netcdf SFMG-adas_ksc_20101019_1645 {
dimensions:
	record = UNLIMITED ; // (1 currently)
	n_valtimes = 1 ;
	data_variables = 26 ;
	charsPerLevel = 10 ;
	namelen = 132 ;
	x = 135 ;
	y = 135 ;
	levels_1 = 1 ;
	levels_20 = 20 ;
	nav = 1 ;
variables:
	float gh(record, levels_20, y, x) ;
		gh:long_name = "Geopotential Height" ;
		gh:units = "geopotential meters" ;
		gh:valid_range = 0.f, 40000.f ;
		gh:_FillValue = -99999.f ;
		gh:_n3D = 20 ;
		gh:levels = "MB and SFC" ;
	char ghLevels(levels_20, charsPerLevel) ;
	char ghInventory(n_valtimes, levels_20) ;
	float rh(record, levels_20, y, x) ;
		rh:long_name = "Relative Humidity" ;
		rh:units = "percent" ;
		rh:valid_range = 0.f, 110.f ;
		rh:_FillValue = -99999.f ;
		rh:_n3D = 20 ;
		rh:levels = "MB and SFC" ;
	char rhLevels(levels_20, charsPerLevel) ;
	char rhInventory(n_valtimes, levels_20) ;
	float t(record, levels_20, y, x) ;
		t:long_name = "Temperature" ;
		t:units = "degrees K" ;
		t:valid_range = 150.f, 400.f ;
		t:_FillValue = -99999.f ;
		t:_n3D = 20 ;
		t:levels = "MB and SFC" ;
	char tLevels(levels_20, charsPerLevel) ;
	char tInventory(n_valtimes, levels_20) ;
	float uw(record, levels_20, y, x) ;
		uw:long_name = "u Wind Component" ;
		uw:units = "meters/second" ;
		uw:valid_range = -300.f, 300.f ;
		uw:_FillValue = -99999.f ;
		uw:_n3D = 20 ;
		uw:levels = "MB and SFC" ;
	char uwLevels(levels_20, charsPerLevel) ;
	char uwInventory(n_valtimes, levels_20) ;
	float vw(record, levels_20, y, x) ;
		vw:long_name = "v Wind Component" ;
		vw:units = "meters/second" ;
		vw:valid_range = -300.f, 300.f ;
		vw:_FillValue = -99999.f ;
		vw:_n3D = 20 ;
		vw:levels = "MB and SFC" ;
	char vwLevels(levels_20, charsPerLevel) ;
	char vwInventory(n_valtimes, levels_20) ;
	float ww(record, levels_20, y, x) ;
		ww:long_name = "w Wind Component" ;
		ww:units = "meters/second" ;
		ww:valid_range = -100.f, 100.f ;
		ww:_FillValue = -99999.f ;
		ww:_n3D = 20 ;
		ww:levels = "MB and SFC" ;
	char wwLevels(levels_20, charsPerLevel) ;
	char wwInventory(n_valtimes, levels_20) ;
	float cw(record, levels_20, y, x) ;
		cw:long_name = "Cloud Water" ;
		cw:units = "kg/kg" ;
		cw:valid_range = 0.f, 1.f ;
		cw:_FillValue = -99999.f ;
		cw:_n3D = 20 ;
		cw:levels = "MB and SFC" ;
	char cwLevels(levels_20, charsPerLevel) ;
	char cwInventory(n_valtimes, levels_20) ;
	float cice(record, levels_20, y, x) ;
		cice:long_name = "Cloud Ice" ;
		cice:units = "kg/kg" ;
		cice:valid_range = 0.f, 1.f ;
		cice:_FillValue = -99999.f ;
		cice:_n3D = 20 ;
		cice:levels = "MB and SFC" ;
	char ciceLevels(levels_20, charsPerLevel) ;
	char ciceInventory(n_valtimes, levels_20) ;
	float tke(record, levels_20, y, x) ;
		tke:long_name = "Turbulent Kinetic Energy" ;
		tke:units = "(meters/second)**2" ;
		tke:valid_range = 0.f, 1000.f ;
		tke:_FillValue = -99999.f ;
		tke:_n3D = 20 ;
		tke:levels = "MB and SFC" ;
	char tkeLevels(levels_20, charsPerLevel) ;
	char tkeInventory(n_valtimes, levels_20) ;
	float rr(record, levels_20, y, x) ;
		rr:long_name = "Radar Reflectivity" ;
		rr:units = "dBZ" ;
		rr:valid_range = -200.f, 200.f ;
		rr:_FillValue = -99999.f ;
		rr:_n3D = 20 ;
		rr:levels = "MB and SFC" ;
	char rrLevels(levels_20, charsPerLevel) ;
	char rrInventory(n_valtimes, levels_20) ;
	float mslp(record, levels_1, y, x) ;
		mslp:long_name = "Mean Sea Level Pressure" ;
		mslp:units = "Pascals" ;
		mslp:valid_range = 80000.f, 110000.f ;
		mslp:_FillValue = -99999.f ;
		mslp:_n3D = 0 ;
		mslp:levels = "MSL" ;
	char mslpLevels(levels_1, charsPerLevel) ;
	char mslpInventory(n_valtimes, levels_1) ;
	float p(record, levels_1, y, x) ;
		p:long_name = "Surface Pressure" ;
		p:units = "Pascals" ;
		p:valid_range = 50000.f, 120000.f ;
		p:_FillValue = -99999.f ;
		p:_n3D = 0 ;
		p:levels = "SFC" ;
	char pLevels(levels_1, charsPerLevel) ;
	char pInventory(n_valtimes, levels_1) ;
	float lgsp(record, levels_1, y, x) ;
		lgsp:long_name = "Grid Scale Precipitation" ;
		lgsp:units = "mm" ;
		lgsp:valid_range = 0.f, 1000.f ;
		lgsp:_FillValue = -99999.f ;
		lgsp:_n3D = 0 ;
		lgsp:levels = "SFC" ;
	char lgspLevels(levels_1, charsPerLevel) ;
	char lgspInventory(n_valtimes, levels_1) ;
	float cp(record, levels_1, y, x) ;
		cp:long_name = "Convective Precipitation" ;
		cp:units = "mm" ;
		cp:valid_range = 0.f, 1000.f ;
		cp:_FillValue = -99999.f ;
		cp:_n3D = 0 ;
		cp:levels = "SFC" ;
	char cpLevels(levels_1, charsPerLevel) ;
	char cpInventory(n_valtimes, levels_1) ;
	float tp(record, levels_1, y, x) ;
		tp:long_name = "Total Precipitation" ;
		tp:units = "mm" ;
		tp:valid_range = 0.f, 1000.f ;
		tp:_FillValue = -99999.f ;
		tp:_n3D = 0 ;
		tp:levels = "SFC" ;
	char tpLevels(levels_1, charsPerLevel) ;
	char tpInventory(n_valtimes, levels_1) ;
	float dpt(record, levels_1, y, x) ;
		dpt:long_name = "Surface Dew Point" ;
		dpt:units = "degrees K" ;
		dpt:valid_range = -100.f, 100.f ;
		dpt:_FillValue = -99999.f ;
		dpt:_n3D = 0 ;
		dpt:levels = "SFC" ;
	char dptLevels(levels_1, charsPerLevel) ;
	char dptInventory(n_valtimes, levels_1) ;
	float sh(record, levels_1, y, x) ;
		sh:long_name = "Specific Humidity" ;
		sh:units = "kg/kg" ;
		sh:valid_range = 0.f, 1.f ;
		sh:_FillValue = -99999.f ;
		sh:_n3D = 0 ;
		sh:levels = "SFC" ;
	char shLevels(levels_1, charsPerLevel) ;
	char shInventory(n_valtimes, levels_1) ;
	float ept(record, levels_1, y, x) ;
		ept:long_name = "Theta-e" ;
		ept:units = "degrees K" ;
		ept:valid_range = 200.f, 500.f ;
		ept:_FillValue = -99999.f ;
		ept:_n3D = 0 ;
		ept:levels = "SFC" ;
	char eptLevels(levels_1, charsPerLevel) ;
	char eptInventory(n_valtimes, levels_1) ;
	float sli(record, levels_1, y, x) ;
		sli:long_name = "Surface Lifted Index" ;
		sli:units = "degrees C" ;
		sli:valid_range = -100.f, 100.f ;
		sli:_FillValue = -99999.f ;
		sli:_n3D = 0 ;
		sli:levels = "SFC" ;
	char sliLevels(levels_1, charsPerLevel) ;
	char sliInventory(n_valtimes, levels_1) ;
	float cape(record, levels_1, y, x) ;
		cape:long_name = "CAPE" ;
		cape:units = "J/kg" ;
		cape:valid_range = 0.f, 10000.f ;
		cape:_FillValue = -99999.f ;
		cape:_n3D = 0 ;
		cape:levels = "SFC" ;
	char capeLevels(levels_1, charsPerLevel) ;
	char capeInventory(n_valtimes, levels_1) ;
	float cin(record, levels_1, y, x) ;
		cin:long_name = "CIN" ;
		cin:units = "J/kg" ;
		cin:valid_range = 0.f, 10000.f ;
		cin:_FillValue = -99999.f ;
		cin:_n3D = 0 ;
		cin:levels = "SFC" ;
	char cinLevels(levels_1, charsPerLevel) ;
	char cinInventory(n_valtimes, levels_1) ;
	float ustm(record, levels_1, y, x) ;
		ustm:long_name = "Est Storm Motion u comp" ;
		ustm:units = "meters/second" ;
		ustm:valid_range = -100.f, 100.f ;
		ustm:_FillValue = -99999.f ;
		ustm:_n3D = 0 ;
		ustm:levels = "SFC" ;
	char ustmLevels(levels_1, charsPerLevel) ;
	char ustmInventory(n_valtimes, levels_1) ;
	float vstm(record, levels_1, y, x) ;
		vstm:long_name = "Est Storm Motion v comp" ;
		vstm:units = "meters/second" ;
		vstm:valid_range = -100.f, 100.f ;
		vstm:_FillValue = -99999.f ;
		vstm:_n3D = 0 ;
		vstm:levels = "SFC" ;
	char vstmLevels(levels_1, charsPerLevel) ;
	char vstmInventory(n_valtimes, levels_1) ;
	float heli(record, levels_1, y, x) ;
		heli:long_name = "Storm Rel Helicity" ;
		heli:units = "m2/s2" ;
		heli:valid_range = -900.f, 900.f ;
		heli:_FillValue = -99999.f ;
		heli:_n3D = 0 ;
		heli:levels = "SFC" ;
	char heliLevels(levels_1, charsPerLevel) ;
	char heliInventory(n_valtimes, levels_1) ;
	float cxr(record, levels_1, y, x) ;
		cxr:long_name = "Column Max Reflectivity" ;
		cxr:units = "dBZ" ;
		cxr:valid_range = 0.f, 100.f ;
		cxr:_FillValue = -99999.f ;
		cxr:_n3D = 0 ;
		cxr:levels = "SFC" ;
	char cxrLevels(levels_1, charsPerLevel) ;
	char cxrInventory(n_valtimes, levels_1) ;
	float mret(record, levels_1, y, x) ;
		mret:long_name = "Maximum Radar Echo Tops" ;
		mret:units = "meters" ;
		mret:valid_range = 0.f, 20000.f ;
		mret:_FillValue = -99999.f ;
		mret:_n3D = 0 ;
		mret:levels = "SFC" ;
	char mretLevels(levels_1, charsPerLevel) ;
	char mretInventory(n_valtimes, levels_1) ;
	int valtimeMINUSreftime(n_valtimes) ;
		valtimeMINUSreftime:units = "seconds since 1970-1-1 00:00:00.0" ;
	double reftime ;
		reftime:units = "seconds since 1970-1-1 00:00:00.0" ;
	double valtime(n_valtimes) ;
	char origin(namelen) ;
	char model(namelen) ;
	float staticTopo(y, x) ;
		staticTopo:long_name = "Topography" ;
		staticTopo:units = "meters" ;
	float staticCoriolis(y, x) ;
		staticCoriolis:long_name = "Coriolis parameter" ;
		staticCoriolis:units = "/second" ;
	float staticSpacing(y, x) ;
		staticSpacing:long_name = "Grid spacing" ;
		staticSpacing:units = "meters" ;

// global attributes:
		:cdlDate = "20031202" ;
		:depictorName = "ARPS" ;
		:projIndex = 3 ;
		:projName = "LAMBERT_CONFORMAL" ;
		:centralLat = 28.5f ;
		:centralLon = -81.5f ;
		:rotation = 0.f ;
		:lat00 = 26.06364f ;
		:lon00 = -84.18085f ;
		:latNxNy = 30.88133f ;
		:lonNxNy = -78.69388f ;
		:dxKm = 4.f ;
		:dyKm = 4.f ;
		:latDxDy = 28.5f ;
		:lonDxDy = -81.5f ;
data:
}