netcdf sgp180iopsndgv34varanaX1.c1.20030501.000000 { dimensions: time = 744 ; x = 1 ; y = 1 ; lev = 37 ; variables: int base_time ; base_time:string = "00-May-00, 00:00:00 GM" ; base_time:long_name = "Base time in Epoch" ; base_time:units = "seconds since 1970-1-1 0:00:00 0:00" ; double time_offset(time) ; time_offset:long_name = "Time offset from base_time" ; time_offset:units = "seconds" ; double time(time) ; time:short_name = "Time" ; time:long_name = "Epoch Time" ; time:associate = "base_time + time_offset" ; time:units = "days since 1970-1-1 0" ; time:convention = "CF-format" ; int starting_Julian_date ; starting_Julian_date:long_name = "Julian Date of the day in which base_time falls" ; starting_Julian_date:units = "-th day of the year of base_time" ; starting_Julian_date:value = 121 ; float x(x) ; x:units = "degrees_east" ; x:long_name = "Longitude" ; float y(y) ; y:units = "degrees_north" ; y:long_name = "Latitude" ; float lev(lev) ; lev:units = "hP" ; lev:long_name = "Pressure Levels" ; int Year(time) ; Year:units = " " ; Year:long_name = "Current year" ; int Month(time) ; Month:units = " " ; Month:long_name = "Current month" ; int Day(time) ; Day:units = " " ; Day:long_name = "Current calendar day" ; float phis(y, x) ; phis:long_name = "Surface Geopotential" ; phis:units = "m2/s2" ; float Prec(time, y, x) ; Prec:long_name = "Precipitation" ; Prec:units = "mm/hour" ; Prec:missing_value = -9999.f ; Prec:_FillValue = -8888.f ; float LH(time, y, x) ; LH:long_name = "Surface Latent Heat Flux" ; LH:units = "W/m2" ; LH:missing_value = -9999.f ; LH:_FillValue = -8888.f ; float SH(time, y, x) ; SH:long_name = "Surface Sensible Heat Flux" ; SH:units = "W/m2" ; SH:missing_value = -9999.f ; SH:_FillValue = -8888.f ; float Area_Mean_Ps(time, y, x) ; Area_Mean_Ps:long_name = "Area Mean Surface Pressure" ; Area_Mean_Ps:units = "mb" ; Area_Mean_Ps:missing_value = -9999.f ; Area_Mean_Ps:_FillValue = -8888.f ; float Ptend_Mean(time, y, x) ; Ptend_Mean:long_name = "Area Mean Surface Pressure Tendency" ; Ptend_Mean:units = "mb/hour" ; Ptend_Mean:missing_value = -9999.f ; Ptend_Mean:_FillValue = -8888.f ; float Central_Facility_Ps(time, y, x) ; Central_Facility_Ps:long_name = "Central Facility Surface Pressure" ; Central_Facility_Ps:units = "mb" ; Central_Facility_Ps:missing_value = -9999.f ; Central_Facility_Ps:_FillValue = -8888.f ; float Ptend_C1(time, y, x) ; Ptend_C1:long_name = "Central Facility Surface Pressure Tendency" ; Ptend_C1:units = "mb/hour" ; Ptend_C1:missing_value = -9999.f ; Ptend_C1:_FillValue = -8888.f ; float Ts_Air(time, y, x) ; Ts_Air:long_name = "Surface Air Temperature" ; Ts_Air:units = "C" ; Ts_Air:missing_value = -9999.f ; Ts_Air:_FillValue = -8888.f ; float Tg_Soil(time, y, x) ; Tg_Soil:long_name = "Tg Soil" ; Tg_Soil:units = "C" ; Tg_Soil:missing_value = -9999.f ; Tg_Soil:_FillValue = -8888.f ; float Sfc_Air_RH(time, y, x) ; Sfc_Air_RH:long_name = "Sfc Air RH" ; Sfc_Air_RH:units = "%" ; Sfc_Air_RH:missing_value = -9999.f ; Sfc_Air_RH:_FillValue = -8888.f ; float Srf_wind_speed(time, y, x) ; Srf_wind_speed:long_name = "Srf Wind Speed" ; Srf_wind_speed:units = "m/s" ; Srf_wind_speed:missing_value = -9999.f ; Srf_wind_speed:_FillValue = -8888.f ; float u_wind_surface(time, y, x) ; u_wind_surface:long_name = "Srf U Wind" ; u_wind_surface:units = "m/s" ; u_wind_surface:missing_value = -9999.f ; u_wind_surface:_FillValue = -8888.f ; float v_wind_surface(time, y, x) ; v_wind_surface:long_name = "Srf V Wind" ; v_wind_surface:units = "m/s" ; v_wind_surface:missing_value = -9999.f ; v_wind_surface:_FillValue = -8888.f ; float Srf_Net_Dn_Rad(time, y, x) ; Srf_Net_Dn_Rad:long_name = "Srf Net Dn Rad" ; Srf_Net_Dn_Rad:units = "W/m2" ; Srf_Net_Dn_Rad:missing_value = -9999.f ; Srf_Net_Dn_Rad:_FillValue = -8888.f ; float TOA_LW_Up(time, y, x) ; TOA_LW_Up:long_name = "TOA LW Up" ; TOA_LW_Up:units = "W/m2" ; TOA_LW_Up:missing_value = -9999.f ; TOA_LW_Up:_FillValue = -8888.f ; float TOA_SW_Dn(time, y, x) ; TOA_SW_Dn:long_name = "TOA SW Dn" ; TOA_SW_Dn:units = "W/m2" ; TOA_SW_Dn:missing_value = -9999.f ; TOA_SW_Dn:_FillValue = -8888.f ; float TOA_Ins(time, y, x) ; TOA_Ins:long_name = "TOA Ins" ; TOA_Ins:units = "W/m2" ; TOA_Ins:missing_value = -9999.f ; TOA_Ins:_FillValue = -8888.f ; float GOES_Lowcld(time, y, x) ; GOES_Lowcld:long_name = "GOES Lowcld" ; GOES_Lowcld:units = "%" ; GOES_Lowcld:missing_value = -9999.f ; GOES_Lowcld:_FillValue = -8888.f ; float GOES_Midcld(time, y, x) ; GOES_Midcld:long_name = "GOES Midcld" ; GOES_Midcld:units = "%" ; GOES_Midcld:missing_value = -9999.f ; GOES_Midcld:_FillValue = -8888.f ; float GOES_Hghcld(time, y, x) ; GOES_Hghcld:long_name = "GOES Hghcld" ; GOES_Hghcld:units = "%" ; GOES_Hghcld:missing_value = -9999.f ; GOES_Hghcld:_FillValue = -8888.f ; float GOES_Totcld(time, y, x) ; GOES_Totcld:long_name = "GOES Totcld" ; GOES_Totcld:units = "%" ; GOES_Totcld:missing_value = -9999.f ; GOES_Totcld:_FillValue = -8888.f ; float Cld_Thickness(time, y, x) ; Cld_Thickness:long_name = "Cld Thickness" ; Cld_Thickness:units = "km" ; Cld_Thickness:missing_value = -9999.f ; Cld_Thickness:_FillValue = -8888.f ; float Cld_Top_ht(time, y, x) ; Cld_Top_ht:long_name = "Cld Top ht" ; Cld_Top_ht:units = "km" ; Cld_Top_ht:missing_value = -9999.f ; Cld_Top_ht:_FillValue = -8888.f ; float MWR_Cld_liquid(time, y, x) ; MWR_Cld_liquid:long_name = "MWR Cld liquid" ; MWR_Cld_liquid:units = "cm" ; MWR_Cld_liquid:missing_value = -9999.f ; MWR_Cld_liquid:_FillValue = -8888.f ; float dColumn_H2O_dt(time, y, x) ; dColumn_H2O_dt:long_name = "Rate of Change in Column Water" ; dColumn_H2O_dt:units = "mm/hour" ; dColumn_H2O_dt:missing_value = -9999.f ; dColumn_H2O_dt:_FillValue = -8888.f ; float Column_H2O_Advection(time, y, x) ; Column_H2O_Advection:long_name = "Column H2O Advection" ; Column_H2O_Advection:units = "mm/hour" ; Column_H2O_Advection:missing_value = -9999.f ; Column_H2O_Advection:_FillValue = -8888.f ; float Srf_Evaporation(time, y, x) ; Srf_Evaporation:long_name = "Srf Evaporation" ; Srf_Evaporation:units = "mm/hour" ; Srf_Evaporation:missing_value = -9999.f ; Srf_Evaporation:_FillValue = -8888.f ; float dColumn_Dry_Static_Energy_dt(time, y, x) ; dColumn_Dry_Static_Energy_dt:long_name = "dColumn Dry Static Energy_dt" ; dColumn_Dry_Static_Energy_dt:units = "W/m2" ; dColumn_Dry_Static_Energy_dt:missing_value = -9999.f ; dColumn_Dry_Static_Energy_dt:_FillValue = -8888.f ; float Column_Dry_Static_Energy_Advection(time, y, x) ; Column_Dry_Static_Energy_Advection:long_name = "Column Dry Static Energy Advection" ; Column_Dry_Static_Energy_Advection:units = "W/m2" ; Column_Dry_Static_Energy_Advection:missing_value = -9999.f ; Column_Dry_Static_Energy_Advection:_FillValue = -8888.f ; float Column_Radiative_Heating(time, y, x) ; Column_Radiative_Heating:long_name = "Column Radiative Heating" ; Column_Radiative_Heating:units = "W/m2" ; Column_Radiative_Heating:missing_value = -9999.f ; Column_Radiative_Heating:_FillValue = -8888.f ; float Column_Latent_heating(time, y, x) ; Column_Latent_heating:long_name = "Column Latent Heating" ; Column_Latent_heating:units = "W/m2" ; Column_Latent_heating:missing_value = -9999.f ; Column_Latent_heating:_FillValue = -8888.f ; float omega_surface(time, y, x) ; omega_surface:long_name = "Surface omega" ; omega_surface:units = "mb/hr" ; omega_surface:missing_value = -9999.f ; omega_surface:_FillValue = -8888.f ; float qs_surface(time, y, x) ; qs_surface:long_name = "Surface Sat. W.V. Mixing Ratio" ; qs_surface:units = "kg/kg" ; qs_surface:missing_value = -9999.f ; qs_surface:_FillValue = -8888.f ; float s_surface(time, y, x) ; s_surface:long_name = "Surface Dry Static Energy" ; s_surface:units = "K" ; s_surface:missing_value = -9999.f ; s_surface:_FillValue = -8888.f ; float MWR_precip_water(time, y, x) ; MWR_precip_water:long_name = "MWR precipitable water" ; MWR_precip_water:units = "cm" ; MWR_precip_water:missing_value = -9999.f ; MWR_precip_water:_FillValue = -8888.f ; float Siros_Srf_LWUP(time, y, x) ; Siros_Srf_LWUP:long_name = "Siros Surface LW Up" ; Siros_Srf_LWUP:units = "W/m2" ; Siros_Srf_LWUP:missing_value = -9999.f ; Siros_Srf_LWUP:_FillValue = -8888.f ; float Siros_Srf_LWDN(time, y, x) ; Siros_Srf_LWDN:long_name = "Siros Surface LW Down" ; Siros_Srf_LWDN:units = "W/m2" ; Siros_Srf_LWDN:missing_value = -9999.f ; Siros_Srf_LWDN:_FillValue = -8888.f ; float Siros_Srf_SWUP(time, y, x) ; Siros_Srf_SWUP:long_name = "Siros Surface LW Up" ; Siros_Srf_SWUP:units = "W/m2" ; Siros_Srf_SWUP:missing_value = -9999.f ; Siros_Srf_SWUP:_FillValue = -8888.f ; float Siros_Srf_SWDN(time, y, x) ; Siros_Srf_SWDN:long_name = "Siros Surface LW Down" ; Siros_Srf_SWDN:units = "W/m2" ; Siros_Srf_SWDN:missing_value = -9999.f ; Siros_Srf_SWDN:_FillValue = -8888.f ; float Temp(time, lev, y, x) ; Temp:long_name = "Temperature" ; Temp:units = "K" ; Temp:missing_value = -9999.f ; Temp:_FillValue = -8888.f ; float H2O_Mixing_Ratio(time, lev, y, x) ; H2O_Mixing_Ratio:long_name = "W.V. Mixing Ratio" ; H2O_Mixing_Ratio:units = "g/kg" ; H2O_Mixing_Ratio:missing_value = -9999.f ; H2O_Mixing_Ratio:_FillValue = -8888.f ; float u_wind(time, lev, y, x) ; u_wind:long_name = "U Windspeed" ; u_wind:units = "m/s" ; u_wind:missing_value = -9999.f ; u_wind:_FillValue = -8888.f ; float v_wind(time, lev, y, x) ; v_wind:long_name = "V Windspeed" ; v_wind:units = "m/s" ; v_wind:missing_value = -9999.f ; v_wind:_FillValue = -8888.f ; float omega(time, lev, y, x) ; omega:long_name = "Vertical Pressure Velocity" ; omega:units = "mb/hour" ; omega:missing_value = -9999.f ; omega:_FillValue = -8888.f ; float Wind_Div(time, lev, y, x) ; Wind_Div:long_name = "Wind_Div" ; Wind_Div:units = "s-1" ; Wind_Div:missing_value = -9999.f ; Wind_Div:_FillValue = -8888.f ; float Horizontal_Temp_Advec(time, lev, y, x) ; Horizontal_Temp_Advec:long_name = "Horizontal T Advective Tendency" ; Horizontal_Temp_Advec:units = "K/hour" ; Horizontal_Temp_Advec:missing_value = -9999.f ; Horizontal_Temp_Advec:_FillValue = -8888.f ; float Vertical_T_Advec(time, lev, y, x) ; Vertical_T_Advec:long_name = "Vertical T Advective Tendency" ; Vertical_T_Advec:units = "K/hour" ; Vertical_T_Advec:missing_value = -9999.f ; Vertical_T_Advec:_FillValue = -8888.f ; float Horizontal_q_Advec(time, lev, y, x) ; Horizontal_q_Advec:long_name = "Horizontal q Advective Tendency" ; Horizontal_q_Advec:units = "g/kg/hour" ; Horizontal_q_Advec:missing_value = -9999.f ; Horizontal_q_Advec:_FillValue = -8888.f ; float Vertical_q_Advec(time, lev, y, x) ; Vertical_q_Advec:long_name = "Vertical Q Advective Tendency" ; Vertical_q_Advec:units = "g/kg/hour" ; Vertical_q_Advec:missing_value = -9999.f ; Vertical_q_Advec:_FillValue = -8888.f ; float s(time, lev, y, x) ; s:long_name = "Dry_Static_Energy" ; s:units = "K" ; s:missing_value = -9999.f ; s:_FillValue = -8888.f ; float Horizontal_s_Advec(time, lev, y, x) ; Horizontal_s_Advec:long_name = "Horizontal_s_Advec" ; Horizontal_s_Advec:units = "K/hour" ; Horizontal_s_Advec:missing_value = -9999.f ; Horizontal_s_Advec:_FillValue = -8888.f ; float Vertical_s_Advec(time, lev, y, x) ; Vertical_s_Advec:long_name = "Vertical_s_Advec" ; Vertical_s_Advec:units = "K/hour" ; Vertical_s_Advec:missing_value = -9999.f ; Vertical_s_Advec:_FillValue = -8888.f ; float ds_dt(time, lev, y, x) ; ds_dt:long_name = "ds/dt" ; ds_dt:units = "K/hour" ; ds_dt:missing_value = -9999.f ; ds_dt:_FillValue = -8888.f ; float DT_dt(time, lev, y, x) ; DT_dt:long_name = "DT/dt" ; DT_dt:units = "K/hour" ; DT_dt:missing_value = -9999.f ; DT_dt:_FillValue = -8888.f ; float Dq_dt(time, lev, y, x) ; Dq_dt:long_name = "Dq/dt" ; Dq_dt:units = "g/kg/hour" ; Dq_dt:missing_value = -9999.f ; Dq_dt:_FillValue = -8888.f ; float Q1(time, lev, y, x) ; Q1:long_name = "Q1" ; Q1:units = "K/hour" ; Q1:missing_value = -9999.f ; Q1:_FillValue = -8888.f ; float Q2(time, lev, y, x) ; Q2:long_name = "Q2" ; Q2:units = "K/hour" ; Q2:missing_value = -9999.f ; Q2:_FillValue = -8888.f ; float ARSCL_Cld(time, lev, y, x) ; ARSCL_Cld:long_name = "ARSCL_Cld" ; ARSCL_Cld:units = "%" ; ARSCL_Cld:missing_value = -9999.f ; ARSCL_Cld:_FillValue = -8888.f ; // global attributes: :title = "Dsgp25hPcvarobjan.c1.20030501.000000.cdf " ; :history = "This netCDF file was created by rewrite_data_netcdf program that converts ARM IOP ASCII datasets into a netCDF dataset suitable for the NCAR Single-Column Model (SCCM). Coded by Marat Khairoutdinov, Department of Atmospheric Science, Colorado State University. May 2000" ; }