Dataset Information

HDFEOSVersion:	"HDFEOS_V2.13"
Path_number:	158
AGP_version_id:	2
DID_version_id:	4
Number_blocks:	180
Ocean_blocks_size:	180
Ocean_blocks.count:	71
Ocean_blocks.numbers:	7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 78, 79, 82, 83, 84, 85, 86, 87, 88, 89, 90, 91, 92, 93, 97, 112, 113, 114, 115, 116, 117, 118, 119, 120, 121, 122, 123, 124, 125, 126, 127, 129, 130, 131, 132, 133, 134, 135, 136, 137, 138, 139, 140, 141, 142, 143, 144, 175, 176, 177, 178, 179, 180, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0
SOM_parameters.som_ellipsoid.a:	6.37814e+06
SOM_parameters.som_ellipsoid.e2:	0.00669435
SOM_parameters.som_orbit.aprime:	1
SOM_parameters.som_orbit.eprime:	1
SOM_parameters.som_orbit.gama:	1
SOM_parameters.som_orbit.nrev:	233
SOM_parameters.som_orbit.ro:	7.07804e+06
SOM_parameters.som_orbit.i:	1.71573
SOM_parameters.som_orbit.P2P1:	0.0686667
SOM_parameters.som_orbit.lambda0:	-2.00389
Origin_block.ulc.x:	7.46075e+06
Origin_block.ulc.y:	527450
Origin_block.lrc.x:	7.60155e+06
Origin_block.lrc.y:	1.09065e+06
Start_block:	68
End block:	74
Cam_mode:	1
Num_local_modes:	0
Local_mode_site_name:	"\\000\\000\\000\\000\\000\\000\\000\\000\\000\\000\\000\\000"
Orbit_QA:	-9999
Camera:	9
SubsetMetadata:	"\\012GROUP = SUBSET\\012 PARENT_FILE = MISR_AM1_GRP_RCCM_GM_P158_O025323_DA_F04_0024.hdf\\012 BLOCKS = (68,69,70,71,72,73,74)\\012 PARAMETERS = (ALL)\\012END GROUP = SUBSET\\012"
HDF_ANNOT:	"SCIENCE CONFIGURATION INFORMATION\\012MISRFILE\\012!! Glitter angle !!\\01240.0\\012!! n1, minumum n for sigma of r3 !!\\0129\\012!! n2, minimum n for ave of r3 !!\\0129\\012!! n3, minimum n for ave of D !!\\0125\\012!! RDQI1, minimum allowable quality for sigma r3 !!\\0120\\012!! RDQI2, minimum allowable quality for ave r3 !!\\0120\\012!! Search distance finding the nearest CSSC land class !!\\01220\\012!! Number of successful bin variance threshold !!\\01264\\012!! Total population of histogram update threshold !!\\0125000\\012!! ------------------------------------------\\012!! MISR L1B3 (RCCM) Config File\\012!! F02_01\\012!! ------------------------------------------\\012AGP/MISR_AM1_AGP_P159_F01_24.hdf\\012LID = 1301; Local Granule ID = MISR_AM1_CSSC_F01_05.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/ancillary/CSSC/MISR_AM1_CSSC_F01_05.hdf\\012LID = 1307; Local Granule ID = MISR_AM1_GRP_TERRAIN_GM_P159_O024726_DF_F03_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/MI1B2T/MI1B2T.A2004224.0615.003.2007082105932.DF.24.hdf\\012LID = 1308; Local Granule ID = MISR_AM1_GRP_TERRAIN_GM_P159_O024726_CF_F03_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/MI1B2T/MI1B2T.A2004224.0615.003.2007082105932.CF.24.hdf\\012LID = 1309; Local Granule ID = MISR_AM1_GRP_TERRAIN_GM_P159_O024726_BF_F03_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/MI1B2T/MI1B2T.A2004224.0615.003.2007082105912.BF.24.hdf\\012LID = 1310; Local Granule ID = MISR_AM1_GRP_TERRAIN_GM_P159_O024726_AF_F03_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/MI1B2T/MI1B2T.A2004224.0615.003.2007082105912.AF.24.hdf\\012LID = 1311; Local Granule ID = MISR_AM1_GRP_TERRAIN_GM_P159_O024726_AN_F03_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/MI1B2T/MI1B2T.A2004224.0615.003.2007082105912.AN.24.hdf\\012LID = 1312; Local Granule ID = MISR_AM1_GRP_TERRAIN_GM_P159_O024726_DA_F03_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/MI1B2T/MI1B2T.A2004224.0615.003.2007082105932.DA.24.hdf\\012LID = 1313; Local Granule ID = MISR_AM1_GRP_TERRAIN_GM_P159_O024726_CA_F03_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/MI1B2T/MI1B2T.A2004224.0615.003.2007082105932.CA.24.hdf\\012LID = 1314; Local Granule ID = MISR_AM1_GRP_TERRAIN_GM_P159_O024726_BA_F03_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/MI1B2T/MI1B2T.A2004224.0615.003.2007082105912.BA.24.hdf\\012LID = 1315; Local Granule ID = MISR_AM1_GRP_TERRAIN_GM_P159_O024726_AA_F03_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/MI1B2T/MI1B2T.A2004224.0615.003.2007082105912.AA.24.hdf\\012LID = 1316; Local Granule ID = MISR_AM1_GRP_ELLIPSOID_GM_P159_O024726_DF_F03_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/MI1B2E/MI1B2E.A2004224.0615.003.2007082105932.DF.24.hdf\\012LID = 1317; Local Granule ID = MISR_AM1_GRP_ELLIPSOID_GM_P159_O024726_CF_F03_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/MI1B2E/MI1B2E.A2004224.0615.003.2007082105932.CF.24.hdf\\012LID = 1318; Local Granule ID = MISR_AM1_GRP_ELLIPSOID_GM_P159_O024726_BF_F03_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/MI1B2E/MI1B2E.A2004224.0615.003.2007082105912.BF.24.hdf\\012LID = 1319; Local Granule ID = MISR_AM1_GRP_ELLIPSOID_GM_P159_O024726_AF_F03_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/MI1B2E/MI1B2E.A2004224.0615.003.2007082105912.AF.24.hdf\\012LID = 1320; Local Granule ID = MISR_AM1_GRP_ELLIPSOID_GM_P159_O024726_AN_F03_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/MI1B2E/MI1B2E.A2004224.0615.003.2007082105912.AN.24.hdf\\012LID = 1321; Local Granule ID = MISR_AM1_GRP_ELLIPSOID_GM_P159_O024726_DA_F03_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/MI1B2E/MI1B2E.A2004224.0615.003.2007082105932.DA.24.hdf\\012LID = 1322; Local Granule ID = MISR_AM1_GRP_ELLIPSOID_GM_P159_O024726_CA_F03_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/MI1B2E/MI1B2E.A2004224.0615.003.2007082105932.CA.24.hdf\\012LID = 1323; Local Granule ID = MISR_AM1_GRP_ELLIPSOID_GM_P159_O024726_BA_F03_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/MI1B2E/MI1B2E.A2004224.0615.003.2007082105912.BA.24.hdf\\012LID = 1324; Local Granule ID = MISR_AM1_GRP_ELLIPSOID_GM_P159_O024726_AA_F03_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/MI1B2E/MI1B2E.A2004224.0615.003.2007082105912.AA.24.hdf\\012LID = 1325; Local Granule ID = MISR_AM1_GRP_RCCM_GM_P159_O024726_DF_F04_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/MIRCCM/MIRCCM.A2004224.0615.004.2007082111954.DF.24.hdf\\012LID = 1326; Local Granule ID = MISR_AM1_GRP_RCCM_GM_P159_O024726_CF_F04_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/MIRCCM/MIRCCM.A2004224.0615.004.2007082110646.CF.24.hdf\\012LID = 1327; Local Granule ID = MISR_AM1_GRP_RCCM_GM_P159_O024726_BF_F04_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/MIRCCM/MIRCCM.A2004224.0615.004.2007082111944.BF.24.hdf\\012LID = 1328; Local Granule ID = MISR_AM1_GRP_RCCM_GM_P159_O024726_AF_F04_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/MIRCCM/MIRCCM.A2004224.0615.004.2007082110657.AF.24.hdf\\012LID = 1329; Local Granule ID = MISR_AM1_GRP_RCCM_GM_P159_O024726_AN_F04_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/MIRCCM/MIRCCM.A2004224.0615.004.2007082110907.AN.24.hdf\\012LID = 1330; Local Granule ID = MISR_AM1_GRP_RCCM_GM_P159_O024726_DA_F04_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/MIRCCM/MIRCCM.A2004224.0615.004.2007082111944.DA.24.hdf\\012LID = 1331; Local Granule ID = MISR_AM1_GRP_RCCM_GM_P159_O024726_CA_F04_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/MIRCCM/MIRCCM.A2004224.0615.004.2007082110636.CA.24.hdf\\012LID = 1332; Local Granule ID = MISR_AM1_GRP_RCCM_GM_P159_O024726_BA_F04_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/MIRCCM/MIRCCM.A2004224.0615.004.2007082112004.BA.24.hdf\\012LID = 1333; Local Granule ID = MISR_AM1_GRP_RCCM_GM_P159_O024726_AA_F04_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/MIRCCM/MIRCCM.A2004224.0615.004.2007082110727.AA.24.hdf\\012LID = 1334; Local Granule ID = MISR_AM1_GP_GMP_P159_O024726_F03_0013.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/MIB2GEOP/MIB2GEOP.A2004224.0615.002.2007082044538.13.hdf\\012LID = 1340; Local Granule ID = MISR_AM1_TASC_AUG_F01_01.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/ancillary/TASC/MISR_AM1_TASC_AUG_F01_01.hdf\\012LID = 1500; Local Granule ID = MISR_AM1_ARP_PRFLTCHAR_F02_0002.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/ancillary/ARP_static/MISR_AM1_ARP_PRFLTCHAR_F02_0002.hdf\\012LID = 1501; Local Granule ID = MISR_AM1_ARP_PRFLTCAL_F02_0005.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/ancillary/ARP_static/MISR_AM1_ARP_PRFLTCAL_F02_0005.hdf\\012LID = 1502; Local Granule ID = MISR_AM1_ARP_INFLTCAL_T028_F02_0010.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/ancillary/ARP_dynamic/MISR_AM1_ARP_INFLTCAL_T028_F02_0010.hdf\\012LID = 1503; Local Granule ID = MISR_AM1_ARP_CONFIG_F03_0003.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/ancillary/ARP_static/MISR_AM1_ARP_CONFIG_F03_0003.hdf\\012LID = 951; Local Granule ID = MISR_AM1_TC_STEREO_P159_O024726_F08_0016.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/MIL2TCST/MIL2TCST.A2004224.0615.002.2007082114113.16.hdf\\012_rlra_height\\012 ! maximum acceptable value for RLRA height (m)\\0120.0 ! min_texture_index\\012 ! minimum acceptable value for texture index\\01210.0 ! max_texture_index\\012 ! maximum acceptable value for texture index\\012175.0 ! min_temperature\\012 ! minimum acceptable value for temperature (K)\\012340.0 ! max_temperature\\012 ! maximum acceptable value for temperature (K)\\0126.0 ! max_brf_value\\012 ! maximum acceptable value for BRF\\0120.0 ! min_albedo_value\\012 ! minimum acceptable value for albedo\\0126.0 ! max_albedo_value\\012 ! maximum acceptable value for albedo\\01280.0 ! max_view_angle_along\\012 ! maximum view angle in along-track direction (degrees)\\01225.0 ! max_view_angle_cross\\012 ! maximum view angle in cross-track direction (degrees)\\012!------------------------------------------------\\012! TOA Albedo Retrieval Configuration File parameters\\012! Reference: Level 2 Top-of-Atmosphere Albedo Algorithm\\012! Theoretical Basis Document, JPL D-13401, Rev B\\012!------------------------------------------------\\0120.04 ! mu0_thresh_albedo\\012 ! minimum cosine of solar zenith angle for calculation of albedos\\0128 ! max_brf_cam_dist_t\\012 ! maximum camera distance for filling in missing side-leaving BRFs\\0121 ! max_brf_cam_dist_s\\012 ! maximum camera distance for filling in missing side-leaving BRFs\\0120.0 ! min_liquid_cloud_temp\\012 ! minimum temperature for setting cloud phase = liquid (degrees C)\\012-43.0 ! max_ice_cloud_temp\\012 ! maximum temperature for setting cloud phase = ice (degrees C)\\0126 ! min_angle_det_clear\\012 ! minimum number of angles needed for applying Deterministic (clear) model\\0120.240 0.094 0.043 0.015 ! rayleigh_std\\012 ! standard Rayleigh optical depth, for each spectral band\\0128.0 ! scale_ht\\012 ! atmospheric scale height, H (km)\\0124 ! niter_det_clear\\012 ! number of iterations for clear sky deterministic model fit\\0122.0 ! chi_sq_thresh_azm\\012 ! threshold for determining goodness of clear-sky AZM fit\\01210 ! nbin_mu\\012 ! number of cosine of zenith angle sub-bins\\01290 ! nbin_phi\\012 ! number of azimuth angle sub-bins\\0120.9 ! mu0_thresh_saw\\012 ! minimum value of mu0 above which pure Solid Angle Weighting is used\\01230.0 ! toa_altitude\\012 ! TOA altitude for referencing expansive albedos (km)\\0125 ! nblock_expansive\\012 ! number of 140.8-km blocks contributing to expansive albedo calculation\\0120 ! force_albedo_method\\012 ! force albedo code through one method: 0 - do not force; 1 - cloudy determ;\\012 ! 2 - cloudy stoch; 3 - clear determ; 4 - solid angle weighting\\0121.640 ! alb_broadband_zeropoint\\012 ! a_0 regression coefficient to use for broadband albedo calculation\\0120.170 0.210 -0.18 0.530 ! alb_broadband_coeff\\012 ! coefficients (blue-band, green-band, red-band, nir-band in order)\\012 ! to use in calculating the broadband albedo\\0121368.0 ! alb_broadband_I0b\\012 ! \"I0_b\" coefficient to use in albedo broadband calculation\\0121 ! cssc_search_dist\\012 ! distance from center of lat/long cell to search for nearest land class, \\012 ! expressed as a whole number of CSSC cells\\0128 ! min_localb_cameras\\012 ! minimum number of cameras that satisfy criteria for computing local\\012 ! albedo - to crop local albedo at swath edges\\0121 ! reset_localb_to_fill\\012 ! whether or not to reset local albedo values at filled RLRAs to BADVALUE;\\012 ! 0 = do not reset; 1 = reset\\01210000.0 ! rlp_horiz_segment_len\\012 ! horizontal distance in meters over which look vectors expressed in SOM\\012\\011 ! coords can be linearly interpolated to give acceptable results\\0122 ! rlra_filter\\012 ! type of RLRA filtering to do in RLP: 0 = do not replace RLRA BAD_VALUEs;\\012 ! 1 = replace all BAD_VALUEs with 0.0; 2 = replace all BAD_VALUES with an\\012 ! average of nearby RLRA values\\0120 ! rlra_smooth\\012 ! whether to do RLRA smoothing in RLP:\\012 ! 0 = do not smooth RLRAs; 1 = smooth RLRAs after replacement\\012", "EXECUTABLE INFORMATION\\012MISR_EXEC_NAME:GP_cloud_main.c\\012MISR_EXEC_VERSION: V4.0_PGE1_13\\012MISR_COMPOSITION_INFO_BEGIN\\012DATE OF BUILD: Wed Nov 16 12:05:31 EST 2005\\012BUILT BY: sbaekins\\012HOST INFO: l0spg11: ClearCase 2003.06.10+ (IRIX64 6.5 10070055 IP35)\\012VOBS CONFIGURATION:\\012 /vobs/PCS/... V3.3\\012 /vobs/PGEvob/... V4.0\\012 /vobs/Shared/... V4.0\\012 /vobs/L1B2/... V4.0_PGE1_13\\012LIB ENVIRONMENT:\\012 HDFEOS:/vol1/TS1/ssit/TOOLKIT_5.2.13/TOOLKIT/hdfeos/lib/sgi32\\012 HDF:/vol1/TS1/ssit/TOOLKIT_5.2.13/TOOLKIT/hdf/sgi32/HDF4.2r0/lib\\012 PGSTK:/vol1/TS1/ssit/TOOLKIT_5.2.13/TOOLKIT/lib/sgi32\\012COMPILER FLAGS\\012 -n32 -mips4 -r10000 -O3 -g3 -fullwarn -DCPU_SGI\\012 -Wl,-woff,84 -Wl,-woff,85 -Wl,-woff,15 -Wl,-woff,134\\012 -DCC_VERSION=MIPSpro Compilers: Version 7.4\\012 -DOSVERSION=6.5\\012MISR_COMPOSITION_INFO_END\\012 Local Granule ID = MISR_AM1_GRP_TERRAIN_GM_P159_O024726_DF_F03_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/MI1B2T/MI1B2T.A2004224.0615.003.2007082105932.DF.24.hdf\\012LID = 1308; Local Granule ID = MISR_AM1_GRP_TERRAIN_GM_P159_O024726_CF_F03_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/MI1B2T/MI1B2T.A2004224.0615.003.2007082105932.CF.24.hdf\\012LID = 1309; Local Granule ID = MISR_AM1_GRP_TERRAIN_GM_P159_O024726_BF_F03_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/MI1B2T/MI1B2T.A2004224.0615.003.2007082105912.BF.24.hdf\\012LID = 1310; Local Granule ID = MISR_AM1_GRP_TERRAIN_GM_P159_O024726_AF_F03_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/MI1B2T/MI1B2T.A2004224.0615.003.2007082105912.AF.24.hdf\\012LID = 1311; Local Granule ID = MISR_AM1_GRP_TERRAIN_GM_P159_O024726_AN_F03_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/MI1B2T/MI1B2T.A2004224.0615.003.2007082105912.AN.24.hdf\\012LID = 1312; Local Granule ID = MISR_AM1_GRP_TERRAIN_GM_P159_O024726_DA_F03_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/MI1B2T/MI1B2T.A2004224.0615.003.2007082105932.DA.24.hdf\\012LID = 1313; Local Granule ID = MISR_AM1_GRP_TERRAIN_GM_P159_O024726_CA_F03_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/MI1B2T/MI1B2T.A2004224.0615.003.2007082105932.CA.24.hdf\\012LID = 1314; Local Granule ID = MISR_AM1_GRP_TERRAIN_GM_P159_O024726_BA_F03_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/MI1B2T/MI1B2T.A2004224.0615.003.2007082105912.BA.24.hdf\\012LID = 1315; Local Granule ID = MISR_AM1_GRP_TERRAIN_GM_P159_O024726_AA_F03_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/MI1B2T/MI1B2T.A2004224.0615.003.2007082105912.AA.24.hdf\\012LID = 1316; Local Granule ID = MISR_AM1_GRP_ELLIPSOID_GM_P159_O024726_DF_F03_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/MI1B2E/MI1B2E.A2004224.0615.003.2007082105932.DF.24.hdf\\012LID = 1317; Local Granule ID = MISR_AM1_GRP_ELLIPSOID_GM_P159_O024726_CF_F03_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/MI1B2E/MI1B2E.A2004224.0615.003.2007082105932.CF.24.hdf\\012LID = 1318; Local Granule ID = MISR_AM1_GRP_ELLIPSOID_GM_P159_O024726_BF_F03_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/MI1B2E/MI1B2E.A2004224.0615.003.2007082105912.BF.24.hdf\\012LID = 1319; Local Granule ID = MISR_AM1_GRP_ELLIPSOID_GM_P159_O024726_AF_F03_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/MI1B2E/MI1B2E.A2004224.0615.003.2007082105912.AF.24.hdf\\012LID = 1320; Local Granule ID = MISR_AM1_GRP_ELLIPSOID_GM_P159_O024726_AN_F03_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/MI1B2E/MI1B2E.A2004224.0615.003.2007082105912.AN.24.hdf\\012LID = 1321; Local Granule ID = MISR_AM1_GRP_ELLIPSOID_GM_P159_O024726_DA_F03_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/MI1B2E/MI1B2E.A2004224.0615.003.2007082105932.DA.24.hdf\\012LID = 1322; Local Granule ID = MISR_AM1_GRP_ELLIPSOID_GM_P159_O024726_CA_F03_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/MI1B2E/MI1B2E.A2004224.0615.003.2007082105932.CA.24.hdf\\012LID = 1323; Local Granule ID = MISR_AM1_GRP_ELLIPSOID_GM_P159_O024726_BA_F03_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/MI1B2E/MI1B2E.A2004224.0615.003.2007082105912.BA.24.hdf\\012LID = 1324; Local Granule ID = MISR_AM1_GRP_ELLIPSOID_GM_P159_O024726_AA_F03_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/MI1B2E/MI1B2E.A2004224.0615.003.2007082105912.AA.24.hdf\\012LID = 1325; Local Granule ID = MISR_AM1_GRP_RCCM_GM_P159_O024726_DF_F04_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/MIRCCM/MIRCCM.A2004224.0615.004.2007082111954.DF.24.hdf\\012LID = 1326; Local Granule ID = MISR_AM1_GRP_RCCM_GM_P159_O024726_CF_F04_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/MIRCCM/MIRCCM.A2004224.0615.004.2007082110646.CF.24.hdf\\012LID = 1327; Local Granule ID = MISR_AM1_GRP_RCCM_GM_P159_O024726_BF_F04_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/MIRCCM/MIRCCM.A2004224.0615.004.2007082111944.BF.24.hdf\\012LID = 1328; Local Granule ID = MISR_AM1_GRP_RCCM_GM_P159_O024726_AF_F04_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/MIRCCM/MIRCCM.A2004224.0615.004.2007082110657.AF.24.hdf\\012LID = 1329; Local Granule ID = MISR_AM1_GRP_RCCM_GM_P159_O024726_AN_F04_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/MIRCCM/MIRCCM.A2004224.0615.004.2007082110907.AN.24.hdf\\012LID = 1330; Local Granule ID = MISR_AM1_GRP_RCCM_GM_P159_O024726_DA_F04_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/MIRCCM/MIRCCM.A2004224.0615.004.2007082111944.DA.24.hdf\\012LID = 1331; Local Granule ID = MISR_AM1_GRP_RCCM_GM_P159_O024726_CA_F04_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/MIRCCM/MIRCCM.A2004224.0615.004.2007082110636.CA.24.hdf\\012LID = 1332; Local Granule ID = MISR_AM1_GRP_RCCM_GM_P159_O024726_BA_F04_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/MIRCCM/MIRCCM.A2004224.0615.004.2007082112004.BA.24.hdf\\012LID = 1333; Local Granule ID = MISR_AM1_GRP_RCCM_GM_P159_O024726_AA_F04_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/MIRCCM/MIRCCM.A2004224.0615.004.2007082110727.AA.24.hdf\\012LID = 1334; Local Granule ID = MISR_AM1_GP_GMP_P159_O024726_F03_0013.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/MIB2GEOP/MIB2GEOP.A2004224.0615.002.2007082044538.13.hdf\\012LID = 1340; Local Granule ID = MISR_AM1_TASC_AUG_F01_01.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/ancillary/TASC/MISR_AM1_TASC_AUG_F01_01.hdf\\012LID = 1500; Local Granule ID = MISR_AM1_ARP_PRFLTCHAR_F02_0002.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/ancillary/ARP_static/MISR_AM1_ARP_PRFLTCHAR_F02_0002.hdf\\012LID = 1501; Local Granule ID = MISR_AM1_ARP_PRFLTCAL_F02_0005.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/ancillary/ARP_static/MISR_AM1_ARP_PRFLTCAL_F02_0005.hdf\\012LID = 1502; Local Granule ID = MISR_AM1_ARP_INFLTCAL_T028_F02_0010.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/ancillary/ARP_dynamic/MISR_AM1_ARP_INFLTCAL_T028_F02_0010.hdf\\012LID = 1503; Local Granule ID = MISR_AM1_ARP_CONFIG_F03_0003.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/ancillary/ARP_static/MISR_AM1_ARP_CONFIG_F03_0003.hdf\\012LID = 951; Local Granule ID = MISR_AM1_TC_STEREO_P159_O024726_F08_0016.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/MIL2TCST/MIL2TCST.A2004224.0615.002.2007082114113.16.hdf\\012_rlra_height\\012 ! maximum acceptable value for RLRA height (m)\\0120.0 ! min_texture_index\\012 ! minimum acceptable value for texture index\\01210.0 ! max_texture_index\\012 ! maximum acceptable value for texture index\\012175.0 ! min_temperature\\012 ! minimum acceptable value for temperature (K)\\012340.0 ! max_temperature\\012 ! maximum acceptable value for temperature (K)\\0126.0 ! max_brf_value\\012 ! maximum acceptable value for BRF\\0120.0 ! min_albedo_value\\012 ! minimum acceptable value for albedo\\0126.0 ! max_albedo_value\\012 ! maximum acceptable value for albedo\\01280.0 ! max_view_angle_along\\012 ! maximum view angle in along-track direction (degrees)\\01225.0 ! max_view_angle_cross\\012 ! maximum view angle in cross-track direction (degrees)\\012!------------------------------------------------\\012! TOA Albedo Retrieval Configuration File parameters\\012! Reference: Level 2 Top-of-Atmosphere Albedo Algorithm\\012! Theoretical Basis Document, JPL D-13401, Rev B\\012!------------------------------------------------\\0120.04 ! mu0_thresh_albedo\\012 ! minimum cosine of solar zenith angle for calculation of albedos\\0128 ! max_brf_cam_dist_t\\012 ! maximum camera distance for filling in missing side-leaving BRFs\\0121 ! max_brf_cam_dist_s\\012 ! maximum camera distance for filling in missing side-leaving BRFs\\0120.0 ! min_liquid_cloud_temp\\012 ! minimum temperature for setting cloud phase = liquid (degrees C)\\012-43.0 ! max_ice_cloud_temp\\012 ! maximum temperature for setting cloud phase = ice (degrees C)\\0126 ! min_angle_det_clear\\012 ! minimum number of angles needed for applying Deterministic (clear) model\\0120.240 0.094 0.043 0.015 ! rayleigh_std\\012 ! standard Rayleigh optical depth, for each spectral band\\0128.0 ! scale_ht\\012 ! atmospheric scale height, H (km)\\0124 ! niter_det_clear\\012 ! number of iterations for clear sky deterministic model fit\\0122.0 ! chi_sq_thresh_azm\\012 ! threshold for determining goodness of clear-sky AZM fit\\01210 ! nbin_mu\\012 ! number of cosine of zenith angle sub-bins\\01290 ! nbin_phi\\012 ! number of azimuth angle sub-bins\\0120.9 ! mu0_thresh_saw\\012 ! minimum value of mu0 above which pure Solid Angle Weighting is used\\01230.0 ! toa_altitude\\012 ! TOA altitude for referencing expansive albedos (km)\\0125 ! nblock_expansive\\012 ! number of 140.8-km blocks contributing to expansive albedo calculation\\0120 ! force_albedo_method\\012 ! force albedo code through one method: 0 - do not force; 1 - cloudy determ;\\012 ! 2 - cloudy stoch; 3 - clear determ; 4 - solid angle weighting\\0121.640 ! alb_broadband_zeropoint\\012 ! a_0 regression coefficient to use for broadband albedo calculation\\0120.170 0.210 -0.18 0.530 ! alb_broadband_coeff\\012 ! coefficients (blue-band, green-band, red-band, nir-band in order)\\012 ! to use in calculating the broadband albedo\\0121368.0 ! alb_broadband_I0b\\012 ! \"I0_b\" coefficient to use in albedo broadband calculation\\0121 ! cssc_search_dist\\012 ! distance from center of lat/long cell to search for nearest land class, \\012 ! expressed as a whole number of CSSC cells\\0128 ! min_localb_cameras\\012 ! minimum number of cameras that satisfy criteria for computing local\\012 ! albedo - to crop local albedo at swath edges\\0121 ! reset_localb_to_fill\\012 ! whether or not to reset local albedo values at filled RLRAs to BADVALUE;\\012 ! 0 = do not reset; 1 = reset\\01210000.0 ! rlp_horiz_segment_len\\012 ! horizontal distance in meters over which look vectors expressed in SOM\\012\\011 ! coords can be linearly interpolated to give acceptable results\\0122 ! rlra_filter\\012 ! type of RLRA filtering to do in RLP: 0 = do not replace RLRA BAD_VALUEs;\\012 ! 1 = replace all BAD_VALUEs with 0.0; 2 = replace all BAD_VALUES with an\\012 ! average of nearby RLRA values\\0120 ! rlra_smooth\\012 ! whether to do RLRA smoothing in RLP:\\012 ! 0 = do not smooth RLRAs; 1 = smooth RLRAs after replacement\\012", "INPUT FILES INFORMATION\\012LID = 190; Local Granule ID = \\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/ancillary/CGM/MISR_AM1_CGM_F01_0007.ascii\\012LID = 227; Local Granule ID = MISR_AM1_RCCT_FALL_DA_T920_F02_0003.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/ancillary/RCCT/MISR_AM1_RCCT_FALL_DA_T920_F02_0003.hdf\\012LID = 239; Local Granule ID = MISR_AM1_RCCI_DCAM_F01_05.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/ancillary/RCCI/MISR_AM1_RCCI_DCAM_F01_05.hdf\\012LID = 1301; Local Granule ID = MISR_AM1_CSSC_F01_05.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/ancillary/CSSC/MISR_AM1_CSSC_F01_05.hdf\\012LID = 1304; Local Granule ID = MISR_AM1_AGP_P158_F01_24.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/ancillary/AGP/MISR_AM1_AGP_P158_F01_24.hdf\\012LID = 1334; Local Granule ID = MISR_AM1_GP_GMP_P158_O025323_F03_0013.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/MIB2GEOP/MIB2GEOP.A2004265.0608.002.2007101131654.13.hdf\\012LID = 1500; Local Granule ID = MISR_AM1_ARP_PRFLTCHAR_F02_0002.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/ancillary/ARP_static/MISR_AM1_ARP_PRFLTCHAR_F02_0002.hdf\\012LID = 1501; Local Granule ID = MISR_AM1_ARP_PRFLTCAL_F02_0005.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/ancillary/ARP_static/MISR_AM1_ARP_PRFLTCAL_F02_0005.hdf\\012LID = 1503; Local Granule ID = MISR_AM1_ARP_CONFIG_F03_0003.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/ancillary/ARP_static/MISR_AM1_ARP_CONFIG_F03_0003.hdf\\012LID = 250; Local Granule ID = MISR_AM1_RCCM_CONFIG_DA_F02_02.ascii\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/ancillary/CONFIG/MISR_AM1_RCCM_CONFIG_DA_F02_02.ascii\\012LID = 1101; Local Granule ID = MISR_AM1_PGE13_PCS_CONFIG_DA_F01_01.ascii\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/ancillary/CONFIG/MISR_AM1_PGE13_PCS_CONFIG_DA_F01_01.ascii\\012LID = 1502; Local Granule ID = MISR_AM1_ARP_INFLTCAL_T028_F02_0010.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/ancillary/ARP_dynamic/MISR_AM1_ARP_INFLTCAL_T028_F02_0010.hdf\\012LID = 10501; Local Granule ID = AM1EPHN0.A2004265.0600.001.2004265093730\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/INPUT/AM1EPHN0.A2004265.0600.001.2004265133732\\012LID = 10502; Local Granule ID = AM1ATTNF.A2004265.0600.001.2004265175414\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/INPUT/AM1ATTNF.A2004265.0600.001.2004265215414\\012LID = 10301; Local Granule ID = \\012 Input Path = /vol1/TS1/ssit/TOOLKIT_5.2.13/TOOLKIT/database/common/TD/leapsec.dat\\012LID = 10401; Local Granule ID = \\012 Input Path = /vol1/TS1/ssit/TOOLKIT_5.2.13/TOOLKIT/database/common/CSC/utcpole.dat\\012Input Path = /vol1/OPS/S4PM-MISR-REPR/data/MI1B2E/MI1B2E.A2004224.0615.003.2007082105932.DF.24.hdf\\012LID = 1317; Local Granule ID = MISR_AM1_GRP_ELLIPSOID_GM_P159_O024726_CF_F03_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/MI1B2E/MI1B2E.A2004224.0615.003.2007082105932.CF.24.hdf\\012LID = 1318; Local Granule ID = MISR_AM1_GRP_ELLIPSOID_GM_P159_O024726_BF_F03_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/MI1B2E/MI1B2E.A2004224.0615.003.2007082105912.BF.24.hdf\\012LID = 1319; Local Granule ID = MISR_AM1_GRP_ELLIPSOID_GM_P159_O024726_AF_F03_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/MI1B2E/MI1B2E.A2004224.0615.003.2007082105912.AF.24.hdf\\012LID = 1320; Local Granule ID = MISR_AM1_GRP_ELLIPSOID_GM_P159_O024726_AN_F03_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/MI1B2E/MI1B2E.A2004224.0615.003.2007082105912.AN.24.hdf\\012LID = 1321; Local Granule ID = MISR_AM1_GRP_ELLIPSOID_GM_P159_O024726_DA_F03_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/MI1B2E/MI1B2E.A2004224.0615.003.2007082105932.DA.24.hdf\\012LID = 1322; Local Granule ID = MISR_AM1_GRP_ELLIPSOID_GM_P159_O024726_CA_F03_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/MI1B2E/MI1B2E.A2004224.0615.003.2007082105932.CA.24.hdf\\012LID = 1323; Local Granule ID = MISR_AM1_GRP_ELLIPSOID_GM_P159_O024726_BA_F03_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/MI1B2E/MI1B2E.A2004224.0615.003.2007082105912.BA.24.hdf\\012LID = 1324; Local Granule ID = MISR_AM1_GRP_ELLIPSOID_GM_P159_O024726_AA_F03_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/MI1B2E/MI1B2E.A2004224.0615.003.2007082105912.AA.24.hdf\\012LID = 1325; Local Granule ID = MISR_AM1_GRP_RCCM_GM_P159_O024726_DF_F04_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/MIRCCM/MIRCCM.A2004224.0615.004.2007082111954.DF.24.hdf\\012LID = 1326; Local Granule ID = MISR_AM1_GRP_RCCM_GM_P159_O024726_CF_F04_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/MIRCCM/MIRCCM.A2004224.0615.004.2007082110646.CF.24.hdf\\012LID = 1327; Local Granule ID = MISR_AM1_GRP_RCCM_GM_P159_O024726_BF_F04_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/MIRCCM/MIRCCM.A2004224.0615.004.2007082111944.BF.24.hdf\\012LID = 1328; Local Granule ID = MISR_AM1_GRP_RCCM_GM_P159_O024726_AF_F04_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/MIRCCM/MIRCCM.A2004224.0615.004.2007082110657.AF.24.hdf\\012LID = 1329; Local Granule ID = MISR_AM1_GRP_RCCM_GM_P159_O024726_AN_F04_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/MIRCCM/MIRCCM.A2004224.0615.004.2007082110907.AN.24.hdf\\012LID = 1330; Local Granule ID = MISR_AM1_GRP_RCCM_GM_P159_O024726_DA_F04_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/MIRCCM/MIRCCM.A2004224.0615.004.2007082111944.DA.24.hdf\\012LID = 1331; Local Granule ID = MISR_AM1_GRP_RCCM_GM_P159_O024726_CA_F04_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/MIRCCM/MIRCCM.A2004224.0615.004.2007082110636.CA.24.hdf\\012LID = 1332; Local Granule ID = MISR_AM1_GRP_RCCM_GM_P159_O024726_BA_F04_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/MIRCCM/MIRCCM.A2004224.0615.004.2007082112004.BA.24.hdf\\012LID = 1333; Local Granule ID = MISR_AM1_GRP_RCCM_GM_P159_O024726_AA_F04_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/MIRCCM/MIRCCM.A2004224.0615.004.2007082110727.AA.24.hdf\\012LID = 1334; Local Granule ID = MISR_AM1_GP_GMP_P159_O024726_F03_0013.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/MIB2GEOP/MIB2GEOP.A2004224.0615.002.2007082044538.13.hdf\\012LID = 1340; Local Granule ID = MISR_AM1_TASC_AUG_F01_01.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/ancillary/TASC/MISR_AM1_TASC_AUG_F01_01.hdf\\012LID = 1500; Local Granule ID = MISR_AM1_ARP_PRFLTCHAR_F02_0002.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/ancillary/ARP_static/MISR_AM1_ARP_PRFLTCHAR_F02_0002.hdf\\012LID = 1501; Local Granule ID = MISR_AM1_ARP_PRFLTCAL_F02_0005.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/ancillary/ARP_static/MISR_AM1_ARP_PRFLTCAL_F02_0005.hdf\\012LID = 1502; Local Granule ID = MISR_AM1_ARP_INFLTCAL_T028_F02_0010.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/ancillary/ARP_dynamic/MISR_AM1_ARP_INFLTCAL_T028_F02_0010.hdf\\012LID = 1503; Local Granule ID = MISR_AM1_ARP_CONFIG_F03_0003.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/ancillary/ARP_static/MISR_AM1_ARP_CONFIG_F03_0003.hdf\\012LID = 951; Local Granule ID = MISR_AM1_TC_STEREO_P159_O024726_F08_0016.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/MIL2TCST/MIL2TCST.A2004224.0615.002.2007082114113.16.hdf\\012_rlra_height\\012 ! maximum acceptable value for RLRA height (m)\\0120.0 ! min_texture_index\\012 ! minimum acceptable value for texture index\\01210.0 ! max_texture_index\\012 ! maximum acceptable value for texture index\\012175.0 ! min_temperature\\012 ! minimum acceptable value for temperature (K)\\012340.0 ! max_temperature\\012 ! maximum acceptable value for temperature (K)\\0126.0 ! max_brf_value\\012 ! maximum acceptable value for BRF\\0120.0 ! min_albedo_value\\012 ! minimum acceptable value for albedo\\0126.0 ! max_albedo_value\\012 ! maximum acceptable value for albedo\\01280.0 ! max_view_angle_along\\012 ! maximum view angle in along-track direction (degrees)\\01225.0 ! max_view_angle_cross\\012 ! maximum view angle in cross-track direction (degrees)\\012!------------------------------------------------\\012! TOA Albedo Retrieval Configuration File parameters\\012! Reference: Level 2 Top-of-Atmosphere Albedo Algorithm\\012! Theoretical Basis Document, JPL D-13401, Rev B\\012!------------------------------------------------\\0120.04 ! mu0_thresh_albedo\\012 ! minimum cosine of solar zenith angle for calculation of albedos\\0128 ! max_brf_cam_dist_t\\012 ! maximum camera distance for filling in missing side-leaving BRFs\\0121 ! max_brf_cam_dist_s\\012 ! maximum camera distance for filling in missing side-leaving BRFs\\0120.0 ! min_liquid_cloud_temp\\012 ! minimum temperature for setting cloud phase = liquid (degrees C)\\012-43.0 ! max_ice_cloud_temp\\012 ! maximum temperature for setting cloud phase = ice (degrees C)\\0126 ! min_angle_det_clear\\012 ! minimum number of angles needed for applying Deterministic (clear) model\\0120.240 0.094 0.043 0.015 ! rayleigh_std\\012 ! standard Rayleigh optical depth, for each spectral band\\0128.0 ! scale_ht\\012 ! atmospheric scale height, H (km)\\0124 ! niter_det_clear\\012 ! number of iterations for clear sky deterministic model fit\\0122.0 ! chi_sq_thresh_azm\\012 ! threshold for determining goodness of clear-sky AZM fit\\01210 ! nbin_mu\\012 ! number of cosine of zenith angle sub-bins\\01290 ! nbin_phi\\012 ! number of azimuth angle sub-bins\\0120.9 ! mu0_thresh_saw\\012 ! minimum value of mu0 above which pure Solid Angle Weighting is used\\01230.0 ! toa_altitude\\012 ! TOA altitude for referencing expansive albedos (km)\\0125 ! nblock_expansive\\012 ! number of 140.8-km blocks contributing to expansive albedo calculation\\0120 ! force_albedo_method\\012 ! force albedo code through one method: 0 - do not force; 1 - cloudy determ;\\012 ! 2 - cloudy stoch; 3 - clear determ; 4 - solid angle weighting\\0121.640 ! alb_broadband_zeropoint\\012 ! a_0 regression coefficient to use for broadband albedo calculation\\0120.170 0.210 -0.18 0.530 ! alb_broadband_coeff\\012 ! coefficients (blue-band, green-band, red-band, nir-band in order)\\012 ! to use in calculating the broadband albedo\\0121368.0 ! alb_broadband_I0b\\012 ! \"I0_b\" coefficient to use in albedo broadband calculation\\0121 ! cssc_search_dist\\012 ! distance from center of lat/long cell to search for nearest land class, \\012 ! expressed as a whole number of CSSC cells\\0128 ! min_localb_cameras\\012 ! minimum number of cameras that satisfy criteria for computing local\\012 ! albedo - to crop local albedo at swath edges\\0121 ! reset_localb_to_fill\\012 ! whether or not to reset local albedo values at filled RLRAs to BADVALUE;\\012 ! 0 = do not reset; 1 = reset\\01210000.0 ! rlp_horiz_segment_len\\012 ! horizontal distance in meters over which look vectors expressed in SOM\\012\\011 ! coords can be linearly interpolated to give acceptable results\\0122 ! rlra_filter\\012 ! type of RLRA filtering to do in RLP: 0 = do not replace RLRA BAD_VALUEs;\\012 ! 1 = replace all BAD_VALUEs with 0.0; 2 = replace all BAD_VALUES with an\\012 ! average of nearby RLRA values\\0120 ! rlra_smooth\\012 ! whether to do RLRA smoothing in RLP:\\012 ! 0 = do not smooth RLRAs; 1 = smooth RLRAs after replacement\\012", "RUNTIME ENVIRONMENT INFORMATION\\012DATE OF RUN: Wed Apr 11 16:14:02 2007\\012HOST INFO: l0spg10: (IRIX64 6.5 01090133 IP35)\\012RUN BY: s4pmopsr\\012UNIQUE FILE NAME: MISR_AM1_GRP_RCCM_GM_P158_O025323_DA_F04_0024.hdf\\012TOOLKIT_VERSION: DAAC TK5.2.13\\012ENVIRONMENT VARIABLES\\012 PGSHOME = /vol1/TS1/ssit/TOOLKIT_5.2.13/TOOLKIT\\012 PGS_PC_INFO_FILE = /vol1/OPS/S4PM-MISR-REPR/strings/terra/stations/reprocessing/run_algorithm/RUNNING.RUN_M13DA.2004265060848/DO.RUN_M13DA.2004265060848\\012 PGSMSG = /vol1/OPS/S4PM-MISR-REPR/strings/terra/stations/reprocessing/run_algorithm/RUNNING.RUN_M13DA.2004265060848/../M13DA/40000/MSGS\\012_05.hdf\\012LID = 1304; Local Granule ID = MISR_AM1_AGP_P158_F01_24.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/ancillary/AGP/MISR_AM1_AGP_P158_F01_24.hdf\\012LID = 1334; Local Granule ID = MISR_AM1_GP_GMP_P158_O025323_F03_0013.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/MIB2GEOP/MIB2GEOP.A2004265.0608.002.2007101131654.13.hdf\\012LID = 1500; Local Granule ID = MISR_AM1_ARP_PRFLTCHAR_F02_0002.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/ancillary/ARP_static/MISR_AM1_ARP_PRFLTCHAR_F02_0002.hdf\\012LID = 1501; Local Granule ID = MISR_AM1_ARP_PRFLTCAL_F02_0005.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/ancillary/ARP_static/MISR_AM1_ARP_PRFLTCAL_F02_0005.hdf\\012LID = 1503; Local Granule ID = MISR_AM1_ARP_CONFIG_F03_0003.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/ancillary/ARP_static/MISR_AM1_ARP_CONFIG_F03_0003.hdf\\012LID = 250; Local Granule ID = MISR_AM1_RCCM_CONFIG_DA_F02_02.ascii\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/ancillary/CONFIG/MISR_AM1_RCCM_CONFIG_DA_F02_02.ascii\\012LID = 1101; Local Granule ID = MISR_AM1_PGE13_PCS_CONFIG_DA_F01_01.ascii\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/ancillary/CONFIG/MISR_AM1_PGE13_PCS_CONFIG_DA_F01_01.ascii\\012LID = 1502; Local Granule ID = MISR_AM1_ARP_INFLTCAL_T028_F02_0010.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/ancillary/ARP_dynamic/MISR_AM1_ARP_INFLTCAL_T028_F02_0010.hdf\\012LID = 10501; Local Granule ID = AM1EPHN0.A2004265.0600.001.2004265093730\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/INPUT/AM1EPHN0.A2004265.0600.001.2004265133732\\012LID = 10502; Local Granule ID = AM1ATTNF.A2004265.0600.001.2004265175414\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/INPUT/AM1ATTNF.A2004265.0600.001.2004265215414\\012LID = 10301; Local Granule ID = \\012 Input Path = /vol1/TS1/ssit/TOOLKIT_5.2.13/TOOLKIT/database/common/TD/leapsec.dat\\012LID = 10401; Local Granule ID = \\012 Input Path = /vol1/TS1/ssit/TOOLKIT_5.2.13/TOOLKIT/database/common/CSC/utcpole.dat\\012Input Path = /vol1/OPS/S4PM-MISR-REPR/data/MI1B2E/MI1B2E.A2004224.0615.003.2007082105932.DF.24.hdf\\012LID = 1317; Local Granule ID = MISR_AM1_GRP_ELLIPSOID_GM_P159_O024726_CF_F03_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/MI1B2E/MI1B2E.A2004224.0615.003.2007082105932.CF.24.hdf\\012LID = 1318; Local Granule ID = MISR_AM1_GRP_ELLIPSOID_GM_P159_O024726_BF_F03_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/MI1B2E/MI1B2E.A2004224.0615.003.2007082105912.BF.24.hdf\\012LID = 1319; Local Granule ID = MISR_AM1_GRP_ELLIPSOID_GM_P159_O024726_AF_F03_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/MI1B2E/MI1B2E.A2004224.0615.003.2007082105912.AF.24.hdf\\012LID = 1320; Local Granule ID = MISR_AM1_GRP_ELLIPSOID_GM_P159_O024726_AN_F03_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/MI1B2E/MI1B2E.A2004224.0615.003.2007082105912.AN.24.hdf\\012LID = 1321; Local Granule ID = MISR_AM1_GRP_ELLIPSOID_GM_P159_O024726_DA_F03_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/MI1B2E/MI1B2E.A2004224.0615.003.2007082105932.DA.24.hdf\\012LID = 1322; Local Granule ID = MISR_AM1_GRP_ELLIPSOID_GM_P159_O024726_CA_F03_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/MI1B2E/MI1B2E.A2004224.0615.003.2007082105932.CA.24.hdf\\012LID = 1323; Local Granule ID = MISR_AM1_GRP_ELLIPSOID_GM_P159_O024726_BA_F03_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/MI1B2E/MI1B2E.A2004224.0615.003.2007082105912.BA.24.hdf\\012LID = 1324; Local Granule ID = MISR_AM1_GRP_ELLIPSOID_GM_P159_O024726_AA_F03_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/MI1B2E/MI1B2E.A2004224.0615.003.2007082105912.AA.24.hdf\\012LID = 1325; Local Granule ID = MISR_AM1_GRP_RCCM_GM_P159_O024726_DF_F04_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/MIRCCM/MIRCCM.A2004224.0615.004.2007082111954.DF.24.hdf\\012LID = 1326; Local Granule ID = MISR_AM1_GRP_RCCM_GM_P159_O024726_CF_F04_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/MIRCCM/MIRCCM.A2004224.0615.004.2007082110646.CF.24.hdf\\012LID = 1327; Local Granule ID = MISR_AM1_GRP_RCCM_GM_P159_O024726_BF_F04_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/MIRCCM/MIRCCM.A2004224.0615.004.2007082111944.BF.24.hdf\\012LID = 1328; Local Granule ID = MISR_AM1_GRP_RCCM_GM_P159_O024726_AF_F04_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/MIRCCM/MIRCCM.A2004224.0615.004.2007082110657.AF.24.hdf\\012LID = 1329; Local Granule ID = MISR_AM1_GRP_RCCM_GM_P159_O024726_AN_F04_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/MIRCCM/MIRCCM.A2004224.0615.004.2007082110907.AN.24.hdf\\012LID = 1330; Local Granule ID = MISR_AM1_GRP_RCCM_GM_P159_O024726_DA_F04_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/MIRCCM/MIRCCM.A2004224.0615.004.2007082111944.DA.24.hdf\\012LID = 1331; Local Granule ID = MISR_AM1_GRP_RCCM_GM_P159_O024726_CA_F04_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/MIRCCM/MIRCCM.A2004224.0615.004.2007082110636.CA.24.hdf\\012LID = 1332; Local Granule ID = MISR_AM1_GRP_RCCM_GM_P159_O024726_BA_F04_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/MIRCCM/MIRCCM.A2004224.0615.004.2007082112004.BA.24.hdf\\012LID = 1333; Local Granule ID = MISR_AM1_GRP_RCCM_GM_P159_O024726_AA_F04_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/MIRCCM/MIRCCM.A2004224.0615.004.2007082110727.AA.24.hdf\\012LID = 1334; Local Granule ID = MISR_AM1_GP_GMP_P159_O024726_F03_0013.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/MIB2GEOP/MIB2GEOP.A2004224.0615.002.2007082044538.13.hdf\\012LID = 1340; Local Granule ID = MISR_AM1_TASC_AUG_F01_01.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/ancillary/TASC/MISR_AM1_TASC_AUG_F01_01.hdf\\012LID = 1500; Local Granule ID = MISR_AM1_ARP_PRFLTCHAR_F02_0002.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/ancillary/ARP_static/MISR_AM1_ARP_PRFLTCHAR_F02_0002.hdf\\012LID = 1501; Local Granule ID = MISR_AM1_ARP_PRFLTCAL_F02_0005.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/ancillary/ARP_static/MISR_AM1_ARP_PRFLTCAL_F02_0005.hdf\\012LID = 1502; Local Granule ID = MISR_AM1_ARP_INFLTCAL_T028_F02_0010.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/ancillary/ARP_dynamic/MISR_AM1_ARP_INFLTCAL_T028_F02_0010.hdf\\012LID = 1503; Local Granule ID = MISR_AM1_ARP_CONFIG_F03_0003.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/ancillary/ARP_static/MISR_AM1_ARP_CONFIG_F03_0003.hdf\\012LID = 951; Local Granule ID = MISR_AM1_TC_STEREO_P159_O024726_F08_0016.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR-REPR/data/MIL2TCST/MIL2TCST.A2004224.0615.002.2007082114113.16.hdf\\012_rlra_height\\012 ! maximum acceptable value for RLRA height (m)\\0120.0 ! min_texture_index\\012 ! minimum acceptable value for texture index\\01210.0 ! max_texture_index\\012 ! maximum acceptable value for texture index\\012175.0 ! min_temperature\\012 ! minimum acceptable value for temperature (K)\\012340.0 ! max_temperature\\012 ! maximum acceptable value for temperature (K)\\0126.0 ! max_brf_value\\012 ! maximum acceptable value for BRF\\0120.0 ! min_albedo_value\\012 ! minimum acceptable value for albedo\\0126.0 ! max_albedo_value\\012 ! maximum acceptable value for albedo\\01280.0 ! max_view_angle_along\\012 ! maximum view angle in along-track direction (degrees)\\01225.0 ! max_view_angle_cross\\012 ! maximum view angle in cross-track direction (degrees)\\012!------------------------------------------------\\012! TOA Albedo Retrieval Configuration File parameters\\012! Reference: Level 2 Top-of-Atmosphere Albedo Algorithm\\012! Theoretical Basis Document, JPL D-13401, Rev B\\012!------------------------------------------------\\0120.04 ! mu0_thresh_albedo\\012 ! minimum cosine of solar zenith angle for calculation of albedos\\0128 ! max_brf_cam_dist_t\\012 ! maximum camera distance for filling in missing side-leaving BRFs\\0121 ! max_brf_cam_dist_s\\012 ! maximum camera distance for filling in missing side-leaving BRFs\\0120.0 ! min_liquid_cloud_temp\\012 ! minimum temperature for setting cloud phase = liquid (degrees C)\\012-43.0 ! max_ice_cloud_temp\\012 ! maximum temperature for setting cloud phase = ice (degrees C)\\0126 ! min_angle_det_clear\\012 ! minimum number of angles needed for applying Deterministic (clear) model\\0120.240 0.094 0.043 0.015 ! rayleigh_std\\012 ! standard Rayleigh optical depth, for each spectral band\\0128.0 ! scale_ht\\012 ! atmospheric scale height, H (km)\\0124 ! niter_det_clear\\012 ! number of iterations for clear sky deterministic model fit\\0122.0 ! chi_sq_thresh_azm\\012 ! threshold for determining goodness of clear-sky AZM fit\\01210 ! nbin_mu\\012 ! number of cosine of zenith angle sub-bins\\01290 ! nbin_phi\\012 ! number of azimuth angle sub-bins\\0120.9 ! mu0_thresh_saw\\012 ! minimum value of mu0 above which pure Solid Angle Weighting is used\\01230.0 ! toa_altitude\\012 ! TOA altitude for referencing expansive albedos (km)\\0125 ! nblock_expansive\\012 ! number of 140.8-km blocks contributing to expansive albedo calculation\\0120 ! force_albedo_method\\012 ! force albedo code through one method: 0 - do not force; 1 - cloudy determ;\\012 ! 2 - cloudy stoch; 3 - clear determ; 4 - solid angle weighting\\0121.640 ! alb_broadband_zeropoint\\012 ! a_0 regression coefficient to use for broadband albedo calculation\\0120.170 0.210 -0.18 0.530 ! alb_broadband_coeff\\012 ! coefficients (blue-band, green-band, red-band, nir-band in order)\\012 ! to use in calculating the broadband albedo\\0121368.0 ! alb_broadband_I0b\\012 ! \"I0_b\" coefficient to use in albedo broadband calculation\\0121 ! cssc_search_dist\\012 ! distance from center of lat/long cell to search for nearest land class, \\012 ! expressed as a whole number of CSSC cells\\0128 ! min_localb_cameras\\012 ! minimum number of cameras that satisfy criteria for computing local\\012 ! albedo - to crop local albedo at swath edges\\0121 ! reset_localb_to_fill\\012 ! whether or not to reset local albedo values at filled RLRAs to BADVALUE;\\012 ! 0 = do not reset; 1 = reset\\01210000.0 ! rlp_horiz_segment_len\\012 ! horizontal distance in meters over which look vectors expressed in SOM\\012\\011 ! coords can be linearly interpolated to give acceptable results\\0122 ! rlra_filter\\012 ! type of RLRA filtering to do in RLP: 0 = do not replace RLRA BAD_VALUEs;\\012 ! 1 = replace all BAD_VALUEs with 0.0; 2 = replace all BAD_VALUES with an\\012 ! average of nearby RLRA values\\0120 ! rlra_smooth\\012 ! whether to do RLRA smoothing in RLP:\\012 ! 0 = do not smooth RLRAs; 1 = smooth RLRAs after replacement\\012"

Variables in this Dataset

RCCM:

Structure

Data Fields:

Structure

Cloud:	Array of Bytes [SOMBlockDim:RCCM = 0..179][XDim:RCCM = 0..127][YDim:RCCM = 0..511] _FillValue: 255
Glitter:	Array of Bytes [SOMBlockDim:RCCM = 0..179][XDim:RCCM = 0..127][YDim:RCCM = 0..511] _FillValue: 255
Quality:	Array of Bytes [SOMBlockDim:RCCM = 0..179][XDim:RCCM = 0..127][YDim:RCCM = 0..511] _FillValue: 255
Dust_test:	Array of Bytes [SOMBlockDim:RCCM = 0..179][XDim:RCCM = 0..127][YDim:RCCM = 0..511] _FillValue: 255
First Observable:	Array of 32 bit Reals [SOMBlockDim:RCCM = 0..179][XDim:RCCM = 0..127][YDim:RCCM = 0..511] _FillValue: -9999
Second Observable:	Array of 32 bit Reals [SOMBlockDim:RCCM = 0..179][XDim:RCCM = 0..127][YDim:RCCM = 0..511] _FillValue: -9999
Dust Observable:	Array of 32 bit Reals [SOMBlockDim:RCCM = 0..179][XDim:RCCM = 0..127][YDim:RCCM = 0..511] _FillValue: -9999

PerBlockMetadataCommon:

Sequence

Block_number:

Structure

Block_number__0:

32 bit Integer

Ocean_flag:

Structure

Ocean_flag__0:

32 bit Integer

Block_coor_ulc_som_meter.x:

Structure

Block_coor_ulc_som_meter.x__0:

64 bit Real

Block_coor_ulc_som_meter.y:

Structure

Block_coor_ulc_som_meter.y__0:

64 bit Real

Block_coor_lrc_som_meter.x:

Structure

Block_coor_lrc_som_meter.x__0:

64 bit Real

Block_coor_lrc_som_meter.y:

Structure

Block_coor_lrc_som_meter.y__0:

64 bit Real

Data_flag:

Structure

Data_flag__0:

32 bit Integer