[gradsusr] Displaying a .nc file

David Stanfel dstanfel at ualberta.ca
Thu Jun 19 13:50:04 EDT 2014


Here is the output of the ncdump:

dstanfel at bugaboo:~/models/mom/work/ESM2M_pi-control_C2> ncdump -c
atmos_month.nc.0000

netcdf atmos_month.nc {

dimensions:

lon = 144 ;

lonb = 145 ;

lat = 3 ;

latb = 4 ;

time = UNLIMITED ; // (0 currently)

nv = 2 ;

pfull = 24 ;

phalf = 25 ;

variables:

double lon(lon) ;

lon:long_name = "longitude" ;

lon:units = "degrees_E" ;

lon:cartesian_axis = "X" ;

lon:domain_decomposition = 1, 144, 1, 144 ;

lon:edges = "lonb" ;

double lonb(lonb) ;

lonb:long_name = "longitude edges" ;

lonb:units = "degrees_E" ;

lonb:cartesian_axis = "X" ;

double lat(lat) ;

lat:long_name = "latitude" ;

lat:units = "degrees_N" ;

lat:cartesian_axis = "Y" ;

lat:domain_decomposition = 1, 90, 1, 3 ;

lat:edges = "latb" ;

double latb(latb) ;

latb:long_name = "latitude edges" ;

latb:units = "degrees_N" ;

latb:cartesian_axis = "Y" ;

latb:domain_decomposition = 1, 91, 1, 4 ;

double time(time) ;

time:long_name = "time" ;

time:units = "days since 0001-01-01 00:00:00" ;

time:cartesian_axis = "T" ;

time:calendar_type = "NOLEAP" ;

time:calendar = "NOLEAP" ;

time:bounds = "time_bounds" ;

double nv(nv) ;

nv:long_name = "vertex number" ;

nv:units = "none" ;

nv:cartesian_axis = "N" ;

double pfull(pfull) ;

pfull:long_name = "ref full pressure level" ;

pfull:units = "mb" ;

pfull:cartesian_axis = "Z" ;

pfull:positive = "down" ;

pfull:edges = "phalf" ;

double phalf(phalf) ;

phalf:long_name = "ref half pressure level" ;

phalf:units = "mb" ;

phalf:cartesian_axis = "Z" ;

phalf:positive = "down" ;

float fco2nat(time, lat, lon) ;

fco2nat:long_name = "flux of carbon dioxide" ;

fco2nat:units = "mol CO2/(m2 s)" ;

fco2nat:missing_value = 1.e+20f ;

fco2nat:_FillValue = 1.e+20f ;

fco2nat:cell_methods = "time: mean" ;

fco2nat:time_avg_info = "average_T1,average_T2,average_DT" ;

float high_cld_amt(time, lat, lon) ;

high_cld_amt:long_name = "high cloud amount" ;

high_cld_amt:units = "percent" ;

high_cld_amt:missing_value = 1.e+20f ;

high_cld_amt:_FillValue = 1.e+20f ;

high_cld_amt:cell_methods = "time: mean" ;

high_cld_amt:time_avg_info = "average_T1,average_T2,average_DT" ;

float low_cld_amt(time, lat, lon) ;

low_cld_amt:long_name = "low cloud amount" ;

low_cld_amt:units = "percent" ;

low_cld_amt:missing_value = 1.e+20f ;

low_cld_amt:_FillValue = 1.e+20f ;

low_cld_amt:cell_methods = "time: mean" ;

low_cld_amt:time_avg_info = "average_T1,average_T2,average_DT" ;

float mid_cld_amt(time, lat, lon) ;

mid_cld_amt:long_name = "mid cloud amount" ;

mid_cld_amt:units = "percent" ;

mid_cld_amt:missing_value = 1.e+20f ;

mid_cld_amt:_FillValue = 1.e+20f ;

mid_cld_amt:cell_methods = "time: mean" ;

mid_cld_amt:time_avg_info = "average_T1,average_T2,average_DT" ;

float tot_cld_amt(time, lat, lon) ;

tot_cld_amt:long_name = "total cloud amount" ;

tot_cld_amt:units = "percent" ;

tot_cld_amt:missing_value = 1.e+20f ;

tot_cld_amt:_FillValue = 1.e+20f ;

tot_cld_amt:cell_methods = "time: mean" ;

tot_cld_amt:time_avg_info = "average_T1,average_T2,average_DT" ;

float taubx(time, lat, lon) ;

taubx:long_name = "x base flux for grav wave drag" ;

taubx:units = "kg/m/s2" ;

taubx:missing_value = -999.f ;

taubx:_FillValue = -999.f ;

taubx:cell_methods = "time: mean" ;

taubx:time_avg_info = "average_T1,average_T2,average_DT" ;

float tauby(time, lat, lon) ;

tauby:long_name = "y base flux for grav wave drag" ;

tauby:units = "kg/m/s2" ;

tauby:missing_value = -999.f ;

tauby:_FillValue = -999.f ;

tauby:cell_methods = "time: mean" ;

tauby:time_avg_info = "average_T1,average_T2,average_DT" ;

float udt_gwd(time, pfull, lat, lon) ;

udt_gwd:long_name = "u wind tendency for gravity wave drag" ;

udt_gwd:units = "m/s2" ;

udt_gwd:missing_value = -999.f ;

udt_gwd:_FillValue = -999.f ;

udt_gwd:cell_methods = "time: mean" ;

udt_gwd:time_avg_info = "average_T1,average_T2,average_DT" ;

float vdt_gwd(time, pfull, lat, lon) ;

vdt_gwd:long_name = "v wind tendency for gravity wave drag" ;

vdt_gwd:units = "m/s2" ;

vdt_gwd:missing_value = -999.f ;

vdt_gwd:_FillValue = -999.f ;

vdt_gwd:cell_methods = "time: mean" ;

vdt_gwd:time_avg_info = "average_T1,average_T2,average_DT" ;

float udt_rdamp(time, pfull, lat, lon) ;

udt_rdamp:long_name = "u wind tendency for Rayleigh damping" ;

udt_rdamp:units = "m/s2" ;

udt_rdamp:missing_value = -999.f ;

udt_rdamp:_FillValue = -999.f ;

udt_rdamp:cell_methods = "time: mean" ;

udt_rdamp:time_avg_info = "average_T1,average_T2,average_DT" ;

float vdt_rdamp(time, pfull, lat, lon) ;

vdt_rdamp:long_name = "v wind tendency for Rayleigh damping" ;

vdt_rdamp:units = "m/s2" ;

vdt_rdamp:missing_value = -999.f ;

vdt_rdamp:_FillValue = -999.f ;

vdt_rdamp:cell_methods = "time: mean" ;

vdt_rdamp:time_avg_info = "average_T1,average_T2,average_DT" ;

float bk(phalf) ;

bk:long_name = "vertical coordinate sigma value" ;

bk:units = "none" ;

bk:missing_value = 1.e+20f ;

bk:_FillValue = 1.e+20f ;

bk:cell_methods = "time: point" ;

float pk(phalf) ;

pk:long_name = "pressure part of the hybrid coordinate" ;

pk:units = "pascal" ;

pk:missing_value = 1.e+20f ;

pk:_FillValue = 1.e+20f ;

pk:cell_methods = "time: point" ;

float zsurf(lat, lon) ;

zsurf:long_name = "surface height" ;

zsurf:units = "m" ;

zsurf:missing_value = 1.e+20f ;

zsurf:_FillValue = 1.e+20f ;

zsurf:cell_methods = "time: point" ;

float cld_amt(time, pfull, lat, lon) ;

cld_amt:long_name = "cloud fraction" ;

cld_amt:units = "none" ;

cld_amt:missing_value = -1.e+10f ;

cld_amt:_FillValue = -1.e+10f ;

cld_amt:cell_methods = "time: mean" ;

cld_amt:time_avg_info = "average_T1,average_T2,average_DT" ;

float ice_wat(time, pfull, lat, lon) ;

ice_wat:long_name = "cloud ice water specific humidity" ;

ice_wat:units = "kg/kg" ;

ice_wat:missing_value = -1.e+10f ;

ice_wat:_FillValue = -1.e+10f ;

ice_wat:cell_methods = "time: mean" ;

ice_wat:time_avg_info = "average_T1,average_T2,average_DT" ;

float liq_wat(time, pfull, lat, lon) ;

liq_wat:long_name = "cloud liquid specific humidity" ;

liq_wat:units = "kg/kg" ;

liq_wat:missing_value = -1.e+10f ;

liq_wat:_FillValue = -1.e+10f ;

liq_wat:cell_methods = "time: mean" ;

liq_wat:time_avg_info = "average_T1,average_T2,average_DT" ;

float omega(time, pfull, lat, lon) ;

omega:long_name = "omega" ;

omega:units = "pa/sec" ;

omega:missing_value = -1.e+10f ;

omega:_FillValue = -1.e+10f ;

omega:cell_methods = "time: mean" ;

omega:time_avg_info = "average_T1,average_T2,average_DT" ;

float ps(time, lat, lon) ;

ps:long_name = "surface pressure" ;

ps:units = "Pa" ;

ps:missing_value = -1.e+10f ;

ps:_FillValue = -1.e+10f ;

ps:cell_methods = "time: mean" ;

ps:time_avg_info = "average_T1,average_T2,average_DT" ;

float sphum(time, pfull, lat, lon) ;

sphum:long_name = "specific humidity" ;

sphum:units = "kg/kg" ;

sphum:missing_value = -1.e+10f ;

sphum:_FillValue = -1.e+10f ;

sphum:cell_methods = "time: mean" ;

sphum:time_avg_info = "average_T1,average_T2,average_DT" ;

float slp_dyn(time, lat, lon) ;

slp_dyn:long_name = "sea-level pressure" ;

slp_dyn:units = "mb" ;

slp_dyn:valid_range = 800.f, 1200.f ;

slp_dyn:missing_value = -1.e+10f ;

slp_dyn:_FillValue = -1.e+10f ;

slp_dyn:cell_methods = "time: mean" ;

slp_dyn:time_avg_info = "average_T1,average_T2,average_DT" ;

float temp(time, pfull, lat, lon) ;

temp:long_name = "temperature" ;

temp:units = "deg_K" ;

temp:valid_range = 100.f, 350.f ;

temp:missing_value = -1.e+10f ;

temp:_FillValue = -1.e+10f ;

temp:cell_methods = "time: mean" ;

temp:time_avg_info = "average_T1,average_T2,average_DT" ;

float ucomp(time, pfull, lat, lon) ;

ucomp:long_name = "zonal wind" ;

ucomp:units = "m/sec" ;

ucomp:valid_range = -330.f, 350.f ;

ucomp:missing_value = -1.e+10f ;

ucomp:_FillValue = -1.e+10f ;

ucomp:cell_methods = "time: mean" ;

ucomp:time_avg_info = "average_T1,average_T2,average_DT" ;

float vcomp(time, pfull, lat, lon) ;

vcomp:long_name = "meridional wind" ;

vcomp:units = "m/sec" ;

vcomp:valid_range = -330.f, 350.f ;

vcomp:missing_value = -1.e+10f ;

vcomp:_FillValue = -1.e+10f ;

vcomp:cell_methods = "time: mean" ;

vcomp:time_avg_info = "average_T1,average_T2,average_DT" ;

float drag_heat(time, lat, lon) ;

drag_heat:long_name = "drag coeff for heat" ;

drag_heat:units = "none" ;

drag_heat:missing_value = 1.e+20f ;

drag_heat:_FillValue = 1.e+20f ;

drag_heat:cell_methods = "time: mean" ;

drag_heat:time_avg_info = "average_T1,average_T2,average_DT" ;

float drag_moist(time, lat, lon) ;

drag_moist:long_name = "drag coeff for moisture" ;

drag_moist:units = "none" ;

drag_moist:missing_value = 1.e+20f ;

drag_moist:_FillValue = 1.e+20f ;

drag_moist:cell_methods = "time: mean" ;

drag_moist:time_avg_info = "average_T1,average_T2,average_DT" ;

float drag_mom(time, lat, lon) ;

drag_mom:long_name = "drag coeff for momentum" ;

drag_mom:units = "none" ;

drag_mom:missing_value = 1.e+20f ;

drag_mom:_FillValue = 1.e+20f ;

drag_mom:cell_methods = "time: mean" ;

drag_mom:time_avg_info = "average_T1,average_T2,average_DT" ;

float evap(time, lat, lon) ;

evap:long_name = "evaporation rate" ;

evap:units = "kg/m2/s" ;

evap:missing_value = 1.e+20f ;

evap:_FillValue = 1.e+20f ;

evap:cell_methods = "time: mean" ;

evap:time_avg_info = "average_T1,average_T2,average_DT" ;

float sphum_flux(time, lat, lon) ;

sphum_flux:long_name = "flux of specific humidity" ;

sphum_flux:units = "kg/kg kg air/(m2 s)" ;

sphum_flux:missing_value = 1.e+20f ;

sphum_flux:_FillValue = 1.e+20f ;

sphum_flux:cell_methods = "time: mean" ;

sphum_flux:time_avg_info = "average_T1,average_T2,average_DT" ;

float ice_mask(time, lat, lon) ;

ice_mask:long_name = "fractional amount of sea ice" ;

ice_mask:units = "none" ;

ice_mask:valid_range = -0.01f, 1.01f ;

ice_mask:missing_value = 1.e+20f ;

ice_mask:_FillValue = 1.e+20f ;

ice_mask:cell_methods = "time: mean" ;

ice_mask:time_avg_info = "average_T1,average_T2,average_DT" ;

ice_mask:interp_method = "conserve_order1" ;

float land_mask(lat, lon) ;

land_mask:long_name = "fractional amount of land" ;

land_mask:units = "none" ;

land_mask:valid_range = -0.01f, 1.01f ;

land_mask:missing_value = 1.e+20f ;

land_mask:_FillValue = 1.e+20f ;

land_mask:cell_methods = "time: point" ;

land_mask:interp_method = "conserve_order1" ;

float lwflx(time, lat, lon) ;

lwflx:long_name = "net (down-up) longwave flux" ;

lwflx:units = "w/m2" ;

lwflx:missing_value = 1.e+20f ;

lwflx:_FillValue = 1.e+20f ;

lwflx:cell_methods = "time: mean" ;

lwflx:time_avg_info = "average_T1,average_T2,average_DT" ;

float rh_ref(time, lat, lon) ;

rh_ref:long_name = "relative humidity at 2 m" ;

rh_ref:units = "percent" ;

rh_ref:missing_value = 1.e+20f ;

rh_ref:_FillValue = 1.e+20f ;

rh_ref:cell_methods = "time: mean" ;

rh_ref:time_avg_info = "average_T1,average_T2,average_DT" ;

float shflx(time, lat, lon) ;

shflx:long_name = "sensible heat flux" ;

shflx:units = "w/m2" ;

shflx:missing_value = 1.e+20f ;

shflx:_FillValue = 1.e+20f ;

shflx:cell_methods = "time: mean" ;

shflx:time_avg_info = "average_T1,average_T2,average_DT" ;

float tau_x(time, lat, lon) ;

tau_x:long_name = "zonal wind stress" ;

tau_x:units = "pa" ;

tau_x:missing_value = 1.e+20f ;

tau_x:_FillValue = 1.e+20f ;

tau_x:cell_methods = "time: mean" ;

tau_x:time_avg_info = "average_T1,average_T2,average_DT" ;

float tau_y(time, lat, lon) ;

tau_y:long_name = "meridional wind stress" ;

tau_y:units = "pa" ;

tau_y:missing_value = 1.e+20f ;

tau_y:_FillValue = 1.e+20f ;

tau_y:cell_methods = "time: mean" ;

tau_y:time_avg_info = "average_T1,average_T2,average_DT" ;

float t_ref(time, lat, lon) ;

t_ref:long_name = "temperature at 2 m" ;

t_ref:units = "deg_k" ;

t_ref:valid_range = 100.f, 400.f ;

t_ref:missing_value = 1.e+20f ;

t_ref:_FillValue = 1.e+20f ;

t_ref:cell_methods = "time: mean" ;

t_ref:time_avg_info = "average_T1,average_T2,average_DT" ;

float t_ref_min(time, lat, lon) ;

t_ref_min:long_name = "temperature at 2 m" ;

t_ref_min:units = "deg_k" ;

t_ref_min:valid_range = 100.f, 400.f ;

t_ref_min:missing_value = 1.e+20f ;

t_ref_min:_FillValue = 1.e+20f ;

t_ref_min:cell_methods = "time: min" ;

t_ref_min:time_avg_info = "average_T1,average_T2,average_DT" ;

float t_ref_max(time, lat, lon) ;

t_ref_max:long_name = "temperature at 2 m" ;

t_ref_max:units = "deg_k" ;

t_ref_max:valid_range = 100.f, 400.f ;

t_ref_max:missing_value = 1.e+20f ;

t_ref_max:_FillValue = 1.e+20f ;

t_ref_max:cell_methods = "time: max" ;

t_ref_max:time_avg_info = "average_T1,average_T2,average_DT" ;

float t_surf(time, lat, lon) ;

t_surf:long_name = "surface temperature" ;

t_surf:units = "deg_k" ;

t_surf:valid_range = 100.f, 400.f ;

t_surf:missing_value = 1.e+20f ;

t_surf:_FillValue = 1.e+20f ;

t_surf:cell_methods = "time: mean" ;

t_surf:time_avg_info = "average_T1,average_T2,average_DT" ;

float u_ref(time, lat, lon) ;

u_ref:long_name = "zonal wind component at 10 m" ;

u_ref:units = "m/s" ;

u_ref:valid_range = -400.f, 400.f ;

u_ref:missing_value = 1.e+20f ;

u_ref:_FillValue = 1.e+20f ;

u_ref:cell_methods = "time: mean" ;

u_ref:time_avg_info = "average_T1,average_T2,average_DT" ;

float v_ref(time, lat, lon) ;

v_ref:long_name = "meridional wind component at 10 m" ;

v_ref:units = "m/s" ;

v_ref:valid_range = -400.f, 400.f ;

v_ref:missing_value = 1.e+20f ;

v_ref:_FillValue = 1.e+20f ;

v_ref:cell_methods = "time: mean" ;

v_ref:time_avg_info = "average_T1,average_T2,average_DT" ;

float wind(time, lat, lon) ;

wind:long_name = "wind speed for flux calculations" ;

wind:units = "m/s" ;

wind:valid_range = 0.f, 400.f ;

wind:missing_value = 1.e+20f ;

wind:_FillValue = 1.e+20f ;

wind:cell_methods = "time: mean" ;

wind:time_avg_info = "average_T1,average_T2,average_DT" ;

float IWP(time, lat, lon) ;

IWP:long_name = "Ice water path" ;

IWP:units = "kg/m2" ;

IWP:missing_value = 1.e+20f ;

IWP:_FillValue = 1.e+20f ;

IWP:cell_methods = "time: mean" ;

IWP:time_avg_info = "average_T1,average_T2,average_DT" ;

float LWP(time, lat, lon) ;

LWP:long_name = "Liquid water path" ;

LWP:units = "kg/m2" ;

LWP:missing_value = 1.e+20f ;

LWP:_FillValue = 1.e+20f ;

LWP:cell_methods = "time: mean" ;

LWP:time_avg_info = "average_T1,average_T2,average_DT" ;

float precip(time, lat, lon) ;

precip:long_name = "Total precipitation rate" ;

precip:units = "kg/m2/s" ;

precip:missing_value = 1.e+20f ;

precip:_FillValue = 1.e+20f ;

precip:cell_methods = "time: mean" ;

precip:time_avg_info = "average_T1,average_T2,average_DT" ;

precip:interp_method = "conserve_order1" ;

float prec_conv(time, lat, lon) ;

prec_conv:long_name = "Precipitation rate from convection" ;

prec_conv:units = "kg(h2o)/m2/s" ;

prec_conv:missing_value = 1.e+20f ;

prec_conv:_FillValue = 1.e+20f ;

prec_conv:cell_methods = "time: mean" ;

prec_conv:time_avg_info = "average_T1,average_T2,average_DT" ;

prec_conv:interp_method = "conserve_order1" ;

float prec_ls(time, lat, lon) ;

prec_ls:long_name = "Precipitation rate from strat cloud" ;

prec_ls:units = "kg/m2/s" ;

prec_ls:missing_value = 1.e+20f ;

prec_ls:_FillValue = 1.e+20f ;

prec_ls:cell_methods = "time: mean" ;

prec_ls:time_avg_info = "average_T1,average_T2,average_DT" ;

float qdt_conv(time, pfull, lat, lon) ;

qdt_conv:long_name = "Spec humidity tendency from convection" ;

qdt_conv:units = "kg/kg/s" ;

qdt_conv:missing_value = -999.f ;

qdt_conv:_FillValue = -999.f ;

qdt_conv:cell_methods = "time: mean" ;

qdt_conv:time_avg_info = "average_T1,average_T2,average_DT" ;

float qdt_ls(time, pfull, lat, lon) ;

qdt_ls:long_name = "Spec humidity tendency from strat cloud" ;

qdt_ls:units = "kg/kg/s" ;

qdt_ls:missing_value = -999.f ;

qdt_ls:_FillValue = -999.f ;

qdt_ls:cell_methods = "time: mean" ;

qdt_ls:time_avg_info = "average_T1,average_T2,average_DT" ;

float rh(time, pfull, lat, lon) ;

rh:long_name = "relative humidity" ;

rh:units = "percent" ;

rh:missing_value = -999.f ;

rh:_FillValue = -999.f ;

rh:cell_methods = "time: mean" ;

rh:time_avg_info = "average_T1,average_T2,average_DT" ;

float snow_conv(time, lat, lon) ;

snow_conv:long_name = "Frozen precip rate from convection" ;

snow_conv:units = "kg(h2o)/m2/s" ;

snow_conv:missing_value = 1.e+20f ;

snow_conv:_FillValue = 1.e+20f ;

snow_conv:cell_methods = "time: mean" ;

snow_conv:time_avg_info = "average_T1,average_T2,average_DT" ;

snow_conv:interp_method = "conserve_order1" ;

float snow_ls(time, lat, lon) ;

snow_ls:long_name = "Frozen precip rate from strat cloud" ;

snow_ls:units = "kg/m2/s" ;

snow_ls:missing_value = 1.e+20f ;

snow_ls:_FillValue = 1.e+20f ;

snow_ls:cell_methods = "time: mean" ;

snow_ls:time_avg_info = "average_T1,average_T2,average_DT" ;

float tdt_conv(time, pfull, lat, lon) ;

tdt_conv:long_name = "Temperature tendency from convection" ;

tdt_conv:units = "deg_K/s" ;

tdt_conv:missing_value = -999.f ;

tdt_conv:_FillValue = -999.f ;

tdt_conv:cell_methods = "time: mean" ;

tdt_conv:time_avg_info = "average_T1,average_T2,average_DT" ;

float tdt_ls(time, pfull, lat, lon) ;

tdt_ls:long_name = "Temperature tendency from strat cloud" ;

tdt_ls:units = "deg_K/s" ;

tdt_ls:missing_value = -999.f ;

tdt_ls:_FillValue = -999.f ;

tdt_ls:cell_methods = "time: mean" ;

tdt_ls:time_avg_info = "average_T1,average_T2,average_DT" ;

float WVP(time, lat, lon) ;

WVP:long_name = "Column integrated water vapor" ;

WVP:units = "kg/m2" ;

WVP:missing_value = 1.e+20f ;

WVP:_FillValue = 1.e+20f ;

WVP:cell_methods = "time: mean" ;

WVP:time_avg_info = "average_T1,average_T2,average_DT" ;

float alb_sfc(time, lat, lon) ;

alb_sfc:long_name = "surface albedo" ;

alb_sfc:units = "percent" ;

alb_sfc:missing_value = -999.f ;

alb_sfc:_FillValue = -999.f ;

alb_sfc:cell_methods = "time: mean" ;

alb_sfc:time_avg_info = "average_T1,average_T2,average_DT" ;

float lwdn_sfc(time, lat, lon) ;

lwdn_sfc:long_name = "LW flux down at surface" ;

lwdn_sfc:units = "watts/m2" ;

lwdn_sfc:missing_value = -999.f ;

lwdn_sfc:_FillValue = -999.f ;

lwdn_sfc:cell_methods = "time: mean" ;

lwdn_sfc:time_avg_info = "average_T1,average_T2,average_DT" ;

float lwdn_sfc_clr(time, lat, lon) ;

lwdn_sfc_clr:long_name = "clear skyLW flux down at surface" ;

lwdn_sfc_clr:units = "watts/m2" ;

lwdn_sfc_clr:missing_value = -999.f ;

lwdn_sfc_clr:_FillValue = -999.f ;

lwdn_sfc_clr:cell_methods = "time: mean" ;

lwdn_sfc_clr:time_avg_info = "average_T1,average_T2,average_DT" ;

float lwup_sfc(time, lat, lon) ;

lwup_sfc:long_name = "LW flux up at surface" ;

lwup_sfc:units = "watts/m2" ;

lwup_sfc:missing_value = -999.f ;

lwup_sfc:_FillValue = -999.f ;

lwup_sfc:cell_methods = "time: mean" ;

lwup_sfc:time_avg_info = "average_T1,average_T2,average_DT" ;

float lwup_sfc_clr(time, lat, lon) ;

lwup_sfc_clr:long_name = "clear skyLW flux up at surface" ;

lwup_sfc_clr:units = "watts/m2" ;

lwup_sfc_clr:missing_value = -999.f ;

lwup_sfc_clr:_FillValue = -999.f ;

lwup_sfc_clr:cell_methods = "time: mean" ;

lwup_sfc_clr:time_avg_info = "average_T1,average_T2,average_DT" ;

float netrad_toa(time, lat, lon) ;

netrad_toa:long_name = "net radiation (lw + sw) at toa" ;

netrad_toa:units = "watts/m2" ;

netrad_toa:missing_value = -999.f ;

netrad_toa:_FillValue = -999.f ;

netrad_toa:cell_methods = "time: mean" ;

netrad_toa:time_avg_info = "average_T1,average_T2,average_DT" ;

float netrad_toa_clr(time, lat, lon) ;

netrad_toa_clr:long_name = "clear skynet radiation (lw + sw) at toa" ;

netrad_toa_clr:units = "watts/m2" ;

netrad_toa_clr:missing_value = -999.f ;

netrad_toa_clr:_FillValue = -999.f ;

netrad_toa_clr:cell_methods = "time: mean" ;

netrad_toa_clr:time_avg_info = "average_T1,average_T2,average_DT" ;

float olr(time, lat, lon) ;

olr:long_name = "outgoing longwave radiation" ;

olr:units = "watts/m2" ;

olr:missing_value = -999.f ;

olr:_FillValue = -999.f ;

olr:cell_methods = "time: mean" ;

olr:time_avg_info = "average_T1,average_T2,average_DT" ;

float olr_clr(time, lat, lon) ;

olr_clr:long_name = "clear skyoutgoing longwave radiation" ;

olr_clr:units = "watts/m2" ;

olr_clr:missing_value = -999.f ;

olr_clr:_FillValue = -999.f ;

olr_clr:cell_methods = "time: mean" ;

olr_clr:time_avg_info = "average_T1,average_T2,average_DT" ;

float qo3(time, pfull, lat, lon) ;

qo3:long_name = "ozone mixing ratio" ;

qo3:units = "kg/kg" ;

qo3:missing_value = -999.f ;

qo3:_FillValue = -999.f ;

qo3:cell_methods = "time: mean" ;

qo3:time_avg_info = "average_T1,average_T2,average_DT" ;

float qo3_col(time, lat, lon) ;

qo3_col:long_name = "ozone column" ;

qo3_col:units = "DU" ;

qo3_col:missing_value = -999.f ;

qo3_col:_FillValue = -999.f ;

qo3_col:cell_methods = "time: mean" ;

qo3_col:time_avg_info = "average_T1,average_T2,average_DT" ;

float swdn_sfc(time, lat, lon) ;

swdn_sfc:long_name = "SW flux down at surface" ;

swdn_sfc:units = "watts/m2" ;

swdn_sfc:missing_value = -999.f ;

swdn_sfc:_FillValue = -999.f ;

swdn_sfc:cell_methods = "time: mean" ;

swdn_sfc:time_avg_info = "average_T1,average_T2,average_DT" ;

float swdn_sfc_clr(time, lat, lon) ;

swdn_sfc_clr:long_name = "clear skySW flux down at surface" ;

swdn_sfc_clr:units = "watts/m2" ;

swdn_sfc_clr:missing_value = -999.f ;

swdn_sfc_clr:_FillValue = -999.f ;

swdn_sfc_clr:cell_methods = "time: mean" ;

swdn_sfc_clr:time_avg_info = "average_T1,average_T2,average_DT" ;

float swup_sfc(time, lat, lon) ;

swup_sfc:long_name = "SW flux up at surface" ;

swup_sfc:units = "watts/m2" ;

swup_sfc:missing_value = -999.f ;

swup_sfc:_FillValue = -999.f ;

swup_sfc:cell_methods = "time: mean" ;

swup_sfc:time_avg_info = "average_T1,average_T2,average_DT" ;

float swup_sfc_clr(time, lat, lon) ;

swup_sfc_clr:long_name = "clear skySW flux up at surface" ;

swup_sfc_clr:units = "watts/m2" ;

swup_sfc_clr:missing_value = -999.f ;

swup_sfc_clr:_FillValue = -999.f ;

swup_sfc_clr:cell_methods = "time: mean" ;

swup_sfc_clr:time_avg_info = "average_T1,average_T2,average_DT" ;

float swdn_toa(time, lat, lon) ;

swdn_toa:long_name = "SW flux down at TOA" ;

swdn_toa:units = "watts/m2" ;

swdn_toa:missing_value = -999.f ;

swdn_toa:_FillValue = -999.f ;

swdn_toa:cell_methods = "time: mean" ;

swdn_toa:time_avg_info = "average_T1,average_T2,average_DT" ;

float swdn_toa_clr(time, lat, lon) ;

swdn_toa_clr:long_name = "clear skySW flux down at TOA" ;

swdn_toa_clr:units = "watts/m2" ;

swdn_toa_clr:missing_value = -999.f ;

swdn_toa_clr:_FillValue = -999.f ;

swdn_toa_clr:cell_methods = "time: mean" ;

swdn_toa_clr:time_avg_info = "average_T1,average_T2,average_DT" ;

float swup_toa(time, lat, lon) ;

swup_toa:long_name = "SW flux up at TOA" ;

swup_toa:units = "watts/m2" ;

swup_toa:missing_value = -999.f ;

swup_toa:_FillValue = -999.f ;

swup_toa:cell_methods = "time: mean" ;

swup_toa:time_avg_info = "average_T1,average_T2,average_DT" ;

float swup_toa_clr(time, lat, lon) ;

swup_toa_clr:long_name = "clear skySW flux up at TOA" ;

swup_toa_clr:units = "watts/m2" ;

swup_toa_clr:missing_value = -999.f ;

swup_toa_clr:_FillValue = -999.f ;

swup_toa_clr:cell_methods = "time: mean" ;

swup_toa_clr:time_avg_info = "average_T1,average_T2,average_DT" ;

float tdt_lw(time, pfull, lat, lon) ;

tdt_lw:long_name = "temperature tendency for LW radiation" ;

tdt_lw:units = "deg_K/sec" ;

tdt_lw:missing_value = -999.f ;

tdt_lw:_FillValue = -999.f ;

tdt_lw:cell_methods = "time: mean" ;

tdt_lw:time_avg_info = "average_T1,average_T2,average_DT" ;

float tdt_lw_clr(time, pfull, lat, lon) ;

tdt_lw_clr:long_name = "clear skytemperature tendency for LW radiation" ;

tdt_lw_clr:units = "deg_K/sec" ;

tdt_lw_clr:missing_value = -999.f ;

tdt_lw_clr:_FillValue = -999.f ;

tdt_lw_clr:cell_methods = "time: mean" ;

tdt_lw_clr:time_avg_info = "average_T1,average_T2,average_DT" ;

float tdt_sw(time, pfull, lat, lon) ;

tdt_sw:long_name = "temperature tendency for SW radiation" ;

tdt_sw:units = "deg_K/sec" ;

tdt_sw:missing_value = -999.f ;

tdt_sw:_FillValue = -999.f ;

tdt_sw:cell_methods = "time: mean" ;

tdt_sw:time_avg_info = "average_T1,average_T2,average_DT" ;

float tdt_sw_clr(time, pfull, lat, lon) ;

tdt_sw_clr:long_name = "clear skytemperature tendency for SW radiation" ;

tdt_sw_clr:units = "deg_K/sec" ;

tdt_sw_clr:missing_value = -999.f ;

tdt_sw_clr:_FillValue = -999.f ;

tdt_sw_clr:cell_methods = "time: mean" ;

tdt_sw_clr:time_avg_info = "average_T1,average_T2,average_DT" ;

float netlw_lin_trop(time, lat, lon) ;

netlw_lin_trop:long_name = "net LW flux at linear tropopause" ;

netlw_lin_trop:units = "watts/m2" ;

netlw_lin_trop:missing_value = -999.f ;

netlw_lin_trop:_FillValue = -999.f ;

netlw_lin_trop:cell_methods = "time: mean" ;

netlw_lin_trop:time_avg_info = "average_T1,average_T2,average_DT" ;

float netlw_lin_trop_clr(time, lat, lon) ;

netlw_lin_trop_clr:long_name = "clear skynet LW flux at linear tropopause" ;

netlw_lin_trop_clr:units = "watts/m2" ;

netlw_lin_trop_clr:missing_value = -999.f ;

netlw_lin_trop_clr:_FillValue = -999.f ;

netlw_lin_trop_clr:cell_methods = "time: mean" ;

netlw_lin_trop_clr:time_avg_info = "average_T1,average_T2,average_DT" ;

float netlw_200hPa(time, lat, lon) ;

netlw_200hPa:long_name = "net LW flux at 200 hPa" ;

netlw_200hPa:units = "watts/m2" ;

netlw_200hPa:missing_value = -999.f ;

netlw_200hPa:_FillValue = -999.f ;

netlw_200hPa:cell_methods = "time: mean" ;

netlw_200hPa:time_avg_info = "average_T1,average_T2,average_DT" ;

float netlw_200hPa_clr(time, lat, lon) ;

netlw_200hPa_clr:long_name = "clear skynet LW flux at 200 hPa" ;

netlw_200hPa_clr:units = "watts/m2" ;

netlw_200hPa_clr:missing_value = -999.f ;

netlw_200hPa_clr:_FillValue = -999.f ;

netlw_200hPa_clr:cell_methods = "time: mean" ;

netlw_200hPa_clr:time_avg_info = "average_T1,average_T2,average_DT" ;

float swdn_lin_trop(time, lat, lon) ;

swdn_lin_trop:long_name = "SW flux down at linear tropopause" ;

swdn_lin_trop:units = "watts/m2" ;

swdn_lin_trop:missing_value = -999.f ;

swdn_lin_trop:_FillValue = -999.f ;

swdn_lin_trop:cell_methods = "time: mean" ;

swdn_lin_trop:time_avg_info = "average_T1,average_T2,average_DT" ;

float swdn_lin_trop_clr(time, lat, lon) ;

swdn_lin_trop_clr:long_name = "clear skySW flux down at linear tropopause" ;

swdn_lin_trop_clr:units = "watts/m2" ;

swdn_lin_trop_clr:missing_value = -999.f ;

swdn_lin_trop_clr:_FillValue = -999.f ;

swdn_lin_trop_clr:cell_methods = "time: mean" ;

swdn_lin_trop_clr:time_avg_info = "average_T1,average_T2,average_DT" ;

float swdn_200hPa(time, lat, lon) ;

swdn_200hPa:long_name = "SW flux down at 200 hPa" ;

swdn_200hPa:units = "watts/m2" ;

swdn_200hPa:missing_value = -999.f ;

swdn_200hPa:_FillValue = -999.f ;

swdn_200hPa:cell_methods = "time: mean" ;

swdn_200hPa:time_avg_info = "average_T1,average_T2,average_DT" ;

float swdn_200hPa_clr(time, lat, lon) ;

swdn_200hPa_clr:long_name = "clear skySW flux down at 200 hPa" ;

swdn_200hPa_clr:units = "watts/m2" ;

swdn_200hPa_clr:missing_value = -999.f ;

swdn_200hPa_clr:_FillValue = -999.f ;

swdn_200hPa_clr:cell_methods = "time: mean" ;

swdn_200hPa_clr:time_avg_info = "average_T1,average_T2,average_DT" ;

float swup_lin_trop(time, lat, lon) ;

swup_lin_trop:long_name = "SW flux up at linear tropopause" ;

swup_lin_trop:units = "watts/m2" ;

swup_lin_trop:missing_value = -999.f ;

swup_lin_trop:_FillValue = -999.f ;

swup_lin_trop:cell_methods = "time: mean" ;

swup_lin_trop:time_avg_info = "average_T1,average_T2,average_DT" ;

float swup_lin_trop_clr(time, lat, lon) ;

swup_lin_trop_clr:long_name = "clear skySW flux up at linear tropopause" ;

swup_lin_trop_clr:units = "watts/m2" ;

swup_lin_trop_clr:missing_value = -999.f ;

swup_lin_trop_clr:_FillValue = -999.f ;

swup_lin_trop_clr:cell_methods = "time: mean" ;

swup_lin_trop_clr:time_avg_info = "average_T1,average_T2,average_DT" ;

float swup_200hPa(time, lat, lon) ;

swup_200hPa:long_name = "SW flux up at 200 hPa" ;

swup_200hPa:units = "watts/m2" ;

swup_200hPa:missing_value = -999.f ;

swup_200hPa:_FillValue = -999.f ;

swup_200hPa:cell_methods = "time: mean" ;

swup_200hPa:time_avg_info = "average_T1,average_T2,average_DT" ;

float swup_200hPa_clr(time, lat, lon) ;

swup_200hPa_clr:long_name = "clear skySW flux up at 200 hPa" ;

swup_200hPa_clr:units = "watts/m2" ;

swup_200hPa_clr:missing_value = -999.f ;

swup_200hPa_clr:_FillValue = -999.f ;

swup_200hPa_clr:cell_methods = "time: mean" ;

swup_200hPa_clr:time_avg_info = "average_T1,average_T2,average_DT" ;

float mc(time, phalf, lat, lon) ;

mc:long_name = "Cumulus Mass Flux from RAS" ;

mc:units = "kg/m2/s" ;

mc:missing_value = -999.f ;

mc:_FillValue = -999.f ;

mc:cell_methods = "time: mean" ;

mc:time_avg_info = "average_T1,average_T2,average_DT" ;

float qdt_vdif(time, pfull, lat, lon) ;

qdt_vdif:long_name = "Spec humidity tendency from vert diff" ;

qdt_vdif:units = "kg/kg/s" ;

qdt_vdif:missing_value = -999.f ;

qdt_vdif:_FillValue = -999.f ;

qdt_vdif:cell_methods = "time: mean" ;

qdt_vdif:time_avg_info = "average_T1,average_T2,average_DT" ;

float tdt_vdif(time, pfull, lat, lon) ;

tdt_vdif:long_name = "Temperature tendency from vert diff" ;

tdt_vdif:units = "deg_K/s" ;

tdt_vdif:missing_value = -999.f ;

tdt_vdif:_FillValue = -999.f ;

tdt_vdif:cell_methods = "time: mean" ;

tdt_vdif:time_avg_info = "average_T1,average_T2,average_DT" ;

float udt_vdif(time, pfull, lat, lon) ;

udt_vdif:long_name = "Zonal wind tendency from vert diff" ;

udt_vdif:units = "m/s2" ;

udt_vdif:missing_value = -999.f ;

udt_vdif:_FillValue = -999.f ;

udt_vdif:cell_methods = "time: mean" ;

udt_vdif:time_avg_info = "average_T1,average_T2,average_DT" ;

float vdt_vdif(time, pfull, lat, lon) ;

vdt_vdif:long_name = "Meridional wind tendency from vert diff" ;

vdt_vdif:units = "m/s2" ;

vdt_vdif:missing_value = -999.f ;

vdt_vdif:_FillValue = -999.f ;

vdt_vdif:cell_methods = "time: mean" ;

vdt_vdif:time_avg_info = "average_T1,average_T2,average_DT" ;

float co2(time, pfull, lat, lon) ;

co2:long_name = "carbon dioxide" ;

co2:units = "kg/kg" ;

co2:missing_value = -1.e+10f ;

co2:_FillValue = -1.e+10f ;

co2:cell_methods = "time: mean" ;

co2:time_avg_info = "average_T1,average_T2,average_DT" ;

float co2_dvmr(time, pfull, lat, lon) ;

co2_dvmr:long_name = "carbon dioxide (dry vmr)" ;

co2_dvmr:units = "mol/mol" ;

co2_dvmr:missing_value = -1.e+10f ;

co2_dvmr:_FillValue = -1.e+10f ;

co2_dvmr:cell_methods = "time: mean" ;

co2_dvmr:time_avg_info = "average_T1,average_T2,average_DT" ;

float slp(time, lat, lon) ;

slp:long_name = "sea level pressure" ;

slp:units = "pa" ;

slp:missing_value = 1.e+20f ;

slp:_FillValue = 1.e+20f ;

slp:cell_methods = "time: mean" ;

slp:time_avg_info = "average_T1,average_T2,average_DT" ;

float wind_ref(time, lat, lon) ;

wind_ref:long_name = "absolute value of wind at 10 m" ;

wind_ref:units = "m/s" ;

wind_ref:valid_range = -400.f, 400.f ;

wind_ref:missing_value = 1.e+20f ;

wind_ref:_FillValue = 1.e+20f ;

wind_ref:cell_methods = "time: mean" ;

wind_ref:time_avg_info = "average_T1,average_T2,average_DT" ;

float rh_ref_cmip(time, lat, lon) ;

rh_ref_cmip:long_name = "relative humidity at 2 m" ;

rh_ref_cmip:units = "percent" ;

rh_ref_cmip:missing_value = 1.e+20f ;

rh_ref_cmip:_FillValue = 1.e+20f ;

rh_ref_cmip:cell_methods = "time: mean" ;

rh_ref_cmip:time_avg_info = "average_T1,average_T2,average_DT" ;

float q_ref(time, lat, lon) ;

q_ref:long_name = "specific humidity at 2 m" ;

q_ref:units = "kg/kg" ;

q_ref:missing_value = -1.f ;

q_ref:_FillValue = -1.f ;

q_ref:cell_methods = "time: mean" ;

q_ref:time_avg_info = "average_T1,average_T2,average_DT" ;

float snow_tot(time, lat, lon) ;

snow_tot:long_name = "Frozen precip rate from all sources" ;

snow_tot:units = "kg(h2o)/m2/s" ;

snow_tot:missing_value = 1.e+20f ;

snow_tot:_FillValue = 1.e+20f ;

snow_tot:cell_methods = "time: mean" ;

snow_tot:time_avg_info = "average_T1,average_T2,average_DT" ;

snow_tot:interp_method = "conserve_order1" ;

float cld_amt_2d(time, lat, lon) ;

cld_amt_2d:long_name = "total cloud amount" ;

cld_amt_2d:units = "percent" ;

cld_amt_2d:missing_value = 1.e+20f ;

cld_amt_2d:_FillValue = 1.e+20f ;

cld_amt_2d:cell_methods = "time: mean" ;

cld_amt_2d:time_avg_info = "average_T1,average_T2,average_DT" ;

float WP_all_clouds(time, lat, lon) ;

WP_all_clouds:long_name = "Total  water path -- all clouds" ;

WP_all_clouds:units = "kg/m2" ;

WP_all_clouds:missing_value = 1.e+20f ;

WP_all_clouds:_FillValue = 1.e+20f ;

WP_all_clouds:cell_methods = "time: mean" ;

WP_all_clouds:time_avg_info = "average_T1,average_T2,average_DT" ;

float IWP_all_clouds(time, lat, lon) ;

IWP_all_clouds:long_name = "Ice water path -- all clouds" ;

IWP_all_clouds:units = "kg/m2" ;

IWP_all_clouds:missing_value = 1.e+20f ;

IWP_all_clouds:_FillValue = 1.e+20f ;

IWP_all_clouds:cell_methods = "time: mean" ;

IWP_all_clouds:time_avg_info = "average_T1,average_T2,average_DT" ;

float conv_cld_base(time, lat, lon) ;

conv_cld_base:long_name = "pressure at convective cloud base" ;

conv_cld_base:units = "Pa" ;

conv_cld_base:missing_value = -999.f ;

conv_cld_base:_FillValue = -999.f ;

conv_cld_base:cell_methods = "time: mean" ;

conv_cld_base:time_avg_info = "average_T1,average_T2,average_DT" ;

float conv_cld_top(time, lat, lon) ;

conv_cld_top:long_name = "pressure at convective cloud top" ;

conv_cld_top:units = "Pa" ;

conv_cld_top:missing_value = -999.f ;

conv_cld_top:_FillValue = -999.f ;

conv_cld_top:cell_methods = "time: mean" ;

conv_cld_top:time_avg_info = "average_T1,average_T2,average_DT" ;

float conv_freq(time, lat, lon) ;

conv_freq:long_name = "frequency of convection" ;

conv_freq:units = "number" ;

conv_freq:missing_value = -999.f ;

conv_freq:_FillValue = -999.f ;

conv_freq:cell_methods = "time: mean" ;

conv_freq:time_avg_info = "average_T1,average_T2,average_DT" ;

float tot_cloud_area(time, pfull, lat, lon) ;

tot_cloud_area:long_name = "Cloud area -- all clouds" ;

tot_cloud_area:units = "percent" ;

tot_cloud_area:missing_value = -999.f ;

tot_cloud_area:_FillValue = -999.f ;

tot_cloud_area:cell_methods = "time: mean" ;

tot_cloud_area:time_avg_info = "average_T1,average_T2,average_DT" ;

float tot_liq_amt(time, pfull, lat, lon) ;

tot_liq_amt:long_name = "Liquid amount -- all clouds" ;

tot_liq_amt:units = "kg/kg" ;

tot_liq_amt:missing_value = -999.f ;

tot_liq_amt:_FillValue = -999.f ;

tot_liq_amt:cell_methods = "time: mean" ;

tot_liq_amt:time_avg_info = "average_T1,average_T2,average_DT" ;

float tot_ice_amt(time, pfull, lat, lon) ;

tot_ice_amt:long_name = "Ice amount -- all clouds" ;

tot_ice_amt:units = "kg/kg" ;

tot_ice_amt:missing_value = -999.f ;

tot_ice_amt:_FillValue = -999.f ;

tot_ice_amt:cell_methods = "time: mean" ;

tot_ice_amt:time_avg_info = "average_T1,average_T2,average_DT" ;

float rh_cmip(time, pfull, lat, lon) ;

rh_cmip:long_name = "relative humidity" ;

rh_cmip:units = "percent" ;

rh_cmip:missing_value = -999.f ;

rh_cmip:_FillValue = -999.f ;

rh_cmip:cell_methods = "time: mean" ;

rh_cmip:time_avg_info = "average_T1,average_T2,average_DT" ;

float qo3v(time, pfull, lat, lon) ;

qo3v:long_name = "ozone mole fraction" ;

qo3v:units = "1.e-9" ;

qo3v:missing_value = -999.f ;

qo3v:_FillValue = -999.f ;

qo3v:cell_methods = "time: mean" ;

qo3v:time_avg_info = "average_T1,average_T2,average_DT" ;

float q_star(time, lat, lon) ;

q_star:long_name = "moisture scale" ;

q_star:units = "kg water/kg air" ;

q_star:missing_value = 1.e+20f ;

q_star:_FillValue = 1.e+20f ;

q_star:cell_methods = "time: mean" ;

q_star:time_avg_info = "average_T1,average_T2,average_DT" ;

float rh_min(time, pfull, lat, lon) ;

rh_min:long_name = "relative humidity" ;

rh_min:units = "percent" ;

rh_min:missing_value = -999.f ;

rh_min:_FillValue = -999.f ;

rh_min:cell_methods = "time: min" ;

rh_min:time_avg_info = "average_T1,average_T2,average_DT" ;

float rh_max(time, pfull, lat, lon) ;

rh_max:long_name = "relative humidity" ;

rh_max:units = "percent" ;

rh_max:missing_value = -999.f ;

rh_max:_FillValue = -999.f ;

rh_max:cell_methods = "time: max" ;

rh_max:time_avg_info = "average_T1,average_T2,average_DT" ;

float droplets(time, pfull, lat, lon) ;

droplets:long_name = "Droplet number concentration" ;

droplets:units = "/cm3" ;

droplets:missing_value = -999.f ;

droplets:_FillValue = -999.f ;

droplets:cell_methods = "time: mean" ;

droplets:time_avg_info = "average_T1,average_T2,average_DT" ;

float enth_ls_col(time, lat, lon) ;

enth_ls_col:long_name = "Column enthalpy tendency from strat cloud" ;

enth_ls_col:units = "W/m2" ;

enth_ls_col:missing_value = 1.e+20f ;

enth_ls_col:_FillValue = 1.e+20f ;

enth_ls_col:cell_methods = "time: mean" ;

enth_ls_col:time_avg_info = "average_T1,average_T2,average_DT" ;

float wat_ls_col(time, lat, lon) ;

wat_ls_col:long_name = "Column total water tendency from strat cloud" ;

wat_ls_col:units = "kg/m2/s" ;

wat_ls_col:missing_value = 1.e+20f ;

wat_ls_col:_FillValue = 1.e+20f ;

wat_ls_col:cell_methods = "time: mean" ;

wat_ls_col:time_avg_info = "average_T1,average_T2,average_DT" ;

float enth_conv_col(time, lat, lon) ;

enth_conv_col:long_name = "Column enthalpy tendency from convection" ;

enth_conv_col:units = "W/m2" ;

enth_conv_col:missing_value = 1.e+20f ;

enth_conv_col:_FillValue = 1.e+20f ;

enth_conv_col:cell_methods = "time: mean" ;

enth_conv_col:time_avg_info = "average_T1,average_T2,average_DT" ;

float wat_conv_col(time, lat, lon) ;

wat_conv_col:long_name = "Column total water tendency from convection" ;

wat_conv_col:units = "kg(h2o)/m2/s" ;

wat_conv_col:missing_value = 1.e+20f ;

wat_conv_col:_FillValue = 1.e+20f ;

wat_conv_col:cell_methods = "time: mean" ;

wat_conv_col:time_avg_info = "average_T1,average_T2,average_DT" ;

float swdn_vis_dir(time, lat, lon) ;

swdn_vis_dir:long_name = "downward direct visible sfc sw flux" ;

swdn_vis_dir:units = "watts/m2" ;

swdn_vis_dir:missing_value = -999.f ;

swdn_vis_dir:_FillValue = -999.f ;

swdn_vis_dir:cell_methods = "time: mean" ;

swdn_vis_dir:time_avg_info = "average_T1,average_T2,average_DT" ;

float swdn_vis_dif(time, lat, lon) ;

swdn_vis_dif:long_name = "downward diffuse visible sfc sw flux" ;

swdn_vis_dif:units = "watts/m2" ;

swdn_vis_dif:missing_value = -999.f ;

swdn_vis_dif:_FillValue = -999.f ;

swdn_vis_dif:cell_methods = "time: mean" ;

swdn_vis_dif:time_avg_info = "average_T1,average_T2,average_DT" ;

float swdn_vis_clr(time, lat, lon) ;

swdn_vis_clr:long_name = "downward visible sfc sw flux clear sky" ;

swdn_vis_clr:units = "watts/m2" ;

swdn_vis_clr:missing_value = -999.f ;

swdn_vis_clr:_FillValue = -999.f ;

swdn_vis_clr:cell_methods = "time: mean" ;

swdn_vis_clr:time_avg_info = "average_T1,average_T2,average_DT" ;

float swdn_tot_dir(time, lat, lon) ;

swdn_tot_dir:long_name = "downward direct total sfc sw flux" ;

swdn_tot_dir:units = "watts/m2" ;

swdn_tot_dir:missing_value = -999.f ;

swdn_tot_dir:_FillValue = -999.f ;

swdn_tot_dir:cell_methods = "time: mean" ;

swdn_tot_dir:time_avg_info = "average_T1,average_T2,average_DT" ;

float swdn_tot_dif(time, lat, lon) ;

swdn_tot_dif:long_name = "downward diffuse total sfc sw flux" ;

swdn_tot_dif:units = "watts/m2" ;

swdn_tot_dif:missing_value = -999.f ;

swdn_tot_dif:_FillValue = -999.f ;

swdn_tot_dif:cell_methods = "time: mean" ;

swdn_tot_dif:time_avg_info = "average_T1,average_T2,average_DT" ;

float flux_sw_vis(time, lat, lon) ;

flux_sw_vis:long_name = "net visible sfc sw flux" ;

flux_sw_vis:units = "watts/m2" ;

flux_sw_vis:missing_value = -999.f ;

flux_sw_vis:_FillValue = -999.f ;

flux_sw_vis:cell_methods = "time: mean" ;

flux_sw_vis:time_avg_info = "average_T1,average_T2,average_DT" ;

float sw_dn_t_dir_clr(time, lat, lon) ;

sw_dn_t_dir_clr:long_name = "downward clearsky direct total sfc sw flux" ;

sw_dn_t_dir_clr:units = "watts/m2" ;

sw_dn_t_dir_clr:missing_value = -999.f ;

sw_dn_t_dir_clr:_FillValue = -999.f ;

sw_dn_t_dir_clr:cell_methods = "time: mean" ;

sw_dn_t_dir_clr:time_avg_info = "average_T1,average_T2,average_DT" ;

float sw_dn_t_dif_clr(time, lat, lon) ;

sw_dn_t_dif_clr:long_name = "downward clearsky diffuse total sfc sw flux" ;

sw_dn_t_dif_clr:units = "watts/m2" ;

sw_dn_t_dif_clr:missing_value = -999.f ;

sw_dn_t_dif_clr:_FillValue = -999.f ;

sw_dn_t_dif_clr:cell_methods = "time: mean" ;

sw_dn_t_dif_clr:time_avg_info = "average_T1,average_T2,average_DT" ;

float LWP2(time, lat, lon) ;

LWP2:long_name = "In-cloud liquid water path of stratiform clouds" ;

LWP2:units = "kg/m2" ;

LWP2:missing_value = -999.f ;

LWP2:_FillValue = -999.f ;

LWP2:cell_methods = "time: mean" ;

LWP2:time_avg_info = "average_T1,average_T2,average_DT" ;

float z_pbl(time, lat, lon) ;

z_pbl:long_name = "depth of planetary boundary layer" ;

z_pbl:units = "m" ;

z_pbl:missing_value = 1.e+20f ;

z_pbl:_FillValue = 1.e+20f ;

z_pbl:cell_methods = "time: mean" ;

z_pbl:time_avg_info = "average_T1,average_T2,average_DT" ;

float conv_cloud_area(time, pfull, lat, lon) ;

conv_cloud_area:long_name = "Convective cloud area" ;

conv_cloud_area:units = "percent" ;

conv_cloud_area:missing_value = -999.f ;

conv_cloud_area:_FillValue = -999.f ;

conv_cloud_area:cell_methods = "time: mean" ;

conv_cloud_area:time_avg_info = "average_T1,average_T2,average_DT" ;

float conv_liq_amt(time, pfull, lat, lon) ;

conv_liq_amt:long_name = "Convective cloud liquid amount" ;

conv_liq_amt:units = "kg/kg" ;

conv_liq_amt:missing_value = -999.f ;

conv_liq_amt:_FillValue = -999.f ;

conv_liq_amt:cell_methods = "time: mean" ;

conv_liq_amt:time_avg_info = "average_T1,average_T2,average_DT" ;

float conv_ice_amt(time, pfull, lat, lon) ;

conv_ice_amt:long_name = "Convective cloud ice amount" ;

conv_ice_amt:units = "kg/kg" ;

conv_ice_amt:missing_value = -999.f ;

conv_ice_amt:_FillValue = -999.f ;

conv_ice_amt:cell_methods = "time: mean" ;

conv_ice_amt:time_avg_info = "average_T1,average_T2,average_DT" ;

float lsc_cloud_area(time, pfull, lat, lon) ;

lsc_cloud_area:long_name = "Large-scale cloud area" ;

lsc_cloud_area:units = "percent" ;

lsc_cloud_area:missing_value = -999.f ;

lsc_cloud_area:_FillValue = -999.f ;

lsc_cloud_area:cell_methods = "time: mean" ;

lsc_cloud_area:time_avg_info = "average_T1,average_T2,average_DT" ;

float lsc_liq_amt(time, pfull, lat, lon) ;

lsc_liq_amt:long_name = "Large-scale cloud liquid amount" ;

lsc_liq_amt:units = "kg/kg" ;

lsc_liq_amt:missing_value = -999.f ;

lsc_liq_amt:_FillValue = -999.f ;

lsc_liq_amt:cell_methods = "time: mean" ;

lsc_liq_amt:time_avg_info = "average_T1,average_T2,average_DT" ;

float lsc_ice_amt(time, pfull, lat, lon) ;

lsc_ice_amt:long_name = "Large-scale cloud ice amount" ;

lsc_ice_amt:units = "kg/kg" ;

lsc_ice_amt:missing_value = -999.f ;

lsc_ice_amt:_FillValue = -999.f ;

lsc_ice_amt:cell_methods = "time: mean" ;

lsc_ice_amt:time_avg_info = "average_T1,average_T2,average_DT" ;

double average_T1(time) ;

average_T1:long_name = "Start time for average period" ;

average_T1:units = "days since 0001-01-01 00:00:00" ;

average_T1:missing_value = 1.e+20 ;

average_T1:_FillValue = 1.e+20 ;

double average_T2(time) ;

average_T2:long_name = "End time for average period" ;

average_T2:units = "days since 0001-01-01 00:00:00" ;

average_T2:missing_value = 1.e+20 ;

average_T2:_FillValue = 1.e+20 ;

double average_DT(time) ;

average_DT:long_name = "Length of average period" ;

average_DT:units = "days" ;

average_DT:missing_value = 1.e+20 ;

average_DT:_FillValue = 1.e+20 ;

double time_bounds(time, nv) ;

time_bounds:long_name = "time axis boundaries" ;

time_bounds:units = "days" ;

time_bounds:missing_value = 1.e+20 ;

time_bounds:_FillValue = 1.e+20 ;


// global attributes:

:filename = "atmos_month.nc.0000" ;

:NumFilesInSet = 30 ;

:title = "ESM2M_pi-control_C2" ;

:grid_type = "regular" ;

:grid_tile = "N/A" ;

data:


 lon = _, _, _, _, _, _, _, _, _, _, _, _, _, _, _, _, _, _, _, _, _, _, _,

    _, _, _, _, _, _, _, _, _, _, _, _, _, _, _, _, _, _, _, _, _, _, _, _,

    _, _, _, _, _, _, _, _, _, _, _, _, _, _, _, _, _, _, _, _, _, _, _, _,

    _, _, _, _, _, _, _, _, _, _, _, _, _, _, _, _, _, _, _, _, _, _, _, _,

    _, _, _, _, _, _, _, _, _, _, _, _, _, _, _, _, _, _, _, _, _, _, _, _,

    _, _, _, _, _, _, _, _, _, _, _, _, _, _, _, _, _, _, _, _, _, _, _, _,
_ ;


 lonb = _, _, _, _, _, _, _, _, _, _, _, _, _, _, _, _, _, _, _, _, _, _,
_,

    _, _, _, _, _, _, _, _, _, _, _, _, _, _, _, _, _, _, _, _, _, _, _, _,

    _, _, _, _, _, _, _, _, _, _, _, _, _, _, _, _, _, _, _, _, _, _, _, _,

    _, _, _, _, _, _, _, _, _, _, _, _, _, _, _, _, _, _, _, _, _, _, _, _,

    _, _, _, _, _, _, _, _, _, _, _, _, _, _, _, _, _, _, _, _, _, _, _, _,

    _, _, _, _, _, _, _, _, _, _, _, _, _, _, _, _, _, _, _, _, _, _, _, _,

    _, _ ;


 lat = _, _, _ ;


 latb = _, _, _, _ ;


 nv = _, _ ;


 pfull = _, _, _, _, _, _, _, _, _, _, _, _, _, _, _, _, _, _, _, _, _, _,
_, _ ;


 phalf = _, _, _, _, _, _, _, _, _, _, _, _, _, _, _, _, _, _, _, _, _, _,
_,

    _, _ ;

}

Thanks,

David


On Thu, Jun 19, 2014 at 1:41 PM, Jennifer Adams <jma at cola.iges.org> wrote:

> David,
> Can you post the output from ncdump -c on your netcdf file?
> --Jennifer
>
> On Jun 19, 2014, at 1:14 PM, David Stanfel wrote:
>
> I made the changes that were recommended with the following results. My
> X11 window does pop up when I run grads but it stays black. This is what
> happens when I try to display a variable:
>
> ga-> open cont.ctl
> Scanning description file:  cont.ctl
> Data file atmos_month.nc.0000 is open as file 1
> LON set to 0 360
> LAT set to -88.29 88.29
> LEV set to 1000 1000
> Time values set: 0:1:1:0 0:1:1:0
> E set to 1 1
> ga-> q file
> File 1 : 6 Months Sample Model Output
>   Descriptor: cont.ctl
>   Binary: atmos_month.nc.0000
>   Type = Gridded
>   Xsize = 96  Ysize = 80  Zsize = 18  Tsize = 804  Esize = 1
>   Number of Variables = 7
>      u  18  t,z,y,x  u
>      v  18  t,z,y,x  v
>      w  18  t,z,y,x  v
>      t  18  t,z,y,x  v
>      sh  18  t,z,y,x  v
>      rh  18  t,z,y,x  v
>      z  18  t,z,y,x  v
> ga-> d u
> Error: Variable u not in netcdf file
> Data Request Error:  Error for variable 'u'
>   Error ocurred at column 1
> DISPLAY error:  Invalid expression
>   Expression = u
> ga-> d z
> Error: Variable z not in netcdf file
> Data Request Error:  Error for variable 'z'
>   Error ocurred at column 1
> DISPLAY error:  Invalid expression
>   Expression = z
>
> It still does not recognize that that variable is in the netcdf file for
> some reason.
>
> Thanks,
>
> David
>
>
> On Thu, Jun 19, 2014 at 10:22 AM, Hosmay Lopez <hlopez at rsmas.miami.edu>
> wrote:
>
>>  Try this CTL file:
>>
>>  The only difference is how you defined the variables' arguments.
>>
>>
>>  DSET   ^atmos_month.nc.0000
>> UNDEF  1.e-10
>> DTYPE netcdf
>> TITLE 6 Months Sample Model Output
>> *
>> XDEF 96 LINEAR  0.0   3.75
>> *
>> YDEF 80 GAUSR30 1
>> *
>> ZDEF 18 LEVELS  1000 950 900 850 800 750 700 650 600 550 500 450 400 350
>> 300
>> 250 200 150
>> *
>> TDEF 804  LINEAR JAN0 1MO
>> *
>> VARS 7
>> u   18   t,z,y,x  u
>> v   18   t,z,y,x  v
>> w   18   t,z,y,x  v
>> t   18   t,z,y,x  v
>> sh   18   t,z,y,x  v
>> rh   18   t,z,y,x  v
>> z   18   t,z,y,x  v
>> ENDVARS
>>
>>  Good luck!
>>
>>    Hosmay Lopez
>> UM/CIMAS/RSMAS NOAA/AOML/PHOD
>> 4301 Rickenbacker Causeway,
>> Miami, FL 33149, USA
>> Phone: (305) 361-4329
>>
>>    ------------------------------
>> *From:* gradsusr-bounces at gradsusr.org [gradsusr-bounces at gradsusr.org] on
>> behalf of David Stanfel [dstanfel at ualberta.ca]
>> *Sent:* Thursday, June 19, 2014 12:07 AM
>> *To:* GrADS Users Forum
>> *Subject:* Re: [gradsusr] Displaying a .nc file
>>
>>   It did prompt a list of variables including u, v, w, and z. It still
>> doesn't want to display them.
>>
>>  ga-> q file
>> File 1 : 6 Months Sample Model Output
>>   Descriptor: cont.ctl
>>   Binary: atmos_month.nc.0000
>>   Type = Gridded
>>   Xsize = 96  Ysize = 80  Zsize = 18  Tsize = 804  Esize = 1
>>   Number of Variables = 7
>>      u  18  0  u
>>      v  18  0  v
>>      w  18  0  v
>>      t  18  0  v
>>      sh  18  0  v
>>      rh  18  0  v
>>      z  18  0  v
>> ga-> d v
>> Data Request Error:  Error for variable 'v'
>>   Error ocurred at column 1
>> DISPLAY error:  Invalid expression
>>   Expression = v
>> ga-> d sh
>> Error: Variable sh not in netcdf file
>> Data Request Error:  Error for variable 'sh'
>>   Error ocurred at column 1
>> DISPLAY error:  Invalid expression
>>   Expression = sh
>>
>>  Thanks,
>>
>>  David
>>
>>
>> On Wed, Jun 18, 2014 at 11:58 PM, James T. Potemra <jimp at hawaii.edu>
>> wrote:
>>
>>> If you enter "q file" at the GrADS prompt it should list the variables.
>>>
>>>
>>> On 6/18/14 5:52 PM, David Stanfel wrote:
>>>
>>> How do I know what variable name will work? I've tried u, v, w, and z
>>> and still only get:
>>>
>>>  ga-> d v
>>> Error: Variable v not in netcdf file
>>> Data Request Error:  Error for variable 'v'
>>>   Error ocurred at column 1
>>> DISPLAY error:  Invalid expression
>>>   Expression = v
>>>
>>>  Thanks,
>>>
>>>  David
>>>
>>>
>>> On Wed, Jun 18, 2014 at 11:13 PM, Hosmay Lopez <hlopez at rsmas.miami.edu>
>>> wrote:
>>>
>>>>  David,
>>>>
>>>> You should let GrADS know that the file is a netCDF. You do that by
>>>> adding the following text line in your control file:
>>>>
>>>> DTYPE netcdf
>>>>
>>>> Insert such after the UNDEF line.
>>>>
>>>> Good luck!
>>>>
>>>>   Hosmay Lopez
>>>> UM/CIMAS/RSMAS NOAA/AOML/PHOD
>>>> 4301 Rickenbacker Causeway,
>>>> Miami, FL 33149, USA
>>>> Phone: (305) 361-4329
>>>>
>>>>    ------------------------------
>>>> *From:* gradsusr-bounces at gradsusr.org [gradsusr-bounces at gradsusr.org]
>>>> on behalf of David Stanfel [dstanfel at ualberta.ca]
>>>> *Sent:* Wednesday, June 18, 2014 10:58 PM
>>>> *To:* GrADS Users Forum
>>>> *Subject:* [gradsusr] Displaying a .nc file
>>>>
>>>>   So I figured out how to use a descriptor file but I am still having
>>>> troubles opening the file. My descriptor file is as follows:
>>>>
>>>>  DSET   ^atmos_month.nc.0000
>>>> UNDEF  1.e-10
>>>> TITLE 6 Months Sample Model Output
>>>> *
>>>> XDEF 96 LINEAR  0.0   3.75
>>>> *
>>>> YDEF 80 GAUSR30 1
>>>> *
>>>> ZDEF 18 LEVELS  1000 950 900 850 800 750 700 650 600 550 500 450 400
>>>> 350 300
>>>> 250 200 150
>>>> *
>>>> TDEF 804  LINEAR JAN0 1MO
>>>> *
>>>> VARS 7
>>>> u   18   0  u
>>>> v   18   0  v
>>>> w   18   0  v
>>>> t   18   0  v
>>>> sh   18   0  v
>>>> rh   18   0  v
>>>> z   18   0  v
>>>> ENDVARS
>>>>
>>>>  It was able to open it without issue:
>>>>
>>>>  ga-> open cont.ctl
>>>> Scanning description file:  cont.ctl
>>>> Data file atmos_month.nc.0000 is open as file 1
>>>> LON set to 0 360
>>>> LAT set to -88.29 88.29
>>>> LEV set to 1000 1000
>>>> Time values set: 0:1:1:0 0:1:1:0
>>>> E set to 1 1
>>>>
>>>> However, I am having trouble displaying the data. I tried to use the
>>>> display command (d) with this result:
>>>>
>>>> ga-> d atmos_month.nc.0000
>>>> Syntax error: Bad file number for variable atmos_month
>>>>   Error ocurred at column 1
>>>> DISPLAY error:  Invalid expression
>>>>   Expression = atmos_month.nc.0000
>>>>
>>>> Is my syntax off?
>>>>
>>>> Thanks,
>>>>
>>>> David
>>>>
>>>> _______________________________________________
>>>> gradsusr mailing list
>>>> gradsusr at gradsusr.org
>>>> http://gradsusr.org/mailman/listinfo/gradsusr
>>>>
>>>>
>>>
>>>
>>> _______________________________________________
>>> gradsusr mailing listgradsusr at gradsusr.orghttp://gradsusr.org/mailman/listinfo/gradsusr
>>>
>>>
>>>
>>> _______________________________________________
>>> gradsusr mailing list
>>> gradsusr at gradsusr.org
>>> http://gradsusr.org/mailman/listinfo/gradsusr
>>>
>>>
>>
>> _______________________________________________
>> gradsusr mailing list
>> gradsusr at gradsusr.org
>> http://gradsusr.org/mailman/listinfo/gradsusr
>>
>>
> _______________________________________________
> gradsusr mailing list
> gradsusr at gradsusr.org
> http://gradsusr.org/mailman/listinfo/gradsusr
>
>
> --
> Jennifer M. Adams
> Center for Ocean-Land-Atmosphere Studies (COLA)
> 111 Research Hall, Mail Stop 2B3
> George Mason University
> 4400 University Drive
> Fairfax, VA 22030
>
>
>
>
>
>
> _______________________________________________
> gradsusr mailing list
> gradsusr at gradsusr.org
> http://gradsusr.org/mailman/listinfo/gradsusr
>
>
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