======================================================================== 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.090919-142803 , 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.0087-01-01-00000 ovf read restart label = ! Overflow Restart File for yyyymmdd =00870101 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.0087-01-01-00000 ======================================================================== 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): 01-01-0087 hour: 0 minute: 0 second: 0 step: 784725 This run will terminate at 00:00:00 on date(month-day-year): 01-01-1087 after running for 1000 years unless a stop signal is received from external source (eg, cpl) Starting elapsed time in years: 86.000 months: 1032.000 days: 31389.000 hours: 753336.000 seconds: 2712009600.000 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.0087-01-01-00000 (passive_tracer_tools:read_field_3D) reading IAGE_CUR from ./b40.1850.track1.1deg.006.pop.r.0087-01-01-00000 (passive_tracer_tools:read_field_3D) reading IAGE_OLD from ./b40.1850.track1.1deg.006.pop.r.0087-01-01-00000 ------------------------------------------------------------------------ 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.0087-01-01-00000 Equatorial velocities written to file: /ptmp/mai/b40.1850.track1.1deg.006/run/b40.1850.track1.1deg.006.pop.dv.0087-01-01-00000 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.0087-01-01-00000 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.0087-01-01-00000 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.0087-01-01-00000 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) = 0.132514028746E+25 SUM [volume*T] (C cm^3) = 0.466047796772E+25 SUM [volume*S] (ppt cm^3) = 0.460107800151E+26 (time_manager) ocn date 0087-jan-02, 0.000000E+00 sec (time_manager) ocn date 0087-jan-03, 0.000000E+00 sec (time_manager) ocn date 0087-jan-04, 0.000000E+00 sec (time_manager) ocn date 0087-jan-05, 0.000000E+00 sec (time_manager) ocn date 0087-jan-06, 0.000000E+00 sec (time_manager) ocn date 0087-jan-07, 0.000000E+00 sec (time_manager) ocn date 0087-jan-08, 0.000000E+00 sec (time_manager) ocn date 0087-jan-09, 0.000000E+00 sec (time_manager) ocn date 0087-jan-10, 0.000000E+00 sec (time_manager) ocn date 0087-jan-11, 0.000000E+00 sec (time_manager) ocn date 0087-jan-12, 0.000000E+00 sec (time_manager) ocn date 0087-jan-13, 0.000000E+00 sec (time_manager) ocn date 0087-jan-14, 0.000000E+00 sec (time_manager) ocn date 0087-jan-15, 0.000000E+00 sec (time_manager) ocn date 0087-jan-16, 0.000000E+00 sec (time_manager) ocn date 0087-jan-17, 0.000000E+00 sec (time_manager) ocn date 0087-jan-18, 0.000000E+00 sec (time_manager) ocn date 0087-jan-19, 0.000000E+00 sec (time_manager) ocn date 0087-jan-20, 0.000000E+00 sec (time_manager) ocn date 0087-jan-21, 0.000000E+00 sec (time_manager) ocn date 0087-jan-22, 0.000000E+00 sec (time_manager) ocn date 0087-jan-23, 0.000000E+00 sec (time_manager) ocn date 0087-jan-24, 0.000000E+00 sec (time_manager) ocn date 0087-jan-25, 0.000000E+00 sec (time_manager) ocn date 0087-jan-26, 0.000000E+00 sec (time_manager) ocn date 0087-jan-27, 0.000000E+00 sec (time_manager) ocn date 0087-jan-28, 0.000000E+00 sec (time_manager) ocn date 0087-jan-29, 0.000000E+00 sec (time_manager) ocn date 0087-jan-30, 0.000000E+00 sec (time_manager) ocn date 0087-jan-31, 0.000000E+00 sec (time_manager) ocn date 0087-feb-01, 0.000000E+00 sec Step number : 785500 Date : 01 feb 0087 Hour : 0 Minute : 0 Second : 0 Time(years) : 86.084932 max. cfl number for zonal advection : 7.1911E-02 20 371 33 max. cfl number for meridional advection : 9.5394E-02 81 207 1 max. cfl number for vertical advection : 3.4656E-01 190 325 18 max. cfl number for total advection : 3.5486E-01 190 325 18 max. cfl number for horizontal tracer mixing : 6.0948E-01 175 380 6 max. cfl number for horiz. momentum mixing : 1.2672E-01 318 214 56 K.E. diagnostics: mean K.E. : 9.970191814051660E+00 K.E. change from horiz. visc. :-3.815486369869928E-06 K.E. change from vert. visc. : 9.248048805779905E-06 K.E. change from wind stress : 2.643276364094130E-05 advective K.E. balance :-1.509998570520725E-09 : 1.052433339848349E-09 P.E. verses pressure work : 7.138933929652318E-04 :-6.541605806901187E-06 surface-pressure contribution : 9.840477496733886E-08 :-1.871801815779079E-07 Tracer diagnostics: mean value of tracer 1 : 3.518426378788702E+00 abs change in tracer 1 : 1.456076628206113E-07 mean change in tracer 1 : 3.362901190168744E-09 mean change in tracer 1 from advection :-3.773185411423198E-25 mean change in tracer 1 from horiz. diff.:-7.959062977220809E-26 mean change in tracer 1 from vert. diff.:-1.193700840971071E-08 mean change in tracer 1 from sources : 1.515661020330927E-08 surface flux of tracer 1 : 0.000000000000000E+00 mean value of tracer 2 : 3.472142535624171E+01 abs change in tracer 2 : 1.368333290792767E-11 mean change in tracer 2 : 4.591465113438742E-14 mean change in tracer 2 from advection : 3.915048339489402E-28 mean change in tracer 2 from horiz. diff.: 8.636136042991329E-30 mean change in tracer 2 from vert. diff.:-8.135805922463291E-15 mean change in tracer 2 from sources :-8.634754553371885E-32 surface flux of tracer 2 : 0.000000000000000E+00 mean value of tracer 3 : 2.212584497505225E+02 abs change in tracer 3 : 2.471721370920007E-06 mean change in tracer 3 : 1.999674544694030E-08 mean change in tracer 3 from advection :-3.018548329138558E-24 mean change in tracer 3 from horiz. diff.: 1.886592705711599E-25 mean change in tracer 3 from vert. diff.:-1.133065936371323E-24 mean change in tracer 3 from sources : 3.162337335760043E-08 surface flux of tracer 3 : 0.000000000000000E+00 Other diagnostics: global mean sea level: 5.291945216459328E-05 residual, scans : 8.343619880265134E-14 240 Timing information: Timer number 1 Time = 31.60 seconds HMIX_MOMENTUM_ANISO Timer number 2 Time = 28.32 seconds HMIX_TRACER_GM_NLOOP Timer number 3 Time = 157.63 seconds HMIX_TRACER_GM Timer number 4 Time = 83.34 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 = 13.63 seconds VMIX_IMPLICIT_TRACER Timer number 8 Time = 3.31 seconds VMIX_IMPLICIT_MOMENTUM Timer number 9 Time = 0.48 seconds COMPUTE_COSZ Timer number 10 Time = 5.87 seconds ADVECTION_MOMENTUM Timer number 11 Time = 30.50 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 = 469.39 seconds STEP Timer number 20 Time = 399.72 seconds BAROCLINIC Timer number 21 Time = 54.07 seconds BAROTROPIC Timer number 22 Time = 9.48 seconds 3D-UPDATE Timer number 23 Time = 469.78 seconds TOTAL Timer number 24 Time = 0.01 seconds OUTPUT Timer number 25 Time = 0.00 seconds OUTPUT TAVG Timer number 26 Time = 0.01 seconds OUTPUT REST ------------------------------------------------------------------------ (diag_print) file written: /ptmp/mai/b40.1850.track1.1deg.006/run/b40.1850.track1.1deg.006.pop.dd.0087-01-01-00000 (diag_transport) file written: /ptmp/mai/b40.1850.track1.1deg.006/run/b40.1850.track1.1deg.006.pop.dt.0087-01-01-00000 AFTER CALL IN tracer_budgets (final): ===================================== volume_t (cm^3) = 0.132514028746E+25 SUM [volume*T] (C cm^3) = 0.466240105147E+25 SUM [volume*S] (ppt cm^3) = 0.460107595873E+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 = -.702116438100E-13 FW flux = 0.000000000000E+00 Imbalance = 0.702116438100E-13 Imbalance = -tendency + FW flux HEAT BUDGET FOR THE GIVEN TAVG INTERVAL (W/m^2): ------------------------------------------------ tendency = 0.815116678633E+01 SHF flux = 0.795843540216E+01 ice formation = 0.192731080669E+00 FW heat content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = -.303505603066E-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 = 0.608610809490E-06 SFWF flux = 0.111959123313E-05 ice formation = -.510980645486E-06 FW salt content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = -.221840516783E-12 Imbalance = -tendency + SFWF flux + ice formation + FW salt content + free-srf non-consv. Global Time Averages: 02-01-0087 00:00:00 KAPPA_ISOP: 3458444.55971403001 KAPPA_THIC: 3936504.39945819555 HOR_DIFF: 523806.131650201511 DIA_DEPTH: 6141.54643395928360 TLT: 436.543233716874454 INT_DEPTH: 6578.08462482803043 UISOP: 0.135085629806936273E-04 VISOP: -0.281622512417207497E-03 WISOP: 0.165427079385608499E-12 ADVT_ISOP: -0.566742695480342012E-11 ADVS_ISOP: 0.352073133806933203E-14 VNT_ISOP: -0.359706022061148948E-09 VNS_ISOP: -0.163371441777366822E-11 USUBM: -0.321046979352109503E-04 VSUBM: 0.107335741014272365E-03 WSUBM: -0.457934087794682007E-08 HLS_SUBM: 730538.705291685881 ADVT_SUBM: -0.239625313002929589E-11 ADVS_SUBM: 0.747958856014330603E-15 VNT_SUBM: 0.337384901587210639E-09 VNS_SUBM: 0.832724825396962955E-12 HDIFT: -0.411770658117980928E-11 HDIFS: -0.837904145105061788E-15 QSW_HBL: 164.105184926562771 KVMIX: 1.37405571911325408 TPOWER: 0.221686298054234024E-05 UVEL: 0.302073633340677772 VVEL: 0.852053465024669998E-03 TEMP: 3.51605719759017221 dTEMP_POS_2D: 0.822265679160655710E-01 dTEMP_NEG_2D: -0.637124540462060684E-01 SALT: 0.347213883908534873E-01 RHO: 1.03743401934134383 RESID_T: 0.000000000000000000E+00 RESID_S: 0.000000000000000000E+00 SU: 108350.028968958548 SV: 257.529550207906595 SSH: 0.531326091602723875E-04 SHF: 7.95843540215562406 SHF_QSW: 193.315313193496337 SFWF: 0.111959123313479016E-05 TAUX: 0.352664465726719584E-01 TAUY: -0.912357520107610481E-01 FW: 0.000000000000000000E+00 TFW_T: 0.000000000000000000E+00 TFW_S: 0.000000000000000000E+00 EVAP_F: -0.428688406120146043E-04 PREC_F: 0.366840933812865864E-04 SNOW_F: 0.112054270573946201E-05 MELT_F: 0.434897361091088650E-05 ROFF_F: 0.316705657430473318E-05 IOFF_F: 0.169714037119865097E-06 SALT_F: 0.132344977243817551E-07 SENH_F: -16.3780484199130996 LWUP_F: -391.174836940519867 LWDN_F: 332.228158525916797 MELTH_F: -2.38662501286490736 IFRAC: 0.676762255177096456E-01 IAGE: 221.234379184198929 WVEL: 0.754681556399197799E-06 UET: 0.652187486197254253E-09 VNT: 0.112117924297442939E-06 WTT: -0.192634008808311702E-07 UES: 0.152143925420521856E-08 VNS: -0.166231875942756648E-11 WTS: 0.797502394638950520E-12 ADVT: -0.280221144382593326E-11 ADVS: 0.140595473820611199E-14 PV: 0.117873778510588866E-12 Q: -0.979506346422087973E-08 PD: 1.02752315195958044 QSW_HTP: 141.535536498395373 QFLUX: 0.192731080668774785 HMXL: 6143.99262616303440 XMXL: 7218.41208827657920 TMXL: 4604.31584803332771 HBLT: 4319.22540579365159 XBLT: 7051.43551510712496 TBLT: 926.573857353686321 BSF: 0.000000000000000000E+00 convergence info from pcg_diag_bsf: iter = 0 rms_resid = 0.113038610931530004 iter = 100 rms_resid = 0.422591346729664624E-02 iter = 200 rms_resid = 0.841212613181283562E-03 iter = 300 rms_resid = 0.329430028585606235E-03 iter = 400 rms_resid = 0.232154599733669993E-03 iter = 500 rms_resid = 0.176102892453401655E-03 iter = 600 rms_resid = 0.513172881504370812E-04 iter = 700 rms_resid = 0.160127830475660605E-04 iter = 800 rms_resid = 0.169755438479898709E-05 iter = 900 rms_resid = 0.146992289121566261E-06 Local Time- and Space-Averages for Nino Regions: 00:00:00 0087-02-01 NINO_1_PLUS_2: 25.5719496437304556 NINO_3: 24.5531322028217964 NINO_3_POINT_4: 25.1905449546011475 NINO_4: 26.9032361910901123 tavg file written: ./b40.1850.track1.1deg.006.pop.h.0087-01.nc (time_manager) ocn date 0087-feb-02, 0.000000E+00 sec (time_manager) ocn date 0087-feb-03, 0.000000E+00 sec (time_manager) ocn date 0087-feb-04, 0.000000E+00 sec (time_manager) ocn date 0087-feb-05, 0.000000E+00 sec (time_manager) ocn date 0087-feb-06, 0.000000E+00 sec (time_manager) ocn date 0087-feb-07, 0.000000E+00 sec (time_manager) ocn date 0087-feb-08, 0.000000E+00 sec (time_manager) ocn date 0087-feb-09, 0.000000E+00 sec (time_manager) ocn date 0087-feb-10, 0.000000E+00 sec (time_manager) ocn date 0087-feb-11, 0.000000E+00 sec (time_manager) ocn date 0087-feb-12, 0.000000E+00 sec (time_manager) ocn date 0087-feb-13, 0.000000E+00 sec (time_manager) ocn date 0087-feb-14, 0.000000E+00 sec (time_manager) ocn date 0087-feb-15, 0.000000E+00 sec (time_manager) ocn date 0087-feb-16, 0.000000E+00 sec (time_manager) ocn date 0087-feb-17, 0.000000E+00 sec (time_manager) ocn date 0087-feb-18, 0.000000E+00 sec (time_manager) ocn date 0087-feb-19, 0.000000E+00 sec (time_manager) ocn date 0087-feb-20, 0.000000E+00 sec (time_manager) ocn date 0087-feb-21, 0.000000E+00 sec (time_manager) ocn date 0087-feb-22, 0.000000E+00 sec (time_manager) ocn date 0087-feb-23, 0.000000E+00 sec (time_manager) ocn date 0087-feb-24, 0.000000E+00 sec (time_manager) ocn date 0087-feb-25, 0.000000E+00 sec (time_manager) ocn date 0087-feb-26, 0.000000E+00 sec (time_manager) ocn date 0087-feb-27, 0.000000E+00 sec (time_manager) ocn date 0087-feb-28, 0.000000E+00 sec (time_manager) ocn date 0087-mar-01, 0.000000E+00 sec Step number : 786200 Date : 01 mar 0087 Hour : 0 Minute : 0 Second : 0 Time(years) : 86.161644 max. cfl number for zonal advection : 6.7154E-02 20 371 33 max. cfl number for meridional advection : 8.0864E-02 110 187 8 max. cfl number for vertical advection : 2.6630E-01 15 367 20 max. cfl number for total advection : 2.8419E-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. : 9.152856532212690E+00 K.E. change from horiz. visc. :-3.472865702936971E-06 K.E. change from vert. visc. : 9.844489460862944E-06 K.E. change from wind stress : 2.686621720131107E-05 advective K.E. balance : 9.976629382124150E-10 :-1.407935392665723E-09 P.E. verses pressure work : 6.656964955514044E-04 :-4.819708528882004E-06 surface-pressure contribution : 4.416068893713456E-07 :-5.197323102729054E-07 Tracer diagnostics: mean value of tracer 1 : 3.520553372168091E+00 abs change in tracer 1 : 1.460956224779555E-07 mean change in tracer 1 : 3.870604572807220E-09 mean change in tracer 1 from advection :-2.452570517425079E-24 mean change in tracer 1 from horiz. diff.:-1.061208396962774E-25 mean change in tracer 1 from vert. diff.:-1.196222219428434E-08 mean change in tracer 1 from sources : 1.567731588948843E-08 surface flux of tracer 1 : 0.000000000000000E+00 mean value of tracer 2 : 3.472145080720795E+01 abs change in tracer 2 : 1.337939038769149E-11 mean change in tracer 2 : 6.783788870092956E-14 mean change in tracer 2 from advection :-4.605939222928708E-29 mean change in tracer 2 from horiz. diff.:-1.799195008956527E-29 mean change in tracer 2 from vert. diff.: 9.181437850816342E-15 mean change in tracer 2 from sources :-6.233623944701066E-32 surface flux of tracer 2 : 0.000000000000000E+00 mean value of tracer 3 : 2.213028425923089E+02 abs change in tracer 3 : 2.426611291131516E-06 mean change in tracer 3 : 1.761751453815482E-08 mean change in tracer 3 from advection :-1.509274164569279E-24 mean change in tracer 3 from horiz. diff.:-3.018548329138558E-24 mean change in tracer 3 from vert. diff.: 4.844655283504454E-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: 5.259927457113503E-05 residual, scans : 7.596095031460606E-14 240 Timing information: Timer number 1 Time = 60.12 seconds HMIX_MOMENTUM_ANISO Timer number 2 Time = 53.83 seconds HMIX_TRACER_GM_NLOOP Timer number 3 Time = 300.29 seconds HMIX_TRACER_GM Timer number 4 Time = 157.78 seconds VMIX_COEFFICIENTS_KPP Timer number 5 Time = 8.34 seconds VMIX_EXPLICIT_TRACER Timer number 6 Time = 4.06 seconds VMIX_EXPLICIT_MOMENTUM Timer number 7 Time = 25.92 seconds VMIX_IMPLICIT_TRACER Timer number 8 Time = 6.27 seconds VMIX_IMPLICIT_MOMENTUM Timer number 9 Time = 0.91 seconds COMPUTE_COSZ Timer number 10 Time = 11.18 seconds ADVECTION_MOMENTUM Timer number 11 Time = 58.06 seconds ADVECTION_TRACER_UPWIND3 Timer number 12 Time = 2.22 seconds MOC Timer number 13 Time = 2.16 seconds TRACER_TRANSPORTS Timer number 14 Time = 37.37 seconds TAVG_WRITE_STD Timer number 15 Time = 1.83 seconds TAVG_WRITE_NONSTD Timer number 16 Time = 2.06 seconds TAVG_CCSM_DIAGS_BSF Timer number 17 Time = 2.22 seconds TAVG_CCSM_DIAGS_MOC Timer number 18 Time = 2.16 seconds TAVG_CCSM_DIAGS_TRANS Timer number 19 Time = 895.97 seconds STEP Timer number 20 Time = 761.12 seconds BAROCLINIC Timer number 21 Time = 103.28 seconds BAROTROPIC Timer number 22 Time = 18.17 seconds 3D-UPDATE Timer number 23 Time = 942.56 seconds TOTAL Timer number 24 Time = 45.86 seconds OUTPUT Timer number 25 Time = 45.85 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.0087-01-01-00000 (diag_transport) file written: /ptmp/mai/b40.1850.track1.1deg.006/run/b40.1850.track1.1deg.006.pop.dt.0087-01-01-00000 AFTER CALL IN tracer_budgets (final): ===================================== volume_t (cm^3) = 0.132514028746E+25 SUM [volume*T] (C cm^3) = 0.466521846204E+25 SUM [volume*S] (ppt cm^3) = 0.460107932720E+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 = -.132363419079E-12 FW flux = 0.000000000000E+00 Imbalance = 0.132363419079E-12 Imbalance = -tendency + FW flux HEAT BUDGET FOR THE GIVEN TAVG INTERVAL (W/m^2): ------------------------------------------------ tendency = 0.132213372415E+02 SHF flux = 0.130501890110E+02 ice formation = 0.171147795050E+00 FW heat content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = -.435415019012E-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 = -.111110419865E-05 SFWF flux = -.657346068906E-06 ice formation = -.453757694320E-06 FW salt content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = 0.435429082952E-12 Imbalance = -tendency + SFWF flux + ice formation + FW salt content + free-srf non-consv. Global Time Averages: 03-01-0087 00:00:00 KAPPA_ISOP: 3598764.49948439328 KAPPA_THIC: 4136027.35934013734 HOR_DIFF: 582854.615772681427 DIA_DEPTH: 6831.43459415097823 TLT: 500.817754129362811 INT_DEPTH: 7332.24968555712167 UISOP: 0.379586200135982610E-04 VISOP: -0.245105637503542271E-03 WISOP: 0.858935571376428843E-13 ADVT_ISOP: 0.256314586219538984E-10 ADVS_ISOP: -0.448652525378808563E-14 VNT_ISOP: -0.126649028034885804E-09 VNS_ISOP: -0.138418869699499383E-11 USUBM: -0.578830163715766336E-05 VSUBM: 0.153408166785785953E-03 WSUBM: -0.851323718750618399E-08 HLS_SUBM: 781285.140712741995 ADVT_SUBM: -0.967429385965401743E-12 ADVS_SUBM: -0.464439986950910026E-15 VNT_SUBM: 0.583154940560062983E-09 VNS_SUBM: 0.116405268153693313E-11 HDIFT: 0.312745207004944758E-11 HDIFS: -0.100697634083826540E-14 QSW_HBL: 163.075854658509513 KVMIX: 1.38651958199564551 TPOWER: 0.223099211181871301E-05 UVEL: 0.307000096359925811 VVEL: 0.693087165806926565E-03 TEMP: 3.51780599660235094 dTEMP_POS_2D: 0.772237765502810924E-01 dTEMP_NEG_2D: -0.594072788219843426E-01 SALT: 0.347213945951398706E-01 RHO: 1.03743356216769467 RESID_T: 0.000000000000000000E+00 RESID_S: 0.000000000000000000E+00 SU: 110117.077314798094 SV: 197.558431456854464 SSH: 0.528237276777267491E-04 SHF: 13.0501890109907315 SHF_QSW: 192.921718509488073 SFWF: -0.657346068905655115E-06 TAUX: 0.720116325100242094E-01 TAUY: -0.673127765260862765E-01 FW: 0.000000000000000000E+00 TFW_T: 0.000000000000000000E+00 TFW_S: 0.000000000000000000E+00 EVAP_F: -0.411087888775401694E-04 PREC_F: 0.354063080953802148E-04 SNOW_F: 0.121526269318454679E-05 MELT_F: 0.173490378474370326E-05 ROFF_F: 0.321948895832918984E-05 IOFF_F: 0.194862484971654414E-06 SALT_F: 0.361247407829304251E-08 SENH_F: -15.8123255543568426 LWUP_F: -393.857362889548256 LWDN_F: 334.704819210869346 MELTH_F: -1.62302045711946374 IFRAC: 0.616285073237654371E-01 IAGE: 221.280519020447855 WVEL: 0.707153806852200925E-06 UET: 0.169608599574467725E-07 VNT: 0.884475371694216378E-07 WTT: -0.176999990826921434E-07 UES: 0.152130512762369747E-08 VNS: -0.730913031055973655E-11 WTS: 0.697434293054030248E-12 ADVT: -0.119174355397210451E-09 ADVS: -0.339084497014869238E-14 PV: 0.144217465740022374E-12 Q: -0.989010938749476425E-08 PD: 1.02752267531984032 QSW_HTP: 141.140233594111720 QFLUX: 0.171147795049921086 HMXL: 6834.27467567607073 XMXL: 8001.60972209652209 TMXL: 4958.24643237949476 HBLT: 4472.61680752189386 XBLT: 7557.93559588827520 TBLT: 1018.65986983621610 BSF: 0.000000000000000000E+00 convergence info from pcg_diag_bsf: iter = 0 rms_resid = 0.105382458297749199 iter = 100 rms_resid = 0.415924132467766858E-02 iter = 200 rms_resid = 0.860867867082084379E-03 iter = 300 rms_resid = 0.343890726793759415E-03 iter = 400 rms_resid = 0.256621853906242869E-03 iter = 500 rms_resid = 0.181699270850710007E-03 iter = 600 rms_resid = 0.488531284985772925E-04 iter = 700 rms_resid = 0.146700926536292318E-04 iter = 800 rms_resid = 0.171341643314344522E-05 iter = 900 rms_resid = 0.139777274465400780E-06 Local Time- and Space-Averages for Nino Regions: 00:00:00 0087-03-01 NINO_1_PLUS_2: 26.5874898079723003 NINO_3: 24.4638859891858154 NINO_3_POINT_4: 25.0487361888109277 NINO_4: 26.7089073071798921 tavg file written: ./b40.1850.track1.1deg.006.pop.h.0087-02.nc (time_manager) ocn date 0087-mar-02, 0.000000E+00 sec (time_manager) ocn date 0087-mar-03, 0.000000E+00 sec (time_manager) ocn date 0087-mar-04, 0.000000E+00 sec (time_manager) ocn date 0087-mar-05, 0.000000E+00 sec (time_manager) ocn date 0087-mar-06, 0.000000E+00 sec (time_manager) ocn date 0087-mar-07, 0.000000E+00 sec (time_manager) ocn date 0087-mar-08, 0.000000E+00 sec (time_manager) ocn date 0087-mar-09, 0.000000E+00 sec (time_manager) ocn date 0087-mar-10, 0.000000E+00 sec (time_manager) ocn date 0087-mar-11, 0.000000E+00 sec (time_manager) ocn date 0087-mar-12, 0.000000E+00 sec (time_manager) ocn date 0087-mar-13, 0.000000E+00 sec (time_manager) ocn date 0087-mar-14, 0.000000E+00 sec (time_manager) ocn date 0087-mar-15, 0.000000E+00 sec (time_manager) ocn date 0087-mar-16, 0.000000E+00 sec (time_manager) ocn date 0087-mar-17, 0.000000E+00 sec (time_manager) ocn date 0087-mar-18, 0.000000E+00 sec (time_manager) ocn date 0087-mar-19, 0.000000E+00 sec (time_manager) ocn date 0087-mar-20, 0.000000E+00 sec (time_manager) ocn date 0087-mar-21, 0.000000E+00 sec (time_manager) ocn date 0087-mar-22, 0.000000E+00 sec (time_manager) ocn date 0087-mar-23, 0.000000E+00 sec (time_manager) ocn date 0087-mar-24, 0.000000E+00 sec (time_manager) ocn date 0087-mar-25, 0.000000E+00 sec (time_manager) ocn date 0087-mar-26, 0.000000E+00 sec (time_manager) ocn date 0087-mar-27, 0.000000E+00 sec (time_manager) ocn date 0087-mar-28, 0.000000E+00 sec (time_manager) ocn date 0087-mar-29, 0.000000E+00 sec (time_manager) ocn date 0087-mar-30, 0.000000E+00 sec (time_manager) ocn date 0087-mar-31, 0.000000E+00 sec (time_manager) ocn date 0087-apr-01, 0.000000E+00 sec Step number : 786975 Date : 01 apr 0087 Hour : 0 Minute : 0 Second : 0 Time(years) : 86.246575 max. cfl number for zonal advection : 6.2814E-02 20 371 33 max. cfl number for meridional advection : 7.0450E-02 150 215 7 max. cfl number for vertical advection : 2.4095E-01 298 46 14 max. cfl number for total advection : 2.4982E-01 298 46 14 max. cfl number for horizontal tracer mixing : 6.0948E-01 175 380 7 max. cfl number for horiz. momentum mixing : 1.2672E-01 318 214 56 K.E. diagnostics: mean K.E. : 9.345898950756428E+00 K.E. change from horiz. visc. :-3.492805772084200E-06 K.E. change from vert. visc. : 1.108309670437653E-05 K.E. change from wind stress : 3.134214894370116E-05 advective K.E. balance :-9.700828520187485E-10 : 7.150212900458440E-10 P.E. verses pressure work : 6.190739857553651E-04 :-5.642632530987141E-06 surface-pressure contribution : 5.307152306579016E-07 :-5.971671809253406E-07 Tracer diagnostics: mean value of tracer 1 : 3.521853743212275E+00 abs change in tracer 1 : 1.429582261106759E-07 mean change in tracer 1 : 2.828380677443240E-09 mean change in tracer 1 from advection :-2.075251976282759E-24 mean change in tracer 1 from horiz. diff.: 1.591812595444162E-25 mean change in tracer 1 from vert. diff.:-1.199417202019017E-08 mean change in tracer 1 from sources : 1.461342987419160E-08 surface flux of tracer 1 : 0.000000000000000E+00 mean value of tracer 2 : 3.472153382787330E+01 abs change in tracer 2 : 1.328852871507241E-11 mean change in tracer 2 : 1.161201488558563E-13 mean change in tracer 2 from advection : 2.302969611464354E-28 mean change in tracer 2 from horiz. diff.: 1.943130609673049E-29 mean change in tracer 2 from vert. diff.: 3.724204846853123E-14 mean change in tracer 2 from sources :-6.667169901340882E-32 surface flux of tracer 2 : 0.000000000000000E+00 mean value of tracer 3 : 2.213611184677629E+02 abs change in tracer 3 : 2.419875928694315E-06 mean change in tracer 3 : 2.392008561927252E-08 mean change in tracer 3 from advection :-3.320403162052414E-23 mean change in tracer 3 from horiz. diff.:-1.226285258712539E-24 mean change in tracer 3 from vert. diff.: 7.939837144760052E-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: 5.247155186414982E-05 residual, scans : 6.615402901344699E-14 240 Timing information: Timer number 1 Time = 91.91 seconds HMIX_MOMENTUM_ANISO Timer number 2 Time = 82.14 seconds HMIX_TRACER_GM_NLOOP Timer number 3 Time = 458.36 seconds HMIX_TRACER_GM Timer number 4 Time = 241.97 seconds VMIX_COEFFICIENTS_KPP Timer number 5 Time = 12.71 seconds VMIX_EXPLICIT_TRACER Timer number 6 Time = 6.19 seconds VMIX_EXPLICIT_MOMENTUM Timer number 7 Time = 39.54 seconds VMIX_IMPLICIT_TRACER Timer number 8 Time = 9.53 seconds VMIX_IMPLICIT_MOMENTUM Timer number 9 Time = 1.39 seconds COMPUTE_COSZ Timer number 10 Time = 17.08 seconds ADVECTION_MOMENTUM Timer number 11 Time = 88.57 seconds ADVECTION_TRACER_UPWIND3 Timer number 12 Time = 4.38 seconds MOC Timer number 13 Time = 4.30 seconds TRACER_TRANSPORTS Timer number 14 Time = 75.90 seconds TAVG_WRITE_STD Timer number 15 Time = 5.37 seconds TAVG_WRITE_NONSTD Timer number 16 Time = 4.12 seconds TAVG_CCSM_DIAGS_BSF Timer number 17 Time = 4.38 seconds TAVG_CCSM_DIAGS_MOC Timer number 18 Time = 4.30 seconds TAVG_CCSM_DIAGS_TRANS Timer number 19 Time = 1368.11 seconds STEP Timer number 20 Time = 1161.63 seconds BAROCLINIC Timer number 21 Time = 157.65 seconds BAROTROPIC Timer number 22 Time = 27.83 seconds 3D-UPDATE Timer number 23 Time = 1463.90 seconds TOTAL Timer number 24 Time = 94.68 seconds OUTPUT Timer number 25 Time = 94.66 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.0087-01-01-00000 (diag_transport) file written: /ptmp/mai/b40.1850.track1.1deg.006/run/b40.1850.track1.1deg.006.pop.dt.0087-01-01-00000 AFTER CALL IN tracer_budgets (final): ===================================== volume_t (cm^3) = 0.132514028746E+25 SUM [volume*T] (C cm^3) = 0.466694428696E+25 SUM [volume*S] (ppt cm^3) = 0.460109032174E+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 = -.476773138599E-13 FW flux = 0.000000000000E+00 Imbalance = 0.476773138599E-13 Imbalance = -tendency + FW flux HEAT BUDGET FOR THE GIVEN TAVG INTERVAL (W/m^2): ------------------------------------------------ tendency = 0.731506715697E+01 SHF flux = 0.704398732970E+01 ice formation = 0.271079731338E+00 FW heat content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = -.959256948874E-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 = -.327564243886E-05 SFWF flux = -.255693899910E-05 ice formation = -.718703468152E-06 FW salt content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = -.283964168148E-13 Imbalance = -tendency + SFWF flux + ice formation + FW salt content + free-srf non-consv. Global Time Averages: 04-01-0087 00:00:00 KAPPA_ISOP: 3814529.97466427134 KAPPA_THIC: 4366644.82438448351 HOR_DIFF: 597978.439295111224 DIA_DEPTH: 7011.89179300303476 TLT: 509.046713742334589 INT_DEPTH: 7520.93739148570148 UISOP: 0.629276427595565737E-04 VISOP: -0.195550273490430887E-03 WISOP: -0.164830180884798491E-12 ADVT_ISOP: 0.846036030147098268E-11 ADVS_ISOP: 0.196092289554740221E-14 VNT_ISOP: 0.252284223214302071E-09 VNS_ISOP: -0.103183461106033788E-11 USUBM: 0.398764886290512094E-05 VSUBM: 0.135173157539049041E-03 WSUBM: -0.664053671500612016E-08 HLS_SUBM: 822216.285020889249 ADVT_SUBM: 0.207532952641076576E-11 ADVS_SUBM: 0.805983060109583898E-15 VNT_SUBM: 0.741773881299910951E-09 VNS_SUBM: 0.103245144627688383E-11 HDIFT: -0.379977944073133020E-10 HDIFS: -0.588540575240997982E-15 QSW_HBL: 157.599484317300238 KVMIX: 1.38065681141135754 TPOWER: 0.223865233909891975E-05 UVEL: 0.315139168569002481 VVEL: 0.108374834040340061E-02 TEMP: 3.51972670488262818 dTEMP_POS_2D: 0.834163291451677086E-01 dTEMP_NEG_2D: -0.664380464411221949E-01 SALT: 0.347214544710192988E-01 RHO: 1.03743315764025756 RESID_T: 0.000000000000000000E+00 RESID_S: 0.000000000000000000E+00 SU: 113034.876250655157 SV: 337.908220316290453 SSH: 0.526267159820660010E-04 SHF: 7.04398732970224817 SHF_QSW: 185.796759163282474 SFWF: -0.255693899909988016E-05 TAUX: 0.941554342973460051E-01 TAUY: -0.893704859319405243E-01 FW: 0.000000000000000000E+00 TFW_T: 0.000000000000000000E+00 TFW_S: 0.000000000000000000E+00 EVAP_F: -0.409817403644405440E-04 PREC_F: 0.355129352741318110E-04 SNOW_F: 0.112903536738585652E-05 MELT_F: -0.116677059373794140E-05 ROFF_F: 0.361948906274349053E-05 IOFF_F: 0.253074342006512734E-06 SALT_F: -0.715086918472132092E-08 SENH_F: -14.8960284772762463 LWUP_F: -393.327147739786994 LWDN_F: 333.253879296649359 MELTH_F: -0.826932776301898986 IFRAC: 0.641803661603342623E-01 IAGE: 221.330670809827467 WVEL: 0.650727644973778492E-06 UET: 0.350159450668541463E-07 VNT: 0.900517187137789159E-07 WTT: -0.144802754289684934E-07 UES: 0.156538392240530320E-08 VNS: -0.470432410755660169E-11 WTS: 0.941659256522294512E-12 ADVT: 0.955823177943435658E-10 ADVS: -0.835151844282645860E-14 PV: 0.142286962234940672E-12 Q: -0.991661503050010638E-08 PD: 1.02752229300401976 QSW_HTP: 136.053453195595182 QFLUX: 0.271079731338381313 HMXL: 7013.93392774558470 XMXL: 8577.73735910161486 TMXL: 4211.46682531003626 HBLT: 4197.73322264771377 XBLT: 7617.07103448286853 TBLT: 887.339367361795439 BSF: 0.000000000000000000E+00 convergence info from pcg_diag_bsf: iter = 0 rms_resid = 0.101752568670982549 iter = 100 rms_resid = 0.436863962307165038E-02 iter = 200 rms_resid = 0.892980670857958735E-03 iter = 300 rms_resid = 0.334048865001030423E-03 iter = 400 rms_resid = 0.244831373673751543E-03 iter = 500 rms_resid = 0.188932879936685175E-03 iter = 600 rms_resid = 0.511800744652183149E-04 iter = 700 rms_resid = 0.161872875610565633E-04 iter = 800 rms_resid = 0.175390558639910857E-05 iter = 900 rms_resid = 0.147697964806458883E-06 Local Time- and Space-Averages for Nino Regions: 00:00:00 0087-04-01 NINO_1_PLUS_2: 26.8682900351315936 NINO_3: 24.5931730596116473 NINO_3_POINT_4: 25.2286114029828852 NINO_4: 26.8510617549074873 tavg file written: ./b40.1850.track1.1deg.006.pop.h.0087-03.nc (time_manager) ocn date 0087-apr-02, 0.000000E+00 sec (time_manager) ocn date 0087-apr-03, 0.000000E+00 sec (time_manager) ocn date 0087-apr-04, 0.000000E+00 sec (time_manager) ocn date 0087-apr-05, 0.000000E+00 sec (time_manager) ocn date 0087-apr-06, 0.000000E+00 sec (time_manager) ocn date 0087-apr-07, 0.000000E+00 sec (time_manager) ocn date 0087-apr-08, 0.000000E+00 sec (time_manager) ocn date 0087-apr-09, 0.000000E+00 sec (time_manager) ocn date 0087-apr-10, 0.000000E+00 sec (time_manager) ocn date 0087-apr-11, 0.000000E+00 sec (time_manager) ocn date 0087-apr-12, 0.000000E+00 sec (time_manager) ocn date 0087-apr-13, 0.000000E+00 sec (time_manager) ocn date 0087-apr-14, 0.000000E+00 sec (time_manager) ocn date 0087-apr-15, 0.000000E+00 sec (time_manager) ocn date 0087-apr-16, 0.000000E+00 sec (time_manager) ocn date 0087-apr-17, 0.000000E+00 sec (time_manager) ocn date 0087-apr-18, 0.000000E+00 sec (time_manager) ocn date 0087-apr-19, 0.000000E+00 sec (time_manager) ocn date 0087-apr-20, 0.000000E+00 sec (time_manager) ocn date 0087-apr-21, 0.000000E+00 sec (time_manager) ocn date 0087-apr-22, 0.000000E+00 sec (time_manager) ocn date 0087-apr-23, 0.000000E+00 sec (time_manager) ocn date 0087-apr-24, 0.000000E+00 sec (time_manager) ocn date 0087-apr-25, 0.000000E+00 sec (time_manager) ocn date 0087-apr-26, 0.000000E+00 sec (time_manager) ocn date 0087-apr-27, 0.000000E+00 sec (time_manager) ocn date 0087-apr-28, 0.000000E+00 sec (time_manager) ocn date 0087-apr-29, 0.000000E+00 sec (time_manager) ocn date 0087-apr-30, 0.000000E+00 sec (time_manager) ocn date 0087-may-01, 0.000000E+00 sec Step number : 787725 Date : 01 may 0087 Hour : 0 Minute : 0 Second : 0 Time(years) : 86.328767 max. cfl number for zonal advection : 6.6346E-02 20 371 33 max. cfl number for meridional advection : 6.9549E-02 6 169 6 max. cfl number for vertical advection : 1.7225E-01 320 362 19 max. cfl number for total advection : 1.8271E-01 15 367 20 max. cfl number for horizontal tracer mixing : 6.0948E-01 175 380 7 max. cfl number for horiz. momentum mixing : 1.2672E-01 318 214 56 K.E. diagnostics: mean K.E. : 9.227547542910619E+00 K.E. change from horiz. visc. :-3.371410178220468E-06 K.E. change from vert. visc. : 6.230334396858388E-06 K.E. change from wind stress : 2.138178580958879E-05 advective K.E. balance :-1.509721971750287E-09 : 1.122412903490874E-09 P.E. verses pressure work : 6.456593432866586E-04 :-4.282791015606952E-06 surface-pressure contribution :-1.488451988164907E-07 : 7.407850587814818E-08 Tracer diagnostics: mean value of tracer 1 : 3.522188103866122E+00 abs change in tracer 1 : 1.349521109336904E-07 mean change in tracer 1 : 2.696465206823637E-09 mean change in tracer 1 from advection :-1.509274164569279E-24 mean change in tracer 1 from horiz. diff.: 5.895602205348747E-27 mean change in tracer 1 from vert. diff.:-1.120709795196102E-08 mean change in tracer 1 from sources : 1.369103409489444E-08 surface flux of tracer 1 : 0.000000000000000E+00 mean value of tracer 2 : 3.472159992347380E+01 abs change in tracer 2 : 1.292705272398661E-11 mean change in tracer 2 : 9.602126894972084E-14 mean change in tracer 2 from advection :-3.454454417196531E-28 mean change in tracer 2 from horiz. diff.:-1.583291607881744E-29 mean change in tracer 2 from vert. diff.: 1.585838399608781E-14 mean change in tracer 2 from sources : 5.378660740986915E-32 surface flux of tracer 2 : 0.000000000000000E+00 mean value of tracer 3 : 2.214207822870483E+02 abs change in tracer 3 : 2.325288782741183E-06 mean change in tracer 3 : 2.240026295472419E-08 mean change in tracer 3 from advection :-4.527822493707838E-23 mean change in tracer 3 from horiz. diff.: 0.000000000000000E+00 mean change in tracer 3 from vert. diff.:-1.128434256088739E-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: 5.299250238124297E-05 residual, scans : 7.938807390168145E-14 240 Timing information: Timer number 1 Time = 122.63 seconds HMIX_MOMENTUM_ANISO Timer number 2 Time = 109.37 seconds HMIX_TRACER_GM_NLOOP Timer number 3 Time = 611.01 seconds HMIX_TRACER_GM Timer number 4 Time = 322.66 seconds VMIX_COEFFICIENTS_KPP Timer number 5 Time = 16.94 seconds VMIX_EXPLICIT_TRACER Timer number 6 Time = 8.24 seconds VMIX_EXPLICIT_MOMENTUM Timer number 7 Time = 52.72 seconds VMIX_IMPLICIT_TRACER Timer number 8 Time = 12.63 seconds VMIX_IMPLICIT_MOMENTUM Timer number 9 Time = 1.85 seconds COMPUTE_COSZ Timer number 10 Time = 22.75 seconds ADVECTION_MOMENTUM Timer number 11 Time = 118.09 seconds ADVECTION_TRACER_UPWIND3 Timer number 12 Time = 6.54 seconds MOC Timer number 13 Time = 6.45 seconds TRACER_TRANSPORTS Timer number 14 Time = 113.10 seconds TAVG_WRITE_STD Timer number 15 Time = 8.36 seconds TAVG_WRITE_NONSTD Timer number 16 Time = 6.18 seconds TAVG_CCSM_DIAGS_BSF Timer number 17 Time = 6.54 seconds TAVG_CCSM_DIAGS_MOC Timer number 18 Time = 6.45 seconds TAVG_CCSM_DIAGS_TRANS Timer number 19 Time = 1825.32 seconds STEP Timer number 20 Time = 1550.13 seconds BAROCLINIC Timer number 21 Time = 209.82 seconds BAROTROPIC Timer number 22 Time = 37.11 seconds 3D-UPDATE Timer number 23 Time = 1968.31 seconds TOTAL Timer number 24 Time = 141.52 seconds OUTPUT Timer number 25 Time = 141.50 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.0087-01-01-00000 (diag_transport) file written: /ptmp/mai/b40.1850.track1.1deg.006/run/b40.1850.track1.1deg.006.pop.dt.0087-01-01-00000 AFTER CALL IN tracer_budgets (final): ===================================== volume_t (cm^3) = 0.132514028746E+25 SUM [volume*T] (C cm^3) = 0.466738774470E+25 SUM [volume*S] (ppt cm^3) = 0.460109908549E+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 = 0.200994937489E-12 FW flux = 0.000000000000E+00 Imbalance = -.200994937489E-12 Imbalance = -tendency + FW flux HEAT BUDGET FOR THE GIVEN TAVG INTERVAL (W/m^2): ------------------------------------------------ tendency = 0.194229081584E+01 SHF flux = 0.166507463732E+01 ice formation = 0.277216042714E+00 FW heat content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = -.135803788326E-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 = -.269804961229E-05 SFWF flux = -.196307680984E-05 ice formation = -.734972439077E-06 FW salt content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = 0.363378440815E-12 Imbalance = -tendency + SFWF flux + ice formation + FW salt content + free-srf non-consv. Global Time Averages: 05-01-0087 00:00:00 KAPPA_ISOP: 3826531.61783909379 KAPPA_THIC: 4318109.40201487392 HOR_DIFF: 538003.616348214913 DIA_DEPTH: 6301.77773809146493 TLT: 464.374829769592679 INT_DEPTH: 6766.15458424752705 UISOP: 0.436964327166990303E-04 VISOP: -0.150575217695645189E-03 WISOP: -0.170334373405585760E-12 ADVT_ISOP: -0.130935948291866682E-10 ADVS_ISOP: -0.606649010208552427E-15 VNT_ISOP: 0.565435613636542140E-09 VNS_ISOP: -0.717822726442973587E-12 USUBM: -0.476858580803634422E-05 VSUBM: 0.461559447804361575E-04 WSUBM: -0.515981111856061083E-08 HLS_SUBM: 855201.931299651042 ADVT_SUBM: 0.111178808448215266E-11 ADVS_SUBM: -0.500700194098137033E-15 VNT_SUBM: 0.423728055410643180E-09 VNS_SUBM: 0.351735354511655274E-12 HDIFT: -0.431534807585909254E-10 HDIFS: 0.844283456943599003E-15 QSW_HBL: 146.112359606196605 KVMIX: 1.37166516764142798 TPOWER: 0.222858954575349744E-05 UVEL: 0.317651045129536180 VVEL: 0.901836289126020261E-03 TEMP: 3.52050018169645718 dTEMP_POS_2D: 0.883642536710115833E-01 dTEMP_NEG_2D: -0.726877838273158605E-01 SALT: 0.347215404907442460E-01 RHO: 1.03743289214594814 RESID_T: 0.000000000000000000E+00 RESID_S: 0.000000000000000000E+00 SU: 113936.283621395021 SV: 276.079897746327106 SSH: 0.526548869004426280E-04 SHF: 1.66507463732120775 SHF_QSW: 173.603009160075572 SFWF: -0.196307680983961796E-05 TAUX: 0.134093419055491214 TAUY: -0.358530148675914456E-01 FW: 0.000000000000000000E+00 TFW_T: 0.000000000000000000E+00 TFW_S: 0.000000000000000000E+00 EVAP_F: -0.390492349172039807E-04 PREC_F: 0.344599728444994400E-04 SNOW_F: 0.101254370792228408E-05 MELT_F: -0.209117401393673506E-05 ROFF_F: 0.403738263653140030E-05 IOFF_F: 0.350283435524465070E-06 SALT_F: -0.114398039829148597E-07 SENH_F: -13.7226055562217173 LWUP_F: -389.788691591376619 LWDN_F: 330.277062287218712 MELTH_F: -0.586781184111351717 IFRAC: 0.737825796635390024E-01 IAGE: 221.391393998619066 WVEL: 0.657286017147519823E-06 UET: 0.868959960319393474E-07 VNT: 0.407416224053341773E-07 WTT: -0.142915496179055935E-07 UES: 0.157059919951501645E-08 VNS: -0.738681013709028871E-14 WTS: 0.102280286291253238E-11 ADVT: 0.212856348832078964E-10 ADVS: -0.285525336684758066E-14 PV: 0.115948205950314317E-12 Q: -0.985541579393847649E-08 PD: 1.02752204209016007 QSW_HTP: 127.519127158962661 QFLUX: 0.277216042714075406 HMXL: 6302.58035486829431 XMXL: 8619.03068588109818 TMXL: 4082.40120120332995 HBLT: 3814.55141445932759 XBLT: 7199.36890400861103 TBLT: 921.903203265517959 BSF: 0.000000000000000000E+00 convergence info from pcg_diag_bsf: iter = 0 rms_resid = 0.984335042385560965E-01 iter = 100 rms_resid = 0.428355949796569921E-02 iter = 200 rms_resid = 0.885787412935761073E-03 iter = 300 rms_resid = 0.374028819424063587E-03 iter = 400 rms_resid = 0.273391734624691210E-03 iter = 500 rms_resid = 0.197630597438584163E-03 iter = 600 rms_resid = 0.517345693944596449E-04 iter = 700 rms_resid = 0.160907757169716312E-04 iter = 800 rms_resid = 0.181690250035791386E-05 iter = 900 rms_resid = 0.153280484471788897E-06 Local Time- and Space-Averages for Nino Regions: 00:00:00 0087-05-01 NINO_1_PLUS_2: 26.3824256648607580 NINO_3: 25.4121547174261480 NINO_3_POINT_4: 25.9548040145070473 NINO_4: 27.1586177443881027 tavg file written: ./b40.1850.track1.1deg.006.pop.h.0087-04.nc (time_manager) ocn date 0087-may-02, 0.000000E+00 sec (time_manager) ocn date 0087-may-03, 0.000000E+00 sec (time_manager) ocn date 0087-may-04, 0.000000E+00 sec (time_manager) ocn date 0087-may-05, 0.000000E+00 sec (time_manager) ocn date 0087-may-06, 0.000000E+00 sec (time_manager) ocn date 0087-may-07, 0.000000E+00 sec (time_manager) ocn date 0087-may-08, 0.000000E+00 sec (time_manager) ocn date 0087-may-09, 0.000000E+00 sec (time_manager) ocn date 0087-may-10, 0.000000E+00 sec (time_manager) ocn date 0087-may-11, 0.000000E+00 sec (time_manager) ocn date 0087-may-12, 0.000000E+00 sec (time_manager) ocn date 0087-may-13, 0.000000E+00 sec (time_manager) ocn date 0087-may-14, 0.000000E+00 sec (time_manager) ocn date 0087-may-15, 0.000000E+00 sec (time_manager) ocn date 0087-may-16, 0.000000E+00 sec (time_manager) ocn date 0087-may-17, 0.000000E+00 sec (time_manager) ocn date 0087-may-18, 0.000000E+00 sec (time_manager) ocn date 0087-may-19, 0.000000E+00 sec (time_manager) ocn date 0087-may-20, 0.000000E+00 sec (time_manager) ocn date 0087-may-21, 0.000000E+00 sec (time_manager) ocn date 0087-may-22, 0.000000E+00 sec (time_manager) ocn date 0087-may-23, 0.000000E+00 sec (time_manager) ocn date 0087-may-24, 0.000000E+00 sec (time_manager) ocn date 0087-may-25, 0.000000E+00 sec (time_manager) ocn date 0087-may-26, 0.000000E+00 sec (time_manager) ocn date 0087-may-27, 0.000000E+00 sec (time_manager) ocn date 0087-may-28, 0.000000E+00 sec (time_manager) ocn date 0087-may-29, 0.000000E+00 sec (time_manager) ocn date 0087-may-30, 0.000000E+00 sec (time_manager) ocn date 0087-may-31, 0.000000E+00 sec (time_manager) ocn date 0087-jun-01, 0.000000E+00 sec Step number : 788500 Date : 01 jun 0087 Hour : 0 Minute : 0 Second : 0 Time(years) : 86.413699 max. cfl number for zonal advection : 7.1513E-02 20 371 33 max. cfl number for meridional advection : 9.8292E-02 6 169 5 max. cfl number for vertical advection : 1.9857E-01 298 46 14 max. cfl number for total advection : 2.0465E-01 298 46 14 max. cfl number for horizontal tracer mixing : 6.0948E-01 175 380 7 max. cfl number for horiz. momentum mixing : 1.2672E-01 318 214 56 K.E. diagnostics: mean K.E. : 8.796842494600240E+00 K.E. change from horiz. visc. :-3.467707084044071E-06 K.E. change from vert. visc. : 8.589391269892664E-06 K.E. change from wind stress : 2.538451319974330E-05 advective K.E. balance :-7.982093013334171E-10 : 4.421455061241594E-10 P.E. verses pressure work : 6.849950297946207E-04 :-4.100508537358422E-06 surface-pressure contribution : 1.318821747460775E-06 :-1.393309649007926E-06 Tracer diagnostics: mean value of tracer 1 : 3.519978121513970E+00 abs change in tracer 1 : 1.298584537951853E-07 mean change in tracer 1 : 1.676716791951521E-09 mean change in tracer 1 from advection : 4.716481764278997E-25 mean change in tracer 1 from horiz. diff.:-7.664282866953371E-26 mean change in tracer 1 from vert. diff.:-1.122927328228692E-08 mean change in tracer 1 from sources : 1.273627502165666E-08 surface flux of tracer 1 : 0.000000000000000E+00 mean value of tracer 2 : 3.472160774737135E+01 abs change in tracer 2 : 1.279358861852645E-11 mean change in tracer 2 : 3.963817140107639E-14 mean change in tracer 2 from advection :-3.857474099202794E-28 mean change in tracer 2 from horiz. diff.: 5.037746025078275E-30 mean change in tracer 2 from vert. diff.:-2.437588853971553E-14 mean change in tracer 2 from sources : 1.329796657315606E-31 surface flux of tracer 2 : 0.000000000000000E+00 mean value of tracer 3 : 2.214760832570459E+02 abs change in tracer 3 : 2.311734862093620E-06 mean change in tracer 3 : 1.987014714292135E-08 mean change in tracer 3 from advection :-4.905141034850157E-24 mean change in tracer 3 from horiz. diff.: 1.037625988141380E-24 mean change in tracer 3 from vert. diff.: 2.839037402026676E-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: 5.281266630981778E-05 residual, scans : 8.205093699662064E-14 240 Timing information: Timer number 1 Time = 154.60 seconds HMIX_MOMENTUM_ANISO Timer number 2 Time = 137.34 seconds HMIX_TRACER_GM_NLOOP Timer number 3 Time = 768.24 seconds HMIX_TRACER_GM Timer number 4 Time = 402.88 seconds VMIX_COEFFICIENTS_KPP Timer number 5 Time = 21.31 seconds VMIX_EXPLICIT_TRACER Timer number 6 Time = 10.37 seconds VMIX_EXPLICIT_MOMENTUM Timer number 7 Time = 66.34 seconds VMIX_IMPLICIT_TRACER Timer number 8 Time = 15.92 seconds VMIX_IMPLICIT_MOMENTUM Timer number 9 Time = 2.33 seconds COMPUTE_COSZ Timer number 10 Time = 28.64 seconds ADVECTION_MOMENTUM Timer number 11 Time = 148.59 seconds ADVECTION_TRACER_UPWIND3 Timer number 12 Time = 8.70 seconds MOC Timer number 13 Time = 8.60 seconds TRACER_TRANSPORTS Timer number 14 Time = 151.22 seconds TAVG_WRITE_STD Timer number 15 Time = 11.41 seconds TAVG_WRITE_NONSTD Timer number 16 Time = 8.25 seconds TAVG_CCSM_DIAGS_BSF Timer number 17 Time = 8.71 seconds TAVG_CCSM_DIAGS_MOC Timer number 18 Time = 8.60 seconds TAVG_CCSM_DIAGS_TRANS Timer number 19 Time = 2296.59 seconds STEP Timer number 20 Time = 1951.54 seconds BAROCLINIC Timer number 21 Time = 262.51 seconds BAROTROPIC Timer number 22 Time = 46.78 seconds 3D-UPDATE Timer number 23 Time = 2487.79 seconds TOTAL Timer number 24 Time = 189.36 seconds OUTPUT Timer number 25 Time = 189.32 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.0087-01-01-00000 (diag_transport) file written: /ptmp/mai/b40.1850.track1.1deg.006/run/b40.1850.track1.1deg.006.pop.dt.0087-01-01-00000 AFTER CALL IN tracer_budgets (final): ===================================== volume_t (cm^3) = 0.132514028746E+25 SUM [volume*T] (C cm^3) = 0.466446157919E+25 SUM [volume*S] (ppt cm^3) = 0.460110013149E+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 = -.671589636444E-13 FW flux = 0.000000000000E+00 Imbalance = 0.671589636444E-13 Imbalance = -tendency + FW flux HEAT BUDGET FOR THE GIVEN TAVG INTERVAL (W/m^2): ------------------------------------------------ tendency = -.124028207955E+02 SHF flux = -.126291693927E+02 ice formation = 0.226348354657E+00 FW heat content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = -.242526420835E-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 = -.311637089185E-06 SFWF flux = 0.288471382902E-06 ice formation = -.600108856164E-06 FW salt content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = -.384077303949E-12 Imbalance = -tendency + SFWF flux + ice formation + FW salt content + free-srf non-consv. Global Time Averages: 06-01-0087 00:00:00 KAPPA_ISOP: 3506512.05135505786 KAPPA_THIC: 3943488.49188699899 HOR_DIFF: 482631.844253661577 DIA_DEPTH: 5680.72465975524210 TLT: 352.297334898791860 INT_DEPTH: 6033.01866040647201 UISOP: 0.586834787185938937E-04 VISOP: -0.296946806940659880E-03 WISOP: -0.445666610333598119E-13 ADVT_ISOP: 0.245172869421601913E-10 ADVS_ISOP: -0.453978649511348671E-15 VNT_ISOP: -0.471830481788375839E-09 VNS_ISOP: -0.182788802699577505E-11 USUBM: -0.982861941673461763E-06 VSUBM: -0.640281870881748211E-05 WSUBM: -0.139271876918529123E-08 HLS_SUBM: 808524.139190618298 ADVT_SUBM: -0.525979616837393461E-12 ADVS_SUBM: -0.220502759138383931E-16 VNT_SUBM: 0.110434862320693861E-10 VNS_SUBM: -0.523426453478600092E-13 HDIFT: -0.387283079138165212E-10 HDIFS: 0.245997163034622880E-14 QSW_HBL: 135.124194592947475 KVMIX: 1.36331065554640318 TPOWER: 0.222425954278684492E-05 UVEL: 0.311143919070295760 VVEL: 0.162613551157324634E-02 TEMP: 3.51945017119825376 dTEMP_POS_2D: 0.976469309332856222E-01 dTEMP_NEG_2D: -0.792006835781371710E-01 SALT: 0.347215869368428590E-01 RHO: 1.03743313218472988 RESID_T: 0.000000000000000000E+00 RESID_S: 0.000000000000000000E+00 SU: 111605.466707569416 SV: 539.879640720267162 SSH: 0.527284521579694598E-04 SHF: -12.6291693927121358 SHF_QSW: 160.916405236061394 SFWF: 0.288471382902389064E-06 TAUX: 0.641666512140016132E-01 TAUY: 0.436197959798934054E-02 FW: 0.000000000000000000E+00 TFW_T: 0.000000000000000000E+00 TFW_S: 0.000000000000000000E+00 EVAP_F: -0.398102230374053307E-04 PREC_F: 0.354500590477512206E-04 SNOW_F: 0.918120937577015231E-06 MELT_F: -0.367814712223358197E-06 ROFF_F: 0.437930667360596028E-05 IOFF_F: 0.474268772029479940E-06 SALT_F: -0.565095709226371722E-08 SENH_F: -14.5129507636072628 LWUP_F: -387.692724300973907 LWDN_F: 329.501794040807226 MELTH_F: -0.811681785834889147 IFRAC: 0.783842269784049694E-01 IAGE: 221.449014415382607 WVEL: 0.691097608765218398E-06 UET: 0.851851569671842150E-07 VNT: 0.147080751464822970E-07 WTT: -0.113458157509367749E-07 UES: 0.151199464276385161E-08 VNS: 0.586063714820921610E-11 WTS: 0.737937534794679832E-12 ADVT: 0.285952878234186405E-10 ADVS: 0.558756173850925119E-15 PV: 0.713133426515585339E-13 Q: -0.979127553866345243E-08 PD: 1.02752228988902861 QSW_HTP: 118.982093765519238 QFLUX: 0.226348354657410211 HMXL: 5681.00534979128406 XMXL: 7248.61605199516453 TMXL: 4477.27265798464578 HBLT: 3918.94200707461141 XBLT: 6596.96088118510488 TBLT: 883.772944999777565 BSF: 0.000000000000000000E+00 convergence info from pcg_diag_bsf: iter = 0 rms_resid = 0.965891178566091330E-01 iter = 100 rms_resid = 0.416346658917324686E-02 iter = 200 rms_resid = 0.866221866644685187E-03 iter = 300 rms_resid = 0.367883117911908971E-03 iter = 400 rms_resid = 0.285171326181075664E-03 iter = 500 rms_resid = 0.180473650987221762E-03 iter = 600 rms_resid = 0.467995606082791018E-04 iter = 700 rms_resid = 0.148906199915085717E-04 iter = 800 rms_resid = 0.173332868854479494E-05 iter = 900 rms_resid = 0.146620761673877343E-06 Local Time- and Space-Averages for Nino Regions: 00:00:00 0087-06-01 NINO_1_PLUS_2: 25.2060016762472969 NINO_3: 25.7441824045873631 NINO_3_POINT_4: 26.5100397248529553 NINO_4: 27.5884020005244821 tavg file written: ./b40.1850.track1.1deg.006.pop.h.0087-05.nc (time_manager) ocn date 0087-jun-02, 0.000000E+00 sec (time_manager) ocn date 0087-jun-03, 0.000000E+00 sec (time_manager) ocn date 0087-jun-04, 0.000000E+00 sec (time_manager) ocn date 0087-jun-05, 0.000000E+00 sec (time_manager) ocn date 0087-jun-06, 0.000000E+00 sec (time_manager) ocn date 0087-jun-07, 0.000000E+00 sec (time_manager) ocn date 0087-jun-08, 0.000000E+00 sec (time_manager) ocn date 0087-jun-09, 0.000000E+00 sec (time_manager) ocn date 0087-jun-10, 0.000000E+00 sec (time_manager) ocn date 0087-jun-11, 0.000000E+00 sec (time_manager) ocn date 0087-jun-12, 0.000000E+00 sec (time_manager) ocn date 0087-jun-13, 0.000000E+00 sec (time_manager) ocn date 0087-jun-14, 0.000000E+00 sec (time_manager) ocn date 0087-jun-15, 0.000000E+00 sec (time_manager) ocn date 0087-jun-16, 0.000000E+00 sec (time_manager) ocn date 0087-jun-17, 0.000000E+00 sec (time_manager) ocn date 0087-jun-18, 0.000000E+00 sec (time_manager) ocn date 0087-jun-19, 0.000000E+00 sec (time_manager) ocn date 0087-jun-20, 0.000000E+00 sec (time_manager) ocn date 0087-jun-21, 0.000000E+00 sec (time_manager) ocn date 0087-jun-22, 0.000000E+00 sec (time_manager) ocn date 0087-jun-23, 0.000000E+00 sec (time_manager) ocn date 0087-jun-24, 0.000000E+00 sec (time_manager) ocn date 0087-jun-25, 0.000000E+00 sec (time_manager) ocn date 0087-jun-26, 0.000000E+00 sec (time_manager) ocn date 0087-jun-27, 0.000000E+00 sec (time_manager) ocn date 0087-jun-28, 0.000000E+00 sec (time_manager) ocn date 0087-jun-29, 0.000000E+00 sec (time_manager) ocn date 0087-jun-30, 0.000000E+00 sec (time_manager) ocn date 0087-jul-01, 0.000000E+00 sec Step number : 789250 Date : 01 jul 0087 Hour : 0 Minute : 0 Second : 0 Time(years) : 86.495890 max. cfl number for zonal advection : 7.6806E-02 20 371 33 max. cfl number for meridional advection : 1.3933E-01 75 182 1 max. cfl number for vertical advection : 4.0395E-01 298 46 14 max. cfl number for total advection : 4.1028E-01 298 46 14 max. cfl number for horizontal tracer mixing : 6.3830E-01 88 383 2 max. cfl number for horiz. momentum mixing : 1.2672E-01 318 214 56 K.E. diagnostics: mean K.E. : 9.121516759273545E+00 K.E. change from horiz. visc. :-3.915102574243767E-06 K.E. change from vert. visc. : 7.672476748588943E-06 K.E. change from wind stress : 2.595748516592578E-05 advective K.E. balance :-1.501092232755192E-09 : 9.793345740425399E-10 P.E. verses pressure work : 6.934439001600498E-04 :-5.004295575288640E-06 surface-pressure contribution :-2.520342504037931E-07 : 1.837458094353120E-07 Tracer diagnostics: mean value of tracer 1 : 3.516077943304856E+00 abs change in tracer 1 : 1.327111665924241E-07 mean change in tracer 1 : 9.182099927422053E-10 mean change in tracer 1 from advection :-2.499735335067869E-24 mean change in tracer 1 from horiz. diff.: 1.120164419016262E-25 mean change in tracer 1 from vert. diff.:-1.124615297191469E-08 mean change in tracer 1 from sources : 1.204253258280905E-08 surface flux of tracer 1 : 0.000000000000000E+00 mean value of tracer 2 : 3.472152712460423E+01 abs change in tracer 2 : 1.290111615790836E-11 mean change in tracer 2 : 4.254902208420524E-15 mean change in tracer 2 from advection :-8.290690601271675E-28 mean change in tracer 2 from horiz. diff.:-7.916458039408718E-30 mean change in tracer 2 from vert. diff.:-4.169775342018655E-14 mean change in tracer 2 from sources :-1.385641070829554E-31 surface flux of tracer 2 : 0.000000000000000E+00 mean value of tracer 3 : 2.215173943385716E+02 abs change in tracer 3 : 2.415244533847926E-06 mean change in tracer 3 : 1.400845385414092E-08 mean change in tracer 3 from advection :-6.659672251161945E-23 mean change in tracer 3 from horiz. diff.:-1.603603799854859E-24 mean change in tracer 3 from vert. diff.: 5.527112010826303E-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: 5.267150766604431E-05 residual, scans : 6.202634800348659E-14 240 Timing information: Timer number 1 Time = 185.65 seconds HMIX_MOMENTUM_ANISO Timer number 2 Time = 164.41 seconds HMIX_TRACER_GM_NLOOP Timer number 3 Time = 920.35 seconds HMIX_TRACER_GM Timer number 4 Time = 479.56 seconds VMIX_COEFFICIENTS_KPP Timer number 5 Time = 25.54 seconds VMIX_EXPLICIT_TRACER Timer number 6 Time = 12.42 seconds VMIX_EXPLICIT_MOMENTUM Timer number 7 Time = 79.52 seconds VMIX_IMPLICIT_TRACER Timer number 8 Time = 19.10 seconds VMIX_IMPLICIT_MOMENTUM Timer number 9 Time = 2.79 seconds COMPUTE_COSZ Timer number 10 Time = 34.28 seconds ADVECTION_MOMENTUM Timer number 11 Time = 178.09 seconds ADVECTION_TRACER_UPWIND3 Timer number 12 Time = 10.86 seconds MOC Timer number 13 Time = 10.75 seconds TRACER_TRANSPORTS Timer number 14 Time = 190.67 seconds TAVG_WRITE_STD Timer number 15 Time = 14.40 seconds TAVG_WRITE_NONSTD Timer number 16 Time = 10.30 seconds TAVG_CCSM_DIAGS_BSF Timer number 17 Time = 10.87 seconds TAVG_CCSM_DIAGS_MOC Timer number 18 Time = 10.75 seconds TAVG_CCSM_DIAGS_TRANS Timer number 19 Time = 2753.73 seconds STEP Timer number 20 Time = 2339.84 seconds BAROCLINIC Timer number 21 Time = 314.99 seconds BAROTROPIC Timer number 22 Time = 56.01 seconds 3D-UPDATE Timer number 23 Time = 2994.37 seconds TOTAL Timer number 24 Time = 238.43 seconds OUTPUT Timer number 25 Time = 238.40 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.0087-01-01-00000 (diag_transport) file written: /ptmp/mai/b40.1850.track1.1deg.006/run/b40.1850.track1.1deg.006.pop.dt.0087-01-01-00000 AFTER CALL IN tracer_budgets (final): ===================================== volume_t (cm^3) = 0.132514028746E+25 SUM [volume*T] (C cm^3) = 0.465929489031E+25 SUM [volume*S] (ppt cm^3) = 0.460108945253E+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 = -.544570389915E-13 FW flux = 0.000000000000E+00 Imbalance = 0.544570389915E-13 Imbalance = -tendency + FW flux HEAT BUDGET FOR THE GIVEN TAVG INTERVAL (W/m^2): ------------------------------------------------ tendency = -.226294673118E+02 SHF flux = -.227895672490E+02 ice formation = 0.160099662760E+00 FW heat content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = -.274421963542E-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 = 0.328767293363E-05 SFWF flux = 0.371213935332E-05 ice formation = -.424466197850E-06 FW salt content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = 0.221835532365E-12 Imbalance = -tendency + SFWF flux + ice formation + FW salt content + free-srf non-consv. Global Time Averages: 07-01-0087 00:00:00 KAPPA_ISOP: 3431781.14219745621 KAPPA_THIC: 3915794.93112358917 HOR_DIFF: 529802.034294239595 DIA_DEPTH: 6256.27463318825994 TLT: 355.660829477793357 INT_DEPTH: 6611.92970622817575 UISOP: 0.609236794619728367E-04 VISOP: -0.358253996503902833E-03 WISOP: -0.894616538231311596E-13 ADVT_ISOP: -0.160142260830638824E-10 ADVS_ISOP: -0.966674394026883064E-15 VNT_ISOP: -0.682922369781090131E-09 VNS_ISOP: -0.220527240056754579E-11 USUBM: -0.148097350408042357E-05 VSUBM: -0.171780364277945718E-04 WSUBM: -0.147997934261578089E-08 HLS_SUBM: 745388.499069284182 ADVT_SUBM: 0.137866684929810254E-11 ADVS_SUBM: -0.240322948260613216E-15 VNT_SUBM: -0.980829405083544983E-10 VNS_SUBM: -0.117360875768483774E-12 HDIFT: -0.516050532212874777E-11 HDIFS: -0.748159467592683771E-15 QSW_HBL: 128.984133365291143 KVMIX: 1.36744866742682980 TPOWER: 0.221694176985331042E-05 UVEL: 0.305048037370670877 VVEL: 0.172457646394714136E-02 TEMP: 3.51634264538175900 dTEMP_POS_2D: 0.924492543969552688E-01 dTEMP_NEG_2D: -0.734123792077493453E-01 SALT: 0.347215489530193072E-01 RHO: 1.03743378550801335 RESID_T: 0.000000000000000000E+00 RESID_S: 0.000000000000000000E+00 SU: 109418.398007373326 SV: 580.444930561045112 SSH: 0.528938679547313043E-04 SHF: -22.7895672489785213 SHF_QSW: 151.488946625168694 SFWF: 0.371213935331771944E-05 TAUX: 0.868236423838974064E-01 TAUY: 0.238332256458480725E-01 FW: 0.000000000000000000E+00 TFW_T: 0.000000000000000000E+00 TFW_S: 0.000000000000000000E+00 EVAP_F: -0.408139875354233465E-04 PREC_F: 0.365912168872526127E-04 SNOW_F: 0.930657898566018116E-06 MELT_F: 0.267492159975642975E-05 ROFF_F: 0.503286830347806839E-05 IOFF_F: 0.362331238560546374E-06 SALT_F: 0.469202662131116132E-08 SENH_F: -13.7933255336858291 LWUP_F: -386.944764439828191 LWDN_F: 330.331642490346496 MELTH_F: -1.36481784067594081 IFRAC: 0.787647147612446363E-01 IAGE: 221.497850072631394 WVEL: 0.713221104008545091E-06 UET: 0.447335042417796680E-07 VNT: -0.120325891946907121E-07 WTT: -0.192047686130570605E-07 UES: 0.151991462915698314E-08 VNS: 0.363958621567606950E-11 WTS: 0.483738960086621726E-12 ADVT: 0.423235487069719231E-10 ADVS: 0.156990280543340036E-13 PV: 0.158789505305185929E-13 Q: -0.975173741284038180E-08 PD: 1.02752292499537057 QSW_HTP: 111.956552898845544 QFLUX: 0.160099662759589034 HMXL: 6256.69340300903968 XMXL: 7216.67498929991325 TMXL: 5183.39531690626791 HBLT: 4661.79384946644586 XBLT: 7112.59151775539794 TBLT: 1016.24840567646413 BSF: 0.000000000000000000E+00 convergence info from pcg_diag_bsf: iter = 0 rms_resid = 0.975103094217176641E-01 iter = 100 rms_resid = 0.408472848559754582E-02 iter = 200 rms_resid = 0.848681979810047009E-03 iter = 300 rms_resid = 0.357193820344055767E-03 iter = 400 rms_resid = 0.297224145877196782E-03 iter = 500 rms_resid = 0.180262884543044567E-03 iter = 600 rms_resid = 0.476309889370034307E-04 iter = 700 rms_resid = 0.142097298389337942E-04 iter = 800 rms_resid = 0.190768627466989373E-05 iter = 900 rms_resid = 0.159247226228085507E-06 Local Time- and Space-Averages for Nino Regions: 00:00:00 0087-07-01 NINO_1_PLUS_2: 23.6178872802657125 NINO_3: 25.1707820506788629 NINO_3_POINT_4: 26.5098030976108028 NINO_4: 27.8134291622627572 tavg file written: ./b40.1850.track1.1deg.006.pop.h.0087-06.nc (time_manager) ocn date 0087-jul-02, 0.000000E+00 sec (time_manager) ocn date 0087-jul-03, 0.000000E+00 sec (time_manager) ocn date 0087-jul-04, 0.000000E+00 sec (time_manager) ocn date 0087-jul-05, 0.000000E+00 sec (time_manager) ocn date 0087-jul-06, 0.000000E+00 sec (time_manager) ocn date 0087-jul-07, 0.000000E+00 sec (time_manager) ocn date 0087-jul-08, 0.000000E+00 sec (time_manager) ocn date 0087-jul-09, 0.000000E+00 sec (time_manager) ocn date 0087-jul-10, 0.000000E+00 sec (time_manager) ocn date 0087-jul-11, 0.000000E+00 sec (time_manager) ocn date 0087-jul-12, 0.000000E+00 sec (time_manager) ocn date 0087-jul-13, 0.000000E+00 sec (time_manager) ocn date 0087-jul-14, 0.000000E+00 sec (time_manager) ocn date 0087-jul-15, 0.000000E+00 sec (time_manager) ocn date 0087-jul-16, 0.000000E+00 sec (time_manager) ocn date 0087-jul-17, 0.000000E+00 sec (time_manager) ocn date 0087-jul-18, 0.000000E+00 sec (time_manager) ocn date 0087-jul-19, 0.000000E+00 sec (time_manager) ocn date 0087-jul-20, 0.000000E+00 sec (time_manager) ocn date 0087-jul-21, 0.000000E+00 sec (time_manager) ocn date 0087-jul-22, 0.000000E+00 sec (time_manager) ocn date 0087-jul-23, 0.000000E+00 sec (time_manager) ocn date 0087-jul-24, 0.000000E+00 sec (time_manager) ocn date 0087-jul-25, 0.000000E+00 sec (time_manager) ocn date 0087-jul-26, 0.000000E+00 sec (time_manager) ocn date 0087-jul-27, 0.000000E+00 sec (time_manager) ocn date 0087-jul-28, 0.000000E+00 sec (time_manager) ocn date 0087-jul-29, 0.000000E+00 sec (time_manager) ocn date 0087-jul-30, 0.000000E+00 sec (time_manager) ocn date 0087-jul-31, 0.000000E+00 sec (time_manager) ocn date 0087-aug-01, 0.000000E+00 sec Step number : 790025 Date : 01 aug 0087 Hour : 0 Minute : 0 Second : 0 Time(years) : 86.580822 max. cfl number for zonal advection : 7.9917E-02 20 371 33 max. cfl number for meridional advection : 1.4851E-01 75 182 1 max. cfl number for vertical advection : 2.0159E-01 298 46 14 max. cfl number for total advection : 2.2048E-01 75 184 6 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. : 9.815291556887628E+00 K.E. change from horiz. visc. :-4.268046599425779E-06 K.E. change from vert. visc. : 9.888573714174207E-06 K.E. change from wind stress : 2.990237524635275E-05 advective K.E. balance :-1.789505813947266E-10 :-3.650330696281290E-10 P.E. verses pressure work : 7.059591640073455E-04 :-6.109214124290555E-06 surface-pressure contribution : 2.870745749534492E-07 :-3.468828026815131E-07 Tracer diagnostics: mean value of tracer 1 : 3.512162191681578E+00 abs change in tracer 1 : 1.347100340159058E-07 mean change in tracer 1 : 1.491042182508076E-09 mean change in tracer 1 from advection :-1.273450076355329E-24 mean change in tracer 1 from horiz. diff.: 3.537361323209248E-26 mean change in tracer 1 from vert. diff.:-1.127297762578185E-08 mean change in tracer 1 from sources : 1.266174727358396E-08 surface flux of tracer 1 : 0.000000000000000E+00 mean value of tracer 2 : 3.472140960212615E+01 abs change in tracer 2 : 1.334415403095669E-11 mean change in tracer 2 : 1.104681130674461E-15 mean change in tracer 2 from advection :-5.987720989807321E-28 mean change in tracer 2 from horiz. diff.: 7.556619037617413E-30 mean change in tracer 2 from vert. diff.:-3.747103780179010E-14 mean change in tracer 2 from sources :-1.302527888533200E-32 surface flux of tracer 2 : 0.000000000000000E+00 mean value of tracer 3 : 2.215416252633426E+02 abs change in tracer 3 : 2.491686844065257E-06 mean change in tracer 3 : 3.898378168366719E-09 mean change in tracer 3 from advection :-4.527822493707838E-23 mean change in tracer 3 from horiz. diff.:-8.489667175702196E-25 mean change in tracer 3 from vert. diff.: 1.966814829597169E-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: 5.226218587752464E-05 residual, scans : 6.792277054831910E-14 250 Timing information: Timer number 1 Time = 217.71 seconds HMIX_MOMENTUM_ANISO Timer number 2 Time = 192.26 seconds HMIX_TRACER_GM_NLOOP Timer number 3 Time = 1077.56 seconds HMIX_TRACER_GM Timer number 4 Time = 561.65 seconds VMIX_COEFFICIENTS_KPP Timer number 5 Time = 29.92 seconds VMIX_EXPLICIT_TRACER Timer number 6 Time = 14.54 seconds VMIX_EXPLICIT_MOMENTUM Timer number 7 Time = 93.14 seconds VMIX_IMPLICIT_TRACER Timer number 8 Time = 22.41 seconds VMIX_IMPLICIT_MOMENTUM Timer number 9 Time = 3.27 seconds COMPUTE_COSZ Timer number 10 Time = 40.16 seconds ADVECTION_MOMENTUM Timer number 11 Time = 208.61 seconds ADVECTION_TRACER_UPWIND3 Timer number 12 Time = 13.07 seconds MOC Timer number 13 Time = 12.90 seconds TRACER_TRANSPORTS Timer number 14 Time = 227.87 seconds TAVG_WRITE_STD Timer number 15 Time = 17.62 seconds TAVG_WRITE_NONSTD Timer number 16 Time = 12.50 seconds TAVG_CCSM_DIAGS_BSF Timer number 17 Time = 13.07 seconds TAVG_CCSM_DIAGS_MOC Timer number 18 Time = 12.90 seconds TAVG_CCSM_DIAGS_TRANS Timer number 19 Time = 3224.94 seconds STEP Timer number 20 Time = 2741.09 seconds BAROCLINIC Timer number 21 Time = 368.51 seconds BAROTROPIC Timer number 22 Time = 65.59 seconds 3D-UPDATE Timer number 23 Time = 3513.33 seconds TOTAL Timer number 24 Time = 285.83 seconds OUTPUT Timer number 25 Time = 285.78 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.0087-01-01-00000 (diag_transport) file written: /ptmp/mai/b40.1850.track1.1deg.006/run/b40.1850.track1.1deg.006.pop.dt.0087-01-01-00000 AFTER CALL IN tracer_budgets (final): ===================================== volume_t (cm^3) = 0.132514028745E+25 SUM [volume*T] (C cm^3) = 0.465410460833E+25 SUM [volume*S] (ppt cm^3) = 0.460107387804E+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 = -.152828269748E-12 FW flux = 0.000000000000E+00 Imbalance = 0.152828269748E-12 Imbalance = -tendency + FW flux HEAT BUDGET FOR THE GIVEN TAVG INTERVAL (W/m^2): ------------------------------------------------ tendency = -.219994860310E+02 SHF flux = -.221424288598E+02 ice formation = 0.142943014072E+00 FW heat content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = 0.185308368844E-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 = 0.464016285547E-05 SFWF flux = 0.501914184937E-05 ice formation = -.378979422233E-06 FW salt content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = -.428336689791E-12 Imbalance = -tendency + SFWF flux + ice formation + FW salt content + free-srf non-consv. Global Time Averages: 08-01-0087 00:00:00 KAPPA_ISOP: 3552446.13325567171 KAPPA_THIC: 4112614.35184234520 HOR_DIFF: 605532.973064927850 DIA_DEPTH: 7154.43735549540907 TLT: 416.976494884238889 INT_DEPTH: 7571.41154836832538 UISOP: 0.546342930321037961E-04 VISOP: -0.365675250755524781E-03 WISOP: 0.240021203145944683E-12 ADVT_ISOP: 0.299381735156858819E-10 ADVS_ISOP: -0.344239264623189370E-14 VNT_ISOP: -0.819914026995644216E-09 VNS_ISOP: -0.218902331884114334E-11 USUBM: -0.618153038889568116E-05 VSUBM: -0.298046675378108703E-04 WSUBM: -0.105625240900449034E-08 HLS_SUBM: 733917.170475574327 ADVT_SUBM: -0.218307881338405750E-11 ADVS_SUBM: 0.108313203209338063E-15 VNT_SUBM: -0.233697259165299979E-09 VNS_SUBM: -0.190274234554476687E-12 HDIFT: -0.465023944273968167E-10 HDIFS: 0.441052347787371831E-15 QSW_HBL: 129.174558972690107 KVMIX: 1.37538985057323693 TPOWER: 0.221752747169275031E-05 UVEL: 0.335572762058288288 VVEL: 0.157009535765146170E-02 TEMP: 3.51215302259339479 dTEMP_POS_2D: 0.914864928454845600E-01 dTEMP_NEG_2D: -0.707134516252755085E-01 SALT: 0.347214334456014684E-01 RHO: 1.03743464434924237 RESID_T: 0.000000000000000000E+00 RESID_S: 0.000000000000000000E+00 SU: 120365.539372994797 SV: 533.646049479348335 SSH: 0.525970826268516410E-04 SHF: -22.1424288598033527 SHF_QSW: 150.402609155531621 SFWF: 0.501914184937047317E-05 TAUX: 0.183773413198824759 TAUY: 0.488730975519471936E-01 FW: 0.000000000000000000E+00 TFW_T: 0.000000000000000000E+00 TFW_S: 0.000000000000000000E+00 EVAP_F: -0.401742347617498741E-04 PREC_F: 0.360163783596800281E-04 SNOW_F: 0.977236711051766010E-06 MELT_F: 0.433687820046972090E-05 ROFF_F: 0.483976880954562099E-05 IOFF_F: 0.333692523427345234E-06 SALT_F: 0.115669395867609388E-07 SENH_F: -14.0256281953826587 LWUP_F: -386.576082346068688 LWDN_F: 330.695083784461247 MELTH_F: -1.72518925247637234 IFRAC: 0.779456675823282930E-01 IAGE: 221.531058763384294 WVEL: 0.720234683966724346E-06 UET: 0.254683162068862307E-07 VNT: -0.219488756270285999E-07 WTT: -0.228218815086863107E-07 UES: 0.163782733754195574E-08 VNS: 0.364750906892409743E-11 WTS: 0.963644687216952973E-12 ADVT: -0.101433393675571259E-09 ADVS: -0.578155072429749423E-14 PV: -0.350681855371639291E-13 Q: -0.971752074050353312E-08 PD: 1.02752377427985531 QSW_HTP: 111.243182556511385 QFLUX: 0.142943014071863689 HMXL: 7155.28505078121998 XMXL: 8122.58141386305579 TMXL: 5929.54394658507408 HBLT: 5223.55276700373179 XBLT: 8031.93470400678325 TBLT: 1075.24788749609547 BSF: 0.000000000000000000E+00 convergence info from pcg_diag_bsf: iter = 0 rms_resid = 0.103363722951057418 iter = 100 rms_resid = 0.441696574145583696E-02 iter = 200 rms_resid = 0.941697603716350694E-03 iter = 300 rms_resid = 0.414779546925677647E-03 iter = 400 rms_resid = 0.318930183318820936E-03 iter = 500 rms_resid = 0.203354577561197888E-03 iter = 600 rms_resid = 0.517880170877930534E-04 iter = 700 rms_resid = 0.151945980533831297E-04 iter = 800 rms_resid = 0.200385528695641010E-05 iter = 900 rms_resid = 0.167576960726566154E-06 Local Time- and Space-Averages for Nino Regions: 00:00:00 0087-08-01 NINO_1_PLUS_2: 23.0605404898110606 NINO_3: 24.0844152447899305 NINO_3_POINT_4: 25.7557755138922388 NINO_4: 27.5659945367287129 tavg file written: ./b40.1850.track1.1deg.006.pop.h.0087-07.nc (time_manager) ocn date 0087-aug-02, 0.000000E+00 sec (time_manager) ocn date 0087-aug-03, 0.000000E+00 sec (time_manager) ocn date 0087-aug-04, 0.000000E+00 sec (time_manager) ocn date 0087-aug-05, 0.000000E+00 sec (time_manager) ocn date 0087-aug-06, 0.000000E+00 sec (time_manager) ocn date 0087-aug-07, 0.000000E+00 sec (time_manager) ocn date 0087-aug-08, 0.000000E+00 sec (time_manager) ocn date 0087-aug-09, 0.000000E+00 sec (time_manager) ocn date 0087-aug-10, 0.000000E+00 sec (time_manager) ocn date 0087-aug-11, 0.000000E+00 sec (time_manager) ocn date 0087-aug-12, 0.000000E+00 sec (time_manager) ocn date 0087-aug-13, 0.000000E+00 sec (time_manager) ocn date 0087-aug-14, 0.000000E+00 sec (time_manager) ocn date 0087-aug-15, 0.000000E+00 sec (time_manager) ocn date 0087-aug-16, 0.000000E+00 sec (time_manager) ocn date 0087-aug-17, 0.000000E+00 sec (time_manager) ocn date 0087-aug-18, 0.000000E+00 sec (time_manager) ocn date 0087-aug-19, 0.000000E+00 sec (time_manager) ocn date 0087-aug-20, 0.000000E+00 sec (time_manager) ocn date 0087-aug-21, 0.000000E+00 sec (time_manager) ocn date 0087-aug-22, 0.000000E+00 sec (time_manager) ocn date 0087-aug-23, 0.000000E+00 sec (time_manager) ocn date 0087-aug-24, 0.000000E+00 sec (time_manager) ocn date 0087-aug-25, 0.000000E+00 sec (time_manager) ocn date 0087-aug-26, 0.000000E+00 sec ovf_loc_prd: nsteps_total= 790655 ovf= 3 swap ovf UV old/new prd set old/new= 2 1 (time_manager) ocn date 0087-aug-27, 0.000000E+00 sec (time_manager) ocn date 0087-aug-28, 0.000000E+00 sec (time_manager) ocn date 0087-aug-29, 0.000000E+00 sec (time_manager) ocn date 0087-aug-30, 0.000000E+00 sec (time_manager) ocn date 0087-aug-31, 0.000000E+00 sec (time_manager) ocn date 0087-sep-01, 0.000000E+00 sec Step number : 790800 Date : 01 sep 0087 Hour : 0 Minute : 0 Second : 0 Time(years) : 86.665753 max. cfl number for zonal advection : 8.2500E-02 20 371 33 max. cfl number for meridional advection : 1.0229E-01 312 203 1 max. cfl number for vertical advection : 4.2259E-01 298 46 14 max. cfl number for total advection : 4.3197E-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. : 9.719796634115884E+00 K.E. change from horiz. visc. :-3.932847266643762E-06 K.E. change from vert. visc. : 9.335493356392700E-06 K.E. change from wind stress : 2.679853864152075E-05 advective K.E. balance :-1.309575128204173E-09 : 6.721096786325554E-10 P.E. verses pressure work : 6.862288540363901E-04 :-6.651423252069372E-06 surface-pressure contribution :-1.231070664649410E-06 : 1.173699780767645E-06 Tracer diagnostics: mean value of tracer 1 : 3.510697375943118E+00 abs change in tracer 1 : 1.262129174675005E-07 mean change in tracer 1 : 3.366927534581870E-09 mean change in tracer 1 from advection :-1.131955623426959E-24 mean change in tracer 1 from horiz. diff.:-6.485162425883622E-26 mean change in tracer 1 from vert. diff.:-1.075110672906666E-08 mean change in tracer 1 from sources : 1.404468407601963E-08 surface flux of tracer 1 : 0.000000000000000E+00 mean value of tracer 2 : 3.472137132537777E+01 abs change in tracer 2 : 1.258805820719887E-11 mean change in tracer 2 : 2.146242601381957E-14 mean change in tracer 2 from advection :-4.145345300635838E-28 mean change in tracer 2 from horiz. diff.:-2.338953511643485E-29 mean change in tracer 2 from vert. diff.:-6.204202467990413E-15 mean change in tracer 2 from sources : 1.135869436860825E-31 surface flux of tracer 2 : 0.000000000000000E+00 mean value of tracer 3 : 2.215638320044452E+02 abs change in tracer 3 : 2.311072097914930E-06 mean change in tracer 3 : 1.162291714183053E-08 mean change in tracer 3 from advection : 1.509274164569279E-23 mean change in tracer 3 from horiz. diff.:-1.603603799854859E-24 mean change in tracer 3 from vert. diff.: 5.143191920460138E-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: 5.184038390092515E-05 residual, scans : 8.184196565860036E-14 240 Timing information: Timer number 1 Time = 249.97 seconds HMIX_MOMENTUM_ANISO Timer number 2 Time = 220.18 seconds HMIX_TRACER_GM_NLOOP Timer number 3 Time = 1234.25 seconds HMIX_TRACER_GM Timer number 4 Time = 643.20 seconds VMIX_COEFFICIENTS_KPP Timer number 5 Time = 34.29 seconds VMIX_EXPLICIT_TRACER Timer number 6 Time = 16.69 seconds VMIX_EXPLICIT_MOMENTUM Timer number 7 Time = 106.76 seconds VMIX_IMPLICIT_TRACER Timer number 8 Time = 25.70 seconds VMIX_IMPLICIT_MOMENTUM Timer number 9 Time = 3.75 seconds COMPUTE_COSZ Timer number 10 Time = 46.06 seconds ADVECTION_MOMENTUM Timer number 11 Time = 239.10 seconds ADVECTION_TRACER_UPWIND3 Timer number 12 Time = 15.24 seconds MOC Timer number 13 Time = 15.06 seconds TRACER_TRANSPORTS Timer number 14 Time = 264.18 seconds TAVG_WRITE_STD Timer number 15 Time = 20.62 seconds TAVG_WRITE_NONSTD Timer number 16 Time = 14.55 seconds TAVG_CCSM_DIAGS_BSF Timer number 17 Time = 15.24 seconds TAVG_CCSM_DIAGS_MOC Timer number 18 Time = 15.06 seconds TAVG_CCSM_DIAGS_TRANS Timer number 19 Time = 3696.46 seconds STEP Timer number 20 Time = 3142.34 seconds BAROCLINIC Timer number 21 Time = 422.10 seconds BAROTROPIC Timer number 22 Time = 75.25 seconds 3D-UPDATE Timer number 23 Time = 4031.36 seconds TOTAL Timer number 24 Time = 331.97 seconds OUTPUT Timer number 25 Time = 331.91 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.0087-01-01-00000 (diag_transport) file written: /ptmp/mai/b40.1850.track1.1deg.006/run/b40.1850.track1.1deg.006.pop.dt.0087-01-01-00000 AFTER CALL IN tracer_budgets (final): ===================================== volume_t (cm^3) = 0.132514028745E+25 SUM [volume*T] (C cm^3) = 0.465215894374E+25 SUM [volume*S] (ppt cm^3) = 0.460106879870E+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 = -.157462793272E-12 FW flux = 0.000000000000E+00 Imbalance = 0.157462793272E-12 Imbalance = -tendency + FW flux HEAT BUDGET FOR THE GIVEN TAVG INTERVAL (W/m^2): ------------------------------------------------ tendency = -.824687774672E+01 SHF flux = -.835313254220E+01 ice formation = 0.106255073718E+00 FW heat content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = 0.278237972579E-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 = 0.151330453695E-05 SFWF flux = 0.179501439266E-05 ice formation = -.281710069626E-06 FW salt content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = -.213918057697E-12 Imbalance = -tendency + SFWF flux + ice formation + FW salt content + free-srf non-consv. Global Time Averages: 09-01-0087 00:00:00 KAPPA_ISOP: 3903182.12841094425 KAPPA_THIC: 4527124.25110562239 HOR_DIFF: 668557.930435903720 DIA_DEPTH: 7898.48274996458349 TLT: 474.640188052819838 INT_DEPTH: 8373.11811738553661 UISOP: 0.565618346037446789E-04 VISOP: -0.384370377616412024E-03 WISOP: 0.541674379385478791E-13 ADVT_ISOP: 0.412906774161630094E-10 ADVS_ISOP: 0.315625652043526699E-14 VNT_ISOP: -0.122355150297939356E-08 VNS_ISOP: -0.224441034938257866E-11 USUBM: -0.660946043020759403E-05 VSUBM: -0.427915654119137651E-04 WSUBM: -0.633562149991071511E-09 HLS_SUBM: 743446.960479987320 ADVT_SUBM: 0.240693017732367850E-12 ADVS_SUBM: -0.403243273781669879E-15 VNT_SUBM: -0.481916858625923030E-09 VNS_SUBM: -0.259867644675574449E-12 HDIFT: 0.227368559186609537E-10 HDIFS: 0.108346779803235244E-13 QSW_HBL: 138.210313342568156 KVMIX: 1.37583833577162706 TPOWER: 0.222881867277155863E-05 UVEL: 0.328850648208418972 VVEL: 0.116354274320528122E-02 TEMP: 3.50943826837419071 dTEMP_POS_2D: 0.810028078744312180E-01 dTEMP_NEG_2D: -0.635737552820000024E-01 SALT: 0.347213513512276348E-01 RHO: 1.03743502433714907 RESID_T: 0.000000000000000000E+00 RESID_S: 0.000000000000000000E+00 SU: 117955.273117606324 SV: 391.484986117928997 SSH: 0.516945455597896017E-04 SHF: -8.35313254219511414 SHF_QSW: 161.593109524628773 SFWF: 0.179501439265905503E-05 TAUX: 0.150629489451286541 TAUY: 0.432152217273868294E-01 FW: 0.000000000000000000E+00 TFW_T: 0.000000000000000000E+00 TFW_S: 0.000000000000000000E+00 EVAP_F: -0.389841680749607940E-04 PREC_F: 0.342509920826464541E-04 SNOW_F: 0.943567690355821133E-06 MELT_F: 0.237562217162185668E-05 ROFF_F: 0.394123610569453446E-05 IOFF_F: 0.349868624811731612E-06 SALT_F: 0.480723723808010485E-08 SENH_F: -14.1033064900943987 LWUP_F: -387.442489519999867 LWDN_F: 330.873518541395754 MELTH_F: -1.34294074704872268 IFRAC: 0.751302425788077932E-01 IAGE: 221.552762104628499 WVEL: 0.729204987859614275E-06 UET: -0.717624088416981769E-08 VNT: -0.262398405045600639E-07 WTT: -0.213280645381294361E-07 UES: 0.161074950447214877E-08 VNS: -0.169408305909302551E-12 WTS: 0.843121422345562632E-12 ADVT: 0.731087179539811928E-10 ADVS: -0.122652441380139197E-14 PV: -0.664081544016934214E-13 Q: -0.973337267056842566E-08 PD: 1.02752413696290268 QSW_HTP: 119.385932867235226 QFLUX: 0.106255073717665210 HMXL: 7899.70548603930183 XMXL: 8979.71897544508465 TMXL: 5883.88657394199618 HBLT: 5204.79997609094244 XBLT: 8598.94940910710284 TBLT: 976.716282571629108 BSF: 0.000000000000000000E+00 convergence info from pcg_diag_bsf: iter = 0 rms_resid = 0.990407278032016114E-01 iter = 100 rms_resid = 0.427894513676393279E-02 iter = 200 rms_resid = 0.890887251621482151E-03 iter = 300 rms_resid = 0.426168355520644272E-03 iter = 400 rms_resid = 0.316403036932633695E-03 iter = 500 rms_resid = 0.197005828500400651E-03 iter = 600 rms_resid = 0.495395044444013719E-04 iter = 700 rms_resid = 0.141749673279687367E-04 iter = 800 rms_resid = 0.202283436741086029E-05 iter = 900 rms_resid = 0.160042132876971301E-06 Local Time- and Space-Averages for Nino Regions: 00:00:00 0087-09-01 NINO_1_PLUS_2: 22.0087705537437337 NINO_3: 23.2949654114674409 NINO_3_POINT_4: 25.3218729062444119 NINO_4: 27.1818698255200317 tavg file written: ./b40.1850.track1.1deg.006.pop.h.0087-08.nc (time_manager) ocn date 0087-sep-02, 0.000000E+00 sec (time_manager) ocn date 0087-sep-03, 0.000000E+00 sec (time_manager) ocn date 0087-sep-04, 0.000000E+00 sec (time_manager) ocn date 0087-sep-05, 0.000000E+00 sec (time_manager) ocn date 0087-sep-06, 0.000000E+00 sec (time_manager) ocn date 0087-sep-07, 0.000000E+00 sec (time_manager) ocn date 0087-sep-08, 0.000000E+00 sec (time_manager) ocn date 0087-sep-09, 0.000000E+00 sec (time_manager) ocn date 0087-sep-10, 0.000000E+00 sec (time_manager) ocn date 0087-sep-11, 0.000000E+00 sec (time_manager) ocn date 0087-sep-12, 0.000000E+00 sec (time_manager) ocn date 0087-sep-13, 0.000000E+00 sec (time_manager) ocn date 0087-sep-14, 0.000000E+00 sec (time_manager) ocn date 0087-sep-15, 0.000000E+00 sec (time_manager) ocn date 0087-sep-16, 0.000000E+00 sec (time_manager) ocn date 0087-sep-17, 0.000000E+00 sec (time_manager) ocn date 0087-sep-18, 0.000000E+00 sec (time_manager) ocn date 0087-sep-19, 0.000000E+00 sec (time_manager) ocn date 0087-sep-20, 0.000000E+00 sec (time_manager) ocn date 0087-sep-21, 0.000000E+00 sec (time_manager) ocn date 0087-sep-22, 0.000000E+00 sec (time_manager) ocn date 0087-sep-23, 0.000000E+00 sec (time_manager) ocn date 0087-sep-24, 0.000000E+00 sec (time_manager) ocn date 0087-sep-25, 0.000000E+00 sec (time_manager) ocn date 0087-sep-26, 0.000000E+00 sec (time_manager) ocn date 0087-sep-27, 0.000000E+00 sec (time_manager) ocn date 0087-sep-28, 0.000000E+00 sec (time_manager) ocn date 0087-sep-29, 0.000000E+00 sec (time_manager) ocn date 0087-sep-30, 0.000000E+00 sec (time_manager) ocn date 0087-oct-01, 0.000000E+00 sec Step number : 791550 Date : 01 oct 0087 Hour : 0 Minute : 0 Second : 0 Time(years) : 86.747945 max. cfl number for zonal advection : 8.4338E-02 20 371 33 max. cfl number for meridional advection : 9.5462E-02 73 170 1 max. cfl number for vertical advection : 2.2197E-01 298 46 14 max. cfl number for total advection : 2.3065E-01 298 46 14 max. cfl number for horizontal tracer mixing : 6.0948E-01 175 380 3 max. cfl number for horiz. momentum mixing : 1.2672E-01 318 214 56 K.E. diagnostics: mean K.E. : 9.771410078514728E+00 K.E. change from horiz. visc. :-3.950887600255211E-06 K.E. change from vert. visc. : 9.915482197527252E-06 K.E. change from wind stress : 2.988345242375689E-05 advective K.E. balance :-5.475769754842034E-10 :-1.682842087113652E-10 P.E. verses pressure work : 7.120473021603080E-04 :-7.107893960067502E-06 surface-pressure contribution :-4.793269858025443E-07 : 4.147982378046189E-07 Tracer diagnostics: mean value of tracer 1 : 3.511428600065366E+00 abs change in tracer 1 : 1.321026471354002E-07 mean change in tracer 1 : 3.270443876393507E-09 mean change in tracer 1 from advection :-2.688394605639029E-24 mean change in tracer 1 from horiz. diff.:-3.891097455530173E-25 mean change in tracer 1 from vert. diff.:-1.135880384051861E-08 mean change in tracer 1 from sources : 1.446497112182187E-08 surface flux of tracer 1 : 0.000000000000000E+00 mean value of tracer 2 : 3.472139549198895E+01 abs change in tracer 2 : 1.334065501454062E-11 mean change in tracer 2 : 6.839290742076321E-14 mean change in tracer 2 from advection :-8.002819399838631E-28 mean change in tracer 2 from horiz. diff.: 1.403372106986091E-29 mean change in tracer 2 from vert. diff.: 6.430154883683575E-15 mean change in tracer 2 from sources : 2.835675280328156E-33 surface flux of tracer 2 : 0.000000000000000E+00 mean value of tracer 3 : 2.215970864099822E+02 abs change in tracer 3 : 2.407269750019042E-06 mean change in tracer 3 : 1.798055997936737E-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.: 1.054744357974373E-24 mean change in tracer 3 from sources : 3.162337335760043E-08 surface flux of tracer 3 : 0.000000000000000E+00 Other diagnostics: global mean sea level: 5.177678214266600E-05 residual, scans : 6.129846288761848E-14 250 Timing information: Timer number 1 Time = 280.98 seconds HMIX_MOMENTUM_ANISO Timer number 2 Time = 247.24 seconds HMIX_TRACER_GM_NLOOP Timer number 3 Time = 1386.05 seconds HMIX_TRACER_GM Timer number 4 Time = 721.84 seconds VMIX_COEFFICIENTS_KPP Timer number 5 Time = 38.51 seconds VMIX_EXPLICIT_TRACER Timer number 6 Time = 18.75 seconds VMIX_EXPLICIT_MOMENTUM Timer number 7 Time = 119.93 seconds VMIX_IMPLICIT_TRACER Timer number 8 Time = 28.92 seconds VMIX_IMPLICIT_MOMENTUM Timer number 9 Time = 4.21 seconds COMPUTE_COSZ Timer number 10 Time = 51.73 seconds ADVECTION_MOMENTUM Timer number 11 Time = 268.60 seconds ADVECTION_TRACER_UPWIND3 Timer number 12 Time = 17.60 seconds MOC Timer number 13 Time = 17.21 seconds TRACER_TRANSPORTS Timer number 14 Time = 303.84 seconds TAVG_WRITE_STD Timer number 15 Time = 23.70 seconds TAVG_WRITE_NONSTD Timer number 16 Time = 16.62 seconds TAVG_CCSM_DIAGS_BSF Timer number 17 Time = 17.61 seconds TAVG_CCSM_DIAGS_MOC Timer number 18 Time = 17.21 seconds TAVG_CCSM_DIAGS_TRANS Timer number 19 Time = 4152.22 seconds STEP Timer number 20 Time = 3530.10 seconds BAROCLINIC Timer number 21 Time = 474.54 seconds BAROTROPIC Timer number 22 Time = 84.64 seconds 3D-UPDATE Timer number 23 Time = 4537.15 seconds TOTAL Timer number 24 Time = 381.63 seconds OUTPUT Timer number 25 Time = 381.57 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.0087-01-01-00000 (diag_transport) file written: /ptmp/mai/b40.1850.track1.1deg.006/run/b40.1850.track1.1deg.006.pop.dt.0087-01-01-00000 AFTER CALL IN tracer_budgets (final): ===================================== volume_t (cm^3) = 0.132514028745E+25 SUM [volume*T] (C cm^3) = 0.465312831282E+25 SUM [volume*S] (ppt cm^3) = 0.460107199758E+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 = -.245472487502E-13 FW flux = 0.000000000000E+00 Imbalance = 0.245472487502E-13 Imbalance = -tendency + FW flux HEAT BUDGET FOR THE GIVEN TAVG INTERVAL (W/m^2): ------------------------------------------------ tendency = 0.424571840463E+01 SHF flux = 0.410406743062E+01 ice formation = 0.141651143192E+00 FW heat content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = 0.169186694543E-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 = -.984821763986E-06 SFWF flux = -.609267346757E-06 ice formation = -.375554333691E-06 FW salt content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = 0.835376159773E-13 Imbalance = -tendency + SFWF flux + ice formation + FW salt content + free-srf non-consv. Global Time Averages: 10-01-0087 00:00:00 KAPPA_ISOP: 4438070.05882506631 KAPPA_THIC: 5065645.27313333470 HOR_DIFF: 672496.425795388641 DIA_DEPTH: 7920.70169663616252 TLT: 529.261580609433395 INT_DEPTH: 8449.95773278112938 UISOP: 0.512905906291268089E-04 VISOP: -0.415004301768508090E-03 WISOP: -0.117642938932472142E-12 ADVT_ISOP: 0.706087178033933392E-11 ADVS_ISOP: 0.893165724186872409E-15 VNT_ISOP: -0.215908661806046337E-08 VNS_ISOP: -0.241004873856015059E-11 USUBM: 0.265910568432377449E-05 VSUBM: -0.365811603650864929E-04 WSUBM: 0.179646805198700343E-09 HLS_SUBM: 805368.408205152955 ADVT_SUBM: -0.984679579577854757E-12 ADVS_SUBM: -0.450657629684990528E-15 VNT_SUBM: -0.834909988440762913E-09 VNS_SUBM: -0.250525154797210103E-12 HDIFT: -0.108291153939248071E-10 HDIFS: 0.502453649730115147E-14 QSW_HBL: 150.324209045186109 KVMIX: 1.36485806329704951 TPOWER: 0.222952086411725888E-05 UVEL: 0.322258709113674990 VVEL: 0.107027432521932604E-02 TEMP: 3.50929110478378758 dTEMP_POS_2D: 0.793127840946390578E-01 dTEMP_NEG_2D: -0.622214980023965900E-01 SALT: 0.347213534073450431E-01 RHO: 1.03743484166785915 RESID_T: 0.000000000000000000E+00 RESID_S: 0.000000000000000000E+00 SU: 115591.905250354510 SV: 356.033626187882589 SSH: 0.516698168126043325E-04 SHF: 4.10406743062420087 SHF_QSW: 174.740674226257710 SFWF: -0.609267346757068794E-06 TAUX: 0.159368528228896050 TAUY: 0.323785075627427837E-01 FW: 0.000000000000000000E+00 TFW_T: 0.000000000000000000E+00 TFW_S: 0.000000000000000000E+00 EVAP_F: -0.389545876064584115E-04 PREC_F: 0.344869146657374390E-04 SNOW_F: 0.102840472656965630E-05 MELT_F: -0.314639756738861300E-07 ROFF_F: 0.350224650807644371E-05 IOFF_F: 0.266961111811775899E-06 SALT_F: -0.418694861753841095E-08 SENH_F: -13.7931437043049456 LWUP_F: -387.231717209749263 LWDN_F: 329.121089369020012 MELTH_F: -0.875148803073860004 IFRAC: 0.754812327867544069E-01 IAGE: 221.579691618912392 WVEL: 0.719863763798194861E-06 UET: -0.235075187926913803E-08 VNT: -0.400636992293492589E-07 WTT: -0.207475881965844879E-07 UES: 0.156397957726678805E-08 VNS: 0.904562976675389137E-12 WTS: 0.894588689934091617E-12 ADVT: -0.448610560239695062E-10 ADVS: -0.725524062658597154E-14 PV: -0.636616470123110299E-13 Q: -0.968499986535051951E-08 PD: 1.02752392999857989 QSW_HTP: 128.618284677641213 QFLUX: 0.141651143192313200 HMXL: 7921.81494286885936 XMXL: 9603.29253642697404 TMXL: 4601.61590855656777 HBLT: 4629.52499614894077 XBLT: 8300.48093933512428 TBLT: 946.274374627052225 BSF: 0.000000000000000000E+00 convergence info from pcg_diag_bsf: iter = 0 rms_resid = 0.984898840952027482E-01 iter = 100 rms_resid = 0.423007872275827940E-02 iter = 200 rms_resid = 0.898324401469201023E-03 iter = 300 rms_resid = 0.428805460044201395E-03 iter = 400 rms_resid = 0.311907343222391528E-03 iter = 500 rms_resid = 0.191457100302857295E-03 iter = 600 rms_resid = 0.493685447166350037E-04 iter = 700 rms_resid = 0.142670354805571900E-04 iter = 800 rms_resid = 0.189846433234527002E-05 iter = 900 rms_resid = 0.155453018493749052E-06 Local Time- and Space-Averages for Nino Regions: 00:00:00 0087-10-01 NINO_1_PLUS_2: 22.0510944060992458 NINO_3: 22.9596074655537130 NINO_3_POINT_4: 24.9205861856378554 NINO_4: 26.9916721721316080 tavg file written: ./b40.1850.track1.1deg.006.pop.h.0087-09.nc (time_manager) ocn date 0087-oct-02, 0.000000E+00 sec (time_manager) ocn date 0087-oct-03, 0.000000E+00 sec (time_manager) ocn date 0087-oct-04, 0.000000E+00 sec (time_manager) ocn date 0087-oct-05, 0.000000E+00 sec (time_manager) ocn date 0087-oct-06, 0.000000E+00 sec (time_manager) ocn date 0087-oct-07, 0.000000E+00 sec (time_manager) ocn date 0087-oct-08, 0.000000E+00 sec (time_manager) ocn date 0087-oct-09, 0.000000E+00 sec (time_manager) ocn date 0087-oct-10, 0.000000E+00 sec (time_manager) ocn date 0087-oct-11, 0.000000E+00 sec (time_manager) ocn date 0087-oct-12, 0.000000E+00 sec (time_manager) ocn date 0087-oct-13, 0.000000E+00 sec (time_manager) ocn date 0087-oct-14, 0.000000E+00 sec (time_manager) ocn date 0087-oct-15, 0.000000E+00 sec (time_manager) ocn date 0087-oct-16, 0.000000E+00 sec (time_manager) ocn date 0087-oct-17, 0.000000E+00 sec (time_manager) ocn date 0087-oct-18, 0.000000E+00 sec (time_manager) ocn date 0087-oct-19, 0.000000E+00 sec (time_manager) ocn date 0087-oct-20, 0.000000E+00 sec (time_manager) ocn date 0087-oct-21, 0.000000E+00 sec (time_manager) ocn date 0087-oct-22, 0.000000E+00 sec (time_manager) ocn date 0087-oct-23, 0.000000E+00 sec (time_manager) ocn date 0087-oct-24, 0.000000E+00 sec (time_manager) ocn date 0087-oct-25, 0.000000E+00 sec (time_manager) ocn date 0087-oct-26, 0.000000E+00 sec (time_manager) ocn date 0087-oct-27, 0.000000E+00 sec (time_manager) ocn date 0087-oct-28, 0.000000E+00 sec (time_manager) ocn date 0087-oct-29, 0.000000E+00 sec (time_manager) ocn date 0087-oct-30, 0.000000E+00 sec (time_manager) ocn date 0087-oct-31, 0.000000E+00 sec (time_manager) ocn date 0087-nov-01, 0.000000E+00 sec Step number : 792325 Date : 01 nov 0087 Hour : 0 Minute : 0 Second : 0 Time(years) : 86.832877 max. cfl number for zonal advection : 8.6692E-02 20 371 33 max. cfl number for meridional advection : 8.4959E-02 247 198 7 max. cfl number for vertical advection : 4.7759E-01 320 362 20 max. cfl number for total advection : 4.9409E-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. : 9.868981699843923E+00 K.E. change from horiz. visc. :-3.868206075134751E-06 K.E. change from vert. visc. : 8.451867401788104E-06 K.E. change from wind stress : 2.818864894645302E-05 advective K.E. balance : 3.137408951656347E-10 :-1.333424378864903E-09 P.E. verses pressure work : 7.374883455384100E-04 :-6.951770398996108E-06 surface-pressure contribution :-7.018148689193289E-07 : 6.153670567603550E-07 Tracer diagnostics: mean value of tracer 1 : 3.513048435125244E+00 abs change in tracer 1 : 1.440424117527002E-07 mean change in tracer 1 : 3.590486340519573E-09 mean change in tracer 1 from advection :-1.273450076355329E-24 mean change in tracer 1 from horiz. diff.: 9.138183418290558E-26 mean change in tracer 1 from vert. diff.:-1.188294928799395E-08 mean change in tracer 1 from sources : 1.533100427799356E-08 surface flux of tracer 1 : 0.000000000000000E+00 mean value of tracer 2 : 3.472146080468220E+01 abs change in tracer 2 : 1.413709244599524E-11 mean change in tracer 2 : 7.372193622992129E-14 mean change in tracer 2 from advection : 4.893810424361753E-28 mean change in tracer 2 from horiz. diff.:-1.367388206806960E-29 mean change in tracer 2 from vert. diff.: 1.999889357163720E-14 mean change in tracer 2 from sources :-9.246580668219487E-32 surface flux of tracer 2 : 0.000000000000000E+00 mean value of tracer 3 : 2.216464745868578E+02 abs change in tracer 3 : 2.620164047696189E-06 mean change in tracer 3 : 1.967554869234939E-08 mean change in tracer 3 from advection :-2.565766079767775E-23 mean change in tracer 3 from horiz. diff.:-2.169581611568339E-24 mean change in tracer 3 from vert. diff.:-4.639427520362318E-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: 5.196429079133724E-05 residual, scans : 9.779247169582287E-14 240 Timing information: Timer number 1 Time = 313.15 seconds HMIX_MOMENTUM_ANISO Timer number 2 Time = 275.45 seconds HMIX_TRACER_GM_NLOOP Timer number 3 Time = 1542.65 seconds HMIX_TRACER_GM Timer number 4 Time = 803.41 seconds VMIX_COEFFICIENTS_KPP Timer number 5 Time = 42.88 seconds VMIX_EXPLICIT_TRACER Timer number 6 Time = 20.89 seconds VMIX_EXPLICIT_MOMENTUM Timer number 7 Time = 133.54 seconds VMIX_IMPLICIT_TRACER Timer number 8 Time = 32.22 seconds VMIX_IMPLICIT_MOMENTUM Timer number 9 Time = 4.69 seconds COMPUTE_COSZ Timer number 10 Time = 57.61 seconds ADVECTION_MOMENTUM Timer number 11 Time = 299.07 seconds ADVECTION_TRACER_UPWIND3 Timer number 12 Time = 19.77 seconds MOC Timer number 13 Time = 19.37 seconds TRACER_TRANSPORTS Timer number 14 Time = 343.80 seconds TAVG_WRITE_STD Timer number 15 Time = 26.96 seconds TAVG_WRITE_NONSTD Timer number 16 Time = 18.68 seconds TAVG_CCSM_DIAGS_BSF Timer number 17 Time = 19.77 seconds TAVG_CCSM_DIAGS_MOC Timer number 18 Time = 19.37 seconds TAVG_CCSM_DIAGS_TRANS Timer number 19 Time = 4623.34 seconds STEP Timer number 20 Time = 3930.42 seconds BAROCLINIC Timer number 21 Time = 528.23 seconds BAROTROPIC Timer number 22 Time = 94.46 seconds 3D-UPDATE Timer number 23 Time = 5058.61 seconds TOTAL Timer number 24 Time = 431.60 seconds OUTPUT Timer number 25 Time = 431.54 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.0087-01-01-00000 (diag_transport) file written: /ptmp/mai/b40.1850.track1.1deg.006/run/b40.1850.track1.1deg.006.pop.dt.0087-01-01-00000 AFTER CALL IN tracer_budgets (final): ===================================== volume_t (cm^3) = 0.132514028745E+25 SUM [volume*T] (C cm^3) = 0.465527387689E+25 SUM [volume*S] (ppt cm^3) = 0.460108064948E+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 = 0.699896307071E-13 FW flux = 0.000000000000E+00 Imbalance = -.699896307071E-13 Imbalance = -tendency + FW flux HEAT BUDGET FOR THE GIVEN TAVG INTERVAL (W/m^2): ------------------------------------------------ tendency = 0.909417001384E+01 SHF flux = 0.892369469365E+01 ice formation = 0.170475054191E+00 FW heat content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = -.265994937132E-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 = -.257769013802E-05 SFWF flux = -.212571635129E-05 ice formation = -.451974081853E-06 FW salt content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = -.295122037236E-12 Imbalance = -tendency + SFWF flux + ice formation + FW salt content + free-srf non-consv. Global Time Averages: 11-01-0087 00:00:00 KAPPA_ISOP: 4456586.97726046946 KAPPA_THIC: 4985637.99282215908 HOR_DIFF: 574007.692971117562 DIA_DEPTH: 6727.12965052568052 TLT: 505.983654331991033 INT_DEPTH: 7233.11189302976163 UISOP: 0.921417572084950271E-04 VISOP: -0.426246426157969724E-03 WISOP: 0.155553027167296517E-12 ADVT_ISOP: 0.322547107972704692E-10 ADVS_ISOP: 0.485767349799279408E-16 VNT_ISOP: -0.209733237521775092E-08 VNS_ISOP: -0.242609285034174337E-11 USUBM: 0.976935143136104494E-05 VSUBM: -0.232481203924245368E-04 WSUBM: -0.161613277915347438E-09 HLS_SUBM: 858539.406579705421 ADVT_SUBM: -0.707894714338881491E-12 ADVS_SUBM: 0.157903564656113430E-15 VNT_SUBM: -0.541213148943197779E-09 VNS_SUBM: -0.133537235626601712E-12 HDIFT: 0.388206807953972635E-10 HDIFS: -0.273586211639682956E-14 QSW_HBL: 158.340478887131070 KVMIX: 1.36143507094663363 TPOWER: 0.220783085638996717E-05 UVEL: 0.312573626127474247 VVEL: 0.811205635362476779E-03 TEMP: 3.51052721620819552 dTEMP_POS_2D: 0.902685339452622831E-01 dTEMP_NEG_2D: -0.725458111174496489E-01 SALT: 0.347214031317561247E-01 RHO: 1.03743462842386336 RESID_T: 0.000000000000000000E+00 RESID_S: 0.000000000000000000E+00 SU: 112118.106055528886 SV: 262.700525748632060 SSH: 0.520253252671934327E-04 SHF: 8.92369469364999901 SHF_QSW: 184.346689622561598 SFWF: -0.212571635128585536E-05 TAUX: 0.155002161084345086 TAUY: 0.646411072888827002E-04 FW: 0.000000000000000000E+00 TFW_T: 0.000000000000000000E+00 TFW_S: 0.000000000000000000E+00 EVAP_F: -0.401925289002966711E-04 PREC_F: 0.347801237146127347E-04 SNOW_F: 0.941666465151709665E-06 MELT_F: -0.453448886607133585E-06 ROFF_F: 0.328075124403514398E-05 IOFF_F: 0.285630404596715475E-06 SALT_F: -0.602932407189085563E-08 SENH_F: -14.1521625141977694 LWUP_F: -385.511742138472528 LWDN_F: 326.067240796526676 MELTH_F: -0.895276027717158196 IFRAC: 0.791268790318445658E-01 IAGE: 221.620493611402622 WVEL: 0.747638128766198345E-06 UET: 0.183131504545752674E-07 VNT: -0.273314073076335842E-07 WTT: -0.195854102352785531E-07 UES: 0.155567568741060206E-08 VNS: -0.327318064436466079E-11 WTS: 0.895943901937391237E-12 ADVT: 0.971801627500151406E-10 ADVS: 0.180000779212198913E-14 PV: -0.326912538682588268E-13 Q: -0.956441917422673801E-08 PD: 1.02752369524836751 QSW_HTP: 135.326000867414649 QFLUX: 0.170475054191062958 HMXL: 6727.86985220211409 XMXL: 9355.04165818310139 TMXL: 3880.71214551755338 HBLT: 4107.80400860809004 XBLT: 7372.62828982013525 TBLT: 896.327522004842876 BSF: 0.000000000000000000E+00 convergence info from pcg_diag_bsf: iter = 0 rms_resid = 0.102685894843027439 iter = 100 rms_resid = 0.416855013587523818E-02 iter = 200 rms_resid = 0.881451009718289325E-03 iter = 300 rms_resid = 0.407336073178888409E-03 iter = 400 rms_resid = 0.297195031089174464E-03 iter = 500 rms_resid = 0.192876262132773063E-03 iter = 600 rms_resid = 0.499199691835524716E-04 iter = 700 rms_resid = 0.144635358704789484E-04 iter = 800 rms_resid = 0.187137038443503964E-05 iter = 900 rms_resid = 0.158618987252393589E-06 Local Time- and Space-Averages for Nino Regions: 00:00:00 0087-11-01 NINO_1_PLUS_2: 22.6931202180997253 NINO_3: 23.3093303255082489 NINO_3_POINT_4: 24.8023753602212160 NINO_4: 26.8491170463786553 tavg file written: ./b40.1850.track1.1deg.006.pop.h.0087-10.nc (time_manager) ocn date 0087-nov-02, 0.000000E+00 sec (time_manager) ocn date 0087-nov-03, 0.000000E+00 sec (time_manager) ocn date 0087-nov-04, 0.000000E+00 sec (time_manager) ocn date 0087-nov-05, 0.000000E+00 sec (time_manager) ocn date 0087-nov-06, 0.000000E+00 sec (time_manager) ocn date 0087-nov-07, 0.000000E+00 sec (time_manager) ocn date 0087-nov-08, 0.000000E+00 sec (time_manager) ocn date 0087-nov-09, 0.000000E+00 sec (time_manager) ocn date 0087-nov-10, 0.000000E+00 sec (time_manager) ocn date 0087-nov-11, 0.000000E+00 sec (time_manager) ocn date 0087-nov-12, 0.000000E+00 sec (time_manager) ocn date 0087-nov-13, 0.000000E+00 sec (time_manager) ocn date 0087-nov-14, 0.000000E+00 sec (time_manager) ocn date 0087-nov-15, 0.000000E+00 sec (time_manager) ocn date 0087-nov-16, 0.000000E+00 sec (time_manager) ocn date 0087-nov-17, 0.000000E+00 sec (time_manager) ocn date 0087-nov-18, 0.000000E+00 sec (time_manager) ocn date 0087-nov-19, 0.000000E+00 sec (time_manager) ocn date 0087-nov-20, 0.000000E+00 sec (time_manager) ocn date 0087-nov-21, 0.000000E+00 sec (time_manager) ocn date 0087-nov-22, 0.000000E+00 sec (time_manager) ocn date 0087-nov-23, 0.000000E+00 sec (time_manager) ocn date 0087-nov-24, 0.000000E+00 sec (time_manager) ocn date 0087-nov-25, 0.000000E+00 sec (time_manager) ocn date 0087-nov-26, 0.000000E+00 sec (time_manager) ocn date 0087-nov-27, 0.000000E+00 sec (time_manager) ocn date 0087-nov-28, 0.000000E+00 sec (time_manager) ocn date 0087-nov-29, 0.000000E+00 sec (time_manager) ocn date 0087-nov-30, 0.000000E+00 sec (time_manager) ocn date 0087-dec-01, 0.000000E+00 sec Step number : 793075 Date : 01 dec 0087 Hour : 0 Minute : 0 Second : 0 Time(years) : 86.915068 max. cfl number for zonal advection : 8.4255E-02 20 371 33 max. cfl number for meridional advection : 8.4470E-02 73 170 3 max. cfl number for vertical advection : 8.4142E-01 318 356 18 max. cfl number for total advection : 8.6221E-01 318 356 18 max. cfl number for horizontal tracer mixing : 6.0948E-01 175 380 6 max. cfl number for horiz. momentum mixing : 1.2672E-01 318 214 56 K.E. diagnostics: mean K.E. : 9.577153207700821E+00 K.E. change from horiz. visc. :-3.970218929862709E-06 K.E. change from vert. visc. : 8.327103561680245E-06 K.E. change from wind stress : 2.635141385572221E-05 advective K.E. balance :-9.904880937550378E-10 : 5.982255740878384E-10 P.E. verses pressure work : 7.525112782103198E-04 :-1.395017056869128E-06 surface-pressure contribution : 7.005636712772738E-07 :-8.166361238818013E-07 Tracer diagnostics: mean value of tracer 1 : 3.515224689437386E+00 abs change in tracer 1 : 1.439285423140457E-07 mean change in tracer 1 : 3.215110608616394E-09 mean change in tracer 1 from advection : 3.773185411423198E-25 mean change in tracer 1 from horiz. diff.: 1.179120441069749E-26 mean change in tracer 1 from vert. diff.:-1.203618709602232E-08 mean change in tracer 1 from sources : 1.504377316821230E-08 surface flux of tracer 1 : 0.000000000000000E+00 mean value of tracer 2 : 3.472151658728168E+01 abs change in tracer 2 : 1.430238688928135E-11 mean change in tracer 2 : 8.755699385325201E-14 mean change in tracer 2 from advection : 1.151484805732177E-28 mean change in tracer 2 from horiz. diff.:-2.806744213972182E-29 mean change in tracer 2 from vert. diff.: 9.281744181210882E-15 mean change in tracer 2 from sources :-5.192228161935672E-32 surface flux of tracer 2 : 0.000000000000000E+00 mean value of tracer 3 : 2.217078895079159E+02 abs change in tracer 3 : 2.480333388886025E-06 mean change in tracer 3 : 2.357407237936545E-08 mean change in tracer 3 from advection :-3.622257994966270E-23 mean change in tracer 3 from horiz. diff.:-2.075251976282759E-24 mean change in tracer 3 from vert. diff.:-1.193322838731241E-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: 5.240973725743739E-05 residual, scans : 8.924240589022700E-14 250 Timing information: Timer number 1 Time = 343.94 seconds HMIX_MOMENTUM_ANISO Timer number 2 Time = 302.88 seconds HMIX_TRACER_GM_NLOOP Timer number 3 Time = 1694.79 seconds HMIX_TRACER_GM Timer number 4 Time = 882.84 seconds VMIX_COEFFICIENTS_KPP Timer number 5 Time = 47.11 seconds VMIX_EXPLICIT_TRACER Timer number 6 Time = 22.97 seconds VMIX_EXPLICIT_MOMENTUM Timer number 7 Time = 146.72 seconds VMIX_IMPLICIT_TRACER Timer number 8 Time = 35.42 seconds VMIX_IMPLICIT_MOMENTUM Timer number 9 Time = 5.15 seconds COMPUTE_COSZ Timer number 10 Time = 63.24 seconds ADVECTION_MOMENTUM Timer number 11 Time = 328.59 seconds ADVECTION_TRACER_UPWIND3 Timer number 12 Time = 21.93 seconds MOC Timer number 13 Time = 21.51 seconds TRACER_TRANSPORTS Timer number 14 Time = 382.08 seconds TAVG_WRITE_STD Timer number 15 Time = 30.09 seconds TAVG_WRITE_NONSTD Timer number 16 Time = 20.73 seconds TAVG_CCSM_DIAGS_BSF Timer number 17 Time = 21.93 seconds TAVG_CCSM_DIAGS_MOC Timer number 18 Time = 21.51 seconds TAVG_CCSM_DIAGS_TRANS Timer number 19 Time = 5080.71 seconds STEP Timer number 20 Time = 4318.36 seconds BAROCLINIC Timer number 21 Time = 580.68 seconds BAROTROPIC Timer number 22 Time = 104.17 seconds 3D-UPDATE Timer number 23 Time = 5564.42 seconds TOTAL Timer number 24 Time = 479.68 seconds OUTPUT Timer number 25 Time = 479.61 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.0087-01-01-00000 (diag_transport) file written: /ptmp/mai/b40.1850.track1.1deg.006/run/b40.1850.track1.1deg.006.pop.dt.0087-01-01-00000 AFTER CALL IN tracer_budgets (final): ===================================== volume_t (cm^3) = 0.132514028745E+25 SUM [volume*T] (C cm^3) = 0.465815864790E+25 SUM [volume*S] (ppt cm^3) = 0.460108804384E+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 = 0.171859417944E-12 FW flux = 0.000000000000E+00 Imbalance = -.171859417944E-12 Imbalance = -tendency + FW flux HEAT BUDGET FOR THE GIVEN TAVG INTERVAL (W/m^2): ------------------------------------------------ tendency = 0.126349452624E+02 SHF flux = 0.124433608387E+02 ice formation = 0.191584007235E+00 FW heat content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = -.416430550904E-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 = -.227646307196E-05 SFWF flux = -.176852338308E-05 ice formation = -.507939452953E-06 FW salt content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = 0.235929582666E-12 Imbalance = -tendency + SFWF flux + ice formation + FW salt content + free-srf non-consv. Global Time Averages: 12-01-0087 00:00:00 KAPPA_ISOP: 3857528.46685369639 KAPPA_THIC: 4285457.67384117935 HOR_DIFF: 472764.043002194667 DIA_DEPTH: 5527.75043863140309 TLT: 423.602928618854207 INT_DEPTH: 5951.35225375011032 UISOP: 0.734408547152944595E-04 VISOP: -0.366537283914420678E-03 WISOP: 0.175005349389163867E-12 ADVT_ISOP: 0.395173574653051558E-11 ADVS_ISOP: -0.239052249692557080E-14 VNT_ISOP: -0.911463201198614135E-09 VNS_ISOP: -0.201059136746449792E-11 USUBM: -0.315135076953871554E-05 VSUBM: -0.383004547180931886E-05 WSUBM: -0.811361965144601763E-09 HLS_SUBM: 869515.288641087594 ADVT_SUBM: 0.243435169682203448E-11 ADVS_SUBM: -0.112930558333032679E-16 VNT_SUBM: -0.198699570084966461E-09 VNS_SUBM: 0.296121833033047349E-14 HDIFT: -0.888741720346156639E-11 HDIFS: -0.976234920194681593E-15 QSW_HBL: 162.308630227603089 KVMIX: 1.35715800000451248 TPOWER: 0.219449274192381452E-05 UVEL: 0.302582291756552102 VVEL: 0.102716485473555177E-02 TEMP: 3.51238814257335896 dTEMP_POS_2D: 0.868660689197839342E-01 dTEMP_NEG_2D: -0.699832843374553898E-01 SALT: 0.347214699913296343E-01 RHO: 1.03743438650872544 RESID_T: 0.000000000000000000E+00 RESID_S: 0.000000000000000000E+00 SU: 108533.482497286866 SV: 331.917712186466929 SSH: 0.522320522350320184E-04 SHF: 12.4433608386974495 SHF_QSW: 190.384958830377855 SFWF: -0.176852338308231688E-05 TAUX: 0.110116011867239058 TAUY: -0.263868384144411612E-01 FW: 0.000000000000000000E+00 TFW_T: 0.000000000000000000E+00 TFW_S: 0.000000000000000000E+00 EVAP_F: -0.407297259853148290E-04 PREC_F: 0.348111066716813174E-04 SNOW_F: 0.102392611842501438E-05 MELT_F: 0.102113893995146699E-05 ROFF_F: 0.291212390052775480E-05 IOFF_F: 0.217643660432525222E-06 SALT_F: 0.281334672946698668E-10 SENH_F: -14.7796784543641486 LWUP_F: -385.358008615769393 LWDN_F: 325.739054021218635 MELTH_F: -1.26360837464821607 IFRAC: 0.786902953124315047E-01 IAGE: 221.676507704459965 WVEL: 0.767816083362500119E-06 UET: 0.664133302474339210E-07 VNT: 0.177438199276232205E-07 WTT: -0.190982884137197427E-07 UES: 0.149221871976519850E-08 VNS: -0.249176746284963622E-11 WTS: 0.438245769491379664E-12 ADVT: -0.831151084933591582E-10 ADVS: -0.155943385547367843E-13 PV: 0.124581395955201317E-13 Q: -0.951022586745767709E-08 PD: 1.02752345218514707 QSW_HTP: 139.443059990593468 QFLUX: 0.191584007235302362 HMXL: 5528.26664348169561 XMXL: 7608.92159486809214 TMXL: 3504.01816462758370 HBLT: 3591.74501961888791 XBLT: 6618.21680349511462 TBLT: 866.344123799289036 BSF: 0.000000000000000000E+00 convergence info from pcg_diag_bsf: iter = 0 rms_resid = 0.109108294713691531 iter = 100 rms_resid = 0.411900854213895131E-02 iter = 200 rms_resid = 0.831789286528460668E-03 iter = 300 rms_resid = 0.361843549851628514E-03 iter = 400 rms_resid = 0.270558282245644236E-03 iter = 500 rms_resid = 0.182108111988759492E-03 iter = 600 rms_resid = 0.482995271171605888E-04 iter = 700 rms_resid = 0.145830683391505946E-04 iter = 800 rms_resid = 0.194447562466189130E-05 iter = 900 rms_resid = 0.154467835354428775E-06 Local Time- and Space-Averages for Nino Regions: 00:00:00 0087-12-01 NINO_1_PLUS_2: 22.7347726545682853 NINO_3: 23.7573240756809376 NINO_3_POINT_4: 25.3568857063483719 NINO_4: 27.2671664029132295 tavg file written: ./b40.1850.track1.1deg.006.pop.h.0087-11.nc (time_manager) ocn date 0087-dec-02, 0.000000E+00 sec (time_manager) ocn date 0087-dec-03, 0.000000E+00 sec (time_manager) ocn date 0087-dec-04, 0.000000E+00 sec (time_manager) ocn date 0087-dec-05, 0.000000E+00 sec (time_manager) ocn date 0087-dec-06, 0.000000E+00 sec (time_manager) ocn date 0087-dec-07, 0.000000E+00 sec (time_manager) ocn date 0087-dec-08, 0.000000E+00 sec (time_manager) ocn date 0087-dec-09, 0.000000E+00 sec (time_manager) ocn date 0087-dec-10, 0.000000E+00 sec (time_manager) ocn date 0087-dec-11, 0.000000E+00 sec (time_manager) ocn date 0087-dec-12, 0.000000E+00 sec (time_manager) ocn date 0087-dec-13, 0.000000E+00 sec (time_manager) ocn date 0087-dec-14, 0.000000E+00 sec (time_manager) ocn date 0087-dec-15, 0.000000E+00 sec (time_manager) ocn date 0087-dec-16, 0.000000E+00 sec (time_manager) ocn date 0087-dec-17, 0.000000E+00 sec (time_manager) ocn date 0087-dec-18, 0.000000E+00 sec (time_manager) ocn date 0087-dec-19, 0.000000E+00 sec (time_manager) ocn date 0087-dec-20, 0.000000E+00 sec (time_manager) ocn date 0087-dec-21, 0.000000E+00 sec (time_manager) ocn date 0087-dec-22, 0.000000E+00 sec (time_manager) ocn date 0087-dec-23, 0.000000E+00 sec (time_manager) ocn date 0087-dec-24, 0.000000E+00 sec (time_manager) ocn date 0087-dec-25, 0.000000E+00 sec (time_manager) ocn date 0087-dec-26, 0.000000E+00 sec (time_manager) ocn date 0087-dec-27, 0.000000E+00 sec (time_manager) ocn date 0087-dec-28, 0.000000E+00 sec (time_manager) ocn date 0087-dec-29, 0.000000E+00 sec (time_manager) ocn date 0087-dec-30, 0.000000E+00 sec (time_manager) ocn date 0087-dec-31, 0.000000E+00 sec (ocn_comp_mct(run):) driver requests restart file at eod 0087/12/31 (time_manager) ocn date 0088-jan-01, 0.000000E+00 sec Step number : 793850 Date : 01 jan 0088 Hour : 0 Minute : 0 Second : 0 Time(years) : 87.000000 max. cfl number for zonal advection : 8.4195E-02 20 371 33 max. cfl number for meridional advection : 9.4432E-02 109 207 6 max. cfl number for vertical advection : 2.7187E-01 298 46 14 max. cfl number for total advection : 2.7999E-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. : 9.033098131230339E+00 K.E. change from horiz. visc. :-3.812950313235085E-06 K.E. change from vert. visc. : 7.489558287230091E-06 K.E. change from wind stress : 2.563761619741920E-05 advective K.E. balance :-3.045337298142356E-09 : 2.415166502164454E-09 P.E. verses pressure work : 7.646678305404243E-04 :-6.174656817887767E-06 surface-pressure contribution : 9.176022003297032E-08 :-1.530615754175208E-07 Tracer diagnostics: mean value of tracer 1 : 3.516831735841112E+00 abs change in tracer 1 : 1.525844457612892E-07 mean change in tracer 1 : 3.037818074111677E-09 mean change in tracer 1 from advection :-1.650768617497649E-24 mean change in tracer 1 from horiz. diff.:-1.120164419016262E-25 mean change in tracer 1 from vert. diff.:-1.259453846379240E-08 mean change in tracer 1 from sources : 1.549333606740936E-08 surface flux of tracer 1 : 0.000000000000000E+00 mean value of tracer 2 : 3.472153026247577E+01 abs change in tracer 2 : 1.458908131460450E-11 mean change in tracer 2 : 6.969440414358095E-14 mean change in tracer 2 from advection :-4.605939222928708E-29 mean change in tracer 2 from horiz. diff.: 3.634373918092184E-29 mean change in tracer 2 from vert. diff.: 1.725789603276191E-14 mean change in tracer 2 from sources :-3.319446819979317E-31 surface flux of tracer 2 : 0.000000000000000E+00 mean value of tracer 3 : 2.217669705937271E+02 abs change in tracer 3 : 2.623124170288440E-06 mean change in tracer 3 : 2.258985863252121E-08 mean change in tracer 3 from advection :-1.282883039883887E-23 mean change in tracer 3 from horiz. diff.: 1.084790805784169E-24 mean change in tracer 3 from vert. diff.: 2.133621201185144E-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: 5.234967321571290E-05 residual, scans : 9.313530656594250E-14 240 Timing information: Timer number 1 Time = 375.56 seconds HMIX_MOMENTUM_ANISO Timer number 2 Time = 331.25 seconds HMIX_TRACER_GM_NLOOP Timer number 3 Time = 1851.87 seconds HMIX_TRACER_GM Timer number 4 Time = 965.07 seconds VMIX_COEFFICIENTS_KPP Timer number 5 Time = 51.48 seconds VMIX_EXPLICIT_TRACER Timer number 6 Time = 25.10 seconds VMIX_EXPLICIT_MOMENTUM Timer number 7 Time = 160.34 seconds VMIX_IMPLICIT_TRACER Timer number 8 Time = 38.72 seconds VMIX_IMPLICIT_MOMENTUM Timer number 9 Time = 5.63 seconds COMPUTE_COSZ Timer number 10 Time = 69.06 seconds ADVECTION_MOMENTUM Timer number 11 Time = 359.08 seconds ADVECTION_TRACER_UPWIND3 Timer number 12 Time = 24.10 seconds MOC Timer number 13 Time = 23.67 seconds TRACER_TRANSPORTS Timer number 14 Time = 420.59 seconds TAVG_WRITE_STD Timer number 15 Time = 33.24 seconds TAVG_WRITE_NONSTD Timer number 16 Time = 22.77 seconds TAVG_CCSM_DIAGS_BSF Timer number 17 Time = 24.10 seconds TAVG_CCSM_DIAGS_MOC Timer number 18 Time = 23.68 seconds TAVG_CCSM_DIAGS_TRANS Timer number 19 Time = 5552.87 seconds STEP Timer number 20 Time = 4718.38 seconds BAROCLINIC Timer number 21 Time = 635.03 seconds BAROTROPIC Timer number 22 Time = 113.81 seconds 3D-UPDATE Timer number 23 Time = 6085.35 seconds TOTAL Timer number 24 Time = 528.06 seconds OUTPUT Timer number 25 Time = 527.98 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.0087-01-01-00000 (diag_transport) file written: /ptmp/mai/b40.1850.track1.1deg.006/run/b40.1850.track1.1deg.006.pop.dt.0087-01-01-00000 AFTER CALL IN tracer_budgets (final): ===================================== volume_t (cm^3) = 0.132514028745E+25 SUM [volume*T] (C cm^3) = 0.466028863365E+25 SUM [volume*S] (ppt cm^3) = 0.460108985416E+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 = -.224233233986E-13 FW flux = 0.000000000000E+00 Imbalance = 0.224233233986E-13 Imbalance = -tendency + FW flux HEAT BUDGET FOR THE GIVEN TAVG INTERVAL (W/m^2): ------------------------------------------------ tendency = 0.902813989174E+01 SHF flux = 0.881889420810E+01 ice formation = 0.209244596041E+00 FW heat content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = -.108759389653E-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 = -.539352716605E-06 SFWF flux = 0.154102039760E-07 ice formation = -.554762305999E-06 FW salt content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = 0.614582338543E-12 Imbalance = -tendency + SFWF flux + ice formation + FW salt content + free-srf non-consv. restart file written: ./b40.1850.track1.1deg.006.pop.r.0088-01-01-00000 restart pointer file written: ./rpointer.ocn.restart ovf_write_restart unit (mu) = 19 file name = ./b40.1850.track1.1deg.006.pop.ro.0088-01-01-00000 ovf write restart cdate yyyymmdd = 00880101 overflow restart pointer file written: ./rpointer.ocn.ovf Global Time Averages: 01-01-0088 00:00:00 KAPPA_ISOP: 3513380.11382300919 KAPPA_THIC: 3921000.71932305628 HOR_DIFF: 452664.088381447364 DIA_DEPTH: 5297.39473494063077 TLT: 388.218954581035462 INT_DEPTH: 5685.60897109331381 UISOP: 0.612489838963678284E-04 VISOP: -0.331534237167375935E-03 WISOP: -0.277183240726047694E-12 ADVT_ISOP: -0.208859469955252741E-10 ADVS_ISOP: 0.344074469592593172E-14 VNT_ISOP: -0.571531438577350360E-09 VNS_ISOP: -0.195173080061811502E-11 USUBM: -0.235443302882165599E-04 VSUBM: 0.192773784056005504E-04 WSUBM: -0.112595714886705169E-08 HLS_SUBM: 792983.770622712560 ADVT_SUBM: 0.503533993947469842E-12 ADVS_SUBM: 0.108890279987964612E-15 VNT_SUBM: 0.213124001197186332E-10 VNS_SUBM: 0.164138257466583887E-12 HDIFT: 0.498968758259367616E-10 HDIFS: -0.382460116139552536E-14 QSW_HBL: 164.480428871679834 KVMIX: 1.35872551206095094 TPOWER: 0.219999821508111155E-05 UVEL: 0.303539916968430634 VVEL: 0.883486209944294863E-03 TEMP: 3.51435243817073895 dTEMP_POS_2D: 0.853338602962261661E-01 dTEMP_NEG_2D: -0.669334672301793998E-01 SALT: 0.347215027059224607E-01 RHO: 1.03743424635982895 RESID_T: 0.000000000000000000E+00 RESID_S: 0.000000000000000000E+00 SU: 108878.492860520608 SV: 270.864044091587573 SSH: 0.525138718192539998E-04 SHF: 8.81889420810187374 SHF_QSW: 193.408923946069450 SFWF: 0.154102039759834686E-07 TAUX: 0.452822928498315333E-01 TAUY: -0.656150932643391332E-01 FW: 0.000000000000000000E+00 TFW_T: 0.000000000000000000E+00 TFW_S: 0.000000000000000000E+00 EVAP_F: -0.425598210847971285E-04 PREC_F: 0.358135911931696050E-04 SNOW_F: 0.108133406892706956E-05 MELT_F: 0.404666394957035316E-05 ROFF_F: 0.286713413068142104E-05 IOFF_F: 0.172137219549968780E-06 SALT_F: 0.112525336868890849E-07 SENH_F: -15.9604920326669397 LWUP_F: -386.783812514990132 LWDN_F: 327.184030435310774 MELTH_F: -2.16936111226016282 IFRAC: 0.760578749217185462E-01 IAGE: 221.737902382840787 WVEL: 0.789162433839316469E-06 UET: 0.550084555140987210E-07 VNT: 0.646921352809475751E-07 WTT: -0.198304684878394971E-07 UES: 0.149912561786686199E-08 VNS: -0.317945464899814777E-11 WTS: 0.254097401160592572E-12 ADVT: -0.615552809449390085E-10 ADVS: -0.896194760284286345E-15 PV: 0.676728288142992326E-13 Q: -0.957757706102186880E-08 PD: 1.02752334487533314 QSW_HTP: 141.760474813676268 QFLUX: 0.209244596041084224 HMXL: 5298.35037486624424 XMXL: 6695.24531159515755 TMXL: 3794.88368715427305 HBLT: 3729.56711889350527 XBLT: 6370.05628926508507 TBLT: 879.346609459853198 BSF: 0.000000000000000000E+00 convergence info from pcg_diag_bsf: iter = 0 rms_resid = 0.116717036882806907 iter = 100 rms_resid = 0.432424353113923000E-02 iter = 200 rms_resid = 0.848561722663140547E-03 iter = 300 rms_resid = 0.339302567817345482E-03 iter = 400 rms_resid = 0.239088097044581937E-03 iter = 500 rms_resid = 0.175547758315798384E-03 iter = 600 rms_resid = 0.493194628773763411E-04 iter = 700 rms_resid = 0.157103938684447056E-04 iter = 800 rms_resid = 0.181330602239939626E-05 iter = 900 rms_resid = 0.155696166143894314E-06 Local Time- and Space-Averages for Nino Regions: 00:00:00 0088-01-01 NINO_1_PLUS_2: 23.7955333409986380 NINO_3: 24.3614581248857682 NINO_3_POINT_4: 25.5686523416848104 NINO_4: 27.3062674840661046 tavg file written: ./b40.1850.track1.1deg.006.pop.h.0087-12.nc (time_manager) ocn date 0088-jan-02, 0.000000E+00 sec (time_manager) ocn date 0088-jan-03, 0.000000E+00 sec (time_manager) ocn date 0088-jan-04, 0.000000E+00 sec (time_manager) ocn date 0088-jan-05, 0.000000E+00 sec (time_manager) ocn date 0088-jan-06, 0.000000E+00 sec (time_manager) ocn date 0088-jan-07, 0.000000E+00 sec (time_manager) ocn date 0088-jan-08, 0.000000E+00 sec (time_manager) ocn date 0088-jan-09, 0.000000E+00 sec (time_manager) ocn date 0088-jan-10, 0.000000E+00 sec (time_manager) ocn date 0088-jan-11, 0.000000E+00 sec (time_manager) ocn date 0088-jan-12, 0.000000E+00 sec (time_manager) ocn date 0088-jan-13, 0.000000E+00 sec (time_manager) ocn date 0088-jan-14, 0.000000E+00 sec (time_manager) ocn date 0088-jan-15, 0.000000E+00 sec (time_manager) ocn date 0088-jan-16, 0.000000E+00 sec (time_manager) ocn date 0088-jan-17, 0.000000E+00 sec (time_manager) ocn date 0088-jan-18, 0.000000E+00 sec (time_manager) ocn date 0088-jan-19, 0.000000E+00 sec (time_manager) ocn date 0088-jan-20, 0.000000E+00 sec (time_manager) ocn date 0088-jan-21, 0.000000E+00 sec (time_manager) ocn date 0088-jan-22, 0.000000E+00 sec (time_manager) ocn date 0088-jan-23, 0.000000E+00 sec (time_manager) ocn date 0088-jan-24, 0.000000E+00 sec (time_manager) ocn date 0088-jan-25, 0.000000E+00 sec (time_manager) ocn date 0088-jan-26, 0.000000E+00 sec (time_manager) ocn date 0088-jan-27, 0.000000E+00 sec (time_manager) ocn date 0088-jan-28, 0.000000E+00 sec (time_manager) ocn date 0088-jan-29, 0.000000E+00 sec (time_manager) ocn date 0088-jan-30, 0.000000E+00 sec (time_manager) ocn date 0088-jan-31, 0.000000E+00 sec (time_manager) ocn date 0088-feb-01, 0.000000E+00 sec Step number : 794625 Date : 01 feb 0088 Hour : 0 Minute : 0 Second : 0 Time(years) : 87.084932 max. cfl number for zonal advection : 8.1618E-02 20 371 33 max. cfl number for meridional advection : 8.2468E-02 80 201 8 max. cfl number for vertical advection : 2.7991E-01 15 367 20 max. cfl number for total advection : 2.9930E-01 15 367 20 max. cfl number for horizontal tracer mixing : 6.0948E-01 175 380 7 max. cfl number for horiz. momentum mixing : 1.2672E-01 318 214 56 K.E. diagnostics: mean K.E. : 9.133051900038682E+00 K.E. change from horiz. visc. :-3.861258166037457E-06 K.E. change from vert. visc. : 7.562061511575316E-06 K.E. change from wind stress : 2.195236951386258E-05 advective K.E. balance : 1.014422368786869E-10 :-5.535046447937611E-10 P.E. verses pressure work : 7.347602717728793E-04 :-5.816280399461941E-06 surface-pressure contribution :-9.925353915929731E-08 : 3.713833002659908E-08 Tracer diagnostics: mean value of tracer 1 : 3.518517841555627E+00 abs change in tracer 1 : 1.458028254057907E-07 mean change in tracer 1 : 3.127879196831437E-09 mean change in tracer 1 from advection :-4.527822493707838E-24 mean change in tracer 1 from horiz. diff.: 2.535108948299961E-25 mean change in tracer 1 from vert. diff.:-1.174359131225745E-08 mean change in tracer 1 from sources : 1.477408144783277E-08 surface flux of tracer 1 : 0.000000000000000E+00 mean value of tracer 2 : 3.472153926320372E+01 abs change in tracer 2 : 1.330006793684725E-11 mean change in tracer 2 : 1.775949541411485E-14 mean change in tracer 2 from advection :-1.784801448884875E-28 mean change in tracer 2 from horiz. diff.: 1.007549205015655E-29 mean change in tracer 2 from vert. diff.:-1.897424805731577E-14 mean change in tracer 2 from sources : 1.119343156857709E-31 surface flux of tracer 2 : 0.000000000000000E+00 mean value of tracer 3 : 2.218155049079124E+02 abs change in tracer 3 : 2.445516105339506E-06 mean change in tracer 3 : 1.660581741512078E-08 mean change in tracer 3 from advection :-1.660201581026207E-23 mean change in tracer 3 from horiz. diff.:-2.499735335067869E-24 mean change in tracer 3 from vert. diff.:-1.170556978144369E-24 mean change in tracer 3 from sources : 3.162337335760043E-08 surface flux of tracer 3 : 0.000000000000000E+00 Other diagnostics: global mean sea level: 5.222620103198434E-05 residual, scans : 8.377495978663367E-14 240 Timing information: Timer number 1 Time = 407.09 seconds HMIX_MOMENTUM_ANISO Timer number 2 Time = 359.22 seconds HMIX_TRACER_GM_NLOOP Timer number 3 Time = 2009.25 seconds HMIX_TRACER_GM Timer number 4 Time = 1047.45 seconds VMIX_COEFFICIENTS_KPP Timer number 5 Time = 55.85 seconds VMIX_EXPLICIT_TRACER Timer number 6 Time = 27.23 seconds VMIX_EXPLICIT_MOMENTUM Timer number 7 Time = 173.96 seconds VMIX_IMPLICIT_TRACER Timer number 8 Time = 42.03 seconds VMIX_IMPLICIT_MOMENTUM Timer number 9 Time = 6.10 seconds COMPUTE_COSZ Timer number 10 Time = 74.90 seconds ADVECTION_MOMENTUM Timer number 11 Time = 389.56 seconds ADVECTION_TRACER_UPWIND3 Timer number 12 Time = 26.26 seconds MOC Timer number 13 Time = 25.83 seconds TRACER_TRANSPORTS Timer number 14 Time = 461.90 seconds TAVG_WRITE_STD Timer number 15 Time = 36.05 seconds TAVG_WRITE_NONSTD Timer number 16 Time = 24.84 seconds TAVG_CCSM_DIAGS_BSF Timer number 17 Time = 26.26 seconds TAVG_CCSM_DIAGS_MOC Timer number 18 Time = 25.83 seconds TAVG_CCSM_DIAGS_TRANS Timer number 19 Time = 6023.67 seconds STEP Timer number 20 Time = 5118.64 seconds BAROCLINIC Timer number 21 Time = 689.02 seconds BAROTROPIC Timer number 22 Time = 123.37 seconds 3D-UPDATE Timer number 23 Time = 6613.20 seconds TOTAL Timer number 24 Time = 584.74 seconds OUTPUT Timer number 25 Time = 578.63 seconds OUTPUT TAVG Timer number 26 Time = 6.06 seconds OUTPUT REST ------------------------------------------------------------------------ (diag_print) file written: /ptmp/mai/b40.1850.track1.1deg.006/run/b40.1850.track1.1deg.006.pop.dd.0087-01-01-00000 (diag_transport) file written: /ptmp/mai/b40.1850.track1.1deg.006/run/b40.1850.track1.1deg.006.pop.dt.0087-01-01-00000 AFTER CALL IN tracer_budgets (final): ===================================== volume_t (cm^3) = 0.132514028745E+25 SUM [volume*T] (C cm^3) = 0.466252280679E+25 SUM [volume*S] (ppt cm^3) = 0.460109105574E+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 = -.460954705014E-13 FW flux = 0.000000000000E+00 Imbalance = 0.460954705014E-13 Imbalance = -tendency + FW flux HEAT BUDGET FOR THE GIVEN TAVG INTERVAL (W/m^2): ------------------------------------------------ tendency = 0.946974769973E+01 SHF flux = 0.929460558186E+01 ice formation = 0.175142357146E+00 FW heat content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = 0.239275544822E-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 = -.357992447627E-06 SFWF flux = 0.106356230638E-06 ice formation = -.464348326154E-06 FW salt content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = 0.352110159023E-12 Imbalance = -tendency + SFWF flux + ice formation + FW salt content + free-srf non-consv. Global Time Averages: 02-01-0088 00:00:00 KAPPA_ISOP: 3490729.26466008881 KAPPA_THIC: 3959584.59421491949 HOR_DIFF: 513978.168074570247 DIA_DEPTH: 6031.94033804224273 TLT: 417.948401254248608 INT_DEPTH: 6449.88490273649950 UISOP: 0.117506020864294050E-04 VISOP: -0.328253749509004207E-03 WISOP: 0.933189456134850825E-14 ADVT_ISOP: -0.368594508043625914E-10 ADVS_ISOP: -0.653512944077903032E-16 VNT_ISOP: -0.380479412177499580E-09 VNS_ISOP: -0.197120558542776062E-11 USUBM: -0.427450288567062141E-04 VSUBM: 0.648079432810733460E-04 WSUBM: -0.196127285969439204E-08 HLS_SUBM: 753363.710837616236 ADVT_SUBM: 0.307505586389124757E-12 ADVS_SUBM: 0.606777520319437679E-17 VNT_SUBM: 0.278652954572671977E-09 VNS_SUBM: 0.504242343431761869E-12 HDIFT: -0.750521198085837221E-10 HDIFS: -0.196353079865114649E-14 QSW_HBL: 164.659079625809113 KVMIX: 1.37062858360840556 TPOWER: 0.221743954825451141E-05 UVEL: 0.310115400456714096 VVEL: -0.120717371988726107E-03 TEMP: 3.51601449526984755 dTEMP_POS_2D: 0.825626254176006213E-01 dTEMP_NEG_2D: -0.643275189670762804E-01 SALT: 0.347214951042639566E-01 RHO: 1.03743409766920824 RESID_T: 0.000000000000000000E+00 RESID_S: 0.000000000000000000E+00 SU: 111233.932103641375 SV: -88.1754192128713470 SSH: 0.523300003986553743E-04 SHF: 9.29460558185832397 SHF_QSW: 193.954286946258208 SFWF: 0.106356230637670652E-06 TAUX: 0.564344841113365372E-01 TAUY: -0.776651603526303941E-01 FW: 0.000000000000000000E+00 TFW_T: 0.000000000000000000E+00 TFW_S: 0.000000000000000000E+00 EVAP_F: -0.426766345842200065E-04 PREC_F: 0.357607033059118641E-04 SNOW_F: 0.108359306059025736E-05 MELT_F: 0.393775755759513626E-05 ROFF_F: 0.326926251947598367E-05 IOFF_F: 0.143015354905341849E-06 SALT_F: 0.113723698676722543E-07 SENH_F: -16.3262445141356523 LWUP_F: -389.917608243182997 LWDN_F: 330.998543198102254 MELTH_F: -2.27078612290931270 IFRAC: 0.694593624983511765E-01 IAGE: 221.792284094301948 WVEL: 0.780653404751479325E-06 UET: 0.364428084872255497E-07 VNT: 0.968385446516524611E-07 WTT: -0.173390817189627435E-07 UES: 0.152859493738024567E-08 VNS: -0.998798313462713086E-11 WTS: 0.772658983147633689E-12 ADVT: -0.471333974763894668E-11 ADVS: 0.289568842060983939E-14 PV: 0.118484817749762511E-12 Q: -0.971165549436692707E-08 PD: 1.02752320423851273 QSW_HTP: 141.904251661004736 QFLUX: 0.175142357146135574 HMXL: 6033.87892884058328 XMXL: 7361.02991672398275 TMXL: 4537.09464870286229 HBLT: 4182.97320903509626 XBLT: 7049.86172743226234 TBLT: 949.197486572565140 BSF: 0.000000000000000000E+00 convergence info from pcg_diag_bsf: iter = 0 rms_resid = 0.112806710918477604 iter = 100 rms_resid = 0.424288477804474293E-02 iter = 200 rms_resid = 0.854910381525016833E-03 iter = 300 rms_resid = 0.359729172204966362E-03 iter = 400 rms_resid = 0.258908949844727742E-03 iter = 500 rms_resid = 0.180593310882997809E-03 iter = 600 rms_resid = 0.501133485755072302E-04 iter = 700 rms_resid = 0.148739836341387160E-04 iter = 800 rms_resid = 0.177937032734468132E-05 iter = 900 rms_resid = 0.151534878678041875E-06 Local Time- and Space-Averages for Nino Regions: 00:00:00 0088-02-01 NINO_1_PLUS_2: 25.0015302560391213 NINO_3: 24.7190325496211685 NINO_3_POINT_4: 25.3183588255519503 NINO_4: 27.1195930154166724 tavg file written: ./b40.1850.track1.1deg.006.pop.h.0088-01.nc (time_manager) ocn date 0088-feb-02, 0.000000E+00 sec (time_manager) ocn date 0088-feb-03, 0.000000E+00 sec (time_manager) ocn date 0088-feb-04, 0.000000E+00 sec (time_manager) ocn date 0088-feb-05, 0.000000E+00 sec (time_manager) ocn date 0088-feb-06, 0.000000E+00 sec (time_manager) ocn date 0088-feb-07, 0.000000E+00 sec (time_manager) ocn date 0088-feb-08, 0.000000E+00 sec (time_manager) ocn date 0088-feb-09, 0.000000E+00 sec (time_manager) ocn date 0088-feb-10, 0.000000E+00 sec (time_manager) ocn date 0088-feb-11, 0.000000E+00 sec (time_manager) ocn date 0088-feb-12, 0.000000E+00 sec (time_manager) ocn date 0088-feb-13, 0.000000E+00 sec (time_manager) ocn date 0088-feb-14, 0.000000E+00 sec (time_manager) ocn date 0088-feb-15, 0.000000E+00 sec (time_manager) ocn date 0088-feb-16, 0.000000E+00 sec (time_manager) ocn date 0088-feb-17, 0.000000E+00 sec (time_manager) ocn date 0088-feb-18, 0.000000E+00 sec (time_manager) ocn date 0088-feb-19, 0.000000E+00 sec (time_manager) ocn date 0088-feb-20, 0.000000E+00 sec (time_manager) ocn date 0088-feb-21, 0.000000E+00 sec (time_manager) ocn date 0088-feb-22, 0.000000E+00 sec (time_manager) ocn date 0088-feb-23, 0.000000E+00 sec (time_manager) ocn date 0088-feb-24, 0.000000E+00 sec (time_manager) ocn date 0088-feb-25, 0.000000E+00 sec (time_manager) ocn date 0088-feb-26, 0.000000E+00 sec (time_manager) ocn date 0088-feb-27, 0.000000E+00 sec (time_manager) ocn date 0088-feb-28, 0.000000E+00 sec (time_manager) ocn date 0088-mar-01, 0.000000E+00 sec Step number : 795325 Date : 01 mar 0088 Hour : 0 Minute : 0 Second : 0 Time(years) : 87.161644 max. cfl number for zonal advection : 7.4294E-02 20 371 33 max. cfl number for meridional advection : 9.0601E-02 75 179 1 max. cfl number for vertical advection : 2.7468E-01 15 367 20 max. cfl number for total advection : 2.9429E-01 15 367 20 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. : 9.001118524775926E+00 K.E. change from horiz. visc. :-3.736364528284483E-06 K.E. change from vert. visc. : 4.906578882276059E-06 K.E. change from wind stress : 2.176682059396821E-05 advective K.E. balance :-1.205103226166743E-09 : 7.779173305424007E-10 P.E. verses pressure work : 6.802123093758845E-04 :-3.567433483555427E-06 surface-pressure contribution : 5.663573335784783E-07 :-6.396511426190882E-07 Tracer diagnostics: mean value of tracer 1 : 3.520379697662091E+00 abs change in tracer 1 : 1.455987284326267E-07 mean change in tracer 1 : 4.190088389605190E-09 mean change in tracer 1 from advection :-1.509274164569279E-24 mean change in tracer 1 from horiz. diff.: 1.473900551337187E-26 mean change in tracer 1 from vert. diff.:-1.159125401377070E-08 mean change in tracer 1 from sources : 1.556486788069440E-08 surface flux of tracer 1 : 0.000000000000000E+00 mean value of tracer 2 : 3.472155692670158E+01 abs change in tracer 2 : 1.391017819157375E-11 mean change in tracer 2 : 8.652326415767495E-14 mean change in tracer 2 from advection :-1.013306629044316E-27 mean change in tracer 2 from horiz. diff.:-7.916458039408718E-30 mean change in tracer 2 from vert. diff.: 4.872209287810639E-15 mean change in tracer 2 from sources :-4.966991864932008E-32 surface flux of tracer 2 : 0.000000000000000E+00 mean value of tracer 3 : 2.218602382709251E+02 abs change in tracer 3 : 2.437230058277630E-06 mean change in tracer 3 : 2.176697297422179E-08 mean change in tracer 3 from advection :-4.829677326621693E-23 mean change in tracer 3 from horiz. diff.:-9.432963528557995E-26 mean change in tracer 3 from vert. diff.: 4.402683925048758E-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: 5.190493295367333E-05 residual, scans : 7.669448877790018E-14 250 Timing information: Timer number 1 Time = 435.71 seconds HMIX_MOMENTUM_ANISO Timer number 2 Time = 384.54 seconds HMIX_TRACER_GM_NLOOP Timer number 3 Time = 2151.71 seconds HMIX_TRACER_GM Timer number 4 Time = 1122.06 seconds VMIX_COEFFICIENTS_KPP Timer number 5 Time = 59.81 seconds VMIX_EXPLICIT_TRACER Timer number 6 Time = 29.16 seconds VMIX_EXPLICIT_MOMENTUM Timer number 7 Time = 186.26 seconds VMIX_IMPLICIT_TRACER Timer number 8 Time = 44.99 seconds VMIX_IMPLICIT_MOMENTUM Timer number 9 Time = 6.54 seconds COMPUTE_COSZ Timer number 10 Time = 80.19 seconds ADVECTION_MOMENTUM Timer number 11 Time = 417.15 seconds ADVECTION_TRACER_UPWIND3 Timer number 12 Time = 28.42 seconds MOC Timer number 13 Time = 27.97 seconds TRACER_TRANSPORTS Timer number 14 Time = 499.57 seconds TAVG_WRITE_STD Timer number 15 Time = 39.22 seconds TAVG_WRITE_NONSTD Timer number 16 Time = 26.89 seconds TAVG_CCSM_DIAGS_BSF Timer number 17 Time = 28.42 seconds TAVG_CCSM_DIAGS_MOC Timer number 18 Time = 27.98 seconds TAVG_CCSM_DIAGS_TRANS Timer number 19 Time = 6449.38 seconds STEP Timer number 20 Time = 5480.87 seconds BAROCLINIC Timer number 21 Time = 737.74 seconds BAROTROPIC Timer number 22 Time = 132.12 seconds 3D-UPDATE Timer number 23 Time = 7086.91 seconds TOTAL Timer number 24 Time = 632.40 seconds OUTPUT Timer number 25 Time = 626.29 seconds OUTPUT TAVG Timer number 26 Time = 6.06 seconds OUTPUT REST ------------------------------------------------------------------------ (diag_print) file written: /ptmp/mai/b40.1850.track1.1deg.006/run/b40.1850.track1.1deg.006.pop.dd.0087-01-01-00000 (diag_transport) file written: /ptmp/mai/b40.1850.track1.1deg.006/run/b40.1850.track1.1deg.006.pop.dt.0087-01-01-00000 AFTER CALL IN tracer_budgets (final): ===================================== volume_t (cm^3) = 0.132514028745E+25 SUM [volume*T] (C cm^3) = 0.466498774147E+25 SUM [volume*S] (ppt cm^3) = 0.460109339018E+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 = -.132793569466E-12 FW flux = 0.000000000000E+00 Imbalance = 0.132793569466E-12 Imbalance = -tendency + FW flux HEAT BUDGET FOR THE GIVEN TAVG INTERVAL (W/m^2): ------------------------------------------------ tendency = 0.115672643027E+02 SHF flux = 0.113978438155E+02 ice formation = 0.169420703571E+00 FW heat content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = 0.216388712893E-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 = -.770025491103E-06 SFWF flux = -.320846576630E-06 ice formation = -.449178721818E-06 FW salt content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = 0.192654104738E-12 Imbalance = -tendency + SFWF flux + ice formation + FW salt content + free-srf non-consv. Global Time Averages: 03-01-0088 00:00:00 KAPPA_ISOP: 3601729.75972101837 KAPPA_THIC: 4148676.12131766276 HOR_DIFF: 591936.781791196321 DIA_DEPTH: 6949.46462470190636 TLT: 487.397881511882304 INT_DEPTH: 7436.85992397081009 UISOP: -0.174788544471842090E-05 VISOP: -0.299822331199544071E-03 WISOP: 0.140218668532234224E-12 ADVT_ISOP: -0.898456940487093100E-11 ADVS_ISOP: 0.914656814875531222E-16 VNT_ISOP: -0.107276557567860473E-09 VNS_ISOP: -0.171864296659558056E-11 USUBM: -0.290333929833092900E-04 VSUBM: 0.102431866929861675E-03 WSUBM: -0.831105940826445400E-08 HLS_SUBM: 788062.021464371006 ADVT_SUBM: 0.530351621881882850E-11 ADVS_SUBM: 0.179831642991634269E-15 VNT_SUBM: 0.523757773134962049E-09 VNS_SUBM: 0.777737870699591758E-12 HDIFT: 0.110867423368647635E-10 HDIFS: -0.691937674314948203E-14 QSW_HBL: 163.632532720456936 KVMIX: 1.37832063074832778 TPOWER: 0.222854355859712071E-05 UVEL: 0.319566689836067286 VVEL: 0.878432598327600852E-03 TEMP: 3.51777321958097833 dTEMP_POS_2D: 0.744717324958532462E-01 dTEMP_NEG_2D: -0.575915372963019326E-01 SALT: 0.347215076621656960E-01 RHO: 1.03743365817922251 RESID_T: 0.000000000000000000E+00 RESID_S: 0.000000000000000000E+00 SU: 114621.909013221652 SV: 266.642144791014744 SSH: 0.521457157044081086E-04 SHF: 11.3978438154860608 SHF_QSW: 192.470319745120975 SFWF: -0.320846576630211874E-06 TAUX: 0.115462322370241982 TAUY: -0.620113290678493620E-01 FW: 0.000000000000000000E+00 TFW_T: 0.000000000000000000E+00 TFW_S: 0.000000000000000000E+00 EVAP_F: -0.414415863652518434E-04 PREC_F: 0.356832789368585729E-04 SNOW_F: 0.121615263103927428E-05 MELT_F: 0.193469567197978413E-05 ROFF_F: 0.341954126571536095E-05 IOFF_F: 0.204874099435647283E-06 SALT_F: 0.422099844892009888E-08 SENH_F: -15.8921729263968707 LWUP_F: -392.613741218023961 LWDN_F: 333.198501756921246 MELTH_F: -1.64546157935812110 IFRAC: 0.637097525986298763E-01 IAGE: 221.837367934379358 WVEL: 0.724818777116076825E-06 UET: 0.207783957566783374E-07 VNT: 0.950092283864549909E-07 WTT: -0.173408258225117008E-07 UES: 0.156605985826329301E-08 VNS: -0.661591584433211722E-11 WTS: 0.756023250960876811E-12 ADVT: -0.263188044459509984E-10 ADVS: -0.218612886998123151E-14 PV: 0.143650004293413795E-12 Q: -0.981805002649117714E-08 PD: 1.02752274770630336 QSW_HTP: 140.793620987531909 QFLUX: 0.169420703571164288 HMXL: 6952.15965951037651 XMXL: 8018.73527141938030 TMXL: 4835.15804170563661 HBLT: 4445.78140298403650 XBLT: 7544.40342553913160 TBLT: 920.286367002800375 BSF: 0.000000000000000000E+00 convergence info from pcg_diag_bsf: iter = 0 rms_resid = 0.111687360769266900 iter = 100 rms_resid = 0.427790581787602930E-02 iter = 200 rms_resid = 0.870160942192303266E-03 iter = 300 rms_resid = 0.387574386466332690E-03 iter = 400 rms_resid = 0.266195317693952629E-03 iter = 500 rms_resid = 0.196883240620089139E-03 iter = 600 rms_resid = 0.522488543615879988E-04 iter = 700 rms_resid = 0.150004913647828111E-04 iter = 800 rms_resid = 0.175942274503140805E-05 iter = 900 rms_resid = 0.140236308381286976E-06 Local Time- and Space-Averages for Nino Regions: 00:00:00 0088-03-01 NINO_1_PLUS_2: 25.9938277883250812 NINO_3: 25.1686069267680885 NINO_3_POINT_4: 25.4865386709437018 NINO_4: 26.9404406916398926 tavg file written: ./b40.1850.track1.1deg.006.pop.h.0088-02.nc (time_manager) ocn date 0088-mar-02, 0.000000E+00 sec (time_manager) ocn date 0088-mar-03, 0.000000E+00 sec (time_manager) ocn date 0088-mar-04, 0.000000E+00 sec (time_manager) ocn date 0088-mar-05, 0.000000E+00 sec (time_manager) ocn date 0088-mar-06, 0.000000E+00 sec (time_manager) ocn date 0088-mar-07, 0.000000E+00 sec (time_manager) ocn date 0088-mar-08, 0.000000E+00 sec (time_manager) ocn date 0088-mar-09, 0.000000E+00 sec (time_manager) ocn date 0088-mar-10, 0.000000E+00 sec (time_manager) ocn date 0088-mar-11, 0.000000E+00 sec (time_manager) ocn date 0088-mar-12, 0.000000E+00 sec (time_manager) ocn date 0088-mar-13, 0.000000E+00 sec (time_manager) ocn date 0088-mar-14, 0.000000E+00 sec (time_manager) ocn date 0088-mar-15, 0.000000E+00 sec (time_manager) ocn date 0088-mar-16, 0.000000E+00 sec (time_manager) ocn date 0088-mar-17, 0.000000E+00 sec (time_manager) ocn date 0088-mar-18, 0.000000E+00 sec (time_manager) ocn date 0088-mar-19, 0.000000E+00 sec (time_manager) ocn date 0088-mar-20, 0.000000E+00 sec (time_manager) ocn date 0088-mar-21, 0.000000E+00 sec (time_manager) ocn date 0088-mar-22, 0.000000E+00 sec (time_manager) ocn date 0088-mar-23, 0.000000E+00 sec (time_manager) ocn date 0088-mar-24, 0.000000E+00 sec (time_manager) ocn date 0088-mar-25, 0.000000E+00 sec (time_manager) ocn date 0088-mar-26, 0.000000E+00 sec (time_manager) ocn date 0088-mar-27, 0.000000E+00 sec (time_manager) ocn date 0088-mar-28, 0.000000E+00 sec (time_manager) ocn date 0088-mar-29, 0.000000E+00 sec (time_manager) ocn date 0088-mar-30, 0.000000E+00 sec (time_manager) ocn date 0088-mar-31, 0.000000E+00 sec (time_manager) ocn date 0088-apr-01, 0.000000E+00 sec Step number : 796100 Date : 01 apr 0088 Hour : 0 Minute : 0 Second : 0 Time(years) : 87.246575 max. cfl number for zonal advection : 7.3331E-02 20 371 33 max. cfl number for meridional advection : 8.4874E-02 75 179 1 max. cfl number for vertical advection : 2.7162E-01 29 336 16 max. cfl number for total advection : 2.7733E-01 15 367 20 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. : 8.828781352042606E+00 K.E. change from horiz. visc. :-3.601781378664321E-06 K.E. change from vert. visc. : 8.847431564796918E-06 K.E. change from wind stress : 2.456727554783792E-05 advective K.E. balance :-1.768873170556900E-09 : 1.335326746885369E-09 P.E. verses pressure work : 6.604550292275634E-04 :-6.173550960211132E-06 surface-pressure contribution :-1.932545436824145E-07 : 1.274394503792771E-07 Tracer diagnostics: mean value of tracer 1 : 3.522097512598155E+00 abs change in tracer 1 : 1.364548082007031E-07 mean change in tracer 1 : 3.682800295934584E-09 mean change in tracer 1 from advection :-2.759141832103214E-24 mean change in tracer 1 from horiz. diff.: 7.664282866953371E-26 mean change in tracer 1 from vert. diff.:-1.132994920979696E-08 mean change in tracer 1 from sources : 1.476558326072084E-08 surface flux of tracer 1 : 0.000000000000000E+00 mean value of tracer 2 : 3.472163577533739E+01 abs change in tracer 2 : 1.339602470689699E-11 mean change in tracer 2 : 1.160304314292591E-13 mean change in tracer 2 from advection :-5.987720989807321E-28 mean change in tracer 2 from horiz. diff.:-2.015098410031310E-29 mean change in tracer 2 from vert. diff.: 2.280290338852362E-14 mean change in tracer 2 from sources :-3.089950374031180E-31 surface flux of tracer 2 : 0.000000000000000E+00 mean value of tracer 3 : 2.219202895033592E+02 abs change in tracer 3 : 2.345454020432004E-06 mean change in tracer 3 : 2.411937580170713E-08 mean change in tracer 3 from advection :-7.395443406389468E-23 mean change in tracer 3 from horiz. diff.: 9.432963528557995E-25 mean change in tracer 3 from vert. diff.: 1.017832295930393E-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: 5.134812977923628E-05 residual, scans : 9.011108962561970E-14 240 Timing information: Timer number 1 Time = 467.33 seconds HMIX_MOMENTUM_ANISO Timer number 2 Time = 412.85 seconds HMIX_TRACER_GM_NLOOP Timer number 3 Time = 2309.47 seconds HMIX_TRACER_GM Timer number 4 Time = 1204.47 seconds VMIX_COEFFICIENTS_KPP Timer number 5 Time = 64.19 seconds VMIX_EXPLICIT_TRACER Timer number 6 Time = 31.29 seconds VMIX_EXPLICIT_MOMENTUM Timer number 7 Time = 199.86 seconds VMIX_IMPLICIT_TRACER Timer number 8 Time = 48.24 seconds VMIX_IMPLICIT_MOMENTUM Timer number 9 Time = 7.02 seconds COMPUTE_COSZ Timer number 10 Time = 86.01 seconds ADVECTION_MOMENTUM Timer number 11 Time = 447.63 seconds ADVECTION_TRACER_UPWIND3 Timer number 12 Time = 30.59 seconds MOC Timer number 13 Time = 30.13 seconds TRACER_TRANSPORTS Timer number 14 Time = 537.16 seconds TAVG_WRITE_STD Timer number 15 Time = 42.42 seconds TAVG_WRITE_NONSTD Timer number 16 Time = 28.95 seconds TAVG_CCSM_DIAGS_BSF Timer number 17 Time = 30.59 seconds TAVG_CCSM_DIAGS_MOC Timer number 18 Time = 30.13 seconds TAVG_CCSM_DIAGS_TRANS Timer number 19 Time = 6920.94 seconds STEP Timer number 20 Time = 5882.16 seconds BAROCLINIC Timer number 21 Time = 791.47 seconds BAROTROPIC Timer number 22 Time = 141.71 seconds 3D-UPDATE Timer number 23 Time = 7606.46 seconds TOTAL Timer number 24 Time = 680.01 seconds OUTPUT Timer number 25 Time = 673.89 seconds OUTPUT TAVG Timer number 26 Time = 6.06 seconds OUTPUT REST ------------------------------------------------------------------------ (diag_print) file written: /ptmp/mai/b40.1850.track1.1deg.006/run/b40.1850.track1.1deg.006.pop.dd.0087-01-01-00000 (diag_transport) file written: /ptmp/mai/b40.1850.track1.1deg.006/run/b40.1850.track1.1deg.006.pop.dt.0087-01-01-00000 AFTER CALL IN tracer_budgets (final): ===================================== volume_t (cm^3) = 0.132514028745E+25 SUM [volume*T] (C cm^3) = 0.466726547594E+25 SUM [volume*S] (ppt cm^3) = 0.460110383448E+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 = -.207887519281E-12 FW flux = 0.000000000000E+00 Imbalance = 0.207887519281E-12 Imbalance = -tendency + FW flux HEAT BUDGET FOR THE GIVEN TAVG INTERVAL (W/m^2): ------------------------------------------------ tendency = 0.965438636189E+01 SHF flux = 0.936731907612E+01 ice formation = 0.287066840373E+00 FW heat content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = -.445403471216E-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 = -.311170769846E-05 SFWF flux = -.235061868684E-05 ice formation = -.761089487395E-06 FW salt content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = -.475774944120E-12 Imbalance = -tendency + SFWF flux + ice formation + FW salt content + free-srf non-consv. Global Time Averages: 04-01-0088 00:00:00 KAPPA_ISOP: 3808920.92572556948 KAPPA_THIC: 4361102.96182875894 HOR_DIFF: 598114.463243957725 DIA_DEPTH: 7013.03982593509772 TLT: 511.325131288028558 INT_DEPTH: 7524.36288663990672 UISOP: 0.314692931750338439E-04 VISOP: -0.217184852308898981E-03 WISOP: -0.463956965670608973E-12 ADVT_ISOP: 0.135410076634751463E-10 ADVS_ISOP: -0.239851235454147260E-14 VNT_ISOP: 0.345208113335344532E-09 VNS_ISOP: -0.116014071469447962E-11 USUBM: 0.787749456715697877E-05 VSUBM: 0.945916534868927213E-04 WSUBM: -0.118833442560513996E-07 HLS_SUBM: 842610.822294926737 ADVT_SUBM: -0.238879041224242593E-11 ADVS_SUBM: 0.113749744322154337E-14 VNT_SUBM: 0.616301818850323249E-09 VNS_SUBM: 0.725944212710562039E-12 HDIFT: 0.166766831885316503E-10 HDIFS: 0.682322539195598582E-15 QSW_HBL: 157.687826209398651 KVMIX: 1.37825842327438708 TPOWER: 0.223471083947474503E-05 UVEL: 0.318138795512339201 VVEL: 0.135107655968888106E-02 TEMP: 3.51990704927324050 dTEMP_POS_2D: 0.825349558157873059E-01 dTEMP_NEG_2D: -0.651215935393652245E-01 SALT: 0.347215640180480942E-01 RHO: 1.03743319710087833 RESID_T: 0.000000000000000000E+00 RESID_S: 0.000000000000000000E+00 SU: 114108.404295746295 SV: 436.299191980334228 SSH: 0.516798185497224942E-04 SHF: 9.36731907611826919 SHF_QSW: 186.103400631824513 SFWF: -0.235061868684271796E-05 TAUX: 0.880492646635987475E-01 TAUY: -0.683195470883155298E-01 FW: 0.000000000000000000E+00 TFW_T: 0.000000000000000000E+00 TFW_S: 0.000000000000000000E+00 EVAP_F: -0.402427398804714094E-04 PREC_F: 0.347835661909026836E-04 SNOW_F: 0.122920081562524151E-05 MELT_F: -0.105804323115222440E-05 ROFF_F: 0.368809945589775130E-05 IOFF_F: 0.269474371140778428E-06 SALT_F: -0.725337269301023715E-08 SENH_F: -14.9879082341565582 LWUP_F: -391.906165685296003 LWDN_F: 332.185500079624205 MELTH_F: -0.880306794521750313 IFRAC: 0.672516723831203533E-01 IAGE: 221.890189109456657 WVEL: 0.694834110915072843E-06 UET: 0.443558667072842443E-07 VNT: 0.940609035514827601E-07 WTT: -0.122345501642741824E-07 UES: 0.157523572172814531E-08 VNS: -0.120165225150156861E-11 WTS: 0.119941629387860178E-11 ADVT: -0.467597644923856167E-11 ADVS: -0.106635672070218816E-13 PV: 0.140916907934171888E-12 Q: -0.987134554542004453E-08 PD: 1.02752228127026046 QSW_HTP: 136.288584611260433 QFLUX: 0.287066840372765641 HMXL: 7015.38063879365109 XMXL: 8622.50187228745563 TMXL: 4269.26124779183465 HBLT: 4209.81193148036891 XBLT: 7609.39637760189544 TBLT: 895.074194487281716 BSF: 0.000000000000000000E+00 convergence info from pcg_diag_bsf: iter = 0 rms_resid = 0.103419273117978217 iter = 100 rms_resid = 0.432393941688327590E-02 iter = 200 rms_resid = 0.882406090579503175E-03 iter = 300 rms_resid = 0.373056425270722907E-03 iter = 400 rms_resid = 0.265963637742899642E-03 iter = 500 rms_resid = 0.186613038730260153E-03 iter = 600 rms_resid = 0.492671382603108144E-04 iter = 700 rms_resid = 0.154702874364207777E-04 iter = 800 rms_resid = 0.172807654158392244E-05 iter = 900 rms_resid = 0.140197256106848095E-06 Local Time- and Space-Averages for Nino Regions: 00:00:00 0088-04-01 NINO_1_PLUS_2: 26.4750038191867780 NINO_3: 25.3338397057842997 NINO_3_POINT_4: 25.9499362335489536 NINO_4: 27.3013196451784630 tavg file written: ./b40.1850.track1.1deg.006.pop.h.0088-03.nc (time_manager) ocn date 0088-apr-02, 0.000000E+00 sec (time_manager) ocn date 0088-apr-03, 0.000000E+00 sec (time_manager) ocn date 0088-apr-04, 0.000000E+00 sec (time_manager) ocn date 0088-apr-05, 0.000000E+00 sec (time_manager) ocn date 0088-apr-06, 0.000000E+00 sec (time_manager) ocn date 0088-apr-07, 0.000000E+00 sec (time_manager) ocn date 0088-apr-08, 0.000000E+00 sec (time_manager) ocn date 0088-apr-09, 0.000000E+00 sec (time_manager) ocn date 0088-apr-10, 0.000000E+00 sec (time_manager) ocn date 0088-apr-11, 0.000000E+00 sec (time_manager) ocn date 0088-apr-12, 0.000000E+00 sec (time_manager) ocn date 0088-apr-13, 0.000000E+00 sec (time_manager) ocn date 0088-apr-14, 0.000000E+00 sec (time_manager) ocn date 0088-apr-15, 0.000000E+00 sec (time_manager) ocn date 0088-apr-16, 0.000000E+00 sec (time_manager) ocn date 0088-apr-17, 0.000000E+00 sec (time_manager) ocn date 0088-apr-18, 0.000000E+00 sec (time_manager) ocn date 0088-apr-19, 0.000000E+00 sec (time_manager) ocn date 0088-apr-20, 0.000000E+00 sec (time_manager) ocn date 0088-apr-21, 0.000000E+00 sec (time_manager) ocn date 0088-apr-22, 0.000000E+00 sec (time_manager) ocn date 0088-apr-23, 0.000000E+00 sec (time_manager) ocn date 0088-apr-24, 0.000000E+00 sec (time_manager) ocn date 0088-apr-25, 0.000000E+00 sec (time_manager) ocn date 0088-apr-26, 0.000000E+00 sec (time_manager) ocn date 0088-apr-27, 0.000000E+00 sec (time_manager) ocn date 0088-apr-28, 0.000000E+00 sec (time_manager) ocn date 0088-apr-29, 0.000000E+00 sec (time_manager) ocn date 0088-apr-30, 0.000000E+00 sec (time_manager) ocn date 0088-may-01, 0.000000E+00 sec Step number : 796850 Date : 01 may 0088 Hour : 0 Minute : 0 Second : 0 Time(years) : 87.328767 max. cfl number for zonal advection : 7.5310E-02 20 371 33 max. cfl number for meridional advection : 1.0002E-01 150 215 1 max. cfl number for vertical advection : 2.2900E-01 68 359 11 max. cfl number for total advection : 2.3615E-01 68 359 11 max. cfl number for horizontal tracer mixing : 6.0948E-01 175 380 7 max. cfl number for horiz. momentum mixing : 1.2672E-01 318 214 56 K.E. diagnostics: mean K.E. : 9.400134136218833E+00 K.E. change from horiz. visc. :-3.763823687956481E-06 K.E. change from vert. visc. : 8.412083171449794E-06 K.E. change from wind stress : 2.909714344190001E-05 advective K.E. balance :-4.893994569870605E-10 : 1.236845867034696E-10 P.E. verses pressure work : 6.683293578721796E-04 :-4.059110240731047E-06 surface-pressure contribution : 2.093325890965900E-07 :-2.740973820105562E-07 Tracer diagnostics: mean value of tracer 1 : 3.521953112223250E+00 abs change in tracer 1 : 1.436580166680376E-07 mean change in tracer 1 : 1.597942941917627E-09 mean change in tracer 1 from advection :-6.603074469990597E-25 mean change in tracer 1 from horiz. diff.:-8.843403308023120E-27 mean change in tracer 1 from vert. diff.:-1.209920391565003E-08 mean change in tracer 1 from sources : 1.356087368437009E-08 surface flux of tracer 1 : 0.000000000000000E+00 mean value of tracer 2 : 3.472169751566263E+01 abs change in tracer 2 : 1.414223363240486E-11 mean change in tracer 2 : 6.606428600873387E-14 mean change in tracer 2 from advection : 1.842375689171483E-28 mean change in tracer 2 from horiz. diff.: 1.151484805732177E-29 mean change in tracer 2 from vert. diff.: 1.466401865089593E-14 mean change in tracer 2 from sources :-1.112257137744052E-31 surface flux of tracer 2 : 0.000000000000000E+00 mean value of tracer 3 : 2.219790176734518E+02 abs change in tracer 3 : 2.519481395654735E-06 mean change in tracer 3 : 2.130133833501564E-08 mean change in tracer 3 from advection :-4.829677326621693E-23 mean change in tracer 3 from horiz. diff.: 0.000000000000000E+00 mean change in tracer 3 from vert. diff.:-2.324278010551613E-27 mean change in tracer 3 from sources : 3.162337335760043E-08 surface flux of tracer 3 : 0.000000000000000E+00 Other diagnostics: global mean sea level: 5.116122895480040E-05 residual, scans : 8.959152398814289E-14 240 Timing information: Timer number 1 Time = 498.05 seconds HMIX_MOMENTUM_ANISO Timer number 2 Time = 440.14 seconds HMIX_TRACER_GM_NLOOP Timer number 3 Time = 2462.18 seconds HMIX_TRACER_GM Timer number 4 Time = 1283.82 seconds VMIX_COEFFICIENTS_KPP Timer number 5 Time = 68.41 seconds VMIX_EXPLICIT_TRACER Timer number 6 Time = 33.35 seconds VMIX_EXPLICIT_MOMENTUM Timer number 7 Time = 213.05 seconds VMIX_IMPLICIT_TRACER Timer number 8 Time = 51.32 seconds VMIX_IMPLICIT_MOMENTUM Timer number 9 Time = 7.48 seconds COMPUTE_COSZ Timer number 10 Time = 91.68 seconds ADVECTION_MOMENTUM Timer number 11 Time = 477.12 seconds ADVECTION_TRACER_UPWIND3 Timer number 12 Time = 32.76 seconds MOC Timer number 13 Time = 32.29 seconds TRACER_TRANSPORTS Timer number 14 Time = 574.76 seconds TAVG_WRITE_STD Timer number 15 Time = 46.00 seconds TAVG_WRITE_NONSTD Timer number 16 Time = 31.01 seconds TAVG_CCSM_DIAGS_BSF Timer number 17 Time = 32.76 seconds TAVG_CCSM_DIAGS_MOC Timer number 18 Time = 32.29 seconds TAVG_CCSM_DIAGS_TRANS Timer number 19 Time = 7376.93 seconds STEP Timer number 20 Time = 6269.64 seconds BAROCLINIC Timer number 21 Time = 843.37 seconds BAROTROPIC Timer number 22 Time = 151.14 seconds 3D-UPDATE Timer number 23 Time = 8110.75 seconds TOTAL Timer number 24 Time = 727.95 seconds OUTPUT Timer number 25 Time = 721.83 seconds OUTPUT TAVG Timer number 26 Time = 6.07 seconds OUTPUT REST ------------------------------------------------------------------------ (diag_print) file written: /ptmp/mai/b40.1850.track1.1deg.006/run/b40.1850.track1.1deg.006.pop.dd.0087-01-01-00000 (diag_transport) file written: /ptmp/mai/b40.1850.track1.1deg.006/run/b40.1850.track1.1deg.006.pop.dt.0087-01-01-00000 AFTER CALL IN tracer_budgets (final): ===================================== volume_t (cm^3) = 0.132514028745E+25 SUM [volume*T] (C cm^3) = 0.466707883036E+25 SUM [volume*S] (ppt cm^3) = 0.460111201782E+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 = -.721218815501E-13 FW flux = 0.000000000000E+00 Imbalance = 0.721218815501E-13 Imbalance = -tendency + FW flux HEAT BUDGET FOR THE GIVEN TAVG INTERVAL (W/m^2): ------------------------------------------------ tendency = -.817484874309E+00 SHF flux = -.106641311669E+01 ice formation = 0.248928659276E+00 FW heat content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = 0.416896380334E-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 = -.251936062543E-05 SFWF flux = -.185938473770E-05 ice formation = -.659975166203E-06 FW salt content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = 0.721530530161E-12 Imbalance = -tendency + SFWF flux + ice formation + FW salt content + free-srf non-consv. Global Time Averages: 05-01-0088 00:00:00 KAPPA_ISOP: 3806042.39821562776 KAPPA_THIC: 4324029.03546514828 HOR_DIFF: 565004.391541806981 DIA_DEPTH: 6629.64759000372214 TLT: 467.294454794532214 INT_DEPTH: 7096.94351320707938 UISOP: 0.423828442631197301E-04 VISOP: -0.175329347754103320E-03 WISOP: 0.392360170966839059E-13 ADVT_ISOP: 0.302640550182902903E-10 ADVS_ISOP: 0.170095062312957790E-14 VNT_ISOP: 0.498889212965520993E-09 VNS_ISOP: -0.868459113101800361E-12 USUBM: 0.601001595390966660E-05 VSUBM: 0.614053926656829677E-04 WSUBM: -0.447401086878743500E-08 HLS_SUBM: 847775.561766571598 ADVT_SUBM: -0.786429827920162094E-13 ADVS_SUBM: 0.149312820190076025E-15 VNT_SUBM: 0.371549171042661574E-09 VNS_SUBM: 0.485279693251043234E-12 HDIFT: -0.122706959324268398E-10 HDIFS: -0.231852705696601134E-14 QSW_HBL: 148.062712629838444 KVMIX: 1.37190605678304123 TPOWER: 0.221833816299627311E-05 UVEL: 0.319124150633042836 VVEL: 0.128791123730354735E-02 TEMP: 3.52039997407373306 dTEMP_POS_2D: 0.881737514484995655E-01 dTEMP_NEG_2D: -0.711253305317685602E-01 SALT: 0.347216466053592368E-01 RHO: 1.03743301142177313 RESID_T: 0.000000000000000000E+00 RESID_S: 0.000000000000000000E+00 SU: 114463.486147513890 SV: 413.186038626140828 SSH: 0.512794799185410121E-04 SHF: -1.06641311668904959 SHF_QSW: 173.485260449951767 SFWF: -0.185938473769681604E-05 TAUX: 0.113017453339806534 TAUY: -0.412148958919540051E-01 FW: 0.000000000000000000E+00 TFW_T: 0.000000000000000000E+00 TFW_S: 0.000000000000000000E+00 EVAP_F: -0.402203581932272604E-04 PREC_F: 0.354398785983442560E-04 SNOW_F: 0.954291457518127667E-06 MELT_F: -0.196945099174212510E-05 ROFF_F: 0.424221363738030851E-05 IOFF_F: 0.334855897572682166E-06 SALT_F: -0.108770978511128550E-07 SENH_F: -13.3808611219331244 LWUP_F: -388.553234893603417 LWDN_F: 329.006815136181444 MELTH_F: -0.603087541582136621 IFRAC: 0.756830790245847790E-01 IAGE: 221.949773932729869 WVEL: 0.686779173812105521E-06 UET: 0.967642442249279353E-07 VNT: 0.569271038329800558E-07 WTT: -0.160636778778655756E-07 UES: 0.157208258427896656E-08 VNS: 0.103388123930055464E-11 WTS: 0.648104069204895377E-12 ADVT: -0.528769390103074973E-10 ADVS: -0.615776327222864832E-14 PV: 0.115861584662901948E-12 Q: -0.978224047695786503E-08 PD: 1.02752210558576507 QSW_HTP: 127.403253365816624 QFLUX: 0.248928659276019731 HMXL: 6630.92953662269792 XMXL: 8597.95388204116716 TMXL: 4179.32490639360640 HBLT: 4119.32484027335977 XBLT: 7304.32070141162694 TBLT: 934.422995653030739 BSF: 0.000000000000000000E+00 convergence info from pcg_diag_bsf: iter = 0 rms_resid = 0.102031280256342699 iter = 100 rms_resid = 0.432687608897829555E-02 iter = 200 rms_resid = 0.914625476954568795E-03 iter = 300 rms_resid = 0.377344889915015049E-03 iter = 400 rms_resid = 0.271521379640626761E-03 iter = 500 rms_resid = 0.194740252041233826E-03 iter = 600 rms_resid = 0.505369155058973818E-04 iter = 700 rms_resid = 0.160469809132066840E-04 iter = 800 rms_resid = 0.187543251275160353E-05 iter = 900 rms_resid = 0.155913312235514912E-06 Local Time- and Space-Averages for Nino Regions: 00:00:00 0088-05-01 NINO_1_PLUS_2: 26.0865538994205721 NINO_3: 25.5950961302230944 NINO_3_POINT_4: 26.3267940070205029 NINO_4: 27.7862252784676329 tavg file written: ./b40.1850.track1.1deg.006.pop.h.0088-04.nc (time_manager) ocn date 0088-may-02, 0.000000E+00 sec (time_manager) ocn date 0088-may-03, 0.000000E+00 sec (time_manager) ocn date 0088-may-04, 0.000000E+00 sec (time_manager) ocn date 0088-may-05, 0.000000E+00 sec (time_manager) ocn date 0088-may-06, 0.000000E+00 sec (time_manager) ocn date 0088-may-07, 0.000000E+00 sec (time_manager) ocn date 0088-may-08, 0.000000E+00 sec (time_manager) ocn date 0088-may-09, 0.000000E+00 sec (time_manager) ocn date 0088-may-10, 0.000000E+00 sec (time_manager) ocn date 0088-may-11, 0.000000E+00 sec (time_manager) ocn date 0088-may-12, 0.000000E+00 sec (time_manager) ocn date 0088-may-13, 0.000000E+00 sec (time_manager) ocn date 0088-may-14, 0.000000E+00 sec (time_manager) ocn date 0088-may-15, 0.000000E+00 sec (time_manager) ocn date 0088-may-16, 0.000000E+00 sec (time_manager) ocn date 0088-may-17, 0.000000E+00 sec (time_manager) ocn date 0088-may-18, 0.000000E+00 sec (time_manager) ocn date 0088-may-19, 0.000000E+00 sec (time_manager) ocn date 0088-may-20, 0.000000E+00 sec (time_manager) ocn date 0088-may-21, 0.000000E+00 sec (time_manager) ocn date 0088-may-22, 0.000000E+00 sec (time_manager) ocn date 0088-may-23, 0.000000E+00 sec (time_manager) ocn date 0088-may-24, 0.000000E+00 sec (time_manager) ocn date 0088-may-25, 0.000000E+00 sec (time_manager) ocn date 0088-may-26, 0.000000E+00 sec (time_manager) ocn date 0088-may-27, 0.000000E+00 sec (time_manager) ocn date 0088-may-28, 0.000000E+00 sec (time_manager) ocn date 0088-may-29, 0.000000E+00 sec (time_manager) ocn date 0088-may-30, 0.000000E+00 sec (time_manager) ocn date 0088-may-31, 0.000000E+00 sec ovf_loc_prd: nsteps_total= 797624 ovf= 3 swap ovf UV old/new prd set old/new= 1 5 (time_manager) ocn date 0088-jun-01, 0.000000E+00 sec Step number : 797625 Date : 01 jun 0088 Hour : 0 Minute : 0 Second : 0 Time(years) : 87.413699 max. cfl number for zonal advection : 7.9222E-02 20 371 33 max. cfl number for meridional advection : 9.5920E-02 6 169 4 max. cfl number for vertical advection : 2.3200E-01 29 336 16 max. cfl number for total advection : 2.3759E-01 29 336 16 max. cfl number for horizontal tracer mixing : 6.0948E-01 175 380 7 max. cfl number for horiz. momentum mixing : 1.2672E-01 318 214 56 K.E. diagnostics: mean K.E. : 9.467605006938832E+00 K.E. change from horiz. visc. :-3.669587173420535E-06 K.E. change from vert. visc. : 8.829424153215029E-06 K.E. change from wind stress : 2.612568517993929E-05 advective K.E. balance :-6.618693442840925E-10 : 1.242010595339253E-10 P.E. verses pressure work : 8.536140179236536E-04 :-7.349888304289884E-06 surface-pressure contribution :-1.088577689765905E-06 : 1.031422691298652E-06 Tracer diagnostics: mean value of tracer 1 : 3.520210839195814E+00 abs change in tracer 1 : 1.277744059351186E-07 mean change in tracer 1 : 1.242687775505507E-09 mean change in tracer 1 from advection :-3.961844681994358E-24 mean change in tracer 1 from horiz. diff.: 1.621290606470906E-25 mean change in tracer 1 from vert. diff.:-1.138256790510012E-08 mean change in tracer 1 from sources : 1.251705956577099E-08 surface flux of tracer 1 : 0.000000000000000E+00 mean value of tracer 2 : 3.472171241877665E+01 abs change in tracer 2 : 1.298381139023692E-11 mean change in tracer 2 : 2.281618442997777E-14 mean change in tracer 2 from advection : 3.224157456050096E-28 mean change in tracer 2 from horiz. diff.: 3.598390017913053E-30 mean change in tracer 2 from vert. diff.:-1.799382313871430E-14 mean change in tracer 2 from sources :-1.032244054340609E-31 surface flux of tracer 2 : 0.000000000000000E+00 mean value of tracer 3 : 2.220313100954841E+02 abs change in tracer 3 : 2.300854846248884E-06 mean change in tracer 3 : 1.832418247186534E-08 mean change in tracer 3 from advection :-2.414838663310847E-23 mean change in tracer 3 from horiz. diff.:-2.829889058567399E-25 mean change in tracer 3 from vert. diff.: 4.361201003683322E-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: 5.123874644664661E-05 residual, scans : 8.051104635995451E-14 250 Timing information: Timer number 1 Time = 530.11 seconds HMIX_MOMENTUM_ANISO Timer number 2 Time = 468.10 seconds HMIX_TRACER_GM_NLOOP Timer number 3 Time = 2619.54 seconds HMIX_TRACER_GM Timer number 4 Time = 1366.55 seconds VMIX_COEFFICIENTS_KPP Timer number 5 Time = 72.77 seconds VMIX_EXPLICIT_TRACER Timer number 6 Time = 35.47 seconds VMIX_EXPLICIT_MOMENTUM Timer number 7 Time = 226.68 seconds VMIX_IMPLICIT_TRACER Timer number 8 Time = 54.57 seconds VMIX_IMPLICIT_MOMENTUM Timer number 9 Time = 7.96 seconds COMPUTE_COSZ Timer number 10 Time = 97.55 seconds ADVECTION_MOMENTUM Timer number 11 Time = 507.61 seconds ADVECTION_TRACER_UPWIND3 Timer number 12 Time = 34.92 seconds MOC Timer number 13 Time = 34.44 seconds TRACER_TRANSPORTS Timer number 14 Time = 615.27 seconds TAVG_WRITE_STD Timer number 15 Time = 49.05 seconds TAVG_WRITE_NONSTD Timer number 16 Time = 33.26 seconds TAVG_CCSM_DIAGS_BSF Timer number 17 Time = 34.92 seconds TAVG_CCSM_DIAGS_MOC Timer number 18 Time = 34.44 seconds TAVG_CCSM_DIAGS_TRANS Timer number 19 Time = 7848.13 seconds STEP Timer number 20 Time = 6670.63 seconds BAROCLINIC Timer number 21 Time = 896.53 seconds BAROTROPIC Timer number 22 Time = 160.88 seconds 3D-UPDATE Timer number 23 Time = 8632.99 seconds TOTAL Timer number 24 Time = 778.63 seconds OUTPUT Timer number 25 Time = 772.50 seconds OUTPUT TAVG Timer number 26 Time = 6.07 seconds OUTPUT REST ------------------------------------------------------------------------ (diag_print) file written: /ptmp/mai/b40.1850.track1.1deg.006/run/b40.1850.track1.1deg.006.pop.dd.0087-01-01-00000 (diag_transport) file written: /ptmp/mai/b40.1850.track1.1deg.006/run/b40.1850.track1.1deg.006.pop.dt.0087-01-01-00000 AFTER CALL IN tracer_budgets (final): ===================================== volume_t (cm^3) = 0.132514028745E+25 SUM [volume*T] (C cm^3) = 0.466477079415E+25 SUM [volume*S] (ppt cm^3) = 0.460111400096E+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 = 0.289449582980E-13 FW flux = 0.000000000000E+00 Imbalance = -.289449582980E-13 Imbalance = -tendency + FW flux HEAT BUDGET FOR THE GIVEN TAVG INTERVAL (W/m^2): ------------------------------------------------ tendency = -.978282309921E+01 SHF flux = -.996742310981E+01 ice formation = 0.184599667924E+00 FW heat content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = -.342675777448E-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 = -.590841261314E-06 SFWF flux = -.101419505652E-06 ice formation = -.489422137545E-06 FW salt content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = -.381882355391E-12 Imbalance = -tendency + SFWF flux + ice formation + FW salt content + free-srf non-consv. Global Time Averages: 06-01-0088 00:00:00 KAPPA_ISOP: 3529689.37150444277 KAPPA_THIC: 3975875.49367525149 HOR_DIFF: 491813.699753826426 DIA_DEPTH: 5789.96311248814800 TLT: 358.237637059694634 INT_DEPTH: 6148.19760707471778 UISOP: 0.772450931346060487E-04 VISOP: -0.293296655193519466E-03 WISOP: -0.197034425289759666E-12 ADVT_ISOP: 0.430122449781973194E-11 ADVS_ISOP: -0.278634903797105032E-14 VNT_ISOP: -0.373681793684216548E-09 VNS_ISOP: -0.182159302882848091E-11 USUBM: -0.923060029850699708E-06 VSUBM: -0.783953628857521287E-05 WSUBM: -0.111665334865598629E-08 HLS_SUBM: 846498.757128126221 ADVT_SUBM: 0.222742471385800929E-12 ADVS_SUBM: 0.153737488824204478E-16 VNT_SUBM: -0.410902050770663425E-11 VNS_SUBM: -0.513894523037306337E-13 HDIFT: -0.446106669270745799E-10 HDIFS: 0.362782141109149042E-14 QSW_HBL: 134.975647427076126 KVMIX: 1.36269411395432449 TPOWER: 0.221578699302924610E-05 UVEL: 0.329732937047398644 VVEL: 0.136142092344133459E-02 TEMP: 3.51953250253724281 dTEMP_POS_2D: 0.948048806429033358E-01 dTEMP_NEG_2D: -0.771879077334216152E-01 SALT: 0.347216800486373975E-01 RHO: 1.03743319756922947 RESID_T: 0.000000000000000000E+00 RESID_S: 0.000000000000000000E+00 SU: 118269.201609195807 SV: 448.519614420325581 SSH: 0.513334905507244763E-04 SHF: -9.96742310981122337 SHF_QSW: 161.146851311752357 SFWF: -0.101419505651841453E-06 TAUX: 0.105284284027218233 TAUY: -0.119513832864259380E-01 FW: 0.000000000000000000E+00 TFW_T: 0.000000000000000000E+00 TFW_S: 0.000000000000000000E+00 EVAP_F: -0.390715938796205151E-04 PREC_F: 0.345552019486960712E-04 SNOW_F: 0.974734299027275067E-06 MELT_F: -0.773519283298637613E-06 ROFF_F: 0.467873121026153594E-05 IOFF_F: 0.314269722369084249E-06 SALT_F: -0.678217643178589397E-08 SENH_F: -13.8685436096097074 LWUP_F: -386.924097962957603 LWDN_F: 328.582940533662395 MELTH_F: -0.756376710107201200 IFRAC: 0.792611927213005968E-01 IAGE: 222.005672907961639 WVEL: 0.708579003245295281E-06 UET: 0.135198881376028905E-06 VNT: 0.137455982542643291E-08 WTT: -0.115389101730679483E-07 UES: 0.159361710782790196E-08 VNS: 0.932477994401486334E-11 WTS: 0.977343252502785407E-12 ADVT: 0.703385525920297118E-10 ADVS: 0.140747608137122550E-14 PV: 0.704669990176035565E-13 Q: -0.973863096564477898E-08 PD: 1.02752232939967936 QSW_HTP: 119.184640055106172 QFLUX: 0.184599667923912220 HMXL: 5790.26882861480135 XMXL: 7801.05797997107311 TMXL: 4503.36073851158289 HBLT: 3978.53313288502522 XBLT: 6898.62447473152588 TBLT: 921.446187919805539 BSF: 0.000000000000000000E+00 convergence info from pcg_diag_bsf: iter = 0 rms_resid = 0.998632385596654459E-01 iter = 100 rms_resid = 0.440566444212906871E-02 iter = 200 rms_resid = 0.909801242067825107E-03 iter = 300 rms_resid = 0.391726664779570594E-03 iter = 400 rms_resid = 0.292814368885965250E-03 iter = 500 rms_resid = 0.190534060302334458E-03 iter = 600 rms_resid = 0.488939149545511976E-04 iter = 700 rms_resid = 0.156614458175105442E-04 iter = 800 rms_resid = 0.175493680060839751E-05 iter = 900 rms_resid = 0.148894162591226524E-06 Local Time- and Space-Averages for Nino Regions: 00:00:00 0088-06-01 NINO_1_PLUS_2: 24.7419385326423331 NINO_3: 26.1070091796814658 NINO_3_POINT_4: 27.0106628829356588 NINO_4: 28.2428115268487225 tavg file written: ./b40.1850.track1.1deg.006.pop.h.0088-05.nc ovf_loc_prd: nsteps_total= 797630 ovf= 3 swap ovf UV old/new prd set old/new= 5 1 (time_manager) ocn date 0088-jun-02, 0.000000E+00 sec (time_manager) ocn date 0088-jun-03, 0.000000E+00 sec ovf_loc_prd: nsteps_total= 797679 ovf= 3 swap ovf UV old/new prd set old/new= 1 5 (time_manager) ocn date 0088-jun-04, 0.000000E+00 sec (time_manager) ocn date 0088-jun-05, 0.000000E+00 sec (time_manager) ocn date 0088-jun-06, 0.000000E+00 sec ovf_loc_prd: nsteps_total= 797752 ovf= 3 swap ovf UV old/new prd set old/new= 5 1 (time_manager) ocn date 0088-jun-07, 0.000000E+00 sec (time_manager) ocn date 0088-jun-08, 0.000000E+00 sec ovf_loc_prd: nsteps_total= 797809 ovf= 3 swap ovf UV old/new prd set old/new= 1 5 (time_manager) ocn date 0088-jun-09, 0.000000E+00 sec (time_manager) ocn date 0088-jun-10, 0.000000E+00 sec (time_manager) ocn date 0088-jun-11, 0.000000E+00 sec (time_manager) ocn date 0088-jun-12, 0.000000E+00 sec (time_manager) ocn date 0088-jun-13, 0.000000E+00 sec (time_manager) ocn date 0088-jun-14, 0.000000E+00 sec (time_manager) ocn date 0088-jun-15, 0.000000E+00 sec (time_manager) ocn date 0088-jun-16, 0.000000E+00 sec (time_manager) ocn date 0088-jun-17, 0.000000E+00 sec (time_manager) ocn date 0088-jun-18, 0.000000E+00 sec ovf_loc_prd: nsteps_total= 798068 ovf= 3 swap ovf UV old/new prd set old/new= 5 2 (time_manager) ocn date 0088-jun-19, 0.000000E+00 sec (time_manager) ocn date 0088-jun-20, 0.000000E+00 sec (time_manager) ocn date 0088-jun-21, 0.000000E+00 sec ovf_loc_prd: nsteps_total= 798133 ovf= 3 swap ovf UV old/new prd set old/new= 2 5 (time_manager) ocn date 0088-jun-22, 0.000000E+00 sec (time_manager) ocn date 0088-jun-23, 0.000000E+00 sec (time_manager) ocn date 0088-jun-24, 0.000000E+00 sec (time_manager) ocn date 0088-jun-25, 0.000000E+00 sec ovf_loc_prd: nsteps_total= 798241 ovf= 3 swap ovf UV old/new prd set old/new= 5 2 (time_manager) ocn date 0088-jun-26, 0.000000E+00 sec (time_manager) ocn date 0088-jun-27, 0.000000E+00 sec (time_manager) ocn date 0088-jun-28, 0.000000E+00 sec ovf_loc_prd: nsteps_total= 798304 ovf= 3 swap ovf UV old/new prd set old/new= 2 5 (time_manager) ocn date 0088-jun-29, 0.000000E+00 sec (time_manager) ocn date 0088-jun-30, 0.000000E+00 sec ovf_loc_prd: nsteps_total= 798358 ovf= 3 swap ovf UV old/new prd set old/new= 5 2 (time_manager) ocn date 0088-jul-01, 0.000000E+00 sec Step number : 798375 Date : 01 jul 0088 Hour : 0 Minute : 0 Second : 0 Time(years) : 87.495890 max. cfl number for zonal advection : 8.3886E-02 20 371 33 max. cfl number for meridional advection : 1.0771E-01 316 192 1 max. cfl number for vertical advection : 2.1380E-01 240 377 11 max. cfl number for total advection : 2.3690E-01 240 377 11 max. cfl number for horizontal tracer mixing : 6.2792E-01 87 383 2 max. cfl number for horiz. momentum mixing : 1.2672E-01 318 214 56 K.E. diagnostics: mean K.E. : 9.296470010434337E+00 K.E. change from horiz. visc. :-4.173079849349300E-06 K.E. change from vert. visc. : 8.982225655127828E-06 K.E. change from wind stress : 3.099012795223083E-05 advective K.E. balance : 1.126960267880794E-09 :-1.809847506760962E-09 P.E. verses pressure work : 7.600087827135643E-04 :-9.700102202798266E-06 surface-pressure contribution :-6.605761050019481E-07 : 5.832731099294488E-07 Tracer diagnostics: mean value of tracer 1 : 3.516194909661106E+00 abs change in tracer 1 : 1.371088556097561E-07 mean change in tracer 1 : 6.445615056014620E-10 mean change in tracer 1 from advection :-4.716481764278997E-25 mean change in tracer 1 from horiz. diff.:-2.063460771872062E-26 mean change in tracer 1 from vert. diff.:-1.144103893344436E-08 mean change in tracer 1 from sources : 1.200103028255902E-08 surface flux of tracer 1 : 0.000000000000000E+00 mean value of tracer 2 : 3.472162322385874E+01 abs change in tracer 2 : 1.354206872852149E-11 mean change in tracer 2 :-2.990390434960718E-14 mean change in tracer 2 from advection :-1.116940261560212E-27 mean change in tracer 2 from horiz. diff.: 1.151484805732177E-29 mean change in tracer 2 from vert. diff.:-6.180254259204773E-14 mean change in tracer 2 from sources : 4.817259476759727E-32 surface flux of tracer 2 : 0.000000000000000E+00 mean value of tracer 3 : 2.220670660615130E+02 abs change in tracer 3 : 2.523648605221320E-06 mean change in tracer 3 : 8.624243577521018E-09 mean change in tracer 3 from advection :-7.395443406389468E-23 mean change in tracer 3 from horiz. diff.: 1.745098252783229E-24 mean change in tracer 3 from vert. diff.:-8.074939424942888E-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: 5.141026597576656E-05 residual, scans : 7.238227100646969E-14 240 Timing information: Timer number 1 Time = 561.29 seconds HMIX_MOMENTUM_ANISO Timer number 2 Time = 495.17 seconds HMIX_TRACER_GM_NLOOP Timer number 3 Time = 2771.61 seconds HMIX_TRACER_GM Timer number 4 Time = 1446.43 seconds VMIX_COEFFICIENTS_KPP Timer number 5 Time = 76.99 seconds VMIX_EXPLICIT_TRACER Timer number 6 Time = 37.52 seconds VMIX_EXPLICIT_MOMENTUM Timer number 7 Time = 239.86 seconds VMIX_IMPLICIT_TRACER Timer number 8 Time = 57.78 seconds VMIX_IMPLICIT_MOMENTUM Timer number 9 Time = 8.42 seconds COMPUTE_COSZ Timer number 10 Time = 103.29 seconds ADVECTION_MOMENTUM Timer number 11 Time = 537.12 seconds ADVECTION_TRACER_UPWIND3 Timer number 12 Time = 37.17 seconds MOC Timer number 13 Time = 36.59 seconds TRACER_TRANSPORTS Timer number 14 Time = 652.81 seconds TAVG_WRITE_STD Timer number 15 Time = 52.03 seconds TAVG_WRITE_NONSTD Timer number 16 Time = 35.31 seconds TAVG_CCSM_DIAGS_BSF Timer number 17 Time = 37.17 seconds TAVG_CCSM_DIAGS_MOC Timer number 18 Time = 36.59 seconds TAVG_CCSM_DIAGS_TRANS Timer number 19 Time = 8304.63 seconds STEP Timer number 20 Time = 7058.56 seconds BAROCLINIC Timer number 21 Time = 948.67 seconds BAROTROPIC Timer number 22 Time = 170.59 seconds 3D-UPDATE Timer number 23 Time = 9137.21 seconds TOTAL Timer number 24 Time = 825.97 seconds OUTPUT Timer number 25 Time = 819.83 seconds OUTPUT TAVG Timer number 26 Time = 6.07 seconds OUTPUT REST ------------------------------------------------------------------------ (diag_print) file written: /ptmp/mai/b40.1850.track1.1deg.006/run/b40.1850.track1.1deg.006.pop.dd.0087-01-01-00000 (diag_transport) file written: /ptmp/mai/b40.1850.track1.1deg.006/run/b40.1850.track1.1deg.006.pop.dt.0087-01-01-00000 AFTER CALL IN tracer_budgets (final): ===================================== volume_t (cm^3) = 0.132514028745E+25 SUM [volume*T] (C cm^3) = 0.465945056426E+25 SUM [volume*S] (ppt cm^3) = 0.460110219177E+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 = 0.661858062097E-13 FW flux = 0.000000000000E+00 Imbalance = -.661858062097E-13 Imbalance = -tendency + FW flux HEAT BUDGET FOR THE GIVEN TAVG INTERVAL (W/m^2): ------------------------------------------------ tendency = -.233019582292E+02 SHF flux = -.234203395439E+02 ice formation = 0.118381065076E+00 FW heat content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = -.249648897666E-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 = 0.363562958706E-05 SFWF flux = 0.394948879094E-05 ice formation = -.313859253192E-06 FW salt content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = -.493177683996E-13 Imbalance = -tendency + SFWF flux + ice formation + FW salt content + free-srf non-consv. Global Time Averages: 07-01-0088 00:00:00 KAPPA_ISOP: 3433610.02438626578 KAPPA_THIC: 3927824.57625041530 HOR_DIFF: 539946.273941192310 DIA_DEPTH: 6380.17954192346770 TLT: 356.257547744248257 INT_DEPTH: 6736.43007551227674 UISOP: 0.792412366063661820E-04 VISOP: -0.359289306387546785E-03 WISOP: 0.392510007726434205E-13 ADVT_ISOP: -0.457537256285487905E-11 ADVS_ISOP: 0.418921409145518266E-14 VNT_ISOP: -0.799940550970570407E-09 VNS_ISOP: -0.226844709906153253E-11 USUBM: -0.496427920225393095E-05 VSUBM: -0.199724849280195039E-04 WSUBM: -0.126475852756715485E-08 HLS_SUBM: 771077.195281992666 ADVT_SUBM: 0.114257944752112595E-11 ADVS_SUBM: -0.406588556046901676E-15 VNT_SUBM: -0.107463617173435202E-09 VNS_SUBM: -0.124331824047281608E-12 HDIFT: 0.230105834056819333E-10 HDIFS: -0.272041118402665859E-14 QSW_HBL: 128.540997457858793 KVMIX: 1.36497368883774461 TPOWER: 0.220948060604247863E-05 UVEL: 0.330064082454654795 VVEL: 0.151656194774582001E-02 TEMP: 3.51659161019529876 dTEMP_POS_2D: 0.909257428112858757E-01 dTEMP_NEG_2D: -0.726866250631082594E-01 SALT: 0.347216518946987171E-01 RHO: 1.03743377626577304 RESID_T: 0.000000000000000000E+00 RESID_S: 0.000000000000000000E+00 SU: 118389.211101648223 SV: 509.487129439980720 SSH: 0.512818336133637616E-04 SHF: -23.4203395439068416 SHF_QSW: 150.534056942465213 SFWF: 0.394948879093840264E-05 TAUX: 0.150692909754874593 TAUY: 0.275622352870236245E-01 FW: 0.000000000000000000E+00 TFW_T: 0.000000000000000000E+00 TFW_S: 0.000000000000000000E+00 EVAP_F: -0.408234396278762973E-04 PREC_F: 0.365319053531104805E-04 SNOW_F: 0.926766425765391606E-06 MELT_F: 0.306393514764095462E-05 ROFF_F: 0.507966938075994879E-05 IOFF_F: 0.231501373603221904E-06 SALT_F: 0.465309915053827179E-08 SENH_F: -13.8776143389413438 LWUP_F: -386.093595483631191 LWDN_F: 329.849820715544183 MELTH_F: -1.34707365684516356 IFRAC: 0.800633899729186471E-01 IAGE: 222.050595113509473 WVEL: 0.839410420376888963E-06 UET: 0.743487236982161809E-07 VNT: -0.397699425981884311E-07 WTT: -0.164446096277985698E-07 UES: 0.161211657995033264E-08 VNS: 0.433860818285947839E-11 WTS: 0.115915965605532628E-11 ADVT: -0.720015005056886055E-10 ADVS: -0.861911194702079007E-15 PV: 0.167630259073946690E-13 Q: -0.969178608506991736E-08 PD: 1.02752291773231219 QSW_HTP: 111.212238321595763 QFLUX: 0.118381065075685910 HMXL: 6380.72398182841152 XMXL: 7396.39347875774638 TMXL: 5172.94819741958509 HBLT: 4777.75733007135659 XBLT: 7234.55617264724879 TBLT: 1063.07033719447054 BSF: 0.000000000000000000E+00 convergence info from pcg_diag_bsf: iter = 0 rms_resid = 0.102377970227785678 iter = 100 rms_resid = 0.440243133307032224E-02 iter = 200 rms_resid = 0.908294160410926216E-03 iter = 300 rms_resid = 0.401231883861181179E-03 iter = 400 rms_resid = 0.307675245762699617E-03 iter = 500 rms_resid = 0.190455672504080139E-03 iter = 600 rms_resid = 0.478923953048239511E-04 iter = 700 rms_resid = 0.147092973848203088E-04 iter = 800 rms_resid = 0.189118470194161718E-05 iter = 900 rms_resid = 0.161893448160770946E-06 Local Time- and Space-Averages for Nino Regions: 00:00:00 0088-07-01 NINO_1_PLUS_2: 24.1340981443987559 NINO_3: 25.8038478085195493 NINO_3_POINT_4: 27.2440903434454356 NINO_4: 28.5967282503596003 tavg file written: ./b40.1850.track1.1deg.006.pop.h.0088-06.nc (time_manager) ocn date 0088-jul-02, 0.000000E+00 sec (time_manager) ocn date 0088-jul-03, 0.000000E+00 sec (time_manager) ocn date 0088-jul-04, 0.000000E+00 sec ovf_loc_prd: nsteps_total= 798457 ovf= 3 swap ovf UV old/new prd set old/new= 2 5 (time_manager) ocn date 0088-jul-05, 0.000000E+00 sec ovf_loc_prd: nsteps_total= 798496 ovf= 3 swap ovf UV old/new prd set old/new= 5 2 (time_manager) ocn date 0088-jul-06, 0.000000E+00 sec (time_manager) ocn date 0088-jul-07, 0.000000E+00 sec (time_manager) ocn date 0088-jul-08, 0.000000E+00 sec (time_manager) ocn date 0088-jul-09, 0.000000E+00 sec (time_manager) ocn date 0088-jul-10, 0.000000E+00 sec (time_manager) ocn date 0088-jul-11, 0.000000E+00 sec (time_manager) ocn date 0088-jul-12, 0.000000E+00 sec (time_manager) ocn date 0088-jul-13, 0.000000E+00 sec (time_manager) ocn date 0088-jul-14, 0.000000E+00 sec (time_manager) ocn date 0088-jul-15, 0.000000E+00 sec (time_manager) ocn date 0088-jul-16, 0.000000E+00 sec (time_manager) ocn date 0088-jul-17, 0.000000E+00 sec (time_manager) ocn date 0088-jul-18, 0.000000E+00 sec (time_manager) ocn date 0088-jul-19, 0.000000E+00 sec (time_manager) ocn date 0088-jul-20, 0.000000E+00 sec (time_manager) ocn date 0088-jul-21, 0.000000E+00 sec (time_manager) ocn date 0088-jul-22, 0.000000E+00 sec (time_manager) ocn date 0088-jul-23, 0.000000E+00 sec (time_manager) ocn date 0088-jul-24, 0.000000E+00 sec ovf_loc_prd: nsteps_total= 798966 ovf= 3 swap ovf UV old/new prd set old/new= 2 1 (time_manager) ocn date 0088-jul-25, 0.000000E+00 sec (time_manager) ocn date 0088-jul-26, 0.000000E+00 sec (time_manager) ocn date 0088-jul-27, 0.000000E+00 sec (time_manager) ocn date 0088-jul-28, 0.000000E+00 sec (time_manager) ocn date 0088-jul-29, 0.000000E+00 sec (time_manager) ocn date 0088-jul-30, 0.000000E+00 sec (time_manager) ocn date 0088-jul-31, 0.000000E+00 sec (time_manager) ocn date 0088-aug-01, 0.000000E+00 sec Step number : 799150 Date : 01 aug 0088 Hour : 0 Minute : 0 Second : 0 Time(years) : 87.580822 max. cfl number for zonal advection : 8.7541E-02 20 371 33 max. cfl number for meridional advection : 9.5105E-02 316 191 1 max. cfl number for vertical advection : 2.8536E-01 298 46 14 max. cfl number for total advection : 2.9254E-01 298 46 14 max. cfl number for horizontal tracer mixing : 6.3830E-01 88 383 2 max. cfl number for horiz. momentum mixing : 1.2672E-01 318 214 56 K.E. diagnostics: mean K.E. : 9.216582351538975E+00 K.E. change from horiz. visc. :-4.236088026541353E-06 K.E. change from vert. visc. : 1.100339399048379E-05 K.E. change from wind stress : 3.416338578603267E-05 advective K.E. balance :-1.385538022405326E-09 : 6.275675335685105E-10 P.E. verses pressure work : 7.110413018132052E-04 :-5.819991275976620E-06 surface-pressure contribution : 1.111504199103735E-06 :-1.170001733305626E-06 Tracer diagnostics: mean value of tracer 1 : 3.512217067627986E+00 abs change in tracer 1 : 1.340284877014827E-07 mean change in tracer 1 : 3.809010267548844E-10 mean change in tracer 1 from advection :-7.499206005203606E-24 mean change in tracer 1 from horiz. diff.: 1.179120441069749E-25 mean change in tracer 1 from vert. diff.:-1.167588271893352E-08 mean change in tracer 1 from sources : 1.194634040267133E-08 surface flux of tracer 1 : 0.000000000000000E+00 mean value of tracer 2 : 3.472147419315017E+01 abs change in tracer 2 : 1.338250974655165E-11 mean change in tracer 2 : 2.649688266829857E-15 mean change in tracer 2 from advection : 8.751284523564546E-28 mean change in tracer 2 from horiz. diff.:-7.196780035826107E-30 mean change in tracer 2 from vert. diff.:-3.900794122673878E-14 mean change in tracer 2 from sources :-3.908363323829393E-31 surface flux of tracer 2 : 0.000000000000000E+00 mean value of tracer 3 : 2.220928258251507E+02 abs change in tracer 3 : 2.459163799356142E-06 mean change in tracer 3 : 1.237002203621619E-08 mean change in tracer 3 from advection :-8.301007905131036E-24 mean change in tracer 3 from horiz. diff.: 2.782724240924609E-24 mean change in tracer 3 from vert. diff.: 3.323256621220359E-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: 5.143870087731071E-05 residual, scans : 7.065363953494208E-14 250 Timing information: Timer number 1 Time = 593.58 seconds HMIX_MOMENTUM_ANISO Timer number 2 Time = 523.04 seconds HMIX_TRACER_GM_NLOOP Timer number 3 Time = 2928.29 seconds HMIX_TRACER_GM Timer number 4 Time = 1528.54 seconds VMIX_COEFFICIENTS_KPP Timer number 5 Time = 81.36 seconds VMIX_EXPLICIT_TRACER Timer number 6 Time = 39.65 seconds VMIX_EXPLICIT_MOMENTUM Timer number 7 Time = 253.48 seconds VMIX_IMPLICIT_TRACER Timer number 8 Time = 61.07 seconds VMIX_IMPLICIT_MOMENTUM Timer number 9 Time = 8.89 seconds COMPUTE_COSZ Timer number 10 Time = 109.26 seconds ADVECTION_MOMENTUM Timer number 11 Time = 567.60 seconds ADVECTION_TRACER_UPWIND3 Timer number 12 Time = 39.35 seconds MOC Timer number 13 Time = 38.75 seconds TRACER_TRANSPORTS Timer number 14 Time = 690.51 seconds TAVG_WRITE_STD Timer number 15 Time = 54.91 seconds TAVG_WRITE_NONSTD Timer number 16 Time = 37.42 seconds TAVG_CCSM_DIAGS_BSF Timer number 17 Time = 39.35 seconds TAVG_CCSM_DIAGS_MOC Timer number 18 Time = 38.75 seconds TAVG_CCSM_DIAGS_TRANS Timer number 19 Time = 8777.02 seconds STEP Timer number 20 Time = 7460.03 seconds BAROCLINIC Timer number 21 Time = 1002.72 seconds BAROTROPIC Timer number 22 Time = 180.30 seconds 3D-UPDATE Timer number 23 Time = 9657.50 seconds TOTAL Timer number 24 Time = 873.51 seconds OUTPUT Timer number 25 Time = 867.37 seconds OUTPUT TAVG Timer number 26 Time = 6.08 seconds OUTPUT REST ------------------------------------------------------------------------ (diag_print) file written: /ptmp/mai/b40.1850.track1.1deg.006/run/b40.1850.track1.1deg.006.pop.dd.0087-01-01-00000 (diag_transport) file written: /ptmp/mai/b40.1850.track1.1deg.006/run/b40.1850.track1.1deg.006.pop.dt.0087-01-01-00000 AFTER CALL IN tracer_budgets (final): ===================================== volume_t (cm^3) = 0.132514028745E+25 SUM [volume*T] (C cm^3) = 0.465418017909E+25 SUM [volume*S] (ppt cm^3) = 0.460108243766E+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 = 0.106011256662E-13 FW flux = 0.000000000000E+00 Imbalance = -.106011256662E-13 Imbalance = -tendency + FW flux HEAT BUDGET FOR THE GIVEN TAVG INTERVAL (W/m^2): ------------------------------------------------ tendency = -.223390107331E+02 SHF flux = -.224619027929E+02 ice formation = 0.122892358769E+00 FW heat content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = 0.298970900953E-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 = 0.588540927601E-05 SFWF flux = 0.621122931484E-05 ice formation = -.325819876021E-06 FW salt content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = 0.162802021569E-12 Imbalance = -tendency + SFWF flux + ice formation + FW salt content + free-srf non-consv. Global Time Averages: 08-01-0088 00:00:00 KAPPA_ISOP: 3550329.74565571174 KAPPA_THIC: 4114248.74564763904 HOR_DIFF: 609428.721187708667 DIA_DEPTH: 7206.78908132036668 TLT: 405.962922990049947 INT_DEPTH: 7612.74703103228148 UISOP: 0.935368978256665757E-04 VISOP: -0.389523771700670722E-03 WISOP: 0.175867148155850259E-12 ADVT_ISOP: -0.241444493100363599E-10 ADVS_ISOP: 0.218600885568838094E-14 VNT_ISOP: -0.777255685096972319E-09 VNS_ISOP: -0.238149410055057768E-11 USUBM: -0.110898519826550868E-04 VSUBM: -0.312975173516799512E-04 WSUBM: -0.104549323068311138E-08 HLS_SUBM: 716752.876924383920 ADVT_SUBM: 0.587947272354461908E-12 ADVS_SUBM: -0.443916208237954839E-16 VNT_SUBM: -0.193399231514666582E-09 VNS_SUBM: -0.176966232811584163E-12 HDIFT: 0.205333904641237437E-10 HDIFS: 0.502998748747186012E-14 QSW_HBL: 129.340706564972521 KVMIX: 1.37046153475507992 TPOWER: 0.221240028256785063E-05 UVEL: 0.330370768447764751 VVEL: 0.126230422111881413E-02 TEMP: 3.51257437601287448 dTEMP_POS_2D: 0.871607692899597497E-01 dTEMP_NEG_2D: -0.683643296588007793E-01 SALT: 0.347215110962427118E-01 RHO: 1.03743455589444622 RESID_T: 0.000000000000000000E+00 RESID_S: 0.000000000000000000E+00 SU: 118499.109778942657 SV: 424.914576047050900 SSH: 0.514860094869517258E-04 SHF: -22.4619027928656934 SHF_QSW: 149.722308877714511 SFWF: 0.621122931483615976E-05 TAUX: 0.125324184078318690 TAUY: 0.689471901721327440E-01 FW: 0.000000000000000000E+00 TFW_T: 0.000000000000000000E+00 TFW_S: 0.000000000000000000E+00 EVAP_F: -0.403833258839680478E-04 PREC_F: 0.368989522722067115E-04 SNOW_F: 0.101889968580300472E-05 MELT_F: 0.543366465897477957E-05 ROFF_F: 0.445812038930231949E-05 IOFF_F: 0.237045940802560155E-06 SALT_F: 0.150330404960891672E-07 SENH_F: -13.8182742171651398 LWUP_F: -386.012463684443105 LWDN_F: 330.788825157888766 MELTH_F: -1.72448246323063858 IFRAC: 0.790695900603332474E-01 IAGE: 222.079892783283071 WVEL: 0.775462299433172820E-06 UET: 0.327888880439482588E-07 VNT: -0.371778933705636459E-07 WTT: -0.187028845356131264E-07 UES: 0.163127811616599437E-08 VNS: 0.445687673090540558E-12 WTS: 0.111962023623564006E-11 ADVT: 0.268221607721901306E-10 ADVS: 0.193536644215546582E-15 PV: -0.347383545722580008E-13 Q: -0.970230881649908739E-08 PD: 1.02752370510491509 QSW_HTP: 110.737041886103597 QFLUX: 0.122892358768571991 HMXL: 7207.84454270769220 XMXL: 8186.24250508018213 TMXL: 5974.72927436561895 HBLT: 5303.02990993317235 XBLT: 8127.93228317450485 TBLT: 1040.43679297446010 BSF: 0.000000000000000000E+00 convergence info from pcg_diag_bsf: iter = 0 rms_resid = 0.102633228499082213 iter = 100 rms_resid = 0.437927908608695335E-02 iter = 200 rms_resid = 0.939030604720221475E-03 iter = 300 rms_resid = 0.418235567230171453E-03 iter = 400 rms_resid = 0.322631986527345039E-03 iter = 500 rms_resid = 0.192448248603522599E-03 iter = 600 rms_resid = 0.496964290557540126E-04 iter = 700 rms_resid = 0.144049383472213350E-04 iter = 800 rms_resid = 0.180789279267556954E-05 iter = 900 rms_resid = 0.164459109441236643E-06 Local Time- and Space-Averages for Nino Regions: 00:00:00 0088-08-01 NINO_1_PLUS_2: 23.9616621132206475 NINO_3: 25.1618517407542690 NINO_3_POINT_4: 26.8626983123873160 NINO_4: 28.6494249205387028 tavg file written: ./b40.1850.track1.1deg.006.pop.h.0088-07.nc (time_manager) ocn date 0088-aug-02, 0.000000E+00 sec (time_manager) ocn date 0088-aug-03, 0.000000E+00 sec (time_manager) ocn date 0088-aug-04, 0.000000E+00 sec (time_manager) ocn date 0088-aug-05, 0.000000E+00 sec (time_manager) ocn date 0088-aug-06, 0.000000E+00 sec (time_manager) ocn date 0088-aug-07, 0.000000E+00 sec (time_manager) ocn date 0088-aug-08, 0.000000E+00 sec (time_manager) ocn date 0088-aug-09, 0.000000E+00 sec (time_manager) ocn date 0088-aug-10, 0.000000E+00 sec (time_manager) ocn date 0088-aug-11, 0.000000E+00 sec (time_manager) ocn date 0088-aug-12, 0.000000E+00 sec (time_manager) ocn date 0088-aug-13, 0.000000E+00 sec (time_manager) ocn date 0088-aug-14, 0.000000E+00 sec (time_manager) ocn date 0088-aug-15, 0.000000E+00 sec (time_manager) ocn date 0088-aug-16, 0.000000E+00 sec (time_manager) ocn date 0088-aug-17, 0.000000E+00 sec (time_manager) ocn date 0088-aug-18, 0.000000E+00 sec (time_manager) ocn date 0088-aug-19, 0.000000E+00 sec (time_manager) ocn date 0088-aug-20, 0.000000E+00 sec (time_manager) ocn date 0088-aug-21, 0.000000E+00 sec (time_manager) ocn date 0088-aug-22, 0.000000E+00 sec (time_manager) ocn date 0088-aug-23, 0.000000E+00 sec (time_manager) ocn date 0088-aug-24, 0.000000E+00 sec (time_manager) ocn date 0088-aug-25, 0.000000E+00 sec (time_manager) ocn date 0088-aug-26, 0.000000E+00 sec (time_manager) ocn date 0088-aug-27, 0.000000E+00 sec (time_manager) ocn date 0088-aug-28, 0.000000E+00 sec (time_manager) ocn date 0088-aug-29, 0.000000E+00 sec (time_manager) ocn date 0088-aug-30, 0.000000E+00 sec (time_manager) ocn date 0088-aug-31, 0.000000E+00 sec (time_manager) ocn date 0088-sep-01, 0.000000E+00 sec Step number : 799925 Date : 01 sep 0088 Hour : 0 Minute : 0 Second : 0 Time(years) : 87.665753 max. cfl number for zonal advection : 9.0431E-02 20 371 33 max. cfl number for meridional advection : 1.2265E-01 83 225 1 max. cfl number for vertical advection : 4.9089E-01 298 46 14 max. cfl number for total advection : 4.9926E-01 298 46 14 max. cfl number for horizontal tracer mixing : 6.3830E-01 88 383 2 max. cfl number for horiz. momentum mixing : 1.2672E-01 318 214 56 K.E. diagnostics: mean K.E. : 9.714216408085878E+00 K.E. change from horiz. visc. :-4.231769705361451E-06 K.E. change from vert. visc. : 7.117501055278249E-06 K.E. change from wind stress : 2.635265180359919E-05 advective K.E. balance :-2.694122064008657E-09 : 1.873916497696196E-09 P.E. verses pressure work : 7.455816362696321E-04 :-2.954512085991316E-06 surface-pressure contribution : 6.191289553356012E-07 :-6.703380615165133E-07 Tracer diagnostics: mean value of tracer 1 : 3.510829680011854E+00 abs change in tracer 1 : 1.360459717004219E-07 mean change in tracer 1 : 2.342502807037144E-09 mean change in tracer 1 from advection :-7.027557828775706E-24 mean change in tracer 1 from horiz. diff.: 2.151894804952293E-25 mean change in tracer 1 from vert. diff.:-1.128723020763740E-08 mean change in tracer 1 from sources : 1.356093577851802E-08 surface flux of tracer 1 : 0.000000000000000E+00 mean value of tracer 2 : 3.472140057238948E+01 abs change in tracer 2 : 1.311670396392554E-11 mean change in tracer 2 : 4.126182920403913E-15 mean change in tracer 2 from advection :-1.612078728025048E-28 mean change in tracer 2 from horiz. diff.:-7.916458039408718E-30 mean change in tracer 2 from vert. diff.:-2.182313820376163E-14 mean change in tracer 2 from sources : 1.622964947439051E-31 surface flux of tracer 2 : 0.000000000000000E+00 mean value of tracer 3 : 2.221224412545302E+02 abs change in tracer 3 : 2.504356999765104E-06 mean change in tracer 3 : 6.640777164274432E-09 mean change in tracer 3 from advection :-6.037096658277116E-23 mean change in tracer 3 from horiz. diff.:-1.509274164569279E-24 mean change in tracer 3 from vert. diff.:-1.234706625702166E-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: 5.124002678055702E-05 residual, scans : 9.826209998145363E-14 240 Timing information: Timer number 1 Time = 625.64 seconds HMIX_MOMENTUM_ANISO Timer number 2 Time = 551.09 seconds HMIX_TRACER_GM_NLOOP Timer number 3 Time = 3085.00 seconds HMIX_TRACER_GM Timer number 4 Time = 1610.44 seconds VMIX_COEFFICIENTS_KPP Timer number 5 Time = 85.73 seconds VMIX_EXPLICIT_TRACER Timer number 6 Time = 41.76 seconds VMIX_EXPLICIT_MOMENTUM Timer number 7 Time = 267.11 seconds VMIX_IMPLICIT_TRACER Timer number 8 Time = 64.39 seconds VMIX_IMPLICIT_MOMENTUM Timer number 9 Time = 9.37 seconds COMPUTE_COSZ Timer number 10 Time = 115.15 seconds ADVECTION_MOMENTUM Timer number 11 Time = 598.09 seconds ADVECTION_TRACER_UPWIND3 Timer number 12 Time = 41.51 seconds MOC Timer number 13 Time = 40.90 seconds TRACER_TRANSPORTS Timer number 14 Time = 730.76 seconds TAVG_WRITE_STD Timer number 15 Time = 58.11 seconds TAVG_WRITE_NONSTD Timer number 16 Time = 39.49 seconds TAVG_CCSM_DIAGS_BSF Timer number 17 Time = 41.51 seconds TAVG_CCSM_DIAGS_MOC Timer number 18 Time = 40.90 seconds TAVG_CCSM_DIAGS_TRANS Timer number 19 Time = 9248.01 seconds STEP Timer number 20 Time = 7860.75 seconds BAROCLINIC Timer number 21 Time = 1056.76 seconds BAROTROPIC Timer number 22 Time = 190.01 seconds 3D-UPDATE Timer number 23 Time = 10179.11 seconds TOTAL Timer number 24 Time = 923.76 seconds OUTPUT Timer number 25 Time = 917.61 seconds OUTPUT TAVG Timer number 26 Time = 6.08 seconds OUTPUT REST ------------------------------------------------------------------------ (diag_print) file written: /ptmp/mai/b40.1850.track1.1deg.006/run/b40.1850.track1.1deg.006.pop.dd.0087-01-01-00000 (diag_transport) file written: /ptmp/mai/b40.1850.track1.1deg.006/run/b40.1850.track1.1deg.006.pop.dt.0087-01-01-00000 AFTER CALL IN tracer_budgets (final): ===================================== volume_t (cm^3) = 0.132514028745E+25 SUM [volume*T] (C cm^3) = 0.465233666562E+25 SUM [volume*S] (ppt cm^3) = 0.460107267783E+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 = -.741523763875E-13 FW flux = 0.000000000000E+00 Imbalance = 0.741523763875E-13 Imbalance = -tendency + FW flux HEAT BUDGET FOR THE GIVEN TAVG INTERVAL (W/m^2): ------------------------------------------------ tendency = -.781390084256E+01 SHF flux = -.790952432015E+01 ice formation = 0.956237899404E-01 FW heat content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = 0.312353763118E-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 = 0.290778117915E-05 SFWF flux = 0.316130479726E-05 ice formation = -.253523747898E-06 FW salt content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = -.129791118070E-12 Imbalance = -tendency + SFWF flux + ice formation + FW salt content + free-srf non-consv. Global Time Averages: 09-01-0088 00:00:00 KAPPA_ISOP: 3902214.86289932299 KAPPA_THIC: 4523829.36471735872 HOR_DIFF: 666061.211092516780 DIA_DEPTH: 7870.91831026005184 TLT: 468.487999820231380 INT_DEPTH: 8339.40056275938878 UISOP: 0.904262213994557531E-04 VISOP: -0.394069014439463281E-03 WISOP: -0.303722372812024935E-12 ADVT_ISOP: -0.290908843903453739E-10 ADVS_ISOP: 0.416489814332329807E-14 VNT_ISOP: -0.108600901377834348E-08 VNS_ISOP: -0.233380978805599422E-11 USUBM: -0.252294276306043562E-05 VSUBM: -0.363973620475194370E-04 WSUBM: -0.531841308450959691E-09 HLS_SUBM: 719489.528395487345 ADVT_SUBM: -0.345891388587786941E-11 ADVS_SUBM: 0.356229244165288833E-15 VNT_SUBM: -0.360309110210372177E-09 VNS_SUBM: -0.201951535796331476E-12 HDIFT: 0.719775176393869721E-11 HDIFS: 0.376697951881418973E-15 QSW_HBL: 137.595089180598052 KVMIX: 1.36936624258434314 TPOWER: 0.221787674825957908E-05 UVEL: 0.329639773679719750 VVEL: 0.161163017182203790E-02 TEMP: 3.50947225571810817 dTEMP_POS_2D: 0.814441712154492514E-01 dTEMP_NEG_2D: -0.623118053324539442E-01 SALT: 0.347213998007906491E-01 RHO: 1.03743504318462665 RESID_T: 0.000000000000000000E+00 RESID_S: 0.000000000000000000E+00 SU: 118237.522077890986 SV: 552.808835029529746 SSH: 0.512641550203496479E-04 SHF: -7.90952432014808782 SHF_QSW: 159.018856487391304 SFWF: 0.316130479725875930E-05 TAUX: 0.163884543027156632 TAUY: 0.811681210652308999E-01 FW: 0.000000000000000000E+00 TFW_T: 0.000000000000000000E+00 TFW_S: 0.000000000000000000E+00 EVAP_F: -0.387560203798312179E-04 PREC_F: 0.355919367918034369E-04 SNOW_F: 0.100801393404038279E-05 MELT_F: 0.253070330322912409E-05 ROFF_F: 0.370716717638431218E-05 IOFF_F: 0.247084415075445689E-06 SALT_F: 0.553694288307749871E-08 SENH_F: -13.1070914110736325 LWUP_F: -386.502266889399436 LWDN_F: 331.407084592074966 MELTH_F: -1.37847248395906963 IFRAC: 0.769816727607769702E-01 IAGE: 222.107913636153143 WVEL: 0.753032205075754675E-06 UET: 0.674613422974427522E-08 VNT: -0.345133384864518567E-07 WTT: -0.223441827539257224E-07 UES: 0.158698241046672406E-08 VNS: 0.989592008963802132E-11 WTS: 0.809773491805822223E-12 ADVT: 0.696659361449847895E-10 ADVS: 0.116642880778549156E-13 PV: -0.652928165576707932E-13 Q: -0.969567828750383009E-08 PD: 1.02752415570074107 QSW_HTP: 117.610296645182501 QFLUX: 0.956237899404175778E-01 HMXL: 7872.37743960004354 XMXL: 8878.40105726653746 TMXL: 5933.15338188044643 HBLT: 5248.03026818981198 XBLT: 8582.72540860057234 TBLT: 1084.87655028746576 BSF: 0.000000000000000000E+00 convergence info from pcg_diag_bsf: iter = 0 rms_resid = 0.101730575950919569 iter = 100 rms_resid = 0.451275584655040293E-02 iter = 200 rms_resid = 0.943904789636302601E-03 iter = 300 rms_resid = 0.424266888606708960E-03 iter = 400 rms_resid = 0.301512585360985577E-03 iter = 500 rms_resid = 0.211444196494477567E-03 iter = 600 rms_resid = 0.513952944029051696E-04 iter = 700 rms_resid = 0.151698278795890369E-04 iter = 800 rms_resid = 0.191074358749262167E-05 iter = 900 rms_resid = 0.160271344317967801E-06 Local Time- and Space-Averages for Nino Regions: 00:00:00 0088-09-01 NINO_1_PLUS_2: 24.0927177657815328 NINO_3: 24.7515019212946257 NINO_3_POINT_4: 26.2069634488221190 NINO_4: 28.3130816828466649 tavg file written: ./b40.1850.track1.1deg.006.pop.h.0088-08.nc (time_manager) ocn date 0088-sep-02, 0.000000E+00 sec (time_manager) ocn date 0088-sep-03, 0.000000E+00 sec (time_manager) ocn date 0088-sep-04, 0.000000E+00 sec (time_manager) ocn date 0088-sep-05, 0.000000E+00 sec (time_manager) ocn date 0088-sep-06, 0.000000E+00 sec (time_manager) ocn date 0088-sep-07, 0.000000E+00 sec (time_manager) ocn date 0088-sep-08, 0.000000E+00 sec (time_manager) ocn date 0088-sep-09, 0.000000E+00 sec (time_manager) ocn date 0088-sep-10, 0.000000E+00 sec (time_manager) ocn date 0088-sep-11, 0.000000E+00 sec (time_manager) ocn date 0088-sep-12, 0.000000E+00 sec (time_manager) ocn date 0088-sep-13, 0.000000E+00 sec (time_manager) ocn date 0088-sep-14, 0.000000E+00 sec (time_manager) ocn date 0088-sep-15, 0.000000E+00 sec (time_manager) ocn date 0088-sep-16, 0.000000E+00 sec (time_manager) ocn date 0088-sep-17, 0.000000E+00 sec (time_manager) ocn date 0088-sep-18, 0.000000E+00 sec (time_manager) ocn date 0088-sep-19, 0.000000E+00 sec (time_manager) ocn date 0088-sep-20, 0.000000E+00 sec (time_manager) ocn date 0088-sep-21, 0.000000E+00 sec (time_manager) ocn date 0088-sep-22, 0.000000E+00 sec (time_manager) ocn date 0088-sep-23, 0.000000E+00 sec (time_manager) ocn date 0088-sep-24, 0.000000E+00 sec (time_manager) ocn date 0088-sep-25, 0.000000E+00 sec (time_manager) ocn date 0088-sep-26, 0.000000E+00 sec (time_manager) ocn date 0088-sep-27, 0.000000E+00 sec (time_manager) ocn date 0088-sep-28, 0.000000E+00 sec (time_manager) ocn date 0088-sep-29, 0.000000E+00 sec (time_manager) ocn date 0088-sep-30, 0.000000E+00 sec (time_manager) ocn date 0088-oct-01, 0.000000E+00 sec Step number : 800675 Date : 01 oct 0088 Hour : 0 Minute : 0 Second : 0 Time(years) : 87.747945 max. cfl number for zonal advection : 9.3355E-02 20 371 33 max. cfl number for meridional advection : 8.8494E-02 312 204 1 max. cfl number for vertical advection : 4.2647E-01 298 46 14 max. cfl number for total advection : 4.3517E-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. : 8.762493882750707E+00 K.E. change from horiz. visc. :-3.781204229351388E-06 K.E. change from vert. visc. : 7.559778104470375E-06 K.E. change from wind stress : 2.339337206614461E-05 advective K.E. balance :-1.283351086745063E-09 : 9.081497650392133E-11 P.E. verses pressure work : 7.706326211431969E-04 :-4.179387407741429E-06 surface-pressure contribution : 8.083681287637474E-08 :-1.277708176215015E-07 Tracer diagnostics: mean value of tracer 1 : 3.512144084697299E+00 abs change in tracer 1 : 1.278316253675090E-07 mean change in tracer 1 : 3.493138619048812E-09 mean change in tracer 1 from advection : 3.301537234995298E-25 mean change in tracer 1 from horiz. diff.:-4.716481764278997E-26 mean change in tracer 1 from vert. diff.:-1.140060035938799E-08 mean change in tracer 1 from sources : 1.478445675838819E-08 surface flux of tracer 1 : 0.000000000000000E+00 mean value of tracer 2 : 3.472140951279157E+01 abs change in tracer 2 : 1.259072691578201E-11 mean change in tracer 2 : 6.328305187070217E-14 mean change in tracer 2 from advection :-1.266633286305395E-28 mean change in tracer 2 from horiz. diff.: 2.698792513434790E-29 mean change in tracer 2 from vert. diff.: 2.206338114462346E-14 mean change in tracer 2 from sources : 1.274417057245482E-31 surface flux of tracer 2 : 0.000000000000000E+00 mean value of tracer 3 : 2.221627696420412E+02 abs change in tracer 3 : 2.296675873423090E-06 mean change in tracer 3 : 1.975444916336634E-08 mean change in tracer 3 from advection :-2.867620912681630E-23 mean change in tracer 3 from horiz. diff.:-2.358240882139499E-24 mean change in tracer 3 from vert. diff.: 9.972822692810065E-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: 5.138875478274849E-05 residual, scans : 6.260882100170004E-14 250 Timing information: Timer number 1 Time = 656.65 seconds HMIX_MOMENTUM_ANISO Timer number 2 Time = 578.24 seconds HMIX_TRACER_GM_NLOOP Timer number 3 Time = 3236.82 seconds HMIX_TRACER_GM Timer number 4 Time = 1689.49 seconds VMIX_COEFFICIENTS_KPP Timer number 5 Time = 89.96 seconds VMIX_EXPLICIT_TRACER Timer number 6 Time = 43.82 seconds VMIX_EXPLICIT_MOMENTUM Timer number 7 Time = 280.29 seconds VMIX_IMPLICIT_TRACER Timer number 8 Time = 67.56 seconds VMIX_IMPLICIT_MOMENTUM Timer number 9 Time = 9.84 seconds COMPUTE_COSZ Timer number 10 Time = 120.83 seconds ADVECTION_MOMENTUM Timer number 11 Time = 627.58 seconds ADVECTION_TRACER_UPWIND3 Timer number 12 Time = 43.67 seconds MOC Timer number 13 Time = 43.05 seconds TRACER_TRANSPORTS Timer number 14 Time = 768.40 seconds TAVG_WRITE_STD Timer number 15 Time = 61.27 seconds TAVG_WRITE_NONSTD Timer number 16 Time = 41.53 seconds TAVG_CCSM_DIAGS_BSF Timer number 17 Time = 43.67 seconds TAVG_CCSM_DIAGS_MOC Timer number 18 Time = 43.05 seconds TAVG_CCSM_DIAGS_TRANS Timer number 19 Time = 9703.92 seconds STEP Timer number 20 Time = 8248.66 seconds BAROCLINIC Timer number 21 Time = 1108.37 seconds BAROTROPIC Timer number 22 Time = 199.28 seconds 3D-UPDATE Timer number 23 Time = 10683.02 seconds TOTAL Timer number 24 Time = 971.39 seconds OUTPUT Timer number 25 Time = 965.24 seconds OUTPUT TAVG Timer number 26 Time = 6.08 seconds OUTPUT REST ------------------------------------------------------------------------ (diag_print) file written: /ptmp/mai/b40.1850.track1.1deg.006/run/b40.1850.track1.1deg.006.pop.dd.0087-01-01-00000 (diag_transport) file written: /ptmp/mai/b40.1850.track1.1deg.006/run/b40.1850.track1.1deg.006.pop.dt.0087-01-01-00000 AFTER CALL IN tracer_budgets (final): ===================================== volume_t (cm^3) = 0.132514028745E+25 SUM [volume*T] (C cm^3) = 0.465407571013E+25 SUM [volume*S] (ppt cm^3) = 0.460107385180E+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 = 0.573820616229E-13 FW flux = 0.000000000000E+00 Imbalance = -.573820616229E-13 Imbalance = -tendency + FW flux HEAT BUDGET FOR THE GIVEN TAVG INTERVAL (W/m^2): ------------------------------------------------ tendency = 0.761680290671E+01 SHF flux = 0.750403314856E+01 ice formation = 0.112769691065E+00 FW heat content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = -.670794993302E-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 = -.361424206227E-06 SFWF flux = -.624424243819E-07 ice formation = -.298982028905E-06 FW salt content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = -.247060210486E-12 Imbalance = -tendency + SFWF flux + ice formation + FW salt content + free-srf non-consv. Global Time Averages: 10-01-0088 00:00:00 KAPPA_ISOP: 4501103.13514365442 KAPPA_THIC: 5126719.80576991569 HOR_DIFF: 670115.696823523729 DIA_DEPTH: 7890.92414290031411 TLT: 530.755355926050470 INT_DEPTH: 8421.67692281818927 UISOP: 0.879905386387505351E-04 VISOP: -0.416187159449446205E-03 WISOP: -0.271941120976060855E-12 ADVT_ISOP: 0.245010514283101342E-11 ADVS_ISOP: -0.262732756765920602E-14 VNT_ISOP: -0.191437112840874081E-08 VNS_ISOP: -0.247683222301531394E-11 USUBM: 0.430683674828881865E-05 VSUBM: -0.385663759505133451E-04 WSUBM: 0.437354242671113965E-09 HLS_SUBM: 831134.381835766719 ADVT_SUBM: 0.555625486753845713E-11 ADVS_SUBM: 0.357035145502941836E-15 VNT_SUBM: -0.663238260752657823E-09 VNS_SUBM: -0.240663162618541398E-12 HDIFT: -0.206268661553787447E-10 HDIFS: -0.160513939379607007E-14 QSW_HBL: 149.805068692421685 KVMIX: 1.36323136750255469 TPOWER: 0.221889503053939145E-05 UVEL: 0.316949666442567168 VVEL: 0.677734083436326573E-03 TEMP: 3.50959591923157932 dTEMP_POS_2D: 0.789660178231989113E-01 dTEMP_NEG_2D: -0.625143627217581294E-01 SALT: 0.347213763570109121E-01 RHO: 1.03743476786176059 RESID_T: 0.000000000000000000E+00 RESID_S: 0.000000000000000000E+00 SU: 113684.259142975134 SV: 221.571124208745005 SSH: 0.512699717821629995E-04 SHF: 7.50403314856329828 SHF_QSW: 176.340760290049985 SFWF: -0.624424243818798548E-07 TAUX: 0.143010030359699086 TAUY: 0.441874219628892520E-01 FW: 0.000000000000000000E+00 TFW_T: 0.000000000000000000E+00 TFW_S: 0.000000000000000000E+00 EVAP_F: -0.378199603387589393E-04 PREC_F: 0.337381445460245108E-04 SNOW_F: 0.103066993143589418E-05 MELT_F: 0.214826442622245262E-06 ROFF_F: 0.348243952798238227E-05 IOFF_F: 0.237902711404866390E-06 SALT_F: -0.292191945148672026E-08 SENH_F: -14.0009430095094345 LWUP_F: -386.498172306802132 LWDN_F: 327.601359959579440 MELTH_F: -0.927919586181018996 IFRAC: 0.769557753502823766E-01 IAGE: 222.140558993889385 WVEL: 0.786203583507046482E-06 UET: 0.693489329281695344E-08 VNT: -0.297916986801781928E-07 WTT: -0.170605635081077741E-07 UES: 0.151435636794410865E-08 VNS: -0.352319014237615805E-12 WTS: 0.867919229369521666E-12 ADVT: -0.240768760255387931E-10 ADVS: -0.826553595784864767E-15 PV: -0.626261507395591743E-13 Q: -0.967425421046896436E-08 PD: 1.02752383952883597 QSW_HTP: 129.802596048375221 QFLUX: 0.112769691064557656 HMXL: 7892.33668542186842 XMXL: 9544.53298842514960 TMXL: 4232.77154525710375 HBLT: 4420.74121806327912 XBLT: 8367.43762054924264 TBLT: 893.050298037010066 BSF: 0.000000000000000000E+00 convergence info from pcg_diag_bsf: iter = 0 rms_resid = 0.101618911364442163 iter = 100 rms_resid = 0.425436714694545342E-02 iter = 200 rms_resid = 0.902763085806748970E-03 iter = 300 rms_resid = 0.425135373092929152E-03 iter = 400 rms_resid = 0.301857036509208356E-03 iter = 500 rms_resid = 0.197340308818735291E-03 iter = 600 rms_resid = 0.498112560595312322E-04 iter = 700 rms_resid = 0.145177947528184707E-04 iter = 800 rms_resid = 0.177740747730424856E-05 iter = 900 rms_resid = 0.150234226901229576E-06 Local Time- and Space-Averages for Nino Regions: 00:00:00 0088-10-01 NINO_1_PLUS_2: 23.7851796024440389 NINO_3: 24.7242820492005784 NINO_3_POINT_4: 26.0044418987662525 NINO_4: 28.0775931872283309 tavg file written: ./b40.1850.track1.1deg.006.pop.h.0088-09.nc (time_manager) ocn date 0088-oct-02, 0.000000E+00 sec (time_manager) ocn date 0088-oct-03, 0.000000E+00 sec (time_manager) ocn date 0088-oct-04, 0.000000E+00 sec (time_manager) ocn date 0088-oct-05, 0.000000E+00 sec (time_manager) ocn date 0088-oct-06, 0.000000E+00 sec (time_manager) ocn date 0088-oct-07, 0.000000E+00 sec (time_manager) ocn date 0088-oct-08, 0.000000E+00 sec (time_manager) ocn date 0088-oct-09, 0.000000E+00 sec (time_manager) ocn date 0088-oct-10, 0.000000E+00 sec (time_manager) ocn date 0088-oct-11, 0.000000E+00 sec (time_manager) ocn date 0088-oct-12, 0.000000E+00 sec (time_manager) ocn date 0088-oct-13, 0.000000E+00 sec (time_manager) ocn date 0088-oct-14, 0.000000E+00 sec (time_manager) ocn date 0088-oct-15, 0.000000E+00 sec (time_manager) ocn date 0088-oct-16, 0.000000E+00 sec (time_manager) ocn date 0088-oct-17, 0.000000E+00 sec (time_manager) ocn date 0088-oct-18, 0.000000E+00 sec (time_manager) ocn date 0088-oct-19, 0.000000E+00 sec (time_manager) ocn date 0088-oct-20, 0.000000E+00 sec (time_manager) ocn date 0088-oct-21, 0.000000E+00 sec (time_manager) ocn date 0088-oct-22, 0.000000E+00 sec (time_manager) ocn date 0088-oct-23, 0.000000E+00 sec (time_manager) ocn date 0088-oct-24, 0.000000E+00 sec (time_manager) ocn date 0088-oct-25, 0.000000E+00 sec (time_manager) ocn date 0088-oct-26, 0.000000E+00 sec (time_manager) ocn date 0088-oct-27, 0.000000E+00 sec (time_manager) ocn date 0088-oct-28, 0.000000E+00 sec (time_manager) ocn date 0088-oct-29, 0.000000E+00 sec (time_manager) ocn date 0088-oct-30, 0.000000E+00 sec (time_manager) ocn date 0088-oct-31, 0.000000E+00 sec (time_manager) ocn date 0088-nov-01, 0.000000E+00 sec Step number : 801450 Date : 01 nov 0088 Hour : 0 Minute : 0 Second : 0 Time(years) : 87.832877 max. cfl number for zonal advection : 9.3594E-02 20 371 33 max. cfl number for meridional advection : 9.3070E-02 312 203 1 max. cfl number for vertical advection : 5.5511E-01 320 362 20 max. cfl number for total advection : 5.7632E-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. : 8.926846724526140E+00 K.E. change from horiz. visc. :-3.687211626437124E-06 K.E. change from vert. visc. : 9.235917854035196E-06 K.E. change from wind stress : 2.761880668230886E-05 advective K.E. balance :-3.719802873600788E-10 :-7.476504123672093E-10 P.E. verses pressure work : 7.885986203911325E-04 :-5.428816584652533E-06 surface-pressure contribution : 1.077432405080292E-06 :-1.154965310343612E-06 Tracer diagnostics: mean value of tracer 1 : 3.514353367401305E+00 abs change in tracer 1 : 1.337687784448421E-07 mean change in tracer 1 : 3.562035568651675E-09 mean change in tracer 1 from advection :-4.633943333404115E-24 mean change in tracer 1 from horiz. diff.:-1.120164419016262E-25 mean change in tracer 1 from vert. diff.:-1.186904284592623E-08 mean change in tracer 1 from sources : 1.533663009171382E-08 surface flux of tracer 1 : 0.000000000000000E+00 mean value of tracer 2 : 3.472146809586539E+01 abs change in tracer 2 : 1.352209222443065E-11 mean change in tracer 2 : 6.608767627273475E-14 mean change in tracer 2 from advection :-8.751284523564546E-28 mean change in tracer 2 from horiz. diff.:-7.016860534930454E-30 mean change in tracer 2 from vert. diff.: 3.046313673341110E-14 mean change in tracer 2 from sources :-8.424059256939936E-32 surface flux of tracer 2 : 0.000000000000000E+00 mean value of tracer 3 : 2.222148442543334E+02 abs change in tracer 3 : 2.379029101576522E-06 mean change in tracer 3 : 2.062102768939977E-08 mean change in tracer 3 from advection :-6.584208542933481E-23 mean change in tracer 3 from horiz. diff.: 8.489667175702196E-25 mean change in tracer 3 from vert. diff.: 7.085687259174827E-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: 5.083005920717738E-05 residual, scans : 6.552768649681748E-14 250 Timing information: Timer number 1 Time = 688.79 seconds HMIX_MOMENTUM_ANISO Timer number 2 Time = 606.45 seconds HMIX_TRACER_GM_NLOOP Timer number 3 Time = 3393.45 seconds HMIX_TRACER_GM Timer number 4 Time = 1771.36 seconds VMIX_COEFFICIENTS_KPP Timer number 5 Time = 94.33 seconds VMIX_EXPLICIT_TRACER Timer number 6 Time = 45.95 seconds VMIX_EXPLICIT_MOMENTUM Timer number 7 Time = 293.91 seconds VMIX_IMPLICIT_TRACER Timer number 8 Time = 70.85 seconds VMIX_IMPLICIT_MOMENTUM Timer number 9 Time = 10.31 seconds COMPUTE_COSZ Timer number 10 Time = 126.68 seconds ADVECTION_MOMENTUM Timer number 11 Time = 658.07 seconds ADVECTION_TRACER_UPWIND3 Timer number 12 Time = 45.84 seconds MOC Timer number 13 Time = 45.21 seconds TRACER_TRANSPORTS Timer number 14 Time = 804.93 seconds TAVG_WRITE_STD Timer number 15 Time = 64.34 seconds TAVG_WRITE_NONSTD Timer number 16 Time = 43.57 seconds TAVG_CCSM_DIAGS_BSF Timer number 17 Time = 45.84 seconds TAVG_CCSM_DIAGS_MOC Timer number 18 Time = 45.21 seconds TAVG_CCSM_DIAGS_TRANS Timer number 19 Time = 10175.54 seconds STEP Timer number 20 Time = 8649.02 seconds BAROCLINIC Timer number 21 Time = 1161.68 seconds BAROTROPIC Timer number 22 Time = 209.01 seconds 3D-UPDATE Timer number 23 Time = 11201.44 seconds TOTAL Timer number 24 Time = 1017.83 seconds OUTPUT Timer number 25 Time = 1011.67 seconds OUTPUT TAVG Timer number 26 Time = 6.08 seconds OUTPUT REST ------------------------------------------------------------------------ (diag_print) file written: /ptmp/mai/b40.1850.track1.1deg.006/run/b40.1850.track1.1deg.006.pop.dd.0087-01-01-00000 (diag_transport) file written: /ptmp/mai/b40.1850.track1.1deg.006/run/b40.1850.track1.1deg.006.pop.dt.0087-01-01-00000 AFTER CALL IN tracer_budgets (final): ===================================== volume_t (cm^3) = 0.132514028745E+25 SUM [volume*T] (C cm^3) = 0.465700295228E+25 SUM [volume*S] (ppt cm^3) = 0.460108161307E+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 = -.208609061866E-12 FW flux = 0.000000000000E+00 Imbalance = 0.208609061866E-12 Imbalance = -tendency + FW flux HEAT BUDGET FOR THE GIVEN TAVG INTERVAL (W/m^2): ------------------------------------------------ tendency = 0.124073842388E+02 SHF flux = 0.122679676241E+02 ice formation = 0.139416756373E+00 FW heat content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = 0.141606859239E-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 = -.231234301048E-05 SFWF flux = -.194271251790E-05 ice formation = -.369630388185E-06 FW salt content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = 0.104391726063E-12 Imbalance = -tendency + SFWF flux + ice formation + FW salt content + free-srf non-consv. Global Time Averages: 11-01-0088 00:00:00 KAPPA_ISOP: 4528660.73990980070 KAPPA_THIC: 5049034.18854077160 HOR_DIFF: 565092.955901162582 DIA_DEPTH: 6625.12825706238073 TLT: 490.598010773070257 INT_DEPTH: 7115.72630997988199 UISOP: 0.829641104165839305E-04 VISOP: -0.408333270525730542E-03 WISOP: 0.303452750158921930E-12 ADVT_ISOP: 0.435539226528316349E-10 ADVS_ISOP: 0.110784686098977970E-15 VNT_ISOP: -0.202030079821215373E-08 VNS_ISOP: -0.234391131300674729E-11 USUBM: 0.437209280702556418E-05 VSUBM: -0.189987044068169912E-04 WSUBM: 0.282036090759154359E-09 HLS_SUBM: 862306.238738867105 ADVT_SUBM: -0.126457868198280942E-11 ADVS_SUBM: 0.450382172972684012E-15 VNT_SUBM: -0.546706081202346910E-09 VNS_SUBM: -0.122099582498930735E-12 HDIFT: 0.113362339014680132E-10 HDIFS: 0.212261839032802933E-14 QSW_HBL: 159.043551187969740 KVMIX: 1.35559507330109574 TPOWER: 0.220927319254844740E-05 UVEL: 0.317554958154531497 VVEL: 0.105320014381330936E-02 TEMP: 3.51143491807523267 dTEMP_POS_2D: 0.840320373840130475E-01 dTEMP_NEG_2D: -0.676526276233258977E-01 SALT: 0.347214158527160768E-01 RHO: 1.03743430905839551 RESID_T: 0.000000000000000000E+00 RESID_S: 0.000000000000000000E+00 SU: 113901.290416802760 SV: 350.638132263501859 SSH: 0.510563631824996589E-04 SHF: 12.2679676240603381 SHF_QSW: 186.472410415518965 SFWF: -0.194271251790219812E-05 TAUX: 0.139973941719667955 TAUY: -0.155286971290504567E-02 FW: 0.000000000000000000E+00 TFW_T: 0.000000000000000000E+00 TFW_S: 0.000000000000000000E+00 EVAP_F: -0.393071800811277050E-04 PREC_F: 0.341100020778325929E-04 SNOW_F: 0.923550030514556671E-06 MELT_F: -0.293178485622084282E-06 ROFF_F: 0.313116638640510708E-05 IOFF_F: 0.262192564583549033E-06 SALT_F: -0.535367982880531331E-08 SENH_F: -14.3230350046527235 LWUP_F: -385.760306452003192 LWDN_F: 325.445743448347400 MELTH_F: -0.863910844325644467 IFRAC: 0.793091721177134473E-01 IAGE: 222.187788594942873 WVEL: 0.799389582959808005E-06 UET: 0.341079515290432902E-07 VNT: -0.232652079753122523E-07 WTT: -0.159278478069483104E-07 UES: 0.156287344129507742E-08 VNS: -0.389317928884582303E-11 WTS: 0.982972859679038287E-12 ADVT: 0.117513685428686602E-09 ADVS: -0.230855821649417208E-14 PV: -0.342736799921707027E-13 Q: -0.963790176374636796E-08 PD: 1.02752337190215925 QSW_HTP: 136.888572782228010 QFLUX: 0.139416756372877537 HMXL: 6625.80353390501205 XMXL: 9260.36458860632774 TMXL: 3815.52220623998210 HBLT: 3950.71338917159619 XBLT: 7219.94265278634248 TBLT: 889.553263502836444 BSF: 0.000000000000000000E+00 convergence info from pcg_diag_bsf: iter = 0 rms_resid = 0.100195786338217060 iter = 100 rms_resid = 0.417939041801371550E-02 iter = 200 rms_resid = 0.888092922048685173E-03 iter = 300 rms_resid = 0.396659667579494395E-03 iter = 400 rms_resid = 0.293158062054450622E-03 iter = 500 rms_resid = 0.184196624289204746E-03 iter = 600 rms_resid = 0.473639539550489204E-04 iter = 700 rms_resid = 0.141651160050896648E-04 iter = 800 rms_resid = 0.187332090483518650E-05 iter = 900 rms_resid = 0.146783624710039859E-06 Local Time- and Space-Averages for Nino Regions: 00:00:00 0088-11-01 NINO_1_PLUS_2: 23.7127426042768015 NINO_3: 25.0240046685903756 NINO_3_POINT_4: 26.2284805845845810 NINO_4: 28.0779011814714714 tavg file written: ./b40.1850.track1.1deg.006.pop.h.0088-10.nc (time_manager) ocn date 0088-nov-02, 0.000000E+00 sec (time_manager) ocn date 0088-nov-03, 0.000000E+00 sec (time_manager) ocn date 0088-nov-04, 0.000000E+00 sec (time_manager) ocn date 0088-nov-05, 0.000000E+00 sec (time_manager) ocn date 0088-nov-06, 0.000000E+00 sec (time_manager) ocn date 0088-nov-07, 0.000000E+00 sec (time_manager) ocn date 0088-nov-08, 0.000000E+00 sec (time_manager) ocn date 0088-nov-09, 0.000000E+00 sec (time_manager) ocn date 0088-nov-10, 0.000000E+00 sec (time_manager) ocn date 0088-nov-11, 0.000000E+00 sec (time_manager) ocn date 0088-nov-12, 0.000000E+00 sec (time_manager) ocn date 0088-nov-13, 0.000000E+00 sec (time_manager) ocn date 0088-nov-14, 0.000000E+00 sec (time_manager) ocn date 0088-nov-15, 0.000000E+00 sec (time_manager) ocn date 0088-nov-16, 0.000000E+00 sec (time_manager) ocn date 0088-nov-17, 0.000000E+00 sec (time_manager) ocn date 0088-nov-18, 0.000000E+00 sec (time_manager) ocn date 0088-nov-19, 0.000000E+00 sec (time_manager) ocn date 0088-nov-20, 0.000000E+00 sec (time_manager) ocn date 0088-nov-21, 0.000000E+00 sec (time_manager) ocn date 0088-nov-22, 0.000000E+00 sec (time_manager) ocn date 0088-nov-23, 0.000000E+00 sec (time_manager) ocn date 0088-nov-24, 0.000000E+00 sec (time_manager) ocn date 0088-nov-25, 0.000000E+00 sec (time_manager) ocn date 0088-nov-26, 0.000000E+00 sec (time_manager) ocn date 0088-nov-27, 0.000000E+00 sec (time_manager) ocn date 0088-nov-28, 0.000000E+00 sec (time_manager) ocn date 0088-nov-29, 0.000000E+00 sec (time_manager) ocn date 0088-nov-30, 0.000000E+00 sec (time_manager) ocn date 0088-dec-01, 0.000000E+00 sec Step number : 802200 Date : 01 dec 0088 Hour : 0 Minute : 0 Second : 0 Time(years) : 87.915068 max. cfl number for zonal advection : 9.1418E-02 20 371 33 max. cfl number for meridional advection : 7.9747E-02 144 205 1 max. cfl number for vertical advection : 2.3782E-01 15 367 20 max. cfl number for total advection : 2.5525E-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. : 8.380931036735280E+00 K.E. change from horiz. visc. :-3.694842436591672E-06 K.E. change from vert. visc. : 6.548394606020882E-06 K.E. change from wind stress : 2.323741958622420E-05 advective K.E. balance : 5.161905316114050E-11 :-7.484609326107392E-10 P.E. verses pressure work : 7.892141250988399E-04 :-2.910861418033612E-06 surface-pressure contribution :-2.223409634727124E-07 : 1.620557187161652E-07 Tracer diagnostics: mean value of tracer 1 : 3.516124672726824E+00 abs change in tracer 1 : 1.379325977618331E-07 mean change in tracer 1 : 2.932562547320589E-09 mean change in tracer 1 from advection :-7.546370822846396E-25 mean change in tracer 1 from horiz. diff.: 1.002252374909287E-25 mean change in tracer 1 from vert. diff.:-1.233719745162320E-08 mean change in tracer 1 from sources : 1.508803642491395E-08 surface flux of tracer 1 : 0.000000000000000E+00 mean value of tracer 2 : 3.472154767303919E+01 abs change in tracer 2 : 1.325323306014783E-11 mean change in tracer 2 : 8.551163021111058E-14 mean change in tracer 2 from advection :-5.757424028660886E-28 mean change in tracer 2 from horiz. diff.:-1.952126584717832E-29 mean change in tracer 2 from vert. diff.: 1.696812989282851E-14 mean change in tracer 2 from sources : 3.397909615203938E-33 surface flux of tracer 2 : 0.000000000000000E+00 mean value of tracer 3 : 2.222741131000378E+02 abs change in tracer 3 : 2.447076731515787E-06 mean change in tracer 3 : 2.365103064924777E-08 mean change in tracer 3 from advection :-4.376895077250910E-23 mean change in tracer 3 from horiz. diff.: 0.000000000000000E+00 mean change in tracer 3 from vert. diff.: 2.146459004211971E-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: 5.105076341861404E-05 residual, scans : 6.579621166657863E-14 240 Timing information: Timer number 1 Time = 719.54 seconds HMIX_MOMENTUM_ANISO Timer number 2 Time = 633.92 seconds HMIX_TRACER_GM_NLOOP Timer number 3 Time = 3545.31 seconds HMIX_TRACER_GM Timer number 4 Time = 1850.94 seconds VMIX_COEFFICIENTS_KPP Timer number 5 Time = 98.56 seconds VMIX_EXPLICIT_TRACER Timer number 6 Time = 48.02 seconds VMIX_EXPLICIT_MOMENTUM Timer number 7 Time = 307.09 seconds VMIX_IMPLICIT_TRACER Timer number 8 Time = 74.03 seconds VMIX_IMPLICIT_MOMENTUM Timer number 9 Time = 10.78 seconds COMPUTE_COSZ Timer number 10 Time = 132.33 seconds ADVECTION_MOMENTUM Timer number 11 Time = 687.56 seconds ADVECTION_TRACER_UPWIND3 Timer number 12 Time = 48.00 seconds MOC Timer number 13 Time = 47.44 seconds TRACER_TRANSPORTS Timer number 14 Time = 841.19 seconds TAVG_WRITE_STD Timer number 15 Time = 67.65 seconds TAVG_WRITE_NONSTD Timer number 16 Time = 45.63 seconds TAVG_CCSM_DIAGS_BSF Timer number 17 Time = 48.00 seconds TAVG_CCSM_DIAGS_MOC Timer number 18 Time = 47.45 seconds TAVG_CCSM_DIAGS_TRANS Timer number 19 Time = 10632.32 seconds STEP Timer number 20 Time = 9036.96 seconds BAROCLINIC Timer number 21 Time = 1213.70 seconds BAROTROPIC Timer number 22 Time = 218.41 seconds 3D-UPDATE Timer number 23 Time = 11705.07 seconds TOTAL Timer number 24 Time = 1064.30 seconds OUTPUT Timer number 25 Time = 1058.13 seconds OUTPUT TAVG Timer number 26 Time = 6.09 seconds OUTPUT REST ------------------------------------------------------------------------ (diag_print) file written: /ptmp/mai/b40.1850.track1.1deg.006/run/b40.1850.track1.1deg.006.pop.dd.0087-01-01-00000 (diag_transport) file written: /ptmp/mai/b40.1850.track1.1deg.006/run/b40.1850.track1.1deg.006.pop.dt.0087-01-01-00000 AFTER CALL IN tracer_budgets (final): ===================================== volume_t (cm^3) = 0.132514028745E+25 SUM [volume*T] (C cm^3) = 0.465935197806E+25 SUM [volume*S] (ppt cm^3) = 0.460109216126E+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 = 0.851410999293E-13 FW flux = 0.000000000000E+00 Imbalance = -.851410999293E-13 Imbalance = -tendency + FW flux HEAT BUDGET FOR THE GIVEN TAVG INTERVAL (W/m^2): ------------------------------------------------ tendency = 0.102884464934E+02 SHF flux = 0.100745323412E+02 ice formation = 0.213914160510E+00 FW heat content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = 0.831097451970E-08 Imbalance = -tendency + SHF flux + ice formation + FW heat content + free-srf non-consv. IMPLIED FW BUDGET FOR THE GIVEN TAVG INTERVAL (kg of freshwater/m^2/s): ----------------------------------------------------- tendency = -.324741290202E-05 SFWF flux = -.268027020787E-05 ice formation = -.567142546168E-06 FW salt content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = 0.147981827763E-12 Imbalance = -tendency + SFWF flux + ice formation + FW salt content + free-srf non-consv. Global Time Averages: 12-01-0088 00:00:00 KAPPA_ISOP: 3904721.48540975340 KAPPA_THIC: 4334420.20875615906 HOR_DIFF: 474796.902026188211 DIA_DEPTH: 5554.76667238674600 TLT: 417.185005239204884 INT_DEPTH: 5971.95208248290146 UISOP: 0.593631734166555751E-04 VISOP: -0.351568081889292675E-03 WISOP: -0.248863426217099710E-12 ADVT_ISOP: 0.173877936152401632E-10 ADVS_ISOP: -0.310850904207232249E-14 VNT_ISOP: -0.756936292280654709E-09 VNS_ISOP: -0.189206650125833117E-11 USUBM: 0.199333729947886619E-05 VSUBM: 0.928667915614300176E-05 WSUBM: -0.743411689816488638E-09 HLS_SUBM: 852230.076222953154 ADVT_SUBM: -0.157022319174309663E-11 ADVS_SUBM: -0.194457661560270640E-15 VNT_SUBM: -0.131585897077441539E-09 VNS_SUBM: 0.100177396664721119E-12 HDIFT: 0.249446291733280653E-10 HDIFS: 0.517897688591434044E-15 QSW_HBL: 161.347397461138257 KVMIX: 1.35915788672965010 TPOWER: 0.219901233461433022E-05 UVEL: 0.299734629636607630 VVEL: 0.364713774493501087E-03 TEMP: 3.51370436267637976 dTEMP_POS_2D: 0.876720259739787594E-01 dTEMP_NEG_2D: -0.707298587564685471E-01 SALT: 0.347214895431387366E-01 RHO: 1.03743391330544998 RESID_T: 0.000000000000000000E+00 RESID_S: 0.000000000000000000E+00 SU: 107509.077428446239 SV: 96.8816733103598011 SSH: 0.510872594864245899E-04 SHF: 10.0745323412257513 SHF_QSW: 191.298799615330836 SFWF: -0.268027020787083416E-05 TAUX: 0.967531725114399582E-01 TAUY: -0.560229898330706841E-01 FW: 0.000000000000000000E+00 TFW_T: 0.000000000000000000E+00 TFW_S: 0.000000000000000000E+00 EVAP_F: -0.411522983869396023E-04 PREC_F: 0.344292588191390996E-04 SNOW_F: 0.104673640184319661E-05 MELT_F: 0.864015048878179897E-06 ROFF_F: 0.294659922126627784E-05 IOFF_F: 0.206058007340625939E-06 SALT_F: -0.905550522443941910E-09 SENH_F: -16.0090562049183660 LWUP_F: -385.988307784456765 LWDN_F: 325.339037408056356 MELTH_F: -1.22598233926494693 IFRAC: 0.790697432255882404E-01 IAGE: 222.243856252251447 WVEL: 0.817136669212654832E-06 UET: 0.644400624007966014E-07 VNT: 0.146776287644685378E-07 WTT: -0.142016003438378613E-07 UES: 0.148158997960650332E-08 VNS: -0.479985543758874410E-11 WTS: 0.879978690740788326E-12 ADVT: -0.715703087263035731E-10 ADVS: 0.668329108901797583E-14 PV: 0.114902941594514774E-13 Q: -0.963716048231851520E-08 PD: 1.02752297621169730 QSW_HTP: 140.124937383855297 QFLUX: 0.213914160510314699 HMXL: 5555.45513935381678 XMXL: 7427.79874417927385 TMXL: 3488.29498353428380 HBLT: 3634.49664456374103 XBLT: 6683.47053559925735 TBLT: 850.540515729012895 BSF: 0.000000000000000000E+00 convergence info from pcg_diag_bsf: iter = 0 rms_resid = 0.110449557655851058 iter = 100 rms_resid = 0.411520862576143093E-02 iter = 200 rms_resid = 0.850854213544231298E-03 iter = 300 rms_resid = 0.353755264240701453E-03 iter = 400 rms_resid = 0.265976048072422903E-03 iter = 500 rms_resid = 0.178868607942763184E-03 iter = 600 rms_resid = 0.476439496683285317E-04 iter = 700 rms_resid = 0.144910929734829459E-04 iter = 800 rms_resid = 0.174595273657800211E-05 iter = 900 rms_resid = 0.148018446694650607E-06 Local Time- and Space-Averages for Nino Regions: 00:00:00 0088-12-01 NINO_1_PLUS_2: 24.2030380649181289 NINO_3: 25.4721009193347037 NINO_3_POINT_4: 26.6107845988384177 NINO_4: 28.2945956030104178 tavg file written: ./b40.1850.track1.1deg.006.pop.h.0088-11.nc (time_manager) ocn date 0088-dec-02, 0.000000E+00 sec (time_manager) ocn date 0088-dec-03, 0.000000E+00 sec (time_manager) ocn date 0088-dec-04, 0.000000E+00 sec (time_manager) ocn date 0088-dec-05, 0.000000E+00 sec (time_manager) ocn date 0088-dec-06, 0.000000E+00 sec (time_manager) ocn date 0088-dec-07, 0.000000E+00 sec (time_manager) ocn date 0088-dec-08, 0.000000E+00 sec (time_manager) ocn date 0088-dec-09, 0.000000E+00 sec (time_manager) ocn date 0088-dec-10, 0.000000E+00 sec (time_manager) ocn date 0088-dec-11, 0.000000E+00 sec (time_manager) ocn date 0088-dec-12, 0.000000E+00 sec (time_manager) ocn date 0088-dec-13, 0.000000E+00 sec (time_manager) ocn date 0088-dec-14, 0.000000E+00 sec (time_manager) ocn date 0088-dec-15, 0.000000E+00 sec (time_manager) ocn date 0088-dec-16, 0.000000E+00 sec (time_manager) ocn date 0088-dec-17, 0.000000E+00 sec (time_manager) ocn date 0088-dec-18, 0.000000E+00 sec (time_manager) ocn date 0088-dec-19, 0.000000E+00 sec (time_manager) ocn date 0088-dec-20, 0.000000E+00 sec (time_manager) ocn date 0088-dec-21, 0.000000E+00 sec (time_manager) ocn date 0088-dec-22, 0.000000E+00 sec (time_manager) ocn date 0088-dec-23, 0.000000E+00 sec (time_manager) ocn date 0088-dec-24, 0.000000E+00 sec (time_manager) ocn date 0088-dec-25, 0.000000E+00 sec (time_manager) ocn date 0088-dec-26, 0.000000E+00 sec (time_manager) ocn date 0088-dec-27, 0.000000E+00 sec (time_manager) ocn date 0088-dec-28, 0.000000E+00 sec (time_manager) ocn date 0088-dec-29, 0.000000E+00 sec (time_manager) ocn date 0088-dec-30, 0.000000E+00 sec (time_manager) ocn date 0088-dec-31, 0.000000E+00 sec (ocn_comp_mct(run):) driver requests restart file at eod 0088/12/31 (time_manager) ocn date 0089-jan-01, 0.000000E+00 sec Step number : 802975 Date : 01 jan 0089 Hour : 0 Minute : 0 Second : 0 Time(years) : 88.000000 max. cfl number for zonal advection : 8.6607E-02 20 371 33 max. cfl number for meridional advection : 7.7378E-02 80 202 6 max. cfl number for vertical advection : 3.5240E-01 311 355 12 max. cfl number for total advection : 3.5636E-01 311 355 13 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. : 8.631489336696600E+00 K.E. change from horiz. visc. :-3.687758171476490E-06 K.E. change from vert. visc. : 1.009230973433050E-05 K.E. change from wind stress : 2.683255677881456E-05 advective K.E. balance :-6.221601776509086E-10 :-1.801702422585220E-10 P.E. verses pressure work : 7.663626354886875E-04 :-5.503378288731414E-06 surface-pressure contribution :-6.319568350543846E-07 : 5.656437062065697E-07 Tracer diagnostics: mean value of tracer 1 : 3.517732319086408E+00 abs change in tracer 1 : 1.444654985967009E-07 mean change in tracer 1 : 2.981639078810033E-09 mean change in tracer 1 from advection :-3.961844681994358E-24 mean change in tracer 1 from horiz. diff.: 1.532856573390674E-25 mean change in tracer 1 from vert. diff.:-1.212876024677471E-08 mean change in tracer 1 from sources : 1.501711114007321E-08 surface flux of tracer 1 : 0.000000000000000E+00 mean value of tracer 2 : 3.472155282089768E+01 abs change in tracer 2 : 1.316178198499451E-11 mean change in tracer 2 : 4.399159028194181E-14 mean change in tracer 2 from advection : 1.151484805732177E-28 mean change in tracer 2 from horiz. diff.: 1.979114509852180E-29 mean change in tracer 2 from vert. diff.: 8.804637750581760E-15 mean change in tracer 2 from sources : 5.648240710328039E-32 surface flux of tracer 2 : 0.000000000000000E+00 mean value of tracer 3 : 2.223333779010224E+02 abs change in tracer 3 : 2.502582674561876E-06 mean change in tracer 3 : 2.183096685870830E-08 mean change in tracer 3 from advection :-9.055644987415675E-24 mean change in tracer 3 from horiz. diff.:-8.489667175702196E-25 mean change in tracer 3 from vert. diff.: 3.315667783516464E-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: 5.080814226153263E-05 residual, scans : 6.452232395521688E-14 230 Timing information: Timer number 1 Time = 750.98 seconds HMIX_MOMENTUM_ANISO Timer number 2 Time = 662.30 seconds HMIX_TRACER_GM_NLOOP Timer number 3 Time = 3702.17 seconds HMIX_TRACER_GM Timer number 4 Time = 1933.68 seconds VMIX_COEFFICIENTS_KPP Timer number 5 Time = 102.92 seconds VMIX_EXPLICIT_TRACER Timer number 6 Time = 50.16 seconds VMIX_EXPLICIT_MOMENTUM Timer number 7 Time = 320.71 seconds VMIX_IMPLICIT_TRACER Timer number 8 Time = 77.32 seconds VMIX_IMPLICIT_MOMENTUM Timer number 9 Time = 11.25 seconds COMPUTE_COSZ Timer number 10 Time = 138.13 seconds ADVECTION_MOMENTUM Timer number 11 Time = 718.07 seconds ADVECTION_TRACER_UPWIND3 Timer number 12 Time = 50.16 seconds MOC Timer number 13 Time = 49.59 seconds TRACER_TRANSPORTS Timer number 14 Time = 877.71 seconds TAVG_WRITE_STD Timer number 15 Time = 71.06 seconds TAVG_WRITE_NONSTD Timer number 16 Time = 47.68 seconds TAVG_CCSM_DIAGS_BSF Timer number 17 Time = 50.16 seconds TAVG_CCSM_DIAGS_MOC Timer number 18 Time = 49.60 seconds TAVG_CCSM_DIAGS_TRANS Timer number 19 Time = 11104.30 seconds STEP Timer number 20 Time = 9437.26 seconds BAROCLINIC Timer number 21 Time = 1267.54 seconds BAROTROPIC Timer number 22 Time = 228.33 seconds 3D-UPDATE Timer number 23 Time = 12224.11 seconds TOTAL Timer number 24 Time = 1110.99 seconds OUTPUT Timer number 25 Time = 1104.82 seconds OUTPUT TAVG Timer number 26 Time = 6.09 seconds OUTPUT REST ------------------------------------------------------------------------ (diag_print) file written: /ptmp/mai/b40.1850.track1.1deg.006/run/b40.1850.track1.1deg.006.pop.dd.0087-01-01-00000 (diag_transport) file written: /ptmp/mai/b40.1850.track1.1deg.006/run/b40.1850.track1.1deg.006.pop.dt.0087-01-01-00000 AFTER CALL IN tracer_budgets (final): ===================================== volume_t (cm^3) = 0.132514028745E+25 SUM [volume*T] (C cm^3) = 0.466148215177E+25 SUM [volume*S] (ppt cm^3) = 0.460109284561E+26 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 = -.905813460063E-13 FW flux = 0.000000000000E+00 Imbalance = 0.905813460063E-13 Imbalance = -tendency + FW flux HEAT BUDGET FOR THE GIVEN TAVG INTERVAL (W/m^2): ------------------------------------------------ tendency = 0.902893655003E+01 SHF flux = 0.882534191463E+01 ice formation = 0.203594087194E+00 FW heat content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = -.548204971779E-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 = -.203889431736E-06 SFWF flux = 0.335891717247E-06 ice formation = -.539781324997E-06 FW salt content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = -.176013660209E-12 Imbalance = -tendency + SFWF flux + ice formation + FW salt content + free-srf non-consv. restart file written: ./b40.1850.track1.1deg.006.pop.r.0089-01-01-00000 restart pointer file written: ./rpointer.ocn.restart ovf_write_restart unit (mu) = 19 file name = ./b40.1850.track1.1deg.006.pop.ro.0089-01-01-00000 ovf write restart cdate yyyymmdd = 00890101 overflow restart pointer file written: ./rpointer.ocn.ovf Global Time Averages: 01-01-0089 00:00:00 KAPPA_ISOP: 3514830.65706887469 KAPPA_THIC: 3926914.61559504084 HOR_DIFF: 457236.118923102389 DIA_DEPTH: 5351.76651050577948 TLT: 388.297617240550323 INT_DEPTH: 5740.06027262202406 UISOP: 0.503835590729647236E-04 VISOP: -0.306325044880070342E-03 WISOP: 0.200605762451054594E-13 ADVT_ISOP: 0.793766802469189876E-11 ADVS_ISOP: -0.378964056981790056E-16 VNT_ISOP: -0.253868365347742934E-09 VNS_ISOP: -0.176025814042570142E-11 USUBM: -0.138925158799263678E-04 VSUBM: 0.668912201373452766E-04 WSUBM: -0.121460089898968284E-08 HLS_SUBM: 797421.616721881088 ADVT_SUBM: 0.221192421926856181E-12 ADVS_SUBM: 0.106571040677000105E-15 VNT_SUBM: 0.135840647783220394E-09 VNS_SUBM: 0.525329132873214773E-12 HDIFT: -0.513946269383944300E-10 HDIFS: -0.620756862483167864E-14 QSW_HBL: 163.393606324755751 KVMIX: 1.36407097091760332 TPOWER: 0.219651370565349535E-05 UVEL: 0.293947517823369642 VVEL: 0.734702912106817321E-03 TEMP: 3.51527183882715200 dTEMP_POS_2D: 0.821017722157362378E-01 dTEMP_NEG_2D: -0.643611341545382715E-01 SALT: 0.347215201234938528E-01 RHO: 1.03743386942085025 RESID_T: 0.000000000000000000E+00 RESID_S: 0.000000000000000000E+00 SU: 105433.700540146281 SV: 220.635471332678918 SSH: 0.507951294374821058E-04 SHF: 8.82534191463200024 SHF_QSW: 193.076702770085205 SFWF: 0.335891717247283811E-06 TAUX: 0.515422917624713331E-01 TAUY: -0.589584644767866539E-01 FW: 0.000000000000000000E+00 TFW_T: 0.000000000000000000E+00 TFW_S: 0.000000000000000000E+00 EVAP_F: -0.426195557361978166E-04 PREC_F: 0.362048838871455644E-04 SNOW_F: 0.967024902691761995E-06 MELT_F: 0.395176035110340310E-05 ROFF_F: 0.294631818171422776E-05 IOFF_F: 0.162542489592802679E-06 SALT_F: 0.107590075785296799E-07 SENH_F: -15.9083589453223588 LWUP_F: -387.193166732960833 LWDN_F: 327.869661474827979 MELTH_F: -2.05105147027407897 IFRAC: 0.767269392996394461E-01 IAGE: 222.304280618363009 WVEL: 0.800316717165921219E-06 UET: 0.638836979202367548E-07 VNT: 0.775245266103527666E-07 WTT: -0.175763510753487364E-07 UES: 0.144963321165994109E-08 VNS: -0.520900253096836981E-11 WTS: 0.216082573173180903E-12 ADVT: -0.114584058532208740E-09 ADVS: -0.695848509420886411E-14 PV: 0.668946300531999643E-13 Q: -0.968127013941117666E-08 PD: 1.02752293863545363 QSW_HTP: 141.502951545588814 QFLUX: 0.203594087193916223 HMXL: 5353.09972293244482 XMXL: 6752.42923620102647 TMXL: 3874.33301584131550 HBLT: 3761.50835951218460 XBLT: 6331.12419579186553 TBLT: 875.312712767400285 BSF: 0.000000000000000000E+00 convergence info from pcg_diag_bsf: iter = 0 rms_resid = 0.110723888444567112 iter = 100 rms_resid = 0.408476206409016246E-02 iter = 200 rms_resid = 0.830767448166765251E-03 iter = 300 rms_resid = 0.320101629917775483E-03 iter = 400 rms_resid = 0.233470298201221229E-03 iter = 500 rms_resid = 0.166239071895659367E-03 iter = 600 rms_resid = 0.468884618734023467E-04 iter = 700 rms_resid = 0.153363790440323237E-04 iter = 800 rms_resid = 0.170874944988160985E-05 iter = 900 rms_resid = 0.148243435365279440E-06 Local Time- and Space-Averages for Nino Regions: 00:00:00 0089-01-01 NINO_1_PLUS_2: 25.1864539929057010 NINO_3: 25.9488855580427504 NINO_3_POINT_4: 26.9056694847889659 NINO_4: 28.4611221114512176 tavg file written: ./b40.1850.track1.1deg.006.pop.h.0088-12.nc ------------------------------------------------------------------------ Successful completion of POP model ------------------------------------------------------------------------ Timing information: Timer number 1 Time = 750.98 seconds HMIX_MOMENTUM_ANISO Timer stats (node): min = 578.68 seconds max = 750.98 seconds mean= 664.62 seconds Timer stats(block): min = 579.26 seconds max = 751.52 seconds mean= 665.15 seconds Timer number 2 Time = 662.30 seconds HMIX_TRACER_GM_NLOOP Timer stats (node): min = 624.24 seconds max = 662.30 seconds mean= 635.95 seconds Timer stats(block): min = 624.82 seconds max = 662.86 seconds mean= 636.53 seconds Timer number 3 Time = 3702.17 seconds HMIX_TRACER_GM Timer stats (node): min = 3329.30 seconds max = 3702.17 seconds mean= 3576.64 seconds Timer stats(block): min = 3329.86 seconds max = 3702.76 seconds mean= 3577.18 seconds Timer number 4 Time = 1933.68 seconds VMIX_COEFFICIENTS_KPP Timer stats (node): min = 1649.88 seconds max = 1933.68 seconds mean= 1827.97 seconds Timer stats(block): min = 1650.36 seconds max = 1934.20 seconds mean= 1828.48 seconds Timer number 5 Time = 102.92 seconds VMIX_EXPLICIT_TRACER Timer stats (node): min = 47.68 seconds max = 102.92 seconds mean= 87.56 seconds Timer stats(block): min = 48.39 seconds max = 103.57 seconds mean= 88.19 seconds Timer number 6 Time = 50.16 seconds VMIX_EXPLICIT_MOMENTUM Timer stats (node): min = 37.82 seconds max = 50.16 seconds mean= 45.05 seconds Timer stats(block): min = 38.36 seconds max = 50.66 seconds mean= 45.54 seconds Timer number 7 Time = 320.71 seconds VMIX_IMPLICIT_TRACER Timer stats (node): min = 113.78 seconds max = 320.71 seconds mean= 240.81 seconds Timer stats(block): min = 113.82 seconds max = 320.75 seconds mean= 240.85 seconds Timer number 8 Time = 77.32 seconds VMIX_IMPLICIT_MOMENTUM Timer stats (node): min = 38.42 seconds max = 77.32 seconds mean= 60.15 seconds Timer stats(block): min = 38.44 seconds max = 77.34 seconds mean= 60.16 seconds Timer number 9 Time = 11.25 seconds COMPUTE_COSZ Timer stats (node): min = 8.45 seconds max = 11.25 seconds mean= 9.23 seconds Timer stats(block): min = 8.47 seconds max = 11.27 seconds mean= 9.25 seconds Timer number 10 Time = 138.13 seconds ADVECTION_MOMENTUM Timer stats (node): min = 125.53 seconds max = 138.13 seconds mean= 133.75 seconds Timer stats(block): min = 126.02 seconds max = 138.62 seconds mean= 134.25 seconds Timer number 11 Time = 718.07 seconds ADVECTION_TRACER_UPWIND3 Timer stats (node): min = 678.63 seconds max = 718.07 seconds mean= 695.48 seconds Timer stats(block): min = 679.21 seconds max = 718.63 seconds mean= 696.04 seconds Timer number 12 Time = 52.34 seconds MOC Timer stats (node): min = 52.26 seconds max = 52.34 seconds mean= 52.28 seconds Timer stats(block): min = 0.00 seconds max = 0.00 seconds mean= 0.00 seconds Timer number 13 Time = 51.76 seconds TRACER_TRANSPORTS Timer stats (node): min = 51.72 seconds max = 51.76 seconds mean= 51.76 seconds Timer stats(block): min = 0.00 seconds max = 0.00 seconds mean= 0.00 seconds Timer number 14 Time = 913.94 seconds TAVG_WRITE_STD Timer stats (node): min = 913.94 seconds max = 913.94 seconds mean= 913.94 seconds Timer stats(block): min = 0.00 seconds max = 0.00 seconds mean= 0.00 seconds Timer number 15 Time = 73.57 seconds TAVG_WRITE_NONSTD Timer stats (node): min = 73.57 seconds max = 73.57 seconds mean= 73.57 seconds Timer stats(block): min = 0.00 seconds max = 0.00 seconds mean= 0.00 seconds Timer number 16 Time = 49.74 seconds TAVG_CCSM_DIAGS_BSF Timer stats (node): min = 49.74 seconds max = 49.74 seconds mean= 49.74 seconds Timer stats(block): min = 0.00 seconds max = 0.00 seconds mean= 0.00 seconds Timer number 17 Time = 52.34 seconds TAVG_CCSM_DIAGS_MOC Timer stats (node): min = 52.26 seconds max = 52.34 seconds mean= 52.29 seconds Timer stats(block): min = 0.00 seconds max = 0.00 seconds mean= 0.00 seconds Timer number 18 Time = 51.76 seconds TAVG_CCSM_DIAGS_TRANS Timer stats (node): min = 51.73 seconds max = 51.76 seconds mean= 51.76 seconds Timer stats(block): min = 0.00 seconds max = 0.00 seconds mean= 0.00 seconds Timer number 19 Time = 11104.34 seconds STEP Timer stats (node): min = 11099.25 seconds max = 11104.34 seconds mean= 11101.32 seconds Timer stats(block): min = 0.00 seconds max = 0.00 seconds mean= 0.00 seconds Timer number 20 Time = 9437.26 seconds BAROCLINIC Timer stats (node): min = 9097.60 seconds max = 9437.26 seconds mean= 9287.06 seconds Timer stats(block): min = 0.00 seconds max = 0.00 seconds mean= 0.00 seconds Timer number 21 Time = 1267.54 seconds BAROTROPIC Timer stats (node): min = 1260.92 seconds max = 1267.54 seconds mean= 1265.88 seconds Timer stats(block): min = 0.00 seconds max = 0.00 seconds mean= 0.00 seconds Timer number 22 Time = 228.33 seconds 3D-UPDATE Timer stats (node): min = 143.51 seconds max = 228.33 seconds mean= 176.76 seconds Timer stats(block): min = 0.00 seconds max = 0.00 seconds mean= 0.00 seconds Timer number 23 Time = 12275.47 seconds TOTAL Timer stats (node): min = 12269.15 seconds max = 12275.47 seconds mean= 12270.16 seconds Timer stats(block): min = 0.00 seconds max = 0.00 seconds mean= 0.00 seconds Timer number 24 Time = 1162.31 seconds OUTPUT Timer stats (node): min = 1160.78 seconds max = 1162.31 seconds mean= 1160.91 seconds Timer stats(block): min = 0.00 seconds max = 0.00 seconds mean= 0.00 seconds Timer number 25 Time = 1150.16 seconds OUTPUT TAVG Timer stats (node): min = 1148.81 seconds max = 1150.16 seconds mean= 1148.93 seconds Timer stats(block): min = 0.00 seconds max = 0.00 seconds mean= 0.00 seconds Timer number 26 Time = 12.07 seconds OUTPUT REST Timer stats (node): min = 11.86 seconds max = 12.07 seconds mean= 11.89 seconds Timer stats(block): min = 0.00 seconds max = 0.00 seconds mean= 0.00 seconds ------------------------------------------------------------------------ =================== completed POP_Final ===================