netcdf sgpxsaprmmcgI5.c1.20190404.235009 {
dimensions:
	time = UNLIMITED ; // (1 currently)
	z = 31 ;
	y = 101 ;
	x = 101 ;
	nradar = 1 ;
	nradar_str_length = 5 ;
variables:
	double time(time) ;
		time:long_name = "Time offset from midnight" ;
		time:units = "seconds since 2019-04-04 00:00:00 0:00" ;
		time:standard_name = "time" ;
		time:calendar = "gregorian" ;
	double x(x) ;
		x:long_name = "X distance on the projection plane from the origin" ;
		x:units = "m" ;
		x:standard_name = "projection_x_coordinate" ;
		x:axis = "X" ;
	double y(y) ;
		y:long_name = "Y distance on the projection plane from the origin" ;
		y:units = "m" ;
		y:standard_name = "projection_y_coordinate" ;
		y:axis = "Y" ;
	double z(z) ;
		z:long_name = "Z distance on the projection plane from the origin" ;
		z:units = "m" ;
		z:standard_name = "projection_z_coordinate" ;
		z:axis = "Z" ;
		z:positive = "up" ;
	double origin_latitude(time) ;
		origin_latitude:long_name = "Latitude at grid origin" ;
		origin_latitude:units = "degree_N" ;
		origin_latitude:standard_name = "latitude" ;
		origin_latitude:valid_min = -90. ;
		origin_latitude:valid_max = 90. ;
	double origin_longitude(time) ;
		origin_longitude:long_name = "Longitude at grid origin" ;
		origin_longitude:units = "degree_E" ;
		origin_longitude:standard_name = "longitude" ;
		origin_longitude:valid_min = -180. ;
		origin_longitude:valid_max = 180. ;
	double origin_altitude(time) ;
		origin_altitude:long_name = "Altitude at grid origin" ;
		origin_altitude:units = "m" ;
		origin_altitude:standard_name = "altitude" ;
	int projection ;
		projection:proj = "pyart_aeqd" ;
		projection:_include_lon_0_lat_0 = "true" ;
	int ProjectionCoordinateSystem ;
		ProjectionCoordinateSystem:latitude_of_projection_origin = 36.4915008544922 ;
		ProjectionCoordinateSystem:longitude_of_projection_origin = -97.5938034057617 ;
		ProjectionCoordinateSystem:_CoordinateTransformType = "Projection" ;
		ProjectionCoordinateSystem:_CoordinateAxes = "x y z time" ;
		ProjectionCoordinateSystem:_CoordinateAxesTypes = "GeoX GeoY Height Time" ;
		ProjectionCoordinateSystem:grid_mapping_name = "azimuthal_equidistant" ;
		ProjectionCoordinateSystem:semi_major_axis = 6370997. ;
		ProjectionCoordinateSystem:inverse_flattening = 298.25 ;
		ProjectionCoordinateSystem:longitude_of_prime_meridian = 0. ;
		ProjectionCoordinateSystem:false_easting = 0. ;
		ProjectionCoordinateSystem:false_northing = 0. ;
	double radar_latitude(nradar) ;
		radar_latitude:long_name = "Latitude of radars used to make the grid." ;
		radar_latitude:units = "degree_N" ;
		radar_latitude:standard_name = "Latitude" ;
		radar_latitude:valid_min = -90. ;
		radar_latitude:valid_max = 90. ;
	double radar_longitude(nradar) ;
		radar_longitude:long_name = "Longitude of radars used to make the grid." ;
		radar_longitude:units = "degree_E" ;
		radar_longitude:standard_name = "Longitude" ;
		radar_longitude:valid_min = -180. ;
		radar_longitude:valid_max = 180. ;
	double radar_altitude(nradar) ;
		radar_altitude:long_name = "Altitude of radars used to make the grid." ;
		radar_altitude:units = "m" ;
		radar_altitude:standard_name = "altitude" ;
	double radar_time(nradar) ;
		radar_time:long_name = "Time in seconds of the volume start for each radar" ;
		radar_time:units = "seconds since 2019-04-04T23:50:09Z" ;
		radar_time:calendar = "gregorian" ;
	char radar_name(nradar, nradar_str_length) ;
		radar_name:long_name = "Name of radar used to make the grid" ;
	int base_time ;
		base_time:long_name = "Base time in Epoch" ;
		base_time:units = "seconds since 1970-1-1 0:00:00 0:00" ;
		base_time:string = "04-Apr-2019,23:50:09 GMT" ;
		base_time:ancillary_variables = "time_offset" ;
	double time_offset(time) ;
		time_offset:long_name = "Time offset from base_time" ;
		time_offset:units = "seconds since 2019-04-04 00:00:00 0:00" ;
		time_offset:ancillary_variables = "time_offset" ;
		time_offset:calendar = "gregorian" ;
	double alt ;
		alt:long_name = "Altitude above mean sea level" ;
		alt:units = "m" ;
		alt:standard_name = "Altitude" ;
	double lat ;
		lat:long_name = "North Latitude" ;
		lat:units = "degree_N" ;
		lat:standard_name = "Latitude" ;
		lat:valid_min = -90. ;
		lat:valid_max = 90. ;
	double lon ;
		lon:long_name = "East Longitude" ;
		lon:units = "degree_E" ;
		lon:standard_name = "Longitude" ;
		lon:valid_min = -180. ;
		lon:valid_max = 180. ;
	float corrected_specific_diff_phase(time, z, y, x) ;
		corrected_specific_diff_phase:long_name = "Corrected specific differential phase (KDP)" ;
		corrected_specific_diff_phase:units = "degree/km" ;
		corrected_specific_diff_phase:_FillValue = -9999.f ;
		corrected_specific_diff_phase:standard_name = "specific_differential_phase_hv" ;
		corrected_specific_diff_phase:valid_max = 0.3516461f ;
		corrected_specific_diff_phase:valid_min = -0.004851228f ;
	float specific_differential_phase(time, z, y, x) ;
		specific_differential_phase:long_name = "Specific differential phase (KDP)" ;
		specific_differential_phase:units = "degree/km" ;
		specific_differential_phase:_FillValue = -9999.f ;
		specific_differential_phase:valid_min = -0.00262397f ;
		specific_differential_phase:valid_max = 0.163137f ;
		specific_differential_phase:coordinates = "elevation azimuth range" ;
		specific_differential_phase:standard_name = "specific_differential_phase_hv" ;
	float corrected_differential_reflectivity(time, z, y, x) ;
		corrected_differential_reflectivity:long_name = "Corrected differential reflectivity" ;
		corrected_differential_reflectivity:units = "dB" ;
		corrected_differential_reflectivity:standard_name = "corrected_differential_reflectivity" ;
		corrected_differential_reflectivity:valid_max = 25.95897f ;
		corrected_differential_reflectivity:valid_min = -8.39988f ;
	float ground_clutter(time, z, y, x) ;
		ground_clutter:long_name = "Ground clutter flag" ;
		ground_clutter:units = "1" ;
		ground_clutter:_FillValue = -9999.f ;
		ground_clutter:flag_values = "0, 1" ;
		ground_clutter:flag_meanings = "no_clutter, clutter" ;
		ground_clutter:valid_max = 1.f ;
		ground_clutter:valid_min = 0.f ;
	float path_integrated_differential_attenuation(time, z, y, x) ;
		path_integrated_differential_attenuation:long_name = "Path integrated differential attenuation" ;
		path_integrated_differential_attenuation:units = "dB" ;
		path_integrated_differential_attenuation:_FillValue = -9999.f ;
		path_integrated_differential_attenuation:standard_name = "path_integrated_differential_attenuation" ;
		path_integrated_differential_attenuation:valid_max = 7.35229e-05f ;
		path_integrated_differential_attenuation:valid_min = 0.f ;
	float total_power(time, z, y, x) ;
		total_power:long_name = "Total power" ;
		total_power:units = "dBZ" ;
		total_power:_FillValue = -9999.f ;
		total_power:valid_min = -24.62408f ;
		total_power:valid_max = 53.08392f ;
		total_power:coordinates = "elevation azimuth range" ;
		total_power:standard_name = "equivalent_reflectivity_factor" ;
		total_power:comment = "This total power field was interpolated linearly and then converted to logarithmic units. Using linear units during interpolation allows for the retention of storm structure and gives a more realistic estimation of convection and more." ;
	float reflectivity(time, z, y, x) ;
		reflectivity:long_name = "Equivalent reflectivity factor" ;
		reflectivity:units = "dBZ" ;
		reflectivity:_FillValue = -9999.f ;
		reflectivity:valid_min = -29.50068f ;
		reflectivity:valid_max = 44.53159f ;
		reflectivity:coordinates = "elevation azimuth range" ;
		reflectivity:standard_name = "equivalent_reflectivity_factor" ;
		reflectivity:comment = "This reflectivity field was interpolated linearly and then converted to logarithmic units. Using linear units during interpolation allows for the retention of storm structure and gives a more realistic estimation of convection and more." ;
	float gate_id(time, z, y, x) ;
		gate_id:long_name = "Classification of dominant scatterer" ;
		gate_id:units = "1" ;
		gate_id:standard_name = "gate_id" ;
		gate_id:valid_min = 0.f ;
		gate_id:valid_max = 3.f ;
		gate_id:comment = "This gate id field has been mapped to a Cartesian grid using nearest neighbor. This may differ from the mapping method used in the other fields" ;
		gate_id:flag_values = "1, 2, 3, 4, 5" ;
		gate_id:flag_meanings = "multi_trip, rain, snow, no_scatter, melting, clutter" ;
	float spectral_width(time, z, y, x) ;
		spectral_width:long_name = "Spectrum width" ;
		spectral_width:units = "m/s" ;
		spectral_width:_FillValue = -9999.f ;
		spectral_width:valid_min = 0.09010284f ;
		spectral_width:valid_max = 4.959941f ;
		spectral_width:coordinates = "elevation azimuth range" ;
		spectral_width:standard_name = "doppler_spectrum_width" ;
	float filtered_corrected_specific_diff_phase(time, z, y, x) ;
		filtered_corrected_specific_diff_phase:long_name = "Filtered specific differential phase (KDP)" ;
		filtered_corrected_specific_diff_phase:units = "degree/km" ;
		filtered_corrected_specific_diff_phase:_FillValue = -9999.f ;
		filtered_corrected_specific_diff_phase:standard_name = "specific_differential_phase_hv" ;
		filtered_corrected_specific_diff_phase:valid_max = 0.2720903f ;
		filtered_corrected_specific_diff_phase:valid_min = 0.f ;
	float path_integrated_attenuation(time, z, y, x) ;
		path_integrated_attenuation:long_name = "Path integrated attenuation" ;
		path_integrated_attenuation:units = "dB" ;
		path_integrated_attenuation:_FillValue = -9999.f ;
		path_integrated_attenuation:standard_name = "path_integrated_attenuation" ;
		path_integrated_attenuation:valid_max = 0.001470458f ;
		path_integrated_attenuation:valid_min = 0.f ;
	float rain_rate_A(time, z, y, x) ;
		rain_rate_A:long_name = "rainfall_rate" ;
		rain_rate_A:units = "mm/hr" ;
		rain_rate_A:_FillValue = -9999.f ;
		rain_rate_A:valid_min = 0.f ;
		rain_rate_A:valid_max = 0.0860417f ;
		rain_rate_A:comment = "Rain rate calculated from specific_attenuation, R=51.3*specific_attenuation**0.81, note R=0.0 where norm coherent power < 0.4 or rhohv < 0.8" ;
		rain_rate_A:least_signficant_digit = 1 ;
	float mean_doppler_velocity(time, z, y, x) ;
		mean_doppler_velocity:long_name = "Mean Doppler velocity" ;
		mean_doppler_velocity:units = "m/s" ;
		mean_doppler_velocity:_FillValue = -9999.f ;
		mean_doppler_velocity:valid_min = -10.4799f ;
		mean_doppler_velocity:valid_max = 10.37974f ;
		mean_doppler_velocity:coordinates = "elevation azimuth range" ;
		mean_doppler_velocity:standard_name = "radial_velocity_of_scatterers_away_from_instrument" ;
	float differential_reflectivity(time, z, y, x) ;
		differential_reflectivity:long_name = "Differential reflectivity (ZDR)" ;
		differential_reflectivity:units = "dB" ;
		differential_reflectivity:_FillValue = -9999.f ;
		differential_reflectivity:valid_min = -34.41999f ;
		differential_reflectivity:valid_max = 15.2235f ;
		differential_reflectivity:coordinates = "elevation azimuth range" ;
		differential_reflectivity:standard_name = "log_differential_reflectivity_hv" ;
	float normalized_coherent_power(time, z, y, x) ;
		normalized_coherent_power:long_name = "Normalized coherent power" ;
		normalized_coherent_power:units = "1" ;
		normalized_coherent_power:_FillValue = -9999.f ;
		normalized_coherent_power:valid_min = 0.008193845f ;
		normalized_coherent_power:valid_max = 0.9083049f ;
		normalized_coherent_power:coordinates = "elevation azimuth range" ;
		normalized_coherent_power:standard_name = "normalized_coherent_power" ;
	float corrected_velocity(time, z, y, x) ;
		corrected_velocity:long_name = "Corrected mean doppler velocity" ;
		corrected_velocity:units = "m/s" ;
		corrected_velocity:_FillValue = -9999.f ;
		corrected_velocity:standard_name = "radial_velocity_of_scatterers_away_from_instrument" ;
		corrected_velocity:valid_min = -12.36776f ;
		corrected_velocity:valid_max = 8.369761f ;
	float corrected_differential_phase(time, z, y, x) ;
		corrected_differential_phase:long_name = "Corrected differential phase (PhiDP)" ;
		corrected_differential_phase:units = "degree" ;
		corrected_differential_phase:_FillValue = -9999.f ;
		corrected_differential_phase:standard_name = "differential_phase_hv" ;
		corrected_differential_phase:valid_max = 0.04420551f ;
		corrected_differential_phase:valid_min = 5.201084e-06f ;
	float radar_echo_classification(time, z, y, x) ;
		radar_echo_classification:long_name = "Radar echo classification" ;
		radar_echo_classification:units = "1" ;
		radar_echo_classification:standard_name = "radar_echo_classification" ;
		radar_echo_classification:flag_values = "0     1     2     3     4     5     6   255 65535" ;
		radar_echo_classification:flag_meanings = "no_data_available non_meteorological_target rain wet_snow snow graupel hail area_not_scanned area_not_scanned" ;
		radar_echo_classification:valid_max = 0. ;
		radar_echo_classification:valid_min = 0. ;
	float velocity_texture(time, z, y, x) ;
		velocity_texture:long_name = "Mean doppler velocity texture" ;
		velocity_texture:units = "m/s" ;
		velocity_texture:_FillValue = -9999.f ;
		velocity_texture:standard_name = "radial_velocity_of_scatterers_away_from_instrument" ;
		velocity_texture:valid_min = 0.3559119f ;
		velocity_texture:valid_max = 7.278204f ;
	float differential_phase(time, z, y, x) ;
		differential_phase:long_name = "Differential phase (PhiDP)" ;
		differential_phase:units = "degree" ;
		differential_phase:_FillValue = -9999.f ;
		differential_phase:valid_min = 15.22868f ;
		differential_phase:valid_max = 348.3633f ;
		differential_phase:coordinates = "elevation azimuth range" ;
		differential_phase:standard_name = "differential_phase_hv" ;
	float unfolded_differential_phase(time, z, y, x) ;
		unfolded_differential_phase:long_name = "Unfolded differential phase (PhiDP)" ;
		unfolded_differential_phase:units = "degree" ;
		unfolded_differential_phase:_FillValue = -9999.f ;
		unfolded_differential_phase:standard_name = "differential_phase_hv" ;
		unfolded_differential_phase:valid_max = 0. ;
		unfolded_differential_phase:valid_min = 0. ;
	float corrected_reflectivity(time, z, y, x) ;
		corrected_reflectivity:long_name = "Corrected reflectivity" ;
		corrected_reflectivity:units = "dBZ" ;
		corrected_reflectivity:_FillValue = -9999.f ;
		corrected_reflectivity:standard_name = "equivalent_reflectivity_factor" ;
		corrected_reflectivity:comment = "This corrected_reflectivity field was interpolated linearly and then converted to logarithmic units. Using linear units during interpolation allows for the retention of storm structure and gives a more realistic estimation of convection and more." ;
		corrected_reflectivity:valid_max = 44.05269f ;
		corrected_reflectivity:valid_min = -28.61111f ;
	float SNR(time, z, y, x) ;
		SNR:long_name = "Signal to noise ratio" ;
		SNR:units = "dB" ;
		SNR:_FillValue = -9999.f ;
		SNR:standard_name = "signal_to_noise_ratio" ;
		SNR:valid_max = 0. ;
		SNR:valid_min = 0. ;
	float cross_correlation_ratio_hv(time, z, y, x) ;
		cross_correlation_ratio_hv:long_name = "Cross correlation ratio (RhoHV)" ;
		cross_correlation_ratio_hv:units = "1" ;
		cross_correlation_ratio_hv:_FillValue = -9999.f ;
		cross_correlation_ratio_hv:valid_min = 0.03772088f ;
		cross_correlation_ratio_hv:valid_max = 1.f ;
		cross_correlation_ratio_hv:coordinates = "elevation azimuth range" ;
		cross_correlation_ratio_hv:standard_name = "cross_correlation_ratio_hv" ;
	float specific_differential_attenuation(time, z, y, x) ;
		specific_differential_attenuation:long_name = "Specific differential attenuation" ;
		specific_differential_attenuation:units = "dB/km" ;
		specific_differential_attenuation:standard_name = "specific_differential_attenuation" ;
		specific_differential_attenuation:valid_max = 2.713249e-05f ;
		specific_differential_attenuation:valid_min = 0.f ;
	float filtered_corrected_differential_phase(time, z, y, x) ;
		filtered_corrected_differential_phase:long_name = "Filtered differential phase (PhiDP)" ;
		filtered_corrected_differential_phase:units = "degree" ;
		filtered_corrected_differential_phase:_FillValue = -9999.f ;
		filtered_corrected_differential_phase:standard_name = "differential_phase_hv" ;
		filtered_corrected_differential_phase:valid_max = 1.392067f ;
		filtered_corrected_differential_phase:valid_min = 0.f ;
	float specific_attenuation(time, z, y, x) ;
		specific_attenuation:long_name = "Specific attenuation" ;
		specific_attenuation:units = "dB/km" ;
		specific_attenuation:standard_name = "specific_attenuation" ;
		specific_attenuation:valid_max = 0.0004497354f ;
		specific_attenuation:valid_min = 0.f ;
	float ROI(time, z, y, x) ;
		ROI:long_name = "Radius of influence for mapping" ;
		ROI:units = "m" ;
		ROI:_FillValue = -9999.f ;
		ROI:standard_name = "radius_of_influence" ;
		ROI:least_significant_digit = 1L ;
		ROI:valid_max = 2601.624f ;
		ROI:valid_min = 500.f ;

// global attributes:
		:_NCProperties = "version=1|netcdflibversion=4.6.1|hdf5libversion=1.10.2" ;
		:Conventions = "ARM-1.2" ;
		:vap_name = "mmcg" ;
		:instrument_name = "X_SAPR Mapped Moments to a Cartesian Grid" ;
		:command_line = "/home/zsherman/anaconda3/envs/cmac_env/lib/python3.6/site-packages/distributed/cli/dask_worker.pytcp://10.23.216.82:42222--nthreads1--nprocs8--memory-limit16.00GB--namedask-worker--701411----death-timeout60--local-directory/localscratch/tmp.zsherman.701411.or-condo-pbs01--interfaceib0" ;
		:process_version = "EVAL-0.5" ;
		:dod_version = "v1.0" ;
		:site_id = "SGP" ;
		:platform_id = "xsaprmmcg" ;
		:facility_id = "I5:Garber, OK" ;
		:data_level = "c1" ;
		:location_description = "Southern Great Plains (SGP), Garber, Oklahoma" ;
		:datastream = "sgpxsaprmmcgI5.c1" ;
		:doi = "" ;
		:input_datastream = "sgpxsaprcmacsurI5.c1" ;
		:history = "Created by jhemedinger and zsherman on or-condo-c243.ornl.gov at 2019-06-26T20:13:00.323789 using PyART" ;
}