.00 seconds ------------------------------------------------------------------------ =================== completed POP_Final ===================