From c8ea11f25ecea728ff7e938d1ef30ee6574b441e Mon Sep 17 00:00:00 2001
From: Ian Boyd <iboyd@astro.umass.edu>
Date: Mon, 13 Jan 2025 07:26:56 +0000
Subject: [PATCH] Replace GEOMS-TE-RADIOMETER-BROADBAND-001.csv

---
 GEOMS-TE-RADIOMETER-BROADBAND-001.csv | 101 ++++++++++++++------------
 1 file changed, 53 insertions(+), 48 deletions(-)

diff --git a/GEOMS-TE-RADIOMETER-BROADBAND-001.csv b/GEOMS-TE-RADIOMETER-BROADBAND-001.csv
index 48ceff2..1d15ee6 100644
--- a/GEOMS-TE-RADIOMETER-BROADBAND-001.csv
+++ b/GEOMS-TE-RADIOMETER-BROADBAND-001.csv
@@ -1,48 +1,53 @@
-2,DATETIME,DATETIME,MJD2K,DOUBLE, Mean time of the measurement sequence used for each retrieval; defined relative to reference datetime of Jan. 1 2000 at 0:00:00 UT which is equal to 0.00,x
-2,INTEGRATION.TIME,DATETIME,s,REAL,Effective/Actual integration time,x
-2,LATITUDE.INSTRUMENT,[CONSTANT|DATETIME],deg,REAL,Inst. geolocation. Latitude north (decimal degrees) of the location of the instrument (+ for north; - for south),x
-2,LONGITUDE.INSTRUMENT,[CONSTANT|DATETIME],deg,REAL,Inst. geolocation. Longitude east (decimal degrees) of the location of the instrument (+ for east; - for west),x
-2,ALTITUDE.INSTRUMENT,[CONSTANT|DATETIME],m,REAL,Inst. geolocation. Altitude of the instrument relative to the location site,x
-2,RADIATION.DOWNWELLING.GLOBAL_SHORTWAVE_MEAN,DATETIME,W m-2,REAL,Incoming solar radiation flux incident upon the planet's surface,x
-2,RADIATION.DOWNWELLING.GLOBAL_SHORTWAVE_MINIMUM,DATETIME,W m-2,REAL,Minimum downward shortwave radiation value,x
-2,RADIATION.DOWNWELLING.GLOBAL_SHORTWAVE_MAXIMUM,DATETIME,W m-2,REAL,Maximum downward shortwave radiation value,x
-2,RADIATION.DOWNWELLING.GLOBAL_SHORTWAVE_MEAN.STANDARD,DATETIME,W m-2,REAL,Standard deviation of the mean downward shortwave radiation,x
-2,RADIATION.DOWNWELLING.GLOBAL_SHORTWAVE_FLAG,DATETIME,1,SHORT,Quality codes of the 1-minutes means. Each quality code holds 6 quality flags resulting in quality codes between 0 and 63. A quality code of 0 means that all checks were passed successfully. 1=Measurement falls below the physically possible limit; 2=Measurement exceeds the physically possible limit; 4=Measurement falls below the extremely rare limit; 8=Measurement exceeds the extremely rare limit; 16=Compared with a corresponding measurement the measurement is too low; 32=Compared with a corresponding measurement the measurement is too high,x
-2,RADIATION.DOWNWELLING.GLOBAL_SHORTWAVE_SOURCE,CONSTANT,1,STRING,Instrument type;Manufacturer;Model;Serial number;WRMC number,x
-2,RADIATION.DOWNWELLING_LONGWAVE_MEAN,DATETIME,W m-2,REAL,The thermal emission of the atmosphere incident on the planet's surface,x
-2,RADIATION.DOWNWELLING_LONGWAVE_MINIMUM,DATETIME,W m-2,REAL,Minimum downward longwave radiation value,x
-2,RADIATION.DOWNWELLING_LONGWAVE_MAXIMUM,DATETIME,W m-2,REAL,Maximum downward longwave radiation value,x
-2,RADIATION.DOWNWELLING_LONGWAVE_MEAN.STANDARD,DATETIME,W m-2,REAL,Standard deviation of the mean downward longwave radiation,x
-2,RADIATION.DOWNWELLING_LONGWAVE_FLAG,DATETIME,1,SHORT,Quality codes of the 1-minutes means. Each quality code holds 6 quality flags resulting in quality codes between 0 and 63. A quality code of 0 means that all checks were passed successfully. 1=Measurement falls below the physically possible limit; 2=Measurement exceeds the physically possible limit; 4=Measurement falls below the extremely rare limit; 8=Measurement exceeds the extremely rare limit; 16=Compared with a corresponding measurement the measurement is too low; 32=Compared with a corresponding measurement the measurement is too high,x
-2,RADIATION.DOWNWELLING_LONGWAVE_SOURCE,CONSTANT,1,STRING,Instrument type;Manufacturer;Model;Serial number;WRMC number,x
-2,RADIATION.UPWELLING.REFLECTED_SHORTWAVE_MEAN,DATETIME,W m-2,REAL,The part of the global radiation that is reflected by the surface,x
-2,RADIATION.UPWELLING.REFLECTED_SHORTWAVE_MINIMUM,DATETIME,W m-2,REAL,Minimum upward shortwave radiation value,x
-2,RADIATION.UPWELLING.REFLECTED_SHORTWAVE_MAXIMUM,DATETIME,W m-2,REAL,Maximum upward shortwave radiation value,x
-2,RADIATION.UPWELLING.REFLECTED_SHORTWAVE_MEAN.STANDARD,DATETIME,W m-2,REAL,Standard deviation of the mean upward shortwave radiation,x
-2,RADIATION.UPWELLING.REFLECTED_SHORTWAVE_FLAG,DATETIME,1,SHORT,Quality codes of the 1-minutes means. Each quality code holds 6 quality flags resulting in quality codes between 0 and 63. A quality code of 0 means that all checks were passed successfully. 1=Measurement falls below the physically possible limit; 2=Measurement exceeds the physically possible limit; 4=Measurement falls below the extremely rare limit; 8=Measurement exceeds the extremely rare limit; 16=Compared with a corresponding measurement the measurement is too low; 32=Compared with a corresponding measurement the measurement is too high,x
-2,RADIATION.UPWELLING.REFLECTED_SHORTWAVE_SOURCE,CONSTANT,1,STRING,Instrument type;Manufacturer;Model;Serial number;WRMC number,x
-2,RADIATION.UPWELLING_LONGWAVE_MEAN,DATETIME,W m-2,REAL,The thermal emission from the planet's surface,x
-2,RADIATION.UPWELLING_LONGWAVE_MINIMUM,DATETIME,W m-2,REAL,Minimum upward longwave radiation value,x
-2,RADIATION.UPWELLING_LONGWAVE_MAXIMUM,DATETIME,W m-2,REAL,Maximum upward longwave radiation value,x
-2,RADIATION.UPWELLING_LONGWAVE_MEAN.STANDARD,DATETIME,W m-2,REAL,Standard deviation of the mean upward longwave radiation,x
-2,RADIATION.UPWELLING_LONGWAVE_FLAG,DATETIME,1,SHORT,Quality codes of the 1-minutes means. Each quality code holds 6 quality flags resulting in quality codes between 0 and 63. A quality code of 0 means that all checks were passed successfully. 1=Measurement falls below the physically possible limit; 2=Measurement exceeds the physically possible limit; 4=Measurement falls below the extremely rare limit; 8=Measurement exceeds the extremely rare limit; 16=Compared with a corresponding measurement the measurement is too low; 32=Compared with a corresponding measurement the measurement is too high,x
-2,RADIATION.UPWELLING_LONGWAVE_SOURCE,CONSTANT,1,STRING,Instrument type;Manufacturer;Model;Serial number;WRMC number,x
-2,RADIATION.DIRECT_MEAN,DATETIME,W m-2,REAL,The part of the global radiation incident on a surface orthogonal (or 'normal') to the sun's beam which originates from the solid angle subtended by the sun's disk,x
-2,RADIATION.DIRECT_MINIMUM,DATETIME,W m-2,REAL,Minimum direct radiation value,x
-2,RADIATION.DIRECT_MAXIMUM,DATETIME,W m-2,REAL,Maximum direct radiation value,x
-2,RADIATION.DIRECT_MEAN.STANDARD,DATETIME,W m-2,REAL,Standard deviation of the mean direct radiation,x
-2,RADIATION.DIRECT_FLAG,DATETIME,1,SHORT,Quality codes of the 1-minutes means. Each quality code holds 6 quality flags resulting in quality codes between 0 and 63. A quality code of 0 means that all checks were passed successfully. 1=Measurement falls below the physically possible limit; 2=Measurement exceeds the physically possible limit; 4=Measurement falls below the extremely rare limit; 8=Measurement exceeds the extremely rare limit; 16=Compared with a corresponding measurement the measurement is too low; 32=Compared with a corresponding measurement the measurement is too high,x
-2,RADIATION.DIRECT_SOURCE,CONSTANT,1,STRING,Instrument type;Manufacturer;Model;Serial number;WRMC number,x
-2,RADIATION.DIFFUSE_MEAN,DATETIME,W m-2,REAL,The component of global radiation that is scattered out of the solar beam by atmospheric constituents,x
-2,RADIATION.DIFFUSE_MINIMUM,DATETIME,W m-2,REAL,Minimum diffuse radiation value,x
-2,RADIATION.DIFFUSE_MAXIMUM,DATETIME,W m-2,REAL,Maximum diffuse radiation value,x
-2,RADIATION.DIFFUSE_MEAN.STANDARD,DATETIME,W m-2,REAL,Standard deviation of the mean diffuse radiation,x
-2,RADIATION.DIFFUSE_FLAG,DATETIME,1,SHORT,Quality codes of the 1-minutes means. Each quality code holds 6 quality flags resulting in quality codes between 0 and 63. A quality code of 0 means that all checks were passed successfully. 1=Measurement falls below the physically possible limit; 2=Measurement exceeds the physically possible limit; 4=Measurement falls below the extremely rare limit; 8=Measurement exceeds the extremely rare limit; 16=Compared with a corresponding measurement the measurement is too low; 32=Compared with a corresponding measurement the measurement is too high,x
-2,RADIATION.DIFFUSE_SOURCE,CONSTANT,1,STRING,Instrument type;Manufacturer;Model;Serial number;WRMC number,x
-2,SURFACE.TEMPERATURE,DATETIME,K,REAL,Surface temperature,x
-2,SURFACE.TEMPERATURE_SOURCE,CONSTANT,1,STRING,Source of temperature measurement,x
-2,SURFACE.PRESSURE,DATETIME,hPa,REAL,Surface pressure,x
-2,SURFACE.PRESSURE_SOURCE,CONSTANT,1,STRING,Source of pressure measurement,x
-2,HUMIDITY.RELATIVE.SURFACE,DATETIME,%,REAL,Surface relative humidity,x
-2,HUMIDITY.RELATIVE.SURFACE_SOURCE,CONSTANT,1,STRING,Source of relative humidity measurement,x
-2,SOURCE.PRODUCT,INDEPENDENT,1,STRING,Information relevant to the source history of the Metadata and Data,o
+2,DATETIME,DATETIME,MJD2K,DOUBLE, Mean time of the measurement sequence used for each retrieval; defined relative to reference datetime of Jan. 1 2000 at 0:00:00 UT which is equal to 0.00,x
+2,LATITUDE.INSTRUMENT,[CONSTANT|DATETIME],deg,REAL,Inst. geolocation. Latitude north (decimal degrees) of the location of the instrument (+ for north; - for south),x
+2,LONGITUDE.INSTRUMENT,[CONSTANT|DATETIME],deg,REAL,Inst. geolocation. Longitude east (decimal degrees) of the location of the instrument (+ for east; - for west),x
+2,ALTITUDE.INSTRUMENT,[CONSTANT|DATETIME],m,REAL,Inst. geolocation. Altitude of the instrument relative to the location site,x
+2,RADIATION.DOWNWELLING.GLOBAL_SHORTWAVE_MEAN,DATETIME,W m-2,REAL,Incoming solar radiation flux incident upon the planet's surface,o
+2,RADIATION.DOWNWELLING.GLOBAL_SHORTWAVE_MINIMUM,DATETIME,W m-2,REAL,Minimum downward shortwave radiation value,x if RADIATION.DOWNWELLING.GLOBAL_SHORTWAVE_MEAN is provided
+2,RADIATION.DOWNWELLING.GLOBAL_SHORTWAVE_MAXIMUM,DATETIME,W m-2,REAL,Maximum downward shortwave radiation value,x if RADIATION.DOWNWELLING.GLOBAL_SHORTWAVE_MEAN is provided
+2,RADIATION.DOWNWELLING.GLOBAL_SHORTWAVE_MEAN.STANDARD,DATETIME,W m-2,REAL,Standard deviation of the mean downward shortwave radiation,x if RADIATION.DOWNWELLING.GLOBAL_SHORTWAVE_MEAN is provided
+2,RADIATION.DOWNWELLING.GLOBAL_SHORTWAVE_FLAG,DATETIME,1,SHORT,Quality codes of the 1-minutes means. Each quality code holds 6 quality flags resulting in quality codes between 0 and 63. A quality code of 0 means that all checks were passed successfully. 1=Measurement falls below the physically possible limit; 2=Measurement exceeds the physically possible limit; 4=Measurement falls below the extremely rare limit; 8=Measurement exceeds the extremely rare limit; 16=Compared with a corresponding measurement the measurement is too low; 32=Compared with a corresponding measurement the measurement is too high,x if RADIATION.DOWNWELLING.GLOBAL_SHORTWAVE_MEAN is provided
+2,RADIATION.DOWNWELLING.GLOBAL_SHORTWAVE_SOURCE,CONSTANT,[empty],STRING,Instrument type;Manufacturer;Model;Serial number;WRMC number,x if RADIATION.DOWNWELLING.GLOBAL_SHORTWAVE_MEAN is provided
+2,RADIATION.DOWNWELLING.GLOBAL_SHORTWAVE_INTEGRATION.TIME,[CONSTANT|DATETIME],s,REAL,Integration time for downward shortwave radiation measurements,x if RADIATION.DOWNWELLING.GLOBAL_SHORTWAVE_MEAN is provided
+2,RADIATION.DOWNWELLING_LONGWAVE_MEAN,DATETIME,W m-2,REAL,The thermal emission of the atmosphere incident on the planet's surface,o
+2,RADIATION.DOWNWELLING_LONGWAVE_MINIMUM,DATETIME,W m-2,REAL,Minimum downward longwave radiation value,x if RADIATION.DOWNWELLING_LONGWAVE_MEAN is provided
+2,RADIATION.DOWNWELLING_LONGWAVE_MAXIMUM,DATETIME,W m-2,REAL,Maximum downward longwave radiation value,x if RADIATION.DOWNWELLING_LONGWAVE_MEAN is provided
+2,RADIATION.DOWNWELLING_LONGWAVE_MEAN.STANDARD,DATETIME,W m-2,REAL,Standard deviation of the mean downward longwave radiation,x if RADIATION.DOWNWELLING_LONGWAVE_MEAN is provided
+2,RADIATION.DOWNWELLING_LONGWAVE_FLAG,DATETIME,1,SHORT,Quality codes of the 1-minutes means. Each quality code holds 6 quality flags resulting in quality codes between 0 and 63. A quality code of 0 means that all checks were passed successfully. 1=Measurement falls below the physically possible limit; 2=Measurement exceeds the physically possible limit; 4=Measurement falls below the extremely rare limit; 8=Measurement exceeds the extremely rare limit; 16=Compared with a corresponding measurement the measurement is too low; 32=Compared with a corresponding measurement the measurement is too high,x if RADIATION.DOWNWELLING_LONGWAVE_MEAN is provided
+2,RADIATION.DOWNWELLING_LONGWAVE_SOURCE,CONSTANT,[empty],STRING,Instrument type;Manufacturer;Model;Serial number;WRMC number,x if RADIATION.DOWNWELLING_LONGWAVE_MEAN is provided
+2,RADIATION.DOWNWELLING_LONGWAVE_INTEGRATION.TIME,[CONSTANT|DATETIME],s,REAL,Integration time for downward longwave radiation measurements,x if RADIATION.DOWNWELLING_LONGWAVE_MEAN is provided
+2,RADIATION.UPWELLING.REFLECTED_SHORTWAVE_MEAN,DATETIME,W m-2,REAL,The part of the global radiation that is reflected by the surface,o
+2,RADIATION.UPWELLING.REFLECTED_SHORTWAVE_MINIMUM,DATETIME,W m-2,REAL,Minimum upward shortwave radiation value,x if RADIATION.UPWELLING.REFLECTED_SHORTWAVE_MEAN is provided
+2,RADIATION.UPWELLING.REFLECTED_SHORTWAVE_MAXIMUM,DATETIME,W m-2,REAL,Maximum upward shortwave radiation value,x if RADIATION.UPWELLING.REFLECTED_SHORTWAVE_MEAN is provided
+2,RADIATION.UPWELLING.REFLECTED_SHORTWAVE_MEAN.STANDARD,DATETIME,W m-2,REAL,Standard deviation of the mean upward shortwave radiation,x if RADIATION.UPWELLING.REFLECTED_SHORTWAVE_MEAN is provided
+2,RADIATION.UPWELLING.REFLECTED_SHORTWAVE_FLAG,DATETIME,1,SHORT,Quality codes of the 1-minutes means. Each quality code holds 6 quality flags resulting in quality codes between 0 and 63. A quality code of 0 means that all checks were passed successfully. 1=Measurement falls below the physically possible limit; 2=Measurement exceeds the physically possible limit; 4=Measurement falls below the extremely rare limit; 8=Measurement exceeds the extremely rare limit; 16=Compared with a corresponding measurement the measurement is too low; 32=Compared with a corresponding measurement the measurement is too high,x if RADIATION.UPWELLING.REFLECTED_SHORTWAVE_MEAN is provided
+2,RADIATION.UPWELLING.REFLECTED_SHORTWAVE_SOURCE,CONSTANT,[empty],STRING,Instrument type;Manufacturer;Model;Serial number;WRMC number,x if RADIATION.UPWELLING.REFLECTED_SHORTWAVE_MEAN is provided
+2,RADIATION.UPWELLING.REFLECTED_SHORTWAVE_INTEGRATION.TIME,[CONSTANT|DATETIME],s,REAL,Integration time for upward shortwave radiation measurements,x if RADIATION.UPWELLING.REFLECTED_SHORTWAVE_MEAN is provided
+2,RADIATION.UPWELLING_LONGWAVE_MEAN,DATETIME,W m-2,REAL,The thermal emission from the planet's surface,o
+2,RADIATION.UPWELLING_LONGWAVE_MINIMUM,DATETIME,W m-2,REAL,Minimum upward longwave radiation value,x if RADIATION.UPWELLING_LONGWAVE_MEAN is provided
+2,RADIATION.UPWELLING_LONGWAVE_MAXIMUM,DATETIME,W m-2,REAL,Maximum upward longwave radiation value,x if RADIATION.UPWELLING_LONGWAVE_MEAN is provided
+2,RADIATION.UPWELLING_LONGWAVE_MEAN.STANDARD,DATETIME,W m-2,REAL,Standard deviation of the mean upward longwave radiation,x if RADIATION.UPWELLING_LONGWAVE_MEAN is provided
+2,RADIATION.UPWELLING_LONGWAVE_FLAG,DATETIME,1,SHORT,Quality codes of the 1-minutes means. Each quality code holds 6 quality flags resulting in quality codes between 0 and 63. A quality code of 0 means that all checks were passed successfully. 1=Measurement falls below the physically possible limit; 2=Measurement exceeds the physically possible limit; 4=Measurement falls below the extremely rare limit; 8=Measurement exceeds the extremely rare limit; 16=Compared with a corresponding measurement the measurement is too low; 32=Compared with a corresponding measurement the measurement is too high,x if RADIATION.UPWELLING_LONGWAVE_MEAN is provided
+2,RADIATION.UPWELLING_LONGWAVE_SOURCE,CONSTANT,[empty],STRING,Instrument type;Manufacturer;Model;Serial number;WRMC number,x if RADIATION.UPWELLING_LONGWAVE_MEAN is provided
+2,RADIATION.UPWELLING_LONGWAVE_INTEGRATION.TIME,[CONSTANT|DATETIME],s,REAL,Integration time for upward longwave radiation measurements,x if RADIATION.UPWELLING_LONGWAVE_MEAN is provided
+2,RADIATION.DIRECT_MEAN,DATETIME,W m-2,REAL,The part of the global radiation incident on a surface orthogonal (or 'normal') to the sun's beam which originates from the solid angle subtended by the sun's disk,o
+2,RADIATION.DIRECT_MINIMUM,DATETIME,W m-2,REAL,Minimum direct radiation value,x if RADIATION.DIRECT_MEAN is provided
+2,RADIATION.DIRECT_MAXIMUM,DATETIME,W m-2,REAL,Maximum direct radiation value,x if RADIATION.DIRECT_MEAN is provided
+2,RADIATION.DIRECT_MEAN.STANDARD,DATETIME,W m-2,REAL,Standard deviation of the mean direct radiation,x if RADIATION.DIRECT_MEAN is provided
+2,RADIATION.DIRECT_FLAG,DATETIME,1,SHORT,Quality codes of the 1-minutes means. Each quality code holds 6 quality flags resulting in quality codes between 0 and 63. A quality code of 0 means that all checks were passed successfully. 1=Measurement falls below the physically possible limit; 2=Measurement exceeds the physically possible limit; 4=Measurement falls below the extremely rare limit; 8=Measurement exceeds the extremely rare limit; 16=Compared with a corresponding measurement the measurement is too low; 32=Compared with a corresponding measurement the measurement is too high,x if RADIATION.DIRECT_MEAN is provided
+2,RADIATION.DIRECT_SOURCE,CONSTANT,[empty],STRING,Instrument type;Manufacturer;Model;Serial number;WRMC number,x if RADIATION.DIRECT_MEAN is provided
+2,RADIATION.DIRECT_INTEGRATION.TIME,[CONSTANT|DATETIME],s,REAL,Integration time for direct radiation measurements,x if RADIATION.DIRECT_MEAN is provided
+2,RADIATION.DIFFUSE_MEAN,DATETIME,W m-2,REAL,The component of global radiation that is scattered out of the solar beam by atmospheric constituents,o
+2,RADIATION.DIFFUSE_MINIMUM,DATETIME,W m-2,REAL,Minimum diffuse radiation value,x if RADIATION.DIFFUSE_MEAN is provided
+2,RADIATION.DIFFUSE_MAXIMUM,DATETIME,W m-2,REAL,Maximum diffuse radiation value,x if RADIATION.DIFFUSE_MEAN is provided
+2,RADIATION.DIFFUSE_MEAN.STANDARD,DATETIME,W m-2,REAL,Standard deviation of the mean diffuse radiation,x if RADIATION.DIFFUSE_MEAN is provided
+2,RADIATION.DIFFUSE_FLAG,DATETIME,1,SHORT,Quality codes of the 1-minutes means. Each quality code holds 6 quality flags resulting in quality codes between 0 and 63. A quality code of 0 means that all checks were passed successfully. 1=Measurement falls below the physically possible limit; 2=Measurement exceeds the physically possible limit; 4=Measurement falls below the extremely rare limit; 8=Measurement exceeds the extremely rare limit; 16=Compared with a corresponding measurement the measurement is too low; 32=Compared with a corresponding measurement the measurement is too high,x if RADIATION.DIFFUSE_MEAN is provided
+2,RADIATION.DIFFUSE_SOURCE,CONSTANT,[empty],STRING,Instrument type;Manufacturer;Model;Serial number;WRMC number,x if RADIATION.DIFFUSE_MEAN is provided
+2,RADIATION.DIFFUSE_INTEGRATION.TIME,[CONSTANT|DATETIME],s,REAL,Integration time for diffuse radiation measurements,x if RADIATION.DIFFUSE_MEAN is provided
+2,SURFACE.TEMPERATURE,DATETIME,K,REAL,Surface temperature,o
+2,SURFACE.TEMPERATURE_SOURCE,CONSTANT,[empty],STRING,Source of temperature measurement,x if SURFACE.TEMPERATURE is provided
+2,SURFACE.PRESSURE,DATETIME,hPa,REAL,Surface pressure,o
+2,SURFACE.PRESSURE_SOURCE,CONSTANT,[empty],STRING,Source of pressure measurement,x if SURFACE.PRESSURE is provided
+2,HUMIDITY.RELATIVE.SURFACE,DATETIME,%,REAL,Surface relative humidity,o
+2,HUMIDITY.RELATIVE.SURFACE_SOURCE,CONSTANT,[empty],STRING,Source of relative humidity measurement,x if HUMIDITY.RELATIVE.SURFACE is provided
+2,SOURCE.PRODUCT,INDEPENDENT,[empty],STRING,Information relevant to the source history of the Metadata and Data,o
-- 
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