netcdf SUDD_SRF.annual_100percent {
dimensions:
	iy = 78 ;
	jx = 126 ;
	kz = 18 ;
	m10 = 1 ;
	m2 = 1 ;
	soil_layer = 2 ;
	nv = 2 ;
	month = UNLIMITED ; // (12 currently)
variables:
	float m10(m10) ;
		m10:standard_name = "altitude" ;
		m10:long_name = "Convenience 10 m elevation level" ;
		m10:positive = "up" ;
		m10:units = "m" ;
	float m2(m2) ;
		m2:standard_name = "altitude" ;
		m2:long_name = "Convenience 2 m elevation level" ;
		m2:positive = "up" ;
		m2:units = "m" ;
	float layer(month, soil_layer) ;
		layer:standard_name = "model_level_number" ;
		layer:long_name = "Surface and root zone" ;
		layer:positive = "down" ;
		layer:units = "1" ;
	int rcm_map(month) ;
		rcm_map:grid_mapping_name = "rotated_latitude_longitude" ;
		rcm_map:grid_size_in_meters = 50000. ;
		rcm_map:latitude_of_projection_origin = 8. ;
		rcm_map:longitude_of_projection_origin = 32. ;
		rcm_map:longitude_of_central_meridian = 32. ;
		rcm_map:grid_north_pole_latitude = 8. ;
		rcm_map:grid_north_pole_longitude = 32. ;
	float sigma(month, kz) ;
		sigma:standard_name = "atmosphere_sigma_coordinate" ;
		sigma:long_name = "Sigma at model layers" ;
		sigma:units = "1" ;
		sigma:axis = "Z" ;
		sigma:positive = "down" ;
		sigma:formula_terms = "sigma: sigma ps: ps ptop: ptop" ;
	float ptop(month) ;
		ptop:standard_name = "air_pressure" ;
		ptop:long_name = "Pressure at model top" ;
		ptop:units = "hPa" ;
	float iy(iy) ;
		iy:standard_name = "projection_y_coordinate" ;
		iy:long_name = "y-coordinate in Cartesian system" ;
		iy:units = "km" ;
	float jx(jx) ;
		jx:standard_name = "projection_x_coordinate" ;
		jx:long_name = "x-coordinate in Cartesian system" ;
		jx:units = "km" ;
	float xlat(month, iy, jx) ;
		xlat:standard_name = "latitude" ;
		xlat:long_name = "Latitude at cross points" ;
		xlat:units = "degrees_north" ;
	float xlon(month, iy, jx) ;
		xlon:standard_name = "longitude" ;
		xlon:long_name = "Longitude at cross points" ;
		xlon:units = "degrees_east" ;
	float topo(month, iy, jx) ;
		topo:standard_name = "surface_altitude" ;
		topo:long_name = "Domain surface elevation" ;
		topo:units = "m" ;
		topo:coordinates = "xlat xlon" ;
		topo:grid_mapping = "rcm_map" ;
	float mask(month, iy, jx) ;
		mask:standard_name = "landmask" ;
		mask:long_name = "Domain land/ocean mask" ;
		mask:units = "1" ;
		mask:coordinates = "xlat xlon" ;
		mask:grid_mapping = "rcm_map" ;
	double time(month) ;
		time:standard_name = "time" ;
		time:long_name = "time" ;
		time:calendar = "standard" ;
		time:units = "hours since 1997-12-15 00:00:00 UTC" ;
		time:bounds = "tbnds" ;
	float ps(month, iy, jx) ;
		ps:standard_name = "surface_air_pressure" ;
		ps:long_name = "Surface pressure" ;
		ps:units = "hPa" ;
		ps:coordinates = "xlat xlon" ;
		ps:grid_mapping = "rcm_map" ;
	double tbnds(month, nv) ;
		tbnds:calendar = "standard" ;
		tbnds:units = "hours since 1997-12-15 00:00:00 UTC" ;
	float u10m(month, m10, iy, jx) ;
		u10m:standard_name = "eastward_wind" ;
		u10m:long_name = "10 meters U component (westerly) of wind" ;
		u10m:units = "m s-1" ;
		u10m:coordinates = "xlat xlon" ;
		u10m:grid_mapping = "rcm_map" ;
	float v10m(month, m10, iy, jx) ;
		v10m:standard_name = "northward_wind" ;
		v10m:long_name = "10 meters V component (southerly) of wind" ;
		v10m:units = "m s-1" ;
		v10m:coordinates = "xlat xlon" ;
		v10m:grid_mapping = "rcm_map" ;
	float uvdrag(month, iy, jx) ;
		uvdrag:standard_name = "surface_drag_coefficient_in_air" ;
		uvdrag:long_name = "Surface drag stress" ;
		uvdrag:units = "1" ;
		uvdrag:coordinates = "xlat xlon" ;
		uvdrag:grid_mapping = "rcm_map" ;
	float tg(month, iy, jx) ;
		tg:standard_name = "surface_temperature" ;
		tg:long_name = "Ground temperature" ;
		tg:units = "K" ;
		tg:coordinates = "xlat xlon" ;
		tg:grid_mapping = "rcm_map" ;
	float tlef(month, iy, jx) ;
		tlef:standard_name = "canopy_temperature" ;
		tlef:long_name = "Foliage temperature" ;
		tlef:units = "K" ;
		tlef:coordinates = "xlat xlon" ;
		tlef:grid_mapping = "rcm_map" ;
		tlef:_FillValue = -1.e+34f ;
	float t2m(month, m2, iy, jx) ;
		t2m:standard_name = "air_temperature" ;
		t2m:long_name = "2 meters temperature" ;
		t2m:units = "K" ;
		t2m:coordinates = "xlat xlon" ;
		t2m:grid_mapping = "rcm_map" ;
	float q2m(month, m2, iy, jx) ;
		q2m:standard_name = "humidity_mixing_ratio" ;
		q2m:long_name = "2 meters vapour mixing ratio" ;
		q2m:units = "kg kg-1" ;
		q2m:coordinates = "xlat xlon" ;
		q2m:grid_mapping = "rcm_map" ;
	float smw(month, soil_layer, iy, jx) ;
		smw:standard_name = "soil_moisture_content" ;
		smw:long_name = "Moisture content" ;
		smw:units = "kg kg-1" ;
		smw:coordinates = "xlat xlon" ;
		smw:grid_mapping = "rcm_map" ;
		smw:_FillValue = -1.e+34f ;
	float tpr(month, iy, jx) ;
		tpr:standard_name = "precipitation_flux" ;
		tpr:long_name = "Total precipitation" ;
		tpr:units = "kg m-2 day -1" ;
		tpr:coordinates = "xlat xlon" ;
		tpr:grid_mapping = "rcm_map" ;
	float evp(month, iy, jx) ;
		evp:standard_name = "water_evaporation_flux" ;
		evp:long_name = "Total evapotranspiration" ;
		evp:units = "kg m-2 day-1" ;
		evp:coordinates = "xlat xlon" ;
		evp:grid_mapping = "rcm_map" ;
	float runoff(month, iy, jx) ;
		runoff:standard_name = "surface_runoff_flux" ;
		runoff:long_name = "Surface runoff" ;
		runoff:units = "kg m-2 day-1" ;
		runoff:coordinates = "xlat xlon" ;
		runoff:grid_mapping = "rcm_map" ;
		runoff:_FillValue = -1.e+34f ;
	float scv(month, iy, jx) ;
		scv:standard_name = "snowfall_flux" ;
		scv:long_name = "Snow precipitation" ;
		scv:units = "kg m-2 day-1" ;
		scv:coordinates = "xlat xlon" ;
		scv:grid_mapping = "rcm_map" ;
		scv:_FillValue = -1.e+34f ;
	float sena(month, iy, jx) ;
		sena:standard_name = "surface_downward_sensible_heat_flux" ;
		sena:long_name = "Sensible heat flux" ;
		sena:units = "W m-2" ;
		sena:coordinates = "xlat xlon" ;
		sena:grid_mapping = "rcm_map" ;
	float flw(month, iy, jx) ;
		flw:standard_name = "net_upward_longwave_flux_in_air" ;
		flw:long_name = "Net infrared energy flux" ;
		flw:units = "W m-2" ;
		flw:coordinates = "xlat xlon" ;
		flw:grid_mapping = "rcm_map" ;
	float fsw(month, iy, jx) ;
		fsw:standard_name = "net_downward_shortwave_flux_in_air" ;
		fsw:long_name = "Net solar absorbed energy flux" ;
		fsw:units = "W m-2" ;
		fsw:coordinates = "xlat xlon" ;
		fsw:grid_mapping = "rcm_map" ;
	float fld(month, iy, jx) ;
		fld:standard_name = "surface_downwelling_longwave_flux_in_air" ;
		fld:long_name = "Downward LW flux" ;
		fld:units = "W m-2" ;
		fld:coordinates = "xlat xlon" ;
		fld:grid_mapping = "rcm_map" ;
	float sina(month, iy, jx) ;
		sina:standard_name = "surface_downwelling_shortwave_flux_in_air" ;
		sina:long_name = "Incident solar energy flux" ;
		sina:units = "W m-2" ;
		sina:coordinates = "xlat xlon" ;
		sina:grid_mapping = "rcm_map" ;
	float prcv(month, iy, jx) ;
		prcv:standard_name = "convective_rainfall_flux" ;
		prcv:long_name = "Convective precipitation" ;
		prcv:units = "kg m-2 day-1" ;
		prcv:coordinates = "xlat xlon" ;
		prcv:grid_mapping = "rcm_map" ;
	float zpbl(month, iy, jx) ;
		zpbl:standard_name = "atmosphere_boundary_layer_thickness" ;
		zpbl:long_name = "PBL layer thickness" ;
		zpbl:units = "m" ;
		zpbl:coordinates = "xlat xlon" ;
		zpbl:grid_mapping = "rcm_map" ;
	float tgmax(month, iy, jx) ;
		tgmax:standard_name = "surface_temperature" ;
		tgmax:long_name = "Maximum surface temperature" ;
		tgmax:units = "K" ;
		tgmax:coordinates = "xlat xlon" ;
		tgmax:grid_mapping = "rcm_map" ;
		tgmax:cell_methods = "time: maximum (interval:   3 hours)" ;
	float tgmin(month, iy, jx) ;
		tgmin:standard_name = "surface_temperature" ;
		tgmin:long_name = "Minimum surface temperature" ;
		tgmin:units = "K" ;
		tgmin:coordinates = "xlat xlon" ;
		tgmin:grid_mapping = "rcm_map" ;
		tgmin:cell_methods = "time: minimum (interval:   3 hours)" ;
	float t2max(month, m2, iy, jx) ;
		t2max:standard_name = "air_temperature" ;
		t2max:long_name = "Maximum 2 meters temperature" ;
		t2max:units = "K" ;
		t2max:coordinates = "xlat xlon" ;
		t2max:grid_mapping = "rcm_map" ;
		t2max:cell_methods = "time: maximum (interval:   3 hours)" ;
	float t2min(month, m2, iy, jx) ;
		t2min:standard_name = "air_temperature" ;
		t2min:long_name = "Minimum 2 meters temperature" ;
		t2min:units = "K" ;
		t2min:coordinates = "xlat xlon" ;
		t2min:grid_mapping = "rcm_map" ;
		t2min:cell_methods = "time: minimum (interval:   3 hours)" ;
	float w10max(month, m10, iy, jx) ;
		w10max:standard_name = "wind_speed" ;
		w10max:long_name = "Maximum speed of 10m wind" ;
		w10max:units = "m s-1" ;
		w10max:coordinates = "xlat xlon" ;
		w10max:grid_mapping = "rcm_map" ;
		w10max:cell_methods = "time: maximum (interval:   3 hours)" ;
	float ps_min(month, iy, jx) ;
		ps_min:standard_name = "air_pressure" ;
		ps_min:long_name = "Minimum of surface pressure" ;
		ps_min:units = "hPa" ;
		ps_min:coordinates = "xlat xlon" ;
		ps_min:grid_mapping = "rcm_map" ;
		ps_min:cell_methods = "time: minimum (interval:   3 hours)" ;
	float aldirs(month, iy, jx) ;
		aldirs:standard_name = "surface_albedo_short_wave_direct" ;
		aldirs:long_name = "Surface albedo to direct short wave radiation" ;
		aldirs:units = "1" ;
		aldirs:coordinates = "xlat xlon" ;
		aldirs:grid_mapping = "rcm_map" ;
	float aldifs(month, iy, jx) ;
		aldifs:standard_name = "surface_albedo_short_wave_diffuse" ;
		aldifs:long_name = "Surface albedo to diffuse short wave radiation" ;
		aldifs:units = "1" ;
		aldifs:coordinates = "xlat xlon" ;
		aldifs:grid_mapping = "rcm_map" ;

// global attributes:
		:title = "ICTP Regional Climatic model V4 SRF output" ;
		:institution = "ICTP" ;
		:source = "RegCM Model exported simulation output" ;
		:Conventions = "CF-1.4" ;
		:history = "Thu Mar 22 18:19:19 2012: ncecat -u month SUDD_SRF.jan_ave.nc SUDD_SRF.feb_ave.nc SUDD_SRF.mar_ave.nc SUDD_SRF.apr_ave.nc SUDD_SRF.may_ave.nc SUDD_SRF.jun_ave.nc SUDD_SRF.jul_ave.nc SUDD_SRF.aug_ave.nc SUDD_SRF.sep_ave.nc SUDD_SRF.oct_ave.nc SUDD_SRF.nov_ave.nc SUDD_SRF.dec_ave.nc SUDD_SRF.annual.nc\n",
			"Wed Mar 21 14:53:13 2012: ncwa -O -a month SUDD_SRF.jan.nc SUDD_SRF.jan_ave.nc\n",
			"Wed Mar 21 14:53:13 2012: ncecat -u month SUDD_SRF.199801.nc SUDD_SRF.199901.nc SUDD_SRF.200001.nc SUDD_SRF.200101.nc SUDD_SRF.200201.nc SUDD_SRF.200301.nc SUDD_SRF.200401.nc SUDD_SRF.jan.nc\n",
			"Wed Mar 21 14:19:40 2012: ncwa -O -a time SUDD_SRF.1998010100.nc SUDD_SRF.199801.nc\n",
			"2012-03-17 11:57:54 : Created by RegCM model" ;
		:references = "http://eforge.escience-lab.org/gf/project/regcm" ;
		:experiment = "SUDD" ;
		:projection = "ROTMER" ;
		:grid_mapping_name = "rotated_latitude_longitude" ;
		:grid_size_in_meters = 50000. ;
		:latitude_of_projection_origin = 8. ;
		:longitude_of_projection_origin = 32. ;
		:longitude_of_central_meridian = 32. ;
		:grid_north_pole_latitude = 8. ;
		:grid_north_pole_longitude = 32. ;
		:model_IPCC_scenario = "A1B" ;
		:model_boundary_conditions = "Relaxation, exponential technique" ;
		:model_cumulous_convection_scheme = "Grell" ;
		:model_convective_closure_assumption = "Fritsch & Chappell (1980)" ;
		:model_boundary_layer_scheme = "Holtslag PBL (Holtslag, 1990)" ;
		:model_moist_physics_scheme = "Explicit moisture (SUBEX; Pal et al 2000)" ;
		:model_ocean_flux_scheme = "Zeng et al (1998)" ;
		:model_pressure_gradient_force_scheme = "Use full fields" ;
		:model_use_emission_factor = "No" ;
		:model_use_lake_model = "No" ;
		:model_chemistry = "Not active" ;
		:model_diurnal_cycle_sst = "Not active" ;
		:model_seaice_effect = "Not active" ;
		:model_seasonal_desert_albedo_effect = "Active" ;
		:model_simulation_initial_start = 2004120100 ;
		:model_simulation_start = 1997121500 ;
		:model_simulation_expected_end = 2005010100 ;
		:model_simulation_is_a_restart = "No" ;
		:model_timestep_in_seconds = 200. ;
		:model_timestep_in_minutes_solar_rad_calc = 30. ;
		:model_timestep_in_seconds_bats_calc = 600. ;
		:model_timestep_in_hours_radiation_calc = 18. ;
		:model_timestep_in_hours_boundary_input = 6 ;
		:nco_openmp_thread_number = 1 ;
}