Attributes { Latitude { String units "degrees_north"; Float32 valid_range -90.00000000, 90.00000000; Float32 _FillValue -999.9000244; String long_name "Geodetic Latitude"; String Parameter_Type "MODIS Input"; Int32 Cell_Along_Swath_Sampling 3, 2028, 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 -999.9000244; String long_name "Geodetic Longitude"; String Parameter_Type "MODIS Input"; Int32 Cell_Along_Swath_Sampling 3, 2028, 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"; } Cell_Across_Swath_hkm { String units "level"; String long_name "Cell_Across_Swath_hkm(fake)"; } Cell_Along_Swath_hkm { String units "level"; String long_name "Cell_Along_Swath_hkm(fake)"; } 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)"; } 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)"; } Cloud_Mask_5km_Num_Bytes { String units "level"; String long_name "Cloud_Mask_5km_Num_Bytes(fake)"; } RadTran_NWL { String units "level"; String long_name "RadTran_NWL(fake)"; } RadTran_NRE_Ice { String units "level"; String long_name "RadTran_NRE_Ice(fake)"; } RadTran_NRE_Liq { String units "level"; String long_name "RadTran_NRE_Liq(fake)"; } SPI_nband { String units "level"; String long_name "SPI_nband(fake)"; } RFM_nband { String units "level"; String long_name "RFM_nband(fake)"; } ACR_nband { String units "level"; String long_name "ACR_nband(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 "\\n 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.Mean of Ice Cloud Optical Thickness 10.Mean of Water Cloud Effective Particle Radius (microns) 11.Mean of Ice Cloud Effective Diameter (microns) 12.Mean Liquid Water Cloud Top Pressure (mb) 13.Mean Ice Cloud Top Pressure (mb) 14.Mean Undetermined Cloud Top Pressure (mb) 15.Mean Liquid Water Cloud Top Temperature (K) 16.Mean Ice Cloud Top Temperature (K) 17.Mean Undetermined Cloud Top Temperature (K) "; } Scan_Start_Time { String coordinates "Latitude Longitude"; Float64 valid_range 0.0000000000000000, 3155800064.0000000; 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, 2028, 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, 2028, 5; Int32 Cell_Across_Swath_Sampling 3, 1348, 5; String Geolocation_Pointer "Internal geolocation arrays"; Float64 scale_factor 0.0099999997764825821; Float64 add_offset 0.0000000000000000; } Solar_Zenith_Day { String coordinates "Latitude Longitude"; Int16 valid_range 0, 18000; Int16 _FillValue -32768; String long_name "Solar Zenith Angle, Cell to Sun, Day Data Only"; String units "degrees"; String Parameter_Type "MODIS Input"; Int32 Cell_Along_Swath_Sampling 3, 2028, 5; Int32 Cell_Across_Swath_Sampling 3, 1348, 5; String Geolocation_Pointer "Internal geolocation arrays"; Float64 scale_factor 0.0099999997764825821; Float64 add_offset 0.0000000000000000; } Solar_Zenith_Night { String coordinates "Latitude Longitude"; Int16 valid_range 0, 18000; Int16 _FillValue -32768; String long_name "Solar Zenith Angle, Cell to Sun, Night Data Only"; String units "none"; String Parameter_Type "MODIS Input"; Int32 Cell_Along_Swath_Sampling 3, 2028, 5; Int32 Cell_Across_Swath_Sampling 3, 1348, 5; String Geolocation_Pointer "Internal geolocation arrays"; Float64 scale_factor 0.0099999997764825821; 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, 2028, 5; Int32 Cell_Across_Swath_Sampling 3, 1348, 5; String Geolocation_Pointer "Internal geolocation arrays"; Float64 scale_factor 0.0099999997764825821; Float64 add_offset 0.0000000000000000; } Solar_Azimuth_Day { String coordinates "Latitude Longitude"; Int16 valid_range -18000, 18000; Int16 _FillValue -32768; String long_name "Solar Azimuth Angle, Cell to Sun, Day Data Only"; String units "degrees"; String Parameter_Type "MODIS Input"; Int32 Cell_Along_Swath_Sampling 3, 2028, 5; Int32 Cell_Across_Swath_Sampling 3, 1348, 5; String Geolocation_Pointer "Internal geolocation arrays"; Float64 scale_factor 0.0099999997764825821; Float64 add_offset 0.0000000000000000; } Solar_Azimuth_Night { String coordinates "Latitude Longitude"; Int16 valid_range -18000, 18000; Int16 _FillValue -32768; String long_name "Solar Azimuth Angle, Cell to Sun, Night Data Only"; String units "degrees"; String Parameter_Type "MODIS Input"; Int32 Cell_Along_Swath_Sampling 3, 2028, 5; Int32 Cell_Across_Swath_Sampling 3, 1348, 5; String Geolocation_Pointer "Internal geolocation arrays"; Float64 scale_factor 0.0099999997764825821; 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, 2028, 5; Int32 Cell_Across_Swath_Sampling 3, 1348, 5; String Geolocation_Pointer "Internal geolocation arrays"; Float64 scale_factor 0.0099999997764825821; Float64 add_offset 0.0000000000000000; } Sensor_Zenith_Day { String coordinates "Latitude Longitude"; Int16 valid_range 0, 18000; Int16 _FillValue -32768; String long_name "Sensor Zenith Angle, Cell to Sensor, Day Data Only"; String units "degrees"; String Parameter_Type "MODIS Input"; Int32 Cell_Along_Swath_Sampling 3, 2028, 5; Int32 Cell_Across_Swath_Sampling 3, 1348, 5; String Geolocation_Pointer "Internal geolocation arrays"; Float64 scale_factor 0.0099999997764825821; Float64 add_offset 0.0000000000000000; } Sensor_Zenith_Night { String coordinates "Latitude Longitude"; Int16 valid_range 0, 18000; Int16 _FillValue -32768; String long_name "Sensor Zenith Angle, Cell to Sensor, Night Data Only"; String units "degrees"; String Parameter_Type "MODIS Input"; Int32 Cell_Along_Swath_Sampling 3, 2028, 5; Int32 Cell_Across_Swath_Sampling 3, 1348, 5; String Geolocation_Pointer "Internal geolocation arrays"; Float64 scale_factor 0.0099999997764825821; 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, 2028, 5; Int32 Cell_Across_Swath_Sampling 3, 1348, 5; String Geolocation_Pointer "Internal geolocation arrays"; Float64 scale_factor 0.0099999997764825821; Float64 add_offset 0.0000000000000000; } Sensor_Azimuth_Day { String coordinates "Latitude Longitude"; Int16 valid_range -18000, 18000; Int16 _FillValue -32768; String long_name "Sensor Azimuth Angle, Cell to Sensor, Day Data Only"; String units "degrees"; String Parameter_Type "MODIS Input"; Int32 Cell_Along_Swath_Sampling 3, 2028, 5; Int32 Cell_Across_Swath_Sampling 3, 1348, 5; String Geolocation_Pointer "Internal geolocation arrays"; Float64 scale_factor 0.0099999997764825821; Float64 add_offset 0.0000000000000000; } Sensor_Azimuth_Night { String coordinates "Latitude Longitude"; Int16 valid_range -18000, 18000; Int16 _FillValue -32768; String long_name "Sensor Azimuth Angle, Cell to Sensor, Night Data Only"; String units "degrees"; String Parameter_Type "MODIS Input"; Int32 Cell_Along_Swath_Sampling 3, 2028, 5; Int32 Cell_Across_Swath_Sampling 3, 1348, 5; String Geolocation_Pointer "Internal geolocation arrays"; Float64 scale_factor 0.0099999997764825821; Float64 add_offset 0.0000000000000000; } Brightness_Temperature { String coordinates "Band_Number Latitude Longitude"; Int16 valid_range 0, 20000; Int16 _FillValue -32768; String long_name "Observed Brightness Temperature from Cloudy Averaged Radiances in a 5x5 1-km Pixel Region"; String units "K"; String Parameter_Type "MODIS Input"; Int32 Cell_Along_Swath_Sampling 3, 2028, 5; Int32 Cell_Across_Swath_Sampling 3, 1348, 5; String Geolocation_Pointer "Internal geolocation arrays"; Float64 scale_factor 0.0099999997764825821; Float64 add_offset 149.99999664723873; } Surface_Temperature { String coordinates "Latitude Longitude"; Int16 valid_range 0, 20000; Int16 _FillValue -32768; String long_name "Surface Temperature from Ancillary Data"; String units "K"; String Parameter_Type "Non MODIS Input"; Int32 Cell_Along_Swath_Sampling 3, 2028, 5; Int32 Cell_Across_Swath_Sampling 3, 1348, 5; String Geolocation_Pointer "Internal geolocation arrays"; Float64 scale_factor 0.0099999997764825821; Float64 add_offset 149.99999664723873; } Surface_Pressure { String coordinates "Latitude Longitude"; Int16 valid_range 8000, 11000; Int16 _FillValue -32768; String long_name "Surface Pressure from Ancillary Data"; String units "hPa"; String Parameter_Type "Non MODIS Input"; Int32 Cell_Along_Swath_Sampling 3, 2028, 5; Int32 Cell_Across_Swath_Sampling 3, 1348, 5; String Geolocation_Pointer "Internal geolocation arrays"; Float64 scale_factor 0.10000000149011612; Float64 add_offset 0.0000000000000000; } Cloud_Height_Method { String coordinates "Latitude Longitude"; Int32 valid_range 1, 6; Int32 _FillValue 127; String long_name "Index Indicating MODIS Bands Used for Cloud Top Pressure Retrieval"; String units "none"; String Parameter_Type "Output"; Int32 Cell_Along_Swath_Sampling 3, 2028, 5; Int32 Cell_Across_Swath_Sampling 3, 1348, 5; String Geolocation_Pointer "Internal geolocation arrays"; String description "\\n The values in this SDS are set to mean the following: 1 -- CO2-slicing retrieval, bands 36/35 2 -- CO2-slicing retrieval, bands 35/34 3 -- CO2-slicing retrieval, bands 35/33 4 -- CO2-slicing retrieval, bands 34/33 6 -- IR-window retrieval, band 31 "; Float64 scale_factor 1.0000000000000000; Float64 add_offset 0.0000000000000000; } Cloud_Top_Height { String coordinates "Latitude Longitude"; Int16 valid_range 0, 18000; Int16 _FillValue -32767; String long_name "Geopotential Height at Retrieved Cloud Top Pressure Level (rounded to nearest 50 m)"; String units "meters"; String Parameter_Type "Output"; Int32 Cell_Along_Swath_Sampling 3, 2028, 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_Height_Nadir { String coordinates "Latitude Longitude"; Int16 valid_range 0, 18000; Int16 _FillValue -32767; String long_name "Geopotential Height at Retrieved Cloud Top Pressure Level for Sensor Zenith (View) Angles <=32 Degrees (rounded to nearest 50 m)"; String units "meters"; String Parameter_Type "Output"; Int32 Cell_Along_Swath_Sampling 3, 2028, 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_Height_Nadir_Day { String coordinates "Latitude Longitude"; Int16 valid_range 0, 18000; Int16 _FillValue -32767; String long_name "Geopotential Height at Retrieved Cloud Top Pressure Level for Sensor Zenith (View) Angles <=32 Degrees, Day Data Only (rounded to nearest 50 m)"; String units "meters"; String Parameter_Type "Output"; Int32 Cell_Along_Swath_Sampling 3, 2028, 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_Height_Nadir_Night { String coordinates "Latitude Longitude"; Int16 valid_range 0, 18000; Int16 _FillValue -32767; String long_name "Geopotential Height at Retrieved Cloud Top Pressure Level for Sensor Zenith (View) Angles <=32 Degrees, Night Data Only (rounded to nearest 50 m)"; String units "meters"; String Parameter_Type "Output"; Int32 Cell_Along_Swath_Sampling 3, 2028, 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 Level (rounded to nearest 5 mb)"; String units "hPa"; String Parameter_Type "Output"; Int32 Cell_Along_Swath_Sampling 3, 2028, 5; Int32 Cell_Across_Swath_Sampling 3, 1348, 5; String Geolocation_Pointer "Internal geolocation arrays"; Float64 scale_factor 0.10000000149011612; Float64 add_offset 0.0000000000000000; } Cloud_Top_Pressure_Nadir { String coordinates "Latitude Longitude"; Int16 valid_range 10, 11000; Int16 _FillValue -32768; String long_name "Cloud Top Pressure Level for Sensor Zenith (View) Angles <= 32 Degrees (rounded to nearest 5 mb)"; String units "hPa"; String Parameter_Type "Output"; Int32 Cell_Along_Swath_Sampling 3, 2028, 5; Int32 Cell_Across_Swath_Sampling 3, 1348, 5; String Geolocation_Pointer "Internal geolocation arrays"; Float64 scale_factor 0.10000000149011612; 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 Level, Night Data Only (rounded to nearest 5 mb)"; String units "hPa"; String Parameter_Type "Output"; Int32 Cell_Along_Swath_Sampling 3, 2028, 5; Int32 Cell_Across_Swath_Sampling 3, 1348, 5; String Geolocation_Pointer "Internal geolocation arrays"; Float64 scale_factor 0.10000000149011612; Float64 add_offset 0.0000000000000000; } Cloud_Top_Pressure_Nadir_Night { String coordinates "Latitude Longitude"; Int16 valid_range 10, 11000; Int16 _FillValue -32768; String long_name "Cloud Top Pressure Level for Sensor Zenith (View) Angles <= 32 Degrees (rounded to nearest 5 mb), Night Data Only"; String units "hPa"; String Parameter_Type "Output"; Int32 Cell_Along_Swath_Sampling 3, 2028, 5; Int32 Cell_Across_Swath_Sampling 3, 1348, 5; String Geolocation_Pointer "Internal geolocation arrays"; Float64 scale_factor 0.10000000149011612; 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 Level, Day Only (rounded to nearest 5 mb)"; String units "hPa"; String Parameter_Type "Output"; Int32 Cell_Along_Swath_Sampling 3, 2028, 5; Int32 Cell_Across_Swath_Sampling 3, 1348, 5; String Geolocation_Pointer "Internal geolocation arrays"; Float64 scale_factor 0.10000000149011612; Float64 add_offset 0.0000000000000000; } Cloud_Top_Pressure_Nadir_Day { String coordinates "Latitude Longitude"; Int16 valid_range 10, 11000; Int16 _FillValue -32768; String long_name "Cloud Top Pressure Level for Sensor Zenith (View) Angles <= 32 Degrees (rounded to nearest 5 mb), Day Data Only"; String units "hPa"; String Parameter_Type "Output"; Int32 Cell_Along_Swath_Sampling 3, 2028, 5; Int32 Cell_Across_Swath_Sampling 3, 1348, 5; String Geolocation_Pointer "Internal geolocation arrays"; Float64 scale_factor 0.10000000149011612; Float64 add_offset 0.0000000000000000; } Cloud_Top_Temperature { String coordinates "Latitude Longitude"; Int16 valid_range 0, 20000; Int16 _FillValue -32768; String long_name "Temperature from Ancillary Data at Retrieved Cloud Top Pressure Level"; String units "K"; String Parameter_Type "Output"; Int32 Cell_Along_Swath_Sampling 3, 2028, 5; Int32 Cell_Across_Swath_Sampling 3, 1348, 5; String Geolocation_Pointer "Internal geolocation arrays"; Float64 scale_factor 0.0099999997764825821; Float64 add_offset 149.99999664723873; } Cloud_Top_Temperature_Nadir { String coordinates "Latitude Longitude"; Int16 valid_range 0, 20000; Int16 _FillValue -32768; String long_name "Temperature from Ancillary Data at Retrieved Cloud Top Pressure Level for Sensor Zenith (View) Angles <= 32 Degrees"; String units "K"; String Parameter_Type "Output"; Int32 Cell_Along_Swath_Sampling 3, 2028, 5; Int32 Cell_Across_Swath_Sampling 3, 1348, 5; String Geolocation_Pointer "Internal geolocation arrays"; Float64 scale_factor 0.0099999997764825821; Float64 add_offset 149.99999664723873; } Cloud_Top_Temperature_Night { String coordinates "Latitude Longitude"; Int16 valid_range 0, 20000; Int16 _FillValue -32768; String long_name "Temperature from Ancillary Data at Retrieved Cloud Top Pressure Level, Night Only"; String units "K"; String Parameter_Type "Output"; Int32 Cell_Along_Swath_Sampling 3, 2028, 5; Int32 Cell_Across_Swath_Sampling 3, 1348, 5; String Geolocation_Pointer "Internal geolocation arrays"; Float64 scale_factor 0.0099999997764825821; Float64 add_offset 149.99999664723873; } Cloud_Top_Temperature_Nadir_Night { String coordinates "Latitude Longitude"; Int16 valid_range 0, 20000; Int16 _FillValue -32768; String long_name "Temperature from Ancillary Data at Retrieved Cloud Top Pressure Level for Sensor Zenith (View) Angles <= 32 Degrees, Night Data Only"; String units "K"; String Parameter_Type "Output"; Int32 Cell_Along_Swath_Sampling 3, 2028, 5; Int32 Cell_Across_Swath_Sampling 3, 1348, 5; String Geolocation_Pointer "Internal geolocation arrays"; Float64 scale_factor 0.0099999997764825821; Float64 add_offset 149.99999664723873; } Cloud_Top_Temperature_Day { String coordinates "Latitude Longitude"; Int16 valid_range 0, 20000; Int16 _FillValue -32768; String long_name "Temperature from Ancillary Data at Retrieved Cloud Top Pressure Level, Day Only"; String units "K"; String Parameter_Type "Output"; Int32 Cell_Along_Swath_Sampling 3, 2028, 5; Int32 Cell_Across_Swath_Sampling 3, 1348, 5; String Geolocation_Pointer "Internal geolocation arrays"; Float64 scale_factor 0.0099999997764825821; Float64 add_offset 149.99999664723873; } Cloud_Top_Temperature_Nadir_Day { String coordinates "Latitude Longitude"; Int16 valid_range 0, 20000; Int16 _FillValue -32768; String long_name "Temperature from Ancillary Data at Retrieved Cloud Top Pressure Level for Sensor Zenith (View) Angles <= 32 Degrees, Day Data Only"; String units "K"; String Parameter_Type "Output"; Int32 Cell_Along_Swath_Sampling 3, 2028, 5; Int32 Cell_Across_Swath_Sampling 3, 1348, 5; String Geolocation_Pointer "Internal geolocation arrays"; Float64 scale_factor 0.0099999997764825821; Float64 add_offset 149.99999664723873; } Tropopause_Height { String coordinates "Latitude Longitude"; Int16 valid_range 10, 11000; Int16 _FillValue -32768; String long_name "Tropopause Height from Ancillary Data"; String units "hPa"; String Parameter_Type "Output"; Int32 Cell_Along_Swath_Sampling 3, 2028, 5; Int32 Cell_Across_Swath_Sampling 3, 1348, 5; String Geolocation_Pointer "Internal geolocation arrays"; Float64 scale_factor 0.10000000149011612; Float64 add_offset 0.0000000000000000; } Cloud_Fraction { String coordinates "Latitude Longitude"; Int32 valid_range 0, 100; Int32 _FillValue 127; String long_name "Cloud Fraction in Retrieval Region (5x5 1-km Pixels) from 1-km Cloud Mask"; String units "none"; String Parameter_Type "Output"; Int32 Cell_Along_Swath_Sampling 3, 2028, 5; Int32 Cell_Across_Swath_Sampling 3, 1348, 5; String Geolocation_Pointer "Internal geolocation arrays"; Float64 scale_factor 0.0099999997764825821; Float64 add_offset 0.0000000000000000; } Cloud_Fraction_Nadir { String coordinates "Latitude Longitude"; Int32 valid_range 0, 100; Int32 _FillValue 127; String long_name "Cloud Fraction in Retrieval Region (5x5 1-km Pixels) from 1-km Cloud Mask for Sensor Zenith (View) Angles <= 32 Degrees"; String units "none"; String Parameter_Type "Output"; Int32 Cell_Along_Swath_Sampling 3, 2028, 5; Int32 Cell_Across_Swath_Sampling 3, 1348, 5; String Geolocation_Pointer "Internal geolocation arrays"; Float64 scale_factor 0.0099999997764825821; 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 in Retrieval Region (5x5 1-km Pixels) from 1-km Cloud Mask, Night Only"; String units "none"; String Parameter_Type "Output"; Int32 Cell_Along_Swath_Sampling 3, 2028, 5; Int32 Cell_Across_Swath_Sampling 3, 1348, 5; String Geolocation_Pointer "Internal geolocation arrays"; Float64 scale_factor 0.0099999997764825821; Float64 add_offset 0.0000000000000000; } Cloud_Fraction_Nadir_Night { String coordinates "Latitude Longitude"; Int32 valid_range 0, 100; Int32 _FillValue 127; String long_name "Cloud Fraction in Retrieval Region (5x5 1-km Pixels) from 1-km Cloud Mask for Sensor Zenith (View) Angles <= 32 Degrees, Night Data Only"; String units "none"; String Parameter_Type "Output"; Int32 Cell_Along_Swath_Sampling 3, 2028, 5; Int32 Cell_Across_Swath_Sampling 3, 1348, 5; String Geolocation_Pointer "Internal geolocation arrays"; Float64 scale_factor 0.0099999997764825821; 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 in Retrieval Region (5x5 1-km Pixels) from 1-km Cloud Mask, Day Only"; String units "none"; String Parameter_Type "Output"; Int32 Cell_Along_Swath_Sampling 3, 2028, 5; Int32 Cell_Across_Swath_Sampling 3, 1348, 5; String Geolocation_Pointer "Internal geolocation arrays"; Float64 scale_factor 0.0099999997764825821; Float64 add_offset 0.0000000000000000; } Cloud_Fraction_Nadir_Day { String coordinates "Latitude Longitude"; Int32 valid_range 0, 100; Int32 _FillValue 127; String long_name "Cloud Fraction in Retrieval Region (5x5 1-km Pixels) from 1-km Cloud Mask for Sensor Zenith (View) Angles <= 32 Degrees, Day Data Only"; String units "none"; String Parameter_Type "Output"; Int32 Cell_Along_Swath_Sampling 3, 2028, 5; Int32 Cell_Across_Swath_Sampling 3, 1348, 5; String Geolocation_Pointer "Internal geolocation arrays"; Float64 scale_factor 0.0099999997764825821; 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 from Cloud Top Pressure Retrieval"; String units "none"; String Parameter_Type "Output"; Int32 Cell_Along_Swath_Sampling 3, 2028, 5; Int32 Cell_Across_Swath_Sampling 3, 1348, 5; String Geolocation_Pointer "Internal geolocation arrays"; Float64 scale_factor 0.0099999997764825821; Float64 add_offset 0.0000000000000000; } Cloud_Effective_Emissivity_Nadir { String coordinates "Latitude Longitude"; Int32 valid_range 0, 100; Int32 _FillValue 127; String long_name "Cloud Effective Emissivity from Cloud Top Pressure Retrieval for Sensor Zenith (View) Angles <= 32 Degrees"; String units "none"; String Parameter_Type "Output"; Int32 Cell_Along_Swath_Sampling 3, 2028, 5; Int32 Cell_Across_Swath_Sampling 3, 1348, 5; String Geolocation_Pointer "Internal geolocation arrays"; Float64 scale_factor 0.0099999997764825821; 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 from Cloud Top Pressure Retrieval, Night Only"; String units "none"; String Parameter_Type "Output"; Int32 Cell_Along_Swath_Sampling 3, 2028, 5; Int32 Cell_Across_Swath_Sampling 3, 1348, 5; String Geolocation_Pointer "Internal geolocation arrays"; Float64 scale_factor 0.0099999997764825821; Float64 add_offset 0.0000000000000000; } Cloud_Effective_Emissivity_Nadir_Night { String coordinates "Latitude Longitude"; Int32 valid_range 0, 100; Int32 _FillValue 127; String long_name "Cloud Effective Emissivity from Cloud Top Pressure Retrieval for Sensor Zenith (View) Angles <= 32 Degrees, Night Data Only"; String units "none"; String Parameter_Type "Output"; Int32 Cell_Along_Swath_Sampling 3, 2028, 5; Int32 Cell_Across_Swath_Sampling 3, 1348, 5; String Geolocation_Pointer "Internal geolocation arrays"; Float64 scale_factor 0.0099999997764825821; 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 from Cloud Top Pressure Retrieval, Day Only"; String units "none"; String Parameter_Type "Output"; Int32 Cell_Along_Swath_Sampling 3, 2028, 5; Int32 Cell_Across_Swath_Sampling 3, 1348, 5; String Geolocation_Pointer "Internal geolocation arrays"; Float64 scale_factor 0.0099999997764825821; Float64 add_offset 0.0000000000000000; } Cloud_Effective_Emissivity_Nadir_Day { String coordinates "Latitude Longitude"; Int32 valid_range 0, 100; Int32 _FillValue 127; String long_name "Cloud Effective Emissivity from Cloud Top Pressure Retrieval for Sensor Zenith (View) Angles <= 32 Degrees, Day Data Only"; String units "none"; String Parameter_Type "Output"; Int32 Cell_Along_Swath_Sampling 3, 2028, 5; Int32 Cell_Across_Swath_Sampling 3, 1348, 5; String Geolocation_Pointer "Internal geolocation arrays"; Float64 scale_factor 0.0099999997764825821; 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 Retrieval"; String units "hPa"; String Parameter_Type "Output"; Int32 Cell_Along_Swath_Sampling 3, 2028, 5; Int32 Cell_Across_Swath_Sampling 3, 1348, 5; String Geolocation_Pointer "Internal geolocation arrays"; Float64 scale_factor 0.10000000149011612; 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 (cloud minus clear radiance)"; String units "Watts/meter2/steradian/micron"; String Parameter_Type "Output"; Int32 Cell_Along_Swath_Sampling 3, 2028, 5; Int32 Cell_Across_Swath_Sampling 3, 1348, 5; String Geolocation_Pointer "Internal geolocation arrays"; String description "\\n Spectral cloud forcing, cloudy-clear radiance, each channel in order: 36, 35, 34, 33 and 31 for Band_Forcing dimension reference "; Float64 scale_factor 0.0099999997764825821; 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 Levels from Ratios of Bands 36/35, 35/34, 35/33, 34/33 from the CO2-slicing Algorithm"; String units "hPa"; String Parameter_Type "Output"; Int32 Cell_Along_Swath_Sampling 3, 2028, 5; Int32 Cell_Across_Swath_Sampling 3, 1348, 5; String Geolocation_Pointer "Internal geolocation arrays"; String description "\\n Cloud top pressure level solutions in the following array locations: Band_Ratio:mod06 = 1: MODIS bands 36/35 Band_Ratio:mod06 = 2: MODIS bands 35/34 Band_Ratio:mod06 = 3: MODIS bands 35/33 Band_Ratio:mod06 = 4: MODIS bands 34/33 Band_Ratio:mod06 = 5: Not used "; Float64 scale_factor 0.10000000149011612; Float64 add_offset 0.0000000000000000; } Radiance_Variance { String coordinates "Latitude Longitude"; Int16 valid_range 0, 20; Int16 _FillValue -32768; String long_name "Band 31 Radiance Standard Deviation"; String units "Watts/meter2/steradian/micron"; String Parameter_Type "Output"; Int32 Cell_Along_Swath_Sampling 3, 2028, 5; Int32 Cell_Across_Swath_Sampling 3, 1348, 5; String Geolocation_Pointer "Internal geolocation arrays"; Float64 scale_factor 0.0099999997764825821; 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 from 8.5 and 11 um Bands"; String units "none"; String Parameter_Type "Output"; Int32 Cell_Along_Swath_Sampling 3, 2028, 5; Int32 Cell_Across_Swath_Sampling 3, 1348, 5; String Geolocation_Pointer "Internal geolocation arrays"; String description "\\n The values in this SDS indicate the following cloud phase: 0 -- cloud free 1 -- water cloud 2 -- ice cloud 3 -- mixed phase cloud 6 -- undetermined phase "; 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 from 8.5 and 11 um Bands, Night Only"; String units "none"; String Parameter_Type "Output"; Int32 Cell_Along_Swath_Sampling 3, 2028, 5; Int32 Cell_Across_Swath_Sampling 3, 1348, 5; String Geolocation_Pointer "Internal geolocation arrays"; String description "\\n The values in this SDS indicate the following cloud phase: 0 -- cloud free 1 -- water cloud 2 -- ice cloud 3 -- mixed phase cloud 6 -- undetermined phase "; 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 from 8.5 and 11 um Bands, Day Only"; String units "none"; String Parameter_Type "Output"; Int32 Cell_Along_Swath_Sampling 3, 2028, 5; Int32 Cell_Across_Swath_Sampling 3, 1348, 5; String Geolocation_Pointer "Internal geolocation arrays"; String description "\\n The values in this SDS indicate the following cloud phase: 0 -- cloud free 1 -- water cloud 2 -- ice cloud 3 -- mixed phase cloud 6 -- undetermined phase "; Float64 scale_factor 1.0000000000000000; Float64 add_offset 0.0000000000000000; } Cloud_Phase_Infrared_1km { String coordinates "Latitude_1 Longitude_1"; Int32 valid_range 0, 6; Int32 _FillValue 127; String long_name "Cloud Phase at 1-km resolution from 8.5- 11 um BTDs and cloud emissivity ratios (12/11, 8.5/11, and 7.2/11 um)"; String units "none"; String Parameter_Type "Output"; Int32 Cell_Along_Swath_Sampling 1, 2030, 1; Int32 Cell_Across_Swath_Sampling 1, 1354, 1; String Geolocation_Pointer "External geolocation arrays"; String description "\\n The values in this SDS indicate the following cloud phase: 0 -- cloud free 1 -- water cloud 2 -- ice cloud 3 -- mixed phase cloud 6 -- undetermined phase "; Float64 scale_factor 1.0000000000000000; Float64 add_offset 0.0000000000000000; } IRP_CTH_Consistency_Flag_1km { String coordinates "Latitude_1 Longitude_1"; Int32 valid_range 0, 1; Int32 _FillValue 127; String long_name "Indicates Cloud_Phase_Infrared_1km results changed to ice from water when cloud_top_method_1km reports valid band 36/35 CO2-slicing result (1=change)"; String units "none"; String Parameter_Type "Output"; Int32 Cell_Along_Swath_Sampling 1, 2030, 1; Int32 Cell_Across_Swath_Sampling 1, 1354, 1; String Geolocation_Pointer "External geolocation arrays"; String description "\\n "; Float64 scale_factor 1.0000000000000000; Float64 add_offset 0.0000000000000000; } os_top_flag_1km { String coordinates "Latitude_1 Longitude_1"; Int32 valid_range 0, 2; Int32 _FillValue 127; String long_name "Upper Tropospheric/Lower Stratospheric (UTLS) Cloud Flag at 1-km resolution - valid from -50 to +50 Degrees Latitude"; String units "none"; String Parameter_Type "Output"; Int32 Cell_Along_Swath_Sampling 1, 2030, 1; Int32 Cell_Across_Swath_Sampling 1, 1354, 1; String Geolocation_Pointer "External geolocation arrays"; String description "\\n The values in this SDS indicate the following: 0 -- stratospheric cloud test not performed 1 -- stratospheric cloud not indicated 2 -- stratospheric cloud indicated (BTD35-33 > 0.5K) "; Float64 scale_factor 1.0000000000000000; Float64 add_offset 0.0000000000000000; } cloud_top_pressure_1km { String coordinates "Latitude_1 Longitude_1"; Int16 valid_range 10, 11000; Int16 _FillValue -999; String long_name "Cloud Top Pressure at 1-km resolution from LEOCAT, Cloud Top Pressure Level rounded to nearest 5 mb"; String units "hPa"; String Parameter_Type "Output"; Int32 Cell_Along_Swath_Sampling 1, 2030, 1; Int32 Cell_Across_Swath_Sampling 1, 1354, 1; String Geolocation_Pointer "External MODIS geolocation product"; Float64 scale_factor 0.10000000149011612; Float64 add_offset 0.0000000000000000; } cloud_top_height_1km { String coordinates "Latitude_1 Longitude_1"; Int16 valid_range 0, 18000; Int16 _FillValue -999; String long_name "Cloud Top Height at 1-km resolution from LEOCAT, Geopotential Height at Retrieved Cloud Top Pressure Level rounded to nearest 50 m"; String units "meters"; String Parameter_Type "Output"; Int32 Cell_Along_Swath_Sampling 1, 2030, 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_top_temperature_1km { String coordinates "Latitude_1 Longitude_1"; Int16 valid_range 0, 20000; Int16 _FillValue -999; String long_name "Cloud Top Temperature at 1-km resolution from LEOCAT, Temperature from Ancillary Data at Retrieved Cloud Top Pressure Level"; String units "K"; String Parameter_Type "Output"; Int32 Cell_Along_Swath_Sampling 1, 2030, 1; Int32 Cell_Across_Swath_Sampling 1, 1354, 1; String Geolocation_Pointer "External MODIS geolocation product"; Float64 scale_factor 0.0099999997764825821; Float64 add_offset 149.99999664723873; } cloud_emissivity_1km { String coordinates "Latitude_1 Longitude_1"; Int32 valid_range 0, 100; Int32 _FillValue 127; String long_name "Cloud Emissivity at 1-km resolution from LEOCAT Cloud Top Pressure Retrieval"; String units "unitless"; String Parameter_Type "Output"; Int32 Cell_Along_Swath_Sampling 1, 2030, 1; Int32 Cell_Across_Swath_Sampling 1, 1354, 1; String Geolocation_Pointer "External MODIS geolocation product"; Float64 scale_factor 0.0099999997764825821; Float64 add_offset 0.0000000000000000; } cloud_top_method_1km { String coordinates "Latitude_1 Longitude_1"; Int32 valid_range 0, 6; Int32 _FillValue 127; String long_name "Index Indicating the MODIS Band(s) Used to Produce the Cloud Top Pressure Result"; String units "unitless"; String Parameter_Type "Output"; Int32 Cell_Along_Swath_Sampling 1, 2030, 1; Int32 Cell_Across_Swath_Sampling 1, 1354, 1; String Geolocation_Pointer "External MODIS geolocation product"; String description "\\n The values in this SDS are set to mean the following: 1 -- CO2-slicing retrieval, bands 36/35 2 -- CO2-slicing retrieval, bands 35/34 3 -- CO2-slicing retrieval, bands 35/33 4 -- CO2-slicing retrieval, bands 34/33 6 -- IR-window retrieval, band 31 "; Float64 scale_factor 1.0000000000000000; Float64 add_offset 0.0000000000000000; } surface_temperature_1km { String coordinates "Latitude_1 Longitude_1"; Int16 valid_range 0, 20000; Int16 _FillValue -999; String long_name "Surface Temperature for Each 1-km MODIS Pixel Interplated from Ancillary Data"; String units "K"; String Parameter_Type "Non MODIS Input"; Int32 Cell_Along_Swath_Sampling 1, 2030, 1; Int32 Cell_Across_Swath_Sampling 1, 1354, 1; String Geolocation_Pointer "External MODIS geolocation product"; Float64 scale_factor 0.0099999997764825821; Float64 add_offset 149.99999664723873; } cloud_emiss11_1km { String coordinates "Latitude_1 Longitude_1"; Int16 valid_range 0, 10000; Int16 _FillValue -999; String long_name "11 micron Cloud Emissivity at 1-km resolution from LEOCAT for All Clouds"; String units "unitless"; String Parameter_Type "Output"; Int32 Cell_Along_Swath_Sampling 1, 2030, 1; Int32 Cell_Across_Swath_Sampling 1, 1354, 1; String Geolocation_Pointer "External MODIS geolocation product"; Float64 scale_factor 9.9999997473787516e-05; Float64 add_offset 0.0000000000000000; } cloud_emiss12_1km { String coordinates "Latitude_1 Longitude_1"; Int16 valid_range 0, 10000; Int16 _FillValue -999; String long_name "12 micron Cloud Emissivity at 1-km resolution from LEOCAT for All Clouds"; String units "unitless"; String Parameter_Type "Output"; Int32 Cell_Along_Swath_Sampling 1, 2030, 1; Int32 Cell_Across_Swath_Sampling 1, 1354, 1; String Geolocation_Pointer "External MODIS geolocation product"; Float64 scale_factor 9.9999997473787516e-05; Float64 add_offset 0.0000000000000000; } cloud_emiss13_1km { String coordinates "Latitude_1 Longitude_1"; Int16 valid_range 0, 10000; Int16 _FillValue -999; String long_name "13.3 micron Cloud Emissivity at 1-km resolution from LEOCAT for All Clouds"; String units "unitless"; String Parameter_Type "Output"; Int32 Cell_Along_Swath_Sampling 1, 2030, 1; Int32 Cell_Across_Swath_Sampling 1, 1354, 1; String Geolocation_Pointer "External MODIS geolocation product"; Float64 scale_factor 9.9999997473787516e-05; Float64 add_offset 0.0000000000000000; } cloud_emiss85_1km { String coordinates "Latitude_1 Longitude_1"; Int16 valid_range 0, 10000; Int16 _FillValue -999; String long_name "8.5 micron Cloud Emissivity at 1-km resolution from LEOCAT for All Clouds"; String units "unitless"; String Parameter_Type "Output"; Int32 Cell_Along_Swath_Sampling 1, 2030, 1; Int32 Cell_Across_Swath_Sampling 1, 1354, 1; String Geolocation_Pointer "External MODIS geolocation product"; Float64 scale_factor 9.9999997473787516e-05; 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(2.1um) and either band 1(0.65um), 2(0.86um), or 5(1.2um) (specified in Quality_Assurance_1km)from best points: not failed in any way, not marked for clear sky restoral"; String units "micron"; String Parameter_Type "Output"; Int32 Cell_Along_Swath_Sampling 1, 2030, 1; Int32 Cell_Across_Swath_Sampling 1, 1354, 1; String Geolocation_Pointer "External MODIS geolocation product"; Float64 scale_factor 0.0099999997764825821; Float64 add_offset 0.0000000000000000; } Cloud_Effective_Radius_PCL { 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(2.1um) and either band 1(0.65um), 2(0.86um), or 5(1.2um) (specified in Quality_Assurance_1km)from points identified as either partly cloudy from 250m cloud mask test or 1km cloud edges"; String units "micron"; String Parameter_Type "Output"; Int32 Cell_Along_Swath_Sampling 1, 2030, 1; Int32 Cell_Across_Swath_Sampling 1, 1354, 1; String Geolocation_Pointer "External MODIS geolocation product"; Float64 scale_factor 0.0099999997764825821; Float64 add_offset 0.0000000000000000; } Cloud_Effective_Radius_16 { 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 6(1.6um) and either band 1(0.65um), 2(0.86um), or 5(1.2um) (specified in Quality_Assurance_1km)from best points: not failed in any way, not marked for clear sky restoral"; String units "micron"; String Parameter_Type "Output"; Int32 Cell_Along_Swath_Sampling 1, 2030, 1; Int32 Cell_Across_Swath_Sampling 1, 1354, 1; String Geolocation_Pointer "External MODIS geolocation product"; Float64 scale_factor 0.0099999997764825821; Float64 add_offset 0.0000000000000000; } Cloud_Effective_Radius_16_PCL { 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 6(1.6um) and either band 1(0.65um), 2(0.86um), or 5(1.2um) (specified in Quality_Assurance_1km)from points identified as either partly cloudy from 250m cloud mask test or 1km cloud edges"; String units "micron"; String Parameter_Type "Output"; Int32 Cell_Along_Swath_Sampling 1, 2030, 1; Int32 Cell_Across_Swath_Sampling 1, 1354, 1; String Geolocation_Pointer "External MODIS geolocation product"; Float64 scale_factor 0.0099999997764825821; Float64 add_offset 0.0000000000000000; } Cloud_Effective_Radius_37 { 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 20(3.7um) and either band 1(0.65um), 2(0.86um), or 5(1.2um) (specified in Quality_Assurance_1km)from best points: not failed in any way, not marked for clear sky restoral"; String units "micron"; String Parameter_Type "Output"; Int32 Cell_Along_Swath_Sampling 1, 2030, 1; Int32 Cell_Across_Swath_Sampling 1, 1354, 1; String Geolocation_Pointer "External MODIS geolocation product"; Float64 scale_factor 0.0099999997764825821; Float64 add_offset 0.0000000000000000; } Cloud_Effective_Radius_37_PCL { 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 20(3.7um) and either band 1(0.65um), 2(0.86um), or 5(1.2um) (specified in Quality_Assurance_1km)from points identified as either partly cloudy from 250m cloud mask test or 1km cloud edges"; String units "micron"; String Parameter_Type "Output"; Int32 Cell_Along_Swath_Sampling 1, 2030, 1; Int32 Cell_Across_Swath_Sampling 1, 1354, 1; String Geolocation_Pointer "External MODIS geolocation product"; Float64 scale_factor 0.0099999997764825821; 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(2.1um) and either band 1(0.65um), 2(0.86um), or 5(1.2um) (specified in Quality_Assurance_1km)from best points: not failed in any way, not marked for clear sky restoral"; String units "none"; String Parameter_Type "Output"; Int32 Cell_Along_Swath_Sampling 1, 2030, 1; Int32 Cell_Across_Swath_Sampling 1, 1354, 1; String Geolocation_Pointer "External MODIS geolocation product"; Float64 scale_factor 0.0099999997764825821; Float64 add_offset 0.0000000000000000; } Cloud_Optical_Thickness_PCL { 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(2.1um) and either band 1(0.65um), 2(0.86um), or 5(1.2um) (specified in Quality_Assurance_1km)from points identified as either partly cloudy from 250m cloud mask test or 1km cloud edges"; String units "none"; String Parameter_Type "Output"; Int32 Cell_Along_Swath_Sampling 1, 2030, 1; Int32 Cell_Across_Swath_Sampling 1, 1354, 1; String Geolocation_Pointer "External MODIS geolocation product"; Float64 scale_factor 0.0099999997764825821; Float64 add_offset 0.0000000000000000; } Cloud_Optical_Thickness_16 { 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 6(1.6um) and either band 1(0.65um), 2(0.86um), or 5(1.2um) (specified in Quality_Assurance_1km)from best points: not failed in any way, not marked for clear sky restoral"; String units "none"; String Parameter_Type "Output"; Int32 Cell_Along_Swath_Sampling 1, 2030, 1; Int32 Cell_Across_Swath_Sampling 1, 1354, 1; String Geolocation_Pointer "External MODIS geolocation product"; Float64 scale_factor 0.0099999997764825821; Float64 add_offset 0.0000000000000000; } Cloud_Optical_Thickness_16_PCL { 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 6(1.6um) and either band 1(0.65um), 2(0.86um), or 5(1.2um) (specified in Quality_Assurance_1km)from points identified as either partly cloudy from 250m cloud mask test or 1km cloud edges"; String units "none"; String Parameter_Type "Output"; Int32 Cell_Along_Swath_Sampling 1, 2030, 1; Int32 Cell_Across_Swath_Sampling 1, 1354, 1; String Geolocation_Pointer "External MODIS geolocation product"; Float64 scale_factor 0.0099999997764825821; Float64 add_offset 0.0000000000000000; } Cloud_Optical_Thickness_37 { 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 20(3.7um) and either band 1(0.65um), 2(0.86um), or 5(1.2um) (specified in Quality_Assurance_1km)from best points: not failed in any way, not marked for clear sky restoral"; String units "none"; String Parameter_Type "Output"; Int32 Cell_Along_Swath_Sampling 1, 2030, 1; Int32 Cell_Across_Swath_Sampling 1, 1354, 1; String Geolocation_Pointer "External MODIS geolocation product"; Float64 scale_factor 0.0099999997764825821; Float64 add_offset 0.0000000000000000; } Cloud_Optical_Thickness_37_PCL { 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 20(3.7um) and either band 1(0.65um), 2(0.86um), or 5(1.2um) (specified in Quality_Assurance_1km)from points identified as either partly cloudy from 250m cloud mask test or 1km cloud edges"; String units "none"; String Parameter_Type "Output"; Int32 Cell_Along_Swath_Sampling 1, 2030, 1; Int32 Cell_Across_Swath_Sampling 1, 1354, 1; String Geolocation_Pointer "External MODIS geolocation product"; Float64 scale_factor 0.0099999997764825821; 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(2.1um) and band 6(1.6um)from best points: not failed in any way, not marked for clear sky restoral"; String units "micron"; String Parameter_Type "Output"; Int32 Cell_Along_Swath_Sampling 1, 2030, 1; Int32 Cell_Across_Swath_Sampling 1, 1354, 1; String Geolocation_Pointer "External MODIS geolocation product"; Float64 scale_factor 0.0099999997764825821; Float64 add_offset 0.0000000000000000; } Cloud_Effective_Radius_1621_PCL { 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(2.1um) and band 6(1.6um)from points identified as either partly cloudy from 250m cloud mask test or 1km cloud edges"; String units "micron"; String Parameter_Type "Output"; Int32 Cell_Along_Swath_Sampling 1, 2030, 1; Int32 Cell_Across_Swath_Sampling 1, 1354, 1; String Geolocation_Pointer "External MODIS geolocation product"; Float64 scale_factor 0.0099999997764825821; 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(2.1um) and band 6(1.6um)from best points: not failed in any way, not marked for clear sky restoral"; String units "none"; String Parameter_Type "Output"; Int32 Cell_Along_Swath_Sampling 1, 2030, 1; Int32 Cell_Across_Swath_Sampling 1, 1354, 1; String Geolocation_Pointer "External MODIS geolocation product"; Float64 scale_factor 0.0099999997764825821; Float64 add_offset 0.0000000000000000; } Cloud_Optical_Thickness_1621_PCL { 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(2.1um) and band 6(1.6um)from points identified as either partly cloudy from 250m cloud mask test or 1km cloud edges"; String units "none"; String Parameter_Type "Output"; Int32 Cell_Along_Swath_Sampling 1, 2030, 1; Int32 Cell_Across_Swath_Sampling 1, 1354, 1; String Geolocation_Pointer "External MODIS geolocation product"; Float64 scale_factor 0.0099999997764825821; 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-channel retrieval using band 7(2.1um) and either band 1(0.65um), 2(0.86um), or 5(1.2um) (specified in Quality_Assurance_1km)from best points: not failed in any way, not marked for clear sky restoral"; String units "g/m^2"; String Parameter_Type "Output"; Int32 Cell_Along_Swath_Sampling 1, 2030, 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_PCL { String coordinates "Latitude_1 Longitude_1"; Int16 valid_range 0, 10000; Int16 _FillValue -9999; String long_name "Column Water Path two-channel retrieval using band 7(2.1um) and either band 1(0.65um), 2(0.86um), or 5(1.2um) (specified in Quality_Assurance_1km)from points identified as either partly cloudy from 250m cloud mask test or 1km cloud edges"; String units "g/m^2"; String Parameter_Type "Output"; Int32 Cell_Along_Swath_Sampling 1, 2030, 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-channel retrieval using band 7(2.1um) and band 6(1.6um)from best points: not failed in any way, not marked for clear sky restoral"; String units "g/m^2"; String Parameter_Type "Output"; Int32 Cell_Along_Swath_Sampling 1, 2030, 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_PCL { String coordinates "Latitude_1 Longitude_1"; Int16 valid_range 0, 10000; Int16 _FillValue -9999; String long_name "Column Water Path two-channel retrieval using band 7(2.1um) and band 6(1.6um)from points identified as either partly cloudy from 250m cloud mask test or 1km cloud edges"; String units "g/m^2"; String Parameter_Type "Output"; Int32 Cell_Along_Swath_Sampling 1, 2030, 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_16 { String coordinates "Latitude_1 Longitude_1"; Int16 valid_range 0, 10000; Int16 _FillValue -9999; String long_name "Column Water Path two-channel retrieval using band 6(1.6um) and either band 1(0.65um), 2(0.86um), or 5(1.2um) (specified in Quality_Assurance_1km)from best points: not failed in any way, not marked for clear sky restoral"; String units "g/m^2"; String Parameter_Type "Output"; Int32 Cell_Along_Swath_Sampling 1, 2030, 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_16_PCL { String coordinates "Latitude_1 Longitude_1"; Int16 valid_range 0, 10000; Int16 _FillValue -9999; String long_name "Column Water Path two-channel retrieval using band 6(1.6um) and either band 1(0.65um), 2(0.86um), or 5(1.2um) (specified in Quality_Assurance_1km)from points identified as either partly cloudy from 250m cloud mask test or 1km cloud edges"; String units "g/m^2"; String Parameter_Type "Output"; Int32 Cell_Along_Swath_Sampling 1, 2030, 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_37 { String coordinates "Latitude_1 Longitude_1"; Int16 valid_range 0, 10000; Int16 _FillValue -9999; String long_name "Column Water Path two-channel retrieval using band 20(3.7um) and either band 1(0.65um), 2(0.86um), or 5(1.2um) (specified in Quality_Assurance_1km)from best points: not failed in any way, not marked for clear sky restoral"; String units "g/m^2"; String Parameter_Type "Output"; Int32 Cell_Along_Swath_Sampling 1, 2030, 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_37_PCL { String coordinates "Latitude_1 Longitude_1"; Int16 valid_range 0, 10000; Int16 _FillValue -9999; String long_name "Column Water Path two-channel retrieval using band 20(3.7um) and either band 1(0.65um), 2(0.86um), or 5(1.2um) (specified in Quality_Assurance_1km)from points identified as either partly cloudy from 250m cloud mask test or 1km cloud edges"; String units "g/m^2"; String Parameter_Type "Output"; Int32 Cell_Along_Swath_Sampling 1, 2030, 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 (from band 7(2.1um)) Relative Uncertainty (Percent)from both best points and points identified as cloud edge at 1km resolution or partly cloudy at 250m"; String units "percent"; String Parameter_Type "Output"; Int32 Cell_Along_Swath_Sampling 1, 2030, 1; Int32 Cell_Across_Swath_Sampling 1, 1354, 1; String Geolocation_Pointer "External MODIS geolocation product"; Float64 scale_factor 0.0099999997764825821; Float64 add_offset 0.0000000000000000; } Cloud_Effective_Radius_Uncertainty_16 { String coordinates "Latitude_1 Longitude_1"; Int16 valid_range 0, 20000; Int16 _FillValue -9999; String long_name "Cloud Effective Particle Radius (from band 6(1.6um) Relative Uncertainty (Percent)from both best points and points identified as cloud edge at 1km resolution or partly cloudy at 250m"; String units "percent"; String Parameter_Type "Output"; Int32 Cell_Along_Swath_Sampling 1, 2030, 1; Int32 Cell_Across_Swath_Sampling 1, 1354, 1; String Geolocation_Pointer "External MODIS geolocation product"; Float64 scale_factor 0.0099999997764825821; Float64 add_offset 0.0000000000000000; } Cloud_Effective_Radius_Uncertainty_37 { String coordinates "Latitude_1 Longitude_1"; Int16 valid_range 0, 20000; Int16 _FillValue -9999; String long_name "Cloud Effective Particle Radius (from band 20(3.7um)) Relative Uncertainty (Percent)from both best points and points identified as cloud edge at 1km resolution or partly cloudy at 250m"; String units "percent"; String Parameter_Type "Output"; Int32 Cell_Along_Swath_Sampling 1, 2030, 1; Int32 Cell_Across_Swath_Sampling 1, 1354, 1; String Geolocation_Pointer "External MODIS geolocation product"; Float64 scale_factor 0.0099999997764825821; 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)from both best points and points identified as cloud edge at 1km resolution or partly cloudy at 250m based on the Cloud_Optical_Thickness and Cloud_Effective_Radius results"; String units "percent"; String Parameter_Type "Output"; Int32 Cell_Along_Swath_Sampling 1, 2030, 1; Int32 Cell_Across_Swath_Sampling 1, 1354, 1; String Geolocation_Pointer "External MODIS geolocation product"; Float64 scale_factor 0.0099999997764825821; Float64 add_offset 0.0000000000000000; } Cloud_Optical_Thickness_Uncertainty_16 { String coordinates "Latitude_1 Longitude_1"; Int16 valid_range 0, 20000; Int16 _FillValue -9999; String long_name "Cloud Optical Thickness Relative Uncertainty (Percent)from both best points and points identified as cloud edge at 1km resolution or partly cloudy at 250m based on the Cloud_Optical_Thickness_16 and Cloud_Effective_Radius_16 results"; String units "percent"; String Parameter_Type "Output"; Int32 Cell_Along_Swath_Sampling 1, 2030, 1; Int32 Cell_Across_Swath_Sampling 1, 1354, 1; String Geolocation_Pointer "External MODIS geolocation product"; Float64 scale_factor 0.0099999997764825821; Float64 add_offset 0.0000000000000000; } Cloud_Optical_Thickness_Uncertainty_37 { String coordinates "Latitude_1 Longitude_1"; Int16 valid_range 0, 20000; Int16 _FillValue -9999; String long_name "Cloud Optical Thickness Relative Uncertainty (Percent)from both best points and points identified as cloud edge at 1km resolution or partly cloudy at 250m based on the Cloud_Optical_Thickness_37 and Cloud_Effective_Radius_37 results"; String units "percent"; String Parameter_Type "Output"; Int32 Cell_Along_Swath_Sampling 1, 2030, 1; Int32 Cell_Across_Swath_Sampling 1, 1354, 1; String Geolocation_Pointer "External MODIS geolocation product"; Float64 scale_factor 0.0099999997764825821; 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)from both best points and points identified as cloud edge at 1km resolution or partly cloudy at 250m based on the Cloud_Water_Path result"; String units "percent"; String Parameter_Type "Output"; Int32 Cell_Along_Swath_Sampling 1, 2030, 1; Int32 Cell_Across_Swath_Sampling 1, 1354, 1; String Geolocation_Pointer "External MODIS geolocation product"; Float64 scale_factor 0.0099999997764825821; 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(2.1um) and band 6(1.6um)from both best points and points identified as cloud edge at 1km resolution or partly cloudy at 250m"; String units "percent"; String Parameter_Type "Output"; Int32 Cell_Along_Swath_Sampling 1, 2030, 1; Int32 Cell_Across_Swath_Sampling 1, 1354, 1; String Geolocation_Pointer "External MODIS geolocation product"; Float64 scale_factor 0.0099999997764825821; 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(2.1um) and band 6(1.6um)from both best points and points identified as cloud edge at 1km resolution or partly cloudy at 250m"; String units "percent"; String Parameter_Type "Output"; Int32 Cell_Along_Swath_Sampling 1, 2030, 1; Int32 Cell_Across_Swath_Sampling 1, 1354, 1; String Geolocation_Pointer "External MODIS geolocation product"; Float64 scale_factor 0.0099999997764825821; 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(2.1um) and band 6(1.6um)from both best points and points identified as cloud edge at 1km resolution or partly cloudy at 250m"; String units "percent"; String Parameter_Type "Output"; Int32 Cell_Along_Swath_Sampling 1, 2030, 1; Int32 Cell_Across_Swath_Sampling 1, 1354, 1; String Geolocation_Pointer "External MODIS geolocation product"; Float64 scale_factor 0.0099999997764825821; Float64 add_offset 0.0000000000000000; } Cloud_Water_Path_Uncertainty_16 { String coordinates "Latitude_1 Longitude_1"; Int16 valid_range 0, 20000; Int16 _FillValue -9999; String long_name "Cloud Water Path Relative Uncertainty (Percent)from both best points and points identified as cloud edge at 1km resolution or partly cloudy at 250m using the VNSWIR-1.6um retrieval"; String units "percent"; String Parameter_Type "Output"; Int32 Cell_Along_Swath_Sampling 1, 2030, 1; Int32 Cell_Across_Swath_Sampling 1, 1354, 1; String Geolocation_Pointer "External MODIS geolocation product"; Float64 scale_factor 0.0099999997764825821; Float64 add_offset 0.0000000000000000; } Cloud_Water_Path_Uncertainty_37 { String coordinates "Latitude_1 Longitude_1"; Int16 valid_range 0, 20000; Int16 _FillValue -9999; String long_name "Cloud Water Path Relative Uncertainty (Percent)from both best points and points identified as cloud edge at 1km resolution or partly cloudy at 250m using the VNSWIR-3.7um retrieval"; String units "percent"; String Parameter_Type "Output"; Int32 Cell_Along_Swath_Sampling 1, 2030, 1; Int32 Cell_Across_Swath_Sampling 1, 1354, 1; String Geolocation_Pointer "External MODIS geolocation product"; Float64 scale_factor 0.0099999997764825821; Float64 add_offset 0.0000000000000000; } Above_Cloud_Water_Vapor_094 { String coordinates "Latitude_1 Longitude_1"; Int16 valid_range 0, 1500; Int16 _FillValue -9999; String long_name "Above-cloud water vapor amount from 0.94um channel, ocean only, tau > 5."; String units "cm"; String Parameter_Type "Output"; Int32 Cell_Along_Swath_Sampling 1, 2030, 1; Int32 Cell_Across_Swath_Sampling 1, 1354, 1; String Geolocation_Pointer "External MODIS geolocation product"; Float64 scale_factor 0.0099999997764825821; Float64 add_offset 0.0000000000000000; } IRW_Low_Cloud_Temperature_From_COP { String coordinates "Latitude_1 Longitude_1"; Int16 valid_range 0, 20000; Int16 _FillValue -32768; String long_name "Low Cloud Temperature from IR Window retrieval using cloud emissivity based on cloud optical thickness"; String units "K"; String Parameter_Type "Output"; Int32 Cell_Along_Swath_Sampling 1, 2030, 1; Int32 Cell_Across_Swath_Sampling 1, 1354, 1; String Geolocation_Pointer "Internal geolocation arrays"; Float64 scale_factor 0.0099999997764825821; Float64 add_offset 149.99999664723873; } Cloud_Phase_Optical_Properties { String coordinates "Latitude_1 Longitude_1"; Int32 valid_range 0, 4; Int32 _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, 2030, 1; Int32 Cell_Across_Swath_Sampling 1, 1354, 1; String Geolocation_Pointer "External MODIS geolocation product"; String description "\\n The values in this SDS are set to mean the following: 0 -- cloud mask undetermined 1 -- clear sky 2 -- liquid water cloud 3 -- ice cloud 4 -- undetermined phase cloud (but retrieval is attempted as liquid water) "; Float64 scale_factor 1.0000000000000000; Float64 add_offset 0.0000000000000000; } Cloud_Multi_Layer_Flag { String coordinates "Latitude_1 Longitude_1"; Int32 valid_range 0, 9; Int32 _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, 2030, 1; Int32 Cell_Across_Swath_Sampling 1, 1354, 1; String Geolocation_Pointer "External MODIS geolocation product"; String description "\\n Flag for multi-layer multi-phase cloud situations. Values 2 through 9 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. "; 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, 2030, 1; Int32 Cell_Across_Swath_Sampling 1, 1354, 1; String Geolocation_Pointer "External MODIS geolocation product"; Float64 scale_factor 0.00019999999494757503; 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, 2030, 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 Cloud_Mask_5km_Num_Bytes"; Int32 valid_range 0, -1; Int32 _FillValue 0; String long_name "First Byte of MODIS Cloud Mask Plus Additional Stats for L3 (2nd Byte)"; String units "none"; String Parameter_Type "MODIS Input"; Int32 Cell_Along_Swath_Sampling 3, 2028, 5; Int32 Cell_Across_Swath_Sampling 3, 1348, 5; String Geolocation_Pointer "Internal geolocation arrays"; String description "\\n 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. First Byte 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 Second Byte -------------------------------------------------------------------------- 1, 0 Sun-glint Under CTP Retrieval 00 = No CTP Ret. 01 = No Sun-glint 10 = Sun-glint 3, 2 Snow/Ice Under CTP Retrieval 00 = No CTP Ret. 01 = No Snow/Ice 10 = Snow/Ice 6, 5, 4 Surface Type Under CTP Retrieval 000 = No CTP Ret. 001 = Water 010 = Coast 011 = Desert 100 = Land 101 = Other 7 Day/Night Flag Under CTP Retrieval 01 = Day "; 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, 2028, 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, 2030, 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; } Extinction_Efficiency_Ice { String coordinates "RadTran_NRE_Ice RadTran_NWL"; Float32 valid_range 0.000000000, 1.000000000; Float32 _FillValue 0.000000000; String long_name "Ice Extinction Efficiency from the phase functions used to generate the forward lookup tables"; String units "none"; String Parameter_Type "MODIS Input"; Int32 Cell_Along_Swath_Sampling 1, 2030, 1; Int32 Cell_Across_Swath_Sampling 1, 7, 1; String Geolocation_Pointer "Geolocation product not applicable"; String description "\\n Ice CE from the phase functions used to generate the forward lookup tables The dimensions in this SDS are as follows: 7 MODIS channels in order: 1, 2, 5, 6, 7, 20 and 31 12 ice effective radii in order: 5, 10, 15, 20, 25, 30, 35, 40, 45, 50, 55 and 60 microns. "; Float64 scale_factor 1.0000000000000000; Float64 add_offset 0.0000000000000000; } Asymmetry_Parameter_Ice { String coordinates "RadTran_NRE_Ice RadTran_NWL"; Float32 valid_range 0.000000000, 1.000000000; Float32 _FillValue 0.000000000; String long_name "Ice Asymmetry Parameter from the phase functions used to generate the forward lookup tables"; String units "none"; String Parameter_Type "MODIS Input"; Int32 Cell_Along_Swath_Sampling 1, 2030, 1; Int32 Cell_Across_Swath_Sampling 1, 7, 1; String Geolocation_Pointer "Geolocation product not applicable"; String description "\\n Ice Asymmetry Parameter from the phase functions used to generate the forward lookup tables. The dimensions in this SDS are as follows: 7 MODIS channels in order: 1, 2, 5, 6, 7, 20 and 31 12 ice effective radii in order: 5, 10, 15, 20, 25, 30, 35, 40, 45, 50, 55 and 60 microns. "; Float64 scale_factor 1.0000000000000000; Float64 add_offset 0.0000000000000000; } Single_Scatter_Albedo_Ice { String coordinates "RadTran_NRE_Ice RadTran_NWL"; Float32 valid_range 0.000000000, 1.000000000; Float32 _FillValue 0.000000000; String long_name "Ice single scatter albedo from the phase functions used to generate the forward lookup tables"; String units "none"; String Parameter_Type "MODIS Input"; Int32 Cell_Along_Swath_Sampling 1, 2030, 1; Int32 Cell_Across_Swath_Sampling 1, 7, 1; String Geolocation_Pointer "Geolocation product not applicable"; String description "\\n Ice single scatter albedo from the phase functions used to generate the forward lookup tables. The dimensions in this SDS are as follows: 7 MODIS channels in order: 1, 2, 5, 6, 7, 20 and 31 12 ice effective radii in order: 5, 10, 15, 20, 25, 30, 35, 40, 45, 50, 55 and 60 microns. "; Float64 scale_factor 1.0000000000000000; Float64 add_offset 0.0000000000000000; } Extinction_Efficiency_Liq { String coordinates "RadTran_NRE_Liq RadTran_NWL"; Float32 valid_range 0.000000000, 1.000000000; Float32 _FillValue 0.000000000; String long_name "Liquid Water CE from the phase functions used to generate the forward lookup tables"; String units "none"; String Parameter_Type "MODIS Input"; Int32 Cell_Along_Swath_Sampling 1, 2030, 1; Int32 Cell_Across_Swath_Sampling 1, 7, 1; String Geolocation_Pointer "Geolocation product not applicable"; String description "\\n Liquid Water CE from the phase functions used to generate the forward lookup tables. The dimensions in this SDS are as follows: 7 MODIS channels in order: 1, 2, 5, 6, 7, 20 and 31 18 liquid water effective radii in order: 2, 4, 5, 6, 7, 8, 9, 10, 12, 14, 16, 18, 20, 22, 24, 26, 28 and 30 microns. "; Float64 scale_factor 1.0000000000000000; Float64 add_offset 0.0000000000000000; } Asymmetry_Parameter_Liq { String coordinates "RadTran_NRE_Liq RadTran_NWL"; Float32 valid_range 0.000000000, 1.000000000; Float32 _FillValue 0.000000000; String long_name "Liquid Water Asymmetry Parameter from the phase functions used to generate the forward lookup tables"; String units "none"; String Parameter_Type "MODIS Input"; Int32 Cell_Along_Swath_Sampling 1, 2030, 1; Int32 Cell_Across_Swath_Sampling 1, 7, 1; String Geolocation_Pointer "Geolocation product not applicable"; String description "\\n Liquid Water Asymmetry Parameter from the phase functions used to generate the forward lookup tables. The dimensions in this SDS are as follows: 7 MODIS channels in order: 1, 2, 5, 6, 7, 20 and 31 18 liquid water effective radii in order: 2, 4, 5, 6, 7, 8, 9, 10, 12, 14, 16, 18, 20, 22, 24, 26, 28 and 30 microns. "; Float64 scale_factor 1.0000000000000000; Float64 add_offset 0.0000000000000000; } Single_Scatter_Albedo_Liq { String coordinates "RadTran_NRE_Liq RadTran_NWL"; Float32 valid_range 0.000000000, 1.000000000; Float32 _FillValue 0.000000000; String long_name "Liquid Water single scatter albedo from the phase functions used to generate the forward lookup tables"; String units "none"; String Parameter_Type "MODIS Input"; Int32 Cell_Along_Swath_Sampling 1, 2030, 1; Int32 Cell_Across_Swath_Sampling 1, 7, 1; String Geolocation_Pointer "Geolocation product not applicable"; String description "\\n Liquid Water SSA from the phase functions used to generate the forward lookup tables. The dimensions in this SDS are as follows: 7 MODIS channels in order: 1, 2, 5, 6, 7, 20 and 31 18 liquid water effective radii in order: 2, 4, 5, 6, 7, 8, 9, 10, 12, 14, 16, 18, 20, 22, 24, 26, 28 and 30 microns. "; Float64 scale_factor 1.0000000000000000; Float64 add_offset 0.0000000000000000; } Cloud_Mask_SPI { String coordinates "Latitude_1 Longitude_1 SPI_nband"; Int16 valid_range 0, 20000; Int16 _FillValue -9999; String long_name "Dispersion in bands 1 (plane 1) and 2 (plane 2) from 250m reflectance statistics of cloud mask"; String units "percent"; String Parameter_Type "Output"; Int32 Cell_Along_Swath_Sampling 1, 2030, 1; Int32 Cell_Across_Swath_Sampling 1, 1354, 1; String Geolocation_Pointer "External MODIS geolocation product"; Float64 scale_factor 0.0099999997764825821; Float64 add_offset 0.0000000000000000; } Retrieval_Failure_Metric { String coordinates "Latitude_1 Longitude_1 RFM_nband"; Int16 valid_range 0, 20000; Int16 _FillValue -9999; String long_name "Retrievals and other information for points that failed to retrievevia standard solution logic for retrieval using band 7 and either band 1, 2, or 5 (specified in Quality_Assurance_1km)"; String units "by plane in order: 1-none, 2-micron, 3-percent"; String Parameter_Type "Output"; Int32 Cell_Along_Swath_Sampling 1, 2030, 1; Int32 Cell_Across_Swath_Sampling 1, 1354, 1; String Geolocation_Pointer "External MODIS geolocation product"; String description "\\n The individual planes in this SDS are set to contain the following: 1 -- Cloud Optical Thickness 2 -- Cloud Effective Radius 3 -- Relative distance of failed retrieval from the library space as percentage of reflectance "; Float64 scale_factor 0.0099999997764825821; Float64 add_offset 0.0000000000000000; } Retrieval_Failure_Metric_16 { String coordinates "Latitude_1 Longitude_1 RFM_nband"; Int16 valid_range 0, 20000; Int16 _FillValue -9999; String long_name "Retrievals and other information for points that failed to retrievevia standard solution logic for retrieval using band 6 and either band 1, 2, or 5 (specified in Quality_Assurance_1km)"; String units "by plane in order: 1-none, 2-micron, 3-percent"; String Parameter_Type "Output"; Int32 Cell_Along_Swath_Sampling 1, 2030, 1; Int32 Cell_Across_Swath_Sampling 1, 1354, 1; String Geolocation_Pointer "External MODIS geolocation product"; String description "\\n The individual planes in this SDS are set to contain the following: 1 -- Cloud Optical Thickness 2 -- Cloud Effective Radius 3 -- Relative distance of failed retrieval from the library space as percentage of reflectance "; Float64 scale_factor 0.0099999997764825821; Float64 add_offset 0.0000000000000000; } Retrieval_Failure_Metric_37 { String coordinates "Latitude_1 Longitude_1 RFM_nband"; Int16 valid_range 0, 20000; Int16 _FillValue -9999; String long_name "Retrievals and other information for points that failed to retrievevia standard solution logic for retrieval using band 20 and either band 1, 2, or 5 (specified in Quality_Assurance_1km)"; String units "by plane in order: 1-none, 2-micron, 3-percent"; String Parameter_Type "Output"; Int32 Cell_Along_Swath_Sampling 1, 2030, 1; Int32 Cell_Across_Swath_Sampling 1, 1354, 1; String Geolocation_Pointer "External MODIS geolocation product"; String description "\\n The individual planes in this SDS are set to contain the following: 1 -- Cloud Optical Thickness 2 -- Cloud Effective Radius 3 -- Relative distance of failed retrieval from the library space as percentage of reflectance "; Float64 scale_factor 0.0099999997764825821; Float64 add_offset 0.0000000000000000; } Retrieval_Failure_Metric_1621 { String coordinates "Latitude_1 Longitude_1 RFM_nband"; Int16 valid_range 0, 20000; Int16 _FillValue -9999; String long_name "Retrievals and other information for points that failed to retrievevia standard solution logic for retrieval using band 6 and band 7"; String units "by plane in order: 1-none, 2-micron, 3-percent"; String Parameter_Type "Output"; Int32 Cell_Along_Swath_Sampling 1, 2030, 1; Int32 Cell_Across_Swath_Sampling 1, 1354, 1; String Geolocation_Pointer "External MODIS geolocation product"; String description "\\n The individual planes in this SDS are set to contain the following: 1 -- Cloud Optical Thickness 2 -- Cloud Effective Radius 3 -- Relative distance of failed retrieval from the library space as percentage of reflectance "; Float64 scale_factor 0.0099999997764825821; Float64 add_offset 0.0000000000000000; } Atm_Corr_Refl { String coordinates "Latitude_1 Longitude_1 ACR_nband"; Int16 valid_range 0, 16000; Int16 _FillValue -9999; String long_name "Atmospherically corrected reflectance used during cloud optical and microphysical properties retrieval"; String units "none"; String Parameter_Type "Output"; Int32 Cell_Along_Swath_Sampling 1, 2030, 1; Int32 Cell_Across_Swath_Sampling 1, 1354, 1; String Geolocation_Pointer "External MODIS geolocation product"; String description "\\n The individual planes in this SDS are set to contain the following: 1 -- 0.65um (Rayleigh correction amount is based on 2.1um cloud effecive radius retrieval) 2 -- 0.86um 3 -- 1.2um 4 -- 1.6um 5 -- 2.1um 6 -- 3.7um "; Float64 scale_factor 9.9999997473787516e-05; 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, 2030, 1; Int32 Cell_Across_Swath_Sampling 1, 1354, 1; String Geolocation_Pointer "External MODIS geolocation product"; String description "\\n 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 ----------------------------------------------------------------- 0 VNSWIR-2.1 Optical Thickness General QA 0 = Not Useful 1 = Useful 2,1 VNSWIR-2.1 Optical Thickness Confidence QA 00 = No confidence 01 = Marginal 10 = Good 11 = Very Good 4,3 spare 5 VNSWIR-2.1 Effective Radius General QA 0 = Not Useful 1 = Useful 7,6 VNSWIR-2.1 Effective Radius Confidence QA 00 = No confidence 01 = Marginal 10 = Good 11 = Very Good Byte 1 ----------------------------------------------------------------- 0 VNSWIR-2.1 Liquid Water Path General QA 0 = Not Useful 1 = Useful 2,1 VNSWIR-2.1 Liquid Water Path Confidence QA 00 = No confidence 01 = Marginal 10 = Good 11 = Very Good 5,4,3 Retrieval Phase 000 = No Cloud Mask 001 = No Cloud 010 = Water Cloud 011 = Ice Cloud 100 = Unknown Cloud 6 1.6- 2.1 Retrieval Outcome 0 = Failed/No attempt 1 = Successful Byte 2 ----------------------------------------------------------------- 2,1,0 Retrieval Phase 000 = No Cloud Mask 001 = No Cloud 010 = Water Cloud 011 = Ice Cloud 100 = Unknown Cloud 3 VNSWIR- 2.1 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 1.6-2.1 General QA 0 = Not Useful 1 = Useful 2,1 Optical Thickness 1.6-2.1 Condifence QA 00 = No confidence 01 = Marginal 10 = Good 11 = Very Good 3 Effective Radius 1.6-2.1 General QA 0 = Not Useful 1 = Useful 5,4 Effective Radius 1.6-2.1 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 1.6-2.1 General QA 0 = Not Useful 1 = Useful 2,1 Water Path 1.6-2.1 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 7,6 spare Byte 5 ----------------------------------------------------------------- 0 Phase difference multilayer test result 1 Delta precipitable water multilayer test result 2 Delta precipitable water at 900mb multilayer test result 3 Tau difference VNSWIR-SWIR multilayer test result 4 Pavolonis-Heidinger multilayer test result 7,6,5 spare Byte 6 ----------------------------------------------------------------- 2,1,0 Retrieval Phase 000 = No Cloud Mask 001 = No Cloud 010 = Water Cloud 011 = Ice Cloud 100 = Unknown Cloud 3 VNSWIR- 1.6 Retrieval Outcome 0 = Failed/No attempt 1 = Successful 4,5,6 Retrieval Phase 000 = No Cloud Mask 001 = No Cloud 010 = Water Cloud 011 = Ice Cloud 100 = Unknown Cloud 7 VNSWIR- 1.6 PCL Retrieval Outcome 0 = Failed/No attempt 1 = Successful Byte 7 ----------------------------------------------------------------- 2,1,0 Retrieval Phase 000 = No Cloud Mask 001 = No Cloud 010 = Water Cloud 011 = Ice Cloud 100 = Unknown Cloud 3 VNSWIR- 3.7 Retrieval Outcome 0 = Failed/No attempt 1 = Successful 4,5,6 Retrieval Phase 000 = No Cloud Mask 001 = No Cloud 010 = Water Cloud 011 = Ice Cloud 100 = Unknown Cloud 7 VNSWIR- 3.7 PCL Retrieval Outcome 0 = Failed/No attempt 1 = Successful Byte 8 ----------------------------------------------------------------- 2,1,0 Retrieval Phase 000 = No Cloud Mask 001 = No Cloud 010 = Water Cloud 011 = Ice Cloud 100 = Unknown Cloud 3 1.6- 2.1 PCL Retrieval Outcome 0 = Failed/No attempt 1 = Successful 4,5,6 Retrieval Phase 000 = No Cloud Mask 001 = No Cloud 010 = Water Cloud 011 = Ice Cloud 100 = Unknown Cloud 7 VNSWIR- 2.1 PCL Retrieval Outcome 0 = Failed/No attempt 1 = Successful "; Float64 scale_factor 1.0000000000000000; Float64 add_offset 0.0000000000000000; } CoreMetadata { INVENTORYMETADATA { String GROUPTYPE "MASTERGROUP"; ECSDATAGRANULE { REPROCESSINGPLANNED { Int32 NUM_VAL 1; String VALUE "\"further update is anticipated\""; } REPROCESSINGACTUAL { Int32 NUM_VAL 1; String VALUE "\"processed once\""; } LOCALGRANULEID { Int32 NUM_VAL 1; String VALUE "\"MOD06_L2.A2010001.0000.006.2015041180150.hdf\""; } DAYNIGHTFLAG { Int32 NUM_VAL 1; String VALUE "\"Both\""; } PRODUCTIONDATETIME { Int32 NUM_VAL 1; String VALUE "\"2015-02-10T18:01:50.000Z\""; } LOCALVERSIONID { Int32 NUM_VAL 1; String VALUE "\"006\""; } } MEASUREDPARAMETER { MEASUREDPARAMETERCONTAINER { String CLASS "\"1\""; PARAMETERNAME { Int32 NUM_VAL 1; String CLASS "\"1\""; String VALUE "\"Cloud_Top_Pressure\""; } QAFLAGS { String CLASS "\"1\""; AUTOMATICQUALITYFLAG { Int32 NUM_VAL 1; String CLASS "\"1\""; String VALUE "\"Passed\""; } AUTOMATICQUALITYFLAGEXPLANATION { Int32 NUM_VAL 1; String CLASS "\"1\""; 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String VALUE "\"MOD06_L2\""; } VERSIONID { Int32 NUM_VAL 1; Int32 VALUE 6; } } INPUTGRANULE { INPUTPOINTER { Int32 NUM_VAL 50; String VALUE "\"MOD021KM.A2010001.0000.006.2014222194100.hdf\"", "\"MOD03.A2010001.0000.006.2012280165535.hdf\"", "\"MOD35_L2.A2010001.0000.006.2015039064923.hdf\"", "\"gdas1.PGrbF00.100101.00z\"", "\"oisst.20091230\"", "\"goge1_2_img.v1\"", "\"modisdet.dry.101.lit_end.v3\"", "\" modisdet.ozo.101.lit_end.v3\"", "\"modisdet.wts.101.lit_end.v3\"", "\"modisdet.wtl.101.lit_end.v3\"", "\"modisdet.wco.101.lit_end.v3\"", "\"MODCSR_B.A2009362.006.2015039173507.hdf\"", "\"gdas1.PGrbF00.100101.06z\"", "\"eng.100101\"", "\"NISE_SSMISF17_20100101.HDFEOS\"", "\"MODIS_Ice_library.hdf.v5\"", "\" MODIS_Water_library.hdf.v4\"", "\"MODIS_Ice_library_ws3.hdf.v3\"", "\"MODIS_Ice_library_ws3sd.hdf.v4\"", "\"MODIS_Ice_library_ws7.hdf.v3\"", "\"MODIS_Ice_library_ws7sd.hdf.v4\"", "\"MODIS_Ice_library_ws15.hdf.v3\"", "\"MODIS_Ice_library_ws15sd.hdf.v4\"", "\"MODIS_Water_library_ws3.hdf.v2\"", "\" MODIS_Water_library_ws3sd.hdf.v3\"", "\"MODIS_Water_library_ws7.hdf.v2\"", "\"MODIS_Water_library_ws7sd.hdf.v3\"", "\"MODIS_Water_library_ws15.hdf.v2\"", "\"MODIS_Water_library_ws15sd.hdf.v3\"", "\"MODIS_Ice_WaterPhaseFunc.hdf.v3\"", "\"Transmittance.hdf.v2\"", "\"IGBP.EcoMap.NtoS.2004.149.v004.hdf\"", "\" AlbSnwStst.ByNISE.W90.D90.WS.Hemi.2000-2004.YrAvg.hdf\"", "\"MCD43GF_wsa_Band1_001_2010.hdf\"", "\"MCD43GF_wsa_Band2_001_2010.hdf\"", "\"MCD43GF_wsa_Band5_001_2010.hdf\"", "\"MCD43GF_wsa_Band6_001_2010.hdf\"", "\"MCD43GF_wsa_Band7_001_2010.hdf\""; } } SPATIALDOMAINCONTAINER { HORIZONTALSPATIALDOMAINCONTAINER { BOUNDINGRECTANGLE { WESTBOUNDINGCOORDINATE { Int32 NUM_VAL 1; Float64 VALUE -47.0676624014122; } NORTHBOUNDINGCOORDINATE { Int32 NUM_VAL 1; Float64 VALUE -59.3239698942098; } EASTBOUNDINGCOORDINATE { Int32 NUM_VAL 1; Float64 VALUE 49.7734420510939; } SOUTHBOUNDINGCOORDINATE { Int32 NUM_VAL 1; Float64 VALUE -83.947952973723; } } } } RANGEDATETIME { RANGEBEGINNINGDATE { Int32 NUM_VAL 1; String VALUE "\"2010-01-01\""; } RANGEBEGINNINGTIME { Int32 NUM_VAL 1; String VALUE "\"00:00:00.000000\""; } RANGEENDINGDATE { Int32 NUM_VAL 1; String VALUE "\"2010-01-01\""; } RANGEENDINGTIME { Int32 NUM_VAL 1; String VALUE "\"00:05:00.000000\""; } } PGEVERSIONCLASS { PGEVERSION { Int32 NUM_VAL 1; String VALUE "\"6.0.83\""; } } ANCILLARYINPUTGRANULE { ANCILLARYINPUTGRANULECONTAINER { String CLASS "\"1\""; ANCILLARYINPUTTYPE { Int32 NUM_VAL 1; String CLASS "\"1\""; String VALUE "\"Geolocation\""; } ANCILLARYINPUTPOINTER { Int32 NUM_VAL 1; String CLASS "\"1\""; String VALUE "\"MOD03.A2010001.0000.006.2012280165535.hdf\""; } } } ASSOCIATEDPLATFORMINSTRUMENTSENSOR { ASSOCIATEDPLATFORMINSTRUMENTSENSORCONTAINER { String CLASS "\"1\""; ASSOCIATEDSENSORSHORTNAME { String CLASS "\"1\""; Int32 NUM_VAL 1; String VALUE "\"MODIS\""; } ASSOCIATEDPLATFORMSHORTNAME { String CLASS "\"1\""; Int32 NUM_VAL 1; String VALUE "\"Terra\""; } ASSOCIATEDINSTRUMENTSHORTNAME { String CLASS "\"1\""; Int32 NUM_VAL 1; String VALUE "\"MODIS\""; } } } ADDITIONALATTRIBUTES { ADDITIONALATTRIBUTESCONTAINER { String CLASS "\"1\"", "\"2\"", "\"4\"", "\"5\"", "\"6\"", "\"7\"", "\"8\"", "\"9\"", "\"10\"", "\"11\"", "\"12\"", "\"13\"", "\"14\"", "\"15\"", "\"16\"", "\"17\"", "\"18\"", "\"19\""; ADDITIONALATTRIBUTENAME { String CLASS "\"1\"", "\"2\"", "\"4\"", "\"5\"", "\"6\"", "\"7\"", "\"8\"", "\"9\"", "\"10\"", "\"11\"", "\"12\"", "\"13\"", "\"14\"", "\"15\"", "\"16\"", "\"17\"", "\"18\"", "\"19\""; Int32 NUM_VAL 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1; String VALUE "\"SuccessCloudTopPropRtrPct_IR\"", "\"SuccessCloudPhaseRtrPct_IR\"", "\"LowCloudDetectedPct_IR\"", "\"MidCloudDetectedPct_IR\"", "\"HighCloudDetectedPct_IR\"", "\"ThinCloudDetectedPct_IR\"", "\"ThickCloudDetectedPct_IR\"", "\"OpaqueCloudDetectedPct_IR\"", "\"CirrusCloudDetectedPct_IR\"", "\"IceCloudDetectedPct_IR\"", "\"WaterCloudDetectedPct_IR\"", "\"MixedCloudDetectedPct_IR\"", "\"CloudPhaseUncertainPct_IR\"", "\"OceanCoverFractionPct\"", "\"LandCoverFractionPct\"", "\"SnowCoverFractionPct\"", "\"identifier_product_doi\"", "\"identifier_product_doi_authority\""; } INFORMATIONCONTENT { String CLASS "\"1\"", "\"2\"", "\"4\"", "\"5\"", "\"6\"", "\"7\"", "\"8\"", "\"9\"", "\"10\"", "\"11\"", "\"12\"", "\"13\"", "\"14\"", "\"15\"", "\"16\"", "\"17\"", "\"18\"", "\"19\""; PARAMETERVALUE { Int32 NUM_VAL 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1; String CLASS "\"1\"", "\"2\"", "\"4\"", "\"5\"", "\"6\"", "\"7\"", "\"8\"", "\"9\"", "\"10\"", "\"11\"", "\"12\"", "\"13\"", "\"14\"", "\"15\"", "\"16\"", "\"17\"", "\"18\"", "\"19\""; String VALUE "\" 57.76\"", "\" 57.02\"", "\" 30.40\"", "\" 20.68\"", "\" 6.68\"", "\" 6.01\"", "\" 10.13\"", "\" 41.62\"", "\" 16.14\"", "\" 13.15\"", "\" 24.30\"", "\" 0.00\"", "\" 19.57\"", "\" 46.29\"", "\" 53.71\"", "\" 67.96\"", "\"10.5067/MODIS/MOD06_L2.006\"", "\"http://dx.doi.org\""; } } } } } } ArchiveMetadata { ARCHIVEDMETADATA { String GROUPTYPE "MASTERGROUP"; PROCESSINGENVIRONMENT { Int32 NUM_VAL 1; String VALUE "\"Linux minion5250 2.6.18-400.1.1.el5PAE #1 SMP Thu Dec 18 01:38:34 EST 2014 i686 i686 i386 GNU/Linux\""; } ALGORITHMPACKAGE { ALGORITHMPACKAGEACCEPTANCEDATE { Int32 NUM_VAL 1; String VALUE "\"June 1997\""; } ALGORITHMPACKAGEMATURITYCODE { Int32 NUM_VAL 1; String VALUE "\"at-launch\""; } ALGORITHMPACKAGENAME { Int32 NUM_VAL 1; String VALUE "\"ATBD-MOD-04 and ATBD-MOD-05\""; } ALGORITHMPACKAGEVERSION { Int32 NUM_VAL 1; String VALUE "\"2\""; } INSTRUMENTNAME { Int32 NUM_VAL 1; String VALUE "\"Moderate Resolution Imaging Spectroradiometer\""; } LONGNAME { Int32 NUM_VAL 1; String VALUE "\"MODIS/Terra Clouds 5-Min L2 Swath 1km and 5km\""; } LOCALINPUTGRANULEID { Int32 NUM_VAL 20; String VALUE "\"MOD021KM.A2010001.0000.006.2014222194100.hdf\"", "\"MOD03.A2010001.0000.006.2012280165535.hdf\"", "\"MOD35_L2.A2010001.0000.006.2015039064923.hdf\"", "\"MODCSR_B.A2009362.006.2015039173507.hdf\""; } } GPOLYGON { GPOLYGONCONTAINER { String CLASS "\"1\""; GRING { String CLASS "\"1\""; EXCLUSIONGRINGFLAG { Int32 NUM_VAL 1; String CLASS "\"1\""; String VALUE "\"N\""; } } GRINGPOINT { String CLASS "\"1\""; GRINGPOINTLONGITUDE { Int32 NUM_VAL 4; String CLASS "\"1\""; Float64 VALUE 49.7754391298546, -49.6386313023596, -31.8885405371619, 14.7600865215763; } GRINGPOINTLATITUDE { Int32 NUM_VAL 4; String CLASS "\"1\""; Float64 VALUE -70.0608806041149, -83.2823121516969, -65.5402701781074, -59.0896550170681; } GRINGPOINTSEQUENCENO { Int32 NUM_VAL 4; String CLASS "\"1\""; Float64 VALUE 1, 2, 3, 4; } } } } ALGORITHM_VERSION_CLOUD_TOP_PROPERTY_IR { Int32 NUM_VAL 1; String VALUE "\"1\""; } ALGORITHM_VERSION_CLOUD_PHASE_IR { Int32 NUM_VAL 1; String VALUE "\"1\""; } ALGORITHM_VERSION_CLOUD_PROPERTY_VIS { Int32 NUM_VAL 1; String VALUE "\"1\""; } DESCRREVISION { Int32 NUM_VAL 1; String VALUE "\"6.0\""; } PRODUCTIONHISTORY { Int32 NUM_VAL 1; String VALUE "\"PGE06:6.0.83\""; } } } HDF_GLOBAL { String HDFEOSVersion "HDFEOS_V2.17"; Int32 Number_of_Instrument_Scans 2030; Int32 Maximum_Number_of_1km_Frames 1354; String history "$Id: MOD06_L2.CDL.fs,v 1.13 2013/06/19 15:38:46 wind Exp $ "; String title "MODIS Level 2 Cloud Properties "; String Clear_Sky_Restoral_Status "y"; String Collection_4_Phase_Used "n"; String Ice_Phase_Forced "n"; String Water_Phase_Forced "n"; String identifier_product_doi "10.5067/MODIS/MOD06_L2.006"; String identifier_product_doi_authority "http://dx.doi.org"; } Statistics_1km_sds_NONEOS { String long_name "Granule Statistics for parameters at 1x1 resolution"; String units "see description attribute"; Float32 _FillValue -999.0000000; 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. Mean of Ice Cloud Optical Thickness 10. Mean of Water Cloud Effective Particle Radius (microns) 11. Mean of Ice Cloud Effective Diameter (microns) 12. Mean Liquid Water Cloud Top Pressure (mb) 13. Mean Ice Cloud Top Pressure (mb) 14. Mean Undetermined Cloud Top Pressure (mb) 15. Mean Liquid Water Cloud Top Temperature (K) 16. Mean Ice Cloud Top Temperature (K) 17. Mean Undetermined Cloud Top Temperature (K) "; } }