======================================================================== 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.090920-082312 , 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.0097-01-01-00000 ovf read restart label = ! Overflow Restart File for yyyymmdd =00970101 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.0097-01-01-00000 ======================================================================== 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): 01-01-0097 hour: 0 minute: 0 second: 0 step: 875975 This run will terminate at 00:00:00 on date(month-day-year): 01-01-1097 after running for 1000 years unless a stop signal is received from external source (eg, cpl) Starting elapsed time in years: 96.000 months: 1152.000 days: 35039.000 hours: 840936.000 seconds: 3027369600.000 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.0097-01-01-00000 (passive_tracer_tools:read_field_3D) reading IAGE_CUR from ./b40.1850.track1.1deg.006.pop.r.0097-01-01-00000 (passive_tracer_tools:read_field_3D) reading IAGE_OLD from ./b40.1850.track1.1deg.006.pop.r.0097-01-01-00000 ------------------------------------------------------------------------ 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.0097-01-01-00000 Equatorial velocities written to file: /ptmp/mai/b40.1850.track1.1deg.006/run/b40.1850.track1.1deg.006.pop.dv.0097-01-01-00000 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.0097-01-01-00000 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.0097-01-01-00000 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.0097-01-01-00000 regular restart writes will start at step 0 ======================================================================== History output options ------------------------------------------------------------------------ History output disabled ------------------------------------------------------------------------ Movie option ------------------------------------------------------------------------ ======================================================================== Movie: movie_nml namelist settings: &MOVIE_NML MOVIE_FREQ_OPT=never , MOVIE_FREQ=1, MOVIE_OUTFILE=./b40.1850.track1.1deg.006.pop.hm , MOVIE_CONTENTS=/ptmp/mai/b40.1850.track1.1deg.006/ocn/input/gx1v6_movie_contents , MOVIE_FMT=nc / movie diagnostics of ======================================================================== Tavg: ------------------------------------------------------------------------ tavg_nml namelist settings: &TAVG_NML TAVG_FREQ_OPT=nmonth , TAVG_FREQ=1, TAVG_INFILE=./b40.1850.track1.1deg.006.pop.hrestart.end , TAVG_OUTFILE=./b40.1850.track1.1deg.006.pop.h , TAVG_CONTENTS=/ptmp/mai/b40.1850.track1.1deg.006/ocn/input/gx1v6_tavg_contents , TAVG_START_OPT=nstep , TAVG_START=0, TAVG_FMT_IN=nc , TAVG_FMT_OUT=nc , LTAVG_NINO_DIAGS=T, LTAVG_HAS_OFFSET_DATE=F, TAVG_OFFSET_YEAR=1, TAVG_OFFSET_MONTH=1, TAVG_OFFSET_DAY=2 / ------------------------------------------------------------------------ tavg diagnostics every 1 months tavg sums accumulated starting at step 0 define_tavg_field: id = 126 BSF There are 80 tavg fields requested via tavg_contents. tavg diagnostics requested for fields: QFLUX BSF TFW_T TFW_S RESID_T RESID_S QSW_HTP QSW_HBL SHF SHF_QSW SFWF PREC_F SNOW_F EVAP_F MELT_F ROFF_F IOFF_F SALT_F SENH_F LWUP_F LWDN_F MELTH_F IFRAC SSH TAUX TAUY SU SV HMXL XMXL TMXL HBLT XBLT TBLT FW ADVT ADVS HDIFT HDIFS UVEL VVEL WVEL TEMP dTEMP_POS_2D dTEMP_NEG_2D SALT PD Q RHO UET UES VNT VNS WTT WTS KAPPA_ISOP KAPPA_THIC HOR_DIFF PV UISOP VISOP WISOP ADVT_ISOP ADVS_ISOP VNT_ISOP VNS_ISOP KVMIX TPOWER DIA_DEPTH TLT INT_DEPTH USUBM VSUBM WSUBM ADVT_SUBM ADVS_SUBM VNT_SUBM VNS_SUBM HLS_SUBM IAGE ======================================================================== Barotropic Streamfunction Diagnostic: bsf_diagnostic_nml namelist settings: &BSF_DIAGNOSTIC_NML LDIAG_BSF=T / Initializing diagnostic BSF variables .... number of islands = 35 island 1 # points on boundary = 500 island 2 # points on boundary = 1763 island 3 # points on boundary = 44 island 4 # points on boundary = 2330 island 5 # points on boundary = 14 island 6 # points on boundary = 8 island 7 # points on boundary = 8 island 8 # points on boundary = 94 island 9 # points on boundary = 8 island 10 # points on boundary = 58 island 11 # points on boundary = 56 island 12 # points on boundary = 8 island 13 # points on boundary = 21 island 14 # points on boundary = 472 island 15 # points on boundary = 16 island 16 # points on boundary = 14 island 17 # points on boundary = 44 island 18 # points on boundary = 128 island 19 # points on boundary = 16 island 20 # points on boundary = 22 island 21 # points on boundary = 14 island 22 # points on boundary = 56 island 23 # points on boundary = 24 island 24 # points on boundary = 24 island 25 # points on boundary = 18 island 26 # points on boundary = 8 island 27 # points on boundary = 70 island 28 # points on boundary = 10 island 29 # points on boundary = 10 island 30 # points on boundary = 8 island 31 # points on boundary = 14 island 32 # points on boundary = 34 island 33 # points on boundary = 8 island 34 # points on boundary = 32 island 35 # points on boundary = 12 island coefficients: island 1 coefficient = -342.065849211389093 island 2 coefficient = -1081.57639039629862 island 3 coefficient = -36.3214440006148465 island 4 coefficient = -1430.03121351935579 island 5 coefficient = -10.3586397347403487 island 6 coefficient = -3.43863814922055777 island 7 coefficient = -11.3186625866052744 island 8 coefficient = -55.7548100369990252 island 9 coefficient = -19.2818224871181343 island 10 coefficient = -44.4635017900952079 island 11 coefficient = -39.4207603751023754 island 12 coefficient = -10.5066377649549736 island 13 coefficient = -24.3593168124559547 island 14 coefficient = -376.069185571957121 island 15 coefficient = -31.8482616686224667 island 16 coefficient = -14.7284219388453650 island 17 coefficient = -49.4991249925430736 island 18 coefficient = -95.3971300688251347 island 19 coefficient = -34.7871545591952724 island 20 coefficient = -32.3446545602341686 island 21 coefficient = -23.5895845128127881 island 22 coefficient = -37.7042718854958281 island 23 coefficient = -19.0002030799944492 island 24 coefficient = -15.2638322786330640 island 25 coefficient = -20.0387490549100420 island 26 coefficient = -15.5023992311597461 island 27 coefficient = -52.0819547854241520 island 28 coefficient = -9.95405658931480275 island 29 coefficient = -19.0791575464352903 island 30 coefficient = -14.5418973646152754 island 31 coefficient = -23.6682185450111611 island 32 coefficient = -39.2381968899928779 island 33 coefficient = -16.5856905262603398 island 34 coefficient = -49.2625734766268479 island 35 coefficient = -13.4814208183381474 ======================================================================== Transport Diagnostics: transports_nml namelist settings: &TRANSPORTS_NML LAT_AUX_GRID_TYPE=southern , LAT_AUX_BEGIN=-90.0000000000000000, LAT_AUX_END=90.0000000000000000, N_LAT_AUX_GRID=180, MOC=T, N_HEAT_TRANS=T, N_SALT_TRANS=T, TRANSPORT_REG2_NAMES=Atlantic Ocean Mediterranean Sea Labrador Sea GIN Sea Arctic Ocean Hudson Bay , N_TRANSPORT_REG=2 / Transport Diagnostics Information _________________________________ Latitudinal Auxiliary Grid Choice is: ... based on flipped Southern Hemisphere latititude grid Transport diagnostics include: MOC N_HEAT N_SALT The following 6 regions will be included in the n_transport_reg = 2 transports: Atlantic Ocean ( 6) Mediterranean Sea ( 7) Labrador Sea ( 8) GIN Sea ( 9) Arctic Ocean (10) Hudson Bay (11) (init_moc_ts_transport_arrays) allocate TR_TRANS_G End of transport regions initialization ======================================================================== ======================================================================== Budget Diagnostics: budget_diagnostics_nml namelist settings: &BUDGET_DIAGNOSTICS_NML LDIAG_GLOBAL_TRACER_BUDGETS=T / ------------------------------------------------------------------------ Budget Diagnostic Options ------------------------------------------------------------------------ Global tracer budgets diagnostics will be computed (init_budget_diag): tracer budgets are for every 1 months ======================================================================== POP_check: Check for Option Inconsistencies Warning: time-averaging and coupling frequency may be incompatible; tavg must be integer multiple of coupling freq No fatal error conditions detected ======================================================================== Constants used in this run: grav = 9.806160000000000E+02 cm/s^2 omega = 7.292123516990375E-05 rad/s radius = 6.371220000000000E+08 cm cp_sw = 3.996000000000000E+07 erg/g/K cp_air = 1.004640000000000E+03 J/kg/K rho_air = 1.292318284692468E+00 kg/m^3 rho_sw = 1.026000000000000E+00 g/cm^3 rho_fw = 1.000000000000000E+00 g/cm^3 sound = 1.500000000000000E+05 cm/s vonkar = 4.000000000000000E-01 emissivity = 1.000000000000000E+00 stefan_boltzmann = 5.670000000000000E-08 W/m^2/K^4 latent_heat_vapor = 2.501000000000000E+06 J/kg latent_heat_fusion = 3.337000000000000E+09 erg/g ocn_ref_salinity = 3.470000000000000E+01 psu sea_ice_salinity = 4.000000000000000E+00 psu T0_Kelvin = 2.731500000000000E+02 K pi = 3.141592653589793E+00 ======================================================================== (ocn_import_mct) orb_eccen = 1.6707719799280658E-02 (ocn_import_mct) orb_mvelpp = 4.9344679089867318E+00 (ocn_import_mct) orb_lambm0 = -3.2503635878519378E-02 (ocn_import_mct) orb_obliqr = 4.0912382465788016E-01 ======================================================================== Time Flags time_flag id = 1 name = stop_now owner = init_time1 has_default = T default = F freq_opt = 0 (never) freq = 0 value = F old_value = F has_offset_date = F time_flag id = 2 name = coupled_ts owner = pop_init_coupled has_default = F default = F freq_opt = 4 (nhour) freq = 24 value = F old_value = T has_offset_date = F time_flag id = 3 name = ice owner = init_ice has_default = T default = F freq_opt = 0 (never) freq = 100000 value = F old_value = F has_offset_date = F time_flag id = 4 name = diag_global owner = init_diagnostics has_default = T default = F freq_opt = 2 (nmonth) freq = 1 value = F old_value = F has_offset_date = F time_flag id = 5 name = diag_cfl owner = init_diagnostics has_default = T default = F freq_opt = 2 (nmonth) freq = 1 value = F old_value = F has_offset_date = F time_flag id = 6 name = diag_transp owner = init_diagnostics has_default = T default = F freq_opt = 2 (nmonth) freq = 1 value = F old_value = F has_offset_date = F time_flag id = 7 name = restart owner = init_restart has_default = T default = F freq_opt = 1 (nyear) freq = 100000 value = F old_value = F has_offset_date = F time_flag id = 8 name = evenodd owner = init_restart has_default = T default = F freq_opt = 0 (never) freq = 100000 value = F old_value = F has_offset_date = F time_flag id = 9 name = cpl_write_restart owner = ocn_init_mct has_default = F default = F freq_opt = 0 (never) freq = 0 value = F old_value = F has_offset_date = F time_flag id = 10 name = history owner = init_history has_default = T default = F freq_opt = 0 (never) freq = 1 value = F old_value = F has_offset_date = F time_flag id = 11 name = movie owner = init_movie has_default = T default = F freq_opt = 0 (never) freq = 1 value = F old_value = F has_offset_date = F time_flag id = 12 name = tavg owner = init_tavg has_default = T default = F freq_opt = 2 (nmonth) freq = 1 value = T old_value = F has_offset_date = F time_flag id = 13 name = cpl_write_history owner = ocn_init_mct has_default = F default = F freq_opt = 0 (never) freq = 0 value = F old_value = F has_offset_date = F time_flag id = 14 name = cpl_write_tavg owner = ocn_init_mct has_default = F default = F freq_opt = 0 (never) freq = 0 value = F old_value = F has_offset_date = F time_flag id = 15 name = cpl_diag_global owner = ocn_init_mct has_default = F default = F freq_opt = 0 (never) freq = 0 value = F old_value = F has_offset_date = F time_flag id = 16 name = cpl_diag_transp owner = ocn_init_mct has_default = F default = F freq_opt = 0 (never) freq = 0 value = F old_value = F has_offset_date = F ======================================================================== End of initialization ======================================================================== VOLUME AND TRACER BUDGET INITIALIZATION: ======================================== volume_t (cm^3) = 0.132514028745E+25 SUM [volume*T] (C cm^3) = 0.465937875279E+25 SUM [volume*S] (ppt cm^3) = 0.460108615252E+26 (time_manager) ocn date 0097-jan-02, 0.000000E+00 sec (time_manager) ocn date 0097-jan-03, 0.000000E+00 sec (time_manager) ocn date 0097-jan-04, 0.000000E+00 sec (time_manager) ocn date 0097-jan-05, 0.000000E+00 sec (time_manager) ocn date 0097-jan-06, 0.000000E+00 sec (time_manager) ocn date 0097-jan-07, 0.000000E+00 sec (time_manager) ocn date 0097-jan-08, 0.000000E+00 sec (time_manager) ocn date 0097-jan-09, 0.000000E+00 sec (time_manager) ocn date 0097-jan-10, 0.000000E+00 sec (time_manager) ocn date 0097-jan-11, 0.000000E+00 sec (time_manager) ocn date 0097-jan-12, 0.000000E+00 sec (time_manager) ocn date 0097-jan-13, 0.000000E+00 sec (time_manager) ocn date 0097-jan-14, 0.000000E+00 sec (time_manager) ocn date 0097-jan-15, 0.000000E+00 sec (time_manager) ocn date 0097-jan-16, 0.000000E+00 sec (time_manager) ocn date 0097-jan-17, 0.000000E+00 sec (time_manager) ocn date 0097-jan-18, 0.000000E+00 sec (time_manager) ocn date 0097-jan-19, 0.000000E+00 sec (time_manager) ocn date 0097-jan-20, 0.000000E+00 sec (time_manager) ocn date 0097-jan-21, 0.000000E+00 sec (time_manager) ocn date 0097-jan-22, 0.000000E+00 sec (time_manager) ocn date 0097-jan-23, 0.000000E+00 sec (time_manager) ocn date 0097-jan-24, 0.000000E+00 sec (time_manager) ocn date 0097-jan-25, 0.000000E+00 sec (time_manager) ocn date 0097-jan-26, 0.000000E+00 sec (time_manager) ocn date 0097-jan-27, 0.000000E+00 sec (time_manager) ocn date 0097-jan-28, 0.000000E+00 sec (time_manager) ocn date 0097-jan-29, 0.000000E+00 sec (time_manager) ocn date 0097-jan-30, 0.000000E+00 sec (time_manager) ocn date 0097-jan-31, 0.000000E+00 sec (time_manager) ocn date 0097-feb-01, 0.000000E+00 sec Step number : 876750 Date : 01 feb 0097 Hour : 0 Minute : 0 Second : 0 Time(years) : 96.084932 max. cfl number for zonal advection : 7.5698E-02 20 371 33 max. cfl number for meridional advection : 6.9892E-02 6 169 9 max. cfl number for vertical advection : 4.2382E-01 29 336 16 max. cfl number for total advection : 4.3405E-01 29 336 16 max. cfl number for horizontal tracer mixing : 6.0948E-01 175 380 6 max. cfl number for horiz. momentum mixing : 1.2672E-01 318 214 56 K.E. diagnostics: mean K.E. : 8.848591694694262E+00 K.E. change from horiz. visc. :-3.564529149109554E-06 K.E. change from vert. visc. : 8.498675128129304E-06 K.E. change from wind stress : 2.701276214374155E-05 advective K.E. balance : 1.167413968167949E-10 :-3.969764312492873E-10 P.E. verses pressure work : 6.996445231287881E-04 :-6.415586839128500E-06 surface-pressure contribution :-2.778234430305513E-07 : 1.803024627933739E-07 Tracer diagnostics: mean value of tracer 1 : 3.517772132099305E+00 abs change in tracer 1 : 1.385796697088473E-07 mean change in tracer 1 : 3.008372331840271E-09 mean change in tracer 1 from advection :-2.122416793925549E-24 mean change in tracer 1 from horiz. diff.:-1.650768617497649E-25 mean change in tracer 1 from vert. diff.:-1.247360017715126E-08 mean change in tracer 1 from sources : 1.536478984802442E-08 surface flux of tracer 1 : 0.000000000000000E+00 mean value of tracer 2 : 3.472146709376351E+01 abs change in tracer 2 : 1.313627614207694E-11 mean change in tracer 2 : 5.071416557859507E-14 mean change in tracer 2 from advection : 1.992068713916667E-27 mean change in tracer 2 from horiz. diff.:-1.439356007165221E-30 mean change in tracer 2 from vert. diff.: 6.514562956287536E-15 mean change in tracer 2 from sources : 4.133025259303181E-32 surface flux of tracer 2 : 0.000000000000000E+00 mean value of tracer 3 : 2.268652810998554E+02 abs change in tracer 3 : 2.407573896928178E-06 mean change in tracer 3 : 1.869409946218977E-08 mean change in tracer 3 from advection :-9.244304257986835E-23 mean change in tracer 3 from horiz. diff.:-1.131955623426959E-24 mean change in tracer 3 from vert. diff.: 6.409868017238847E-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: 5.127747703300987E-05 residual, scans : 7.061774190213755E-14 240 Timing information: Timer number 1 Time = 31.32 seconds HMIX_MOMENTUM_ANISO Timer number 2 Time = 27.96 seconds HMIX_TRACER_GM_NLOOP Timer number 3 Time = 156.97 seconds HMIX_TRACER_GM Timer number 4 Time = 83.80 seconds VMIX_COEFFICIENTS_KPP Timer number 5 Time = 4.38 seconds VMIX_EXPLICIT_TRACER Timer number 6 Time = 2.14 seconds VMIX_EXPLICIT_MOMENTUM Timer number 7 Time = 13.62 seconds VMIX_IMPLICIT_TRACER Timer number 8 Time = 3.29 seconds VMIX_IMPLICIT_MOMENTUM Timer number 9 Time = 0.48 seconds COMPUTE_COSZ Timer number 10 Time = 5.86 seconds ADVECTION_MOMENTUM Timer number 11 Time = 30.49 seconds ADVECTION_TRACER_UPWIND3 Timer number 12 Time = 0.00 seconds MOC Timer number 13 Time = 0.00 seconds TRACER_TRANSPORTS Timer number 14 Time = 0.00 seconds TAVG_WRITE_STD Timer number 15 Time = 0.00 seconds TAVG_WRITE_NONSTD Timer number 16 Time = 0.00 seconds TAVG_CCSM_DIAGS_BSF Timer number 17 Time = 0.00 seconds TAVG_CCSM_DIAGS_MOC Timer number 18 Time = 0.00 seconds TAVG_CCSM_DIAGS_TRANS Timer number 19 Time = 470.42 seconds STEP Timer number 20 Time = 399.25 seconds BAROCLINIC Timer number 21 Time = 54.25 seconds BAROTROPIC Timer number 22 Time = 9.56 seconds 3D-UPDATE Timer number 23 Time = 470.82 seconds TOTAL Timer number 24 Time = 0.01 seconds OUTPUT Timer number 25 Time = 0.00 seconds OUTPUT TAVG Timer number 26 Time = 0.00 seconds OUTPUT REST ------------------------------------------------------------------------ (diag_print) file written: /ptmp/mai/b40.1850.track1.1deg.006/run/b40.1850.track1.1deg.006.pop.dd.0097-01-01-00000 (diag_transport) file written: /ptmp/mai/b40.1850.track1.1deg.006/run/b40.1850.track1.1deg.006.pop.dt.0097-01-01-00000 AFTER CALL IN tracer_budgets (final): ===================================== volume_t (cm^3) = 0.132514028745E+25 SUM [volume*T] (C cm^3) = 0.466153487700E+25 SUM [volume*S] (ppt cm^3) = 0.460108148616E+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 = -.113226682508E-13 FW flux = 0.000000000000E+00 Imbalance = 0.113226682508E-13 Imbalance = -tendency + FW flux HEAT BUDGET FOR THE GIVEN TAVG INTERVAL (W/m^2): ------------------------------------------------ tendency = 0.913893016262E+01 SHF flux = 0.897040959289E+01 ice formation = 0.168519977484E+00 FW heat content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = -.592243498687E-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 = 0.139026380761E-05 SFWF flux = 0.183705440718E-05 ice formation = -.446790660715E-06 FW salt content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = -.611455520336E-13 Imbalance = -tendency + SFWF flux + ice formation + FW salt content + free-srf non-consv. Global Time Averages: 02-01-0097 00:00:00 KAPPA_ISOP: 3507428.73026881553 KAPPA_THIC: 3977539.83792539965 HOR_DIFF: 515887.280818887346 DIA_DEPTH: 6050.76209938524971 TLT: 424.956834954823648 INT_DEPTH: 6475.71384243218017 UISOP: 0.283890651382755434E-04 VISOP: -0.314845806154141880E-03 WISOP: -0.132499642689921786E-13 ADVT_ISOP: 0.277990085806850967E-10 ADVS_ISOP: 0.913138460002584471E-15 VNT_ISOP: -0.103158251641947474E-09 VNS_ISOP: -0.183822312897967498E-11 USUBM: -0.560856019984302702E-06 VSUBM: 0.113775412349803744E-03 WSUBM: -0.221832323532251967E-08 HLS_SUBM: 755836.481121579651 ADVT_SUBM: 0.131475760981992550E-11 ADVS_SUBM: -0.370983534473687197E-16 VNT_SUBM: 0.339081994965327253E-09 VNS_SUBM: 0.876774690593129606E-12 HDIFT: 0.297693023787727964E-10 HDIFS: 0.453005822556423377E-15 QSW_HBL: 163.252522917490751 KVMIX: 1.38227392681771732 TPOWER: 0.221395656558898117E-05 UVEL: 0.314162284808997605 VVEL: 0.107197905851407106E-03 TEMP: 3.51528960020631676 dTEMP_POS_2D: 0.805642113711445562E-01 dTEMP_NEG_2D: -0.627530099295387639E-01 SALT: 0.347214379846174925E-01 RHO: 1.03743382278028884 RESID_T: 0.000000000000000000E+00 RESID_S: 0.000000000000000000E+00 SU: 112683.021894928985 SV: -8.46411566790231618 SSH: 0.515819979185659573E-04 SHF: 8.97040959289250850 SHF_QSW: 194.072869144833220 SFWF: 0.183705440718299665E-05 TAUX: 0.464386294466569496E-01 TAUY: -0.937646028859970282E-01 FW: 0.000000000000000000E+00 TFW_T: 0.000000000000000000E+00 TFW_S: 0.000000000000000000E+00 EVAP_F: -0.424391028211855510E-04 PREC_F: 0.359498762632146012E-04 SNOW_F: 0.105406574780410653E-05 MELT_F: 0.554639820384845035E-05 ROFF_F: 0.306855243053538005E-05 IOFF_F: 0.216375495646041187E-06 SALT_F: 0.175249829503472406E-07 SENH_F: -16.5987190201790931 LWUP_F: -392.232602080893173 LWDN_F: 332.834006694888558 MELTH_F: -2.54100531706071475 IFRAC: 0.647173797495399356E-01 IAGE: 226.839008064096674 WVEL: 0.749341246675417910E-06 UET: 0.217919736276985786E-07 VNT: 0.830111421187601869E-07 WTT: -0.171138456830130974E-07 UES: 0.153502613860193282E-08 VNS: -0.852819350696397969E-11 WTS: 0.699517030850711714E-12 ADVT: -0.395704167845184492E-11 ADVS: -0.318878313457467415E-14 PV: 0.118821225399447424E-12 Q: -0.979710788683606042E-08 PD: 1.02752270115545397 QSW_HTP: 142.073896597187911 QFLUX: 0.168519977484494987 HMXL: 6053.65016698018098 XMXL: 7137.19952774433204 TMXL: 4537.78447268764376 HBLT: 4131.53441032203591 XBLT: 6935.69013379636635 TBLT: 901.932304363261323 BSF: 0.000000000000000000E+00 convergence info from pcg_diag_bsf: iter = 0 rms_resid = 0.112252130208729692 iter = 100 rms_resid = 0.427450115937248569E-02 iter = 200 rms_resid = 0.822500889671593438E-03 iter = 300 rms_resid = 0.350616457016369293E-03 iter = 400 rms_resid = 0.249156768064102822E-03 iter = 500 rms_resid = 0.175784312315537645E-03 iter = 600 rms_resid = 0.488296102789252914E-04 iter = 700 rms_resid = 0.145859713926891665E-04 iter = 800 rms_resid = 0.182011513127110400E-05 iter = 900 rms_resid = 0.146276138518962214E-06 Local Time- and Space-Averages for Nino Regions: 00:00:00 0097-02-01 NINO_1_PLUS_2: 25.4366778403669009 NINO_3: 25.1317517095750844 NINO_3_POINT_4: 25.7173796937541361 NINO_4: 27.5132264945537557 tavg file written: ./b40.1850.track1.1deg.006.pop.h.0097-01.nc (time_manager) ocn date 0097-feb-02, 0.000000E+00 sec (time_manager) ocn date 0097-feb-03, 0.000000E+00 sec (time_manager) ocn date 0097-feb-04, 0.000000E+00 sec (time_manager) ocn date 0097-feb-05, 0.000000E+00 sec (time_manager) ocn date 0097-feb-06, 0.000000E+00 sec (time_manager) ocn date 0097-feb-07, 0.000000E+00 sec (time_manager) ocn date 0097-feb-08, 0.000000E+00 sec (time_manager) ocn date 0097-feb-09, 0.000000E+00 sec (time_manager) ocn date 0097-feb-10, 0.000000E+00 sec (time_manager) ocn date 0097-feb-11, 0.000000E+00 sec (time_manager) ocn date 0097-feb-12, 0.000000E+00 sec (time_manager) ocn date 0097-feb-13, 0.000000E+00 sec (time_manager) ocn date 0097-feb-14, 0.000000E+00 sec (time_manager) ocn date 0097-feb-15, 0.000000E+00 sec (time_manager) ocn date 0097-feb-16, 0.000000E+00 sec (time_manager) ocn date 0097-feb-17, 0.000000E+00 sec (time_manager) ocn date 0097-feb-18, 0.000000E+00 sec (time_manager) ocn date 0097-feb-19, 0.000000E+00 sec (time_manager) ocn date 0097-feb-20, 0.000000E+00 sec (time_manager) ocn date 0097-feb-21, 0.000000E+00 sec (time_manager) ocn date 0097-feb-22, 0.000000E+00 sec (time_manager) ocn date 0097-feb-23, 0.000000E+00 sec (time_manager) ocn date 0097-feb-24, 0.000000E+00 sec (time_manager) ocn date 0097-feb-25, 0.000000E+00 sec (time_manager) ocn date 0097-feb-26, 0.000000E+00 sec (time_manager) ocn date 0097-feb-27, 0.000000E+00 sec (time_manager) ocn date 0097-feb-28, 0.000000E+00 sec (time_manager) ocn date 0097-mar-01, 0.000000E+00 sec Step number : 877450 Date : 01 mar 0097 Hour : 0 Minute : 0 Second : 0 Time(years) : 96.161644 max. cfl number for zonal advection : 7.5160E-02 20 371 33 max. cfl number for meridional advection : 7.5486E-02 149 209 1 max. cfl number for vertical advection : 2.9949E-01 15 367 20 max. cfl number for total advection : 3.2049E-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. : 8.900500358239913E+00 K.E. change from horiz. visc. :-3.829482343930392E-06 K.E. change from vert. visc. : 6.796180688943598E-06 K.E. change from wind stress : 2.242142194075888E-05 advective K.E. balance : 6.325888076864690E-10 :-1.041603586845900E-09 P.E. verses pressure work : 6.725261084499806E-04 :-3.919384957275924E-06 surface-pressure contribution :-4.783525447551030E-07 : 3.848019828192979E-07 Tracer diagnostics: mean value of tracer 1 : 3.519539985690554E+00 abs change in tracer 1 : 1.481345037171432E-07 mean change in tracer 1 : 3.791727983473646E-09 mean change in tracer 1 from advection :-1.414944529283699E-24 mean change in tracer 1 from horiz. diff.: 5.306041984813872E-26 mean change in tracer 1 from vert. diff.:-1.139196735808230E-08 mean change in tracer 1 from sources : 1.506523407022336E-08 surface flux of tracer 1 : 0.000000000000000E+00 mean value of tracer 2 : 3.472147975451444E+01 abs change in tracer 2 : 1.334145022026283E-11 mean change in tracer 2 : 4.731182710022234E-14 mean change in tracer 2 from advection : 1.727227208598266E-29 mean change in tracer 2 from horiz. diff.:-1.223452606090438E-29 mean change in tracer 2 from vert. diff.: 2.629951165156377E-15 mean change in tracer 2 from sources :-1.436987379375212E-32 surface flux of tracer 2 : 0.000000000000000E+00 mean value of tracer 3 : 2.269108196643707E+02 abs change in tracer 3 : 2.517268065852974E-06 mean change in tracer 3 : 2.134440082749342E-08 mean change in tracer 3 from advection :-7.093588573475612E-23 mean change in tracer 3 from horiz. diff.: 1.839427888068809E-24 mean change in tracer 3 from vert. diff.: 7.282369509477284E-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: 5.152199003717568E-05 residual, scans : 6.308562130754212E-14 240 Timing information: Timer number 1 Time = 59.69 seconds HMIX_MOMENTUM_ANISO Timer number 2 Time = 53.33 seconds HMIX_TRACER_GM_NLOOP Timer number 3 Time = 299.21 seconds HMIX_TRACER_GM Timer number 4 Time = 160.00 seconds VMIX_COEFFICIENTS_KPP Timer number 5 Time = 8.35 seconds VMIX_EXPLICIT_TRACER Timer number 6 Time = 4.09 seconds VMIX_EXPLICIT_MOMENTUM Timer number 7 Time = 25.92 seconds VMIX_IMPLICIT_TRACER Timer number 8 Time = 6.28 seconds VMIX_IMPLICIT_MOMENTUM Timer number 9 Time = 0.91 seconds COMPUTE_COSZ Timer number 10 Time = 11.11 seconds ADVECTION_MOMENTUM Timer number 11 Time = 58.05 seconds ADVECTION_TRACER_UPWIND3 Timer number 12 Time = 2.22 seconds MOC Timer number 13 Time = 2.15 seconds TRACER_TRANSPORTS Timer number 14 Time = 37.47 seconds TAVG_WRITE_STD Timer number 15 Time = 1.83 seconds TAVG_WRITE_NONSTD Timer number 16 Time = 2.03 seconds TAVG_CCSM_DIAGS_BSF Timer number 17 Time = 2.22 seconds TAVG_CCSM_DIAGS_MOC Timer number 18 Time = 2.15 seconds TAVG_CCSM_DIAGS_TRANS Timer number 19 Time = 896.21 seconds STEP Timer number 20 Time = 760.03 seconds BAROCLINIC Timer number 21 Time = 103.41 seconds BAROTROPIC Timer number 22 Time = 18.19 seconds 3D-UPDATE Timer number 23 Time = 943.01 seconds TOTAL Timer number 24 Time = 46.07 seconds OUTPUT Timer number 25 Time = 46.06 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.0097-01-01-00000 (diag_transport) file written: /ptmp/mai/b40.1850.track1.1deg.006/run/b40.1850.track1.1deg.006.pop.dt.0097-01-01-00000 AFTER CALL IN tracer_budgets (final): ===================================== volume_t (cm^3) = 0.132514028745E+25 SUM [volume*T] (C cm^3) = 0.466387579162E+25 SUM [volume*S] (ppt cm^3) = 0.460108316472E+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 = 0.101085340940E-12 FW flux = 0.000000000000E+00 Imbalance = -.101085340940E-12 Imbalance = -tendency + FW flux HEAT BUDGET FOR THE GIVEN TAVG INTERVAL (W/m^2): ------------------------------------------------ tendency = 0.109852720807E+02 SHF flux = 0.108375310933E+02 ice formation = 0.147740659211E+00 FW heat content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = -.328174823816E-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 = -.553679847604E-06 SFWF flux = -.161980457086E-06 ice formation = -.391699237852E-06 FW salt content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = 0.152667102366E-12 Imbalance = -tendency + SFWF flux + ice formation + FW salt content + free-srf non-consv. Global Time Averages: 03-01-0097 00:00:00 KAPPA_ISOP: 3603393.91437085392 KAPPA_THIC: 4128545.45337419538 HOR_DIFF: 570501.729684011894 DIA_DEPTH: 6698.27543293898179 TLT: 465.791262444225310 INT_DEPTH: 7164.06220860301892 UISOP: 0.583811541536760053E-04 VISOP: -0.306912348576961625E-03 WISOP: -0.613459667341979870E-13 ADVT_ISOP: 0.959295468797226935E-11 ADVS_ISOP: 0.653818727058767568E-14 VNT_ISOP: 0.654858963662760736E-10 VNS_ISOP: -0.182376016851661167E-11 USUBM: 0.150378205750850676E-04 VSUBM: 0.130128571129437958E-03 WSUBM: -0.367852281741234865E-08 HLS_SUBM: 776870.694056123146 ADVT_SUBM: -0.757521225475460516E-12 ADVS_SUBM: -0.138186133736296514E-15 VNT_SUBM: 0.530845622273220962E-09 VNS_SUBM: 0.100103079601923862E-11 HDIFT: 0.133875941077937610E-10 HDIFS: 0.516691264335320838E-14 QSW_HBL: 163.011105085213785 KVMIX: 1.38804166225931125 TPOWER: 0.222888383128550586E-05 UVEL: 0.309693567660628777 VVEL: 0.941687185557696133E-03 TEMP: 3.51707501853127624 dTEMP_POS_2D: 0.757540012318720368E-01 dTEMP_NEG_2D: -0.587571436212489737E-01 SALT: 0.347214311751503704E-01 RHO: 1.03743336991814550 RESID_T: 0.000000000000000000E+00 RESID_S: 0.000000000000000000E+00 SU: 111080.507479409789 SV: 285.934161648337522 SSH: 0.512403302342274595E-04 SHF: 10.8375310932844595 SHF_QSW: 192.335588621778413 SFWF: -0.161980457085599312E-06 TAUX: 0.279403732506483572E-01 TAUY: -0.953661659535559453E-01 FW: 0.000000000000000000E+00 TFW_T: 0.000000000000000000E+00 TFW_S: 0.000000000000000000E+00 EVAP_F: -0.418473554218335060E-04 PREC_F: 0.363252288118082883E-04 SNOW_F: 0.115177137597049621E-05 MELT_F: 0.208667834317107330E-05 ROFF_F: 0.322750901039637911E-05 IOFF_F: 0.203798444772862354E-06 SALT_F: 0.547557166419700720E-08 SENH_F: -15.5958496919239753 LWUP_F: -395.293830704345112 LWDN_F: 336.108671281263298 MELTH_F: -1.60446246829350025 IFRAC: 0.575099820991787636E-01 IAGE: 226.888101589448866 WVEL: 0.712507462970883482E-06 UET: 0.375734490946099100E-07 VNT: 0.894973767420939408E-07 WTT: -0.154297415693159935E-07 UES: 0.150770015402647154E-08 VNS: -0.275146000224103107E-11 WTS: 0.736851085954429845E-12 ADVT: -0.719379394109693637E-10 ADVS: -0.114413702703674190E-13 PV: 0.144709092122585358E-12 Q: -0.990351205868199474E-08 PD: 1.02752222197596566 QSW_HTP: 140.693716990992527 QFLUX: 0.147740659211250180 HMXL: 6701.26664455959872 XMXL: 7733.11364925010002 TMXL: 4899.22599107285077 HBLT: 4348.06600364720816 XBLT: 7392.43396616414066 TBLT: 891.509786378053036 BSF: 0.000000000000000000E+00 convergence info from pcg_diag_bsf: iter = 0 rms_resid = 0.107178572689669849 iter = 100 rms_resid = 0.420719494594019427E-02 iter = 200 rms_resid = 0.848349545028918893E-03 iter = 300 rms_resid = 0.335255775233078376E-03 iter = 400 rms_resid = 0.240154382013633093E-03 iter = 500 rms_resid = 0.178472542619626906E-03 iter = 600 rms_resid = 0.495066049558055935E-04 iter = 700 rms_resid = 0.147866872067990060E-04 iter = 800 rms_resid = 0.179740089270467826E-05 iter = 900 rms_resid = 0.143514105749644839E-06 Local Time- and Space-Averages for Nino Regions: 00:00:00 0097-03-01 NINO_1_PLUS_2: 26.5987348747672669 NINO_3: 25.6699412605190922 NINO_3_POINT_4: 25.9236021984587417 NINO_4: 27.3792894255270873 tavg file written: ./b40.1850.track1.1deg.006.pop.h.0097-02.nc (time_manager) ocn date 0097-mar-02, 0.000000E+00 sec (time_manager) ocn date 0097-mar-03, 0.000000E+00 sec (time_manager) ocn date 0097-mar-04, 0.000000E+00 sec (time_manager) ocn date 0097-mar-05, 0.000000E+00 sec (time_manager) ocn date 0097-mar-06, 0.000000E+00 sec (time_manager) ocn date 0097-mar-07, 0.000000E+00 sec (time_manager) ocn date 0097-mar-08, 0.000000E+00 sec (time_manager) ocn date 0097-mar-09, 0.000000E+00 sec (time_manager) ocn date 0097-mar-10, 0.000000E+00 sec (time_manager) ocn date 0097-mar-11, 0.000000E+00 sec (time_manager) ocn date 0097-mar-12, 0.000000E+00 sec (time_manager) ocn date 0097-mar-13, 0.000000E+00 sec (time_manager) ocn date 0097-mar-14, 0.000000E+00 sec (time_manager) ocn date 0097-mar-15, 0.000000E+00 sec (time_manager) ocn date 0097-mar-16, 0.000000E+00 sec (time_manager) ocn date 0097-mar-17, 0.000000E+00 sec (time_manager) ocn date 0097-mar-18, 0.000000E+00 sec (time_manager) ocn date 0097-mar-19, 0.000000E+00 sec (time_manager) ocn date 0097-mar-20, 0.000000E+00 sec (time_manager) ocn date 0097-mar-21, 0.000000E+00 sec (time_manager) ocn date 0097-mar-22, 0.000000E+00 sec (time_manager) ocn date 0097-mar-23, 0.000000E+00 sec (time_manager) ocn date 0097-mar-24, 0.000000E+00 sec (time_manager) ocn date 0097-mar-25, 0.000000E+00 sec (time_manager) ocn date 0097-mar-26, 0.000000E+00 sec (time_manager) ocn date 0097-mar-27, 0.000000E+00 sec (time_manager) ocn date 0097-mar-28, 0.000000E+00 sec (time_manager) ocn date 0097-mar-29, 0.000000E+00 sec (time_manager) ocn date 0097-mar-30, 0.000000E+00 sec (time_manager) ocn date 0097-mar-31, 0.000000E+00 sec (time_manager) ocn date 0097-apr-01, 0.000000E+00 sec Step number : 878225 Date : 01 apr 0097 Hour : 0 Minute : 0 Second : 0 Time(years) : 96.246575 max. cfl number for zonal advection : 7.2734E-02 20 371 33 max. cfl number for meridional advection : 6.8406E-02 6 169 9 max. cfl number for vertical advection : 3.4745E-01 298 46 14 max. cfl number for total advection : 3.5674E-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. : 8.607395773924416E+00 K.E. change from horiz. visc. :-3.445109335194222E-06 K.E. change from vert. visc. : 7.017383209426081E-06 K.E. change from wind stress : 1.948319511516074E-05 advective K.E. balance :-7.920098821119585E-10 : 4.828951866387641E-10 P.E. verses pressure work : 6.383765360296032E-04 :-1.491736309164040E-06 surface-pressure contribution : 1.034710333901247E-06 :-1.076565011903430E-06 Tracer diagnostics: mean value of tracer 1 : 3.521381813496189E+00 abs change in tracer 1 : 1.454673515549327E-07 mean change in tracer 1 : 3.844548551359781E-09 mean change in tracer 1 from advection :-3.301537234995298E-25 mean change in tracer 1 from horiz. diff.:-1.650768617497649E-25 mean change in tracer 1 from vert. diff.:-1.136559912241432E-08 mean change in tracer 1 from sources : 1.491391299963622E-08 surface flux of tracer 1 : 0.000000000000000E+00 mean value of tracer 2 : 3.472158782641444E+01 abs change in tracer 2 : 1.376295391688902E-11 mean change in tracer 2 : 1.612497655164541E-13 mean change in tracer 2 from advection : 9.327026926430634E-28 mean change in tracer 2 from horiz. diff.:-1.223452606090438E-29 mean change in tracer 2 from vert. diff.: 4.951433664161360E-14 mean change in tracer 2 from sources : 1.915019066065093E-32 surface flux of tracer 2 : 0.000000000000000E+00 mean value of tracer 3 : 2.269724037823747E+02 abs change in tracer 3 : 2.536776259680049E-06 mean change in tracer 3 : 2.625306572413833E-08 mean change in tracer 3 from advection :-2.716693496224703E-23 mean change in tracer 3 from horiz. diff.:-6.131426293562697E-25 mean change in tracer 3 from vert. diff.: 4.792651655850855E-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: 5.173728416803337E-05 residual, scans : 8.136465989483145E-14 240 Timing information: Timer number 1 Time = 90.72 seconds HMIX_MOMENTUM_ANISO Timer number 2 Time = 81.65 seconds HMIX_TRACER_GM_NLOOP Timer number 3 Time = 457.59 seconds HMIX_TRACER_GM Timer number 4 Time = 243.31 seconds VMIX_COEFFICIENTS_KPP Timer number 5 Time = 12.74 seconds VMIX_EXPLICIT_TRACER Timer number 6 Time = 6.22 seconds VMIX_EXPLICIT_MOMENTUM Timer number 7 Time = 39.53 seconds VMIX_IMPLICIT_TRACER Timer number 8 Time = 9.58 seconds VMIX_IMPLICIT_MOMENTUM Timer number 9 Time = 1.40 seconds COMPUTE_COSZ Timer number 10 Time = 16.95 seconds ADVECTION_MOMENTUM Timer number 11 Time = 88.56 seconds ADVECTION_TRACER_UPWIND3 Timer number 12 Time = 4.42 seconds MOC Timer number 13 Time = 4.31 seconds TRACER_TRANSPORTS Timer number 14 Time = 75.46 seconds TAVG_WRITE_STD Timer number 15 Time = 5.15 seconds TAVG_WRITE_NONSTD Timer number 16 Time = 4.06 seconds TAVG_CCSM_DIAGS_BSF Timer number 17 Time = 4.42 seconds TAVG_CCSM_DIAGS_MOC Timer number 18 Time = 4.31 seconds TAVG_CCSM_DIAGS_TRANS Timer number 19 Time = 1368.07 seconds STEP Timer number 20 Time = 1159.95 seconds BAROCLINIC Timer number 21 Time = 158.27 seconds BAROTROPIC Timer number 22 Time = 27.73 seconds 3D-UPDATE Timer number 23 Time = 1463.25 seconds TOTAL Timer number 24 Time = 94.08 seconds OUTPUT Timer number 25 Time = 94.06 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.0097-01-01-00000 (diag_transport) file written: /ptmp/mai/b40.1850.track1.1deg.006/run/b40.1850.track1.1deg.006.pop.dt.0097-01-01-00000 AFTER CALL IN tracer_budgets (final): ===================================== volume_t (cm^3) = 0.132514028745E+25 SUM [volume*T] (C cm^3) = 0.466631675284E+25 SUM [volume*S] (ppt cm^3) = 0.460109747422E+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 = 0.803687432703E-13 FW flux = 0.000000000000E+00 Imbalance = -.803687432703E-13 Imbalance = -tendency + FW flux HEAT BUDGET FOR THE GIVEN TAVG INTERVAL (W/m^2): ------------------------------------------------ tendency = 0.103462379227E+02 SHF flux = 0.100804037856E+02 ice formation = 0.265834001444E+00 FW heat content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = -.135635748244E-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 = -.426327944258E-05 SFWF flux = -.355848310685E-05 ice formation = -.704795662321E-06 FW salt content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = 0.673408126526E-12 Imbalance = -tendency + SFWF flux + ice formation + FW salt content + free-srf non-consv. Global Time Averages: 04-01-0097 00:00:00 KAPPA_ISOP: 3809664.06050102040 KAPPA_THIC: 4358311.10487768054 HOR_DIFF: 594584.748520987341 DIA_DEPTH: 6980.32084230018972 TLT: 489.878010739876117 INT_DEPTH: 7470.19590177611826 UISOP: 0.717318588384091712E-04 VISOP: -0.235472147396034612E-03 WISOP: -0.195796370505946878E-12 ADVT_ISOP: -0.371832590695709062E-10 ADVS_ISOP: -0.170549144013827486E-14 VNT_ISOP: 0.438558814514234905E-09 VNS_ISOP: -0.135309433167568976E-11 USUBM: 0.307645494834900323E-04 VSUBM: 0.115465496266975383E-03 WSUBM: -0.350956126612088451E-08 HLS_SUBM: 862843.634252944496 ADVT_SUBM: 0.103877907979884896E-11 ADVS_SUBM: 0.731767791369519882E-15 VNT_SUBM: 0.679740354108431236E-09 VNS_SUBM: 0.908215940368996608E-12 HDIFT: 0.631483057558254089E-10 HDIFS: 0.224640832172670101E-14 QSW_HBL: 158.383415239866821 KVMIX: 1.38813326571899798 TPOWER: 0.223278293191128215E-05 UVEL: 0.312023418378732209 VVEL: 0.787233965761090595E-03 TEMP: 3.51889045799481703 dTEMP_POS_2D: 0.780538734366400949E-01 dTEMP_NEG_2D: -0.618620538101988526E-01 SALT: 0.347214906100699675E-01 RHO: 1.03743295462598994 RESID_T: 0.000000000000000000E+00 RESID_S: 0.000000000000000000E+00 SU: 111916.032133486238 SV: 231.512474375509299 SSH: 0.519430365368477192E-04 SHF: 10.0804037856356494 SHF_QSW: 187.652340011287265 SFWF: -0.355848310684922700E-05 TAUX: 0.993605257482993026E-01 TAUY: -0.807497823302321116E-01 FW: 0.000000000000000000E+00 TFW_T: 0.000000000000000000E+00 TFW_S: 0.000000000000000000E+00 EVAP_F: -0.405853048030869638E-04 PREC_F: 0.343193640608014652E-04 SNOW_F: 0.128725057532528406E-05 MELT_F: -0.127289653395798849E-05 ROFF_F: 0.348014115095561232E-05 IOFF_F: 0.293789322156966125E-06 SALT_F: -0.716290925623544400E-08 SENH_F: -14.5986146946567761 LWUP_F: -394.680338467483693 LWDN_F: 334.443848924447479 MELTH_F: -0.705390766271330238 IFRAC: 0.601529656107417932E-01 IAGE: 226.941439961491568 WVEL: 0.686948702235992587E-06 UET: 0.628883847978016093E-07 VNT: 0.864367182927195032E-07 WTT: -0.131189057469430900E-07 UES: 0.153123012420727904E-08 VNS: -0.366006565548804053E-11 WTS: 0.839724028035437083E-12 ADVT: 0.420115402855156017E-10 ADVS: 0.473511955629037962E-14 PV: 0.141633232181160705E-12 Q: -0.993382021158810430E-08 PD: 1.02752183131727493 QSW_HTP: 137.402893821668812 QFLUX: 0.265834001443705226 HMXL: 6982.78634167360087 XMXL: 8496.32238977020097 TMXL: 4231.65346093727931 HBLT: 4119.63670463205472 XBLT: 7482.21282710850573 TBLT: 887.930732787248076 BSF: 0.000000000000000000E+00 convergence info from pcg_diag_bsf: iter = 0 rms_resid = 0.101818143383459778 iter = 100 rms_resid = 0.430641698510108098E-02 iter = 200 rms_resid = 0.869569833706832136E-03 iter = 300 rms_resid = 0.342641757688879277E-03 iter = 400 rms_resid = 0.254759711316656691E-03 iter = 500 rms_resid = 0.179120174456958732E-03 iter = 600 rms_resid = 0.491276963848794821E-04 iter = 700 rms_resid = 0.161339402484073950E-04 iter = 800 rms_resid = 0.178501459541480174E-05 iter = 900 rms_resid = 0.146438106551786900E-06 Local Time- and Space-Averages for Nino Regions: 00:00:00 0097-04-01 NINO_1_PLUS_2: 26.9756460240392180 NINO_3: 26.0890819398604066 NINO_3_POINT_4: 26.4541393799751461 NINO_4: 27.8127386122158207 tavg file written: ./b40.1850.track1.1deg.006.pop.h.0097-03.nc (time_manager) ocn date 0097-apr-02, 0.000000E+00 sec (time_manager) ocn date 0097-apr-03, 0.000000E+00 sec (time_manager) ocn date 0097-apr-04, 0.000000E+00 sec (time_manager) ocn date 0097-apr-05, 0.000000E+00 sec (time_manager) ocn date 0097-apr-06, 0.000000E+00 sec (time_manager) ocn date 0097-apr-07, 0.000000E+00 sec (time_manager) ocn date 0097-apr-08, 0.000000E+00 sec (time_manager) ocn date 0097-apr-09, 0.000000E+00 sec (time_manager) ocn date 0097-apr-10, 0.000000E+00 sec (time_manager) ocn date 0097-apr-11, 0.000000E+00 sec (time_manager) ocn date 0097-apr-12, 0.000000E+00 sec (time_manager) ocn date 0097-apr-13, 0.000000E+00 sec (time_manager) ocn date 0097-apr-14, 0.000000E+00 sec (time_manager) ocn date 0097-apr-15, 0.000000E+00 sec (time_manager) ocn date 0097-apr-16, 0.000000E+00 sec (time_manager) ocn date 0097-apr-17, 0.000000E+00 sec (time_manager) ocn date 0097-apr-18, 0.000000E+00 sec (time_manager) ocn date 0097-apr-19, 0.000000E+00 sec (time_manager) ocn date 0097-apr-20, 0.000000E+00 sec (time_manager) ocn date 0097-apr-21, 0.000000E+00 sec (time_manager) ocn date 0097-apr-22, 0.000000E+00 sec (time_manager) ocn date 0097-apr-23, 0.000000E+00 sec (time_manager) ocn date 0097-apr-24, 0.000000E+00 sec (time_manager) ocn date 0097-apr-25, 0.000000E+00 sec (time_manager) ocn date 0097-apr-26, 0.000000E+00 sec (time_manager) ocn date 0097-apr-27, 0.000000E+00 sec (time_manager) ocn date 0097-apr-28, 0.000000E+00 sec (time_manager) ocn date 0097-apr-29, 0.000000E+00 sec (time_manager) ocn date 0097-apr-30, 0.000000E+00 sec (time_manager) ocn date 0097-may-01, 0.000000E+00 sec Step number : 878975 Date : 01 may 0097 Hour : 0 Minute : 0 Second : 0 Time(years) : 96.328767 max. cfl number for zonal advection : 7.4052E-02 20 371 33 max. cfl number for meridional advection : 8.2698E-02 6 169 5 max. cfl number for vertical advection : 2.4082E-01 311 355 10 max. cfl number for total advection : 2.5131E-01 311 355 10 max. cfl number for horizontal tracer mixing : 6.0948E-01 175 380 7 max. cfl number for horiz. momentum mixing : 1.2672E-01 318 214 56 K.E. diagnostics: mean K.E. : 8.875676369986866E+00 K.E. change from horiz. visc. :-3.401317951951339E-06 K.E. change from vert. visc. : 7.984738801802800E-06 K.E. change from wind stress : 2.625410934748062E-05 advective K.E. balance :-3.828715546289083E-10 : 1.265506733191428E-12 P.E. verses pressure work : 6.402350709680131E-04 :-6.495097341638998E-06 surface-pressure contribution :-1.663040810624373E-07 : 1.138805526631571E-07 Tracer diagnostics: mean value of tracer 1 : 3.521419587709861E+00 abs change in tracer 1 : 1.318257059404053E-07 mean change in tracer 1 : 1.450201186723717E-09 mean change in tracer 1 from advection :-3.773185411423198E-24 mean change in tracer 1 from horiz. diff.: 1.208598452096493E-25 mean change in tracer 1 from vert. diff.:-1.179583769245056E-08 mean change in tracer 1 from sources : 1.306463647976400E-08 surface flux of tracer 1 : 0.000000000000000E+00 mean value of tracer 2 : 3.472166389415482E+01 abs change in tracer 2 : 1.267382800640844E-11 mean change in tracer 2 : 7.517233175453618E-14 mean change in tracer 2 from advection : 2.763563533757225E-28 mean change in tracer 2 from horiz. diff.:-1.511323807523483E-29 mean change in tracer 2 from vert. diff.: 6.749973851738839E-15 mean change in tracer 2 from sources : 2.218987481841542E-32 surface flux of tracer 2 : 0.000000000000000E+00 mean value of tracer 3 : 2.270341407373553E+02 abs change in tracer 3 : 2.386348520919647E-06 mean change in tracer 3 : 2.319328429797625E-08 mean change in tracer 3 from advection :-4.527822493707838E-23 mean change in tracer 3 from horiz. diff.:-1.886592705711599E-25 mean change in tracer 3 from vert. diff.: 3.418013184716552E-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: 5.210903407290326E-05 residual, scans : 9.484861047026551E-14 230 Timing information: Timer number 1 Time = 120.84 seconds HMIX_MOMENTUM_ANISO Timer number 2 Time = 109.03 seconds HMIX_TRACER_GM_NLOOP Timer number 3 Time = 610.33 seconds HMIX_TRACER_GM Timer number 4 Time = 324.96 seconds VMIX_COEFFICIENTS_KPP Timer number 5 Time = 16.98 seconds VMIX_EXPLICIT_TRACER Timer number 6 Time = 8.30 seconds VMIX_EXPLICIT_MOMENTUM Timer number 7 Time = 52.70 seconds VMIX_IMPLICIT_TRACER Timer number 8 Time = 12.68 seconds VMIX_IMPLICIT_MOMENTUM Timer number 9 Time = 1.86 seconds COMPUTE_COSZ Timer number 10 Time = 22.61 seconds ADVECTION_MOMENTUM Timer number 11 Time = 118.08 seconds ADVECTION_TRACER_UPWIND3 Timer number 12 Time = 6.60 seconds MOC Timer number 13 Time = 6.48 seconds TRACER_TRANSPORTS Timer number 14 Time = 113.89 seconds TAVG_WRITE_STD Timer number 15 Time = 8.56 seconds TAVG_WRITE_NONSTD Timer number 16 Time = 6.28 seconds TAVG_CCSM_DIAGS_BSF Timer number 17 Time = 6.60 seconds TAVG_CCSM_DIAGS_MOC Timer number 18 Time = 6.48 seconds TAVG_CCSM_DIAGS_TRANS Timer number 19 Time = 1825.64 seconds STEP Timer number 20 Time = 1547.03 seconds BAROCLINIC Timer number 21 Time = 210.92 seconds BAROTROPIC Timer number 22 Time = 36.90 seconds 3D-UPDATE Timer number 23 Time = 1969.90 seconds TOTAL Timer number 24 Time = 142.80 seconds OUTPUT Timer number 25 Time = 142.77 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.0097-01-01-00000 (diag_transport) file written: /ptmp/mai/b40.1850.track1.1deg.006/run/b40.1850.track1.1deg.006.pop.dt.0097-01-01-00000 AFTER CALL IN tracer_budgets (final): ===================================== volume_t (cm^3) = 0.132514028745E+25 SUM [volume*T] (C cm^3) = 0.466637228021E+25 SUM [volume*S] (ppt cm^3) = 0.460110756458E+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 = 0.143440815711E-12 FW flux = 0.000000000000E+00 Imbalance = -.143440815711E-12 Imbalance = -tendency + FW flux HEAT BUDGET FOR THE GIVEN TAVG INTERVAL (W/m^2): ------------------------------------------------ tendency = 0.243203089249E+00 SHF flux = -.232190423463E-01 ice formation = 0.266422065772E+00 FW heat content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = -.658236994910E-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 = -.310646476751E-05 SFWF flux = -.240011076202E-05 ice formation = -.706354775096E-06 FW salt content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = -.769604722586E-12 Imbalance = -tendency + SFWF flux + ice formation + FW salt content + free-srf non-consv. Global Time Averages: 05-01-0097 00:00:00 KAPPA_ISOP: 3776894.63459002832 KAPPA_THIC: 4252997.21391415223 HOR_DIFF: 522779.972890689096 DIA_DEPTH: 6122.59541653398082 TLT: 449.569270207147724 INT_DEPTH: 6572.16734183755943 UISOP: 0.893945209725406116E-04 VISOP: -0.161656123948087646E-03 WISOP: -0.771817381261644795E-14 ADVT_ISOP: 0.625990304983758599E-11 ADVS_ISOP: -0.273489570481308051E-14 VNT_ISOP: 0.526274405289627119E-09 VNS_ISOP: -0.794871262342974368E-12 USUBM: 0.175191148384738128E-04 VSUBM: 0.547146915310500187E-04 WSUBM: -0.289623171258540057E-08 HLS_SUBM: 883565.125662862440 ADVT_SUBM: -0.111276301785758412E-11 ADVS_SUBM: -0.105728792562196545E-15 VNT_SUBM: 0.321610773888059802E-09 VNS_SUBM: 0.426973785301475013E-12 HDIFT: 0.266030915098151878E-11 HDIFS: 0.214240694406760605E-14 QSW_HBL: 145.222259494578537 KVMIX: 1.37823980652700628 TPOWER: 0.223009304748196844E-05 UVEL: 0.315078616712870130 VVEL: 0.143948056495837320E-02 TEMP: 3.51992157526008276 dTEMP_POS_2D: 0.845715620220048175E-01 dTEMP_NEG_2D: -0.691818937179542737E-01 SALT: 0.347215991818896549E-01 RHO: 1.03743261786032215 RESID_T: 0.000000000000000000E+00 RESID_S: 0.000000000000000000E+00 SU: 113012.063840150047 SV: 465.136656338966134 SSH: 0.515723464729519999E-04 SHF: -0.232190423463493438E-01 SHF_QSW: 173.224007253223562 SFWF: -0.240011076202247853E-05 TAUX: 0.126338031757228964 TAUY: -0.454709145646355686E-01 FW: 0.000000000000000000E+00 TFW_T: 0.000000000000000000E+00 TFW_S: 0.000000000000000000E+00 EVAP_F: -0.396796820853921795E-04 PREC_F: 0.347137656045578235E-04 SNOW_F: 0.109570736837194783E-05 MELT_F: -0.221323820703803479E-05 ROFF_F: 0.413536768635701182E-05 IOFF_F: 0.310882738729182151E-06 SALT_F: -0.115471898846573300E-07 SENH_F: -14.1758415601437981 LWUP_F: -391.015696146733035 LWDN_F: 332.189335527910544 MELTH_F: -0.536759897992389989 IFRAC: 0.715835969484661938E-01 IAGE: 227.003409179151106 WVEL: 0.648991278909498630E-06 UET: 0.113794128771517770E-06 VNT: 0.549290882396199662E-07 WTT: -0.117720185808091290E-07 UES: 0.154386886526367145E-08 VNS: 0.277523757681530805E-11 WTS: 0.759370675058483659E-12 ADVT: 0.513042335271324718E-10 ADVS: -0.182710975661155908E-14 PV: 0.115851378551013862E-12 Q: -0.993207937879864261E-08 PD: 1.02752149301688256 QSW_HTP: 127.203836498032103 QFLUX: 0.266422065771959926 HMXL: 6123.61218845929852 XMXL: 8032.24708596613618 TMXL: 4029.32542255648423 HBLT: 3750.55542677115591 XBLT: 6951.87182846990618 TBLT: 867.927498513224918 BSF: 0.000000000000000000E+00 convergence info from pcg_diag_bsf: iter = 0 rms_resid = 0.100758559382233437 iter = 100 rms_resid = 0.431803601374289043E-02 iter = 200 rms_resid = 0.889081084900573883E-03 iter = 300 rms_resid = 0.360388581128683158E-03 iter = 400 rms_resid = 0.268146982909292237E-03 iter = 500 rms_resid = 0.182968982989957729E-03 iter = 600 rms_resid = 0.494649486533567015E-04 iter = 700 rms_resid = 0.160862037528666920E-04 iter = 800 rms_resid = 0.192814281433727867E-05 iter = 900 rms_resid = 0.154661487855981669E-06 Local Time- and Space-Averages for Nino Regions: 00:00:00 0097-05-01 NINO_1_PLUS_2: 27.2197936794314970 NINO_3: 26.8716700860955058 NINO_3_POINT_4: 27.2818237311277088 NINO_4: 28.3758534775137150 tavg file written: ./b40.1850.track1.1deg.006.pop.h.0097-04.nc (time_manager) ocn date 0097-may-02, 0.000000E+00 sec (time_manager) ocn date 0097-may-03, 0.000000E+00 sec (time_manager) ocn date 0097-may-04, 0.000000E+00 sec (time_manager) ocn date 0097-may-05, 0.000000E+00 sec (time_manager) ocn date 0097-may-06, 0.000000E+00 sec (time_manager) ocn date 0097-may-07, 0.000000E+00 sec (time_manager) ocn date 0097-may-08, 0.000000E+00 sec (time_manager) ocn date 0097-may-09, 0.000000E+00 sec (time_manager) ocn date 0097-may-10, 0.000000E+00 sec (time_manager) ocn date 0097-may-11, 0.000000E+00 sec (time_manager) ocn date 0097-may-12, 0.000000E+00 sec (time_manager) ocn date 0097-may-13, 0.000000E+00 sec (time_manager) ocn date 0097-may-14, 0.000000E+00 sec (time_manager) ocn date 0097-may-15, 0.000000E+00 sec (time_manager) ocn date 0097-may-16, 0.000000E+00 sec (time_manager) ocn date 0097-may-17, 0.000000E+00 sec (time_manager) ocn date 0097-may-18, 0.000000E+00 sec (time_manager) ocn date 0097-may-19, 0.000000E+00 sec (time_manager) ocn date 0097-may-20, 0.000000E+00 sec (time_manager) ocn date 0097-may-21, 0.000000E+00 sec (time_manager) ocn date 0097-may-22, 0.000000E+00 sec (time_manager) ocn date 0097-may-23, 0.000000E+00 sec (time_manager) ocn date 0097-may-24, 0.000000E+00 sec (time_manager) ocn date 0097-may-25, 0.000000E+00 sec (time_manager) ocn date 0097-may-26, 0.000000E+00 sec (time_manager) ocn date 0097-may-27, 0.000000E+00 sec (time_manager) ocn date 0097-may-28, 0.000000E+00 sec (time_manager) ocn date 0097-may-29, 0.000000E+00 sec (time_manager) ocn date 0097-may-30, 0.000000E+00 sec (time_manager) ocn date 0097-may-31, 0.000000E+00 sec (time_manager) ocn date 0097-jun-01, 0.000000E+00 sec Step number : 879750 Date : 01 jun 0097 Hour : 0 Minute : 0 Second : 0 Time(years) : 96.413699 max. cfl number for zonal advection : 7.7396E-02 20 371 33 max. cfl number for meridional advection : 9.4219E-02 73 170 1 max. cfl number for vertical advection : 1.5364E-01 29 336 16 max. cfl number for total advection : 1.6286E-01 283 381 22 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. : 9.210351532595446E+00 K.E. change from horiz. visc. :-3.484240647417936E-06 K.E. change from vert. visc. : 6.723396839803367E-06 K.E. change from wind stress : 2.327168701515619E-05 advective K.E. balance :-6.540692046028969E-10 : 1.983291177061972E-10 P.E. verses pressure work : 6.580614615754569E-04 :-6.698552703340027E-06 surface-pressure contribution :-5.660125782894854E-07 : 5.070573884503299E-07 Tracer diagnostics: mean value of tracer 1 : 3.519285390797790E+00 abs change in tracer 1 : 1.269564414846168E-07 mean change in tracer 1 : 1.241175733153082E-09 mean change in tracer 1 from advection :-4.480657676065048E-24 mean change in tracer 1 from horiz. diff.:-1.002252374909287E-25 mean change in tracer 1 from vert. diff.:-1.155504279283108E-08 mean change in tracer 1 from sources : 1.265532992922499E-08 surface flux of tracer 1 : 0.000000000000000E+00 mean value of tracer 2 : 3.472167185568291E+01 abs change in tracer 2 : 1.241894179908359E-11 mean change in tracer 2 : 5.118309756346921E-14 mean change in tracer 2 from advection :-6.333166431526975E-28 mean change in tracer 2 from horiz. diff.:-2.878712014330443E-29 mean change in tracer 2 from vert. diff.:-1.958040719333067E-15 mean change in tracer 2 from sources : 2.993323334595586E-31 surface flux of tracer 2 : 0.000000000000000E+00 mean value of tracer 3 : 2.270939876336848E+02 abs change in tracer 3 : 2.343161422773798E-06 mean change in tracer 3 : 1.999060627852905E-08 mean change in tracer 3 from advection :-7.999153072217181E-23 mean change in tracer 3 from horiz. diff.: 2.169581611568339E-24 mean change in tracer 3 from vert. diff.:-1.511759742546823E-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: 5.259003922848534E-05 residual, scans : 7.468558931594645E-14 240 Timing information: Timer number 1 Time = 152.38 seconds HMIX_MOMENTUM_ANISO Timer number 2 Time = 137.17 seconds HMIX_TRACER_GM_NLOOP Timer number 3 Time = 767.34 seconds HMIX_TRACER_GM Timer number 4 Time = 406.43 seconds VMIX_COEFFICIENTS_KPP Timer number 5 Time = 21.35 seconds VMIX_EXPLICIT_TRACER Timer number 6 Time = 10.42 seconds VMIX_EXPLICIT_MOMENTUM Timer number 7 Time = 66.31 seconds VMIX_IMPLICIT_TRACER Timer number 8 Time = 15.87 seconds VMIX_IMPLICIT_MOMENTUM Timer number 9 Time = 2.35 seconds COMPUTE_COSZ Timer number 10 Time = 28.46 seconds ADVECTION_MOMENTUM Timer number 11 Time = 148.58 seconds ADVECTION_TRACER_UPWIND3 Timer number 12 Time = 8.77 seconds MOC Timer number 13 Time = 8.63 seconds TRACER_TRANSPORTS Timer number 14 Time = 150.99 seconds TAVG_WRITE_STD Timer number 15 Time = 11.77 seconds TAVG_WRITE_NONSTD Timer number 16 Time = 8.31 seconds TAVG_CCSM_DIAGS_BSF Timer number 17 Time = 8.77 seconds TAVG_CCSM_DIAGS_MOC Timer number 18 Time = 8.64 seconds TAVG_CCSM_DIAGS_TRANS Timer number 19 Time = 2298.26 seconds STEP Timer number 20 Time = 1947.93 seconds BAROCLINIC Timer number 21 Time = 264.84 seconds BAROTROPIC Timer number 22 Time = 46.54 seconds 3D-UPDATE Timer number 23 Time = 2489.83 seconds TOTAL Timer number 24 Time = 189.73 seconds OUTPUT Timer number 25 Time = 189.70 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.0097-01-01-00000 (diag_transport) file written: /ptmp/mai/b40.1850.track1.1deg.006/run/b40.1850.track1.1deg.006.pop.dt.0097-01-01-00000 AFTER CALL IN tracer_budgets (final): ===================================== volume_t (cm^3) = 0.132514028746E+25 SUM [volume*T] (C cm^3) = 0.466354448954E+25 SUM [volume*S] (ppt cm^3) = 0.460110862189E+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 = 0.179580848654E-12 FW flux = 0.000000000000E+00 Imbalance = -.179580848654E-12 Imbalance = -tendency + FW flux HEAT BUDGET FOR THE GIVEN TAVG INTERVAL (W/m^2): ------------------------------------------------ tendency = -.119858499959E+02 SHF flux = -.121769095752E+02 ice formation = 0.191059860908E+00 FW heat content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = 0.281594161960E-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 = -.315005807622E-06 SFWF flux = 0.191543686952E-06 ice formation = -.506549803564E-06 FW salt content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = -.308990224878E-12 Imbalance = -tendency + SFWF flux + ice formation + FW salt content + free-srf non-consv. Global Time Averages: 06-01-0097 00:00:00 KAPPA_ISOP: 3542448.47238928359 KAPPA_THIC: 3983652.80557418335 HOR_DIFF: 486714.716916203906 DIA_DEPTH: 5732.97299039364771 TLT: 346.898204116411023 INT_DEPTH: 6079.86835257717121 UISOP: 0.935365959498593059E-04 VISOP: -0.262949964765036963E-03 WISOP: 0.236820078001750128E-12 ADVT_ISOP: 0.564737627109956026E-11 ADVS_ISOP: -0.482137620119398294E-14 VNT_ISOP: -0.364561113464672582E-09 VNS_ISOP: -0.161849556477492206E-11 USUBM: 0.345117816107075093E-05 VSUBM: -0.401334619419092275E-05 WSUBM: -0.121318978382858342E-08 HLS_SUBM: 839064.734103729716 ADVT_SUBM: 0.140597364522949431E-11 ADVS_SUBM: 0.279554421890876190E-15 VNT_SUBM: 0.571056237987020641E-11 VNS_SUBM: -0.206789151800613636E-13 HDIFT: -0.790269386748888817E-10 HDIFS: 0.703464770135402497E-14 QSW_HBL: 134.403060817943185 KVMIX: 1.37130389042619383 TPOWER: 0.222493047384388662E-05 UVEL: 0.312960228456814316 VVEL: 0.128431350793728515E-02 TEMP: 3.51873181958504277 dTEMP_POS_2D: 0.941547679446787800E-01 dTEMP_NEG_2D: -0.756070793240349592E-01 SALT: 0.347216477729224288E-01 RHO: 1.03743288570478409 RESID_T: 0.000000000000000000E+00 RESID_S: 0.000000000000000000E+00 SU: 112252.914659417060 SV: 417.815671382984704 SSH: 0.525053535237220487E-04 SHF: -12.1769095752134877 SHF_QSW: 160.091169229082681 SFWF: 0.191543686951630303E-06 TAUX: 0.100437572852247844 TAUY: -0.756586567149373709E-02 FW: 0.000000000000000000E+00 TFW_T: 0.000000000000000000E+00 TFW_S: 0.000000000000000000E+00 EVAP_F: -0.397967038300797517E-04 PREC_F: 0.355982390592360777E-04 SNOW_F: 0.949200388300387087E-06 MELT_F: -0.872031694327280572E-06 ROFF_F: 0.471118634204840423E-05 IOFF_F: 0.340287491859322485E-06 SALT_F: -0.730541945793770748E-08 SENH_F: -13.6553298784840020 LWUP_F: -388.305379383142792 LWDN_F: 330.355523769449803 MELTH_F: -0.701042937543376099 IFRAC: 0.779514917334381552E-01 IAGE: 227.064371881094445 WVEL: 0.667416832182392689E-06 UET: 0.134100075464199119E-06 VNT: 0.322329635189071466E-07 WTT: -0.128592673512171528E-07 UES: 0.150789598389624817E-08 VNS: 0.251133592344703439E-11 WTS: 0.502631067394843554E-12 ADVT: -0.113499602467342362E-09 ADVS: -0.516657852813244113E-14 PV: 0.700952713183082012E-13 Q: -0.986838987402805207E-08 PD: 1.02752178427910379 QSW_HTP: 118.316654359502877 QFLUX: 0.191059860908338236 HMXL: 5733.25885660218501 XMXL: 7254.56763896247139 TMXL: 4446.55723608839708 HBLT: 3982.53174440411249 XBLT: 6571.33384972692147 TBLT: 907.259025544557176 BSF: 0.000000000000000000E+00 convergence info from pcg_diag_bsf: iter = 0 rms_resid = 0.988753664046281427E-01 iter = 100 rms_resid = 0.422426952050152914E-02 iter = 200 rms_resid = 0.899109507413106473E-03 iter = 300 rms_resid = 0.364701625560651609E-03 iter = 400 rms_resid = 0.281623149871612025E-03 iter = 500 rms_resid = 0.176171125586835017E-03 iter = 600 rms_resid = 0.466088725088185024E-04 iter = 700 rms_resid = 0.151358831751978879E-04 iter = 800 rms_resid = 0.193197123125635815E-05 iter = 900 rms_resid = 0.160272916404356120E-06 Local Time- and Space-Averages for Nino Regions: 00:00:00 0097-06-01 NINO_1_PLUS_2: 26.7893502829994148 NINO_3: 27.2924397532695018 NINO_3_POINT_4: 27.9991728450632884 NINO_4: 29.0379025740141863 tavg file written: ./b40.1850.track1.1deg.006.pop.h.0097-05.nc (time_manager) ocn date 0097-jun-02, 0.000000E+00 sec (time_manager) ocn date 0097-jun-03, 0.000000E+00 sec (time_manager) ocn date 0097-jun-04, 0.000000E+00 sec (time_manager) ocn date 0097-jun-05, 0.000000E+00 sec (time_manager) ocn date 0097-jun-06, 0.000000E+00 sec (time_manager) ocn date 0097-jun-07, 0.000000E+00 sec (time_manager) ocn date 0097-jun-08, 0.000000E+00 sec (time_manager) ocn date 0097-jun-09, 0.000000E+00 sec (time_manager) ocn date 0097-jun-10, 0.000000E+00 sec (time_manager) ocn date 0097-jun-11, 0.000000E+00 sec (time_manager) ocn date 0097-jun-12, 0.000000E+00 sec (time_manager) ocn date 0097-jun-13, 0.000000E+00 sec (time_manager) ocn date 0097-jun-14, 0.000000E+00 sec (time_manager) ocn date 0097-jun-15, 0.000000E+00 sec (time_manager) ocn date 0097-jun-16, 0.000000E+00 sec (time_manager) ocn date 0097-jun-17, 0.000000E+00 sec (time_manager) ocn date 0097-jun-18, 0.000000E+00 sec (time_manager) ocn date 0097-jun-19, 0.000000E+00 sec (time_manager) ocn date 0097-jun-20, 0.000000E+00 sec (time_manager) ocn date 0097-jun-21, 0.000000E+00 sec (time_manager) ocn date 0097-jun-22, 0.000000E+00 sec (time_manager) ocn date 0097-jun-23, 0.000000E+00 sec (time_manager) ocn date 0097-jun-24, 0.000000E+00 sec (time_manager) ocn date 0097-jun-25, 0.000000E+00 sec (time_manager) ocn date 0097-jun-26, 0.000000E+00 sec (time_manager) ocn date 0097-jun-27, 0.000000E+00 sec (time_manager) ocn date 0097-jun-28, 0.000000E+00 sec (time_manager) ocn date 0097-jun-29, 0.000000E+00 sec (time_manager) ocn date 0097-jun-30, 0.000000E+00 sec ovf_loc_prd: nsteps_total= 880479 ovf= 3 swap ovf UV old/new prd set old/new= 1 5 (time_manager) ocn date 0097-jul-01, 0.000000E+00 sec Step number : 880500 Date : 01 jul 0097 Hour : 0 Minute : 0 Second : 0 Time(years) : 96.495890 max. cfl number for zonal advection : 8.2521E-02 20 371 33 max. cfl number for meridional advection : 1.0089E-01 75 182 1 max. cfl number for vertical advection : 3.1473E-01 298 46 14 max. cfl number for total advection : 3.2258E-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. : 9.591400227422730E+00 K.E. change from horiz. visc. :-3.962537024734013E-06 K.E. change from vert. visc. : 1.326866767175084E-05 K.E. change from wind stress : 3.772375803162263E-05 advective K.E. balance :-8.781558614686460E-10 : 2.855580372619281E-10 P.E. verses pressure work : 8.180708962876649E-04 :-7.173540433149247E-06 surface-pressure contribution : 1.611264127345864E-06 :-1.675123859559288E-06 Tracer diagnostics: mean value of tracer 1 : 3.514744259824557E+00 abs change in tracer 1 : 1.329111552164805E-07 mean change in tracer 1 : 6.274613775093653E-10 mean change in tracer 1 from advection :-3.726020593780408E-24 mean change in tracer 1 from horiz. diff.:-5.895602205348747E-26 mean change in tracer 1 from vert. diff.:-1.138011314790944E-08 mean change in tracer 1 from sources : 1.191360520689256E-08 surface flux of tracer 1 : 0.000000000000000E+00 mean value of tracer 2 : 3.472160977853041E+01 abs change in tracer 2 : 1.287573292775304E-11 mean change in tracer 2 :-1.112112736339034E-14 mean change in tracer 2 from advection :-8.866433004137764E-28 mean change in tracer 2 from horiz. diff.:-1.619275508060874E-29 mean change in tracer 2 from vert. diff.:-4.656499340388812E-14 mean change in tracer 2 from sources :-1.327731821266016E-31 surface flux of tracer 2 : 0.000000000000000E+00 mean value of tracer 3 : 2.271346910813543E+02 abs change in tracer 3 : 2.479078599479964E-06 mean change in tracer 3 : 1.306168508702428E-08 mean change in tracer 3 from advection :-7.018124865247149E-23 mean change in tracer 3 from horiz. diff.: 8.489667175702196E-25 mean change in tracer 3 from vert. diff.:-9.352714581164334E-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: 5.335567391536272E-05 residual, scans : 9.224185831012823E-14 240 Timing information: Timer number 1 Time = 183.32 seconds HMIX_MOMENTUM_ANISO Timer number 2 Time = 164.24 seconds HMIX_TRACER_GM_NLOOP Timer number 3 Time = 919.25 seconds HMIX_TRACER_GM Timer number 4 Time = 482.69 seconds VMIX_COEFFICIENTS_KPP Timer number 5 Time = 25.60 seconds VMIX_EXPLICIT_TRACER Timer number 6 Time = 12.48 seconds VMIX_EXPLICIT_MOMENTUM Timer number 7 Time = 79.48 seconds VMIX_IMPLICIT_TRACER Timer number 8 Time = 19.06 seconds VMIX_IMPLICIT_MOMENTUM Timer number 9 Time = 2.81 seconds COMPUTE_COSZ Timer number 10 Time = 34.09 seconds ADVECTION_MOMENTUM Timer number 11 Time = 178.09 seconds ADVECTION_TRACER_UPWIND3 Timer number 12 Time = 10.93 seconds MOC Timer number 13 Time = 10.78 seconds TRACER_TRANSPORTS Timer number 14 Time = 191.32 seconds TAVG_WRITE_STD Timer number 15 Time = 15.06 seconds TAVG_WRITE_NONSTD Timer number 16 Time = 10.35 seconds TAVG_CCSM_DIAGS_BSF Timer number 17 Time = 10.93 seconds TAVG_CCSM_DIAGS_MOC Timer number 18 Time = 10.79 seconds TAVG_CCSM_DIAGS_TRANS Timer number 19 Time = 2754.55 seconds STEP Timer number 20 Time = 2334.63 seconds BAROCLINIC Timer number 21 Time = 317.50 seconds BAROTROPIC Timer number 22 Time = 55.78 seconds 3D-UPDATE Timer number 23 Time = 2996.75 seconds TOTAL Timer number 24 Time = 240.01 seconds OUTPUT Timer number 25 Time = 239.97 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.0097-01-01-00000 (diag_transport) file written: /ptmp/mai/b40.1850.track1.1deg.006/run/b40.1850.track1.1deg.006.pop.dt.0097-01-01-00000 AFTER CALL IN tracer_budgets (final): ===================================== volume_t (cm^3) = 0.132514028746E+25 SUM [volume*T] (C cm^3) = 0.465752829076E+25 SUM [volume*S] (ppt cm^3) = 0.460110040650E+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 = 0.295369932392E-12 FW flux = 0.000000000000E+00 Imbalance = -.295369932392E-12 Imbalance = -tendency + FW flux HEAT BUDGET FOR THE GIVEN TAVG INTERVAL (W/m^2): ------------------------------------------------ tendency = -.263502171013E+02 SHF flux = -.264879057471E+02 ice formation = 0.137688877357E+00 FW heat content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = 0.231620117697E-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 = 0.252922668626E-05 SFWF flux = 0.289427619079E-05 ice formation = -.365049327715E-06 FW salt content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = 0.176813908245E-12 Imbalance = -tendency + SFWF flux + ice formation + FW salt content + free-srf non-consv. Global Time Averages: 07-01-0097 00:00:00 KAPPA_ISOP: 3438108.17385535222 KAPPA_THIC: 3919397.56637276569 HOR_DIFF: 526859.623938530451 DIA_DEPTH: 6223.08290663236130 TLT: 349.329250060859124 INT_DEPTH: 6572.40580822820630 UISOP: 0.836091493398282017E-04 VISOP: -0.342622402798632231E-03 WISOP: -0.315219940878525920E-12 ADVT_ISOP: 0.473413009779308564E-10 ADVS_ISOP: 0.732634188093931670E-15 VNT_ISOP: -0.724915162583981294E-09 VNS_ISOP: -0.218465272180774234E-11 USUBM: -0.171769342697425471E-05 VSUBM: -0.215716983333814006E-04 WSUBM: -0.119455338877226212E-08 HLS_SUBM: 729468.282660841011 ADVT_SUBM: -0.418166471896155010E-12 ADVS_SUBM: 0.227193439666731064E-16 VNT_SUBM: -0.137697104953529203E-09 VNS_SUBM: -0.143220996215514923E-12 HDIFT: 0.168572031242791289E-10 HDIFS: 0.326912544842761490E-15 QSW_HBL: 128.685941151152605 KVMIX: 1.37465263836573182 TPOWER: 0.221865798008419938E-05 UVEL: 0.322833267995392692 VVEL: 0.218160681544711174E-02 TEMP: 3.51543641852799960 dTEMP_POS_2D: 0.902167974731812455E-01 dTEMP_NEG_2D: -0.718002884807135144E-01 SALT: 0.347216219823731978E-01 RHO: 1.03743358543447139 RESID_T: 0.000000000000000000E+00 RESID_S: 0.000000000000000000E+00 SU: 115793.688380401407 SV: 747.645305065661660 SSH: 0.531669877460519617E-04 SHF: -26.4879057470742438 SHF_QSW: 149.985714736654899 SFWF: 0.289427619079005071E-05 TAUX: 0.100157565383553818 TAUY: 0.407299390902121569E-01 FW: 0.000000000000000000E+00 TFW_T: 0.000000000000000000E+00 TFW_S: 0.000000000000000000E+00 EVAP_F: -0.419582513556870988E-04 PREC_F: 0.376677972082482514E-04 SNOW_F: 0.995091877624774339E-06 MELT_F: 0.148647727027898619E-05 ROFF_F: 0.534515827881605075E-05 IOFF_F: 0.343703698833352738E-06 SALT_F: -0.325681528886806541E-09 SENH_F: -14.0350709161567480 LWUP_F: -387.206462695574658 LWDN_F: 331.313065669083016 MELTH_F: -1.16080932393894920 IFRAC: 0.798501674432519487E-01 IAGE: 227.115121096910570 WVEL: 0.690711054904762565E-06 UET: 0.102694275989879030E-06 VNT: -0.172771057074714183E-07 WTT: -0.158235395630572325E-07 UES: 0.155470104454932431E-08 VNS: 0.142287820063626832E-10 WTS: 0.609434016705622467E-12 ADVT: -0.417195694517814896E-10 ADVS: 0.319182551930249950E-14 PV: 0.158975280928351367E-13 Q: -0.982958750083271135E-08 PD: 1.02752249024666797 QSW_HTP: 110.801189786206493 QFLUX: 0.137688877356738126 HMXL: 6223.52612511073858 XMXL: 7257.19813953539506 TMXL: 5072.18703337923125 HBLT: 4746.66900535800960 XBLT: 7170.44571696959520 TBLT: 1037.96326578458343 BSF: 0.000000000000000000E+00 convergence info from pcg_diag_bsf: iter = 0 rms_resid = 0.978134411939549642E-01 iter = 100 rms_resid = 0.429279757850110216E-02 iter = 200 rms_resid = 0.893373861241323741E-03 iter = 300 rms_resid = 0.385636652979109876E-03 iter = 400 rms_resid = 0.302685443428088051E-03 iter = 500 rms_resid = 0.182729685820047364E-03 iter = 600 rms_resid = 0.471555354727393219E-04 iter = 700 rms_resid = 0.150167622919954057E-04 iter = 800 rms_resid = 0.175343555613343631E-05 iter = 900 rms_resid = 0.157124918185345863E-06 Local Time- and Space-Averages for Nino Regions: 00:00:00 0097-07-01 NINO_1_PLUS_2: 25.7166063145879455 NINO_3: 27.1091287830592265 NINO_3_POINT_4: 28.3296339461810298 NINO_4: 29.4600115271941227 tavg file written: ./b40.1850.track1.1deg.006.pop.h.0097-06.nc (time_manager) ocn date 0097-jul-02, 0.000000E+00 sec ovf_loc_prd: nsteps_total= 880526 ovf= 3 swap ovf UV old/new prd set old/new= 5 1 (time_manager) ocn date 0097-jul-03, 0.000000E+00 sec (time_manager) ocn date 0097-jul-04, 0.000000E+00 sec ovf_loc_prd: nsteps_total= 880589 ovf= 3 swap ovf UV old/new prd set old/new= 1 5 (time_manager) ocn date 0097-jul-05, 0.000000E+00 sec (time_manager) ocn date 0097-jul-06, 0.000000E+00 sec (time_manager) ocn date 0097-jul-07, 0.000000E+00 sec ovf_loc_prd: nsteps_total= 880665 ovf= 3 swap ovf UV old/new prd set old/new= 5 1 (time_manager) ocn date 0097-jul-08, 0.000000E+00 sec (time_manager) ocn date 0097-jul-09, 0.000000E+00 sec (time_manager) ocn date 0097-jul-10, 0.000000E+00 sec ovf_loc_prd: nsteps_total= 880745 ovf= 3 swap ovf UV old/new prd set old/new= 1 5 (time_manager) ocn date 0097-jul-11, 0.000000E+00 sec (time_manager) ocn date 0097-jul-12, 0.000000E+00 sec (time_manager) ocn date 0097-jul-13, 0.000000E+00 sec (time_manager) ocn date 0097-jul-14, 0.000000E+00 sec ovf_loc_prd: nsteps_total= 880825 ovf= 3 swap ovf UV old/new prd set old/new= 5 1 (time_manager) ocn date 0097-jul-15, 0.000000E+00 sec (time_manager) ocn date 0097-jul-16, 0.000000E+00 sec (time_manager) ocn date 0097-jul-17, 0.000000E+00 sec (time_manager) ocn date 0097-jul-18, 0.000000E+00 sec ovf_loc_prd: nsteps_total= 880936 ovf= 3 swap ovf UV old/new prd set old/new= 1 5 (time_manager) ocn date 0097-jul-19, 0.000000E+00 sec (time_manager) ocn date 0097-jul-20, 0.000000E+00 sec ovf_loc_prd: nsteps_total= 880997 ovf= 3 swap ovf UV old/new prd set old/new= 5 1 (time_manager) ocn date 0097-jul-21, 0.000000E+00 sec (time_manager) ocn date 0097-jul-22, 0.000000E+00 sec (time_manager) ocn date 0097-jul-23, 0.000000E+00 sec (time_manager) ocn date 0097-jul-24, 0.000000E+00 sec ovf_loc_prd: nsteps_total= 881096 ovf= 3 swap ovf UV old/new prd set old/new= 1 5 (time_manager) ocn date 0097-jul-25, 0.000000E+00 sec (time_manager) ocn date 0097-jul-26, 0.000000E+00 sec ovf_loc_prd: nsteps_total= 881132 ovf= 3 swap ovf UV old/new prd set old/new= 5 1 (time_manager) ocn date 0097-jul-27, 0.000000E+00 sec (time_manager) ocn date 0097-jul-28, 0.000000E+00 sec (time_manager) ocn date 0097-jul-29, 0.000000E+00 sec (time_manager) ocn date 0097-jul-30, 0.000000E+00 sec (time_manager) ocn date 0097-jul-31, 0.000000E+00 sec (time_manager) ocn date 0097-aug-01, 0.000000E+00 sec Step number : 881275 Date : 01 aug 0097 Hour : 0 Minute : 0 Second : 0 Time(years) : 96.580822 max. cfl number for zonal advection : 8.6694E-02 20 371 33 max. cfl number for meridional advection : 1.1889E-01 312 203 1 max. cfl number for vertical advection : 2.6929E-01 298 46 14 max. cfl number for total advection : 2.7627E-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. : 9.926412361071419E+00 K.E. change from horiz. visc. :-4.321148999805220E-06 K.E. change from vert. visc. : 6.734083503977993E-06 K.E. change from wind stress : 2.688095444060762E-05 advective K.E. balance :-2.155026708609723E-09 : 1.327433229175465E-09 P.E. verses pressure work : 6.942331822464133E-04 :-4.336170265991024E-06 surface-pressure contribution :-8.717314068268673E-07 : 8.276742388629634E-07 Tracer diagnostics: mean value of tracer 1 : 3.510530460157498E+00 abs change in tracer 1 : 1.408944417451591E-07 mean change in tracer 1 : 1.056986846913056E-09 mean change in tracer 1 from advection :-2.452570517425079E-24 mean change in tracer 1 from horiz. diff.:-3.832141433476685E-26 mean change in tracer 1 from vert. diff.:-1.122820633500186E-08 mean change in tracer 1 from sources : 1.216924327612319E-08 surface flux of tracer 1 : 0.000000000000000E+00 mean value of tracer 2 : 3.472148393250325E+01 abs change in tracer 2 : 1.344152719451159E-11 mean change in tracer 2 :-9.543618397305734E-15 mean change in tracer 2 from advection : 4.677907023286969E-28 mean change in tracer 2 from horiz. diff.: 1.115500905553047E-29 mean change in tracer 2 from vert. diff.:-5.327824362142941E-14 mean change in tracer 2 from sources :-2.132225221057100E-32 surface flux of tracer 2 : 0.000000000000000E+00 mean value of tracer 3 : 2.271626651486621E+02 abs change in tracer 3 : 2.625163633374977E-06 mean change in tracer 3 : 9.840779844765008E-09 mean change in tracer 3 from advection : 2.414838663310847E-23 mean change in tracer 3 from horiz. diff.: 1.414944529283699E-24 mean change in tracer 3 from vert. diff.: 6.268415703732508E-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: 5.322786542878711E-05 residual, scans : 7.106858702976245E-14 240 Timing information: Timer number 1 Time = 215.35 seconds HMIX_MOMENTUM_ANISO Timer number 2 Time = 192.22 seconds HMIX_TRACER_GM_NLOOP Timer number 3 Time = 1076.60 seconds HMIX_TRACER_GM Timer number 4 Time = 564.64 seconds VMIX_COEFFICIENTS_KPP Timer number 5 Time = 29.97 seconds VMIX_EXPLICIT_TRACER Timer number 6 Time = 14.62 seconds VMIX_EXPLICIT_MOMENTUM Timer number 7 Time = 93.11 seconds VMIX_IMPLICIT_TRACER Timer number 8 Time = 22.41 seconds VMIX_IMPLICIT_MOMENTUM Timer number 9 Time = 3.29 seconds COMPUTE_COSZ Timer number 10 Time = 39.94 seconds ADVECTION_MOMENTUM Timer number 11 Time = 208.59 seconds ADVECTION_TRACER_UPWIND3 Timer number 12 Time = 13.10 seconds MOC Timer number 13 Time = 12.94 seconds TRACER_TRANSPORTS Timer number 14 Time = 228.65 seconds TAVG_WRITE_STD Timer number 15 Time = 18.05 seconds TAVG_WRITE_NONSTD Timer number 16 Time = 12.39 seconds TAVG_CCSM_DIAGS_BSF Timer number 17 Time = 13.10 seconds TAVG_CCSM_DIAGS_MOC Timer number 18 Time = 12.94 seconds TAVG_CCSM_DIAGS_TRANS Timer number 19 Time = 3225.63 seconds STEP Timer number 20 Time = 2734.64 seconds BAROCLINIC Timer number 21 Time = 371.61 seconds BAROTROPIC Timer number 22 Time = 65.40 seconds 3D-UPDATE Timer number 23 Time = 3515.13 seconds TOTAL Timer number 24 Time = 286.93 seconds OUTPUT Timer number 25 Time = 286.89 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.0097-01-01-00000 (diag_transport) file written: /ptmp/mai/b40.1850.track1.1deg.006/run/b40.1850.track1.1deg.006.pop.dt.0097-01-01-00000 AFTER CALL IN tracer_budgets (final): ===================================== volume_t (cm^3) = 0.132514028746E+25 SUM [volume*T] (C cm^3) = 0.465194346891E+25 SUM [volume*S] (ppt cm^3) = 0.460108373165E+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 = -.477050654978E-13 FW flux = 0.000000000000E+00 Imbalance = 0.477050654978E-13 Imbalance = -tendency + FW flux HEAT BUDGET FOR THE GIVEN TAVG INTERVAL (W/m^2): ------------------------------------------------ tendency = -.236717794464E+02 SHF flux = -.238085166716E+02 ice formation = 0.136737195668E+00 FW heat content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = -.294908611143E-07 Imbalance = -tendency + SHF flux + ice formation + FW heat content + free-srf non-consv. IMPLIED FW BUDGET FOR THE GIVEN TAVG INTERVAL (kg of freshwater/m^2/s): ----------------------------------------------------- tendency = 0.496799506049E-05 SFWF flux = 0.533052095841E-05 ice formation = -.362526169947E-06 FW salt content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = -.272026465102E-12 Imbalance = -tendency + SFWF flux + ice formation + FW salt content + free-srf non-consv. Global Time Averages: 08-01-0097 00:00:00 KAPPA_ISOP: 3577695.30728523899 KAPPA_THIC: 4136196.55345553253 HOR_DIFF: 603940.677245689207 DIA_DEPTH: 7140.23095254076907 TLT: 405.048219762555163 INT_DEPTH: 7545.27321770733852 UISOP: 0.736235158012774998E-04 VISOP: -0.351676290474772096E-03 WISOP: 0.651620841415587359E-14 ADVT_ISOP: -0.152852896277479750E-12 ADVS_ISOP: 0.122518707681759665E-13 VNT_ISOP: -0.762744943105477843E-09 VNS_ISOP: -0.211470256083981997E-11 USUBM: -0.599533481915216079E-06 VSUBM: -0.305624390525502195E-04 WSUBM: -0.916612217064892560E-09 HLS_SUBM: 679376.347838014248 ADVT_SUBM: -0.148014147040439054E-11 ADVS_SUBM: 0.261122876316493052E-15 VNT_SUBM: -0.223547802533523331E-09 VNS_SUBM: -0.194202375213746599E-12 HDIFT: 0.448230077898294569E-10 HDIFS: 0.696482344360294036E-14 QSW_HBL: 128.042790849561356 KVMIX: 1.38225220615045763 TPOWER: 0.221328339604153888E-05 UVEL: 0.337981318470499226 VVEL: 0.901881177966855547E-03 TEMP: 3.51075209217872164 dTEMP_POS_2D: 0.923754195094665387E-01 dTEMP_NEG_2D: -0.719586262317025716E-01 SALT: 0.347215186816759933E-01 RHO: 1.03743458455720483 RESID_T: 0.000000000000000000E+00 RESID_S: 0.000000000000000000E+00 SU: 121227.007830346512 SV: 293.635053691999985 SSH: 0.534750500845957577E-04 SHF: -23.8085166716021384 SHF_QSW: 148.266616472353149 SFWF: 0.533052095841351391E-05 TAUX: 0.184025670726297275 TAUY: 0.531579012069444412E-01 FW: 0.000000000000000000E+00 TFW_T: 0.000000000000000000E+00 TFW_S: 0.000000000000000000E+00 EVAP_F: -0.409432824673255485E-04 PREC_F: 0.371329078301048962E-04 SNOW_F: 0.952280842500086384E-06 MELT_F: 0.410207737305647344E-05 ROFF_F: 0.502686169648665776E-05 IOFF_F: 0.282794910982289210E-06 SALT_F: 0.939806967180864403E-08 SENH_F: -13.5172574090546203 LWUP_F: -386.448408367636148 LWDN_F: 332.257794400337218 MELTH_F: -1.55597058145570522 IFRAC: 0.796806104545680488E-01 IAGE: 227.148939575271356 WVEL: 0.759415764910475708E-06 UET: 0.570707807987361655E-07 VNT: -0.399009248721583367E-07 WTT: -0.216544022726550409E-07 UES: 0.164569844539767867E-08 VNS: -0.656709780572338251E-12 WTS: 0.810460990603435373E-12 ADVT: -0.955303557522621343E-11 ADVS: -0.588130157008640793E-14 PV: -0.341285544083935151E-13 Q: -0.976990141281816859E-08 PD: 1.02752349239344731 QSW_HTP: 109.685732455448615 QFLUX: 0.136737195668479056 HMXL: 7141.12957201643712 XMXL: 8158.06982684404102 TMXL: 5881.21277270484279 HBLT: 5318.92293513149070 XBLT: 8118.50178007553950 TBLT: 1068.37615010691320 BSF: 0.000000000000000000E+00 convergence info from pcg_diag_bsf: iter = 0 rms_resid = 0.104131206214379088 iter = 100 rms_resid = 0.451265427087587084E-02 iter = 200 rms_resid = 0.936348169089440082E-03 iter = 300 rms_resid = 0.401782984483414274E-03 iter = 400 rms_resid = 0.302699352469767101E-03 iter = 500 rms_resid = 0.201644018523649719E-03 iter = 600 rms_resid = 0.518894051897777575E-04 iter = 700 rms_resid = 0.154399432535133344E-04 iter = 800 rms_resid = 0.195523311973682242E-05 iter = 900 rms_resid = 0.166986859451510016E-06 Local Time- and Space-Averages for Nino Regions: 00:00:00 0097-08-01 NINO_1_PLUS_2: 25.7046588105046041 NINO_3: 26.4029753246151024 NINO_3_POINT_4: 27.9319071329995410 NINO_4: 29.4388345576738679 tavg file written: ./b40.1850.track1.1deg.006.pop.h.0097-07.nc (time_manager) ocn date 0097-aug-02, 0.000000E+00 sec (time_manager) ocn date 0097-aug-03, 0.000000E+00 sec ovf_loc_prd: nsteps_total= 881343 ovf= 3 swap ovf UV old/new prd set old/new= 1 5 ovf_loc_prd: nsteps_total= 881345 ovf= 3 swap ovf UV old/new prd set old/new= 5 1 ovf_loc_prd: nsteps_total= 881346 ovf= 3 swap ovf UV old/new prd set old/new= 1 5 ovf_loc_prd: nsteps_total= 881348 ovf= 3 swap ovf UV old/new prd set old/new= 5 1 (time_manager) ocn date 0097-aug-04, 0.000000E+00 sec (time_manager) ocn date 0097-aug-05, 0.000000E+00 sec (time_manager) ocn date 0097-aug-06, 0.000000E+00 sec (time_manager) ocn date 0097-aug-07, 0.000000E+00 sec (time_manager) ocn date 0097-aug-08, 0.000000E+00 sec ovf_loc_prd: nsteps_total= 881456 ovf= 3 swap ovf UV old/new prd set old/new= 1 5 (time_manager) ocn date 0097-aug-09, 0.000000E+00 sec ovf_loc_prd: nsteps_total= 881491 ovf= 3 swap ovf UV old/new prd set old/new= 5 1 (time_manager) ocn date 0097-aug-10, 0.000000E+00 sec (time_manager) ocn date 0097-aug-11, 0.000000E+00 sec (time_manager) ocn date 0097-aug-12, 0.000000E+00 sec (time_manager) ocn date 0097-aug-13, 0.000000E+00 sec (time_manager) ocn date 0097-aug-14, 0.000000E+00 sec ovf_loc_prd: nsteps_total= 881624 ovf= 3 swap ovf UV old/new prd set old/new= 1 5 (time_manager) ocn date 0097-aug-15, 0.000000E+00 sec ovf_loc_prd: nsteps_total= 881645 ovf= 3 swap ovf UV old/new prd set old/new= 5 1 (time_manager) ocn date 0097-aug-16, 0.000000E+00 sec (time_manager) ocn date 0097-aug-17, 0.000000E+00 sec (time_manager) ocn date 0097-aug-18, 0.000000E+00 sec (time_manager) ocn date 0097-aug-19, 0.000000E+00 sec (time_manager) ocn date 0097-aug-20, 0.000000E+00 sec (time_manager) ocn date 0097-aug-21, 0.000000E+00 sec (time_manager) ocn date 0097-aug-22, 0.000000E+00 sec (time_manager) ocn date 0097-aug-23, 0.000000E+00 sec (time_manager) ocn date 0097-aug-24, 0.000000E+00 sec (time_manager) ocn date 0097-aug-25, 0.000000E+00 sec (time_manager) ocn date 0097-aug-26, 0.000000E+00 sec (time_manager) ocn date 0097-aug-27, 0.000000E+00 sec (time_manager) ocn date 0097-aug-28, 0.000000E+00 sec (time_manager) ocn date 0097-aug-29, 0.000000E+00 sec (time_manager) ocn date 0097-aug-30, 0.000000E+00 sec (time_manager) ocn date 0097-aug-31, 0.000000E+00 sec (time_manager) ocn date 0097-sep-01, 0.000000E+00 sec Step number : 882050 Date : 01 sep 0097 Hour : 0 Minute : 0 Second : 0 Time(years) : 96.665753 max. cfl number for zonal advection : 8.9254E-02 20 371 33 max. cfl number for meridional advection : 1.0790E-01 83 225 1 max. cfl number for vertical advection : 4.3723E-01 298 46 14 max. cfl number for total advection : 4.4512E-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. : 9.184330318483507E+00 K.E. change from horiz. visc. :-4.061451023300769E-06 K.E. change from vert. visc. : 8.427871703370623E-06 K.E. change from wind stress : 3.111820734150086E-05 advective K.E. balance :-3.745018262651517E-10 :-3.524869319930692E-10 P.E. verses pressure work : 7.238161049550563E-04 :-7.016113730336165E-06 surface-pressure contribution : 1.054005085749140E-06 :-1.090407312976695E-06 Tracer diagnostics: mean value of tracer 1 : 3.509274798788276E+00 abs change in tracer 1 : 1.324386125405536E-07 mean change in tracer 1 : 2.220923632205329E-09 mean change in tracer 1 from advection :-1.037625988141380E-24 mean change in tracer 1 from horiz. diff.: 5.600822095081309E-26 mean change in tracer 1 from vert. diff.:-1.151113630440950E-08 mean change in tracer 1 from sources : 1.367180606850688E-08 surface flux of tracer 1 : 0.000000000000000E+00 mean value of tracer 2 : 3.472142873731490E+01 abs change in tracer 2 : 1.261449209631352E-11 mean change in tracer 2 : 1.606964891887137E-14 mean change in tracer 2 from advection :-1.105425413502890E-27 mean change in tracer 2 from horiz. diff.: 8.636136042991329E-30 mean change in tracer 2 from vert. diff.:-6.657237506771459E-15 mean change in tracer 2 from sources : 1.459178074937534E-31 surface flux of tracer 2 : 0.000000000000000E+00 mean value of tracer 3 : 2.271927363754498E+02 abs change in tracer 3 : 2.392072902562727E-06 mean change in tracer 3 : 6.684581184074411E-09 mean change in tracer 3 from advection :-6.942661157018685E-23 mean change in tracer 3 from horiz. diff.: 2.075251976282759E-24 mean change in tracer 3 from vert. diff.: 3.136249347060962E-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: 5.291575111002207E-05 residual, scans : 7.286830651294128E-14 240 Timing information: Timer number 1 Time = 247.41 seconds HMIX_MOMENTUM_ANISO Timer number 2 Time = 220.23 seconds HMIX_TRACER_GM_NLOOP Timer number 3 Time = 1233.64 seconds HMIX_TRACER_GM Timer number 4 Time = 646.33 seconds VMIX_COEFFICIENTS_KPP Timer number 5 Time = 34.35 seconds VMIX_EXPLICIT_TRACER Timer number 6 Time = 16.77 seconds VMIX_EXPLICIT_MOMENTUM Timer number 7 Time = 106.73 seconds VMIX_IMPLICIT_TRACER Timer number 8 Time = 25.78 seconds VMIX_IMPLICIT_MOMENTUM Timer number 9 Time = 3.77 seconds COMPUTE_COSZ Timer number 10 Time = 45.85 seconds ADVECTION_MOMENTUM Timer number 11 Time = 239.07 seconds ADVECTION_TRACER_UPWIND3 Timer number 12 Time = 15.28 seconds MOC Timer number 13 Time = 15.13 seconds TRACER_TRANSPORTS Timer number 14 Time = 267.85 seconds TAVG_WRITE_STD Timer number 15 Time = 21.40 seconds TAVG_WRITE_NONSTD Timer number 16 Time = 14.55 seconds TAVG_CCSM_DIAGS_BSF Timer number 17 Time = 15.28 seconds TAVG_CCSM_DIAGS_MOC Timer number 18 Time = 15.13 seconds TAVG_CCSM_DIAGS_TRANS Timer number 19 Time = 3696.97 seconds STEP Timer number 20 Time = 3135.04 seconds BAROCLINIC Timer number 21 Time = 425.34 seconds BAROTROPIC Timer number 22 Time = 75.05 seconds 3D-UPDATE Timer number 23 Time = 4036.26 seconds TOTAL Timer number 24 Time = 336.35 seconds OUTPUT Timer number 25 Time = 336.30 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.0097-01-01-00000 (diag_transport) file written: /ptmp/mai/b40.1850.track1.1deg.006/run/b40.1850.track1.1deg.006.pop.dt.0097-01-01-00000 AFTER CALL IN tracer_budgets (final): ===================================== volume_t (cm^3) = 0.132514028746E+25 SUM [volume*T] (C cm^3) = 0.465027645502E+25 SUM [volume*S] (ppt cm^3) = 0.460107640657E+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 = -.116529127414E-12 FW flux = 0.000000000000E+00 Imbalance = 0.116529127414E-12 Imbalance = -tendency + FW flux HEAT BUDGET FOR THE GIVEN TAVG INTERVAL (W/m^2): ------------------------------------------------ tendency = -.706579122024E+01 SHF flux = -.718067145647E+01 ice formation = 0.114879666444E+00 FW heat content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = -.569784753199E-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 = 0.218238770664E-05 SFWF flux = 0.248696432553E-05 ice formation = -.304576127053E-06 FW salt content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = 0.491829646624E-12 Imbalance = -tendency + SFWF flux + ice formation + FW salt content + free-srf non-consv. Global Time Averages: 09-01-0097 00:00:00 KAPPA_ISOP: 3935860.22578962287 KAPPA_THIC: 4562816.78096488584 HOR_DIFF: 671541.304670102429 DIA_DEPTH: 7942.41829323241382 TLT: 457.796873348135534 INT_DEPTH: 8400.21135313172272 UISOP: 0.844996343799488321E-04 VISOP: -0.375054708792982197E-03 WISOP: 0.274726161153721788E-12 ADVT_ISOP: -0.453671521826174326E-11 ADVS_ISOP: -0.235693856835314701E-14 VNT_ISOP: -0.110802896623946127E-08 VNS_ISOP: -0.215804346697186677E-11 USUBM: -0.568892888160036839E-05 VSUBM: -0.396242363662446909E-04 WSUBM: -0.608162676450630281E-09 HLS_SUBM: 742517.578259028378 ADVT_SUBM: -0.208439481812835552E-11 ADVS_SUBM: 0.681549749734172977E-16 VNT_SUBM: -0.489029788594063148E-09 VNS_SUBM: -0.238981037031524817E-12 HDIFT: -0.295747659499021787E-11 HDIFS: 0.599958194484223532E-15 QSW_HBL: 137.462889859038881 KVMIX: 1.38364077366351101 TPOWER: 0.222442362904436197E-05 UVEL: 0.323718724626386567 VVEL: 0.193482621131316071E-02 TEMP: 3.50805794256181525 dTEMP_POS_2D: 0.847682912150435619E-01 dTEMP_NEG_2D: -0.651296421962219291E-01 SALT: 0.347214170991533636E-01 RHO: 1.03743496196552099 RESID_T: 0.000000000000000000E+00 RESID_S: 0.000000000000000000E+00 SU: 116112.424159100570 SV: 668.792417801982992 SSH: 0.530633019196951944E-04 SHF: -7.18067145646729177 SHF_QSW: 160.696907243824512 SFWF: 0.248696432552594155E-05 TAUX: 0.169960014787502361 TAUY: 0.681769143286260482E-01 FW: 0.000000000000000000E+00 TFW_T: 0.000000000000000000E+00 TFW_S: 0.000000000000000000E+00 EVAP_F: -0.385927433115685657E-04 PREC_F: 0.349386574076502053E-04 SNOW_F: 0.103148344298316519E-05 MELT_F: 0.189205612757817013E-05 ROFF_F: 0.402542642452111729E-05 IOFF_F: 0.316921297658313055E-06 SALT_F: 0.323939935996717814E-08 SENH_F: -13.9749645396742022 LWUP_F: -386.554770520416923 LWDN_F: 330.903719650667597 MELTH_F: -1.28114354784908491 IFRAC: 0.792421224676990582E-01 IAGE: 227.177026732787994 WVEL: 0.740308435599328568E-06 UET: 0.453197864479045799E-07 VNT: -0.226398059319208723E-07 WTT: -0.201398406881208402E-07 UES: 0.158656996938656358E-08 VNS: 0.646252519839865344E-11 WTS: 0.412560879631282933E-12 ADVT: -0.867059545246749830E-10 ADVS: 0.322090278960143535E-14 PV: -0.655594322660453109E-13 Q: -0.979697981441798488E-08 PD: 1.02752385447811112 QSW_HTP: 118.743558098829809 QFLUX: 0.114879666444080944 HMXL: 7943.93058107713568 XMXL: 9023.35930584045309 TMXL: 5794.03185023954393 HBLT: 5049.43327857035456 XBLT: 8617.46418029437700 TBLT: 947.395310143995857 BSF: 0.000000000000000000E+00 convergence info from pcg_diag_bsf: iter = 0 rms_resid = 0.982576870321475587E-01 iter = 100 rms_resid = 0.435455589086060010E-02 iter = 200 rms_resid = 0.913877620775763590E-03 iter = 300 rms_resid = 0.400423904016472749E-03 iter = 400 rms_resid = 0.278309277271360028E-03 iter = 500 rms_resid = 0.203481978441833264E-03 iter = 600 rms_resid = 0.495909543265729371E-04 iter = 700 rms_resid = 0.139908349633390171E-04 iter = 800 rms_resid = 0.175771435720083999E-05 iter = 900 rms_resid = 0.154075141688911262E-06 Local Time- and Space-Averages for Nino Regions: 00:00:00 0097-09-01 NINO_1_PLUS_2: 25.3876367230973301 NINO_3: 26.2073611350413458 NINO_3_POINT_4: 27.4481989072168133 NINO_4: 29.1920631529183439 tavg file written: ./b40.1850.track1.1deg.006.pop.h.0097-08.nc (time_manager) ocn date 0097-sep-02, 0.000000E+00 sec (time_manager) ocn date 0097-sep-03, 0.000000E+00 sec (time_manager) ocn date 0097-sep-04, 0.000000E+00 sec (time_manager) ocn date 0097-sep-05, 0.000000E+00 sec (time_manager) ocn date 0097-sep-06, 0.000000E+00 sec (time_manager) ocn date 0097-sep-07, 0.000000E+00 sec (time_manager) ocn date 0097-sep-08, 0.000000E+00 sec (time_manager) ocn date 0097-sep-09, 0.000000E+00 sec ovf_loc_prd: nsteps_total= 882262 ovf= 3 swap ovf UV old/new prd set old/new= 1 5 ovf_loc_prd: nsteps_total= 882271 ovf= 3 swap ovf UV old/new prd set old/new= 5 1 (time_manager) ocn date 0097-sep-10, 0.000000E+00 sec (time_manager) ocn date 0097-sep-11, 0.000000E+00 sec (time_manager) ocn date 0097-sep-12, 0.000000E+00 sec (time_manager) ocn date 0097-sep-13, 0.000000E+00 sec (time_manager) ocn date 0097-sep-14, 0.000000E+00 sec (time_manager) ocn date 0097-sep-15, 0.000000E+00 sec (time_manager) ocn date 0097-sep-16, 0.000000E+00 sec (time_manager) ocn date 0097-sep-17, 0.000000E+00 sec (time_manager) ocn date 0097-sep-18, 0.000000E+00 sec (time_manager) ocn date 0097-sep-19, 0.000000E+00 sec (time_manager) ocn date 0097-sep-20, 0.000000E+00 sec (time_manager) ocn date 0097-sep-21, 0.000000E+00 sec (time_manager) ocn date 0097-sep-22, 0.000000E+00 sec (time_manager) ocn date 0097-sep-23, 0.000000E+00 sec (time_manager) ocn date 0097-sep-24, 0.000000E+00 sec (time_manager) ocn date 0097-sep-25, 0.000000E+00 sec (time_manager) ocn date 0097-sep-26, 0.000000E+00 sec (time_manager) ocn date 0097-sep-27, 0.000000E+00 sec ovf_loc_prd: nsteps_total= 882701 ovf= 3 swap ovf UV old/new prd set old/new= 1 5 ovf_loc_prd: nsteps_total= 882716 ovf= 3 swap ovf UV old/new prd set old/new= 5 1 ovf_loc_prd: nsteps_total= 882717 ovf= 3 swap ovf UV old/new prd set old/new= 1 5 ovf_loc_prd: nsteps_total= 882719 ovf= 3 swap ovf UV old/new prd set old/new= 5 1 (time_manager) ocn date 0097-sep-28, 0.000000E+00 sec (time_manager) ocn date 0097-sep-29, 0.000000E+00 sec (time_manager) ocn date 0097-sep-30, 0.000000E+00 sec (time_manager) ocn date 0097-oct-01, 0.000000E+00 sec Step number : 882800 Date : 01 oct 0097 Hour : 0 Minute : 0 Second : 0 Time(years) : 96.747945 max. cfl number for zonal advection : 9.1101E-02 20 371 33 max. cfl number for meridional advection : 1.0180E-01 312 206 1 max. cfl number for vertical advection : 4.0083E-01 298 46 14 max. cfl number for total advection : 4.0874E-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. : 8.870548810538068E+00 K.E. change from horiz. visc. :-3.966335300979651E-06 K.E. change from vert. visc. : 8.927345097908370E-06 K.E. change from wind stress : 2.650317226171140E-05 advective K.E. balance :-1.579956638889963E-09 : 7.336274828213921E-10 P.E. verses pressure work : 7.383510740155247E-04 :-4.390445183903977E-06 surface-pressure contribution :-3.997756956119004E-07 : 3.446858214991077E-07 Tracer diagnostics: mean value of tracer 1 : 3.510078689104529E+00 abs change in tracer 1 : 1.321867640992986E-07 mean change in tracer 1 : 3.286743250485818E-09 mean change in tracer 1 from advection :-1.509274164569279E-24 mean change in tracer 1 from horiz. diff.:-2.358240882139499E-26 mean change in tracer 1 from vert. diff.:-1.121455924438930E-08 mean change in tracer 1 from sources : 1.441844964463737E-08 surface flux of tracer 1 : 0.000000000000000E+00 mean value of tracer 2 : 3.472144535683389E+01 abs change in tracer 2 : 1.261713354772521E-11 mean change in tracer 2 : 2.203151531779905E-14 mean change in tracer 2 from advection :-4.605939222928708E-28 mean change in tracer 2 from horiz. diff.:-5.037746025078275E-30 mean change in tracer 2 from vert. diff.:-9.219379877945674E-15 mean change in tracer 2 from sources :-2.809054079108768E-31 surface flux of tracer 2 : 0.000000000000000E+00 mean value of tracer 3 : 2.272298804593343E+02 abs change in tracer 3 : 2.405288595188986E-06 mean change in tracer 3 : 1.493075996186712E-08 mean change in tracer 3 from advection :-7.244515989932540E-23 mean change in tracer 3 from horiz. diff.:-6.933228193490126E-24 mean change in tracer 3 from vert. diff.: 1.109019015979428E-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: 5.253039399783333E-05 residual, scans : 8.399958450779969E-14 240 Timing information: Timer number 1 Time = 278.42 seconds HMIX_MOMENTUM_ANISO Timer number 2 Time = 247.31 seconds HMIX_TRACER_GM_NLOOP Timer number 3 Time = 1385.52 seconds HMIX_TRACER_GM Timer number 4 Time = 725.40 seconds VMIX_COEFFICIENTS_KPP Timer number 5 Time = 38.58 seconds VMIX_EXPLICIT_TRACER Timer number 6 Time = 18.84 seconds VMIX_EXPLICIT_MOMENTUM Timer number 7 Time = 119.91 seconds VMIX_IMPLICIT_TRACER Timer number 8 Time = 29.00 seconds VMIX_IMPLICIT_MOMENTUM Timer number 9 Time = 4.24 seconds COMPUTE_COSZ Timer number 10 Time = 51.56 seconds ADVECTION_MOMENTUM Timer number 11 Time = 268.59 seconds ADVECTION_TRACER_UPWIND3 Timer number 12 Time = 17.44 seconds MOC Timer number 13 Time = 17.29 seconds TRACER_TRANSPORTS Timer number 14 Time = 306.01 seconds TAVG_WRITE_STD Timer number 15 Time = 24.15 seconds TAVG_WRITE_NONSTD Timer number 16 Time = 16.67 seconds TAVG_CCSM_DIAGS_BSF Timer number 17 Time = 17.44 seconds TAVG_CCSM_DIAGS_MOC Timer number 18 Time = 17.29 seconds TAVG_CCSM_DIAGS_TRANS Timer number 19 Time = 4153.87 seconds STEP Timer number 20 Time = 3522.23 seconds BAROCLINIC Timer number 21 Time = 477.82 seconds BAROTROPIC Timer number 22 Time = 84.27 seconds 3D-UPDATE Timer number 23 Time = 4541.28 seconds TOTAL Timer number 24 Time = 384.12 seconds OUTPUT Timer number 25 Time = 384.06 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.0097-01-01-00000 (diag_transport) file written: /ptmp/mai/b40.1850.track1.1deg.006/run/b40.1850.track1.1deg.006.pop.dt.0097-01-01-00000 AFTER CALL IN tracer_budgets (final): ===================================== volume_t (cm^3) = 0.132514028746E+25 SUM [volume*T] (C cm^3) = 0.465133917974E+25 SUM [volume*S] (ppt cm^3) = 0.460107860926E+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 = -.148659973740E-12 FW flux = 0.000000000000E+00 Imbalance = 0.148659973740E-12 Imbalance = -tendency + FW flux HEAT BUDGET FOR THE GIVEN TAVG INTERVAL (W/m^2): ------------------------------------------------ tendency = 0.465460469225E+01 SHF flux = 0.452740843503E+01 ice formation = 0.127196109179E+00 FW heat content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = -.148042940545E-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 = -.678132678543E-06 SFWF flux = -.340902442746E-06 ice formation = -.337230247172E-06 FW salt content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = -.113754152595E-13 Imbalance = -tendency + SFWF flux + ice formation + FW salt content + free-srf non-consv. Global Time Averages: 10-01-0097 00:00:00 KAPPA_ISOP: 4531843.29902016558 KAPPA_THIC: 5162468.47328501008 HOR_DIFF: 674855.578146503540 DIA_DEPTH: 7953.00321920756869 TLT: 520.268184532859095 INT_DEPTH: 8473.26618145448083 UISOP: 0.723512460431337826E-04 VISOP: -0.400421304396592439E-03 WISOP: 0.281879016292522246E-13 ADVT_ISOP: -0.445987864719060452E-10 ADVS_ISOP: -0.587355168451141806E-14 VNT_ISOP: -0.215055121740580344E-08 VNS_ISOP: -0.230057279171748431E-11 USUBM: 0.216772299483132058E-06 VSUBM: -0.410782967257986175E-04 WSUBM: 0.114353465731221614E-09 HLS_SUBM: 809798.299487228855 ADVT_SUBM: -0.331340559378371710E-11 ADVS_SUBM: -0.118108049535566269E-15 VNT_SUBM: -0.822325441541387737E-09 VNS_SUBM: -0.275272827005137769E-12 HDIFT: 0.132076945223595487E-09 HDIFS: 0.877283721544258873E-15 QSW_HBL: 149.819802522511054 KVMIX: 1.37651990319689199 TPOWER: 0.222033557021159456E-05 UVEL: 0.315973166839441377 VVEL: 0.671932893021487897E-03 TEMP: 3.50786251090570644 dTEMP_POS_2D: 0.762116538229849344E-01 dTEMP_NEG_2D: -0.597179026147821521E-01 SALT: 0.347214059642858425E-01 RHO: 1.03743478739799744 RESID_T: 0.000000000000000000E+00 RESID_S: 0.000000000000000000E+00 SU: 113333.978922130933 SV: 217.801456715249827 SSH: 0.526777872004030454E-04 SHF: 4.52740843502802726 SHF_QSW: 174.255917923256675 SFWF: -0.340902442746236456E-06 TAUX: 0.158900023399837054 TAUY: 0.465849054035501614E-01 FW: 0.000000000000000000E+00 TFW_T: 0.000000000000000000E+00 TFW_S: 0.000000000000000000E+00 EVAP_F: -0.387627342241242948E-04 PREC_F: 0.342152279019597859E-04 SNOW_F: 0.929767039953364010E-06 MELT_F: 0.467521819526022999E-06 ROFF_F: 0.333604395215312799E-05 IOFF_F: 0.334547293363649577E-06 SALT_F: -0.237663991191796465E-08 SENH_F: -13.6345213613662075 LWUP_F: -386.766884383543243 LWDN_F: 328.995092242751127 MELTH_F: -0.954687219180570645 IFRAC: 0.783142226557947407E-01 IAGE: 227.210569878585204 WVEL: 0.762775767934433833E-06 UET: 0.170028287210357821E-07 VNT: -0.292299073046263281E-07 WTT: -0.158170977274651475E-07 UES: 0.157894018528187113E-08 VNS: -0.394650213404724515E-12 WTS: 0.832550229965998649E-12 ADVT: 0.304935615717322695E-10 ADVS: -0.452108171094584125E-14 PV: -0.621776227575746743E-13 Q: -0.975728963448568810E-08 PD: 1.02752364379332906 QSW_HTP: 128.236982047806833 QFLUX: 0.127196109179129407 HMXL: 7954.46407407623792 XMXL: 9700.35175644011179 TMXL: 4591.14220492821914 HBLT: 4504.98770111912745 XBLT: 8394.66635510607921 TBLT: 929.322032329020658 BSF: 0.000000000000000000E+00 convergence info from pcg_diag_bsf: iter = 0 rms_resid = 0.968278592721863868E-01 iter = 100 rms_resid = 0.419976976402009622E-02 iter = 200 rms_resid = 0.892781793830411063E-03 iter = 300 rms_resid = 0.389842438005056269E-03 iter = 400 rms_resid = 0.268586429694901425E-03 iter = 500 rms_resid = 0.197997497065695348E-03 iter = 600 rms_resid = 0.496806922892080276E-04 iter = 700 rms_resid = 0.144577198005064058E-04 iter = 800 rms_resid = 0.161528354380017713E-05 iter = 900 rms_resid = 0.146467840420803149E-06 Local Time- and Space-Averages for Nino Regions: 00:00:00 0097-10-01 NINO_1_PLUS_2: 25.1120165311352181 NINO_3: 26.4571519670594988 NINO_3_POINT_4: 27.5332921338212060 NINO_4: 29.1957865235099590 tavg file written: ./b40.1850.track1.1deg.006.pop.h.0097-09.nc (time_manager) ocn date 0097-oct-02, 0.000000E+00 sec (time_manager) ocn date 0097-oct-03, 0.000000E+00 sec (time_manager) ocn date 0097-oct-04, 0.000000E+00 sec (time_manager) ocn date 0097-oct-05, 0.000000E+00 sec (time_manager) ocn date 0097-oct-06, 0.000000E+00 sec (time_manager) ocn date 0097-oct-07, 0.000000E+00 sec (time_manager) ocn date 0097-oct-08, 0.000000E+00 sec (time_manager) ocn date 0097-oct-09, 0.000000E+00 sec (time_manager) ocn date 0097-oct-10, 0.000000E+00 sec (time_manager) ocn date 0097-oct-11, 0.000000E+00 sec (time_manager) ocn date 0097-oct-12, 0.000000E+00 sec (time_manager) ocn date 0097-oct-13, 0.000000E+00 sec (time_manager) ocn date 0097-oct-14, 0.000000E+00 sec (time_manager) ocn date 0097-oct-15, 0.000000E+00 sec (time_manager) ocn date 0097-oct-16, 0.000000E+00 sec (time_manager) ocn date 0097-oct-17, 0.000000E+00 sec (time_manager) ocn date 0097-oct-18, 0.000000E+00 sec (time_manager) ocn date 0097-oct-19, 0.000000E+00 sec (time_manager) ocn date 0097-oct-20, 0.000000E+00 sec (time_manager) ocn date 0097-oct-21, 0.000000E+00 sec (time_manager) ocn date 0097-oct-22, 0.000000E+00 sec (time_manager) ocn date 0097-oct-23, 0.000000E+00 sec (time_manager) ocn date 0097-oct-24, 0.000000E+00 sec (time_manager) ocn date 0097-oct-25, 0.000000E+00 sec (time_manager) ocn date 0097-oct-26, 0.000000E+00 sec (time_manager) ocn date 0097-oct-27, 0.000000E+00 sec (time_manager) ocn date 0097-oct-28, 0.000000E+00 sec (time_manager) ocn date 0097-oct-29, 0.000000E+00 sec (time_manager) ocn date 0097-oct-30, 0.000000E+00 sec (time_manager) ocn date 0097-oct-31, 0.000000E+00 sec (time_manager) ocn date 0097-nov-01, 0.000000E+00 sec Step number : 883575 Date : 01 nov 0097 Hour : 0 Minute : 0 Second : 0 Time(years) : 96.832877 max. cfl number for zonal advection : 9.0134E-02 20 371 33 max. cfl number for meridional advection : 9.5211E-02 312 203 1 max. cfl number for vertical advection : 2.8911E-01 320 362 21 max. cfl number for total advection : 3.0233E-01 320 362 21 max. cfl number for horizontal tracer mixing : 6.0948E-01 175 380 3 max. cfl number for horiz. momentum mixing : 1.2672E-01 318 214 56 K.E. diagnostics: mean K.E. : 8.401274621401013E+00 K.E. change from horiz. visc. :-3.683240795538181E-06 K.E. change from vert. visc. : 7.969096567261125E-06 K.E. change from wind stress : 2.288661428399086E-05 advective K.E. balance :-5.954998006771891E-10 :-2.391628148798590E-10 P.E. verses pressure work : 7.362560576983756E-04 :-3.414953301534277E-06 surface-pressure contribution : 3.160312450454031E-07 :-3.757282097637393E-07 Tracer diagnostics: mean value of tracer 1 : 3.512272776109929E+00 abs change in tracer 1 : 1.311986178834402E-07 mean change in tracer 1 : 3.814675511290941E-09 mean change in tracer 1 from advection :-3.773185411423198E-25 mean change in tracer 1 from horiz. diff.:-1.768680661604624E-26 mean change in tracer 1 from vert. diff.:-1.187384966589529E-08 mean change in tracer 1 from sources : 1.559625418641473E-08 surface flux of tracer 1 : 0.000000000000000E+00 mean value of tracer 2 : 3.472148343704627E+01 abs change in tracer 2 : 1.282231716931479E-11 mean change in tracer 2 : 7.015823771027863E-14 mean change in tracer 2 from advection : 9.211878445857417E-29 mean change in tracer 2 from horiz. diff.:-3.598390017913053E-29 mean change in tracer 2 from vert. diff.: 3.535495630304737E-14 mean change in tracer 2 from sources :-1.239804446014571E-31 surface flux of tracer 2 : 0.000000000000000E+00 mean value of tracer 3 : 2.272802079798047E+02 abs change in tracer 3 : 2.381651830777857E-06 mean change in tracer 3 : 2.266788625870973E-08 mean change in tracer 3 from advection :-9.508427236786459E-23 mean change in tracer 3 from horiz. diff.:-9.197139440344045E-25 mean change in tracer 3 from vert. diff.:-4.107244848461197E-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: 5.231093899031517E-05 residual, scans : 8.282398590108364E-14 240 Timing information: Timer number 1 Time = 310.40 seconds HMIX_MOMENTUM_ANISO Timer number 2 Time = 275.57 seconds HMIX_TRACER_GM_NLOOP Timer number 3 Time = 1542.27 seconds HMIX_TRACER_GM Timer number 4 Time = 807.00 seconds VMIX_COEFFICIENTS_KPP Timer number 5 Time = 42.95 seconds VMIX_EXPLICIT_TRACER Timer number 6 Time = 20.98 seconds VMIX_EXPLICIT_MOMENTUM Timer number 7 Time = 133.52 seconds VMIX_IMPLICIT_TRACER Timer number 8 Time = 32.29 seconds VMIX_IMPLICIT_MOMENTUM Timer number 9 Time = 4.72 seconds COMPUTE_COSZ Timer number 10 Time = 57.33 seconds ADVECTION_MOMENTUM Timer number 11 Time = 299.10 seconds ADVECTION_TRACER_UPWIND3 Timer number 12 Time = 19.60 seconds MOC Timer number 13 Time = 19.45 seconds TRACER_TRANSPORTS Timer number 14 Time = 343.00 seconds TAVG_WRITE_STD Timer number 15 Time = 27.20 seconds TAVG_WRITE_NONSTD Timer number 16 Time = 18.71 seconds TAVG_CCSM_DIAGS_BSF Timer number 17 Time = 19.60 seconds TAVG_CCSM_DIAGS_MOC Timer number 18 Time = 19.45 seconds TAVG_CCSM_DIAGS_TRANS Timer number 19 Time = 4625.67 seconds STEP Timer number 20 Time = 3921.80 seconds BAROCLINIC Timer number 21 Time = 531.98 seconds BAROTROPIC Timer number 22 Time = 93.94 seconds 3D-UPDATE Timer number 23 Time = 5060.13 seconds TOTAL Timer number 24 Time = 430.79 seconds OUTPUT Timer number 25 Time = 430.73 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.0097-01-01-00000 (diag_transport) file written: /ptmp/mai/b40.1850.track1.1deg.006/run/b40.1850.track1.1deg.006.pop.dt.0097-01-01-00000 AFTER CALL IN tracer_budgets (final): ===================================== volume_t (cm^3) = 0.132514028745E+25 SUM [volume*T] (C cm^3) = 0.465424521025E+25 SUM [volume*S] (ppt cm^3) = 0.460108364497E+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 = -.819505866289E-13 FW flux = 0.000000000000E+00 Imbalance = 0.819505866289E-13 Imbalance = -tendency + FW flux HEAT BUDGET FOR THE GIVEN TAVG INTERVAL (W/m^2): ------------------------------------------------ tendency = 0.123174767741E+02 SHF flux = 0.121693921243E+02 ice formation = 0.148084548026E+00 FW heat content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = -.101796513580E-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 = -.150030405326E-05 SFWF flux = -.110769304143E-05 ice formation = -.392610977297E-06 FW salt content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = 0.345319026682E-13 Imbalance = -tendency + SFWF flux + ice formation + FW salt content + free-srf non-consv. Global Time Averages: 11-01-0097 00:00:00 KAPPA_ISOP: 4383317.83236287627 KAPPA_THIC: 4882368.11517015379 HOR_DIFF: 543646.857037867187 DIA_DEPTH: 6374.59957075860711 TLT: 466.474707389526486 INT_DEPTH: 6841.07215420986086 UISOP: 0.752169930669848791E-04 VISOP: -0.397907024244386796E-03 WISOP: 0.303217644700572390E-12 ADVT_ISOP: -0.180259713156891110E-10 ADVS_ISOP: 0.223713032557508440E-14 VNT_ISOP: -0.173872642715604932E-08 VNS_ISOP: -0.227850598384263370E-11 USUBM: 0.332203464628388332E-05 VSUBM: -0.187582511666550662E-04 WSUBM: -0.138615746336114368E-09 HLS_SUBM: 858590.186230438878 ADVT_SUBM: -0.361526672444830600E-11 ADVS_SUBM: -0.303043626771759533E-15 VNT_SUBM: -0.490274992829325482E-09 VNS_SUBM: -0.122405305806954786E-12 HDIFT: 0.208823595881829641E-10 HDIFS: 0.953152640559496476E-15 QSW_HBL: 157.137270429473716 KVMIX: 1.37065867939323072 TPOWER: 0.220706995515798263E-05 UVEL: 0.305107777376331157 VVEL: 0.712051915057430548E-03 TEMP: 3.50933823157222902 dTEMP_POS_2D: 0.859893742636565622E-01 dTEMP_NEG_2D: -0.692839735676047674E-01 SALT: 0.347214344063786554E-01 RHO: 1.03743446246342219 RESID_T: 0.000000000000000000E+00 RESID_S: 0.000000000000000000E+00 SU: 109436.485835161147 SV: 228.188253742676068 SSH: 0.522085653517953321E-04 SHF: 12.1693921242707219 SHF_QSW: 185.333492811083858 SFWF: -0.110769304143078154E-05 TAUX: 0.164260819521329621 TAUY: 0.696625195275126213E-02 FW: 0.000000000000000000E+00 TFW_T: 0.000000000000000000E+00 TFW_S: 0.000000000000000000E+00 EVAP_F: -0.390529747784087663E-04 PREC_F: 0.341706363554263270E-04 SNOW_F: 0.953370526688964816E-06 MELT_F: 0.425591737367700274E-06 ROFF_F: 0.301182517093975822E-05 IOFF_F: 0.266136862870593829E-06 SALT_F: -0.246687573513813357E-08 SENH_F: -14.4328837497315341 LWUP_F: -386.426037256797656 LWDN_F: 326.786403510184812 MELTH_F: -1.01314785547581643 IFRAC: 0.790708782949849504E-01 IAGE: 227.253630003538206 WVEL: 0.767679218239263168E-06 UET: 0.385651196730466523E-07 VNT: -0.131151053812304323E-07 WTT: -0.117859595954698254E-07 UES: 0.152524115378419905E-08 VNS: -0.247997615111233124E-11 WTS: 0.125387153756644836E-11 ADVT: -0.237567942461080827E-10 ADVS: 0.830186170455526394E-14 PV: -0.319510502137117270E-13 Q: -0.970622593289107209E-08 PD: 1.02752330342701725 QSW_HTP: 136.011619487369728 QFLUX: 0.148084548026127333 HMXL: 6375.22953257112749 XMXL: 9291.72013379205964 TMXL: 3773.22752432698871 HBLT: 3871.94412140162876 XBLT: 7221.19489397909092 TBLT: 862.979530098767441 BSF: 0.000000000000000000E+00 convergence info from pcg_diag_bsf: iter = 0 rms_resid = 0.103874667544709878 iter = 100 rms_resid = 0.403806511285052100E-02 iter = 200 rms_resid = 0.861620330181407722E-03 iter = 300 rms_resid = 0.386623682956717168E-03 iter = 400 rms_resid = 0.277416078927623445E-03 iter = 500 rms_resid = 0.190424062952890478E-03 iter = 600 rms_resid = 0.488051488798658172E-04 iter = 700 rms_resid = 0.140625763264773290E-04 iter = 800 rms_resid = 0.171060569275347591E-05 iter = 900 rms_resid = 0.139238412238651802E-06 Local Time- and Space-Averages for Nino Regions: 00:00:00 0097-11-01 NINO_1_PLUS_2: 25.8214163153693299 NINO_3: 26.9224009766953714 NINO_3_POINT_4: 27.8292759529996765 NINO_4: 29.3207213738266042 tavg file written: ./b40.1850.track1.1deg.006.pop.h.0097-10.nc (time_manager) ocn date 0097-nov-02, 0.000000E+00 sec (time_manager) ocn date 0097-nov-03, 0.000000E+00 sec (time_manager) ocn date 0097-nov-04, 0.000000E+00 sec (time_manager) ocn date 0097-nov-05, 0.000000E+00 sec (time_manager) ocn date 0097-nov-06, 0.000000E+00 sec (time_manager) ocn date 0097-nov-07, 0.000000E+00 sec (time_manager) ocn date 0097-nov-08, 0.000000E+00 sec (time_manager) ocn date 0097-nov-09, 0.000000E+00 sec (time_manager) ocn date 0097-nov-10, 0.000000E+00 sec (time_manager) ocn date 0097-nov-11, 0.000000E+00 sec (time_manager) ocn date 0097-nov-12, 0.000000E+00 sec (time_manager) ocn date 0097-nov-13, 0.000000E+00 sec (time_manager) ocn date 0097-nov-14, 0.000000E+00 sec (time_manager) ocn date 0097-nov-15, 0.000000E+00 sec (time_manager) ocn date 0097-nov-16, 0.000000E+00 sec (time_manager) ocn date 0097-nov-17, 0.000000E+00 sec (time_manager) ocn date 0097-nov-18, 0.000000E+00 sec (time_manager) ocn date 0097-nov-19, 0.000000E+00 sec (time_manager) ocn date 0097-nov-20, 0.000000E+00 sec (time_manager) ocn date 0097-nov-21, 0.000000E+00 sec (time_manager) ocn date 0097-nov-22, 0.000000E+00 sec (time_manager) ocn date 0097-nov-23, 0.000000E+00 sec (time_manager) ocn date 0097-nov-24, 0.000000E+00 sec (time_manager) ocn date 0097-nov-25, 0.000000E+00 sec (time_manager) ocn date 0097-nov-26, 0.000000E+00 sec (time_manager) ocn date 0097-nov-27, 0.000000E+00 sec (time_manager) ocn date 0097-nov-28, 0.000000E+00 sec (time_manager) ocn date 0097-nov-29, 0.000000E+00 sec (time_manager) ocn date 0097-nov-30, 0.000000E+00 sec (time_manager) ocn date 0097-dec-01, 0.000000E+00 sec Step number : 884325 Date : 01 dec 0097 Hour : 0 Minute : 0 Second : 0 Time(years) : 96.915068 max. cfl number for zonal advection : 8.3642E-02 20 371 33 max. cfl number for meridional advection : 7.1345E-02 312 203 1 max. cfl number for vertical advection : 2.8175E-01 21 369 17 max. cfl number for total advection : 3.0093E-01 20 368 7 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. : 8.359149890669006E+00 K.E. change from horiz. visc. :-3.700134464947184E-06 K.E. change from vert. visc. : 5.738203280402174E-06 K.E. change from wind stress : 2.478298461527267E-05 advective K.E. balance :-8.065920480415571E-13 :-7.065324148072060E-10 P.E. verses pressure work : 7.244895709082504E-04 :-3.379708610306852E-06 surface-pressure contribution :-1.895509123037847E-07 : 1.080381437191615E-07 Tracer diagnostics: mean value of tracer 1 : 3.513655875985224E+00 abs change in tracer 1 : 1.480936237235189E-07 mean change in tracer 1 : 2.205341705739933E-09 mean change in tracer 1 from advection :-3.207207599709718E-24 mean change in tracer 1 from horiz. diff.:-8.843403308023120E-26 mean change in tracer 1 from vert. diff.:-1.262251177487616E-08 mean change in tracer 1 from sources : 1.462098896372589E-08 surface flux of tracer 1 : 0.000000000000000E+00 mean value of tracer 2 : 3.472152371074243E+01 abs change in tracer 2 : 1.480758276184101E-11 mean change in tracer 2 : 6.988425902111815E-14 mean change in tracer 2 from advection : 2.302969611464354E-28 mean change in tracer 2 from horiz. diff.:-2.518873012539138E-29 mean change in tracer 2 from vert. diff.:-8.142040841009662E-15 mean change in tracer 2 from sources :-1.619977838792231E-32 surface flux of tracer 2 : 0.000000000000000E+00 mean value of tracer 3 : 2.273399813254447E+02 abs change in tracer 3 : 2.636932385313909E-06 mean change in tracer 3 : 2.290540597459909E-08 mean change in tracer 3 from advection :-7.659566385189092E-23 mean change in tracer 3 from horiz. diff.:-7.546370822846396E-25 mean change in tracer 3 from vert. diff.: 4.619722965002498E-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: 5.223108051559193E-05 residual, scans : 8.958246860666479E-14 250 Timing information: Timer number 1 Time = 341.14 seconds HMIX_MOMENTUM_ANISO Timer number 2 Time = 303.11 seconds HMIX_TRACER_GM_NLOOP Timer number 3 Time = 1694.36 seconds HMIX_TRACER_GM Timer number 4 Time = 885.94 seconds VMIX_COEFFICIENTS_KPP Timer number 5 Time = 47.19 seconds VMIX_EXPLICIT_TRACER Timer number 6 Time = 23.08 seconds VMIX_EXPLICIT_MOMENTUM Timer number 7 Time = 146.71 seconds VMIX_IMPLICIT_TRACER Timer number 8 Time = 35.49 seconds VMIX_IMPLICIT_MOMENTUM Timer number 9 Time = 5.18 seconds COMPUTE_COSZ Timer number 10 Time = 62.97 seconds ADVECTION_MOMENTUM Timer number 11 Time = 328.61 seconds ADVECTION_TRACER_UPWIND3 Timer number 12 Time = 21.79 seconds MOC Timer number 13 Time = 21.60 seconds TRACER_TRANSPORTS Timer number 14 Time = 380.45 seconds TAVG_WRITE_STD Timer number 15 Time = 30.34 seconds TAVG_WRITE_NONSTD Timer number 16 Time = 20.75 seconds TAVG_CCSM_DIAGS_BSF Timer number 17 Time = 21.79 seconds TAVG_CCSM_DIAGS_MOC Timer number 18 Time = 21.60 seconds TAVG_CCSM_DIAGS_TRANS Timer number 19 Time = 5081.63 seconds STEP Timer number 20 Time = 4308.14 seconds BAROCLINIC Timer number 21 Time = 584.05 seconds BAROTROPIC Timer number 22 Time = 103.30 seconds 3D-UPDATE Timer number 23 Time = 5563.68 seconds TOTAL Timer number 24 Time = 478.03 seconds OUTPUT Timer number 25 Time = 477.96 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.0097-01-01-00000 (diag_transport) file written: /ptmp/mai/b40.1850.track1.1deg.006/run/b40.1850.track1.1deg.006.pop.dt.0097-01-01-00000 AFTER CALL IN tracer_budgets (final): ===================================== volume_t (cm^3) = 0.132514028745E+25 SUM [volume*T] (C cm^3) = 0.465608219947E+25 SUM [volume*S] (ppt cm^3) = 0.460108899160E+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 = -.307987677077E-13 FW flux = 0.000000000000E+00 Imbalance = 0.307987677077E-13 Imbalance = -tendency + FW flux HEAT BUDGET FOR THE GIVEN TAVG INTERVAL (W/m^2): ------------------------------------------------ tendency = 0.804578877922E+01 SHF flux = 0.786638859332E+01 ice formation = 0.179400477226E+00 FW heat content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = 0.291327273666E-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 = -.164603759162E-05 SFWF flux = -.117039963453E-05 ice formation = -.475637719331E-06 FW salt content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = 0.237758833537E-12 Imbalance = -tendency + SFWF flux + ice formation + FW salt content + free-srf non-consv. Global Time Averages: 12-01-0097 00:00:00 KAPPA_ISOP: 3850210.37718635611 KAPPA_THIC: 4272430.84780138172 HOR_DIFF: 467259.657874469063 DIA_DEPTH: 5469.88223689029746 TLT: 401.747530564089232 INT_DEPTH: 5871.62976346340383 UISOP: 0.500230084985179280E-04 VISOP: -0.325727383244872517E-03 WISOP: -0.414203039616042288E-12 ADVT_ISOP: 0.345747494809627435E-10 ADVS_ISOP: -0.157790661719490948E-14 VNT_ISOP: -0.666570791563937572E-09 VNS_ISOP: -0.179948127601562982E-11 USUBM: -0.692587345829558327E-05 VSUBM: 0.106376408771302190E-04 WSUBM: -0.751598722211849272E-09 HLS_SUBM: 824501.284003868699 ADVT_SUBM: 0.300947959299719979E-12 ADVS_SUBM: -0.233430811505975545E-16 VNT_SUBM: -0.126917535715800864E-09 VNS_SUBM: 0.101149029441990379E-12 HDIFT: -0.359708937903292685E-10 HDIFS: 0.827535302575110593E-15 QSW_HBL: 162.605929174647343 KVMIX: 1.37280229816998345 TPOWER: 0.219331192685702973E-05 UVEL: 0.290754016459029763 VVEL: 0.316256068449514722E-03 TEMP: 3.51127756325236762 dTEMP_POS_2D: 0.853622287660730228E-01 dTEMP_NEG_2D: -0.694436054134883740E-01 SALT: 0.347214884665609166E-01 RHO: 1.03743412545271840 RESID_T: 0.000000000000000000E+00 RESID_S: 0.000000000000000000E+00 SU: 104289.677260029726 SV: 73.0241433330448757 SSH: 0.524609281808296768E-04 SHF: 7.86638859332318319 SHF_QSW: 190.553361448175593 SFWF: -0.117039963452922512E-05 TAUX: 0.910437277600021355E-01 TAUY: -0.384520899150173553E-01 FW: 0.000000000000000000E+00 TFW_T: 0.000000000000000000E+00 TFW_S: 0.000000000000000000E+00 EVAP_F: -0.422658235597221302E-04 PREC_F: 0.363857992316690104E-04 SNOW_F: 0.100465195409503570E-05 MELT_F: 0.167936152490937769E-05 ROFF_F: 0.286931626089343670E-05 IOFF_F: 0.236550733776835723E-06 SALT_F: 0.262348393895403911E-08 SENH_F: -15.4217791798244335 LWUP_F: -386.792664105880533 LWDN_F: 326.918808358257024 MELTH_F: -1.27032149846981390 IFRAC: 0.780027655011410886E-01 IAGE: 227.309461685275664 WVEL: 0.762899215912981179E-06 UET: 0.790667974020769256E-07 VNT: 0.260778102120618313E-07 WTT: -0.164465731214913562E-07 UES: 0.143350851351122922E-08 VNS: -0.746943730324037280E-11 WTS: 0.411639071331851793E-12 ADVT: 0.226253937825369997E-10 ADVS: -0.150177729393144216E-14 PV: 0.124882930753014721E-13 Q: -0.969037581314887966E-08 PD: 1.02752297570231366 QSW_HTP: 139.568987620014980 QFLUX: 0.179400477226014737 HMXL: 5470.50543043207654 XMXL: 7385.13192251495002 TMXL: 3368.62370869919005 HBLT: 3714.62259669149762 XBLT: 6735.24715311973250 TBLT: 862.030612969175763 BSF: 0.000000000000000000E+00 convergence info from pcg_diag_bsf: iter = 0 rms_resid = 0.111442383561843272 iter = 100 rms_resid = 0.409137789699462462E-02 iter = 200 rms_resid = 0.831797593294820938E-03 iter = 300 rms_resid = 0.333334533033464715E-03 iter = 400 rms_resid = 0.253460017952687191E-03 iter = 500 rms_resid = 0.176366509956464655E-03 iter = 600 rms_resid = 0.466472933740107764E-04 iter = 700 rms_resid = 0.146137942130419398E-04 iter = 800 rms_resid = 0.178350213234432192E-05 iter = 900 rms_resid = 0.145344704867806027E-06 Local Time- and Space-Averages for Nino Regions: 00:00:00 0097-12-01 NINO_1_PLUS_2: 26.2811415139038225 NINO_3: 27.3183741663786961 NINO_3_POINT_4: 28.3010353302312510 NINO_4: 29.6143204017669213 tavg file written: ./b40.1850.track1.1deg.006.pop.h.0097-11.nc (time_manager) ocn date 0097-dec-02, 0.000000E+00 sec (time_manager) ocn date 0097-dec-03, 0.000000E+00 sec (time_manager) ocn date 0097-dec-04, 0.000000E+00 sec (time_manager) ocn date 0097-dec-05, 0.000000E+00 sec (time_manager) ocn date 0097-dec-06, 0.000000E+00 sec (time_manager) ocn date 0097-dec-07, 0.000000E+00 sec (time_manager) ocn date 0097-dec-08, 0.000000E+00 sec (time_manager) ocn date 0097-dec-09, 0.000000E+00 sec (time_manager) ocn date 0097-dec-10, 0.000000E+00 sec (time_manager) ocn date 0097-dec-11, 0.000000E+00 sec (time_manager) ocn date 0097-dec-12, 0.000000E+00 sec (time_manager) ocn date 0097-dec-13, 0.000000E+00 sec (time_manager) ocn date 0097-dec-14, 0.000000E+00 sec (time_manager) ocn date 0097-dec-15, 0.000000E+00 sec (time_manager) ocn date 0097-dec-16, 0.000000E+00 sec (time_manager) ocn date 0097-dec-17, 0.000000E+00 sec (time_manager) ocn date 0097-dec-18, 0.000000E+00 sec (time_manager) ocn date 0097-dec-19, 0.000000E+00 sec (time_manager) ocn date 0097-dec-20, 0.000000E+00 sec (time_manager) ocn date 0097-dec-21, 0.000000E+00 sec (time_manager) ocn date 0097-dec-22, 0.000000E+00 sec (time_manager) ocn date 0097-dec-23, 0.000000E+00 sec (time_manager) ocn date 0097-dec-24, 0.000000E+00 sec (time_manager) ocn date 0097-dec-25, 0.000000E+00 sec (time_manager) ocn date 0097-dec-26, 0.000000E+00 sec (time_manager) ocn date 0097-dec-27, 0.000000E+00 sec (time_manager) ocn date 0097-dec-28, 0.000000E+00 sec (time_manager) ocn date 0097-dec-29, 0.000000E+00 sec (time_manager) ocn date 0097-dec-30, 0.000000E+00 sec (time_manager) ocn date 0097-dec-31, 0.000000E+00 sec (time_manager) ocn date 0098-jan-01, 0.000000E+00 sec Step number : 885100 Date : 01 jan 0098 Hour : 0 Minute : 0 Second : 0 Time(years) : 97.000000 max. cfl number for zonal advection : 7.9091E-02 20 371 33 max. cfl number for meridional advection : 6.5875E-02 6 169 10 max. cfl number for vertical advection : 2.6303E-01 15 367 20 max. cfl number for total advection : 2.8103E-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. : 8.285120682676920E+00 K.E. change from horiz. visc. :-3.512102695884503E-06 K.E. change from vert. visc. : 6.300032370100462E-06 K.E. change from wind stress : 2.157041288110090E-05 advective K.E. balance : 5.125380824604000E-10 :-9.603139984426189E-10 P.E. verses pressure work : 7.110106699043661E-04 :-3.119329076644101E-06 surface-pressure contribution :-2.164825151984599E-08 :-4.784061267450787E-08 Tracer diagnostics: mean value of tracer 1 : 3.515595490362503E+00 abs change in tracer 1 : 1.428208270172642E-07 mean change in tracer 1 : 2.769732088760023E-09 mean change in tracer 1 from advection :-3.773185411423198E-25 mean change in tracer 1 from horiz. diff.: 7.369502756685933E-26 mean change in tracer 1 from vert. diff.:-1.238911683206738E-08 mean change in tracer 1 from sources : 1.508603170884607E-08 surface flux of tracer 1 : 0.000000000000000E+00 mean value of tracer 2 : 3.472149629463028E+01 abs change in tracer 2 : 1.317948161972222E-11 mean change in tracer 2 : 8.910284117794587E-15 mean change in tracer 2 from advection :-1.496930247451830E-27 mean change in tracer 2 from horiz. diff.:-8.636136042991329E-30 mean change in tracer 2 from vert. diff.:-1.855531366881830E-14 mean change in tracer 2 from sources : 6.872163561170472E-33 surface flux of tracer 2 : 0.000000000000000E+00 mean value of tracer 3 : 2.274017394340383E+02 abs change in tracer 3 : 2.554444791485186E-06 mean change in tracer 3 : 2.174995121010454E-08 mean change in tracer 3 from advection :-4.980604743078622E-23 mean change in tracer 3 from horiz. diff.:-7.546370822846396E-25 mean change in tracer 3 from vert. diff.:-2.172487289255865E-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: 5.189627424515525E-05 residual, scans : 6.908290909927760E-14 240 Timing information: Timer number 1 Time = 372.97 seconds HMIX_MOMENTUM_ANISO Timer number 2 Time = 331.46 seconds HMIX_TRACER_GM_NLOOP Timer number 3 Time = 1851.56 seconds HMIX_TRACER_GM Timer number 4 Time = 967.85 seconds VMIX_COEFFICIENTS_KPP Timer number 5 Time = 51.56 seconds VMIX_EXPLICIT_TRACER Timer number 6 Time = 25.23 seconds VMIX_EXPLICIT_MOMENTUM Timer number 7 Time = 160.34 seconds VMIX_IMPLICIT_TRACER Timer number 8 Time = 38.82 seconds VMIX_IMPLICIT_MOMENTUM Timer number 9 Time = 5.66 seconds COMPUTE_COSZ Timer number 10 Time = 68.83 seconds ADVECTION_MOMENTUM Timer number 11 Time = 359.13 seconds ADVECTION_TRACER_UPWIND3 Timer number 12 Time = 23.95 seconds MOC Timer number 13 Time = 23.76 seconds TRACER_TRANSPORTS Timer number 14 Time = 418.06 seconds TAVG_WRITE_STD Timer number 15 Time = 33.40 seconds TAVG_WRITE_NONSTD Timer number 16 Time = 22.80 seconds TAVG_CCSM_DIAGS_BSF Timer number 17 Time = 23.95 seconds TAVG_CCSM_DIAGS_MOC Timer number 18 Time = 23.76 seconds TAVG_CCSM_DIAGS_TRANS Timer number 19 Time = 5552.29 seconds STEP Timer number 20 Time = 4707.42 seconds BAROCLINIC Timer number 21 Time = 637.54 seconds BAROTROPIC Timer number 22 Time = 112.80 seconds 3D-UPDATE Timer number 23 Time = 6082.12 seconds TOTAL Timer number 24 Time = 525.43 seconds OUTPUT Timer number 25 Time = 525.36 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.0097-01-01-00000 (diag_transport) file written: /ptmp/mai/b40.1850.track1.1deg.006/run/b40.1850.track1.1deg.006.pop.dt.0097-01-01-00000 AFTER CALL IN tracer_budgets (final): ===================================== volume_t (cm^3) = 0.132514028745E+25 SUM [volume*T] (C cm^3) = 0.465865093820E+25 SUM [volume*S] (ppt cm^3) = 0.460108536169E+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 = -.125021128602E-12 FW flux = 0.000000000000E+00 Imbalance = 0.125021128602E-12 Imbalance = -tendency + FW flux HEAT BUDGET FOR THE GIVEN TAVG INTERVAL (W/m^2): ------------------------------------------------ tendency = 0.108878346216E+02 SHF flux = 0.106941632224E+02 ice formation = 0.193671965493E+00 FW heat content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = 0.566299296317E-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 = 0.108146990222E-05 SFWF flux = 0.159494510952E-05 ice formation = -.513475177936E-06 FW salt content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = 0.293593972435E-13 Imbalance = -tendency + SFWF flux + ice formation + FW salt content + free-srf non-consv. Global Time Averages: 01-01-0098 00:00:00 KAPPA_ISOP: 3534264.89411316300 KAPPA_THIC: 3940768.20785784908 HOR_DIFF: 451740.826144014369 DIA_DEPTH: 5288.48413558127049 TLT: 380.013331224876424 INT_DEPTH: 5668.49227852060176 UISOP: 0.394840062057121697E-04 VISOP: -0.294498105455186980E-03 WISOP: -0.165747376575078886E-12 ADVT_ISOP: -0.860199603704449372E-11 ADVS_ISOP: -0.131831013135278591E-14 VNT_ISOP: -0.420522590709207566E-09 VNS_ISOP: -0.175203937254355744E-11 USUBM: -0.223914938013619860E-04 VSUBM: 0.535450214730620808E-04 WSUBM: -0.609703579421266287E-09 HLS_SUBM: 803609.332561907708 ADVT_SUBM: -0.148677300971733742E-12 ADVS_SUBM: 0.443711997328330310E-15 VNT_SUBM: 0.969494921929676170E-10 VNS_SUBM: 0.420886845806310047E-12 HDIFT: 0.327002185568250537E-10 HDIFS: 0.107634156173280931E-16 QSW_HBL: 160.961547874613075 KVMIX: 1.37815116544824612 TPOWER: 0.219889449752303064E-05 UVEL: 0.303269685836960623 VVEL: 0.660145053401272881E-03 TEMP: 3.51285635814292263 dTEMP_POS_2D: 0.836686540986398136E-01 dTEMP_NEG_2D: -0.664870162614842053E-01 SALT: 0.347214809426401802E-01 RHO: 1.03743401427572257 RESID_T: 0.000000000000000000E+00 RESID_S: 0.000000000000000000E+00 SU: 108778.131626642687 SV: 187.738938560435628 SSH: 0.519796936158101311E-04 SHF: 10.6941632223692693 SHF_QSW: 192.156752838923467 SFWF: 0.159494510951511273E-05 TAUX: 0.559279943175950978E-01 TAUY: -0.603680621744651300E-01 FW: 0.000000000000000000E+00 TFW_T: 0.000000000000000000E+00 TFW_S: 0.000000000000000000E+00 EVAP_F: -0.416860630934696514E-04 PREC_F: 0.358147408149054930E-04 SNOW_F: 0.884354108123226062E-06 MELT_F: 0.502150691080974315E-05 ROFF_F: 0.270756289564341628E-05 IOFF_F: 0.152761013009965020E-06 SALT_F: 0.144200750752861083E-07 SENH_F: -15.8298808806169458 LWUP_F: -388.574235908925459 LWDN_F: 329.698152620344217 MELTH_F: -2.15369844581461578 IFRAC: 0.743223832051985167E-01 IAGE: 227.370948832395413 WVEL: 0.746951221963145796E-06 UET: 0.123159635621713606E-06 VNT: 0.773854031634148311E-07 WTT: -0.156967549767863039E-07 UES: 0.145042457388705977E-08 VNS: -0.779871442612676714E-11 WTS: 0.145424249294012687E-12 ADVT: -0.467186494110359048E-10 ADVS: -0.162123519721722094E-14 PV: 0.679466711465426040E-13 Q: -0.977243370074976878E-08 PD: 1.02752289643507266 QSW_HTP: 140.824587851577718 QFLUX: 0.193671965493010995 HMXL: 5289.73582261821775 XMXL: 6638.37488802171629 TMXL: 3746.57081459724759 HBLT: 3650.16325070398943 XBLT: 6317.53797000471786 TBLT: 837.236878839747646 BSF: 0.000000000000000000E+00 convergence info from pcg_diag_bsf: iter = 0 rms_resid = 0.113977736623498971 iter = 100 rms_resid = 0.418627977795496629E-02 iter = 200 rms_resid = 0.857085287865918654E-03 iter = 300 rms_resid = 0.330395251297516308E-03 iter = 400 rms_resid = 0.240067018169618537E-03 iter = 500 rms_resid = 0.174444310488507353E-03 iter = 600 rms_resid = 0.470840098916426385E-04 iter = 700 rms_resid = 0.158452026332747140E-04 iter = 800 rms_resid = 0.176313428753654421E-05 iter = 900 rms_resid = 0.148873244691756003E-06 Local Time- and Space-Averages for Nino Regions: 00:00:00 0098-01-01 NINO_1_PLUS_2: 26.9952451328067120 NINO_3: 27.7572153020409367 NINO_3_POINT_4: 28.8912612984962180 NINO_4: 29.7578358085995163 tavg file written: ./b40.1850.track1.1deg.006.pop.h.0097-12.nc (time_manager) ocn date 0098-jan-02, 0.000000E+00 sec (time_manager) ocn date 0098-jan-03, 0.000000E+00 sec (time_manager) ocn date 0098-jan-04, 0.000000E+00 sec (time_manager) ocn date 0098-jan-05, 0.000000E+00 sec (time_manager) ocn date 0098-jan-06, 0.000000E+00 sec (time_manager) ocn date 0098-jan-07, 0.000000E+00 sec (time_manager) ocn date 0098-jan-08, 0.000000E+00 sec (time_manager) ocn date 0098-jan-09, 0.000000E+00 sec (time_manager) ocn date 0098-jan-10, 0.000000E+00 sec (time_manager) ocn date 0098-jan-11, 0.000000E+00 sec (time_manager) ocn date 0098-jan-12, 0.000000E+00 sec (time_manager) ocn date 0098-jan-13, 0.000000E+00 sec (time_manager) ocn date 0098-jan-14, 0.000000E+00 sec (time_manager) ocn date 0098-jan-15, 0.000000E+00 sec (time_manager) ocn date 0098-jan-16, 0.000000E+00 sec (time_manager) ocn date 0098-jan-17, 0.000000E+00 sec (time_manager) ocn date 0098-jan-18, 0.000000E+00 sec (time_manager) ocn date 0098-jan-19, 0.000000E+00 sec (time_manager) ocn date 0098-jan-20, 0.000000E+00 sec (time_manager) ocn date 0098-jan-21, 0.000000E+00 sec (time_manager) ocn date 0098-jan-22, 0.000000E+00 sec (time_manager) ocn date 0098-jan-23, 0.000000E+00 sec (time_manager) ocn date 0098-jan-24, 0.000000E+00 sec (time_manager) ocn date 0098-jan-25, 0.000000E+00 sec (time_manager) ocn date 0098-jan-26, 0.000000E+00 sec (time_manager) ocn date 0098-jan-27, 0.000000E+00 sec (time_manager) ocn date 0098-jan-28, 0.000000E+00 sec (time_manager) ocn date 0098-jan-29, 0.000000E+00 sec (time_manager) ocn date 0098-jan-30, 0.000000E+00 sec (time_manager) ocn date 0098-jan-31, 0.000000E+00 sec (time_manager) ocn date 0098-feb-01, 0.000000E+00 sec Step number : 885875 Date : 01 feb 0098 Hour : 0 Minute : 0 Second : 0 Time(years) : 97.084932 max. cfl number for zonal advection : 7.2563E-02 20 371 33 max. cfl number for meridional advection : 8.0672E-02 80 201 1 max. cfl number for vertical advection : 2.4445E-01 298 46 14 max. cfl number for total advection : 2.5342E-01 15 367 20 max. cfl number for horizontal tracer mixing : 6.0948E-01 175 380 6 max. cfl number for horiz. momentum mixing : 1.2672E-01 318 214 56 K.E. diagnostics: mean K.E. : 8.301101772846408E+00 K.E. change from horiz. visc. :-3.647516367328340E-06 K.E. change from vert. visc. : 9.687179878769380E-06 K.E. change from wind stress : 3.303232438816802E-05 advective K.E. balance :-1.495190901201380E-09 : 1.173379701987396E-09 P.E. verses pressure work : 6.756018796623544E-04 :-3.414017611118989E-06 surface-pressure contribution : 5.704308583543466E-07 :-6.431421025876794E-07 Tracer diagnostics: mean value of tracer 1 : 3.516380339271969E+00 abs change in tracer 1 : 1.592996867574393E-07 mean change in tracer 1 : 2.086457793852873E-09 mean change in tracer 1 from advection :-4.150503952565518E-24 mean change in tracer 1 from horiz. diff.: 7.369502756685933E-26 mean change in tracer 1 from vert. diff.:-1.316934865306154E-08 mean change in tracer 1 from sources : 1.517111578778707E-08 surface flux of tracer 1 : 0.000000000000000E+00 mean value of tracer 2 : 3.472149307299669E+01 abs change in tracer 2 : 1.428085082498946E-11 mean change in tracer 2 : 4.400003706651577E-14 mean change in tracer 2 from advection :-2.947801102674373E-27 mean change in tracer 2 from horiz. diff.: 3.274534916300879E-29 mean change in tracer 2 from vert. diff.: 1.205594697358051E-14 mean change in tracer 2 from sources : 5.944615718718172E-32 surface flux of tracer 2 : 0.000000000000000E+00 mean value of tracer 3 : 2.274547434575148E+02 abs change in tracer 3 : 2.763993536434205E-06 mean change in tracer 3 : 1.540831847912225E-08 mean change in tracer 3 from advection :-1.373439489758044E-22 mean change in tracer 3 from horiz. diff.:-8.018018999274296E-25 mean change in tracer 3 from vert. diff.: 7.689833566340580E-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: 5.163156382901486E-05 residual, scans : 6.567763083737627E-14 240 Timing information: Timer number 1 Time = 404.56 seconds HMIX_MOMENTUM_ANISO Timer number 2 Time = 359.30 seconds HMIX_TRACER_GM_NLOOP Timer number 3 Time = 2008.95 seconds HMIX_TRACER_GM Timer number 4 Time = 1048.91 seconds VMIX_COEFFICIENTS_KPP Timer number 5 Time = 55.94 seconds VMIX_EXPLICIT_TRACER Timer number 6 Time = 27.40 seconds VMIX_EXPLICIT_MOMENTUM Timer number 7 Time = 173.96 seconds VMIX_IMPLICIT_TRACER Timer number 8 Time = 42.15 seconds VMIX_IMPLICIT_MOMENTUM Timer number 9 Time = 6.14 seconds COMPUTE_COSZ Timer number 10 Time = 74.70 seconds ADVECTION_MOMENTUM Timer number 11 Time = 389.64 seconds ADVECTION_TRACER_UPWIND3 Timer number 12 Time = 26.12 seconds MOC Timer number 13 Time = 25.91 seconds TRACER_TRANSPORTS Timer number 14 Time = 459.54 seconds TAVG_WRITE_STD Timer number 15 Time = 36.17 seconds TAVG_WRITE_NONSTD Timer number 16 Time = 24.85 seconds TAVG_CCSM_DIAGS_BSF Timer number 17 Time = 26.12 seconds TAVG_CCSM_DIAGS_MOC Timer number 18 Time = 25.91 seconds TAVG_CCSM_DIAGS_TRANS Timer number 19 Time = 6023.66 seconds STEP Timer number 20 Time = 5106.24 seconds BAROCLINIC Timer number 21 Time = 692.21 seconds BAROTROPIC Timer number 22 Time = 122.50 seconds 3D-UPDATE Timer number 23 Time = 6604.72 seconds TOTAL Timer number 24 Time = 576.30 seconds OUTPUT Timer number 25 Time = 576.21 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.0097-01-01-00000 (diag_transport) file written: /ptmp/mai/b40.1850.track1.1deg.006/run/b40.1850.track1.1deg.006.pop.dt.0097-01-01-00000 AFTER CALL IN tracer_budgets (final): ===================================== volume_t (cm^3) = 0.132514028745E+25 SUM [volume*T] (C cm^3) = 0.465969261411E+25 SUM [volume*S] (ppt cm^3) = 0.460108492740E+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 = -.988235824536E-13 FW flux = 0.000000000000E+00 Imbalance = 0.988235824536E-13 Imbalance = -tendency + FW flux HEAT BUDGET FOR THE GIVEN TAVG INTERVAL (W/m^2): ------------------------------------------------ tendency = 0.441523885253E+01 SHF flux = 0.427228571842E+01 ice formation = 0.142953130048E+00 FW heat content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = -.406384167984E-08 Imbalance = -tendency + SHF flux + ice formation + FW heat content + free-srf non-consv. IMPLIED FW BUDGET FOR THE GIVEN TAVG INTERVAL (kg of freshwater/m^2/s): ----------------------------------------------------- tendency = 0.129389899453E-06 SFWF flux = 0.508396519330E-06 ice formation = -.379006242340E-06 FW salt content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = 0.377537334982E-12 Imbalance = -tendency + SFWF flux + ice formation + FW salt content + free-srf non-consv. Global Time Averages: 02-01-0098 00:00:00 KAPPA_ISOP: 3483968.07920194976 KAPPA_THIC: 3935243.85027105408 HOR_DIFF: 496535.760079216328 DIA_DEPTH: 5825.13078811101241 TLT: 402.437667186606291 INT_DEPTH: 6227.56271724277758 UISOP: 0.617483121769516125E-04 VISOP: -0.293669233538873553E-03 WISOP: -0.603733312514342160E-13 ADVT_ISOP: 0.217760842940330449E-10 ADVS_ISOP: -0.244786742751115503E-14 VNT_ISOP: -0.249778607255089957E-09 VNS_ISOP: -0.180433953627922894E-11 USUBM: -0.283245871818292400E-04 VSUBM: 0.929049465194480554E-04 WSUBM: -0.200366072008113648E-08 HLS_SUBM: 711119.115090349456 ADVT_SUBM: -0.294396188177241664E-11 ADVS_SUBM: 0.897286052601345506E-15 VNT_SUBM: 0.304596291399254463E-09 VNS_SUBM: 0.710848159629285734E-12 HDIFT: -0.666133582626812764E-11 HDIFS: 0.510411933103886662E-14 QSW_HBL: 163.163710932765071 KVMIX: 1.38748401966626034 TPOWER: 0.222022670288834319E-05 UVEL: 0.302458601136715133 VVEL: 0.472219862191844463E-03 TEMP: 3.51430209773309743 dTEMP_POS_2D: 0.906486217252225612E-01 dTEMP_NEG_2D: -0.694257853072086650E-01 SALT: 0.347214415330548143E-01 RHO: 1.03743383560900959 RESID_T: 0.000000000000000000E+00 RESID_S: 0.000000000000000000E+00 SU: 108484.918234625409 SV: 119.317217567737444 SSH: 0.514284130397080094E-04 SHF: 4.27228571841928151 SHF_QSW: 192.115527622129974 SFWF: 0.508396519330293985E-06 TAUX: 0.821069303773787479E-01 TAUY: -0.843679263858531647E-01 FW: 0.000000000000000000E+00 TFW_T: 0.000000000000000000E+00 TFW_S: 0.000000000000000000E+00 EVAP_F: -0.439760126240575073E-04 PREC_F: 0.379031295969512594E-04 SNOW_F: 0.939355080344554536E-06 MELT_F: 0.388579202789091106E-05 ROFF_F: 0.290306227135271620E-05 IOFF_F: 0.143362298541713680E-06 SALT_F: 0.121769964011105339E-07 SENH_F: -16.4684311151069238 LWUP_F: -391.852814427014664 LWDN_F: 332.892233444933424 MELTH_F: -2.06891684969600309 IFRAC: 0.676503329417909444E-01 IAGE: 227.429002082647798 WVEL: 0.719435438141012520E-06 UET: 0.824289693933460301E-07 VNT: 0.127594457652730724E-06 WTT: -0.125338486362298636E-07 UES: 0.145436253461210746E-08 VNS: -0.422519912856816687E-11 WTS: 0.629982760773767954E-12 ADVT: 0.245779708612708922E-10 ADVS: 0.920590139473310598E-14 PV: 0.118183674429973132E-12 Q: -0.991953389351661210E-08 PD: 1.02752272291157953 QSW_HTP: 140.480956165768106 QFLUX: 0.142953130048376870 HMXL: 5827.03518910475759 XMXL: 7013.37921792583347 TMXL: 4326.94031827389881 HBLT: 4157.72637886838675 XBLT: 6835.92037249552050 TBLT: 879.090314074132380 BSF: 0.000000000000000000E+00 convergence info from pcg_diag_bsf: iter = 0 rms_resid = 0.111400127102461305 iter = 100 rms_resid = 0.404606086125484064E-02 iter = 200 rms_resid = 0.850933122625872353E-03 iter = 300 rms_resid = 0.370210233783263142E-03 iter = 400 rms_resid = 0.252535738625291593E-03 iter = 500 rms_resid = 0.180122662029023379E-03 iter = 600 rms_resid = 0.480884992607296595E-04 iter = 700 rms_resid = 0.141495356699609008E-04 iter = 800 rms_resid = 0.173115455046667167E-05 iter = 900 rms_resid = 0.140801300980700538E-06 Local Time- and Space-Averages for Nino Regions: 00:00:00 0098-02-01 NINO_1_PLUS_2: 28.0118736638483519 NINO_3: 27.9494973632010577 NINO_3_POINT_4: 28.9911588309515871 NINO_4: 29.5463013553908560 tavg file written: ./b40.1850.track1.1deg.006.pop.h.0098-01.nc (time_manager) ocn date 0098-feb-02, 0.000000E+00 sec (time_manager) ocn date 0098-feb-03, 0.000000E+00 sec (time_manager) ocn date 0098-feb-04, 0.000000E+00 sec (time_manager) ocn date 0098-feb-05, 0.000000E+00 sec (time_manager) ocn date 0098-feb-06, 0.000000E+00 sec (time_manager) ocn date 0098-feb-07, 0.000000E+00 sec (time_manager) ocn date 0098-feb-08, 0.000000E+00 sec (time_manager) ocn date 0098-feb-09, 0.000000E+00 sec (time_manager) ocn date 0098-feb-10, 0.000000E+00 sec (time_manager) ocn date 0098-feb-11, 0.000000E+00 sec (time_manager) ocn date 0098-feb-12, 0.000000E+00 sec (time_manager) ocn date 0098-feb-13, 0.000000E+00 sec (time_manager) ocn date 0098-feb-14, 0.000000E+00 sec (time_manager) ocn date 0098-feb-15, 0.000000E+00 sec (time_manager) ocn date 0098-feb-16, 0.000000E+00 sec (time_manager) ocn date 0098-feb-17, 0.000000E+00 sec (time_manager) ocn date 0098-feb-18, 0.000000E+00 sec (time_manager) ocn date 0098-feb-19, 0.000000E+00 sec (time_manager) ocn date 0098-feb-20, 0.000000E+00 sec (time_manager) ocn date 0098-feb-21, 0.000000E+00 sec (time_manager) ocn date 0098-feb-22, 0.000000E+00 sec (time_manager) ocn date 0098-feb-23, 0.000000E+00 sec (time_manager) ocn date 0098-feb-24, 0.000000E+00 sec (time_manager) ocn date 0098-feb-25, 0.000000E+00 sec (time_manager) ocn date 0098-feb-26, 0.000000E+00 sec (time_manager) ocn date 0098-feb-27, 0.000000E+00 sec (time_manager) ocn date 0098-feb-28, 0.000000E+00 sec (time_manager) ocn date 0098-mar-01, 0.000000E+00 sec Step number : 886575 Date : 01 mar 0098 Hour : 0 Minute : 0 Second : 0 Time(years) : 97.161644 max. cfl number for zonal advection : 7.3679E-02 20 371 33 max. cfl number for meridional advection : 7.6318E-02 149 207 5 max. cfl number for vertical advection : 6.4390E-01 311 355 12 max. cfl number for total advection : 6.4919E-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. : 8.133572841188091E+00 K.E. change from horiz. visc. :-3.488278597448442E-06 K.E. change from vert. visc. : 6.019270115439648E-06 K.E. change from wind stress : 2.235798146616165E-05 advective K.E. balance :-1.095421195083219E-09 : 6.647794434258506E-10 P.E. verses pressure work : 6.751986433222053E-04 :-2.018095719644588E-06 surface-pressure contribution : 6.950285585524533E-07 :-7.577819337854137E-07 Tracer diagnostics: mean value of tracer 1 : 3.518431669280037E+00 abs change in tracer 1 : 1.513685173411729E-07 mean change in tracer 1 : 3.482359658266029E-09 mean change in tracer 1 from advection :-3.773185411423198E-24 mean change in tracer 1 from horiz. diff.:-2.019243755331946E-25 mean change in tracer 1 from vert. diff.:-1.201859044213194E-08 mean change in tracer 1 from sources : 1.533565861796654E-08 surface flux of tracer 1 : 0.000000000000000E+00 mean value of tracer 2 : 3.472154578785926E+01 abs change in tracer 2 : 1.396304596286421E-11 mean change in tracer 2 : 8.632230235793055E-14 mean change in tracer 2 from advection :-4.951384664648362E-28 mean change in tracer 2 from horiz. diff.: 3.022647615046965E-29 mean change in tracer 2 from vert. diff.: 2.397674901367026E-14 mean change in tracer 2 from sources :-7.546031246306997E-32 surface flux of tracer 2 : 0.000000000000000E+00 mean value of tracer 3 : 2.275033600179418E+02 abs change in tracer 3 : 2.645787326674237E-06 mean change in tracer 3 : 2.229510198913628E-08 mean change in tracer 3 from advection :-1.037625988141379E-22 mean change in tracer 3 from horiz. diff.:-1.509274164569279E-24 mean change in tracer 3 from vert. diff.: 7.251950763658895E-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: 5.143386942192614E-05 residual, scans : 8.106200530173438E-14 240 Timing information: Timer number 1 Time = 433.29 seconds HMIX_MOMENTUM_ANISO Timer number 2 Time = 384.53 seconds HMIX_TRACER_GM_NLOOP Timer number 3 Time = 2151.65 seconds HMIX_TRACER_GM Timer number 4 Time = 1121.89 seconds VMIX_COEFFICIENTS_KPP Timer number 5 Time = 59.90 seconds VMIX_EXPLICIT_TRACER Timer number 6 Time = 29.35 seconds VMIX_EXPLICIT_MOMENTUM Timer number 7 Time = 186.27 seconds VMIX_IMPLICIT_TRACER Timer number 8 Time = 45.15 seconds VMIX_IMPLICIT_MOMENTUM Timer number 9 Time = 6.58 seconds COMPUTE_COSZ Timer number 10 Time = 80.02 seconds ADVECTION_MOMENTUM Timer number 11 Time = 417.21 seconds ADVECTION_TRACER_UPWIND3 Timer number 12 Time = 28.30 seconds MOC Timer number 13 Time = 28.07 seconds TRACER_TRANSPORTS Timer number 14 Time = 499.17 seconds TAVG_WRITE_STD Timer number 15 Time = 39.02 seconds TAVG_WRITE_NONSTD Timer number 16 Time = 26.89 seconds TAVG_CCSM_DIAGS_BSF Timer number 17 Time = 28.30 seconds TAVG_CCSM_DIAGS_MOC Timer number 18 Time = 28.07 seconds TAVG_CCSM_DIAGS_TRANS Timer number 19 Time = 6449.25 seconds STEP Timer number 20 Time = 5466.48 seconds BAROCLINIC Timer number 21 Time = 740.83 seconds BAROTROPIC Timer number 22 Time = 131.18 seconds 3D-UPDATE Timer number 23 Time = 7079.79 seconds TOTAL Timer number 24 Time = 625.44 seconds OUTPUT Timer number 25 Time = 625.35 seconds OUTPUT TAVG Timer number 26 Time = 0.07 seconds OUTPUT REST ------------------------------------------------------------------------ (diag_print) file written: /ptmp/mai/b40.1850.track1.1deg.006/run/b40.1850.track1.1deg.006.pop.dd.0097-01-01-00000 (diag_transport) file written: /ptmp/mai/b40.1850.track1.1deg.006/run/b40.1850.track1.1deg.006.pop.dt.0097-01-01-00000 AFTER CALL IN tracer_budgets (final): ===================================== volume_t (cm^3) = 0.132514028745E+25 SUM [volume*T] (C cm^3) = 0.466240776953E+25 SUM [volume*S] (ppt cm^3) = 0.460109190987E+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 = -.817285735259E-13 FW flux = 0.000000000000E+00 Imbalance = 0.817285735259E-13 Imbalance = -tendency + FW flux HEAT BUDGET FOR THE GIVEN TAVG INTERVAL (W/m^2): ------------------------------------------------ tendency = 0.127414818070E+02 SHF flux = 0.125826468806E+02 ice formation = 0.158834909714E+00 FW heat content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = -.166967854265E-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 = -.230320035877E-05 SFWF flux = -.188208743766E-05 ice formation = -.421113005798E-06 FW salt content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = -.846855242389E-13 Imbalance = -tendency + SFWF flux + ice formation + FW salt content + free-srf non-consv. Global Time Averages: 03-01-0098 00:00:00 KAPPA_ISOP: 3660037.19087404944 KAPPA_THIC: 4183612.81208515260 HOR_DIFF: 568668.453408580506 DIA_DEPTH: 6681.39783772940336 TLT: 454.476977022024414 INT_DEPTH: 7135.86980296158890 UISOP: 0.608194496800633155E-04 VISOP: -0.279490477088544800E-03 WISOP: 0.151053116523221870E-12 ADVT_ISOP: 0.604563868758995844E-11 ADVS_ISOP: 0.258008460835723569E-14 VNT_ISOP: -0.128933457427847475E-09 VNS_ISOP: -0.173038515442345424E-11 USUBM: -0.279415367906088455E-04 VSUBM: 0.115252261632501864E-03 WSUBM: -0.299069436815833072E-08 HLS_SUBM: 721361.565004501259 ADVT_SUBM: -0.148305436094679808E-11 ADVS_SUBM: -0.242996650318784624E-15 VNT_SUBM: 0.601495110640133439E-09 VNS_SUBM: 0.875226877724182034E-12 HDIFT: -0.648009743849821018E-10 HDIFS: 0.500386385008462044E-14 QSW_HBL: 162.999257213292367 KVMIX: 1.38954474188960053 TPOWER: 0.223095315463940189E-05 UVEL: 0.312577509623123806 VVEL: 0.155716930292180446E-03 TEMP: 3.51566735752871606 dTEMP_POS_2D: 0.836132238130238570E-01 dTEMP_NEG_2D: -0.621972749538203945E-01 SALT: 0.347214720461029719E-01 RHO: 1.03743352129603594 RESID_T: 0.000000000000000000E+00 RESID_S: 0.000000000000000000E+00 SU: 112115.017264128968 SV: 5.99658312081268630 SSH: 0.515901092159033490E-04 SHF: 12.5826468806116463 SHF_QSW: 192.139697684190054 SFWF: -0.188208743766094850E-05 TAUX: 0.152862769291910144 TAUY: -0.759999045180403121E-01 FW: 0.000000000000000000E+00 TFW_T: 0.000000000000000000E+00 TFW_S: 0.000000000000000000E+00 EVAP_F: -0.415637585649880335E-04 PREC_F: 0.359109604172649702E-04 SNOW_F: 0.983061518158132916E-06 MELT_F: 0.589518191194265792E-06 ROFF_F: 0.296683151094356873E-05 IOFF_F: 0.218502271009258901E-06 SALT_F: 0.139962104425483923E-09 SENH_F: -14.7728089178748476 LWUP_F: -393.889441654389373 LWDN_F: 334.651506692301609 MELTH_F: -1.19439320484973543 IFRAC: 0.629607250229317211E-01 IAGE: 227.477886585199940 WVEL: 0.701467580772970825E-06 UET: 0.435632371161650354E-08 VNT: 0.115219855299237959E-06 WTT: -0.141686495273608766E-07 UES: 0.151641885323315771E-08 VNS: -0.223895035664377419E-11 WTS: 0.119934877746596963E-11 ADVT: -0.103506368100882970E-09 ADVS: 0.290259656885570884E-14 PV: 0.142150573484870790E-12 Q: -0.998560836122013519E-08 PD: 1.02752238948965058 QSW_HTP: 140.475924752895992 QFLUX: 0.158834909713711919 HMXL: 6683.91392602967790 XMXL: 7706.15100015453118 TMXL: 4881.71422740633352 HBLT: 4246.74737485274545 XBLT: 7235.83839817427088 TBLT: 890.669403109082168 BSF: 0.000000000000000000E+00 convergence info from pcg_diag_bsf: iter = 0 rms_resid = 0.107822673625347670 iter = 100 rms_resid = 0.413686803063873128E-02 iter = 200 rms_resid = 0.831948746543949703E-03 iter = 300 rms_resid = 0.376360819310628139E-03 iter = 400 rms_resid = 0.267011511935931847E-03 iter = 500 rms_resid = 0.180099567054337783E-03 iter = 600 rms_resid = 0.480317750123246425E-04 iter = 700 rms_resid = 0.134217238858355810E-04 iter = 800 rms_resid = 0.176913206171653998E-05 iter = 900 rms_resid = 0.140525045441316686E-06 Local Time- and Space-Averages for Nino Regions: 00:00:00 0098-03-01 NINO_1_PLUS_2: 28.7550478404793708 NINO_3: 28.1772478248804710 NINO_3_POINT_4: 28.9096241315581217 NINO_4: 29.4421359052376950 tavg file written: ./b40.1850.track1.1deg.006.pop.h.0098-02.nc (time_manager) ocn date 0098-mar-02, 0.000000E+00 sec (time_manager) ocn date 0098-mar-03, 0.000000E+00 sec (time_manager) ocn date 0098-mar-04, 0.000000E+00 sec (time_manager) ocn date 0098-mar-05, 0.000000E+00 sec (time_manager) ocn date 0098-mar-06, 0.000000E+00 sec (time_manager) ocn date 0098-mar-07, 0.000000E+00 sec (time_manager) ocn date 0098-mar-08, 0.000000E+00 sec (time_manager) ocn date 0098-mar-09, 0.000000E+00 sec (time_manager) ocn date 0098-mar-10, 0.000000E+00 sec (time_manager) ocn date 0098-mar-11, 0.000000E+00 sec (time_manager) ocn date 0098-mar-12, 0.000000E+00 sec (time_manager) ocn date 0098-mar-13, 0.000000E+00 sec (time_manager) ocn date 0098-mar-14, 0.000000E+00 sec (time_manager) ocn date 0098-mar-15, 0.000000E+00 sec (time_manager) ocn date 0098-mar-16, 0.000000E+00 sec (time_manager) ocn date 0098-mar-17, 0.000000E+00 sec (time_manager) ocn date 0098-mar-18, 0.000000E+00 sec (time_manager) ocn date 0098-mar-19, 0.000000E+00 sec (time_manager) ocn date 0098-mar-20, 0.000000E+00 sec (time_manager) ocn date 0098-mar-21, 0.000000E+00 sec (time_manager) ocn date 0098-mar-22, 0.000000E+00 sec (time_manager) ocn date 0098-mar-23, 0.000000E+00 sec (time_manager) ocn date 0098-mar-24, 0.000000E+00 sec (time_manager) ocn date 0098-mar-25, 0.000000E+00 sec (time_manager) ocn date 0098-mar-26, 0.000000E+00 sec (time_manager) ocn date 0098-mar-27, 0.000000E+00 sec (time_manager) ocn date 0098-mar-28, 0.000000E+00 sec (time_manager) ocn date 0098-mar-29, 0.000000E+00 sec (time_manager) ocn date 0098-mar-30, 0.000000E+00 sec (time_manager) ocn date 0098-mar-31, 0.000000E+00 sec (time_manager) ocn date 0098-apr-01, 0.000000E+00 sec Step number : 887350 Date : 01 apr 0098 Hour : 0 Minute : 0 Second : 0 Time(years) : 97.246575 max. cfl number for zonal advection : 7.2522E-02 20 371 33 max. cfl number for meridional advection : 7.2791E-02 200 199 1 max. cfl number for vertical advection : 3.1872E-01 298 46 14 max. cfl number for total advection : 3.2875E-01 298 46 14 max. cfl number for horizontal tracer mixing : 6.2792E-01 87 383 2 max. cfl number for horiz. momentum mixing : 1.2672E-01 318 214 56 K.E. diagnostics: mean K.E. : 8.399131533920604E+00 K.E. change from horiz. visc. :-3.604824657088056E-06 K.E. change from vert. visc. : 8.359598878701908E-06 K.E. change from wind stress : 2.608391236526423E-05 advective K.E. balance :-6.863888912211194E-10 : 1.667092303360387E-10 P.E. verses pressure work : 6.364260262947574E-04 :-5.607312818961107E-06 surface-pressure contribution :-3.910814216984073E-07 : 3.495435315605729E-07 Tracer diagnostics: mean value of tracer 1 : 3.519321005192210E+00 abs change in tracer 1 : 1.465138356158145E-07 mean change in tracer 1 : 3.004100984934664E-09 mean change in tracer 1 from advection : 2.075251976282759E-24 mean change in tracer 1 from horiz. diff.: 5.895602205348747E-27 mean change in tracer 1 from vert. diff.:-1.192647714238882E-08 mean change in tracer 1 from sources : 1.471888749309130E-08 surface flux of tracer 1 : 0.000000000000000E+00 mean value of tracer 2 : 3.472162736623238E+01 abs change in tracer 2 : 1.373094820659535E-11 mean change in tracer 2 : 8.293373325134037E-14 mean change in tracer 2 from advection : 8.060393640125240E-28 mean change in tracer 2 from horiz. diff.:-3.598390017913053E-30 mean change in tracer 2 from vert. diff.: 3.087091821996936E-15 mean change in tracer 2 from sources :-4.276733297521791E-32 surface flux of tracer 2 : 0.000000000000000E+00 mean value of tracer 3 : 2.275653176808571E+02 abs change in tracer 3 : 2.551053639266339E-06 mean change in tracer 3 : 2.403435071082259E-08 mean change in tracer 3 from advection :-1.509274164569279E-23 mean change in tracer 3 from horiz. diff.:-2.971383511495768E-24 mean change in tracer 3 from vert. diff.: 2.036572643706104E-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: 5.205382377954820E-05 residual, scans : 6.434052589399211E-14 250 Timing information: Timer number 1 Time = 465.19 seconds HMIX_MOMENTUM_ANISO Timer number 2 Time = 412.70 seconds HMIX_TRACER_GM_NLOOP Timer number 3 Time = 2310.39 seconds HMIX_TRACER_GM Timer number 4 Time = 1202.49 seconds VMIX_COEFFICIENTS_KPP Timer number 5 Time = 64.28 seconds VMIX_EXPLICIT_TRACER Timer number 6 Time = 31.52 seconds VMIX_EXPLICIT_MOMENTUM Timer number 7 Time = 199.89 seconds VMIX_IMPLICIT_TRACER Timer number 8 Time = 48.47 seconds VMIX_IMPLICIT_MOMENTUM Timer number 9 Time = 7.06 seconds COMPUTE_COSZ Timer number 10 Time = 85.90 seconds ADVECTION_MOMENTUM Timer number 11 Time = 447.71 seconds ADVECTION_TRACER_UPWIND3 Timer number 12 Time = 30.47 seconds MOC Timer number 13 Time = 30.23 seconds TRACER_TRANSPORTS Timer number 14 Time = 538.08 seconds TAVG_WRITE_STD Timer number 15 Time = 42.12 seconds TAVG_WRITE_NONSTD Timer number 16 Time = 28.94 seconds TAVG_CCSM_DIAGS_BSF Timer number 17 Time = 30.47 seconds TAVG_CCSM_DIAGS_MOC Timer number 18 Time = 30.23 seconds TAVG_CCSM_DIAGS_TRANS Timer number 19 Time = 6918.95 seconds STEP Timer number 20 Time = 5864.08 seconds BAROCLINIC Timer number 21 Time = 794.43 seconds BAROTROPIC Timer number 22 Time = 140.67 seconds 3D-UPDATE Timer number 23 Time = 7598.62 seconds TOTAL Timer number 24 Time = 674.19 seconds OUTPUT Timer number 25 Time = 674.10 seconds OUTPUT TAVG Timer number 26 Time = 0.07 seconds OUTPUT REST ------------------------------------------------------------------------ (diag_print) file written: /ptmp/mai/b40.1850.track1.1deg.006/run/b40.1850.track1.1deg.006.pop.dd.0097-01-01-00000 (diag_transport) file written: /ptmp/mai/b40.1850.track1.1deg.006/run/b40.1850.track1.1deg.006.pop.dt.0097-01-01-00000 AFTER CALL IN tracer_budgets (final): ===================================== volume_t (cm^3) = 0.132514028745E+25 SUM [volume*T] (C cm^3) = 0.466358761718E+25 SUM [volume*S] (ppt cm^3) = 0.460110272479E+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 = 0.231476411470E-12 FW flux = 0.000000000000E+00 Imbalance = -.231476411470E-12 Imbalance = -tendency + FW flux HEAT BUDGET FOR THE GIVEN TAVG INTERVAL (W/m^2): ------------------------------------------------ tendency = 0.500089244887E+01 SHF flux = 0.473107211329E+01 ice formation = 0.269820484462E+00 FW heat content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = 0.148879600481E-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 = -.322212904952E-05 SFWF flux = -.250676365606E-05 ice formation = -.715364874402E-06 FW salt content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = 0.519062918008E-12 Imbalance = -tendency + SFWF flux + ice formation + FW salt content + free-srf non-consv. Global Time Averages: 04-01-0098 00:00:00 KAPPA_ISOP: 3867296.72388612293 KAPPA_THIC: 4399337.67994764447 HOR_DIFF: 577778.989140227321 DIA_DEPTH: 6772.39847932697285 TLT: 496.521615722880540 INT_DEPTH: 7268.91619523916415 UISOP: 0.433838012412041978E-04 VISOP: -0.214205326325956572E-03 WISOP: -0.297377425194703512E-12 ADVT_ISOP: -0.410142623619952586E-10 ADVS_ISOP: 0.746202800851368809E-14 VNT_ISOP: 0.336642062009893805E-09 VNS_ISOP: -0.125123341314822633E-11 USUBM: 0.244473572470799679E-05 VSUBM: 0.102398142967285923E-03 WSUBM: -0.170454600234941384E-08 HLS_SUBM: 743152.555794584216 ADVT_SUBM: -0.140916868132290336E-11 ADVS_SUBM: -0.277566894685767424E-15 VNT_SUBM: 0.807215169393799469E-09 VNS_SUBM: 0.800773465209866415E-12 HDIFT: -0.413418507232939505E-10 HDIFS: -0.151739394638652582E-13 QSW_HBL: 157.067497185502361 KVMIX: 1.38505147266989770 TPOWER: 0.223784220597925234E-05 UVEL: 0.303148566469772285 VVEL: 0.105373250733755189E-02 TEMP: 3.51730001580902796 dTEMP_POS_2D: 0.862981945778786425E-01 dTEMP_NEG_2D: -0.670301472474039844E-01 SALT: 0.347215459547084854E-01 RHO: 1.03743320497264180 RESID_T: 0.000000000000000000E+00 RESID_S: 0.000000000000000000E+00 SU: 108733.194909052807 SV: 324.489317215073697 SSH: 0.518734082013838779E-04 SHF: 4.73107211328983901 SHF_QSW: 183.586893655889867 SFWF: -0.250676365605911121E-05 TAUX: 0.458019828052101535E-01 TAUY: -0.794386773053129547E-01 FW: 0.000000000000000000E+00 TFW_T: 0.000000000000000000E+00 TFW_S: 0.000000000000000000E+00 EVAP_F: -0.418546736245086815E-04 PREC_F: 0.368011427039033567E-04 SNOW_F: 0.114955404355831226E-05 MELT_F: -0.129766045701790554E-05 ROFF_F: 0.334996195813861479E-05 IOFF_F: 0.280240537542964334E-06 SALT_F: -0.743326147098184577E-08 SENH_F: -14.5302521129650337 LWUP_F: -393.142771433190717 LWDN_F: 334.702923862921352 MELTH_F: -0.730063583773927105 IFRAC: 0.662135690783451913E-01 IAGE: 227.533629387152786 WVEL: 0.678939712119047335E-06 UET: -0.124783449279585476E-07 VNT: 0.124675459237323776E-06 WTT: -0.130065807979151630E-07 UES: 0.151848804471257611E-08 VNS: 0.129980914610688253E-11 WTS: 0.145832195847319644E-11 ADVT: -0.345200868927397800E-10 ADVS: -0.100356204861757320E-13 PV: 0.140543669341823593E-12 Q: -0.100172663367839941E-07 PD: 1.02752206877852692 QSW_HTP: 134.414603788598868 QFLUX: 0.269820484462423515 HMXL: 6774.45856855094280 XMXL: 8450.69143704852650 TMXL: 4017.34956388633373 HBLT: 4053.36156907817713 XBLT: 7517.22477550152507 TBLT: 872.399563319062395 BSF: 0.000000000000000000E+00 convergence info from pcg_diag_bsf: iter = 0 rms_resid = 0.105951629076160264 iter = 100 rms_resid = 0.408107634221383398E-02 iter = 200 rms_resid = 0.830557252247257692E-03 iter = 300 rms_resid = 0.335201572616265851E-03 iter = 400 rms_resid = 0.254312718680067688E-03 iter = 500 rms_resid = 0.176988224929366033E-03 iter = 600 rms_resid = 0.477382315160758782E-04 iter = 700 rms_resid = 0.145622157849980367E-04 iter = 800 rms_resid = 0.161685269888646834E-05 iter = 900 rms_resid = 0.142395247161411149E-06 Local Time- and Space-Averages for Nino Regions: 00:00:00 0098-04-01 NINO_1_PLUS_2: 28.8110671688027722 NINO_3: 28.4444094496516371 NINO_3_POINT_4: 29.0278365939911964 NINO_4: 29.4864315833910631 tavg file written: ./b40.1850.track1.1deg.006.pop.h.0098-03.nc (time_manager) ocn date 0098-apr-02, 0.000000E+00 sec (time_manager) ocn date 0098-apr-03, 0.000000E+00 sec (time_manager) ocn date 0098-apr-04, 0.000000E+00 sec (time_manager) ocn date 0098-apr-05, 0.000000E+00 sec (time_manager) ocn date 0098-apr-06, 0.000000E+00 sec (time_manager) ocn date 0098-apr-07, 0.000000E+00 sec (time_manager) ocn date 0098-apr-08, 0.000000E+00 sec (time_manager) ocn date 0098-apr-09, 0.000000E+00 sec (time_manager) ocn date 0098-apr-10, 0.000000E+00 sec (time_manager) ocn date 0098-apr-11, 0.000000E+00 sec (time_manager) ocn date 0098-apr-12, 0.000000E+00 sec (time_manager) ocn date 0098-apr-13, 0.000000E+00 sec (time_manager) ocn date 0098-apr-14, 0.000000E+00 sec (time_manager) ocn date 0098-apr-15, 0.000000E+00 sec (time_manager) ocn date 0098-apr-16, 0.000000E+00 sec (time_manager) ocn date 0098-apr-17, 0.000000E+00 sec (time_manager) ocn date 0098-apr-18, 0.000000E+00 sec (time_manager) ocn date 0098-apr-19, 0.000000E+00 sec (time_manager) ocn date 0098-apr-20, 0.000000E+00 sec (time_manager) ocn date 0098-apr-21, 0.000000E+00 sec (time_manager) ocn date 0098-apr-22, 0.000000E+00 sec (time_manager) ocn date 0098-apr-23, 0.000000E+00 sec (time_manager) ocn date 0098-apr-24, 0.000000E+00 sec (time_manager) ocn date 0098-apr-25, 0.000000E+00 sec (time_manager) ocn date 0098-apr-26, 0.000000E+00 sec (time_manager) ocn date 0098-apr-27, 0.000000E+00 sec (time_manager) ocn date 0098-apr-28, 0.000000E+00 sec (time_manager) ocn date 0098-apr-29, 0.000000E+00 sec (time_manager) ocn date 0098-apr-30, 0.000000E+00 sec (time_manager) ocn date 0098-may-01, 0.000000E+00 sec Step number : 888100 Date : 01 may 0098 Hour : 0 Minute : 0 Second : 0 Time(years) : 97.328767 max. cfl number for zonal advection : 7.7514E-02 20 371 33 max. cfl number for meridional advection : 7.4888E-02 205 190 9 max. cfl number for vertical advection : 2.2703E-01 15 367 20 max. cfl number for total advection : 2.4402E-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. : 8.986271697391174E+00 K.E. change from horiz. visc. :-3.700527066873930E-06 K.E. change from vert. visc. : 8.710443559273373E-06 K.E. change from wind stress : 2.629047828062207E-05 advective K.E. balance : 3.884951592501705E-10 :-9.700751977870668E-10 P.E. verses pressure work : 6.600960668013111E-04 :-5.229618957021377E-06 surface-pressure contribution :-8.784918798651925E-07 : 8.044342993186202E-07 Tracer diagnostics: mean value of tracer 1 : 3.518545931811258E+00 abs change in tracer 1 : 1.541162207575818E-07 mean change in tracer 1 : 2.584195919241840E-09 mean change in tracer 1 from advection : 1.167329236659052E-24 mean change in tracer 1 from horiz. diff.:-1.768680661604624E-25 mean change in tracer 1 from vert. diff.:-1.139395950829636E-08 mean change in tracer 1 from sources : 1.380103505258455E-08 surface flux of tracer 1 : 0.000000000000000E+00 mean value of tracer 2 : 3.472169434938881E+01 abs change in tracer 2 : 1.472118940260726E-11 mean change in tracer 2 : 8.184316183377774E-14 mean change in tracer 2 from advection : 4.605939222928708E-28 mean change in tracer 2 from horiz. diff.: 1.871162809314788E-29 mean change in tracer 2 from vert. diff.: 1.503592154172016E-14 mean change in tracer 2 from sources : 1.798656981683637E-31 surface flux of tracer 2 : 0.000000000000000E+00 mean value of tracer 3 : 2.276249004619380E+02 abs change in tracer 3 : 2.782800623868859E-06 mean change in tracer 3 : 2.281225039817923E-08 mean change in tracer 3 from advection :-5.433386992449405E-23 mean change in tracer 3 from horiz. diff.: 1.273450076355329E-24 mean change in tracer 3 from vert. diff.: 3.114203747934531E-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: 5.188744756772085E-05 residual, scans : 8.688082954276923E-14 230 Timing information: Timer number 1 Time = 495.94 seconds HMIX_MOMENTUM_ANISO Timer number 2 Time = 439.97 seconds HMIX_TRACER_GM_NLOOP Timer number 3 Time = 2463.81 seconds HMIX_TRACER_GM Timer number 4 Time = 1281.33 seconds VMIX_COEFFICIENTS_KPP Timer number 5 Time = 68.52 seconds VMIX_EXPLICIT_TRACER Timer number 6 Time = 33.59 seconds VMIX_EXPLICIT_MOMENTUM Timer number 7 Time = 213.06 seconds VMIX_IMPLICIT_TRACER Timer number 8 Time = 51.55 seconds VMIX_IMPLICIT_MOMENTUM Timer number 9 Time = 7.53 seconds COMPUTE_COSZ Timer number 10 Time = 91.59 seconds ADVECTION_MOMENTUM Timer number 11 Time = 477.24 seconds ADVECTION_TRACER_UPWIND3 Timer number 12 Time = 32.64 seconds MOC Timer number 13 Time = 32.38 seconds TRACER_TRANSPORTS Timer number 14 Time = 576.22 seconds TAVG_WRITE_STD Timer number 15 Time = 45.26 seconds TAVG_WRITE_NONSTD Timer number 16 Time = 30.97 seconds TAVG_CCSM_DIAGS_BSF Timer number 17 Time = 32.64 seconds TAVG_CCSM_DIAGS_MOC Timer number 18 Time = 32.38 seconds TAVG_CCSM_DIAGS_TRANS Timer number 19 Time = 7374.49 seconds STEP Timer number 20 Time = 6250.31 seconds BAROCLINIC Timer number 21 Time = 846.74 seconds BAROTROPIC Timer number 22 Time = 149.96 seconds 3D-UPDATE Timer number 23 Time = 8102.50 seconds TOTAL Timer number 24 Time = 722.18 seconds OUTPUT Timer number 25 Time = 722.08 seconds OUTPUT TAVG Timer number 26 Time = 0.08 seconds OUTPUT REST ------------------------------------------------------------------------ (diag_print) file written: /ptmp/mai/b40.1850.track1.1deg.006/run/b40.1850.track1.1deg.006.pop.dd.0097-01-01-00000 (diag_transport) file written: /ptmp/mai/b40.1850.track1.1deg.006/run/b40.1850.track1.1deg.006.pop.dt.0097-01-01-00000 AFTER CALL IN tracer_budgets (final): ===================================== volume_t (cm^3) = 0.132514028745E+25 SUM [volume*T] (C cm^3) = 0.466256136939E+25 SUM [volume*S] (ppt cm^3) = 0.460111159840E+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 = -.641784377372E-13 FW flux = 0.000000000000E+00 Imbalance = 0.641784377372E-13 Imbalance = -tendency + FW flux HEAT BUDGET FOR THE GIVEN TAVG INTERVAL (W/m^2): ------------------------------------------------ tendency = -.449484021787E+01 SHF flux = -.477008652189E+01 ice formation = 0.275246289638E+00 FW heat content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = -.143864565816E-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 = -.273186993622E-05 SFWF flux = -.200211970084E-05 ice formation = -.729750107033E-06 FW salt content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = 0.128353012774E-12 Imbalance = -tendency + SFWF flux + ice formation + FW salt content + free-srf non-consv. Global Time Averages: 05-01-0098 00:00:00 KAPPA_ISOP: 3783520.21568598226 KAPPA_THIC: 4267638.92052626796 HOR_DIFF: 530239.827824761742 DIA_DEPTH: 6218.60828123749070 TLT: 440.916815323643505 INT_DEPTH: 6659.52700988572906 UISOP: 0.670472043169097556E-04 VISOP: -0.221760382938373981E-03 WISOP: 0.190733662682023361E-12 ADVT_ISOP: -0.987363988245025609E-12 ADVS_ISOP: 0.645009355892356124E-15 VNT_ISOP: 0.244036520136727293E-09 VNS_ISOP: -0.128334504411847135E-11 USUBM: -0.639376885457408714E-05 VSUBM: 0.326900744155582970E-04 WSUBM: -0.922900659252983354E-09 HLS_SUBM: 758295.341268649558 ADVT_SUBM: -0.144411570255834508E-11 ADVS_SUBM: -0.145813651412951354E-15 VNT_SUBM: 0.369009615429194750E-09 VNS_SUBM: 0.258720496685456557E-12 HDIFT: -0.577212095202277704E-10 HDIFS: -0.888053738584778666E-14 QSW_HBL: 146.999148006803722 KVMIX: 1.37866390760404789 TPOWER: 0.223253919914476112E-05 UVEL: 0.312435716993567314 VVEL: 0.152155460837049834E-02 TEMP: 3.51735533935410860 dTEMP_POS_2D: 0.893487952218802450E-01 dTEMP_NEG_2D: -0.720670973675764520E-01 SALT: 0.347216326558688407E-01 RHO: 1.03743316499217064 RESID_T: 0.000000000000000000E+00 RESID_S: 0.000000000000000000E+00 SU: 112063.364654232530 SV: 494.194772515729767 SSH: 0.518528314061052141E-04 SHF: -4.77008652189301863 SHF_QSW: 171.564645344770014 SFWF: -0.200211970083587769E-05 TAUX: 0.960429235645204049E-01 TAUY: -0.394221385803263935E-01 FW: 0.000000000000000000E+00 TFW_T: 0.000000000000000000E+00 TFW_S: 0.000000000000000000E+00 EVAP_F: -0.414119022969631795E-04 PREC_F: 0.367980136218100693E-04 SNOW_F: 0.106456490853043375E-05 MELT_F: -0.177174559931250671E-05 ROFF_F: 0.370322265873851892E-05 IOFF_F: 0.390258046413614454E-06 SALT_F: -0.100609078377913166E-07 SENH_F: -13.6397516545312651 LWUP_F: -389.757534497050528 LWDN_F: 331.788346196171062 MELTH_F: -0.669148219492419205 IFRAC: 0.753077661963903883E-01 IAGE: 227.595236773155193 WVEL: 0.666592056232776918E-06 UET: 0.396052900823863910E-07 VNT: 0.112268185990972690E-06 WTT: -0.173399663168892473E-07 UES: 0.156642538705215564E-08 VNS: 0.232077898795262486E-11 WTS: 0.758939316250728109E-12 ADVT: 0.585658564913243587E-11 ADVS: -0.922258798987521188E-14 PV: 0.114990096175580879E-12 Q: -0.995527828077842180E-08 PD: 1.02752201756755301 QSW_HTP: 125.983417742360871 QFLUX: 0.275246289637533503 HMXL: 6219.52450138645963 XMXL: 8347.31039843246617 TMXL: 4120.82460866863039 HBLT: 4066.77258853090916 XBLT: 7189.68481259759483 TBLT: 931.958546338729434 BSF: 0.000000000000000000E+00 convergence info from pcg_diag_bsf: iter = 0 rms_resid = 0.103852855439774072 iter = 100 rms_resid = 0.422017742355559975E-02 iter = 200 rms_resid = 0.885576145510798187E-03 iter = 300 rms_resid = 0.353523824578051520E-03 iter = 400 rms_resid = 0.249850644730221225E-03 iter = 500 rms_resid = 0.189624896972424205E-03 iter = 600 rms_resid = 0.508050315619845109E-04 iter = 700 rms_resid = 0.156119565948673512E-04 iter = 800 rms_resid = 0.181090534112737459E-05 iter = 900 rms_resid = 0.149998259845995257E-06 Local Time- and Space-Averages for Nino Regions: 00:00:00 0098-05-01 NINO_1_PLUS_2: 28.2197619700156359 NINO_3: 28.4709758813832288 NINO_3_POINT_4: 29.1588257010642522 NINO_4: 29.5358652478184140 tavg file written: ./b40.1850.track1.1deg.006.pop.h.0098-04.nc (time_manager) ocn date 0098-may-02, 0.000000E+00 sec (time_manager) ocn date 0098-may-03, 0.000000E+00 sec (time_manager) ocn date 0098-may-04, 0.000000E+00 sec (time_manager) ocn date 0098-may-05, 0.000000E+00 sec (time_manager) ocn date 0098-may-06, 0.000000E+00 sec (time_manager) ocn date 0098-may-07, 0.000000E+00 sec (time_manager) ocn date 0098-may-08, 0.000000E+00 sec (time_manager) ocn date 0098-may-09, 0.000000E+00 sec (time_manager) ocn date 0098-may-10, 0.000000E+00 sec (time_manager) ocn date 0098-may-11, 0.000000E+00 sec (time_manager) ocn date 0098-may-12, 0.000000E+00 sec (time_manager) ocn date 0098-may-13, 0.000000E+00 sec (time_manager) ocn date 0098-may-14, 0.000000E+00 sec (time_manager) ocn date 0098-may-15, 0.000000E+00 sec (time_manager) ocn date 0098-may-16, 0.000000E+00 sec (time_manager) ocn date 0098-may-17, 0.000000E+00 sec (time_manager) ocn date 0098-may-18, 0.000000E+00 sec (time_manager) ocn date 0098-may-19, 0.000000E+00 sec (time_manager) ocn date 0098-may-20, 0.000000E+00 sec (time_manager) ocn date 0098-may-21, 0.000000E+00 sec (time_manager) ocn date 0098-may-22, 0.000000E+00 sec (time_manager) ocn date 0098-may-23, 0.000000E+00 sec (time_manager) ocn date 0098-may-24, 0.000000E+00 sec (time_manager) ocn date 0098-may-25, 0.000000E+00 sec (time_manager) ocn date 0098-may-26, 0.000000E+00 sec (time_manager) ocn date 0098-may-27, 0.000000E+00 sec (time_manager) ocn date 0098-may-28, 0.000000E+00 sec (time_manager) ocn date 0098-may-29, 0.000000E+00 sec (time_manager) ocn date 0098-may-30, 0.000000E+00 sec (time_manager) ocn date 0098-may-31, 0.000000E+00 sec (time_manager) ocn date 0098-jun-01, 0.000000E+00 sec Step number : 888875 Date : 01 jun 0098 Hour : 0 Minute : 0 Second : 0 Time(years) : 97.413699 max. cfl number for zonal advection : 8.3926E-02 20 371 33 max. cfl number for meridional advection : 8.7480E-02 6 169 7 max. cfl number for vertical advection : 2.5287E-01 187 17 18 max. cfl number for total advection : 2.6818E-01 187 17 18 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. : 9.140223832503644E+00 K.E. change from horiz. visc. :-3.694405194218753E-06 K.E. change from vert. visc. : 9.897308110880044E-06 K.E. change from wind stress : 3.114051211973432E-05 advective K.E. balance :-4.337209014116844E-10 :-1.409328290890858E-10 P.E. verses pressure work : 6.970103916511965E-04 :-9.061593561632660E-06 surface-pressure contribution :-4.588153686011835E-07 : 4.057384866762867E-07 Tracer diagnostics: mean value of tracer 1 : 3.516629053106187E+00 abs change in tracer 1 : 1.393375371275682E-07 mean change in tracer 1 : 1.493971523937520E-09 mean change in tracer 1 from advection :-3.773185411423198E-24 mean change in tracer 1 from horiz. diff.:-2.063460771872062E-26 mean change in tracer 1 from vert. diff.:-1.160748489453285E-08 mean change in tracer 1 from sources : 1.294855117890052E-08 surface flux of tracer 1 : 0.000000000000000E+00 mean value of tracer 2 : 3.472170783644590E+01 abs change in tracer 2 : 1.356267980153301E-11 mean change in tracer 2 : 5.970265187583015E-14 mean change in tracer 2 from advection :-8.636136042991328E-28 mean change in tracer 2 from horiz. diff.: 1.511323807523483E-29 mean change in tracer 2 from vert. diff.: 2.029009955642530E-15 mean change in tracer 2 from sources :-2.941953147269776E-31 surface flux of tracer 2 : 0.000000000000000E+00 mean value of tracer 3 : 2.276829860963515E+02 abs change in tracer 3 : 2.589338436696100E-06 mean change in tracer 3 : 1.825571561112812E-08 mean change in tracer 3 from advection :-4.225967660793982E-23 mean change in tracer 3 from horiz. diff.: 9.432963528557995E-26 mean change in tracer 3 from vert. diff.:-5.388749431135710E-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: 5.200771005726617E-05 residual, scans : 8.199838946365629E-14 240 Timing information: Timer number 1 Time = 527.77 seconds HMIX_MOMENTUM_ANISO Timer number 2 Time = 468.04 seconds HMIX_TRACER_GM_NLOOP Timer number 3 Time = 2621.40 seconds HMIX_TRACER_GM Timer number 4 Time = 1363.18 seconds VMIX_COEFFICIENTS_KPP Timer number 5 Time = 72.88 seconds VMIX_EXPLICIT_TRACER Timer number 6 Time = 35.74 seconds VMIX_EXPLICIT_MOMENTUM Timer number 7 Time = 226.67 seconds VMIX_IMPLICIT_TRACER Timer number 8 Time = 54.78 seconds VMIX_IMPLICIT_MOMENTUM Timer number 9 Time = 8.01 seconds COMPUTE_COSZ Timer number 10 Time = 97.44 seconds ADVECTION_MOMENTUM Timer number 11 Time = 507.74 seconds ADVECTION_TRACER_UPWIND3 Timer number 12 Time = 34.80 seconds MOC Timer number 13 Time = 34.53 seconds TRACER_TRANSPORTS Timer number 14 Time = 614.60 seconds TAVG_WRITE_STD Timer number 15 Time = 48.36 seconds TAVG_WRITE_NONSTD Timer number 16 Time = 33.09 seconds TAVG_CCSM_DIAGS_BSF Timer number 17 Time = 34.81 seconds TAVG_CCSM_DIAGS_MOC Timer number 18 Time = 34.54 seconds TAVG_CCSM_DIAGS_TRANS Timer number 19 Time = 7845.19 seconds STEP Timer number 20 Time = 6649.77 seconds BAROCLINIC Timer number 21 Time = 900.13 seconds BAROTROPIC Timer number 22 Time = 159.51 seconds 3D-UPDATE Timer number 23 Time = 8621.81 seconds TOTAL Timer number 24 Time = 770.42 seconds OUTPUT Timer number 25 Time = 770.32 seconds OUTPUT TAVG Timer number 26 Time = 0.08 seconds OUTPUT REST ------------------------------------------------------------------------ (diag_print) file written: /ptmp/mai/b40.1850.track1.1deg.006/run/b40.1850.track1.1deg.006.pop.dd.0097-01-01-00000 (diag_transport) file written: /ptmp/mai/b40.1850.track1.1deg.006/run/b40.1850.track1.1deg.006.pop.dt.0097-01-01-00000 AFTER CALL IN tracer_budgets (final): ===================================== volume_t (cm^3) = 0.132514028745E+25 SUM [volume*T] (C cm^3) = 0.466002405130E+25 SUM [volume*S] (ppt cm^3) = 0.460111338889E+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 = 0.449021500730E-13 FW flux = 0.000000000000E+00 Imbalance = -.449021500730E-13 Imbalance = -tendency + FW flux HEAT BUDGET FOR THE GIVEN TAVG INTERVAL (W/m^2): ------------------------------------------------ tendency = -.107546553352E+02 SHF flux = -.109605957114E+02 ice formation = 0.205940480735E+00 FW heat content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = 0.104606591639E-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 = -.533446454282E-06 SFWF flux = 0.125555554999E-07 ice formation = -.546002229701E-06 FW salt content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = -.219919530868E-12 Imbalance = -tendency + SFWF flux + ice formation + FW salt content + free-srf non-consv. Global Time Averages: 06-01-0098 00:00:00 KAPPA_ISOP: 3505444.75130703207 KAPPA_THIC: 3950259.00864331238 HOR_DIFF: 490226.836908087542 DIA_DEPTH: 5773.63063222104211 TLT: 352.283310490533097 INT_DEPTH: 6125.90847395270794 UISOP: 0.706222173071369006E-04 VISOP: -0.307859737863592716E-03 WISOP: -0.198704098913320193E-12 ADVT_ISOP: 0.616350942099757869E-11 ADVS_ISOP: -0.404756982904949316E-15 VNT_ISOP: -0.850829862022020719E-09 VNS_ISOP: -0.203426217074997378E-11 USUBM: 0.552012081611991425E-06 VSUBM: -0.733362300893112299E-05 WSUBM: -0.987852946898499699E-09 HLS_SUBM: 793168.226314091822 ADVT_SUBM: -0.103327187871735308E-11 ADVS_SUBM: 0.611731701250962432E-16 VNT_SUBM: 0.849637069826563465E-10 VNS_SUBM: -0.456751828657686119E-13 HDIFT: 0.701892441273525884E-11 HDIFS: 0.673312309384823495E-14 QSW_HBL: 134.596777717199558 KVMIX: 1.37209123335005612 TPOWER: 0.222596814134326720E-05 UVEL: 0.317175787812522425 VVEL: 0.210234494035643499E-02 TEMP: 3.51611514757355792 dTEMP_POS_2D: 0.911572349377950397E-01 dTEMP_NEG_2D: -0.746658694774520876E-01 SALT: 0.347216720290158543E-01 RHO: 1.03743345273302290 RESID_T: 0.000000000000000000E+00 RESID_S: 0.000000000000000000E+00 SU: 113765.659747221856 SV: 710.301137345057896 SSH: 0.522013659774965894E-04 SHF: -10.9605957113752144 SHF_QSW: 160.260321838898818 SFWF: 0.125555554998989308E-07 TAUX: 0.114644206980486399 TAUY: -0.197372773671215633E-01 FW: 0.000000000000000000E+00 TFW_T: 0.000000000000000000E+00 TFW_S: 0.000000000000000000E+00 EVAP_F: -0.396470745998484222E-04 PREC_F: 0.352729494102653002E-04 SNOW_F: 0.968940563564321325E-06 MELT_F: -0.181996452133628377E-06 ROFF_F: 0.406631769907964256E-05 IOFF_F: 0.358569592008060646E-06 SALT_F: -0.498754291373276115E-08 SENH_F: -13.6289209610407198 LWUP_F: -387.833792335169562 LWDN_F: 330.699151691141140 MELTH_F: -0.857029095547343855 IFRAC: 0.797730805742318805E-01 IAGE: 227.655036657790305 WVEL: 0.696072092717342122E-06 UET: 0.705644838222770206E-07 VNT: 0.497227577360693812E-07 WTT: -0.157054728479604737E-07 UES: 0.153286830769981857E-08 VNS: 0.962207161782082125E-11 WTS: 0.880639717106870348E-12 ADVT: 0.428917072754105894E-10 ADVS: -0.610509668008121042E-14 PV: 0.688073422822607408E-13 Q: -0.991443114191638203E-08 PD: 1.02752232121495646 QSW_HTP: 118.398416417433936 QFLUX: 0.205940480735488568 HMXL: 5773.87836460019662 XMXL: 7489.05790541020542 TMXL: 4491.16785693295515 HBLT: 3998.60425366756408 XBLT: 6831.53844054996443 TBLT: 908.724591715608199 BSF: 0.000000000000000000E+00 convergence info from pcg_diag_bsf: iter = 0 rms_resid = 0.101122346098865376 iter = 100 rms_resid = 0.432243134438154136E-02 iter = 200 rms_resid = 0.899814384815453999E-03 iter = 300 rms_resid = 0.404569159049504112E-03 iter = 400 rms_resid = 0.285088299235011354E-03 iter = 500 rms_resid = 0.193545556533221571E-03 iter = 600 rms_resid = 0.497679147237495921E-04 iter = 700 rms_resid = 0.149869213005352395E-04 iter = 800 rms_resid = 0.181581772978868115E-05 iter = 900 rms_resid = 0.155916064559091772E-06 Local Time- and Space-Averages for Nino Regions: 00:00:00 0098-06-01 NINO_1_PLUS_2: 27.4716669095746475 NINO_3: 28.4429825822376507 NINO_3_POINT_4: 29.0521905458073135 NINO_4: 29.8055347853207380 tavg file written: ./b40.1850.track1.1deg.006.pop.h.0098-05.nc (time_manager) ocn date 0098-jun-02, 0.000000E+00 sec (time_manager) ocn date 0098-jun-03, 0.000000E+00 sec (time_manager) ocn date 0098-jun-04, 0.000000E+00 sec (time_manager) ocn date 0098-jun-05, 0.000000E+00 sec (time_manager) ocn date 0098-jun-06, 0.000000E+00 sec (time_manager) ocn date 0098-jun-07, 0.000000E+00 sec (time_manager) ocn date 0098-jun-08, 0.000000E+00 sec (time_manager) ocn date 0098-jun-09, 0.000000E+00 sec (time_manager) ocn date 0098-jun-10, 0.000000E+00 sec (time_manager) ocn date 0098-jun-11, 0.000000E+00 sec (time_manager) ocn date 0098-jun-12, 0.000000E+00 sec (time_manager) ocn date 0098-jun-13, 0.000000E+00 sec (time_manager) ocn date 0098-jun-14, 0.000000E+00 sec (time_manager) ocn date 0098-jun-15, 0.000000E+00 sec (time_manager) ocn date 0098-jun-16, 0.000000E+00 sec (time_manager) ocn date 0098-jun-17, 0.000000E+00 sec (time_manager) ocn date 0098-jun-18, 0.000000E+00 sec (time_manager) ocn date 0098-jun-19, 0.000000E+00 sec (time_manager) ocn date 0098-jun-20, 0.000000E+00 sec (time_manager) ocn date 0098-jun-21, 0.000000E+00 sec (time_manager) ocn date 0098-jun-22, 0.000000E+00 sec (time_manager) ocn date 0098-jun-23, 0.000000E+00 sec (time_manager) ocn date 0098-jun-24, 0.000000E+00 sec (time_manager) ocn date 0098-jun-25, 0.000000E+00 sec (time_manager) ocn date 0098-jun-26, 0.000000E+00 sec (time_manager) ocn date 0098-jun-27, 0.000000E+00 sec (time_manager) ocn date 0098-jun-28, 0.000000E+00 sec (time_manager) ocn date 0098-jun-29, 0.000000E+00 sec (time_manager) ocn date 0098-jun-30, 0.000000E+00 sec (time_manager) ocn date 0098-jul-01, 0.000000E+00 sec Step number : 889625 Date : 01 jul 0098 Hour : 0 Minute : 0 Second : 0 Time(years) : 97.495890 max. cfl number for zonal advection : 8.6424E-02 20 371 33 max. cfl number for meridional advection : 1.0245E-01 75 181 1 max. cfl number for vertical advection : 5.0300E-01 298 46 14 max. cfl number for total advection : 5.1227E-01 298 46 14 max. cfl number for horizontal tracer mixing : 6.2792E-01 87 383 2 max. cfl number for horiz. momentum mixing : 1.2672E-01 318 214 56 K.E. diagnostics: mean K.E. : 8.971897170516552E+00 K.E. change from horiz. visc. :-3.884554401588544E-06 K.E. change from vert. visc. : 8.107740667452745E-06 K.E. change from wind stress : 2.926596459004568E-05 advective K.E. balance :-5.422571726288829E-10 :-1.318052484723412E-10 P.E. verses pressure work : 7.066764719634049E-04 :-6.615598890782714E-06 surface-pressure contribution : 3.898474374656542E-07 :-4.493842401301072E-07 Tracer diagnostics: mean value of tracer 1 : 3.512995753860858E+00 abs change in tracer 1 : 1.353586749334187E-07 mean change in tracer 1 : 4.892304915097245E-10 mean change in tracer 1 from advection :-3.018548329138558E-24 mean change in tracer 1 from horiz. diff.: 3.537361323209248E-26 mean change in tracer 1 from vert. diff.:-1.187262542335756E-08 mean change in tracer 1 from sources : 1.225516442194554E-08 surface flux of tracer 1 : 0.000000000000000E+00 mean value of tracer 2 : 3.472163630638755E+01 abs change in tracer 2 : 1.327786039314016E-11 mean change in tracer 2 :-1.394401586111665E-15 mean change in tracer 2 from advection :-2.763563533757225E-28 mean change in tracer 2 from horiz. diff.:-9.355814046573939E-30 mean change in tracer 2 from vert. diff.:-4.163688756024437E-14 mean change in tracer 2 from sources :-1.530726474505539E-31 surface flux of tracer 2 : 0.000000000000000E+00 mean value of tracer 3 : 2.277259043193713E+02 abs change in tracer 3 : 2.499857165910372E-06 mean change in tracer 3 : 1.496786331236635E-08 mean change in tracer 3 from advection :-6.037096658277116E-23 mean change in tracer 3 from horiz. diff.: 0.000000000000000E+00 mean change in tracer 3 from vert. diff.:-5.129922754425656E-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: 5.182553620817242E-05 residual, scans : 7.178652810632426E-14 240 Timing information: Timer number 1 Time = 558.81 seconds HMIX_MOMENTUM_ANISO Timer number 2 Time = 495.19 seconds HMIX_TRACER_GM_NLOOP Timer number 3 Time = 2773.45 seconds HMIX_TRACER_GM Timer number 4 Time = 1442.36 seconds VMIX_COEFFICIENTS_KPP Timer number 5 Time = 77.11 seconds VMIX_EXPLICIT_TRACER Timer number 6 Time = 37.81 seconds VMIX_EXPLICIT_MOMENTUM Timer number 7 Time = 239.85 seconds VMIX_IMPLICIT_TRACER Timer number 8 Time = 57.98 seconds VMIX_IMPLICIT_MOMENTUM Timer number 9 Time = 8.47 seconds COMPUTE_COSZ Timer number 10 Time = 103.13 seconds ADVECTION_MOMENTUM Timer number 11 Time = 537.25 seconds ADVECTION_TRACER_UPWIND3 Timer number 12 Time = 36.97 seconds MOC Timer number 13 Time = 36.69 seconds TRACER_TRANSPORTS Timer number 14 Time = 654.64 seconds TAVG_WRITE_STD Timer number 15 Time = 51.78 seconds TAVG_WRITE_NONSTD Timer number 16 Time = 35.13 seconds TAVG_CCSM_DIAGS_BSF Timer number 17 Time = 36.97 seconds TAVG_CCSM_DIAGS_MOC Timer number 18 Time = 36.69 seconds TAVG_CCSM_DIAGS_TRANS Timer number 19 Time = 8302.40 seconds STEP Timer number 20 Time = 7037.15 seconds BAROCLINIC Timer number 21 Time = 952.54 seconds BAROTROPIC Timer number 22 Time = 168.77 seconds 3D-UPDATE Timer number 23 Time = 9129.54 seconds TOTAL Timer number 24 Time = 820.58 seconds OUTPUT Timer number 25 Time = 820.47 seconds OUTPUT TAVG Timer number 26 Time = 0.09 seconds OUTPUT REST ------------------------------------------------------------------------ (diag_print) file written: /ptmp/mai/b40.1850.track1.1deg.006/run/b40.1850.track1.1deg.006.pop.dd.0097-01-01-00000 (diag_transport) file written: /ptmp/mai/b40.1850.track1.1deg.006/run/b40.1850.track1.1deg.006.pop.dt.0097-01-01-00000 AFTER CALL IN tracer_budgets (final): ===================================== volume_t (cm^3) = 0.132514028745E+25 SUM [volume*T] (C cm^3) = 0.465521159991E+25 SUM [volume*S] (ppt cm^3) = 0.460110392066E+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 = -.702865732323E-13 FW flux = 0.000000000000E+00 Imbalance = 0.702865732323E-13 Imbalance = -tendency + FW flux HEAT BUDGET FOR THE GIVEN TAVG INTERVAL (W/m^2): ------------------------------------------------ tendency = -.210779503232E+02 SHF flux = -.212468353091E+02 ice formation = 0.168885713445E+00 FW heat content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = 0.727541925066E-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 = 0.291493307088E-05 SFWF flux = 0.336269324918E-05 ice formation = -.447760322674E-06 FW salt content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = -.144366105156E-12 Imbalance = -tendency + SFWF flux + ice formation + FW salt content + free-srf non-consv. Global Time Averages: 07-01-0098 00:00:00 KAPPA_ISOP: 3445862.32513182797 KAPPA_THIC: 3926494.83722216729 HOR_DIFF: 526262.553919569007 DIA_DEPTH: 6218.52315995992103 TLT: 343.722479944473776 INT_DEPTH: 6562.23993499442622 UISOP: 0.552601817662819943E-04 VISOP: -0.337921362703671492E-03 WISOP: -0.783347946832520828E-13 ADVT_ISOP: 0.162395571357544004E-10 ADVS_ISOP: -0.154212179666421999E-14 VNT_ISOP: -0.127733883240968653E-08 VNS_ISOP: -0.218011619336953754E-11 USUBM: 0.688002146182024914E-06 VSUBM: -0.242089196512536786E-04 WSUBM: -0.949512805633131223E-09 HLS_SUBM: 734620.428804955445 ADVT_SUBM: 0.280970152966093880E-12 ADVS_SUBM: -0.292894981334336888E-16 VNT_SUBM: -0.728965583295090693E-10 VNS_SUBM: -0.163117618033081497E-12 HDIFT: -0.921238151013206548E-10 HDIFS: 0.320963232896566654E-16 QSW_HBL: 126.765016232760146 KVMIX: 1.37419017663103449 TPOWER: 0.221956476616354150E-05 UVEL: 0.326706835707634868 VVEL: 0.160827211386297634E-02 TEMP: 3.51316890511784452 dTEMP_POS_2D: 0.925967530033232344E-01 dTEMP_NEG_2D: -0.727283851757208749E-01 SALT: 0.347216442497476976E-01 RHO: 1.03743406077934419 RESID_T: 0.000000000000000000E+00 RESID_S: 0.000000000000000000E+00 SU: 117183.429603075580 SV: 539.647272795876233 SSH: 0.521588126424575555E-04 SHF: -21.2468353090963440 SHF_QSW: 150.739631405247621 SFWF: 0.336269324918367653E-05 TAUX: 0.134923924004668544 TAUY: 0.931739944383051973E-02 FW: 0.000000000000000000E+00 TFW_T: 0.000000000000000000E+00 TFW_S: 0.000000000000000000E+00 EVAP_F: -0.402339024893684334E-04 PREC_F: 0.359876219158887078E-04 SNOW_F: 0.898108434630716744E-06 MELT_F: 0.282998810917294165E-05 ROFF_F: 0.458073314338117550E-05 IOFF_F: 0.342780494523753342E-06 SALT_F: 0.501551564697204284E-08 SENH_F: -14.0515760360333779 LWUP_F: -387.371325439873033 LWDN_F: 331.875046369551740 MELTH_F: -1.39953403564213930 IFRAC: 0.799051249479328513E-01 IAGE: 227.705099130406580 WVEL: 0.721437639337111323E-06 UET: 0.739925145836263505E-07 VNT: 0.779678928597830851E-08 WTT: -0.173304408756273320E-07 UES: 0.158553546226517489E-08 VNS: 0.901994123895868650E-11 WTS: 0.867769904860539018E-12 ADVT: 0.131665834070572008E-09 ADVS: 0.489321468270541054E-15 PV: 0.157328350914645127E-13 Q: -0.988632994296122415E-08 PD: 1.02752294133555111 QSW_HTP: 111.351562045880854 QFLUX: 0.168885713445293156 HMXL: 6218.91975021142935 XMXL: 7207.69920758207627 TMXL: 5078.61668559998270 HBLT: 4530.18588497511064 XBLT: 7098.90263754030548 TBLT: 934.305933566469776 BSF: 0.000000000000000000E+00 convergence info from pcg_diag_bsf: iter = 0 rms_resid = 0.100481578196035953 iter = 100 rms_resid = 0.422861587196929779E-02 iter = 200 rms_resid = 0.912274461899111868E-03 iter = 300 rms_resid = 0.401652600468550001E-03 iter = 400 rms_resid = 0.287269698159624287E-03 iter = 500 rms_resid = 0.187347981465989732E-03 iter = 600 rms_resid = 0.498599095858610019E-04 iter = 700 rms_resid = 0.151683497686641740E-04 iter = 800 rms_resid = 0.179862900333324086E-05 iter = 900 rms_resid = 0.152347586391653995E-06 Local Time- and Space-Averages for Nino Regions: 00:00:00 0098-07-01 NINO_1_PLUS_2: 26.2693941446678849 NINO_3: 27.9503715718808188 NINO_3_POINT_4: 29.2159012388416599 NINO_4: 29.7745326206295324 tavg file written: ./b40.1850.track1.1deg.006.pop.h.0098-06.nc (time_manager) ocn date 0098-jul-02, 0.000000E+00 sec (time_manager) ocn date 0098-jul-03, 0.000000E+00 sec (time_manager) ocn date 0098-jul-04, 0.000000E+00 sec (time_manager) ocn date 0098-jul-05, 0.000000E+00 sec (time_manager) ocn date 0098-jul-06, 0.000000E+00 sec (time_manager) ocn date 0098-jul-07, 0.000000E+00 sec (time_manager) ocn date 0098-jul-08, 0.000000E+00 sec (time_manager) ocn date 0098-jul-09, 0.000000E+00 sec (time_manager) ocn date 0098-jul-10, 0.000000E+00 sec (time_manager) ocn date 0098-jul-11, 0.000000E+00 sec (time_manager) ocn date 0098-jul-12, 0.000000E+00 sec (time_manager) ocn date 0098-jul-13, 0.000000E+00 sec (time_manager) ocn date 0098-jul-14, 0.000000E+00 sec (time_manager) ocn date 0098-jul-15, 0.000000E+00 sec (time_manager) ocn date 0098-jul-16, 0.000000E+00 sec ovf_loc_prd: nsteps_total= 890006 ovf= 3 swap ovf UV old/new prd set old/new= 1 5 (time_manager) ocn date 0098-jul-17, 0.000000E+00 sec (time_manager) ocn date 0098-jul-18, 0.000000E+00 sec ovf_loc_prd: nsteps_total= 890074 ovf= 3 swap ovf UV old/new prd set old/new= 5 1 (time_manager) ocn date 0098-jul-19, 0.000000E+00 sec (time_manager) ocn date 0098-jul-20, 0.000000E+00 sec (time_manager) ocn date 0098-jul-21, 0.000000E+00 sec (time_manager) ocn date 0098-jul-22, 0.000000E+00 sec ovf_loc_prd: nsteps_total= 890162 ovf= 3 swap ovf UV old/new prd set old/new= 1 5 (time_manager) ocn date 0098-jul-23, 0.000000E+00 sec (time_manager) ocn date 0098-jul-24, 0.000000E+00 sec (time_manager) ocn date 0098-jul-25, 0.000000E+00 sec ovf_loc_prd: nsteps_total= 890249 ovf= 3 swap ovf UV old/new prd set old/new= 5 1 (time_manager) ocn date 0098-jul-26, 0.000000E+00 sec (time_manager) ocn date 0098-jul-27, 0.000000E+00 sec (time_manager) ocn date 0098-jul-28, 0.000000E+00 sec (time_manager) ocn date 0098-jul-29, 0.000000E+00 sec ovf_loc_prd: nsteps_total= 890346 ovf= 3 swap ovf UV old/new prd set old/new= 1 5 (time_manager) ocn date 0098-jul-30, 0.000000E+00 sec ovf_loc_prd: nsteps_total= 890352 ovf= 3 swap ovf UV old/new prd set old/new= 5 1 (time_manager) ocn date 0098-jul-31, 0.000000E+00 sec (time_manager) ocn date 0098-aug-01, 0.000000E+00 sec Step number : 890400 Date : 01 aug 0098 Hour : 0 Minute : 0 Second : 0 Time(years) : 97.580822 max. cfl number for zonal advection : 8.9658E-02 20 371 33 max. cfl number for meridional advection : 1.1958E-01 76 188 1 max. cfl number for vertical advection : 3.1404E-01 298 46 14 max. cfl number for total advection : 3.2306E-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. : 9.914948486624436E+00 K.E. change from horiz. visc. :-4.374648164619576E-06 K.E. change from vert. visc. : 8.583176671159597E-06 K.E. change from wind stress : 3.002755065634140E-05 advective K.E. balance : 5.424741012925440E-10 :-1.315079579133296E-09 P.E. verses pressure work : 7.311930914854339E-04 :-6.951697422520941E-06 surface-pressure contribution :-6.074319007538584E-07 : 5.643102041045341E-07 Tracer diagnostics: mean value of tracer 1 : 3.508694291874046E+00 abs change in tracer 1 : 1.412599830394555E-07 mean change in tracer 1 : 8.507482824897995E-10 mean change in tracer 1 from advection :-2.829889058567399E-24 mean change in tracer 1 from horiz. diff.:-2.004504749818574E-25 mean change in tracer 1 from vert. diff.:-1.150105010419958E-08 mean change in tracer 1 from sources : 1.222005276033936E-08 surface flux of tracer 1 : 0.000000000000000E+00 mean value of tracer 2 : 3.472152592088716E+01 abs change in tracer 2 : 1.344584908782567E-11 mean change in tracer 2 : 1.822546146779228E-14 mean change in tracer 2 from advection :-9.960343569583333E-28 mean change in tracer 2 from horiz. diff.: 1.367388206806960E-29 mean change in tracer 2 from vert. diff.:-3.146708078921178E-14 mean change in tracer 2 from sources :-2.626295285797360E-32 surface flux of tracer 2 : 0.000000000000000E+00 mean value of tracer 3 : 2.277609508044412E+02 abs change in tracer 3 : 2.656156991658480E-06 mean change in tracer 3 : 1.165030345083620E-08 mean change in tracer 3 from advection :-4.112772098451286E-23 mean change in tracer 3 from horiz. diff.: 7.546370822846396E-25 mean change in tracer 3 from vert. diff.:-2.944355996980096E-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: 5.184599783605254E-05 residual, scans : 7.748067427710518E-14 240 Timing information: Timer number 1 Time = 590.83 seconds HMIX_MOMENTUM_ANISO Timer number 2 Time = 523.14 seconds HMIX_TRACER_GM_NLOOP Timer number 3 Time = 2930.81 seconds HMIX_TRACER_GM Timer number 4 Time = 1523.93 seconds VMIX_COEFFICIENTS_KPP Timer number 5 Time = 81.48 seconds VMIX_EXPLICIT_TRACER Timer number 6 Time = 39.94 seconds VMIX_EXPLICIT_MOMENTUM Timer number 7 Time = 253.47 seconds VMIX_IMPLICIT_TRACER Timer number 8 Time = 61.30 seconds VMIX_IMPLICIT_MOMENTUM Timer number 9 Time = 8.95 seconds COMPUTE_COSZ Timer number 10 Time = 108.99 seconds ADVECTION_MOMENTUM Timer number 11 Time = 567.75 seconds ADVECTION_TRACER_UPWIND3 Timer number 12 Time = 39.15 seconds MOC Timer number 13 Time = 38.86 seconds TRACER_TRANSPORTS Timer number 14 Time = 695.26 seconds TAVG_WRITE_STD Timer number 15 Time = 55.18 seconds TAVG_WRITE_NONSTD Timer number 16 Time = 37.16 seconds TAVG_CCSM_DIAGS_BSF Timer number 17 Time = 39.15 seconds TAVG_CCSM_DIAGS_MOC Timer number 18 Time = 38.87 seconds TAVG_CCSM_DIAGS_TRANS Timer number 19 Time = 8773.43 seconds STEP Timer number 20 Time = 7437.37 seconds BAROCLINIC Timer number 21 Time = 1006.63 seconds BAROTROPIC Timer number 22 Time = 178.32 seconds 3D-UPDATE Timer number 23 Time = 9651.65 seconds TOTAL Timer number 24 Time = 871.29 seconds OUTPUT Timer number 25 Time = 871.18 seconds OUTPUT TAVG Timer number 26 Time = 0.09 seconds OUTPUT REST ------------------------------------------------------------------------ (diag_print) file written: /ptmp/mai/b40.1850.track1.1deg.006/run/b40.1850.track1.1deg.006.pop.dd.0097-01-01-00000 (diag_transport) file written: /ptmp/mai/b40.1850.track1.1deg.006/run/b40.1850.track1.1deg.006.pop.dt.0097-01-01-00000 AFTER CALL IN tracer_budgets (final): ===================================== volume_t (cm^3) = 0.132514028745E+25 SUM [volume*T] (C cm^3) = 0.464951080850E+25 SUM [volume*S] (ppt cm^3) = 0.460108929055E+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 = 0.763170041413E-14 FW flux = 0.000000000000E+00 Imbalance = -.763170041413E-14 Imbalance = -tendency + FW flux HEAT BUDGET FOR THE GIVEN TAVG INTERVAL (W/m^2): ------------------------------------------------ tendency = -.241633270335E+02 SHF flux = -.242914583289E+02 ice formation = 0.128131011493E+00 FW heat content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = -.283903574094E-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 = 0.435879843627E-05 SFWF flux = 0.469850770628E-05 ice formation = -.339708918418E-06 FW salt content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = 0.351594060208E-12 Imbalance = -tendency + SFWF flux + ice formation + FW salt content + free-srf non-consv. Global Time Averages: 08-01-0098 00:00:00 KAPPA_ISOP: 3550271.53533466393 KAPPA_THIC: 4098793.38832305418 HOR_DIFF: 594011.515733741107 DIA_DEPTH: 7025.71147630390442 TLT: 391.117385025792316 INT_DEPTH: 7416.82166292367856 UISOP: 0.517388180976836775E-04 VISOP: -0.336066300503162112E-03 WISOP: -0.230488008089922687E-12 ADVT_ISOP: 0.264431304198351534E-10 ADVS_ISOP: -0.130540701303901031E-14 VNT_ISOP: -0.142346443182486264E-08 VNS_ISOP: -0.203238331223719705E-11 USUBM: -0.750769211298950082E-05 VSUBM: -0.283031118446579382E-04 WSUBM: -0.856456490435813377E-09 HLS_SUBM: 684770.215704037109 ADVT_SUBM: 0.631608332141913976E-12 ADVS_SUBM: -0.507394192879876370E-16 VNT_SUBM: -0.223348152205274953E-09 VNS_SUBM: -0.187938088749830411E-12 HDIFT: 0.475569947063750006E-11 HDIFS: -0.136367418548234889E-13 QSW_HBL: 128.397070714019236 KVMIX: 1.38053236916954014 TPOWER: 0.222260458917964947E-05 UVEL: 0.332551118739313312 VVEL: 0.114152543194459164E-02 TEMP: 3.50897361977946121 dTEMP_POS_2D: 0.931529029546586673E-01 dTEMP_NEG_2D: -0.718786742216305924E-01 SALT: 0.347215452283181972E-01 RHO: 1.03743493121116637 RESID_T: 0.000000000000000000E+00 RESID_S: 0.000000000000000000E+00 SU: 119280.714543925715 SV: 376.795206804696022 SSH: 0.517594620836397745E-04 SHF: -24.2914583289332029 SHF_QSW: 148.867640246642168 SFWF: 0.469850770628364570E-05 TAUX: 0.120240518166069024 TAUY: 0.484333542821022839E-01 FW: 0.000000000000000000E+00 TFW_T: 0.000000000000000000E+00 TFW_S: 0.000000000000000000E+00 EVAP_F: -0.412834845038571099E-04 PREC_F: 0.378154808402864545E-04 SNOW_F: 0.967065683145290238E-06 MELT_F: 0.347644798763039705E-05 ROFF_F: 0.466240917770383967E-05 IOFF_F: 0.248158652450019711E-06 SALT_F: 0.765151150651266205E-08 SENH_F: -13.7914296668707053 LWUP_F: -387.110512864745942 LWDN_F: 332.892283977825059 MELTH_F: -1.49391638555688755 IFRAC: 0.794725646380868983E-01 IAGE: 227.744085086048102 WVEL: 0.776858164044822224E-06 UET: 0.246668130174823813E-07 VNT: -0.218302798896270418E-07 WTT: -0.232775983166981538E-07 UES: 0.158109918339475701E-08 VNS: 0.385716499708475234E-11 WTS: 0.540010176385480612E-12 ADVT: 0.552875154677552276E-10 ADVS: 0.232184866817469133E-14 PV: -0.361488389508397630E-13 Q: -0.987828088006747780E-08 PD: 1.02752382261737529 QSW_HTP: 110.045900183050506 QFLUX: 0.128131011493273994 HMXL: 7026.62880327511903 XMXL: 8034.51825619909414 TMXL: 5770.00332487570267 HBLT: 5232.92108807346176 XBLT: 7964.34857043156080 TBLT: 1082.44166568727223 BSF: 0.000000000000000000E+00 convergence info from pcg_diag_bsf: iter = 0 rms_resid = 0.101002541557500630 iter = 100 rms_resid = 0.437284924624584907E-02 iter = 200 rms_resid = 0.934293105881689803E-03 iter = 300 rms_resid = 0.410547039114243838E-03 iter = 400 rms_resid = 0.309032579118999329E-03 iter = 500 rms_resid = 0.188376593351113333E-03 iter = 600 rms_resid = 0.484049627918705543E-04 iter = 700 rms_resid = 0.152427717826630780E-04 iter = 800 rms_resid = 0.194622412416642710E-05 iter = 900 rms_resid = 0.161517367303578207E-06 Local Time- and Space-Averages for Nino Regions: 00:00:00 0098-08-01 NINO_1_PLUS_2: 25.3021265829583264 NINO_3: 27.1015012919988401 NINO_3_POINT_4: 28.7485300071608130 NINO_4: 29.7799483537651781 tavg file written: ./b40.1850.track1.1deg.006.pop.h.0098-07.nc (time_manager) ocn date 0098-aug-02, 0.000000E+00 sec ovf_loc_prd: nsteps_total= 890442 ovf= 3 swap ovf UV old/new prd set old/new= 1 5 (time_manager) ocn date 0098-aug-03, 0.000000E+00 sec (time_manager) ocn date 0098-aug-04, 0.000000E+00 sec ovf_loc_prd: nsteps_total= 890475 ovf= 3 swap ovf UV old/new prd set old/new= 5 1 (time_manager) ocn date 0098-aug-05, 0.000000E+00 sec (time_manager) ocn date 0098-aug-06, 0.000000E+00 sec (time_manager) ocn date 0098-aug-07, 0.000000E+00 sec (time_manager) ocn date 0098-aug-08, 0.000000E+00 sec (time_manager) ocn date 0098-aug-09, 0.000000E+00 sec (time_manager) ocn date 0098-aug-10, 0.000000E+00 sec (time_manager) ocn date 0098-aug-11, 0.000000E+00 sec (time_manager) ocn date 0098-aug-12, 0.000000E+00 sec (time_manager) ocn date 0098-aug-13, 0.000000E+00 sec (time_manager) ocn date 0098-aug-14, 0.000000E+00 sec (time_manager) ocn date 0098-aug-15, 0.000000E+00 sec (time_manager) ocn date 0098-aug-16, 0.000000E+00 sec (time_manager) ocn date 0098-aug-17, 0.000000E+00 sec (time_manager) ocn date 0098-aug-18, 0.000000E+00 sec (time_manager) ocn date 0098-aug-19, 0.000000E+00 sec (time_manager) ocn date 0098-aug-20, 0.000000E+00 sec (time_manager) ocn date 0098-aug-21, 0.000000E+00 sec (time_manager) ocn date 0098-aug-22, 0.000000E+00 sec (time_manager) ocn date 0098-aug-23, 0.000000E+00 sec (time_manager) ocn date 0098-aug-24, 0.000000E+00 sec (time_manager) ocn date 0098-aug-25, 0.000000E+00 sec (time_manager) ocn date 0098-aug-26, 0.000000E+00 sec (time_manager) ocn date 0098-aug-27, 0.000000E+00 sec (time_manager) ocn date 0098-aug-28, 0.000000E+00 sec ovf_loc_prd: nsteps_total= 891092 ovf= 3 swap ovf UV old/new prd set old/new= 1 5 ovf_loc_prd: nsteps_total= 891097 ovf= 3 swap ovf UV old/new prd set old/new= 5 1 ovf_loc_prd: nsteps_total= 891099 ovf= 3 swap ovf UV old/new prd set old/new= 1 5 (time_manager) ocn date 0098-aug-29, 0.000000E+00 sec ovf_loc_prd: nsteps_total= 891102 ovf= 3 swap ovf UV old/new prd set old/new= 5 1 (time_manager) ocn date 0098-aug-30, 0.000000E+00 sec (time_manager) ocn date 0098-aug-31, 0.000000E+00 sec (time_manager) ocn date 0098-sep-01, 0.000000E+00 sec Step number : 891175 Date : 01 sep 0098 Hour : 0 Minute : 0 Second : 0 Time(years) : 97.665753 max. cfl number for zonal advection : 9.2101E-02 20 371 33 max. cfl number for meridional advection : 1.4765E-01 172 178 1 max. cfl number for vertical advection : 2.7398E-01 298 46 14 max. cfl number for total advection : 2.8178E-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. : 1.007966527533237E+01 K.E. change from horiz. visc. :-4.365785059830825E-06 K.E. change from vert. visc. : 6.635591134167451E-06 K.E. change from wind stress : 2.503411993677750E-05 advective K.E. balance :-9.232775877886339E-10 :-3.763530357143195E-11 P.E. verses pressure work : 7.559477315222655E-04 :-4.671350441092581E-06 surface-pressure contribution : 2.204612946425308E-07 :-2.839656572179135E-07 Tracer diagnostics: mean value of tracer 1 : 3.507190506945116E+00 abs change in tracer 1 : 1.460557194206636E-07 mean change in tracer 1 : 2.383563653951752E-09 mean change in tracer 1 from advection : 9.432963528557995E-25 mean change in tracer 1 from horiz. diff.: 2.358240882139499E-26 mean change in tracer 1 from vert. diff.:-1.115167215120526E-08 mean change in tracer 1 from sources : 1.346781406194063E-08 surface flux of tracer 1 : 0.000000000000000E+00 mean value of tracer 2 : 3.472147112691037E+01 abs change in tracer 2 : 1.372233883279493E-11 mean change in tracer 2 : 2.712554181548752E-14 mean change in tracer 2 from advection :-8.751284523564546E-28 mean change in tracer 2 from horiz. diff.: 2.159034010747832E-30 mean change in tracer 2 from vert. diff.: 1.695036707907672E-15 mean change in tracer 2 from sources :-2.019533091473104E-31 surface flux of tracer 2 : 0.000000000000000E+00 mean value of tracer 3 : 2.277896406257884E+02 abs change in tracer 3 : 2.751368051949564E-06 mean change in tracer 3 : 1.289120037131537E-08 mean change in tracer 3 from advection :-2.716693496224703E-23 mean change in tracer 3 from horiz. diff.:-8.489667175702196E-25 mean change in tracer 3 from vert. diff.: 9.160452809906626E-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: 5.212431569939204E-05 residual, scans : 7.786847468249750E-14 240 Timing information: Timer number 1 Time = 623.10 seconds HMIX_MOMENTUM_ANISO Timer number 2 Time = 551.10 seconds HMIX_TRACER_GM_NLOOP Timer number 3 Time = 3088.36 seconds HMIX_TRACER_GM Timer number 4 Time = 1604.89 seconds VMIX_COEFFICIENTS_KPP Timer number 5 Time = 85.87 seconds VMIX_EXPLICIT_TRACER Timer number 6 Time = 42.09 seconds VMIX_EXPLICIT_MOMENTUM Timer number 7 Time = 267.10 seconds VMIX_IMPLICIT_TRACER Timer number 8 Time = 64.65 seconds VMIX_IMPLICIT_MOMENTUM Timer number 9 Time = 9.43 seconds COMPUTE_COSZ Timer number 10 Time = 114.87 seconds ADVECTION_MOMENTUM Timer number 11 Time = 598.26 seconds ADVECTION_TRACER_UPWIND3 Timer number 12 Time = 41.32 seconds MOC Timer number 13 Time = 41.02 seconds TRACER_TRANSPORTS Timer number 14 Time = 734.63 seconds TAVG_WRITE_STD Timer number 15 Time = 58.64 seconds TAVG_WRITE_NONSTD Timer number 16 Time = 39.29 seconds TAVG_CCSM_DIAGS_BSF Timer number 17 Time = 41.32 seconds TAVG_CCSM_DIAGS_MOC Timer number 18 Time = 41.02 seconds TAVG_CCSM_DIAGS_TRANS Timer number 19 Time = 9245.28 seconds STEP Timer number 20 Time = 7837.42 seconds BAROCLINIC Timer number 21 Time = 1061.29 seconds BAROTROPIC Timer number 22 Time = 187.90 seconds 3D-UPDATE Timer number 23 Time = 10173.41 seconds TOTAL Timer number 24 Time = 920.83 seconds OUTPUT Timer number 25 Time = 920.71 seconds OUTPUT TAVG Timer number 26 Time = 0.10 seconds OUTPUT REST ------------------------------------------------------------------------ (diag_print) file written: /ptmp/mai/b40.1850.track1.1deg.006/run/b40.1850.track1.1deg.006.pop.dd.0097-01-01-00000 (diag_transport) file written: /ptmp/mai/b40.1850.track1.1deg.006/run/b40.1850.track1.1deg.006.pop.dt.0097-01-01-00000 AFTER CALL IN tracer_budgets (final): ===================================== volume_t (cm^3) = 0.132514028745E+25 SUM [volume*T] (C cm^3) = 0.464751413534E+25 SUM [volume*S] (ppt cm^3) = 0.460108202189E+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 = 0.103902132184E-12 FW flux = 0.000000000000E+00 Imbalance = -.103902132184E-12 Imbalance = -tendency + FW flux HEAT BUDGET FOR THE GIVEN TAVG INTERVAL (W/m^2): ------------------------------------------------ tendency = -.846308224461E+01 SHF flux = -.857053803911E+01 ice formation = 0.107455467347E+00 FW heat content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = -.327155840890E-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 = 0.216557768784E-05 SFWF flux = 0.245047060830E-05 ice formation = -.284892627984E-06 FW salt content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = 0.292473420744E-12 Imbalance = -tendency + SFWF flux + ice formation + FW salt content + free-srf non-consv. Global Time Averages: 09-01-0098 00:00:00 KAPPA_ISOP: 3920341.01992476732 KAPPA_THIC: 4536969.27433715761 HOR_DIFF: 661117.450706553413 DIA_DEPTH: 7812.41647804785498 TLT: 464.059220823233545 INT_DEPTH: 8276.47069083333008 UISOP: 0.635018663397349638E-04 VISOP: -0.345721595269511315E-03 WISOP: -0.326072785546876626E-13 ADVT_ISOP: 0.398612499011485334E-10 ADVS_ISOP: -0.552041844373545218E-14 VNT_ISOP: -0.178988123386485265E-08 VNS_ISOP: -0.197096511918119197E-11 USUBM: -0.631402774980556962E-05 VSUBM: -0.287655093697996386E-04 WSUBM: -0.507363856660090487E-09 HLS_SUBM: 719255.178452320513 ADVT_SUBM: -0.723614500635873443E-12 ADVS_SUBM: 0.829645614939198356E-16 VNT_SUBM: -0.454377130746013020E-09 VNS_SUBM: -0.192540986159090038E-12 HDIFT: -0.426696539474847315E-11 HDIFS: -0.915604138354217649E-14 QSW_HBL: 138.475539342893740 KVMIX: 1.38167678162636776 TPOWER: 0.222359515273931065E-05 UVEL: 0.321140092587762271 VVEL: 0.134916935700584708E-02 TEMP: 3.50580650831646068 dTEMP_POS_2D: 0.881588293625627378E-01 dTEMP_NEG_2D: -0.666237935313869489E-01 SALT: 0.347214612007618190E-01 RHO: 1.03743546642546569 RESID_T: 0.000000000000000000E+00 RESID_S: 0.000000000000000000E+00 SU: 115188.775922311674 SV: 455.436757926382256 SSH: 0.521727795614793693E-04 SHF: -8.57053803910912926 SHF_QSW: 159.850477012278816 SFWF: 0.245047060830048428E-05 TAUX: 0.157795864791659080 TAUY: 0.835179230097816278E-01 FW: 0.000000000000000000E+00 TFW_T: 0.000000000000000000E+00 TFW_S: 0.000000000000000000E+00 EVAP_F: -0.395547213432335864E-04 PREC_F: 0.359513635537308163E-04 SNOW_F: 0.995253348054161606E-06 MELT_F: 0.191055203393751378E-05 ROFF_F: 0.398193031892396727E-05 IOFF_F: 0.256253099084318954E-06 SALT_F: 0.329329718868049419E-08 SENH_F: -12.9404011673208341 LWUP_F: -387.041740057554762 LWDN_F: 332.180531075881731 MELTH_F: -1.27541672154286467 IFRAC: 0.780658561988661209E-01 IAGE: 227.774449165706301 WVEL: 0.771217362727100288E-06 UET: 0.644513761522893522E-08 VNT: -0.474632855008307635E-07 WTT: -0.234750088697710398E-07 UES: 0.154517800660426483E-08 VNS: 0.148641259290534520E-11 WTS: 0.441377615395370664E-12 ADVT: 0.105845847075890462E-09 ADVS: -0.124903752090797426E-13 PV: -0.637531566051977850E-13 Q: -0.982449784385241837E-08 PD: 1.02752434843263663 QSW_HTP: 118.142754033626474 QFLUX: 0.107455467347136152 HMXL: 7813.66148936780883 XMXL: 8925.33495452230090 TMXL: 5729.43065784557621 HBLT: 5228.45641484579028 XBLT: 8576.24221690964805 TBLT: 1031.25312635844034 BSF: 0.000000000000000000E+00 convergence info from pcg_diag_bsf: iter = 0 rms_resid = 0.102755217421476988 iter = 100 rms_resid = 0.424685065829720574E-02 iter = 200 rms_resid = 0.954141889734186647E-03 iter = 300 rms_resid = 0.411160373302717013E-03 iter = 400 rms_resid = 0.310894883662293602E-03 iter = 500 rms_resid = 0.193156564196142163E-03 iter = 600 rms_resid = 0.486221971157204370E-04 iter = 700 rms_resid = 0.146938637069307337E-04 iter = 800 rms_resid = 0.198541067800145400E-05 iter = 900 rms_resid = 0.157993526650037892E-06 Local Time- and Space-Averages for Nino Regions: 00:00:00 0098-09-01 NINO_1_PLUS_2: 24.5288864282966479 NINO_3: 26.0676018011823416 NINO_3_POINT_4: 27.8642395424955787 NINO_4: 29.3397601673795272 tavg file written: ./b40.1850.track1.1deg.006.pop.h.0098-08.nc ovf_loc_prd: nsteps_total= 891176 ovf= 3 swap ovf UV old/new prd set old/new= 1 5 (time_manager) ocn date 0098-sep-02, 0.000000E+00 sec ovf_loc_prd: nsteps_total= 891224 ovf= 3 swap ovf UV old/new prd set old/new= 5 1 (time_manager) ocn date 0098-sep-03, 0.000000E+00 sec ovf_loc_prd: nsteps_total= 891229 ovf= 3 swap ovf UV old/new prd set old/new= 1 5 ovf_loc_prd: nsteps_total= 891231 ovf= 3 swap ovf UV old/new prd set old/new= 5 1 ovf_loc_prd: nsteps_total= 891232 ovf= 3 swap ovf UV old/new prd set old/new= 1 5 ovf_loc_prd: nsteps_total= 891233 ovf= 3 swap ovf UV old/new prd set old/new= 5 1 (time_manager) ocn date 0098-sep-04, 0.000000E+00 sec (time_manager) ocn date 0098-sep-05, 0.000000E+00 sec (time_manager) ocn date 0098-sep-06, 0.000000E+00 sec (time_manager) ocn date 0098-sep-07, 0.000000E+00 sec (time_manager) ocn date 0098-sep-08, 0.000000E+00 sec (time_manager) ocn date 0098-sep-09, 0.000000E+00 sec (time_manager) ocn date 0098-sep-10, 0.000000E+00 sec (time_manager) ocn date 0098-sep-11, 0.000000E+00 sec (time_manager) ocn date 0098-sep-12, 0.000000E+00 sec (time_manager) ocn date 0098-sep-13, 0.000000E+00 sec (time_manager) ocn date 0098-sep-14, 0.000000E+00 sec (time_manager) ocn date 0098-sep-15, 0.000000E+00 sec (time_manager) ocn date 0098-sep-16, 0.000000E+00 sec (time_manager) ocn date 0098-sep-17, 0.000000E+00 sec (time_manager) ocn date 0098-sep-18, 0.000000E+00 sec (time_manager) ocn date 0098-sep-19, 0.000000E+00 sec (time_manager) ocn date 0098-sep-20, 0.000000E+00 sec (time_manager) ocn date 0098-sep-21, 0.000000E+00 sec (time_manager) ocn date 0098-sep-22, 0.000000E+00 sec (time_manager) ocn date 0098-sep-23, 0.000000E+00 sec (time_manager) ocn date 0098-sep-24, 0.000000E+00 sec (time_manager) ocn date 0098-sep-25, 0.000000E+00 sec (time_manager) ocn date 0098-sep-26, 0.000000E+00 sec (time_manager) ocn date 0098-sep-27, 0.000000E+00 sec ovf_loc_prd: nsteps_total= 891830 ovf= 3 swap ovf UV old/new prd set old/new= 1 5 ovf_loc_prd: nsteps_total= 891832 ovf= 3 swap ovf UV old/new prd set old/new= 5 1 ovf_loc_prd: nsteps_total= 891833 ovf= 3 swap ovf UV old/new prd set old/new= 1 5 ovf_loc_prd: nsteps_total= 891835 ovf= 3 swap ovf UV old/new prd set old/new= 5 1 ovf_loc_prd: nsteps_total= 891837 ovf= 3 swap ovf UV old/new prd set old/new= 1 5 ovf_loc_prd: nsteps_total= 891838 ovf= 3 swap ovf UV old/new prd set old/new= 5 1 (time_manager) ocn date 0098-sep-28, 0.000000E+00 sec (time_manager) ocn date 0098-sep-29, 0.000000E+00 sec (time_manager) ocn date 0098-sep-30, 0.000000E+00 sec (time_manager) ocn date 0098-oct-01, 0.000000E+00 sec Step number : 891925 Date : 01 oct 0098 Hour : 0 Minute : 0 Second : 0 Time(years) : 97.747945 max. cfl number for zonal advection : 9.2917E-02 20 371 33 max. cfl number for meridional advection : 1.4370E-01 174 181 1 max. cfl number for vertical advection : 3.5381E-01 298 46 14 max. cfl number for total advection : 3.6285E-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. : 9.333971906613790E+00 K.E. change from horiz. visc. :-4.023151011885621E-06 K.E. change from vert. visc. : 7.769547161769733E-06 K.E. change from wind stress : 2.617300998141738E-05 advective K.E. balance : 3.542719569032965E-10 :-9.744062168225948E-10 P.E. verses pressure work : 7.714661571415049E-04 :-5.280978838161348E-06 surface-pressure contribution : 7.271442700455635E-07 :-7.596476538600852E-07 Tracer diagnostics: mean value of tracer 1 : 3.507955659327425E+00 abs change in tracer 1 : 1.387612506541423E-07 mean change in tracer 1 : 3.124253816160431E-09 mean change in tracer 1 from advection :-4.857976217207367E-24 mean change in tracer 1 from horiz. diff.: 9.432963528557995E-26 mean change in tracer 1 from vert. diff.:-1.158777190587183E-08 mean change in tracer 1 from sources : 1.461103110837057E-08 surface flux of tracer 1 : 0.000000000000000E+00 mean value of tracer 2 : 3.472149102419215E+01 abs change in tracer 2 : 1.370327640550101E-11 mean change in tracer 2 : 3.071164716903731E-14 mean change in tracer 2 from advection : 5.987720989807321E-28 mean change in tracer 2 from horiz. diff.: 3.022647615046965E-29 mean change in tracer 2 from vert. diff.:-7.382058452572506E-15 mean change in tracer 2 from sources : 5.662005721163795E-32 surface flux of tracer 2 : 0.000000000000000E+00 mean value of tracer 3 : 2.278169781006469E+02 abs change in tracer 3 : 2.631890415830382E-06 mean change in tracer 3 : 1.492583418635104E-08 mean change in tracer 3 from advection :-1.026306431907110E-22 mean change in tracer 3 from horiz. diff.: 2.499735335067869E-24 mean change in tracer 3 from vert. diff.: 3.188286584100309E-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: 5.202140929977605E-05 residual, scans : 9.629342194968808E-14 240 Timing information: Timer number 1 Time = 654.39 seconds HMIX_MOMENTUM_ANISO Timer number 2 Time = 578.25 seconds HMIX_TRACER_GM_NLOOP Timer number 3 Time = 3240.45 seconds HMIX_TRACER_GM Timer number 4 Time = 1683.30 seconds VMIX_COEFFICIENTS_KPP Timer number 5 Time = 90.10 seconds VMIX_EXPLICIT_TRACER Timer number 6 Time = 44.16 seconds VMIX_EXPLICIT_MOMENTUM Timer number 7 Time = 280.29 seconds VMIX_IMPLICIT_TRACER Timer number 8 Time = 67.90 seconds VMIX_IMPLICIT_MOMENTUM Timer number 9 Time = 9.90 seconds COMPUTE_COSZ Timer number 10 Time = 120.62 seconds ADVECTION_MOMENTUM Timer number 11 Time = 627.78 seconds ADVECTION_TRACER_UPWIND3 Timer number 12 Time = 43.48 seconds MOC Timer number 13 Time = 43.17 seconds TRACER_TRANSPORTS Timer number 14 Time = 772.82 seconds TAVG_WRITE_STD Timer number 15 Time = 61.83 seconds TAVG_WRITE_NONSTD Timer number 16 Time = 41.44 seconds TAVG_CCSM_DIAGS_BSF Timer number 17 Time = 43.48 seconds TAVG_CCSM_DIAGS_MOC Timer number 18 Time = 43.17 seconds TAVG_CCSM_DIAGS_TRANS Timer number 19 Time = 9700.65 seconds STEP Timer number 20 Time = 8223.39 seconds BAROCLINIC Timer number 21 Time = 1113.57 seconds BAROTROPIC Timer number 22 Time = 197.18 seconds 3D-UPDATE Timer number 23 Time = 10677.27 seconds TOTAL Timer number 24 Time = 968.96 seconds OUTPUT Timer number 25 Time = 968.82 seconds OUTPUT TAVG Timer number 26 Time = 0.10 seconds OUTPUT REST ------------------------------------------------------------------------ (diag_print) file written: /ptmp/mai/b40.1850.track1.1deg.006/run/b40.1850.track1.1deg.006.pop.dd.0097-01-01-00000 (diag_transport) file written: /ptmp/mai/b40.1850.track1.1deg.006/run/b40.1850.track1.1deg.006.pop.dt.0097-01-01-00000 AFTER CALL IN tracer_budgets (final): ===================================== volume_t (cm^3) = 0.132514028745E+25 SUM [volume*T] (C cm^3) = 0.464852650351E+25 SUM [volume*S] (ppt cm^3) = 0.460108466057E+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 = -.396885423719E-13 FW flux = 0.000000000000E+00 Imbalance = 0.396885423719E-13 Imbalance = -tendency + FW flux HEAT BUDGET FOR THE GIVEN TAVG INTERVAL (W/m^2): ------------------------------------------------ tendency = 0.443404912911E+01 SHF flux = 0.432169519982E+01 ice formation = 0.112353967142E+00 FW heat content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = 0.378525406575E-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 = -.812355705643E-06 SFWF flux = -.514476516649E-06 ice formation = -.297879835747E-06 FW salt content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = -.646753283778E-12 Imbalance = -tendency + SFWF flux + ice formation + FW salt content + free-srf non-consv. Global Time Averages: 10-01-0098 00:00:00 KAPPA_ISOP: 4420298.19005411584 KAPPA_THIC: 5050142.96170563251 HOR_DIFF: 673916.631160531659 DIA_DEPTH: 7951.01983672114420 TLT: 502.250267207772083 INT_DEPTH: 8453.26417276699613 UISOP: 0.524367809764755577E-04 VISOP: -0.358435277927225606E-03 WISOP: -0.268653346370509577E-12 ADVT_ISOP: -0.192995181956441157E-10 ADVS_ISOP: -0.280405507536930154E-15 VNT_ISOP: -0.232510257011958120E-08 VNS_ISOP: -0.203796740792311170E-11 USUBM: 0.852341223935970316E-05 VSUBM: -0.307099208516601428E-04 WSUBM: -0.140007764410314327E-09 HLS_SUBM: 815056.760043699993 ADVT_SUBM: 0.457707425332393324E-12 ADVS_SUBM: 0.805421716945003287E-15 VNT_SUBM: -0.794299786447288564E-09 VNS_SUBM: -0.228375984718686867E-12 HDIFT: 0.319469034642848771E-10 HDIFS: -0.236871819023134598E-14 QSW_HBL: 149.600375042977277 KVMIX: 1.37687042851134445 TPOWER: 0.222499341063553422E-05 UVEL: 0.331283759900947883 VVEL: 0.109686871494648068E-02 TEMP: 3.50569643293330913 dTEMP_POS_2D: 0.793429574060536824E-01 dTEMP_NEG_2D: -0.626176126091500529E-01 SALT: 0.347214478173884095E-01 RHO: 1.03743527484907117 RESID_T: 0.000000000000000000E+00 RESID_S: 0.000000000000000000E+00 SU: 118825.504593447724 SV: 367.722418707865017 SSH: 0.521410189713492661E-04 SHF: 4.32169519982410488 SHF_QSW: 174.906634321774675 SFWF: -0.514476516649374791E-06 TAUX: 0.211918237372820062 TAUY: 0.171962718799624770E-01 FW: 0.000000000000000000E+00 TFW_T: 0.000000000000000000E+00 TFW_S: 0.000000000000000000E+00 EVAP_F: -0.389382899162021146E-04 PREC_F: 0.341764811590235598E-04 SNOW_F: 0.994856802652526861E-06 MELT_F: 0.617481054417342033E-06 ROFF_F: 0.329816738834839767E-05 IOFF_F: 0.270131717914588357E-06 SALT_F: -0.213588061950730987E-08 SENH_F: -13.7773634819897133 LWUP_F: -387.324411287582905 LWDN_F: 329.347920053232997 MELTH_F: -1.02428772146821756 IFRAC: 0.771774184417182152E-01 IAGE: 227.802747681243659 WVEL: 0.801389978953883961E-06 UET: 0.274545334837717869E-07 VNT: -0.415437672313635487E-07 WTT: -0.162922496158005805E-07 UES: 0.161466745703586613E-08 VNS: -0.820603882960466705E-12 WTS: 0.119517987171690429E-11 ADVT: -0.725055216463910190E-10 ADVS: -0.164390960316286995E-14 PV: -0.633305173235225936E-13 Q: -0.981339968487506532E-08 PD: 1.02752413851241631 QSW_HTP: 128.690385195765032 QFLUX: 0.112353967141839206 HMXL: 7952.01620756941520 XMXL: 9584.31983449636391 TMXL: 4587.68573449464293 HBLT: 4682.91209548509505 XBLT: 8412.30021728966858 TBLT: 975.213230970798122 BSF: 0.000000000000000000E+00 convergence info from pcg_diag_bsf: iter = 0 rms_resid = 0.102364597113295833 iter = 100 rms_resid = 0.431414118647706433E-02 iter = 200 rms_resid = 0.910661524864795290E-03 iter = 300 rms_resid = 0.394893704088575097E-03 iter = 400 rms_resid = 0.292667100458727744E-03 iter = 500 rms_resid = 0.196351929637070223E-03 iter = 600 rms_resid = 0.494843637734553106E-04 iter = 700 rms_resid = 0.149846398438813465E-04 iter = 800 rms_resid = 0.190467643060992301E-05 iter = 900 rms_resid = 0.154860135583002281E-06 Local Time- and Space-Averages for Nino Regions: 00:00:00 0098-10-01 NINO_1_PLUS_2: 23.7705850722986298 NINO_3: 25.7395801718442918 NINO_3_POINT_4: 27.6391673962401292 NINO_4: 29.3133449965450410 tavg file written: ./b40.1850.track1.1deg.006.pop.h.0098-09.nc (time_manager) ocn date 0098-oct-02, 0.000000E+00 sec (time_manager) ocn date 0098-oct-03, 0.000000E+00 sec (time_manager) ocn date 0098-oct-04, 0.000000E+00 sec (time_manager) ocn date 0098-oct-05, 0.000000E+00 sec (time_manager) ocn date 0098-oct-06, 0.000000E+00 sec (time_manager) ocn date 0098-oct-07, 0.000000E+00 sec (time_manager) ocn date 0098-oct-08, 0.000000E+00 sec (time_manager) ocn date 0098-oct-09, 0.000000E+00 sec (time_manager) ocn date 0098-oct-10, 0.000000E+00 sec (time_manager) ocn date 0098-oct-11, 0.000000E+00 sec (time_manager) ocn date 0098-oct-12, 0.000000E+00 sec (time_manager) ocn date 0098-oct-13, 0.000000E+00 sec (time_manager) ocn date 0098-oct-14, 0.000000E+00 sec (time_manager) ocn date 0098-oct-15, 0.000000E+00 sec (time_manager) ocn date 0098-oct-16, 0.000000E+00 sec (time_manager) ocn date 0098-oct-17, 0.000000E+00 sec (time_manager) ocn date 0098-oct-18, 0.000000E+00 sec (time_manager) ocn date 0098-oct-19, 0.000000E+00 sec (time_manager) ocn date 0098-oct-20, 0.000000E+00 sec (time_manager) ocn date 0098-oct-21, 0.000000E+00 sec (time_manager) ocn date 0098-oct-22, 0.000000E+00 sec (time_manager) ocn date 0098-oct-23, 0.000000E+00 sec (time_manager) ocn date 0098-oct-24, 0.000000E+00 sec (time_manager) ocn date 0098-oct-25, 0.000000E+00 sec (time_manager) ocn date 0098-oct-26, 0.000000E+00 sec (time_manager) ocn date 0098-oct-27, 0.000000E+00 sec (time_manager) ocn date 0098-oct-28, 0.000000E+00 sec (time_manager) ocn date 0098-oct-29, 0.000000E+00 sec (time_manager) ocn date 0098-oct-30, 0.000000E+00 sec (time_manager) ocn date 0098-oct-31, 0.000000E+00 sec (time_manager) ocn date 0098-nov-01, 0.000000E+00 sec Step number : 892700 Date : 01 nov 0098 Hour : 0 Minute : 0 Second : 0 Time(years) : 97.832877 max. cfl number for zonal advection : 9.3226E-02 20 371 33 max. cfl number for meridional advection : 8.3496E-02 259 184 4 max. cfl number for vertical advection : 3.8679E-01 318 356 18 max. cfl number for total advection : 3.9847E-01 318 356 18 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. : 8.629116519634930E+00 K.E. change from horiz. visc. :-3.710714938539561E-06 K.E. change from vert. visc. : 6.400276394271815E-06 K.E. change from wind stress : 2.304502464089851E-05 advective K.E. balance :-4.300581166226525E-10 :-2.465387769072122E-10 P.E. verses pressure work : 7.877411917770334E-04 :-3.654322030812723E-06 surface-pressure contribution :-7.296042369697798E-07 : 6.489787780348765E-07 Tracer diagnostics: mean value of tracer 1 : 3.510174710492768E+00 abs change in tracer 1 : 1.376758018221962E-07 mean change in tracer 1 : 3.312955815981883E-09 mean change in tracer 1 from advection :-1.226285258712539E-24 mean change in tracer 1 from horiz. diff.: 1.238076463123237E-25 mean change in tracer 1 from vert. diff.:-1.187464621905267E-08 mean change in tracer 1 from sources : 1.506935878808051E-08 surface flux of tracer 1 : 0.000000000000000E+00 mean value of tracer 2 : 3.472150844163092E+01 abs change in tracer 2 : 1.360399361869788E-11 mean change in tracer 2 : 4.739170672969180E-14 mean change in tracer 2 from advection :-7.024057314966280E-28 mean change in tracer 2 from horiz. diff.: 2.374937411822615E-29 mean change in tracer 2 from vert. diff.: 2.792066432987468E-15 mean change in tracer 2 from sources : 8.582208181334651E-32 surface flux of tracer 2 : 0.000000000000000E+00 mean value of tracer 3 : 2.278685838060078E+02 abs change in tracer 3 : 2.476323400403992E-06 mean change in tracer 3 : 2.248558763279895E-08 mean change in tracer 3 from advection :-2.867620912681630E-23 mean change in tracer 3 from horiz. diff.:-5.659778117134797E-25 mean change in tracer 3 from vert. diff.: 3.093146254400746E-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: 5.178361893514772E-05 residual, scans : 8.837464291040264E-14 240 Timing information: Timer number 1 Time = 686.38 seconds HMIX_MOMENTUM_ANISO Timer number 2 Time = 606.66 seconds HMIX_TRACER_GM_NLOOP Timer number 3 Time = 3397.04 seconds HMIX_TRACER_GM Timer number 4 Time = 1764.66 seconds VMIX_COEFFICIENTS_KPP Timer number 5 Time = 94.48 seconds VMIX_EXPLICIT_TRACER Timer number 6 Time = 46.29 seconds VMIX_EXPLICIT_MOMENTUM Timer number 7 Time = 293.90 seconds VMIX_IMPLICIT_TRACER Timer number 8 Time = 71.23 seconds VMIX_IMPLICIT_MOMENTUM Timer number 9 Time = 10.38 seconds COMPUTE_COSZ Timer number 10 Time = 126.52 seconds ADVECTION_MOMENTUM Timer number 11 Time = 658.29 seconds ADVECTION_TRACER_UPWIND3 Timer number 12 Time = 45.65 seconds MOC Timer number 13 Time = 45.32 seconds TRACER_TRANSPORTS Timer number 14 Time = 811.05 seconds TAVG_WRITE_STD Timer number 15 Time = 65.04 seconds TAVG_WRITE_NONSTD Timer number 16 Time = 43.49 seconds TAVG_CCSM_DIAGS_BSF Timer number 17 Time = 45.65 seconds TAVG_CCSM_DIAGS_MOC Timer number 18 Time = 45.32 seconds TAVG_CCSM_DIAGS_TRANS Timer number 19 Time = 10172.27 seconds STEP Timer number 20 Time = 8622.94 seconds BAROCLINIC Timer number 21 Time = 1167.68 seconds BAROTROPIC Timer number 22 Time = 206.90 seconds 3D-UPDATE Timer number 23 Time = 11197.35 seconds TOTAL Timer number 24 Time = 1017.04 seconds OUTPUT Timer number 25 Time = 1016.90 seconds OUTPUT TAVG Timer number 26 Time = 0.11 seconds OUTPUT REST ------------------------------------------------------------------------ (diag_print) file written: /ptmp/mai/b40.1850.track1.1deg.006/run/b40.1850.track1.1deg.006.pop.dd.0097-01-01-00000 (diag_transport) file written: /ptmp/mai/b40.1850.track1.1deg.006/run/b40.1850.track1.1deg.006.pop.dt.0097-01-01-00000 AFTER CALL IN tracer_budgets (final): ===================================== volume_t (cm^3) = 0.132514028745E+25 SUM [volume*T] (C cm^3) = 0.465146625706E+25 SUM [volume*S] (ppt cm^3) = 0.460108696614E+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 = -.887774895448E-13 FW flux = 0.000000000000E+00 Imbalance = 0.887774895448E-13 Imbalance = -tendency + FW flux HEAT BUDGET FOR THE GIVEN TAVG INTERVAL (W/m^2): ------------------------------------------------ tendency = 0.124604149505E+02 SHF flux = 0.123004902193E+02 ice formation = 0.159924957274E+00 FW heat content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = 0.226143794302E-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 = -.686906698103E-06 SFWF flux = -.262903654216E-06 ice formation = -.424003007783E-06 FW salt content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = 0.361035039569E-13 Imbalance = -tendency + SFWF flux + ice formation + FW salt content + free-srf non-consv. Global Time Averages: 11-01-0098 00:00:00 KAPPA_ISOP: 4477889.78806832898 KAPPA_THIC: 4971672.84250410739 HOR_DIFF: 539190.759975882713 DIA_DEPTH: 6309.24277090595751 TLT: 488.606678357876831 INT_DEPTH: 6797.84652569361606 UISOP: 0.501538577643207323E-04 VISOP: -0.375083385200519878E-03 WISOP: -0.183009997016982284E-12 ADVT_ISOP: -0.152085968365508036E-10 ADVS_ISOP: -0.125505537947452315E-15 VNT_ISOP: -0.220542463240566473E-08 VNS_ISOP: -0.203203817359717403E-11 USUBM: 0.618360535661945798E-05 VSUBM: -0.174814763518435945E-04 WSUBM: -0.180612832982580724E-09 HLS_SUBM: 817501.657275166363 ADVT_SUBM: 0.433472942612190745E-11 ADVS_SUBM: -0.215586011170710225E-16 VNT_SUBM: -0.489896374314998000E-09 VNS_SUBM: -0.122441008945383608E-12 HDIFT: -0.422132416743937672E-10 HDIFS: -0.627462201757081310E-15 QSW_HBL: 156.686516921226996 KVMIX: 1.36700894643475790 TPOWER: 0.221339017936528371E-05 UVEL: 0.307978743387609666 VVEL: 0.895939123581993382E-03 TEMP: 3.50725292223332330 dTEMP_POS_2D: 0.879949342659846895E-01 dTEMP_NEG_2D: -0.702615364900860545E-01 SALT: 0.347214727067515772E-01 RHO: 1.03743489769660258 RESID_T: 0.000000000000000000E+00 RESID_S: 0.000000000000000000E+00 SU: 110467.187493163510 SV: 294.868976451071944 SSH: 0.517878054299432983E-04 SHF: 12.3004902193313441 SHF_QSW: 184.477513029708120 SFWF: -0.262903654216019261E-06 TAUX: 0.151781623018191647 TAUY: 0.234638602224098471E-01 FW: 0.000000000000000000E+00 TFW_T: 0.000000000000000000E+00 TFW_S: 0.000000000000000000E+00 EVAP_F: -0.390818550578475251E-04 PREC_F: 0.350240928549613387E-04 SNOW_F: 0.905094305894215766E-06 MELT_F: 0.397973099080387213E-06 ROFF_F: 0.304204926352330069E-05 IOFF_F: 0.276060214697969529E-06 SALT_F: -0.273350301578394017E-08 SENH_F: -14.1545913400732619 LWUP_F: -386.791250566296014 LWDN_F: 327.880284211955029 MELTH_F: -0.973595710539287063 IFRAC: 0.784661008324343823E-01 IAGE: 227.840682839531695 WVEL: 0.808520479409590544E-06 UET: 0.243421966656299627E-07 VNT: -0.235599822908577847E-07 WTT: -0.146145094276225828E-07 UES: 0.153121885625545604E-08 VNS: -0.143811835828180786E-12 WTS: 0.829288605145588166E-12 ADVT: 0.309414149069239972E-10 ADVS: 0.574442396213825486E-15 PV: -0.329579004402180081E-13 Q: -0.975945555667449426E-08 PD: 1.02752375959245001 QSW_HTP: 135.324719098284277 QFLUX: 0.159924957273516577 HMXL: 6309.79146206575115 XMXL: 9371.64685535812168 TMXL: 3475.82182386559452 HBLT: 3844.08819481797400 XBLT: 7417.21466328134466 TBLT: 848.222622510976407 BSF: 0.000000000000000000E+00 convergence info from pcg_diag_bsf: iter = 0 rms_resid = 0.104114781102160367 iter = 100 rms_resid = 0.401480036992694737E-02 iter = 200 rms_resid = 0.848579740151517571E-03 iter = 300 rms_resid = 0.363128859122286004E-03 iter = 400 rms_resid = 0.269998210776826249E-03 iter = 500 rms_resid = 0.181441537682934837E-03 iter = 600 rms_resid = 0.478853119079588181E-04 iter = 700 rms_resid = 0.142679683843693827E-04 iter = 800 rms_resid = 0.167695601327175484E-05 iter = 900 rms_resid = 0.140947065701600748E-06 Local Time- and Space-Averages for Nino Regions: 00:00:00 0098-11-01 NINO_1_PLUS_2: 23.9485560338395480 NINO_3: 26.0485030995616533 NINO_3_POINT_4: 27.7626380855185388 NINO_4: 29.5256825293704175 tavg file written: ./b40.1850.track1.1deg.006.pop.h.0098-10.nc (time_manager) ocn date 0098-nov-02, 0.000000E+00 sec (time_manager) ocn date 0098-nov-03, 0.000000E+00 sec (time_manager) ocn date 0098-nov-04, 0.000000E+00 sec (time_manager) ocn date 0098-nov-05, 0.000000E+00 sec (time_manager) ocn date 0098-nov-06, 0.000000E+00 sec (time_manager) ocn date 0098-nov-07, 0.000000E+00 sec (time_manager) ocn date 0098-nov-08, 0.000000E+00 sec (time_manager) ocn date 0098-nov-09, 0.000000E+00 sec (time_manager) ocn date 0098-nov-10, 0.000000E+00 sec (time_manager) ocn date 0098-nov-11, 0.000000E+00 sec (time_manager) ocn date 0098-nov-12, 0.000000E+00 sec (time_manager) ocn date 0098-nov-13, 0.000000E+00 sec (time_manager) ocn date 0098-nov-14, 0.000000E+00 sec (time_manager) ocn date 0098-nov-15, 0.000000E+00 sec (time_manager) ocn date 0098-nov-16, 0.000000E+00 sec (time_manager) ocn date 0098-nov-17, 0.000000E+00 sec (time_manager) ocn date 0098-nov-18, 0.000000E+00 sec (time_manager) ocn date 0098-nov-19, 0.000000E+00 sec (time_manager) ocn date 0098-nov-20, 0.000000E+00 sec (time_manager) ocn date 0098-nov-21, 0.000000E+00 sec (time_manager) ocn date 0098-nov-22, 0.000000E+00 sec (time_manager) ocn date 0098-nov-23, 0.000000E+00 sec (time_manager) ocn date 0098-nov-24, 0.000000E+00 sec (time_manager) ocn date 0098-nov-25, 0.000000E+00 sec (time_manager) ocn date 0098-nov-26, 0.000000E+00 sec (time_manager) ocn date 0098-nov-27, 0.000000E+00 sec (time_manager) ocn date 0098-nov-28, 0.000000E+00 sec (time_manager) ocn date 0098-nov-29, 0.000000E+00 sec (time_manager) ocn date 0098-nov-30, 0.000000E+00 sec (time_manager) ocn date 0098-dec-01, 0.000000E+00 sec Step number : 893450 Date : 01 dec 0098 Hour : 0 Minute : 0 Second : 0 Time(years) : 97.915068 max. cfl number for zonal advection : 8.6006E-02 20 371 33 max. cfl number for meridional advection : 7.8412E-02 96 212 1 max. cfl number for vertical advection : 3.1171E-01 298 46 14 max. cfl number for total advection : 3.2049E-01 298 46 14 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. : 8.772022848168520E+00 K.E. change from horiz. visc. :-3.788825056779647E-06 K.E. change from vert. visc. : 7.342426086746532E-06 K.E. change from wind stress : 2.765754614584946E-05 advective K.E. balance : 4.652992732192229E-10 :-1.028076367292601E-09 P.E. verses pressure work : 7.649219307095649E-04 :-4.998487676266866E-06 surface-pressure contribution :-8.593558410043308E-07 : 8.159064261665221E-07 Tracer diagnostics: mean value of tracer 1 : 3.511815776283561E+00 abs change in tracer 1 : 1.543173810660690E-07 mean change in tracer 1 : 3.052812876104761E-09 mean change in tracer 1 from advection :-1.509274164569279E-24 mean change in tracer 1 from horiz. diff.:-1.473900551337187E-25 mean change in tracer 1 from vert. diff.:-1.207130634545671E-08 mean change in tracer 1 from sources : 1.493348061058607E-08 surface flux of tracer 1 : 0.000000000000000E+00 mean value of tracer 2 : 3.472158043704773E+01 abs change in tracer 2 : 1.478547691170219E-11 mean change in tracer 2 : 8.437452078769222E-14 mean change in tracer 2 from advection : 5.066533145221580E-28 mean change in tracer 2 from horiz. diff.: 9.715653048365245E-30 mean change in tracer 2 from vert. diff.: 1.246839764542356E-14 mean change in tracer 2 from sources : 3.242904908571782E-31 surface flux of tracer 2 : 0.000000000000000E+00 mean value of tracer 3 : 2.279266808860417E+02 abs change in tracer 3 : 2.827756617968998E-06 mean change in tracer 3 : 2.252037954433068E-08 mean change in tracer 3 from advection :-4.980604743078622E-23 mean change in tracer 3 from horiz. diff.:-4.716481764278997E-25 mean change in tracer 3 from vert. diff.:-2.937580201704563E-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: 5.206182546002453E-05 residual, scans : 9.739259065593348E-14 240 Timing information: Timer number 1 Time = 717.28 seconds HMIX_MOMENTUM_ANISO Timer number 2 Time = 634.02 seconds HMIX_TRACER_GM_NLOOP Timer number 3 Time = 3548.75 seconds HMIX_TRACER_GM Timer number 4 Time = 1843.37 seconds VMIX_COEFFICIENTS_KPP Timer number 5 Time = 98.72 seconds VMIX_EXPLICIT_TRACER Timer number 6 Time = 48.38 seconds VMIX_EXPLICIT_MOMENTUM Timer number 7 Time = 307.08 seconds VMIX_IMPLICIT_TRACER Timer number 8 Time = 74.48 seconds VMIX_IMPLICIT_MOMENTUM Timer number 9 Time = 10.85 seconds COMPUTE_COSZ Timer number 10 Time = 132.22 seconds ADVECTION_MOMENTUM Timer number 11 Time = 687.81 seconds ADVECTION_TRACER_UPWIND3 Timer number 12 Time = 47.82 seconds MOC Timer number 13 Time = 47.48 seconds TRACER_TRANSPORTS Timer number 14 Time = 847.67 seconds TAVG_WRITE_STD Timer number 15 Time = 68.05 seconds TAVG_WRITE_NONSTD Timer number 16 Time = 45.57 seconds TAVG_CCSM_DIAGS_BSF Timer number 17 Time = 47.82 seconds TAVG_CCSM_DIAGS_MOC Timer number 18 Time = 47.48 seconds TAVG_CCSM_DIAGS_TRANS Timer number 19 Time = 10627.85 seconds STEP Timer number 20 Time = 9008.78 seconds BAROCLINIC Timer number 21 Time = 1220.22 seconds BAROTROPIC Timer number 22 Time = 216.11 seconds 3D-UPDATE Timer number 23 Time = 11699.62 seconds TOTAL Timer number 24 Time = 1063.38 seconds OUTPUT Timer number 25 Time = 1063.24 seconds OUTPUT TAVG Timer number 26 Time = 0.11 seconds OUTPUT REST ------------------------------------------------------------------------ (diag_print) file written: /ptmp/mai/b40.1850.track1.1deg.006/run/b40.1850.track1.1deg.006.pop.dd.0097-01-01-00000 (diag_transport) file written: /ptmp/mai/b40.1850.track1.1deg.006/run/b40.1850.track1.1deg.006.pop.dt.0097-01-01-00000 AFTER CALL IN tracer_budgets (final): ===================================== volume_t (cm^3) = 0.132514028745E+25 SUM [volume*T] (C cm^3) = 0.465364158743E+25 SUM [volume*S] (ppt cm^3) = 0.460109650384E+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 = 0.107336859897E-12 FW flux = 0.000000000000E+00 Imbalance = -.107336859897E-12 Imbalance = -tendency + FW flux HEAT BUDGET FOR THE GIVEN TAVG INTERVAL (W/m^2): ------------------------------------------------ tendency = 0.952768178206E+01 SHF flux = 0.934801752083E+01 ice formation = 0.179664011197E+00 FW heat content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = -.250031986615E-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 = -.293631984415E-05 SFWF flux = -.245998364584E-05 ice formation = -.476336417008E-06 FW salt content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = -.218697880500E-12 Imbalance = -tendency + SFWF flux + ice formation + FW salt content + free-srf non-consv. Global Time Averages: 12-01-0098 00:00:00 KAPPA_ISOP: 3801431.20639015781 KAPPA_THIC: 4221882.64945406839 HOR_DIFF: 465379.746322804189 DIA_DEPTH: 5444.26847861536226 TLT: 407.047749189433716 INT_DEPTH: 5851.31515168972055 UISOP: 0.277547874387603817E-04 VISOP: -0.307879197365261285E-03 WISOP: -0.342850739489131397E-12 ADVT_ISOP: 0.122985522516515921E-10 ADVS_ISOP: 0.404736387678854612E-14 VNT_ISOP: -0.106576557922667493E-08 VNS_ISOP: -0.160764701036633165E-11 USUBM: -0.563578057530589054E-05 VSUBM: 0.108038536714186293E-04 WSUBM: -0.375657728587650050E-09 HLS_SUBM: 786260.045983201824 ADVT_SUBM: -0.919370780858262525E-12 ADVS_SUBM: -0.991584977811331942E-16 VNT_SUBM: -0.880204524283974073E-10 VNS_SUBM: 0.961259817169661804E-13 HDIFT: -0.218340110328720694E-10 HDIFS: 0.397634489997097430E-15 QSW_HBL: 165.057702391370071 KVMIX: 1.37044457388054108 TPOWER: 0.219355070118008497E-05 UVEL: 0.305179308783744774 VVEL: 0.434488351121345992E-03 TEMP: 3.50918580113871359 dTEMP_POS_2D: 0.890134677677710540E-01 dTEMP_NEG_2D: -0.711792908872636437E-01 SALT: 0.347215223100192441E-01 RHO: 1.03743457864276678 RESID_T: 0.000000000000000000E+00 RESID_S: 0.000000000000000000E+00 SU: 109464.961339704008 SV: 111.980392059955136 SSH: 0.519321676396387736E-04 SHF: 9.34801752083049209 SHF_QSW: 192.988696644105090 SFWF: -0.245998364583893025E-05 TAUX: 0.125685268117080390 TAUY: -0.621728591302851893E-01 FW: 0.000000000000000000E+00 TFW_T: 0.000000000000000000E+00 TFW_S: 0.000000000000000000E+00 EVAP_F: -0.425918123984214019E-04 PREC_F: 0.358775471712346138E-04 SNOW_F: 0.101394896592309545E-05 MELT_F: 0.131004856501692800E-05 ROFF_F: 0.279037634284885359E-05 IOFF_F: 0.187642937493347688E-06 SALT_F: 0.117241113064822087E-08 SENH_F: -15.0122562778357214 LWUP_F: -386.590529746850393 LWDN_F: 326.224615550493411 MELTH_F: -1.33941610658819221 IFRAC: 0.790206645505813488E-01 IAGE: 227.897631608498898 WVEL: 0.805095026709922651E-06 UET: 0.481566720155572692E-07 VNT: 0.262017083990505571E-07 WTT: -0.190355978787641644E-07 UES: 0.149751375870777072E-08 VNS: -0.818570080482121029E-11 WTS: 0.596949708154119816E-12 ADVT: 0.612177036621431326E-12 ADVS: -0.269445078329705450E-14 PV: 0.133112250959715454E-13 Q: -0.972482323456386030E-08 PD: 1.02752343161724680 QSW_HTP: 141.360867399541291 QFLUX: 0.179664011196818019 HMXL: 5444.98669171618712 XMXL: 7238.39163411779191 TMXL: 3460.24757455357485 HBLT: 3803.22957253344066 XBLT: 6624.39531917392014 TBLT: 878.237055135777837 BSF: 0.000000000000000000E+00 convergence info from pcg_diag_bsf: iter = 0 rms_resid = 0.113229313443679508 iter = 100 rms_resid = 0.417637678818061353E-02 iter = 200 rms_resid = 0.845220907314322024E-03 iter = 300 rms_resid = 0.355766896282514605E-03 iter = 400 rms_resid = 0.274895199897009146E-03 iter = 500 rms_resid = 0.175738096529098507E-03 iter = 600 rms_resid = 0.470971063296890042E-04 iter = 700 rms_resid = 0.148491793865427902E-04 iter = 800 rms_resid = 0.182162011415656278E-05 iter = 900 rms_resid = 0.151898884315176703E-06 Local Time- and Space-Averages for Nino Regions: 00:00:00 0098-12-01 NINO_1_PLUS_2: 24.9348361219415935 NINO_3: 26.5141649451077122 NINO_3_POINT_4: 27.9739122530524540 NINO_4: 29.5935809898880500 tavg file written: ./b40.1850.track1.1deg.006.pop.h.0098-11.nc (time_manager) ocn date 0098-dec-02, 0.000000E+00 sec (time_manager) ocn date 0098-dec-03, 0.000000E+00 sec (time_manager) ocn date 0098-dec-04, 0.000000E+00 sec (time_manager) ocn date 0098-dec-05, 0.000000E+00 sec (time_manager) ocn date 0098-dec-06, 0.000000E+00 sec (time_manager) ocn date 0098-dec-07, 0.000000E+00 sec (time_manager) ocn date 0098-dec-08, 0.000000E+00 sec (time_manager) ocn date 0098-dec-09, 0.000000E+00 sec (time_manager) ocn date 0098-dec-10, 0.000000E+00 sec (time_manager) ocn date 0098-dec-11, 0.000000E+00 sec (time_manager) ocn date 0098-dec-12, 0.000000E+00 sec (time_manager) ocn date 0098-dec-13, 0.000000E+00 sec (time_manager) ocn date 0098-dec-14, 0.000000E+00 sec (time_manager) ocn date 0098-dec-15, 0.000000E+00 sec (time_manager) ocn date 0098-dec-16, 0.000000E+00 sec (time_manager) ocn date 0098-dec-17, 0.000000E+00 sec (time_manager) ocn date 0098-dec-18, 0.000000E+00 sec (time_manager) ocn date 0098-dec-19, 0.000000E+00 sec (time_manager) ocn date 0098-dec-20, 0.000000E+00 sec (time_manager) ocn date 0098-dec-21, 0.000000E+00 sec (time_manager) ocn date 0098-dec-22, 0.000000E+00 sec (time_manager) ocn date 0098-dec-23, 0.000000E+00 sec (time_manager) ocn date 0098-dec-24, 0.000000E+00 sec (time_manager) ocn date 0098-dec-25, 0.000000E+00 sec (time_manager) ocn date 0098-dec-26, 0.000000E+00 sec (time_manager) ocn date 0098-dec-27, 0.000000E+00 sec (time_manager) ocn date 0098-dec-28, 0.000000E+00 sec (time_manager) ocn date 0098-dec-29, 0.000000E+00 sec (time_manager) ocn date 0098-dec-30, 0.000000E+00 sec (time_manager) ocn date 0098-dec-31, 0.000000E+00 sec (ocn_comp_mct(run):) driver requests restart file at eod 0098/12/31 (time_manager) ocn date 0099-jan-01, 0.000000E+00 sec Step number : 894225 Date : 01 jan 0099 Hour : 0 Minute : 0 Second : 0 Time(years) : 98.000000 max. cfl number for zonal advection : 7.8595E-02 20 371 33 max. cfl number for meridional advection : 8.7725E-02 269 203 4 max. cfl number for vertical advection : 3.0643E-01 15 367 20 max. cfl number for total advection : 3.3082E-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. : 8.363906095285031E+00 K.E. change from horiz. visc. :-3.648469821488317E-06 K.E. change from vert. visc. : 7.623835910230891E-06 K.E. change from wind stress : 2.384966546802105E-05 advective K.E. balance :-6.895981215633054E-10 : 6.665175178297357E-11 P.E. verses pressure work : 7.295248028688153E-04 :-3.941967753201142E-06 surface-pressure contribution :-2.891735905674395E-07 : 2.056617311763396E-07 Tracer diagnostics: mean value of tracer 1 : 3.513551353030069E+00 abs change in tracer 1 : 1.453549446466172E-07 mean change in tracer 1 : 3.035386884513857E-09 mean change in tracer 1 from advection :-4.716481764278997E-24 mean change in tracer 1 from horiz. diff.: 3.242581212941811E-26 mean change in tracer 1 from vert. diff.:-1.196118392099677E-08 mean change in tracer 1 from sources : 1.485978010406510E-08 surface flux of tracer 1 : 0.000000000000000E+00 mean value of tracer 2 : 3.472155735938744E+01 abs change in tracer 2 : 1.357383922065202E-11 mean change in tracer 2 : 2.718562850539605E-14 mean change in tracer 2 from advection :-4.145345300635838E-28 mean change in tracer 2 from horiz. diff.: 3.598390017913053E-31 mean change in tracer 2 from vert. diff.:-2.440984301243116E-14 mean change in tracer 2 from sources :-1.447587463015741E-31 surface flux of tracer 2 : 0.000000000000000E+00 mean value of tracer 3 : 2.279849127818907E+02 abs change in tracer 3 : 2.504078445752819E-06 mean change in tracer 3 : 2.119576116027791E-08 mean change in tracer 3 from advection :-6.338951491190973E-23 mean change in tracer 3 from horiz. diff.: 1.226285258712539E-24 mean change in tracer 3 from vert. diff.:-5.005948449948375E-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: 5.201975496646584E-05 residual, scans : 8.055070149293852E-14 240 Timing information: Timer number 1 Time = 748.87 seconds HMIX_MOMENTUM_ANISO Timer number 2 Time = 662.39 seconds HMIX_TRACER_GM_NLOOP Timer number 3 Time = 3706.15 seconds HMIX_TRACER_GM Timer number 4 Time = 1925.38 seconds VMIX_COEFFICIENTS_KPP Timer number 5 Time = 103.09 seconds VMIX_EXPLICIT_TRACER Timer number 6 Time = 50.55 seconds VMIX_EXPLICIT_MOMENTUM Timer number 7 Time = 320.70 seconds VMIX_IMPLICIT_TRACER Timer number 8 Time = 77.85 seconds VMIX_IMPLICIT_MOMENTUM Timer number 9 Time = 11.33 seconds COMPUTE_COSZ Timer number 10 Time = 138.11 seconds ADVECTION_MOMENTUM Timer number 11 Time = 718.33 seconds ADVECTION_TRACER_UPWIND3 Timer number 12 Time = 50.01 seconds MOC Timer number 13 Time = 49.66 seconds TRACER_TRANSPORTS Timer number 14 Time = 885.06 seconds TAVG_WRITE_STD Timer number 15 Time = 71.01 seconds TAVG_WRITE_NONSTD Timer number 16 Time = 47.63 seconds TAVG_CCSM_DIAGS_BSF Timer number 17 Time = 50.01 seconds TAVG_CCSM_DIAGS_MOC Timer number 18 Time = 49.67 seconds TAVG_CCSM_DIAGS_TRANS Timer number 19 Time = 11098.46 seconds STEP Timer number 20 Time = 9408.14 seconds BAROCLINIC Timer number 21 Time = 1274.25 seconds BAROTROPIC Timer number 22 Time = 225.60 seconds 3D-UPDATE Timer number 23 Time = 12217.70 seconds TOTAL Timer number 24 Time = 1110.47 seconds OUTPUT Timer number 25 Time = 1110.32 seconds OUTPUT TAVG Timer number 26 Time = 0.12 seconds OUTPUT REST ------------------------------------------------------------------------ (diag_print) file written: /ptmp/mai/b40.1850.track1.1deg.006/run/b40.1850.track1.1deg.006.pop.dd.0097-01-01-00000 (diag_transport) file written: /ptmp/mai/b40.1850.track1.1deg.006/run/b40.1850.track1.1deg.006.pop.dt.0097-01-01-00000 AFTER CALL IN tracer_budgets (final): ===================================== volume_t (cm^3) = 0.132514028745E+25 SUM [volume*T] (C cm^3) = 0.465594156198E+25 SUM [volume*S] (ppt cm^3) = 0.460109345487E+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 = -.157074270342E-13 FW flux = 0.000000000000E+00 Imbalance = 0.157074270342E-13 Imbalance = -tendency + FW flux HEAT BUDGET FOR THE GIVEN TAVG INTERVAL (W/m^2): ------------------------------------------------ tendency = 0.974865299122E+01 SHF flux = 0.955838224399E+01 ice formation = 0.190270755333E+00 FW heat content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = 0.810197642309E-08 Imbalance = -tendency + SHF flux + ice formation + FW heat content + free-srf non-consv. IMPLIED FW BUDGET FOR THE GIVEN TAVG INTERVAL (kg of freshwater/m^2/s): ----------------------------------------------------- tendency = 0.908391096119E-06 SFWF flux = 0.141284925132E-05 ice formation = -.504457677713E-06 FW salt content = 0.000000000000E+00 free-srf non-consv. = 0.000000000000E+00 Imbalance = 0.477486588065E-12 Imbalance = -tendency + SFWF flux + ice formation + FW salt content + free-srf non-consv. restart file written: ./b40.1850.track1.1deg.006.pop.r.0099-01-01-00000 restart pointer file written: ./rpointer.ocn.restart ovf_write_restart unit (mu) = 19 file name = ./b40.1850.track1.1deg.006.pop.ro.0099-01-01-00000 ovf write restart cdate yyyymmdd = 00990101 overflow restart pointer file written: ./rpointer.ocn.ovf Global Time Averages: 01-01-0099 00:00:00 KAPPA_ISOP: 3531588.76099336380 KAPPA_THIC: 3940608.27947565867 HOR_DIFF: 454636.758880393812 DIA_DEPTH: 5320.12796278377391 TLT: 388.191453098114948 INT_DEPTH: 5708.31347593103965 UISOP: 0.159241098121549022E-04 VISOP: -0.278535739105091802E-03 WISOP: -0.883315321454086759E-13 ADVT_ISOP: 0.669143366999087249E-11 ADVS_ISOP: 0.699016951096927560E-14 VNT_ISOP: -0.638720214854124806E-09 VNS_ISOP: -0.152746697875339688E-11 USUBM: -0.234484552079649974E-04 VSUBM: 0.632443266781625006E-04 WSUBM: -0.114873761383378838E-08 HLS_SUBM: 723894.805792165454 ADVT_SUBM: 0.126721050514711227E-11 ADVS_SUBM: -0.200587133330162872E-15 VNT_SUBM: 0.135931838956671916E-09 VNS_SUBM: 0.486963823086684254E-12 HDIFT: -0.777910720900482503E-11 HDIFS: 0.285828661515232506E-14 QSW_HBL: 163.309061809083175 KVMIX: 1.37809273142883160 TPOWER: 0.219965337054962859E-05 UVEL: 0.305558336680638976 VVEL: 0.377937251499943711E-03 TEMP: 3.51107390657405416 dTEMP_POS_2D: 0.855567044404672294E-01 dTEMP_NEG_2D: -0.680159086762382181E-01 SALT: 0.347215433204053903E-01 RHO: 1.03743442713290612 RESID_T: 0.000000000000000000E+00 RESID_S: 0.000000000000000000E+00 SU: 109598.246074889481 SV: 86.8638569475055249 SSH: 0.519877061086581929E-04 SHF: 9.55838224398650027 SHF_QSW: 193.377750186374271 SFWF: 0.141284925131853064E-05 TAUX: 0.962445540928169585E-01 TAUY: -0.510225464422077932E-01 FW: 0.000000000000000000E+00 TFW_T: 0.000000000000000000E+00 TFW_S: 0.000000000000000000E+00 EVAP_F: -0.421606684947515076E-04 PREC_F: 0.360134714326465171E-04 SNOW_F: 0.110489980586881465E-05 MELT_F: 0.478394914570991264E-05 ROFF_F: 0.304100007689369519E-05 IOFF_F: 0.131985303741403188E-06 SALT_F: 0.137719930864152809E-07 SENH_F: -16.1748004994815986 LWUP_F: -387.982829966193606 LWDN_F: 328.536314588995651 MELTH_F: -2.34146732401340074 IFRAC: 0.766476184546100864E-01 IAGE: 227.956510770221428 WVEL: 0.773827355401377284E-06 UET: 0.498107971636871847E-07 VNT: 0.761346614052367757E-07 WTT: -0.160095193975141814E-07 UES: 0.150205442875123840E-08 VNS: -0.591088316881164431E-11 WTS: 0.106565473294989161E-11 ADVT: -0.459752456905048369E-10 ADVS: 0.118463815649747039E-14 PV: 0.671679280071192235E-13 Q: -0.980650390792675973E-08 PD: 1.02752329489340144 QSW_HTP: 141.795143585435056 QFLUX: 0.190270755333293184 HMXL: 5321.60553821431859 XMXL: 6848.32246357582244 TMXL: 3773.06808656612384 HBLT: 3820.79112057304974 XBLT: 6585.05002217869605 TBLT: 879.361267411583412 BSF: 0.000000000000000000E+00 convergence info from pcg_diag_bsf: iter = 0 rms_resid = 0.113789394094775675 iter = 100 rms_resid = 0.421412690032174110E-02 iter = 200 rms_resid = 0.833593530240772282E-03 iter = 300 rms_resid = 0.319882391825226247E-03 iter = 400 rms_resid = 0.231347639150360939E-03 iter = 500 rms_resid = 0.177149671185880618E-03 iter = 600 rms_resid = 0.487925300530032488E-04 iter = 700 rms_resid = 0.157930666380452298E-04 iter = 800 rms_resid = 0.173775986505390529E-05 iter = 900 rms_resid = 0.150690548086913585E-06 Local Time- and Space-Averages for Nino Regions: 00:00:00 0099-01-01 NINO_1_PLUS_2: 25.3834116130582572 NINO_3: 26.6913541221897930 NINO_3_POINT_4: 28.0773096962138808 NINO_4: 29.5527162123584226 tavg file written: ./b40.1850.track1.1deg.006.pop.h.0098-12.nc ------------------------------------------------------------------------ Successful completion of POP model ------------------------------------------------------------------------ Timing information: Timer number 1 Time = 748.87 seconds HMIX_MOMENTUM_ANISO Timer stats (node): min = 558.06 seconds max = 748.87 seconds mean= 658.04 seconds Timer stats(block): min = 558.65 seconds max = 749.37 seconds mean= 658.55 seconds Timer number 2 Time = 662.39 seconds HMIX_TRACER_GM_NLOOP Timer stats (node): min = 621.84 seconds max = 662.39 seconds mean= 634.56 seconds Timer stats(block): min = 622.42 seconds max = 662.95 seconds mean= 635.14 seconds Timer number 3 Time = 3706.15 seconds HMIX_TRACER_GM Timer stats (node): min = 3327.84 seconds max = 3706.15 seconds mean= 3572.30 seconds Timer stats(block): min = 3328.35 seconds max = 3706.68 seconds mean= 3572.84 seconds Timer number 4 Time = 1925.38 seconds VMIX_COEFFICIENTS_KPP Timer stats (node): min = 1649.25 seconds max = 1925.38 seconds mean= 1827.25 seconds Timer stats(block): min = 1649.73 seconds max = 1925.88 seconds mean= 1827.76 seconds Timer number 5 Time = 103.09 seconds VMIX_EXPLICIT_TRACER Timer stats (node): min = 47.69 seconds max = 103.09 seconds mean= 87.53 seconds Timer stats(block): min = 48.33 seconds max = 103.72 seconds mean= 88.12 seconds Timer number 6 Time = 50.55 seconds VMIX_EXPLICIT_MOMENTUM Timer stats (node): min = 37.88 seconds max = 50.55 seconds mean= 44.96 seconds Timer stats(block): min = 38.33 seconds max = 51.05 seconds mean= 45.47 seconds Timer number 7 Time = 320.70 seconds VMIX_IMPLICIT_TRACER Timer stats (node): min = 114.11 seconds max = 320.70 seconds mean= 240.72 seconds Timer stats(block): min = 114.14 seconds max = 320.75 seconds mean= 240.76 seconds Timer number 8 Time = 77.85 seconds VMIX_IMPLICIT_MOMENTUM Timer stats (node): min = 38.48 seconds max = 77.85 seconds mean= 60.37 seconds Timer stats(block): min = 38.50 seconds max = 77.86 seconds mean= 60.39 seconds Timer number 9 Time = 11.33 seconds COMPUTE_COSZ Timer stats (node): min = 8.45 seconds max = 11.33 seconds mean= 9.23 seconds Timer stats(block): min = 8.47 seconds max = 11.34 seconds mean= 9.25 seconds Timer number 10 Time = 138.11 seconds ADVECTION_MOMENTUM Timer stats (node): min = 126.03 seconds max = 138.11 seconds mean= 133.62 seconds Timer stats(block): min = 126.52 seconds max = 138.59 seconds mean= 134.12 seconds Timer number 11 Time = 718.33 seconds ADVECTION_TRACER_UPWIND3 Timer stats (node): min = 679.25 seconds max = 718.33 seconds mean= 695.62 seconds Timer stats(block): min = 679.77 seconds max = 718.86 seconds mean= 696.18 seconds Timer number 12 Time = 52.20 seconds MOC Timer stats (node): min = 52.12 seconds max = 52.20 seconds mean= 52.14 seconds Timer stats(block): min = 0.00 seconds max = 0.00 seconds mean= 0.00 seconds Timer number 13 Time = 51.84 seconds TRACER_TRANSPORTS Timer stats (node): min = 51.81 seconds max = 51.84 seconds mean= 51.84 seconds Timer stats(block): min = 0.00 seconds max = 0.00 seconds mean= 0.00 seconds Timer number 14 Time = 923.16 seconds TAVG_WRITE_STD Timer stats (node): min = 923.16 seconds max = 923.16 seconds mean= 923.16 seconds Timer stats(block): min = 0.00 seconds max = 0.00 seconds mean= 0.00 seconds Timer number 15 Time = 73.88 seconds TAVG_WRITE_NONSTD Timer stats (node): min = 73.88 seconds max = 73.88 seconds mean= 73.88 seconds Timer stats(block): min = 0.00 seconds max = 0.00 seconds mean= 0.00 seconds Timer number 16 Time = 49.69 seconds TAVG_CCSM_DIAGS_BSF Timer stats (node): min = 49.68 seconds max = 49.69 seconds mean= 49.68 seconds Timer stats(block): min = 0.00 seconds max = 0.00 seconds mean= 0.00 seconds Timer number 17 Time = 52.20 seconds TAVG_CCSM_DIAGS_MOC Timer stats (node): min = 52.12 seconds max = 52.20 seconds mean= 52.14 seconds Timer stats(block): min = 0.00 seconds max = 0.00 seconds mean= 0.00 seconds Timer number 18 Time = 51.85 seconds TAVG_CCSM_DIAGS_TRANS Timer stats (node): min = 51.81 seconds max = 51.85 seconds mean= 51.84 seconds Timer stats(block): min = 0.00 seconds max = 0.00 seconds mean= 0.00 seconds Timer number 19 Time = 11098.56 seconds STEP Timer stats (node): min = 11092.67 seconds max = 11098.56 seconds mean= 11094.70 seconds Timer stats(block): min = 0.00 seconds max = 0.00 seconds mean= 0.00 seconds Timer number 20 Time = 9408.14 seconds BAROCLINIC Timer stats (node): min = 9091.01 seconds max = 9408.14 seconds mean= 9273.02 seconds Timer stats(block): min = 0.00 seconds max = 0.00 seconds mean= 0.00 seconds Timer number 21 Time = 1274.25 seconds BAROTROPIC Timer stats (node): min = 1264.31 seconds max = 1274.25 seconds mean= 1271.72 seconds Timer stats(block): min = 0.00 seconds max = 0.00 seconds mean= 0.00 seconds Timer number 22 Time = 225.60 seconds 3D-UPDATE Timer stats (node): min = 143.06 seconds max = 225.60 seconds mean= 176.04 seconds Timer stats(block): min = 0.00 seconds max = 0.00 seconds mean= 0.00 seconds Timer number 23 Time = 12271.17 seconds TOTAL Timer stats (node): min = 12264.09 seconds max = 12271.17 seconds mean= 12265.06 seconds Timer stats(block): min = 0.00 seconds max = 0.00 seconds mean= 0.00 seconds Timer number 24 Time = 1163.84 seconds OUTPUT Timer stats (node): min = 1162.32 seconds max = 1163.84 seconds mean= 1162.44 seconds Timer stats(block): min = 0.00 seconds max = 0.00 seconds mean= 0.00 seconds Timer number 25 Time = 1157.89 seconds OUTPUT TAVG Timer stats (node): min = 1156.46 seconds max = 1157.89 seconds mean= 1156.56 seconds Timer stats(block): min = 0.00 seconds max = 0.00 seconds mean= 0.00 seconds Timer number 26 Time = 5.87 seconds OUTPUT REST Timer stats (node): min = 5.77 seconds max = 5.87 seconds mean= 5.79 seconds Timer stats(block): min = 0.00 seconds max = 0.00 seconds mean= 0.00 seconds ------------------------------------------------------------------------ =================== completed POP_Final ===================