======================================================================== I/O: io_nml namelist settings: &IO_NML NUM_IOTASKS = 1, LREDIRECT_STDOUT = T, LOG_FILENAME = /glade/scratch/jet/g.e15.GIAF_WAV.T62_gx1v6_rx1_ww3a.langmuir.001/run/ocn.log.160417-195256 , LUSE_POINTER_FILES = T, POINTER_FILENAME = rpointer.ocn , LUSE_NF_64BIT_OFFSET = T / ======================================================================== Context: context_nml namelist settings: &CONTEXT_NML LCOUPLED = T, LCCSM = T, B4B_FLAG = F, LCCSM_CONTROL_COMPATIBLE = F / ======================================================================== Parallel Ocean Program (POP) Based on Version 2.1alpha Jan 2005 Modified for CESM 2005-2010 ======================================================================== Overflows: overflows_nml namelist settings: &OVERFLOWS_NML OVERFLOWS_ON = T, OVERFLOWS_INTERACTIVE = T, OVERFLOWS_INFILE = /glade/scratch/jet/g.e15.GIAF_WAV.T62_gx1v6_rx1_ww3a.langmuir.001/run/gx1v6_overflow , OVERFLOWS_DIAG_OUTFILE = /glade/scratch/jet/g.e15.GIAF_WAV.T62_gx1v6_rx1_ww3a.langmuir.001/run/./g.e15.GIAF_WAV.T62_gx1v6_rx1_ww3a. langmuir.001.pop.do , OVERFLOWS_RESTART_TYPE = ccsm_continue , OVERFLOWS_RESTFILE = ./g.e15.GIAF_WAV.T62_gx1v6_rx1_ww3a.langmuir.001.pop.ro / Reading overflow pointer file: rpointer.ocn.ovf ovf_read_restart unit (mu) = 97 file name = ./g.e15.GIAF_WAV.T62_gx1v6_rx1_ww3a.langmuir.001.pop.ro.0303-01-01-00000 ovf read restart label = ! Overflow Restart File for yyyymmdd =03030101 number of overflows = 4 ------------------------------------------------------------------------ Domain Information ------------------------------------------------------------------------ Horizontal domain: nx = 320 ny = 384 Vertical domain: km = 60 Number of tracers: nt = 5 Block size: nx_block = 36 ny_block = 26 max_blocks_clinic = 2 max_blocks_tropic = 2 Processors for baroclinic: 90 Processors for barotropic: 90 Distribution for baroclinic: cartesian 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 = /glade/p/cesmdata/cseg/inputdata/ocn/pop/gx1v6/grid/horiz_grid_20010402.ieeer8 , VERT_GRID_FILE = /glade/scratch/jet/g.e15.GIAF_WAV.T62_gx1v6_rx1_ww3a.langmuir.001/run/gx1v6_vert_grid , TOPOGRAPHY_FILE = /glade/p/cesmdata/cseg/inputdata/ocn/pop/gx1v6/grid/topography_20090204.ieeei4 , TOPOGRAPHY_OUTFILE = ./g.e15.GIAF_WAV.T62_gx1v6_rx1_ww3a.langmuir.001.pop.h.topography_bathymetry.ieeer8 , BATHYMETRY_FILE = unknown_bathymetry , N_TOPO_SMOOTH = 0, FLAT_BOTTOM = F, LREMOVE_POINTS = F, REGION_MASK_FILE = /glade/p/cesmdata/cseg/inputdata/ocn/pop/gx1v6/grid/region_mask_20090205.ieeei4 , REGION_INFO_FILE = /glade/scratch/jet/g.e15.GIAF_WAV.T62_gx1v6_rx1_ww3a.langmuir.001/run/gx1v6_region_ids , SFC_LAYER_OPT = varthick , PARTIAL_BOTTOM_CELLS = F, BOTTOM_CELL_FILE = unknown_bottom_cell , KMT_KMIN = 3, LCONST_CORIOLIS = F, L1DDYN = F / &POP1D_NML LIDENTICAL_COLUMNS = F, LCONST_CORIOLIS = F, LMIN_CORIOLIS = F, CORIOLIS_MIN = 6.400000000000000E-006, CORIOLIS_VAL = 1.000000000000000E-004, GLOBAL_TAUX = 0.100000000000000 , GLOBAL_SHF_COEF = -100.000000000000 / Active Ocean blocks: 180 Reading topography from file:/glade/p/cesmdata/cseg/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: /glade/p/cesmdata/cseg/inputdata/ocn/pop/gx1v6/grid/horiz_grid_20010402.ieeer8 Using variable thickness surface layer Reading vertical grid from file: /glade/scratch/jet/g.e15.GIAF_WAV.T62_gx1v6_rx1_ww3a.langmuir.001/run/gx1v6_ver t_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) 3.611401902571857E+08 3.493125918041780E+08 T-volume, U-volume (km^3) 1.325140287265679E+09 1.252749733593950E+09 Region masks initialized from file: /glade/p/cesmdata/cseg/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 = g.e15.GIAF_WAV.T62_gx1v6_rx1_ww3a.langmuir.001 , TIME_MIX_OPT = avgfit , TIME_MIX_FREQ = 17, IMPCOR = T, LACCEL = F, ACCEL_FILE = /glade/scratch/jet/g.e15.GIAF_WAV.T62_gx1v6_rx1_ww3a.langmuir.001/run/gx1v6_depth_accel , DTUXCEL = 1.00000000000000 , IYEAR0 = 1, IMONTH0 = 1, IDAY0 = 2, IHOUR0 = 0, IMINUTE0 = 0, ISECOND0 = 0, DT_OPTION = steps_per_day , DT_COUNT = 23.0000000000000 , STOP_OPTION = nyear , STOP_COUNT = 1000, DATE_SEPARATOR = -, ALLOW_LEAPYEAR = F, FIT_FREQ = 1, ROBERT_ALPHA = 0.530000000000000 , ROBERT_NU = 0.200000000000000 / 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 ======================================================================== NIW mixing information niw_nml namelist settings: &NIW_NML LNIW_MIXING = F, NIW_BOUNDARY_LAYER_ABSORPTION = 0.700000000000000 , NIW_LOCAL_MIXING_FRACTION = 0.500000000000000 , NIW_MIXING_EFFICIENCY = 0.200000000000000 , NIW_OBS2MODEL_RATIO = 2.00000000000000 , NIW_VERT_DECAY_SCALE = 200000.000000000 , NIW_MIX_MAX = 100.000000000000 , NIW_ENERGY_TYPE = blke , NIW_ENERGY_FILE = /glade/p/cesmdata/cseg/inputdata/ocn/pop/gx1v6/forcing/niw_gx1v6_20100915.ieeer8 , NIW_ENERGY_FILE_FMT = bin / lniw_mixing F niw_boundary layer absorp 7.00000E-01 niw_local_mixing_fraction 5.00000E-01 niw_mixing_efficiency 2.00000E-01 niw_obs2model_ratio 2.00000E+00 niw_vert_decay_scale 2.00000E+05 niw_mix_max 1.00000E+02 niw_energy_type blke niw_energy_file /glade/p/cesmdata/cseg/inputdata/ocn/pop/gx1v6/forcing/niw_gx1v6_20100915.ieeer8 niw_energy_file_fmt bin ======================================================================== Tidal mixing information tidal_nml namelist settings: &TIDAL_NML LTIDAL_MIXING = T, LOCAL_MIXING_FRACTION = 0.330000000000000 , MIXING_EFFICIENCY = 0.200000000000000 , VERTICAL_DECAY_SCALE = 50000.0000000000 , TIDAL_ENERGY_FILE = /glade/p/cesmdata/cseg/inputdata/ocn/pop/gx1v6/forcing/tidal_energy_gx1v6_20090205.ieeer8 , TIDAL_MIX_MAX = 100.000000000000 , 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 = /glade/p/cesmdata/cseg/inputdata/ocn/pop/gx1v6/forcing/tidal_energy_gx1v6_200902 WARNING: Input header file does not exist for file: /glade/p/cesmdata/cseg/inputdata/ocn/pop/gx1v6/forcing/tidal_energy_gx1v6_20090 205.ieeer8.hdr Assuming fields will be read in sequential order file read: /glade/p/cesmdata/cseg/inputdata/ocn/pop/gx1v6/forcing/tidal_energy_gx1v6_20090 205.ieeer8 ------------------------------------------------------------------------ Solver options (barotropic solver) ------------------------------------------------------------------------ Solver choice: PCSI Solver converged for err < 1.000000000000000E-13 Solver maximum iterations: 1000 Lanczos converged for err < 1.500000000000000E-01 Maximum Lanczos step 100 iterations Check convergence start from 60 iterations Check convergence every 10 iterations Preconditioner choice: evp EVP block distribution 2 10 18 26 34 2 10 17 24 ======================================================================== 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 = 1 UDP define_tavg_field: id = 2 U1_1 define_tavg_field: id = 3 V1_1 define_tavg_field: id = 4 U1_8 define_tavg_field: id = 5 V1_8 define_tavg_field: id = 6 T1_8 define_tavg_field: id = 7 S1_8 define_tavg_field: id = 8 UVEL define_tavg_field: id = 9 UVEL2 define_tavg_field: id = 10 VVEL define_tavg_field: id = 11 VVEL2 define_tavg_field: id = 12 KE define_tavg_field: id = 13 TEMP define_tavg_field: id = 14 TEMP_MAX define_tavg_field: id = 15 TEMP_MIN define_tavg_field: id = 16 dTEMP_POS_3D define_tavg_field: id = 17 dTEMP_POS_2D define_tavg_field: id = 18 dTEMP_NEG_3D define_tavg_field: id = 19 dTEMP_NEG_2D define_tavg_field: id = 20 SST define_tavg_field: id = 21 SST2 define_tavg_field: id = 22 SALT define_tavg_field: id = 23 SALT_MAX define_tavg_field: id = 24 SALT_MIN define_tavg_field: id = 25 TEMP2 define_tavg_field: id = 26 SALT2 define_tavg_field: id = 27 ST define_tavg_field: id = 28 RHO define_tavg_field: id = 29 RHO_VINT define_tavg_field: id = 30 UV define_tavg_field: id = 31 RESID_T define_tavg_field: id = 32 RESID_S define_tavg_field: id = 33 SU define_tavg_field: id = 34 SV define_tavg_field: id = 35 SSH define_tavg_field: id = 36 SSH2 define_tavg_field: id = 37 H3 ------------------------------------------------------------------------ Solver Preprocessing (barotropic solver) ------------------------------------------------------------------------ Solver EVP preconditioning START PROC 0 EVP blocks : 12 land blocks : 8 PROC 0 EVP blocks : 12 land blocks : 0 Solver EVP preconditioning END Lanczos steps 10 eigs: 0.2204657E-01 0.3818906E+01 Lanczos steps 20 eigs: 0.1290663E-01 0.3825208E+01 Lanczos steps 30 eigs: 0.8677408E-02 0.3852519E+01 Lanczos steps 40 eigs: 0.6588653E-02 0.3873349E+01 Lanczos steps 50 eigs: 0.5283751E-02 0.3873349E+01 Lanczos steps 60 eigs: 0.4416385E-02 0.3873349E+01 Lanczos steps 70 eigs: 0.3900029E-02 0.3873349E+01 LANCZOS EIGS: 3.900028979548055E-003 3.87334877951412 ======================================================================== 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 = ccsm_continue , INIT_TS_FILE = /glade/p/cesmdata/cseg/inputdata/ocn/pop/gx1v6/ic/ts_PHC2_jan_ic_gx1v6_20090205.ieeer8 , INIT_TS_FILE_FMT = nc , INIT_TS_SUBOPTION = null , INIT_TS_OUTFILE = ./g.e15.GIAF_WAV.T62_gx1v6_rx1_ww3a.langmuir.001.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