Attributes { HDF_GLOBAL { String HDFEOSVersion "HDFEOS_V2.14"; String HDF_ANNOT "RUNTIME ENVIRONMENT INFORMATION\\012DATE OF RUN: Tue Oct 23 06:12:09 2007\\012HOST INFO: l0spg10: (IRIX64 6.5 01090133 IP35)\\012RUN BY: s4pmops\\012UNIQUE FILE NAME: MISR_AM1_CGAL_FIRSTLOOK_OCT_21_2007_F06_0022.hdf\\012TOOLKIT_VERSION: DAAC TK5.2.14\\012ENVIRONMENT VARIABLES\\012 PGSHOME = /vol1/TS1/ssit/TOOLKIT_5.2.14/TOOLKIT\\012 PGS_PC_INFO_FILE = /vol1/OPS/S4PM-MISR/strings/terra/stations/reprocessing/run_algorithm/RUNNING.RUN_M12BP_D.2007294000000/DO.RUN_M12BP_D.2007294000000\\012 PGSMSG = /vol1/OPS/S4PM-MISR/strings/terra/stations/reprocessing/run_algorithm/RUNNING.RUN_M12BP_D.2007294000000/../M12BP_D/42001/MSGS\\012llary/AGP/MISR_AM1_AGP_P162_F01_24.hdf\\012LID = 1301; Local Granule ID = MISR_AM1_CSSC_F01_05.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR/data/ancillary/CSSC/MISR_AM1_CSSC_F01_05.hdf\\012LID = 1307; Local Granule ID = MISR_AM1_GRP_TERRAIN_GM_P162_O033420_DF_F03_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR/data/MI1B2T/MI1B2T.A2006090.0633.003.2006091055456.DF.24.hdf\\012LID = 1308; Local Granule ID = MISR_AM1_GRP_TERRAIN_GM_P162_O033420_CF_F03_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR/data/MI1B2T/MI1B2T.A2006090.0633.003.2006091055456.CF.24.hdf\\012LID = 1309; Local Granule ID = MISR_AM1_GRP_TERRAIN_GM_P162_O033420_BF_F03_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR/data/MI1B2T/MI1B2T.A2006090.0633.003.2006091055435.BF.24.hdf\\012LID = 1310; Local Granule ID = MISR_AM1_GRP_TERRAIN_GM_P162_O033420_AF_F03_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR/data/MI1B2T/MI1B2T.A2006090.0633.003.2006091055435.AF.24.hdf\\012LID = 1311; Local Granule ID = MISR_AM1_GRP_TERRAIN_GM_P162_O033420_AN_F03_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR/data/MI1B2T/MI1B2T.A2006090.0633.003.2006091055435.AN.24.hdf\\012LID = 1312; Local Granule ID = MISR_AM1_GRP_TERRAIN_GM_P162_O033420_DA_F03_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR/data/MI1B2T/MI1B2T.A2006090.0633.003.2006091055456.DA.24.hdf\\012LID = 1313; Local Granule ID = MISR_AM1_GRP_TERRAIN_GM_P162_O033420_CA_F03_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR/data/MI1B2T/MI1B2T.A2006090.0633.003.2006091055455.CA.24.hdf\\012LID = 1314; Local Granule ID = MISR_AM1_GRP_TERRAIN_GM_P162_O033420_BA_F03_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR/data/MI1B2T/MI1B2T.A2006090.0633.003.2006091055435.BA.24.hdf\\012LID = 1315; Local Granule ID = MISR_AM1_GRP_TERRAIN_GM_P162_O033420_AA_F03_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR/data/MI1B2T/MI1B2T.A2006090.0633.003.2006091055435.AA.24.hdf\\012LID = 1316; Local Granule ID = MISR_AM1_GRP_ELLIPSOID_GM_P162_O033420_DF_F03_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR/data/MI1B2E/MI1B2E.A2006090.0633.003.2006091055456.DF.24.hdf\\012LID = 1317; Local Granule ID = MISR_AM1_GRP_ELLIPSOID_GM_P162_O033420_CF_F03_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR/data/MI1B2E/MI1B2E.A2006090.0633.003.2006091055456.CF.24.hdf\\012LID = 1318; Local Granule ID = MISR_AM1_GRP_ELLIPSOID_GM_P162_O033420_BF_F03_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR/data/MI1B2E/MI1B2E.A2006090.0633.003.2006091055435.BF.24.hdf\\012LID = 1319; Local Granule ID = MISR_AM1_GRP_ELLIPSOID_GM_P162_O033420_AF_F03_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR/data/MI1B2E/MI1B2E.A2006090.0633.003.2006091055435.AF.24.hdf\\012LID = 1320; Local Granule ID = MISR_AM1_GRP_ELLIPSOID_GM_P162_O033420_AN_F03_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR/data/MI1B2E/MI1B2E.A2006090.0633.003.2006091055435.AN.24.hdf\\012LID = 1321; Local Granule ID = MISR_AM1_GRP_ELLIPSOID_GM_P162_O033420_DA_F03_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR/data/MI1B2E/MI1B2E.A2006090.0633.003.2006091055456.DA.24.hdf\\012LID = 1322; Local Granule ID = MISR_AM1_GRP_ELLIPSOID_GM_P162_O033420_CA_F03_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR/data/MI1B2E/MI1B2E.A2006090.0633.003.2006091055455.CA.24.hdf\\012LID = 1323; Local Granule ID = MISR_AM1_GRP_ELLIPSOID_GM_P162_O033420_BA_F03_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR/data/MI1B2E/MI1B2E.A2006090.0633.003.2006091055435.BA.24.hdf\\012LID = 1324; Local Granule ID = MISR_AM1_GRP_ELLIPSOID_GM_P162_O033420_AA_F03_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR/data/MI1B2E/MI1B2E.A2006090.0633.003.2006091055435.AA.24.hdf\\012LID = 1325; Local Granule ID = MISR_AM1_GRP_RCCM_GM_P162_O033420_DF_F04_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR/data/MIRCCM/MIRCCM.A2006090.0633.004.2006091061051.DF.24.hdf\\012LID = 1326; Local Granule ID = MISR_AM1_GRP_RCCM_GM_P162_O033420_CF_F04_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR/data/MIRCCM/MIRCCM.A2006090.0633.004.2006091055957.CF.24.hdf\\012LID = 1327; Local Granule ID = MISR_AM1_GRP_RCCM_GM_P162_O033420_BF_F04_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR/data/MIRCCM/MIRCCM.A2006090.0633.004.2006091061020.BF.24.hdf\\012LID = 1328; Local Granule ID = MISR_AM1_GRP_RCCM_GM_P162_O033420_AF_F04_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR/data/MIRCCM/MIRCCM.A2006090.0633.004.2006091055957.AF.24.hdf\\012LID = 1329; Local Granule ID = MISR_AM1_GRP_RCCM_GM_P162_O033420_AN_F04_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR/data/MIRCCM/MIRCCM.A2006090.0633.004.2006091060158.AN.24.hdf\\012LID = 1330; Local Granule ID = MISR_AM1_GRP_RCCM_GM_P162_O033420_DA_F04_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR/data/MIRCCM/MIRCCM.A2006090.0633.004.2006091061010.DA.24.hdf\\012LID = 1331; Local Granule ID = MISR_AM1_GRP_RCCM_GM_P162_O033420_CA_F04_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR/data/MIRCCM/MIRCCM.A2006090.0633.004.2006091060007.CA.24.hdf\\012LID = 1332; Local Granule ID = MISR_AM1_GRP_RCCM_GM_P162_O033420_BA_F04_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR/data/MIRCCM/MIRCCM.A2006090.0633.004.2006091061020.BA.24.hdf\\012LID = 1333; Local Granule ID = MISR_AM1_GRP_RCCM_GM_P162_O033420_AA_F04_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR/data/MIRCCM/MIRCCM.A2006090.0633.004.2006091055947.AA.24.hdf\\012LID = 1334; Local Granule ID = MISR_AM1_GP_GMP_P162_O033420_F03_0013.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR/data/MIB2GEOP/MIB2GEOP.A2006090.0633.002.2006090174755.13.hdf\\012LID = 1340; Local Granule ID = MISR_AM1_TASC_MAR_F01_01.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR/data/ancillary/TASC/MISR_AM1_TASC_MAR_F01_01.hdf\\012LID = 1500; Local Granule ID = MISR_AM1_ARP_PRFLTCHAR_F02_0002.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR/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/data/ancillary/ARP_static/MISR_AM1_ARP_PRFLTCAL_F02_0005.hdf\\012LID = 1502; Local Granule ID = MISR_AM1_ARP_INFLTCAL_T038_F02_0010.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR/data/ancillary/ARP_dynamic/MISR_AM1_ARP_INFLTCAL_T038_F02_0010.hdf\\012LID = 1503; Local Granule ID = MISR_AM1_ARP_CONFIG_F03_0003.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR/data/ancillary/ARP_static/MISR_AM1_ARP_CONFIG_F03_0003.hdf\\012LID = 951; Local Granule ID = MISR_AM1_TC_STEREO_P162_O033420_F08_0015.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR/data/MIL2TCST/MIL2TCST.A2006090.0633.002.2006091062846.15.hdf\\012eshold parameters\\012! Reference: None\\012! \\012!------------------------------------------------\\0120.0 ! min_rlra_height\\012 ! minimum acceptable value for RLRA height (m)\\01220000.0 ! max_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 = 1101; Local Granule ID = MISR_AM1_PGE12BP_PCS_CONFIG_F01_0001.ascii\\012 Input Path = /vol1/OPS/S4PM-MISR/data/ancillary/CONFIG/MISR_AM1_PGE12BP_PCS_CONFIG_F01_0001.ascii\\012LID = 2400; Local Granule ID = MISR_AM1_CGAL_FIRSTLOOK_OCT_21_2007_F05_0021.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR/data/MI3DALF/MI3DALF.A2007294.0000.001.2007296093529.21.hdf\\012LID = 2800; Local Granule ID = MISR_AM1_CGCL_FIRSTLOOK_OCT_21_2007_F01_0021.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR/data/MI3DCDF/MI3DCDF.A2007294.0000.001.2007296093529.21.hdf\\012M12BP_D.2007294000000/../M12BP_D/42001/MSGS\\012llary/AGP/MISR_AM1_AGP_P162_F01_24.hdf\\012LID = 1301; Local Granule ID = MISR_AM1_CSSC_F01_05.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR/data/ancillary/CSSC/MISR_AM1_CSSC_F01_05.hdf\\012LID = 1307; Local Granule ID = MISR_AM1_GRP_TERRAIN_GM_P162_O033420_DF_F03_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR/data/MI1B2T/MI1B2T.A2006090.0633.003.2006091055456.DF.24.hdf\\012LID = 1308; Local Granule ID = MISR_AM1_GRP_TERRAIN_GM_P162_O033420_CF_F03_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR/data/MI1B2T/MI1B2T.A2006090.0633.003.2006091055456.CF.24.hdf\\012LID = 1309; Local Granule ID = MISR_AM1_GRP_TERRAIN_GM_P162_O033420_BF_F03_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR/data/MI1B2T/MI1B2T.A2006090.0633.003.2006091055435.BF.24.hdf\\012LID = 1310; Local Granule ID = MISR_AM1_GRP_TERRAIN_GM_P162_O033420_AF_F03_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR/data/MI1B2T/MI1B2T.A2006090.0633.003.2006091055435.AF.24.hdf\\012LID = 1311; Local Granule ID = MISR_AM1_GRP_TERRAIN_GM_P162_O033420_AN_F03_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR/data/MI1B2T/MI1B2T.A2006090.0633.003.2006091055435.AN.24.hdf\\012LID = 1312; Local Granule ID = MISR_AM1_GRP_TERRAIN_GM_P162_O033420_DA_F03_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR/data/MI1B2T/MI1B2T.A2006090.0633.003.2006091055456.DA.24.hdf\\012LID = 1313; Local Granule ID = MISR_AM1_GRP_TERRAIN_GM_P162_O033420_CA_F03_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR/data/MI1B2T/MI1B2T.A2006090.0633.003.2006091055455.CA.24.hdf\\012LID = 1314; Local Granule ID = MISR_AM1_GRP_TERRAIN_GM_P162_O033420_BA_F03_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR/data/MI1B2T/MI1B2T.A2006090.0633.003.2006091055435.BA.24.hdf\\012LID = 1315; Local Granule ID = MISR_AM1_GRP_TERRAIN_GM_P162_O033420_AA_F03_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR/data/MI1B2T/MI1B2T.A2006090.0633.003.2006091055435.AA.24.hdf\\012LID = 1316; Local Granule ID = MISR_AM1_GRP_ELLIPSOID_GM_P162_O033420_DF_F03_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR/data/MI1B2E/MI1B2E.A2006090.0633.003.2006091055456.DF.24.hdf\\012LID = 1317; Local Granule ID = MISR_AM1_GRP_ELLIPSOID_GM_P162_O033420_CF_F03_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR/data/MI1B2E/MI1B2E.A2006090.0633.003.2006091055456.CF.24.hdf\\012LID = 1318; Local Granule ID = MISR_AM1_GRP_ELLIPSOID_GM_P162_O033420_BF_F03_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR/data/MI1B2E/MI1B2E.A2006090.0633.003.2006091055435.BF.24.hdf\\012LID = 1319; Local Granule ID = MISR_AM1_GRP_ELLIPSOID_GM_P162_O033420_AF_F03_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR/data/MI1B2E/MI1B2E.A2006090.0633.003.2006091055435.AF.24.hdf\\012LID = 1320; Local Granule ID = MISR_AM1_GRP_ELLIPSOID_GM_P162_O033420_AN_F03_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR/data/MI1B2E/MI1B2E.A2006090.0633.003.2006091055435.AN.24.hdf\\012LID = 1321; Local Granule ID = MISR_AM1_GRP_ELLIPSOID_GM_P162_O033420_DA_F03_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR/data/MI1B2E/MI1B2E.A2006090.0633.003.2006091055456.DA.24.hdf\\012LID = 1322; Local Granule ID = MISR_AM1_GRP_ELLIPSOID_GM_P162_O033420_CA_F03_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR/data/MI1B2E/MI1B2E.A2006090.0633.003.2006091055455.CA.24.hdf\\012LID = 1323; Local Granule ID = MISR_AM1_GRP_ELLIPSOID_GM_P162_O033420_BA_F03_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR/data/MI1B2E/MI1B2E.A2006090.0633.003.2006091055435.BA.24.hdf\\012LID = 1324; Local Granule ID = MISR_AM1_GRP_ELLIPSOID_GM_P162_O033420_AA_F03_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR/data/MI1B2E/MI1B2E.A2006090.0633.003.2006091055435.AA.24.hdf\\012LID = 1325; Local Granule ID = MISR_AM1_GRP_RCCM_GM_P162_O033420_DF_F04_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR/data/MIRCCM/MIRCCM.A2006090.0633.004.2006091061051.DF.24.hdf\\012LID = 1326; Local Granule ID = MISR_AM1_GRP_RCCM_GM_P162_O033420_CF_F04_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR/data/MIRCCM/MIRCCM.A2006090.0633.004.2006091055957.CF.24.hdf\\012LID = 1327; Local Granule ID = MISR_AM1_GRP_RCCM_GM_P162_O033420_BF_F04_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR/data/MIRCCM/MIRCCM.A2006090.0633.004.2006091061020.BF.24.hdf\\012LID = 1328; Local Granule ID = MISR_AM1_GRP_RCCM_GM_P162_O033420_AF_F04_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR/data/MIRCCM/MIRCCM.A2006090.0633.004.2006091055957.AF.24.hdf\\012LID = 1329; Local Granule ID = MISR_AM1_GRP_RCCM_GM_P162_O033420_AN_F04_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR/data/MIRCCM/MIRCCM.A2006090.0633.004.2006091060158.AN.24.hdf\\012LID = 1330; Local Granule ID = MISR_AM1_GRP_RCCM_GM_P162_O033420_DA_F04_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR/data/MIRCCM/MIRCCM.A2006090.0633.004.2006091061010.DA.24.hdf\\012LID = 1331; Local Granule ID = MISR_AM1_GRP_RCCM_GM_P162_O033420_CA_F04_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR/data/MIRCCM/MIRCCM.A2006090.0633.004.2006091060007.CA.24.hdf\\012LID = 1332; Local Granule ID = MISR_AM1_GRP_RCCM_GM_P162_O033420_BA_F04_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR/data/MIRCCM/MIRCCM.A2006090.0633.004.2006091061020.BA.24.hdf\\012LID = 1333; Local Granule ID = MISR_AM1_GRP_RCCM_GM_P162_O033420_AA_F04_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR/data/MIRCCM/MIRCCM.A2006090.0633.004.2006091055947.AA.24.hdf\\012LID = 1334; Local Granule ID = MISR_AM1_GP_GMP_P162_O033420_F03_0013.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR/data/MIB2GEOP/MIB2GEOP.A2006090.0633.002.2006090174755.13.hdf\\012LID = 1340; Local Granule ID = MISR_AM1_TASC_MAR_F01_01.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR/data/ancillary/TASC/MISR_AM1_TASC_MAR_F01_01.hdf\\012LID = 1500; Local Granule ID = MISR_AM1_ARP_PRFLTCHAR_F02_0002.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR/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/data/ancillary/ARP_static/MISR_AM1_ARP_PRFLTCAL_F02_0005.hdf\\012LID = 1502; Local Granule ID = MISR_AM1_ARP_INFLTCAL_T038_F02_0010.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR/data/ancillary/ARP_dynamic/MISR_AM1_ARP_INFLTCAL_T038_F02_0010.hdf\\012LID = 1503; Local Granule ID = MISR_AM1_ARP_CONFIG_F03_0003.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR/data/ancillary/ARP_static/MISR_AM1_ARP_CONFIG_F03_0003.hdf\\012LID = 951; Local Granule ID = MISR_AM1_TC_STEREO_P162_O033420_F08_0015.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR/data/MIL2TCST/MIL2TCST.A2006090.0633.002.2006091062846.15.hdf\\012eshold parameters\\012! Reference: None\\012! \\012!------------------------------------------------\\0120.0 ! min_rlra_height\\012 ! minimum acceptable value for RLRA height (m)\\01220000.0 ! max_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:pge12bp.cc\\012MISR_EXEC_VERSION: V4.2_PGE12BP\\012MISR_COMPOSITION_INFO_BEGIN\\012DATE OF BUILD: Thu Jul 19 18:16:14 EDT 2007\\012BUILT BY: protack\\012HOST INFO: l0spg11: ClearCase 2003.06.10+ (IRIX64 6.5 01090133 IP35)\\012VOBS CONFIGURATION:\\012 /vobs/PCS/... V4.2\\012 /vobs/PGEvob/... V4.2\\012 /vobs/Shared/... V4.2\\012 /vobs/Lev3/... V4.2_PGE12BP\\012LIB ENVIRONMENT:\\012 HDFEOS:/vol1/TS1/ssit/TOOLKIT_5.2.14/TOOLKIT/hdfeos/lib/sgi32\\012 HDF:/vol1/TS1/ssit/TOOLKIT_5.2.14/TOOLKIT/hdf/sgi32/HDF4.2r1/lib\\012 PGSTK:/vol1/TS1/ssit/TOOLKIT_5.2.14/TOOLKIT/lib/sgi32\\012COMPILER FLAGS\\012 -n32 -mips4 -r10000 -Ofast -OPT:roundoff=3\\012 -OPT:IEEE_arithmetic=3 -OPT:alias=typed -G0\\012 -LANG:std -LANG:restrict -g3 -DCPU_SGI -woff\\012 1478 -Wl,-woff,84 -Wl,-woff,85 -Wl,-woff,15\\012 -Wl,-woff,134 -DCXX_VERSION=MIPSpro Compilers: Version 7.4.2m\\012 -DOSVERSION=6.5 -ptused\\012MISR_COMPOSITION_INFO_END\\012vol1/OPS/S4PM-MISR/data/MI1B2T/MI1B2T.A2006090.0633.003.2006091055456.DF.24.hdf\\012LID = 1308; Local Granule ID = MISR_AM1_GRP_TERRAIN_GM_P162_O033420_CF_F03_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR/data/MI1B2T/MI1B2T.A2006090.0633.003.2006091055456.CF.24.hdf\\012LID = 1309; Local Granule ID = MISR_AM1_GRP_TERRAIN_GM_P162_O033420_BF_F03_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR/data/MI1B2T/MI1B2T.A2006090.0633.003.2006091055435.BF.24.hdf\\012LID = 1310; Local Granule ID = MISR_AM1_GRP_TERRAIN_GM_P162_O033420_AF_F03_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR/data/MI1B2T/MI1B2T.A2006090.0633.003.2006091055435.AF.24.hdf\\012LID = 1311; Local Granule ID = MISR_AM1_GRP_TERRAIN_GM_P162_O033420_AN_F03_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR/data/MI1B2T/MI1B2T.A2006090.0633.003.2006091055435.AN.24.hdf\\012LID = 1312; Local Granule ID = MISR_AM1_GRP_TERRAIN_GM_P162_O033420_DA_F03_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR/data/MI1B2T/MI1B2T.A2006090.0633.003.2006091055456.DA.24.hdf\\012LID = 1313; Local Granule ID = MISR_AM1_GRP_TERRAIN_GM_P162_O033420_CA_F03_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR/data/MI1B2T/MI1B2T.A2006090.0633.003.2006091055455.CA.24.hdf\\012LID = 1314; Local Granule ID = MISR_AM1_GRP_TERRAIN_GM_P162_O033420_BA_F03_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR/data/MI1B2T/MI1B2T.A2006090.0633.003.2006091055435.BA.24.hdf\\012LID = 1315; Local Granule ID = MISR_AM1_GRP_TERRAIN_GM_P162_O033420_AA_F03_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR/data/MI1B2T/MI1B2T.A2006090.0633.003.2006091055435.AA.24.hdf\\012LID = 1316; Local Granule ID = MISR_AM1_GRP_ELLIPSOID_GM_P162_O033420_DF_F03_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR/data/MI1B2E/MI1B2E.A2006090.0633.003.2006091055456.DF.24.hdf\\012LID = 1317; Local Granule ID = MISR_AM1_GRP_ELLIPSOID_GM_P162_O033420_CF_F03_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR/data/MI1B2E/MI1B2E.A2006090.0633.003.2006091055456.CF.24.hdf\\012LID = 1318; Local Granule ID = MISR_AM1_GRP_ELLIPSOID_GM_P162_O033420_BF_F03_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR/data/MI1B2E/MI1B2E.A2006090.0633.003.2006091055435.BF.24.hdf\\012LID = 1319; Local Granule ID = MISR_AM1_GRP_ELLIPSOID_GM_P162_O033420_AF_F03_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR/data/MI1B2E/MI1B2E.A2006090.0633.003.2006091055435.AF.24.hdf\\012LID = 1320; Local Granule ID = MISR_AM1_GRP_ELLIPSOID_GM_P162_O033420_AN_F03_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR/data/MI1B2E/MI1B2E.A2006090.0633.003.2006091055435.AN.24.hdf\\012LID = 1321; Local Granule ID = MISR_AM1_GRP_ELLIPSOID_GM_P162_O033420_DA_F03_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR/data/MI1B2E/MI1B2E.A2006090.0633.003.2006091055456.DA.24.hdf\\012LID = 1322; Local Granule ID = MISR_AM1_GRP_ELLIPSOID_GM_P162_O033420_CA_F03_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR/data/MI1B2E/MI1B2E.A2006090.0633.003.2006091055455.CA.24.hdf\\012LID = 1323; Local Granule ID = MISR_AM1_GRP_ELLIPSOID_GM_P162_O033420_BA_F03_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR/data/MI1B2E/MI1B2E.A2006090.0633.003.2006091055435.BA.24.hdf\\012LID = 1324; Local Granule ID = MISR_AM1_GRP_ELLIPSOID_GM_P162_O033420_AA_F03_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR/data/MI1B2E/MI1B2E.A2006090.0633.003.2006091055435.AA.24.hdf\\012LID = 1325; Local Granule ID = MISR_AM1_GRP_RCCM_GM_P162_O033420_DF_F04_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR/data/MIRCCM/MIRCCM.A2006090.0633.004.2006091061051.DF.24.hdf\\012LID = 1326; Local Granule ID = MISR_AM1_GRP_RCCM_GM_P162_O033420_CF_F04_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR/data/MIRCCM/MIRCCM.A2006090.0633.004.2006091055957.CF.24.hdf\\012LID = 1327; Local Granule ID = MISR_AM1_GRP_RCCM_GM_P162_O033420_BF_F04_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR/data/MIRCCM/MIRCCM.A2006090.0633.004.2006091061020.BF.24.hdf\\012LID = 1328; Local Granule ID = MISR_AM1_GRP_RCCM_GM_P162_O033420_AF_F04_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR/data/MIRCCM/MIRCCM.A2006090.0633.004.2006091055957.AF.24.hdf\\012LID = 1329; Local Granule ID = MISR_AM1_GRP_RCCM_GM_P162_O033420_AN_F04_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR/data/MIRCCM/MIRCCM.A2006090.0633.004.2006091060158.AN.24.hdf\\012LID = 1330; Local Granule ID = MISR_AM1_GRP_RCCM_GM_P162_O033420_DA_F04_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR/data/MIRCCM/MIRCCM.A2006090.0633.004.2006091061010.DA.24.hdf\\012LID = 1331; Local Granule ID = MISR_AM1_GRP_RCCM_GM_P162_O033420_CA_F04_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR/data/MIRCCM/MIRCCM.A2006090.0633.004.2006091060007.CA.24.hdf\\012LID = 1332; Local Granule ID = MISR_AM1_GRP_RCCM_GM_P162_O033420_BA_F04_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR/data/MIRCCM/MIRCCM.A2006090.0633.004.2006091061020.BA.24.hdf\\012LID = 1333; Local Granule ID = MISR_AM1_GRP_RCCM_GM_P162_O033420_AA_F04_0024.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR/data/MIRCCM/MIRCCM.A2006090.0633.004.2006091055947.AA.24.hdf\\012LID = 1334; Local Granule ID = MISR_AM1_GP_GMP_P162_O033420_F03_0013.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR/data/MIB2GEOP/MIB2GEOP.A2006090.0633.002.2006090174755.13.hdf\\012LID = 1340; Local Granule ID = MISR_AM1_TASC_MAR_F01_01.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR/data/ancillary/TASC/MISR_AM1_TASC_MAR_F01_01.hdf\\012LID = 1500; Local Granule ID = MISR_AM1_ARP_PRFLTCHAR_F02_0002.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR/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/data/ancillary/ARP_static/MISR_AM1_ARP_PRFLTCAL_F02_0005.hdf\\012LID = 1502; Local Granule ID = MISR_AM1_ARP_INFLTCAL_T038_F02_0010.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR/data/ancillary/ARP_dynamic/MISR_AM1_ARP_INFLTCAL_T038_F02_0010.hdf\\012LID = 1503; Local Granule ID = MISR_AM1_ARP_CONFIG_F03_0003.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR/data/ancillary/ARP_static/MISR_AM1_ARP_CONFIG_F03_0003.hdf\\012LID = 951; Local Granule ID = MISR_AM1_TC_STEREO_P162_O033420_F08_0015.hdf\\012 Input Path = /vol1/OPS/S4PM-MISR/data/MIL2TCST/MIL2TCST.A2006090.0633.002.2006091062846.15.hdf\\012eshold parameters\\012! Reference: None\\012! \\012!------------------------------------------------\\0120.0 ! min_rlra_height\\012 ! minimum acceptable value for RLRA height (m)\\01220000.0 ! max_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"; } StructMetadata { SwathStructure { } GridStructure { GRID_1 { String GridName "AlbedoAverage_1_degree"; Int32 XDim 360; Int32 YDim 180; Float64 UpperLeftPointMtrs -180000000.000000, 90000000.000000; Float64 LowerRightMtrs 180000000.000000, -90000000.000000; String Projection GCTP_GEO; Dimension { Dimension_1 { String DimensionName "Band"; Int32 Size 5; } } DataField { DataField_1 { String DataFieldName "Average fill flag - 1 deg"; String DataType DFNT_INT8; String DimList "YDim", "XDim"; } DataField_2 { String DataFieldName "Swath count - 1 deg"; String DataType DFNT_INT32; String DimList "YDim", "XDim"; } DataField_3 { String DataFieldName "Expansive albedo average - 1 deg"; String DataType DFNT_FLOAT32; String DimList "YDim", "XDim", "Band"; } DataField_4 { String DataFieldName "Expansive albedo first moment - 1 deg"; String DataType DFNT_FLOAT32; String DimList "YDim", "XDim", "Band"; } DataField_5 { String DataFieldName "Expansive albedo standard deviation - 1 deg"; String DataType DFNT_FLOAT32; String DimList "YDim", "XDim", "Band"; } DataField_6 { String DataFieldName "Expansive albedo solar insolation - 1 deg"; String DataType DFNT_FLOAT32; String DimList "YDim", "XDim", "Band"; } DataField_7 { String DataFieldName "Expansive albedo swath count - 1 deg"; String DataType DFNT_INT32; String DimList "YDim", "XDim", "Band"; } DataField_8 { String DataFieldName "Restrictive albedo average - 1 deg"; String DataType DFNT_FLOAT32; String DimList "YDim", "XDim", "Band"; } DataField_9 { String DataFieldName "Restrictive albedo first moment - 1 deg"; String DataType DFNT_FLOAT32; String DimList "YDim", "XDim", "Band"; } DataField_10 { String DataFieldName "Restrictive albedo standard deviation - 1 deg"; String DataType DFNT_FLOAT32; String DimList "YDim", "XDim", "Band"; } DataField_11 { String DataFieldName "Restrictive albedo solar insolation - 1 deg"; String DataType DFNT_FLOAT32; String DimList "YDim", "XDim", "Band"; } DataField_12 { String DataFieldName "Restrictive albedo swath count - 1 deg"; String DataType DFNT_INT32; String DimList "YDim", "XDim", "Band"; } DataField_13 { String DataFieldName "Local albedo average - 1 deg"; String DataType DFNT_FLOAT32; String DimList "YDim", "XDim", "Band"; } DataField_14 { String DataFieldName "Local albedo first moment - 1 deg"; String DataType DFNT_FLOAT32; String DimList "YDim", "XDim", "Band"; } DataField_15 { String DataFieldName "Local albedo standard deviation - 1 deg"; String DataType DFNT_FLOAT32; String DimList "YDim", "XDim", "Band"; } DataField_16 { String DataFieldName "Local albedo solar insolation - 1 deg"; String DataType DFNT_FLOAT32; String DimList "YDim", "XDim", "Band"; } DataField_17 { String DataFieldName "Local albedo swath count - 1 deg"; String DataType DFNT_INT32; String DimList "YDim", "XDim", "Band"; } } MergedFields { } } Alias AlbedoAverage_1_degree GRID_1; GRID_2 { String GridName "AlbedoAverage_5_degree"; Int32 XDim 72; Int32 YDim 36; Float64 UpperLeftPointMtrs -180000000.000000, 90000000.000000; Float64 LowerRightMtrs 180000000.000000, -90000000.000000; String Projection GCTP_GEO; Dimension { Dimension_1 { String DimensionName "Band"; Int32 Size 5; } } DataField { DataField_1 { String DataFieldName "Average fill flag - 5 deg"; String DataType DFNT_INT8; String DimList "YDim", "XDim"; } DataField_2 { String DataFieldName "Swath count - 5 deg"; String DataType DFNT_INT32; String DimList "YDim", "XDim"; } DataField_3 { String DataFieldName "Expansive albedo average - 5 deg"; String DataType DFNT_FLOAT32; String DimList "YDim", "XDim", "Band"; } DataField_4 { String DataFieldName "Expansive albedo first moment - 5 deg"; String DataType DFNT_FLOAT32; String DimList "YDim", "XDim", "Band"; } DataField_5 { String DataFieldName "Expansive albedo standard deviation - 5 deg"; String DataType DFNT_FLOAT32; String DimList "YDim", "XDim", "Band"; } DataField_6 { String DataFieldName "Expansive albedo solar insolation - 5 deg"; String DataType DFNT_FLOAT32; String DimList "YDim", "XDim", "Band"; } DataField_7 { String DataFieldName "Expansive albedo swath count - 5 deg"; String DataType DFNT_INT32; String DimList "YDim", "XDim", "Band"; } DataField_8 { String DataFieldName "Restrictive albedo average - 5 deg"; String DataType DFNT_FLOAT32; String DimList "YDim", "XDim", "Band"; } DataField_9 { String DataFieldName "Restrictive albedo first moment - 5 deg"; String DataType DFNT_FLOAT32; String DimList "YDim", "XDim", "Band"; } DataField_10 { String DataFieldName "Restrictive albedo standard deviation - 5 deg"; String DataType DFNT_FLOAT32; String DimList "YDim", "XDim", "Band"; } DataField_11 { String DataFieldName "Restrictive albedo solar insolation - 5 deg"; String DataType DFNT_FLOAT32; String DimList "YDim", "XDim", "Band"; } DataField_12 { String DataFieldName "Restrictive albedo swath count - 5 deg"; String DataType DFNT_INT32; String DimList "YDim", "XDim", "Band"; } DataField_13 { String DataFieldName "Local albedo average - 5 deg"; String DataType DFNT_FLOAT32; String DimList "YDim", "XDim", "Band"; } DataField_14 { String DataFieldName "Local albedo first moment - 5 deg"; String DataType DFNT_FLOAT32; String DimList "YDim", "XDim", "Band"; } DataField_15 { String DataFieldName "Local albedo standard deviation - 5 deg"; String DataType DFNT_FLOAT32; String DimList "YDim", "XDim", "Band"; } DataField_16 { String DataFieldName "Local albedo solar insolation - 5 deg"; String DataType DFNT_FLOAT32; String DimList "YDim", "XDim", "Band"; } DataField_17 { String DataFieldName "Local albedo swath count - 5 deg"; String DataType DFNT_INT32; String DimList "YDim", "XDim", "Band"; } } MergedFields { } } Alias AlbedoAverage_5_degree GRID_2; } PointStructure { } } coremetadata { INVENTORYMETADATA { String GROUPTYPE MASTERGROUP; ECSDATAGRANULE { LOCALGRANULEID { Int32 NUM_VAL 1; String VALUE "MISR_AM1_CGAL_FIRSTLOOK_OCT_21_2007_F06_0022.hdf"; } PRODUCTIONDATETIME { Int32 NUM_VAL 1; String VALUE "2007-10-23T10:12:09.000Z"; } LOCALVERSIONID { Int32 NUM_VAL 1; String VALUE "MISR_EXEC_VERSION: V4.2_PGE12BP MISR_EXEC_NAME:pge12bp.cc"; } } PGEVERSIONCLASS { PGEVERSION { Int32 NUM_VAL 1; String VALUE "4.2"; } } MEASUREDPARAMETER { MEASUREDPARAMETERCONTAINER { String CLASS "1"; QAFLAGS { String CLASS "1"; AUTOMATICQUALITYFLAGEXPLANATION { Int32 NUM_VAL 1; String CLASS "1"; String VALUE "Automatic quality determination software not yet implemented"; } AUTOMATICQUALITYFLAG { Int32 NUM_VAL 1; String CLASS "1"; String VALUE "Not Investigated"; } } PARAMETERNAME { String CLASS "1"; Int32 NUM_VAL 1; String VALUE "Granule"; } } } COLLECTIONDESCRIPTIONCLASS { VERSIONID { Int32 NUM_VAL 1; Int32 VALUE 2; } SHORTNAME { Int32 NUM_VAL 1; String VALUE "MI3DALF"; } } INPUTGRANULE { INPUTPOINTER { Int32 NUM_VAL 55; String VALUE "MISR_AM1_PGE12BP_PCS_CONFIG_F01_0001.ascii", "LGID:MI3DALF:001:MISR_AM1_CGAL_FIRSTLOOK_OCT_21_2007_F05_0021.hdf", "LGID:MI3DCDF:001:MISR_AM1_CGCL_FIRSTLOOK_OCT_21_2007_F01_0021.hdf"; } } SPATIALDOMAINCONTAINER { HORIZONTALSPATIALDOMAINCONTAINER { BOUNDINGRECTANGLE { EASTBOUNDINGCOORDINATE { Int32 NUM_VAL 1; Float64 VALUE 180.0000000000000; } WESTBOUNDINGCOORDINATE { Int32 NUM_VAL 1; Float64 VALUE -180.0000000000000; } SOUTHBOUNDINGCOORDINATE { Int32 NUM_VAL 1; Float64 VALUE -90.00000000000000; } NORTHBOUNDINGCOORDINATE { Int32 NUM_VAL 1; Float64 VALUE 90.00000000000000; } } } } RANGEDATETIME { RANGEENDINGDATE { Int32 NUM_VAL 1; String VALUE "2007-10-22"; } RANGEENDINGTIME { Int32 NUM_VAL 1; String VALUE "00:00:00"; } RANGEBEGINNINGDATE { Int32 NUM_VAL 1; String VALUE "2007-10-21"; } RANGEBEGINNINGTIME { Int32 NUM_VAL 1; String VALUE "00:00:00"; } } ADDITIONALATTRIBUTES { ADDITIONALATTRIBUTESCONTAINER { String CLASS "1"; ADDITIONALATTRIBUTENAME { String CLASS "1"; Int32 NUM_VAL 1; String VALUE "SP_AM_MISR_ProductVersion"; } INFORMATIONCONTENT { String CLASS "1"; PARAMETERVALUE { Int32 NUM_VAL 1; String CLASS "1"; String VALUE "22"; } } } } } } Average%20fill%20flag%20-%201%20deg { Int32 _FillValue 0; } Average%20fill%20flag%20-%201%20deg_dim_0 { String name "YDim:AlbedoAverage_1_degree"; } Average%20fill%20flag%20-%201%20deg_dim_1 { String name "XDim:AlbedoAverage_1_degree"; } Average%20fill%20flag%20-%205%20deg { Int32 _FillValue 0; } Average%20fill%20flag%20-%205%20deg_dim_0 { String name "YDim:AlbedoAverage_5_degree"; } Average%20fill%20flag%20-%205%20deg_dim_1 { String name "XDim:AlbedoAverage_5_degree"; } Swath%20count%20-%201%20deg { Int32 _FillValue 0; } Swath%20count%20-%201%20deg_dim_0 { String name "YDim:AlbedoAverage_1_degree"; } Swath%20count%20-%201%20deg_dim_1 { String name "XDim:AlbedoAverage_1_degree"; 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