Mercurial > repos > climate > cesm
diff test-data/atm_log.txt @ 0:7a7ba86e95a4 draft default tip
"planemo upload for repository https://github.com/ESCOMP/CESM commit 5c969e494841237de0b2301520d9321672cc9f5b"
| author | climate |
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| date | Tue, 15 Jun 2021 09:39:23 +0000 |
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--- /dev/null Thu Jan 01 00:00:00 1970 +0000 +++ b/test-data/atm_log.txt Tue Jun 15 09:39:23 2021 +0000 @@ -0,0 +1,803 @@ + CAM atmosphere model initialization + + Initialize PIO subsystem: + iotype = 6 + + ------------------------------------------ + *********** CAM LOG OUTPUT *************** + ------------------------------------------ + Initial run + ********** CASE = FKESSLER ********** + UNSET + ********** Time Manager Configuration ********** + Calendar type: NO_LEAP + Timestep size (seconds): 1800 + Start date (yr mon day tod): 1 1 1 0 + Stop date (yr mon day tod): 1 1 1 1800 + Reference date (yr mon day tod): 1 1 1 0 + Current step number: 0 + Current date (yr mon day tod): 1 1 1 0 + ************************************************ + SPMD SWAP_COMM OPTIONS: + swap_comm_protocol = 4 + swap_comm_maxreq = 128 + SPMD FLOW CONTROL GATHER OPTION: + fc_gather_flow_cntl = 64 + PHYS_GRID options: + Using PCOLS = 16 + phys_loadbalance = 2 + phys_twin_algorithm = 0 + phys_alltoall = -1 + chunks_per_thread = 1 + cam_initfiles_readnl options: + Initial run will start from: /opt/uio/tmp/tmp92gxhvfo/job_working_directory/000/2/working/inputdata/atm/cam/inic/cam_vcoords_L30_c180105.nc + Topography dataset not used: PHIS, SGH, SGH30, LANDM_COSLAT set to zero + Maximum abs value of scale factor used to perturb initial conditions, pertlim= 0.0000000000000000 + Summary of constituent module options: + Read constituent initial values from initial file by default: T + Read in cam_history_nl namelist from: atm_in + Unless overridden by namelist input on a per-field basis (FINCL), + All fields on history file 1 will have averaging flag I + Initial conditions history files will be written yearly. + + chem_surfvals_readnl: Settings for control of GHG surface values + scenario_ghg = FIXED + CO2 will be fixed: + co2vmr = -1.0000000000000000 + Other GHG values will be fixed as follows: + n2ovmr = -1.0000000000000000 + ch4vmr = -1.0000000000000000 + f11vmr = -1.0000000000000000 + f12vmr = -1.0000000000000000 + + Run model with Kessler warm-rain physics forcing + check_energy options: + print_energy_errors = F + Read in analytic_ic_nl namelist from: atm_in + Dynamics state will be set to a moist baroclinic wave initial condition used in DCMIP 2016. + dyn_readnl: reading dyn_se_inparm namelist... +initmpi: Number of MPI processes: 4 + INITOMP: INFO: openmp not activated + HOMME_POSTPROCESS_NAMELIST: omp_get_max_threads() = 1 + HOMME_POSTPROCESS_NAMELIST: Mesh File:none + HOMME_POSTPROCESS_NAMELIST: Reference element projection: cubed_sphere_map= 0 +dyn_readnl: se_ftype = 2 +dyn_readnl: se_statediag_numtrac = 3 +dyn_readnl: se_hypervis_subcycle = 3 +dyn_readnl: se_hypervis_subcycle_q = 1 +dyn_readnl: se_limiter_option = 8 +dyn_readnl: se_ne = 30 +dyn_readnl: se_npes = 4 +dyn_readnl: se_nsplit = 2 +dyn_readnl: se_nu = 0.40E+15 +dyn_readnl: se_nu_div = 0.10E+16 +dyn_readnl: se_nu_p = 0.10E+16 +Note that nu_q=nu_p for mass / tracer inconsistency +dyn_readnl: se_nu_top = 0.25E+06 +dyn_readnl: se_qsplit = 1 +dyn_readnl: se_rsplit = 3 +dyn_readnl: se_statefreq = 0 +dyn_readnl: se_tstep_type = 4 +dyn_readnl: se_vert_remap_q_alg = 1 +dyn_readnl: se_qsize_condensate_loading = 1 + : lcp_moist = T + dyn_readnl: hypervis_on_plevs = T + FYI: nu_p>0 and hypervis_on_plevs=T => hypervis is applied to dp-dp_ref +dyn_readnl: Nudging off +dyn_readnl: physics will run on SE GLL points +dyn_readnl: se_horz_num_threads = 1 +dyn_readnl: se_vert_num_threads = 1 +dyn_readnl: se_tracer_num_threads = 1 +dyn_readnl: do not write grid file +dyn_readnl: write gll corners to SEMapping.nc = F +dyn_readnl: write restart data on unstructured grid = F + native_mapping_readnl: Check for native_mapping_nl namelist in atm_in + native_mapping_readnl: No native_mapping_nl namelist found + qneg_readnl: QNEG statistics will be collected and printed at the end of the run + (GETFIL): attempting to find local file cam_vcoords_L30_c180105.nc + (GETFIL): using /opt/uio/tmp/tmp92gxhvfo/job_working_directory/000/2/working/inputdata/atm/cam/inic/cam_vcoords_L30_c180105.nc + hycoef_read: read hyai, hybi, hyam, hybm + hycoef_read: read P0 value: 100000.00000000000 + Layer Locations (*1000) + 1 2.2552 0.0000 2.2552 + 3.6435 0.0000 3.6435 + 2 5.0317 0.0000 5.0317 + 7.5948 0.0000 7.5948 + 3 10.1579 0.0000 10.1579 + 14.3566 0.0000 14.3566 + 4 18.5553 0.0000 18.5553 + 24.6122 0.0000 24.6122 + 5 30.6691 0.0000 30.6691 + 38.2683 0.0000 38.2683 + 6 45.8675 0.0000 45.8675 + 54.5955 0.0000 54.5955 + 7 63.3235 0.0000 63.3235 + 72.0125 0.0000 72.0125 + 8 80.7014 0.0000 80.7014 + 87.8212 0.0000 87.8212 + 9 94.9410 0.0000 94.9410 + 103.3171 0.0000 103.3171 + 10 111.6932 0.0000 111.6932 + 121.5472 0.0000 121.5472 + 11 131.4013 0.0000 131.4013 + 142.9940 0.0000 142.9940 + 12 154.5868 0.0000 154.5868 + 168.2251 0.0000 168.2251 + 13 181.8634 0.0000 181.8634 + 178.2307 19.6774 197.9081 + 14 174.5980 39.3548 213.9528 + 170.3243 62.5043 232.8286 + 15 166.0507 85.6538 251.7044 + 161.0229 112.8879 273.9108 + 16 155.9952 140.1221 296.1172 + 150.0803 172.1616 322.2419 + 17 144.1654 204.2012 348.3666 + 137.2069 241.8940 379.1009 + 18 130.2483 279.5869 409.8352 + 122.0619 323.9306 445.9926 + 19 113.8756 368.2744 482.1499 + 104.2447 420.4425 524.6872 + 20 94.6139 472.6106 567.2244 + 84.9792 524.7995 609.7787 + 21 75.3445 576.9885 652.3330 + 66.5017 624.8877 691.3894 + 22 57.6589 672.7870 730.4459 + 50.1968 713.2077 763.4045 + 23 42.7346 753.6284 796.3631 + 37.1887 783.6697 820.8584 + 24 31.6427 813.7110 845.3537 + 28.4319 831.1028 859.5348 + 25 25.2212 848.4946 873.7159 + 22.2090 864.8113 887.0202 + 26 19.1967 881.1279 900.3246 + 16.4074 896.2372 912.6445 + 27 13.6180 911.3464 924.9645 + 11.0746 925.1238 936.1984 + 28 8.5311 938.9012 947.4323 + 6.2550 951.2305 957.4855 + 29 3.9788 963.5598 967.5386 + 1.9894 974.3360 976.3254 + 30 0.0000 985.1122 985.1122 + 0.0000 992.5561 992.5561 + 31 0.0000 1000.0000 1000.0000 + reference pressures (Pa) + 1 225.5240 + 364.3466 277.6452 + 2 503.1692 + 759.4820 512.6256 + 3 1015.7947 + 1435.6632 839.7370 + 4 1855.5317 + 2461.2220 1211.3806 + 5 3066.9123 + 3826.8300 1519.8354 + 6 4586.7477 + 5459.5480 1745.6006 + 7 6332.3483 + 7201.2451 1737.7935 + 8 8070.1418 + 8782.1230 1423.9624 + 9 9494.1042 + 10331.7127 1675.2169 + 10 11169.3211 + 12154.7241 1970.8060 + 11 13140.1271 + 14299.4039 2318.5536 + 12 15458.6807 + 16822.5080 2727.6546 + 13 18186.3353 + 19790.8087 3208.9468 + 14 21395.2821 + 23282.8619 3775.1596 + 15 25170.4417 + 27391.0817 4441.2799 + 16 29611.7216 + 32224.1902 5224.9372 + 17 34836.6588 + 37910.0904 6146.8631 + 18 40983.5219 + 44599.2574 7231.4709 + 19 48214.9929 + 52468.7175 8507.4492 + 20 56722.4421 + 60977.8695 8510.8548 + 21 65233.2969 + 69138.9430 7811.2923 + 22 73044.5892 + 76340.4481 6591.7179 + 23 79636.3071 + 82085.8369 4899.0596 + 24 84535.3667 + 85953.4767 2836.2200 + 25 87371.5866 + 88702.0249 2660.8765 + 26 90032.4631 + 91264.4547 2463.9831 + 27 92496.4462 + 93619.8398 2246.7872 + 28 94743.2335 + 95748.5480 2010.6290 + 29 96753.8625 + 97632.5407 1757.3566 + 30 98511.2190 + 99255.6095 1488.7810 + 31 100000.0000 + PRIM_INIT1: creating cube topology... + ...done. + PRIM_INIT1: total number of elements nelem = 5400 + PRIM_INIT1: partitioning graph using SF Curve... + PRIM_INIT1: init shared boundary_exchange buffers + PRIM_INIT1: initializing cube elements... + PRIM_INIT1: running mass_matrix +PRIM_INIT1: re-initializing cube elements: area correction= 0.99999999999943145 + PRIM_INIT1: re-running mass_matrix + PRIM_INIT1: running global_dof + PRIM_INIT1: max_num_threads= 1 + PRIM_INIT1: end of prim_init +Grid: GLL, ID = 101, lat coord = lat, lon coord = lon, unstruct = T, block_ind = F, zonal_grid = F +Attribute: area, long name = 'gll grid areas' + dimname = ncol +Attribute: np, long name = '' + value = 4 +Attribute: ne, long name = '' + value = 30 + INFO: Non-scalable action: Allocating global blocks in SE dycore. + create_global_coords: INFO: Non-scalable action: Creating global coords in SE dycore. + create_global_area: INFO: Non-scalable action: gathering global area in SE dycore. +Grid: physgrid, ID = 100, lat coord = lat, lon coord = lon, unstruct = T, block_ind = T, zonal_grid = F +Attribute: area, long name = 'gll grid areas' + dimname = ncol +Attribute: np, long name = '' + value = 4 +Attribute: ne, long name = '' + value = 30 + Advected constituent list: + 1 Q Specific humidity wet + 2 CLDLIQ Grid box averaged cloud liquid amount wet + 3 RAINQM Grid box averaged rain water amount wet + 4 CL CL dry + 5 CL2 CL2 dry + 6 RHO RHO dry + PHIS initialized by "BC_WAV_SET_IC" + U initialized by "BC_WAV_SET_IC" + V initialized by "BC_WAV_SET_IC" + T initialized by "BC_WAV_SET_IC" + BC_WAV_SET_IC: Model top (in km) is at z= 35.087419572768717 + PS initialized by "BC_WAV_SET_IC" + Q initialized by "BC_WAV_SET_IC" + CLDLIQ set to minimum value + RAINQM set to minimum value + CL initialized by "chem_init_cnst" + CL2 initialized by "chem_init_cnst" + RHO initialized by "chem_init_cnst" + + Running Global Integral Diagnostic... + Area of unit sphere is 1.0000000000000000 + Should be 1.0 to round off... +Element area: max/min 1.377 +Average equatorial node spacing (deg, km) = 1.000 111.20 +norm of Dinv (min, max): 38.302 57.296 +Max Dinv-based element distortion: 1.73 +dx based on Dinv svd: ave,min,max = 91.40 74.13 110.90 +dx based on sqrt element area: ave,min,max = 102.45 94.71 111.15 +CFL estimates in terms of S=time step stability region +(i.e. advection w/leapfrog: S=1, viscosity w/forward Euler: S=2) +SSP preservation (120m/s) RKSSP euler step dt < S * 154.44s +Stability: advective (120m/s) dt_tracer < S * 338.20s +Stability: advective (120m/s) dt_tracer < S * 338.20s +Stability: gravity wave(342m/s) dt_dyn < S * 118.67s +Stability: nu_q hyperviscosity dt < S * 169.89s +Stability: nu_vor hyperviscosity dt < S * 424.71s +Stability: nu_div hyperviscosity dt < S * 169.89s +TOP3 viscosity CFL: dt < S* 412.17s + tstep_type = 4 +dt_remap: (0=disabled) 900.00 +dt_tracer (SE), per RK stage: 300.00 150.00 +dt_dyn: 300.00 +dt_dyn (viscosity): 100.00 +dt_tracer (viscosity): 300.00 +CAM dtime (dt_phys): 1800.00 + CAM-SE uses dry-mass vertical coordinates + initial state: + nstep= 0 time= 0.0000000000000000 [day] + + STATE DIAGNOSTICS + + MIN MAX AVE (hPa) REL. MASS. CHANGE + U 0.000000000000000E+00 0.280261013339374E+02 + V 0.000000000000000E+00 0.000000000000000E+00 + T 0.149843161781875E+03 0.306211834562973E+03 + OMEGA -0.224996632776289E+00 0.279838208014316E+00 + PSDRY 0.994576161327842E+05 0.999999999999894E+05 0.996842241887747E+03 0.000000000000000E+00 + PS 0.999999958842053E+05 0.100000000000089E+06 0.999999986178254E+03 0.000000000000000E+00 + Q 0.100000000000100E-11 0.183316201758619E-01 0.315774429050680E+01 0.000000000000000E+00 + CLDLIQ 0.000000000000000E+00 0.000000000000000E+00 0.000000000000000E+00 0.000000000000000E+00 + RAINQM 0.000000000000000E+00 0.000000000000000E+00 0.000000000000000E+00 0.000000000000000E+00 + + FORCING DIAGNOSTICS + + MIN MAX + FT 0.000000000000000E+00 0.000000000000000E+00 + FM 0.000000000000000E+00 0.000000000000000E+00 + FQ 0.000000000000000E+00 0.000000000000000E+00 + FCLDLIQ 0.000000000000000E+00 0.000000000000000E+00 + FRAINQM 0.000000000000000E+00 0.000000000000000E+00 + *** SATURATION VAPOR PRESSURE TABLE COMPLETED *** + + ******* MASTER FIELD LIST ******* + 1 FU m/s2 30 A Zonal wind forcing term on GLL grid + 2 FV m/s2 30 A Meridional wind forcing term on GLL grid + 3 FT K/s 30 A Temperature forcing term on GLL grid + 4 FQ_gll kg/kg/s 30 I Specific humidity mixing ratio forcing term (q_new-q_old) on GLL grid + 5 FCLDLIQ_gll kg/kg/s 30 I Grid box averaged cloud liquid amount mixing ratio forcing term (q_new-q_old) on GLL grid + 6 FRAINQM_gll kg/kg/s 30 I Grid box averaged rain water amount mixing ratio forcing term (q_new-q_old) on GLL grid + 7 FCL_gll kg/kg/s 30 I CL mixing ratio forcing term (q_new-q_old) on GLL grid + 8 FCL2_gll kg/kg/s 30 I CL2 mixing ratio forcing term (q_new-q_old) on GLL grid + 9 FRHO_gll kg/kg/s 30 I RHO mixing ratio forcing term (q_new-q_old) on GLL grid + 10 ABS_dPSdt Pa/s 1 A Absolute surface pressure tendency + 11 WV_PDC kg/m2 1 A Total column water vapor lost in physics-dynamics coupling + 12 WL_PDC kg/m2 1 A Total column cloud water lost in physics-dynamics coupling + 13 WI_PDC kg/m2 1 A Total column cloud ice lost in physics-dynamics coupling + 14 TT_PDC kg/m2 1 A Total column test tracer lost in physics-dynamics coupling + 15 WV_dED kg/m2 1 A Total column water vaporend of previous dynamics + 16 WL_dED kg/m2 1 A Total column cloud waterend of previous dynamics + 17 WI_dED kg/m2 1 A Total column cloud iceend of previous dynamics + 18 SE_dED J/m2 1 A Total column dry static energyend of previous dynamics + 19 KE_dED J/m2 1 A Total column kinetic energyend of previous dynamics + 20 MR_dED kg*m2/s*rad2 1 A Total column wind axial angular momentumend of previous dynamics + 21 MO_dED kg*m2/s*rad2 1 A Total column mass axial angular momentumend of previous dynamics + 22 TT_dED kg/m2 1 A Total column test tracerend of previous dynamics + 23 WV_dAF kg/m2 1 A Total column water vaporfrom previous remapping or state passed to dynamics + 24 WL_dAF kg/m2 1 A Total column cloud waterfrom previous remapping or state passed to dynamics + 25 WI_dAF kg/m2 1 A Total column cloud icefrom previous remapping or state passed to dynamics + 26 SE_dAF J/m2 1 A Total column dry static energyfrom previous remapping or state passed to dynamics + 27 KE_dAF J/m2 1 A Total column kinetic energyfrom previous remapping or state passed to dynamics + 28 MR_dAF kg*m2/s*rad2 1 A Total column wind axial angular momentumfrom previous remapping or state passed to dynamics + 29 MO_dAF kg*m2/s*rad2 1 A Total column mass axial angular momentumfrom previous remapping or state passed to dynamics + 30 TT_dAF kg/m2 1 A Total column test tracerfrom previous remapping or state passed to dynamics + 31 WV_dBD kg/m2 1 A Total column water vaporstate after applying CAM forcing + 32 WL_dBD kg/m2 1 A Total column cloud waterstate after applying CAM forcing + 33 WI_dBD kg/m2 1 A Total column cloud icestate after applying CAM forcing + 34 SE_dBD J/m2 1 A Total column dry static energystate after applying CAM forcing + 35 KE_dBD J/m2 1 A Total column kinetic energystate after applying CAM forcing + 36 MR_dBD kg*m2/s*rad2 1 A Total column wind axial angular momentumstate after applying CAM forcing + 37 MO_dBD kg*m2/s*rad2 1 A Total column mass axial angular momentumstate after applying CAM forcing + 38 TT_dBD kg/m2 1 A Total column test tracerstate after applying CAM forcing + 39 WV_dAD kg/m2 1 A Total column water vaporbefore vertical remapping + 40 WL_dAD kg/m2 1 A Total column cloud waterbefore vertical remapping + 41 WI_dAD kg/m2 1 A Total column cloud icebefore vertical remapping + 42 SE_dAD J/m2 1 A Total column dry static energybefore vertical remapping + 43 KE_dAD J/m2 1 A Total column kinetic energybefore vertical remapping + 44 MR_dAD kg*m2/s*rad2 1 A Total column wind axial angular momentumbefore vertical remapping + 45 MO_dAD kg*m2/s*rad2 1 A Total column mass axial angular momentumbefore vertical remapping + 46 TT_dAD kg/m2 1 A Total column test tracerbefore vertical remapping + 47 WV_dAR kg/m2 1 A Total column water vaporafter vertical remapping + 48 WL_dAR kg/m2 1 A Total column cloud waterafter vertical remapping + 49 WI_dAR kg/m2 1 A Total column cloud iceafter vertical remapping + 50 SE_dAR J/m2 1 A Total column dry static energyafter vertical remapping + 51 KE_dAR J/m2 1 A Total column kinetic energyafter vertical remapping + 52 MR_dAR kg*m2/s*rad2 1 A Total column wind axial angular momentumafter vertical remapping + 53 MO_dAR kg*m2/s*rad2 1 A Total column mass axial angular momentumafter vertical remapping + 54 TT_dAR kg/m2 1 A Total column test tracerafter vertical remapping + 55 WV_dBF kg/m2 1 A Total column water vaporstate passed to parameterizations + 56 WL_dBF kg/m2 1 A Total column cloud waterstate passed to parameterizations + 57 WI_dBF kg/m2 1 A Total column cloud icestate passed to parameterizations + 58 SE_dBF J/m2 1 A Total column dry static energystate passed to parameterizations + 59 KE_dBF J/m2 1 A Total column kinetic energystate passed to parameterizations + 60 MR_dBF kg*m2/s*rad2 1 A Total column wind axial angular momentumstate passed to parameterizations + 61 MO_dBF kg*m2/s*rad2 1 A Total column mass axial angular momentumstate passed to parameterizations + 62 TT_dBF kg/m2 1 A Total column test tracerstate passed to parameterizations + 63 WV_dBH kg/m2 1 A Total column water vaporstate before hypervis + 64 WL_dBH kg/m2 1 A Total column cloud waterstate before hypervis + 65 WI_dBH kg/m2 1 A Total column cloud icestate before hypervis + 66 SE_dBH J/m2 1 A Total column dry static energystate before hypervis + 67 KE_dBH J/m2 1 A Total column kinetic energystate before hypervis + 68 MR_dBH kg*m2/s*rad2 1 A Total column wind axial angular momentumstate before hypervis + 69 MO_dBH kg*m2/s*rad2 1 A Total column mass axial angular momentumstate before hypervis + 70 TT_dBH kg/m2 1 A Total column test tracerstate before hypervis + 71 WV_dCH kg/m2 1 A Total column water vaporstate after hypervis but before adding heating term + 72 WL_dCH kg/m2 1 A Total column cloud waterstate after hypervis but before adding heating term + 73 WI_dCH kg/m2 1 A Total column cloud icestate after hypervis but before adding heating term + 74 SE_dCH J/m2 1 A Total column dry static energystate after hypervis but before adding heating term + 75 KE_dCH J/m2 1 A Total column kinetic energystate after hypervis but before adding heating term + 76 MR_dCH kg*m2/s*rad2 1 A Total column wind axial angular momentumstate after hypervis but before adding heating term + 77 MO_dCH kg*m2/s*rad2 1 A Total column mass axial angular momentumstate after hypervis but before adding heating term + 78 TT_dCH kg/m2 1 A Total column test tracerstate after hypervis but before adding heating term + 79 WV_dAH kg/m2 1 A Total column water vaporstate after hypervis + 80 WL_dAH kg/m2 1 A Total column cloud waterstate after hypervis + 81 WI_dAH kg/m2 1 A Total column cloud icestate after hypervis + 82 SE_dAH J/m2 1 A Total column dry static energystate after hypervis + 83 KE_dAH J/m2 1 A Total column kinetic energystate after hypervis + 84 MR_dAH kg*m2/s*rad2 1 A Total column wind axial angular momentumstate after hypervis + 85 MO_dAH kg*m2/s*rad2 1 A Total column mass axial angular momentumstate after hypervis + 86 TT_dAH kg/m2 1 A Total column test tracerstate after hypervis + 87 WV_p2d kg/m2 1 A Total column water vaporphys2dyn mapping errors (requires ftype-1) + 88 WL_p2d kg/m2 1 A Total column cloud waterphys2dyn mapping errors (requires ftype-1) + 89 WI_p2d kg/m2 1 A Total column cloud icephys2dyn mapping errors (requires ftype-1) + 90 SE_p2d J/m2 1 A Total column dry static energyphys2dyn mapping errors (requires ftype-1) + 91 KE_p2d J/m2 1 A Total column kinetic energyphys2dyn mapping errors (requires ftype-1) + 92 MR_p2d kg*m2/s*rad2 1 A Total column wind axial angular momentumphys2dyn mapping errors (requires ftype-1) + 93 MO_p2d kg*m2/s*rad2 1 A Total column mass axial angular momentumphys2dyn mapping errors (requires ftype-1) + 94 TT_p2d kg/m2 1 A Total column test tracerphys2dyn mapping errors (requires ftype-1) + 95 Q kg/kg 30 A Specific humidity + 96 NSTEP timestep 1 A Model timestep + 97 PHIS m2/s2 1 I Surface geopotential + 98 PS Pa 1 A Surface pressure + 99 T K 30 A Temperature + 100 U m/s 30 A Zonal wind + 101 V m/s 30 A Meridional wind + 102 TBP K 30 A Temperature (before physics) + 103 QBP kg/kg 30 A Specific humidity (before physics) + 104 TAP K 30 A Temperature (after physics) + 105 UAP m/s 30 A Zonal wind (after physics) + 106 VAP m/s 30 A Meridional wind (after physics) + 107 QAP kg/kg 30 A Specific humidity (after physics) + 108 TFIX K/s 1 A T fixer (T equivalent of Energy correction) + 109 TTEND_TOT K/s 30 A Total temperature tendency + 110 Z3 m 30 A Geopotential Height (above sea level) + 111 Z1000 m 1 A Geopotential Z at 1000 mbar pressure surface + 112 Z700 m 1 A Geopotential Z at 700 mbar pressure surface + 113 Z500 m 1 A Geopotential Z at 500 mbar pressure surface + 114 Z300 m 1 A Geopotential Z at 300 mbar pressure surface + 115 Z200 m 1 A Geopotential Z at 200 mbar pressure surface + 116 Z100 m 1 A Geopotential Z at 100 mbar pressure surface + 117 Z050 m 1 A Geopotential Z at 50 mbar pressure surface + 118 ZZ m2 30 A Eddy height variance + 119 VZ m2/s 30 A Meridional transport of geopotential height + 120 VT K m/s 30 A Meridional heat transport + 121 VU m2/s2 30 A Meridional flux of zonal momentum + 122 VV m2/s2 30 A Meridional velocity squared + 123 OMEGAV m Pa/s2 30 A Vertical flux of meridional momentum + 124 OMGAOMGA Pa2/s2 30 A Vertical flux of vertical momentum + 125 UU m2/s2 30 A Zonal velocity squared + 126 WSPEED m/s 30 X Horizontal total wind speed maximum + 127 WSPDSRFMX m/s 1 X Horizontal total wind speed maximum at the surface + 128 WSPDSRFAV m/s 1 A Horizontal total wind speed average at the surface + 129 OMEGA Pa/s 30 A Vertical velocity (pressure) + 130 OMEGAT K Pa/s 30 A Vertical heat flux + 131 OMEGAU m Pa/s2 30 A Vertical flux of zonal momentum + 132 OMEGA850 Pa/s 1 A Vertical velocity at 850 mbar pressure surface + 133 OMEGA500 Pa/s 1 A Vertical velocity at 500 mbar pressure surface + 134 PSL Pa 1 A Sea level pressure + 135 T1000 K 1 A Temperature at 1000 mbar pressure surface + 136 T925 K 1 A Temperature at 925 mbar pressure surface + 137 T850 K 1 A Temperature at 850 mbar pressure surface + 138 T700 K 1 A Temperature at 700 mbar pressure surface + 139 T500 K 1 A Temperature at 500 mbar pressure surface + 140 T400 K 1 A Temperature at 400 mbar pressure surface + 141 T300 K 1 A Temperature at 300 mbar pressure surface + 142 T200 K 1 A Temperature at 200 mbar pressure surface + 143 T010 K 1 A Temperature at 10 mbar pressure surface + 144 T7001000 K 1 A Temperature difference 700 mb - 1000 mb + 145 TH7001000 K 1 A Theta difference 700 mb - 1000 mb + 146 THE7001000 K 1 A ThetaE difference 700 mb - 1000 mb + 147 T8501000 K 1 A Temperature difference 850 mb - 1000 mb + 148 TH8501000 K 1 A Theta difference 850 mb - 1000 mb + 149 T9251000 K 1 A Temperature difference 925 mb - 1000 mb + 150 TH9251000 K 1 A Theta difference 925 mb - 1000 mb + 151 TT K2 30 A Eddy temperature variance + 152 U850 m/s 1 A Zonal wind at 850 mbar pressure surface + 153 U500 m/s 1 A Zonal wind at 500 mbar pressure surface + 154 U250 m/s 1 A Zonal wind at 250 mbar pressure surface + 155 U200 m/s 1 A Zonal wind at 200 mbar pressure surface + 156 U010 m/s 1 A Zonal wind at 10 mbar pressure surface + 157 V850 m/s 1 A Meridional wind at 850 mbar pressure surface + 158 V500 m/s 1 A Meridional wind at 500 mbar pressure surface + 159 V250 m/s 1 A Meridional wind at 250 mbar pressure surface + 160 V200 m/s 1 A Meridional wind at 200 mbar pressure surface + 161 UBOT m/s 1 A Lowest model level zonal wind + 162 VBOT m/s 1 A Lowest model level meridional wind + 163 ZBOT m 1 A Lowest model level height + 164 ATMEINT J/m2 1 A Vertically integrated total atmospheric energy + 165 PTTEND K/s 30 A T total physics tendency + 166 T_24_COS K 30 A Temperature 24hr. cos coeff. + 167 T_24_SIN K 30 A Temperature 24hr. sin coeff. + 168 T_12_COS K 30 A Temperature 12hr. cos coeff. + 169 T_12_SIN K 30 A Temperature 12hr. sin coeff. + 170 T_08_COS K 30 A Temperature 8hr. cos coeff. + 171 T_08_SIN K 30 A Temperature 8hr. sin coeff. + 172 U_24_COS m/s 30 A Zonal wind 24hr. cos coeff. + 173 U_24_SIN m/s 30 A Zonal wind 24hr. sin coeff. + 174 U_12_COS m/s 30 A Zonal wind 12hr. cos coeff. + 175 U_12_SIN m/s 30 A Zonal wind 12hr. sin coeff. + 176 U_08_COS m/s 30 A Zonal wind 8hr. cos coeff. + 177 U_08_SIN m/s 30 A Zonal wind 8hr. sin coeff. + 178 V_24_COS m/s 30 A Meridional wind 24hr. cos coeff. + 179 V_24_SIN m/s 30 A Meridional wind 24hr. sin coeff. + 180 V_12_COS m/s 30 A Meridional wind 12hr. cos coeff. + 181 V_12_SIN m/s 30 A Meridional wind 12hr. sin coeff. + 182 V_08_COS m/s 30 A Meridional wind 8hr. cos coeff. + 183 V_08_SIN m/s 30 A Meridional wind 8hr. sin coeff. + 184 PS_24_COS Pa 1 A surface pressure 24hr. cos coeff. + 185 PS_24_SIN Pa 1 A surface pressure 24hr. sin coeff. + 186 PS_12_COS Pa 1 A surface pressure 12hr. cos coeff. + 187 PS_12_SIN Pa 1 A surface pressure 12hr. sin coeff. + 188 PS_08_COS Pa 1 A surface pressure 8hr. cos coeff. + 189 PS_08_SIN Pa 1 A surface pressure 8hr. sin coeff. + 190 OMEGA_24_COS Pa/s 30 A vertical pressure velocity 24hr. cos coeff. + 191 OMEGA_24_SIN Pa/s 30 A vertical pressure velocity 24hr. sin coeff. + 192 OMEGA_12_COS Pa/s 30 A vertical pressure velocity 12hr. cos coeff. + 193 OMEGA_12_SIN Pa/s 30 A vertical pressure velocity 12hr. sin coeff. + 194 OMEGA_08_COS Pa/s 30 A vertical pressure velocity 8hr. cos coeff. + 195 OMEGA_08_SIN Pa/s 30 A vertical pressure velocity 8hr. sin coeff. + 196 SE_pBF J/m2 1 A Dry Static Energy before energy fixer + 197 SE_pBP J/m2 1 A Dry Static Energy before parameterizations + 198 SE_pAP J/m2 1 A Dry Static Energy after parameterizations + 199 SE_pAM J/m2 1 A Dry Static Energy after dry mass correction + 200 KE_pBF J/m2 1 A Kinetic Energy before energy fixer + 201 KE_pBP J/m2 1 A Kinetic Energy before parameterizations + 202 KE_pAP J/m2 1 A Kinetic Energy after parameterizations + 203 KE_pAM J/m2 1 A Kinetic Energy after dry mass correction + 204 TT_pBF kg/m2 1 A Total column test tracer before energy fixer + 205 TT_pBP kg/m2 1 A Total column test tracer before parameterizations + 206 TT_pAP kg/m2 1 A Total column test tracer after parameterizations + 207 TT_pAM kg/m2 1 A Total column test tracer after dry mass correction + 208 WV_pBF kg/m2 1 A Total column water vapor before energy fixer + 209 WV_pBP kg/m2 1 A Total column water vapor before parameterizations + 210 WV_pAP kg/m2 1 A Total column water vapor after parameterizations + 211 WV_pAM kg/m2 1 A Total column water vapor after dry mass correction + 212 WL_pBF kg/m2 1 A Total column cloud water before energy fixer + 213 WL_pBP kg/m2 1 A Total column cloud water before parameterizations + 214 WL_pAP kg/m2 1 A Total column cloud water after parameterizations + 215 WL_pAM kg/m2 1 A Total column cloud water after dry mass correction + 216 WI_pBF kg/m2 1 A Total column cloud ice before energy fixer + 217 WI_pBP kg/m2 1 A Total column cloud ice before parameterizations + 218 WI_pAP kg/m2 1 A Total column cloud ice after parameterizations + 219 WI_pAM kg/m2 1 A Total column cloud ice after dry mass correction + 220 MR_pBF kg*m2/s*rad2 1 A Total column wind axial angular momentum before energy fixer + 221 MR_pBP kg*m2/s*rad2 1 A Total column wind axial angular momentum before parameterizations + 222 MR_pAP kg*m2/s*rad2 1 A Total column wind axial angular momentum after parameterizations + 223 MR_pAM kg*m2/s*rad2 1 A Total column wind axial angular momentum after dry mass correction + 224 MO_pBF kg*m2/s*rad2 1 A Total column mass axial angular momentum before energy fixer + 225 MO_pBP kg*m2/s*rad2 1 A Total column mass axial angular momentum before parameterizations + 226 MO_pAP kg*m2/s*rad2 1 A Total column mass axial angular momentum after parameterizations + 227 MO_pAM kg*m2/s*rad2 1 A Total column mass axial angular momentum after dry mass correction + 228 TMCLDLIQ kg/m2 1 A CLDLIQ column burden + 229 TMRAINQM kg/m2 1 A RAINQM column burden + 230 TMCL kg/m2 1 A CL column burden + 231 TMCL2 kg/m2 1 A CL2 column burden + 232 TMRHO kg/m2 1 A RHO column burden + 233 OMEGAQ kgPa/kgs 30 A Vertical water transport + 234 VQ m/skg/kg 30 A Meridional water transport + 235 QQ kg2/kg2 30 A Eddy moisture variance + 236 MQ kg/m2 30 A Water vapor mass in layer + 237 TMQ kg/m2 1 A Total (vertically integrated) precipitable water + 238 RELHUM percent 30 A Relative humidity + 239 RHW percent 30 A Relative humidity with respect to liquid + 240 RHI percent 30 A Relative humidity with respect to ice + 241 RHCFMIP percent 30 A Relative humidity with respect to water above 273 K, ice below 273 K + 242 THE8501000 K 1 A ThetaE difference 850 mb - 1000 mb + 243 THE9251000 K 1 A ThetaE difference 925 mb - 1000 mb + 244 Q1000 kg/kg 1 A Specific Humidity at 1000 mbar pressure surface + 245 Q925 kg/kg 1 A Specific Humidity at 925 mbar pressure surface + 246 Q850 kg/kg 1 A Specific Humidity at 850 mbar pressure surface + 247 Q200 kg/kg 1 A Specific Humidity at 700 mbar pressure surface + 248 QBOT kg/kg 1 A Lowest model level water vapor mixing ratio + 249 PSDRY Pa 1 A Dry surface pressure + 250 PMID Pa 30 A Pressure at layer midpoints + 251 PDELDRY Pa 30 A Dry pressure difference between levels + 252 DTCOND K/s 30 A T tendency - moist processes + 253 DTCOND_24_COS K/s 30 A T tendency - moist processes 24hr. cos coeff. + 254 DTCOND_24_SIN K/s 30 A T tendency - moist processes 24hr. sin coeff. + 255 DTCOND_12_COS K/s 30 A T tendency - moist processes 12hr. cos coeff. + 256 DTCOND_12_SIN K/s 30 A T tendency - moist processes 12hr. sin coeff. + 257 DTCOND_08_COS K/s 30 A T tendency - moist processes 8hr. cos coeff. + 258 DTCOND_08_SIN K/s 30 A T tendency - moist processes 8hr. sin coeff. + 259 PRECL m/s 1 A Large-scale (stable) precipitation rate (liq + ice) + 260 PRECC m/s 1 A Convective precipitation rate (liq + ice) + 261 PRECT m/s 1 A Total (convective and large-scale) precipitation rate (liq + ice) + 262 PREC_PCW m/s 1 A LS_pcw precipitation rate + 263 PREC_zmc m/s 1 A CV_zmc precipitation rate + 264 PRECTMX m/s 1 X Maximum (convective and large-scale) precipitation rate (liq+ice) + 265 PRECSL m/s 1 A Large-scale (stable) snow rate (water equivalent) + 266 PRECSC m/s 1 A Convective snow rate (water equivalent) + 267 PRECCav m/s 1 A Average large-scale precipitation (liq + ice) + 268 PRECLav m/s 1 A Average convective precipitation (liq + ice) + 269 SHFLX W/m2 1 A Surface sensible heat flux + 270 LHFLX W/m2 1 A Surface latent heat flux + 271 QFLX kg/m2/s 1 A Surface water flux + 272 TAUX N/m2 1 A Zonal surface stress + 273 TAUY N/m2 1 A Meridional surface stress + 274 TREFHT K 1 A Reference height temperature + 275 TREFHTMN K 1 M Minimum reference height temperature over output period + 276 TREFHTMX K 1 X Maximum reference height temperature over output period + 277 QREFHT kg/kg 1 A Reference height humidity + 278 U10 m/s 1 A 10m wind speed + 279 RHREFHT fraction 1 A Reference height relative humidity + 280 LANDFRAC fraction 1 A Fraction of sfc area covered by land + 281 ICEFRAC fraction 1 A Fraction of sfc area covered by sea-ice + 282 OCNFRAC fraction 1 A Fraction of sfc area covered by ocean + 283 TREFMNAV K 1 A Average of TREFHT daily minimum + 284 TREFMXAV K 1 A Average of TREFHT daily maximum + 285 TS K 1 A Surface temperature (radiative) + 286 TSMN K 1 M Minimum surface temperature over output period + 287 TSMX K 1 X Maximum surface temperature over output period + 288 SNOWHLND m 1 A Water equivalent snow depth + 289 SNOWHICE m 1 A Snow depth over ice + 290 TBOT K 1 A Lowest model level temperature + 291 ASDIR 1 1 A albedo: shortwave, direct + 292 ASDIF 1 1 A albedo: shortwave, diffuse + 293 ALDIR 1 1 A albedo: longwave, direct + 294 ALDIF 1 1 A albedo: longwave, diffuse + 295 SST K 1 A sea surface temperature + 296 PTEQ kg/kg/s 30 A Q total physics tendency + 297 PTECLDLIQ kg/kg/s 30 A CLDLIQ total physics tendency + 298 QCWAT&IC kg/kg 30 I q associated with cloud water + 299 TCWAT&IC kg/kg 30 I T associated with cloud water + 300 LCWAT&IC kg/kg 30 I Cloud water (ice + liq + 301 CLOUD&IC fraction 30 I Cloud fraction + 302 CONCLD&IC fraction 30 I Convective cloud fraction + 303 TKE&IC m2/s2 31 I Turbulent Kinetic Energy + 304 CUSH&IC m 1 I Convective Scale Height + 305 KVH&IC m2/s 31 I Vertical diffusion diffusivities (heat/moisture) + 306 KVM&IC m2/s 31 I Vertical diffusion diffusivities (momentum) + 307 PBLH&IC m 1 I PBL height + 308 TPERT&IC K 1 I Perturbation temperature (eddies in PBL) + 309 QPERT&IC kg/kg 1 I Perturbation specific humidity (eddies in PBL) + 310 a2x_BCPHIWET kg/m2/s 1 A wetdep of hydrophilic black carbon + 311 a2x_BCPHIDRY kg/m2/s 1 A drydep of hydrophilic black carbon + 312 a2x_BCPHODRY kg/m2/s 1 A drydep of hydrophobic black carbon + 313 a2x_OCPHIWET kg/m2/s 1 A wetdep of hydrophilic organic carbon + 314 a2x_OCPHIDRY kg/m2/s 1 A drydep of hydrophilic organic carbon + 315 a2x_OCPHODRY kg/m2/s 1 A drydep of hydrophobic organic carbon + 316 a2x_DSTWET1 kg/m2/s 1 A wetdep of dust (bin1) + 317 a2x_DSTDRY1 kg/m2/s 1 A drydep of dust (bin1) + 318 a2x_DSTWET2 kg/m2/s 1 A wetdep of dust (bin2) + 319 a2x_DSTDRY2 kg/m2/s 1 A drydep of dust (bin2) + 320 a2x_DSTWET3 kg/m2/s 1 A wetdep of dust (bin3) + 321 a2x_DSTDRY3 kg/m2/s 1 A drydep of dust (bin3) + 322 a2x_DSTWET4 kg/m2/s 1 A wetdep of dust (bin4) + 323 a2x_DSTDRY4 kg/m2/s 1 A drydep of dust (bin4) + 324 DCQ kg/kg/s 30 A Q tendency due to moist processes + 325 TEINP J/m2 1 A Total energy of physics input + 326 TEOUT J/m2 1 A Total energy of physics output + 327 TEFIX J/m2 1 A Total energy after fixer + 328 EFIX W/m2 1 A Effective sensible heat flux due to energy fixer + 329 DTCORE K/s 30 A T tendency due to dynamical core + 330 CLDLIQ kg/kg 30 A Grid box averaged cloud liquid amount + 331 RAINQM kg/kg 30 A Grid box averaged rain water amount + 332 CLDLIQBP kg/kg 30 A Grid box averaged cloud liquid amount (before physics) + 333 CLDLIQAP kg/kg 30 A Grid box averaged cloud liquid amount (after physics) + 334 CL mole/mole 30 A CL mixing ratio + 335 CL2 mole/mole 30 A CL2 mixing ratio + 336 RHO mole/mole 30 A RHO mixing ratio + 337 k1 /s 1 A reaction rate + 338 k2 /s 1 A reaction rate + 339 CLy mole/mole 30 A CLy mixing ratio + 340 iCLy mole/mole 1 A Average mass-weighted column-integrated CLy mixing ratio + 341 iCL mole/mole 1 A Average mass-weighted column-integrated CL mixing ratio + 342 iCL2 mole/mole 1 A Average mass-weighted column-integrated CL2 mixing ratio + 343 Q_qneg3 kg/kg 30 I Specific humidity QNEG3 error (cell) + 344 Q_qneg3_col kg/kg 1 I Specific humidity QNEG3 error (column) + 345 CLDLIQ_qneg3 kg/kg 30 I Grid box averaged cloud liquid amount QNEG3 error (cell) + 346 CLDLIQ_qneg3_col kg/kg 1 I Grid box averaged cloud liquid amount QNEG3 error (column) + 347 RAINQM_qneg3 kg/kg 30 I Grid box averaged rain water amount QNEG3 error (cell) + 348 RAINQM_qneg3_col kg/kg 1 I Grid box averaged rain water amount QNEG3 error (column) + 349 CL_qneg3 kg/kg 30 I CL QNEG3 error (cell) + 350 CL_qneg3_col kg/kg 1 I CL QNEG3 error (column) + 351 CL2_qneg3 kg/kg 30 I CL2 QNEG3 error (cell) + 352 CL2_qneg3_col kg/kg 1 I CL2 QNEG3 error (column) + 353 RHO_qneg3 kg/kg 30 I RHO QNEG3 error (cell) + 354 RHO_qneg3_col kg/kg 1 I RHO QNEG3 error (column) + 355 qflux_exceeded kg/m^2/s 1 I qflux excess (QNEG4) + 356 DQP kg/kg/s 30 A Specific humidity tendency due to precipitation + 357 Q_gll kg/kg 30 I Specific humidity + 358 Qdp_gll kg/kg 30 I Specific humidity*dp + 359 CLDLIQ_gll kg/kg 30 I Grid box averaged cloud liquid amount + 360 CLDLIQdp_gll kg/kg 30 I Grid box averaged cloud liquid amount*dp + 361 RAINQM_gll kg/kg 30 I Grid box averaged rain water amount + 362 RAINQMdp_gll kg/kg 30 I Grid box averaged rain water amount*dp + 363 CL_gll kg/kg 30 I CL + 364 CLdp_gll kg/kg 30 I CL*dp + 365 CL2_gll kg/kg 30 I CL2 + 366 CL2dp_gll kg/kg 30 I CL2*dp + 367 RHO_gll kg/kg 30 I RHO + 368 RHOdp_gll kg/kg 30 I RHO*dp + 369 U_gll m/s 30 I U wind on gll grid + 370 V_gll m/s 30 I V wind on gll grid + 371 T_gll K 30 I T on gll grid + 372 PSDRY_gll Pa 1 I psdry on gll grid + 373 PS_gll Pa 1 I ps on gll grid + 374 PHIS_gll Pa 1 I PHIS on gll grid + 375 U&IC m/s 30 I Zonal wind + 376 V&IC m/s 30 I Meridional wind + 377 PS&IC Pa 1 I Surface pressure + 378 T&IC K 30 I Temperature + 379 Q&IC kg/kg 30 I Specific humidity + 380 CLDLIQ&IC kg/kg 30 I Grid box averaged cloud liquid amount + 381 RAINQM&IC kg/kg 30 I Grid box averaged rain water amount + 382 CL&IC kg/kg 30 I CL + 383 CL2&IC kg/kg 30 I CL2 + 384 RHO&IC kg/kg 30 I RHO + intht:nfmaster= 384 + FLDLST: Tape 3 is empty + FLDLST: Tape 4 is empty + FLDLST: Tape 5 is empty + FLDLST: Tape 6 is empty + FLDLST: Tape 7 is empty + FLDLST: Tape 8 is empty + FLDLST: Tape 9 is empty + FLDLST: Tape 10 is empty + FLDLST: Tape 11 is empty + + FLDLST: History file 1 contains 2 fields + Write frequency: 48 + Filename specifier: %c.cam.h%t.%y-%m-%d-%s.nc + Output precision: single + Number of time samples per file: 30 + Fields are represented on global grids: + 100 + Included fields are: + 1 PRECL m/s 1 I Large-scale (stable) precipitation rate (liq + ice) + 2 PS Pa 1 I Surface pressure + + FLDLST: History file 2 contains 10 fields + Write frequency: 48 + Filename specifier: %c.cam.h%t.%y-%m-%d-%s.nc + Output precision: single + Number of time samples per file: 30 + Fields are represented on global grids: + 100 + Included fields are: + 1 CLDLIQ kg/kg 30 A Grid box averaged cloud liquid amount + 2 OMEGA Pa/s 30 A Vertical velocity (pressure) + 3 Q kg/kg 30 A Specific humidity + 4 RAINQM kg/kg 30 A Grid box averaged rain water amount + 5 T K 30 A Temperature + 6 U m/s 30 A Zonal wind + 7 V m/s 30 A Meridional wind + 8 iCL mole/mole 1 A Average mass-weighted column-integrated CL mixing ratio + 9 iCL2 mole/mole 1 A Average mass-weighted column-integrated CL2 mixing ratio + 10 iCLy mole/mole 1 A Average mass-weighted column-integrated CLy mixing ratio + + FLDLST: History file 12 contains 10 fields + Write frequency: YEARLY (INITIAL CONDITIONS) + Filename specifier: %c.cam.i.%y-%m-%d-%s.nc + Output precision: double + Number of time samples per file: 1 + Fields are represented on global grids: + 101 + Included fields are: + 1 CL&IC kg/kg 30 I CL + 2 CL2&IC kg/kg 30 I CL2 + 3 CLDLIQ&IC kg/kg 30 I Grid box averaged cloud liquid amount + 4 PS&IC Pa 1 I Surface pressure + 5 Q&IC kg/kg 30 I Specific humidity + 6 RAINQM&IC kg/kg 30 I Grid box averaged rain water amount + 7 RHO&IC kg/kg 30 I RHO + 8 T&IC K 30 I Temperature + 9 U&IC m/s 30 I Zonal wind + 10 V&IC m/s 30 I Meridional wind + nstep, te 0 0.26317785398197021E+10 0.26317785398197021E+10 -0.00000000000000000E+00 0.99999998617825389E+05 +WSHIST: writing time sample 0 to h-file 1 DATE=0001/01/01 NCSEC= 0 + + WSHIST: nhfil( 1 )=FKESSLER.cam.h0.0001-01-01-00000.nc + Opening netcdf history file FKESSLER.cam.h0.0001-01-01-00000.nc + H_DEFINE: Successfully opened netcdf file + Creating new decomp: 16!760!!48602!!d6!i2! +WSHIST: writing time sample 0 to h-file 2 DATE=0001/01/01 NCSEC= 0 + + WSHIST: nhfil( 2 )=FKESSLER.cam.h1.0001-01-01-00000.nc + Opening netcdf history file FKESSLER.cam.h1.0001-01-01-00000.nc + H_DEFINE: Successfully opened netcdf file + Creating new decomp: 16!30!760!!48602!30!!d6!i2! + nstep, te 1 0.26317780750597858E+10 0.26317782522024746E+10 0.96723118242219288E-05 0.99999990163745926E+05 + WRAPUP: nf_close( 1 )=FKESSLER.cam.h0.0001-01-01-00000.nc + Primary history file + Output at NSTEP = 1 + Number of time samples on this file = 1 + Model Day = 0.02 +--------------------------------------- + WRAPUP: nf_close( 2 )=FKESSLER.cam.h1.0001-01-01-00000.nc + Auxiliary history file number 1 + Output at NSTEP = 1 + Number of time samples on this file = 1 + Model Day = 0.02 +--------------------------------------- + nstep, te 2 0.26317780735390315E+10 0.26317780750795765E+10 0.84116548054005219E-07 0.99999990164327610E+05 + + +Number of completed timesteps: 1 +Time step 2 partially done to provide convectively adjusted and time filtered values for history tape. + + ******* END OF MODEL RUN *******