Attributes { Latitude { String units "degrees_north"; Float32 valid_range -90.00000000, 90.00000000; Float32 _FillValue -999.0000000; String long_name "Geodetic Latitude"; String Parameter_Type "MODIS Input"; Int32 Cell_Along_Swath_Sampling 3, 2038, 5; Int32 Cell_Across_Swath_Sampling 3, 1348, 5; String Geolocation_Pointer "Internal geolocation arrays"; } Longitude { String units "degrees_east"; Float32 valid_range -180.0000000, 180.0000000; Float32 _FillValue -999.0000000; String long_name "Geodetic Longitude"; String Parameter_Type "MODIS Input"; Int32 Cell_Along_Swath_Sampling 3, 2038, 5; Int32 Cell_Across_Swath_Sampling 3, 1348, 5; String Geolocation_Pointer "Internal geolocation arrays"; } Latitude_1 { String units "degrees_north"; String long_name "Latitude_1"; } Longitude_1 { String units "degrees_east"; String long_name "Longitude_1"; } Band_Ratio { String units "level"; String long_name "Band_Ratio(fake)"; } Band_Forcing { String units "level"; String long_name "Band_Forcing(fake)"; } Band_Difference { String units "level"; String long_name "Band_Difference(fake)"; } Radius_Difference { String units "level"; String long_name "Radius_Difference(fake)"; } QA_Parameter_5km { String units "level"; String long_name "QA_Parameter_5km(fake)"; } QA_Parameter_1km { String units "level"; String long_name "QA_Parameter_1km(fake)"; } Cloud_Mask_1km_Num_Bytes { String units "level"; String long_name "Cloud_Mask_1km_Num_Bytes(fake)"; } Band_Number { String long_name "MODIS Band Number"; String units "none"; String Geolocation_Pointer "Geolocation data not applicable"; } Statistics_1km { Float32 _FillValue -9999.000000; String long_name "Granule Statistics for parameters at 1x1 resolution"; String units "see description attribute"; String Geolocation_Pointer "Geolocation data not applicable"; String description " Statistics_1km: 1. Successful Retrieval Rate (%) 2. Land Cover Fraction (%) 3. Water Cover Fraction (%) 4. Snow Cover Fraction (%) 5. Cloud Cover Fraction (%) 6. Water Cloud Detected (%) 7. Ice Cloud Detected (%) 8. Mean of Water Cloud Optical Thickness 9. Standard Deviation of Water Cloud Optical Thickness 10.Mean of Ice Cloud Optical Thickness 11.Standard Deviation of Ice Cloud Optical Thickness 12.Mean of Water Cloud Effective Particle Radius (microns) 13.Standard Deviation of Water Cloud Effective Particle Radius (microns) 14.Mean of Ice Cloud Effective Diameter (microns) 15.Standard Deviation of Ice Cloud Effective Diameter (microns) "; } Scan_Start_Time { String coordinates "Latitude Longitude"; Float64 valid_range 0.0000000000000000, 3155800000.0000000; Float64 _FillValue -999.90002441406250; String long_name "TAI time at start of scan replicated across the swath"; String units "seconds since 1993-1-1 00:00:00.0 0"; String Parameter_Type "MODIS Input"; Int32 Cell_Along_Swath_Sampling 3, 2038, 5; Int32 Cell_Across_Swath_Sampling 3, 1348, 5; String Geolocation_Pointer "Geolocation data not applicable"; Float64 scale_factor 1.0000000000000000; Float64 add_offset 0.0000000000000000; } Solar_Zenith { String coordinates "Latitude Longitude"; Int16 valid_range 0, 18000; Int16 _FillValue -32768; String long_name "Solar Zenith Angle, Cell to Sun"; String units "degrees"; String Parameter_Type "MODIS Input"; Int32 Cell_Along_Swath_Sampling 3, 2038, 5; Int32 Cell_Across_Swath_Sampling 3, 1348, 5; String Geolocation_Pointer "Internal geolocation arrays"; Float64 scale_factor 0.010000000000000000; Float64 add_offset 0.0000000000000000; } Solar_Azimuth { String coordinates "Latitude Longitude"; Int16 valid_range -18000, 18000; Int16 _FillValue -32768; String long_name "Solar Azimuth Angle, Cell to Sun"; String units "degrees"; String Parameter_Type "MODIS Input"; Int32 Cell_Along_Swath_Sampling 3, 2038, 5; Int32 Cell_Across_Swath_Sampling 3, 1348, 5; String Geolocation_Pointer "Internal geolocation arrays"; Float64 scale_factor 0.010000000000000000; Float64 add_offset 0.0000000000000000; } Sensor_Zenith { String coordinates "Latitude Longitude"; Int16 valid_range 0, 18000; Int16 _FillValue -32768; String long_name "Sensor Zenith Angle, Cell to Sensor"; String units "degrees"; String Parameter_Type "MODIS Input"; Int32 Cell_Along_Swath_Sampling 3, 2038, 5; Int32 Cell_Across_Swath_Sampling 3, 1348, 5; String Geolocation_Pointer "Internal geolocation arrays"; Float64 scale_factor 0.010000000000000000; Float64 add_offset 0.0000000000000000; } Sensor_Azimuth { String coordinates "Latitude Longitude"; Int16 valid_range -18000, 18000; Int16 _FillValue -32768; String long_name "Sensor Azimuth Angle, Cell to Sensor"; String units "degrees"; String Parameter_Type "MODIS Input"; Int32 Cell_Along_Swath_Sampling 3, 2038, 5; Int32 Cell_Across_Swath_Sampling 3, 1348, 5; String Geolocation_Pointer "Internal geolocation arrays"; Float64 scale_factor 0.010000000000000000; Float64 add_offset 0.0000000000000000; } Brightness_Temperature { String coordinates "Band_Number Latitude Longitude"; Int16 valid_range 0, 20000; Int16 _FillValue -32768; String long_name "Brightness Temperature"; String units "K"; String Parameter_Type "MODIS Input"; Int32 Cell_Along_Swath_Sampling 3, 2038, 5; Int32 Cell_Across_Swath_Sampling 3, 1348, 5; String Geolocation_Pointer "Internal geolocation arrays"; Float64 scale_factor 0.010000000000000000; Float64 add_offset 150.00000000000000; } Surface_Temperature { String coordinates "Latitude Longitude"; Int16 valid_range 0, 20000; Int16 _FillValue -32768; String long_name "Surface Temperature"; String units "K"; String Parameter_Type "Non MODIS Input"; Int32 Cell_Along_Swath_Sampling 3, 2038, 5; Int32 Cell_Across_Swath_Sampling 3, 1348, 5; String Geolocation_Pointer "Internal geolocation arrays"; Float64 scale_factor 0.010000000000000000; Float64 add_offset 150.00000000000000; } Surface_Pressure { String coordinates "Latitude Longitude"; Int16 valid_range 8000, 11000; Int16 _FillValue -32768; String long_name "Surface Pressure"; String units "hPa"; String Parameter_Type "Non MODIS Input"; Int32 Cell_Along_Swath_Sampling 3, 2038, 5; Int32 Cell_Across_Swath_Sampling 3, 1348, 5; String Geolocation_Pointer "Internal geolocation arrays"; Float64 scale_factor 0.10000000000000001; Float64 add_offset 0.0000000000000000; } Processing_Flag { String coordinates "Latitude Longitude"; Int32 valid_range 0, 3; Int32 _FillValue 127; String long_name "Cloud Retrieval Method Flag"; String units "none"; String Parameter_Type "Output"; Int32 Cell_Along_Swath_Sampling 3, 2038, 5; Int32 Cell_Across_Swath_Sampling 3, 1348, 5; String Geolocation_Pointer "Internal geolocation arrays"; Float64 scale_factor 1.0000000000000000; Float64 add_offset 0.0000000000000000; } Cloud_Height_Method { String coordinates "Latitude Longitude"; Int32 valid_range 1, 6; Int32 _FillValue 127; String long_name "Cloud Height Method"; String units "none"; String Parameter_Type "Output"; Int32 Cell_Along_Swath_Sampling 3, 2038, 5; Int32 Cell_Across_Swath_Sampling 3, 1348, 5; String Geolocation_Pointer "Internal geolocation arrays"; Float64 scale_factor 1.0000000000000000; Float64 add_offset 0.0000000000000000; } Cloud_Top_Pressure { String coordinates "Latitude Longitude"; Int16 valid_range 10, 11000; Int16 _FillValue -32768; String long_name "Cloud Top Pressure"; String units "hPa"; String Parameter_Type "Output"; Int32 Cell_Along_Swath_Sampling 3, 2038, 5; Int32 Cell_Across_Swath_Sampling 3, 1348, 5; String Geolocation_Pointer "Internal geolocation arrays"; Float64 scale_factor 0.10000000000000001; Float64 add_offset 0.0000000000000000; } Cloud_Top_Pressure_Night { String coordinates "Latitude Longitude"; Int16 valid_range 10, 11000; Int16 _FillValue -32768; String long_name "Cloud Top Pressure Night"; String units "hPa"; String Parameter_Type "Output"; Int32 Cell_Along_Swath_Sampling 3, 2038, 5; Int32 Cell_Across_Swath_Sampling 3, 1348, 5; String Geolocation_Pointer "Internal geolocation arrays"; Float64 scale_factor 0.10000000000000001; Float64 add_offset 0.0000000000000000; } Cloud_Top_Pressure_Day { String coordinates "Latitude Longitude"; Int16 valid_range 10, 11000; Int16 _FillValue -32768; String long_name "Cloud Top Pressure Day"; String units "hPa"; String Parameter_Type "Output"; Int32 Cell_Along_Swath_Sampling 3, 2038, 5; Int32 Cell_Across_Swath_Sampling 3, 1348, 5; String Geolocation_Pointer "Internal geolocation arrays"; Float64 scale_factor 0.10000000000000001; Float64 add_offset 0.0000000000000000; } Cloud_Top_Temperature { String coordinates "Latitude Longitude"; Int16 valid_range 0, 20000; Int16 _FillValue -32768; String long_name "Cloud Top Temperature"; String units "K"; String Parameter_Type "Output"; Int32 Cell_Along_Swath_Sampling 3, 2038, 5; Int32 Cell_Across_Swath_Sampling 3, 1348, 5; String Geolocation_Pointer "Internal geolocation arrays"; Float64 scale_factor 0.010000000000000000; Float64 add_offset 150.00000000000000; } Cloud_Top_Temperature_Night { String coordinates "Latitude Longitude"; Int16 valid_range 0, 20000; Int16 _FillValue -32768; String long_name "Cloud Top Temperature Night"; String units "K"; String Parameter_Type "Output"; Int32 Cell_Along_Swath_Sampling 3, 2038, 5; Int32 Cell_Across_Swath_Sampling 3, 1348, 5; String Geolocation_Pointer "Internal geolocation arrays"; Float64 scale_factor 0.010000000000000000; Float64 add_offset 150.00000000000000; } Cloud_Top_Temperature_Day { String coordinates "Latitude Longitude"; Int16 valid_range 0, 20000; Int16 _FillValue -32768; String long_name "Cloud Top Temperature Day"; String units "K"; String Parameter_Type "Output"; Int32 Cell_Along_Swath_Sampling 3, 2038, 5; Int32 Cell_Across_Swath_Sampling 3, 1348, 5; String Geolocation_Pointer "Internal geolocation arrays"; Float64 scale_factor 0.010000000000000000; Float64 add_offset 150.00000000000000; } Tropopause_Height { String coordinates "Latitude Longitude"; Int16 valid_range 10, 11000; Int16 _FillValue -32768; String long_name "Tropopause Height"; String units "hPa"; String Parameter_Type "Output"; Int32 Cell_Along_Swath_Sampling 3, 2038, 5; Int32 Cell_Across_Swath_Sampling 3, 1348, 5; String Geolocation_Pointer "Internal geolocation arrays"; Float64 scale_factor 0.10000000000000001; Float64 add_offset 0.0000000000000000; } Cloud_Fraction { String coordinates "Latitude Longitude"; Int32 valid_range 0, 100; Int32 _FillValue 127; String long_name "Cloud Fraction"; String units "none"; String Parameter_Type "Output"; Int32 Cell_Along_Swath_Sampling 3, 2038, 5; Int32 Cell_Across_Swath_Sampling 3, 1348, 5; String Geolocation_Pointer "Internal geolocation arrays"; Float64 scale_factor 0.010000000000000000; Float64 add_offset 0.0000000000000000; } Cloud_Fraction_Night { String coordinates "Latitude Longitude"; Int32 valid_range 0, 100; Int32 _FillValue 127; String long_name "Cloud Fraction Night"; String units "none"; String Parameter_Type "Output"; Int32 Cell_Along_Swath_Sampling 3, 2038, 5; Int32 Cell_Across_Swath_Sampling 3, 1348, 5; String Geolocation_Pointer "Internal geolocation arrays"; Float64 scale_factor 0.010000000000000000; Float64 add_offset 0.0000000000000000; } Cloud_Fraction_Day { String coordinates "Latitude Longitude"; Int32 valid_range 0, 100; Int32 _FillValue 127; String long_name "Cloud Fraction Day"; String units "none"; String Parameter_Type "Output"; Int32 Cell_Along_Swath_Sampling 3, 2038, 5; Int32 Cell_Across_Swath_Sampling 3, 1348, 5; String Geolocation_Pointer "Internal geolocation arrays"; Float64 scale_factor 0.010000000000000000; Float64 add_offset 0.0000000000000000; } Cloud_Effective_Emissivity { String coordinates "Latitude Longitude"; Int32 valid_range 0, 100; Int32 _FillValue 127; String long_name "Cloud Effective Emissivity"; String units "none"; String Parameter_Type "Output"; Int32 Cell_Along_Swath_Sampling 3, 2038, 5; Int32 Cell_Across_Swath_Sampling 3, 1348, 5; String Geolocation_Pointer "Internal geolocation arrays"; Float64 scale_factor 0.010000000000000000; Float64 add_offset 0.0000000000000000; } Cloud_Effective_Emissivity_Night { String coordinates "Latitude Longitude"; Int32 valid_range 0, 100; Int32 _FillValue 127; String long_name "Cloud Effective Emissivity Night"; String units "none"; String Parameter_Type "Output"; Int32 Cell_Along_Swath_Sampling 3, 2038, 5; Int32 Cell_Across_Swath_Sampling 3, 1348, 5; String Geolocation_Pointer "Internal geolocation arrays"; Float64 scale_factor 0.010000000000000000; Float64 add_offset 0.0000000000000000; } Cloud_Effective_Emissivity_Day { String coordinates "Latitude Longitude"; Int32 valid_range 0, 100; Int32 _FillValue 127; String long_name "Cloud Effective Emissivity Day"; String units "none"; String Parameter_Type "Output"; Int32 Cell_Along_Swath_Sampling 3, 2038, 5; Int32 Cell_Across_Swath_Sampling 3, 1348, 5; String Geolocation_Pointer "Internal geolocation arrays"; Float64 scale_factor 0.010000000000000000; Float64 add_offset 0.0000000000000000; } Cloud_Top_Pressure_Infrared { String coordinates "Latitude Longitude"; Int16 valid_range 10, 11000; Int16 _FillValue -32768; String long_name "Cloud Top Pressure from IR Window"; String units "hPa"; String Parameter_Type "Output"; Int32 Cell_Along_Swath_Sampling 3, 2038, 5; Int32 Cell_Across_Swath_Sampling 3, 1348, 5; String Geolocation_Pointer "Internal geolocation arrays"; Float64 scale_factor 0.10000000000000001; Float64 add_offset 0.0000000000000000; } Spectral_Cloud_Forcing { String coordinates "Band_Forcing Latitude Longitude"; Int16 valid_range -2000, 2000; Int16 _FillValue -32768; String long_name "Spectral Cloud Forcing"; String units "Watts/meter2/steradian/micron"; String Parameter_Type "Output"; Int32 Cell_Along_Swath_Sampling 3, 2038, 5; Int32 Cell_Across_Swath_Sampling 3, 1348, 5; String Geolocation_Pointer "Internal geolocation arrays"; Float64 scale_factor 0.010000000000000000; Float64 add_offset 0.0000000000000000; } Cloud_Top_Pressure_From_Ratios { String coordinates "Band_Ratio Latitude Longitude"; Int16 valid_range 10, 11000; Int16 _FillValue -32768; String long_name "Cloud Top Pressure from Ratios (36/35, 35/34, 35/33, 34/33, 33/31)"; String units "hPa"; String Parameter_Type "Output"; Int32 Cell_Along_Swath_Sampling 3, 2038, 5; Int32 Cell_Across_Swath_Sampling 3, 1348, 5; String Geolocation_Pointer "Internal geolocation arrays"; Float64 scale_factor 0.10000000000000001; Float64 add_offset 0.0000000000000000; } Surface_Type { String coordinates "Latitude Longitude"; Int16 valid_range 0, 200; Int16 _FillValue -32768; String long_name "Surface Type Based on Emissivity"; String units "none"; String Parameter_Type "Non MODIS Input"; Int32 Cell_Along_Swath_Sampling 3, 2038, 5; Int32 Cell_Across_Swath_Sampling 3, 1348, 5; String Geolocation_Pointer "Internal geolocation arrays"; Float64 scale_factor 1.0000000000000000; Float64 add_offset 0.0000000000000000; } Radiance_Variance { String coordinates "Band_Number Latitude Longitude"; Int16 valid_range 0, 20; Int16 _FillValue -32768; String long_name "Radiance Variance"; String units "Watts/meter2/steradian/micron"; String Parameter_Type "Output"; Int32 Cell_Along_Swath_Sampling 3, 2038, 5; Int32 Cell_Across_Swath_Sampling 3, 1348, 5; String Geolocation_Pointer "Internal geolocation arrays"; Float64 scale_factor 0.010000000000000000; Float64 add_offset 0.0000000000000000; } Brightness_Temperature_Difference { String coordinates "Band_Difference Latitude Longitude"; Int16 valid_range -2000, 30000; Int16 _FillValue -32768; String long_name "Brightness Temperature Difference (29-31, 31-32)"; String units "K"; String Parameter_Type "Output"; Int32 Cell_Along_Swath_Sampling 3, 2038, 5; Int32 Cell_Across_Swath_Sampling 3, 1348, 5; String Geolocation_Pointer "Internal geolocation arrays"; Float64 scale_factor 0.010000000000000000; Float64 add_offset 0.0000000000000000; } Cloud_Phase_Infrared { String coordinates "Latitude Longitude"; Int32 valid_range 0, 6; Int32 _FillValue 127; String long_name "Cloud Phase Infrared"; String units "none"; String Parameter_Type "Output"; Int32 Cell_Along_Swath_Sampling 3, 2038, 5; Int32 Cell_Across_Swath_Sampling 3, 1348, 5; String Geolocation_Pointer "Internal geolocation arrays"; Float64 scale_factor 1.0000000000000000; Float64 add_offset 0.0000000000000000; } Cloud_Phase_Infrared_Night { String coordinates "Latitude Longitude"; Int32 valid_range 0, 6; Int32 _FillValue 127; String long_name "Cloud Phase Infrared Night"; String units "none"; String Parameter_Type "Output"; Int32 Cell_Along_Swath_Sampling 3, 2038, 5; Int32 Cell_Across_Swath_Sampling 3, 1348, 5; String Geolocation_Pointer "Internal geolocation arrays"; Float64 scale_factor 1.0000000000000000; Float64 add_offset 0.0000000000000000; } Cloud_Phase_Infrared_Day { String coordinates "Latitude Longitude"; Int32 valid_range 0, 6; Int32 _FillValue 127; String long_name "Cloud Phase Infrared Day"; String units "none"; String Parameter_Type "Output"; Int32 Cell_Along_Swath_Sampling 3, 2038, 5; Int32 Cell_Across_Swath_Sampling 3, 1348, 5; String Geolocation_Pointer "Internal geolocation arrays"; Float64 scale_factor 1.0000000000000000; Float64 add_offset 0.0000000000000000; } Cloud_Effective_Radius { String coordinates "Latitude_1 Longitude_1"; Int16 valid_range 0, 10000; Int16 _FillValue -9999; String long_name "Cloud Particle Effective Radius two-channel retrieval using band 7 and either band 1, 2, or 5 (specified in Quality_Assurance_1km)"; String units "micron"; String Parameter_Type "Output"; Int32 Cell_Along_Swath_Sampling 1, 2040, 1; Int32 Cell_Across_Swath_Sampling 1, 1354, 1; String Geolocation_Pointer "External MODIS geolocation product"; Float64 scale_factor 0.010000000000000000; Float64 add_offset 0.0000000000000000; } Cloud_Optical_Thickness { String coordinates "Latitude_1 Longitude_1"; Int16 valid_range 0, 10000; Int16 _FillValue -9999; String long_name "Cloud Optical Thickness two-channel retrieval using band 7 and either band 1, 2, or 5 (specified in Quality_Assurance_1km)"; String units "none"; String Parameter_Type "Output"; Int32 Cell_Along_Swath_Sampling 1, 2040, 1; Int32 Cell_Across_Swath_Sampling 1, 1354, 1; String Geolocation_Pointer "External MODIS geolocation product"; Float64 scale_factor 0.010000000000000000; Float64 add_offset 0.0000000000000000; } Cloud_Effective_Radius_1621 { String coordinates "Latitude_1 Longitude_1"; Int16 valid_range 0, 10000; Int16 _FillValue -9999; String long_name "Cloud Particle Effective Radius two-channel retrieval using band 7 and band 6"; String units "micron"; String Parameter_Type "Output"; Int32 Cell_Along_Swath_Sampling 1, 2040, 1; Int32 Cell_Across_Swath_Sampling 1, 1354, 1; String Geolocation_Pointer "External MODIS geolocation product"; Float64 scale_factor 0.010000000000000000; Float64 add_offset 0.0000000000000000; } Cloud_Optical_Thickness_1621 { String coordinates "Latitude_1 Longitude_1"; Int16 valid_range 0, 10000; Int16 _FillValue -9999; String long_name "Cloud Optical Thickness two-channel retrieval using band 7 and band 6"; String units "none"; String Parameter_Type "Output"; Int32 Cell_Along_Swath_Sampling 1, 2040, 1; Int32 Cell_Across_Swath_Sampling 1, 1354, 1; String Geolocation_Pointer "External MODIS geolocation product"; Float64 scale_factor 0.010000000000000000; Float64 add_offset 0.0000000000000000; } Effective_Radius_Difference { String coordinates "Radius_Difference Latitude_1 Longitude_1"; Int16 valid_range -10000, 10000; Int16 _FillValue -9999; String long_name "Cloud Particle Effective Radius two-channel retrieval using band 6 and band 20 differenced from band 7 retrieval and either band 1, 2, or 5 (specified in Quality_Assurance_1km). Plane 1 of SDS is band 6 - band 7 retrieval, Plane 2 is band 20 - band 7 retrieval."; String units "micron"; String Parameter_Type "Output"; Int32 Cell_Along_Swath_Sampling 1, 2040, 1; Int32 Cell_Across_Swath_Sampling 1, 1354, 1; String Geolocation_Pointer "External MODIS geolocation product"; Float64 scale_factor 0.010000000000000000; Float64 add_offset 0.0000000000000000; } Cloud_Water_Path { String coordinates "Latitude_1 Longitude_1"; Int16 valid_range 0, 10000; Int16 _FillValue -9999; String long_name "Column Water Path two-band retrieval using band 7 and either band 1, 2, or 5 (specified in Quality_Assurance_1km)"; String units "g/m^2"; String Parameter_Type "Output"; Int32 Cell_Along_Swath_Sampling 1, 2040, 1; Int32 Cell_Across_Swath_Sampling 1, 1354, 1; String Geolocation_Pointer "External MODIS geolocation product"; Float64 scale_factor 1.0000000000000000; Float64 add_offset 0.0000000000000000; } Cloud_Water_Path_1621 { String coordinates "Latitude_1 Longitude_1"; Int16 valid_range 0, 10000; Int16 _FillValue -9999; String long_name "Column Water Path two-band retrieval using band 7 and band 6"; String units "g/m^2"; String Parameter_Type "Output"; Int32 Cell_Along_Swath_Sampling 1, 2040, 1; Int32 Cell_Across_Swath_Sampling 1, 1354, 1; String Geolocation_Pointer "External MODIS geolocation product"; Float64 scale_factor 1.0000000000000000; Float64 add_offset 0.0000000000000000; } Cloud_Effective_Radius_Uncertainty { String coordinates "Latitude_1 Longitude_1"; Int16 valid_range 0, 20000; Int16 _FillValue -9999; String long_name "Cloud Effective Particle Radius Relative Uncertainty (Percent)"; String units "percent"; String Parameter_Type "Output"; Int32 Cell_Along_Swath_Sampling 1, 2040, 1; Int32 Cell_Across_Swath_Sampling 1, 1354, 1; String Geolocation_Pointer "External MODIS geolocation product"; Float64 scale_factor 0.010000000000000000; Float64 add_offset 0.0000000000000000; } Cloud_Optical_Thickness_Uncertainty { String coordinates "Latitude_1 Longitude_1"; Int16 valid_range 0, 20000; Int16 _FillValue -9999; String long_name "Cloud Optical Thickness Relative Uncertainty (Percent)"; String units "percent"; String Parameter_Type "Output"; Int32 Cell_Along_Swath_Sampling 1, 2040, 1; Int32 Cell_Across_Swath_Sampling 1, 1354, 1; String Geolocation_Pointer "External MODIS geolocation product"; Float64 scale_factor 0.010000000000000000; Float64 add_offset 0.0000000000000000; } Cloud_Water_Path_Uncertainty { String coordinates "Latitude_1 Longitude_1"; Int16 valid_range 0, 20000; Int16 _FillValue -9999; String long_name "Cloud Water Path Relative Uncertainty (Percent)"; String units "percent"; String Parameter_Type "Output"; Int32 Cell_Along_Swath_Sampling 1, 2040, 1; Int32 Cell_Across_Swath_Sampling 1, 1354, 1; String Geolocation_Pointer "External MODIS geolocation product"; Float64 scale_factor 0.010000000000000000; Float64 add_offset 0.0000000000000000; } Cloud_Effective_Radius_Uncertainty_1621 { String coordinates "Latitude_1 Longitude_1"; Int16 valid_range 0, 20000; Int16 _FillValue -9999; String long_name "Cloud Effective Particle Radius Relative Uncertainty (Percent) using band 7 and band 6"; String units "percent"; String Parameter_Type "Output"; Int32 Cell_Along_Swath_Sampling 1, 2040, 1; Int32 Cell_Across_Swath_Sampling 1, 1354, 1; String Geolocation_Pointer "External MODIS geolocation product"; Float64 scale_factor 0.010000000000000000; Float64 add_offset 0.0000000000000000; } Cloud_Optical_Thickness_Uncertainty_1621 { String coordinates "Latitude_1 Longitude_1"; Int16 valid_range 0, 20000; Int16 _FillValue -9999; String long_name "Cloud Optical Thickness Relative Uncertainty (Percent) using band 7 and band 6"; String units "percent"; String Parameter_Type "Output"; Int32 Cell_Along_Swath_Sampling 1, 2040, 1; Int32 Cell_Across_Swath_Sampling 1, 1354, 1; String Geolocation_Pointer "External MODIS geolocation product"; Float64 scale_factor 0.010000000000000000; Float64 add_offset 0.0000000000000000; } Cloud_Water_Path_Uncertainty_1621 { String coordinates "Latitude_1 Longitude_1"; Int16 valid_range 0, 20000; Int16 _FillValue -9999; String long_name "Cloud Water Path Relative Uncertainty (Percent) using band 7 and band 6"; String units "percent"; String Parameter_Type "Output"; Int32 Cell_Along_Swath_Sampling 1, 2040, 1; Int32 Cell_Across_Swath_Sampling 1, 1354, 1; String Geolocation_Pointer "External MODIS geolocation product"; Float64 scale_factor 0.010000000000000000; Float64 add_offset 0.0000000000000000; } Cloud_Phase_Optical_Properties { String coordinates "Latitude_1 Longitude_1"; Int16 valid_range 0, 4; Int16 _FillValue 0; String long_name "Cloud Phase Determination Used in Optical Thickness/Effective Radius Retrieval"; String units "none"; String Parameter_Type "Output"; Int32 Cell_Along_Swath_Sampling 1, 2040, 1; Int32 Cell_Across_Swath_Sampling 1, 1354, 1; String Geolocation_Pointer "External MODIS geolocation product"; Float64 scale_factor 1.0000000000000000; Float64 add_offset 0.0000000000000000; } Cloud_Multi_Layer_Flag { String coordinates "Latitude_1 Longitude_1"; Int16 valid_range 0, 9; Int16 _FillValue 0; String long_name "Cloud Multi Layer Identification From MODIS Shortwave Observations"; String units "none"; String Parameter_Type "Output"; Int32 Cell_Along_Swath_Sampling 1, 2040, 1; Int32 Cell_Across_Swath_Sampling 1, 1354, 1; String Geolocation_Pointer "External MODIS geolocation product"; String description " Flag for multi-layer multi-phase cloud situations. Values 2 through 8 indicate the success of various multi-layer cloud tests. Value of 0 indicates no retrieval, value of 1 indicates single layer cloud. The other values are of increasing confidence level. The value of 2 is of absolute lowest confidence and often can be ignored as it is a result of cloud phase comparison test, which is not always trustworthy. "; Float64 scale_factor 1.0000000000000000; Float64 add_offset 0.0000000000000000; } Cirrus_Reflectance { String coordinates "Latitude_1 Longitude_1"; Int16 valid_range 0, 8000; Int16 _FillValue -9999; String long_name "Cirrus Reflectance"; String units "none"; String Parameter_Type "Output"; Int32 Cell_Along_Swath_Sampling 1, 2040, 1; Int32 Cell_Across_Swath_Sampling 1, 1354, 1; String Geolocation_Pointer "External MODIS geolocation product"; Float64 scale_factor 0.00020000000000000001; Float64 add_offset 0.0000000000000000; } Cirrus_Reflectance_Flag { String coordinates "Latitude_1 Longitude_1"; Int32 valid_range 0, 3; Int32 _FillValue -99; String long_name "Cirrus Reflectance Flag"; String units "none"; String Parameter_Type "Output"; Int32 Cell_Along_Swath_Sampling 1, 2040, 1; Int32 Cell_Across_Swath_Sampling 1, 1354, 1; String Geolocation_Pointer "External MODIS geolocation product"; String description "0: bad data, 1: non-cirrus pixel, 2: cirrus pixel, 3: contrail pixel "; Float64 scale_factor 1.0000000000000000; Float64 add_offset 0.0000000000000000; } Cloud_Mask_5km { String coordinates "Latitude Longitude"; Int32 valid_range 0, -1; Int32 _FillValue 0; String long_name "MODIS Cloud Mask, First Byte"; String units "none"; String Parameter_Type "MODIS Input"; Int32 Cell_Along_Swath_Sampling 3, 2038, 5; Int32 Cell_Across_Swath_Sampling 3, 1348, 5; String Geolocation_Pointer "Internal geolocation arrays"; String description " Bit fields within each byte are numbered from the left: 7, 6, 5, 4, 3, 2, 1, 0. The left-most bit (bit 7) is the most significant bit. The right-most bit (bit 0) is the least significant bit. bit field Description Key --------- ----------- --- 0 Cloud Mask Flag 0 = Not determined 1 = Determined 2, 1 Unobstructed FOV Quality Flag 00 = Cloudy 01 = Uncertain 10 = Probably Clear 11 = Confident Clear PROCESSING PATH --------------- 3 Day or Night Path 0 = Night / 1 = Day 4 Sunglint Path 0 = Yes / 1 = No 5 Snow/Ice Background Path 0 = Yes / 1 = No 7, 6 Land or Water Path 00 = Water 01 = Coastal 10 = Desert 11 = Land "; Float64 scale_factor 1.0000000000000000; Float64 add_offset 0.0000000000000000; } Quality_Assurance_5km { String coordinates "Latitude Longitude QA_Parameter_5km"; Int32 valid_range 0, -1; Int32 _FillValue 0; String long_name "Quality Assurance at 5x5 Resolution"; String units "none"; String Parameter_Type "Output"; Int32 Cell_Along_Swath_Sampling 3, 2038, 5; Int32 Cell_Across_Swath_Sampling 3, 1348, 5; String Geolocation_Pointer "Internal geolocation arrays"; String description "See MODIS atmosphere QA plan for details "; Float64 scale_factor 1.0000000000000000; Float64 add_offset 0.0000000000000000; } Cloud_Mask_1km { String coordinates "Latitude_1 Longitude_1 Cloud_Mask_1km_Num_Bytes"; Int32 valid_range 0, -1; Int32 _FillValue 0; String long_name "MODIS Cloud Mask, L2 MOD06 QA Plan"; String units "none"; String Parameter_Type "MODIS Input"; Int32 Cell_Along_Swath_Sampling 1, 2040, 1; Int32 Cell_Across_Swath_Sampling 1, 1354, 1; String Geolocation_Pointer "External MODIS geolocation product"; String description "See MODIS atmosphere QA plan for details "; Float64 scale_factor 1.0000000000000000; Float64 add_offset 0.0000000000000000; } Quality_Assurance_1km { String coordinates "Latitude_1 Longitude_1 QA_Parameter_1km"; Int32 valid_range 0, -1; Int32 _FillValue 0; String long_name "Quality Assurance at 1x1 Resolution"; String units "none"; String Parameter_Type "Output"; Int32 Cell_Along_Swath_Sampling 1, 2040, 1; Int32 Cell_Across_Swath_Sampling 1, 1354, 1; String Geolocation_Pointer "External MODIS geolocation product"; String description " Quality Assurance 1km reports on Cloud Optical Properties algorithm performance. Refer to MOD_PR06OD User Documentation and the MODIS atmosphere QA plan for complete descriptions and coding examples. Bit fields within each byte are numbered from the left: 7, 6, 5, 4, 3, 2, 1, 0. The left-most bit (bit 7) is the most significant bit. The right-most bit (bit 0) is the least significant bit. Byte 0 ------ bit field Description Key --------- ----------- --- Byte 0 ----------------------------------------------------------------- 0 Optical Thickness General QA 0 = Not Useful 1 = Useful 2,1 Optical Thickness Confidence QA 00 = No confidence 01 = Marginal 10 = Good 11 = Very Good 4,3 Optical Thickness out-of-bounds 00 = OT < 100 01 = 100 < OT < 150 10 = OT > 150 11 = Albedo too high 5 Effective Radius General QA 0 = Not Useful 1 = Useful 7,6 Effective Radius Confidence QA 00 = No confidence 01 = Marginal 10 = Good 11 = Very Good Byte 1 ----------------------------------------------------------------- 0 Liquid Water Path General QA 0 = Not Useful 1 = Useful 2,1 Liquid Water Path Confidence QA 00 = No confidence 01 = Marginal 10 = Good 11 = Very Good 5,4,3 1621 Retrieval processing path 000 = No Cloud Mask 001 = No Cloud 010 = Water Cloud 011 = Ice Cloud 100 = Unknown Cloud 6 1621 Retrieval Outcome 0 = Failed/No attempt 1 = Successful Byte 2 ----------------------------------------------------------------- 2,1,0 Primary retrieval processing path 000 = No Cloud Mask 001 = No Cloud 010 = Water Cloud 011 = Ice Cloud 100 = Unknown Cloud 3 Retrieval Outcome 0 = Failed/No attempt 1 = Successful 4 Rayleigh Correction 0 = No Correction 1 = Correction 5 Water Vapor Correction 0 = No Correction 1 = Correction 7,6 Band Used for Optical Thickness Retrieval 00 = No attempt 01 = .645 micron 10 = .858 micron 11 = 1.24 micron Byte 3 ----------------------------------------------------------------- 0 Optical Thickness 1621 General QA 0 = Not Useful 1 = Useful 2,1 Optical Thickness 1621 Condifence QA 00 = No confidence 01 = Marginal 10 = Good 11 = Very Good 3 Effective Radius 1621 General QA 0 = Not Useful 1 = Useful 5,4 Effective Radius 1621 Confidence QA 00 = No confidence 01 = Marginal 10 = Good 11 = Very Good 6,7 Clear Sky Restoral Type QA 00 = Not Restored 01 = Restored Via Edge detection 10 = Restored Via Spatial Variance 11 = Restored Via 250m Tests Byte 4 ----------------------------------------------------------------- 0 Water Path 1621 General QA 0 = Not Useful 1 = Useful 2,1 Water Path 1621 Confidence QA 00 = No confidence 01 = Marginal 10 = Good 11 = Very Good 5,4,3 Multi Layer Cloud Flag 000 = Cloud Mask Undet 001 = Decision tree stop 010 = single layer: water 011 = multi layer: water 100 = single layer: ice 101 = multi layer: ice 110 = single layer: unknown 111 = multi layer: unknown "; 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