CAM atmosphere model initialization Read in cam_inparm namelist from: atm_in REPRO_SUM_SETOPTS: Using fixed-point-based (scalable) reproducible distributed sum algorithm and not comparing with floating point algorithms. SPMD SWAP_COMM OPTIONS: swap_comm_protocol = 4 swap_comm_maxreq = 128 SPMD FLOW CONTROL GATHER OPTION: fc_gather_flow_cntl = 64 cld_sediment_readnl: cldsed_ice_stokes_fac = 0.500000000000000 solar_data_readnl: solar_const (W/m2) = -9999.00000000000 solar_data_readnl: solar_data_file = /work/shared/noresm/inputdata/atm/cam/solar/SOLAR_TSI_Lean_1610-2140_annual_c10 0301.nc solar_data_readnl: solar_data_type = SERIAL solar_data_readnl: solar_data_ymd = 0 solar_data_readnl: solar_data_tod = 0 ------------------------------------------ *** INPUT VARIABLES (CAM_INPARM) *** ------------------------------------------ Initial run ********** CASE = NBF20TREXT_super ********** UNSET Initial dataset is: NBF20TREXT_super.cam2.i.1980-01-01-00000.nc Topography dataset is: /work/shared/noresm/inputdata/atm/cam/topo/USGS-gtopo30_1.9x2.5_remap_c050602.n c Time-invariant (absorption/emissivity) factor dataset is: /work/shared/noresm/inputdata/atm/cam/rad/abs_ems_factors_fastvx.c030508.nc Run type flag (NSREST) 0=initial, 1=restart, 3=branch 0 Summary of restart module options: Restart pointer file is: ./rpointer.atm Initial conditions history files will be written yearly. Lowest level for dry adiabatic adjust (NLVDRY) 3 Frequency of Shortwave Radiation calc. (IRADSW) 2 Frequency of Longwave Radiation calc. (IRADLW) 2 Frequency of Absorptivity/Emissivity calc. (IRADAE) 24 ********** Time Manager Configuration ********** Calendar type: NO_LEAP Timestep size (seconds): 1800 Start date (yr mon day tod): 1980 1 1 0 Stop date (yr mon day tod): 1980 2 1 0 Reference date (yr mon day tod): 1980 1 1 0 Current step number: 0 Current date (yr mon day tod): 1980 1 1 0 ************************************************ Advected constituent list: 1 Q Specific humidity wet 2 CLDLIQ Grid box averaged cloud liquid amount wet 3 CLDICE Grid box averaged cloud ice amount wet Fields in physics buffer name, scope, fdim, mdim, ldim TEOUT global 1 1 1 DTCORE global 1 26 1 QCWAT global 1 26 1 LCWAT global 1 26 1 ICCWAT global 1 26 1 NLWAT global 1 26 1 NIWAT global 1 26 1 CC_T global 1 26 1 CC_qv global 1 26 1 CC_ql global 1 26 1 CC_qi global 1 26 1 CC_nl global 1 26 1 CC_ni global 1 26 1 CC_qlst global 1 26 1 TCWAT global 1 26 1 CLD global 1 26 1 CLDO global 1 26 1 AST global 1 26 1 AIST global 1 26 1 ALST global 1 26 1 QIST global 1 26 1 QLST global 1 26 1 CONCLD global 1 26 1 RHDFDA global 1 26 1 RHU00 global 1 26 1 REL2 global 1 26 1 REI2 global 1 26 1 CONCLDQL physpkg 1 26 1 FICE physpkg 1 26 1 SH_FRAC physpkg 1 26 1 DP_FRAC physpkg 1 26 1 QINI physpkg 1 26 1 CLDLIQINI physpkg 1 26 1 CLDICEINI physpkg 1 26 1 TINI physpkg 1 26 1 QME physpkg 1 26 1 PRAIN physpkg 1 26 1 NEVAPR physpkg 1 26 1 WSEDL physpkg 1 26 1 REI physpkg 1 26 1 REL physpkg 1 26 1 REL_FN physpkg 1 26 1 DEI physpkg 1 26 1 MU physpkg 1 26 1 LAMBDAC physpkg 1 26 1 ICIWP physpkg 1 26 1 ICLWP physpkg 1 26 1 DEICONV physpkg 1 26 1 MUCONV physpkg 1 26 1 LAMBDACONV physpkg 1 26 1 ICIWPST physpkg 1 26 1 ICLWPST physpkg 1 26 1 ICIWPCONV physpkg 1 26 1 ICLWPCONV physpkg 1 26 1 DES physpkg 1 26 1 ICSWP physpkg 1 26 1 CLDFSNOW physpkg 1 26 1 LS_FLXPRC physpkg 1 27 1 LS_FLXSNW physpkg 1 27 1 SH_CLDLIQ1 physpkg 1 26 1 SH_CLDICE1 physpkg 1 26 1 VOLC_MMR physpkg 1 26 1 VOLC_RAD_GEOM physpkg 1 26 1 ozone physpkg 1 26 1 sulf physpkg 1 26 1 bcar1 physpkg 1 26 1 bcar2 physpkg 1 26 1 ocar1 physpkg 1 26 1 ocar2 physpkg 1 26 1 sslt1 physpkg 1 26 1 sslt2 physpkg 1 26 1 sslt3 physpkg 1 26 1 sslt4 physpkg 1 26 1 dust1 physpkg 1 26 1 dust2 physpkg 1 26 1 dust3 physpkg 1 26 1 dust4 physpkg 1 26 1 SSLTA physpkg 1 26 1 SSLTC physpkg 1 26 1 N2O physpkg 1 26 1 CH4 physpkg 1 26 1 CFC11 physpkg 1 26 1 CFC12 physpkg 1 26 1 CO2 physpkg 1 26 1 O2 physpkg 1 26 1 FRACIS physpkg 1 26 3 DP_FLXPRC global 1 27 1 DP_FLXSNW global 1 27 1 DP_CLDLIQ global 1 26 1 DP_CLDICE global 1 26 1 ICWMRDP physpkg 1 26 1 RPRDDP physpkg 1 26 1 NEVAPR_DPCU physpkg 1 26 1 ICWMRSH physpkg 1 26 1 RPRDSH physpkg 1 26 1 RPRDTOT physpkg 1 26 1 CLDTOP physpkg 1 1 1 CLDBOT physpkg 1 1 1 cush global 1 1 1 NEVAPR_SHCU physpkg 1 26 1 SH_FLXPRC physpkg 1 27 1 SH_FLXSNW physpkg 1 27 1 SH_CLDLIQ physpkg 1 26 1 SH_CLDICE physpkg 1 26 1 QRS global 1 26 1 QRL global 1 26 1 tke global 1 27 1 kvh global 1 27 1 kvm global 1 27 1 turbtype global 1 27 1 smaw global 1 27 1 tauresx global 1 1 1 tauresy global 1 1 1 wgustd global 1 1 1 kvt global 1 27 1 T_TTEND global 1 26 1 (GETFIL): attempting to find local file NBF20TREXT_super.cam2.i.1980-01-01-00000.nc (GETFIL): using NBF20TREXT_super.cam2.i.1980-01-01-00000.nc in current working directory (GETFIL): attempting to find local file USGS-gtopo30_1.9x2.5_remap_c050602.nc (GETFIL): using /work/shared/noresm/inputdata/atm/cam/topo/USGS-gtopo30_1.9x2.5_remap_c050602.n c Layer Locations (*1000) 1 2.1941 0.0000 2.1941 3.5446 0.0000 3.5446 2 4.8952 0.0000 4.8952 7.3888 0.0000 7.3888 3 9.8824 0.0000 9.8824 13.9672 0.0000 13.9672 4 18.0520 0.0000 18.0520 23.9446 0.0000 23.9446 5 29.8372 0.0000 29.8372 37.2303 0.0000 37.2303 6 44.6233 0.0000 44.6233 53.1146 0.0000 53.1146 7 61.6059 0.0000 61.6059 70.0592 0.0000 70.0592 8 78.5124 0.0000 78.5124 77.9126 7.5265 85.4391 9 77.3127 15.0531 92.3658 76.6070 23.9077 100.5147 10 75.9013 32.7623 108.6636 75.0711 43.1793 118.2503 11 74.2409 53.5962 127.8371 73.2642 65.8512 139.1154 12 72.2874 78.1063 150.3937 71.1384 92.5237 163.6621 13 69.9893 106.9411 176.9304 68.6375 123.9024 192.5399 14 67.2857 140.8637 208.1494 65.6954 160.8179 226.5133 15 64.1051 180.7720 244.8771 62.2342 204.2470 266.4812 16 60.3632 227.7220 288.0852 58.1622 255.3391 313.5013 17 55.9611 282.9562 338.9173 53.3717 315.4463 368.8180 18 50.7823 347.9364 398.7187 47.7359 386.1593 433.8952 19 44.6896 424.3822 469.0718 41.1058 469.3495 510.4553 20 37.5219 514.3168 551.8387 33.3057 567.2185 600.5242 21 29.0895 620.1202 649.2097 24.9684 671.8279 696.7963 22 20.8474 723.5355 744.3829 17.0959 770.6062 787.7021 23 13.3444 817.6768 831.0212 10.2147 856.9461 867.1608 24 7.0850 896.2153 903.3003 4.8032 924.8457 929.6489 25 2.5214 953.4761 955.9975 1.2607 969.2942 970.5548 26 0.0000 985.1122 985.1122 0.0000 992.5561 992.5561 27 0.0000 1000.0000 1000.0000 reference pressures (Pa) 1 219.4067 354.4638 270.1142 2 489.5209 738.8814 498.7209 3 988.2418 1396.7214 816.9592 4 1805.2010 2394.4625 1178.5230 5 2983.7240 3723.0290 1478.6100 6 4462.3340 5311.4605 1698.2530 7 6160.5870 7005.9150 1690.6560 8 7851.2430 8543.9115 1385.3370 9 9236.5800 10051.4695 1629.7790 10 10866.3590 11825.0335 1917.3490 11 12783.7080 13911.5395 2255.6630 12 15039.3710 16366.2070 2653.6720 13 17693.0430 19253.9935 3121.9010 14 20814.9440 22651.3265 3672.7650 15 24487.7090 26648.1155 4320.8130 16 28808.5220 31350.1265 5083.2090 17 33891.7310 36881.7980 5980.1340 18 39871.8650 43389.5225 7035.3150 19 46907.1800 51045.5255 8276.6910 20 55183.8710 60052.4200 9737.0980 21 64920.9690 69679.6290 9517.3200 22 74438.2890 78770.2060 8663.8340 23 83102.1230 86716.0760 7227.9060 24 90330.0290 92964.8875 5269.7170 25 95599.7460 97055.4830 2911.4740 26 98511.2200 99255.6100 1488.7800 27 100000.0000 Read in dyn_fv_inparm namelist from: atm_in Read in spmd_fv_inparm namelist from: atm_in npr_y = 32 npr_z = 3 nprxy_x = 3 nprxy_y = 32 npes = 96 npes_yz= 96 npes_xy = 96 Decomposing tracers into 1 groups non-transpose geopk communication method = F Z-parallel non-transpose geopk communication method = F using multi-2d decomposition methodology modcomm transpose method = 0 modcomm geopk method = 0 modcomm gatscat method = 0 modc_sw_dynrun = 0 modc_hs_dynrun = T modc_send_dynrun = T modc_mxreq_dynrun = -1 modc_sw_cdcore = 0 modc_hs_cdcore = T modc_send_cdcore = T modc_mxreq_cdcore = -1 modc_sw_gather = 1 modc_hs_gather = T modc_send_gather = T modc_mxreq_gather = 64 modc_sw_scatter = 0 modc_hs_scatter = F modc_send_scatter = T modc_mxreq_scatter = -1 modc_sw_tracer = 0 modc_hs_tracer = T modc_send_tracer = T modc_mxreq_tracer = -1 modc_onetwo = 2 modc_tracers = 3 MOD_COMM - modcam_npryz = 32 3 3 32 MOD_COMM - modcam_tagoffset = 96 MOD_COMM - modcam_method modcam_geopk modcam_gatscat modcam_maxirr = 0 0 0 3 Using local dynamic storage for mod_comm window Mod_comm - ghostrat = 3.00000000000000 Mod_comm - geopkrat = 1.00000000000000 (MOD_COMM) - mod_comm not being used for dynamcis-physics transposes Mod_comm - tracmax dpvarmax totvar tracbmax = 1 0 1 1 Mod_comm - r4 windows disabled Mod_comm t1_win window size = 46656 Mod_comm r8_win window size = 44615 Mod_comm r4_win window size = 1 Mod_comm i4_win window size = 1 nlat_p( 0 ) = 3 nlat_p( 1 ) = 3 nlat_p( 2 ) = 3 nlat_p( 3 ) = 3 nlat_p( 4 ) = 3 nlat_p( 5 ) = 3 nlat_p( 6 ) = 3 nlat_p( 7 ) = 3 nlat_p( 8 ) = 3 nlat_p( 9 ) = 3 nlat_p( 10 ) = 3 nlat_p( 11 ) = 3 nlat_p( 12 ) = 3 nlat_p( 13 ) = 3 nlat_p( 14 ) = 3 nlat_p( 15 ) = 3 nlat_p( 16 ) = 3 nlat_p( 17 ) = 3 nlat_p( 18 ) = 3 nlat_p( 19 ) = 3 nlat_p( 20 ) = 3 nlat_p( 21 ) = 3 nlat_p( 22 ) = 3 nlat_p( 23 ) = 3 nlat_p( 24 ) = 3 nlat_p( 25 ) = 3 nlat_p( 26 ) = 3 nlat_p( 27 ) = 3 nlat_p( 28 ) = 3 nlat_p( 29 ) = 3 nlat_p( 30 ) = 3 nlat_p( 31 ) = 3 procid 0 assigned 3 latitude values from 1 through 3 procid 1 assigned 3 latitude values from 4 through 6 procid 2 assigned 3 latitude values from 7 through 9 procid 3 assigned 3 latitude values from 10 through 12 procid 4 assigned 3 latitude values from 13 through 15 procid 5 assigned 3 latitude values from 16 through 18 procid 6 assigned 3 latitude values from 19 through 21 procid 7 assigned 3 latitude values from 22 through 24 procid 8 assigned 3 latitude values from 25 through 27 procid 9 assigned 3 latitude values from 28 through 30 procid 10 assigned 3 latitude values from 31 through 33 procid 11 assigned 3 latitude values from 34 through 36 procid 12 assigned 3 latitude values from 37 through 39 procid 13 assigned 3 latitude values from 40 through 42 procid 14 assigned 3 latitude values from 43 through 45 procid 15 assigned 3 latitude values from 46 through 48 procid 16 assigned 3 latitude values from 49 through 51 procid 17 assigned 3 latitude values from 52 through 54 procid 18 assigned 3 latitude values from 55 through 57 procid 19 assigned 3 latitude values from 58 through 60 procid 20 assigned 3 latitude values from 61 through 63 procid 21 assigned 3 latitude values from 64 through 66 procid 22 assigned 3 latitude values from 67 through 69 procid 23 assigned 3 latitude values from 70 through 72 procid 24 assigned 3 latitude values from 73 through 75 procid 25 assigned 3 latitude values from 76 through 78 procid 26 assigned 3 latitude values from 79 through 81 procid 27 assigned 3 latitude values from 82 through 84 procid 28 assigned 3 latitude values from 85 through 87 procid 29 assigned 3 latitude values from 88 through 90 procid 30 assigned 3 latitude values from 91 through 93 procid 31 assigned 3 latitude values from 94 through 96 procid 32 assigned 3 latitude values from 1 through 3 procid 33 assigned 3 latitude values from 4 through 6 procid 34 assigned 3 latitude values from 7 through 9 procid 35 assigned 3 latitude values from 10 through 12 procid 36 assigned 3 latitude values from 13 through 15 procid 37 assigned 3 latitude values from 16 through 18 procid 38 assigned 3 latitude values from 19 through 21 procid 39 assigned 3 latitude values from 22 through 24 procid 40 assigned 3 latitude values from 25 through 27 procid 41 assigned 3 latitude values from 28 through 30 procid 42 assigned 3 latitude values from 31 through 33 procid 43 assigned 3 latitude values from 34 through 36 procid 44 assigned 3 latitude values from 37 through 39 procid 45 assigned 3 latitude values from 40 through 42 procid 46 assigned 3 latitude values from 43 through 45 procid 47 assigned 3 latitude values from 46 through 48 procid 48 assigned 3 latitude values from 49 through 51 procid 49 assigned 3 latitude values from 52 through 54 procid 50 assigned 3 latitude values from 55 through 57 procid 51 assigned 3 latitude values from 58 through 60 procid 52 assigned 3 latitude values from 61 through 63 procid 53 assigned 3 latitude values from 64 through 66 procid 54 assigned 3 latitude values from 67 through 69 procid 55 assigned 3 latitude values from 70 through 72 procid 56 assigned 3 latitude values from 73 through 75 procid 57 assigned 3 latitude values from 76 through 78 procid 58 assigned 3 latitude values from 79 through 81 procid 59 assigned 3 latitude values from 82 through 84 procid 60 assigned 3 latitude values from 85 through 87 procid 61 assigned 3 latitude values from 88 through 90 procid 62 assigned 3 latitude values from 91 through 93 procid 63 assigned 3 latitude values from 94 through 96 procid 64 assigned 3 latitude values from 1 through 3 procid 65 assigned 3 latitude values from 4 through 6 procid 66 assigned 3 latitude values from 7 through 9 procid 67 assigned 3 latitude values from 10 through 12 procid 68 assigned 3 latitude values from 13 through 15 procid 69 assigned 3 latitude values from 16 through 18 procid 70 assigned 3 latitude values from 19 through 21 procid 71 assigned 3 latitude values from 22 through 24 procid 72 assigned 3 latitude values from 25 through 27 procid 73 assigned 3 latitude values from 28 through 30 procid 74 assigned 3 latitude values from 31 through 33 procid 75 assigned 3 latitude values from 34 through 36 procid 76 assigned 3 latitude values from 37 through 39 procid 77 assigned 3 latitude values from 40 through 42 procid 78 assigned 3 latitude values from 43 through 45 procid 79 assigned 3 latitude values from 46 through 48 procid 80 assigned 3 latitude values from 49 through 51 procid 81 assigned 3 latitude values from 52 through 54 procid 82 assigned 3 latitude values from 55 through 57 procid 83 assigned 3 latitude values from 58 through 60 procid 84 assigned 3 latitude values from 61 through 63 procid 85 assigned 3 latitude values from 64 through 66 procid 86 assigned 3 latitude values from 67 through 69 procid 87 assigned 3 latitude values from 70 through 72 procid 88 assigned 3 latitude values from 73 through 75 procid 89 assigned 3 latitude values from 76 through 78 procid 90 assigned 3 latitude values from 79 through 81 procid 91 assigned 3 latitude values from 82 through 84 procid 92 assigned 3 latitude values from 85 through 87 procid 93 assigned 3 latitude values from 88 through 90 procid 94 assigned 3 latitude values from 91 through 93 procid 95 assigned 3 latitude values from 94 through 96 initcom: lat, clat, w 1 -1.57079632679490 1.366950075309958E-004 initcom: lat, clat, w 2 -1.53772693044132 1.093335844164156E-003 initcom: lat, clat, w 3 -1.50465753408774 2.185476141635001E-003 initcom: lat, clat, w 4 -1.47158813773417 3.275226653031704E-003 initcom: lat, clat, w 5 -1.43851874138059 4.361395752169650E-003 initcom: lat, clat, w 6 -1.40544934502701 5.442795729086125E-003 initcom: lat, clat, w 7 -1.37237994867344 6.518244088782987E-003 initcom: lat, clat, w 8 -1.33931055231986 7.586564844268895E-003 initcom: lat, clat, w 9 -1.30624115596628 8.646589802482341E-003 initcom: lat, clat, w 10 -1.27317175961271 9.697159841694614E-003 initcom: lat, clat, w 11 -1.24010236325913 1.073712617899225E-002 initcom: lat, clat, w 12 -1.20703296690555 1.176535162645409E-002 initcom: lat, clat, w 13 -1.17396357055198 1.278071183464968E-002 initcom: lat, clat, w 14 -1.14089417419840 1.378209652209861E-002 initcom: lat, clat, w 15 -1.10782477784482 1.476841068934709E-002 initcom: lat, clat, w 16 -1.07475538149124 1.573857581633464E-002 initcom: lat, clat, w 17 -1.04168598513767 1.669153104173815E-002 initcom: lat, clat, w 18 -1.00861658878409 1.762623432301047E-002 initcom: lat, clat, w 19 -0.975547192430515 1.854166357583609E-002 initcom: lat, clat, w 20 -0.942477796076938 1.943681779176776E-002 initcom: lat, clat, w 21 -0.909408399723361 2.031071813281227E-002 initcom: lat, clat, w 22 -0.876339003369784 2.116240900177779E-002 initcom: lat, clat, w 23 -0.843269607016208 2.199095908720305E-002 initcom: lat, clat, w 24 -0.810200210662631 2.279546238173447E-002 initcom: lat, clat, w 25 -0.777130814309054 2.357503917283121E-002 initcom: lat, clat, w 26 -0.744061417955477 2.432883700471766E-002 initcom: lat, clat, w 27 -0.710992021601901 2.505603161053183E-002 initcom: lat, clat, w 28 -0.677922625248324 2.575582781364860E-002 initcom: lat, clat, w 29 -0.644853228894747 2.642746039719457E-002 initcom: lat, clat, w 30 -0.611783832541170 2.707019494080043E-002 initcom: lat, clat, w 31 -0.578714436187594 2.768332862367906E-002 initcom: lat, clat, w 32 -0.545645039834017 2.826619099315009E-002 initcom: lat, clat, w 33 -0.512575643480440 2.881814469777011E-002 initcom: lat, clat, w 34 -0.479506247126863 2.933858618426699E-002 initcom: lat, clat, w 35 -0.446436850773286 2.982694635751609E-002 initcom: lat, clat, w 36 -0.413367454419710 3.028269120283811E-002 initcom: lat, clat, w 37 -0.380298058066133 3.070532236993589E-002 initcom: lat, clat, w 38 -0.347228661712556 3.109437771783308E-002 initcom: lat, clat, w 39 -0.314159265358979 3.144943182021859E-002 initcom: lat, clat, w 40 -0.281089869005403 3.177009643064499E-002 initcom: lat, clat, w 41 -0.248020472651826 3.205602090706813E-002 initcom: lat, clat, w 42 -0.214951076298249 3.230689259527131E-002 initcom: lat, clat, w 43 -0.181881679944672 3.252243717074652E-002 initcom: lat, clat, w 44 -0.148812283591095 3.270241893866493E-002 initcom: lat, clat, w 45 -0.115742887237519 3.284664109160615E-002 initcom: lat, clat, w 46 -8.267349088394203E-002 3.295494592476321E-002 initcom: lat, clat, w 47 -4.960409453036532E-002 3.302721500839129E-002 initcom: lat, clat, w 48 -1.653469817678836E-002 3.306336931730829E-002 initcom: lat, clat, w 49 1.653469817678836E-002 3.306336931730816E-002 initcom: lat, clat, w 50 4.960409453036508E-002 3.302721500839118E-002 initcom: lat, clat, w 51 8.267349088394180E-002 3.295494592476321E-002 initcom: lat, clat, w 52 0.115742887237519 3.284664109160625E-002 initcom: lat, clat, w 53 0.148812283591095 3.270241893866507E-002 initcom: lat, clat, w 54 0.181881679944672 3.252243717074638E-002 initcom: lat, clat, w 55 0.214951076298249 3.230689259527122E-002 initcom: lat, clat, w 56 0.248020472651826 3.205602090706808E-002 initcom: lat, clat, w 57 0.281089869005402 3.177009643064510E-002 initcom: lat, clat, w 58 0.314159265358979 3.144943182021875E-002 initcom: lat, clat, w 59 0.347228661712556 3.109437771783297E-002 initcom: lat, clat, w 60 0.380298058066133 3.070532236993573E-002 initcom: lat, clat, w 61 0.413367454419709 3.028269120283811E-002 initcom: lat, clat, w 62 0.446436850773286 2.982694635751620E-002 initcom: lat, clat, w 63 0.479506247126863 2.933858618426710E-002 initcom: lat, clat, w 64 0.512575643480440 2.881814469777016E-002 initcom: lat, clat, w 65 0.545645039834017 2.826619099314986E-002 initcom: lat, clat, w 66 0.578714436187593 2.768332862367906E-002 initcom: lat, clat, w 67 0.611783832541170 2.707019494080043E-002 initcom: lat, clat, w 68 0.644853228894747 2.642746039719468E-002 initcom: lat, clat, w 69 0.677922625248324 2.575582781364871E-002 initcom: lat, clat, w 70 0.710992021601900 2.505603161053171E-002 initcom: lat, clat, w 71 0.744061417955477 2.432883700471755E-002 initcom: lat, clat, w 72 0.777130814309054 2.357503917283110E-002 initcom: lat, clat, w 73 0.810200210662631 2.279546238173458E-002 initcom: lat, clat, w 74 0.843269607016207 2.199095908720328E-002 initcom: lat, clat, w 75 0.876339003369785 2.116240900177779E-002 initcom: lat, clat, w 76 0.909408399723361 2.031071813281227E-002 initcom: lat, clat, w 77 0.942477796076938 1.943681779176776E-002 initcom: lat, clat, w 78 0.975547192430515 1.854166357583609E-002 initcom: lat, clat, w 79 1.00861658878409 1.762623432301036E-002 initcom: lat, clat, w 80 1.04168598513767 1.669153104173826E-002 initcom: lat, clat, w 81 1.07475538149124 1.573857581633464E-002 initcom: lat, clat, w 82 1.10782477784482 1.476841068934698E-002 initcom: lat, clat, w 83 1.14089417419840 1.378209652209850E-002 initcom: lat, clat, w 84 1.17396357055198 1.278071183464968E-002 initcom: lat, clat, w 85 1.20703296690555 1.176535162645431E-002 initcom: lat, clat, w 86 1.24010236325913 1.073712617899225E-002 initcom: lat, clat, w 87 1.27317175961271 9.697159841694614E-003 initcom: lat, clat, w 88 1.30624115596628 8.646589802482230E-003 initcom: lat, clat, w 89 1.33931055231986 7.586564844268895E-003 initcom: lat, clat, w 90 1.37237994867344 6.518244088783098E-003 initcom: lat, clat, w 91 1.40544934502701 5.442795729086014E-003 initcom: lat, clat, w 92 1.43851874138059 4.361395752169761E-003 initcom: lat, clat, w 93 1.47158813773417 3.275226653031704E-003 initcom: lat, clat, w 94 1.50465753408774 2.185476141634890E-003 initcom: lat, clat, w 95 1.53772693044132 1.093335844164267E-003 initcom: lat, clat, w 96 1.57079632679490 1.366950075309958E-004 Number of longitudes per latitude = 144 PHYS_GRID_INIT: Using PCOLS= 16 phys_loadbalance= 0 phys_twin_algorithm= 1 phys_alltoall= -1 chunks_per_thread= 1 (GETFIL): attempting to find local file ghg_rcp45_1765-2500_c100405.nc (GETFIL): using /work/shared/noresm/inputdata/atm/cam/ggas/ghg_rcp45_1765-2500_c100405.nc GHG_RAMP_READ: reading ramped greenhouse gas surface data from file /work/shared/noresm/inputdata/atm/cam/ggas/ghg_rcp45_1765-2500_c100405.nc GHG_RAMP_READ: successfully read ramped greenhouse gas surface data from years 1765 through 2500 RAMPED values initialized to chem_surfvals_set: ncdate= 19800101 co2vmr= 3.383599853515625E-004 chem_surfvals_set: ch4vmr= 1.547750000000000E-006 n2ovmr= 3.013825073242188E-007 f11vmr= 3.461322326660156E-010 f12vmr= 2.873500061035156E-010 co2 volume mixing ratio = 3.383599853515625E-004 ch4 volume mixing ratio = 1.547750000000000E-006 n2o volume mixing ratio = 3.013825073242188E-007 f11 volume mixing ratio = 3.461322326660156E-010 f12 volume mixing ratio = 2.873500061035156E-010 INITIALIZE_RADBUFFER: ntoplw = 1 pressure: 354.463800000001 Creating new decomp: 260200960144 Creating new decomp: 3602002600950144 Creating new decomp: 3602002600960144 ************************************************************************ INIDAT: Globally averaged geopotential height = 231.8451198518 meters ************************************************************************ NTOP_MOLEC = 1 NBOT_MOLEC = 0 NTOP_EDDY = 1 NBOT_EDDY = 26 print_energy_errors is set T Creating new decomp: 260500960144 CHECK_VAR INFO: variable PBLH is not on file PBLH initialized to 0. CHECK_VAR INFO: variable TPERT is not on file TPERT initialized to 0. CHECK_VAR INFO: variable QPERT is not on file QPERT initialized to 0. CHECK_VAR INFO: variable CUSH is not on file CUSH initialized to 1000. CHECK_VAR INFO: variable CLOUD is not on file CLOUD initialized to 0. CHECK_VAR INFO: variable QCWAT is not on file Creating new decomp: 3605002600960144 QCWAT initialized with Q CHECK_VAR INFO: variable ICCWAT is not on file ICCWAT initialized with CLDICE CHECK_VAR INFO: variable LCWAT is not on file LCWAT initialized with CLDICE + CLDLIQ CHECK_VAR INFO: variable TCWAT is not on file TCWAT initialized with T CHECK_VAR INFO: variable TKE is not on file TKE initialized to 0.01 CHECK_VAR INFO: variable KVM is not on file KVM initialized to 0. CHECK_VAR INFO: variable KVH is not on file KVH initialized to 0. CHECK_VAR INFO: variable CONCLD is not on file CONCLD initialized to 0. (GETFIL): attempting to find local file sulfate_camrt_c080918.nc (GETFIL): using /work/shared/noresm/inputdata/atm/cam/physprops/sulfate_camrt_c080918.nc _______ hygroscopic growth in visible band _______ SO4 rh ext (m^2 kg^-1) ssa asm 0.000 4616.169 1.000 0.723 0.801 11600.732 1.000 0.776 0.836 13589.177 1.000 0.780 0.858 14955.007 1.000 0.782 0.873 16030.351 1.000 0.784 0.885 16932.104 1.000 0.785 0.896 17716.501 1.000 0.787 0.904 18793.425 1.000 0.788 0.912 20147.668 1.000 0.789 0.919 21433.545 1.000 0.789 0.925 22661.829 1.000 0.790 0.930 23841.009 1.000 0.791 0.935 24977.701 1.000 0.792 0.940 26076.765 1.000 0.792 0.944 27143.059 1.000 0.793 0.948 28179.419 1.000 0.793 0.952 29865.051 1.000 0.794 0.956 32025.655 1.000 0.794 0.959 34215.073 1.000 0.794 0.963 36431.281 1.000 0.794 0.966 38673.531 1.000 0.794 0.969 40941.777 1.000 0.795 0.971 43235.163 1.000 0.795 0.974 45552.030 1.000 0.795 0.977 47895.406 1.000 0.795 0.979 50260.984 1.000 0.795 0.982 54428.129 1.000 0.795 0.984 59717.533 1.000 0.795 0.986 65324.565 1.000 0.794 0.988 71249.469 1.000 0.794 0.990 77493.667 1.000 0.794 0.992 84066.083 1.000 0.794 0.994 90974.384 1.000 0.794 0.996 98224.714 1.000 0.793 0.998 105821.395 1.000 0.793 1.000 113591.102 1.000 0.793 physprop_init finished for SULFATE (GETFIL): attempting to find local file dust1_camrt_c080918.nc (GETFIL): using /work/shared/noresm/inputdata/atm/cam/physprops/dust1_camrt_c080918.nc physprop_init finished for DUST1 (GETFIL): attempting to find local file dust2_camrt_c080918.nc (GETFIL): using /work/shared/noresm/inputdata/atm/cam/physprops/dust2_camrt_c080918.nc physprop_init finished for DUST2 (GETFIL): attempting to find local file dust3_camrt_c080918.nc (GETFIL): using /work/shared/noresm/inputdata/atm/cam/physprops/dust3_camrt_c080918.nc physprop_init finished for DUST3 (GETFIL): attempting to find local file dust4_camrt_c080918.nc (GETFIL): using /work/shared/noresm/inputdata/atm/cam/physprops/dust4_camrt_c080918.nc physprop_init finished for DUST4 (GETFIL): attempting to find local file bcpho_camrt_c080918.nc (GETFIL): using /work/shared/noresm/inputdata/atm/cam/physprops/bcpho_camrt_c080918.nc physprop_init finished for BCPHO (GETFIL): attempting to find local file bcphi_camrt_c080918.nc (GETFIL): using /work/shared/noresm/inputdata/atm/cam/physprops/bcphi_camrt_c080918.nc physprop_init finished for BCPHI (GETFIL): attempting to find local file ocpho_camrt_c080918.nc (GETFIL): using /work/shared/noresm/inputdata/atm/cam/physprops/ocpho_camrt_c080918.nc physprop_init finished for OCPHO (GETFIL): attempting to find local file ocphi_camrt_c080918.nc (GETFIL): using /work/shared/noresm/inputdata/atm/cam/physprops/ocphi_camrt_c080918.nc physprop_init finished for OCPHI (GETFIL): attempting to find local file ssam_camrt_c080918.nc (GETFIL): using /work/shared/noresm/inputdata/atm/cam/physprops/ssam_camrt_c080918.nc physprop_init finished for SSAM (GETFIL): attempting to find local file sscm_camrt_c080918.nc (GETFIL): using /work/shared/noresm/inputdata/atm/cam/physprops/sscm_camrt_c080918.nc physprop_init finished for SSCM (GETFIL): attempting to find local file sulfuricacid_cam3_c080918.nc (GETFIL): using /work/shared/noresm/inputdata/atm/cam/physprops/sulfuricacid_cam3_c080918.nc physprop_init finished for VOLCANIC rad_cnst_init: checking for radiative constituents init_lists: namelist input for climate list rad namelist spec: P_Q:H2O rad namelist spec: D_O2:O2 rad namelist spec: D_CO2:CO2 rad namelist spec: D_ozone:O3 rad namelist spec: D_N2O:N2O rad namelist spec: D_CH4:CH4 rad namelist spec: D_CFC11:CFC11 rad namelist spec: D_CFC12:CFC12 rad namelist spec: D_sulf:/work/shared/noresm/inputdata/atm/cam/physprops/sul fate_camrt_c080918.nc rad namelist spec: D_dust1:/work/shared/noresm/inputdata/atm/cam/physprops/du st1_camrt_c080918.nc rad namelist spec: D_dust2:/work/shared/noresm/inputdata/atm/cam/physprops/du st2_camrt_c080918.nc rad namelist spec: D_dust3:/work/shared/noresm/inputdata/atm/cam/physprops/du st3_camrt_c080918.nc rad namelist spec: D_dust4:/work/shared/noresm/inputdata/atm/cam/physprops/du st4_camrt_c080918.nc rad namelist spec: D_bcar1:/work/shared/noresm/inputdata/atm/cam/physprops/bc pho_camrt_c080918.nc rad namelist spec: D_bcar2:/work/shared/noresm/inputdata/atm/cam/physprops/bc phi_camrt_c080918.nc rad namelist spec: D_ocar1:/work/shared/noresm/inputdata/atm/cam/physprops/oc pho_camrt_c080918.nc rad namelist spec: D_ocar2:/work/shared/noresm/inputdata/atm/cam/physprops/oc phi_camrt_c080918.nc rad namelist spec: D_SSLTA:/work/shared/noresm/inputdata/atm/cam/physprops/ss am_camrt_c080918.nc rad namelist spec: D_SSLTC:/work/shared/noresm/inputdata/atm/cam/physprops/ss cm_camrt_c080918.nc rad namelist spec: D_VOLC_MMR:/work/shared/noresm/inputdata/atm/cam/physprops /sulfuricacid_cam3_c080918.nc gas list for climate calculations P_H2O has constituents name:Q D_O3 has pbuf name:ozone D_O2 has pbuf name:O2 D_CO2 has pbuf name:CO2 D_N2O has pbuf name:N2O D_CH4 has pbuf name:CH4 D_CFC11 has pbuf name:CFC11 D_CFC12 has pbuf name:CFC12 aerosol list for climate calculations D_sulf optics and phys props in :/work/shared/noresm/inputdata/atm/cam/physpr ops/sulfate_camrt_c080918.nc D_dust1 optics and phys props in :/work/shared/noresm/inputdata/atm/cam/physp rops/dust1_camrt_c080918.nc D_dust2 optics and phys props in :/work/shared/noresm/inputdata/atm/cam/physp rops/dust2_camrt_c080918.nc D_dust3 optics and phys props in :/work/shared/noresm/inputdata/atm/cam/physp rops/dust3_camrt_c080918.nc D_dust4 optics and phys props in :/work/shared/noresm/inputdata/atm/cam/physp rops/dust4_camrt_c080918.nc D_bcar1 optics and phys props in :/work/shared/noresm/inputdata/atm/cam/physp rops/bcpho_camrt_c080918.nc D_bcar2 optics and phys props in :/work/shared/noresm/inputdata/atm/cam/physp rops/bcphi_camrt_c080918.nc D_ocar1 optics and phys props in :/work/shared/noresm/inputdata/atm/cam/physp rops/ocpho_camrt_c080918.nc D_ocar2 optics and phys props in :/work/shared/noresm/inputdata/atm/cam/physp rops/ocphi_camrt_c080918.nc D_SSLTA optics and phys props in :/work/shared/noresm/inputdata/atm/cam/physp rops/ssam_camrt_c080918.nc D_SSLTC optics and phys props in :/work/shared/noresm/inputdata/atm/cam/physp rops/sscm_camrt_c080918.nc D_VOLC_MMR optics and phys props in :/work/shared/noresm/inputdata/atm/cam/ph ysprops/sulfuricacid_cam3_c080918.nc (GETFIL): attempting to find local file SOLAR_TSI_Lean_1610-2140_annual_c100301.nc (GETFIL): using /work/shared/noresm/inputdata/atm/cam/solar/SOLAR_TSI_Lean_1610-2140_annual_c10 0301.nc solar_data_init: data file = /work/shared/noresm/inputdata/atm/cam/solar/SOLAR_TSI_Lean_1610-2140_annual_c10 0301.nc solar_data_init: has_ref_spectrum F solar_data_advance: date, TSI : 1980-01-01-00000, 1361.858330 ozone is prescribed in :ozone_1.9x2.5_L26_1850-2105_c140203.nc trcdata_init: data type: INTERP_MISSING_MONTHS file: ozone_1.9x2.5_L26_1850-210 5_c140203.nc (GETFIL): attempting to find local file ozone_1.9x2.5_L26_1850-2105_c140203.nc (GETFIL): using /work/shared/noresm/inputdata/atm/cam/ozone/ozone_1.9x2.5_L26_1850-2105_c140203 .nc open_trc_datafile: /work/shared/noresm/inputdata/atm/cam/ozone/ozone_1.9x2.5_L26_1850-2105_c140203 .nc trcdata_init: file%has_ps = T aero is prescribed in :aero_1.9x2.5_L26_1850-2105_c140228.nc trcdata_init: data type: INTERP_MISSING_MONTHS file: aero_1.9x2.5_L26_1850-2105 _c140228.nc (GETFIL): attempting to find local file aero_1.9x2.5_L26_1850-2105_c140228.nc (GETFIL): using /work/shared/noresm/inputdata/atm/cam/chem/trop_mozart_aero/aero/aero_1.9x2.5_L 26_1850-2105_c140228.nc open_trc_datafile: /work/shared/noresm/inputdata/atm/cam/chem/trop_mozart_aero/aero/aero_1.9x2.5_L 26_1850-2105_c140228.nc trcdata_init: file%has_ps = T aero dep fluxes are prescribed in :aerosoldep_monthly_1849-2104_1.9x2.5_c140228 .nc trcdata_init: data type: INTERP_MISSING_MONTHS file: aerosoldep_monthly_1849-21 04_1.9x2.5_c140228.nc (GETFIL): attempting to find local file aerosoldep_monthly_1849-2104_1.9x2.5_c140228.nc (GETFIL): using /work/shared/noresm/inputdata/atm/cam/chem/trop_mozart_aero/aero/aerosoldep_mon thly_1849-2104_1.9x2.5_c140228.nc open_trc_datafile: /work/shared/noresm/inputdata/atm/cam/chem/trop_mozart_aero/aero/aerosoldep_mon thly_1849-2104_1.9x2.5_c140228.nc trcdata_init: file%has_ps = F volcanic aerosol is prescribed in :CCSM4_volcanic_1850-2100_prototype1ext.nc trcdata_init: data type: SERIAL file: CCSM4_volcanic_1850-2100_prototype1ext.nc (GETFIL): attempting to find local file CCSM4_volcanic_1850-2100_prototype1ext.nc (GETFIL): using /work/shared/noresm/inputdata/atm/cam/volc/CCSM4_volcanic_1850-2100_prototype1e xt.nc open_trc_datafile: /work/shared/noresm/inputdata/atm/cam/volc/CCSM4_volcanic_1850-2100_prototype1e xt.nc trcdata_init: file%has_ps = F GW_INTI: pgwv = 0 GW_INTI: c(l) = 0.000000000000000E+000 GW_INTI: effgw_oro = 0.125000000000000 GW_INTI: kwv = 6.280000000000000E-005 GW_INTI: fcrit2 = 1.00000000000000 KTOPBG = 0 KBOTBG = 8 KTOPORO = 0 KBOTORO = 26 Rayleigh friction - rayk0 = 2 Rayleigh friction - raykrange = 0.000000000000000E+000 Rayleigh friction - raytau0 = 0.000000000000000E+000 Rayleigh friction - krange = 0.500000000000000 Rayleigh friction - otau0 = 0.000000000000000E+000 Rayleigh friction decay rate profile k = 1 otau = 0.000000000000000E+000 k = 2 otau = 0.000000000000000E+000 k = 3 otau = 0.000000000000000E+000 k = 4 otau = 0.000000000000000E+000 k = 5 otau = 0.000000000000000E+000 k = 6 otau = 0.000000000000000E+000 k = 7 otau = 0.000000000000000E+000 k = 8 otau = 0.000000000000000E+000 k = 9 otau = 0.000000000000000E+000 k = 10 otau = 0.000000000000000E+000 k = 11 otau = 0.000000000000000E+000 k = 12 otau = 0.000000000000000E+000 k = 13 otau = 0.000000000000000E+000 k = 14 otau = 0.000000000000000E+000 k = 15 otau = 0.000000000000000E+000 k = 16 otau = 0.000000000000000E+000 k = 17 otau = 0.000000000000000E+000 k = 18 otau = 0.000000000000000E+000 k = 19 otau = 0.000000000000000E+000 k = 20 otau = 0.000000000000000E+000 k = 21 otau = 0.000000000000000E+000 k = 22 otau = 0.000000000000000E+000 k = 23 otau = 0.000000000000000E+000 k = 24 otau = 0.000000000000000E+000 k = 25 otau = 0.000000000000000E+000 k = 26 otau = 0.000000000000000E+000 Initializing vertical diffusion (vertical_diffusion_init) vertical_diffusion_init: eddy_diffusivity scheme: Holtslag and Boville INIT_HB_DIFF: PBL height will be limited to bottom 9 model levels. Top is 43389.5225000001 pascals (GETFIL): attempting to find local file abs_ems_factors_fastvx.c030508.nc (GETFIL): using /work/shared/noresm/inputdata/atm/cam/rad/abs_ems_factors_fastvx.c030508.nc *** SATURATION VAPOR PRESSURE TABLE COMPLETED *** convect_shallow_init: Hack shallow convection MFINTI: Convection will be capped at intfc 5 which is 2983.72400000000 pascals tuning parameters hk_conv: cmftau 1800.00000000000 tuning parameters hk_conv: c0 1.000000000000000E-004 tuning parameters cldfrc_init: inversion_cld_off F tuning parameters cldfrc_init: dp1 0.100000000000000 dp2 500.000000000000 sh1 4.000000000000000E-002 sh2 500.000000000000 tuning parameters cldfrc_init: rhminl 0.932000000000000 rhminh 0.800000000000000 premit 75000.0000000000 premib 75000.0000000000 cldfrc_init: model level nearest 700 mb is 21 which is 69679.6290000003 pascals convect_deep initializing Zhang-McFarlane convection ZM_CONV_INIT: Deep convection will be capped at intfc 5 which is 2983.72400000000 pascals tuning parameters zm_convi: tau 3600.00000000000 tuning parameters zm_convi: c0_lnd 3.500000000000000E-003 , c0_ocn 3.500000000000000E-003 tuning parameters zm_convi: ke 1.000000000000000E-006 tuning parameters zm_convi: no_deep_pbl F **** ZM: DILUTE Buoyancy Calculation **** inimc: model levels bracketing 1 mb not found inimc: model level nearest 1 mb is 1 which is 354.463800000001 pascals cloud water initialization by inimc complete tuning parameters cldwat: icritw 2.000000000000000E-004 icritc 9.500000000000001E-006 conke 5.000000000000000E-006 r3lcrit 1.000000000000000E-005 tuning parameters cldwat: capnw 400.000000000000 capnc 150.000000000000 capnsi 75.0000000000000 kconst 1180000.00000000 tuning parameters cldwat: effc 0.550000000000000 alpha 1.46410000000000 capc 442304.333004786 tuning parameters cldwat: critpr 0.500000000000000 convfw 6.72508409063470 cracw 5.32849897563407 ciautb 5.000000000000000E-004 (GETFIL): attempting to find local file clim_p_trop.nc (GETFIL): using /work/shared/noresm/inputdata/atm/cam/chem/trop_mozart/ub/clim_p_trop.nc tropopause_init : days 16.000000 45.000000 75.000000 105.00000 136.00000 166.00000 197.00000 228.00000 258.00000 289.00000 319.00000 350.00000 Using hyai & hybi from IC:KS= 7 PTOP= 219.406700000001 Total Mass= 985.355434833284 (mb), Dry Mass= 982.880011740209 (mb ) Total Precipitable Water = 25.2435519415924 (kg/m**2) dry mass to be added = -1.174020871985704E-005 Total moist surface pressure after adjustment (mb) = 985.355423093076 ******* MASTER FIELD LIST ******* 1 US m/s 26 A Zonal wind, staggered 2 VS m/s 26 A Meridional wind, staggered 3 US&IC m/s 26 I Zonal wind, staggered 4 VS&IC m/s 26 I Meridional wind, staggered 5 PS&IC Pa 1 I Surface pressure 6 T&IC K 26 I Temperature 7 Q&IC kg/kg 26 I Specific humidity 8 CLDLIQ&IC kg/kg 26 I Grid box averaged cloud liquid amount 9 CLDICE&IC kg/kg 26 I Grid box averaged cloud ice amount 10 TAQ kg/kg/s 26 A Q horz + vert + fixer tendency 11 TACLDLIQ kg/kg/s 26 A CLDLIQ horz + vert + fixer tendency 12 TACLDICE kg/kg/s 26 A CLDICE horz + vert + fixer tendency 13 DUH K/s 26 A U horizontal diffusive heating 14 DVH K/s 26 A V horizontal diffusive heating 15 ENGYCORR W/m2 26 A Energy correction for over-all conservation 16 FU m/s2 26 A Zonal wind forcing term 17 FV m/s2 26 A Meridional wind forcing term 18 FU_S m/s2 26 A Zonal wind forcing term on staggered grid 19 FV_S m/s2 26 A Meridional wind forcing term on staggered grid 20 UTEND m/s2 26 A U tendency 21 VTEND m/s2 26 A V tendency 22 TTEND K/s 26 A Total T tendency (all processes) 23 LPSTEN Pa/s 1 A Surface pressure tendency 24 VAT K/s 26 A Vertical advective tendency of T 25 KTOOP K/s 26 A (Kappa*T)*(omega/P) 26 NSTEP timestep 1 A Model timestep 27 PHIS m2/s2 1 I Surface geopotential 28 PS Pa 1 A Surface pressure 29 T K 26 A Temperature 30 U m/s 26 A Zonal wind 31 V m/s 26 A Meridional wind 32 Q kg/kg 26 A Specific humidity 33 TBP K 26 A Temperature (before physics) 34 QBP kg/kg 26 A Specific humidity (before physics) 35 TAP K 26 A Temperature (after physics) 36 UAP m/s 26 A Zonal wind (after physics) 37 VAP m/s 26 A Meridional wind (after physics) 38 QAP kg/kg 26 A Specific humidity (after physics) 39 TFIX K/s 1 A T fixer (T equivalent of Energy correction) 40 PTTEND_DME K/s 26 A T-tendency due to dry mass adjustment at the end of tphysac 41 EFLX W/m2 1 A Equivalent heat flux due to mass adjustment at end of tphysac 42 IETEND_DME W/m2 1 A Column DSE tendency due to mass adjustment at end of tphysac 43 TTEND_TOT K/s 26 A Total temperature tendency 44 TMCLDLIQ kg/m2 1 A CLDLIQ column burden 45 TMCLDICE kg/m2 1 A CLDICE column burden 46 Z3 m 26 A Geopotential Height (above sea level) 47 Z700 m 1 A Geopotential Z at 700 mbar pressure surface 48 Z500 m 1 A Geopotential Z at 500 mbar pressure surface 49 Z300 m 1 A Geopotential Z at 300 mbar pressure surface 50 Z200 m 1 A Geopotential Z at 200 mbar pressure surface 51 Z100 m 1 A Geopotential Z at 100 mbar pressure surface 52 Z050 m 1 A Geopotential Z at 50 mbar pressure surface 53 ZZ m2 26 A Eddy height variance 54 VZ m2/s 26 A Meridional transport of geopotential energy 55 VT K m/s 26 A Meridional heat transport 56 VU m2/s2 26 A Meridional flux of zonal momentum 57 VV m2/s2 26 A Meridional velocity squared 58 VQ m/skg/kg 26 A Meridional water transport 59 QQ kg2/kg2 26 A Eddy moisture variance 60 OMEGAV m Pa/s2 26 A Vertical flux of meridional momentum 61 OMGAOMGA Pa2/s2 26 A Vertical flux of vertical momentum 62 OMEGAQ kgPa/kgs 26 A Vertical water transport 63 UU m2/s2 26 A Zonal velocity squared 64 WSPEED m/s 26 X Horizontal total wind speed 65 OMEGA Pa/s 26 A Vertical velocity (pressure) 66 OMEGAT K Pa/s 26 A Vertical heat flux 67 OMEGAU m Pa/s2 26 A Vertical flux of zonal momentum 68 OMEGA850 Pa/s 1 A Vertical velocity at 850 mbar pressure surface 69 OMEGA500 Pa/s 1 A Vertical velocity at 500 mbar pressure surface 70 MQ kg/m2 26 A Water vapor mass in layer 71 TMQ kg/m2 1 A Total (vertically integrated) precipitatable water 72 RELHUM percent 26 A Relative humidity 73 RHW percent 26 A Relative humidity with respect to liquid 74 RHI percent 26 A Relative humidity with respect to ice 75 RHCFMIP percent 26 A Relative humidity with respect to water above 273 K, ice below 273 K 76 PSL Pa 1 A Sea level pressure 77 T850 K 1 A Temperature at 850 mbar pressure surface 78 T500 K 1 A Temperature at 500 mbar pressure surface 79 T300 K 1 A Temperature at 300 mbar pressure surface 80 T200 K 1 A Temperature at 200 mbar pressure surface 81 Q850 kg/kg 1 A Specific Humidity at 850 mbar pressure surface 82 Q200 kg/kg 1 A Specific Humidity at 700 mbar pressure surface 83 U850 m/s 1 A Zonal wind at 850 mbar pressure surface 84 U200 m/s 1 A Zonal wind at 200 mbar pressure surface 85 U250 m/s 1 A Zonal wind at 250 mbar pressure surface 86 V850 m/s 1 A Meridional wind at 850 mbar pressure surface 87 V200 m/s 1 A Meridional wind at 200 mbar pressure surface 88 V250 m/s 1 A Meridional wind at 250 mbar pressure surface 89 TT K2 26 A Eddy temperature variance 90 UBOT m/s 1 A Lowest model level zonal wind 91 VBOT m/s 1 A Lowest model level meridional wind 92 QBOT kg/kg 1 A Lowest model level water vapor mixing ratio 93 ZBOT m 1 A Lowest model level height 94 ATMEINT J/m2 1 A Vertically integrated total atmospheric energy 95 T1000 K 1 A Temperature at 1000 mbar pressure surface 96 T925 K 1 A Temperature at 925 mbar pressure surface 97 T700 K 1 A Temperature at 700 mbar pressure surface 98 Q1000 kg/kg 1 A Specific Humidity at 1000 mbar pressure surface 99 Q925 kg/kg 1 A Specific Humidity at 925 mbar pressure surface 100 T7001000 K 1 A Temperature difference 700 mb - 1000 mb 101 TH7001000 K 1 A Theta difference 700 mb - 1000 mb 102 THE7001000 K 1 A ThetaE difference 700 mb - 1000 mb 103 T8501000 K 1 A Temperature difference 850 mb - 1000 mb 104 TH8501000 K 1 A Theta difference 850 mb - 1000 mb 105 THE8501000 K 1 A ThetaE difference 850 mb - 1000 mb 106 T9251000 K 1 A Temperature difference 925 mb - 1000 mb 107 TH9251000 K 1 A Theta difference 925 mb - 1000 mb 108 THE9251000 K 1 A ThetaE difference 925 mb - 1000 mb 109 PDELDRY Pa 26 A Dry pressure difference between levels 110 PSDRY Pa 1 A Surface pressure 111 DTCOND K/s 26 A T tendency - moist processes 112 DTCOND_24_COS K/s 26 A T tendency - moist processes 24hr. cos coeff. 113 DTCOND_24_SIN K/s 26 A T tendency - moist processes 24hr. sin coeff. 114 DTCOND_12_COS K/s 26 A T tendency - moist processes 12hr. cos coeff. 115 DTCOND_12_SIN K/s 26 A T tendency - moist processes 12hr. sin coeff. 116 DCQ kg/kg/s 26 A Q tendency due to moist processes 117 PRECL m/s 1 A Large-scale (stable) precipitation rate (liq + ice) 118 PRECC m/s 1 A Convective precipitation rate (liq + ice) 119 PRECT m/s 1 A Total (convective and large-scale) precipitation rate (liq + ice) 120 PRECTMX m/s 1 X Maximum (convective and large-scale) precipitation rate (liq+ice) 121 PRECSL m/s 1 A Large-scale (stable) snow rate (water equivalent) 122 PRECSC m/s 1 A Convective snow rate (water equivalent) 123 PRECCav m/s 1 A Average large-scale precipitation (liq + ice) 124 PRECLav m/s 1 A Average convective precipitation (liq + ice) 125 SHFLX W/m2 1 A Surface sensible heat flux 126 LHFLX W/m2 1 A Surface latent heat flux 127 QFLX kg/m2/s 1 A Surface water flux 128 TAUX N/m2 1 A Zonal surface stress 129 TAUY N/m2 1 A Meridional surface stress 130 TREFHT K 1 A Reference height temperature 131 TREFHTMN K 1 M Minimum reference height temperature over output period 132 TREFHTMX K 1 X Maximum reference height temperature over output period 133 QREFHT kg/kg 1 A Reference height humidity 134 U10 m/s 1 A 10m wind speed 135 UAS m/s 1 A Eastward 10m wind 136 VAS m/s 1 A Northward 10m wind 137 RHREFHT fraction 1 A Reference height relative humidity 138 LANDFRAC fraction 1 A Fraction of sfc area covered by land 139 ICEFRAC fraction 1 A Fraction of sfc area covered by sea-ice 140 OCNFRAC fraction 1 A Fraction of sfc area covered by ocean 141 TREFMNAV K 1 A Average of TREFHT daily minimum 142 TREFMXAV K 1 A Average of TREFHT daily maximum 143 TS K 1 A Surface temperature (radiative) 144 TSMN K 1 M Minimum surface temperature over output period 145 TSMX K 1 X Maximum surface temperature over output period 146 SNOWHLND m 1 A Water equivalent snow depth 147 SNOWHICE m 1 A Water equivalent snow depth 148 TBOT K 1 A Lowest model level temperature 149 ASDIR 1 1 A albedo: shortwave, direct 150 ASDIF 1 1 A albedo: shortwave, diffuse 151 ALDIR 1 1 A albedo: longwave, direct 152 ALDIF 1 1 A albedo: longwave, diffuse 153 SST K 1 A sea surface temperature 154 PTTEND K/s 26 A T total physics tendency 155 PTEQ kg/kg/s 26 A Q total physics tendency 156 PTECLDLIQ kg/kg/s 26 A CLDLIQ total physics tendency 157 PTECLDICE kg/kg/s 26 A CLDICE total physics tendency 158 DMEQ kg/kg/s 26 A Q dme adjustment tendency (FV) 159 DMECLDLIQ kg/kg/s 26 A CLDLIQ dme adjustment tendency (FV) 160 DMECLDICE kg/kg/s 26 A CLDICE dme adjustment tendency (FV) 161 QCWAT&IC kg/kg 26 I q associated with cloud water 162 TCWAT&IC kg/kg 26 I T associated with cloud water 163 LCWAT&IC kg/kg 26 I Cloud water (ice + liq 164 CLOUD&IC fraction 26 I Cloud fraction 165 CONCLD&IC fraction 26 I Convective cloud fraction 166 TKE&IC m2/s2 27 I Turbulent Kinetic Energy 167 CUSH&IC m 1 I Convective Scale Height 168 KVH&IC m2/s 27 I Vertical diffusion diffusivities (heat/moisture) 169 KVM&IC m2/s 27 I Vertical diffusion diffusivities (momentum) 170 PBLH&IC m 1 I PBL height 171 TPERT&IC K 1 I Perturbation temperature (eddies in PBL) 172 QPERT&IC kg/kg 1 I Perturbation specific humidity (eddies in PBL) 173 TBOT&IC K 1 I Lowest model level temperature 174 a2x_BCPHIWET kg/m2/s 1 A wetdep of hydrophilic black carbon 175 a2x_BCPHIDRY kg/m2/s 1 A drydep of hydrophilic black carbon 176 a2x_BCPHODRY kg/m2/s 1 A drydep of hydrophobic black carbon 177 a2x_OCPHIWET kg/m2/s 1 A wetdep of hydrophilic organic carbon 178 a2x_OCPHIDRY kg/m2/s 1 A drydep of hydrophilic organic carbon 179 a2x_OCPHODRY kg/m2/s 1 A drydep of hydrophobic organic carbon 180 a2x_DSTWET1 kg/m2/s 1 A wetdep of dust (bin1) 181 a2x_DSTDRY1 kg/m2/s 1 A drydep of dust (bin1) 182 a2x_DSTWET2 kg/m2/s 1 A wetdep of dust (bin2) 183 a2x_DSTDRY2 kg/m2/s 1 A drydep of dust (bin2) 184 a2x_DSTWET3 kg/m2/s 1 A wetdep of dust (bin3) 185 a2x_DSTDRY3 kg/m2/s 1 A drydep of dust (bin3) 186 a2x_DSTWET4 kg/m2/s 1 A wetdep of dust (bin4) 187 a2x_DSTDRY4 kg/m2/s 1 A drydep of dust (bin4) 188 TS1 K 1 A TS1 subsoil temperature 189 TS2 K 1 A TS2 subsoil temperature 190 TS3 K 1 A TS3 subsoil temperature 191 TS4 K 1 A TS4 subsoil temperature 192 SICTHK m 1 A Sea ice thickness 193 TSICE K 1 A Ice temperature 194 TS1&IC K 1 I TS1 subsoil temperature 195 TS2&IC K 1 I TS2 subsoil temperature 196 TS3&IC K 1 I TS3 subsoil temperature 197 TS4&IC K 1 I TS4 subsoil temperature 198 SICTHK&IC m 1 I Sea ice thickness 199 TSICE&IC K 1 I Ice temperature 200 SNOWHICE&IC m 1 I Water equivalent snow depth 201 ICEFRAC&IC fraction 1 I Fraction of sfc area covered by sea-ice 202 TSICERAD&IC K 1 I Radiatively equivalent ice temperature 203 TEINP J/m2 1 A Total energy of physics input 204 TEOUT J/m2 1 A Total energy of physics output 205 TEFIX J/m2 1 A Total energy after fixer 206 EFIX W/m2 1 A Effective sensible heat flux due to energy fixer 207 DTCORE K/s 26 I T tendency due to dynamical core 208 m_Q_c kg/m^2 26 A Q mass per layer used in climate calculation 209 cb_Q_c kg/m^2 1 A Q column burden used in climate calculation 210 m_ozone_c kg/m^2 26 A ozone mass per layer used in climate calculation 211 cb_ozone_c kg/m^2 1 A ozone column burden used in climate calculation 212 m_O2_c kg/m^2 26 A O2 mass per layer used in climate calculation 213 cb_O2_c kg/m^2 1 A O2 column burden used in climate calculation 214 m_CO2_c kg/m^2 26 A CO2 mass per layer used in climate calculation 215 cb_CO2_c kg/m^2 1 A CO2 column burden used in climate calculation 216 m_N2O_c kg/m^2 26 A N2O mass per layer used in climate calculation 217 cb_N2O_c kg/m^2 1 A N2O column burden used in climate calculation 218 m_CH4_c kg/m^2 26 A CH4 mass per layer used in climate calculation 219 cb_CH4_c kg/m^2 1 A CH4 column burden used in climate calculation 220 m_CFC11_c kg/m^2 26 A CFC11 mass per layer used in climate calculation 221 cb_CFC11_c kg/m^2 1 A CFC11 column burden used in climate calculation 222 m_CFC12_c kg/m^2 26 A CFC12 mass per layer used in climate calculation 223 cb_CFC12_c kg/m^2 1 A CFC12 column burden used in climate calculation 224 m_sulf_c kg/m^2 26 A sulf mass per layer used in climate calculation 225 cb_sulf_c kg/m^2 1 A sulf column burden used in climate calculation 226 m_dust1_c kg/m^2 26 A dust1 mass per layer used in climate calculation 227 cb_dust1_c kg/m^2 1 A dust1 column burden used in climate calculation 228 m_dust2_c kg/m^2 26 A dust2 mass per layer used in climate calculation 229 cb_dust2_c kg/m^2 1 A dust2 column burden used in climate calculation 230 m_dust3_c kg/m^2 26 A dust3 mass per layer used in climate calculation 231 cb_dust3_c kg/m^2 1 A dust3 column burden used in climate calculation 232 m_dust4_c kg/m^2 26 A dust4 mass per layer used in climate calculation 233 cb_dust4_c kg/m^2 1 A dust4 column burden used in climate calculation 234 m_bcar1_c kg/m^2 26 A bcar1 mass per layer used in climate calculation 235 cb_bcar1_c kg/m^2 1 A bcar1 column burden used in climate calculation 236 m_bcar2_c kg/m^2 26 A bcar2 mass per layer used in climate calculation 237 cb_bcar2_c kg/m^2 1 A bcar2 column burden used in climate calculation 238 m_ocar1_c kg/m^2 26 A ocar1 mass per layer used in climate calculation 239 cb_ocar1_c kg/m^2 1 A ocar1 column burden used in climate calculation 240 m_ocar2_c kg/m^2 26 A ocar2 mass per layer used in climate calculation 241 cb_ocar2_c kg/m^2 1 A ocar2 column burden used in climate calculation 242 m_SSLTA_c kg/m^2 26 A SSLTA mass per layer used in climate calculation 243 cb_SSLTA_c kg/m^2 1 A SSLTA column burden used in climate calculation 244 m_SSLTC_c kg/m^2 26 A SSLTC mass per layer used in climate calculation 245 cb_SSLTC_c kg/m^2 1 A SSLTC column burden used in climate calculation 246 m_VOLC_MMR_c kg/m^2 26 A VOLC_MMR mass per layer used in climate calculation 247 cb_VOLC_MMR_c kg/m^2 1 A VOLC_MMR column burden used in climate calculation 248 AEROD_v 1 1 A Total Aerosol Optical Depth in visible band 249 ODV_sulf 1 1 A sulf optical depth in visible band 250 ODV_dust1 1 1 A dust1 optical depth in visible band 251 ODV_dust2 1 1 A dust2 optical depth in visible band 252 ODV_dust3 1 1 A dust3 optical depth in visible band 253 ODV_dust4 1 1 A dust4 optical depth in visible band 254 ODV_bcar1 1 1 A bcar1 optical depth in visible band 255 ODV_bcar2 1 1 A bcar2 optical depth in visible band 256 ODV_ocar1 1 1 A ocar1 optical depth in visible band 257 ODV_ocar2 1 1 A ocar2 optical depth in visible band 258 ODV_SSLTA 1 1 A SSLTA optical depth in visible band 259 ODV_SSLTC 1 1 A SSLTC optical depth in visible band 260 ODV_VOLC_MMR 1 1 A VOLC_MMR optical depth in visible band 261 ozone mol/mol 26 I prescribed ozone 262 sulf_D kg/kg 26 A prescribed aero 263 bcar1_D kg/kg 26 A prescribed aero 264 bcar2_D kg/kg 26 A prescribed aero 265 ocar1_D kg/kg 26 A prescribed aero 266 ocar2_D kg/kg 26 A prescribed aero 267 sslt1_D kg/kg 26 A prescribed aero 268 sslt2_D kg/kg 26 A prescribed aero 269 sslt3_D kg/kg 26 A prescribed aero 270 sslt4_D kg/kg 26 A prescribed aero 271 dust1_D kg/kg 26 A prescribed aero 272 dust2_D kg/kg 26 A prescribed aero 273 dust3_D kg/kg 26 A prescribed aero 274 dust4_D kg/kg 26 A prescribed aero 275 BCDEPWET_D kg/m2/s 1 A prescribed aero dep 276 BCPHODRY_D kg/m2/s 1 A prescribed aero dep 277 BCPHIDRY_D kg/m2/s 1 A prescribed aero dep 278 OCDEPWET_D kg/m2/s 1 A prescribed aero dep 279 OCPHODRY_D kg/m2/s 1 A prescribed aero dep 280 OCPHIDRY_D kg/m2/s 1 A prescribed aero dep 281 DSTX01DD_D kg/m2/s 1 A prescribed aero dep 282 DSTX02DD_D kg/m2/s 1 A prescribed aero dep 283 DSTX03DD_D kg/m2/s 1 A prescribed aero dep 284 DSTX04DD_D kg/m2/s 1 A prescribed aero dep 285 DSTX01WD_D kg/m2/s 1 A prescribed aero dep 286 DSTX02WD_D kg/m2/s 1 A prescribed aero dep 287 DSTX03WD_D kg/m2/s 1 A prescribed aero dep 288 DSTX04WD_D kg/m2/s 1 A prescribed aero dep 289 VOLC_MMR kg/kg 26 I prescribed volcanic aerosol dry mass mixing ratio 290 VOLC_RAD_GEOM m 26 I volcanic aerosol geometric-mean radius 291 VOLC_MASS kg/m^2 26 I volcanic aerosol vertical mass path in layer 292 VOLC_MASS_C kg/m^2 1 I volcanic aerosol column mass 293 TTGWORO K/s 26 A T tendency - orographic gravity wave drag 294 UTGWORO m/s2 26 A U tendency - orographic gravity wave drag 295 VTGWORO m/s2 26 A V tendency - orographic gravity wave drag 296 TAUGWX N/m2 1 A Zonal gravity wave surface stress 297 TAUGWY N/m2 1 A Meridional gravity wave surface stress 298 VD01 kg/kg/s 26 A Vertical diffusion of Q 299 VDCLDLIQ kg/kg/s 26 A Vertical diffusion of CLDLIQ 300 VDCLDICE kg/kg/s 26 A Vertical diffusion of CLDICE 301 TKE m2/s2 27 A Turbulent Kinetic Energy 302 PBLH m 1 A PBL height 303 TPERT K 1 A Perturbation temperature (eddies in PBL) 304 QPERT kg/kg 1 A Perturbation specific humidity (eddies in PBL) 305 USTAR m/s 1 A Surface friction velocity 306 KVH m2/s 27 A Vertical diffusion diffusivities (heat/moisture) 307 KVM m2/s 27 A Vertical diffusion diffusivities (momentum) 308 KVT m2/s 27 A Vertical diffusion kinematic molecular conductivity 309 CGS s/m2 27 A Counter-gradient coeff on surface kinematic fluxes 310 DTVKE K/s 26 A dT/dt vertical diffusion KE dissipation 311 DTV K/s 26 A T vertical diffusion 312 DUV m/s2 26 A U vertical diffusion 313 DVV m/s2 26 A V vertical diffusion 314 QT kg/kg 26 A Total water mixing ratio 315 SL J/kg 26 A Liquid water static energy 316 SLV J/kg 26 A Liq wat virtual static energy 317 SLFLX W/m2 27 A Liquid static energy flux 318 QTFLX W/m2 27 A Total water flux 319 UFLX W/m2 27 A Zonal momentum flux 320 VFLX W/m2 27 A Meridional momentm flux 321 WGUSTD m/s 1 A wind gusts from turbulence 322 qt_pre_PBL kg/kg 26 A qt_prePBL 323 sl_pre_PBL J/kg 26 A sl_prePBL 324 slv_pre_PBL J/kg 26 A slv_prePBL 325 u_pre_PBL m/s 26 A u_prePBL 326 v_pre_PBL m/s 26 A v_prePBL 327 qv_pre_PBL kg/kg 26 A qv_prePBL 328 ql_pre_PBL kg/kg 26 A ql_prePBL 329 qi_pre_PBL kg/kg 26 A qi_prePBL 330 t_pre_PBL K 26 A t_prePBL 331 rh_pre_PBL % 26 A rh_prePBL 332 qt_aft_PBL kg/kg 26 A qt_afterPBL 333 sl_aft_PBL J/kg 26 A sl_afterPBL 334 slv_aft_PBL J/kg 26 A slv_afterPBL 335 u_aft_PBL m/s 26 A u_afterPBL 336 v_aft_PBL m/s 26 A v_afterPBL 337 qv_aft_PBL kg/kg 26 A qv_afterPBL 338 ql_aft_PBL kg/kg 26 A ql_afterPBL 339 qi_aft_PBL kg/kg 26 A qi_afterPBL 340 t_aft_PBL K 26 A t_afterPBL 341 rh_aft_PBL % 26 A rh_afterPBL 342 slflx_PBL J/m2/s 27 A sl flux by PBL 343 qtflx_PBL kg/m2/s 27 A qt flux by PBL 344 uflx_PBL kg/m/s2 27 A u flux by PBL 345 vflx_PBL kg/m/s2 27 A v flux by PBL 346 slflx_cg_PBL J/m2/s 27 A sl_cg flux by PBL 347 qtflx_cg_PBL kg/m2/s 27 A qt_cg flux by PBL 348 uflx_cg_PBL kg/m/s2 27 A u_cg flux by PBL 349 vflx_cg_PBL kg/m/s2 27 A v_cg flux by PBL 350 qtten_PBL kg/kg/s 26 A qt tendency by PBL 351 slten_PBL J/kg/s 26 A sl tendency by PBL 352 uten_PBL m/s2 26 A u tendency by PBL 353 vten_PBL m/s2 26 A v tendency by PBL 354 qvten_PBL kg/kg/s 26 A qv tendency by PBL 355 qlten_PBL kg/kg/s 26 A ql tendency by PBL 356 qiten_PBL kg/kg/s 26 A qi tendency by PBL 357 tten_PBL K/s 26 A T tendency by PBL 358 rhten_PBL %/s 26 A RH tendency by PBL 359 GCLDLWP gram/m2 26 A Grid-box cloud water path 360 ICLDTWP gram/m2 26 A In-cloud cloud total water path (liquid and ice) 361 TGCLDCWP gram/m2 1 A Total grid-box cloud water path (liquid and ice) 362 TGCLDLWP gram/m2 1 A Total grid-box cloud liquid water path 363 TGCLDIWP gram/m2 1 A Total grid-box cloud ice water path 364 EFFCLD fraction 26 A Effective cloud fraction 365 SETLWP gram/m2 26 A Prescribed liquid water path 366 LWSH m 1 A Liquid water scale height 367 ICLDIWP gram/m2 26 A In-cloud ice water path 368 EMIS 1 26 A cloud emissivity 369 REL micron 26 A effective liquid drop radius 370 REI micron 26 A effective ice particle radius 371 SOLIN W/m2 1 A Solar insolation 372 SOLL W/m2 1 A Solar downward near infrared direct to surface 373 SOLS W/m2 1 A Solar downward visible direct to surface 374 SOLLD W/m2 1 A Solar downward near infrared diffuse to surface 375 SOLSD W/m2 1 A Solar downward visible diffuse to surface 376 QRS K/s 26 A Solar heating rate 377 QRSC K/s 26 A Clearsky solar heating rate 378 FSNS W/m2 1 A Net solar flux at surface 379 FSNT W/m2 1 A Net solar flux at top of model 380 FSNTOA W/m2 1 A Net solar flux at top of atmosphere 381 FSUTOA W/m2 1 A Upwelling solar flux at top of atmosphere 382 FSNTOAC W/m2 1 A Clearsky net solar flux at top of atmosphere 383 FSDTOA W/m2 1 A Downwelling solar flux at top of atmosphere 384 FSN200 W/m2 1 A Net shortwave flux at 200 mb 385 FSN200C W/m2 1 A Clearsky net shortwave flux at 200 mb 386 FSNTC W/m2 1 A Clearsky net solar flux at top of model 387 FSNSC W/m2 1 A Clearsky net solar flux at surface 388 FSDSC W/m2 1 A Clearsky downwelling solar flux at surface 389 FSDS W/m2 1 A Downwelling solar flux at surface 390 FUS W/m2 27 I Shortwave upward flux 391 FDS W/m2 27 I Shortwave downward flux 392 FUSC W/m2 27 I Shortwave clear-sky upward flux 393 FDSC W/m2 27 I Shortwave clear-sky downward flux 394 FSNIRTOA W/m2 1 A Net near-infrared flux (Nimbus-7 WFOV) at top of atmosphere 395 FSNRTOAC W/m2 1 A Clearsky net near-infrared flux (Nimbus-7 WFOV) at top of atmosphere 396 FSNRTOAS W/m2 1 A Net near-infrared flux (>= 0.7 microns) at top of atmosphere 397 SWCF W/m2 1 A Shortwave cloud forcing 398 TOT_CLD_VISTAU 1 26 A Total gbx cloud visible sw optical depth 399 TOT_ICLD_VISTAU 1 26 A Total in-cloud visible sw optical depth 400 LIQ_ICLD_VISTAU 1 26 A Liquid in-cloud visible sw optical depth 401 ICE_ICLD_VISTAU 1 26 A Ice in-cloud visible sw optical depth 402 QRL K/s 26 A Longwave heating rate 403 QRLC K/s 26 A Clearsky longwave heating rate 404 FLNS W/m2 1 A Net longwave flux at surface 405 FLDS W/m2 1 A Downwelling longwave flux at surface 406 FLNT W/m2 1 A Net longwave flux at top of model 407 FLUT W/m2 1 A Upwelling longwave flux at top of model 408 FLUTC W/m2 1 A Clearsky upwelling longwave flux at top of model 409 FLNTC W/m2 1 A Clearsky net longwave flux at top of model 410 FLN200 W/m2 1 A Net longwave flux at 200 mb 411 FLN200C W/m2 1 A Clearsky net longwave flux at 200 mb 412 FLNSC W/m2 1 A Clearsky net longwave flux at surface 413 FLDSC W/m2 1 A Clearsky downwelling longwave flux at surface 414 LWCF W/m2 1 A Longwave cloud forcing 415 FUL W/m2 27 I Longwave upward flux 416 FDL W/m2 27 I Longwave downward flux 417 FULC W/m2 27 I Longwave clear-sky upward flux 418 FDLC W/m2 27 I Longwave clear-sky downward flux 419 HR K/s 26 A Heating rate needed for d(theta)/dt computation 420 SRFRAD W/m2 1 A Net radiative flux at surface 421 CLOUD fraction 26 A Cloud fraction 422 CLDTOT fraction 1 A Vertically-integrated total cloud 423 CLDLOW fraction 1 A Vertically-integrated low cloud 424 CLDMED fraction 1 A Vertically-integrated mid-level cloud 425 CLDHGH fraction 1 A Vertically-integrated high cloud 426 qt_pre_Cu kg/kg 26 I qt_preCU 427 sl_pre_Cu J/kg 26 I sl_preCU 428 slv_pre_Cu J/kg 26 I slv_preCU 429 u_pre_Cu m/s 26 I u_preCU 430 v_pre_Cu m/s 26 I v_preCU 431 qv_pre_Cu kg/kg 26 I qv_preCU 432 ql_pre_Cu kg/kg 26 I ql_preCU 433 qi_pre_Cu kg/kg 26 I qi_preCU 434 t_pre_Cu K 26 I t_preCU 435 rh_pre_Cu % 26 I rh_preCU 436 qt_aft_Cu kg/kg 26 I qt_afterCU 437 sl_aft_Cu J/kg 26 I sl_afterCU 438 slv_aft_Cu J/kg 26 I slv_afterCU 439 u_aft_Cu m/s 26 I u_afterCU 440 v_aft_Cu m/s 26 I v_afterCU 441 qv_aft_Cu kg/kg 26 I qv_afterCU 442 ql_aft_Cu kg/kg 26 I ql_afterCU 443 qi_aft_Cu kg/kg 26 I qi_afterCU 444 t_aft_Cu K 26 I t_afterCU 445 rh_aft_Cu % 26 I rh_afterCU 446 tten_Cu K/s 26 I Temprtaure tendency by cumulus convection 447 rhten_Cu %/s 26 I RH tendency by cumumus convection 448 CMFDT K/s 26 A T tendency - shallow convection 449 CMFDQ kg/kg/s 26 A QV tendency - shallow convection 450 CMFDLIQ kg/kg/s 26 A Cloud liq tendency - shallow convection 451 CMFDICE kg/kg/s 26 A Cloud ice tendency - shallow convection 452 CMFDQR kg/kg/s 26 A Q tendency - shallow convection rainout 453 EVAPTCM K/s 26 A T tendency - Evaporation/snow prod from Hack convection 454 FZSNTCM K/s 26 A T tendency - Rain to snow conversion from Hack convection 455 EVSNTCM K/s 26 A T tendency - Snow to rain prod from Hack convection 456 EVAPQCM kg/kg/s 26 A Q tendency - Evaporation from Hack convection 457 QC kg/kg/s 26 A Q tendency - shallow convection LW export 458 PRECSH m/s 1 A Shallow Convection precipitation rate 459 CMFMC kg/m2/s 27 A Moist shallow convection mass flux 460 CMFSL W/m2 27 A Moist shallow convection liquid water static energy flux 461 CMFLQ W/m2 27 A Moist shallow convection total water flux 462 CIN J/kg 1 A Convective inhibition 463 CBMF kg/m2/s 1 A Cloud base mass flux 464 CLDTOP 1 1 I Vertical index of cloud top 465 CLDBOT 1 1 I Vertical index of cloud base 466 PCLDTOP 1 1 A Pressure of cloud top 467 PCLDBOT 1 1 A Pressure of cloud base 468 FREQSH fraction 1 A Fractional occurance of shallow convection 469 HKFLXPRC kg/m2/s 27 A Flux of precipitation from HK convection 470 HKFLXSNW kg/m2/s 27 A Flux of snow from HK convection 471 HKNTPRPD kg/kg/s 26 A Net precipitation production from HK convection 472 HKNTSNPD kg/kg/s 26 A Net snow production from HK convection 473 HKEIHEAT W/kg 26 A Heating by ice and evaporation in HK convection 474 PRECZ m/s 1 A total precipitation from ZM convection 475 ZMDT K/s 26 A T tendency - Zhang-McFarlane moist convection 476 ZMDQ kg/kg/s 26 A Q tendency - Zhang-McFarlane moist convection 477 ZMDICE kg/kg/s 26 A Cloud ice tendency - Zhang-McFarlane convection 478 ZMDLIQ kg/kg/s 26 A Cloud liq tendency - Zhang-McFarlane convection 479 EVAPTZM K/s 26 A T tendency - Evaporation/snow prod from Zhang convection 480 FZSNTZM K/s 26 A T tendency - Rain to snow conversion from Zhang convection 481 EVSNTZM K/s 26 A T tendency - Snow to rain prod from Zhang convection 482 EVAPQZM kg/kg/s 26 A Q tendency - Evaporation from Zhang-McFarlane moist convection 483 ZMFLXPRC kg/m2/s 27 A Flux of precipitation from ZM convection 484 ZMFLXSNW kg/m2/s 27 A Flux of snow from ZM convection 485 ZMNTPRPD kg/kg/s 26 A Net precipitation production from ZM convection 486 ZMNTSNPD kg/kg/s 26 A Net snow production from ZM convection 487 ZMEIHEAT W/kg 26 A Heating by ice and evaporation in ZM convection 488 CMFMCDZM kg/m2/s 27 A Convection mass flux from ZM deep 489 PRECCDZM m/s 1 A Convective precipitation rate from ZM deep 490 PCONVB Pa 1 A convection base pressure 491 PCONVT Pa 1 A convection top pressure 492 CAPE J/kg 1 A Convectively available potential energy 493 FREQZM fraction 1 A Fractional occurance of ZM convection 494 ZMMTT K/s 26 A T tendency - ZM convective momentum transport 495 ZMMTU m/s2 26 A U tendency - ZM convective momentum transport 496 ZMMTV m/s2 26 A V tendency - ZM convective momentum transport 497 ZMMU kg/m2/s 26 A ZM convection updraft mass flux 498 ZMMD kg/m2/s 26 A ZM convection downdraft mass flux 499 ZMUPGU m/s2 26 A zonal force from ZM updraft pressure gradient term 500 ZMUPGD m/s2 26 A zonal force from ZM downdraft pressure gradient term 501 ZMVPGU m/s2 26 A meridional force from ZM updraft pressure gradient term 502 ZMVPGD m/s2 26 A merdional force from ZM downdraft pressure gradient term 503 ZMICUU m/s 26 A ZM in-cloud U updrafts 504 ZMICUD m/s 26 A ZM in-cloud U downdrafts 505 ZMICVU m/s 26 A ZM in-cloud V updrafts 506 ZMICVD m/s 26 A ZM in-cloud V downdrafts 507 CLDLIQ kg/kg 26 A Grid box averaged cloud liquid amount 508 SFCLDLIQ kg/m2/s 1 A CLDLIQ surface flux 509 CLDICE kg/kg 26 A Grid box averaged cloud ice amount 510 SFCLDICE kg/m2/s 1 A CLDICE surface flux 511 CLDLIQAP kg/kg 26 A CLDLIQ after physics 512 CLDICEAP kg/kg 26 A CLDICE after physics 513 CLDLIQBP kg/kg 26 A CLDLIQ before physics 514 CLDICEBP kg/kg 26 A CLDICE before physics 515 FWAUT fraction 26 A Relative importance of liquid autoconversion 516 FSAUT fraction 26 A Relative importance of ice autoconversion 517 FRACW fraction 26 A Relative importance of rain accreting liquid 518 FSACW fraction 26 A Relative importance of snow accreting liquid 519 FSACI fraction 26 A Relative importance of snow accreting ice 520 CME kg/kg/s 26 A Rate of cond-evap within the cloud 521 CMEICE kg/kg/s 26 A Rate of cond-evap of ice within the cloud 522 CMELIQ kg/kg/s 26 A Rate of cond-evap of liq within the cloud 523 ICE2PR kg/kg/s 26 A Rate of conversion of ice to precip 524 LIQ2PR kg/kg/s 26 A Rate of conversion of liq to precip 525 ZMDLF kg/kg/s 26 A Detrained liquid water from ZM convection 526 SHDLF kg/kg/s 26 A Detrained liquid water from shallow convection 527 PRODPREC kg/kg/s 26 A Rate of conversion of condensate to precip 528 EVAPPREC kg/kg/s 26 A Rate of evaporation of falling precip 529 EVAPSNOW kg/kg/s 26 A Rate of evaporation of falling snow 530 HPROGCLD W/kg 26 A Heating from prognostic clouds 531 HCME W/kg 26 A Heating from cond-evap within the cloud 532 HEVAP W/kg 26 A Heating from evaporation of falling precip 533 HFREEZ W/kg 26 A Heating rate due to freezing of precip 534 HMELT W/kg 26 A Heating from snow melt 535 HREPART W/kg 26 A Heating from cloud ice/liquid repartitioning 536 REPARTICE kg/kg/s 26 A Cloud ice tendency from cloud ice/liquid repartitioning 537 REPARTLIQ kg/kg/s 26 A Cloud liq tendency from cloud ice/liquid repartitioning 538 FICE fraction 26 A Fractional ice content within cloud 539 ICWMR kg/kg 26 A Prognostic in-cloud water mixing ratio 540 ICIMR kg/kg 26 A Prognostic in-cloud ice mixing ratio 541 ICWMRST kg/kg 26 A Prognostic in-stratus water mixing ratio 542 ICIMRST kg/kg 26 A Prognostic in-stratus ice mixing ratio 543 PCSNOW m/s 1 A Snow fall from prognostic clouds 544 DQSED kg/kg/s 26 A Water vapor tendency from cloud sedimentation 545 DLSED kg/kg/s 26 A Cloud liquid tendency from sedimentation 546 DISED kg/kg/s 26 A Cloud ice tendency from sedimentation 547 HSED W/kg 26 A Heating from cloud sediment evaporation 548 SNOWSED m/s 1 A Snow from cloud ice sedimentation 549 RAINSED m/s 1 A Rain from cloud liquid sedimentation 550 PRECSED m/s 1 A Precipitation from cloud sedimentation 551 CNVCLD fraction 1 A Vertically integrated convective cloud amount 552 CLDST fraction 26 A Stratus cloud fraction 553 CONCLD fraction 26 A Convective cloud cover 554 AST fraction 26 A Stratus cloud fraction 555 LIQCLDF fraction 26 A Stratus Liquid cloud fraction 556 ICECLDF fraction 26 A Stratus ICE cloud fraction 557 IWC kg/m3 26 A Grid box average ice water content 558 LWC kg/m3 26 A Grid box average liquid water content 559 ICWNC m-3 26 A Prognostic in-cloud water number conc 560 ICINC m-3 26 A Prognostic in-cloud ice number conc 561 EFFLIQ Micron 26 A Prognostic droplet effective radius 562 EFFLIQ_IND Micron 26 A Prognostic droplet effective radius (indirect effect) 563 EFFICE Micron 26 A Prognostic ice effective radius 564 LS_FLXPRC kg/m2/s 27 A ls stratiform gbm interface rain+snow flux 565 LS_FLXSNW kg/m2/s 27 A ls stratiform gbm interface snow flux 566 PRACWO 1/s 26 A Accretion of cloud water by rain 567 PSACWO 1/s 26 A Accretion of cloud water by snow 568 PSACIO 1/s 26 A Accretion of cloud ice by snow 569 CLDLIQSTR kg/kg 26 A Stratiform CLDLIQ 570 CLDICESTR kg/kg 26 A Stratiform CLDICE 571 CLDLIQCON kg/kg 26 A Convective CLDLIQ 572 CLDICECON kg/kg 26 A Convective CLDICE 573 SSLTA kg/kg 26 A sea salt 574 SSLTC kg/kg 26 A sea salt 575 TROP_P Pa 1 A Tropopause Pressure 576 TROP_T K 1 A Tropopause Temperature 577 TROP_Z m 1 A Tropopause Height 578 TROP_PD probability 26 A Tropopause Probabilty 579 TROP_FD probability 1 A Tropopause Found 580 TROPP_P Pa 1 A Tropopause Pressure (primary) 581 TROPP_T K 1 A Tropopause Temperature (primary) 582 TROPP_Z m 1 A Tropopause Height (primary) 583 TROPP_PD probability 26 A Tropopause Distribution (primary) 584 TROPP_FD probability 1 A Tropopause Found (primary) 585 hstobie_trop fraction of mode 26 I Lowest level with stratospheric chemsitry 586 hstobie_linoz fraction of mode 26 I Lowest possible Linoz level 587 hstobie_tropop fraction of mode 26 I Troposphere boundary calculated in chemistry 588 SGH m 1 I Standard deviation of orography 589 SGH30 m 1 I Standard deviation of 30s orography 590 DQP kg/kg/s 26 A Specific humidity tendency due to precipitation BLDFLD:nfmaster= 590 FLDLST: Tape 2 is empty 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: History file 1 contains 68 fields Write frequency: MONTHLY Filename specifier: %c.cam2.h%t.%y-%m.nc Output precision: single Number of time samples per file: 1 Included fields are: 1 CLDHGH fraction 1 A Vertically-integrated high cloud 2 CLDLOW fraction 1 A Vertically-integrated low cloud 3 CLDMED fraction 1 A Vertically-integrated mid-level cloud 4 CLDTOT fraction 1 A Vertically-integrated total cloud 5 FLDS W/m2 1 A Downwelling longwave flux at surface 6 FLDSC W/m2 1 A Clearsky downwelling longwave flux at surface 7 FLNS W/m2 1 A Net longwave flux at surface 8 FLNSC W/m2 1 A Clearsky net longwave flux at surface 9 FLNT W/m2 1 A Net longwave flux at top of model 10 FLNTC W/m2 1 A Clearsky net longwave flux at top of model 11 FLUT W/m2 1 A Upwelling longwave flux at top of model 12 FLUTC W/m2 1 A Clearsky upwelling longwave flux at top of model 13 FSDS W/m2 1 A Downwelling solar flux at surface 14 FSDSC W/m2 1 A Clearsky downwelling solar flux at surface 15 FSDTOA W/m2 1 A Downwelling solar flux at top of atmosphere 16 FSNS W/m2 1 A Net solar flux at surface 17 FSNSC W/m2 1 A Clearsky net solar flux at surface 18 FSNT W/m2 1 A Net solar flux at top of model 19 FSNTC W/m2 1 A Clearsky net solar flux at top of model 20 FSNTOA W/m2 1 A Net solar flux at top of atmosphere 21 FSNTOAC W/m2 1 A Clearsky net solar flux at top of atmosphere 22 FSUTOA W/m2 1 A Upwelling solar flux at top of atmosphere 23 ICEFRAC fraction 1 A Fraction of sfc area covered by sea-ice 24 LHFLX W/m2 1 A Surface latent heat flux 25 OCNFRAC fraction 1 A Fraction of sfc area covered by ocean 26 OMEGA500 Pa/s 1 A Vertical velocity at 500 mbar pressure surface 27 OMEGA850 Pa/s 1 A Vertical velocity at 850 mbar pressure surface 28 PBLH m 1 A PBL height 29 PRECT m/s 1 A Total (convective and large-scale) precipitation rate (liq + ice) 30 PS Pa 1 A Surface pressure 31 PSL Pa 1 A Sea level pressure 32 Q kg/kg 26 A Specific humidity 33 QFLX kg/m2/s 1 A Surface water flux 34 QREFHT kg/kg 1 A Reference height humidity 35 RHREFHT fraction 1 A Reference height relative humidity 36 SHFLX W/m2 1 A Surface sensible heat flux 37 SNOWHICE m 1 A Water equivalent snow depth 38 SNOWHLND m 1 A Water equivalent snow depth 39 SOLIN W/m2 1 A Solar insolation 40 SRFRAD W/m2 1 A Net radiative flux at surface 41 SST K 1 A sea surface temperature 42 T K 26 A Temperature 43 T1000 K 1 A Temperature at 1000 mbar pressure surface 44 T200 K 1 A Temperature at 200 mbar pressure surface 45 T500 K 1 A Temperature at 500 mbar pressure surface 46 T700 K 1 A Temperature at 700 mbar pressure surface 47 T850 K 1 A Temperature at 850 mbar pressure surface 48 TAUX N/m2 1 A Zonal surface stress 49 TAUY N/m2 1 A Meridional surface stress 50 TREFHT K 1 A Reference height temperature 51 TS K 1 A Surface temperature (radiative) 52 TSMN K 1 M Minimum surface temperature over output period 53 TSMX K 1 X Maximum surface temperature over output period 54 U m/s 26 A Zonal wind 55 U10 m/s 1 A 10m wind speed 56 U200 m/s 1 A Zonal wind at 200 mbar pressure surface 57 U850 m/s 1 A Zonal wind at 850 mbar pressure surface 58 UAS m/s 1 A Eastward 10m wind 59 V m/s 26 A Meridional wind 60 V200 m/s 1 A Meridional wind at 200 mbar pressure surface 61 V850 m/s 1 A Meridional wind at 850 mbar pressure surface 62 VAS m/s 1 A Northward 10m wind 63 Z050 m 1 A Geopotential Z at 50 mbar pressure surface 64 Z100 m 1 A Geopotential Z at 100 mbar pressure surface 65 Z200 m 1 A Geopotential Z at 200 mbar pressure surface 66 Z300 m 1 A Geopotential Z at 300 mbar pressure surface 67 Z500 m 1 A Geopotential Z at 500 mbar pressure surface 68 Z700 m 1 A Geopotential Z at 700 mbar pressure surface FLDLST: History file 8 contains 15 fields Write frequency: YEARLY (INITIAL CONDITIONS) Filename specifier: %c.cam2.i.%y-%m-%d-%s.nc Output precision: double Number of time samples per file: 1 Included fields are: 1 CLDICE&IC kg/kg 26 I Grid box averaged cloud ice amount 2 CLDLIQ&IC kg/kg 26 I Grid box averaged cloud liquid amount 3 ICEFRAC&IC fraction 1 I Fraction of sfc area covered by sea-ice 4 PS&IC Pa 1 I Surface pressure 5 Q&IC kg/kg 26 I Specific humidity 6 SICTHK&IC m 1 I Sea ice thickness 7 SNOWHICE&IC m 1 I Water equivalent snow depth 8 T&IC K 26 I Temperature 9 TS1&IC K 1 I TS1 subsoil temperature 10 TS2&IC K 1 I TS2 subsoil temperature 11 TS3&IC K 1 I TS3 subsoil temperature 12 TS4&IC K 1 I TS4 subsoil temperature 13 TSICE&IC K 1 I Ice temperature 14 US&IC m/s 26 I Zonal wind, staggered 15 VS&IC m/s 26 I Meridional wind, staggered