NetCDF Header
Aquaplanet simulations using CAM5.4-MPAS4 with two different deep convection schemes
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netcdf file:///data/ce0aa7d1-896b-4813-b213-3bcc2da204bc/FC5AQUAP.cam5.4.mp120a_mp120a.zm.dt180.cam.h1.average.remap.nc-3d38c6ca-3b39-49c5-b5e7-525c88b39389 {
dimensions:
lat = 180;
lon = 360;
nbnd = 2;
time = UNLIMITED; // (1 currently)
lev = 32;
ilev = 33;
chars = 8;
variables:
double lat(lat=180);
:long_name = "Latitude";
:standard_name = "latitude";
:units = "degrees_north";
:axis = "Y";
:valid_min = -90.0; // double
:valid_max = 90.0; // double
:bounds = "lat_bnds";
double lon(lon=360);
:long_name = "Longitude";
:standard_name = "longitude";
:units = "degrees_east";
:axis = "X";
:valid_min = 0.0; // double
:valid_max = 360.0; // double
:bounds = "lon_bnds";
double lat_bnds(lat=180, nbnd=2);
:long_name = "Gridcell latitude interfaces";
double lon_bnds(lon=360, nbnd=2);
:long_name = "Gridcell longitude interfaces";
double gw(lat=180);
:long_name = "Latitude quadrature weights (normalized to sum to 2.0 on global grids)";
double area(lat=180, lon=360);
:long_name = "Solid angle subtended by gridcell";
:standard_name = "area";
:units = "steradian";
:cell_methods = "lat, lon: sum";
double frac_b(lat=180, lon=360);
:long_name = "Fraction of gridcell valid on destination grid";
:cell_methods = "lat, lon: sum";
float CAPE(time=1, lat=180, lon=360);
:units = "J/kg";
:long_name = "Convectively available potential energy";
:cell_methods = "time: mean";
:cell_measures = "area: area";
float CBMF(time=1, lat=180, lon=360);
:units = "kg/m2/s";
:long_name = "Cloud base mass flux";
:cell_methods = "time: mean";
:cell_measures = "area: area";
float CBMF_DP(time=1, lat=180, lon=360);
:units = "kg/m2/s";
:long_name = "Cloud base mass flux from deep convection";
:cell_methods = "time: mean";
:cell_measures = "area: area";
float CMFDICE(time=1, lev=32, lat=180, lon=360);
:mdims = 1; // int
:units = "kg/kg/s";
:long_name = "Cloud ice tendency - shallow convection";
:cell_methods = "time: mean";
:cell_measures = "area: area";
float CMFDLIQ(time=1, lev=32, lat=180, lon=360);
:mdims = 1; // int
:units = "kg/kg/s";
:long_name = "Cloud liq tendency - shallow convection";
:cell_methods = "time: mean";
:cell_measures = "area: area";
float CMFDQ(time=1, lev=32, lat=180, lon=360);
:mdims = 1; // int
:units = "kg/kg/s";
:long_name = "QV tendency - shallow convection";
:cell_methods = "time: mean";
:cell_measures = "area: area";
float CMFDT(time=1, lev=32, lat=180, lon=360);
:mdims = 1; // int
:units = "K/s";
:long_name = "T tendency - shallow convection";
:cell_methods = "time: mean";
:cell_measures = "area: area";
float CMFMC(time=1, ilev=33, lat=180, lon=360);
:mdims = 2; // int
:units = "kg/m2/s";
:long_name = "Moist convection (deep+shallow) mass flux";
:cell_methods = "time: mean";
:cell_measures = "area: area";
float CMFMCDZM(time=1, ilev=33, lat=180, lon=360);
:mdims = 2; // int
:units = "kg/m2/s";
:long_name = "Convection mass flux from ZM deep";
:cell_methods = "time: mean";
:cell_measures = "area: area";
float CMFMC_SH(time=1, ilev=33, lat=180, lon=360);
:mdims = 2; // int
:units = "kg/m2/s";
:long_name = "Moist convection (shallow) mass flux";
:cell_methods = "time: mean";
:cell_measures = "area: area";
float DPDLFICE(time=1, lev=32, lat=180, lon=360);
:mdims = 1; // int
:units = "kg/kg/s";
:long_name = "Detrained ice from deep convection";
:cell_methods = "time: mean";
:cell_measures = "area: area";
float DPDLFLIQ(time=1, lev=32, lat=180, lon=360);
:mdims = 1; // int
:units = "kg/kg/s";
:long_name = "Detrained liquid water from deep convection";
:cell_methods = "time: mean";
:cell_measures = "area: area";
float DPDLFT(time=1, lev=32, lat=180, lon=360);
:mdims = 1; // int
:units = "K/s";
:long_name = "T-tendency due to deep convective detrainment";
:cell_methods = "time: mean";
:cell_measures = "area: area";
float DQCORE(time=1, lev=32, lat=180, lon=360);
:mdims = 1; // int
:units = "kg/kg/s";
:long_name = "Q tendency due to dynamical core";
:cell_methods = "time: mean";
:cell_measures = "area: area";
float DTCOND(time=1, lev=32, lat=180, lon=360);
:mdims = 1; // int
:units = "K/s";
:long_name = "T tendency - moist processes";
:cell_methods = "time: mean";
:cell_measures = "area: area";
float DTCORE(time=1, lev=32, lat=180, lon=360);
:mdims = 1; // int
:units = "K/s";
:long_name = "T tendency due to dynamical core";
:cell_methods = "time: mean";
:cell_measures = "area: area";
float DTV(time=1, lev=32, lat=180, lon=360);
:mdims = 1; // int
:units = "K/s";
:long_name = "T vertical diffusion";
:cell_methods = "time: mean";
:cell_measures = "area: area";
float DUV(time=1, lev=32, lat=180, lon=360);
:mdims = 1; // int
:units = "m/s2";
:long_name = "U vertical diffusion";
:cell_methods = "time: mean";
:cell_measures = "area: area";
float DVV(time=1, lev=32, lat=180, lon=360);
:mdims = 1; // int
:units = "m/s2";
:long_name = "V vertical diffusion";
:cell_methods = "time: mean";
:cell_measures = "area: area";
float FREQZM(time=1, lat=180, lon=360);
:units = "fraction";
:long_name = "Fractional occurance of ZM convection";
:cell_methods = "time: mean";
:cell_measures = "area: area";
float HR(time=1, lev=32, lat=180, lon=360);
:mdims = 1; // int
:units = "K/s";
:long_name = "Heating rate needed for d(theta)/dt computation";
:cell_methods = "time: mean";
:cell_measures = "area: area";
float MACPDICE(time=1, lev=32, lat=180, lon=360);
:mdims = 1; // int
:units = "kg/kg/s";
:long_name = "CLDICE tendency - Revised macrophysics";
:cell_methods = "time: mean";
:cell_measures = "area: area";
float MACPDLIQ(time=1, lev=32, lat=180, lon=360);
:mdims = 1; // int
:units = "kg/kg/s";
:long_name = "CLDLIQ tendency - Revised macrophysics";
:cell_methods = "time: mean";
:cell_measures = "area: area";
float MACPDQ(time=1, lev=32, lat=180, lon=360);
:mdims = 1; // int
:units = "kg/kg/s";
:long_name = "Q tendency - Revised macrophysics";
:cell_methods = "time: mean";
:cell_measures = "area: area";
float MACPDT(time=1, lev=32, lat=180, lon=360);
:mdims = 1; // int
:units = "W/kg";
:long_name = "Heating tendency - Revised macrophysics";
:cell_methods = "time: mean";
:cell_measures = "area: area";
float MPDICE(time=1, lev=32, lat=180, lon=360);
:mdims = 1; // int
:units = "kg/kg/s";
:long_name = "CLDICE tendency - Morrison microphysics";
:cell_methods = "time: mean";
:cell_measures = "area: area";
float MPDLIQ(time=1, lev=32, lat=180, lon=360);
:mdims = 1; // int
:units = "kg/kg/s";
:long_name = "CLDLIQ tendency - Morrison microphysics";
:cell_methods = "time: mean";
:cell_measures = "area: area";
float MPDQ(time=1, lev=32, lat=180, lon=360);
:mdims = 1; // int
:units = "kg/kg/s";
:long_name = "Q tendency - Morrison microphysics";
:cell_methods = "time: mean";
:cell_measures = "area: area";
float MPDT(time=1, lev=32, lat=180, lon=360);
:mdims = 1; // int
:units = "W/kg";
:long_name = "Heating tendency - Morrison microphysics";
:cell_methods = "time: mean";
:cell_measures = "area: area";
float PCONVB(time=1, lat=180, lon=360);
:units = "Pa";
:long_name = "convection base pressure";
:cell_methods = "time: mean";
:cell_measures = "area: area";
float PCONVT(time=1, lat=180, lon=360);
:units = "Pa";
:long_name = "convection top pressure";
:cell_methods = "time: mean";
:cell_measures = "area: area";
float PHIS(time=1, lat=180, lon=360);
:units = "m2/s2";
:long_name = "Surface geopotential";
:cell_methods = "time: mean";
:cell_measures = "area: area";
float PRECC(time=1, lat=180, lon=360);
:units = "m/s";
:long_name = "Convective precipitation rate (liq + ice)";
:cell_methods = "time: mean";
:cell_measures = "area: area";
float PRECSH(time=1, lat=180, lon=360);
:units = "m/s";
:long_name = "Shallow Convection precipitation rate";
:cell_methods = "time: mean";
:cell_measures = "area: area";
float PRECT(time=1, lat=180, lon=360);
:units = "m/s";
:long_name = "Total (convective and large-scale) precipitation rate (liq + ice)";
:cell_methods = "time: mean";
:cell_measures = "area: area";
float PRECZ(time=1, lat=180, lon=360);
:units = "m/s";
:long_name = "total precipitation from ZM convection";
:cell_methods = "time: mean";
:cell_measures = "area: area";
float PRESSURE(time=1, lev=32, lat=180, lon=360);
:mdims = 1; // int
:units = "Pa";
:long_name = "Pressure";
:cell_methods = "time: mean";
:cell_measures = "area: area";
float PRESSUREi(time=1, ilev=33, lat=180, lon=360);
:mdims = 2; // int
:units = "Pa";
:long_name = "Pressure";
:cell_methods = "time: mean";
:cell_measures = "area: area";
float PS(time=1, lat=180, lon=360);
:units = "Pa";
:long_name = "Surface pressure";
:cell_methods = "time: mean";
:cell_measures = "area: area";
float PTECLDICE(time=1, lev=32, lat=180, lon=360);
:mdims = 1; // int
:units = "kg/kg/s";
:long_name = "CLDICE total physics tendency";
:cell_methods = "time: mean";
:cell_measures = "area: area";
float PTECLDLIQ(time=1, lev=32, lat=180, lon=360);
:mdims = 1; // int
:units = "kg/kg/s";
:long_name = "CLDLIQ total physics tendency";
:cell_methods = "time: mean";
:cell_measures = "area: area";
float PTEQ(time=1, lev=32, lat=180, lon=360);
:mdims = 1; // int
:units = "kg/kg/s";
:long_name = "Q total physics tendency";
:cell_methods = "time: mean";
:cell_measures = "area: area";
float PTTEND(time=1, lev=32, lat=180, lon=360);
:mdims = 1; // int
:units = "K/s";
:long_name = "T total physics tendency";
:cell_methods = "time: mean";
:cell_measures = "area: area";
float TMQ(time=1, lat=180, lon=360);
:units = "kg/m2";
:long_name = "Total (vertically integrated) precipitable water";
:cell_methods = "time: mean";
:cell_measures = "area: area";
float VD01(time=1, lev=32, lat=180, lon=360);
:mdims = 1; // int
:units = "kg/kg/s";
:long_name = "Vertical diffusion of Q";
:cell_methods = "time: mean";
:cell_measures = "area: area";
float VDCLDICE(time=1, lev=32, lat=180, lon=360);
:mdims = 1; // int
:units = "kg/kg/s";
:long_name = "Vertical diffusion of CLDICE";
:cell_methods = "time: mean";
:cell_measures = "area: area";
float VDCLDLIQ(time=1, lev=32, lat=180, lon=360);
:mdims = 1; // int
:units = "kg/kg/s";
:long_name = "Vertical diffusion of CLDLIQ";
:cell_methods = "time: mean";
:cell_measures = "area: area";
float ZMDLF(time=1, lev=32, lat=180, lon=360);
:mdims = 1; // int
:units = "kg/kg/s";
:long_name = "Detrained liquid water from ZM convection";
:cell_methods = "time: mean";
:cell_measures = "area: area";
float ZMDLIQ(time=1, lev=32, lat=180, lon=360);
:mdims = 1; // int
:units = "kg/kg/s";
:long_name = "Cloud liq tendency - Zhang-McFarlane convection";
:cell_methods = "time: mean";
:cell_measures = "area: area";
float ZMDQ(time=1, lev=32, lat=180, lon=360);
:mdims = 1; // int
:units = "kg/kg/s";
:long_name = "Q tendency - Zhang-McFarlane moist convection";
:cell_methods = "time: mean";
:cell_measures = "area: area";
float ZMDT(time=1, lev=32, lat=180, lon=360);
:mdims = 1; // int
:units = "K/s";
:long_name = "T tendency - Zhang-McFarlane moist convection";
:cell_methods = "time: mean";
:cell_measures = "area: area";
float ZMMD(time=1, lev=32, lat=180, lon=360);
:mdims = 1; // int
:units = "kg/m2/s";
:long_name = "ZM convection downdraft mass flux";
:cell_methods = "time: mean";
:cell_measures = "area: area";
float ZMMU(time=1, lev=32, lat=180, lon=360);
:mdims = 1; // int
:units = "kg/m2/s";
:long_name = "ZM convection updraft mass flux";
:cell_methods = "time: mean";
:cell_measures = "area: area";
double ch4vmr(time=1);
:long_name = "ch4 volume mixing ratio";
double co2vmr(time=1);
:long_name = "co2 volume mixing ratio";
int date(time=1);
:long_name = "current date (YYYYMMDD)";
char date_written(time=1, chars=8);
int datesec(time=1);
:long_name = "current seconds of current date";
double f11vmr(time=1);
:long_name = "f11 volume mixing ratio";
double f12vmr(time=1);
:long_name = "f12 volume mixing ratio";
double ilev(ilev=33);
:long_name = "zeta level index at vertical interfaces";
:units = "-";
double lev(lev=32);
:long_name = "zeta level index at vertical midpoints";
:units = "-";
int mdt;
:long_name = "timestep";
:units = "s";
double n2ovmr(time=1);
:long_name = "n2o volume mixing ratio";
int nbdate;
:long_name = "base date (YYYYMMDD)";
int nbsec;
:long_name = "seconds of base date";
int ndbase;
:long_name = "base day";
int ndcur(time=1);
:long_name = "current day (from base day)";
int nsbase;
:long_name = "seconds of base day";
int nscur(time=1);
:long_name = "current seconds of current day";
int nsteph(time=1);
:long_name = "current timestep";
float rqvblten(time=1, lev=32, lat=180, lon=360);
:mdims = 1; // int
:units = "kg/kg/s";
:long_name = "qv tendency by PBL";
:cell_methods = "time: mean";
:cell_measures = "area: area";
float rqvften(time=1, lev=32, lat=180, lon=360);
:mdims = 1; // int
:units = "kg/kg/s";
:long_name = "QV tendency by Advection";
:cell_methods = "time: mean";
:cell_measures = "area: area";
float rthblten(time=1, lev=32, lat=180, lon=360);
:mdims = 1; // int
:units = "K/s";
:long_name = "T tendency by PBL";
:cell_methods = "time: mean";
:cell_measures = "area: area";
float rthften(time=1, lev=32, lat=180, lon=360);
:mdims = 1; // int
:units = "K/s";
:long_name = "Heating by Advection";
:cell_methods = "time: mean";
:cell_measures = "area: area";
float rthraten(time=1, lev=32, lat=180, lon=360);
:mdims = 1; // int
:units = "K/s";
:long_name = "T tendency by RAD";
:cell_methods = "time: mean";
:cell_measures = "area: area";
double sol_tsi(time=1);
:long_name = "total solar irradiance";
:units = "W/m2";
double time(time=1);
:long_name = "time";
:units = "days since 0001-01-01 00:00:00";
:calendar = "noleap";
:bounds = "time_bnds";
double time_bnds(time=1, nbnd=2);
:long_name = "time interval endpoints";
char time_written(time=1, chars=8);
// global attributes:
:nCells = 40962; // int
:Conventions = "CF-1.0";
:source = "CAM";
:case = "FC5AQUAP.cam5.4.mp120a_mp120a.zm.dt180";
:title = "UNSET";
:logname = "jjang";
:host = "cheyenne4";
:Version = "$Name$";
:revision_Id = "$Id$";
:initial_file = "/glade/p/work/jjang/cesm/inputdata/mp120a_ape/x1.40962.init.notopo.low.L32.nc";
:topography_file = "/glade/p/work/jjang/cesm/inputdata/mp120a_ape/mp120a_topo_150430.APE.nc";
:time_period_freq = "month_1";
:history = "Tue Apr 17 10:27:06 2018: ncks -t 2 -O --no_tmp_fl --gaa remap_script=ncremap --gaa remap_command=\'/usr/common/software/nco/4.6.9/intel/bin/ncremap -m /global/cscratch1/sd/jjang/CESM/remap/offline-remap/make_mapping/mp120a/map_mp120a_to_1x1d_aave_da_150602.nc -i /global/cscratch1/sd/jjang/CESM/remap/three_years/FC5AQUAP.cam5.4.mp120a_mp120a.zm.dt180/FC5AQUAP.cam5.4.mp120a_mp120a.zm.dt180.cam.h1.average.nc -o /global/cscratch1/sd/jjang/CESM/remap/three_years/FC5AQUAP.cam5.4.mp120a_mp120a.zm.dt180/FC5AQUAP.cam5.4.mp120a_mp120a.zm.dt180.cam.h1.average.remap.nc\' --gaa remap_hostname=cori02 --gaa remap_version=4.7.4 --hdr_pad=10000 --rgr lat_nm_out=lat#lon_nm_out=lon --map=/global/cscratch1/sd/jjang/CESM/remap/offline-remap/make_mapping/mp120a/map_mp120a_to_1x1d_aave_da_150602.nc /global/cscratch1/sd/jjang/CESM/remap/three_years/FC5AQUAP.cam5.4.mp120a_mp120a.zm.dt180/FC5AQUAP.cam5.4.mp120a_mp120a.zm.dt180.cam.h1.average.nc /global/cscratch1/sd/jjang/CESM/remap/three_years/FC5AQUAP.cam5.4.mp120a_mp120a.zm.dt180/FC5AQUAP.cam5.4.mp120a_mp120a.zm.dt180.cam.h1.average.remap.nc\nTue Apr 17 10:26:38 2018: ncea FC5AQUAP.cam5.4.mp120a_mp120a.zm.dt180.cam.h1.0001-07.nc FC5AQUAP.cam5.4.mp120a_mp120a.zm.dt180.cam.h1.0001-08.nc FC5AQUAP.cam5.4.mp120a_mp120a.zm.dt180.cam.h1.0001-09.nc FC5AQUAP.cam5.4.mp120a_mp120a.zm.dt180.cam.h1.0001-10.nc FC5AQUAP.cam5.4.mp120a_mp120a.zm.dt180.cam.h1.0001-11.nc FC5AQUAP.cam5.4.mp120a_mp120a.zm.dt180.cam.h1.0001-12.nc FC5AQUAP.cam5.4.mp120a_mp120a.zm.dt180.cam.h1.0002-01.nc FC5AQUAP.cam5.4.mp120a_mp120a.zm.dt180.cam.h1.0002-02.nc FC5AQUAP.cam5.4.mp120a_mp120a.zm.dt180.cam.h1.0002-03.nc FC5AQUAP.cam5.4.mp120a_mp120a.zm.dt180.cam.h1.0002-04.nc FC5AQUAP.cam5.4.mp120a_mp120a.zm.dt180.cam.h1.0002-05.nc FC5AQUAP.cam5.4.mp120a_mp120a.zm.dt180.cam.h1.0002-06.nc FC5AQUAP.cam5.4.mp120a_mp120a.zm.dt180.cam.h1.0002-07.nc FC5AQUAP.cam5.4.mp120a_mp120a.zm.dt180.cam.h1.0002-08.nc FC5AQUAP.cam5.4.mp120a_mp120a.zm.dt180.cam.h1.0002-09.nc FC5AQUAP.cam5.4.mp120a_mp120a.zm.dt180.cam.h1.0002-10.nc FC5AQUAP.cam5.4.mp120a_mp120a.zm.dt180.cam.h1.0002-11.nc FC5AQUAP.cam5.4.mp120a_mp120a.zm.dt180.cam.h1.0002-12.nc FC5AQUAP.cam5.4.mp120a_mp120a.zm.dt180.cam.h1.0003-01.nc FC5AQUAP.cam5.4.mp120a_mp120a.zm.dt180.cam.h1.0003-02.nc FC5AQUAP.cam5.4.mp120a_mp120a.zm.dt180.cam.h1.0003-03.nc FC5AQUAP.cam5.4.mp120a_mp120a.zm.dt180.cam.h1.0003-04.nc FC5AQUAP.cam5.4.mp120a_mp120a.zm.dt180.cam.h1.0003-05.nc FC5AQUAP.cam5.4.mp120a_mp120a.zm.dt180.cam.h1.0003-06.nc FC5AQUAP.cam5.4.mp120a_mp120a.zm.dt180.cam.h1.0003-07.nc FC5AQUAP.cam5.4.mp120a_mp120a.zm.dt180.cam.h1.0003-08.nc FC5AQUAP.cam5.4.mp120a_mp120a.zm.dt180.cam.h1.0003-09.nc FC5AQUAP.cam5.4.mp120a_mp120a.zm.dt180.cam.h1.0003-10.nc FC5AQUAP.cam5.4.mp120a_mp120a.zm.dt180.cam.h1.0003-11.nc FC5AQUAP.cam5.4.mp120a_mp120a.zm.dt180.cam.h1.0003-12.nc /global/cscratch1/sd/jjang/CESM/remap/three_years/FC5AQUAP.cam5.4.mp120a_mp120a.zm.dt180/FC5AQUAP.cam5.4.mp120a_mp120a.zm.dt180.cam.h1.average.nc";
:NCO = "netCDF Operators version 4.7.4 (http://nco.sf.net)";
:nco_openmp_thread_number = 2; // int
:remap_script = "ncremap";
:remap_command = "\'/usr/common/software/nco/4.6.9/intel/bin/ncremap -m /global/cscratch1/sd/jjang/CESM/remap/offline-remap/make_mapping/mp120a/map_mp120a_to_1x1d_aave_da_150602.nc -i /global/cscratch1/sd/jjang/CESM/remap/three_years/FC5AQUAP.cam5.4.mp120a_mp120a.zm.dt180/FC5AQUAP.cam5.4.mp120a_mp120a.zm.dt180.cam.h1.average.nc -o /global/cscratch1/sd/jjang/CESM/remap/three_years/FC5AQUAP.cam5.4.mp120a_mp120a.zm.dt180/FC5AQUAP.cam5.4.mp120a_mp120a.zm.dt180.cam.h1.average.remap.nc\'";
:remap_hostname = "cori02";
:remap_version = "4.7.4";
:map_file = "/global/cscratch1/sd/jjang/CESM/remap/offline-remap/make_mapping/mp120a/map_mp120a_to_1x1d_aave_da_150602.nc";
:input_file = "/global/cscratch1/sd/jjang/CESM/remap/three_years/FC5AQUAP.cam5.4.mp120a_mp120a.zm.dt180/FC5AQUAP.cam5.4.mp120a_mp120a.zm.dt180.cam.h1.average.nc";
}
