/var/spool/PBS/aux/194613.iREMB-U-M Model Input Parameters: ROMS/TOMS version 3.7 Saturday - October 7, 2017 - 2:54:23 PM ----------------------------------------------------------------------------- Ulleung Basin 1 km-ETOPO5 Operating system : Linux CPU/hardware : x86_64 Compiler system : ifort Compiler command : /home/app/intel/mpi/openmpi/bin/mpif90 Compiler flags : -heap-arrays -ip -O3 -free -free -free Input Script : SVN Root URL : https:://myroms.org/svn/src SVN Revision : exported Local Root : /scratch/kokj01/ROMS Header Dir : /scratch/kokj01/ROMS/Projects3 Header file : ulleungbasin.h Analytical Dir: /scratch/kokj01/ROMS/Projects3 Resolution, Grid 01: 1079x0823x041, Parallel Nodes: 48, Tiling: 003x016 Physical Parameters, Grid: 01 ============================= 3142080 ntimes Number of timesteps for 3-D equations. 30.000 dt Timestep size (s) for 3-D equations. 120 ndtfast Number of timesteps for 2-D equations between each 3D timestep. 1 ERstr Starting ensemble/perturbation run number. 1 ERend Ending ensemble/perturbation run number. 0 nrrec Number of restart records to read from disk. T LcycleRST Switch to recycle time-records in restart file. 3142080 nRST Number of timesteps between the writing of data into restart fields. 1 ninfo Number of timesteps between print of information to standard output. T ldefout Switch to create a new output NetCDF file(s). 3142080 nHIS Number of timesteps between the writing fields into history file. 0 nQCK Number of timesteps between the writing fields into quicksave file. 1 ntsAVG Starting timestep for the accumulation of output time-averaged data. 2880 nAVG Number of timesteps between the writing of time-averaged data into averages file. 1.0000E+01 nl_tnu2(01) NLM Horizontal, harmonic mixing coefficient (m2/s) for tracer 01: temp 1.0000E+01 nl_tnu2(02) NLM Horizontal, harmonic mixing coefficient (m2/s) for tracer 02: salt 1.0000E+00 nl_visc2 NLM Horizontal, harmonic mixing coefficient (m2/s) for momentum. F LuvSponge Turning OFF sponge on horizontal momentum. F LtracerSponge(01) Turning OFF sponge on tracer 01: temp F LtracerSponge(02) Turning OFF sponge on tracer 02: salt 1.0000E-06 Akt_bak(01) Background vertical mixing coefficient (m2/s) for tracer 01: temp 1.0000E-06 Akt_bak(02) Background vertical mixing coefficient (m2/s) for tracer 02: salt 1.0000E-05 Akv_bak Background vertical mixing coefficient (m2/s) for momentum. 3.0000E-04 rdrg Linear bottom drag coefficient (m/s). 2.0000E-03 rdrg2 Quadratic bottom drag coefficient. 1.0000E-03 Zob Bottom roughness (m). 1.0000E+01 blk_ZQ Height (m) of surface air humidity measurement. 1.0000E+01 blk_ZT Height (m) of surface air temperature measurement. 1.0000E+01 blk_ZW Height (m) of surface winds measurement. 1 lmd_Jwt Jerlov water type. 2 Vtransform S-coordinate transformation equation. 4 Vstretching S-coordinate stretching function. 7.0000E+00 theta_s S-coordinate surface control parameter. 1.0000E-01 theta_b S-coordinate bottom control parameter. 5.000 Tcline S-coordinate surface/bottom layer width (m) used in vertical coordinate stretching. 1025.000 rho0 Mean density (kg/m3) for Boussinesq approximation. 55927.000 dstart Time-stamp assigned to model initialization (days). 18581117.00 time_ref Reference time for units attribute (yyyymmdd.dd) 5.0000E+00 Tnudg(01) Nudging/relaxation time scale (days) for tracer 01: temp 5.0000E+00 Tnudg(02) Nudging/relaxation time scale (days) for tracer 02: salt 0.0000E+00 Znudg Nudging/relaxation time scale (days) for free-surface. 0.0000E+00 M2nudg Nudging/relaxation time scale (days) for 2D momentum. 5.0000E+00 M3nudg Nudging/relaxation time scale (days) for 3D momentum. 5.0000E+00 obcfac Factor between passive and active open boundary conditions. F VolCons(1) NLM western edge boundary volume conservation. F VolCons(2) NLM southern edge boundary volume conservation. F VolCons(3) NLM eastern edge boundary volume conservation. F VolCons(4) NLM northern edge boundary volume conservation. 14.000 T0 Background potential temperature (C) constant. 35.000 S0 Background salinity (PSU) constant. 1.000 gamma2 Slipperiness variable: free-slip (1.0) or no-slip (-1.0). F LuvSrc Turning OFF momentum point Sources/Sinks. F LwSrc Turning OFF volume influx point Sources/Sinks. F LtracerSrc(01) Turning OFF point Sources/Sinks on tracer 01: temp F LtracerSrc(02) Turning OFF point Sources/Sinks on tracer 02: salt F LsshCLM Turning OFF processing of SSH climatology. F Lm2CLM Turning OFF processing of 2D momentum climatology. T Lm3CLM Turning ON processing of 3D momentum climatology. T LtracerCLM(01) Turning ON processing of climatology tracer 01: temp T LtracerCLM(02) Turning ON processing of climatology tracer 02: salt F LnudgeM2CLM Turning OFF nudging of 2D momentum climatology. T LnudgeM3CLM Turning ON nudging of 3D momentum climatology. T LnudgeTCLM(01) Turning ON nudging of climatology tracer 01: temp T LnudgeTCLM(02) Turning ON nudging of climatology tracer 02: salt T Hout(idFsur) Write out free-surface. T Hout(idUbar) Write out 2D U-momentum component. T Hout(idVbar) Write out 2D V-momentum component. T Hout(idUvel) Write out 3D U-momentum component. T Hout(idVvel) Write out 3D V-momentum component. T Hout(idWvel) Write out W-momentum component. T Hout(idTvar) Write out tracer 01: temp T Hout(idTvar) Write out tracer 02: salt T Hout(idTsur) Write out surface net heat flux. T Hout(idTsur) Write out surface net salt flux. T Hout(idLhea) Write out latent heat flux. T Aout(idFsur) Write out averaged free-surface. T Aout(idUbar) Write out averaged 2D U-momentum component. T Aout(idVbar) Write out averaged 2D V-momentum component. T Aout(idUvel) Write out averaged 3D U-momentum component. T Aout(idVvel) Write out averaged 3D V-momentum component. T Aout(idu3dE) Write out averaged 3D U-eastward at RHO-points. T Aout(idv3dN) Write out averaged 3D V-northward at RHO-points. T Aout(idTvar) Write out averaged tracer 01: temp T Aout(idTvar) Write out averaged tracer 02: salt T Aout(idSdif) Write out averaged vertical diffusion: AKt(isalt). Output/Input Files: Output Restart File: ../Projects/Output/UB_ocean_rst_9_1k_linear_new.nc Output History File: ../Projects/Output/UB_ocean_his_9_1k_linear_new.nc Output Averages File: ../Projects/Output/1k_new/UB_ocean_avg_9_1k_linear_new.nc Input Grid File: /scratch/kokj01/ROMS/Projects/2014/1k_linear_new_V2_1_1/roms_east_1km_etopo5_new_V2_1_1.nc Input Nonlinear Initial File: /scratch/kokj01/ROMS/Projects/2012/1k_linear_new_V2_1_1/UB_ini_2012_1k_etopo5_linear_new_V2_1_1.nc Input Forcing File 01: /scratch/kokj01/ROMS/Projects/2012/1k_linear_new_V2_1/cfsv_lwrad_2012_UB_1k_etopo5_new_01.nc /scratch/kokj01/ROMS/Projects/2012/1k_linear_new_V2_1/cfsv_lwrad_2012_UB_1k_etopo5_new_02.nc /scratch/kokj01/ROMS/Projects/2012/1k_linear_new_V2_1/cfsv_lwrad_2012_UB_1k_etopo5_new_03.nc /scratch/kokj01/ROMS/Projects/2013/1k_linear_new_V2_1/cfsv_lwrad_2013_UB_1k_etopo5_new_01.nc /scratch/kokj01/ROMS/Projects/2013/1k_linear_new_V2_1/cfsv_lwrad_2013_UB_1k_etopo5_new_02.nc /scratch/kokj01/ROMS/Projects/2013/1k_linear_new_V2_1/cfsv_lwrad_2013_UB_1k_etopo5_new_03.nc /scratch/kokj01/ROMS/Projects/2014/1k_linear_new_V2_1/cfsv_lwrad_2014_UB_1k_etopo5_new_01.nc /scratch/kokj01/ROMS/Projects/2014/1k_linear_new_V2_1/cfsv_lwrad_2014_UB_1k_etopo5_new_02.nc /scratch/kokj01/ROMS/Projects/2014/1k_linear_new_V2_1/cfsv_lwrad_2014_UB_1k_etopo5_new_03.nc Input Forcing File 02: /scratch/kokj01/ROMS/Projects/2012/1k_linear_new_V2_1/cfsv_swrad_2012_UB_1k_etopo5_new_01.nc /scratch/kokj01/ROMS/Projects/2012/1k_linear_new_V2_1/cfsv_swrad_2012_UB_1k_etopo5_new_02.nc /scratch/kokj01/ROMS/Projects/2012/1k_linear_new_V2_1/cfsv_swrad_2012_UB_1k_etopo5_new_03.nc /scratch/kokj01/ROMS/Projects/2013/1k_linear_new_V2_1/cfsv_swrad_2013_UB_1k_etopo5_new_01.nc /scratch/kokj01/ROMS/Projects/2013/1k_linear_new_V2_1/cfsv_swrad_2013_UB_1k_etopo5_new_02.nc /scratch/kokj01/ROMS/Projects/2013/1k_linear_new_V2_1/cfsv_swrad_2013_UB_1k_etopo5_new_03.nc /scratch/kokj01/ROMS/Projects/2014/1k_linear_new_V2_1/cfsv_swrad_2014_UB_1k_etopo5_new_01.nc /scratch/kokj01/ROMS/Projects/2014/1k_linear_new_V2_1/cfsv_swrad_2014_UB_1k_etopo5_new_02.nc /scratch/kokj01/ROMS/Projects/2014/1k_linear_new_V2_1/cfsv_swrad_2014_UB_1k_etopo5_new_03.nc Input Forcing File 03: /scratch/kokj01/ROMS/Projects/2012/1k_linear_new_V2_1/cfsv_qair_2012_UB_1k_etopo5_new_01.nc /scratch/kokj01/ROMS/Projects/2012/1k_linear_new_V2_1/cfsv_qair_2012_UB_1k_etopo5_new_02.nc /scratch/kokj01/ROMS/Projects/2012/1k_linear_new_V2_1/cfsv_qair_2012_UB_1k_etopo5_new_03.nc /scratch/kokj01/ROMS/Projects/2013/1k_linear_new_V2_1/cfsv_qair_2013_UB_1k_etopo5_new_01.nc /scratch/kokj01/ROMS/Projects/2013/1k_linear_new_V2_1/cfsv_qair_2013_UB_1k_etopo5_new_02.nc /scratch/kokj01/ROMS/Projects/2013/1k_linear_new_V2_1/cfsv_qair_2013_UB_1k_etopo5_new_03.nc /scratch/kokj01/ROMS/Projects/2014/1k_linear_new_V2_1/cfsv_qair_2014_UB_1k_etopo5_new_01.nc /scratch/kokj01/ROMS/Projects/2014/1k_linear_new_V2_1/cfsv_qair_2014_UB_1k_etopo5_new_02.nc /scratch/kokj01/ROMS/Projects/2014/1k_linear_new_V2_1/cfsv_qair_2014_UB_1k_etopo5_new_03.nc Input Forcing File 04: /scratch/kokj01/ROMS/Projects/2012/1k_linear_new_V2_1/cfsv_tair_2012_UB_1k_etopo5_new_01.nc /scratch/kokj01/ROMS/Projects/2012/1k_linear_new_V2_1/cfsv_tair_2012_UB_1k_etopo5_new_02.nc /scratch/kokj01/ROMS/Projects/2012/1k_linear_new_V2_1/cfsv_tair_2012_UB_1k_etopo5_new_03.nc /scratch/kokj01/ROMS/Projects/2013/1k_linear_new_V2_1/cfsv_tair_2013_UB_1k_etopo5_new_01.nc /scratch/kokj01/ROMS/Projects/2013/1k_linear_new_V2_1/cfsv_tair_2013_UB_1k_etopo5_new_02.nc /scratch/kokj01/ROMS/Projects/2013/1k_linear_new_V2_1/cfsv_tair_2013_UB_1k_etopo5_new_03.nc /scratch/kokj01/ROMS/Projects/2014/1k_linear_new_V2_1/cfsv_tair_2014_UB_1k_etopo5_new_01.nc /scratch/kokj01/ROMS/Projects/2014/1k_linear_new_V2_1/cfsv_tair_2014_UB_1k_etopo5_new_02.nc /scratch/kokj01/ROMS/Projects/2014/1k_linear_new_V2_1/cfsv_tair_2014_UB_1k_etopo5_new_03.nc Input Forcing File 05: /scratch/kokj01/ROMS/Projects/2012/1k_linear_new_V2_1/cfsv_wind_2012_UB_1k_etopo5_U_new_01.nc /scratch/kokj01/ROMS/Projects/2012/1k_linear_new_V2_1/cfsv_wind_2012_UB_1k_etopo5_U_new_02.nc /scratch/kokj01/ROMS/Projects/2012/1k_linear_new_V2_1/cfsv_wind_2012_UB_1k_etopo5_U_new_03.nc /scratch/kokj01/ROMS/Projects/2013/1k_linear_new_V2_1/cfsv_wind_2013_UB_1k_etopo5_U_new_01.nc /scratch/kokj01/ROMS/Projects/2013/1k_linear_new_V2_1/cfsv_wind_2013_UB_1k_etopo5_U_new_02.nc /scratch/kokj01/ROMS/Projects/2013/1k_linear_new_V2_1/cfsv_wind_2013_UB_1k_etopo5_U_new_03.nc /scratch/kokj01/ROMS/Projects/2014/1k_linear_new_V2_1/cfsv_wind_2014_UB_1k_etopo5_U_new_01.nc /scratch/kokj01/ROMS/Projects/2014/1k_linear_new_V2_1/cfsv_wind_2014_UB_1k_etopo5_U_new_02.nc /scratch/kokj01/ROMS/Projects/2014/1k_linear_new_V2_1/cfsv_wind_2014_UB_1k_etopo5_U_new_03.nc Input Forcing File 06: /scratch/kokj01/ROMS/Projects/2012/1k_linear_new_V2_1/cfsv_wind_2012_UB_1k_etopo5_V_new_01.nc /scratch/kokj01/ROMS/Projects/2012/1k_linear_new_V2_1/cfsv_wind_2012_UB_1k_etopo5_V_new_02.nc /scratch/kokj01/ROMS/Projects/2012/1k_linear_new_V2_1/cfsv_wind_2012_UB_1k_etopo5_V_new_03.nc /scratch/kokj01/ROMS/Projects/2013/1k_linear_new_V2_1/cfsv_wind_2013_UB_1k_etopo5_V_new_01.nc /scratch/kokj01/ROMS/Projects/2013/1k_linear_new_V2_1/cfsv_wind_2013_UB_1k_etopo5_V_new_02.nc /scratch/kokj01/ROMS/Projects/2013/1k_linear_new_V2_1/cfsv_wind_2013_UB_1k_etopo5_V_new_03.nc /scratch/kokj01/ROMS/Projects/2014/1k_linear_new_V2_1/cfsv_wind_2014_UB_1k_etopo5_V_new_01.nc /scratch/kokj01/ROMS/Projects/2014/1k_linear_new_V2_1/cfsv_wind_2014_UB_1k_etopo5_V_new_02.nc /scratch/kokj01/ROMS/Projects/2014/1k_linear_new_V2_1/cfsv_wind_2014_UB_1k_etopo5_V_new_03.nc Input Forcing File 07: /scratch/kokj01/ROMS/Projects/2012/1k_linear_new_V2_1/cfsv_rain_2012_UB_1k_etopo5_new_01.nc /scratch/kokj01/ROMS/Projects/2012/1k_linear_new_V2_1/cfsv_rain_2012_UB_1k_etopo5_new_02.nc /scratch/kokj01/ROMS/Projects/2012/1k_linear_new_V2_1/cfsv_rain_2012_UB_1k_etopo5_new_03.nc /scratch/kokj01/ROMS/Projects/2013/1k_linear_new_V2_1/cfsv_rain_2013_UB_1k_etopo5_new_01.nc /scratch/kokj01/ROMS/Projects/2013/1k_linear_new_V2_1/cfsv_rain_2013_UB_1k_etopo5_new_02.nc /scratch/kokj01/ROMS/Projects/2013/1k_linear_new_V2_1/cfsv_rain_2013_UB_1k_etopo5_new_03.nc /scratch/kokj01/ROMS/Projects/2014/1k_linear_new_V2_1/cfsv_rain_2014_UB_1k_etopo5_new_01.nc /scratch/kokj01/ROMS/Projects/2014/1k_linear_new_V2_1/cfsv_rain_2014_UB_1k_etopo5_new_02.nc /scratch/kokj01/ROMS/Projects/2014/1k_linear_new_V2_1/cfsv_rain_2014_UB_1k_etopo5_new_03.nc Input Forcing File 08: /scratch/kokj01/ROMS/Projects/2012/1k_linear_new_V2_1/cfsv_pair_2012_1k_linear_new_01.nc /scratch/kokj01/ROMS/Projects/2012/1k_linear_new_V2_1/cfsv_pair_2012_1k_linear_new_02.nc /scratch/kokj01/ROMS/Projects/2012/1k_linear_new_V2_1/cfsv_pair_2012_1k_linear_new_03.nc /scratch/kokj01/ROMS/Projects/2013/1k_linear_new_V2_1/cfsv_pair_2013_1k_linear_new_01.nc /scratch/kokj01/ROMS/Projects/2013/1k_linear_new_V2_1/cfsv_pair_2013_1k_linear_new_02.nc /scratch/kokj01/ROMS/Projects/2013/1k_linear_new_V2_1/cfsv_pair_2013_1k_linear_new_03.nc /scratch/kokj01/ROMS/Projects/2014/1k_linear_new_V2_1/cfsv_pair_2014_UB_1k_etopo5_new_01.nc /scratch/kokj01/ROMS/Projects/2014/1k_linear_new_V2_1/cfsv_pair_2014_UB_1k_etopo5_new_02.nc /scratch/kokj01/ROMS/Projects/2014/1k_linear_new_V2_1/cfsv_pair_2014_UB_1k_etopo5_new_03.nc Input Forcing File 09: /scratch/kokj01/ROMS/Projects/2014/1k_linear_new_V2_1_1/roms_UB_frc_etopo5_1k_new_V2_1_1.nc Input Climatology File: /scratch/kokj01/ROMS/Projects/2012/1k_linear_new_V2_1_1/clm/UB_clm_2012_01_etopo5_linear_new_V2_1.nc /scratch/kokj01/ROMS/Projects/2012/1k_linear_new_V2_1_1/clm/UB_clm_2012_02_etopo5_linear_new_V2_1.nc /scratch/kokj01/ROMS/Projects/2012/1k_linear_new_V2_1_1/clm/UB_clm_2012_03_etopo5_linear_new_V2_1.nc /scratch/kokj01/ROMS/Projects/2012/1k_linear_new_V2_1_1/clm/UB_clm_2012_04_etopo5_linear_new_V2_1.nc /scratch/kokj01/ROMS/Projects/2012/1k_linear_new_V2_1_1/clm/UB_clm_2012_05_etopo5_linear_new_V2_1.nc /scratch/kokj01/ROMS/Projects/2012/1k_linear_new_V2_1_1/clm/UB_clm_2012_06_etopo5_linear_new_V2_1.nc /scratch/kokj01/ROMS/Projects/2012/1k_linear_new_V2_1_1/clm/UB_clm_2012_07_etopo5_linear_new_V2_1.nc /scratch/kokj01/ROMS/Projects/2012/1k_linear_new_V2_1_1/clm/UB_clm_2012_08_etopo5_linear_new_V2_1.nc /scratch/kokj01/ROMS/Projects/2012/1k_linear_new_V2_1_1/clm/UB_clm_2012_09_etopo5_linear_new_V2_1.nc /scratch/kokj01/ROMS/Projects/2012/1k_linear_new_V2_1_1/clm/UB_clm_2012_10_etopo5_linear_new_V2_1.nc /scratch/kokj01/ROMS/Projects/2012/1k_linear_new_V2_1_1/clm/UB_clm_2012_11_etopo5_linear_new_V2_1.nc /scratch/kokj01/ROMS/Projects/2012/1k_linear_new_V2_1_1/clm/UB_clm_2012_12_etopo5_linear_new_V2_1.nc /scratch/kokj01/ROMS/Projects/2012/1k_linear_new_V2_1_1/clm/UB_clm_2012_13_etopo5_linear_new_V2_1.nc /scratch/kokj01/ROMS/Projects/2012/1k_linear_new_V2_1_1/clm/UB_clm_2012_14_etopo5_linear_new_V2_1.nc /scratch/kokj01/ROMS/Projects/2012/1k_linear_new_V2_1_1/clm/UB_clm_2012_15_etopo5_linear_new_V2_1.nc /scratch/kokj01/ROMS/Projects/2012/1k_linear_new_V2_1_1/clm/UB_clm_2012_16_etopo5_linear_new_V2_1.nc /scratch/kokj01/ROMS/Projects/2012/1k_linear_new_V2_1_1/clm/UB_clm_2012_17_etopo5_linear_new_V2_1.nc /scratch/kokj01/ROMS/Projects/2012/1k_linear_new_V2_1_1/clm/UB_clm_2012_18_etopo5_linear_new_V2_1.nc /scratch/kokj01/ROMS/Projects/2013/1k_linear_new_V2_1_1/clm/UB_clm_2013_01_etopo5_linear_new_V2_1.nc /scratch/kokj01/ROMS/Projects/2013/1k_linear_new_V2_1_1/clm/UB_clm_2013_02_etopo5_linear_new_V2_1.nc /scratch/kokj01/ROMS/Projects/2013/1k_linear_new_V2_1_1/clm/UB_clm_2013_03_etopo5_linear_new_V2_1.nc /scratch/kokj01/ROMS/Projects/2013/1k_linear_new_V2_1_1/clm/UB_clm_2013_04_etopo5_linear_new_V2_1.nc /scratch/kokj01/ROMS/Projects/2013/1k_linear_new_V2_1_1/clm/UB_clm_2013_05_etopo5_linear_new_V2_1.nc /scratch/kokj01/ROMS/Projects/2013/1k_linear_new_V2_1_1/clm/UB_clm_2013_06_etopo5_linear_new_V2_1.nc /scratch/kokj01/ROMS/Projects/2013/1k_linear_new_V2_1_1/clm/UB_clm_2013_07_etopo5_linear_new_V2_1.nc /scratch/kokj01/ROMS/Projects/2013/1k_linear_new_V2_1_1/clm/UB_clm_2013_08_etopo5_linear_new_V2_1.nc /scratch/kokj01/ROMS/Projects/2013/1k_linear_new_V2_1_1/clm/UB_clm_2013_09_etopo5_linear_new_V2_1.nc /scratch/kokj01/ROMS/Projects/2013/1k_linear_new_V2_1_1/clm/UB_clm_2013_10_etopo5_linear_new_V2_1.nc /scratch/kokj01/ROMS/Projects/2013/1k_linear_new_V2_1_1/clm/UB_clm_2013_11_etopo5_linear_new_V2_1.nc /scratch/kokj01/ROMS/Projects/2013/1k_linear_new_V2_1_1/clm/UB_clm_2013_12_etopo5_linear_new_V2_1.nc /scratch/kokj01/ROMS/Projects/2013/1k_linear_new_V2_1_1/clm/UB_clm_2013_13_etopo5_linear_new_V2_1.nc /scratch/kokj01/ROMS/Projects/2013/1k_linear_new_V2_1_1/clm/UB_clm_2013_14_etopo5_linear_new_V2_1.nc /scratch/kokj01/ROMS/Projects/2013/1k_linear_new_V2_1_1/clm/UB_clm_2013_15_etopo5_linear_new_V2_1.nc /scratch/kokj01/ROMS/Projects/2013/1k_linear_new_V2_1_1/clm/UB_clm_2013_16_etopo5_linear_new_V2_1.nc /scratch/kokj01/ROMS/Projects/2013/1k_linear_new_V2_1_1/clm/UB_clm_2013_17_etopo5_linear_new_V2_1.nc /scratch/kokj01/ROMS/Projects/2013/1k_linear_new_V2_1_1/clm/UB_clm_2013_18_etopo5_linear_new_V2_1.nc /scratch/kokj01/ROMS/Projects/2014/1k_linear_new_V2_1_1/clm/UB_clm_2014_01_etopo5_linear_new_V2_1.nc /scratch/kokj01/ROMS/Projects/2014/1k_linear_new_V2_1_1/clm/UB_clm_2014_02_etopo5_linear_new_V2_1.nc /scratch/kokj01/ROMS/Projects/2014/1k_linear_new_V2_1_1/clm/UB_clm_2014_03_etopo5_linear_new_V2_1.nc /scratch/kokj01/ROMS/Projects/2014/1k_linear_new_V2_1_1/clm/UB_clm_2014_04_etopo5_linear_new_V2_1.nc /scratch/kokj01/ROMS/Projects/2014/1k_linear_new_V2_1_1/clm/UB_clm_2014_05_etopo5_linear_new_V2_1.nc /scratch/kokj01/ROMS/Projects/2014/1k_linear_new_V2_1_1/clm/UB_clm_2014_06_etopo5_linear_new_V2_1.nc /scratch/kokj01/ROMS/Projects/2014/1k_linear_new_V2_1_1/clm/UB_clm_2014_07_etopo5_linear_new_V2_1.nc /scratch/kokj01/ROMS/Projects/2014/1k_linear_new_V2_1_1/clm/UB_clm_2014_08_etopo5_linear_new_V2_1.nc /scratch/kokj01/ROMS/Projects/2014/1k_linear_new_V2_1_1/clm/UB_clm_2014_09_etopo5_linear_new_V2_1.nc /scratch/kokj01/ROMS/Projects/2014/1k_linear_new_V2_1_1/clm/UB_clm_2014_10_etopo5_linear_new_V2_1.nc /scratch/kokj01/ROMS/Projects/2014/1k_linear_new_V2_1_1/clm/UB_clm_2014_11_etopo5_linear_new_V2_1.nc /scratch/kokj01/ROMS/Projects/2014/1k_linear_new_V2_1_1/clm/UB_clm_2014_12_etopo5_linear_new_V2_1.nc /scratch/kokj01/ROMS/Projects/2014/1k_linear_new_V2_1_1/clm/UB_clm_2014_13_etopo5_linear_new_V2_1.nc /scratch/kokj01/ROMS/Projects/2014/1k_linear_new_V2_1_1/clm/UB_clm_2014_14_etopo5_linear_new_V2_1.nc /scratch/kokj01/ROMS/Projects/2014/1k_linear_new_V2_1_1/clm/UB_clm_2014_15_etopo5_linear_new_V2_1.nc /scratch/kokj01/ROMS/Projects/2014/1k_linear_new_V2_1_1/clm/UB_clm_2014_16_etopo5_linear_new_V2_1.nc /scratch/kokj01/ROMS/Projects/2014/1k_linear_new_V2_1_1/clm/UB_clm_2014_17_etopo5_linear_new_V2_1.nc /scratch/kokj01/ROMS/Projects/2014/1k_linear_new_V2_1_1/clm/UB_clm_2014_18_etopo5_linear_new_V2_1.nc Input Boundary File: /scratch/kokj01/ROMS/Projects/2012/1k_linear_new_V2_1_1/UB_bdy_2012_etopo5_linear_new_V2_1.nc /scratch/kokj01/ROMS/Projects/2013/1k_linear_new_V2_1_1/UB_bdy_2013_etopo5_linear_new_V2_1.nc /scratch/kokj01/ROMS/Projects/2014/1k_linear_new_V2_1_1/UB_bdy_2014_etopo5_linear_new_V2_1.nc Tile partition information for Grid 01: 1079x0823x0041 tiling: 003x016 tile Istr Iend Jstr Jend Npts 0 1 360 1 48 708480 1 361 720 1 48 708480 2 721 1079 1 48 706512 3 1 360 49 100 767520 4 361 720 49 100 767520 5 721 1079 49 100 765388 6 1 360 101 152 767520 7 361 720 101 152 767520 8 721 1079 101 152 765388 9 1 360 153 204 767520 10 361 720 153 204 767520 11 721 1079 153 204 765388 12 1 360 205 256 767520 13 361 720 205 256 767520 14 721 1079 205 256 765388 15 1 360 257 308 767520 16 361 720 257 308 767520 17 721 1079 257 308 765388 18 1 360 309 360 767520 19 361 720 309 360 767520 20 721 1079 309 360 765388 21 1 360 361 412 767520 22 361 720 361 412 767520 23 721 1079 361 412 765388 24 1 360 413 464 767520 25 361 720 413 464 767520 26 721 1079 413 464 765388 27 1 360 465 516 767520 28 361 720 465 516 767520 29 721 1079 465 516 765388 30 1 360 517 568 767520 31 361 720 517 568 767520 32 721 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0.50 360.50 204.50 256.50 RHO-points 13 360.50 720.50 204.50 256.50 RHO-points 14 720.50 1079.50 204.50 256.50 RHO-points 15 0.50 360.50 256.50 308.50 RHO-points 16 360.50 720.50 256.50 308.50 RHO-points 17 720.50 1079.50 256.50 308.50 RHO-points 18 0.50 360.50 308.50 360.50 RHO-points 19 360.50 720.50 308.50 360.50 RHO-points 20 720.50 1079.50 308.50 360.50 RHO-points 21 0.50 360.50 360.50 412.50 RHO-points 22 360.50 720.50 360.50 412.50 RHO-points 23 720.50 1079.50 360.50 412.50 RHO-points 24 0.50 360.50 412.50 464.50 RHO-points 25 360.50 720.50 412.50 464.50 RHO-points 26 720.50 1079.50 412.50 464.50 RHO-points 27 0.50 360.50 464.50 516.50 RHO-points 28 360.50 720.50 464.50 516.50 RHO-points 29 720.50 1079.50 464.50 516.50 RHO-points 30 0.50 360.50 516.50 568.50 RHO-points 31 360.50 720.50 516.50 568.50 RHO-points 32 720.50 1079.50 516.50 568.50 RHO-points 33 0.50 360.50 568.50 620.50 RHO-points 34 360.50 720.50 568.50 620.50 RHO-points 35 720.50 1079.50 568.50 620.50 RHO-points 36 0.50 360.50 620.50 672.50 RHO-points 37 360.50 720.50 620.50 672.50 RHO-points 38 720.50 1079.50 620.50 672.50 RHO-points 39 0.50 360.50 672.50 724.50 RHO-points 40 360.50 720.50 672.50 724.50 RHO-points 41 720.50 1079.50 672.50 724.50 RHO-points 42 0.50 360.50 724.50 776.50 RHO-points 43 360.50 720.50 724.50 776.50 RHO-points 44 720.50 1079.50 724.50 776.50 RHO-points 45 0.50 360.50 776.50 823.50 RHO-points 46 360.50 720.50 776.50 823.50 RHO-points 47 720.50 1079.50 776.50 823.50 RHO-points 0 1.00 360.50 0.50 48.50 U-points 1 360.50 720.50 0.50 48.50 U-points 2 720.50 1079.00 0.50 48.50 U-points 3 1.00 360.50 48.50 100.50 U-points 4 360.50 720.50 48.50 100.50 U-points 5 720.50 1079.00 48.50 100.50 U-points 6 1.00 360.50 100.50 152.50 U-points 7 360.50 720.50 100.50 152.50 U-points 8 720.50 1079.00 100.50 152.50 U-points 9 1.00 360.50 152.50 204.50 U-points 10 360.50 720.50 152.50 204.50 U-points 11 720.50 1079.00 152.50 204.50 U-points 12 1.00 360.50 204.50 256.50 U-points 13 360.50 720.50 204.50 256.50 U-points 14 720.50 1079.00 204.50 256.50 U-points 15 1.00 360.50 256.50 308.50 U-points 16 360.50 720.50 256.50 308.50 U-points 17 720.50 1079.00 256.50 308.50 U-points 18 1.00 360.50 308.50 360.50 U-points 19 360.50 720.50 308.50 360.50 U-points 20 720.50 1079.00 308.50 360.50 U-points 21 1.00 360.50 360.50 412.50 U-points 22 360.50 720.50 360.50 412.50 U-points 23 720.50 1079.00 360.50 412.50 U-points 24 1.00 360.50 412.50 464.50 U-points 25 360.50 720.50 412.50 464.50 U-points 26 720.50 1079.00 412.50 464.50 U-points 27 1.00 360.50 464.50 516.50 U-points 28 360.50 720.50 464.50 516.50 U-points 29 720.50 1079.00 464.50 516.50 U-points 30 1.00 360.50 516.50 568.50 U-points 31 360.50 720.50 516.50 568.50 U-points 32 720.50 1079.00 516.50 568.50 U-points 33 1.00 360.50 568.50 620.50 U-points 34 360.50 720.50 568.50 620.50 U-points 35 720.50 1079.00 568.50 620.50 U-points 36 1.00 360.50 620.50 672.50 U-points 37 360.50 720.50 620.50 672.50 U-points 38 720.50 1079.00 620.50 672.50 U-points 39 1.00 360.50 672.50 724.50 U-points 40 360.50 720.50 672.50 724.50 U-points 41 720.50 1079.00 672.50 724.50 U-points 42 1.00 360.50 724.50 776.50 U-points 43 360.50 720.50 724.50 776.50 U-points 44 720.50 1079.00 724.50 776.50 U-points 45 1.00 360.50 776.50 823.50 U-points 46 360.50 720.50 776.50 823.50 U-points 47 720.50 1079.00 776.50 823.50 U-points 0 0.50 360.50 1.00 48.50 V-points 1 360.50 720.50 1.00 48.50 V-points 2 720.50 1079.50 1.00 48.50 V-points 3 0.50 360.50 48.50 100.50 V-points 4 360.50 720.50 48.50 100.50 V-points 5 720.50 1079.50 48.50 100.50 V-points 6 0.50 360.50 100.50 152.50 V-points 7 360.50 720.50 100.50 152.50 V-points 8 720.50 1079.50 100.50 152.50 V-points 9 0.50 360.50 152.50 204.50 V-points 10 360.50 720.50 152.50 204.50 V-points 11 720.50 1079.50 152.50 204.50 V-points 12 0.50 360.50 204.50 256.50 V-points 13 360.50 720.50 204.50 256.50 V-points 14 720.50 1079.50 204.50 256.50 V-points 15 0.50 360.50 256.50 308.50 V-points 16 360.50 720.50 256.50 308.50 V-points 17 720.50 1079.50 256.50 308.50 V-points 18 0.50 360.50 308.50 360.50 V-points 19 360.50 720.50 308.50 360.50 V-points 20 720.50 1079.50 308.50 360.50 V-points 21 0.50 360.50 360.50 412.50 V-points 22 360.50 720.50 360.50 412.50 V-points 23 720.50 1079.50 360.50 412.50 V-points 24 0.50 360.50 412.50 464.50 V-points 25 360.50 720.50 412.50 464.50 V-points 26 720.50 1079.50 412.50 464.50 V-points 27 0.50 360.50 464.50 516.50 V-points 28 360.50 720.50 464.50 516.50 V-points 29 720.50 1079.50 464.50 516.50 V-points 30 0.50 360.50 516.50 568.50 V-points 31 360.50 720.50 516.50 568.50 V-points 32 720.50 1079.50 516.50 568.50 V-points 33 0.50 360.50 568.50 620.50 V-points 34 360.50 720.50 568.50 620.50 V-points 35 720.50 1079.50 568.50 620.50 V-points 36 0.50 360.50 620.50 672.50 V-points 37 360.50 720.50 620.50 672.50 V-points 38 720.50 1079.50 620.50 672.50 V-points 39 0.50 360.50 672.50 724.50 V-points 40 360.50 720.50 672.50 724.50 V-points 41 720.50 1079.50 672.50 724.50 V-points 42 0.50 360.50 724.50 776.50 V-points 43 360.50 720.50 724.50 776.50 V-points 44 720.50 1079.50 724.50 776.50 V-points 45 0.50 360.50 776.50 823.00 V-points 46 360.50 720.50 776.50 823.00 V-points 47 720.50 1079.50 776.50 823.00 V-points Maximum halo size in XI and ETA directions: HaloSizeI(1) = 744 HaloSizeJ(1) = 128 TileSide(1) = 366 TileSize(1) = 21228 Lateral Boundary Conditions: NLM ============================ Variable Grid West Edge South Edge East Edge North Edge --------- ---- ---------- ---------- ---------- ---------- zeta 1 Closed Chapman Imp Chapman Imp Chapman Imp ubar 1 Closed Flather Flather Flather vbar 1 Closed Flather Flather Flather u 1 Closed Rad + Nud Rad + Nud Rad + Nud v 1 Closed Rad + Nud Rad + Nud Rad + Nud temp 1 Closed Rad + Nud Rad + Nud Rad + Nud salt 1 Closed Rad + Nud Rad + Nud Rad + Nud Activated C-preprocessing Options: UlleungBasin Ulleung Basin 1 km-ETOPO5 ANA_BSFLUX Analytical kinematic bottom salinity flux. ANA_BTFLUX Analytical kinematic bottom temperature flux. ANA_NUDGCOEF Analytical spatially varying nudging time-scales. ANA_SSFLUX Analytical kinematic surface salinity flux. ASSUMED_SHAPE Using assumed-shape arrays. AVERAGES Writing out time-averaged nonlinear model fields. BULK_FLUXES Surface bulk fluxes parameterization. CURVGRID Orthogonal curvilinear grid. DJ_GRADPS Parabolic Splines density Jacobian (Shchepetkin, 2002). DOUBLE_PRECISION Double precision arithmetic. EMINUSP Compute Salt Flux using E-P. LMD_BKPP KPP bottom boundary layer mixing. LMD_CONVEC LMD convective mixing due to shear instability. LMD_MIXING Large/McWilliams/Doney interior mixing. LMD_NONLOCAL LMD convective nonlocal transport. LMD_RIMIX LMD diffusivity due to shear instability. LMD_SHAPIRO Shapiro filtering boundary layer depth. LMD_SKPP KPP surface boundary layer mixing. MASKING Land/Sea masking. MIX_GEO_TS Mixing of tracers along geopotential surfaces. MIX_S_UV Mixing of momentum along constant S-surfaces. MPI MPI distributed-memory configuration. NONLINEAR Nonlinear Model. NONLIN_EOS Nonlinear Equation of State for seawater. POWER_LAW Power-law shape time-averaging barotropic filter. PROFILE Time profiling activated . RI_SPLINES Parabolic Spline Reconstruction for Richardson Number. !RST_SINGLE Double precision fields in restart NetCDF file. SALINITY Using salinity. SOLAR_SOURCE Solar Radiation Source Term. SOLVE3D Solving 3D Primitive Equations. SPLINES_VDIFF Parabolic Spline Reconstruction for Vertical Diffusion. SPLINES_VVISC Parabolic Spline Reconstruction for Vertical Viscosity. TS_U3HADVECTION Third-order upstream horizontal advection of tracers. TS_C4VADVECTION Fourth-order centered vertical advection of tracers. TS_DIF2 Harmonic mixing of tracers. UV_ADV Advection of momentum. UV_COR Coriolis term. UV_U3HADVECTION Third-order upstream horizontal advection of 3D momentum. UV_C4VADVECTION Fourth-order centered vertical advection of momentum. UV_QDRAG Quadratic bottom stress. UV_VIS2 Harmonic mixing of momentum. VAR_RHO_2D Variable density barotropic mode. Process Information: Node # 10 (pid= 8218) is active. Node # 0 (pid= 8208) is active. Node # 42 (pid= 1122) is active. Node # 46 (pid= 1126) is active. Node # 9 (pid= 8217) is active. Node # 26 (pid= 19199) is active. Node # 39 (pid= 1119) is active. Node # 28 (pid= 19201) is active. Node # 41 (pid= 1121) is active. Node # 8 (pid= 8216) is active. Node # 23 (pid= 19196) is active. Node # 4 (pid= 8212) is active. Node # 45 (pid= 1125) is active. Node # 3 (pid= 8211) is active. Node # 5 (pid= 8213) is active. Node # 16 (pid= 19189) is active. Node # 30 (pid= 19203) is active. Node # 31 (pid= 19204) is active. Node # 29 (pid= 19202) is active. Node # 15 (pid= 8223) is active. Node # 34 (pid= 1114) is active. Node # 35 (pid= 1115) is active. Node # 43 (pid= 1123) is active. Node # 32 (pid= 1112) is active. Node # 1 (pid= 8209) is active. Node # 2 (pid= 8210) is active. Node # 14 (pid= 8222) is active. Node # 17 (pid= 19190) is active. Node # 19 (pid= 19192) is active. Node # 22 (pid= 19195) is active. Node # 27 (pid= 19200) is active. Node # 18 (pid= 19191) is active. Node # 37 (pid= 1117) is active. Node # 7 (pid= 8215) is active. Node # 38 (pid= 1118) is active. Node # 6 (pid= 8214) is active. Node # 11 (pid= 8219) is active. Node # 12 (pid= 8220) is active. Node # 13 (pid= 8221) is active. Node # 20 (pid= 19193) is active. Node # 21 (pid= 19194) is active. Node # 24 (pid= 19197) is active. Node # 25 (pid= 19198) is active. Node # 44 (pid= 1124) is active. Node # 33 (pid= 1113) is active. Node # 40 (pid= 1120) is active. Node # 47 (pid= 1129) is active. Node # 36 (pid= 1116) is active. INITIAL: Configuring and initializing forward nonlinear model ... ******* Vertical S-coordinate System, Grid 01: level S-coord Cs-curve Z at hmin at hc half way at hmax 41 0.0000000 0.0000000 0.000 0.000 0.000 0.000 40 -0.0243902 -0.0000281 -0.061 -0.061 -0.172 -0.222 39 -0.0487805 -0.0001130 -0.122 -0.122 -0.445 -0.646 38 -0.0731707 -0.0002574 -0.184 -0.184 -0.823 -1.283 37 -0.0975610 -0.0004654 -0.245 -0.245 -1.316 -2.146 36 -0.1219512 -0.0007431 -0.307 -0.307 -1.932 -3.257 35 -0.1463415 -0.0010986 -0.369 -0.369 -2.687 -4.646 34 -0.1707317 -0.0015422 -0.431 -0.431 -3.599 -6.349 33 -0.1951220 -0.0020870 -0.493 -0.493 -4.692 -8.412 32 -0.2195122 -0.0027489 -0.556 -0.556 -5.993 -10.892 31 -0.2439024 -0.0035470 -0.619 -0.619 -7.536 -13.858 30 -0.2682927 -0.0045048 -0.682 -0.682 -9.365 -17.394 29 -0.2926829 -0.0056502 -0.746 -0.746 -11.527 -21.597 28 -0.3170732 -0.0070166 -0.810 -0.810 -14.084 -26.588 27 -0.3414634 -0.0086438 -0.875 -0.875 -17.105 -32.509 26 -0.3658537 -0.0105792 -0.941 -0.941 -20.675 -39.528 25 -0.3902439 -0.0128791 -1.008 -1.008 -24.895 -47.846 24 -0.4146341 -0.0156106 -1.076 -1.076 -29.883 -57.702 23 -0.4390244 -0.0188531 -1.145 -1.145 -35.783 -69.379 22 -0.4634146 -0.0227008 -1.215 -1.215 -42.760 -83.213 21 -0.4878049 -0.0272653 -1.288 -1.288 -51.015 -99.601 20 -0.5121951 -0.0326791 -1.362 -1.362 -60.784 -119.016 19 -0.5365854 -0.0390988 -1.439 -1.439 -72.344 -142.016 18 -0.5609756 -0.0467101 -1.519 -1.519 -86.028 -169.262 17 -0.5853659 -0.0557324 -1.603 -1.603 -102.226 -201.537 16 -0.6097561 -0.0664253 -1.690 -1.690 -121.401 -239.765 15 -0.6341463 -0.0790956 -1.783 -1.783 -144.099 -285.040 14 -0.6585366 -0.0941055 -1.882 -1.882 -170.967 -338.653 13 -0.6829268 -0.1118825 -1.987 -1.987 -202.765 -402.126 12 -0.7073171 -0.1329302 -2.101 -2.101 -240.390 -477.256 11 -0.7317073 -0.1578416 -2.224 -2.224 -284.901 -566.155 10 -0.7560976 -0.1873137 -2.359 -2.359 -337.538 -671.307 9 -0.7804878 -0.2221642 -2.507 -2.507 -399.758 -795.625 8 -0.8048780 -0.2633505 -2.671 -2.671 -473.268 -942.523 7 -0.8292683 -0.3119911 -2.853 -2.853 -560.061 -1115.986 6 -0.8536585 -0.3693880 -3.058 -3.058 -662.456 -1320.653 5 -0.8780488 -0.4370521 -3.288 -3.288 -783.146 -1561.910 4 -0.9024390 -0.5167282 -3.548 -3.548 -925.239 -1845.974 3 -0.9268293 -0.6104210 -3.843 -3.843 -1092.309 -2179.990 2 -0.9512195 -0.7204184 -4.179 -4.179 -1288.431 -2572.110 1 -0.9756098 -0.8493106 -4.562 -4.562 -1518.221 -3031.566 0 -1.0000000 -1.0000000 -5.000 -5.000 -1786.851 -3568.701 Time Splitting Weights for Grid 01: ndtfast = 120 nfast = 162 ================================== Primary Secondary Accumulated to Current Step 1-0.0001172226421325 0.0083333333333333-0.0001172226421325 0.0083333333333333 2-0.0002292309049309 0.0083343101886844-0.0003464535470635 0.0166676435220178 3-0.0003360247898444 0.0083362204462255-0.0006824783369079 0.0250038639682433 4-0.0004376043025085 0.0083390206528076-0.0011200826394164 0.0333428846210509 5-0.0005339694575760 0.0083426673553285-0.0016540520969924 0.0416855519763793 6-0.0006251202854791 0.0083471171008083-0.0022791723824715 0.0500326690771876 7-0.0007110568411249 0.0083523264365206-0.0029902292235963 0.0583849955137082 8-0.0007917792145223 0.0083582519101966-0.0037820084381186 0.0667432474239048 9-0.0008672875433415 0.0083648500703177-0.0046492959814601 0.0751080974942225 10-0.0009375820274056 0.0083720774665122-0.0055868780088656 0.0834801749607347 11-0.0010026629451142 0.0083798906500739-0.0065895409539798 0.0918600656108086 12-0.0010625306717997 0.0083882461746165-0.0076520716257795 0.1002483117854251 13-0.0011171857000155 0.0083971005968815-0.0087692573257949 0.1086454123823066 14-0.0011666286617562 0.0084064104777150-0.0099358859875511 0.1170518228600215 15-0.0012108603526105 0.0084161323832296-0.0111467463401616 0.1254679552432511 16-0.0012498817578462 0.0084262228861680-0.0123966280980078 0.1338941781294191 17-0.0012836940804268 0.0084366385674834-0.0136803221784346 0.1423308166969025 18-0.0013122987709613 0.0084473360181536-0.0149926209493959 0.1507781527150561 19-0.0013356975595855 0.0084582718412450-0.0163283185089813 0.1592364245563011 20-0.0013538924897757 0.0084694026542415-0.0176822109987570 0.1677058272105426 21-0.0013668859540947 0.0084806850916563-0.0190490969528518 0.1761865123021989 22-0.0013746807318701 0.0084920758079404-0.0204237776847219 0.1846785881101393 23-0.0013772800288043 0.0085035314807060-0.0218010577135262 0.1931821195908454 24-0.0013746875185173 0.0085150088142794-0.0231757452320434 0.2016971284051247 25-0.0013669073860217 0.0085264645436004-0.0245426526180651 0.2102235929487251 26-0.0013539443731293 0.0085378554384839-0.0258965969911944 0.2187614483872090 27-0.0013358038257906 0.0085491383082600-0.0272324008169849 0.2273105866954689 28-0.0013124917433661 0.0085602700068082-0.0285448925603511 0.2358708567022771 29-0.0012840148298302 0.0085712074380029-0.0298289073901813 0.2444420641402801 30-0.0012503805469065 0.0085819075615848-0.0310792879370878 0.2530239717018649 31-0.0012115971691365 0.0085923273994757-0.0322908851062242 0.2616162991013407 32-0.0011676738408795 0.0086024240425519-0.0334585589471038 0.2702187231438925 33-0.0011186206352453 0.0086121546578925-0.0345771795823491 0.2788308778017851 34-0.0010644486149587 0.0086214764965196-0.0356416281973078 0.2874523542983046 35-0.0010051698951567 0.0086303469016442-0.0366467980924644 0.2960827011999488 36-0.0009407977081172 0.0086387233174372-0.0375875958005817 0.3047214245173860 37-0.0008713464699211 0.0086465632983382-0.0384589422705028 0.3133679878157242 38-0.0007968318490450 0.0086538245189209-0.0392557741195477 0.3220218123346451 39-0.0007172708368875 0.0086604647843296-0.0399730449564352 0.3306822771189747 40-0.0006326818202270 0.0086664420413036-0.0406057267766622 0.3393487191602783 41-0.0005430846556122 0.0086717143898055-0.0411488114322744 0.3480204335500838 42-0.0004485007456841 0.0086762400952690-0.0415973121779585 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0.5720638067984858 68 0.0036418931688515 0.0084013004548469-0.0045141614127752 0.5804651072533327 69 0.0038549596619306 0.0083709513451065-0.0006592017508447 0.5888360585984391 70 0.0040714152467327 0.0083388266812570 0.0034122134958881 0.5971748852796962 71 0.0042911517983864 0.0083048982208676 0.0077033652942745 0.6054797835005638 72 0.0045140564577757 0.0082691386225477 0.0122174217520502 0.6137489221231115 73 0.0047400114953199 0.0082315214853996 0.0169574332473702 0.6219804436085111 74 0.0049688941728199 0.0081920213896052 0.0219263274201901 0.6301724649981164 75 0.0052005766033728 0.0081506139381651 0.0271269040235629 0.6383230789362815 76 0.0054349256093544 0.0081072757998036 0.0325618296329173 0.6464303547360851 77 0.0056718025784691 0.0080619847530590 0.0382336322113864 0.6544923394891441 78 0.0059110633178682 0.0080147197315718 0.0441446955292546 0.6625070592207158 79 0.0061525579063350 0.0079654608705895 0.0502972534355897 0.6704725200913054 80 0.0063961305445390 0.0079141895547034 0.0566933839801287 0.6783867096460089 81 0.0066416194033565 0.0078608884668323 0.0633350033834852 0.6862475981128412 82 0.0068888564702600 0.0078055416384710 0.0702238598537452 0.6940531397513121 83 0.0071376673937753 0.0077481345012188 0.0773615272475205 0.7018012742525309 84 0.0073878713260055 0.0076886539396040 0.0847493985735260 0.7094899281921350 85 0.0076392807632239 0.0076270883452206 0.0923886793367499 0.7171170165373556 86 0.0078917013845343 0.0075634276721938 0.1002803807212841 0.7246804442095494 87 0.0081449318885983 0.0074976634939893 0.1084253126098824 0.7321781077035386 88 0.0083987638284322 0.0074297890615843 0.1168240764383146 0.7396078967651230 89 0.0086529814442693 0.0073597993630140 0.1254770578825839 0.7469676961281370 90 0.0089073614944923 0.0072876911843118 0.1343844193770763 0.7542553873124488 91 0.0091616730846320 0.0072134631718577 0.1435460924617082 0.7614688504843065 92 0.0094156774944340 0.0071371158961524 0.1529617699561422 0.7686059663804589 93 0.0096691280029939 0.0070586519170321 0.1626308979591360 0.7756646182974910 94 0.0099217697119596 0.0069780758503405 0.1725526676710957 0.7826426941478315 95 0.0101733393668016 0.0068953944360742 0.1827260070378973 0.7895380885839057 96 0.0104235651761508 0.0068106166080175 0.1931495722140481 0.7963487051919232 97 0.0106721666292051 0.0067237535648829 0.2038217388432532 0.8030724587568062 98 0.0109188543112019 0.0066348188429729 0.2147405931544551 0.8097072775997791 99 0.0111633297169610 0.0065438283903795 0.2259039228714161 0.8162511059901587 100 0.0114052850624924 0.0064508006427382 0.2373092079339085 0.8227019066328969 101 0.0116444030946744 0.0063557566005508 0.2489536110285829 0.8290576632334477 102 0.0118803568989975 0.0062587199080951 0.2608339679275804 0.8353163831415428 103 0.0121128097053780 0.0061597169339368 0.2729467776329584 0.8414761000754796 104 0.0123414146920373 0.0060587768530587 0.2852881923249957 0.8475348769285382 105 0.0125658147874511 0.0059559317306250 0.2978540071124469 0.8534908086591633 106 0.0127856424703642 0.0058512166073963 0.3106396495828110 0.8593420252665596 107 0.0130005195678754 0.0057446695868099 0.3236401691506864 0.8650866948533694 108 0.0132100570515883 0.0056363319237443 0.3368502262022748 0.8707230267771137 109 0.0134138548318307 0.0055262481149810 0.3502640810341054 0.8762492748920947 110 0.0136115015499419 0.0054144659913825 0.3638755825840473 0.8816637408834772 111 0.0138025743686275 0.0053010368117996 0.3776781569526748 0.8869647776952768 112 0.0139866387603819 0.0051860153587277 0.3916647957130567 0.8921507930540046 113 0.0141632482939791 0.0050694600357245 0.4058280440070359 0.8972202530897291 114 0.0143319444190305 0.0049514329666080 0.4201599884260664 0.9021716860563371 115 0.0144922562486115 0.0048320000964494 0.4346522446746779 0.9070036861527866 116 0.0146437003399546 0.0047112312943777 0.4492959450146324 0.9117149174471643 117 0.0147857804732117 0.0045892004582114 0.4640817254878442 0.9163041179053757 118 0.0149179874282830 0.0044659856209346 0.4789997129161272 0.9207701035263103 119 0.0150397987597145 0.0043416690590323 0.4940395116758418 0.9251117725853426 120 0.0151506785696630 0.0042163374027013 0.5091901902455047 0.9293281099880439 121 0.0152500772789280 0.0040900817479541 0.5244402675244327 0.9334181917359980 122 0.0153374313960537 0.0039629977706297 0.5397776989204864 0.9373811895066277 123 0.0154121632844963 0.0038351858423293 0.5551898622049827 0.9412163753489571 124 0.0154736809278601 0.0037067511482918 0.5706635431328427 0.9449231264972489 125 0.0155213776932017 0.0035778038072263 0.5861849208260445 0.9485009303044751 126 0.0155546320924023 0.0034484589931163 0.6017395529184467 0.9519493892975914 127 0.0155728075416057 0.0033188370590129 0.6173123604600523 0.9552682263566044 128 0.0155752521187267 0.0031890636628329 0.6328876125787790 0.9584572900194372 129 0.0155612983190259 0.0030592698951768 0.6484489108978049 0.9615165599146140 130 0.0155302628087524 0.0029295924091850 0.6639791737065572 0.9644461523237990 131 0.0154814461768545 0.0028001735524454 0.6794606198834118 0.9672463258762444 132 0.0154141326847582 0.0026711615009716 0.6948747525681700 0.9699174873772159 133 0.0153275900142129 0.0025427103952652 0.7102023425823829 0.9724601977724812 134 0.0152210690132063 0.0024149804784801 0.7254234115955892 0.9748751782509613 135 0.0150938034399454 0.0022881382367034 0.7405172150355346 0.9771633164876646 136 0.0149450097049061 0.0021623565413705 0.7554622247404407 0.9793256730290352 137 0.0147738866109511 0.0020378147938297 0.7702361113513918 0.9813634878228649 138 0.0145796150915144 0.0019146990720717 0.7848157264429062 0.9832781868949366 139 0.0143613579468548 0.0017932022796424 0.7991770843897611 0.9850713891745790 140 0.0141182595783759 0.0016735242967520 0.8132953439681370 0.9867449134713310 141 0.0138494457210152 0.0015558721335989 0.8271447896891522 0.9883007856049298 142 0.0135540231737002 0.0014404600859237 0.8406988128628524 0.9897412456908535 143 0.0132310795278724 0.0013275098928096 0.8539298923907248 0.9910687555836631 144 0.0128796828940790 0.0012172508967440 0.8668095752848038 0.9922860064804071 145 0.0124988816266330 0.0011099202059600 0.8793084569114369 0.9933959266863671 146 0.0120877040463403 0.0010057628590714 0.8913961609577772 0.9944016895454385 147 0.0116451581612946 0.0009050319920185 0.9030413191190718 0.9953067215374570 148 0.0111702313857412 0.0008079890073411 0.9142115505048131 0.9961147105447981 149 0.0106618902570072 0.0007149037457932 0.9248734407618202 0.9968296142905912 150 0.0101190801505000 0.0006260546603182 0.9349925209123202 0.9974556689509094 151 0.0095407249927742 0.0005417289923973 0.9445332459050945 0.9979973979433068 152 0.0089257269726653 0.0004622229507909 0.9534589728777598 0.9984596208940977 153 0.0082729662504917 0.0003878418926853 0.9617319391282515 0.9988474627867830 154 0.0075813006653245 0.0003189005072646 0.9693132397935760 0.9991663632940476 155 0.0068495654403250 0.0002557230017202 0.9761628052339010 0.9994220862957678 156 0.0060765728861500 0.0001986432897175 0.9822393781200510 0.9996207295854853 157 0.0052611121024249 0.0001480051823329 0.9875004902224759 0.9997687347678182 158 0.0044019486772844 0.0001041625814794 0.9919024388997603 0.9998728973492976 159 0.0034978243849815 0.0000674796758353 0.9954002632847417 0.9999403770251329 160 0.0025474568815635 0.0000383311392938 0.9979477201663052 0.9999787081644268 161 0.0015495393986166 0.0000171023319475 0.9994972595649217 0.9999958104963742 162 0.0005027404350782 0.0000041895036257 1.0000000000000000 0.9999999999999999 ndtfast, nfast = 120 162 nfast/ndtfast = 1.35000 Centers of gravity and integrals (values must be 1, 1, approx 1/2, 1, 1): 1.000000000000 1.016453155986 0.508226577993 1.000000000000 1.000000000000 Power filter parameters, Fgamma, gamma = 0.28400 0.26033 Metrics information for Grid 01: =============================== Minimum X-grid spacing, DXmin = 7.76529482E-01 km Maximum X-grid spacing, DXmax = 8.42913833E-01 km Minimum Y-grid spacing, DYmin = 7.76652995E-01 km Maximum Y-grid spacing, DYmax = 8.42874763E-01 km Minimum Z-grid spacing, DZmin = 6.10457371E-02 m Maximum Z-grid spacing, DZmax = 5.37134922E+02 m Minimum barotropic Courant Number = 2.93765910E-03 Maximum barotropic Courant Number = 8.51588468E-02 Maximum Coriolis Courant Number = 2.86295141E-03 M3CLM Nuding M3CLM Nuding M3CLM Nuding M3CLM Nuding M3CLM Nuding M3CLM Nuding M3CLM Nuding M3CLM Nuding M3CLM Nuding M3CLM Nuding M3CLM Nuding M3CLM Nuding M3CLM Nuding M3CLM Nuding M3CLM Nuding M3CLM Nuding M3CLM Nuding M3CLM Nuding M3CLM Nuding M3CLM Nuding M3CLM Nuding M3CLM Nuding M3CLM Nuding M3CLM Nuding M3CLM Nuding M3CLM Nuding M3CLM Nuding M3CLM Nuding M3CLM Nuding M3CLM Nuding M3CLM Nuding M3CLM Nuding M3CLM Nuding M3CLM Nuding M3CLM Nuding M3CLM Nuding M3CLM Nuding M3CLM Nuding M3CLM Nuding M3CLM Nuding M3CLM Nuding M3CLM Nuding M3CLM Nuding M3CLM Nuding M3CLM Nuding M3CLM Nuding M3CLM Nuding M3CLM Nuding NLM: GET_STATE - Read state initial conditions, 2012-01-01 00:00:00.00 (Grid 01, t = 55927.0000, File: UB_ini_2012_1k_etopo5_linear_new_V2_1_1.nc, Rec=0001, Index=1) - free-surface (Min = -2.77014319E-02 Max = 3.96498233E-01) - vertically integrated u-momentum component (Min = -2.69623607E-01 Max = 3.92453879E-01) - vertically integrated v-momentum component (Min = -2.29098395E-01 Max = 3.33200693E-01) - u-momentum component (Min = -4.66713101E-01 Max = 8.19062233E-01) - v-momentum component (Min = -6.96797848E-01 Max = 6.25109911E-01) - potential temperature (Min = 0.00000000E+00 Max = 1.68478394E+01) - salinity (Min = 3.35015106E+01 Max = 3.44399414E+01) GET_2DFLD - surface u-wind component, 2012-01-01 00:00:00.00 (Grid=01, Rec=0000001, Index=1, File: cfsv_wind_2012_UB_1k_etopo5_U_new_01.nc) (Tmin= 55927.0000 Tmax= 56047.7500) t = 55927.0000 (Min = -1.04859920E+01 Max = 1.30108838E+01) regrid = F GET_2DFLD - surface v-wind component, 2012-01-01 00:00:00.00 (Grid=01, Rec=0000001, Index=1, File: cfsv_wind_2012_UB_1k_etopo5_V_new_01.nc) (Tmin= 55927.0000 Tmax= 56047.7500) t = 55927.0000 (Min = -1.40661895E+01 Max = 1.16884304E+01) regrid = F GET_2DFLD - surface air pressure, 2012-01-01 00:00:00.00 (Grid=01, Rec=0000001, Index=1, File: cfsv_pair_2012_1k_linear_new_01.nc) (Tmin= 55927.0000 Tmax= 56047.7500) t = 55927.0000 (Min = 8.27090922E+02 Max = 1.03170057E+03) regrid = F GET_2DFLD - solar shortwave radiation flux, 2012-01-01 00:00:00.00 (Grid=01, Rec=0000001, Index=1, File: cfsv_swrad_2012_UB_1k_etopo5_new_01.nc) (Tmin= 55927.0000 Tmax= 56047.7500) t = 55927.0000 (Min = 4.07140797E-06 Max = 6.27977979E-05) regrid = F GET_2DFLD - net longwave radiation flux, 2012-01-01 00:00:00.00 (Grid=01, Rec=0000001, Index=1, File: cfsv_lwrad_2012_UB_1k_etopo5_new_01.nc) (Tmin= 55927.0000 Tmax= 56047.7500) t = 55927.0000 (Min = -3.92278635E-05 Max = 5.29697227E-07) regrid = F GET_2DFLD - surface air temperature, 2012-01-01 00:00:00.00 (Grid=01, Rec=0000001, Index=1, File: cfsv_tair_2012_UB_1k_etopo5_new_01.nc) (Tmin= 55927.0000 Tmax= 56047.7500) t = 55927.0000 (Min = -1.57466172E+01 Max = 1.14703328E+01) regrid = F GET_2DFLD - surface air relative humidity, 2012-01-01 00:00:00.00 (Grid=01, Rec=0000001, Index=1, File: cfsv_qair_2012_UB_1k_etopo5_new_01.nc) (Tmin= 55927.0000 Tmax= 56047.7500) t = 55927.0000 (Min = 4.80350431E-01 Max = 9.91999969E-01) regrid = F GET_2DFLD - rain fall rate, 2012-01-01 00:00:00.00 (Grid=01, Rec=0000001, Index=1, File: cfsv_rain_2012_UB_1k_etopo5_new_01.nc) (Tmin= 55927.0000 Tmax= 56047.7500) t = 55927.0000 (Min = 0.00000000E+00 Max = 4.90718115E-04) regrid = F GET_NGFLD - free-surface eastern boundary condition, 2012-12-31 00:00:00.00 (Grid= 01, Rec=0000366, Index=2, File: UB_bdy_2012_etopo5_linear_new_V2_1.nc) (Tmin= 55927.0000 Tmax= 56292.0000) t = 56292.0000 (Min = -1.58085750E-01 Max = 2.22379064E-01) GET_NGFLD - free-surface southern boundary condition, 2012-12-31 00:00:00.00 (Grid= 01, Rec=0000366, Index=2, File: UB_bdy_2012_etopo5_linear_new_V2_1.nc) (Tmin= 55927.0000 Tmax= 56292.0000) t = 56292.0000 (Min = -4.36853057E-02 Max = 2.05442500E-01) GET_NGFLD - free-surface northern boundary condition, 2012-12-31 00:00:00.00 (Grid= 01, Rec=0000366, Index=2, File: UB_bdy_2012_etopo5_linear_new_V2_1.nc) (Tmin= 55927.0000 Tmax= 56292.0000) t = 56292.0000 (Min = -2.07525097E-01 Max = -4.36853057E-02) GET_NGFLD - 2D u-momentum eastern boundary condition, 2012-12-31 00:00:00.00 (Grid= 01, Rec=0000366, Index=2, File: UB_bdy_2012_etopo5_linear_new_V2_1.nc) (Tmin= 55927.0000 Tmax= 56292.0000) t = 56292.0000 (Min = -1.21762708E-01 Max = 2.09411517E-01) GET_NGFLD - 2D v-momentum eastern boundary condition, 2012-12-31 00:00:00.00 (Grid= 01, Rec=0000366, Index=2, File: UB_bdy_2012_etopo5_linear_new_V2_1.nc) (Tmin= 55927.0000 Tmax= 56292.0000) t = 56292.0000 (Min = -1.91134945E-01 Max = 9.22511071E-02) GET_NGFLD - 2D u-momentum southern boundary condition, 2012-12-31 00:00:00.00 (Grid= 01, Rec=0000366, Index=2, File: UB_bdy_2012_etopo5_linear_new_V2_1.nc) (Tmin= 55927.0000 Tmax= 56292.0000) t = 56292.0000 (Min = -5.89335430E-03 Max = 1.99596152E-01) GET_NGFLD - 2D v-momentum southern boundary condition, 2012-12-31 00:00:00.00 (Grid= 01, Rec=0000366, Index=2, File: UB_bdy_2012_etopo5_linear_new_V2_1.nc) (Tmin= 55927.0000 Tmax= 56292.0000) t = 56292.0000 (Min = -1.93501845E-01 Max = 1.47446960E-01) GET_NGFLD - 2D u-momentum northern boundary condition, 2012-12-31 00:00:00.00 (Grid= 01, Rec=0000366, Index=2, File: UB_bdy_2012_etopo5_linear_new_V2_1.nc) (Tmin= 55927.0000 Tmax= 56292.0000) t = 56292.0000 (Min = -3.50897685E-02 Max = 1.01169534E-01) GET_NGFLD - 2D v-momentum northern boundary condition, 2012-12-31 00:00:00.00 (Grid= 01, Rec=0000366, Index=2, File: UB_bdy_2012_etopo5_linear_new_V2_1.nc) (Tmin= 55927.0000 Tmax= 56292.0000) t = 56292.0000 (Min = -1.87403813E-01 Max = 5.00791371E-02) GET_NGFLD - 3D u-momentum eastern boundary condition, 2012-12-31 00:00:00.00 (Grid= 01, Rec=0000366, Index=2, File: UB_bdy_2012_etopo5_linear_new_V2_1.nc) (Tmin= 55927.0000 Tmax= 56292.0000) t = 56292.0000 (Min = -2.06507489E-01 Max = 5.51849902E-01) GET_NGFLD - 3D v-momentum eastern boundary condition, 2012-12-31 00:00:00.00 (Grid= 01, Rec=0000366, Index=2, File: UB_bdy_2012_etopo5_linear_new_V2_1.nc) (Tmin= 55927.0000 Tmax= 56292.0000) t = 56292.0000 (Min = -6.25497818E-01 Max = 2.09029749E-01) GET_NGFLD - 3D u-momentum southern boundary condition, 2012-12-31 00:00:00.00 (Grid= 01, Rec=0000366, Index=2, File: UB_bdy_2012_etopo5_linear_new_V2_1.nc) (Tmin= 55927.0000 Tmax= 56292.0000) t = 56292.0000 (Min = -4.26730290E-02 Max = 4.17567402E-01) GET_NGFLD - 3D v-momentum southern boundary condition, 2012-12-31 00:00:00.00 (Grid= 01, Rec=0000366, Index=2, File: UB_bdy_2012_etopo5_linear_new_V2_1.nc) (Tmin= 55927.0000 Tmax= 56292.0000) t = 56292.0000 (Min = -2.62966305E-01 Max = 1.95353225E-01) GET_NGFLD - 3D u-momentum northern boundary condition, 2012-12-31 00:00:00.00 (Grid= 01, Rec=0000366, Index=2, File: UB_bdy_2012_etopo5_linear_new_V2_1.nc) (Tmin= 55927.0000 Tmax= 56292.0000) t = 56292.0000 (Min = -1.62803143E-01 Max = 5.27722001E-01) GET_NGFLD - 3D v-momentum northern boundary condition, 2012-12-31 00:00:00.00 (Grid= 01, Rec=0000366, Index=2, File: UB_bdy_2012_etopo5_linear_new_V2_1.nc) (Tmin= 55927.0000 Tmax= 56292.0000) t = 56292.0000 (Min = -3.66182864E-01 Max = 1.51654437E-01) GET_NGFLD - temperature eastern boundary condition, 2012-12-31 00:00:00.00 (Grid= 01, Rec=0000366, Index=2, File: UB_bdy_2012_etopo5_linear_new_V2_1.nc) (Tmin= 55927.0000 Tmax= 56292.0000) t = 56292.0000 (Min = 0.00000000E+00 Max = 1.48536043E+01) GET_NGFLD - salinity eastern boundary condition, 2012-12-31 00:00:00.00 (Grid= 01, Rec=0000366, Index=2, File: UB_bdy_2012_etopo5_linear_new_V2_1.nc) (Tmin= 55927.0000 Tmax= 56292.0000) t = 56292.0000 (Min = 3.36107101E+01 Max = 3.43002205E+01) GET_NGFLD - temperature southern boundary condition, 2012-12-31 00:00:00.00 (Grid= 01, Rec=0000366, Index=2, File: UB_bdy_2012_etopo5_linear_new_V2_1.nc) (Tmin= 55927.0000 Tmax= 56292.0000) t = 56292.0000 (Min = 4.95413589E+00 Max = 1.60429459E+01) GET_NGFLD - salinity southern boundary condition, 2012-12-31 00:00:00.00 (Grid= 01, Rec=0000366, Index=2, File: UB_bdy_2012_etopo5_linear_new_V2_1.nc) (Tmin= 55927.0000 Tmax= 56292.0000) t = 56292.0000 (Min = 3.39493103E+01 Max = 3.43344536E+01) GET_NGFLD - temperature northern boundary condition, 2012-12-31 00:00:00.00 (Grid= 01, Rec=0000366, Index=2, File: UB_bdy_2012_etopo5_linear_new_V2_1.nc) (Tmin= 55927.0000 Tmax= 56292.0000) t = 56292.0000 (Min = 0.00000000E+00 Max = 9.77066994E+00) GET_NGFLD - salinity northern boundary condition, 2012-12-31 00:00:00.00 (Grid= 01, Rec=0000366, Index=2, File: UB_bdy_2012_etopo5_linear_new_V2_1.nc) (Tmin= 55927.0000 Tmax= 56292.0000) t = 56292.0000 (Min = 3.38281479E+01 Max = 3.42540665E+01) GET_3DFLD - u-momentum component climatology, 2012-01-20 00:00:00.00 (Grid=01, Rec=0000020, Index=1, File: UB_clm_2012_01_etopo5_linear_new_V2_1.nc) (Tmin= 55927.0000 Tmax= 55946.0000) t = 55946.0000 (Min = -8.17777514E-01 Max = 7.04228163E-01) GET_3DFLD - v-momentum component climatology, 2012-01-20 00:00:00.00 (Grid=01, Rec=0000020, Index=1, File: UB_clm_2012_01_etopo5_linear_new_V2_1.nc) (Tmin= 55927.0000 Tmax= 55946.0000) t = 55946.0000 (Min = -8.63044679E-01 Max = 9.32511985E-01) GET_3DFLD - potential temperature climatology, 2012-01-20 00:00:00.00 (Grid=01, Rec=0000020, Index=1, File: UB_clm_2012_01_etopo5_linear_new_V2_1.nc) (Tmin= 55927.0000 Tmax= 55946.0000) t = 55946.0000 (Min = 0.00000000E+00 Max = 1.72292957E+01) GET_3DFLD - salinity climatology, 2012-01-20 00:00:00.00 (Grid=01, Rec=0000020, Index=1, File: UB_clm_2012_01_etopo5_linear_new_V2_1.nc) (Tmin= 55927.0000 Tmax= 55946.0000) t = 55946.0000 (Min = 3.36314697E+01 Max = 3.46323357E+01) Basin information for Grid 01: Maximum grid stiffness ratios: rx0 = 2.387796E-01 (Beckmann and Haidvogel) rx1 = 3.356991E+00 (Haney) Initial basin volumes: TotVolume = 7.2206051884E+14 m3 MinVolume = 3.7834487366E+04 m3 MaxVolume = 3.2460482515E+08 m3 Max/Min = 8.5796015157E+03 NL ROMS/TOMS: started time-stepping: (Grid: 01 TimeSteps: 00000001 - 03142080) GET_2DFLD - surface u-wind component, 2012-01-01 06:00:00.00 (Grid=01, Rec=0000002, Index=2, File: cfsv_wind_2012_UB_1k_etopo5_U_new_01.nc) (Tmin= 55927.0000 Tmax= 56047.7500) t = 55927.2500 (Min = -1.12859894E+01 Max = 1.15791741E+01) regrid = F GET_2DFLD - surface v-wind component, 2012-01-01 06:00:00.00 (Grid=01, Rec=0000002, Index=2, File: cfsv_wind_2012_UB_1k_etopo5_V_new_01.nc) (Tmin= 55927.0000 Tmax= 56047.7500) t = 55927.2500 (Min = -1.39077456E+01 Max = 8.33237829E+00) regrid = F GET_2DFLD - surface air pressure, 2012-01-01 06:00:00.00 (Grid=01, Rec=0000002, Index=2, File: cfsv_pair_2012_1k_linear_new_01.nc) (Tmin= 55927.0000 Tmax= 56047.7500) t = 55927.2500 (Min = 8.26913587E+02 Max = 1.03003953E+03) regrid = F GET_2DFLD - solar shortwave radiation flux, 2012-01-01 06:00:00.00 (Grid=01, Rec=0000002, Index=2, File: cfsv_swrad_2012_UB_1k_etopo5_new_01.nc) (Tmin= 55927.0000 Tmax= 56047.7500) t = 55927.2500 (Min = 1.81573205E-06 Max = 6.01783703E-05) regrid = F GET_2DFLD - net longwave radiation flux, 2012-01-01 06:00:00.00 (Grid=01, Rec=0000002, Index=2, File: cfsv_lwrad_2012_UB_1k_etopo5_new_01.nc) (Tmin= 55927.0000 Tmax= 56047.7500) t = 55927.2500 (Min = -4.08373320E-05 Max = 3.96037158E-08) regrid = F GET_2DFLD - surface air temperature, 2012-01-01 06:00:00.00 (Grid=01, Rec=0000002, Index=2, File: cfsv_tair_2012_UB_1k_etopo5_new_01.nc) (Tmin= 55927.0000 Tmax= 56047.7500) t = 55927.2500 (Min = -1.52683424E+01 Max = 1.13346599E+01) regrid = F GET_2DFLD - surface air relative humidity, 2012-01-01 06:00:00.00 (Grid=01, Rec=0000002, Index=2, File: cfsv_qair_2012_UB_1k_etopo5_new_01.nc) (Tmin= 55927.0000 Tmax= 56047.7500) t = 55927.2500 (Min = 4.74008873E-01 Max = 9.93000031E-01) regrid = F GET_2DFLD - rain fall rate, 2012-01-01 06:00:00.00 (Grid=01, Rec=0000002, Index=2, File: cfsv_rain_2012_UB_1k_etopo5_new_01.nc) (Tmin= 55927.0000 Tmax= 56047.7500) t = 55927.2500 (Min = 0.00000000E+00 Max = 7.34029461E-04) regrid = F GET_NGFLD - free-surface eastern boundary condition, 2012-01-01 00:00:00.00 (Grid= 01, Rec=0000001, Index=1, File: UB_bdy_2012_etopo5_linear_new_V2_1.nc) (Tmin= 55927.0000 Tmax= 56292.0000) t = 55927.0000 (Min = 1.61504756E-02 Max = 3.44519386E-01) GET_NGFLD - free-surface southern boundary condition, 2012-01-01 00:00:00.00 (Grid= 01, Rec=0000001, Index=1, File: UB_bdy_2012_etopo5_linear_new_V2_1.nc) (Tmin= 55927.0000 Tmax= 56292.0000) t = 55927.0000 (Min = 1.61033607E-01 Max = 3.68197700E-01) GET_NGFLD - free-surface northern boundary condition, 2012-01-01 00:00:00.00 (Grid= 01, Rec=0000001, Index=1, File: UB_bdy_2012_etopo5_linear_new_V2_1.nc) (Tmin= 55927.0000 Tmax= 56292.0000) t = 55927.0000 (Min = -2.77014311E-02 Max = 1.61544709E-01) GET_NGFLD - 2D u-momentum eastern boundary condition, 2012-01-01 00:00:00.00 (Grid= 01, Rec=0000001, Index=1, File: UB_bdy_2012_etopo5_linear_new_V2_1.nc) (Tmin= 55927.0000 Tmax= 56292.0000) t = 55927.0000 (Min = -1.95562646E-01 Max = 2.20899895E-01) GET_NGFLD - 2D v-momentum eastern boundary condition, 2012-01-01 00:00:00.00 (Grid= 01, Rec=0000001, Index=1, File: UB_bdy_2012_etopo5_linear_new_V2_1.nc) (Tmin= 55927.0000 Tmax= 56292.0000) t = 55927.0000 (Min = -1.39202043E-01 Max = 1.54905111E-01) GET_NGFLD - 2D u-momentum southern boundary condition, 2012-01-01 00:00:00.00 (Grid= 01, Rec=0000001, Index=1, File: UB_bdy_2012_etopo5_linear_new_V2_1.nc) (Tmin= 55927.0000 Tmax= 56292.0000) t = 55927.0000 (Min = 3.91928628E-02 Max = 2.65949488E-01) GET_NGFLD - 2D v-momentum southern boundary condition, 2012-01-01 00:00:00.00 (Grid= 01, Rec=0000001, Index=1, File: UB_bdy_2012_etopo5_linear_new_V2_1.nc) (Tmin= 55927.0000 Tmax= 56292.0000) t = 55927.0000 (Min = -6.23949580E-02 Max = 1.62035078E-01) GET_NGFLD - 2D u-momentum northern boundary condition, 2012-01-01 00:00:00.00 (Grid= 01, Rec=0000001, Index=1, File: UB_bdy_2012_etopo5_linear_new_V2_1.nc) (Tmin= 55927.0000 Tmax= 56292.0000) t = 55927.0000 (Min = -4.19451632E-02 Max = 7.79763162E-02) GET_NGFLD - 2D v-momentum northern boundary condition, 2012-01-01 00:00:00.00 (Grid= 01, Rec=0000001, Index=1, File: UB_bdy_2012_etopo5_linear_new_V2_1.nc) (Tmin= 55927.0000 Tmax= 56292.0000) t = 55927.0000 (Min = -9.87278670E-02 Max = 6.28677681E-02) GET_NGFLD - 3D u-momentum eastern boundary condition, 2012-01-01 00:00:00.00 (Grid= 01, Rec=0000001, Index=1, File: UB_bdy_2012_etopo5_linear_new_V2_1.nc) (Tmin= 55927.0000 Tmax= 56292.0000) t = 55927.0000 (Min = -4.03571784E-01 Max = 4.33892280E-01) GET_NGFLD - 3D v-momentum eastern boundary condition, 2012-01-01 00:00:00.00 (Grid= 01, Rec=0000001, Index=1, File: UB_bdy_2012_etopo5_linear_new_V2_1.nc) (Tmin= 55927.0000 Tmax= 56292.0000) t = 55927.0000 (Min = -4.39493001E-01 Max = 5.03911197E-01) GET_NGFLD - 3D u-momentum southern boundary condition, 2012-01-01 00:00:00.00 (Grid= 01, Rec=0000001, Index=1, File: UB_bdy_2012_etopo5_linear_new_V2_1.nc) (Tmin= 55927.0000 Tmax= 56292.0000) t = 55927.0000 (Min = 2.25440562E-02 Max = 3.98996860E-01) GET_NGFLD - 3D v-momentum southern boundary condition, 2012-01-01 00:00:00.00 (Grid= 01, Rec=0000001, Index=1, File: UB_bdy_2012_etopo5_linear_new_V2_1.nc) (Tmin= 55927.0000 Tmax= 56292.0000) t = 55927.0000 (Min = -1.42528504E-01 Max = 1.85976014E-01) GET_NGFLD - 3D u-momentum northern boundary condition, 2012-01-01 00:00:00.00 (Grid= 01, Rec=0000001, Index=1, File: UB_bdy_2012_etopo5_linear_new_V2_1.nc) (Tmin= 55927.0000 Tmax= 56292.0000) t = 55927.0000 (Min = -1.92862034E-01 Max = 1.43458590E-01) GET_NGFLD - 3D v-momentum northern boundary condition, 2012-01-01 00:00:00.00 (Grid= 01, Rec=0000001, Index=1, File: UB_bdy_2012_etopo5_linear_new_V2_1.nc) (Tmin= 55927.0000 Tmax= 56292.0000) t = 55927.0000 (Min = -3.60689104E-01 Max = 1.97767720E-01) GET_NGFLD - temperature eastern boundary condition, 2012-01-01 00:00:00.00 (Grid= 01, Rec=0000001, Index=1, File: UB_bdy_2012_etopo5_linear_new_V2_1.nc) (Tmin= 55927.0000 Tmax= 56292.0000) t = 55927.0000 (Min = 0.00000000E+00 Max = 1.43617496E+01) GET_NGFLD - salinity eastern boundary condition, 2012-01-01 00:00:00.00 (Grid= 01, Rec=0000001, Index=1, File: UB_bdy_2012_etopo5_linear_new_V2_1.nc) (Tmin= 55927.0000 Tmax= 56292.0000) t = 55927.0000 (Min = 3.35335999E+01 Max = 3.41699753E+01) GET_NGFLD - temperature southern boundary condition, 2012-01-01 00:00:00.00 (Grid= 01, Rec=0000001, Index=1, File: UB_bdy_2012_etopo5_linear_new_V2_1.nc) (Tmin= 55927.0000 Tmax= 56292.0000) t = 55927.0000 (Min = 6.67371941E+00 Max = 1.68478394E+01) GET_NGFLD - salinity southern boundary condition, 2012-01-01 00:00:00.00 (Grid= 01, Rec=0000001, Index=1, File: UB_bdy_2012_etopo5_linear_new_V2_1.nc) (Tmin= 55927.0000 Tmax= 56292.0000) t = 55927.0000 (Min = 3.39776955E+01 Max = 3.44234543E+01) GET_NGFLD - temperature northern boundary condition, 2012-01-01 00:00:00.00 (Grid= 01, Rec=0000001, Index=1, File: UB_bdy_2012_etopo5_linear_new_V2_1.nc) (Tmin= 55927.0000 Tmax= 56292.0000) t = 55927.0000 (Min = 0.00000000E+00 Max = 1.12654514E+01) GET_NGFLD - salinity northern boundary condition, 2012-01-01 00:00:00.00 (Grid= 01, Rec=0000001, Index=1, File: UB_bdy_2012_etopo5_linear_new_V2_1.nc) (Tmin= 55927.0000 Tmax= 56292.0000) t = 55927.0000 (Min = 3.38470764E+01 Max = 3.42507706E+01) GET_3DFLD - u-momentum component climatology, 2012-01-01 00:00:00.00 (Grid=01, Rec=0000001, Index=2, File: UB_clm_2012_01_etopo5_linear_new_V2_1.nc) (Tmin= 55927.0000 Tmax= 55946.0000) t = 55927.0000 (Min = -4.66713101E-01 Max = 8.19062233E-01) GET_3DFLD - v-momentum component climatology, 2012-01-01 00:00:00.00 (Grid=01, Rec=0000001, Index=2, File: UB_clm_2012_01_etopo5_linear_new_V2_1.nc) (Tmin= 55927.0000 Tmax= 55946.0000) t = 55927.0000 (Min = -6.96797848E-01 Max = 6.25109911E-01) GET_3DFLD - potential temperature climatology, 2012-01-01 00:00:00.00 (Grid=01, Rec=0000001, Index=2, File: UB_clm_2012_01_etopo5_linear_new_V2_1.nc) (Tmin= 55927.0000 Tmax= 55946.0000) t = 55927.0000 (Min = 0.00000000E+00 Max = 1.68478394E+01) GET_3DFLD - salinity climatology, 2012-01-01 00:00:00.00 (Grid=01, Rec=0000001, Index=2, File: UB_clm_2012_01_etopo5_linear_new_V2_1.nc) (Tmin= 55927.0000 Tmax= 55946.0000) t = 55927.0000 (Min = 3.35015106E+01 Max = 3.44399414E+01) TIME-STEP YYYY-MM-DD hh:mm:ss.ss KINETIC_ENRG POTEN_ENRG TOTAL_ENRG NET_VOLUME C => (i,j,k) Cu Cv Cw Max Speed 0 2012-01-01 00:00:00.00 3.724032E-03 1.145129E+04 1.145129E+04 7.228260E+14 (0652,687,41) 1.971589E-02 2.568865E-02 0.000000E+00 8.503788E-01 DEF_HIS - creating history file, Grid 01: ../Projects/Output/UB_ocean_his_9_1k_linear_new.nc DEF_VAR - unable to define variable: Tobc_in in NetCDF file: ../Projects/Output/UB_ocean_his_9_1k_linear_new.nc Node # 10 CPU: 57.575 Node # 1 CPU: 58.560 Node # 7 CPU: 58.477 Node # 8 CPU: 58.395 Node # 11 CPU: 58.444 Node # 5 CPU: 58.403 Node # 15 CPU: 58.431 Node # 4 CPU: 57.940 Node # 9 CPU: 58.330 Node # 14 CPU: 58.023 Node # 3 CPU: 58.434 Node # 13 CPU: 58.410 Node # 12 CPU: 57.969 Node # 2 CPU: 58.367 Node # 6 CPU: 58.539 Elapsed CPU time (seconds): Node # 0 CPU: 14.308 Total: 2761.484 Nonlinear model elapsed time profile, Grid: 01 Allocation and array initialization .............. 12.732 ( 0.4611 %) Ocean state initialization ....................... 6.177 ( 0.2237 %) Reading of input data ............................ 1175.014 (42.5501 %) Processing of input data ......................... 4.191 ( 0.1518 %) Processing of output time averaged data .......... 0.025 ( 0.0009 %) Computation of vertical boundary conditions ...... 0.154 ( 0.0056 %) Computation of global information integrals ...... 0.914 ( 0.0331 %) 2D/3D coupling, vertical metrics ................. 4.356 ( 0.1578 %) Omega vertical velocity .......................... 1.241 ( 0.0449 %) Equation of state for seawater ................... 4.248 ( 0.1538 %) Atmosphere-Ocean bulk flux parameterization ...... 1.946 ( 0.0705 %) KPP vertical mixing parameterization ............. 13.946 ( 0.5050 %) Total: 1224.945 44.3582 Nonlinear model message Passage profile, Grid: 01 Message Passage: 2D halo exchanges ............... 11.022 ( 0.3991 %) Message Passage: 3D halo exchanges ............... 6.245 ( 0.2261 %) Message Passage: 4D halo exchanges ............... 0.827 ( 0.0299 %) Message Passage: data broadcast .................. 2200.350 (79.6800 %) Message Passage: data reduction .................. 2.715 ( 0.0983 %) Message Passage: data scattering.................. 389.088 (14.0898 %) Total: 2610.246 94.5233 All percentages are with respect to total time = 2761.484 ROMS/TOMS - Output NetCDF summary for Grid 01: Analytical header files used: ROMS/Functionals/ana_btflux.h ROMS/Functionals/ana_nudgcoef.h ROMS/Functionals/ana_stflux.h ROMS/TOMS - Output error ............ exit_flag: 3 ERROR: Abnormal termination: NetCDF OUTPUT. REASON: NetCDF: Invalid dimension ID or name Node # 40 CPU: 58.544 Node # 43 CPU: 58.537 Node # 45 CPU: 58.535 Node # 36 CPU: 58.544 Node # 34 CPU: 58.350 Node # 25 CPU: 58.553 Node # 44 CPU: 58.527 Node # 30 CPU: 58.570 Node # 32 CPU: 58.518 Node # 23 CPU: 58.552 Node # 47 CPU: 58.507 Node # 29 CPU: 58.543 Node # 46 CPU: 58.526 Node # 18 CPU: 58.567 Node # 37 CPU: 58.542 Node # 33 CPU: 58.524 Node # 35 CPU: 58.503 Node # 17 CPU: 58.558 Node # 38 CPU: 58.528 Node # 16 CPU: 58.567 Node # 39 CPU: 58.543 Node # 31 CPU: 58.571 Node # 27 CPU: 58.543 Node # 20 CPU: 58.553 Node # 41 CPU: 58.541 Node # 24 CPU: 58.562 Node # 42 CPU: 58.537 Node # 21 CPU: 58.533 Node # 19 CPU: 58.515 Node # 22 CPU: 58.313 Node # 26 CPU: 58.563 Node # 28 CPU: 58.505