netcdf SGP_continuous_iopfile_4scam { dimensions: time = UNLIMITED ; // (131496 currently) lat = 1 ; lon = 1 ; lev = 37 ; variables: double LWP(time, lat, lon) ; LWP:long_name = "cloud liquid water path" ; LWP:units = "cm" ; double PW(time, lat, lon) ; PW:long_name = "column precip_water" ; PW:units = "cm" ; double Ps(time, lat, lon) ; Ps:long_name = "Surf. pressure averaged over the domain" ; Ps:units = "Pa" ; double Ptend(time, lat, lon) ; Ptend:long_name = "Surface Pressure tendency" ; Ptend:units = "Pa/s" ; double RH_srf(time, lat, lon) ; RH_srf:long_name = "Surf. air relative humidity" ; RH_srf:units = "%" ; double T(time, lev, lat, lon) ; T:long_name = "Temperature" ; T:units = "K" ; double Tg(time, lat, lon) ; Tg:long_name = "Surf. skin temperature" ; Tg:units = "K" ; double Tsair(time, lat, lon) ; Tsair:long_name = "Surf. air temperature" ; Tsair:units = "K" ; int bdate ; bdate:long_name = "base date as 8 digit integer" ; bdate:units = "yyyymmdd" ; double cld_high(time, lat, lon) ; cld_high:long_name = "Satellite-measured high level cloud" ; cld_high:units = "%" ; double cld_low(time, lat, lon) ; cld_low:long_name = "Satellite-measured low level cloud" ; cld_low:units = "%" ; double cld_mid(time, lat, lon) ; cld_mid:long_name = "Satellite-measured middle level cloud" ; cld_mid:units = "%" ; double cld_thick(time, lat, lon) ; cld_thick:long_name = "Satellite-measured cloud thickness" ; cld_thick:units = "km" ; double cld_top(time, lat, lon) ; cld_top:long_name = "Satellite-measured cloud top" ; cld_top:units = "km" ; double cld_tot(time, lat, lon) ; cld_tot:long_name = "Satellite-measured total cloud" ; cld_tot:units = "%" ; double dTdt(time, lev, lat, lon) ; dTdt:long_name = "d(temperature)/dt" ; dTdt:units = "K/s" ; double dh2odt_col(time, lat, lon) ; dh2odt_col:long_name = "Column-integrated dH2O/dt" ; dh2odt_col:units = "mm/hour" ; double div(time, lev, lat, lon) ; div:long_name = "Horizontal wind divergence" ; div:units = "1/s" ; double divq(time, lev, lat, lon) ; divq:long_name = "Horizontal q advection" ; divq:units = "kg/kg/s" ; double divT(time, lev, lat, lon) ; divT:long_name = "Hori. dry static energy adv./Cp" ; divT:units = "K/s" ; double dqdt(time, lev, lat, lon) ; dqdt:long_name = "d(water vapor mixing ratio)/dt" ; dqdt:units = "kg/kg/s" ; double dsdt(time, lev, lat, lon) ; dsdt:long_name = "d(dry static energy)/dt/Cp" ; dsdt:units = "K/s" ; double dsdt_col(time, lat, lon) ; dsdt_col:long_name = "Column d(dry static energy)/dt" ; dsdt_col:units = "W/m2" ; double evap_srf(time, lat, lon) ; evap_srf:long_name = "Surface evaporation" ; evap_srf:units = "mm/hour" ; double h2o_adv_col(time, lat, lon) ; h2o_adv_col:long_name = "Column-integrated H2O adv." ; h2o_adv_col:units = "mm/hour" ; float lat(lat) ; lat:units = "degrees_north" ; double lev(lev) ; lev:units = "Pa" ; double lhflx(time, lat, lon) ; lhflx:long_name = "Surf. latent heat flux, upward positive" ; lhflx:units = "W/m2" ; float lon(lon) ; lon:units = "degrees_east" ; double lw_net_toa(time, lat, lon) ; lw_net_toa:long_name = "TOA LW flux, upward positive" ; lw_net_toa:units = "W/m2" ; double omega(time, lev, lat, lon) ; omega:long_name = "vertical velocity" ; omega:units = "Pa/s" ; float phis(lat, lon) ; phis:long_name = "surface geopotential" ; phis:units = "m^2/s^2" ; double prec_srf(time, lat, lon) ; prec_srf:long_name = "Surface precipitation" ; prec_srf:units = "mm/hour" ; double q(time, lev, lat, lon) ; q:long_name = "Water vapor mixing ratio" ; q:units = "kg/kg" ; double q1(time, lev, lat, lon) ; q1:long_name = "Apparent heat sources Yanai (1973)" ; q1:units = "K/s" ; double q2(time, lev, lat, lon) ; q2:long_name = "Apparent moisture sinks Yanai (1973)" ; q2:units = "K/s" ; double qs(time, lat, lon) ; qs:long_name = "water vapor mixing ratio" ; qs:units = "kg/kg" ; double rad_heat_col(time, lat, lon) ; rad_heat_col:long_name = "Column radiative heating" ; rad_heat_col:units = "W/m2" ; double rad_net_srf(time, lat, lon) ; rad_net_srf:long_name = "Surf. net rad., Downward" ; rad_net_srf:units = "W/m2" ; double s(time, lev, lat, lon) ; s:long_name = "Dry satic energy/Cp" ; s:units = "K" ; double s_adv_col(time, lat, lon) ; s_adv_col:long_name = "Column dry static energy adv." ; s_adv_col:units = "W/m2" ; double s_srf(time, lat, lon) ; s_srf:long_name = "dry static energy/Cp" ; s_srf:units = "K" ; double shflx(time, lat, lon) ; shflx:long_name = "Surf. sensible heat flux,upward positive" ; shflx:units = "W/m2" ; double sw_dn_toa(time, lat, lon) ; sw_dn_toa:long_name = "TOA solar insolation" ; sw_dn_toa:units = "W/m2" ; double sw_net_toa(time, lat, lon) ; sw_net_toa:long_name = "TOA net SW flux, downward positive" ; sw_net_toa:units = "W/m2" ; int tsec(time) ; tsec:long_name = "Time offset from base_time" ; tsec:units = "seconds since 2004-1-1 0:00:00 0:00" ; double u(time, lev, lat, lon) ; u:long_name = "Horizontal wind U component" ; u:units = "m/s" ; double usrf(time, lat, lon) ; usrf:long_name = "Surf. U component" ; usrf:units = "m/s" ; double v(time, lev, lat, lon) ; v:long_name = "Horizontal wind V component" ; v:units = "m/s" ; double vertdivq(time, lev, lat, lon) ; vertdivq:long_name = "Vertical q advection" ; vertdivq:units = "kg/kg/s" ; double vertdivT(time, lev, lat, lon) ; vertdivT:long_name = "Vert. dry static energy adv./Cp" ; vertdivT:units = "K/s" ; double vsrf(time, lat, lon) ; vsrf:long_name = "Surf. V component" ; vsrf:units = "m/s" ; double wspd_srf(time, lat, lon) ; wspd_srf:long_name = "Surf. wind speed" ; wspd_srf:units = "m/s" ; // global attributes: :generated_from = "MATLAB code: varanal_to_E3SMforcing.m" ; :input_file = "/global/cscratch1/sd/sqtang/SCM_runs/e3sm_allforcing/ARM_data/continuous_sgp/sgp60varanarucC1.c1.20040101.000000.cdf" ; :description = "input file from the ARM Archive. reformated for E3SM SCM run." ; :contact = "Shuaiqi Tang (tang32@llnl.gov)" ; :NCO = "netCDF Operators version 4.7.9 (Homepage = http://nco.sf.net, Code = http://github.com/nco/nco)" ; data: tsec =