======================================================================== 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.090919-000743 , 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.0079-01-01-00000 ovf read restart label = ! Overflow Restart File for yyyymmdd =00790101 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.0079-01-01-00000 ======================================================================== 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): 01-01-0079 hour: 0 minute: 0 second: 0 step: 711725 This run will terminate at 00:00:00 on date(month-day-year): 01-01-1079 after running for 1000 years unless a stop signal is received from external source (eg, cpl) Starting elapsed time in years: 78.000 months: 936.000 days: 28469.000 hours: 683256.000 seconds: 2459721600.000 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.0079-01-01-00000 (passive_tracer_tools:read_field_3D) reading IAGE_CUR from ./b40.1850.track1.1deg.006.pop.r.0079-01-01-00000 (passive_tracer_tools:read_field_3D) reading IAGE_OLD from ./b40.1850.track1.1deg.006.pop.r.0079-01-01-00000 ------------------------------------------------------------------------ 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.0079-01-01-00000 Equatorial velocities written to file: /ptmp/mai/b40.1850.track1.1deg.006/run/b40.1850.track1.1deg.006.pop.dv.0079-01-01-00000 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.0079-01-01-00000 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.0079-01-01-00000 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.0079-01-01-00000 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) = 0.132514028744E+25 SUM [volume*T] (C cm^3) = 0.466601612628E+25 SUM [volume*S] (ppt cm^3) = 0.460109919605E+26 (time_manager) ocn date 0079-jan-02, 0.000000E+00 sec (time_manager) ocn date 0079-jan-03, 0.000000E+00 sec (time_manager) ocn date 0079-jan-04, 0.000000E+00 sec (time_manager) ocn date 0079-jan-05, 0.000000E+00 sec (time_manager) ocn date 0079-jan-06, 0.000000E+00 sec (time_manager) ocn date 0079-jan-07, 0.000000E+00 sec (time_manager) ocn date 0079-jan-08, 0.000000E+00 sec (time_manager) ocn date 0079-jan-09, 0.000000E+00 sec (time_manager) ocn date 0079-jan-10, 0.000000E+00 sec (time_manager) ocn date 0079-jan-11, 0.000000E+00 sec (time_manager) ocn date 0079-jan-12, 0.000000E+00 sec (time_manager) ocn date 0079-jan-13, 0.000000E+00 sec (time_manager) ocn date 0079-jan-14, 0.000000E+00 sec (time_manager) ocn date 0079-jan-15, 0.000000E+00 sec (time_manager) ocn date 0079-jan-16, 0.000000E+00 sec (time_manager) ocn date 0079-jan-17, 0.000000E+00 sec (time_manager) ocn date 0079-jan-18, 0.000000E+00 sec (time_manager) ocn date 0079-jan-19, 0.000000E+00 sec (time_manager) ocn date 0079-jan-20, 0.000000E+00 sec (time_manager) ocn date 0079-jan-21, 0.000000E+00 sec (time_manager) ocn date 0079-jan-22, 0.000000E+00 sec (time_manager) ocn date 0079-jan-23, 0.000000E+00 sec (time_manager) ocn date 0079-jan-24, 0.000000E+00 sec (time_manager) ocn date 0079-jan-25, 0.000000E+00 sec (time_manager) ocn date 0079-jan-26, 0.000000E+00 sec (time_manager) ocn date 0079-jan-27, 0.000000E+00 sec (time_manager) ocn date 0079-jan-28, 0.000000E+00 sec (time_manager) ocn date 0079-jan-29, 0.000000E+00 sec (time_manager) ocn date 0079-jan-30, 0.000000E+00 sec (time_manager) ocn date 0079-jan-31, 0.000000E+00 sec (time_manager) ocn date 0079-feb-01, 0.000000E+00 sec Step number : 712500 Date : 01 feb 0079 Hour : 0 Minute : 0 Second : 0 Time(years) : 78.084932 max. cfl number for zonal advection : 7.4708E-02 20 371 33 max. cfl number for meridional advection : 7.9901E-02 149 208 6 max. cfl number for vertical advection : 3.5567E-01 68 359 11 max. cfl number for total advection : 3.6521E-01 68 359 11 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. : 8.150111313996819E+00 K.E. change from horiz. visc. :-3.603731138220259E-06 K.E. change from vert. visc. : 5.316552935713909E-06 K.E. change from wind stress : 1.843147250376982E-05 advective K.E. balance :-9.556815926090525E-11 :-3.913224462453838E-10 P.E. verses pressure work : 6.969914126058941E-04 :-3.530845842890494E-06 surface-pressure contribution : 4.488264611015683E-07 :-5.675405589301118E-07 Tracer diagnostics: mean value of tracer 1 : 3.522903574768269E+00 abs change in tracer 1 : 1.412167107924757E-07 mean change in tracer 1 : 3.622529639163932E-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.:-1.169226362968084E-08 mean change in tracer 1 from sources : 1.521776634056383E-08 surface flux of tracer 1 : 0.000000000000000E+00 mean value of tracer 2 : 3.472156010041900E+01 abs change in tracer 2 : 1.293733965108508E-11 mean change in tracer 2 : 5.228851166355753E-14 mean change in tracer 2 from advection :-6.448314912100192E-28 mean change in tracer 2 from horiz. diff.: 2.590840812897399E-29 mean change in tracer 2 from vert. diff.: 1.569135950565441E-14 mean change in tracer 2 from sources :-1.293991465326256E-31 surface flux of tracer 2 : 0.000000000000000E+00 mean value of tracer 3 : 2.167571457397593E+02 abs change in tracer 3 : 2.305366129383165E-06 mean change in tracer 3 : 1.979515767987250E-08 mean change in tracer 3 from advection :-3.018548329138558E-23 mean change in tracer 3 from horiz. diff.: 3.773185411423198E-25 mean change in tracer 3 from vert. diff.: 4.163332551145626E-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: 4.847159887555314E-05 residual, scans : 7.254354714842125E-14 240 Timing information: Timer number 1 Time = 31.16 seconds HMIX_MOMENTUM_ANISO Timer number 2 Time = 28.61 seconds HMIX_TRACER_GM_NLOOP Timer number 3 Time = 157.33 seconds HMIX_TRACER_GM Timer number 4 Time = 83.21 seconds VMIX_COEFFICIENTS_KPP Timer number 5 Time = 4.37 seconds VMIX_EXPLICIT_TRACER Timer number 6 Time = 2.14 seconds VMIX_EXPLICIT_MOMENTUM Timer number 7 Time = 13.62 seconds VMIX_IMPLICIT_TRACER Timer number 8 Time = 3.32 seconds VMIX_IMPLICIT_MOMENTUM Timer number 9 Time = 0.48 seconds COMPUTE_COSZ Timer number 10 Time = 5.95 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 = 469.79 seconds STEP Timer number 20 Time = 398.89 seconds BAROCLINIC Timer number 21 Time = 54.99 seconds BAROTROPIC Timer number 22 Time = 9.59 seconds 3D-UPDATE Timer number 23 Time = 470.17 seconds TOTAL Timer number 24 Time = 0.01 seconds OUTPUT Timer number 25 Time = 0.00 seconds OUTPUT TAVG Timer number 26 Time = 0.00 seconds OUTPUT REST ------------------------------------------------------------------------ (diag_print) file written: /ptmp/mai/b40.1850.track1.1deg.006/run/b40.1850.track1.1deg.006.pop.dd.0079-01-01-00000 (diag_transport) file written: /ptmp/mai/b40.1850.track1.1deg.006/run/b40.1850.track1.1deg.006.pop.dt.0079-01-01-00000 AFTER CALL IN tracer_budgets (final): ===================================== volume_t (cm^3) = 0.132514028744E+25 SUM [volume*T] (C cm^3) = 0.466833308763E+25 SUM [volume*S] (ppt cm^3) = 0.460109380870E+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 = -.893602739400E-14 FW flux = 0.000000000000E+00 Imbalance = 0.893602739400E-14 Imbalance = -tendency + FW flux HEAT BUDGET FOR THE GIVEN TAVG INTERVAL (W/m^2): ------------------------------------------------ tendency = 0.982065309281E+01 SHF flux = 0.964611870034E+01 ice formation = 0.174534843167E+00 FW heat content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = 0.450693101783E-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 = 0.160507202780E-05 SFWF flux = 0.206780982722E-05 ice formation = -.462737647252E-06 FW salt content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = 0.152169609317E-12 Imbalance = -tendency + SFWF flux + ice formation + FW salt content + free-srf non-consv. Global Time Averages: 02-01-0079 00:00:00 KAPPA_ISOP: 3503928.12573877862 KAPPA_THIC: 3983496.60677851271 HOR_DIFF: 525207.281914869789 DIA_DEPTH: 6167.32383315631614 TLT: 419.384557036857359 INT_DEPTH: 6586.70359775150155 UISOP: 0.300124287540103532E-04 VISOP: -0.297542817536421730E-03 WISOP: 0.838092755205483934E-13 ADVT_ISOP: -0.184630065399223218E-10 ADVS_ISOP: -0.298649796563204422E-16 VNT_ISOP: -0.725182091977016259E-10 VNS_ISOP: -0.179062505867131839E-11 USUBM: -0.150652637281319306E-04 VSUBM: 0.110620800680538440E-03 WSUBM: -0.394952014602687189E-08 HLS_SUBM: 745681.018603074132 ADVT_SUBM: 0.109347011960486537E-11 ADVS_SUBM: 0.191961772411433175E-15 VNT_SUBM: 0.324522932848241711E-09 VNS_SUBM: 0.832278936189552601E-12 HDIFT: 0.481950092209035328E-10 HDIFS: -0.346950237570135753E-15 QSW_HBL: 162.657001003010492 KVMIX: 1.35958717057824452 TPOWER: 0.220818222695980479E-05 UVEL: 0.313649246167022722 VVEL: 0.802713208826060756E-03 TEMP: 3.52024099602914609 dTEMP_POS_2D: 0.851614006772115073E-01 dTEMP_NEG_2D: -0.660872580469060306E-01 SALT: 0.347215395756278605E-01 RHO: 1.03743341318315618 RESID_T: 0.000000000000000000E+00 RESID_S: 0.000000000000000000E+00 SU: 112499.126406203257 SV: 239.510985512861652 SSH: 0.483128266930605589E-04 SHF: 9.64611870033638930 SHF_QSW: 192.841759211715384 SFWF: 0.206780982721946634E-05 TAUX: 0.897508947040734084E-01 TAUY: -0.740210372653722082E-01 FW: 0.000000000000000000E+00 TFW_T: 0.000000000000000000E+00 TFW_S: 0.000000000000000000E+00 EVAP_F: -0.419888675602641596E-04 PREC_F: 0.359053513201401303E-04 SNOW_F: 0.133141369094901526E-05 MELT_F: 0.558421068711320950E-05 ROFF_F: 0.294018324153025227E-05 IOFF_F: 0.129032074549535035E-06 SALT_F: 0.174226071245941628E-07 SENH_F: -16.5988942228425991 LWUP_F: -390.935812082928351 LWDN_F: 332.512818432395477 MELTH_F: -2.67224733670910775 IFRAC: 0.677618263698116507E-01 IAGE: 216.731817341246597 WVEL: 0.743298389793655814E-06 UET: 0.187015826645985345E-07 VNT: 0.132616443057756814E-06 WTT: -0.171314756164299700E-07 UES: 0.154561140684850522E-08 VNS: -0.615810101444846671E-11 WTS: 0.872977727077204081E-12 ADVT: -0.326548562206034764E-10 ADVS: -0.696819783812662604E-14 PV: 0.120238398874843259E-12 Q: -0.977686292240990414E-08 PD: 1.02752275465325549 QSW_HTP: 141.194571124818793 QFLUX: 0.174534843166708697 HMXL: 6170.14859284496561 XMXL: 7318.67221025283561 TMXL: 4495.90310516129739 HBLT: 4308.35341463310033 XBLT: 7104.16673808567521 TBLT: 889.209053582079946 BSF: 0.000000000000000000E+00 convergence info from pcg_diag_bsf: iter = 0 rms_resid = 0.112369942788406826 iter = 100 rms_resid = 0.421717888366830718E-02 iter = 200 rms_resid = 0.877380792789416017E-03 iter = 300 rms_resid = 0.364297325545780192E-03 iter = 400 rms_resid = 0.260415264162868940E-03 iter = 500 rms_resid = 0.183452275007822333E-03 iter = 600 rms_resid = 0.496366504917955642E-04 iter = 700 rms_resid = 0.152002791903922712E-04 iter = 800 rms_resid = 0.173880890195123873E-05 iter = 900 rms_resid = 0.147055359686147186E-06 Local Time- and Space-Averages for Nino Regions: 00:00:00 0079-02-01 NINO_1_PLUS_2: 26.7548360450091884 NINO_3: 26.4235092946910761 NINO_3_POINT_4: 27.3807353659582731 NINO_4: 29.0427710135930752 tavg file written: ./b40.1850.track1.1deg.006.pop.h.0079-01.nc (time_manager) ocn date 0079-feb-02, 0.000000E+00 sec (time_manager) ocn date 0079-feb-03, 0.000000E+00 sec (time_manager) ocn date 0079-feb-04, 0.000000E+00 sec (time_manager) ocn date 0079-feb-05, 0.000000E+00 sec (time_manager) ocn date 0079-feb-06, 0.000000E+00 sec (time_manager) ocn date 0079-feb-07, 0.000000E+00 sec (time_manager) ocn date 0079-feb-08, 0.000000E+00 sec (time_manager) ocn date 0079-feb-09, 0.000000E+00 sec (time_manager) ocn date 0079-feb-10, 0.000000E+00 sec (time_manager) ocn date 0079-feb-11, 0.000000E+00 sec (time_manager) ocn date 0079-feb-12, 0.000000E+00 sec (time_manager) ocn date 0079-feb-13, 0.000000E+00 sec (time_manager) ocn date 0079-feb-14, 0.000000E+00 sec (time_manager) ocn date 0079-feb-15, 0.000000E+00 sec (time_manager) ocn date 0079-feb-16, 0.000000E+00 sec (time_manager) ocn date 0079-feb-17, 0.000000E+00 sec (time_manager) ocn date 0079-feb-18, 0.000000E+00 sec (time_manager) ocn date 0079-feb-19, 0.000000E+00 sec (time_manager) ocn date 0079-feb-20, 0.000000E+00 sec (time_manager) ocn date 0079-feb-21, 0.000000E+00 sec (time_manager) ocn date 0079-feb-22, 0.000000E+00 sec (time_manager) ocn date 0079-feb-23, 0.000000E+00 sec (time_manager) ocn date 0079-feb-24, 0.000000E+00 sec (time_manager) ocn date 0079-feb-25, 0.000000E+00 sec (time_manager) ocn date 0079-feb-26, 0.000000E+00 sec (time_manager) ocn date 0079-feb-27, 0.000000E+00 sec (time_manager) ocn date 0079-feb-28, 0.000000E+00 sec (time_manager) ocn date 0079-mar-01, 0.000000E+00 sec Step number : 713200 Date : 01 mar 0079 Hour : 0 Minute : 0 Second : 0 Time(years) : 78.161644 max. cfl number for zonal advection : 6.6206E-02 20 371 33 max. cfl number for meridional advection : 8.7011E-02 149 208 5 max. cfl number for vertical advection : 4.2104E-01 29 336 16 max. cfl number for total advection : 4.2923E-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. : 8.567850670201288E+00 K.E. change from horiz. visc. :-3.555296277968437E-06 K.E. change from vert. visc. : 9.548466243264922E-06 K.E. change from wind stress : 2.860804339581147E-05 advective K.E. balance :-8.909283984887711E-11 :-4.958050510908330E-11 P.E. verses pressure work : 6.346653126154886E-04 :-4.145318105916235E-06 surface-pressure contribution : 5.212149675360683E-07 :-6.464388851811397E-07 Tracer diagnostics: mean value of tracer 1 : 3.524070769490749E+00 abs change in tracer 1 : 1.459391216899954E-07 mean change in tracer 1 : 3.781526508610975E-09 mean change in tracer 1 from advection :-1.037625988141380E-24 mean change in tracer 1 from horiz. diff.: 5.011261874546435E-26 mean change in tracer 1 from vert. diff.:-1.164907478010545E-08 mean change in tracer 1 from sources : 1.531288098596349E-08 surface flux of tracer 1 : 0.000000000000000E+00 mean value of tracer 2 : 3.472156648980142E+01 abs change in tracer 2 : 1.339936231455045E-11 mean change in tracer 2 : 5.878477312867610E-14 mean change in tracer 2 from advection :-1.381781766878613E-28 mean change in tracer 2 from horiz. diff.:-3.094615415405226E-29 mean change in tracer 2 from vert. diff.: 1.438237981126550E-14 mean change in tracer 2 from sources :-1.351867744200038E-32 surface flux of tracer 2 : 0.000000000000000E+00 mean value of tracer 3 : 2.168040802431021E+02 abs change in tracer 3 : 2.397649909133122E-06 mean change in tracer 3 : 1.852843119559119E-08 mean change in tracer 3 from advection :-1.358346748112351E-23 mean change in tracer 3 from horiz. diff.: 8.489667175702196E-25 mean change in tracer 3 from vert. diff.: 9.902902873596435E-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: 4.887005925031653E-05 residual, scans : 7.811213284978634E-14 240 Timing information: Timer number 1 Time = 58.90 seconds HMIX_MOMENTUM_ANISO Timer number 2 Time = 54.22 seconds HMIX_TRACER_GM_NLOOP Timer number 3 Time = 299.59 seconds HMIX_TRACER_GM Timer number 4 Time = 158.33 seconds VMIX_COEFFICIENTS_KPP Timer number 5 Time = 8.33 seconds VMIX_EXPLICIT_TRACER Timer number 6 Time = 4.08 seconds VMIX_EXPLICIT_MOMENTUM Timer number 7 Time = 25.92 seconds VMIX_IMPLICIT_TRACER Timer number 8 Time = 6.31 seconds VMIX_IMPLICIT_MOMENTUM Timer number 9 Time = 0.91 seconds COMPUTE_COSZ Timer number 10 Time = 11.26 seconds ADVECTION_MOMENTUM Timer number 11 Time = 58.07 seconds ADVECTION_TRACER_UPWIND3 Timer number 12 Time = 2.21 seconds MOC Timer number 13 Time = 2.15 seconds TRACER_TRANSPORTS Timer number 14 Time = 37.61 seconds TAVG_WRITE_STD Timer number 15 Time = 15.78 seconds TAVG_WRITE_NONSTD Timer number 16 Time = 2.05 seconds TAVG_CCSM_DIAGS_BSF Timer number 17 Time = 2.21 seconds TAVG_CCSM_DIAGS_MOC Timer number 18 Time = 2.15 seconds TAVG_CCSM_DIAGS_TRANS Timer number 19 Time = 895.22 seconds STEP Timer number 20 Time = 759.81 seconds BAROCLINIC Timer number 21 Time = 104.67 seconds BAROTROPIC Timer number 22 Time = 18.25 seconds 3D-UPDATE Timer number 23 Time = 956.17 seconds TOTAL Timer number 24 Time = 60.23 seconds OUTPUT Timer number 25 Time = 60.22 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.0079-01-01-00000 (diag_transport) file written: /ptmp/mai/b40.1850.track1.1deg.006/run/b40.1850.track1.1deg.006.pop.dt.0079-01-01-00000 AFTER CALL IN tracer_budgets (final): ===================================== volume_t (cm^3) = 0.132514028744E+25 SUM [volume*T] (C cm^3) = 0.466987965668E+25 SUM [volume*S] (ppt cm^3) = 0.460109465577E+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 = 0.164716873185E-12 FW flux = 0.000000000000E+00 Imbalance = -.164716873185E-12 Imbalance = -tendency + FW flux HEAT BUDGET FOR THE GIVEN TAVG INTERVAL (W/m^2): ------------------------------------------------ tendency = 0.725762560358E+01 SHF flux = 0.707386276034E+01 ice formation = 0.183762975221E+00 FW heat content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = 0.131983691559E-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 = -.279410167550E-06 SFWF flux = 0.207792969445E-06 ice formation = -.487203845737E-06 FW salt content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = -.708742573271E-12 Imbalance = -tendency + SFWF flux + ice formation + FW salt content + free-srf non-consv. Global Time Averages: 03-01-0079 00:00:00 KAPPA_ISOP: 3657747.27455594297 KAPPA_THIC: 4198411.81912264414 HOR_DIFF: 586256.713399291039 DIA_DEPTH: 6878.49722605584702 TLT: 489.409634117220094 INT_DEPTH: 7367.90455016178021 UISOP: 0.321990163260918468E-04 VISOP: -0.262540409134532965E-03 WISOP: -0.108213216227351343E-12 ADVT_ISOP: 0.203538840159404869E-10 ADVS_ISOP: -0.234148309857412659E-14 VNT_ISOP: 0.214540299552854759E-09 VNS_ISOP: -0.157064012412258445E-11 USUBM: -0.901994855956635788E-05 VSUBM: 0.136836581287040084E-03 WSUBM: -0.647097454444285986E-08 HLS_SUBM: 730893.389825513354 ADVT_SUBM: 0.610711241557436204E-13 ADVS_SUBM: 0.136004640835371596E-15 VNT_SUBM: 0.572701305873599010E-09 VNS_SUBM: 0.103369110734455285E-11 HDIFT: -0.549408444497731984E-10 HDIFS: 0.412739746969740916E-14 QSW_HBL: 164.253256324581429 KVMIX: 1.36507720631048568 TPOWER: 0.222293897456705643E-05 UVEL: 0.315577281786236175 VVEL: 0.790139395990441099E-03 TEMP: 3.52183612972169557 dTEMP_POS_2D: 0.833188603101536612E-01 dTEMP_NEG_2D: -0.625977683083718400E-01 SALT: 0.347215175497589332E-01 RHO: 1.03743298927715477 RESID_T: 0.000000000000000000E+00 RESID_S: 0.000000000000000000E+00 SU: 113192.078982982668 SV: 229.281525171765310 SSH: 0.487491324916702672E-04 SHF: 7.07386276033945194 SHF_QSW: 191.370657091815104 SFWF: 0.207792969444841805E-06 TAUX: 0.835140525425697167E-01 TAUY: -0.109283705171210083 FW: 0.000000000000000000E+00 TFW_T: 0.000000000000000000E+00 TFW_S: 0.000000000000000000E+00 EVAP_F: -0.427903676017422135E-04 PREC_F: 0.380031255709882136E-04 SNOW_F: 0.136473001292095167E-05 MELT_F: 0.223630691377953466E-05 ROFF_F: 0.273046290020437724E-05 IOFF_F: 0.192548416231949079E-06 SALT_F: 0.570011950134859288E-08 SENH_F: -15.6534546798434224 LWUP_F: -393.910204100252599 LWDN_F: 334.480440463681987 MELTH_F: -1.67520162031778774 IFRAC: 0.605676834262805219E-01 IAGE: 216.780969299683846 WVEL: 0.694250084987929731E-06 UET: -0.912850213964155419E-08 VNT: 0.134660082214090326E-06 WTT: -0.155740862624880644E-07 UES: 0.155331405032665087E-08 VNS: -0.496868037738558243E-11 WTS: 0.101507606971746316E-11 ADVT: -0.697401960067024181E-10 ADVS: 0.701088812837423908E-14 PV: 0.144546931525788343E-12 Q: -0.984643338663691223E-08 PD: 1.02752230668408928 QSW_HTP: 139.990000670778585 QFLUX: 0.183762975221246655 HMXL: 6881.55242291059949 XMXL: 8056.56669902859812 TMXL: 4820.86601047803651 HBLT: 4611.53132290325175 XBLT: 7639.40682288533935 TBLT: 947.579101429390107 BSF: 0.000000000000000000E+00 convergence info from pcg_diag_bsf: iter = 0 rms_resid = 0.110654776981323325 iter = 100 rms_resid = 0.422201685084609181E-02 iter = 200 rms_resid = 0.853823167068413222E-03 iter = 300 rms_resid = 0.377355724604235183E-03 iter = 400 rms_resid = 0.266675040090734081E-03 iter = 500 rms_resid = 0.191462259234872871E-03 iter = 600 rms_resid = 0.486309260031823705E-04 iter = 700 rms_resid = 0.138925104644174638E-04 iter = 800 rms_resid = 0.190409424545927724E-05 iter = 900 rms_resid = 0.141170145730662065E-06 Local Time- and Space-Averages for Nino Regions: 00:00:00 0079-03-01 NINO_1_PLUS_2: 27.2827909410867626 NINO_3: 26.3521766683275089 NINO_3_POINT_4: 27.1265104850052516 NINO_4: 28.7598549487387700 tavg file written: ./b40.1850.track1.1deg.006.pop.h.0079-02.nc (time_manager) ocn date 0079-mar-02, 0.000000E+00 sec (time_manager) ocn date 0079-mar-03, 0.000000E+00 sec (time_manager) ocn date 0079-mar-04, 0.000000E+00 sec (time_manager) ocn date 0079-mar-05, 0.000000E+00 sec (time_manager) ocn date 0079-mar-06, 0.000000E+00 sec (time_manager) ocn date 0079-mar-07, 0.000000E+00 sec (time_manager) ocn date 0079-mar-08, 0.000000E+00 sec (time_manager) ocn date 0079-mar-09, 0.000000E+00 sec (time_manager) ocn date 0079-mar-10, 0.000000E+00 sec (time_manager) ocn date 0079-mar-11, 0.000000E+00 sec (time_manager) ocn date 0079-mar-12, 0.000000E+00 sec (time_manager) ocn date 0079-mar-13, 0.000000E+00 sec (time_manager) ocn date 0079-mar-14, 0.000000E+00 sec (time_manager) ocn date 0079-mar-15, 0.000000E+00 sec (time_manager) ocn date 0079-mar-16, 0.000000E+00 sec (time_manager) ocn date 0079-mar-17, 0.000000E+00 sec (time_manager) ocn date 0079-mar-18, 0.000000E+00 sec (time_manager) ocn date 0079-mar-19, 0.000000E+00 sec (time_manager) ocn date 0079-mar-20, 0.000000E+00 sec (time_manager) ocn date 0079-mar-21, 0.000000E+00 sec (time_manager) ocn date 0079-mar-22, 0.000000E+00 sec (time_manager) ocn date 0079-mar-23, 0.000000E+00 sec (time_manager) ocn date 0079-mar-24, 0.000000E+00 sec (time_manager) ocn date 0079-mar-25, 0.000000E+00 sec (time_manager) ocn date 0079-mar-26, 0.000000E+00 sec (time_manager) ocn date 0079-mar-27, 0.000000E+00 sec (time_manager) ocn date 0079-mar-28, 0.000000E+00 sec (time_manager) ocn date 0079-mar-29, 0.000000E+00 sec (time_manager) ocn date 0079-mar-30, 0.000000E+00 sec (time_manager) ocn date 0079-mar-31, 0.000000E+00 sec (time_manager) ocn date 0079-apr-01, 0.000000E+00 sec Step number : 713975 Date : 01 apr 0079 Hour : 0 Minute : 0 Second : 0 Time(years) : 78.246575 max. cfl number for zonal advection : 6.7411E-02 20 371 33 max. cfl number for meridional advection : 8.3435E-02 149 208 1 max. cfl number for vertical advection : 3.4426E-01 320 362 21 max. cfl number for total advection : 3.5740E-01 320 362 21 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. : 8.147472949417539E+00 K.E. change from horiz. visc. :-3.354476551317937E-06 K.E. change from vert. visc. : 8.608911884613134E-06 K.E. change from wind stress : 2.502232102847083E-05 advective K.E. balance : 1.966144639148866E-11 :-4.141829489565617E-10 P.E. verses pressure work : 6.231940245337315E-04 :-3.569502208634377E-06 surface-pressure contribution :-1.871088886865078E-08 :-8.462064375834644E-08 Tracer diagnostics: mean value of tracer 1 : 3.526251029087066E+00 abs change in tracer 1 : 1.358814354170657E-07 mean change in tracer 1 : 3.255884420085043E-09 mean change in tracer 1 from advection :-3.773185411423198E-24 mean change in tracer 1 from horiz. diff.: 1.473900551337187E-26 mean change in tracer 1 from vert. diff.:-1.132511525295211E-08 mean change in tracer 1 from sources : 1.440338334967762E-08 surface flux of tracer 1 : 0.000000000000000E+00 mean value of tracer 2 : 3.472164053799020E+01 abs change in tracer 2 : 1.265306967013612E-11 mean change in tracer 2 : 1.000373516122235E-13 mean change in tracer 2 from advection :-2.993860494903660E-28 mean change in tracer 2 from horiz. diff.:-3.598390017913053E-30 mean change in tracer 2 from vert. diff.: 3.304304676391409E-14 mean change in tracer 2 from sources : 1.880361392497709E-31 surface flux of tracer 2 : 0.000000000000000E+00 mean value of tracer 3 : 2.168609186922483E+02 abs change in tracer 3 : 2.212717840377372E-06 mean change in tracer 3 : 2.374108339109517E-08 mean change in tracer 3 from advection :-1.011213690261417E-22 mean change in tracer 3 from horiz. diff.: 2.546900152710659E-24 mean change in tracer 3 from vert. diff.:-5.306391344391592E-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: 4.810380923656611E-05 residual, scans : 6.706861332810985E-14 240 Timing information: Timer number 1 Time = 90.35 seconds HMIX_MOMENTUM_ANISO Timer number 2 Time = 82.45 seconds HMIX_TRACER_GM_NLOOP Timer number 3 Time = 458.12 seconds HMIX_TRACER_GM Timer number 4 Time = 241.55 seconds VMIX_COEFFICIENTS_KPP Timer number 5 Time = 12.71 seconds VMIX_EXPLICIT_TRACER Timer number 6 Time = 6.21 seconds VMIX_EXPLICIT_MOMENTUM Timer number 7 Time = 39.53 seconds VMIX_IMPLICIT_TRACER Timer number 8 Time = 9.54 seconds VMIX_IMPLICIT_MOMENTUM Timer number 9 Time = 1.39 seconds COMPUTE_COSZ Timer number 10 Time = 17.28 seconds ADVECTION_MOMENTUM Timer number 11 Time = 88.60 seconds ADVECTION_TRACER_UPWIND3 Timer number 12 Time = 4.37 seconds MOC Timer number 13 Time = 4.30 seconds TRACER_TRANSPORTS Timer number 14 Time = 75.67 seconds TAVG_WRITE_STD Timer number 15 Time = 18.50 seconds TAVG_WRITE_NONSTD Timer number 16 Time = 4.09 seconds TAVG_CCSM_DIAGS_BSF Timer number 17 Time = 4.37 seconds TAVG_CCSM_DIAGS_MOC Timer number 18 Time = 4.30 seconds TAVG_CCSM_DIAGS_TRANS Timer number 19 Time = 1368.17 seconds STEP Timer number 20 Time = 1160.15 seconds BAROCLINIC Timer number 21 Time = 159.43 seconds BAROTROPIC Timer number 22 Time = 27.98 seconds 3D-UPDATE Timer number 23 Time = 1476.95 seconds TOTAL Timer number 24 Time = 107.69 seconds OUTPUT Timer number 25 Time = 107.67 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.0079-01-01-00000 (diag_transport) file written: /ptmp/mai/b40.1850.track1.1deg.006/run/b40.1850.track1.1deg.006.pop.dt.0079-01-01-00000 AFTER CALL IN tracer_budgets (final): ===================================== volume_t (cm^3) = 0.132514028744E+25 SUM [volume*T] (C cm^3) = 0.467277028746E+25 SUM [volume*S] (ppt cm^3) = 0.460110446353E+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 = -.286091634797E-12 FW flux = 0.000000000000E+00 Imbalance = 0.286091634797E-12 Imbalance = -tendency + FW flux HEAT BUDGET FOR THE GIVEN TAVG INTERVAL (W/m^2): ------------------------------------------------ tendency = 0.122522035489E+02 SHF flux = 0.119909210124E+02 ice formation = 0.261282726921E+00 FW heat content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = 0.190384803200E-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 = -.292205933760E-05 SFWF flux = -.222933070228E-05 ice formation = -.692729039828E-06 FW salt content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = -.404507473198E-12 Imbalance = -tendency + SFWF flux + ice formation + FW salt content + free-srf non-consv. Global Time Averages: 04-01-0079 00:00:00 KAPPA_ISOP: 3864158.23016118491 KAPPA_THIC: 4430021.79562257789 HOR_DIFF: 611885.292170464178 DIA_DEPTH: 7185.53038812328396 TLT: 502.411656098395326 INT_DEPTH: 7687.93728312199983 UISOP: 0.788225866668093556E-04 VISOP: -0.185701070580945009E-03 WISOP: 0.267736659121660261E-13 ADVT_ISOP: -0.215627708722156474E-10 ADVS_ISOP: 0.485924454548870685E-14 VNT_ISOP: 0.570844918813268958E-09 VNS_ISOP: -0.980572595901189624E-12 USUBM: 0.946303206221360934E-05 VSUBM: 0.115909051297798059E-03 WSUBM: -0.708782234588714463E-08 HLS_SUBM: 811679.119052947150 ADVT_SUBM: 0.483259279659442402E-11 ADVS_SUBM: -0.163587928630071685E-15 VNT_SUBM: 0.802673881573864657E-09 VNS_SUBM: 0.905042750817130975E-12 HDIFT: 0.222774193149626272E-10 HDIFS: -0.987411611320483057E-15 QSW_HBL: 156.077328001793092 KVMIX: 1.36124819853898971 TPOWER: 0.222974370231477432E-05 UVEL: 0.313906607253297887 VVEL: 0.105604657344324335E-02 TEMP: 3.52351067230061732 dTEMP_POS_2D: 0.836788750304241769E-01 dTEMP_NEG_2D: -0.660386460180417273E-01 SALT: 0.347215599428006977E-01 RHO: 1.03743266322646033 RESID_T: 0.000000000000000000E+00 RESID_S: 0.000000000000000000E+00 SU: 112593.651378072362 SV: 323.887513292520680 SSH: 0.483679785655723030E-04 SHF: 11.9909210123857957 SHF_QSW: 185.008817250838661 SFWF: -0.222933070228367999E-05 TAUX: 0.116117490874129717 TAUY: -0.594209610433433927E-01 FW: 0.000000000000000000E+00 TFW_T: 0.000000000000000000E+00 TFW_S: 0.000000000000000000E+00 EVAP_F: -0.391717160472597359E-04 PREC_F: 0.343829028678143022E-04 SNOW_F: 0.124428869021127621E-05 MELT_F: -0.598161483219278708E-06 ROFF_F: 0.277467119682611928E-05 IOFF_F: 0.237814905372671854E-06 SALT_F: -0.503732405182774550E-08 SENH_F: -14.6110069918044232 LWUP_F: -392.870022544698315 LWDN_F: 333.848054019758365 MELTH_F: -0.921882718783193833 IFRAC: 0.645456463443700446E-01 IAGE: 216.831167898222930 WVEL: 0.647762121876259385E-06 UET: 0.280173120179499770E-07 VNT: 0.109486968117586473E-06 WTT: -0.149349198815785690E-07 UES: 0.155417168960297057E-08 VNS: -0.218971635681458449E-11 WTS: 0.777559667925878685E-12 ADVT: -0.272351289114495920E-10 ADVS: -0.500816406556323620E-14 PV: 0.142009202782119209E-12 Q: -0.988549356704550724E-08 PD: 1.02752196961871101 QSW_HTP: 135.467327918951156 QFLUX: 0.261282726921464981 HMXL: 7187.93647052598863 XMXL: 8730.83887084244816 TMXL: 4438.51037298372103 HBLT: 4256.28439990694005 XBLT: 7679.01960942827645 TBLT: 888.273472046764255 BSF: 0.000000000000000000E+00 convergence info from pcg_diag_bsf: iter = 0 rms_resid = 0.103986109148410291 iter = 100 rms_resid = 0.425005478051087952E-02 iter = 200 rms_resid = 0.882567801279302575E-03 iter = 300 rms_resid = 0.368683772065007487E-03 iter = 400 rms_resid = 0.258653835368387981E-03 iter = 500 rms_resid = 0.190246019429877257E-03 iter = 600 rms_resid = 0.503178321582809765E-04 iter = 700 rms_resid = 0.152467095787835731E-04 iter = 800 rms_resid = 0.180396434574840628E-05 iter = 900 rms_resid = 0.149139120882912556E-06 Local Time- and Space-Averages for Nino Regions: 00:00:00 0079-04-01 NINO_1_PLUS_2: 27.2120450176219606 NINO_3: 26.4381837232490220 NINO_3_POINT_4: 27.2839144135492013 NINO_4: 28.6387935438243666 tavg file written: ./b40.1850.track1.1deg.006.pop.h.0079-03.nc (time_manager) ocn date 0079-apr-02, 0.000000E+00 sec (time_manager) ocn date 0079-apr-03, 0.000000E+00 sec (time_manager) ocn date 0079-apr-04, 0.000000E+00 sec (time_manager) ocn date 0079-apr-05, 0.000000E+00 sec (time_manager) ocn date 0079-apr-06, 0.000000E+00 sec (time_manager) ocn date 0079-apr-07, 0.000000E+00 sec (time_manager) ocn date 0079-apr-08, 0.000000E+00 sec (time_manager) ocn date 0079-apr-09, 0.000000E+00 sec (time_manager) ocn date 0079-apr-10, 0.000000E+00 sec (time_manager) ocn date 0079-apr-11, 0.000000E+00 sec (time_manager) ocn date 0079-apr-12, 0.000000E+00 sec (time_manager) ocn date 0079-apr-13, 0.000000E+00 sec (time_manager) ocn date 0079-apr-14, 0.000000E+00 sec (time_manager) ocn date 0079-apr-15, 0.000000E+00 sec (time_manager) ocn date 0079-apr-16, 0.000000E+00 sec (time_manager) ocn date 0079-apr-17, 0.000000E+00 sec (time_manager) ocn date 0079-apr-18, 0.000000E+00 sec (time_manager) ocn date 0079-apr-19, 0.000000E+00 sec (time_manager) ocn date 0079-apr-20, 0.000000E+00 sec (time_manager) ocn date 0079-apr-21, 0.000000E+00 sec (time_manager) ocn date 0079-apr-22, 0.000000E+00 sec (time_manager) ocn date 0079-apr-23, 0.000000E+00 sec (time_manager) ocn date 0079-apr-24, 0.000000E+00 sec (time_manager) ocn date 0079-apr-25, 0.000000E+00 sec (time_manager) ocn date 0079-apr-26, 0.000000E+00 sec (time_manager) ocn date 0079-apr-27, 0.000000E+00 sec (time_manager) ocn date 0079-apr-28, 0.000000E+00 sec (time_manager) ocn date 0079-apr-29, 0.000000E+00 sec (time_manager) ocn date 0079-apr-30, 0.000000E+00 sec (time_manager) ocn date 0079-may-01, 0.000000E+00 sec Step number : 714725 Date : 01 may 0079 Hour : 0 Minute : 0 Second : 0 Time(years) : 78.328767 max. cfl number for zonal advection : 7.1117E-02 20 371 33 max. cfl number for meridional advection : 9.2524E-02 149 208 5 max. cfl number for vertical advection : 2.2124E-01 222 7 13 max. cfl number for total advection : 2.2773E-01 222 7 13 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. : 8.380806741592387E+00 K.E. change from horiz. visc. :-3.321533412770112E-06 K.E. change from vert. visc. : 8.108198740850865E-06 K.E. change from wind stress : 2.370389562437279E-05 advective K.E. balance :-4.341855787024191E-10 : 9.799306672896491E-11 P.E. verses pressure work : 6.375604786113207E-04 :-5.138039813524424E-06 surface-pressure contribution :-2.283273575626277E-07 : 1.696906881509062E-07 Tracer diagnostics: mean value of tracer 1 : 3.526232212051996E+00 abs change in tracer 1 : 1.420356883803768E-07 mean change in tracer 1 : 2.556693742697363E-09 mean change in tracer 1 from advection :-1.131955623426959E-24 mean change in tracer 1 from horiz. diff.: 6.190382315616185E-26 mean change in tracer 1 from vert. diff.:-1.138528677021731E-08 mean change in tracer 1 from sources : 1.379199312414005E-08 surface flux of tracer 1 : 0.000000000000000E+00 mean value of tracer 2 : 3.472171168678124E+01 abs change in tracer 2 : 1.347164161020592E-11 mean change in tracer 2 : 7.120562710244420E-14 mean change in tracer 2 from advection : 5.757424028660886E-28 mean change in tracer 2 from horiz. diff.: 3.742325618629576E-29 mean change in tracer 2 from vert. diff.: 1.463255624447272E-14 mean change in tracer 2 from sources : 3.969743198482915E-32 surface flux of tracer 2 : 0.000000000000000E+00 mean value of tracer 3 : 2.169224177640014E+02 abs change in tracer 3 : 2.419522115427336E-06 mean change in tracer 3 : 2.261528791200858E-08 mean change in tracer 3 from advection :-4.075040244337054E-23 mean change in tracer 3 from horiz. diff.: 2.358240882139499E-24 mean change in tracer 3 from vert. diff.:-3.490398588444826E-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: 4.858225575565375E-05 residual, scans : 6.564250111647865E-14 240 Timing information: Timer number 1 Time = 120.76 seconds HMIX_MOMENTUM_ANISO Timer number 2 Time = 109.75 seconds HMIX_TRACER_GM_NLOOP Timer number 3 Time = 611.13 seconds HMIX_TRACER_GM Timer number 4 Time = 322.11 seconds VMIX_COEFFICIENTS_KPP Timer number 5 Time = 16.94 seconds VMIX_EXPLICIT_TRACER Timer number 6 Time = 8.27 seconds VMIX_EXPLICIT_MOMENTUM Timer number 7 Time = 52.70 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 = 23.30 seconds ADVECTION_MOMENTUM Timer number 11 Time = 118.12 seconds ADVECTION_TRACER_UPWIND3 Timer number 12 Time = 6.54 seconds MOC Timer number 13 Time = 6.46 seconds TRACER_TRANSPORTS Timer number 14 Time = 114.28 seconds TAVG_WRITE_STD Timer number 15 Time = 21.48 seconds TAVG_WRITE_NONSTD Timer number 16 Time = 6.14 seconds TAVG_CCSM_DIAGS_BSF Timer number 17 Time = 6.54 seconds TAVG_CCSM_DIAGS_MOC Timer number 18 Time = 6.46 seconds TAVG_CCSM_DIAGS_TRANS Timer number 19 Time = 1823.74 seconds STEP Timer number 20 Time = 1546.91 seconds BAROCLINIC Timer number 21 Time = 211.38 seconds BAROTROPIC Timer number 22 Time = 37.34 seconds 3D-UPDATE Timer number 23 Time = 1981.23 seconds TOTAL Timer number 24 Time = 156.04 seconds OUTPUT Timer number 25 Time = 156.02 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.0079-01-01-00000 (diag_transport) file written: /ptmp/mai/b40.1850.track1.1deg.006/run/b40.1850.track1.1deg.006.pop.dt.0079-01-01-00000 AFTER CALL IN tracer_budgets (final): ===================================== volume_t (cm^3) = 0.132514028744E+25 SUM [volume*T] (C cm^3) = 0.467274688911E+25 SUM [volume*S] (ppt cm^3) = 0.460111389605E+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 = 0.184591869399E-12 FW flux = 0.000000000000E+00 Imbalance = -.184591869399E-12 Imbalance = -tendency + FW flux HEAT BUDGET FOR THE GIVEN TAVG INTERVAL (W/m^2): ------------------------------------------------ tendency = -.102481916484E+00 SHF flux = -.337934766934E+00 ice formation = 0.235452816091E+00 FW heat content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = -.343579555084E-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 = -.290393890786E-05 SFWF flux = -.227969178368E-05 ice formation = -.624247171397E-06 FW salt content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = -.472178727146E-13 Imbalance = -tendency + SFWF flux + ice formation + FW salt content + free-srf non-consv. Global Time Averages: 05-01-0079 00:00:00 KAPPA_ISOP: 3849910.50548838964 KAPPA_THIC: 4343612.13548884820 HOR_DIFF: 540374.201430635061 DIA_DEPTH: 6333.46226303014555 TLT: 457.480436356150506 INT_DEPTH: 6790.94489051205528 UISOP: 0.460706522853179199E-04 VISOP: -0.142509638207633226E-03 WISOP: -0.166054044585325313E-12 ADVT_ISOP: 0.529645059056779605E-11 ADVS_ISOP: -0.302055299317987543E-14 VNT_ISOP: 0.619918466204618527E-09 VNS_ISOP: -0.680787668276829099E-12 USUBM: 0.858581589556851579E-06 VSUBM: 0.531744911041093812E-04 WSUBM: -0.390205805491025275E-08 HLS_SUBM: 826429.277980399202 ADVT_SUBM: -0.287455992664655247E-11 ADVS_SUBM: -0.987916757724753207E-16 VNT_SUBM: 0.491395369998701152E-09 VNS_SUBM: 0.423361242769877344E-12 HDIFT: 0.291696261699061598E-10 HDIFS: -0.811140690570297009E-15 QSW_HBL: 146.919530138174594 KVMIX: 1.34679484796870330 TPOWER: 0.222923506199295152E-05 UVEL: 0.321458521396191910 VVEL: 0.137594055193754512E-02 TEMP: 3.52458945203647378 dTEMP_POS_2D: 0.854514293312401002E-01 dTEMP_NEG_2D: -0.692983921636258771E-01 SALT: 0.347216536490178168E-01 RHO: 1.03743228598579762 RESID_T: 0.000000000000000000E+00 RESID_S: 0.000000000000000000E+00 SU: 115301.798703096370 SV: 442.604542346611879 SSH: 0.484545769576148565E-04 SHF: -0.337934766933651376 SHF_QSW: 173.992426727241451 SFWF: -0.227969178367666022E-05 TAUX: 0.130616214621139953 TAUY: -0.424840088464863846E-01 FW: 0.000000000000000000E+00 TFW_T: 0.000000000000000000E+00 TFW_S: 0.000000000000000000E+00 EVAP_F: -0.399681372255374120E-04 PREC_F: 0.351713328456825606E-04 SNOW_F: 0.101461844077763000E-05 MELT_F: -0.152366012538420038E-05 ROFF_F: 0.343198142912873651E-05 IOFF_F: 0.344689662677107752E-06 SALT_F: -0.916369231643835324E-08 SENH_F: -13.5864419331735675 LWUP_F: -389.963794085643997 LWDN_F: 330.208368946763756 MELTH_F: -0.574578348631242575 IFRAC: 0.730964352887198410E-01 IAGE: 216.891829598027812 WVEL: 0.654479401093548826E-06 UET: 0.679605546275591062E-07 VNT: 0.822123011962808689E-07 WTT: -0.150405318298286872E-07 UES: 0.159150043148739543E-08 VNS: 0.455201787783979809E-11 WTS: 0.720557585365261139E-12 ADVT: 0.307979004057361640E-10 ADVS: -0.488051821195001702E-14 PV: 0.117060637298150056E-12 Q: -0.986227858441376530E-08 PD: 1.02752158969143670 QSW_HTP: 127.716936934293329 QFLUX: 0.235452816091439560 HMXL: 6334.57655694197274 XMXL: 8729.03378939202412 TMXL: 3979.69442320523240 HBLT: 3874.48564348574655 XBLT: 7252.98160449727038 TBLT: 888.801797163515857 BSF: 0.000000000000000000E+00 convergence info from pcg_diag_bsf: iter = 0 rms_resid = 0.998879912377684948E-01 iter = 100 rms_resid = 0.428764114418232756E-02 iter = 200 rms_resid = 0.907810411993983631E-03 iter = 300 rms_resid = 0.394547359645493049E-03 iter = 400 rms_resid = 0.273872429177397976E-03 iter = 500 rms_resid = 0.191185445807841509E-03 iter = 600 rms_resid = 0.502130126532111156E-04 iter = 700 rms_resid = 0.154538499241812045E-04 iter = 800 rms_resid = 0.178532930251748702E-05 iter = 900 rms_resid = 0.149245360970057170E-06 Local Time- and Space-Averages for Nino Regions: 00:00:00 0079-05-01 NINO_1_PLUS_2: 26.9706478098346309 NINO_3: 26.7099321502315732 NINO_3_POINT_4: 27.6354798832174779 NINO_4: 28.8758729173189899 tavg file written: ./b40.1850.track1.1deg.006.pop.h.0079-04.nc (time_manager) ocn date 0079-may-02, 0.000000E+00 sec (time_manager) ocn date 0079-may-03, 0.000000E+00 sec (time_manager) ocn date 0079-may-04, 0.000000E+00 sec (time_manager) ocn date 0079-may-05, 0.000000E+00 sec (time_manager) ocn date 0079-may-06, 0.000000E+00 sec (time_manager) ocn date 0079-may-07, 0.000000E+00 sec (time_manager) ocn date 0079-may-08, 0.000000E+00 sec (time_manager) ocn date 0079-may-09, 0.000000E+00 sec (time_manager) ocn date 0079-may-10, 0.000000E+00 sec (time_manager) ocn date 0079-may-11, 0.000000E+00 sec (time_manager) ocn date 0079-may-12, 0.000000E+00 sec (time_manager) ocn date 0079-may-13, 0.000000E+00 sec (time_manager) ocn date 0079-may-14, 0.000000E+00 sec (time_manager) ocn date 0079-may-15, 0.000000E+00 sec (time_manager) ocn date 0079-may-16, 0.000000E+00 sec (time_manager) ocn date 0079-may-17, 0.000000E+00 sec (time_manager) ocn date 0079-may-18, 0.000000E+00 sec (time_manager) ocn date 0079-may-19, 0.000000E+00 sec (time_manager) ocn date 0079-may-20, 0.000000E+00 sec (time_manager) ocn date 0079-may-21, 0.000000E+00 sec (time_manager) ocn date 0079-may-22, 0.000000E+00 sec (time_manager) ocn date 0079-may-23, 0.000000E+00 sec (time_manager) ocn date 0079-may-24, 0.000000E+00 sec (time_manager) ocn date 0079-may-25, 0.000000E+00 sec (time_manager) ocn date 0079-may-26, 0.000000E+00 sec (time_manager) ocn date 0079-may-27, 0.000000E+00 sec (time_manager) ocn date 0079-may-28, 0.000000E+00 sec (time_manager) ocn date 0079-may-29, 0.000000E+00 sec (time_manager) ocn date 0079-may-30, 0.000000E+00 sec (time_manager) ocn date 0079-may-31, 0.000000E+00 sec (time_manager) ocn date 0079-jun-01, 0.000000E+00 sec Step number : 715500 Date : 01 jun 0079 Hour : 0 Minute : 0 Second : 0 Time(years) : 78.413699 max. cfl number for zonal advection : 7.7054E-02 20 371 33 max. cfl number for meridional advection : 9.3198E-02 149 207 3 max. cfl number for vertical advection : 2.7310E-01 311 355 12 max. cfl number for total advection : 2.7705E-01 311 355 12 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. : 8.920913225026112E+00 K.E. change from horiz. visc. :-3.588934330141071E-06 K.E. change from vert. visc. : 9.034637463289711E-06 K.E. change from wind stress : 2.525071093395827E-05 advective K.E. balance :-4.016726746497072E-10 :-1.695444215752421E-10 P.E. verses pressure work : 6.536340746187186E-04 :-4.679138967122348E-06 surface-pressure contribution :-3.352352599723285E-07 : 2.738501137115392E-07 Tracer diagnostics: mean value of tracer 1 : 3.524088410543834E+00 abs change in tracer 1 : 1.270503817343175E-07 mean change in tracer 1 : 1.317938269164757E-09 mean change in tracer 1 from advection :-2.641229787996239E-24 mean change in tracer 1 from horiz. diff.: 2.947801102674373E-26 mean change in tracer 1 from vert. diff.:-1.128999818188202E-08 mean change in tracer 1 from sources : 1.246057255470637E-08 surface flux of tracer 1 : 0.000000000000000E+00 mean value of tracer 2 : 3.472171589849337E+01 abs change in tracer 2 : 1.275832684196607E-11 mean change in tracer 2 : 3.134123292460271E-14 mean change in tracer 2 from advection : 2.878712014330443E-28 mean change in tracer 2 from horiz. diff.:-2.159034010747832E-29 mean change in tracer 2 from vert. diff.:-2.424229458217449E-14 mean change in tracer 2 from sources : 7.983452988611749E-32 surface flux of tracer 2 : 0.000000000000000E+00 mean value of tracer 3 : 2.169793236775267E+02 abs change in tracer 3 : 2.250084785840016E-06 mean change in tracer 3 : 1.882423512210325E-08 mean change in tracer 3 from advection :-6.188024074734044E-23 mean change in tracer 3 from horiz. diff.:-2.829889058567399E-25 mean change in tracer 3 from vert. diff.:-9.577592193902887E-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: 4.893745440853768E-05 residual, scans : 6.393399095630154E-14 240 Timing information: Timer number 1 Time = 152.38 seconds HMIX_MOMENTUM_ANISO Timer number 2 Time = 137.86 seconds HMIX_TRACER_GM_NLOOP Timer number 3 Time = 768.29 seconds HMIX_TRACER_GM Timer number 4 Time = 402.70 seconds VMIX_COEFFICIENTS_KPP Timer number 5 Time = 21.31 seconds VMIX_EXPLICIT_TRACER Timer number 6 Time = 10.41 seconds VMIX_EXPLICIT_MOMENTUM Timer number 7 Time = 66.32 seconds VMIX_IMPLICIT_TRACER Timer number 8 Time = 15.80 seconds VMIX_IMPLICIT_MOMENTUM Timer number 9 Time = 2.32 seconds COMPUTE_COSZ Timer number 10 Time = 29.41 seconds ADVECTION_MOMENTUM Timer number 11 Time = 148.60 seconds ADVECTION_TRACER_UPWIND3 Timer number 12 Time = 8.71 seconds MOC Timer number 13 Time = 8.63 seconds TRACER_TRANSPORTS Timer number 14 Time = 151.30 seconds TAVG_WRITE_STD Timer number 15 Time = 24.48 seconds TAVG_WRITE_NONSTD Timer number 16 Time = 8.21 seconds TAVG_CCSM_DIAGS_BSF Timer number 17 Time = 8.71 seconds TAVG_CCSM_DIAGS_MOC Timer number 18 Time = 8.63 seconds TAVG_CCSM_DIAGS_TRANS Timer number 19 Time = 2293.66 seconds STEP Timer number 20 Time = 1945.95 seconds BAROCLINIC Timer number 21 Time = 264.89 seconds BAROTROPIC Timer number 22 Time = 46.96 seconds 3D-UPDATE Timer number 23 Time = 2498.31 seconds TOTAL Timer number 24 Time = 202.83 seconds OUTPUT Timer number 25 Time = 202.80 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.0079-01-01-00000 (diag_transport) file written: /ptmp/mai/b40.1850.track1.1deg.006/run/b40.1850.track1.1deg.006.pop.dt.0079-01-01-00000 AFTER CALL IN tracer_budgets (final): ===================================== volume_t (cm^3) = 0.132514028744E+25 SUM [volume*T] (C cm^3) = 0.466990907969E+25 SUM [volume*S] (ppt cm^3) = 0.460111446343E+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 = 0.132625077379E-12 FW flux = 0.000000000000E+00 Imbalance = -.132625077379E-12 Imbalance = -tendency + FW flux HEAT BUDGET FOR THE GIVEN TAVG INTERVAL (W/m^2): ------------------------------------------------ tendency = -.120283153881E+02 SHF flux = -.122137632775E+02 ice formation = 0.185447982326E+00 FW heat content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = 0.929387085624E-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 = -.169042938940E-06 SFWF flux = 0.322627935690E-06 ice formation = -.491671241525E-06 FW salt content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = -.366895093019E-12 Imbalance = -tendency + SFWF flux + ice formation + FW salt content + free-srf non-consv. Global Time Averages: 06-01-0079 00:00:00 KAPPA_ISOP: 3525050.75518237008 KAPPA_THIC: 3959696.21369745117 HOR_DIFF: 479906.305954189098 DIA_DEPTH: 5649.35735800031034 TLT: 347.892989778143487 INT_DEPTH: 5997.24614042059693 UISOP: 0.871814274500966986E-04 VISOP: -0.289297105511303028E-03 WISOP: -0.220972423672170199E-13 ADVT_ISOP: 0.242265178766964994E-10 ADVS_ISOP: 0.169605360501762548E-14 VNT_ISOP: -0.397606620860476207E-09 VNS_ISOP: -0.182440407527567461E-11 USUBM: -0.215030165726962960E-05 VSUBM: -0.312808699654294178E-05 WSUBM: -0.886399107422354380E-09 HLS_SUBM: 790834.635941720102 ADVT_SUBM: -0.272118289515999224E-12 ADVS_SUBM: 0.545718848344020565E-17 VNT_SUBM: 0.420179031324087638E-10 VNS_SUBM: -0.174324804377979543E-13 HDIFT: -0.761389041095079554E-11 HDIFS: -0.756371327126579851E-14 QSW_HBL: 135.366643637615113 KVMIX: 1.33958292392107459 TPOWER: 0.221883187686789944E-05 UVEL: 0.318000839927906453 VVEL: 0.130844109685061415E-02 TEMP: 3.52344154496769857 dTEMP_POS_2D: 0.918770409558760659E-01 dTEMP_NEG_2D: -0.740956724707152320E-01 SALT: 0.347216939234916214E-01 RHO: 1.03743254483614122 RESID_T: 0.000000000000000000E+00 RESID_S: 0.000000000000000000E+00 SU: 114062.436711531671 SV: 424.918701954217909 SSH: 0.486978512979435133E-04 SHF: -12.2137632774707559 SHF_QSW: 160.330398602010916 SFWF: 0.322627935689833636E-06 TAUX: 0.102952666621271199 TAUY: -0.103461395595258986E-01 FW: 0.000000000000000000E+00 TFW_T: 0.000000000000000000E+00 TFW_S: 0.000000000000000000E+00 EVAP_F: -0.396284377362600412E-04 PREC_F: 0.359253481748657687E-04 SNOW_F: 0.980162055001892113E-06 MELT_F: -0.650777692798249408E-06 ROFF_F: 0.416053247181530899E-05 IOFF_F: 0.332744159043625637E-06 SALT_F: -0.635694526361420442E-08 SENH_F: -13.7424690289983431 LWUP_F: -387.595822238145843 LWDN_F: 329.157722727600174 MELTH_F: -0.814761834022435960 IFRAC: 0.784258158272942568E-01 IAGE: 216.951814466196709 WVEL: 0.665203582952364536E-06 UET: 0.861955774175263895E-07 VNT: 0.256070433251994663E-07 WTT: -0.153320435409522797E-07 UES: 0.155422129700760965E-08 VNS: 0.757037728167141838E-11 WTS: 0.724495357002652808E-12 ADVT: 0.375219493919569329E-10 ADVS: 0.210383020632130856E-14 PV: 0.720052763847349411E-13 Q: -0.979439295766193603E-08 PD: 1.02752187043509746 QSW_HTP: 118.603439001888091 QFLUX: 0.185447982325626370 HMXL: 5649.62241521130363 XMXL: 7011.23998582752392 TMXL: 4430.34779108680323 HBLT: 3967.18064393028089 XBLT: 6538.71364806456768 TBLT: 899.819086901571154 BSF: 0.000000000000000000E+00 convergence info from pcg_diag_bsf: iter = 0 rms_resid = 0.987722671828478865E-01 iter = 100 rms_resid = 0.424975372537698525E-02 iter = 200 rms_resid = 0.912427912812476156E-03 iter = 300 rms_resid = 0.397543223674557485E-03 iter = 400 rms_resid = 0.288364058715063077E-03 iter = 500 rms_resid = 0.188349752113775159E-03 iter = 600 rms_resid = 0.487066819652518860E-04 iter = 700 rms_resid = 0.148443240792494293E-04 iter = 800 rms_resid = 0.189776868706725006E-05 iter = 900 rms_resid = 0.158139499267526457E-06 Local Time- and Space-Averages for Nino Regions: 00:00:00 0079-06-01 NINO_1_PLUS_2: 25.9313994698632193 NINO_3: 27.0361493534927781 NINO_3_POINT_4: 28.2108605822602065 NINO_4: 29.1355758019892122 tavg file written: ./b40.1850.track1.1deg.006.pop.h.0079-05.nc (time_manager) ocn date 0079-jun-02, 0.000000E+00 sec (time_manager) ocn date 0079-jun-03, 0.000000E+00 sec (time_manager) ocn date 0079-jun-04, 0.000000E+00 sec (time_manager) ocn date 0079-jun-05, 0.000000E+00 sec (time_manager) ocn date 0079-jun-06, 0.000000E+00 sec (time_manager) ocn date 0079-jun-07, 0.000000E+00 sec (time_manager) ocn date 0079-jun-08, 0.000000E+00 sec (time_manager) ocn date 0079-jun-09, 0.000000E+00 sec (time_manager) ocn date 0079-jun-10, 0.000000E+00 sec (time_manager) ocn date 0079-jun-11, 0.000000E+00 sec (time_manager) ocn date 0079-jun-12, 0.000000E+00 sec (time_manager) ocn date 0079-jun-13, 0.000000E+00 sec (time_manager) ocn date 0079-jun-14, 0.000000E+00 sec (time_manager) ocn date 0079-jun-15, 0.000000E+00 sec (time_manager) ocn date 0079-jun-16, 0.000000E+00 sec (time_manager) ocn date 0079-jun-17, 0.000000E+00 sec (time_manager) ocn date 0079-jun-18, 0.000000E+00 sec (time_manager) ocn date 0079-jun-19, 0.000000E+00 sec (time_manager) ocn date 0079-jun-20, 0.000000E+00 sec (time_manager) ocn date 0079-jun-21, 0.000000E+00 sec (time_manager) ocn date 0079-jun-22, 0.000000E+00 sec (time_manager) ocn date 0079-jun-23, 0.000000E+00 sec (time_manager) ocn date 0079-jun-24, 0.000000E+00 sec (time_manager) ocn date 0079-jun-25, 0.000000E+00 sec (time_manager) ocn date 0079-jun-26, 0.000000E+00 sec (time_manager) ocn date 0079-jun-27, 0.000000E+00 sec (time_manager) ocn date 0079-jun-28, 0.000000E+00 sec (time_manager) ocn date 0079-jun-29, 0.000000E+00 sec (time_manager) ocn date 0079-jun-30, 0.000000E+00 sec (time_manager) ocn date 0079-jul-01, 0.000000E+00 sec Step number : 716250 Date : 01 jul 0079 Hour : 0 Minute : 0 Second : 0 Time(years) : 78.495890 max. cfl number for zonal advection : 7.9938E-02 20 371 33 max. cfl number for meridional advection : 1.0906E-01 75 181 1 max. cfl number for vertical advection : 1.7933E-01 240 377 11 max. cfl number for total advection : 1.9813E-01 240 377 11 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. : 9.363138600965961E+00 K.E. change from horiz. visc. :-3.973006709020619E-06 K.E. change from vert. visc. : 6.726033196088676E-06 K.E. change from wind stress : 2.670107827904780E-05 advective K.E. balance :-2.062853130567766E-09 : 1.506629279129189E-09 P.E. verses pressure work : 6.604516536871656E-04 :-7.659651587212415E-07 surface-pressure contribution : 2.105648229876249E-06 :-2.164051968210408E-06 Tracer diagnostics: mean value of tracer 1 : 3.519987935729283E+00 abs change in tracer 1 : 1.364914849605432E-07 mean change in tracer 1 : 6.231469424132895E-10 mean change in tracer 1 from advection :-5.659778117134797E-24 mean change in tracer 1 from horiz. diff.: 4.716481764278997E-26 mean change in tracer 1 from vert. diff.:-1.168166642378751E-08 mean change in tracer 1 from sources : 1.216737331180564E-08 surface flux of tracer 1 : 0.000000000000000E+00 mean value of tracer 2 : 3.472163269973625E+01 abs change in tracer 2 : 1.360973927129104E-11 mean change in tracer 2 : 3.731820795194259E-15 mean change in tracer 2 from advection :-1.059366021273603E-27 mean change in tracer 2 from horiz. diff.:-1.295420406448699E-29 mean change in tracer 2 from vert. diff.:-4.810857725119835E-14 mean change in tracer 2 from sources : 2.118436425546354E-32 surface flux of tracer 2 : 0.000000000000000E+00 mean value of tracer 3 : 2.170199332651816E+02 abs change in tracer 3 : 2.410068082292457E-06 mean change in tracer 3 : 1.531636393947100E-08 mean change in tracer 3 from advection :-8.451935321587964E-23 mean change in tracer 3 from horiz. diff.: 3.773185411423198E-25 mean change in tracer 3 from vert. diff.: 3.642694800977131E-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: 4.898055472276446E-05 residual, scans : 8.443500254865234E-14 240 Timing information: Timer number 1 Time = 183.07 seconds HMIX_MOMENTUM_ANISO Timer number 2 Time = 165.04 seconds HMIX_TRACER_GM_NLOOP Timer number 3 Time = 920.26 seconds HMIX_TRACER_GM Timer number 4 Time = 478.77 seconds VMIX_COEFFICIENTS_KPP Timer number 5 Time = 25.55 seconds VMIX_EXPLICIT_TRACER Timer number 6 Time = 12.46 seconds VMIX_EXPLICIT_MOMENTUM Timer number 7 Time = 79.50 seconds VMIX_IMPLICIT_TRACER Timer number 8 Time = 19.00 seconds VMIX_IMPLICIT_MOMENTUM Timer number 9 Time = 2.78 seconds COMPUTE_COSZ Timer number 10 Time = 35.19 seconds ADVECTION_MOMENTUM Timer number 11 Time = 178.09 seconds ADVECTION_TRACER_UPWIND3 Timer number 12 Time = 10.86 seconds MOC Timer number 13 Time = 10.77 seconds TRACER_TRANSPORTS Timer number 14 Time = 188.00 seconds TAVG_WRITE_STD Timer number 15 Time = 27.41 seconds TAVG_WRITE_NONSTD Timer number 16 Time = 10.28 seconds TAVG_CCSM_DIAGS_BSF Timer number 17 Time = 10.86 seconds TAVG_CCSM_DIAGS_MOC Timer number 18 Time = 10.78 seconds TAVG_CCSM_DIAGS_TRANS Timer number 19 Time = 2749.93 seconds STEP Timer number 20 Time = 2332.30 seconds BAROCLINIC Timer number 21 Time = 317.17 seconds BAROTROPIC Timer number 22 Time = 56.37 seconds 3D-UPDATE Timer number 23 Time = 3001.38 seconds TOTAL Timer number 24 Time = 249.27 seconds OUTPUT Timer number 25 Time = 249.23 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.0079-01-01-00000 (diag_transport) file written: /ptmp/mai/b40.1850.track1.1deg.006/run/b40.1850.track1.1deg.006.pop.dt.0079-01-01-00000 AFTER CALL IN tracer_budgets (final): ===================================== volume_t (cm^3) = 0.132514028744E+25 SUM [volume*T] (C cm^3) = 0.466447686629E+25 SUM [volume*S] (ppt cm^3) = 0.460110344423E+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 = 0.166324816298E-13 FW flux = 0.000000000000E+00 Imbalance = -.166324816298E-13 Imbalance = -tendency + FW flux HEAT BUDGET FOR THE GIVEN TAVG INTERVAL (W/m^2): ------------------------------------------------ tendency = -.237924323337E+02 SHF flux = -.239577157101E+02 ice formation = 0.165283779314E+00 FW heat content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = 0.402944245775E-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 = 0.339242123161E-05 SFWF flux = 0.383063155249E-05 ice formation = -.438210650556E-06 FW salt content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = -.329676584218E-12 Imbalance = -tendency + SFWF flux + ice formation + FW salt content + free-srf non-consv. Global Time Averages: 07-01-0079 00:00:00 KAPPA_ISOP: 3443685.55613282463 KAPPA_THIC: 3927565.54850094160 HOR_DIFF: 529459.737000793335 DIA_DEPTH: 6252.28571385316445 TLT: 355.511854513162518 INT_DEPTH: 6607.79043314076262 UISOP: 0.621387259706535403E-04 VISOP: -0.358496250243383555E-03 WISOP: 0.333205773314415267E-12 ADVT_ISOP: 0.516176876497021954E-10 ADVS_ISOP: -0.198712976311645974E-14 VNT_ISOP: -0.101628059112113669E-08 VNS_ISOP: -0.231039977906750133E-11 USUBM: -0.373345691082261943E-05 VSUBM: -0.147828256421080761E-04 WSUBM: -0.917292725347048986E-09 HLS_SUBM: 728856.840674401261 ADVT_SUBM: -0.151063536835180328E-11 ADVS_SUBM: 0.244351004890097263E-15 VNT_SUBM: -0.772181891094144762E-10 VNS_SUBM: -0.932992342766135492E-13 HDIFT: 0.339052422909623142E-10 HDIFS: -0.677541007160603025E-14 QSW_HBL: 127.161727278377199 KVMIX: 1.34480243259508092 TPOWER: 0.220720143879236602E-05 UVEL: 0.326877254689355412 VVEL: 0.190147547391413224E-02 TEMP: 3.52013125653311088 dTEMP_POS_2D: 0.941374322644658867E-01 dTEMP_NEG_2D: -0.743445021643703990E-01 SALT: 0.347216490264054892E-01 RHO: 1.03743320694767593 RESID_T: 0.000000000000000000E+00 RESID_S: 0.000000000000000000E+00 SU: 117246.041651074076 SV: 647.781158923269572 SSH: 0.493850552599602995E-04 SHF: -23.9577157100668572 SHF_QSW: 149.863254226288149 SFWF: 0.383063155248673172E-05 TAUX: 0.170482335798933848 TAUY: 0.431589142574096557E-01 FW: 0.000000000000000000E+00 TFW_T: 0.000000000000000000E+00 TFW_S: 0.000000000000000000E+00 EVAP_F: -0.406236537959903625E-04 PREC_F: 0.368098458393192191E-04 SNOW_F: 0.100439386662650522E-05 MELT_F: 0.301668070137224900E-05 ROFF_F: 0.442050432926586945E-05 IOFF_F: 0.364187482797549394E-06 SALT_F: 0.544577638519284032E-08 SENH_F: -14.3089561298102339 LWUP_F: -386.422785386834448 LWDN_F: 330.482305892199747 MELTH_F: -1.51507969144808130 IFRAC: 0.800012332525115166E-01 IAGE: 217.000215718395111 WVEL: 0.681158900992465989E-06 UET: 0.832656801217071895E-07 VNT: -0.926207610918818651E-08 WTT: -0.184682629906971180E-07 UES: 0.157961207754593219E-08 VNS: 0.111676820167010382E-10 WTS: 0.457584733254964292E-12 ADVT: 0.253453472298186373E-10 ADVS: 0.537639614968451743E-15 PV: 0.168420549807576913E-13 Q: -0.973839766589730075E-08 PD: 1.02752254796203757 QSW_HTP: 110.838273332174097 QFLUX: 0.165283779313960349 HMXL: 6252.66617354353548 XMXL: 7225.50015345144948 TMXL: 5076.57714883394419 HBLT: 4620.08918530481515 XBLT: 7167.36804818349538 TBLT: 960.477071939448706 BSF: 0.000000000000000000E+00 convergence info from pcg_diag_bsf: iter = 0 rms_resid = 0.103255893951018168 iter = 100 rms_resid = 0.433649828608788108E-02 iter = 200 rms_resid = 0.935400520102697315E-03 iter = 300 rms_resid = 0.427540427803396403E-03 iter = 400 rms_resid = 0.307987973815935297E-03 iter = 500 rms_resid = 0.196834840034307041E-03 iter = 600 rms_resid = 0.512578003248067530E-04 iter = 700 rms_resid = 0.145967966706314611E-04 iter = 800 rms_resid = 0.190233763988544360E-05 iter = 900 rms_resid = 0.158651418819449071E-06 Local Time- and Space-Averages for Nino Regions: 00:00:00 0079-07-01 NINO_1_PLUS_2: 25.4205792226131528 NINO_3: 26.5271958635438985 NINO_3_POINT_4: 28.0561271948410891 NINO_4: 29.2252521609880560 tavg file written: ./b40.1850.track1.1deg.006.pop.h.0079-06.nc (time_manager) ocn date 0079-jul-02, 0.000000E+00 sec (time_manager) ocn date 0079-jul-03, 0.000000E+00 sec (time_manager) ocn date 0079-jul-04, 0.000000E+00 sec (time_manager) ocn date 0079-jul-05, 0.000000E+00 sec (time_manager) ocn date 0079-jul-06, 0.000000E+00 sec (time_manager) ocn date 0079-jul-07, 0.000000E+00 sec (time_manager) ocn date 0079-jul-08, 0.000000E+00 sec (time_manager) ocn date 0079-jul-09, 0.000000E+00 sec (time_manager) ocn date 0079-jul-10, 0.000000E+00 sec (time_manager) ocn date 0079-jul-11, 0.000000E+00 sec (time_manager) ocn date 0079-jul-12, 0.000000E+00 sec (time_manager) ocn date 0079-jul-13, 0.000000E+00 sec (time_manager) ocn date 0079-jul-14, 0.000000E+00 sec (time_manager) ocn date 0079-jul-15, 0.000000E+00 sec (time_manager) ocn date 0079-jul-16, 0.000000E+00 sec (time_manager) ocn date 0079-jul-17, 0.000000E+00 sec (time_manager) ocn date 0079-jul-18, 0.000000E+00 sec (time_manager) ocn date 0079-jul-19, 0.000000E+00 sec (time_manager) ocn date 0079-jul-20, 0.000000E+00 sec (time_manager) ocn date 0079-jul-21, 0.000000E+00 sec (time_manager) ocn date 0079-jul-22, 0.000000E+00 sec (time_manager) ocn date 0079-jul-23, 0.000000E+00 sec (time_manager) ocn date 0079-jul-24, 0.000000E+00 sec (time_manager) ocn date 0079-jul-25, 0.000000E+00 sec (time_manager) ocn date 0079-jul-26, 0.000000E+00 sec (time_manager) ocn date 0079-jul-27, 0.000000E+00 sec (time_manager) ocn date 0079-jul-28, 0.000000E+00 sec (time_manager) ocn date 0079-jul-29, 0.000000E+00 sec (time_manager) ocn date 0079-jul-30, 0.000000E+00 sec (time_manager) ocn date 0079-jul-31, 0.000000E+00 sec (time_manager) ocn date 0079-aug-01, 0.000000E+00 sec Step number : 717025 Date : 01 aug 0079 Hour : 0 Minute : 0 Second : 0 Time(years) : 78.580822 max. cfl number for zonal advection : 8.3363E-02 20 371 33 max. cfl number for meridional advection : 1.0520E-01 312 203 1 max. cfl number for vertical advection : 1.7626E-01 190 325 18 max. cfl number for total advection : 1.9257E-01 240 377 11 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. : 9.463849619477219E+00 K.E. change from horiz. visc. :-4.194513040846872E-06 K.E. change from vert. visc. : 8.617441601413159E-06 K.E. change from wind stress : 2.762623541091031E-05 advective K.E. balance : 2.724583079788457E-10 :-9.620005373237435E-10 P.E. verses pressure work : 6.876195038024280E-04 :-6.329301694957813E-06 surface-pressure contribution :-3.809672032706765E-07 : 3.119667911058143E-07 Tracer diagnostics: mean value of tracer 1 : 3.515981734618498E+00 abs change in tracer 1 : 1.464485657848431E-07 mean change in tracer 1 : 1.414880058662469E-09 mean change in tracer 1 from advection :-5.494701255385032E-24 mean change in tracer 1 from horiz. diff.: 0.000000000000000E+00 mean change in tracer 1 from vert. diff.:-1.079576594765306E-08 mean change in tracer 1 from sources : 1.214803013362473E-08 surface flux of tracer 1 : 0.000000000000000E+00 mean value of tracer 2 : 3.472149855053718E+01 abs change in tracer 2 : 1.382588670602815E-11 mean change in tracer 2 :-3.511402018488304E-14 mean change in tracer 2 from advection :-6.448314912100192E-28 mean change in tracer 2 from horiz. diff.:-5.217665525973928E-29 mean change in tracer 2 from vert. diff.:-5.873182053144063E-14 mean change in tracer 2 from sources :-1.249106258214537E-32 surface flux of tracer 2 : 0.000000000000000E+00 mean value of tracer 3 : 2.170475714815312E+02 abs change in tracer 3 : 2.559013664549478E-06 mean change in tracer 3 : 1.101916111883613E-08 mean change in tracer 3 from advection :-1.305522152352427E-22 mean change in tracer 3 from horiz. diff.: 9.904611704985896E-25 mean change in tracer 3 from vert. diff.:-4.795490628919337E-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: 4.917188684886538E-05 residual, scans : 7.890189850504268E-14 240 Timing information: Timer number 1 Time = 215.14 seconds HMIX_MOMENTUM_ANISO Timer number 2 Time = 192.97 seconds HMIX_TRACER_GM_NLOOP Timer number 3 Time = 1076.96 seconds HMIX_TRACER_GM Timer number 4 Time = 560.39 seconds VMIX_COEFFICIENTS_KPP Timer number 5 Time = 29.92 seconds VMIX_EXPLICIT_TRACER Timer number 6 Time = 14.59 seconds VMIX_EXPLICIT_MOMENTUM Timer number 7 Time = 93.12 seconds VMIX_IMPLICIT_TRACER Timer number 8 Time = 22.31 seconds VMIX_IMPLICIT_MOMENTUM Timer number 9 Time = 3.26 seconds COMPUTE_COSZ Timer number 10 Time = 41.18 seconds ADVECTION_MOMENTUM Timer number 11 Time = 208.56 seconds ADVECTION_TRACER_UPWIND3 Timer number 12 Time = 13.02 seconds MOC Timer number 13 Time = 12.92 seconds TRACER_TRANSPORTS Timer number 14 Time = 224.07 seconds TAVG_WRITE_STD Timer number 15 Time = 30.24 seconds TAVG_WRITE_NONSTD Timer number 16 Time = 12.34 seconds TAVG_CCSM_DIAGS_BSF Timer number 17 Time = 13.02 seconds TAVG_CCSM_DIAGS_MOC Timer number 18 Time = 12.92 seconds TAVG_CCSM_DIAGS_TRANS Timer number 19 Time = 3219.37 seconds STEP Timer number 20 Time = 2731.44 seconds BAROCLINIC Timer number 21 Time = 370.21 seconds BAROTROPIC Timer number 22 Time = 66.08 seconds 3D-UPDATE Timer number 23 Time = 3517.13 seconds TOTAL Timer number 24 Time = 295.21 seconds OUTPUT Timer number 25 Time = 295.16 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.0079-01-01-00000 (diag_transport) file written: /ptmp/mai/b40.1850.track1.1deg.006/run/b40.1850.track1.1deg.006.pop.dt.0079-01-01-00000 AFTER CALL IN tracer_budgets (final): ===================================== volume_t (cm^3) = 0.132514028744E+25 SUM [volume*T] (C cm^3) = 0.465916614883E+25 SUM [volume*S] (ppt cm^3) = 0.460108567017E+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 = 0.714327158763E-13 FW flux = 0.000000000000E+00 Imbalance = -.714327158763E-13 Imbalance = -tendency + FW flux HEAT BUDGET FOR THE GIVEN TAVG INTERVAL (W/m^2): ------------------------------------------------ tendency = -.225099628901E+02 SHF flux = -.226454615788E+02 ice formation = 0.135498991953E+00 FW heat content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = 0.303234980653E-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 = 0.529548872777E-05 SFWF flux = 0.565473216849E-05 ice formation = -.359243367135E-06 FW salt content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = 0.735816729304E-13 Imbalance = -tendency + SFWF flux + ice formation + FW salt content + free-srf non-consv. Global Time Averages: 08-01-0079 00:00:00 KAPPA_ISOP: 3550960.99436120875 KAPPA_THIC: 4103891.98251721822 HOR_DIFF: 598199.784759191331 DIA_DEPTH: 7076.35796462764574 TLT: 391.964113944010649 INT_DEPTH: 7468.31708983201406 UISOP: 0.455960558966854484E-04 VISOP: -0.364661277567358594E-03 WISOP: 0.118926082262042771E-12 ADVT_ISOP: -0.331757777704550417E-10 ADVS_ISOP: -0.292810406488050498E-14 VNT_ISOP: -0.990405145548124903E-09 VNS_ISOP: -0.223273246088239149E-11 USUBM: -0.172487921385186620E-05 VSUBM: -0.258131830932864954E-04 WSUBM: -0.641791924732145793E-09 HLS_SUBM: 709775.846236116253 ADVT_SUBM: -0.509054646789410226E-12 ADVS_SUBM: 0.177023969935970049E-15 VNT_SUBM: -0.190827964080216553E-09 VNS_SUBM: -0.154399243072758441E-12 HDIFT: -0.147265931256840933E-11 HDIFS: 0.476404060164549526E-16 QSW_HBL: 128.754855060486136 KVMIX: 1.35082453510724743 TPOWER: 0.221446296981461018E-05 UVEL: 0.321656305653297780 VVEL: 0.141731918307093211E-02 TEMP: 3.51616073335738344 dTEMP_POS_2D: 0.893672905657477562E-01 dTEMP_NEG_2D: -0.698246403178017228E-01 SALT: 0.347215300316526948E-01 RHO: 1.03743398330688441 RESID_T: 0.000000000000000000E+00 RESID_S: 0.000000000000000000E+00 SU: 115374.596600992489 SV: 479.243839140507362 SSH: 0.487888514681163318E-04 SHF: -22.6454615788265556 SHF_QSW: 150.256319169011050 SFWF: 0.565473216848650867E-05 TAUX: 0.148939411314737702 TAUY: 0.636990210572847548E-01 FW: 0.000000000000000000E+00 TFW_T: 0.000000000000000000E+00 TFW_S: 0.000000000000000000E+00 EVAP_F: -0.406949423760773741E-04 PREC_F: 0.370907022970292936E-04 SNOW_F: 0.921575566351044209E-06 MELT_F: 0.481331760329678483E-05 ROFF_F: 0.444867103776811758E-05 IOFF_F: 0.361417217262525242E-06 SALT_F: 0.126458703014972527E-07 SENH_F: -14.1798123758324142 LWUP_F: -386.223347503803723 LWDN_F: 331.507780879174049 MELTH_F: -1.80021361323478635 IFRAC: 0.797444095861836177E-01 IAGE: 217.035727995457705 WVEL: 0.696857668233417523E-06 UET: 0.414524646373266827E-07 VNT: -0.157257882983271513E-07 WTT: -0.208089443640209621E-07 UES: 0.158582042704928366E-08 VNS: 0.149935929724125429E-11 WTS: 0.350339738393288973E-12 ADVT: 0.316837872231989962E-11 ADVS: -0.443352243477279925E-14 PV: -0.373624766498657661E-13 Q: -0.975961834464864037E-08 PD: 1.02752331135020558 QSW_HTP: 111.151925078885284 QFLUX: 0.135498991953433706 HMXL: 7077.15657337728953 XMXL: 8104.90760684705310 TMXL: 5847.44695886931822 HBLT: 5171.35890622451552 XBLT: 8062.32267523720020 TBLT: 1004.77333401268606 BSF: 0.000000000000000000E+00 convergence info from pcg_diag_bsf: iter = 0 rms_resid = 0.101808224692090832 iter = 100 rms_resid = 0.425831942985446105E-02 iter = 200 rms_resid = 0.916459871935192778E-03 iter = 300 rms_resid = 0.376086093389123288E-03 iter = 400 rms_resid = 0.279182258024640606E-03 iter = 500 rms_resid = 0.201225651687709383E-03 iter = 600 rms_resid = 0.495643974235381114E-04 iter = 700 rms_resid = 0.144294376656898228E-04 iter = 800 rms_resid = 0.193236453859236934E-05 iter = 900 rms_resid = 0.158768686398357487E-06 Local Time- and Space-Averages for Nino Regions: 00:00:00 0079-08-01 NINO_1_PLUS_2: 25.2468379015896112 NINO_3: 25.9384989544258602 NINO_3_POINT_4: 27.6891596035242920 NINO_4: 29.0148553428751192 tavg file written: ./b40.1850.track1.1deg.006.pop.h.0079-07.nc (time_manager) ocn date 0079-aug-02, 0.000000E+00 sec (time_manager) ocn date 0079-aug-03, 0.000000E+00 sec (time_manager) ocn date 0079-aug-04, 0.000000E+00 sec (time_manager) ocn date 0079-aug-05, 0.000000E+00 sec (time_manager) ocn date 0079-aug-06, 0.000000E+00 sec (time_manager) ocn date 0079-aug-07, 0.000000E+00 sec (time_manager) ocn date 0079-aug-08, 0.000000E+00 sec (time_manager) ocn date 0079-aug-09, 0.000000E+00 sec (time_manager) ocn date 0079-aug-10, 0.000000E+00 sec (time_manager) ocn date 0079-aug-11, 0.000000E+00 sec (time_manager) ocn date 0079-aug-12, 0.000000E+00 sec (time_manager) ocn date 0079-aug-13, 0.000000E+00 sec (time_manager) ocn date 0079-aug-14, 0.000000E+00 sec (time_manager) ocn date 0079-aug-15, 0.000000E+00 sec (time_manager) ocn date 0079-aug-16, 0.000000E+00 sec (time_manager) ocn date 0079-aug-17, 0.000000E+00 sec (time_manager) ocn date 0079-aug-18, 0.000000E+00 sec (time_manager) ocn date 0079-aug-19, 0.000000E+00 sec (time_manager) ocn date 0079-aug-20, 0.000000E+00 sec (time_manager) ocn date 0079-aug-21, 0.000000E+00 sec (time_manager) ocn date 0079-aug-22, 0.000000E+00 sec (time_manager) ocn date 0079-aug-23, 0.000000E+00 sec (time_manager) ocn date 0079-aug-24, 0.000000E+00 sec (time_manager) ocn date 0079-aug-25, 0.000000E+00 sec (time_manager) ocn date 0079-aug-26, 0.000000E+00 sec (time_manager) ocn date 0079-aug-27, 0.000000E+00 sec (time_manager) ocn date 0079-aug-28, 0.000000E+00 sec (time_manager) ocn date 0079-aug-29, 0.000000E+00 sec (time_manager) ocn date 0079-aug-30, 0.000000E+00 sec (time_manager) ocn date 0079-aug-31, 0.000000E+00 sec (time_manager) ocn date 0079-sep-01, 0.000000E+00 sec Step number : 717800 Date : 01 sep 0079 Hour : 0 Minute : 0 Second : 0 Time(years) : 78.665753 max. cfl number for zonal advection : 8.6261E-02 20 371 33 max. cfl number for meridional advection : 1.1472E-01 312 204 1 max. cfl number for vertical advection : 3.6252E-01 298 46 14 max. cfl number for total advection : 3.7077E-01 298 46 14 max. cfl number for horizontal tracer mixing : 6.0948E-01 175 380 2 max. cfl number for horiz. momentum mixing : 1.2672E-01 318 214 56 K.E. diagnostics: mean K.E. : 9.091606387103635E+00 K.E. change from horiz. visc. :-4.090311461735071E-06 K.E. change from vert. visc. : 7.589138053230040E-06 K.E. change from wind stress : 2.721074209796335E-05 advective K.E. balance :-7.853452101802618E-10 :-2.685572841906033E-11 P.E. verses pressure work : 7.140389455536017E-04 :-5.968935074993484E-06 surface-pressure contribution :-7.060407809165860E-07 : 6.456486076284097E-07 Tracer diagnostics: mean value of tracer 1 : 3.514309407564804E+00 abs change in tracer 1 : 1.380543987132185E-07 mean change in tracer 1 : 1.861600409097564E-09 mean change in tracer 1 from advection : 3.773185411423198E-25 mean change in tracer 1 from horiz. diff.: 9.138183418290558E-26 mean change in tracer 1 from vert. diff.:-1.153917534863765E-08 mean change in tracer 1 from sources : 1.333506864699536E-08 surface flux of tracer 1 : 0.000000000000000E+00 mean value of tracer 2 : 3.472143081564546E+01 abs change in tracer 2 : 1.329251095500694E-11 mean change in tracer 2 : 7.269724331735337E-15 mean change in tracer 2 from advection :-1.151484805732177E-29 mean change in tracer 2 from horiz. diff.:-3.562406117733923E-29 mean change in tracer 2 from vert. diff.:-1.751404623777536E-14 mean change in tracer 2 from sources : 1.475853478086487E-31 surface flux of tracer 2 : 0.000000000000000E+00 mean value of tracer 3 : 2.170725619918190E+02 abs change in tracer 3 : 2.467960172602518E-06 mean change in tracer 3 : 1.419657739688982E-08 mean change in tracer 3 from advection :-4.980604743078622E-23 mean change in tracer 3 from horiz. diff.: 1.414944529283699E-25 mean change in tracer 3 from vert. diff.: 9.903043160107806E-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: 4.967135640125484E-05 residual, scans : 7.261312661545952E-14 240 Timing information: Timer number 1 Time = 246.99 seconds HMIX_MOMENTUM_ANISO Timer number 2 Time = 220.95 seconds HMIX_TRACER_GM_NLOOP Timer number 3 Time = 1233.90 seconds HMIX_TRACER_GM Timer number 4 Time = 641.47 seconds VMIX_COEFFICIENTS_KPP Timer number 5 Time = 34.30 seconds VMIX_EXPLICIT_TRACER Timer number 6 Time = 16.72 seconds VMIX_EXPLICIT_MOMENTUM Timer number 7 Time = 106.78 seconds VMIX_IMPLICIT_TRACER Timer number 8 Time = 25.62 seconds VMIX_IMPLICIT_MOMENTUM Timer number 9 Time = 3.74 seconds COMPUTE_COSZ Timer number 10 Time = 47.15 seconds ADVECTION_MOMENTUM Timer number 11 Time = 239.02 seconds ADVECTION_TRACER_UPWIND3 Timer number 12 Time = 15.18 seconds MOC Timer number 13 Time = 15.07 seconds TRACER_TRANSPORTS Timer number 14 Time = 260.86 seconds TAVG_WRITE_STD Timer number 15 Time = 32.98 seconds TAVG_WRITE_NONSTD Timer number 16 Time = 14.38 seconds TAVG_CCSM_DIAGS_BSF Timer number 17 Time = 15.18 seconds TAVG_CCSM_DIAGS_MOC Timer number 18 Time = 15.07 seconds TAVG_CCSM_DIAGS_TRANS Timer number 19 Time = 3691.44 seconds STEP Timer number 20 Time = 3130.43 seconds BAROCLINIC Timer number 21 Time = 424.84 seconds BAROTROPIC Timer number 22 Time = 75.87 seconds 3D-UPDATE Timer number 23 Time = 4035.73 seconds TOTAL Timer number 24 Time = 341.37 seconds OUTPUT Timer number 25 Time = 341.33 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.0079-01-01-00000 (diag_transport) file written: /ptmp/mai/b40.1850.track1.1deg.006/run/b40.1850.track1.1deg.006.pop.dt.0079-01-01-00000 AFTER CALL IN tracer_budgets (final): ===================================== volume_t (cm^3) = 0.132514028745E+25 SUM [volume*T] (C cm^3) = 0.465694914281E+25 SUM [volume*S] (ppt cm^3) = 0.460107668443E+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 = 0.186463254846E-12 FW flux = 0.000000000000E+00 Imbalance = -.186463254846E-12 Imbalance = -tendency + FW flux HEAT BUDGET FOR THE GIVEN TAVG INTERVAL (W/m^2): ------------------------------------------------ tendency = -.939698325458E+01 SHF flux = -.951868325709E+01 ice formation = 0.121699400428E+00 FW heat content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = -.602084352694E-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 = 0.267715178171E-05 SFWF flux = 0.299980872125E-05 ice formation = -.322657030564E-06 FW salt content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = -.910210917152E-13 Imbalance = -tendency + SFWF flux + ice formation + FW salt content + free-srf non-consv. Global Time Averages: 09-01-0079 00:00:00 KAPPA_ISOP: 3860004.55222315667 KAPPA_THIC: 4482819.52503528725 HOR_DIFF: 667235.401024251478 DIA_DEPTH: 7896.46132300442878 TLT: 444.782469054217245 INT_DEPTH: 8341.23679942280614 UISOP: 0.402037843943842178E-04 VISOP: -0.358980752385889494E-03 WISOP: -0.288815484202717354E-13 ADVT_ISOP: -0.137260242185278801E-11 ADVS_ISOP: -0.109941763220091902E-14 VNT_ISOP: -0.126080508581443525E-08 VNS_ISOP: -0.211686625180679339E-11 USUBM: -0.734361106727287918E-05 VSUBM: -0.363041843059335554E-04 WSUBM: -0.537528420336682668E-09 HLS_SUBM: 741537.627365661669 ADVT_SUBM: 0.930099262643265646E-12 ADVS_SUBM: 0.112685416943649733E-15 VNT_SUBM: -0.448598307604915598E-09 VNS_SUBM: -0.218863362225268687E-12 HDIFT: 0.220005197597804498E-11 HDIFS: 0.156999866308511402E-14 QSW_HBL: 137.932256214766909 KVMIX: 1.35387203872140938 TPOWER: 0.221930123923363415E-05 UVEL: 0.320748262271388196 VVEL: 0.118560249335798317E-02 TEMP: 3.51322317511023829 dTEMP_POS_2D: 0.844449061341796120E-01 dTEMP_NEG_2D: -0.643932330713629791E-01 SALT: 0.347214228316069518E-01 RHO: 1.03743439579904351 RESID_T: 0.000000000000000000E+00 RESID_S: 0.000000000000000000E+00 SU: 115050.059459151322 SV: 397.237156347264545 SSH: 0.493274175465194993E-04 SHF: -9.51868325709228991 SHF_QSW: 160.090901011571901 SFWF: 0.299980872125236016E-05 TAUX: 0.155567320729848801 TAUY: 0.547005871504032126E-01 FW: 0.000000000000000000E+00 TFW_T: 0.000000000000000000E+00 TFW_S: 0.000000000000000000E+00 EVAP_F: -0.391434963782129957E-04 PREC_F: 0.353473632993806428E-04 SNOW_F: 0.102894423061199141E-05 MELT_F: 0.297832094490098565E-05 ROFF_F: 0.370185431148275334E-05 IOFF_F: 0.318235886546192972E-06 SALT_F: 0.702568718222852157E-08 SENH_F: -13.9743742993281472 LWUP_F: -386.680117234366946 LWDN_F: 330.948176609602058 MELTH_F: -1.55583307810517835 IFRAC: 0.775691299821459207E-01 IAGE: 217.058859271851247 WVEL: 0.722721857338642676E-06 UET: 0.617412796498770685E-08 VNT: -0.375817273689086774E-07 WTT: -0.182643151066835996E-07 UES: 0.156824198551953871E-08 VNS: 0.373313908292164443E-11 WTS: 0.104871439013850965E-11 ADVT: 0.622081314776197786E-11 ADVS: -0.215444337832657885E-14 PV: -0.670497526471206081E-13 Q: -0.975529164924709176E-08 PD: 1.02752371228040440 QSW_HTP: 118.308023941941272 QFLUX: 0.121699400428105689 HMXL: 7897.60778418307473 XMXL: 8894.35334451680501 TMXL: 5875.55204319416134 HBLT: 5161.05134881515187 XBLT: 8597.38323290044536 TBLT: 989.947662605631535 BSF: 0.000000000000000000E+00 convergence info from pcg_diag_bsf: iter = 0 rms_resid = 0.103450282010078512 iter = 100 rms_resid = 0.432623947472346362E-02 iter = 200 rms_resid = 0.924279123274131644E-03 iter = 300 rms_resid = 0.408531255274438966E-03 iter = 400 rms_resid = 0.289730426932639448E-03 iter = 500 rms_resid = 0.202280646542076815E-03 iter = 600 rms_resid = 0.507802164459759275E-04 iter = 700 rms_resid = 0.147864615171409732E-04 iter = 800 rms_resid = 0.197563836671643553E-05 iter = 900 rms_resid = 0.160406833924866584E-06 Local Time- and Space-Averages for Nino Regions: 00:00:00 0079-09-01 NINO_1_PLUS_2: 24.4663557247317804 NINO_3: 25.7633420703014302 NINO_3_POINT_4: 27.3827384733438741 NINO_4: 28.7926925641221345 tavg file written: ./b40.1850.track1.1deg.006.pop.h.0079-08.nc (time_manager) ocn date 0079-sep-02, 0.000000E+00 sec (time_manager) ocn date 0079-sep-03, 0.000000E+00 sec (time_manager) ocn date 0079-sep-04, 0.000000E+00 sec (time_manager) ocn date 0079-sep-05, 0.000000E+00 sec (time_manager) ocn date 0079-sep-06, 0.000000E+00 sec (time_manager) ocn date 0079-sep-07, 0.000000E+00 sec (time_manager) ocn date 0079-sep-08, 0.000000E+00 sec (time_manager) ocn date 0079-sep-09, 0.000000E+00 sec ovf_loc_prd: nsteps_total= 718017 ovf= 3 swap ovf UV old/new prd set old/new= 1 5 (time_manager) ocn date 0079-sep-10, 0.000000E+00 sec ovf_loc_prd: nsteps_total= 718027 ovf= 3 swap ovf UV old/new prd set old/new= 5 1 ovf_loc_prd: nsteps_total= 718045 ovf= 3 swap ovf UV old/new prd set old/new= 1 5 ovf_loc_prd: nsteps_total= 718047 ovf= 3 swap ovf UV old/new prd set old/new= 5 1 ovf_loc_prd: nsteps_total= 718048 ovf= 3 swap ovf UV old/new prd set old/new= 1 5 (time_manager) ocn date 0079-sep-11, 0.000000E+00 sec ovf_loc_prd: nsteps_total= 718050 ovf= 3 swap ovf UV old/new prd set old/new= 5 1 (time_manager) ocn date 0079-sep-12, 0.000000E+00 sec (time_manager) ocn date 0079-sep-13, 0.000000E+00 sec (time_manager) ocn date 0079-sep-14, 0.000000E+00 sec (time_manager) ocn date 0079-sep-15, 0.000000E+00 sec (time_manager) ocn date 0079-sep-16, 0.000000E+00 sec (time_manager) ocn date 0079-sep-17, 0.000000E+00 sec (time_manager) ocn date 0079-sep-18, 0.000000E+00 sec (time_manager) ocn date 0079-sep-19, 0.000000E+00 sec (time_manager) ocn date 0079-sep-20, 0.000000E+00 sec ovf_loc_prd: nsteps_total= 718286 ovf= 3 swap ovf UV old/new prd set old/new= 1 5 ovf_loc_prd: nsteps_total= 718288 ovf= 3 swap ovf UV old/new prd set old/new= 5 1 ovf_loc_prd: nsteps_total= 718289 ovf= 3 swap ovf UV old/new prd set old/new= 1 5 ovf_loc_prd: nsteps_total= 718291 ovf= 3 swap ovf UV old/new prd set old/new= 5 1 (time_manager) ocn date 0079-sep-21, 0.000000E+00 sec (time_manager) ocn date 0079-sep-22, 0.000000E+00 sec (time_manager) ocn date 0079-sep-23, 0.000000E+00 sec (time_manager) ocn date 0079-sep-24, 0.000000E+00 sec (time_manager) ocn date 0079-sep-25, 0.000000E+00 sec (time_manager) ocn date 0079-sep-26, 0.000000E+00 sec (time_manager) ocn date 0079-sep-27, 0.000000E+00 sec (time_manager) ocn date 0079-sep-28, 0.000000E+00 sec (time_manager) ocn date 0079-sep-29, 0.000000E+00 sec (time_manager) ocn date 0079-sep-30, 0.000000E+00 sec (time_manager) ocn date 0079-oct-01, 0.000000E+00 sec Step number : 718550 Date : 01 oct 0079 Hour : 0 Minute : 0 Second : 0 Time(years) : 78.747945 max. cfl number for zonal advection : 8.8563E-02 20 371 33 max. cfl number for meridional advection : 9.8744E-02 312 204 1 max. cfl number for vertical advection : 2.6840E-01 298 46 14 max. cfl number for total advection : 2.7603E-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. : 8.920305196625327E+00 K.E. change from horiz. visc. :-3.754008358490281E-06 K.E. change from vert. visc. : 1.034389704039681E-05 K.E. change from wind stress : 2.854174272639396E-05 advective K.E. balance :-1.994568331340134E-09 : 1.379495647699669E-09 P.E. verses pressure work : 7.349778475694915E-04 :-5.868404599085574E-06 surface-pressure contribution : 1.060748896538882E-06 :-1.122230358979210E-06 Tracer diagnostics: mean value of tracer 1 : 3.515391394559956E+00 abs change in tracer 1 : 1.265972604269176E-07 mean change in tracer 1 : 3.405160471249043E-09 mean change in tracer 1 from advection :-2.405405699782289E-24 mean change in tracer 1 from horiz. diff.:-4.126921543744123E-26 mean change in tracer 1 from vert. diff.:-1.161436427787716E-08 mean change in tracer 1 from sources : 1.488995641090542E-08 surface flux of tracer 1 : 0.000000000000000E+00 mean value of tracer 2 : 3.472144790771769E+01 abs change in tracer 2 : 1.211164067168642E-11 mean change in tracer 2 : 6.222195704212628E-14 mean change in tracer 2 from advection :-4.836236184075144E-28 mean change in tracer 2 from horiz. diff.:-5.685456228302624E-29 mean change in tracer 2 from vert. diff.: 1.335065633494687E-14 mean change in tracer 2 from sources :-2.602663403543185E-31 surface flux of tracer 2 : 0.000000000000000E+00 mean value of tracer 3 : 2.171089762756065E+02 abs change in tracer 3 : 2.208392279193306E-06 mean change in tracer 3 : 1.638758897482502E-08 mean change in tracer 3 from advection :-1.109316510958420E-22 mean change in tracer 3 from horiz. diff.:-5.140965123064108E-24 mean change in tracer 3 from vert. diff.:-4.081162796246235E-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: 4.968787689923140E-05 residual, scans : 8.228704908181596E-14 240 Timing information: Timer number 1 Time = 277.72 seconds HMIX_MOMENTUM_ANISO Timer number 2 Time = 248.22 seconds HMIX_TRACER_GM_NLOOP Timer number 3 Time = 1385.56 seconds HMIX_TRACER_GM Timer number 4 Time = 720.00 seconds VMIX_COEFFICIENTS_KPP Timer number 5 Time = 38.54 seconds VMIX_EXPLICIT_TRACER Timer number 6 Time = 18.78 seconds VMIX_EXPLICIT_MOMENTUM Timer number 7 Time = 119.95 seconds VMIX_IMPLICIT_TRACER Timer number 8 Time = 28.80 seconds VMIX_IMPLICIT_MOMENTUM Timer number 9 Time = 4.20 seconds COMPUTE_COSZ Timer number 10 Time = 52.92 seconds ADVECTION_MOMENTUM Timer number 11 Time = 268.51 seconds ADVECTION_TRACER_UPWIND3 Timer number 12 Time = 17.34 seconds MOC Timer number 13 Time = 17.21 seconds TRACER_TRANSPORTS Timer number 14 Time = 299.30 seconds TAVG_WRITE_STD Timer number 15 Time = 36.06 seconds TAVG_WRITE_NONSTD Timer number 16 Time = 16.42 seconds TAVG_CCSM_DIAGS_BSF Timer number 17 Time = 17.34 seconds TAVG_CCSM_DIAGS_MOC Timer number 18 Time = 17.22 seconds TAVG_CCSM_DIAGS_TRANS Timer number 19 Time = 4146.44 seconds STEP Timer number 20 Time = 3517.03 seconds BAROCLINIC Timer number 21 Time = 476.56 seconds BAROTROPIC Timer number 22 Time = 85.21 seconds 3D-UPDATE Timer number 23 Time = 4539.20 seconds TOTAL Timer number 24 Time = 389.49 seconds OUTPUT Timer number 25 Time = 389.43 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.0079-01-01-00000 (diag_transport) file written: /ptmp/mai/b40.1850.track1.1deg.006/run/b40.1850.track1.1deg.006.pop.dt.0079-01-01-00000 AFTER CALL IN tracer_budgets (final): ===================================== volume_t (cm^3) = 0.132514028745E+25 SUM [volume*T] (C cm^3) = 0.465837907228E+25 SUM [volume*S] (ppt cm^3) = 0.460107894166E+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 = 0.639490241975E-14 FW flux = 0.000000000000E+00 Imbalance = -.639490241975E-14 Imbalance = -tendency + FW flux HEAT BUDGET FOR THE GIVEN TAVG INTERVAL (W/m^2): ------------------------------------------------ tendency = 0.626291673623E+01 SHF flux = 0.613313101428E+01 ice formation = 0.129785580251E+00 FW heat content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = -.141701930773E-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 = -.694920300717E-06 SFWF flux = -.350824907148E-06 ice formation = -.344095614166E-06 FW salt content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = -.220596608878E-12 Imbalance = -tendency + SFWF flux + ice formation + FW salt content + free-srf non-consv. Global Time Averages: 10-01-0079 00:00:00 KAPPA_ISOP: 4469782.62850062083 KAPPA_THIC: 5095260.67584210820 HOR_DIFF: 669811.087322235107 DIA_DEPTH: 7889.72106495307798 TLT: 524.903880128201195 INT_DEPTH: 8414.61902814884888 UISOP: 0.584925037581488107E-04 VISOP: -0.383000579910175800E-03 WISOP: -0.301410485473413112E-14 ADVT_ISOP: 0.235907048411857613E-10 ADVS_ISOP: -0.281467236152499988E-14 VNT_ISOP: -0.220208301865370495E-08 VNS_ISOP: -0.222352124541787108E-11 USUBM: 0.360762220804056364E-05 VSUBM: -0.394623920001552797E-04 WSUBM: 0.254117619808764521E-09 HLS_SUBM: 801815.626928312355 ADVT_SUBM: -0.184218302470253553E-11 ADVS_SUBM: -0.235771963972558738E-15 VNT_SUBM: -0.752840642341985834E-09 VNS_SUBM: -0.260254663717233271E-12 HDIFT: 0.440090058673393646E-10 HDIFS: -0.334388838943390304E-14 QSW_HBL: 149.529836012762587 KVMIX: 1.34553338071696427 TPOWER: 0.221843467585763728E-05 UVEL: 0.310878905706912900 VVEL: 0.113508313956727446E-02 TEMP: 3.51286989170863961 dTEMP_POS_2D: 0.792340937752804841E-01 dTEMP_NEG_2D: -0.606905007902146104E-01 SALT: 0.347214029180599668E-01 RHO: 1.03743423167661919 RESID_T: 0.000000000000000000E+00 RESID_S: 0.000000000000000000E+00 SU: 111510.169586270495 SV: 381.252522416260376 SSH: 0.498529464885467616E-04 SHF: 6.13313101428145302 SHF_QSW: 174.224868617516364 SFWF: -0.350824907147611135E-06 TAUX: 0.147252743879781406 TAUY: 0.357121141277167917E-01 FW: 0.000000000000000000E+00 TFW_T: 0.000000000000000000E+00 TFW_S: 0.000000000000000000E+00 EVAP_F: -0.383182152321300326E-04 PREC_F: 0.337476012752308452E-04 SNOW_F: 0.978512934365224031E-06 MELT_F: 0.796239188725911849E-06 ROFF_F: 0.309582736746007561E-05 IOFF_F: 0.282955151735836977E-06 SALT_F: -0.155342437469285372E-08 SENH_F: -13.2684207990776368 LWUP_F: -386.628486774280418 LWDN_F: 329.128500701275300 MELTH_F: -1.06852667571306426 IFRAC: 0.775603988741258715E-01 IAGE: 217.090500983328042 WVEL: 0.748960486917781342E-06 UET: -0.316619124007215408E-07 VNT: -0.296763991657092893E-07 WTT: -0.188737244000198281E-07 UES: 0.151616524729028316E-08 VNS: -0.148148525217630438E-11 WTS: 0.111709567019995015E-11 ADVT: 0.663742183242665401E-10 ADVS: -0.100227115349294021E-14 PV: -0.646411879028417234E-13 Q: -0.972214512571058586E-08 PD: 1.02752353094355664 QSW_HTP: 128.171554198367744 QFLUX: 0.129785580251457894 HMXL: 7890.91000016475755 XMXL: 9616.08776062133256 TMXL: 4571.55137441807619 HBLT: 4617.61500121313293 XBLT: 8451.66333423879041 TBLT: 961.413919234410628 BSF: 0.000000000000000000E+00 convergence info from pcg_diag_bsf: iter = 0 rms_resid = 0.980371488163226945E-01 iter = 100 rms_resid = 0.414384541409653587E-02 iter = 200 rms_resid = 0.898030572890191089E-03 iter = 300 rms_resid = 0.420468622464744422E-03 iter = 400 rms_resid = 0.302720646999246308E-03 iter = 500 rms_resid = 0.184498760006109920E-03 iter = 600 rms_resid = 0.471393963712127858E-04 iter = 700 rms_resid = 0.137920804156433684E-04 iter = 800 rms_resid = 0.182511160410468677E-05 iter = 900 rms_resid = 0.151666372160886340E-06 Local Time- and Space-Averages for Nino Regions: 00:00:00 0079-10-01 NINO_1_PLUS_2: 24.0043958321669422 NINO_3: 25.5838002239516982 NINO_3_POINT_4: 27.0597013670245730 NINO_4: 28.7788572318058407 tavg file written: ./b40.1850.track1.1deg.006.pop.h.0079-09.nc (time_manager) ocn date 0079-oct-02, 0.000000E+00 sec (time_manager) ocn date 0079-oct-03, 0.000000E+00 sec (time_manager) ocn date 0079-oct-04, 0.000000E+00 sec (time_manager) ocn date 0079-oct-05, 0.000000E+00 sec (time_manager) ocn date 0079-oct-06, 0.000000E+00 sec (time_manager) ocn date 0079-oct-07, 0.000000E+00 sec (time_manager) ocn date 0079-oct-08, 0.000000E+00 sec (time_manager) ocn date 0079-oct-09, 0.000000E+00 sec (time_manager) ocn date 0079-oct-10, 0.000000E+00 sec (time_manager) ocn date 0079-oct-11, 0.000000E+00 sec (time_manager) ocn date 0079-oct-12, 0.000000E+00 sec (time_manager) ocn date 0079-oct-13, 0.000000E+00 sec (time_manager) ocn date 0079-oct-14, 0.000000E+00 sec (time_manager) ocn date 0079-oct-15, 0.000000E+00 sec (time_manager) ocn date 0079-oct-16, 0.000000E+00 sec (time_manager) ocn date 0079-oct-17, 0.000000E+00 sec (time_manager) ocn date 0079-oct-18, 0.000000E+00 sec (time_manager) ocn date 0079-oct-19, 0.000000E+00 sec (time_manager) ocn date 0079-oct-20, 0.000000E+00 sec (time_manager) ocn date 0079-oct-21, 0.000000E+00 sec (time_manager) ocn date 0079-oct-22, 0.000000E+00 sec (time_manager) ocn date 0079-oct-23, 0.000000E+00 sec (time_manager) ocn date 0079-oct-24, 0.000000E+00 sec (time_manager) ocn date 0079-oct-25, 0.000000E+00 sec (time_manager) ocn date 0079-oct-26, 0.000000E+00 sec (time_manager) ocn date 0079-oct-27, 0.000000E+00 sec (time_manager) ocn date 0079-oct-28, 0.000000E+00 sec (time_manager) ocn date 0079-oct-29, 0.000000E+00 sec (time_manager) ocn date 0079-oct-30, 0.000000E+00 sec (time_manager) ocn date 0079-oct-31, 0.000000E+00 sec (time_manager) ocn date 0079-nov-01, 0.000000E+00 sec Step number : 719325 Date : 01 nov 0079 Hour : 0 Minute : 0 Second : 0 Time(years) : 78.832877 max. cfl number for zonal advection : 8.7856E-02 20 371 33 max. cfl number for meridional advection : 8.2016E-02 152 201 6 max. cfl number for vertical advection : 3.4522E-01 298 46 14 max. cfl number for total advection : 3.5354E-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. : 8.692425807167607E+00 K.E. change from horiz. visc. :-3.733871120788335E-06 K.E. change from vert. visc. : 9.297921415504106E-06 K.E. change from wind stress : 2.737590045118336E-05 advective K.E. balance :-2.098249373915122E-09 : 1.360468367523877E-09 P.E. verses pressure work : 7.365965438188720E-04 :-5.894873621211474E-06 surface-pressure contribution :-5.790028613531233E-07 : 5.083885454795349E-07 Tracer diagnostics: mean value of tracer 1 : 3.516841018092720E+00 abs change in tracer 1 : 1.393351612075796E-07 mean change in tracer 1 : 3.248129841162589E-09 mean change in tracer 1 from advection :-4.480657676065048E-24 mean change in tracer 1 from horiz. diff.:-5.895602205348747E-26 mean change in tracer 1 from vert. diff.:-1.228863510869960E-08 mean change in tracer 1 from sources : 1.544213793990341E-08 surface flux of tracer 1 : 0.000000000000000E+00 mean value of tracer 2 : 3.472149398986861E+01 abs change in tracer 2 : 1.364569594651707E-11 mean change in tracer 2 : 5.780638287196859E-14 mean change in tracer 2 from advection :-2.993860494903660E-28 mean change in tracer 2 from horiz. diff.:-1.403372106986091E-29 mean change in tracer 2 from vert. diff.: 2.211444514848294E-14 mean change in tracer 2 from sources :-1.156165275968660E-33 surface flux of tracer 2 : 0.000000000000000E+00 mean value of tracer 3 : 2.171574481624778E+02 abs change in tracer 3 : 2.417352474388321E-06 mean change in tracer 3 : 2.006909136094149E-08 mean change in tracer 3 from advection :-9.357499820329531E-23 mean change in tracer 3 from horiz. diff.:-7.074722646418496E-25 mean change in tracer 3 from vert. diff.:-9.136472252500879E-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: 4.919514382968166E-05 residual, scans : 6.852987126242616E-14 240 Timing information: Timer number 1 Time = 308.97 seconds HMIX_MOMENTUM_ANISO Timer number 2 Time = 276.47 seconds HMIX_TRACER_GM_NLOOP Timer number 3 Time = 1542.71 seconds HMIX_TRACER_GM Timer number 4 Time = 801.60 seconds VMIX_COEFFICIENTS_KPP Timer number 5 Time = 42.92 seconds VMIX_EXPLICIT_TRACER Timer number 6 Time = 20.93 seconds VMIX_EXPLICIT_MOMENTUM Timer number 7 Time = 133.58 seconds VMIX_IMPLICIT_TRACER Timer number 8 Time = 32.09 seconds VMIX_IMPLICIT_MOMENTUM Timer number 9 Time = 4.68 seconds COMPUTE_COSZ Timer number 10 Time = 58.97 seconds ADVECTION_MOMENTUM Timer number 11 Time = 299.00 seconds ADVECTION_TRACER_UPWIND3 Timer number 12 Time = 19.49 seconds MOC Timer number 13 Time = 19.36 seconds TRACER_TRANSPORTS Timer number 14 Time = 340.25 seconds TAVG_WRITE_STD Timer number 15 Time = 39.40 seconds TAVG_WRITE_NONSTD Timer number 16 Time = 18.46 seconds TAVG_CCSM_DIAGS_BSF Timer number 17 Time = 19.49 seconds TAVG_CCSM_DIAGS_MOC Timer number 18 Time = 19.36 seconds TAVG_CCSM_DIAGS_TRANS Timer number 19 Time = 4616.37 seconds STEP Timer number 20 Time = 3917.17 seconds BAROCLINIC Timer number 21 Time = 530.08 seconds BAROTROPIC Timer number 22 Time = 94.85 seconds 3D-UPDATE Timer number 23 Time = 5060.38 seconds TOTAL Timer number 24 Time = 440.37 seconds OUTPUT Timer number 25 Time = 440.31 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.0079-01-01-00000 (diag_transport) file written: /ptmp/mai/b40.1850.track1.1deg.006/run/b40.1850.track1.1deg.006.pop.dt.0079-01-01-00000 AFTER CALL IN tracer_budgets (final): ===================================== volume_t (cm^3) = 0.132514028744E+25 SUM [volume*T] (C cm^3) = 0.466030025014E+25 SUM [volume*S] (ppt cm^3) = 0.460108504653E+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 = -.183965607437E-12 FW flux = 0.000000000000E+00 Imbalance = 0.183965607437E-12 Imbalance = -tendency + FW flux HEAT BUDGET FOR THE GIVEN TAVG INTERVAL (W/m^2): ------------------------------------------------ tendency = 0.814308850122E+01 SHF flux = 0.798192722428E+01 ice formation = 0.161161564241E+00 FW heat content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = 0.287299728119E-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 = -.181884483797E-05 SFWF flux = -.139156362573E-05 ice formation = -.427281577198E-06 FW salt content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = -.364958755743E-12 Imbalance = -tendency + SFWF flux + ice formation + FW salt content + free-srf non-consv. Global Time Averages: 11-01-0079 00:00:00 KAPPA_ISOP: 4427315.78265245911 KAPPA_THIC: 4944989.98652016558 HOR_DIFF: 562387.913260847447 DIA_DEPTH: 6594.20003573561098 TLT: 487.136625546074242 INT_DEPTH: 7081.33467252646733 UISOP: 0.572939428154693541E-04 VISOP: -0.396028994374303639E-03 WISOP: -0.111829447249459635E-12 ADVT_ISOP: 0.666895587485627770E-11 ADVS_ISOP: 0.308664306565304888E-14 VNT_ISOP: -0.208149195182960587E-08 VNS_ISOP: -0.222513108451104713E-11 USUBM: 0.849479903951091839E-05 VSUBM: -0.211322298421090940E-04 WSUBM: 0.188793115300905815E-09 HLS_SUBM: 832408.799820989603 ADVT_SUBM: -0.170705065680524969E-11 ADVS_SUBM: 0.684611787005612533E-16 VNT_SUBM: -0.493878679099326631E-09 VNS_SUBM: -0.125741316714775853E-12 HDIFT: 0.120884269793445799E-10 HDIFS: -0.602275302952639369E-14 QSW_HBL: 158.275737232766602 KVMIX: 1.34157523821980518 TPOWER: 0.220239977451634885E-05 UVEL: 0.313767986888986106 VVEL: 0.100576816221654161E-02 TEMP: 3.51430793197381863 dTEMP_POS_2D: 0.879500609403330996E-01 dTEMP_NEG_2D: -0.706559317095121348E-01 SALT: 0.347214415888758912E-01 RHO: 1.03743391935048379 RESID_T: 0.000000000000000000E+00 RESID_S: 0.000000000000000000E+00 SU: 112547.010881707116 SV: 327.943560568860221 SSH: 0.494959921701908605E-04 SHF: 7.98192722428125734 SHF_QSW: 184.308709781915951 SFWF: -0.139156362573217382E-05 TAUX: 0.162321601225781209 TAUY: 0.244334030046194873E-02 FW: 0.000000000000000000E+00 TFW_T: 0.000000000000000000E+00 TFW_S: 0.000000000000000000E+00 EVAP_F: -0.403498193061810413E-04 PREC_F: 0.356606664041139804E-04 SNOW_F: 0.993373538036551407E-06 MELT_F: 0.638646734673131342E-07 ROFF_F: 0.285541826662781721E-05 IOFF_F: 0.257723725859928091E-06 SALT_F: -0.418424456617532561E-08 SENH_F: -14.6181949171968828 LWUP_F: -385.249545305671916 LWDN_F: 325.939758500704272 MELTH_F: -1.06641013657723116 IFRAC: 0.812944908943525335E-01 IAGE: 217.131717421185641 WVEL: 0.763400911534749147E-06 UET: 0.901476665111725554E-08 VNT: -0.270579816412143772E-07 WTT: -0.162491065889873438E-07 UES: 0.155096077210451840E-08 VNS: -0.159885616068576867E-11 WTS: 0.129474769938037932E-11 ADVT: 0.906751661229195093E-10 ADVS: 0.672037147553480481E-14 PV: -0.349599245866921479E-13 Q: -0.964961626953756897E-08 PD: 1.02752319426400995 QSW_HTP: 135.294129346783592 QFLUX: 0.161161564240635546 HMXL: 6594.94447159841638 XMXL: 9273.24347532867432 TMXL: 3828.69264560074271 HBLT: 4098.20055096951637 XBLT: 7497.00413927446061 TBLT: 891.417995577176953 BSF: 0.000000000000000000E+00 convergence info from pcg_diag_bsf: iter = 0 rms_resid = 0.106120193622388129 iter = 100 rms_resid = 0.417101276331274633E-02 iter = 200 rms_resid = 0.860402643041710069E-03 iter = 300 rms_resid = 0.393445033699649812E-03 iter = 400 rms_resid = 0.285601688591365153E-03 iter = 500 rms_resid = 0.188928067521399433E-03 iter = 600 rms_resid = 0.478031048644949388E-04 iter = 700 rms_resid = 0.149704746783763248E-04 iter = 800 rms_resid = 0.175028502198521661E-05 iter = 900 rms_resid = 0.148709968609763536E-06 Local Time- and Space-Averages for Nino Regions: 00:00:00 0079-11-01 NINO_1_PLUS_2: 23.9955846737648919 NINO_3: 25.4080185997849277 NINO_3_POINT_4: 26.8788831791027327 NINO_4: 28.9267861530858035 tavg file written: ./b40.1850.track1.1deg.006.pop.h.0079-10.nc (time_manager) ocn date 0079-nov-02, 0.000000E+00 sec (time_manager) ocn date 0079-nov-03, 0.000000E+00 sec (time_manager) ocn date 0079-nov-04, 0.000000E+00 sec (time_manager) ocn date 0079-nov-05, 0.000000E+00 sec (time_manager) ocn date 0079-nov-06, 0.000000E+00 sec (time_manager) ocn date 0079-nov-07, 0.000000E+00 sec (time_manager) ocn date 0079-nov-08, 0.000000E+00 sec (time_manager) ocn date 0079-nov-09, 0.000000E+00 sec (time_manager) ocn date 0079-nov-10, 0.000000E+00 sec (time_manager) ocn date 0079-nov-11, 0.000000E+00 sec (time_manager) ocn date 0079-nov-12, 0.000000E+00 sec (time_manager) ocn date 0079-nov-13, 0.000000E+00 sec (time_manager) ocn date 0079-nov-14, 0.000000E+00 sec (time_manager) ocn date 0079-nov-15, 0.000000E+00 sec (time_manager) ocn date 0079-nov-16, 0.000000E+00 sec (time_manager) ocn date 0079-nov-17, 0.000000E+00 sec (time_manager) ocn date 0079-nov-18, 0.000000E+00 sec (time_manager) ocn date 0079-nov-19, 0.000000E+00 sec (time_manager) ocn date 0079-nov-20, 0.000000E+00 sec (time_manager) ocn date 0079-nov-21, 0.000000E+00 sec (time_manager) ocn date 0079-nov-22, 0.000000E+00 sec (time_manager) ocn date 0079-nov-23, 0.000000E+00 sec (time_manager) ocn date 0079-nov-24, 0.000000E+00 sec (time_manager) ocn date 0079-nov-25, 0.000000E+00 sec (time_manager) ocn date 0079-nov-26, 0.000000E+00 sec (time_manager) ocn date 0079-nov-27, 0.000000E+00 sec (time_manager) ocn date 0079-nov-28, 0.000000E+00 sec (time_manager) ocn date 0079-nov-29, 0.000000E+00 sec (time_manager) ocn date 0079-nov-30, 0.000000E+00 sec (time_manager) ocn date 0079-dec-01, 0.000000E+00 sec Step number : 720075 Date : 01 dec 0079 Hour : 0 Minute : 0 Second : 0 Time(years) : 78.915068 max. cfl number for zonal advection : 8.8033E-02 20 371 33 max. cfl number for meridional advection : 7.8961E-02 93 216 2 max. cfl number for vertical advection : 2.8894E-01 298 46 14 max. cfl number for total advection : 2.9755E-01 298 46 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. : 8.408046249495621E+00 K.E. change from horiz. visc. :-3.597857661509721E-06 K.E. change from vert. visc. : 5.564303822134384E-06 K.E. change from wind stress : 1.870451064857346E-05 advective K.E. balance : 8.805789316009605E-11 :-6.479622215810962E-10 P.E. verses pressure work : 7.721653620976446E-04 :-2.569037686012821E-06 surface-pressure contribution :-1.054982750214864E-06 : 9.985800222607093E-07 Tracer diagnostics: mean value of tracer 1 : 3.518726351662885E+00 abs change in tracer 1 : 1.443954251007564E-07 mean change in tracer 1 : 3.337496568508982E-09 mean change in tracer 1 from advection :-1.379570916051607E-24 mean change in tracer 1 from horiz. diff.:-3.832141433476685E-26 mean change in tracer 1 from vert. diff.:-1.166692587590214E-08 mean change in tracer 1 from sources : 1.482570581850754E-08 surface flux of tracer 1 : 0.000000000000000E+00 mean value of tracer 2 : 3.472153705694924E+01 abs change in tracer 2 : 1.398259084865540E-11 mean change in tracer 2 : 8.114912693952937E-14 mean change in tracer 2 from advection : 3.742325618629576E-28 mean change in tracer 2 from horiz. diff.: 2.141042060658267E-29 mean change in tracer 2 from vert. diff.: 1.373980390678143E-14 mean change in tracer 2 from sources :-3.279407063899709E-34 surface flux of tracer 2 : 0.000000000000000E+00 mean value of tracer 3 : 2.172147951482382E+02 abs change in tracer 3 : 2.468459988926657E-06 mean change in tracer 3 : 2.481851178258581E-08 mean change in tracer 3 from advection :-3.471330578509342E-23 mean change in tracer 3 from horiz. diff.:-5.659778117134797E-25 mean change in tracer 3 from vert. diff.:-9.056917734290595E-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: 4.908676496020572E-05 residual, scans : 6.906438636269395E-14 250 Timing information: Timer number 1 Time = 339.29 seconds HMIX_MOMENTUM_ANISO Timer number 2 Time = 304.08 seconds HMIX_TRACER_GM_NLOOP Timer number 3 Time = 1694.42 seconds HMIX_TRACER_GM Timer number 4 Time = 880.37 seconds VMIX_COEFFICIENTS_KPP Timer number 5 Time = 47.17 seconds VMIX_EXPLICIT_TRACER Timer number 6 Time = 23.02 seconds VMIX_EXPLICIT_MOMENTUM Timer number 7 Time = 146.76 seconds VMIX_IMPLICIT_TRACER Timer number 8 Time = 35.31 seconds VMIX_IMPLICIT_MOMENTUM Timer number 9 Time = 5.14 seconds COMPUTE_COSZ Timer number 10 Time = 64.72 seconds ADVECTION_MOMENTUM Timer number 11 Time = 328.49 seconds ADVECTION_TRACER_UPWIND3 Timer number 12 Time = 21.65 seconds MOC Timer number 13 Time = 21.51 seconds TRACER_TRANSPORTS Timer number 14 Time = 375.61 seconds TAVG_WRITE_STD Timer number 15 Time = 42.34 seconds TAVG_WRITE_NONSTD Timer number 16 Time = 20.51 seconds TAVG_CCSM_DIAGS_BSF Timer number 17 Time = 21.65 seconds TAVG_CCSM_DIAGS_MOC Timer number 18 Time = 21.51 seconds TAVG_CCSM_DIAGS_TRANS Timer number 19 Time = 5071.59 seconds STEP Timer number 20 Time = 4304.58 seconds BAROCLINIC Timer number 21 Time = 582.10 seconds BAROTROPIC Timer number 22 Time = 104.12 seconds 3D-UPDATE Timer number 23 Time = 5560.92 seconds TOTAL Timer number 24 Time = 485.33 seconds OUTPUT Timer number 25 Time = 485.27 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.0079-01-01-00000 (diag_transport) file written: /ptmp/mai/b40.1850.track1.1deg.006/run/b40.1850.track1.1deg.006.pop.dt.0079-01-01-00000 AFTER CALL IN tracer_budgets (final): ===================================== volume_t (cm^3) = 0.132514028744E+25 SUM [volume*T] (C cm^3) = 0.466279843442E+25 SUM [volume*S] (ppt cm^3) = 0.460109075508E+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 = -.418106176143E-13 FW flux = 0.000000000000E+00 Imbalance = 0.418106176143E-13 Imbalance = -tendency + FW flux HEAT BUDGET FOR THE GIVEN TAVG INTERVAL (W/m^2): ------------------------------------------------ tendency = 0.109417425410E+02 SHF flux = 0.107661068596E+02 ice formation = 0.175635269636E+00 FW heat content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = -.411794359556E-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 = -.175746127558E-05 SFWF flux = -.129180603160E-05 ice formation = -.465655166450E-06 FW salt content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = 0.775276297018E-13 Imbalance = -tendency + SFWF flux + ice formation + FW salt content + free-srf non-consv. Global Time Averages: 12-01-0079 00:00:00 KAPPA_ISOP: 3867953.86312691541 KAPPA_THIC: 4279796.02518075984 HOR_DIFF: 457060.020146163006 DIA_DEPTH: 5338.34166973124593 TLT: 417.301012078244526 INT_DEPTH: 5755.64360950784885 UISOP: 0.327758882989945391E-04 VISOP: -0.339743627652011734E-03 WISOP: 0.163296462357896514E-12 ADVT_ISOP: -0.126375661163993112E-10 ADVS_ISOP: -0.771403048664431484E-15 VNT_ISOP: -0.646843540864237645E-09 VNS_ISOP: -0.183714276585706805E-11 USUBM: -0.260453345548755653E-05 VSUBM: 0.294168733577908613E-05 WSUBM: -0.684254249433097247E-09 HLS_SUBM: 799935.726656191517 ADVT_SUBM: -0.341720882425026681E-13 ADVS_SUBM: 0.359983973818279470E-15 VNT_SUBM: -0.151742895759739164E-09 VNS_SUBM: 0.374176492752229237E-13 HDIFT: -0.173264603844489224E-10 HDIFS: -0.152995256918875721E-14 QSW_HBL: 162.767083818413511 KVMIX: 1.34206906091590894 TPOWER: 0.218919328837440206E-05 UVEL: 0.301680755939566503 VVEL: 0.316322580338710909E-03 TEMP: 3.51614025543323638 dTEMP_POS_2D: 0.893051662967102727E-01 dTEMP_NEG_2D: -0.720236767543980111E-01 SALT: 0.347214924772247663E-01 RHO: 1.03743361764552411 RESID_T: 0.000000000000000000E+00 RESID_S: 0.000000000000000000E+00 SU: 108211.037439395499 SV: 77.4611301607045988 SSH: 0.490467843037292189E-04 SHF: 10.7661068595795406 SHF_QSW: 191.645361612311348 SFWF: -0.129180603160383838E-05 TAUX: 0.593600541868389564E-01 TAUY: -0.358444972299848189E-01 FW: 0.000000000000000000E+00 TFW_T: 0.000000000000000000E+00 TFW_S: 0.000000000000000000E+00 EVAP_F: -0.414833168582491341E-04 PREC_F: 0.351878580078302986E-04 SNOW_F: 0.106935349069530980E-05 MELT_F: 0.219103041030409060E-05 ROFF_F: 0.269678259282441687E-05 IOFF_F: 0.237813797701073308E-06 SALT_F: 0.423251753104013427E-08 SENH_F: -15.2468985933352883 LWUP_F: -385.663670172109221 LWDN_F: 325.826301848112223 MELTH_F: -1.60901608405460883 IFRAC: 0.799837144666756816E-01 IAGE: 217.184549310297228 WVEL: 0.778250179586627529E-06 UET: 0.670641520765989560E-07 VNT: 0.289384979750634037E-07 WTT: -0.144417314259973949E-07 UES: 0.148771802578251730E-08 VNS: -0.983056435599331547E-11 WTS: 0.816349118703579785E-12 ADVT: -0.229188325189206529E-10 ADVS: -0.828367859260562413E-14 PV: 0.118275276651738030E-13 Q: -0.961730343279708275E-08 PD: 1.02752291054391454 QSW_HTP: 140.308307050738705 QFLUX: 0.175635269636447100 HMXL: 5338.93436794228637 XMXL: 7430.21549353602495 TMXL: 3280.12714161326403 HBLT: 3614.26099745953434 XBLT: 6697.06449530403916 TBLT: 835.169940092162506 BSF: 0.000000000000000000E+00 convergence info from pcg_diag_bsf: iter = 0 rms_resid = 0.107743728948418591 iter = 100 rms_resid = 0.419995993671135482E-02 iter = 200 rms_resid = 0.826540224343710341E-03 iter = 300 rms_resid = 0.320909610162305799E-03 iter = 400 rms_resid = 0.240885901528676481E-03 iter = 500 rms_resid = 0.170910884040500799E-03 iter = 600 rms_resid = 0.456576592220058340E-04 iter = 700 rms_resid = 0.152040400143076637E-04 iter = 800 rms_resid = 0.178309345161055552E-05 iter = 900 rms_resid = 0.150043007296027150E-06 Local Time- and Space-Averages for Nino Regions: 00:00:00 0079-12-01 NINO_1_PLUS_2: 24.3252953885719592 NINO_3: 25.9711517648642527 NINO_3_POINT_4: 27.2222021276066464 NINO_4: 28.8726331980178266 tavg file written: ./b40.1850.track1.1deg.006.pop.h.0079-11.nc (time_manager) ocn date 0079-dec-02, 0.000000E+00 sec (time_manager) ocn date 0079-dec-03, 0.000000E+00 sec (time_manager) ocn date 0079-dec-04, 0.000000E+00 sec (time_manager) ocn date 0079-dec-05, 0.000000E+00 sec (time_manager) ocn date 0079-dec-06, 0.000000E+00 sec (time_manager) ocn date 0079-dec-07, 0.000000E+00 sec (time_manager) ocn date 0079-dec-08, 0.000000E+00 sec (time_manager) ocn date 0079-dec-09, 0.000000E+00 sec (time_manager) ocn date 0079-dec-10, 0.000000E+00 sec (time_manager) ocn date 0079-dec-11, 0.000000E+00 sec (time_manager) ocn date 0079-dec-12, 0.000000E+00 sec (time_manager) ocn date 0079-dec-13, 0.000000E+00 sec (time_manager) ocn date 0079-dec-14, 0.000000E+00 sec (time_manager) ocn date 0079-dec-15, 0.000000E+00 sec (time_manager) ocn date 0079-dec-16, 0.000000E+00 sec (time_manager) ocn date 0079-dec-17, 0.000000E+00 sec (time_manager) ocn date 0079-dec-18, 0.000000E+00 sec (time_manager) ocn date 0079-dec-19, 0.000000E+00 sec (time_manager) ocn date 0079-dec-20, 0.000000E+00 sec (time_manager) ocn date 0079-dec-21, 0.000000E+00 sec (time_manager) ocn date 0079-dec-22, 0.000000E+00 sec (time_manager) ocn date 0079-dec-23, 0.000000E+00 sec (time_manager) ocn date 0079-dec-24, 0.000000E+00 sec (time_manager) ocn date 0079-dec-25, 0.000000E+00 sec (time_manager) ocn date 0079-dec-26, 0.000000E+00 sec (time_manager) ocn date 0079-dec-27, 0.000000E+00 sec (time_manager) ocn date 0079-dec-28, 0.000000E+00 sec (time_manager) ocn date 0079-dec-29, 0.000000E+00 sec (time_manager) ocn date 0079-dec-30, 0.000000E+00 sec (time_manager) ocn date 0079-dec-31, 0.000000E+00 sec (ocn_comp_mct(run):) driver requests restart file at eod 0079/12/31 (time_manager) ocn date 0080-jan-01, 0.000000E+00 sec Step number : 720850 Date : 01 jan 0080 Hour : 0 Minute : 0 Second : 0 Time(years) : 79.000000 max. cfl number for zonal advection : 7.8156E-02 20 371 33 max. cfl number for meridional advection : 1.1987E-01 130 198 1 max. cfl number for vertical advection : 2.8025E-01 15 367 20 max. cfl number for total advection : 3.0241E-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. : 8.354086643373341E+00 K.E. change from horiz. visc. :-3.711853212363954E-06 K.E. change from vert. visc. : 8.579400541695808E-06 K.E. change from wind stress : 2.715500110346324E-05 advective K.E. balance :-3.153978839624324E-09 : 2.585338111265570E-09 P.E. verses pressure work : 7.287285245194585E-04 :-2.727699596668588E-06 surface-pressure contribution : 5.084452441342063E-07 :-6.065487281409511E-07 Tracer diagnostics: mean value of tracer 1 : 3.520142561472490E+00 abs change in tracer 1 : 1.404619609595567E-07 mean change in tracer 1 : 2.463514074059794E-09 mean change in tracer 1 from advection :-6.084261475919907E-24 mean change in tracer 1 from horiz. diff.: 4.126921543744123E-26 mean change in tracer 1 from vert. diff.:-1.250334761593405E-08 mean change in tracer 1 from sources : 1.485739650095383E-08 surface flux of tracer 1 : 0.000000000000000E+00 mean value of tracer 2 : 3.472149354744647E+01 abs change in tracer 2 : 1.324527600157544E-11 mean change in tracer 2 :-1.172770653135100E-14 mean change in tracer 2 from advection : 1.496930247451830E-28 mean change in tracer 2 from horiz. diff.:-1.187468705911308E-29 mean change in tracer 2 from vert. diff.:-5.301639051134614E-14 mean change in tracer 2 from sources :-1.792630185507266E-31 surface flux of tracer 2 : 0.000000000000000E+00 mean value of tracer 3 : 2.172743158499925E+02 abs change in tracer 3 : 2.228575805471622E-06 mean change in tracer 3 : 1.986901176518941E-08 mean change in tracer 3 from advection :-4.527822493707838E-23 mean change in tracer 3 from horiz. diff.:-6.603074469990597E-25 mean change in tracer 3 from vert. diff.: 6.090306605244931E-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: 4.858613533614077E-05 residual, scans : 7.450036627168512E-14 240 Timing information: Timer number 1 Time = 370.64 seconds HMIX_MOMENTUM_ANISO Timer number 2 Time = 332.73 seconds HMIX_TRACER_GM_NLOOP Timer number 3 Time = 1851.80 seconds HMIX_TRACER_GM Timer number 4 Time = 962.59 seconds VMIX_COEFFICIENTS_KPP Timer number 5 Time = 51.55 seconds VMIX_EXPLICIT_TRACER Timer number 6 Time = 25.16 seconds VMIX_EXPLICIT_MOMENTUM Timer number 7 Time = 160.38 seconds VMIX_IMPLICIT_TRACER Timer number 8 Time = 38.63 seconds VMIX_IMPLICIT_MOMENTUM Timer number 9 Time = 5.61 seconds COMPUTE_COSZ Timer number 10 Time = 70.67 seconds ADVECTION_MOMENTUM Timer number 11 Time = 358.99 seconds ADVECTION_TRACER_UPWIND3 Timer number 12 Time = 23.82 seconds MOC Timer number 13 Time = 23.65 seconds TRACER_TRANSPORTS Timer number 14 Time = 411.84 seconds TAVG_WRITE_STD Timer number 15 Time = 45.01 seconds TAVG_WRITE_NONSTD Timer number 16 Time = 22.86 seconds TAVG_CCSM_DIAGS_BSF Timer number 17 Time = 23.82 seconds TAVG_CCSM_DIAGS_MOC Timer number 18 Time = 23.66 seconds TAVG_CCSM_DIAGS_TRANS Timer number 19 Time = 5541.89 seconds STEP Timer number 20 Time = 4704.52 seconds BAROCLINIC Timer number 21 Time = 636.19 seconds BAROTROPIC Timer number 22 Time = 113.85 seconds 3D-UPDATE Timer number 23 Time = 6077.43 seconds TOTAL Timer number 24 Time = 531.17 seconds OUTPUT Timer number 25 Time = 531.09 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.0079-01-01-00000 (diag_transport) file written: /ptmp/mai/b40.1850.track1.1deg.006/run/b40.1850.track1.1deg.006.pop.dt.0079-01-01-00000 AFTER CALL IN tracer_budgets (final): ===================================== volume_t (cm^3) = 0.132514028744E+25 SUM [volume*T] (C cm^3) = 0.466467739500E+25 SUM [volume*S] (ppt cm^3) = 0.460108500561E+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 = -.186935032689E-12 FW flux = 0.000000000000E+00 Imbalance = 0.186935032689E-12 Imbalance = -tendency + FW flux HEAT BUDGET FOR THE GIVEN TAVG INTERVAL (W/m^2): ------------------------------------------------ tendency = 0.796414667595E+01 SHF flux = 0.776783504308E+01 ice formation = 0.196311359399E+00 FW heat content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = -.273472555545E-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 = 0.171295903251E-05 SFWF flux = 0.223343182028E-05 ice formation = -.520472903455E-06 FW salt content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = -.115688789716E-12 Imbalance = -tendency + SFWF flux + ice formation + FW salt content + free-srf non-consv. restart file written: ./b40.1850.track1.1deg.006.pop.r.0080-01-01-00000 restart pointer file written: ./rpointer.ocn.restart ovf_write_restart unit (mu) = 19 file name = ./b40.1850.track1.1deg.006.pop.ro.0080-01-01-00000 ovf write restart cdate yyyymmdd = 00800101 overflow restart pointer file written: ./rpointer.ocn.ovf Global Time Averages: 01-01-0080 00:00:00 KAPPA_ISOP: 3499577.57521443255 KAPPA_THIC: 3899913.39772298140 HOR_DIFF: 445712.491618400963 DIA_DEPTH: 5214.01078370365212 TLT: 382.703520576709536 INT_DEPTH: 5596.70919051872170 UISOP: 0.228302215778544125E-04 VISOP: -0.274780164050563846E-03 WISOP: -0.440481616872304422E-13 ADVT_ISOP: -0.359680451997691735E-10 ADVS_ISOP: -0.370918155239402538E-14 VNT_ISOP: -0.372014698051692017E-09 VNS_ISOP: -0.152531187813653859E-11 USUBM: -0.137084643054082925E-04 VSUBM: 0.522105499132402120E-04 WSUBM: -0.134218873025023167E-08 HLS_SUBM: 761310.126667692792 ADVT_SUBM: 0.191343880377058134E-11 ADVS_SUBM: -0.498199205705963196E-15 VNT_SUBM: 0.801272335824720991E-10 VNS_SUBM: 0.402129792535287397E-12 HDIFT: 0.552914157407686210E-10 HDIFS: -0.299957928330566113E-14 QSW_HBL: 160.874580476801611 KVMIX: 1.34663303529032508 TPOWER: 0.219224133908828676E-05 UVEL: 0.296522246697544234 VVEL: 0.614858749977290802E-03 TEMP: 3.51775629135405010 dTEMP_POS_2D: 0.847556774975479210E-01 dTEMP_NEG_2D: -0.675364896935130438E-01 SALT: 0.347214916713853503E-01 RHO: 1.03743351350541269 RESID_T: 0.000000000000000000E+00 RESID_S: 0.000000000000000000E+00 SU: 106359.617279967963 SV: 176.228586149227795 SSH: 0.489160684013286183E-04 SHF: 7.76783504308286687 SHF_QSW: 190.436397887143585 SFWF: 0.223343182027506198E-05 TAUX: 0.188725420932882512E-01 TAUY: -0.469494760215326545E-01 FW: 0.000000000000000000E+00 TFW_T: 0.000000000000000000E+00 TFW_S: 0.000000000000000000E+00 EVAP_F: -0.420149242697348457E-04 PREC_F: 0.361162267308195011E-04 SNOW_F: 0.105922505505682564E-05 MELT_F: 0.573715895658186301E-05 ROFF_F: 0.272603463716449464E-05 IOFF_F: 0.155066781016671853E-06 SALT_F: 0.168687697625508567E-07 SENH_F: -16.3437909053755774 LWUP_F: -387.425073401825841 LWDN_F: 329.137899813725710 MELTH_F: -2.55306132779863981 IFRAC: 0.759746890640214667E-01 IAGE: 217.245382290848426 WVEL: 0.780254514246844279E-06 UET: 0.511914634308683394E-07 VNT: 0.857433636080397644E-07 WTT: -0.163391733504717376E-07 UES: 0.142469039499419461E-08 VNS: -0.505275607520814995E-11 WTS: 0.554878050125003065E-12 ADVT: 0.787179110744606273E-11 ADVS: 0.141943663848972605E-14 PV: 0.669721343937719478E-13 Q: -0.966730509543288383E-08 PD: 1.02752283763234775 QSW_HTP: 139.604431273773599 QFLUX: 0.196311359398806562 HMXL: 5215.44341069191341 XMXL: 6572.08887437339945 TMXL: 3734.02514847979091 HBLT: 3690.44253561991627 XBLT: 6299.28385342916135 TBLT: 848.768637878768686 BSF: 0.000000000000000000E+00 convergence info from pcg_diag_bsf: iter = 0 rms_resid = 0.108738659865376161 iter = 100 rms_resid = 0.404178346539902159E-02 iter = 200 rms_resid = 0.825559922984878103E-03 iter = 300 rms_resid = 0.306111682312300163E-03 iter = 400 rms_resid = 0.223787296451128352E-03 iter = 500 rms_resid = 0.160993153471357457E-03 iter = 600 rms_resid = 0.456093053250771345E-04 iter = 700 rms_resid = 0.153685000352548126E-04 iter = 800 rms_resid = 0.176024436148310120E-05 iter = 900 rms_resid = 0.144743903905405675E-06 Local Time- and Space-Averages for Nino Regions: 00:00:00 0080-01-01 NINO_1_PLUS_2: 25.0295340976344995 NINO_3: 26.1710651527656495 NINO_3_POINT_4: 27.4895984430869262 NINO_4: 28.9356371124926426 tavg file written: ./b40.1850.track1.1deg.006.pop.h.0079-12.nc (time_manager) ocn date 0080-jan-02, 0.000000E+00 sec (time_manager) ocn date 0080-jan-03, 0.000000E+00 sec (time_manager) ocn date 0080-jan-04, 0.000000E+00 sec (time_manager) ocn date 0080-jan-05, 0.000000E+00 sec (time_manager) ocn date 0080-jan-06, 0.000000E+00 sec (time_manager) ocn date 0080-jan-07, 0.000000E+00 sec (time_manager) ocn date 0080-jan-08, 0.000000E+00 sec (time_manager) ocn date 0080-jan-09, 0.000000E+00 sec (time_manager) ocn date 0080-jan-10, 0.000000E+00 sec (time_manager) ocn date 0080-jan-11, 0.000000E+00 sec (time_manager) ocn date 0080-jan-12, 0.000000E+00 sec (time_manager) ocn date 0080-jan-13, 0.000000E+00 sec (time_manager) ocn date 0080-jan-14, 0.000000E+00 sec (time_manager) ocn date 0080-jan-15, 0.000000E+00 sec (time_manager) ocn date 0080-jan-16, 0.000000E+00 sec (time_manager) ocn date 0080-jan-17, 0.000000E+00 sec (time_manager) ocn date 0080-jan-18, 0.000000E+00 sec (time_manager) ocn date 0080-jan-19, 0.000000E+00 sec (time_manager) ocn date 0080-jan-20, 0.000000E+00 sec (time_manager) ocn date 0080-jan-21, 0.000000E+00 sec (time_manager) ocn date 0080-jan-22, 0.000000E+00 sec (time_manager) ocn date 0080-jan-23, 0.000000E+00 sec (time_manager) ocn date 0080-jan-24, 0.000000E+00 sec (time_manager) ocn date 0080-jan-25, 0.000000E+00 sec (time_manager) ocn date 0080-jan-26, 0.000000E+00 sec (time_manager) ocn date 0080-jan-27, 0.000000E+00 sec (time_manager) ocn date 0080-jan-28, 0.000000E+00 sec (time_manager) ocn date 0080-jan-29, 0.000000E+00 sec (time_manager) ocn date 0080-jan-30, 0.000000E+00 sec (time_manager) ocn date 0080-jan-31, 0.000000E+00 sec (time_manager) ocn date 0080-feb-01, 0.000000E+00 sec Step number : 721625 Date : 01 feb 0080 Hour : 0 Minute : 0 Second : 0 Time(years) : 79.084932 max. cfl number for zonal advection : 6.8808E-02 20 371 33 max. cfl number for meridional advection : 8.4101E-02 151 204 4 max. cfl number for vertical advection : 2.4365E-01 15 367 20 max. cfl number for total advection : 2.6198E-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. : 8.062678269943472E+00 K.E. change from horiz. visc. :-3.472079048169196E-06 K.E. change from vert. visc. : 7.505356855530104E-06 K.E. change from wind stress : 2.193235279348542E-05 advective K.E. balance :-7.250940971373658E-10 : 3.898541822523028E-10 P.E. verses pressure work : 6.697494206636365E-04 :-3.057261025880578E-06 surface-pressure contribution : 9.346996992529998E-07 :-9.906942452211733E-07 Tracer diagnostics: mean value of tracer 1 : 3.521710842649599E+00 abs change in tracer 1 : 1.458911526178198E-07 mean change in tracer 1 : 3.070207140493234E-09 mean change in tracer 1 from advection :-4.928723443671552E-24 mean change in tracer 1 from horiz. diff.: 1.179120441069749E-26 mean change in tracer 1 from vert. diff.:-1.239891059593362E-08 mean change in tracer 1 from sources : 1.528243281659641E-08 surface flux of tracer 1 : 0.000000000000000E+00 mean value of tracer 2 : 3.472148126645975E+01 abs change in tracer 2 : 1.416440163391690E-11 mean change in tracer 2 : 8.656237745793164E-14 mean change in tracer 2 from advection :-1.335722374649326E-27 mean change in tracer 2 from horiz. diff.: 2.410921312001746E-29 mean change in tracer 2 from vert. diff.: 1.614752935632492E-14 mean change in tracer 2 from sources :-6.965956039751981E-32 surface flux of tracer 2 : 0.000000000000000E+00 mean value of tracer 3 : 2.173272214700860E+02 abs change in tracer 3 : 2.395875320712516E-06 mean change in tracer 3 : 1.983976436938687E-08 mean change in tracer 3 from advection :-6.791733740561757E-23 mean change in tracer 3 from horiz. diff.:-8.018018999274296E-25 mean change in tracer 3 from vert. diff.:-4.180738648618059E-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: 4.828752313219193E-05 residual, scans : 9.721757200203099E-14 240 Timing information: Timer number 1 Time = 402.15 seconds HMIX_MOMENTUM_ANISO Timer number 2 Time = 361.12 seconds HMIX_TRACER_GM_NLOOP Timer number 3 Time = 2009.12 seconds HMIX_TRACER_GM Timer number 4 Time = 1044.72 seconds VMIX_COEFFICIENTS_KPP Timer number 5 Time = 55.93 seconds VMIX_EXPLICIT_TRACER Timer number 6 Time = 27.31 seconds VMIX_EXPLICIT_MOMENTUM Timer number 7 Time = 174.01 seconds VMIX_IMPLICIT_TRACER Timer number 8 Time = 41.93 seconds VMIX_IMPLICIT_MOMENTUM Timer number 9 Time = 6.09 seconds COMPUTE_COSZ Timer number 10 Time = 76.59 seconds ADVECTION_MOMENTUM Timer number 11 Time = 389.49 seconds ADVECTION_TRACER_UPWIND3 Timer number 12 Time = 26.01 seconds MOC Timer number 13 Time = 25.81 seconds TRACER_TRANSPORTS Timer number 14 Time = 447.66 seconds TAVG_WRITE_STD Timer number 15 Time = 47.47 seconds TAVG_WRITE_NONSTD Timer number 16 Time = 24.93 seconds TAVG_CCSM_DIAGS_BSF Timer number 17 Time = 26.01 seconds TAVG_CCSM_DIAGS_MOC Timer number 18 Time = 25.81 seconds TAVG_CCSM_DIAGS_TRANS Timer number 19 Time = 6015.15 seconds STEP Timer number 20 Time = 5105.21 seconds BAROCLINIC Timer number 21 Time = 690.81 seconds BAROTROPIC Timer number 22 Time = 123.54 seconds 3D-UPDATE Timer number 23 Time = 6601.27 seconds TOTAL Timer number 24 Time = 581.38 seconds OUTPUT Timer number 25 Time = 575.94 seconds OUTPUT TAVG Timer number 26 Time = 5.40 seconds OUTPUT REST ------------------------------------------------------------------------ (diag_print) file written: /ptmp/mai/b40.1850.track1.1deg.006/run/b40.1850.track1.1deg.006.pop.dd.0079-01-01-00000 (diag_transport) file written: /ptmp/mai/b40.1850.track1.1deg.006/run/b40.1850.track1.1deg.006.pop.dt.0079-01-01-00000 AFTER CALL IN tracer_budgets (final): ===================================== volume_t (cm^3) = 0.132514028744E+25 SUM [volume*T] (C cm^3) = 0.466675412367E+25 SUM [volume*S] (ppt cm^3) = 0.460108336187E+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 = -.111478329322E-12 FW flux = 0.000000000000E+00 Imbalance = 0.111478329322E-12 Imbalance = -tendency + FW flux HEAT BUDGET FOR THE GIVEN TAVG INTERVAL (W/m^2): ------------------------------------------------ tendency = 0.880240488060E+01 SHF flux = 0.860807941586E+01 ice formation = 0.194325705910E+00 FW heat content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = 0.241160902387E-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 = 0.489725223624E-06 SFWF flux = 0.100493352884E-05 ice formation = -.515208415247E-06 FW salt content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = -.110034491898E-12 Imbalance = -tendency + SFWF flux + ice formation + FW salt content + free-srf non-consv. Global Time Averages: 02-01-0080 00:00:00 KAPPA_ISOP: 3467577.19776692381 KAPPA_THIC: 3931285.62837213743 HOR_DIFF: 509342.007158800669 DIA_DEPTH: 5973.70881834043757 TLT: 418.336786261205248 INT_DEPTH: 6392.04142280626365 UISOP: 0.191283619978877581E-04 VISOP: -0.268248706791334021E-03 WISOP: -0.216498447403079972E-13 ADVT_ISOP: -0.690058453668320868E-11 ADVS_ISOP: -0.187928118322059508E-14 VNT_ISOP: -0.190183709467407968E-09 VNS_ISOP: -0.149952958448659652E-11 USUBM: -0.268670292960986505E-04 VSUBM: 0.111163007197172362E-03 WSUBM: -0.398676980819794450E-08 HLS_SUBM: 749062.720837322995 ADVT_SUBM: 0.339744404928375603E-12 ADVS_SUBM: -0.195084682992525998E-15 VNT_SUBM: 0.318344266608761895E-09 VNS_SUBM: 0.850923710763516154E-12 HDIFT: -0.176233371701381428E-11 HDIFS: 0.642779880152097615E-14 QSW_HBL: 163.272764263618825 KVMIX: 1.35628353986341144 TPOWER: 0.220975114017348654E-05 UVEL: 0.302264196230655924 VVEL: -0.576094113441077662E-04 TEMP: 3.51932456948154782 dTEMP_POS_2D: 0.832137948088309959E-01 dTEMP_NEG_2D: -0.652027530700877989E-01 SALT: 0.347214370522337321E-01 RHO: 1.03743331658151683 RESID_T: 0.000000000000000000E+00 RESID_S: 0.000000000000000000E+00 SU: 108417.170920887103 SV: -68.5698359922569409 SSH: 0.483171309001618834E-04 SHF: 8.60807941585534131 SHF_QSW: 193.862371826385129 SFWF: 0.100493352883593742E-05 TAUX: 0.383535374533687037E-01 TAUY: -0.583684227033096636E-01 FW: 0.000000000000000000E+00 TFW_T: 0.000000000000000000E+00 TFW_S: 0.000000000000000000E+00 EVAP_F: -0.425176080731896872E-04 PREC_F: 0.361553564622229680E-04 SNOW_F: 0.110011332600209801E-05 MELT_F: 0.479080799497096565E-05 ROFF_F: 0.288394951532962475E-05 IOFF_F: 0.118527198234607404E-06 SALT_F: 0.147851466731065370E-07 SENH_F: -16.8451870890156279 LWUP_F: -391.145610452150265 LWDN_F: 331.916964774205667 MELTH_F: -2.43726049623758012 IFRAC: 0.678047508819123179E-01 IAGE: 217.300908775802725 WVEL: 0.724531823363875969E-06 UET: 0.366608629648230915E-07 VNT: 0.113400725645478552E-06 WTT: -0.142235784608196491E-07 UES: 0.145347122531141398E-08 VNS: -0.798499051261086904E-11 WTS: 0.775235307680472911E-12 ADVT: -0.646634143303987804E-10 ADVS: 0.710653670557534654E-14 PV: 0.118496034925289029E-12 Q: -0.981375175430910857E-08 PD: 1.02752265067381465 QSW_HTP: 141.873954863294102 QFLUX: 0.194325705909518059 HMXL: 5976.23787567080581 XMXL: 7093.13906535392562 TMXL: 4414.47617938461553 HBLT: 4111.27667829809707 XBLT: 6897.38910736646176 TBLT: 879.498360303281288 BSF: 0.000000000000000000E+00 convergence info from pcg_diag_bsf: iter = 0 rms_resid = 0.111861020934507227 iter = 100 rms_resid = 0.401436116659579026E-02 iter = 200 rms_resid = 0.855172971833152869E-03 iter = 300 rms_resid = 0.364495179951801831E-03 iter = 400 rms_resid = 0.253624737490679782E-03 iter = 500 rms_resid = 0.184585423298632063E-03 iter = 600 rms_resid = 0.483170945807403801E-04 iter = 700 rms_resid = 0.144689101468941549E-04 iter = 800 rms_resid = 0.169497255486314440E-05 iter = 900 rms_resid = 0.142929510476121818E-06 Local Time- and Space-Averages for Nino Regions: 00:00:00 0080-02-01 NINO_1_PLUS_2: 26.1862748048486154 NINO_3: 26.1647260336184608 NINO_3_POINT_4: 27.2665041019845447 NINO_4: 28.9225778561426168 tavg file written: ./b40.1850.track1.1deg.006.pop.h.0080-01.nc (time_manager) ocn date 0080-feb-02, 0.000000E+00 sec (time_manager) ocn date 0080-feb-03, 0.000000E+00 sec (time_manager) ocn date 0080-feb-04, 0.000000E+00 sec (time_manager) ocn date 0080-feb-05, 0.000000E+00 sec (time_manager) ocn date 0080-feb-06, 0.000000E+00 sec (time_manager) ocn date 0080-feb-07, 0.000000E+00 sec (time_manager) ocn date 0080-feb-08, 0.000000E+00 sec (time_manager) ocn date 0080-feb-09, 0.000000E+00 sec (time_manager) ocn date 0080-feb-10, 0.000000E+00 sec (time_manager) ocn date 0080-feb-11, 0.000000E+00 sec (time_manager) ocn date 0080-feb-12, 0.000000E+00 sec (time_manager) ocn date 0080-feb-13, 0.000000E+00 sec (time_manager) ocn date 0080-feb-14, 0.000000E+00 sec (time_manager) ocn date 0080-feb-15, 0.000000E+00 sec (time_manager) ocn date 0080-feb-16, 0.000000E+00 sec (time_manager) ocn date 0080-feb-17, 0.000000E+00 sec (time_manager) ocn date 0080-feb-18, 0.000000E+00 sec (time_manager) ocn date 0080-feb-19, 0.000000E+00 sec (time_manager) ocn date 0080-feb-20, 0.000000E+00 sec (time_manager) ocn date 0080-feb-21, 0.000000E+00 sec (time_manager) ocn date 0080-feb-22, 0.000000E+00 sec (time_manager) ocn date 0080-feb-23, 0.000000E+00 sec (time_manager) ocn date 0080-feb-24, 0.000000E+00 sec (time_manager) ocn date 0080-feb-25, 0.000000E+00 sec (time_manager) ocn date 0080-feb-26, 0.000000E+00 sec (time_manager) ocn date 0080-feb-27, 0.000000E+00 sec (time_manager) ocn date 0080-feb-28, 0.000000E+00 sec (time_manager) ocn date 0080-mar-01, 0.000000E+00 sec Step number : 722325 Date : 01 mar 0080 Hour : 0 Minute : 0 Second : 0 Time(years) : 79.161644 max. cfl number for zonal advection : 6.1089E-02 20 371 33 max. cfl number for meridional advection : 1.0011E-01 151 206 6 max. cfl number for vertical advection : 5.9374E-01 311 355 12 max. cfl number for total advection : 6.0214E-01 311 355 13 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. : 8.656015491554253E+00 K.E. change from horiz. visc. :-3.549347353564701E-06 K.E. change from vert. visc. : 9.744416415459301E-06 K.E. change from wind stress : 2.624053405855781E-05 advective K.E. balance : 1.032720972209821E-09 :-1.102591930397293E-09 P.E. verses pressure work : 6.080742508198813E-04 :-5.679464320958692E-06 surface-pressure contribution :-5.722850290304540E-07 : 5.327131874516158E-07 Tracer diagnostics: mean value of tracer 1 : 3.523446021860994E+00 abs change in tracer 1 : 1.463386928772696E-07 mean change in tracer 1 : 4.187613363875903E-09 mean change in tracer 1 from advection :-9.432963528557995E-26 mean change in tracer 1 from horiz. diff.: 6.779942536151059E-26 mean change in tracer 1 from vert. diff.:-1.167653413949438E-08 mean change in tracer 1 from sources : 1.572223310639952E-08 surface flux of tracer 1 : 0.000000000000000E+00 mean value of tracer 2 : 3.472151973962028E+01 abs change in tracer 2 : 1.359447896106360E-11 mean change in tracer 2 : 8.578748339213763E-14 mean change in tracer 2 from advection : 5.181681625794797E-28 mean change in tracer 2 from horiz. diff.: 1.295420406448699E-29 mean change in tracer 2 from vert. diff.: 3.225942812544560E-14 mean change in tracer 2 from sources : 2.782047758091563E-31 surface flux of tracer 2 : 0.000000000000000E+00 mean value of tracer 3 : 2.173756473031735E+02 abs change in tracer 3 : 2.377363599876034E-06 mean change in tracer 3 : 1.913714924373709E-08 mean change in tracer 3 from advection :-8.980181279187211E-23 mean change in tracer 3 from horiz. diff.: 1.131955623426959E-24 mean change in tracer 3 from vert. diff.:-6.685563375595145E-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: 4.879307302064157E-05 residual, scans : 7.622293825430787E-14 240 Timing information: Timer number 1 Time = 430.65 seconds HMIX_MOMENTUM_ANISO Timer number 2 Time = 386.66 seconds HMIX_TRACER_GM_NLOOP Timer number 3 Time = 2151.42 seconds HMIX_TRACER_GM Timer number 4 Time = 1117.96 seconds VMIX_COEFFICIENTS_KPP Timer number 5 Time = 59.89 seconds VMIX_EXPLICIT_TRACER Timer number 6 Time = 29.24 seconds VMIX_EXPLICIT_MOMENTUM Timer number 7 Time = 186.31 seconds VMIX_IMPLICIT_TRACER Timer number 8 Time = 44.94 seconds VMIX_IMPLICIT_MOMENTUM Timer number 9 Time = 6.52 seconds COMPUTE_COSZ Timer number 10 Time = 81.93 seconds ADVECTION_MOMENTUM Timer number 11 Time = 417.03 seconds ADVECTION_TRACER_UPWIND3 Timer number 12 Time = 28.18 seconds MOC Timer number 13 Time = 27.96 seconds TRACER_TRANSPORTS Timer number 14 Time = 484.11 seconds TAVG_WRITE_STD Timer number 15 Time = 50.99 seconds TAVG_WRITE_NONSTD Timer number 16 Time = 26.97 seconds TAVG_CCSM_DIAGS_BSF Timer number 17 Time = 28.18 seconds TAVG_CCSM_DIAGS_MOC Timer number 18 Time = 27.96 seconds TAVG_CCSM_DIAGS_TRANS Timer number 19 Time = 6439.44 seconds STEP Timer number 20 Time = 5465.67 seconds BAROCLINIC Timer number 21 Time = 739.45 seconds BAROTROPIC Timer number 22 Time = 132.31 seconds 3D-UPDATE Timer number 23 Time = 7072.51 seconds TOTAL Timer number 24 Time = 627.99 seconds OUTPUT Timer number 25 Time = 622.54 seconds OUTPUT TAVG Timer number 26 Time = 5.40 seconds OUTPUT REST ------------------------------------------------------------------------ (diag_print) file written: /ptmp/mai/b40.1850.track1.1deg.006/run/b40.1850.track1.1deg.006.pop.dd.0079-01-01-00000 (diag_transport) file written: /ptmp/mai/b40.1850.track1.1deg.006/run/b40.1850.track1.1deg.006.pop.dt.0079-01-01-00000 AFTER CALL IN tracer_budgets (final): ===================================== volume_t (cm^3) = 0.132514028744E+25 SUM [volume*T] (C cm^3) = 0.466905083638E+25 SUM [volume*S] (ppt cm^3) = 0.460108845591E+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 = 0.208960912989E-12 FW flux = 0.000000000000E+00 Imbalance = -.208960912989E-12 Imbalance = -tendency + FW flux HEAT BUDGET FOR THE GIVEN TAVG INTERVAL (W/m^2): ------------------------------------------------ tendency = 0.107778445893E+02 SHF flux = 0.106057307431E+02 ice formation = 0.172114949144E+00 FW heat content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = 0.110292112956E-05 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 = -.168029356484E-05 SFWF flux = -.122397214998E-05 ice formation = -.456321873493E-06 FW salt content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = -.458639987304E-12 Imbalance = -tendency + SFWF flux + ice formation + FW salt content + free-srf non-consv. Global Time Averages: 03-01-0080 00:00:00 KAPPA_ISOP: 3634608.56278241286 KAPPA_THIC: 4162310.26649983320 HOR_DIFF: 573254.820992839290 DIA_DEPTH: 6721.65056600777825 TLT: 485.653898658627668 INT_DEPTH: 7207.30102023177369 UISOP: 0.344848084246391116E-04 VISOP: -0.234360180058751572E-03 WISOP: 0.173616688302135329E-12 ADVT_ISOP: 0.804825668281912667E-11 ADVS_ISOP: -0.354782356003851128E-14 VNT_ISOP: 0.179464970599269948E-09 VNS_ISOP: -0.129209692979833070E-11 USUBM: -0.111381653285039041E-04 VSUBM: 0.172949416696837910E-03 WSUBM: -0.782097475002299438E-08 HLS_SUBM: 740012.310769187519 ADVT_SUBM: 0.293673225326144455E-11 ADVS_SUBM: -0.571837880430732181E-15 VNT_SUBM: 0.638802122859020272E-09 VNS_SUBM: 0.131574699992318894E-11 HDIFT: 0.479868832327623504E-11 HDIFS: -0.133975796536707303E-14 QSW_HBL: 164.123744245426451 KVMIX: 1.36464299583063475 TPOWER: 0.222220105109448333E-05 UVEL: 0.303930996372905715 VVEL: 0.786882683264143105E-03 TEMP: 3.52090279433602271 dTEMP_POS_2D: 0.821780954979736689E-01 dTEMP_NEG_2D: -0.625031945357620439E-01 SALT: 0.347214518028498842E-01 RHO: 1.03743293410164528 RESID_T: 0.000000000000000000E+00 RESID_S: 0.000000000000000000E+00 SU: 109015.451656394202 SV: 230.919028557329597 SSH: 0.485468605951585439E-04 SHF: 10.6057307430841821 SHF_QSW: 192.036142658834450 SFWF: -0.122397214998430092E-05 TAUX: 0.553233064129323646E-01 TAUY: -0.775070426971385673E-01 FW: 0.000000000000000000E+00 TFW_T: 0.000000000000000000E+00 TFW_S: 0.000000000000000000E+00 EVAP_F: -0.420760485679577356E-04 PREC_F: 0.366452052939156010E-04 SNOW_F: 0.115252658457926429E-05 MELT_F: 0.116377428270656870E-05 ROFF_F: 0.291790169366067484E-05 IOFF_F: 0.183503052218675745E-06 SALT_F: 0.202276315359138570E-08 SENH_F: -15.6557798818686784 LWUP_F: -393.571877984609102 LWDN_F: 334.861699675047362 MELTH_F: -1.38642169485755362 IFRAC: 0.624201476209602230E-01 IAGE: 217.351737416811773 WVEL: 0.657655695106343585E-06 UET: 0.200662513268009942E-07 VNT: 0.146087181621472307E-06 WTT: -0.154578891240921263E-07 UES: 0.145549569359373065E-08 VNS: -0.822204473713300896E-12 WTS: 0.602090672459874649E-12 ADVT: 0.652733890578101241E-10 ADVS: -0.138995446582840928E-13 PV: 0.142234108328930444E-12 Q: -0.988591550553923765E-08 PD: 1.02752224290973415 QSW_HTP: 140.386419964543705 QFLUX: 0.172114949143671786 HMXL: 6724.61309861247901 XMXL: 7839.67017775920613 TMXL: 4637.22000032667165 HBLT: 4432.89412391401947 XBLT: 7432.43091975859352 TBLT: 954.663347173319153 BSF: 0.000000000000000000E+00 convergence info from pcg_diag_bsf: iter = 0 rms_resid = 0.106547010841432532 iter = 100 rms_resid = 0.412403293279937910E-02 iter = 200 rms_resid = 0.867191672467274369E-03 iter = 300 rms_resid = 0.371573837560615198E-03 iter = 400 rms_resid = 0.249866505449104347E-03 iter = 500 rms_resid = 0.192863426359397670E-03 iter = 600 rms_resid = 0.483288775405491333E-04 iter = 700 rms_resid = 0.148792974037416561E-04 iter = 800 rms_resid = 0.163838404319157798E-05 iter = 900 rms_resid = 0.141859020681171157E-06 Local Time- and Space-Averages for Nino Regions: 00:00:00 0080-03-01 NINO_1_PLUS_2: 27.0325231185020414 NINO_3: 26.2871181713827582 NINO_3_POINT_4: 27.3180531869903085 NINO_4: 28.6946081449428085 tavg file written: ./b40.1850.track1.1deg.006.pop.h.0080-02.nc (time_manager) ocn date 0080-mar-02, 0.000000E+00 sec (time_manager) ocn date 0080-mar-03, 0.000000E+00 sec (time_manager) ocn date 0080-mar-04, 0.000000E+00 sec (time_manager) ocn date 0080-mar-05, 0.000000E+00 sec (time_manager) ocn date 0080-mar-06, 0.000000E+00 sec (time_manager) ocn date 0080-mar-07, 0.000000E+00 sec (time_manager) ocn date 0080-mar-08, 0.000000E+00 sec (time_manager) ocn date 0080-mar-09, 0.000000E+00 sec (time_manager) ocn date 0080-mar-10, 0.000000E+00 sec (time_manager) ocn date 0080-mar-11, 0.000000E+00 sec (time_manager) ocn date 0080-mar-12, 0.000000E+00 sec (time_manager) ocn date 0080-mar-13, 0.000000E+00 sec (time_manager) ocn date 0080-mar-14, 0.000000E+00 sec (time_manager) ocn date 0080-mar-15, 0.000000E+00 sec (time_manager) ocn date 0080-mar-16, 0.000000E+00 sec (time_manager) ocn date 0080-mar-17, 0.000000E+00 sec (time_manager) ocn date 0080-mar-18, 0.000000E+00 sec (time_manager) ocn date 0080-mar-19, 0.000000E+00 sec (time_manager) ocn date 0080-mar-20, 0.000000E+00 sec (time_manager) ocn date 0080-mar-21, 0.000000E+00 sec (time_manager) ocn date 0080-mar-22, 0.000000E+00 sec (time_manager) ocn date 0080-mar-23, 0.000000E+00 sec (time_manager) ocn date 0080-mar-24, 0.000000E+00 sec (time_manager) ocn date 0080-mar-25, 0.000000E+00 sec (time_manager) ocn date 0080-mar-26, 0.000000E+00 sec (time_manager) ocn date 0080-mar-27, 0.000000E+00 sec (time_manager) ocn date 0080-mar-28, 0.000000E+00 sec (time_manager) ocn date 0080-mar-29, 0.000000E+00 sec (time_manager) ocn date 0080-mar-30, 0.000000E+00 sec (time_manager) ocn date 0080-mar-31, 0.000000E+00 sec (time_manager) ocn date 0080-apr-01, 0.000000E+00 sec Step number : 723100 Date : 01 apr 0080 Hour : 0 Minute : 0 Second : 0 Time(years) : 79.246575 max. cfl number for zonal advection : 6.7172E-02 20 371 33 max. cfl number for meridional advection : 7.7705E-02 121 193 1 max. cfl number for vertical advection : 3.6230E-01 320 362 21 max. cfl number for total advection : 3.7824E-01 320 362 21 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. : 8.724902228844025E+00 K.E. change from horiz. visc. :-3.593036476024764E-06 K.E. change from vert. visc. : 8.831540274226262E-06 K.E. change from wind stress : 2.731598496324163E-05 advective K.E. balance :-2.683180769492300E-09 : 2.164147103570408E-09 P.E. verses pressure work : 6.236013586411834E-04 :-5.747790891745696E-06 surface-pressure contribution :-1.640625505280306E-07 : 9.044420099658662E-08 Tracer diagnostics: mean value of tracer 1 : 3.525156162066561E+00 abs change in tracer 1 : 1.449582088215191E-07 mean change in tracer 1 : 2.988799823280892E-09 mean change in tracer 1 from advection :-4.928723443671552E-24 mean change in tracer 1 from horiz. diff.: 6.485162425883622E-26 mean change in tracer 1 from vert. diff.:-1.179713920164024E-08 mean change in tracer 1 from sources : 1.455329288665302E-08 surface flux of tracer 1 : 0.000000000000000E+00 mean value of tracer 2 : 3.472160185770151E+01 abs change in tracer 2 : 1.396727677369926E-11 mean change in tracer 2 : 1.168964593270103E-13 mean change in tracer 2 from advection :-6.793760353819845E-28 mean change in tracer 2 from horiz. diff.: 1.583291607881744E-29 mean change in tracer 2 from vert. diff.: 2.914570526280108E-14 mean change in tracer 2 from sources : 7.116523189790356E-32 surface flux of tracer 2 : 0.000000000000000E+00 mean value of tracer 3 : 2.174353419266533E+02 abs change in tracer 3 : 2.427656901525302E-06 mean change in tracer 3 : 2.074592496908243E-08 mean change in tracer 3 from advection :-9.055644987415675E-23 mean change in tracer 3 from horiz. diff.: 2.358240882139499E-25 mean change in tracer 3 from vert. diff.:-2.158186357522329E-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: 4.905608949544255E-05 residual, scans : 8.099054274802016E-14 240 Timing information: Timer number 1 Time = 462.46 seconds HMIX_MOMENTUM_ANISO Timer number 2 Time = 414.91 seconds HMIX_TRACER_GM_NLOOP Timer number 3 Time = 2309.69 seconds HMIX_TRACER_GM Timer number 4 Time = 1199.24 seconds VMIX_COEFFICIENTS_KPP Timer number 5 Time = 64.27 seconds VMIX_EXPLICIT_TRACER Timer number 6 Time = 31.38 seconds VMIX_EXPLICIT_MOMENTUM Timer number 7 Time = 199.93 seconds VMIX_IMPLICIT_TRACER Timer number 8 Time = 48.21 seconds VMIX_IMPLICIT_MOMENTUM Timer number 9 Time = 7.00 seconds COMPUTE_COSZ Timer number 10 Time = 87.88 seconds ADVECTION_MOMENTUM Timer number 11 Time = 447.53 seconds ADVECTION_TRACER_UPWIND3 Timer number 12 Time = 30.34 seconds MOC Timer number 13 Time = 30.11 seconds TRACER_TRANSPORTS Timer number 14 Time = 520.75 seconds TAVG_WRITE_STD Timer number 15 Time = 54.29 seconds TAVG_WRITE_NONSTD Timer number 16 Time = 29.01 seconds TAVG_CCSM_DIAGS_BSF Timer number 17 Time = 30.34 seconds TAVG_CCSM_DIAGS_MOC Timer number 18 Time = 30.11 seconds TAVG_CCSM_DIAGS_TRANS Timer number 19 Time = 6911.31 seconds STEP Timer number 20 Time = 5865.00 seconds BAROCLINIC Timer number 21 Time = 793.83 seconds BAROTROPIC Timer number 22 Time = 141.99 seconds 3D-UPDATE Timer number 23 Time = 7591.41 seconds TOTAL Timer number 24 Time = 674.64 seconds OUTPUT Timer number 25 Time = 669.19 seconds OUTPUT TAVG Timer number 26 Time = 5.40 seconds OUTPUT REST ------------------------------------------------------------------------ (diag_print) file written: /ptmp/mai/b40.1850.track1.1deg.006/run/b40.1850.track1.1deg.006.pop.dd.0079-01-01-00000 (diag_transport) file written: /ptmp/mai/b40.1850.track1.1deg.006/run/b40.1850.track1.1deg.006.pop.dt.0079-01-01-00000 AFTER CALL IN tracer_budgets (final): ===================================== volume_t (cm^3) = 0.132514028744E+25 SUM [volume*T] (C cm^3) = 0.467132018567E+25 SUM [volume*S] (ppt cm^3) = 0.460109933820E+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 = 0.982130464204E-13 FW flux = 0.000000000000E+00 Imbalance = -.982130464204E-13 Imbalance = -tendency + FW flux HEAT BUDGET FOR THE GIVEN TAVG INTERVAL (W/m^2): ------------------------------------------------ tendency = 0.961884501494E+01 SHF flux = 0.938471355619E+01 ice formation = 0.234131413269E+00 FW heat content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = -.454770036629E-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 = -.324219730905E-05 SFWF flux = -.262145290451E-05 ice formation = -.620743785930E-06 FW salt content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = 0.618610013665E-12 Imbalance = -tendency + SFWF flux + ice formation + FW salt content + free-srf non-consv. Global Time Averages: 04-01-0080 00:00:00 KAPPA_ISOP: 3858540.87539361184 KAPPA_THIC: 4389281.61495979689 HOR_DIFF: 576826.301350947237 DIA_DEPTH: 6744.04026863760919 TLT: 529.263977916273575 INT_DEPTH: 7273.30021652361847 UISOP: 0.485510515766679818E-04 VISOP: -0.106841539514914449E-03 WISOP: -0.144557834006894433E-12 ADVT_ISOP: -0.555088930719246127E-10 ADVS_ISOP: 0.522022241514080202E-15 VNT_ISOP: 0.607216210698096462E-09 VNS_ISOP: -0.323877315673574035E-12 USUBM: -0.536993965202071364E-05 VSUBM: 0.100649784461598305E-03 WSUBM: -0.722644565992985767E-08 HLS_SUBM: 778341.314857248683 ADVT_SUBM: 0.367280694850909685E-11 ADVS_SUBM: -0.197539263248503267E-16 VNT_SUBM: 0.723857187204332617E-09 VNS_SUBM: 0.772654755965954603E-12 HDIFT: 0.520734208510775641E-12 HDIFS: 0.765168288275810562E-16 QSW_HBL: 157.892437670631608 KVMIX: 1.35672724558240021 TPOWER: 0.223300463662263521E-05 UVEL: 0.310783449142059354 VVEL: 0.162994447931176078E-02 TEMP: 3.52283066511370668 dTEMP_POS_2D: 0.825508525380410363E-01 dTEMP_NEG_2D: -0.640875847040109359E-01 SALT: 0.347215172688719390E-01 RHO: 1.03743258419514617 RESID_T: 0.000000000000000000E+00 RESID_S: 0.000000000000000000E+00 SU: 111475.823133400365 SV: 528.559641459336603 SSH: 0.490530996999414038E-04 SHF: 9.38471355619482317 SHF_QSW: 184.919842341911590 SFWF: -0.262145290451018368E-05 TAUX: 0.841000999855234799E-01 TAUY: -0.669012008420985099E-01 FW: 0.000000000000000000E+00 TFW_T: 0.000000000000000000E+00 TFW_S: 0.000000000000000000E+00 EVAP_F: -0.406522214329098193E-04 PREC_F: 0.355967726300416337E-04 SNOW_F: 0.111448061664960468E-05 MELT_F: -0.135485546216812053E-05 ROFF_F: 0.332701868435867831E-05 IOFF_F: 0.238908733591458354E-06 SALT_F: -0.773579654794832680E-08 SENH_F: -13.8771950219201656 LWUP_F: -393.299631226047211 LWDN_F: 334.455066312629754 MELTH_F: -0.690544310567414277 IFRAC: 0.639973691837133207E-01 IAGE: 217.405458843364272 WVEL: 0.627944211729672958E-06 UET: 0.715465997031482231E-08 VNT: 0.104999594543981801E-06 WTT: -0.170738778173278642E-07 UES: 0.152842711678497525E-08 VNS: 0.688084760188519564E-12 WTS: 0.781901486454356142E-12 ADVT: -0.398608624453284559E-10 ADVS: -0.785560613846319933E-14 PV: 0.140215362556499562E-12 Q: -0.992506585050819315E-08 PD: 1.02752189030427865 QSW_HTP: 135.338755864069242 QFLUX: 0.234131413269212107 HMXL: 6745.64997851768840 XMXL: 8540.35188638200998 TMXL: 4107.44971593715945 HBLT: 3974.95633651442131 XBLT: 7575.54287949625996 TBLT: 889.793562172011775 BSF: 0.000000000000000000E+00 convergence info from pcg_diag_bsf: iter = 0 rms_resid = 0.106755237981951800 iter = 100 rms_resid = 0.430435736688547076E-02 iter = 200 rms_resid = 0.887430989156846959E-03 iter = 300 rms_resid = 0.358644592743887641E-03 iter = 400 rms_resid = 0.260341655463837971E-03 iter = 500 rms_resid = 0.184509345085895614E-03 iter = 600 rms_resid = 0.493686596137831688E-04 iter = 700 rms_resid = 0.157927577870343185E-04 iter = 800 rms_resid = 0.170779694777771730E-05 iter = 900 rms_resid = 0.148215011047542710E-06 Local Time- and Space-Averages for Nino Regions: 00:00:00 0080-04-01 NINO_1_PLUS_2: 27.2875612176258002 NINO_3: 26.7225293686386962 NINO_3_POINT_4: 27.5602658604133062 NINO_4: 28.4310529643133663 tavg file written: ./b40.1850.track1.1deg.006.pop.h.0080-03.nc (time_manager) ocn date 0080-apr-02, 0.000000E+00 sec (time_manager) ocn date 0080-apr-03, 0.000000E+00 sec (time_manager) ocn date 0080-apr-04, 0.000000E+00 sec (time_manager) ocn date 0080-apr-05, 0.000000E+00 sec (time_manager) ocn date 0080-apr-06, 0.000000E+00 sec (time_manager) ocn date 0080-apr-07, 0.000000E+00 sec (time_manager) ocn date 0080-apr-08, 0.000000E+00 sec (time_manager) ocn date 0080-apr-09, 0.000000E+00 sec (time_manager) ocn date 0080-apr-10, 0.000000E+00 sec (time_manager) ocn date 0080-apr-11, 0.000000E+00 sec (time_manager) ocn date 0080-apr-12, 0.000000E+00 sec (time_manager) ocn date 0080-apr-13, 0.000000E+00 sec (time_manager) ocn date 0080-apr-14, 0.000000E+00 sec (time_manager) ocn date 0080-apr-15, 0.000000E+00 sec (time_manager) ocn date 0080-apr-16, 0.000000E+00 sec (time_manager) ocn date 0080-apr-17, 0.000000E+00 sec (time_manager) ocn date 0080-apr-18, 0.000000E+00 sec (time_manager) ocn date 0080-apr-19, 0.000000E+00 sec (time_manager) ocn date 0080-apr-20, 0.000000E+00 sec (time_manager) ocn date 0080-apr-21, 0.000000E+00 sec (time_manager) ocn date 0080-apr-22, 0.000000E+00 sec (time_manager) ocn date 0080-apr-23, 0.000000E+00 sec (time_manager) ocn date 0080-apr-24, 0.000000E+00 sec (time_manager) ocn date 0080-apr-25, 0.000000E+00 sec (time_manager) ocn date 0080-apr-26, 0.000000E+00 sec (time_manager) ocn date 0080-apr-27, 0.000000E+00 sec (time_manager) ocn date 0080-apr-28, 0.000000E+00 sec (time_manager) ocn date 0080-apr-29, 0.000000E+00 sec (time_manager) ocn date 0080-apr-30, 0.000000E+00 sec (time_manager) ocn date 0080-may-01, 0.000000E+00 sec Step number : 723850 Date : 01 may 0080 Hour : 0 Minute : 0 Second : 0 Time(years) : 79.328767 max. cfl number for zonal advection : 6.9725E-02 20 371 33 max. cfl number for meridional advection : 7.0975E-02 6 169 1 max. cfl number for vertical advection : 3.4130E-01 311 355 10 max. cfl number for total advection : 3.5098E-01 311 355 10 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. : 8.644081029722910E+00 K.E. change from horiz. visc. :-3.436355528895210E-06 K.E. change from vert. visc. : 8.793104658168136E-06 K.E. change from wind stress : 2.427688043878748E-05 advective K.E. balance :-3.297081483889441E-10 : 2.766809424081836E-11 P.E. verses pressure work : 6.287195944812738E-04 :-6.579616307981478E-06 surface-pressure contribution :-9.178878236398980E-08 : 2.685524464216604E-08 Tracer diagnostics: mean value of tracer 1 : 3.525584796480054E+00 abs change in tracer 1 : 1.359651396577594E-07 mean change in tracer 1 : 2.276202708872150E-09 mean change in tracer 1 from advection :-5.848437387705957E-24 mean change in tracer 1 from horiz. diff.: 0.000000000000000E+00 mean change in tracer 1 from vert. diff.:-1.131835183242895E-08 mean change in tracer 1 from sources : 1.338084345519671E-08 surface flux of tracer 1 : 0.000000000000000E+00 mean value of tracer 2 : 3.472168757259414E+01 abs change in tracer 2 : 1.302775410933776E-11 mean change in tracer 2 : 1.003652818687242E-13 mean change in tracer 2 from advection : 1.462385703279865E-27 mean change in tracer 2 from horiz. diff.:-5.037746025078275E-30 mean change in tracer 2 from vert. diff.: 1.975655525414941E-14 mean change in tracer 2 from sources :-2.622083708546882E-31 surface flux of tracer 2 : 0.000000000000000E+00 mean value of tracer 3 : 2.174963444404618E+02 abs change in tracer 3 : 2.330946278772613E-06 mean change in tracer 3 : 2.343540365290007E-08 mean change in tracer 3 from advection :-1.358346748112351E-23 mean change in tracer 3 from horiz. diff.: 1.603603799854859E-24 mean change in tracer 3 from vert. diff.: 2.017940616688151E-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: 4.972165200985123E-05 residual, scans : 7.877574505406404E-14 240 Timing information: Timer number 1 Time = 493.07 seconds HMIX_MOMENTUM_ANISO Timer number 2 Time = 442.26 seconds HMIX_TRACER_GM_NLOOP Timer number 3 Time = 2462.88 seconds HMIX_TRACER_GM Timer number 4 Time = 1278.67 seconds VMIX_COEFFICIENTS_KPP Timer number 5 Time = 68.50 seconds VMIX_EXPLICIT_TRACER Timer number 6 Time = 33.44 seconds VMIX_EXPLICIT_MOMENTUM Timer number 7 Time = 213.11 seconds VMIX_IMPLICIT_TRACER Timer number 8 Time = 51.31 seconds VMIX_IMPLICIT_MOMENTUM Timer number 9 Time = 7.46 seconds COMPUTE_COSZ Timer number 10 Time = 93.75 seconds ADVECTION_MOMENTUM Timer number 11 Time = 477.06 seconds ADVECTION_TRACER_UPWIND3 Timer number 12 Time = 32.50 seconds MOC Timer number 13 Time = 32.25 seconds TRACER_TRANSPORTS Timer number 14 Time = 557.20 seconds TAVG_WRITE_STD Timer number 15 Time = 57.24 seconds TAVG_WRITE_NONSTD Timer number 16 Time = 31.05 seconds TAVG_CCSM_DIAGS_BSF Timer number 17 Time = 32.50 seconds TAVG_CCSM_DIAGS_MOC Timer number 18 Time = 32.25 seconds TAVG_CCSM_DIAGS_TRANS Timer number 19 Time = 7366.15 seconds STEP Timer number 20 Time = 6251.53 seconds BAROCLINIC Timer number 21 Time = 845.40 seconds BAROTROPIC Timer number 22 Time = 151.43 seconds 3D-UPDATE Timer number 23 Time = 8092.68 seconds TOTAL Timer number 24 Time = 720.71 seconds OUTPUT Timer number 25 Time = 715.25 seconds OUTPUT TAVG Timer number 26 Time = 5.41 seconds OUTPUT REST ------------------------------------------------------------------------ (diag_print) file written: /ptmp/mai/b40.1850.track1.1deg.006/run/b40.1850.track1.1deg.006.pop.dd.0079-01-01-00000 (diag_transport) file written: /ptmp/mai/b40.1850.track1.1deg.006/run/b40.1850.track1.1deg.006.pop.dt.0079-01-01-00000 AFTER CALL IN tracer_budgets (final): ===================================== volume_t (cm^3) = 0.132514028745E+25 SUM [volume*T] (C cm^3) = 0.467188982024E+25 SUM [volume*S] (ppt cm^3) = 0.460111069963E+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 = 0.256771104334E-12 FW flux = 0.000000000000E+00 Imbalance = -.256771104334E-12 Imbalance = -tendency + FW flux HEAT BUDGET FOR THE GIVEN TAVG INTERVAL (W/m^2): ------------------------------------------------ tendency = 0.249492998185E+01 SHF flux = 0.222313614654E+01 ice formation = 0.271794039061E+00 FW heat content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = 0.203754393691E-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 = -.349778177981E-05 SFWF flux = -.277718465547E-05 ice formation = -.720597285277E-06 FW salt content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = -.160939112362E-12 Imbalance = -tendency + SFWF flux + ice formation + FW salt content + free-srf non-consv. Global Time Averages: 05-01-0080 00:00:00 KAPPA_ISOP: 3817877.02197345579 KAPPA_THIC: 4295425.48817462102 HOR_DIFF: 523386.399196306360 DIA_DEPTH: 6131.55382680366165 TLT: 448.590267143395295 INT_DEPTH: 6580.14512165046563 UISOP: 0.611633645939754501E-04 VISOP: -0.172734142585500363E-03 WISOP: 0.237166134109618183E-13 ADVT_ISOP: -0.609604635510642904E-10 ADVS_ISOP: 0.224423496287295695E-14 VNT_ISOP: 0.589610655438030098E-09 VNS_ISOP: -0.812178844738915847E-12 USUBM: -0.290663028742693521E-05 VSUBM: 0.118230252888653453E-04 WSUBM: -0.154892564048759046E-08 HLS_SUBM: 814774.900574781932 ADVT_SUBM: -0.631680635780791258E-13 ADVS_SUBM: 0.452606782454726050E-15 VNT_SUBM: 0.475100750682483019E-09 VNS_SUBM: 0.101339414704202630E-12 HDIFT: -0.486003900108489240E-10 HDIFS: 0.704351625001810712E-14 QSW_HBL: 146.623293925764642 KVMIX: 1.34691748458770366 TPOWER: 0.223267906175513621E-05 UVEL: 0.324115324252247206 VVEL: 0.128541230853362128E-02 TEMP: 3.52378914598627491 dTEMP_POS_2D: 0.879056035421340309E-01 dTEMP_NEG_2D: -0.709218995301210825E-01 SALT: 0.347216191287346085E-01 RHO: 1.03743227281496964 RESID_T: 0.000000000000000000E+00 RESID_S: 0.000000000000000000E+00 SU: 116256.157283271154 SV: 411.730783109014283 SSH: 0.494090927316368774E-04 SHF: 2.22313614654103464 SHF_QSW: 173.975926679753911 SFWF: -0.277718465547012043E-05 TAUX: 0.122924386792344173 TAUY: -0.490898828363154210E-01 FW: 0.000000000000000000E+00 TFW_T: 0.000000000000000000E+00 TFW_S: 0.000000000000000000E+00 EVAP_F: -0.391788645549558481E-04 PREC_F: 0.342921092300475631E-04 SNOW_F: 0.106478542017652908E-05 MELT_F: -0.220023845214695922E-05 ROFF_F: 0.364703603415145122E-05 IOFF_F: 0.331873331699239707E-06 SALT_F: -0.114816393951639157E-07 SENH_F: -13.2826297272916047 LWUP_F: -390.288400666874907 LWDN_F: 330.822082541882367 MELTH_F: -0.551435485977974760 IFRAC: 0.726012873790420898E-01 IAGE: 217.465887368333426 WVEL: 0.645178931491935452E-06 UET: 0.348090677201948943E-07 VNT: 0.712908584489867021E-07 WTT: -0.168208320699449152E-07 UES: 0.159621957678539549E-08 VNS: 0.538218781781900485E-11 WTS: 0.118062695139455709E-11 ADVT: 0.765711034874472054E-10 ADVS: 0.124803235977986799E-13 PV: 0.115007620998408470E-12 Q: -0.989331969754458117E-08 PD: 1.02752158027962470 QSW_HTP: 127.684458232299875 QFLUX: 0.271794039060574977 HMXL: 6132.10388200172201 XMXL: 8389.73936534702079 TMXL: 4110.85631341812950 HBLT: 3695.58585251293016 XBLT: 6880.91567158740145 TBLT: 921.768686139945089 BSF: 0.000000000000000000E+00 convergence info from pcg_diag_bsf: iter = 0 rms_resid = 0.102591728470945567 iter = 100 rms_resid = 0.433006209963950409E-02 iter = 200 rms_resid = 0.907325714971360278E-03 iter = 300 rms_resid = 0.397591849092240890E-03 iter = 400 rms_resid = 0.287492584418170356E-03 iter = 500 rms_resid = 0.195447774832311797E-03 iter = 600 rms_resid = 0.501047007134974390E-04 iter = 700 rms_resid = 0.153408962685931818E-04 iter = 800 rms_resid = 0.179375964222375436E-05 iter = 900 rms_resid = 0.149384925517065734E-06 Local Time- and Space-Averages for Nino Regions: 00:00:00 0080-05-01 NINO_1_PLUS_2: 26.8937372825130332 NINO_3: 26.9174026928277570 NINO_3_POINT_4: 27.7217026894181302 NINO_4: 28.6301470421234612 tavg file written: ./b40.1850.track1.1deg.006.pop.h.0080-04.nc (time_manager) ocn date 0080-may-02, 0.000000E+00 sec (time_manager) ocn date 0080-may-03, 0.000000E+00 sec (time_manager) ocn date 0080-may-04, 0.000000E+00 sec (time_manager) ocn date 0080-may-05, 0.000000E+00 sec (time_manager) ocn date 0080-may-06, 0.000000E+00 sec (time_manager) ocn date 0080-may-07, 0.000000E+00 sec (time_manager) ocn date 0080-may-08, 0.000000E+00 sec (time_manager) ocn date 0080-may-09, 0.000000E+00 sec (time_manager) ocn date 0080-may-10, 0.000000E+00 sec (time_manager) ocn date 0080-may-11, 0.000000E+00 sec (time_manager) ocn date 0080-may-12, 0.000000E+00 sec (time_manager) ocn date 0080-may-13, 0.000000E+00 sec (time_manager) ocn date 0080-may-14, 0.000000E+00 sec (time_manager) ocn date 0080-may-15, 0.000000E+00 sec (time_manager) ocn date 0080-may-16, 0.000000E+00 sec (time_manager) ocn date 0080-may-17, 0.000000E+00 sec (time_manager) ocn date 0080-may-18, 0.000000E+00 sec (time_manager) ocn date 0080-may-19, 0.000000E+00 sec (time_manager) ocn date 0080-may-20, 0.000000E+00 sec (time_manager) ocn date 0080-may-21, 0.000000E+00 sec (time_manager) ocn date 0080-may-22, 0.000000E+00 sec (time_manager) ocn date 0080-may-23, 0.000000E+00 sec (time_manager) ocn date 0080-may-24, 0.000000E+00 sec (time_manager) ocn date 0080-may-25, 0.000000E+00 sec (time_manager) ocn date 0080-may-26, 0.000000E+00 sec (time_manager) ocn date 0080-may-27, 0.000000E+00 sec (time_manager) ocn date 0080-may-28, 0.000000E+00 sec (time_manager) ocn date 0080-may-29, 0.000000E+00 sec (time_manager) ocn date 0080-may-30, 0.000000E+00 sec (time_manager) ocn date 0080-may-31, 0.000000E+00 sec (time_manager) ocn date 0080-jun-01, 0.000000E+00 sec Step number : 724625 Date : 01 jun 0080 Hour : 0 Minute : 0 Second : 0 Time(years) : 79.413699 max. cfl number for zonal advection : 7.5541E-02 20 371 33 max. cfl number for meridional advection : 8.8753E-02 6 169 5 max. cfl number for vertical advection : 2.3818E-01 188 62 20 max. cfl number for total advection : 2.4751E-01 188 62 20 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. : 8.903640139722794E+00 K.E. change from horiz. visc. :-3.698521663237882E-06 K.E. change from vert. visc. : 8.162116056239706E-06 K.E. change from wind stress : 3.115444210158823E-05 advective K.E. balance :-1.741341168210038E-10 :-2.762331159229283E-10 P.E. verses pressure work : 6.510018887319024E-04 :-3.460244886314787E-06 surface-pressure contribution :-6.297279716747972E-07 : 5.717145211079387E-07 Tracer diagnostics: mean value of tracer 1 : 3.523182790637474E+00 abs change in tracer 1 : 1.337399703807332E-07 mean change in tracer 1 : 7.022565581683359E-10 mean change in tracer 1 from advection :-5.471118846563637E-24 mean change in tracer 1 from horiz. diff.:-1.768680661604624E-26 mean change in tracer 1 from vert. diff.:-1.200662162887524E-08 mean change in tracer 1 from sources : 1.253714462833611E-08 surface flux of tracer 1 : 0.000000000000000E+00 mean value of tracer 2 : 3.472170076849783E+01 abs change in tracer 2 : 1.343899342352162E-11 mean change in tracer 2 : 3.706571187744902E-14 mean change in tracer 2 from advection :-6.678611873246628E-28 mean change in tracer 2 from horiz. diff.:-1.727227208598266E-29 mean change in tracer 2 from vert. diff.:-2.770969934139827E-14 mean change in tracer 2 from sources :-9.263321619231786E-32 surface flux of tracer 2 : 0.000000000000000E+00 mean value of tracer 3 : 2.175503076036945E+02 abs change in tracer 3 : 2.384164937089446E-06 mean change in tracer 3 : 1.680006150174784E-08 mean change in tracer 3 from advection :-1.328161264820966E-22 mean change in tracer 3 from horiz. diff.: 1.037625988141380E-24 mean change in tracer 3 from vert. diff.: 3.323041692982909E-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: 4.907604330873723E-05 residual, scans : 9.189841913325431E-14 240 Timing information: Timer number 1 Time = 524.85 seconds HMIX_MOMENTUM_ANISO Timer number 2 Time = 470.44 seconds HMIX_TRACER_GM_NLOOP Timer number 3 Time = 2620.51 seconds HMIX_TRACER_GM Timer number 4 Time = 1361.06 seconds VMIX_COEFFICIENTS_KPP Timer number 5 Time = 72.88 seconds VMIX_EXPLICIT_TRACER Timer number 6 Time = 35.57 seconds VMIX_EXPLICIT_MOMENTUM Timer number 7 Time = 226.74 seconds VMIX_IMPLICIT_TRACER Timer number 8 Time = 54.51 seconds VMIX_IMPLICIT_MOMENTUM Timer number 9 Time = 7.93 seconds COMPUTE_COSZ Timer number 10 Time = 99.86 seconds ADVECTION_MOMENTUM Timer number 11 Time = 507.54 seconds ADVECTION_TRACER_UPWIND3 Timer number 12 Time = 34.70 seconds MOC Timer number 13 Time = 34.42 seconds TRACER_TRANSPORTS Timer number 14 Time = 592.66 seconds TAVG_WRITE_STD Timer number 15 Time = 60.05 seconds TAVG_WRITE_NONSTD Timer number 16 Time = 33.09 seconds TAVG_CCSM_DIAGS_BSF Timer number 17 Time = 34.70 seconds TAVG_CCSM_DIAGS_MOC Timer number 18 Time = 34.42 seconds TAVG_CCSM_DIAGS_TRANS Timer number 19 Time = 7836.35 seconds STEP Timer number 20 Time = 6650.50 seconds BAROCLINIC Timer number 21 Time = 898.65 seconds BAROTROPIC Timer number 22 Time = 161.24 seconds 3D-UPDATE Timer number 23 Time = 8608.25 seconds TOTAL Timer number 24 Time = 765.70 seconds OUTPUT Timer number 25 Time = 760.23 seconds OUTPUT TAVG Timer number 26 Time = 5.41 seconds OUTPUT REST ------------------------------------------------------------------------ (diag_print) file written: /ptmp/mai/b40.1850.track1.1deg.006/run/b40.1850.track1.1deg.006.pop.dd.0079-01-01-00000 (diag_transport) file written: /ptmp/mai/b40.1850.track1.1deg.006/run/b40.1850.track1.1deg.006.pop.dt.0079-01-01-00000 AFTER CALL IN tracer_budgets (final): ===================================== volume_t (cm^3) = 0.132514028744E+25 SUM [volume*T] (C cm^3) = 0.466871037471E+25 SUM [volume*S] (ppt cm^3) = 0.460111245934E+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 = -.241050726535E-12 FW flux = 0.000000000000E+00 Imbalance = 0.241050726535E-12 Imbalance = -tendency + FW flux HEAT BUDGET FOR THE GIVEN TAVG INTERVAL (W/m^2): ------------------------------------------------ tendency = -.134763713629E+02 SHF flux = -.136745945556E+02 ice formation = 0.198222682907E+00 FW heat content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = -.509835163837E-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 = -.524276843021E-06 SFWF flux = 0.126288719953E-08 ice formation = -.525540323389E-06 FW salt content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = -.593167727486E-12 Imbalance = -tendency + SFWF flux + ice formation + FW salt content + free-srf non-consv. Global Time Averages: 06-01-0080 00:00:00 KAPPA_ISOP: 3517509.82984712627 KAPPA_THIC: 3958887.91978254635 HOR_DIFF: 486866.240488333162 DIA_DEPTH: 5732.42176092595128 TLT: 352.543819927154630 INT_DEPTH: 6084.96137490134242 UISOP: 0.636632295431504143E-04 VISOP: -0.290944708248105411E-03 WISOP: -0.466177736941567317E-13 ADVT_ISOP: 0.138308268154770563E-10 ADVS_ISOP: 0.594589248623479531E-15 VNT_ISOP: -0.533515273977542494E-09 VNS_ISOP: -0.178679871481760971E-11 USUBM: 0.205630850349370050E-05 VSUBM: -0.104108124269565639E-04 WSUBM: -0.903808711151716909E-09 HLS_SUBM: 774340.149260699051 ADVT_SUBM: 0.675771337302495606E-12 ADVS_SUBM: 0.118142254493811027E-15 VNT_SUBM: 0.231392371351435787E-10 VNS_SUBM: -0.746136483641165316E-13 HDIFT: 0.401390136088639728E-10 HDIFS: 0.112900599080656976E-14 QSW_HBL: 134.473338280266802 KVMIX: 1.34283872448574626 TPOWER: 0.222220451865053587E-05 UVEL: 0.325105047365952859 VVEL: 0.113083683658235122E-02 TEMP: 3.52274624396826308 dTEMP_POS_2D: 0.958309498408162763E-01 dTEMP_NEG_2D: -0.769586410154340095E-01 SALT: 0.347216742493678676E-01 RHO: 1.03743251788479074 RESID_T: 0.000000000000000000E+00 RESID_S: 0.000000000000000000E+00 SU: 116612.946403250025 SV: 362.304350093609855 SSH: 0.492841595331295701E-04 SHF: -13.6745945556228730 SHF_QSW: 159.445419561109730 SFWF: 0.126288719953455199E-08 TAUX: 0.124125207543384672 TAUY: -0.244136415602616806E-01 FW: 0.000000000000000000E+00 TFW_T: 0.000000000000000000E+00 TFW_S: 0.000000000000000000E+00 EVAP_F: -0.399281251594063658E-04 PREC_F: 0.359022568586387248E-04 SNOW_F: 0.107427582927050433E-05 MELT_F: -0.674241211505964259E-06 ROFF_F: 0.420295100768226479E-05 IOFF_F: 0.288146906068378742E-06 SALT_F: -0.729539387967380824E-08 SENH_F: -14.0827088108760261 LWUP_F: -387.425207335790844 LWDN_F: 329.504144376236468 MELTH_F: -0.801360267074734289 IFRAC: 0.792813673875600033E-01 IAGE: 217.524087184025461 WVEL: 0.664867080052928223E-06 UET: 0.775436450079819145E-07 VNT: 0.267928657210703704E-07 WTT: -0.167355416658397630E-07 UES: 0.158992428723191443E-08 VNS: 0.451890241643192170E-11 WTS: 0.874925421374904567E-12 ADVT: -0.852755650251509119E-10 ADVS: 0.143004579657442201E-14 PV: 0.713106146206104088E-13 Q: -0.980771678250648821E-08 PD: 1.02752184371838640 QSW_HTP: 117.889704345719025 QFLUX: 0.198222682906911390 HMXL: 5732.68924694793441 XMXL: 7139.54910695916715 TMXL: 4500.53250886648857 HBLT: 4004.20220799345043 XBLT: 6632.55925263129484 TBLT: 914.764786311305897 BSF: 0.000000000000000000E+00 convergence info from pcg_diag_bsf: iter = 0 rms_resid = 0.103020182455042561 iter = 100 rms_resid = 0.440172690027770472E-02 iter = 200 rms_resid = 0.910808649119987509E-03 iter = 300 rms_resid = 0.376886702958031299E-03 iter = 400 rms_resid = 0.289453762922824587E-03 iter = 500 rms_resid = 0.193062114565196958E-03 iter = 600 rms_resid = 0.495785974345268568E-04 iter = 700 rms_resid = 0.156786761595439891E-04 iter = 800 rms_resid = 0.192519635430159192E-05 iter = 900 rms_resid = 0.162225385096472426E-06 Local Time- and Space-Averages for Nino Regions: 00:00:00 0080-06-01 NINO_1_PLUS_2: 25.4152542039916334 NINO_3: 26.4870605049965171 NINO_3_POINT_4: 27.8014785333454277 NINO_4: 29.0331387469292004 tavg file written: ./b40.1850.track1.1deg.006.pop.h.0080-05.nc (time_manager) ocn date 0080-jun-02, 0.000000E+00 sec (time_manager) ocn date 0080-jun-03, 0.000000E+00 sec (time_manager) ocn date 0080-jun-04, 0.000000E+00 sec (time_manager) ocn date 0080-jun-05, 0.000000E+00 sec (time_manager) ocn date 0080-jun-06, 0.000000E+00 sec (time_manager) ocn date 0080-jun-07, 0.000000E+00 sec (time_manager) ocn date 0080-jun-08, 0.000000E+00 sec (time_manager) ocn date 0080-jun-09, 0.000000E+00 sec (time_manager) ocn date 0080-jun-10, 0.000000E+00 sec (time_manager) ocn date 0080-jun-11, 0.000000E+00 sec (time_manager) ocn date 0080-jun-12, 0.000000E+00 sec (time_manager) ocn date 0080-jun-13, 0.000000E+00 sec (time_manager) ocn date 0080-jun-14, 0.000000E+00 sec (time_manager) ocn date 0080-jun-15, 0.000000E+00 sec (time_manager) ocn date 0080-jun-16, 0.000000E+00 sec (time_manager) ocn date 0080-jun-17, 0.000000E+00 sec (time_manager) ocn date 0080-jun-18, 0.000000E+00 sec (time_manager) ocn date 0080-jun-19, 0.000000E+00 sec (time_manager) ocn date 0080-jun-20, 0.000000E+00 sec (time_manager) ocn date 0080-jun-21, 0.000000E+00 sec (time_manager) ocn date 0080-jun-22, 0.000000E+00 sec (time_manager) ocn date 0080-jun-23, 0.000000E+00 sec (time_manager) ocn date 0080-jun-24, 0.000000E+00 sec (time_manager) ocn date 0080-jun-25, 0.000000E+00 sec (time_manager) ocn date 0080-jun-26, 0.000000E+00 sec (time_manager) ocn date 0080-jun-27, 0.000000E+00 sec (time_manager) ocn date 0080-jun-28, 0.000000E+00 sec (time_manager) ocn date 0080-jun-29, 0.000000E+00 sec (time_manager) ocn date 0080-jun-30, 0.000000E+00 sec (time_manager) ocn date 0080-jul-01, 0.000000E+00 sec Step number : 725375 Date : 01 jul 0080 Hour : 0 Minute : 0 Second : 0 Time(years) : 79.495890 max. cfl number for zonal advection : 7.8544E-02 20 371 33 max. cfl number for meridional advection : 1.1280E-01 76 188 1 max. cfl number for vertical advection : 6.4780E-01 298 46 14 max. cfl number for total advection : 6.5647E-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. : 8.841496345935743E+00 K.E. change from horiz. visc. :-3.959265628846784E-06 K.E. change from vert. visc. : 8.853751391793857E-06 K.E. change from wind stress : 2.762712423430571E-05 advective K.E. balance :-1.134840432697573E-09 : 5.569246054605783E-10 P.E. verses pressure work : 6.581187982155430E-04 :-4.266591910111129E-06 surface-pressure contribution : 3.744330802755324E-07 :-4.316249255331069E-07 Tracer diagnostics: mean value of tracer 1 : 3.519426039703629E+00 abs change in tracer 1 : 1.371546970552931E-07 mean change in tracer 1 : 1.380950220947005E-09 mean change in tracer 1 from advection :-1.509274164569279E-24 mean change in tracer 1 from horiz. diff.: 1.238076463123237E-25 mean change in tracer 1 from vert. diff.:-1.092798915503054E-08 mean change in tracer 1 from sources : 1.218655849097930E-08 surface flux of tracer 1 : 0.000000000000000E+00 mean value of tracer 2 : 3.472161773527222E+01 abs change in tracer 2 : 1.376008576175661E-11 mean change in tracer 2 :-2.484114234895436E-14 mean change in tracer 2 from advection :-5.296830106368015E-28 mean change in tracer 2 from horiz. diff.:-1.295420406448699E-29 mean change in tracer 2 from vert. diff.:-7.100143979283103E-14 mean change in tracer 2 from sources :-2.393166353416934E-31 surface flux of tracer 2 : 0.000000000000000E+00 mean value of tracer 3 : 2.175932838041972E+02 abs change in tracer 3 : 2.461364554930342E-06 mean change in tracer 3 : 1.409072874449790E-08 mean change in tracer 3 from advection :-7.093588573475612E-23 mean change in tracer 3 from horiz. diff.: 3.773185411423198E-25 mean change in tracer 3 from vert. diff.: 1.950596485936946E-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: 4.938716115982987E-05 residual, scans : 6.149708224953604E-14 250 Timing information: Timer number 1 Time = 555.73 seconds HMIX_MOMENTUM_ANISO Timer number 2 Time = 497.48 seconds HMIX_TRACER_GM_NLOOP Timer number 3 Time = 2772.58 seconds HMIX_TRACER_GM Timer number 4 Time = 1439.98 seconds VMIX_COEFFICIENTS_KPP Timer number 5 Time = 77.12 seconds VMIX_EXPLICIT_TRACER Timer number 6 Time = 37.63 seconds VMIX_EXPLICIT_MOMENTUM Timer number 7 Time = 239.92 seconds VMIX_IMPLICIT_TRACER Timer number 8 Time = 57.71 seconds VMIX_IMPLICIT_MOMENTUM Timer number 9 Time = 8.39 seconds COMPUTE_COSZ Timer number 10 Time = 105.62 seconds ADVECTION_MOMENTUM Timer number 11 Time = 537.04 seconds ADVECTION_TRACER_UPWIND3 Timer number 12 Time = 36.87 seconds MOC Timer number 13 Time = 36.57 seconds TRACER_TRANSPORTS Timer number 14 Time = 628.99 seconds TAVG_WRITE_STD Timer number 15 Time = 62.84 seconds TAVG_WRITE_NONSTD Timer number 16 Time = 35.13 seconds TAVG_CCSM_DIAGS_BSF Timer number 17 Time = 36.87 seconds TAVG_CCSM_DIAGS_MOC Timer number 18 Time = 36.58 seconds TAVG_CCSM_DIAGS_TRANS Timer number 19 Time = 8292.09 seconds STEP Timer number 20 Time = 7037.68 seconds BAROCLINIC Timer number 21 Time = 950.44 seconds BAROTROPIC Timer number 22 Time = 170.77 seconds 3D-UPDATE Timer number 23 Time = 9110.21 seconds TOTAL Timer number 24 Time = 811.55 seconds OUTPUT Timer number 25 Time = 806.08 seconds OUTPUT TAVG Timer number 26 Time = 5.41 seconds OUTPUT REST ------------------------------------------------------------------------ (diag_print) file written: /ptmp/mai/b40.1850.track1.1deg.006/run/b40.1850.track1.1deg.006.pop.dd.0079-01-01-00000 (diag_transport) file written: /ptmp/mai/b40.1850.track1.1deg.006/run/b40.1850.track1.1deg.006.pop.dt.0079-01-01-00000 AFTER CALL IN tracer_budgets (final): ===================================== volume_t (cm^3) = 0.132514028744E+25 SUM [volume*T] (C cm^3) = 0.466373042854E+25 SUM [volume*S] (ppt cm^3) = 0.460110146654E+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 = 0.120040634659E-12 FW flux = 0.000000000000E+00 Imbalance = -.120040634659E-12 Imbalance = -tendency + FW flux HEAT BUDGET FOR THE GIVEN TAVG INTERVAL (W/m^2): ------------------------------------------------ tendency = -.218115570594E+02 SHF flux = -.219655787190E+02 ice formation = 0.154021538923E+00 FW heat content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = -.120644640667E-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 = 0.338429388792E-05 SFWF flux = 0.379264571894E-05 ice formation = -.408351497354E-06 FW salt content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = 0.333669066816E-12 Imbalance = -tendency + SFWF flux + ice formation + FW salt content + free-srf non-consv. Global Time Averages: 07-01-0080 00:00:00 KAPPA_ISOP: 3445008.03273614729 KAPPA_THIC: 3929838.49424417503 HOR_DIFF: 530593.090640526498 DIA_DEPTH: 6267.50333679043251 TLT: 352.711898461310113 INT_DEPTH: 6620.20837761086568 UISOP: 0.523409813749327852E-04 VISOP: -0.328232895324438853E-03 WISOP: -0.310155560979402095E-12 ADVT_ISOP: 0.652455738113062358E-11 ADVS_ISOP: 0.130628489123649776E-15 VNT_ISOP: -0.971345910774745778E-09 VNS_ISOP: -0.202776062223707841E-11 USUBM: 0.116380662019712517E-05 VSUBM: -0.194740011309314287E-04 WSUBM: -0.121846728977881496E-08 HLS_SUBM: 744228.326985787950 ADVT_SUBM: 0.282680941150400902E-12 ADVS_SUBM: -0.795915327705454658E-16 VNT_SUBM: -0.792839566379269284E-10 VNS_SUBM: -0.126496356201943182E-12 HDIFT: -0.485232541004611908E-10 HDIFS: -0.133410017571778443E-14 QSW_HBL: 127.556095572586258 KVMIX: 1.34759489009477740 TPOWER: 0.221665914221172151E-05 UVEL: 0.318886033569511562 VVEL: 0.201086594740913262E-02 TEMP: 3.51956377353330829 dTEMP_POS_2D: 0.933479909717723905E-01 dTEMP_NEG_2D: -0.743049079171767407E-01 SALT: 0.347216421522857435E-01 RHO: 1.03743315648851042 RESID_T: 0.000000000000000000E+00 RESID_S: 0.000000000000000000E+00 SU: 114384.110652502044 SV: 680.517879303861946 SSH: 0.490200757059738672E-04 SHF: -21.9655787189656735 SHF_QSW: 150.837893765177142 SFWF: 0.379264571893895036E-05 TAUX: 0.102381811394033018 TAUY: 0.312752146309710349E-01 FW: 0.000000000000000000E+00 TFW_T: 0.000000000000000000E+00 TFW_S: 0.000000000000000000E+00 EVAP_F: -0.405758270694608412E-04 PREC_F: 0.365798067573462068E-04 SNOW_F: 0.106294292860702859E-05 MELT_F: 0.257642394012587930E-05 ROFF_F: 0.508295523618643292E-05 IOFF_F: 0.239225752505813031E-06 SALT_F: 0.381527378956982092E-08 SENH_F: -13.9371590125516605 LWUP_F: -386.117997681516670 LWDN_F: 330.479635464920932 MELTH_F: -1.31327735014131552 IFRAC: 0.813657041256172636E-01 IAGE: 217.573356311995894 WVEL: 0.674255801747570228E-06 UET: 0.647163480917590266E-07 VNT: -0.100668488592517776E-07 WTT: -0.191459197016249739E-07 UES: 0.150842997621572981E-08 VNS: 0.922723708483010989E-11 WTS: 0.527203989226508697E-12 ADVT: 0.414971342479486217E-10 ADVS: 0.298287920834195697E-14 PV: 0.166004593738965320E-13 Q: -0.976134826285362392E-08 PD: 1.02752249934460571 QSW_HTP: 111.441294894430484 QFLUX: 0.154021538923350854 HMXL: 6267.93463100392364 XMXL: 7313.93697713845631 TMXL: 5123.92191980804637 HBLT: 4660.46166320392240 XBLT: 7107.14292245150227 TBLT: 974.935175376954476 BSF: 0.000000000000000000E+00 convergence info from pcg_diag_bsf: iter = 0 rms_resid = 0.994556183499263197E-01 iter = 100 rms_resid = 0.436082551911648117E-02 iter = 200 rms_resid = 0.954416077506517729E-03 iter = 300 rms_resid = 0.415937820810570946E-03 iter = 400 rms_resid = 0.301520564461337588E-03 iter = 500 rms_resid = 0.194124858798187350E-03 iter = 600 rms_resid = 0.481727510829465483E-04 iter = 700 rms_resid = 0.151466011741388297E-04 iter = 800 rms_resid = 0.178922497836524265E-05 iter = 900 rms_resid = 0.156876977265351869E-06 Local Time- and Space-Averages for Nino Regions: 00:00:00 0080-07-01 NINO_1_PLUS_2: 23.9314947116970096 NINO_3: 25.3759585950188793 NINO_3_POINT_4: 27.3062777572613591 NINO_4: 29.1051002827630079 tavg file written: ./b40.1850.track1.1deg.006.pop.h.0080-06.nc (time_manager) ocn date 0080-jul-02, 0.000000E+00 sec (time_manager) ocn date 0080-jul-03, 0.000000E+00 sec (time_manager) ocn date 0080-jul-04, 0.000000E+00 sec (time_manager) ocn date 0080-jul-05, 0.000000E+00 sec (time_manager) ocn date 0080-jul-06, 0.000000E+00 sec (time_manager) ocn date 0080-jul-07, 0.000000E+00 sec (time_manager) ocn date 0080-jul-08, 0.000000E+00 sec (time_manager) ocn date 0080-jul-09, 0.000000E+00 sec (time_manager) ocn date 0080-jul-10, 0.000000E+00 sec (time_manager) ocn date 0080-jul-11, 0.000000E+00 sec (time_manager) ocn date 0080-jul-12, 0.000000E+00 sec (time_manager) ocn date 0080-jul-13, 0.000000E+00 sec (time_manager) ocn date 0080-jul-14, 0.000000E+00 sec ovf_loc_prd: nsteps_total= 725704 ovf= 3 swap ovf UV old/new prd set old/new= 1 5 ovf_loc_prd: nsteps_total= 725708 ovf= 3 swap ovf UV old/new prd set old/new= 5 1 ovf_loc_prd: nsteps_total= 725712 ovf= 3 swap ovf UV old/new prd set old/new= 1 5 ovf_loc_prd: nsteps_total= 725714 ovf= 3 swap ovf UV old/new prd set old/new= 5 1 ovf_loc_prd: nsteps_total= 725715 ovf= 3 swap ovf UV old/new prd set old/new= 1 5 ovf_loc_prd: nsteps_total= 725716 ovf= 3 swap ovf UV old/new prd set old/new= 5 1 (time_manager) ocn date 0080-jul-15, 0.000000E+00 sec (time_manager) ocn date 0080-jul-16, 0.000000E+00 sec (time_manager) ocn date 0080-jul-17, 0.000000E+00 sec ovf_loc_prd: nsteps_total= 725794 ovf= 3 swap ovf UV old/new prd set old/new= 1 5 (time_manager) ocn date 0080-jul-18, 0.000000E+00 sec ovf_loc_prd: nsteps_total= 725802 ovf= 3 swap ovf UV old/new prd set old/new= 5 1 (time_manager) ocn date 0080-jul-19, 0.000000E+00 sec (time_manager) ocn date 0080-jul-20, 0.000000E+00 sec (time_manager) ocn date 0080-jul-21, 0.000000E+00 sec (time_manager) ocn date 0080-jul-22, 0.000000E+00 sec (time_manager) ocn date 0080-jul-23, 0.000000E+00 sec (time_manager) ocn date 0080-jul-24, 0.000000E+00 sec (time_manager) ocn date 0080-jul-25, 0.000000E+00 sec (time_manager) ocn date 0080-jul-26, 0.000000E+00 sec (time_manager) ocn date 0080-jul-27, 0.000000E+00 sec (time_manager) ocn date 0080-jul-28, 0.000000E+00 sec (time_manager) ocn date 0080-jul-29, 0.000000E+00 sec (time_manager) ocn date 0080-jul-30, 0.000000E+00 sec (time_manager) ocn date 0080-jul-31, 0.000000E+00 sec (time_manager) ocn date 0080-aug-01, 0.000000E+00 sec Step number : 726150 Date : 01 aug 0080 Hour : 0 Minute : 0 Second : 0 Time(years) : 79.580822 max. cfl number for zonal advection : 8.1534E-02 20 371 33 max. cfl number for meridional advection : 1.1192E-01 76 188 1 max. cfl number for vertical advection : 2.1976E-01 240 377 11 max. cfl number for total advection : 2.4322E-01 240 377 11 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. : 9.674516171582411E+00 K.E. change from horiz. visc. :-4.243233363139293E-06 K.E. change from vert. visc. : 1.470839311188274E-05 K.E. change from wind stress : 3.882024743515388E-05 advective K.E. balance :-5.459260729978379E-10 :-1.165833920524508E-10 P.E. verses pressure work : 6.768918967865244E-04 :-1.088918567205643E-05 surface-pressure contribution : 1.567610984207940E-06 :-1.629496964226211E-06 Tracer diagnostics: mean value of tracer 1 : 3.515449591130370E+00 abs change in tracer 1 : 1.382996942116343E-07 mean change in tracer 1 : 1.028154327846322E-09 mean change in tracer 1 from advection : 3.065713146781349E-24 mean change in tracer 1 from horiz. diff.:-2.947801102674373E-26 mean change in tracer 1 from vert. diff.:-1.185738661703136E-08 mean change in tracer 1 from sources : 1.279163128019142E-08 surface flux of tracer 1 : 0.000000000000000E+00 mean value of tracer 2 : 3.472149548885088E+01 abs change in tracer 2 : 1.321326854738697E-11 mean change in tracer 2 :-2.323907477129380E-15 mean change in tracer 2 from advection : 0.000000000000000E+00 mean change in tracer 2 from horiz. diff.: 1.223452606090438E-29 mean change in tracer 2 from vert. diff.:-3.774527295300807E-14 mean change in tracer 2 from sources :-3.227749135583885E-31 surface flux of tracer 2 : 0.000000000000000E+00 mean value of tracer 3 : 2.176264293996240E+02 abs change in tracer 3 : 2.453246500790955E-06 mean change in tracer 3 : 8.430153837755510E-09 mean change in tracer 3 from advection :-1.237604814946809E-22 mean change in tracer 3 from horiz. diff.:-1.745098252783229E-24 mean change in tracer 3 from vert. diff.:-2.257906571804646E-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: 5.010055180934281E-05 residual, scans : 8.423262477113572E-14 240 Timing information: Timer number 1 Time = 587.63 seconds HMIX_MOMENTUM_ANISO Timer number 2 Time = 525.48 seconds HMIX_TRACER_GM_NLOOP Timer number 3 Time = 2929.91 seconds HMIX_TRACER_GM Timer number 4 Time = 1521.89 seconds VMIX_COEFFICIENTS_KPP Timer number 5 Time = 81.52 seconds VMIX_EXPLICIT_TRACER Timer number 6 Time = 39.75 seconds VMIX_EXPLICIT_MOMENTUM Timer number 7 Time = 253.54 seconds VMIX_IMPLICIT_TRACER Timer number 8 Time = 61.02 seconds VMIX_IMPLICIT_MOMENTUM Timer number 9 Time = 8.87 seconds COMPUTE_COSZ Timer number 10 Time = 111.58 seconds ADVECTION_MOMENTUM Timer number 11 Time = 567.50 seconds ADVECTION_TRACER_UPWIND3 Timer number 12 Time = 39.03 seconds MOC Timer number 13 Time = 38.72 seconds TRACER_TRANSPORTS Timer number 14 Time = 665.14 seconds TAVG_WRITE_STD Timer number 15 Time = 65.86 seconds TAVG_WRITE_NONSTD Timer number 16 Time = 37.17 seconds TAVG_CCSM_DIAGS_BSF Timer number 17 Time = 39.03 seconds TAVG_CCSM_DIAGS_MOC Timer number 18 Time = 38.72 seconds TAVG_CCSM_DIAGS_TRANS Timer number 19 Time = 8762.76 seconds STEP Timer number 20 Time = 7437.37 seconds BAROCLINIC Timer number 21 Time = 1004.07 seconds BAROTROPIC Timer number 22 Time = 180.42 seconds 3D-UPDATE Timer number 23 Time = 9627.08 seconds TOTAL Timer number 24 Time = 857.38 seconds OUTPUT Timer number 25 Time = 851.91 seconds OUTPUT TAVG Timer number 26 Time = 5.41 seconds OUTPUT REST ------------------------------------------------------------------------ (diag_print) file written: /ptmp/mai/b40.1850.track1.1deg.006/run/b40.1850.track1.1deg.006.pop.dd.0079-01-01-00000 (diag_transport) file written: /ptmp/mai/b40.1850.track1.1deg.006/run/b40.1850.track1.1deg.006.pop.dt.0079-01-01-00000 AFTER CALL IN tracer_budgets (final): ===================================== volume_t (cm^3) = 0.132514028745E+25 SUM [volume*T] (C cm^3) = 0.465846207319E+25 SUM [volume*S] (ppt cm^3) = 0.460108525931E+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 = 0.266360220272E-12 FW flux = 0.000000000000E+00 Imbalance = -.266360220272E-12 Imbalance = -tendency + FW flux HEAT BUDGET FOR THE GIVEN TAVG INTERVAL (W/m^2): ------------------------------------------------ tendency = -.223304071669E+02 SHF flux = -.224504195038E+02 ice formation = 0.120012563447E+00 FW heat content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = 0.226449577284E-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 = 0.482867440338E-05 SFWF flux = 0.514685965843E-05 ice formation = -.318184783295E-06 FW salt content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = 0.471755672517E-12 Imbalance = -tendency + SFWF flux + ice formation + FW salt content + free-srf non-consv. Global Time Averages: 08-01-0080 00:00:00 KAPPA_ISOP: 3560263.30259473110 KAPPA_THIC: 4112480.41352583328 HOR_DIFF: 597617.657336922130 DIA_DEPTH: 7065.67054894730336 TLT: 399.990216844858026 INT_DEPTH: 7465.65492993858152 UISOP: 0.551071680852031041E-04 VISOP: -0.332183493828627459E-03 WISOP: -0.588091831653345925E-14 ADVT_ISOP: -0.393912137843059575E-11 ADVS_ISOP: -0.152006122946871916E-15 VNT_ISOP: -0.101395587141814562E-08 VNS_ISOP: -0.193770207459879488E-11 USUBM: -0.711003281082026069E-05 VSUBM: -0.289271755263056444E-04 WSUBM: -0.103353057237856809E-08 HLS_SUBM: 711275.345119443373 ADVT_SUBM: -0.721608145847325158E-12 ADVS_SUBM: 0.491268424937483050E-15 VNT_SUBM: -0.218049803465803764E-09 VNS_SUBM: -0.179387023902737577E-12 HDIFT: 0.525067999134719666E-10 HDIFS: -0.875512838472433456E-15 QSW_HBL: 128.561003272810183 KVMIX: 1.35561407322659488 TPOWER: 0.222233865781239971E-05 UVEL: 0.306628499498707519 VVEL: 0.152783208886907986E-02 TEMP: 3.51562316770555583 dTEMP_POS_2D: 0.874580620034056400E-01 dTEMP_NEG_2D: -0.682533874855685146E-01 SALT: 0.347215186131829903E-01 RHO: 1.03743395722834553 RESID_T: 0.000000000000000000E+00 RESID_S: 0.000000000000000000E+00 SU: 109986.615811853830 SV: 514.137427002518621 SSH: 0.498993237473141450E-04 SHF: -22.4504195038487957 SHF_QSW: 149.794921135377962 SFWF: 0.514685965842835366E-05 TAUX: 0.857395167872521125E-01 TAUY: 0.610955363206021687E-01 FW: 0.000000000000000000E+00 TFW_T: 0.000000000000000000E+00 TFW_S: 0.000000000000000000E+00 EVAP_F: -0.406902280469780621E-04 PREC_F: 0.367014724304349821E-04 SNOW_F: 0.105352915189512994E-05 MELT_F: 0.426056580165295510E-05 ROFF_F: 0.494692167102667430E-05 IOFF_F: 0.263101360873994036E-06 SALT_F: 0.116235813181148394E-07 SENH_F: -14.0491616799668328 LWUP_F: -385.861868868619638 LWDN_F: 331.445612657299534 MELTH_F: -1.57429762268808804 IFRAC: 0.807912319514270116E-01 IAGE: 217.610319070086916 WVEL: 0.689104947810492735E-06 UET: 0.249865507624610858E-12 VNT: -0.216131886786385259E-07 WTT: -0.227293794507638820E-07 UES: 0.149220389105169815E-08 VNS: 0.250877268782201838E-11 WTS: 0.468002069501585683E-12 ADVT: -0.284728380304113434E-10 ADVS: 0.108819274378797330E-13 PV: -0.362527657640462482E-13 Q: -0.976007297362569142E-08 PD: 1.02752329418507204 QSW_HTP: 110.703495300911030 QFLUX: 0.120012563447362525 HMXL: 7066.56596534336495 XMXL: 8026.10706121779731 TMXL: 5880.39136206567673 HBLT: 5203.50827607944666 XBLT: 7941.72840453698427 TBLT: 1045.96528681844552 BSF: 0.000000000000000000E+00 convergence info from pcg_diag_bsf: iter = 0 rms_resid = 0.101186465341302698 iter = 100 rms_resid = 0.412909767180921934E-02 iter = 200 rms_resid = 0.887085931083028733E-03 iter = 300 rms_resid = 0.379960561655092865E-03 iter = 400 rms_resid = 0.289584125895866551E-03 iter = 500 rms_resid = 0.185698837092534324E-03 iter = 600 rms_resid = 0.472840069409065253E-04 iter = 700 rms_resid = 0.138233598708747868E-04 iter = 800 rms_resid = 0.185940218936431029E-05 iter = 900 rms_resid = 0.151554120529008042E-06 Local Time- and Space-Averages for Nino Regions: 00:00:00 0080-08-01 NINO_1_PLUS_2: 22.6878275638498828 NINO_3: 24.3045040659823144 NINO_3_POINT_4: 26.5121176399738445 NINO_4: 28.7572703660802134 tavg file written: ./b40.1850.track1.1deg.006.pop.h.0080-07.nc (time_manager) ocn date 0080-aug-02, 0.000000E+00 sec (time_manager) ocn date 0080-aug-03, 0.000000E+00 sec (time_manager) ocn date 0080-aug-04, 0.000000E+00 sec (time_manager) ocn date 0080-aug-05, 0.000000E+00 sec (time_manager) ocn date 0080-aug-06, 0.000000E+00 sec (time_manager) ocn date 0080-aug-07, 0.000000E+00 sec (time_manager) ocn date 0080-aug-08, 0.000000E+00 sec (time_manager) ocn date 0080-aug-09, 0.000000E+00 sec (time_manager) ocn date 0080-aug-10, 0.000000E+00 sec (time_manager) ocn date 0080-aug-11, 0.000000E+00 sec (time_manager) ocn date 0080-aug-12, 0.000000E+00 sec (time_manager) ocn date 0080-aug-13, 0.000000E+00 sec (time_manager) ocn date 0080-aug-14, 0.000000E+00 sec (time_manager) ocn date 0080-aug-15, 0.000000E+00 sec (time_manager) ocn date 0080-aug-16, 0.000000E+00 sec (time_manager) ocn date 0080-aug-17, 0.000000E+00 sec (time_manager) ocn date 0080-aug-18, 0.000000E+00 sec (time_manager) ocn date 0080-aug-19, 0.000000E+00 sec (time_manager) ocn date 0080-aug-20, 0.000000E+00 sec (time_manager) ocn date 0080-aug-21, 0.000000E+00 sec (time_manager) ocn date 0080-aug-22, 0.000000E+00 sec (time_manager) ocn date 0080-aug-23, 0.000000E+00 sec (time_manager) ocn date 0080-aug-24, 0.000000E+00 sec (time_manager) ocn date 0080-aug-25, 0.000000E+00 sec (time_manager) ocn date 0080-aug-26, 0.000000E+00 sec (time_manager) ocn date 0080-aug-27, 0.000000E+00 sec (time_manager) ocn date 0080-aug-28, 0.000000E+00 sec (time_manager) ocn date 0080-aug-29, 0.000000E+00 sec (time_manager) ocn date 0080-aug-30, 0.000000E+00 sec (time_manager) ocn date 0080-aug-31, 0.000000E+00 sec (time_manager) ocn date 0080-sep-01, 0.000000E+00 sec Step number : 726925 Date : 01 sep 0080 Hour : 0 Minute : 0 Second : 0 Time(years) : 79.665753 max. cfl number for zonal advection : 8.4497E-02 20 371 33 max. cfl number for meridional advection : 1.0346E-01 312 203 1 max. cfl number for vertical advection : 2.1535E-01 298 46 14 max. cfl number for total advection : 2.3983E-01 82 222 10 max. cfl number for horizontal tracer mixing : 6.0948E-01 175 380 2 max. cfl number for horiz. momentum mixing : 1.2672E-01 318 214 56 K.E. diagnostics: mean K.E. : 9.784361437649554E+00 K.E. change from horiz. visc. :-4.249443594351295E-06 K.E. change from vert. visc. : 6.894157273538676E-06 K.E. change from wind stress : 2.810225088570373E-05 advective K.E. balance :-2.097042052091965E-09 : 1.366609118067949E-09 P.E. verses pressure work : 7.041199014787883E-04 :-3.808321340504162E-06 surface-pressure contribution : 1.104636996696679E-06 :-1.161921142789675E-06 Tracer diagnostics: mean value of tracer 1 : 3.513582414961042E+00 abs change in tracer 1 : 1.344190983445448E-07 mean change in tracer 1 : 2.132295479150851E-09 mean change in tracer 1 from advection :-1.886592705711599E-24 mean change in tracer 1 from horiz. diff.: 2.535108948299961E-25 mean change in tracer 1 from vert. diff.:-1.139286130417450E-08 mean change in tracer 1 from sources : 1.342921919273153E-08 surface flux of tracer 1 : 0.000000000000000E+00 mean value of tracer 2 : 3.472143724191759E+01 abs change in tracer 2 : 1.359514456425216E-11 mean change in tracer 2 : 5.721814352637825E-15 mean change in tracer 2 from advection : 1.197544197961464E-27 mean change in tracer 2 from horiz. diff.: 1.223452606090438E-29 mean change in tracer 2 from vert. diff.:-3.046445540585861E-14 mean change in tracer 2 from sources : 8.291154007129342E-32 surface flux of tracer 2 : 0.000000000000000E+00 mean value of tracer 3 : 2.176484448273555E+02 abs change in tracer 3 : 2.451863363662659E-06 mean change in tracer 3 : 8.460233223113882E-09 mean change in tracer 3 from advection :-3.773185411423198E-23 mean change in tracer 3 from horiz. diff.: 4.244833587851098E-25 mean change in tracer 3 from vert. diff.:-1.490668779048083E-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: 5.007309907452496E-05 residual, scans : 6.678285743892654E-14 240 Timing information: Timer number 1 Time = 619.80 seconds HMIX_MOMENTUM_ANISO Timer number 2 Time = 553.50 seconds HMIX_TRACER_GM_NLOOP Timer number 3 Time = 3086.82 seconds HMIX_TRACER_GM Timer number 4 Time = 1603.41 seconds VMIX_COEFFICIENTS_KPP Timer number 5 Time = 85.91 seconds VMIX_EXPLICIT_TRACER Timer number 6 Time = 41.89 seconds VMIX_EXPLICIT_MOMENTUM Timer number 7 Time = 267.16 seconds VMIX_IMPLICIT_TRACER Timer number 8 Time = 64.33 seconds VMIX_IMPLICIT_MOMENTUM Timer number 9 Time = 9.35 seconds COMPUTE_COSZ Timer number 10 Time = 117.55 seconds ADVECTION_MOMENTUM Timer number 11 Time = 597.96 seconds ADVECTION_TRACER_UPWIND3 Timer number 12 Time = 41.18 seconds MOC Timer number 13 Time = 40.87 seconds TRACER_TRANSPORTS Timer number 14 Time = 704.86 seconds TAVG_WRITE_STD Timer number 15 Time = 69.64 seconds TAVG_WRITE_NONSTD Timer number 16 Time = 39.21 seconds TAVG_CCSM_DIAGS_BSF Timer number 17 Time = 41.18 seconds TAVG_CCSM_DIAGS_MOC Timer number 18 Time = 40.87 seconds TAVG_CCSM_DIAGS_TRANS Timer number 19 Time = 9234.13 seconds STEP Timer number 20 Time = 7836.99 seconds BAROCLINIC Timer number 21 Time = 1057.88 seconds BAROTROPIC Timer number 22 Time = 190.01 seconds 3D-UPDATE Timer number 23 Time = 10149.05 seconds TOTAL Timer number 24 Time = 907.62 seconds OUTPUT Timer number 25 Time = 902.14 seconds OUTPUT TAVG Timer number 26 Time = 5.42 seconds OUTPUT REST ------------------------------------------------------------------------ (diag_print) file written: /ptmp/mai/b40.1850.track1.1deg.006/run/b40.1850.track1.1deg.006.pop.dd.0079-01-01-00000 (diag_transport) file written: /ptmp/mai/b40.1850.track1.1deg.006/run/b40.1850.track1.1deg.006.pop.dt.0079-01-01-00000 AFTER CALL IN tracer_budgets (final): ===================================== volume_t (cm^3) = 0.132514028745E+25 SUM [volume*T] (C cm^3) = 0.465598496014E+25 SUM [volume*S] (ppt cm^3) = 0.460107753898E+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 = -.102681060117E-13 FW flux = 0.000000000000E+00 Imbalance = 0.102681060117E-13 Imbalance = -tendency + FW flux HEAT BUDGET FOR THE GIVEN TAVG INTERVAL (W/m^2): ------------------------------------------------ tendency = -.104994707630E+02 SHF flux = -.105988897722E+02 ice formation = 0.994188500806E-01 FW heat content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = -.159075839043E-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 = 0.230014513869E-05 SFWF flux = 0.256373110466E-05 ice formation = -.263585447720E-06 FW salt content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = 0.518248877682E-12 Imbalance = -tendency + SFWF flux + ice formation + FW salt content + free-srf non-consv. Global Time Averages: 09-01-0080 00:00:00 KAPPA_ISOP: 3912701.70588492369 KAPPA_THIC: 4533485.12151877861 HOR_DIFF: 665319.718695267686 DIA_DEPTH: 7859.06588213584746 TLT: 474.418708715149819 INT_DEPTH: 8333.47761612606882 UISOP: 0.691686370037494845E-04 VISOP: -0.337748231712861320E-03 WISOP: -0.421134438471419253E-13 ADVT_ISOP: -0.716745258279461499E-11 ADVS_ISOP: 0.697270718685154112E-15 VNT_ISOP: -0.131834345404558454E-08 VNS_ISOP: -0.191377678077425231E-11 USUBM: -0.750898607830869790E-05 VSUBM: -0.325261330338047296E-04 WSUBM: -0.835623377919679448E-09 HLS_SUBM: 727632.196521937731 ADVT_SUBM: 0.117365735332281921E-11 ADVS_SUBM: 0.337010766089301170E-16 VNT_SUBM: -0.467631202362665889E-09 VNS_SUBM: -0.201518769295472733E-12 HDIFT: 0.119991064137569960E-10 HDIFS: -0.498285532526757839E-14 QSW_HBL: 137.502386702791767 KVMIX: 1.35749177305325830 TPOWER: 0.222929861844578481E-05 UVEL: 0.321749464259780515 VVEL: 0.148161113898505098E-02 TEMP: 3.51262410788658253 dTEMP_POS_2D: 0.854032457663053274E-01 dTEMP_NEG_2D: -0.666600872290358942E-01 SALT: 0.347214317013916154E-01 RHO: 1.03743446457512611 RESID_T: 0.000000000000000000E+00 RESID_S: 0.000000000000000000E+00 SU: 115410.003070997685 SV: 501.311821502467865 SSH: 0.498259756853243409E-04 SHF: -10.5988897721945765 SHF_QSW: 159.395357040754391 SFWF: 0.256373110466370694E-05 TAUX: 0.158153647913069406 TAUY: 0.755751470598391428E-01 FW: 0.000000000000000000E+00 TFW_T: 0.000000000000000000E+00 TFW_S: 0.000000000000000000E+00 EVAP_F: -0.395266672914379810E-04 PREC_F: 0.355796289750136868E-04 SNOW_F: 0.100309280930990505E-05 MELT_F: 0.225396172507653144E-05 ROFF_F: 0.405415014545762307E-05 IOFF_F: 0.322844365716536778E-06 SALT_F: 0.417053531372669469E-08 SENH_F: -14.1004878785358851 LWUP_F: -386.071176700861542 LWDN_F: 330.827284091549757 MELTH_F: -1.35119979101224996 IFRAC: 0.789575592801964737E-01 IAGE: 217.637304541231401 WVEL: 0.711615446634236367E-06 UET: -0.225425875603518730E-07 VNT: -0.402027520644609144E-07 WTT: -0.229496009630844866E-07 UES: 0.158693425651352613E-08 VNS: 0.736152522767124419E-11 WTS: 0.123876072648970591E-11 ADVT: -0.190490139998022498E-10 ADVS: 0.513543330332273193E-14 PV: -0.664604858621993056E-13 Q: -0.973284284219562097E-08 PD: 1.02752377588836552 QSW_HTP: 117.859097695711924 QFLUX: 0.994188500805976011E-01 HMXL: 7860.16145163202691 XMXL: 8917.51996186147335 TMXL: 5719.70921362404169 HBLT: 5239.34454213326717 XBLT: 8593.87153845542889 TBLT: 989.177787116949048 BSF: 0.000000000000000000E+00 convergence info from pcg_diag_bsf: iter = 0 rms_resid = 0.103789234135117939 iter = 100 rms_resid = 0.433168504552713766E-02 iter = 200 rms_resid = 0.910413705507797581E-03 iter = 300 rms_resid = 0.412852411988073821E-03 iter = 400 rms_resid = 0.306024676525546693E-03 iter = 500 rms_resid = 0.198371644309689290E-03 iter = 600 rms_resid = 0.513250435525780080E-04 iter = 700 rms_resid = 0.144808334877771878E-04 iter = 800 rms_resid = 0.199395482492984600E-05 iter = 900 rms_resid = 0.164179178835198535E-06 Local Time- and Space-Averages for Nino Regions: 00:00:00 0080-09-01 NINO_1_PLUS_2: 22.1699506296746058 NINO_3: 23.4474521482697327 NINO_3_POINT_4: 25.5124873253284683 NINO_4: 28.1155000365567318 tavg file written: ./b40.1850.track1.1deg.006.pop.h.0080-08.nc (time_manager) ocn date 0080-sep-02, 0.000000E+00 sec (time_manager) ocn date 0080-sep-03, 0.000000E+00 sec (time_manager) ocn date 0080-sep-04, 0.000000E+00 sec (time_manager) ocn date 0080-sep-05, 0.000000E+00 sec (time_manager) ocn date 0080-sep-06, 0.000000E+00 sec (time_manager) ocn date 0080-sep-07, 0.000000E+00 sec (time_manager) ocn date 0080-sep-08, 0.000000E+00 sec (time_manager) ocn date 0080-sep-09, 0.000000E+00 sec (time_manager) ocn date 0080-sep-10, 0.000000E+00 sec (time_manager) ocn date 0080-sep-11, 0.000000E+00 sec (time_manager) ocn date 0080-sep-12, 0.000000E+00 sec (time_manager) ocn date 0080-sep-13, 0.000000E+00 sec (time_manager) ocn date 0080-sep-14, 0.000000E+00 sec (time_manager) ocn date 0080-sep-15, 0.000000E+00 sec (time_manager) ocn date 0080-sep-16, 0.000000E+00 sec (time_manager) ocn date 0080-sep-17, 0.000000E+00 sec (time_manager) ocn date 0080-sep-18, 0.000000E+00 sec (time_manager) ocn date 0080-sep-19, 0.000000E+00 sec (time_manager) ocn date 0080-sep-20, 0.000000E+00 sec (time_manager) ocn date 0080-sep-21, 0.000000E+00 sec (time_manager) ocn date 0080-sep-22, 0.000000E+00 sec ovf_loc_prd: nsteps_total= 727472 ovf= 3 swap ovf UV old/new prd set old/new= 1 5 ovf_loc_prd: nsteps_total= 727474 ovf= 3 swap ovf UV old/new prd set old/new= 5 1 (time_manager) ocn date 0080-sep-23, 0.000000E+00 sec (time_manager) ocn date 0080-sep-24, 0.000000E+00 sec (time_manager) ocn date 0080-sep-25, 0.000000E+00 sec (time_manager) ocn date 0080-sep-26, 0.000000E+00 sec (time_manager) ocn date 0080-sep-27, 0.000000E+00 sec (time_manager) ocn date 0080-sep-28, 0.000000E+00 sec (time_manager) ocn date 0080-sep-29, 0.000000E+00 sec (time_manager) ocn date 0080-sep-30, 0.000000E+00 sec (time_manager) ocn date 0080-oct-01, 0.000000E+00 sec Step number : 727675 Date : 01 oct 0080 Hour : 0 Minute : 0 Second : 0 Time(years) : 79.747945 max. cfl number for zonal advection : 8.7245E-02 20 371 33 max. cfl number for meridional advection : 1.0189E-01 252 183 2 max. cfl number for vertical advection : 3.7941E-01 320 362 20 max. cfl number for total advection : 3.9312E-01 320 362 21 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. : 9.563262865441875E+00 K.E. change from horiz. visc. :-4.000693892710242E-06 K.E. change from vert. visc. : 8.993398135735358E-06 K.E. change from wind stress : 3.098445233879355E-05 advective K.E. balance :-1.241741299457902E-09 : 4.410032637776367E-10 P.E. verses pressure work : 7.279688010625945E-04 :-6.563046860628085E-06 surface-pressure contribution :-2.306818988363472E-07 : 1.688617916563298E-07 Tracer diagnostics: mean value of tracer 1 : 3.514558832839052E+00 abs change in tracer 1 : 1.302838091018927E-07 mean change in tracer 1 : 3.331579619114542E-09 mean change in tracer 1 from advection :-2.311076064496709E-24 mean change in tracer 1 from horiz. diff.:-1.768680661604624E-26 mean change in tracer 1 from vert. diff.:-1.169068493307858E-08 mean change in tracer 1 from sources : 1.489802807619362E-08 surface flux of tracer 1 : 0.000000000000000E+00 mean value of tracer 2 : 3.472144947318568E+01 abs change in tracer 2 : 1.272218557122506E-11 mean change in tracer 2 : 6.953504404696487E-14 mean change in tracer 2 from advection :-3.454454417196531E-28 mean change in tracer 2 from horiz. diff.: 2.231001811106093E-29 mean change in tracer 2 from vert. diff.: 2.267484455118404E-14 mean change in tracer 2 from sources : 2.054560966296109E-32 surface flux of tracer 2 : 0.000000000000000E+00 mean value of tracer 3 : 2.176868332631794E+02 abs change in tracer 3 : 2.297446143510524E-06 mean change in tracer 3 : 1.502467475573845E-08 mean change in tracer 3 from advection : 0.000000000000000E+00 mean change in tracer 3 from horiz. diff.:-4.716481764278997E-25 mean change in tracer 3 from vert. diff.:-8.869375672348136E-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: 5.018146726280810E-05 residual, scans : 8.274390467979619E-14 240 Timing information: Timer number 1 Time = 650.23 seconds HMIX_MOMENTUM_ANISO Timer number 2 Time = 580.76 seconds HMIX_TRACER_GM_NLOOP Timer number 3 Time = 3238.87 seconds HMIX_TRACER_GM Timer number 4 Time = 1682.22 seconds VMIX_COEFFICIENTS_KPP Timer number 5 Time = 90.15 seconds VMIX_EXPLICIT_TRACER Timer number 6 Time = 43.96 seconds VMIX_EXPLICIT_MOMENTUM Timer number 7 Time = 280.35 seconds VMIX_IMPLICIT_TRACER Timer number 8 Time = 67.52 seconds VMIX_IMPLICIT_MOMENTUM Timer number 9 Time = 9.81 seconds COMPUTE_COSZ Timer number 10 Time = 123.31 seconds ADVECTION_MOMENTUM Timer number 11 Time = 627.46 seconds ADVECTION_TRACER_UPWIND3 Timer number 12 Time = 43.34 seconds MOC Timer number 13 Time = 43.01 seconds TRACER_TRANSPORTS Timer number 14 Time = 741.66 seconds TAVG_WRITE_STD Timer number 15 Time = 72.50 seconds TAVG_WRITE_NONSTD Timer number 16 Time = 41.27 seconds TAVG_CCSM_DIAGS_BSF Timer number 17 Time = 43.34 seconds TAVG_CCSM_DIAGS_MOC Timer number 18 Time = 43.01 seconds TAVG_CCSM_DIAGS_TRANS Timer number 19 Time = 9688.61 seconds STEP Timer number 20 Time = 8223.30 seconds BAROCLINIC Timer number 21 Time = 1109.41 seconds BAROTROPIC Timer number 22 Time = 199.29 seconds 3D-UPDATE Timer number 23 Time = 10650.24 seconds TOTAL Timer number 24 Time = 953.97 seconds OUTPUT Timer number 25 Time = 948.48 seconds OUTPUT TAVG Timer number 26 Time = 5.42 seconds OUTPUT REST ------------------------------------------------------------------------ (diag_print) file written: /ptmp/mai/b40.1850.track1.1deg.006/run/b40.1850.track1.1deg.006.pop.dd.0079-01-01-00000 (diag_transport) file written: /ptmp/mai/b40.1850.track1.1deg.006/run/b40.1850.track1.1deg.006.pop.dt.0079-01-01-00000 AFTER CALL IN tracer_budgets (final): ===================================== volume_t (cm^3) = 0.132514028745E+25 SUM [volume*T] (C cm^3) = 0.465727606459E+25 SUM [volume*S] (ppt cm^3) = 0.460107914695E+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 = 0.418106176143E-13 FW flux = 0.000000000000E+00 Imbalance = -.418106176143E-13 Imbalance = -tendency + FW flux HEAT BUDGET FOR THE GIVEN TAVG INTERVAL (W/m^2): ------------------------------------------------ tendency = 0.565488005971E+01 SHF flux = 0.553027439264E+01 ice formation = 0.124605332619E+00 FW heat content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = -.334446150385E-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 = -.495036538317E-06 SFWF flux = -.164675088474E-06 ice formation = -.330361418986E-06 FW salt content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = 0.308570539852E-13 Imbalance = -tendency + SFWF flux + ice formation + FW salt content + free-srf non-consv. Global Time Averages: 10-01-0080 00:00:00 KAPPA_ISOP: 4415757.92713792715 KAPPA_THIC: 5037723.15211356990 HOR_DIFF: 666232.236630708445 DIA_DEPTH: 7847.87118144591022 TLT: 520.969947903997195 INT_DEPTH: 8368.83505444832372 UISOP: 0.959623389443579325E-04 VISOP: -0.361827212528555142E-03 WISOP: -0.857726964391309473E-14 ADVT_ISOP: -0.352495730687785236E-10 ADVS_ISOP: -0.241998703604413180E-14 VNT_ISOP: -0.203517752273974638E-08 VNS_ISOP: -0.203732245212354817E-11 USUBM: 0.622664877035772267E-05 VSUBM: -0.337003922962322345E-04 WSUBM: -0.136844651254301033E-09 HLS_SUBM: 807120.465586966951 ADVT_SUBM: -0.284216577392649140E-11 ADVS_SUBM: -0.191920843174369619E-15 VNT_SUBM: -0.808565671575121640E-09 VNS_SUBM: -0.234683967265155148E-12 HDIFT: -0.816482608815695288E-11 HDIFS: -0.173263596664021658E-14 QSW_HBL: 149.280384341930187 KVMIX: 1.34982385834067542 TPOWER: 0.222686306915336970E-05 UVEL: 0.322323079724874395 VVEL: 0.126783913181493938E-02 TEMP: 3.51229863987492719 dTEMP_POS_2D: 0.813127302581190814E-01 dTEMP_NEG_2D: -0.637578200799827216E-01 SALT: 0.347214077302048715E-01 RHO: 1.03743434159395864 RESID_T: 0.000000000000000000E+00 RESID_S: 0.000000000000000000E+00 SU: 115615.434933489378 SV: 426.488426741161845 SSH: 0.503282579347330848E-04 SHF: 5.53027439264119902 SHF_QSW: 173.965381500524700 SFWF: -0.164675088474162650E-06 TAUX: 0.159477307335583518 TAUY: 0.276012109188316680E-01 FW: 0.000000000000000000E+00 TFW_T: 0.000000000000000000E+00 TFW_S: 0.000000000000000000E+00 EVAP_F: -0.383238397336109672E-04 PREC_F: 0.336089251848413842E-04 SNOW_F: 0.102404372098608023E-05 MELT_F: 0.668293342798357786E-06 ROFF_F: 0.349792930414205293E-05 IOFF_F: 0.341059870230418495E-06 SALT_F: -0.149060736744463969E-08 SENH_F: -13.5629035441617987 LWUP_F: -386.266916065727912 LWDN_F: 328.731432037527441 MELTH_F: -1.03325793252416687 IFRAC: 0.776210393848876939E-01 IAGE: 217.667796767580938 WVEL: 0.740762998029242747E-06 UET: 0.438526233574938632E-08 VNT: -0.273657739827112096E-07 WTT: -0.180753402677168503E-07 UES: 0.155529411654227364E-08 VNS: 0.215666688797012632E-11 WTS: 0.900173323956332621E-12 ADVT: 0.181007514158375570E-10 ADVS: -0.362259198829370964E-14 PV: -0.633324497855017722E-13 Q: -0.966404949585869109E-08 PD: 1.02752362706909151 QSW_HTP: 128.020212419367255 QFLUX: 0.124605332618626219 HMXL: 7848.96614761617366 XMXL: 9620.49443689253167 TMXL: 4623.13364657442071 HBLT: 4501.77538734826157 XBLT: 8262.03570106585357 TBLT: 936.476832606802077 BSF: 0.000000000000000000E+00 convergence info from pcg_diag_bsf: iter = 0 rms_resid = 0.979181937843458250E-01 iter = 100 rms_resid = 0.430129941231341753E-02 iter = 200 rms_resid = 0.886152537531697507E-03 iter = 300 rms_resid = 0.439503454504509871E-03 iter = 400 rms_resid = 0.313881379898539722E-03 iter = 500 rms_resid = 0.189684586504971294E-03 iter = 600 rms_resid = 0.483931764201604313E-04 iter = 700 rms_resid = 0.142656109057476789E-04 iter = 800 rms_resid = 0.189554557211535978E-05 iter = 900 rms_resid = 0.150750041879687986E-06 Local Time- and Space-Averages for Nino Regions: 00:00:00 0080-10-01 NINO_1_PLUS_2: 22.3917322007969162 NINO_3: 23.2407197640638401 NINO_3_POINT_4: 25.2223092796678792 NINO_4: 27.7632673900458364 tavg file written: ./b40.1850.track1.1deg.006.pop.h.0080-09.nc (time_manager) ocn date 0080-oct-02, 0.000000E+00 sec (time_manager) ocn date 0080-oct-03, 0.000000E+00 sec (time_manager) ocn date 0080-oct-04, 0.000000E+00 sec (time_manager) ocn date 0080-oct-05, 0.000000E+00 sec (time_manager) ocn date 0080-oct-06, 0.000000E+00 sec (time_manager) ocn date 0080-oct-07, 0.000000E+00 sec (time_manager) ocn date 0080-oct-08, 0.000000E+00 sec (time_manager) ocn date 0080-oct-09, 0.000000E+00 sec (time_manager) ocn date 0080-oct-10, 0.000000E+00 sec (time_manager) ocn date 0080-oct-11, 0.000000E+00 sec (time_manager) ocn date 0080-oct-12, 0.000000E+00 sec (time_manager) ocn date 0080-oct-13, 0.000000E+00 sec (time_manager) ocn date 0080-oct-14, 0.000000E+00 sec (time_manager) ocn date 0080-oct-15, 0.000000E+00 sec (time_manager) ocn date 0080-oct-16, 0.000000E+00 sec (time_manager) ocn date 0080-oct-17, 0.000000E+00 sec (time_manager) ocn date 0080-oct-18, 0.000000E+00 sec (time_manager) ocn date 0080-oct-19, 0.000000E+00 sec (time_manager) ocn date 0080-oct-20, 0.000000E+00 sec (time_manager) ocn date 0080-oct-21, 0.000000E+00 sec (time_manager) ocn date 0080-oct-22, 0.000000E+00 sec (time_manager) ocn date 0080-oct-23, 0.000000E+00 sec (time_manager) ocn date 0080-oct-24, 0.000000E+00 sec (time_manager) ocn date 0080-oct-25, 0.000000E+00 sec (time_manager) ocn date 0080-oct-26, 0.000000E+00 sec (time_manager) ocn date 0080-oct-27, 0.000000E+00 sec (time_manager) ocn date 0080-oct-28, 0.000000E+00 sec (time_manager) ocn date 0080-oct-29, 0.000000E+00 sec (time_manager) ocn date 0080-oct-30, 0.000000E+00 sec (time_manager) ocn date 0080-oct-31, 0.000000E+00 sec (time_manager) ocn date 0080-nov-01, 0.000000E+00 sec Step number : 728450 Date : 01 nov 0080 Hour : 0 Minute : 0 Second : 0 Time(years) : 79.832877 max. cfl number for zonal advection : 8.6537E-02 20 371 33 max. cfl number for meridional advection : 9.8877E-02 258 183 2 max. cfl number for vertical advection : 4.9866E-01 320 362 20 max. cfl number for total advection : 5.1794E-01 320 362 20 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. : 8.941890746255968E+00 K.E. change from horiz. visc. :-3.793801637173311E-06 K.E. change from vert. visc. : 7.684727645970870E-06 K.E. change from wind stress : 2.489472224252466E-05 advective K.E. balance :-6.340249003833071E-10 : 4.671489690765032E-11 P.E. verses pressure work : 7.187840318267197E-04 :-3.692872807752014E-06 surface-pressure contribution : 1.701245767044516E-07 :-2.876683738859319E-07 Tracer diagnostics: mean value of tracer 1 : 3.516406190489741E+00 abs change in tracer 1 : 1.471728675157501E-07 mean change in tracer 1 : 3.853176251279717E-09 mean change in tracer 1 from advection :-2.358240882139499E-25 mean change in tracer 1 from horiz. diff.: 5.895602205348747E-27 mean change in tracer 1 from vert. diff.:-1.116791726842712E-08 mean change in tracer 1 from sources : 1.486629144701955E-08 surface flux of tracer 1 : 0.000000000000000E+00 mean value of tracer 2 : 3.472150791131300E+01 abs change in tracer 2 : 1.408321729985514E-11 mean change in tracer 2 : 7.046628609541362E-14 mean change in tracer 2 from advection :-1.001791780986994E-27 mean change in tracer 2 from horiz. diff.:-2.950679814688704E-29 mean change in tracer 2 from vert. diff.: 1.207718619386161E-14 mean change in tracer 2 from sources :-1.508289930579078E-31 surface flux of tracer 2 : 0.000000000000000E+00 mean value of tracer 3 : 2.177396494005451E+02 abs change in tracer 3 : 2.540824586638380E-06 mean change in tracer 3 : 2.347473354383647E-08 mean change in tracer 3 from advection :-1.154594735895499E-22 mean change in tracer 3 from horiz. diff.: 3.773185411423198E-25 mean change in tracer 3 from vert. diff.: 6.551973420415264E-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: 5.043237145041311E-05 residual, scans : 8.173733926056114E-14 240 Timing information: Timer number 1 Time = 681.78 seconds HMIX_MOMENTUM_ANISO Timer number 2 Time = 608.99 seconds HMIX_TRACER_GM_NLOOP Timer number 3 Time = 3395.57 seconds HMIX_TRACER_GM Timer number 4 Time = 1763.96 seconds VMIX_COEFFICIENTS_KPP Timer number 5 Time = 94.53 seconds VMIX_EXPLICIT_TRACER Timer number 6 Time = 46.10 seconds VMIX_EXPLICIT_MOMENTUM Timer number 7 Time = 293.97 seconds VMIX_IMPLICIT_TRACER Timer number 8 Time = 70.82 seconds VMIX_IMPLICIT_MOMENTUM Timer number 9 Time = 10.29 seconds COMPUTE_COSZ Timer number 10 Time = 129.30 seconds ADVECTION_MOMENTUM Timer number 11 Time = 657.93 seconds ADVECTION_TRACER_UPWIND3 Timer number 12 Time = 45.50 seconds MOC Timer number 13 Time = 45.15 seconds TRACER_TRANSPORTS Timer number 14 Time = 777.55 seconds TAVG_WRITE_STD Timer number 15 Time = 75.44 seconds TAVG_WRITE_NONSTD Timer number 16 Time = 43.32 seconds TAVG_CCSM_DIAGS_BSF Timer number 17 Time = 45.50 seconds TAVG_CCSM_DIAGS_MOC Timer number 18 Time = 45.16 seconds TAVG_CCSM_DIAGS_TRANS Timer number 19 Time = 10159.32 seconds STEP Timer number 20 Time = 8622.86 seconds BAROCLINIC Timer number 21 Time = 1164.04 seconds BAROTROPIC Timer number 22 Time = 208.97 seconds 3D-UPDATE Timer number 23 Time = 11166.76 seconds TOTAL Timer number 24 Time = 999.40 seconds OUTPUT Timer number 25 Time = 993.91 seconds OUTPUT TAVG Timer number 26 Time = 5.42 seconds OUTPUT REST ------------------------------------------------------------------------ (diag_print) file written: /ptmp/mai/b40.1850.track1.1deg.006/run/b40.1850.track1.1deg.006.pop.dd.0079-01-01-00000 (diag_transport) file written: /ptmp/mai/b40.1850.track1.1deg.006/run/b40.1850.track1.1deg.006.pop.dt.0079-01-01-00000 AFTER CALL IN tracer_budgets (final): ===================================== volume_t (cm^3) = 0.132514028745E+25 SUM [volume*T] (C cm^3) = 0.465972255539E+25 SUM [volume*S] (ppt cm^3) = 0.460108689331E+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 = 0.936895294477E-13 FW flux = 0.000000000000E+00 Imbalance = -.936895294477E-13 Imbalance = -tendency + FW flux HEAT BUDGET FOR THE GIVEN TAVG INTERVAL (W/m^2): ------------------------------------------------ tendency = 0.103696755545E+02 SHF flux = 0.101964199669E+02 ice formation = 0.173255534348E+00 FW heat content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = -.532502562045E-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 = -.230789891333E-05 SFWF flux = -.184855266158E-05 ice formation = -.459345864029E-06 FW salt content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = 0.387716337061E-12 Imbalance = -tendency + SFWF flux + ice formation + FW salt content + free-srf non-consv. Global Time Averages: 11-01-0080 00:00:00 KAPPA_ISOP: 4536997.29694133252 KAPPA_THIC: 5055582.99499335792 HOR_DIFF: 563932.202339525451 DIA_DEPTH: 6602.82079901988800 TLT: 507.519778672871212 INT_DEPTH: 7110.33937723784311 UISOP: 0.876321953899564834E-04 VISOP: -0.396998323149960156E-03 WISOP: 0.490346034042683669E-13 ADVT_ISOP: 0.722968105145975623E-11 ADVS_ISOP: 0.189107599058156550E-14 VNT_ISOP: -0.218921646307912106E-08 VNS_ISOP: -0.220640206228342403E-11 USUBM: 0.660641467830171320E-05 VSUBM: -0.145048120471602245E-04 WSUBM: -0.289701236742672282E-09 HLS_SUBM: 860305.002934728749 ADVT_SUBM: 0.407334066965227216E-11 ADVS_SUBM: -0.449120960228078165E-16 VNT_SUBM: -0.572959830659745010E-09 VNS_SUBM: -0.953152052302713790E-13 HDIFT: -0.701299865804343736E-11 HDIFS: -0.221703108202808118E-14 QSW_HBL: 158.010558261037971 KVMIX: 1.34608788976908178 TPOWER: 0.220718586745134817E-05 UVEL: 0.315254027890432775 VVEL: 0.912385074305327123E-03 TEMP: 3.51359598278217211 dTEMP_POS_2D: 0.864082285028000552E-01 dTEMP_NEG_2D: -0.707792817775374922E-01 SALT: 0.347214506741488765E-01 RHO: 1.03743409004273124 RESID_T: 0.000000000000000000E+00 RESID_S: 0.000000000000000000E+00 SU: 113079.451390343631 SV: 293.401507021404768 SSH: 0.504171664646405087E-04 SHF: 10.1964199669023898 SHF_QSW: 184.020979856364448 SFWF: -0.184855266158029283E-05 TAUX: 0.111130277228905949 TAUY: 0.160749290131202011E-03 FW: 0.000000000000000000E+00 TFW_T: 0.000000000000000000E+00 TFW_S: 0.000000000000000000E+00 EVAP_F: -0.398150323524644955E-04 PREC_F: 0.345846289319851112E-04 SNOW_F: 0.895922472230791873E-06 MELT_F: -0.238966967094560625E-06 ROFF_F: 0.318869443227498224E-05 IOFF_F: 0.293152309558943714E-06 SALT_F: -0.482228581932321808E-08 SENH_F: -14.1395811460135548 LWUP_F: -384.735507439208391 LWDN_F: 325.967595298512833 MELTH_F: -0.942873598074881580 IFRAC: 0.811299279089510300E-01 IAGE: 217.711560921216261 WVEL: 0.751077404014374976E-06 UET: 0.318490422661137403E-07 VNT: -0.147939124671762543E-07 WTT: -0.178188049969228878E-07 UES: 0.153192415564605000E-08 VNS: -0.584259063458048381E-11 WTS: 0.537525474397469046E-12 ADVT: -0.624517550845189627E-10 ADVS: 0.486731974891928859E-14 PV: -0.324662380726635194E-13 Q: -0.956417263495973070E-08 PD: 1.02752336130081834 QSW_HTP: 135.081935619923200 QFLUX: 0.173255534347809270 HMXL: 6603.31294880447240 XMXL: 9361.04768190552750 TMXL: 3627.67862406783479 HBLT: 3959.42893385482648 XBLT: 7527.40738636188871 TBLT: 880.663020008617536 BSF: 0.000000000000000000E+00 convergence info from pcg_diag_bsf: iter = 0 rms_resid = 0.102598914351351114 iter = 100 rms_resid = 0.424799964675325915E-02 iter = 200 rms_resid = 0.890115095880742065E-03 iter = 300 rms_resid = 0.390819413371970320E-03 iter = 400 rms_resid = 0.284494266744578889E-03 iter = 500 rms_resid = 0.182448648638025058E-03 iter = 600 rms_resid = 0.475872343314042939E-04 iter = 700 rms_resid = 0.150312207904885199E-04 iter = 800 rms_resid = 0.175910576119852510E-05 iter = 900 rms_resid = 0.149658026305615381E-06 Local Time- and Space-Averages for Nino Regions: 00:00:00 0080-11-01 NINO_1_PLUS_2: 22.7774368600943937 NINO_3: 23.5462143679072398 NINO_3_POINT_4: 25.2896915325515970 NINO_4: 27.7371989354892499 tavg file written: ./b40.1850.track1.1deg.006.pop.h.0080-10.nc (time_manager) ocn date 0080-nov-02, 0.000000E+00 sec (time_manager) ocn date 0080-nov-03, 0.000000E+00 sec (time_manager) ocn date 0080-nov-04, 0.000000E+00 sec (time_manager) ocn date 0080-nov-05, 0.000000E+00 sec (time_manager) ocn date 0080-nov-06, 0.000000E+00 sec (time_manager) ocn date 0080-nov-07, 0.000000E+00 sec (time_manager) ocn date 0080-nov-08, 0.000000E+00 sec (time_manager) ocn date 0080-nov-09, 0.000000E+00 sec (time_manager) ocn date 0080-nov-10, 0.000000E+00 sec (time_manager) ocn date 0080-nov-11, 0.000000E+00 sec (time_manager) ocn date 0080-nov-12, 0.000000E+00 sec (time_manager) ocn date 0080-nov-13, 0.000000E+00 sec (time_manager) ocn date 0080-nov-14, 0.000000E+00 sec (time_manager) ocn date 0080-nov-15, 0.000000E+00 sec (time_manager) ocn date 0080-nov-16, 0.000000E+00 sec (time_manager) ocn date 0080-nov-17, 0.000000E+00 sec (time_manager) ocn date 0080-nov-18, 0.000000E+00 sec (time_manager) ocn date 0080-nov-19, 0.000000E+00 sec (time_manager) ocn date 0080-nov-20, 0.000000E+00 sec (time_manager) ocn date 0080-nov-21, 0.000000E+00 sec (time_manager) ocn date 0080-nov-22, 0.000000E+00 sec (time_manager) ocn date 0080-nov-23, 0.000000E+00 sec (time_manager) ocn date 0080-nov-24, 0.000000E+00 sec (time_manager) ocn date 0080-nov-25, 0.000000E+00 sec (time_manager) ocn date 0080-nov-26, 0.000000E+00 sec (time_manager) ocn date 0080-nov-27, 0.000000E+00 sec (time_manager) ocn date 0080-nov-28, 0.000000E+00 sec (time_manager) ocn date 0080-nov-29, 0.000000E+00 sec (time_manager) ocn date 0080-nov-30, 0.000000E+00 sec (time_manager) ocn date 0080-dec-01, 0.000000E+00 sec Step number : 729200 Date : 01 dec 0080 Hour : 0 Minute : 0 Second : 0 Time(years) : 79.915068 max. cfl number for zonal advection : 8.6664E-02 20 371 33 max. cfl number for meridional advection : 7.4915E-02 312 207 5 max. cfl number for vertical advection : 2.6296E-01 22 373 17 max. cfl number for total advection : 2.7788E-01 22 373 17 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. : 9.251410035936960E+00 K.E. change from horiz. visc. :-3.714125623668965E-06 K.E. change from vert. visc. : 9.355378416439600E-06 K.E. change from wind stress : 2.766290259180755E-05 advective K.E. balance : 1.636982231061571E-09 :-2.284542695771726E-09 P.E. verses pressure work : 7.559709742612717E-04 :-8.456375466774886E-06 surface-pressure contribution :-5.554886586912075E-07 : 4.867631372559909E-07 Tracer diagnostics: mean value of tracer 1 : 3.518258942929007E+00 abs change in tracer 1 : 1.412270009362959E-07 mean change in tracer 1 : 3.280110102008446E-09 mean change in tracer 1 from advection :-4.905141034850157E-24 mean change in tracer 1 from horiz. diff.:-1.297032485176724E-25 mean change in tracer 1 from vert. diff.:-1.188810979316162E-08 mean change in tracer 1 from sources : 1.496970383221215E-08 surface flux of tracer 1 : 0.000000000000000E+00 mean value of tracer 2 : 3.472156464459920E+01 abs change in tracer 2 : 1.390816442595769E-11 mean change in tracer 2 : 7.414644597631140E-14 mean change in tracer 2 from advection : 1.266633286305395E-27 mean change in tracer 2 from horiz. diff.: 3.778309518808707E-30 mean change in tracer 2 from vert. diff.:-7.309379687449285E-16 mean change in tracer 2 from sources : 2.589759370745372E-31 surface flux of tracer 2 : 0.000000000000000E+00 mean value of tracer 3 : 2.177990606110640E+02 abs change in tracer 3 : 2.442500659438347E-06 mean change in tracer 3 : 2.292682766901297E-08 mean change in tracer 3 from advection :-6.791733740561757E-23 mean change in tracer 3 from horiz. diff.:-6.603074469990597E-25 mean change in tracer 3 from vert. diff.:-2.284293289350814E-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: 5.047279930808468E-05 residual, scans : 9.203118770288775E-14 240 Timing information: Timer number 1 Time = 712.39 seconds HMIX_MOMENTUM_ANISO Timer number 2 Time = 636.62 seconds HMIX_TRACER_GM_NLOOP Timer number 3 Time = 3547.36 seconds HMIX_TRACER_GM Timer number 4 Time = 1842.91 seconds VMIX_COEFFICIENTS_KPP Timer number 5 Time = 98.78 seconds VMIX_EXPLICIT_TRACER Timer number 6 Time = 48.17 seconds VMIX_EXPLICIT_MOMENTUM Timer number 7 Time = 307.14 seconds VMIX_IMPLICIT_TRACER Timer number 8 Time = 74.04 seconds VMIX_IMPLICIT_MOMENTUM Timer number 9 Time = 10.75 seconds COMPUTE_COSZ Timer number 10 Time = 135.10 seconds ADVECTION_MOMENTUM Timer number 11 Time = 687.43 seconds ADVECTION_TRACER_UPWIND3 Timer number 12 Time = 47.65 seconds MOC Timer number 13 Time = 47.30 seconds TRACER_TRANSPORTS Timer number 14 Time = 816.35 seconds TAVG_WRITE_STD Timer number 15 Time = 78.28 seconds TAVG_WRITE_NONSTD Timer number 16 Time = 45.36 seconds TAVG_CCSM_DIAGS_BSF Timer number 17 Time = 47.65 seconds TAVG_CCSM_DIAGS_MOC Timer number 18 Time = 47.30 seconds TAVG_CCSM_DIAGS_TRANS Timer number 19 Time = 10614.80 seconds STEP Timer number 20 Time = 9010.12 seconds BAROCLINIC Timer number 21 Time = 1215.97 seconds BAROTROPIC Timer number 22 Time = 218.38 seconds 3D-UPDATE Timer number 23 Time = 11670.84 seconds TOTAL Timer number 24 Time = 1047.64 seconds OUTPUT Timer number 25 Time = 1042.14 seconds OUTPUT TAVG Timer number 26 Time = 5.43 seconds OUTPUT REST ------------------------------------------------------------------------ (diag_print) file written: /ptmp/mai/b40.1850.track1.1deg.006/run/b40.1850.track1.1deg.006.pop.dd.0079-01-01-00000 (diag_transport) file written: /ptmp/mai/b40.1850.track1.1deg.006/run/b40.1850.track1.1deg.006.pop.dt.0079-01-01-00000 AFTER CALL IN tracer_budgets (final): ===================================== volume_t (cm^3) = 0.132514028745E+25 SUM [volume*T] (C cm^3) = 0.466217923317E+25 SUM [volume*S] (ppt cm^3) = 0.460109441421E+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 = 0.156001207011E-13 FW flux = 0.000000000000E+00 Imbalance = -.156001207011E-13 Imbalance = -tendency + FW flux HEAT BUDGET FOR THE GIVEN TAVG INTERVAL (W/m^2): ------------------------------------------------ tendency = 0.107599491394E+02 SHF flux = 0.105804606007E+02 ice formation = 0.179488224192E+00 FW heat content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = -.314505272075E-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 = -.231542065257E-05 SFWF flux = -.183955056125E-05 ice formation = -.475870359551E-06 FW salt content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = -.268228724008E-12 Imbalance = -tendency + SFWF flux + ice formation + FW salt content + free-srf non-consv. Global Time Averages: 12-01-0080 00:00:00 KAPPA_ISOP: 3786293.22770920815 KAPPA_THIC: 4210131.14230447914 HOR_DIFF: 468603.552158564562 DIA_DEPTH: 5485.10752130462151 TLT: 405.453721241348148 INT_DEPTH: 5890.56137227349700 UISOP: 0.706614631270847845E-04 VISOP: -0.331171595199830236E-03 WISOP: -0.265244281300119538E-12 ADVT_ISOP: 0.114810121516449971E-10 ADVS_ISOP: 0.415464019039344513E-14 VNT_ISOP: -0.726040431131363627E-09 VNS_ISOP: -0.184556900778477043E-11 USUBM: -0.450278785551107765E-05 VSUBM: 0.439391152539073181E-05 WSUBM: -0.998175019823729574E-09 HLS_SUBM: 802725.426174964174 ADVT_SUBM: 0.904787722680252170E-12 ADVS_SUBM: -0.332810948976009813E-16 VNT_SUBM: -0.146536470233857772E-09 VNS_SUBM: 0.532414150732056986E-13 HDIFT: 0.188827342313591265E-10 HDIFS: -0.382081240656651941E-14 QSW_HBL: 163.495286935348418 KVMIX: 1.34778432278625271 TPOWER: 0.219225647843565409E-05 UVEL: 0.301019743525815342 VVEL: 0.452531364129318597E-03 TEMP: 3.51567214559608088 dTEMP_POS_2D: 0.832134867286651453E-01 dTEMP_NEG_2D: -0.671527109357600710E-01 SALT: 0.347215129400591516E-01 RHO: 1.03743379828160109 RESID_T: 0.000000000000000000E+00 RESID_S: 0.000000000000000000E+00 SU: 107974.433228219583 SV: 120.914148680505335 SSH: 0.505779723887033985E-04 SHF: 10.5804606007120352 SHF_QSW: 190.782019154676590 SFWF: -0.183955056125065002E-05 TAUX: 0.101246107324645326 TAUY: -0.343405367282554538E-01 FW: 0.000000000000000000E+00 TFW_T: 0.000000000000000000E+00 TFW_S: 0.000000000000000000E+00 EVAP_F: -0.413966006302242691E-04 PREC_F: 0.355037570016399502E-04 SNOW_F: 0.102704563642795072E-05 MELT_F: 0.950020488095647916E-06 ROFF_F: 0.291295075997219911E-05 IOFF_F: 0.177045051758352735E-06 SALT_F: -0.460698654295227515E-09 SENH_F: -15.2400763208618457 LWUP_F: -384.786607312912679 LWDN_F: 325.059542420113701 MELTH_F: -1.29971219843430807 IFRAC: 0.808766807203366023E-01 IAGE: 217.769375591594837 WVEL: 0.762291742440593397E-06 UET: 0.468585503973668312E-07 VNT: 0.156004269209436468E-07 WTT: -0.178333454339468728E-07 UES: 0.146828168311871002E-08 VNS: -0.570527647074442564E-11 WTS: 0.736054463217053237E-12 ADVT: -0.786217578590328648E-10 ADVS: -0.108475433992744339E-13 PV: 0.134251180392499884E-13 Q: -0.952364545491871710E-08 PD: 1.02752307896011974 QSW_HTP: 139.791441293676968 QFLUX: 0.179488224191675511 HMXL: 5485.60330016584703 XMXL: 7230.81198107195178 TMXL: 3593.80616904645058 HBLT: 3726.12012120131749 XBLT: 6540.63747592659365 TBLT: 882.334346843502999 BSF: 0.000000000000000000E+00 convergence info from pcg_diag_bsf: iter = 0 rms_resid = 0.108328171100425641 iter = 100 rms_resid = 0.421092561439085234E-02 iter = 200 rms_resid = 0.851466865200218703E-03 iter = 300 rms_resid = 0.345598811862444263E-03 iter = 400 rms_resid = 0.264813597680914987E-03 iter = 500 rms_resid = 0.172744505109535996E-03 iter = 600 rms_resid = 0.468956219009514761E-04 iter = 700 rms_resid = 0.152562238124854694E-04 iter = 800 rms_resid = 0.186190446633710304E-05 iter = 900 rms_resid = 0.154352226790116149E-06 Local Time- and Space-Averages for Nino Regions: 00:00:00 0080-12-01 NINO_1_PLUS_2: 23.4717307557887374 NINO_3: 24.0420852883161764 NINO_3_POINT_4: 25.3662387017856297 NINO_4: 27.6706054376118225 tavg file written: ./b40.1850.track1.1deg.006.pop.h.0080-11.nc (time_manager) ocn date 0080-dec-02, 0.000000E+00 sec (time_manager) ocn date 0080-dec-03, 0.000000E+00 sec (time_manager) ocn date 0080-dec-04, 0.000000E+00 sec (time_manager) ocn date 0080-dec-05, 0.000000E+00 sec (time_manager) ocn date 0080-dec-06, 0.000000E+00 sec (time_manager) ocn date 0080-dec-07, 0.000000E+00 sec (time_manager) ocn date 0080-dec-08, 0.000000E+00 sec (time_manager) ocn date 0080-dec-09, 0.000000E+00 sec (time_manager) ocn date 0080-dec-10, 0.000000E+00 sec (time_manager) ocn date 0080-dec-11, 0.000000E+00 sec (time_manager) ocn date 0080-dec-12, 0.000000E+00 sec (time_manager) ocn date 0080-dec-13, 0.000000E+00 sec (time_manager) ocn date 0080-dec-14, 0.000000E+00 sec (time_manager) ocn date 0080-dec-15, 0.000000E+00 sec (time_manager) ocn date 0080-dec-16, 0.000000E+00 sec (time_manager) ocn date 0080-dec-17, 0.000000E+00 sec (time_manager) ocn date 0080-dec-18, 0.000000E+00 sec (time_manager) ocn date 0080-dec-19, 0.000000E+00 sec (time_manager) ocn date 0080-dec-20, 0.000000E+00 sec (time_manager) ocn date 0080-dec-21, 0.000000E+00 sec (time_manager) ocn date 0080-dec-22, 0.000000E+00 sec (time_manager) ocn date 0080-dec-23, 0.000000E+00 sec (time_manager) ocn date 0080-dec-24, 0.000000E+00 sec (time_manager) ocn date 0080-dec-25, 0.000000E+00 sec (time_manager) ocn date 0080-dec-26, 0.000000E+00 sec (time_manager) ocn date 0080-dec-27, 0.000000E+00 sec (time_manager) ocn date 0080-dec-28, 0.000000E+00 sec (time_manager) ocn date 0080-dec-29, 0.000000E+00 sec (time_manager) ocn date 0080-dec-30, 0.000000E+00 sec (time_manager) ocn date 0080-dec-31, 0.000000E+00 sec (ocn_comp_mct(run):) driver requests restart file at eod 0080/12/31 (time_manager) ocn date 0081-jan-01, 0.000000E+00 sec Step number : 729975 Date : 01 jan 0081 Hour : 0 Minute : 0 Second : 0 Time(years) : 80.000000 max. cfl number for zonal advection : 7.5992E-02 20 371 33 max. cfl number for meridional advection : 1.0094E-01 119 207 8 max. cfl number for vertical advection : 2.4487E-01 15 367 20 max. cfl number for total advection : 2.6136E-01 15 367 20 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. : 9.490597177870779E+00 K.E. change from horiz. visc. :-3.733296506208472E-06 K.E. change from vert. visc. : 8.641920699978533E-06 K.E. change from wind stress : 2.763224392414437E-05 advective K.E. balance : 2.759596304083235E-10 :-7.606660653524698E-10 P.E. verses pressure work : 7.086250543492475E-04 :-6.177884288738830E-06 surface-pressure contribution :-4.612240259306929E-07 : 4.075825242357895E-07 Tracer diagnostics: mean value of tracer 1 : 3.519810768343142E+00 abs change in tracer 1 : 1.480843227939722E-07 mean change in tracer 1 : 2.413943997325250E-09 mean change in tracer 1 from advection :-8.112348634559876E-24 mean change in tracer 1 from horiz. diff.: 7.959062977220809E-26 mean change in tracer 1 from vert. diff.:-1.264436069127627E-08 mean change in tracer 1 from sources : 1.484582026948783E-08 surface flux of tracer 1 : 0.000000000000000E+00 mean value of tracer 2 : 3.472154118665600E+01 abs change in tracer 2 : 1.419713778213668E-11 mean change in tracer 2 : 3.908393750147128E-14 mean change in tracer 2 from advection :-2.821137774043834E-28 mean change in tracer 2 from horiz. diff.: 1.331404306627830E-29 mean change in tracer 2 from vert. diff.:-4.106210808876989E-14 mean change in tracer 2 from sources :-2.584989105230572E-32 surface flux of tracer 2 : 0.000000000000000E+00 mean value of tracer 3 : 2.178569287808290E+02 abs change in tracer 3 : 2.516418800779019E-06 mean change in tracer 3 : 2.133814278067502E-08 mean change in tracer 3 from advection :-5.433386992449405E-23 mean change in tracer 3 from horiz. diff.:-1.037625988141380E-24 mean change in tracer 3 from vert. diff.: 4.385182686067089E-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: 5.067956169909860E-05 residual, scans : 8.245578156501206E-14 240 Timing information: Timer number 1 Time = 743.74 seconds HMIX_MOMENTUM_ANISO Timer number 2 Time = 665.16 seconds HMIX_TRACER_GM_NLOOP Timer number 3 Time = 3705.16 seconds HMIX_TRACER_GM Timer number 4 Time = 1924.88 seconds VMIX_COEFFICIENTS_KPP Timer number 5 Time = 103.16 seconds VMIX_EXPLICIT_TRACER Timer number 6 Time = 50.32 seconds VMIX_EXPLICIT_MOMENTUM Timer number 7 Time = 320.79 seconds VMIX_IMPLICIT_TRACER Timer number 8 Time = 77.30 seconds VMIX_IMPLICIT_MOMENTUM Timer number 9 Time = 11.22 seconds COMPUTE_COSZ Timer number 10 Time = 141.04 seconds ADVECTION_MOMENTUM Timer number 11 Time = 717.93 seconds ADVECTION_TRACER_UPWIND3 Timer number 12 Time = 49.81 seconds MOC Timer number 13 Time = 49.45 seconds TRACER_TRANSPORTS Timer number 14 Time = 853.60 seconds TAVG_WRITE_STD Timer number 15 Time = 81.74 seconds TAVG_WRITE_NONSTD Timer number 16 Time = 47.42 seconds TAVG_CCSM_DIAGS_BSF Timer number 17 Time = 49.81 seconds TAVG_CCSM_DIAGS_MOC Timer number 18 Time = 49.45 seconds TAVG_CCSM_DIAGS_TRANS Timer number 19 Time = 11085.37 seconds STEP Timer number 20 Time = 9410.78 seconds BAROCLINIC Timer number 21 Time = 1269.58 seconds BAROTROPIC Timer number 22 Time = 228.01 seconds 3D-UPDATE Timer number 23 Time = 12189.18 seconds TOTAL Timer number 24 Time = 1095.04 seconds OUTPUT Timer number 25 Time = 1089.54 seconds OUTPUT TAVG Timer number 26 Time = 5.43 seconds OUTPUT REST ------------------------------------------------------------------------ (diag_print) file written: /ptmp/mai/b40.1850.track1.1deg.006/run/b40.1850.track1.1deg.006.pop.dd.0079-01-01-00000 (diag_transport) file written: /ptmp/mai/b40.1850.track1.1deg.006/run/b40.1850.track1.1deg.006.pop.dt.0079-01-01-00000 AFTER CALL IN tracer_budgets (final): ===================================== volume_t (cm^3) = 0.132514028745E+25 SUM [volume*T] (C cm^3) = 0.466423805581E+25 SUM [volume*S] (ppt cm^3) = 0.460109131563E+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 = 0.771773049153E-13 FW flux = 0.000000000000E+00 Imbalance = -.771773049153E-13 Imbalance = -tendency + FW flux HEAT BUDGET FOR THE GIVEN TAVG INTERVAL (W/m^2): ------------------------------------------------ tendency = 0.872650854746E+01 SHF flux = 0.851703164501E+01 ice formation = 0.209477420422E+00 FW heat content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = 0.517972801234E-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 = 0.923171369773E-06 SFWF flux = 0.147855082593E-05 ice formation = -.555379584499E-06 FW salt content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = -.128342295055E-12 Imbalance = -tendency + SFWF flux + ice formation + FW salt content + free-srf non-consv. restart file written: ./b40.1850.track1.1deg.006.pop.r.0081-01-01-00000 restart pointer file written: ./rpointer.ocn.restart ovf_write_restart unit (mu) = 19 file name = ./b40.1850.track1.1deg.006.pop.ro.0081-01-01-00000 ovf write restart cdate yyyymmdd = 00810101 overflow restart pointer file written: ./rpointer.ocn.ovf Global Time Averages: 01-01-0081 00:00:00 KAPPA_ISOP: 3529957.01747049717 KAPPA_THIC: 3953323.54878429743 HOR_DIFF: 468677.077834105876 DIA_DEPTH: 5485.64366573849111 TLT: 403.157673087578189 INT_DEPTH: 5888.79728079630604 UISOP: 0.525821696742067177E-04 VISOP: -0.294633157809945975E-03 WISOP: 0.301938696525211329E-12 ADVT_ISOP: 0.196743050591225004E-10 ADVS_ISOP: 0.454251219554486280E-15 VNT_ISOP: -0.352507388272710097E-09 VNS_ISOP: -0.167321352029186598E-11 USUBM: -0.263819657500720593E-04 VSUBM: 0.437193935685435518E-04 WSUBM: -0.144626996727363822E-08 HLS_SUBM: 747801.844314830145 ADVT_SUBM: -0.205562843906451893E-11 ADVS_SUBM: -0.259087001965546523E-15 VNT_SUBM: 0.304176710754793615E-10 VNS_SUBM: 0.341569720846176360E-12 HDIFT: 0.775265442536475496E-11 HDIFS: 0.436343668132976347E-14 QSW_HBL: 163.364922025969150 KVMIX: 1.35619747577382332 TPOWER: 0.219341397203955803E-05 UVEL: 0.305527260996338534 VVEL: 0.252199490762868538E-03 TEMP: 3.51747539675639986 dTEMP_POS_2D: 0.841377293887615313E-01 dTEMP_NEG_2D: -0.660300626392801016E-01 SALT: 0.347215360589734831E-01 RHO: 1.03743370677552016 RESID_T: 0.000000000000000000E+00 RESID_S: 0.000000000000000000E+00 SU: 109590.147335930145 SV: 43.6131065887242855 SSH: 0.504454164899563356E-04 SHF: 8.51703164500920984 SHF_QSW: 191.217857057032688 SFWF: 0.147855082593036399E-05 TAUX: 0.846516010229291932E-01 TAUY: -0.612711738833357986E-01 FW: 0.000000000000000000E+00 TFW_T: 0.000000000000000000E+00 TFW_S: 0.000000000000000000E+00 EVAP_F: -0.421646022785951993E-04 PREC_F: 0.360864709921178653E-04 SNOW_F: 0.113598111480405185E-05 MELT_F: 0.469921408082154835E-05 ROFF_F: 0.306353305785204604E-05 IOFF_F: 0.166946295425812968E-06 SALT_F: 0.129434793142131825E-07 SENH_F: -15.8310901443166774 LWUP_F: -386.284799022082041 LWDN_F: 327.612927077325764 MELTH_F: -2.30940133703765849 IFRAC: 0.774331648976628595E-01 IAGE: 217.828641877584005 WVEL: 0.759192621063487650E-06 UET: 0.386729873002517698E-07 VNT: 0.614428399349595478E-07 WTT: -0.197547820488507861E-07 UES: 0.150986948191015322E-08 VNS: -0.117780076761915695E-10 WTS: 0.998078606563581754E-12 ADVT: -0.112771287290640017E-09 ADVS: -0.344697183228174521E-14 PV: 0.662892097027120417E-13 Q: -0.955414063235990696E-08 PD: 1.02752301064494422 QSW_HTP: 140.209813355005195 QFLUX: 0.209477420422021027 HMXL: 5486.81682548363824 XMXL: 6890.90452793773693 TMXL: 3930.16041566004287 HBLT: 3890.28455636402487 XBLT: 6662.75846878070570 TBLT: 933.448575426955017 BSF: 0.000000000000000000E+00 convergence info from pcg_diag_bsf: iter = 0 rms_resid = 0.116378938741745958 iter = 100 rms_resid = 0.432182472803124308E-02 iter = 200 rms_resid = 0.850059878821867289E-03 iter = 300 rms_resid = 0.343646619124684703E-03 iter = 400 rms_resid = 0.252076475592426068E-03 iter = 500 rms_resid = 0.176976207268875641E-03 iter = 600 rms_resid = 0.493479152169668694E-04 iter = 700 rms_resid = 0.158638791073846669E-04 iter = 800 rms_resid = 0.184649879196824376E-05 iter = 900 rms_resid = 0.155130889563285442E-06 Local Time- and Space-Averages for Nino Regions: 00:00:00 0081-01-01 NINO_1_PLUS_2: 24.1594405329484552 NINO_3: 24.4005465658513110 NINO_3_POINT_4: 25.3406677770247342 NINO_4: 27.4224100241335194 tavg file written: ./b40.1850.track1.1deg.006.pop.h.0080-12.nc ------------------------------------------------------------------------ Successful completion of POP model ------------------------------------------------------------------------ Timing information: Timer number 1 Time = 743.74 seconds HMIX_MOMENTUM_ANISO Timer stats (node): min = 557.18 seconds max = 743.74 seconds mean= 661.84 seconds Timer stats(block): min = 557.83 seconds max = 744.25 seconds mean= 662.37 seconds Timer number 2 Time = 665.16 seconds HMIX_TRACER_GM_NLOOP Timer stats (node): min = 625.62 seconds max = 665.16 seconds mean= 635.55 seconds Timer stats(block): min = 626.19 seconds max = 665.73 seconds mean= 636.13 seconds Timer number 3 Time = 3705.16 seconds HMIX_TRACER_GM Timer stats (node): min = 3330.02 seconds max = 3705.16 seconds mean= 3573.34 seconds Timer stats(block): min = 3330.60 seconds max = 3705.75 seconds mean= 3573.90 seconds Timer number 4 Time = 1924.88 seconds VMIX_COEFFICIENTS_KPP Timer stats (node): min = 1645.73 seconds max = 1924.88 seconds mean= 1827.25 seconds Timer stats(block): min = 1646.23 seconds max = 1925.39 seconds mean= 1827.76 seconds Timer number 5 Time = 103.16 seconds VMIX_EXPLICIT_TRACER Timer stats (node): min = 47.62 seconds max = 103.16 seconds mean= 87.53 seconds Timer stats(block): min = 48.32 seconds max = 103.74 seconds mean= 88.15 seconds Timer number 6 Time = 50.32 seconds VMIX_EXPLICIT_MOMENTUM Timer stats (node): min = 38.00 seconds max = 50.32 seconds mean= 45.15 seconds Timer stats(block): min = 38.45 seconds max = 50.81 seconds mean= 45.65 seconds Timer number 7 Time = 320.79 seconds VMIX_IMPLICIT_TRACER Timer stats (node): min = 113.75 seconds max = 320.79 seconds mean= 240.78 seconds Timer stats(block): min = 113.79 seconds max = 320.83 seconds mean= 240.82 seconds Timer number 8 Time = 77.30 seconds VMIX_IMPLICIT_MOMENTUM Timer stats (node): min = 38.60 seconds max = 77.30 seconds mean= 60.50 seconds Timer stats(block): min = 38.62 seconds max = 77.32 seconds mean= 60.52 seconds Timer number 9 Time = 11.22 seconds COMPUTE_COSZ Timer stats (node): min = 8.46 seconds max = 11.22 seconds mean= 9.23 seconds Timer stats(block): min = 8.47 seconds max = 11.24 seconds mean= 9.24 seconds Timer number 10 Time = 141.04 seconds ADVECTION_MOMENTUM Timer stats (node): min = 125.58 seconds max = 141.04 seconds mean= 133.73 seconds Timer stats(block): min = 126.07 seconds max = 141.52 seconds mean= 134.24 seconds Timer number 11 Time = 717.93 seconds ADVECTION_TRACER_UPWIND3 Timer stats (node): min = 678.62 seconds max = 717.93 seconds mean= 695.64 seconds Timer stats(block): min = 679.20 seconds max = 718.53 seconds mean= 696.21 seconds Timer number 12 Time = 51.97 seconds MOC Timer stats (node): min = 51.89 seconds max = 51.97 seconds mean= 51.91 seconds Timer stats(block): min = 0.00 seconds max = 0.00 seconds mean= 0.00 seconds Timer number 13 Time = 51.60 seconds TRACER_TRANSPORTS Timer stats (node): min = 51.56 seconds max = 51.60 seconds mean= 51.59 seconds Timer stats(block): min = 0.00 seconds max = 0.00 seconds mean= 0.00 seconds Timer number 14 Time = 890.07 seconds TAVG_WRITE_STD Timer stats (node): min = 890.07 seconds max = 890.07 seconds mean= 890.07 seconds Timer stats(block): min = 0.00 seconds max = 0.00 seconds mean= 0.00 seconds Timer number 15 Time = 84.27 seconds TAVG_WRITE_NONSTD Timer stats (node): min = 84.27 seconds max = 84.27 seconds mean= 84.27 seconds Timer stats(block): min = 0.00 seconds max = 0.00 seconds mean= 0.00 seconds Timer number 16 Time = 49.48 seconds TAVG_CCSM_DIAGS_BSF Timer stats (node): min = 49.47 seconds max = 49.48 seconds mean= 49.48 seconds Timer stats(block): min = 0.00 seconds max = 0.00 seconds mean= 0.00 seconds Timer number 17 Time = 51.97 seconds TAVG_CCSM_DIAGS_MOC Timer stats (node): min = 51.89 seconds max = 51.97 seconds mean= 51.91 seconds Timer stats(block): min = 0.00 seconds max = 0.00 seconds mean= 0.00 seconds Timer number 18 Time = 51.60 seconds TAVG_CCSM_DIAGS_TRANS Timer stats (node): min = 51.57 seconds max = 51.60 seconds mean= 51.60 seconds Timer stats(block): min = 0.00 seconds max = 0.00 seconds mean= 0.00 seconds Timer number 19 Time = 11085.45 seconds STEP Timer stats (node): min = 11079.80 seconds max = 11085.45 seconds mean= 11081.88 seconds Timer stats(block): min = 0.00 seconds max = 0.00 seconds mean= 0.00 seconds Timer number 20 Time = 9410.78 seconds BAROCLINIC Timer stats (node): min = 9083.46 seconds max = 9410.78 seconds mean= 9276.55 seconds Timer stats(block): min = 0.00 seconds max = 0.00 seconds mean= 0.00 seconds Timer number 21 Time = 1269.58 seconds BAROTROPIC Timer stats (node): min = 1261.50 seconds max = 1269.58 seconds mean= 1267.62 seconds Timer stats(block): min = 0.00 seconds max = 0.00 seconds mean= 0.00 seconds Timer number 22 Time = 228.01 seconds 3D-UPDATE Timer stats (node): min = 143.25 seconds max = 228.01 seconds mean= 176.08 seconds Timer stats(block): min = 0.00 seconds max = 0.00 seconds mean= 0.00 seconds Timer number 23 Time = 12241.27 seconds TOTAL Timer stats (node): min = 12234.19 seconds max = 12241.27 seconds mean= 12235.14 seconds Timer stats(block): min = 0.00 seconds max = 0.00 seconds mean= 0.00 seconds Timer number 24 Time = 1147.05 seconds OUTPUT Timer stats (node): min = 1145.23 seconds max = 1147.05 seconds mean= 1145.35 seconds Timer stats(block): min = 0.00 seconds max = 0.00 seconds mean= 0.00 seconds Timer number 25 Time = 1135.06 seconds OUTPUT TAVG Timer stats (node): min = 1133.59 seconds max = 1135.06 seconds mean= 1133.69 seconds Timer stats(block): min = 0.00 seconds max = 0.00 seconds mean= 0.00 seconds Timer number 26 Time = 11.92 seconds OUTPUT REST Timer stats (node): min = 11.54 seconds max = 11.92 seconds mean= 11.57 seconds Timer stats(block): min = 0.00 seconds max = 0.00 seconds mean= 0.00 seconds ------------------------------------------------------------------------ =================== completed POP_Final ===================