netcdf corcsapr2cmacppiM1.c1.20190303.000002 { dimensions: time = UNLIMITED ; // (2161 currently) range = 1100 ; sweep = 6 ; string_length = 32 ; variables: double time(time) ; time:long_name = "Time offset from midnight" ; time:units = "seconds since 2019-03-03 00:00:00 0:00" ; time:standard_name = "time" ; time:calendar = "gregorian" ; float range(range) ; range:long_name = "Range to measurement volume" ; range:units = "m" ; range:meters_between_gates = 100.f ; range:meters_to_center_of_first_gate = 50.f ; range:spacing_is_constant = "True" ; range:standard_name = "projection_range_coordinate" ; range:axis = "radial_range_coordinate" ; float azimuth(time) ; azimuth:_FillValue = -9999.f ; azimuth:long_name = "Azimuth angle from true north" ; azimuth:units = "degree" ; azimuth:standard_name = "sensor_to_target_azimuth_angle" ; azimuth:axis = "radial_azimuth_coordinate" ; float elevation(time) ; elevation:_FillValue = -9999.f ; elevation:long_name = "Elevation angle from horizontal plane" ; elevation:units = "degree" ; elevation:standard_name = "sensor_to_target_elevation_angle" ; elevation:axis = "radial_elevation_coordinate" ; float attenuation_corrected_differential_reflectivity(time, range) ; attenuation_corrected_differential_reflectivity:_FillValue = -32767.f ; attenuation_corrected_differential_reflectivity:long_name = "Rainfall attenuation-corrected differential reflectivity" ; attenuation_corrected_differential_reflectivity:units = "dB" ; attenuation_corrected_differential_reflectivity:coordinates = "elevation azimuth range" ; attenuation_corrected_differential_reflectivity:standard_name = "radar_differential_reflectivity_hv" ; attenuation_corrected_differential_reflectivity:applied_bias_correction = 3.737134f ; float attenuation_corrected_differential_reflectivity_lag_1(time, range) ; attenuation_corrected_differential_reflectivity_lag_1:_FillValue = -32767.f ; attenuation_corrected_differential_reflectivity_lag_1:long_name = "Differential reflectivity estimated at lag 1 corrected for rainfall attenuation." ; attenuation_corrected_differential_reflectivity_lag_1:units = "dB" ; attenuation_corrected_differential_reflectivity_lag_1:coordinates = "elevation azimuth range" ; attenuation_corrected_differential_reflectivity_lag_1:standard_name = "radar_differential_reflectivity_hv" ; attenuation_corrected_differential_reflectivity_lag_1:applied_bias_correction = 3.73713f ; float attenuation_corrected_reflectivity_h(time, range) ; attenuation_corrected_reflectivity_h:_FillValue = -32767.f ; attenuation_corrected_reflectivity_h:long_name = "Rainfall attenuation-corrected reflectivity, horizontal channel" ; attenuation_corrected_reflectivity_h:units = "dBZ" ; attenuation_corrected_reflectivity_h:coordinates = "elevation azimuth range" ; attenuation_corrected_reflectivity_h:standard_name = "equivalent_reflectivity_factor" ; attenuation_corrected_reflectivity_h:applied_bias_correction = 1.8f ; int censor_mask(time, range) ; censor_mask:long_name = "Censor Mask" ; censor_mask:units = "1" ; censor_mask:flag_masks = 1, 2, 4, 8, 16, 32, 64, 128, 256, 512, 1024, 2048 ; censor_mask:flag_meanings = "horizontal_snr_below_noise_threshold vertical_snr_below_noise_threshold horizontal_ccor_below_ccor_threshold vertical_ccor_below_ccor_threshold horizontal_sqi_below_sqi1_threshold vertical_sqi_below_sqi1_threshold horizontal_sqi_below_sqi2_threshold vertical_sqi_below_sqi2_threshold horizontal_sigpow_below_sigpow_threshold vertical_sigpow_below_sigpow_threshold urhohv_below_rhohv_threshold censored_by_clutter_micro_suppression" ; censor_mask:coordinates = "elevation azimuth range" ; censor_mask:standard_name = "radar_quality_mask" ; int classification_mask(time, range) ; classification_mask:long_name = "Classification Mask" ; classification_mask:units = "1" ; classification_mask:flag_masks = 1, 2, 4, 8, 16 ; classification_mask:flag_meanings = "second_trip third_trip interference clutter sunspoke" ; classification_mask:coordinates = "elevation azimuth range" ; classification_mask:standard_name = "radar_quality_mask" ; float copol_correlation_coeff(time, range) ; copol_correlation_coeff:_FillValue = -32767.f ; copol_correlation_coeff:long_name = "Copolar correlation coefficient (also known as rhohv)" ; copol_correlation_coeff:units = "1" ; copol_correlation_coeff:coordinates = "elevation azimuth range" ; copol_correlation_coeff:standard_name = "radar_correlation_coefficient_hv" ; float differential_phase(time, range) ; differential_phase:_FillValue = -32767.f ; differential_phase:long_name = "Differential propagation phase shift" ; differential_phase:units = "degree" ; differential_phase:coordinates = "elevation azimuth range" ; differential_phase:standard_name = "radar_differential_phase_hv" ; float differential_reflectivity(time, range) ; differential_reflectivity:_FillValue = -32767.f ; differential_reflectivity:long_name = "Differential reflectivity" ; differential_reflectivity:units = "dB" ; differential_reflectivity:coordinates = "elevation azimuth range" ; differential_reflectivity:standard_name = "radar_differential_reflectivity_hv" ; differential_reflectivity:applied_bias_correction = 3.737134f ; float differential_reflectivity_lag_1(time, range) ; differential_reflectivity_lag_1:_FillValue = -32767.f ; differential_reflectivity_lag_1:long_name = "Differential reflectivity estimated at lag 1" ; differential_reflectivity_lag_1:units = "dB" ; differential_reflectivity_lag_1:coordinates = "elevation azimuth range" ; differential_reflectivity_lag_1:standard_name = "radar_differential_reflectivity_hv" ; differential_reflectivity_lag_1:applied_bias_correction = 3.737134f ; float mean_doppler_velocity(time, range) ; mean_doppler_velocity:_FillValue = -32767.f ; mean_doppler_velocity:long_name = "Radial mean Doppler velocity, positive for motion away from the instrument" ; mean_doppler_velocity:units = "m/s" ; mean_doppler_velocity:coordinates = "elevation azimuth range" ; mean_doppler_velocity:standard_name = "radial_velocity_of_scatterers_away_from_instrument" ; float mean_doppler_velocity_v(time, range) ; mean_doppler_velocity_v:_FillValue = -32767.f ; mean_doppler_velocity_v:long_name = "Doppler velocity, vertical channel" ; mean_doppler_velocity_v:units = "m/s" ; mean_doppler_velocity_v:coordinates = "elevation azimuth range" ; mean_doppler_velocity_v:standard_name = "radial_velocity_of_scatterers_away_from_instrument" ; float normalized_coherent_power(time, range) ; normalized_coherent_power:_FillValue = -32767.f ; normalized_coherent_power:long_name = "Normalized coherent power, also known as SQI." ; normalized_coherent_power:units = "1" ; normalized_coherent_power:coordinates = "elevation azimuth range" ; normalized_coherent_power:standard_name = "radar_normalized_coherent_power" ; float normalized_coherent_power_v(time, range) ; normalized_coherent_power_v:_FillValue = -32767.f ; normalized_coherent_power_v:long_name = "Normalized coherent power, also known as SQI, Vertical Channel" ; normalized_coherent_power_v:units = "1" ; normalized_coherent_power_v:coordinates = "elevation azimuth range" ; normalized_coherent_power_v:standard_name = "radar_normalized_coherent_power" ; float reflectivity(time, range) ; reflectivity:_FillValue = -32767.f ; reflectivity:long_name = "Equivalent reflectivity factor" ; reflectivity:units = "dBZ" ; reflectivity:coordinates = "elevation azimuth range" ; reflectivity:standard_name = "equivalent_reflectivity_factor" ; reflectivity:applied_bias_correction = 1.8f ; float reflectivity_v(time, range) ; reflectivity_v:_FillValue = -32767.f ; reflectivity_v:long_name = "Equivalent reflectivity factor, vertical channel" ; reflectivity_v:units = "dBZ" ; reflectivity_v:coordinates = "elevation azimuth range" ; reflectivity_v:standard_name = "equivalent_reflectivity_factor" ; float signal_to_noise_ratio_copolar_h(time, range) ; signal_to_noise_ratio_copolar_h:_FillValue = -32767.f ; signal_to_noise_ratio_copolar_h:long_name = "Signal-to-noise ratio, horizontal channel" ; signal_to_noise_ratio_copolar_h:units = "dB" ; signal_to_noise_ratio_copolar_h:coordinates = "elevation azimuth range" ; signal_to_noise_ratio_copolar_h:standard_name = "radar_signal_to_noise_ratio_copolar_h" ; float signal_to_noise_ratio_copolar_v(time, range) ; signal_to_noise_ratio_copolar_v:_FillValue = -32767.f ; signal_to_noise_ratio_copolar_v:long_name = "Signal-to-noise ratio, vertical channel" ; signal_to_noise_ratio_copolar_v:units = "dB" ; signal_to_noise_ratio_copolar_v:coordinates = "elevation azimuth range" ; signal_to_noise_ratio_copolar_v:standard_name = "radar_signal_to_noise_ratio_copolar_v" ; double specific_attenuation(time, range) ; specific_attenuation:_FillValue = 1.e+20 ; specific_attenuation:long_name = "Specific attenuation" ; specific_attenuation:units = "dB/km" ; specific_attenuation:standard_name = "specific_attenuation" ; specific_attenuation:valid_min = 0. ; specific_attenuation:valid_max = 1. ; specific_attenuation:coordinates = "elevation azimuth range" ; double specific_differential_attenuation(time, range) ; specific_differential_attenuation:_FillValue = 1.e+20 ; specific_differential_attenuation:long_name = "Specific Differential Attenuation" ; specific_differential_attenuation:units = "dB/km" ; float specific_differential_phase(time, range) ; specific_differential_phase:_FillValue = -32767.f ; specific_differential_phase:long_name = "Specific differential phase (KDP)" ; specific_differential_phase:units = "degree/km" ; specific_differential_phase:coordinates = "elevation azimuth range" ; specific_differential_phase:standard_name = "radar_specific_differential_phase_hv" ; float spectral_width(time, range) ; spectral_width:_FillValue = -32767.f ; spectral_width:long_name = "Spectral width" ; spectral_width:units = "m/s" ; spectral_width:coordinates = "elevation azimuth range" ; spectral_width:standard_name = "radar_doppler_spectrum_width" ; float spectral_width_v(time, range) ; spectral_width_v:_FillValue = -32767.f ; spectral_width_v:long_name = "Spectral Width, Vertical Channel" ; spectral_width_v:units = "m/s" ; spectral_width_v:coordinates = "elevation azimuth range" ; spectral_width_v:standard_name = "radar_doppler_spectrum_width" ; float uncorrected_copol_correlation_coeff(time, range) ; uncorrected_copol_correlation_coeff:_FillValue = -32767.f ; uncorrected_copol_correlation_coeff:long_name = "Uncorrected copolar correlation coefficient" ; uncorrected_copol_correlation_coeff:units = "1" ; uncorrected_copol_correlation_coeff:coordinates = "elevation azimuth range" ; uncorrected_copol_correlation_coeff:standard_name = "radar_correlation_coefficient_hv" ; float uncorrected_differential_phase(time, range) ; uncorrected_differential_phase:_FillValue = -32767.f ; uncorrected_differential_phase:long_name = "Uncorrected Differential Phase" ; uncorrected_differential_phase:units = "degree" ; uncorrected_differential_phase:coordinates = "elevation azimuth range" ; uncorrected_differential_phase:standard_name = "radar_differential_phase_hv" ; float uncorrected_differential_reflectivity(time, range) ; uncorrected_differential_reflectivity:_FillValue = -32767.f ; uncorrected_differential_reflectivity:long_name = "Uncorrected Differential Reflectivity, Vertical Channel" ; uncorrected_differential_reflectivity:units = "dBZ" ; uncorrected_differential_reflectivity:coordinates = "elevation azimuth range" ; uncorrected_differential_reflectivity:standard_name = "radar_differential_reflectivity_hv" ; float uncorrected_differential_reflectivity_lag_1(time, range) ; uncorrected_differential_reflectivity_lag_1:_FillValue = -32767.f ; uncorrected_differential_reflectivity_lag_1:long_name = "Uncorrected differential reflectivity estimated at lag 1" ; uncorrected_differential_reflectivity_lag_1:units = "dB" ; uncorrected_differential_reflectivity_lag_1:coordinates = "elevation azimuth range" ; uncorrected_differential_reflectivity_lag_1:standard_name = "radar_differential_reflectivity_hv" ; float uncorrected_mean_doppler_velocity_h(time, range) ; uncorrected_mean_doppler_velocity_h:_FillValue = -32767.f ; uncorrected_mean_doppler_velocity_h:long_name = "Radial mean Doppler velocity from horizontal channel, positive for motion away from the instrument, uncorrected" ; uncorrected_mean_doppler_velocity_h:units = "m/s" ; uncorrected_mean_doppler_velocity_h:coordinates = "elevation azimuth range" ; uncorrected_mean_doppler_velocity_h:standard_name = "radial_velocity_of_scatterers_away_from_instrument" ; float uncorrected_mean_doppler_velocity_v(time, range) ; uncorrected_mean_doppler_velocity_v:_FillValue = -32767.f ; uncorrected_mean_doppler_velocity_v:long_name = "Radial mean Doppler velocity from vertical channel, positive for motion away from the instrument, uncorrected" ; uncorrected_mean_doppler_velocity_v:units = "m/s" ; uncorrected_mean_doppler_velocity_v:coordinates = "elevation azimuth range" ; uncorrected_mean_doppler_velocity_v:standard_name = "radial_velocity_of_scatterers_away_from_instrument" ; float uncorrected_reflectivity_h(time, range) ; uncorrected_reflectivity_h:_FillValue = -32767.f ; uncorrected_reflectivity_h:long_name = "Uncorrected Reflectivity, Horizontal Channel" ; uncorrected_reflectivity_h:units = "dBZ" ; uncorrected_reflectivity_h:coordinates = "elevation azimuth range" ; uncorrected_reflectivity_h:standard_name = "equivalent_reflectivity_factor" ; uncorrected_reflectivity_h:applied_bias_correction = 1.8f ; float uncorrected_reflectivity_v(time, range) ; uncorrected_reflectivity_v:_FillValue = -32767.f ; uncorrected_reflectivity_v:long_name = "Uncorrected Reflectivity, Vertical Channel" ; uncorrected_reflectivity_v:units = "dBZ" ; uncorrected_reflectivity_v:coordinates = "elevation azimuth range" ; uncorrected_reflectivity_v:standard_name = "equivalent_reflectivity_factor" ; float uncorrected_spectral_width_h(time, range) ; uncorrected_spectral_width_h:_FillValue = -32767.f ; uncorrected_spectral_width_h:long_name = "Uncorrected Spectral Width, Horizontal Channel" ; uncorrected_spectral_width_h:units = "m/s" ; uncorrected_spectral_width_h:coordinates = "elevation azimuth range" ; uncorrected_spectral_width_h:standard_name = "radar_doppler_spectrum_width" ; float uncorrected_spectral_width_v(time, range) ; uncorrected_spectral_width_v:_FillValue = -32767.f ; uncorrected_spectral_width_v:long_name = "Uncorrected Spectral Width, Vertical Channel" ; uncorrected_spectral_width_v:units = "m/s" ; uncorrected_spectral_width_v:coordinates = "elevation azimuth range" ; uncorrected_spectral_width_v:standard_name = "radar_doppler_spectrum_width" ; float unthresholded_power_copolar_h(time, range) ; unthresholded_power_copolar_h:_FillValue = -32767.f ; unthresholded_power_copolar_h:long_name = "Received copolar power, h channel, without thresholding." ; unthresholded_power_copolar_h:units = "dBm" ; unthresholded_power_copolar_h:coordinates = "elevation azimuth range" ; unthresholded_power_copolar_h:standard_name = "radar_received_signal_power_copolar_h" ; float unthresholded_power_copolar_v(time, range) ; unthresholded_power_copolar_v:_FillValue = -32767.f ; unthresholded_power_copolar_v:long_name = "Received copolar power, v channel, without thresholding" ; unthresholded_power_copolar_v:units = "dBm" ; unthresholded_power_copolar_v:coordinates = "elevation azimuth range" ; unthresholded_power_copolar_v:standard_name = "radar_received_signal_power_copolar_v" ; int64 ground_clutter(time, range) ; ground_clutter:long_name = "Clutter mask" ; ground_clutter:standard_name = "clutter_mask" ; ground_clutter:valid_min = 0L ; ground_clutter:valid_max = 1L ; ground_clutter:units = "1" ; ground_clutter:flag_values = 0L, 1L ; ground_clutter:flag_meanings = "no_clutter clutter" ; float clutter_masked_velocity(time, range) ; clutter_masked_velocity:_FillValue = -32767.f ; clutter_masked_velocity:units = "m/s" ; clutter_masked_velocity:coordinates = "elevation azimuth range" ; clutter_masked_velocity:standard_name = "radial_velocity_of_scatterers_away_from_instrument" ; clutter_masked_velocity:long_name = "Radial mean Doppler velocity, positive for motion away from the instrument, clutter removed" ; float sounding_temperature(time, range) ; sounding_temperature:long_name = "Interpolated profile" ; sounding_temperature:standard_name = "interpolated_profile" ; sounding_temperature:units = "deg_C" ; float height(time, range) ; height:long_name = "Height of radar beam" ; height:standard_name = "height" ; height:units = "m" ; float signal_to_noise_ratio(time, range) ; signal_to_noise_ratio:long_name = "Signal to noise ratio" ; signal_to_noise_ratio:units = "dB" ; signal_to_noise_ratio:standard_name = "signal_to_noise_ratio" ; signal_to_noise_ratio:coordinates = "elevation azimuth range" ; double velocity_texture(time, range) ; velocity_texture:long_name = "Mean dopper velocity" ; velocity_texture:standard_name = "radial_velocity_of_scatterers_away_from_instrument" ; velocity_texture:coordinates = "elevation azimuth range" ; velocity_texture:units = "m/s" ; int64 gate_id(time, range) ; gate_id:long_name = "Classification of dominant scatterer" ; gate_id:units = "1" ; gate_id:valid_max = 6L ; gate_id:valid_min = 0L ; gate_id:flag_values = 0L, 1L, 2L, 3L, 4L, 5L, 6L ; gate_id:flag_meanings = "multi_trip rain snow no_scatter melting clutter terrain_blockage" ; double partial_beam_blockage(time, range) ; partial_beam_blockage:long_name = "Partial Beam Block Fraction" ; partial_beam_blockage:units = "unitless" ; partial_beam_blockage:standard_name = "partial_beam_block" ; partial_beam_blockage:comment = "Partial beam block fraction due to terrain." ; partial_beam_blockage:coordinates = "elevation azimuth range" ; double cumulative_beam_blockage(time, range) ; cumulative_beam_blockage:long_name = "Cumulative Beam Block Fraction" ; cumulative_beam_blockage:units = "unitless" ; cumulative_beam_blockage:standard_name = "cumulative_beam_block" ; cumulative_beam_blockage:comment = "Cumulative beam block fraction due to terrain." ; cumulative_beam_blockage:coordinates = "elevation azimuth range" ; double simulated_velocity(time, range) ; simulated_velocity:long_name = "Simulated mean doppler velocity" ; simulated_velocity:standard_name = "radial_velocity_of_scatterers_away_from_instrument" ; simulated_velocity:coordinates = "elevation azimuth range" ; simulated_velocity:units = "m/s" ; float corrected_velocity(time, range) ; corrected_velocity:_FillValue = -32767.f ; corrected_velocity:long_name = "Corrected mean doppler velocity" ; corrected_velocity:standard_name = "corrected_radial_velocity_of_scatterers_away_from_instrument" ; corrected_velocity:coordinates = "elevation azimuth range" ; corrected_velocity:valid_min = -16.492 ; corrected_velocity:valid_max = 16.492 ; corrected_velocity:units = "m/s" ; double unfolded_differential_phase(time, range) ; unfolded_differential_phase:_FillValue = -32767. ; unfolded_differential_phase:units = "degree" ; unfolded_differential_phase:coordinates = "elevation azimuth range" ; unfolded_differential_phase:standard_name = "radar_differential_phase_hv" ; unfolded_differential_phase:long_name = "Unfolded Differential Phase" ; double corrected_differential_phase(time, range) ; corrected_differential_phase:_FillValue = -32767. ; corrected_differential_phase:long_name = "Uncorrected Differential Phase" ; corrected_differential_phase:units = "degree" ; corrected_differential_phase:coordinates = "elevation azimuth range" ; corrected_differential_phase:standard_name = "radar_differential_phase_hv" ; corrected_differential_phase:valid_min = 0. ; corrected_differential_phase:valid_max = 400. ; double filtered_corrected_differential_phase(time, range) ; filtered_corrected_differential_phase:_FillValue = -32767. ; filtered_corrected_differential_phase:units = "degree" ; filtered_corrected_differential_phase:coordinates = "elevation azimuth range" ; filtered_corrected_differential_phase:standard_name = "radar_differential_phase_hv" ; filtered_corrected_differential_phase:valid_min = 0. ; filtered_corrected_differential_phase:valid_max = 400. ; filtered_corrected_differential_phase:long_name = "Filtered Corrected Differential Phase" ; double corrected_specific_diff_phase(time, range) ; corrected_specific_diff_phase:_FillValue = -9999. ; corrected_specific_diff_phase:long_name = "Specific differential phase (KDP)" ; corrected_specific_diff_phase:units = "degree/km" ; corrected_specific_diff_phase:coordinates = "elevation azimuth range" ; corrected_specific_diff_phase:standard_name = "radar_specific_differential_phase_hv" ; double filtered_corrected_specific_diff_phase(time, range) ; filtered_corrected_specific_diff_phase:_FillValue = -9999. ; filtered_corrected_specific_diff_phase:units = "degree/km" ; filtered_corrected_specific_diff_phase:coordinates = "elevation azimuth range" ; filtered_corrected_specific_diff_phase:standard_name = "radar_specific_differential_phase_hv" ; filtered_corrected_specific_diff_phase:long_name = "Filtered Corrected Specific differential phase (KDP)" ; double corrected_differential_reflectivity(time, range) ; corrected_differential_reflectivity:_FillValue = 1.e+20 ; corrected_differential_reflectivity:long_name = "Corrected differential reflectivity" ; corrected_differential_reflectivity:units = "dB" ; corrected_differential_reflectivity:standard_name = "corrected_log_differential_reflectivity_hv" ; corrected_differential_reflectivity:coordinates = "elevation azimuth range" ; double corrected_reflectivity(time, range) ; corrected_reflectivity:_FillValue = 1.e+20 ; corrected_reflectivity:long_name = "Corrected reflectivity" ; corrected_reflectivity:units = "dBZ" ; corrected_reflectivity:standard_name = "corrected_equivalent_reflectivity_factor" ; corrected_reflectivity:coordinates = "elevation azimuth range" ; float height_over_iso0(time, range) ; height_over_iso0:standard_name = "height" ; height_over_iso0:long_name = "Height of radar beam over freezing level" ; height_over_iso0:units = "m" ; double path_integrated_attenuation(time, range) ; path_integrated_attenuation:_FillValue = 1.e+20 ; path_integrated_attenuation:units = "dB" ; path_integrated_attenuation:long_name = "Path Integrated Attenuation" ; double path_integrated_differential_attenuation(time, range) ; path_integrated_differential_attenuation:_FillValue = 1.e+20 ; path_integrated_differential_attenuation:units = "dB" ; path_integrated_differential_attenuation:long_name = "Path Integrated Differential Attenuation" ; double rain_rate_A(time, range) ; rain_rate_A:_FillValue = 1.e+20 ; rain_rate_A:long_name = "rainfall_rate" ; rain_rate_A:units = "mm/hr" ; rain_rate_A:standard_name = "rainfall_rate" ; rain_rate_A:valid_min = 0. ; rain_rate_A:valid_max = 400. ; rain_rate_A:coordinates = "elevation azimuth range" ; rain_rate_A:least_significant_digit = 1L ; 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" ; int sweep_number(sweep) ; sweep_number:_FillValue = -9999 ; sweep_number:long_name = "Sweep index number 0 based" ; sweep_number:units = "1" ; float fixed_angle(sweep) ; fixed_angle:_FillValue = -9999.f ; fixed_angle:long_name = "Ray target fixed angle" ; fixed_angle:units = "degree" ; int sweep_start_ray_index(sweep) ; sweep_start_ray_index:_FillValue = -9999 ; sweep_start_ray_index:long_name = "Index of first ray in sweep" ; sweep_start_ray_index:units = "1" ; int sweep_end_ray_index(sweep) ; sweep_end_ray_index:_FillValue = -9999 ; sweep_end_ray_index:long_name = "Index of last ray in sweep" ; sweep_end_ray_index:units = "1" ; char sweep_mode(sweep, string_length) ; sweep_mode:long_name = "Scan mode for sweep" ; sweep_mode:units = "1" ; float prt(time) ; prt:_FillValue = -9999.f ; prt:long_name = "Pulse repetition time" ; prt:units = "s" ; float nyquist_velocity(time) ; nyquist_velocity:_FillValue = -9999.f ; nyquist_velocity:long_name = "Unambiguous doppler velocity" ; nyquist_velocity:units = "m/s" ; nyquist_velocity:meta_group = "instrument_parameters" ; float latitude ; latitude:_FillValue = -9999.f ; latitude:long_name = "Latitude" ; latitude:units = "degree_N" ; latitude:standard_name = "latitude" ; latitude:valid_min = -90.f ; latitude:valid_max = 90.f ; float longitude ; longitude:_FillValue = -9999.f ; longitude:long_name = "Longitude" ; longitude:units = "degree_E" ; longitude:standard_name = "longitude" ; longitude:valid_min = -180.f ; longitude:valid_max = 180.f ; float altitude ; altitude:_FillValue = -9999.f ; altitude:long_name = "Altitude" ; altitude:units = "m" ; altitude:standard_name = "altitude" ; char time_coverage_start(string_length) ; time_coverage_start:long_name = "UTC time of first ray in the file" ; time_coverage_start:units = "unitless" ; char time_coverage_end(string_length) ; time_coverage_end:long_name = "UTC time of last ray in the file" ; time_coverage_end:units = "unitless" ; char time_reference(string_length) ; time_reference:long_name = "UTC time reference" ; time_reference:units = "unitless" ; int volume_number ; volume_number:long_name = "Volume number" ; volume_number:units = "unitless" ; // global attributes: :version = "2.0 lite" ; :developers = "Robert Jackson, ANL. Zachary Sherman, ANL." ; :command_line = " /home/zsherman/.conda/envs/cmac_env/lib/python3.7/site-packages/distributed/cli/dask_worker.py tcp://10.23.216.81:40519 --nthreads 6 --nprocs 6 --memory-limit 26.67GB --name 1 --nanny --death-timeout 60 --local-directory /localscratch/tmp.zsherman.879908.or-condo-pbs01 --no-dashboard --interface ib0" ; :field_names = "attenuation_corrected_differential_reflectivity, attenuation_corrected_differential_reflectivity_lag_1, attenuation_corrected_reflectivity_h, censor_mask, classification_mask, copol_correlation_coeff, differential_phase, differential_reflectivity, differential_reflectivity_lag_1, mean_doppler_velocity, mean_doppler_velocity_v, normalized_coherent_power, normalized_coherent_power_v, reflectivity, reflectivity_v, signal_to_noise_ratio_copolar_h, signal_to_noise_ratio_copolar_v, specific_attenuation, specific_differential_attenuation, specific_differential_phase, spectral_width, spectral_width_v, uncorrected_copol_correlation_coeff, uncorrected_differential_phase, uncorrected_differential_reflectivity, uncorrected_differential_reflectivity_lag_1, uncorrected_mean_doppler_velocity_h, uncorrected_mean_doppler_velocity_v, uncorrected_reflectivity_h, uncorrected_reflectivity_v, uncorrected_spectral_width_h, uncorrected_spectral_width_v, unthresholded_power_copolar_h, unthresholded_power_copolar_v, ground_clutter, clutter_masked_velocity, sounding_temperature, height, signal_to_noise_ratio, velocity_texture, gate_id, partial_beam_blockage, cumulative_beam_blockage, simulated_velocity, corrected_velocity, unfolded_differential_phase, corrected_differential_phase, filtered_corrected_differential_phase, corrected_specific_diff_phase, filtered_corrected_specific_diff_phase, corrected_differential_reflectivity, corrected_reflectivity, height_over_iso0, path_integrated_attenuation, path_integrated_differential_attenuation, rain_rate_A" ; :history = "created by zsherman on or-condo-c210.ornl.gov at 2020-10-02T13:10:27.931119 using Py-ART" ; :_NCProperties = "version=2,netcdf=4.7.4,hdf5=1.10.5" ; :data_level = "c1" ; :vap_name = "cmac" ; :translator = "Scott Collis, ANL" ; :mentors = "Bradley Isom, PNNL., Iosif Lindenmaier, PNNL." ; :references = "See CSAPR2 Instrument Handbook" ; :institution = "United States Department of Energy - Atmospheric Radiation Measurement (ARM) program" ; :source = "Atmospheric Radiation Measurement (ARM) program C-band Scanning ARM Precipitation Radar 2 (CSAPR2)" ; :Conventions = "CF/Radial instrument_parameters ARM-1.3" ; :comment = "This is highly experimental and initial data. There are many, known and unknown issues. Please do not use before contacting the Translator responsible scollis@anl.gov" ; :attributions = "This data is collected by the ARM Climate Research facility. Radar system is operated by the radar engineering team radar@arm.gov and the data is processed by the precipitation radar products team. LP code courtesy of Scott Giangrande, BNL." ; :known_issues = "False phidp jumps in insect regions. Still uses old Giangrande code." ; :platform_id = "csapr2cmacppi" ; :dod_version = "csapr2cmacppi-c1-1.0" ; :facility_id = "M1" ; :process_version = "CMAC 2.0" ; :input_datastream = "corcsapr2cfrppiqcM1.b1" ; :location_description = "Cordoba, Argentina; Mobile Facility" ; :doi = "10.5439/1668872" ; :site_id = "cor" ; }