netcdf input_ls_forcing { dimensions: Time = UNLIMITED ; // (31 currently) DateStrLen = 19 ; force_layers = 751 ; variables: char Times(Time, DateStrLen) ; Times:_FillValue = "" ; float Z_LS(Time, force_layers) ; Z_LS:FieldType = 104 ; Z_LS:MemoryOrder = "Z " ; Z_LS:description = "height of forcing" ; Z_LS:units = "m" ; Z_LS:stagger = "" ; Z_LS:_FillValue = -999.f ; float U_LS(Time, force_layers) ; U_LS:FieldType = 104 ; U_LS:MemoryOrder = "Z " ; U_LS:description = "large scale zonal wind velocity" ; U_LS:units = "m s-1" ; U_LS:stagger = "" ; U_LS:_FillValue = -999.f ; float V_LS(Time, force_layers) ; V_LS:FieldType = 104 ; V_LS:MemoryOrder = "Z " ; V_LS:description = "large scale meridional wind velocity" ; V_LS:units = "m s-1" ; V_LS:stagger = "" ; V_LS:_FillValue = -999.f ; float W_LS(Time, force_layers) ; W_LS:FieldType = 104 ; W_LS:MemoryOrder = "Z " ; W_LS:description = "large scale vertical motion" ; W_LS:units = "m s-1" ; W_LS:stagger = "" ; W_LS:_FillValue = -999.f ; float TH_ADV(Time, force_layers) ; TH_ADV:FieldType = 104 ; TH_ADV:MemoryOrder = "Z " ; TH_ADV:description = "tendency of thermal adv" ; TH_ADV:units = "K s-1" ; TH_ADV:stagger = "" ; TH_ADV:_FillValue = -999.f ; float TH_RLX(Time, force_layers) ; TH_RLX:FieldType = 104 ; TH_RLX:MemoryOrder = "Z " ; TH_RLX:description = "theta for relaxation" ; TH_RLX:units = "K" ; TH_RLX:stagger = "" ; TH_RLX:_FillValue = -999.f ; float QV_ADV(Time, force_layers) ; QV_ADV:FieldType = 104 ; QV_ADV:MemoryOrder = "Z " ; QV_ADV:description = "tendency of qv adv" ; QV_ADV:units = "kg kg-1 s-1" ; QV_ADV:stagger = "" ; QV_ADV:_FillValue = -999.f ; float QV_RLX(Time, force_layers) ; QV_RLX:FieldType = 104 ; QV_RLX:MemoryOrder = "Z " ; QV_RLX:description = "qv for relaxation" ; QV_RLX:units = "kg kg-1" ; QV_RLX:stagger = "" ; QV_RLX:_FillValue = -999.f ; float Z_LS_TEND(Time, force_layers) ; Z_LS_TEND:FieldType = 104 ; Z_LS_TEND:MemoryOrder = "Z " ; Z_LS_TEND:description = "time tendency of Z_LS" ; Z_LS_TEND:units = "" ; Z_LS_TEND:stagger = "" ; Z_LS_TEND:_FillValue = -999.f ; float W_LS_TEND(Time, force_layers) ; W_LS_TEND:FieldType = 104 ; W_LS_TEND:MemoryOrder = "Z " ; W_LS_TEND:description = "time tendency of W_LS" ; W_LS_TEND:units = "m s-2" ; W_LS_TEND:stagger = "" ; W_LS_TEND:_FillValue = -999.f ; float U_LS_TEND(Time, force_layers) ; U_LS_TEND:FieldType = 104 ; U_LS_TEND:MemoryOrder = "Z " ; U_LS_TEND:description = "time tendency of U_LS" ; U_LS_TEND:units = "m s-2" ; U_LS_TEND:stagger = "" ; U_LS_TEND:_FillValue = -999.f ; float V_LS_TEND(Time, force_layers) ; V_LS_TEND:FieldType = 104 ; V_LS_TEND:MemoryOrder = "Z " ; V_LS_TEND:description = "time tendency of V_LS" ; V_LS_TEND:units = "m s-2" ; V_LS_TEND:stagger = "" ; V_LS_TEND:_FillValue = -999.f ; float TH_ADV_TEND(Time, force_layers) ; TH_ADV_TEND:FieldType = 104 ; TH_ADV_TEND:MemoryOrder = "Z " ; TH_ADV_TEND:description = "time tendency of TH_ADV" ; TH_ADV_TEND:units = "K s-2" ; TH_ADV_TEND:stagger = "" ; TH_ADV_TEND:_FillValue = -999.f ; float TH_RLX_TEND(Time, force_layers) ; TH_RLX_TEND:FieldType = 104 ; TH_RLX_TEND:MemoryOrder = "Z " ; TH_RLX_TEND:description = "time tendency of TH_RLX" ; TH_RLX_TEND:units = "K s-1" ; TH_RLX_TEND:stagger = "" ; TH_RLX_TEND:_FillValue = -999.f ; float QV_ADV_TEND(Time, force_layers) ; QV_ADV_TEND:FieldType = 104 ; QV_ADV_TEND:MemoryOrder = "Z " ; QV_ADV_TEND:description = "time tendency of QV_ADV" ; QV_ADV_TEND:units = "kg kg-1 s-2" ; QV_ADV_TEND:stagger = "" ; QV_ADV_TEND:_FillValue = -999.f ; float QV_RLX_TEND(Time, force_layers) ; QV_RLX_TEND:FieldType = 104 ; QV_RLX_TEND:MemoryOrder = "Z " ; QV_RLX_TEND:description = "time tendency of QV_RLX" ; QV_RLX_TEND:units = "kg kg-1 s-1" ; QV_RLX_TEND:stagger = "" ; QV_RLX_TEND:_FillValue = -999.f ; float INV_TAU_S(Time, force_layers) ; INV_TAU_S:FieldType = 104 ; INV_TAU_S:MemoryOrder = "Z " ; INV_TAU_S:description = "inverse relaxation time for scalar" ; INV_TAU_S:units = "s-1" ; INV_TAU_S:stagger = "" ; INV_TAU_S:_FillValue = -999.f ; float INV_TAU_M(Time, force_layers) ; INV_TAU_M:FieldType = 104 ; INV_TAU_M:MemoryOrder = "Z " ; INV_TAU_M:description = "inverse relaxation time for momentum" ; INV_TAU_M:units = "s-1" ; INV_TAU_M:stagger = "" ; INV_TAU_M:_FillValue = -999.f ; // global attributes: :TITLE = "AUXILIARY FORCING FOR CRM" ; :SOURCE = "msda-fnl_dp61L10_Sb_mp8_rwp/msda_sgp_75km_2016083000.nc" ; } ================================================== netcdf input_sfc_forcing { dimensions: Time = UNLIMITED ; // (31 currently) DateStrLen = 19 ; variables: char Times(Time, DateStrLen) ; Times:_FillValue = "" ; float PRE_SH_FLX(Time) ; PRE_SH_FLX:FieldType = 104 ; PRE_SH_FLX:MemoryOrder = "0 " ; PRE_SH_FLX:description = "surface sensible heat flux" ; PRE_SH_FLX:units = "W m-2" ; PRE_SH_FLX:stagger = "" ; PRE_SH_FLX:_FillValue = -999.f ; float PRE_LH_FLX(Time) ; PRE_LH_FLX:FieldType = 104 ; PRE_LH_FLX:MemoryOrder = "0 " ; PRE_LH_FLX:description = "surface latent heat flux" ; PRE_LH_FLX:units = "W m-2" ; PRE_LH_FLX:stagger = "" ; PRE_LH_FLX:_FillValue = -999.f ; float PRE_TSK(Time) ; PRE_TSK:FieldType = 104 ; PRE_TSK:MemoryOrder = "0 " ; PRE_TSK:description = "skin temperature" ; PRE_TSK:units = "K" ; PRE_TSK:stagger = "" ; PRE_TSK:_FillValue = -999.f ; float PRE_ALBEDO(Time) ; PRE_ALBEDO:FieldType = 104 ; PRE_ALBEDO:MemoryOrder = "0 " ; PRE_ALBEDO:description = "albedo" ; PRE_ALBEDO:units = "" ; PRE_ALBEDO:stagger = "" ; PRE_ALBEDO:_FillValue = -999.f ; float PRE_SH_FLX_TEND(Time) ; PRE_SH_FLX_TEND:FieldType = 104 ; PRE_SH_FLX_TEND:MemoryOrder = "0 " ; PRE_SH_FLX_TEND:description = "time tendency of PRE_SH_FLX" ; PRE_SH_FLX_TEND:units = "W m-2 s-1" ; PRE_SH_FLX_TEND:stagger = "" ; PRE_SH_FLX_TEND:_FillValue = -999.f ; float PRE_LH_FLX_TEND(Time) ; PRE_LH_FLX_TEND:FieldType = 104 ; PRE_LH_FLX_TEND:MemoryOrder = "0 " ; PRE_LH_FLX_TEND:description = "time tendency of PRE_LH_FLX" ; PRE_LH_FLX_TEND:units = "W m-2 s-1" ; PRE_LH_FLX_TEND:stagger = "" ; PRE_LH_FLX_TEND:_FillValue = -999.f ; float PRE_TSK_TEND(Time) ; PRE_TSK_TEND:FieldType = 104 ; PRE_TSK_TEND:MemoryOrder = "0 " ; PRE_TSK_TEND:description = "time tendency of PRE_TSK" ; PRE_TSK_TEND:units = "K s-1" ; PRE_TSK_TEND:stagger = "" ; PRE_TSK_TEND:_FillValue = -999.f ; float PRE_ALBEDO_TEND(Time) ; PRE_ALBEDO_TEND:FieldType = 104 ; PRE_ALBEDO_TEND:MemoryOrder = "0 " ; PRE_ALBEDO_TEND:description = "time tendency of PRE_ALBEDO" ; PRE_ALBEDO_TEND:units = "" ; PRE_ALBEDO_TEND:stagger = "" ; PRE_ALBEDO_TEND:_FillValue = -999.f ; // global attributes: :TITLE = "AUXILIARY FORCING FOR CRM" ; :SOURCE = "varanarap-v20161129/sgp60varanarapC1.c1.20160801.000000.cdf" ; } ================================================== netcdf wrfinput_d01 { dimensions: Time = UNLIMITED ; // (1 currently) south_north = 144 ; west_east = 144 ; num_ext_model_couple_dom_stag = 1 ; bottom_top = 226 ; soil_layers_stag = 5 ; land_cat_stag = 21 ; west_east_stag = 145 ; south_north_stag = 145 ; bottom_top_stag = 227 ; soil_cat_stag = 16 ; DateStrLen = 19 ; variables: float ALBBCK(Time, south_north, west_east) ; ALBBCK:FieldType = 104 ; ALBBCK:MemoryOrder = "XY " ; ALBBCK:description = "BACKGROUND ALBEDO" ; ALBBCK:units = "" ; ALBBCK:stagger = "" ; ALBBCK:coordinates = "XLONG XLAT XTIME" ; float CANWAT(Time, south_north, west_east) ; CANWAT:FieldType = 104 ; CANWAT:MemoryOrder = "XY " ; CANWAT:description = "CANOPY WATER" ; CANWAT:units = "kg m-2" ; CANWAT:stagger = "" ; CANWAT:coordinates = "XLONG XLAT XTIME" ; float CF1(Time) ; CF1:FieldType = 104 ; CF1:MemoryOrder = "0 " ; CF1:description = "2nd order extrapolation constant" ; CF1:units = "" ; CF1:stagger = "" ; float CF2(Time) ; CF2:FieldType = 104 ; CF2:MemoryOrder = "0 " ; CF2:description = "2nd order extrapolation constant" ; CF2:units = "" ; CF2:stagger = "" ; float CF3(Time) ; CF3:FieldType = 104 ; CF3:MemoryOrder = "0 " ; CF3:description = "2nd order extrapolation constant" ; CF3:units = "" ; CF3:stagger = "" ; float CFN(Time) ; CFN:FieldType = 104 ; CFN:MemoryOrder = "0 " ; CFN:description = "extrapolation constant" ; CFN:units = "" ; CFN:stagger = "" ; float CFN1(Time) ; CFN1:FieldType = 104 ; CFN1:MemoryOrder = "0 " ; CFN1:description = "extrapolation constant" ; CFN1:units = "" ; CFN1:stagger = "" ; float CLAT(Time, south_north, west_east) ; CLAT:FieldType = 104 ; CLAT:MemoryOrder = "XY " ; CLAT:description = "COMPUTATIONAL GRID LATITUDE, SOUTH IS NEGATIVE" ; CLAT:units = "degree_north" ; CLAT:stagger = "" ; CLAT:coordinates = "XLONG XLAT XTIME" ; float COSALPHA(Time, south_north, west_east) ; COSALPHA:FieldType = 104 ; COSALPHA:MemoryOrder = "XY " ; COSALPHA:description = "Local cosine of map rotation" ; COSALPHA:units = "" ; COSALPHA:stagger = "" ; COSALPHA:coordinates = "XLONG XLAT XTIME" ; float CPLMASK(Time, num_ext_model_couple_dom_stag, south_north, west_east) ; CPLMASK:FieldType = 104 ; CPLMASK:MemoryOrder = "XYZ" ; CPLMASK:description = "COUPLING MASK (0:VALUE FROM SST UPDATE; 1:VALUE FROM COUPLED OCEAN), vertical di" ; CPLMASK:units = "" ; CPLMASK:stagger = "Z" ; CPLMASK:coordinates = "XLONG XLAT XTIME" ; float DN(Time, bottom_top) ; DN:FieldType = 104 ; DN:MemoryOrder = "Z " ; DN:description = "d(eta) values between half (mass) levels" ; DN:units = "" ; DN:stagger = "" ; float DNW(Time, bottom_top) ; DNW:FieldType = 104 ; DNW:MemoryOrder = "Z " ; DNW:description = "d(eta) values between full (w) levels" ; DNW:units = "" ; DNW:stagger = "" ; float DTBC(Time) ; DTBC:FieldType = 104 ; DTBC:MemoryOrder = "0 " ; DTBC:description = "TIME SINCE BOUNDARY READ" ; DTBC:units = "" ; DTBC:stagger = "" ; float DTS(Time) ; DTS:FieldType = 104 ; DTS:MemoryOrder = "0 " ; DTS:description = "SMALL TIMESTEP" ; DTS:units = "" ; DTS:stagger = "" ; float DTSEPS(Time) ; DTSEPS:FieldType = 104 ; DTSEPS:MemoryOrder = "0 " ; DTSEPS:description = "TIME WEIGHT CONSTANT FOR SMALL STEPS" ; DTSEPS:units = "" ; DTSEPS:stagger = "" ; float DZS(Time, soil_layers_stag) ; DZS:FieldType = 104 ; DZS:MemoryOrder = "Z " ; DZS:description = "THICKNESSES OF SOIL LAYERS" ; DZS:units = "m" ; DZS:stagger = "Z" ; float E(Time, south_north, west_east) ; E:FieldType = 104 ; E:MemoryOrder = "XY " ; E:description = "Coriolis cosine latitude term" ; E:units = "s-1" ; E:stagger = "" ; E:coordinates = "XLONG XLAT XTIME" ; float F(Time, south_north, west_east) ; F:FieldType = 104 ; F:MemoryOrder = "XY " ; F:description = "Coriolis sine latitude term" ; F:units = "s-1" ; F:stagger = "" ; F:coordinates = "XLONG XLAT XTIME" ; float FCX(Time, soil_layers_stag) ; FCX:FieldType = 104 ; FCX:MemoryOrder = "C " ; FCX:description = "RELAXATION TERM FOR BOUNDARY ZONE" ; FCX:units = "" ; FCX:stagger = "" ; int FNDALBSI(Time) ; FNDALBSI:FieldType = 106 ; FNDALBSI:MemoryOrder = "0 " ; FNDALBSI:description = "ALBSI_LOGICAL" ; FNDALBSI:units = "-" ; FNDALBSI:stagger = "" ; int FNDICEDEPTH(Time) ; FNDICEDEPTH:FieldType = 106 ; FNDICEDEPTH:MemoryOrder = "0 " ; FNDICEDEPTH:description = "ICEDEPTH_LOGICAL" ; FNDICEDEPTH:units = "-" ; FNDICEDEPTH:stagger = "" ; int FNDSNOWH(Time) ; FNDSNOWH:FieldType = 106 ; FNDSNOWH:MemoryOrder = "0 " ; FNDSNOWH:description = "SNOWH_LOGICAL" ; FNDSNOWH:units = "-" ; FNDSNOWH:stagger = "" ; int FNDSNOWSI(Time) ; FNDSNOWSI:FieldType = 106 ; FNDSNOWSI:MemoryOrder = "0 " ; FNDSNOWSI:description = "SNOWSI_LOGICAL" ; FNDSNOWSI:units = "-" ; FNDSNOWSI:stagger = "" ; int FNDSOILW(Time) ; FNDSOILW:FieldType = 106 ; FNDSOILW:MemoryOrder = "0 " ; FNDSOILW:description = "SOILW_LOGICAL" ; FNDSOILW:units = "-" ; FNDSOILW:stagger = "" ; float FNM(Time, bottom_top) ; FNM:FieldType = 104 ; FNM:MemoryOrder = "Z " ; FNM:description = "upper weight for vertical stretching" ; FNM:units = "" ; FNM:stagger = "" ; float FNP(Time, bottom_top) ; FNP:FieldType = 104 ; FNP:MemoryOrder = "Z " ; FNP:description = "lower weight for vertical stretching" ; FNP:units = "" ; FNP:stagger = "" ; float FRC_URB2D(Time, south_north, west_east) ; FRC_URB2D:FieldType = 104 ; FRC_URB2D:MemoryOrder = "XY " ; FRC_URB2D:description = "URBAN FRACTION" ; FRC_URB2D:units = "dimensionless" ; FRC_URB2D:stagger = "" ; FRC_URB2D:coordinates = "XLONG XLAT XTIME" ; float GCX(Time, soil_layers_stag) ; GCX:FieldType = 104 ; GCX:MemoryOrder = "C " ; GCX:description = "2ND RELAXATION TERM FOR BOUNDARY ZONE" ; GCX:units = "" ; GCX:stagger = "" ; float HGT(Time, south_north, west_east) ; HGT:FieldType = 104 ; HGT:MemoryOrder = "XY " ; HGT:description = "Terrain Height" ; HGT:units = "m" ; HGT:stagger = "" ; HGT:coordinates = "XLONG XLAT XTIME" ; int ISLTYP(Time, south_north, west_east) ; ISLTYP:FieldType = 106 ; ISLTYP:MemoryOrder = "XY " ; ISLTYP:description = "DOMINANT SOIL CATEGORY" ; ISLTYP:units = "" ; ISLTYP:stagger = "" ; ISLTYP:coordinates = "XLONG XLAT XTIME" ; int IVGTYP(Time, south_north, west_east) ; IVGTYP:FieldType = 106 ; IVGTYP:MemoryOrder = "XY " ; IVGTYP:description = "DOMINANT VEGETATION CATEGORY" ; IVGTYP:units = "" ; IVGTYP:stagger = "" ; IVGTYP:coordinates = "XLONG XLAT XTIME" ; float LAI(Time, south_north, west_east) ; LAI:FieldType = 104 ; LAI:MemoryOrder = "XY " ; LAI:description = "LEAF AREA INDEX" ; LAI:units = "m-2/m-2" ; LAI:stagger = "" ; LAI:coordinates = "XLONG XLAT XTIME" ; int LAKEFLAG(Time) ; LAKEFLAG:FieldType = 106 ; LAKEFLAG:MemoryOrder = "0 " ; LAKEFLAG:description = "Flag for lake in the global attributes for metgrid data" ; LAKEFLAG:units = "-" ; LAKEFLAG:stagger = "" ; float LAKEMASK(Time, south_north, west_east) ; LAKEMASK:FieldType = 104 ; LAKEMASK:MemoryOrder = "XY " ; LAKEMASK:description = "LAKE MASK (1 FOR LAKE, 0 FOR NON-LAKE)" ; LAKEMASK:units = "" ; LAKEMASK:stagger = "" ; LAKEMASK:coordinates = "XLONG XLAT XTIME" ; float LAKE_DEPTH(Time, south_north, west_east) ; LAKE_DEPTH:FieldType = 104 ; LAKE_DEPTH:MemoryOrder = "XY " ; LAKE_DEPTH:description = "lake depth" ; LAKE_DEPTH:units = "m" ; LAKE_DEPTH:stagger = "" ; LAKE_DEPTH:coordinates = "XLONG XLAT XTIME" ; int LAKE_DEPTH_FLAG(Time) ; LAKE_DEPTH_FLAG:FieldType = 106 ; LAKE_DEPTH_FLAG:MemoryOrder = "0 " ; LAKE_DEPTH_FLAG:description = "Flag for lakedepth in the global attributes for metgrid data" ; LAKE_DEPTH_FLAG:units = "-" ; LAKE_DEPTH_FLAG:stagger = "" ; float LANDMASK(Time, south_north, west_east) ; LANDMASK:FieldType = 104 ; LANDMASK:MemoryOrder = "XY " ; LANDMASK:description = "LAND MASK (1 FOR LAND, 0 FOR WATER)" ; LANDMASK:units = "" ; LANDMASK:stagger = "" ; LANDMASK:coordinates = "XLONG XLAT XTIME" ; float LANDUSEF(Time, land_cat_stag, south_north, west_east) ; LANDUSEF:FieldType = 104 ; LANDUSEF:MemoryOrder = "XYZ" ; LANDUSEF:description = "LANDUSE FRACTION BY CATEGORY" ; LANDUSEF:units = "" ; LANDUSEF:stagger = "Z" ; LANDUSEF:coordinates = "XLONG XLAT XTIME" ; float LAT_LL_D(Time) ; LAT_LL_D:FieldType = 104 ; LAT_LL_D:MemoryOrder = "0 " ; LAT_LL_D:description = "latitude lower left, massless point" ; LAT_LL_D:units = "degrees" ; LAT_LL_D:stagger = "" ; float LAT_LL_T(Time) ; LAT_LL_T:FieldType = 104 ; LAT_LL_T:MemoryOrder = "0 " ; LAT_LL_T:description = "latitude lower left, temp point" ; LAT_LL_T:units = "degrees" ; LAT_LL_T:stagger = "" ; float LAT_LL_U(Time) ; LAT_LL_U:FieldType = 104 ; LAT_LL_U:MemoryOrder = "0 " ; LAT_LL_U:description = "latitude lower left, u point" ; LAT_LL_U:units = "degrees" ; LAT_LL_U:stagger = "" ; float LAT_LL_V(Time) ; LAT_LL_V:FieldType = 104 ; LAT_LL_V:MemoryOrder = "0 " ; LAT_LL_V:description = "latitude lower left, v point" ; LAT_LL_V:units = "degrees" ; LAT_LL_V:stagger = "" ; float LAT_LR_D(Time) ; LAT_LR_D:FieldType = 104 ; LAT_LR_D:MemoryOrder = "0 " ; LAT_LR_D:description = "latitude lower right, massless point" ; LAT_LR_D:units = "degrees" ; LAT_LR_D:stagger = "" ; float LAT_LR_T(Time) ; LAT_LR_T:FieldType = 104 ; LAT_LR_T:MemoryOrder = "0 " ; LAT_LR_T:description = "latitude lower right, temp point" ; LAT_LR_T:units = "degrees" ; LAT_LR_T:stagger = "" ; float LAT_LR_U(Time) ; LAT_LR_U:FieldType = 104 ; LAT_LR_U:MemoryOrder = "0 " ; LAT_LR_U:description = "latitude lower right, u point" ; LAT_LR_U:units = "degrees" ; LAT_LR_U:stagger = "" ; float LAT_LR_V(Time) ; LAT_LR_V:FieldType = 104 ; LAT_LR_V:MemoryOrder = "0 " ; LAT_LR_V:description = "latitude lower right, v point" ; LAT_LR_V:units = "degrees" ; LAT_LR_V:stagger = "" ; float LAT_UL_D(Time) ; LAT_UL_D:FieldType = 104 ; LAT_UL_D:MemoryOrder = "0 " ; LAT_UL_D:description = "latitude up left, massless point" ; LAT_UL_D:units = "degrees" ; LAT_UL_D:stagger = "" ; float LAT_UL_T(Time) ; LAT_UL_T:FieldType = 104 ; LAT_UL_T:MemoryOrder = "0 " ; LAT_UL_T:description = "latitude up left, temp point" ; LAT_UL_T:units = "degrees" ; LAT_UL_T:stagger = "" ; float LAT_UL_U(Time) ; LAT_UL_U:FieldType = 104 ; LAT_UL_U:MemoryOrder = "0 " ; LAT_UL_U:description = "latitude up left, u point" ; LAT_UL_U:units = "degrees" ; LAT_UL_U:stagger = "" ; float LAT_UL_V(Time) ; LAT_UL_V:FieldType = 104 ; LAT_UL_V:MemoryOrder = "0 " ; LAT_UL_V:description = "latitude up left, v point" ; LAT_UL_V:units = "degrees" ; LAT_UL_V:stagger = "" ; float LAT_UR_D(Time) ; LAT_UR_D:FieldType = 104 ; LAT_UR_D:MemoryOrder = "0 " ; LAT_UR_D:description = "latitude up right, massless point" ; LAT_UR_D:units = "degrees" ; LAT_UR_D:stagger = "" ; float LAT_UR_T(Time) ; LAT_UR_T:FieldType = 104 ; LAT_UR_T:MemoryOrder = "0 " ; LAT_UR_T:description = "latitude up right, temp point" ; LAT_UR_T:units = "degrees" ; LAT_UR_T:stagger = "" ; float LAT_UR_U(Time) ; LAT_UR_U:FieldType = 104 ; LAT_UR_U:MemoryOrder = "0 " ; LAT_UR_U:description = "latitude up right, u point" ; LAT_UR_U:units = "degrees" ; LAT_UR_U:stagger = "" ; float LAT_UR_V(Time) ; LAT_UR_V:FieldType = 104 ; LAT_UR_V:MemoryOrder = "0 " ; LAT_UR_V:description = "latitude up right, v point" ; LAT_UR_V:units = "degrees" ; LAT_UR_V:stagger = "" ; float LON_LL_D(Time) ; LON_LL_D:FieldType = 104 ; LON_LL_D:MemoryOrder = "0 " ; LON_LL_D:description = "longitude lower left, massless point" ; LON_LL_D:units = "degrees" ; LON_LL_D:stagger = "" ; float LON_LL_T(Time) ; LON_LL_T:FieldType = 104 ; LON_LL_T:MemoryOrder = "0 " ; LON_LL_T:description = "longitude lower left, temp point" ; LON_LL_T:units = "degrees" ; LON_LL_T:stagger = "" ; float LON_LL_U(Time) ; LON_LL_U:FieldType = 104 ; LON_LL_U:MemoryOrder = "0 " ; LON_LL_U:description = "longitude lower left, u point" ; LON_LL_U:units = "degrees" ; LON_LL_U:stagger = "" ; float LON_LL_V(Time) ; LON_LL_V:FieldType = 104 ; LON_LL_V:MemoryOrder = "0 " ; LON_LL_V:description = "longitude lower left, v point" ; LON_LL_V:units = "degrees" ; LON_LL_V:stagger = "" ; float LON_LR_D(Time) ; LON_LR_D:FieldType = 104 ; LON_LR_D:MemoryOrder = "0 " ; LON_LR_D:description = "longitude lower right, massless point" ; LON_LR_D:units = "degrees" ; LON_LR_D:stagger = "" ; float LON_LR_T(Time) ; LON_LR_T:FieldType = 104 ; LON_LR_T:MemoryOrder = "0 " ; LON_LR_T:description = "longitude lower right, temp point" ; LON_LR_T:units = "degrees" ; LON_LR_T:stagger = "" ; float LON_LR_U(Time) ; LON_LR_U:FieldType = 104 ; LON_LR_U:MemoryOrder = "0 " ; LON_LR_U:description = "longitude lower right, u point" ; LON_LR_U:units = "degrees" ; LON_LR_U:stagger = "" ; float LON_LR_V(Time) ; LON_LR_V:FieldType = 104 ; LON_LR_V:MemoryOrder = "0 " ; LON_LR_V:description = "longitude lower right, v point" ; LON_LR_V:units = "degrees" ; LON_LR_V:stagger = "" ; float LON_UL_D(Time) ; LON_UL_D:FieldType = 104 ; LON_UL_D:MemoryOrder = "0 " ; LON_UL_D:description = "longitude up left, massless point" ; LON_UL_D:units = "degrees" ; LON_UL_D:stagger = "" ; float LON_UL_T(Time) ; LON_UL_T:FieldType = 104 ; LON_UL_T:MemoryOrder = "0 " ; LON_UL_T:description = "longitude up left, temp point" ; LON_UL_T:units = "degrees" ; LON_UL_T:stagger = "" ; float LON_UL_U(Time) ; LON_UL_U:FieldType = 104 ; LON_UL_U:MemoryOrder = "0 " ; LON_UL_U:description = "longitude up left, u point" ; LON_UL_U:units = "degrees" ; LON_UL_U:stagger = "" ; float LON_UL_V(Time) ; LON_UL_V:FieldType = 104 ; LON_UL_V:MemoryOrder = "0 " ; LON_UL_V:description = "longitude up left, v point" ; LON_UL_V:units = "degrees" ; LON_UL_V:stagger = "" ; float LON_UR_D(Time) ; LON_UR_D:FieldType = 104 ; LON_UR_D:MemoryOrder = "0 " ; LON_UR_D:description = "longitude up right, massless point" ; LON_UR_D:units = "degrees" ; LON_UR_D:stagger = "" ; float LON_UR_T(Time) ; LON_UR_T:FieldType = 104 ; LON_UR_T:MemoryOrder = "0 " ; LON_UR_T:description = "longitude up right, temp point" ; LON_UR_T:units = "degrees" ; LON_UR_T:stagger = "" ; float LON_UR_U(Time) ; LON_UR_U:FieldType = 104 ; LON_UR_U:MemoryOrder = "0 " ; LON_UR_U:description = "longitude up right, u point" ; LON_UR_U:units = "degrees" ; LON_UR_U:stagger = "" ; float LON_UR_V(Time) ; LON_UR_V:FieldType = 104 ; LON_UR_V:MemoryOrder = "0 " ; LON_UR_V:description = "longitude up right, v point" ; LON_UR_V:units = "degrees" ; LON_UR_V:stagger = "" ; float LU_INDEX(Time, south_north, west_east) ; LU_INDEX:FieldType = 104 ; LU_INDEX:MemoryOrder = "XY " ; LU_INDEX:description = "LAND USE CATEGORY" ; LU_INDEX:units = "" ; LU_INDEX:stagger = "" ; LU_INDEX:coordinates = "XLONG XLAT XTIME" ; float MAPFAC_M(Time, south_north, west_east) ; MAPFAC_M:FieldType = 104 ; MAPFAC_M:MemoryOrder = "XY " ; MAPFAC_M:description = "Map scale factor on mass grid" ; MAPFAC_M:units = "" ; MAPFAC_M:stagger = "" ; MAPFAC_M:coordinates = "XLONG XLAT XTIME" ; float MAPFAC_MX(Time, south_north, west_east) ; MAPFAC_MX:FieldType = 104 ; MAPFAC_MX:MemoryOrder = "XY " ; MAPFAC_MX:description = "Map scale factor on mass grid, x direction" ; MAPFAC_MX:units = "" ; MAPFAC_MX:stagger = "" ; MAPFAC_MX:coordinates = "XLONG XLAT XTIME" ; float MAPFAC_MY(Time, south_north, west_east) ; MAPFAC_MY:FieldType = 104 ; MAPFAC_MY:MemoryOrder = "XY " ; MAPFAC_MY:description = "Map scale factor on mass grid, y direction" ; MAPFAC_MY:units = "" ; MAPFAC_MY:stagger = "" ; MAPFAC_MY:coordinates = "XLONG XLAT XTIME" ; float MAPFAC_U(Time, south_north, west_east_stag) ; MAPFAC_U:FieldType = 104 ; MAPFAC_U:MemoryOrder = "XY " ; MAPFAC_U:description = "Map scale factor on u-grid" ; MAPFAC_U:units = "" ; MAPFAC_U:stagger = "X" ; MAPFAC_U:coordinates = "XLONG_U XLAT_U XTIME" ; float MAPFAC_UX(Time, south_north, west_east_stag) ; MAPFAC_UX:FieldType = 104 ; MAPFAC_UX:MemoryOrder = "XY " ; MAPFAC_UX:description = "Map scale factor on u-grid, x direction" ; MAPFAC_UX:units = "" ; MAPFAC_UX:stagger = "X" ; MAPFAC_UX:coordinates = "XLONG_U XLAT_U XTIME" ; float MAPFAC_UY(Time, south_north, west_east_stag) ; MAPFAC_UY:FieldType = 104 ; MAPFAC_UY:MemoryOrder = "XY " ; MAPFAC_UY:description = "Map scale factor on u-grid, y direction" ; MAPFAC_UY:units = "" ; MAPFAC_UY:stagger = "X" ; MAPFAC_UY:coordinates = "XLONG_U XLAT_U XTIME" ; float MAPFAC_V(Time, south_north_stag, west_east) ; MAPFAC_V:FieldType = 104 ; MAPFAC_V:MemoryOrder = "XY " ; MAPFAC_V:description = "Map scale factor on v-grid" ; MAPFAC_V:units = "" ; MAPFAC_V:stagger = "Y" ; MAPFAC_V:coordinates = "XLONG_V XLAT_V XTIME" ; float MAPFAC_VX(Time, south_north_stag, west_east) ; MAPFAC_VX:FieldType = 104 ; MAPFAC_VX:MemoryOrder = "XY " ; MAPFAC_VX:description = "Map scale factor on v-grid, x direction" ; MAPFAC_VX:units = "" ; MAPFAC_VX:stagger = "Y" ; MAPFAC_VX:coordinates = "XLONG_V XLAT_V XTIME" ; float MAPFAC_VY(Time, south_north_stag, west_east) ; MAPFAC_VY:FieldType = 104 ; MAPFAC_VY:MemoryOrder = "XY " ; MAPFAC_VY:description = "Map scale factor on v-grid, y direction" ; MAPFAC_VY:units = "" ; MAPFAC_VY:stagger = "Y" ; MAPFAC_VY:coordinates = "XLONG_V XLAT_V XTIME" ; float MF_VX_INV(Time, south_north_stag, west_east) ; MF_VX_INV:FieldType = 104 ; MF_VX_INV:MemoryOrder = "XY " ; MF_VX_INV:description = "Inverse map scale factor on v-grid, x direction" ; MF_VX_INV:units = "" ; MF_VX_INV:stagger = "Y" ; MF_VX_INV:coordinates = "XLONG_V XLAT_V XTIME" ; float MU(Time, south_north, west_east) ; MU:FieldType = 104 ; MU:MemoryOrder = "XY " ; MU:description = "perturbation dry air mass in column" ; MU:units = "Pa" ; MU:stagger = "" ; MU:coordinates = "XLONG XLAT XTIME" ; float MUB(Time, south_north, west_east) ; MUB:FieldType = 104 ; MUB:MemoryOrder = "XY " ; MUB:description = "base state dry air mass in column" ; MUB:units = "Pa" ; MUB:stagger = "" ; MUB:coordinates = "XLONG XLAT XTIME" ; float O3RAD(Time, bottom_top, south_north, west_east) ; O3RAD:FieldType = 104 ; O3RAD:MemoryOrder = "XYZ" ; O3RAD:description = "RADIATION 3D OZONE" ; O3RAD:units = "ppmv" ; O3RAD:stagger = "" ; O3RAD:coordinates = "XLONG XLAT XTIME" ; float P(Time, bottom_top, south_north, west_east) ; P:FieldType = 104 ; P:MemoryOrder = "XYZ" ; P:description = "perturbation pressure" ; P:units = "Pa" ; P:stagger = "" ; P:coordinates = "XLONG XLAT XTIME" ; float P00(Time) ; P00:FieldType = 104 ; P00:MemoryOrder = "0 " ; P00:description = "BASE STATE PRESURE" ; P00:units = "Pa" ; P00:stagger = "" ; float PB(Time, bottom_top, south_north, west_east) ; PB:FieldType = 104 ; PB:MemoryOrder = "XYZ" ; PB:description = "BASE STATE PRESSURE" ; PB:units = "Pa" ; PB:stagger = "" ; PB:coordinates = "XLONG XLAT XTIME" ; float PH(Time, bottom_top_stag, south_north, west_east) ; PH:FieldType = 104 ; PH:MemoryOrder = "XYZ" ; PH:description = "perturbation geopotential" ; PH:units = "m2 s-2" ; PH:stagger = "Z" ; PH:coordinates = "XLONG XLAT XTIME" ; float PHB(Time, bottom_top_stag, south_north, west_east) ; PHB:FieldType = 104 ; PHB:MemoryOrder = "XYZ" ; PHB:description = "base-state geopotential" ; PHB:units = "m2 s-2" ; PHB:stagger = "Z" ; PHB:coordinates = "XLONG XLAT XTIME" ; float PSFC(Time, south_north, west_east) ; PSFC:FieldType = 104 ; PSFC:MemoryOrder = "XY " ; PSFC:description = "SFC PRESSURE" ; PSFC:units = "Pa" ; PSFC:stagger = "" ; PSFC:coordinates = "XLONG XLAT XTIME" ; float P_HYD(Time, bottom_top, south_north, west_east) ; P_HYD:FieldType = 104 ; P_HYD:MemoryOrder = "XYZ" ; P_HYD:description = "hydrostatic pressure" ; P_HYD:units = "Pa" ; P_HYD:stagger = "" ; P_HYD:coordinates = "XLONG XLAT XTIME" ; float P_STRAT(Time) ; P_STRAT:FieldType = 104 ; P_STRAT:MemoryOrder = "0 " ; P_STRAT:description = "BASE STATE PRESSURE AT BOTTOM OF STRATOSPHERE" ; P_STRAT:units = "Pa" ; P_STRAT:stagger = "" ; float P_TOP(Time) ; P_TOP:FieldType = 104 ; P_TOP:MemoryOrder = "0 " ; P_TOP:description = "PRESSURE TOP OF THE MODEL" ; P_TOP:units = "Pa" ; P_TOP:stagger = "" ; float Q2(Time, south_north, west_east) ; Q2:FieldType = 104 ; Q2:MemoryOrder = "XY " ; Q2:description = "QV at 2 M" ; Q2:units = "kg kg-1" ; Q2:stagger = "" ; Q2:coordinates = "XLONG XLAT XTIME" ; float QCLOUD(Time, bottom_top, south_north, west_east) ; QCLOUD:FieldType = 104 ; QCLOUD:MemoryOrder = "XYZ" ; QCLOUD:description = "Cloud water mixing ratio" ; QCLOUD:units = "kg kg-1" ; QCLOUD:stagger = "" ; QCLOUD:coordinates = "XLONG XLAT XTIME" ; float QGRAUP(Time, bottom_top, south_north, west_east) ; QGRAUP:FieldType = 104 ; QGRAUP:MemoryOrder = "XYZ" ; QGRAUP:description = "Graupel mixing ratio" ; QGRAUP:units = "kg kg-1" ; QGRAUP:stagger = "" ; QGRAUP:coordinates = "XLONG XLAT XTIME" ; float QICE(Time, bottom_top, south_north, west_east) ; QICE:FieldType = 104 ; QICE:MemoryOrder = "XYZ" ; QICE:description = "Ice mixing ratio" ; QICE:units = "kg kg-1" ; QICE:stagger = "" ; QICE:coordinates = "XLONG XLAT XTIME" ; float QNCLOUD(Time, bottom_top, south_north, west_east) ; QNCLOUD:FieldType = 104 ; QNCLOUD:MemoryOrder = "XYZ" ; QNCLOUD:description = "cloud water Number concentration" ; QNCLOUD:units = " kg(-1)" ; QNCLOUD:stagger = "" ; QNCLOUD:coordinates = "XLONG XLAT XTIME" ; float QNGRAUPEL(Time, bottom_top, south_north, west_east) ; QNGRAUPEL:FieldType = 104 ; QNGRAUPEL:MemoryOrder = "XYZ" ; QNGRAUPEL:description = "Graupel Number concentration" ; QNGRAUPEL:units = " kg(-1)" ; QNGRAUPEL:stagger = "" ; QNGRAUPEL:coordinates = "XLONG XLAT XTIME" ; float QNICE(Time, bottom_top, south_north, west_east) ; QNICE:FieldType = 104 ; QNICE:MemoryOrder = "XYZ" ; QNICE:description = "Ice Number concentration" ; QNICE:units = " kg-1" ; QNICE:stagger = "" ; QNICE:coordinates = "XLONG XLAT XTIME" ; float QNRAIN(Time, bottom_top, south_north, west_east) ; QNRAIN:FieldType = 104 ; QNRAIN:MemoryOrder = "XYZ" ; QNRAIN:description = "Rain Number concentration" ; QNRAIN:units = " kg(-1)" ; QNRAIN:stagger = "" ; QNRAIN:coordinates = "XLONG XLAT XTIME" ; float QNSNOW(Time, bottom_top, south_north, west_east) ; QNSNOW:FieldType = 104 ; QNSNOW:MemoryOrder = "XYZ" ; QNSNOW:description = "Snow Number concentration" ; QNSNOW:units = " kg(-1)" ; QNSNOW:stagger = "" ; QNSNOW:coordinates = "XLONG XLAT XTIME" ; float QRAIN(Time, bottom_top, south_north, west_east) ; QRAIN:FieldType = 104 ; QRAIN:MemoryOrder = "XYZ" ; QRAIN:description = "Rain water mixing ratio" ; QRAIN:units = "kg kg-1" ; QRAIN:stagger = "" ; QRAIN:coordinates = "XLONG XLAT XTIME" ; float QSNOW(Time, bottom_top, south_north, west_east) ; QSNOW:FieldType = 104 ; QSNOW:MemoryOrder = "XYZ" ; QSNOW:description = "Snow mixing ratio" ; QSNOW:units = "kg kg-1" ; QSNOW:stagger = "" ; QSNOW:coordinates = "XLONG XLAT XTIME" ; float QVAPOR(Time, bottom_top, south_north, west_east) ; QVAPOR:FieldType = 104 ; QVAPOR:MemoryOrder = "XYZ" ; QVAPOR:description = "Water vapor mixing ratio" ; QVAPOR:units = "kg kg-1" ; QVAPOR:stagger = "" ; QVAPOR:coordinates = "XLONG XLAT XTIME" ; float QV_BASE(Time, bottom_top) ; QV_BASE:FieldType = 104 ; QV_BASE:MemoryOrder = "Z " ; QV_BASE:description = "BASE STATE QV IN IDEALIZED CASES" ; QV_BASE:units = "" ; QV_BASE:stagger = "" ; float RDN(Time, bottom_top) ; RDN:FieldType = 104 ; RDN:MemoryOrder = "Z " ; RDN:description = "inverse d(eta) values between half (mass) levels" ; RDN:units = "" ; RDN:stagger = "" ; float RDNW(Time, bottom_top) ; RDNW:FieldType = 104 ; RDNW:MemoryOrder = "Z " ; RDNW:description = "inverse d(eta) values between full (w) levels" ; RDNW:units = "" ; RDNW:stagger = "" ; float RDX(Time) ; RDX:FieldType = 104 ; RDX:MemoryOrder = "0 " ; RDX:description = "INVERSE X GRID LENGTH" ; RDX:units = "" ; RDX:stagger = "" ; float RDY(Time) ; RDY:FieldType = 104 ; RDY:MemoryOrder = "0 " ; RDY:description = "INVERSE Y GRID LENGTH" ; RDY:units = "" ; RDY:stagger = "" ; float RESM(Time) ; RESM:FieldType = 104 ; RESM:MemoryOrder = "0 " ; RESM:description = "TIME WEIGHT CONSTANT FOR SMALL STEPS" ; RESM:units = "" ; RESM:stagger = "" ; int SAVE_TOPO_FROM_REAL(Time) ; SAVE_TOPO_FROM_REAL:FieldType = 106 ; SAVE_TOPO_FROM_REAL:MemoryOrder = "0 " ; SAVE_TOPO_FROM_REAL:description = "1=original topo from real/0=topo modified by WRF" ; SAVE_TOPO_FROM_REAL:units = "flag" ; SAVE_TOPO_FROM_REAL:stagger = "" ; float SEAICE(Time, south_north, west_east) ; SEAICE:FieldType = 104 ; SEAICE:MemoryOrder = "XY " ; SEAICE:description = "SEA ICE FLAG" ; SEAICE:units = "" ; SEAICE:stagger = "" ; SEAICE:coordinates = "XLONG XLAT XTIME" ; float SH2O(Time, soil_layers_stag, south_north, west_east) ; SH2O:FieldType = 104 ; SH2O:MemoryOrder = "XYZ" ; SH2O:description = "SOIL LIQUID WATER" ; SH2O:units = "m3 m-3" ; SH2O:stagger = "Z" ; SH2O:coordinates = "XLONG XLAT XTIME" ; float SHDMAX(Time, south_north, west_east) ; SHDMAX:FieldType = 104 ; SHDMAX:MemoryOrder = "XY " ; SHDMAX:description = "ANNUAL MAX VEG FRACTION" ; SHDMAX:units = "" ; SHDMAX:stagger = "" ; SHDMAX:coordinates = "XLONG XLAT XTIME" ; float SHDMIN(Time, south_north, west_east) ; SHDMIN:FieldType = 104 ; SHDMIN:MemoryOrder = "XY " ; SHDMIN:description = "ANNUAL MIN VEG FRACTION" ; SHDMIN:units = "" ; SHDMIN:stagger = "" ; SHDMIN:coordinates = "XLONG XLAT XTIME" ; float SINALPHA(Time, south_north, west_east) ; SINALPHA:FieldType = 104 ; SINALPHA:MemoryOrder = "XY " ; SINALPHA:description = "Local sine of map rotation" ; SINALPHA:units = "" ; SINALPHA:stagger = "" ; SINALPHA:coordinates = "XLONG XLAT XTIME" ; float SMOIS(Time, soil_layers_stag, south_north, west_east) ; SMOIS:FieldType = 104 ; SMOIS:MemoryOrder = "XYZ" ; SMOIS:description = "SOIL MOISTURE" ; SMOIS:units = "m3 m-3" ; SMOIS:stagger = "Z" ; SMOIS:coordinates = "XLONG XLAT XTIME" ; float SNOALB(Time, south_north, west_east) ; SNOALB:FieldType = 104 ; SNOALB:MemoryOrder = "XY " ; SNOALB:description = "ANNUAL MAX SNOW ALBEDO IN FRACTION" ; SNOALB:units = "" ; SNOALB:stagger = "" ; SNOALB:coordinates = "XLONG XLAT XTIME" ; float SNOW(Time, south_north, west_east) ; SNOW:FieldType = 104 ; SNOW:MemoryOrder = "XY " ; SNOW:description = "SNOW WATER EQUIVALENT" ; SNOW:units = "kg m-2" ; SNOW:stagger = "" ; SNOW:coordinates = "XLONG XLAT XTIME" ; float SNOWC(Time, south_north, west_east) ; SNOWC:FieldType = 104 ; SNOWC:MemoryOrder = "XY " ; SNOWC:description = "FLAG INDICATING SNOW COVERAGE (1 FOR SNOW COVER)" ; SNOWC:units = "" ; SNOWC:stagger = "" ; SNOWC:coordinates = "XLONG XLAT XTIME" ; float SNOWH(Time, south_north, west_east) ; SNOWH:FieldType = 104 ; SNOWH:MemoryOrder = "XY " ; SNOWH:description = "PHYSICAL SNOW DEPTH" ; SNOWH:units = "m" ; SNOWH:stagger = "" ; SNOWH:coordinates = "XLONG XLAT XTIME" ; float SOILCBOT(Time, soil_cat_stag, south_north, west_east) ; SOILCBOT:FieldType = 104 ; SOILCBOT:MemoryOrder = "XYZ" ; SOILCBOT:description = "SOIL CAT FRACTION (BOTTOM)" ; SOILCBOT:units = "" ; SOILCBOT:stagger = "Z" ; SOILCBOT:coordinates = "XLONG XLAT XTIME" ; float SOILCTOP(Time, soil_cat_stag, south_north, west_east) ; SOILCTOP:FieldType = 104 ; SOILCTOP:MemoryOrder = "XYZ" ; SOILCTOP:description = "SOIL CAT FRACTION (TOP)" ; SOILCTOP:units = "" ; SOILCTOP:stagger = "Z" ; SOILCTOP:coordinates = "XLONG XLAT XTIME" ; float SR(Time, south_north, west_east) ; SR:FieldType = 104 ; SR:MemoryOrder = "XY " ; SR:description = "fraction of frozen precipitation" ; SR:units = "-" ; SR:stagger = "" ; SR:coordinates = "XLONG XLAT XTIME" ; float SST(Time, south_north, west_east) ; SST:FieldType = 104 ; SST:MemoryOrder = "XY " ; SST:description = "SEA SURFACE TEMPERATURE" ; SST:units = "K" ; SST:stagger = "" ; SST:coordinates = "XLONG XLAT XTIME" ; int STEP_NUMBER(Time) ; STEP_NUMBER:FieldType = 106 ; STEP_NUMBER:MemoryOrder = "0 " ; STEP_NUMBER:description = "" ; STEP_NUMBER:units = "-" ; STEP_NUMBER:stagger = "" ; float T(Time, bottom_top, south_north, west_east) ; T:FieldType = 104 ; T:MemoryOrder = "XYZ" ; T:description = "perturbation potential temperature (theta-t0)" ; T:units = "K" ; T:stagger = "" ; T:coordinates = "XLONG XLAT XTIME" ; float T00(Time) ; T00:FieldType = 104 ; T00:MemoryOrder = "0 " ; T00:description = "BASE STATE TEMPERATURE" ; T00:units = "K" ; T00:stagger = "" ; float T2(Time, south_north, west_east) ; T2:FieldType = 104 ; T2:MemoryOrder = "XY " ; T2:description = "TEMP at 2 M" ; T2:units = "K" ; T2:stagger = "" ; T2:coordinates = "XLONG XLAT XTIME" ; float TH2(Time, south_north, west_east) ; TH2:FieldType = 104 ; TH2:MemoryOrder = "XY " ; TH2:description = "POT TEMP at 2 M" ; TH2:units = "K" ; TH2:stagger = "" ; TH2:coordinates = "XLONG XLAT XTIME" ; int THIS_IS_AN_IDEAL_RUN(Time) ; THIS_IS_AN_IDEAL_RUN:FieldType = 106 ; THIS_IS_AN_IDEAL_RUN:MemoryOrder = "0 " ; THIS_IS_AN_IDEAL_RUN:description = "T/F flag: this is an ARW ideal simulation" ; THIS_IS_AN_IDEAL_RUN:units = "-" ; THIS_IS_AN_IDEAL_RUN:stagger = "" ; float TISO(Time) ; TISO:FieldType = 104 ; TISO:MemoryOrder = "0 " ; TISO:description = "TEMP AT WHICH THE BASE T TURNS CONST" ; TISO:units = "K" ; TISO:stagger = "" ; float TLP(Time) ; TLP:FieldType = 104 ; TLP:MemoryOrder = "0 " ; TLP:description = "BASE STATE LAPSE RATE" ; TLP:units = "" ; TLP:stagger = "" ; float TLP_STRAT(Time) ; TLP_STRAT:FieldType = 104 ; TLP_STRAT:MemoryOrder = "0 " ; TLP_STRAT:description = "BASE STATE LAPSE RATE (DT/D(LN(P)) IN STRATOSPHERE" ; TLP_STRAT:units = "K" ; TLP_STRAT:stagger = "" ; float TMN(Time, south_north, west_east) ; TMN:FieldType = 104 ; TMN:MemoryOrder = "XY " ; TMN:description = "SOIL TEMPERATURE AT LOWER BOUNDARY" ; TMN:units = "K" ; TMN:stagger = "" ; TMN:coordinates = "XLONG XLAT XTIME" ; float TOPOSLPX(Time, south_north, west_east) ; TOPOSLPX:FieldType = 104 ; TOPOSLPX:MemoryOrder = "XY " ; TOPOSLPX:description = "ELEVATION X SLOPE" ; TOPOSLPX:units = "" ; TOPOSLPX:stagger = "" ; TOPOSLPX:coordinates = "XLONG XLAT XTIME" ; float TOPOSLPY(Time, south_north, west_east) ; TOPOSLPY:FieldType = 104 ; TOPOSLPY:MemoryOrder = "XY " ; TOPOSLPY:description = "ELEVATION Y SLOPE" ; TOPOSLPY:units = "" ; TOPOSLPY:stagger = "" ; TOPOSLPY:coordinates = "XLONG XLAT XTIME" ; float TSK(Time, south_north, west_east) ; TSK:FieldType = 104 ; TSK:MemoryOrder = "XY " ; TSK:description = "SURFACE SKIN TEMPERATURE" ; TSK:units = "K" ; TSK:stagger = "" ; TSK:coordinates = "XLONG XLAT XTIME" ; float TSLB(Time, soil_layers_stag, south_north, west_east) ; TSLB:FieldType = 104 ; TSLB:MemoryOrder = "XYZ" ; TSLB:description = "SOIL TEMPERATURE" ; TSLB:units = "K" ; TSLB:stagger = "Z" ; TSLB:coordinates = "XLONG XLAT XTIME" ; float T_BASE(Time, bottom_top) ; T_BASE:FieldType = 104 ; T_BASE:MemoryOrder = "Z " ; T_BASE:description = "BASE STATE T IN IDEALIZED CASES" ; T_BASE:units = "K" ; T_BASE:stagger = "" ; float T_INIT(Time, bottom_top, south_north, west_east) ; T_INIT:FieldType = 104 ; T_INIT:MemoryOrder = "XYZ" ; T_INIT:description = "initial potential temperature" ; T_INIT:units = "K" ; T_INIT:stagger = "" ; T_INIT:coordinates = "XLONG XLAT XTIME" ; char Times(Time, DateStrLen) ; float U(Time, bottom_top, south_north, west_east_stag) ; U:FieldType = 104 ; U:MemoryOrder = "XYZ" ; U:description = "x-wind component" ; U:units = "m s-1" ; U:stagger = "X" ; U:coordinates = "XLONG_U XLAT_U XTIME" ; float U10(Time, south_north, west_east) ; U10:FieldType = 104 ; U10:MemoryOrder = "XY " ; U10:description = "U at 10 M" ; U10:units = "m s-1" ; U10:stagger = "" ; U10:coordinates = "XLONG XLAT XTIME" ; float UOCE(Time, south_north, west_east) ; UOCE:FieldType = 104 ; UOCE:MemoryOrder = "XY " ; UOCE:description = "SEA SURFACE ZONAL CURRENTS" ; UOCE:units = "m s-1" ; UOCE:stagger = "" ; UOCE:coordinates = "XLONG XLAT XTIME" ; float U_BASE(Time, bottom_top) ; U_BASE:FieldType = 104 ; U_BASE:MemoryOrder = "Z " ; U_BASE:description = "BASE STATE X WIND IN IDEALIZED CASES" ; U_BASE:units = "" ; U_BASE:stagger = "" ; float U_FRAME(Time) ; U_FRAME:FieldType = 104 ; U_FRAME:MemoryOrder = "0 " ; U_FRAME:description = "FRAME X WIND" ; U_FRAME:units = "m s-1" ; U_FRAME:stagger = "" ; float V(Time, bottom_top, south_north_stag, west_east) ; V:FieldType = 104 ; V:MemoryOrder = "XYZ" ; V:description = "y-wind component" ; V:units = "m s-1" ; V:stagger = "Y" ; V:coordinates = "XLONG_V XLAT_V XTIME" ; float V10(Time, south_north, west_east) ; V10:FieldType = 104 ; V10:MemoryOrder = "XY " ; V10:description = "V at 10 M" ; V10:units = "m s-1" ; V10:stagger = "" ; V10:coordinates = "XLONG XLAT XTIME" ; float VAR(Time, south_north, west_east) ; VAR:FieldType = 104 ; VAR:MemoryOrder = "XY " ; VAR:description = "OROGRAPHIC VARIANCE" ; VAR:units = "" ; VAR:stagger = "" ; VAR:coordinates = "XLONG XLAT XTIME" ; float VAR_SSO(Time, south_north, west_east) ; VAR_SSO:FieldType = 104 ; VAR_SSO:MemoryOrder = "XY " ; VAR_SSO:description = "variance of subgrid-scale orography" ; VAR_SSO:units = "m2" ; VAR_SSO:stagger = "" ; VAR_SSO:coordinates = "XLONG XLAT XTIME" ; float VEGFRA(Time, south_north, west_east) ; VEGFRA:FieldType = 104 ; VEGFRA:MemoryOrder = "XY " ; VEGFRA:description = "VEGETATION FRACTION" ; VEGFRA:units = "" ; VEGFRA:stagger = "" ; VEGFRA:coordinates = "XLONG XLAT XTIME" ; float VOCE(Time, south_north, west_east) ; VOCE:FieldType = 104 ; VOCE:MemoryOrder = "XY " ; VOCE:description = "SEA SURFACE MERIDIONAL CURRENTS" ; VOCE:units = "m s-1" ; VOCE:stagger = "" ; VOCE:coordinates = "XLONG XLAT XTIME" ; float V_BASE(Time, bottom_top) ; V_BASE:FieldType = 104 ; V_BASE:MemoryOrder = "Z " ; V_BASE:description = "BASE STATE Y WIND IN IDEALIZED CASES" ; V_BASE:units = "" ; V_BASE:stagger = "" ; float V_FRAME(Time) ; V_FRAME:FieldType = 104 ; V_FRAME:MemoryOrder = "0 " ; V_FRAME:description = "FRAME Y WIND" ; V_FRAME:units = "m s-1" ; V_FRAME:stagger = "" ; float W(Time, bottom_top_stag, south_north, west_east) ; W:FieldType = 104 ; W:MemoryOrder = "XYZ" ; W:description = "z-wind component" ; W:units = "m s-1" ; W:stagger = "Z" ; W:coordinates = "XLONG XLAT XTIME" ; float XLAND(Time, south_north, west_east) ; XLAND:FieldType = 104 ; XLAND:MemoryOrder = "XY " ; XLAND:description = "LAND MASK (1 FOR LAND, 2 FOR WATER)" ; XLAND:units = "" ; XLAND:stagger = "" ; XLAND:coordinates = "XLONG XLAT XTIME" ; float XLAT(Time, south_north, west_east) ; XLAT:FieldType = 104 ; XLAT:MemoryOrder = "XY " ; XLAT:description = "LATITUDE, SOUTH IS NEGATIVE" ; XLAT:units = "degree_north" ; XLAT:stagger = "" ; XLAT:coordinates = "XLONG XLAT" ; float XLAT_U(Time, south_north, west_east_stag) ; XLAT_U:FieldType = 104 ; XLAT_U:MemoryOrder = "XY " ; XLAT_U:description = "LATITUDE, SOUTH IS NEGATIVE" ; XLAT_U:units = "degree_north" ; XLAT_U:stagger = "X" ; XLAT_U:coordinates = "XLONG_U XLAT_U" ; float XLAT_V(Time, south_north_stag, west_east) ; XLAT_V:FieldType = 104 ; XLAT_V:MemoryOrder = "XY " ; XLAT_V:description = "LATITUDE, SOUTH IS NEGATIVE" ; XLAT_V:units = "degree_north" ; XLAT_V:stagger = "Y" ; XLAT_V:coordinates = "XLONG_V XLAT_V" ; float XLONG(Time, south_north, west_east) ; XLONG:FieldType = 104 ; XLONG:MemoryOrder = "XY " ; XLONG:description = "LONGITUDE, WEST IS NEGATIVE" ; XLONG:units = "degree_east" ; XLONG:stagger = "" ; XLONG:coordinates = "XLONG XLAT" ; float XLONG_U(Time, south_north, west_east_stag) ; XLONG_U:FieldType = 104 ; XLONG_U:MemoryOrder = "XY " ; XLONG_U:description = "LONGITUDE, WEST IS NEGATIVE" ; XLONG_U:units = "degree_east" ; XLONG_U:stagger = "X" ; XLONG_U:coordinates = "XLONG_U XLAT_U" ; float XLONG_V(Time, south_north_stag, west_east) ; XLONG_V:FieldType = 104 ; XLONG_V:MemoryOrder = "XY " ; XLONG_V:description = "LONGITUDE, WEST IS NEGATIVE" ; XLONG_V:units = "degree_east" ; XLONG_V:stagger = "Y" ; XLONG_V:coordinates = "XLONG_V XLAT_V" ; float ZETATOP(Time) ; ZETATOP:FieldType = 104 ; ZETATOP:MemoryOrder = "0 " ; ZETATOP:description = "ZETA AT MODEL TOP" ; ZETATOP:units = "" ; ZETATOP:stagger = "" ; float ZNU(Time, bottom_top) ; ZNU:FieldType = 104 ; ZNU:MemoryOrder = "Z " ; ZNU:description = "eta values on half (mass) levels" ; ZNU:units = "" ; ZNU:stagger = "" ; float ZNW(Time, bottom_top_stag) ; ZNW:FieldType = 104 ; ZNW:MemoryOrder = "Z " ; ZNW:description = "eta values on full (w) levels" ; ZNW:units = "" ; ZNW:stagger = "Z" ; float ZS(Time, soil_layers_stag) ; ZS:FieldType = 104 ; ZS:MemoryOrder = "Z " ; ZS:description = "DEPTHS OF CENTERS OF SOIL LAYERS" ; ZS:units = "m" ; ZS:stagger = "Z" ; float Z_BASE(Time, bottom_top) ; Z_BASE:FieldType = 104 ; Z_BASE:MemoryOrder = "Z " ; Z_BASE:description = "BASE STATE HEIGHT IN IDEALIZED CASES" ; Z_BASE:units = "" ; Z_BASE:stagger = "" ; // global attributes: :_NCProperties = "version=1|netcdflibversion=4.4.1|hdf5libversion=1.8.16" ; :TITLE = " OUTPUT FROM IDEAL V3.8.1 PREPROCESSOR" ; :START_DATE = "2016-08-30_12:00:00" ; :SIMULATION_START_DATE = "2016-08-30_12:00:00" ; :WEST-EAST_GRID_DIMENSION = 145 ; :SOUTH-NORTH_GRID_DIMENSION = 145 ; :BOTTOM-TOP_GRID_DIMENSION = 227 ; :DX = 100.f ; :DY = 100.f ; :GRIDTYPE = "C" ; :DIFF_OPT = 2 ; :KM_OPT = 2 ; :DAMP_OPT = 3 ; :DAMPCOEF = 0.2f ; :KHDIF = 1.f ; :KVDIF = 1.f ; :MP_PHYSICS = 50 ; :RA_LW_PHYSICS = 4 ; :RA_SW_PHYSICS = 4 ; :SF_SFCLAY_PHYSICS = 1 ; :SF_SURFACE_PHYSICS = 1 ; :BL_PBL_PHYSICS = 0 ; :CU_PHYSICS = 0 ; :SF_LAKE_PHYSICS = 0 ; :SURFACE_INPUT_SOURCE = 3 ; :SST_UPDATE = 0 ; :GRID_FDDA = 0 ; :GFDDA_INTERVAL_M = 0 ; :GFDDA_END_H = 0 ; :GRID_SFDDA = 0 ; :SGFDDA_INTERVAL_M = 0 ; :SGFDDA_END_H = 0 ; :HYPSOMETRIC_OPT = 2 ; :USE_THETA_M = 1 ; :USE_MAXW_LEVEL = 0 ; :USE_TROP_LEVEL = 0 ; :SIMULATION_INITIALIZATION_TYPE = "IDEALIZED DATA" ; :WEST-EAST_PATCH_START_UNSTAG = 1 ; :WEST-EAST_PATCH_END_UNSTAG = 144 ; :WEST-EAST_PATCH_START_STAG = 1 ; :WEST-EAST_PATCH_END_STAG = 145 ; :SOUTH-NORTH_PATCH_START_UNSTAG = 1 ; :SOUTH-NORTH_PATCH_END_UNSTAG = 144 ; :SOUTH-NORTH_PATCH_START_STAG = 1 ; :SOUTH-NORTH_PATCH_END_STAG = 145 ; :BOTTOM-TOP_PATCH_START_UNSTAG = 1 ; :BOTTOM-TOP_PATCH_END_UNSTAG = 226 ; :BOTTOM-TOP_PATCH_START_STAG = 1 ; :BOTTOM-TOP_PATCH_END_STAG = 227 ; :GRID_ID = 1 ; :PARENT_ID = 0 ; :I_PARENT_START = 0 ; :J_PARENT_START = 0 ; :PARENT_GRID_RATIO = 1 ; :DT = 2.f ; :CEN_LAT = 0.f ; :CEN_LON = 0.f ; :TRUELAT1 = 0.f ; :TRUELAT2 = 0.f ; :MOAD_CEN_LAT = 0.f ; :STAND_LON = 0.f ; :POLE_LAT = 0.f ; :POLE_LON = 0.f ; :GMT = 0.f ; :JULYR = 0 ; :JULDAY = 1 ; :MAP_PROJ = 0 ; :MAP_PROJ_CHAR = "Cartesian" ; :MMINLU = "" ; :NUM_LAND_CAT = 21 ; :ISWATER = 16 ; :ISLAKE = 0 ; :ISICE = 0 ; :ISURBAN = 0 ; :ISOILWATER = 0 ; :history = "Fri Sep 8 00:19:05 2017: ncks -O --fl_fmt=netcdf4 --deflate=2 /gpfs/wolf/cli120/proj-shared/d3m088/alpha2/toprocess/sgplassodiagobsmodC1.m1/20160830/sim0018/config/wrfinput_d01.nc /gpfs/wolf/cli120/proj-shared/d3m088/alpha2/toprocess/sgplassodiagobsmodC1.m1/20160830/sim0018/config/wrfinput_d01.nc" ; :NCO = "\"4.6.4\"" ; } ================================================== netcdf sgplassostat2dC1.m1.20160830.000000 { dimensions: time = UNLIMITED ; // (1 currently) simulation_id = 40 ; bound = 2 ; variables: int base_time ; base_time:long_name = "Base time in Epoch" ; base_time:units = "seconds since 1970-1-1 0:00:00 0:00" ; base_time:ancillary_variables = "time_offset" ; double time_offset(time) ; time_offset:long_name = "Time offset from base_time" ; time_offset:units = "seconds since 2016-08-30 12:00:00 0:00" ; time_offset:ancillary_variables = "base_time" ; double time(time) ; time:long_name = "Time offset from midnight" ; time:units = "seconds since 2016-08-30 00:00:00 0:00" ; time:calendar = "gregorian" ; time:standard_name = "time" ; time:bounds = "time_bounds" ; double time_bounds(time, bound) ; time_bounds:long_name = "Time cell bounds" ; time_bounds:units = "unitless" ; float simulation_id(simulation_id) ; simulation_id:long_name = "Simulation ID" ; simulation_id:units = "unitless" ; float critical_success_index(time, simulation_id) ; critical_success_index:long_name = "Critical success index" ; critical_success_index:units = "unitless" ; critical_success_index:missing_value = -9999.f ; float frequency_bias(time, simulation_id) ; frequency_bias:long_name = "Frequency bias" ; frequency_bias:units = "unitless" ; frequency_bias:missing_value = -9999.f ; float equitable_threat_score(time, simulation_id) ; equitable_threat_score:long_name = "Equitable threat score" ; equitable_threat_score:units = "unitless" ; equitable_threat_score:missing_value = -9999.f ; float ets_skill(time, simulation_id) ; ets_skill:long_name = "ETS skill" ; ets_skill:units = "unitless" ; ets_skill:missing_value = -9999.f ; float frequency_bias_skill(time, simulation_id) ; frequency_bias_skill:long_name = "Frequency bias skill" ; frequency_bias_skill:units = "unitless" ; frequency_bias_skill:missing_value = -9999.f ; float cloud_mask_2d_net_skill(time, simulation_id) ; cloud_mask_2d_net_skill:long_name = "2D Cloud mask net skill" ; cloud_mask_2d_net_skill:units = "unitless" ; cloud_mask_2d_net_skill:missing_value = -9999.f ; float lat ; lat:long_name = "North latitude" ; lat:units = "degree_N" ; lat:valid_min = -90.f ; lat:valid_max = 90.f ; lat:standard_name = "latitude" ; float lon ; lon:long_name = "East longitude" ; lon:units = "degree_E" ; lon:valid_min = -180.f ; lon:valid_max = 180.f ; lon:standard_name = "longitude" ; float alt ; alt:long_name = "Altitude above mean sea level" ; alt:units = "m" ; alt:standard_name = "altitude" ; // global attributes: :process_version = "Alpha 2 Release" ; :dod_version = "lassostat2d.m1-2.0.hdr" ; :input_source = "sgplassomod2d*C1.m1.20160830.*.nc" ; :site_id = "sgp" ; :platform_id = "lassodiagobsmod2d" ; :facility_id = "C1" ; :data_level = "m1" ; :location_description = "Southern Great Plains (SGP), Lamont, Oklahoma" ; :contacts = "William.Gustafson@pnnl.gov, Vogelmann@bnl.gov" ; :doi = "10.5439/1342961" ; :history = "Fri Sep 1 15:35:27 2017" ; } ================================================== netcdf sgplassostatC1.m1.20160830.000000 { dimensions: time = UNLIMITED ; // (1 currently) simulation_id = 40 ; bound = 2 ; variable = 12 ; variable_name_length = 100 ; variables: int base_time ; base_time:long_name = "Base time in Epoch" ; base_time:units = "seconds since 1970-1-1 0:00:00 0:00" ; base_time:ancillary_variables = "time_offset" ; double time_offset(time) ; time_offset:long_name = "Time offset from base_time" ; time_offset:units = "seconds since 2016-08-30 11:30:00 0:00" ; time_offset:ancillary_variables = "base_time" ; double time(time) ; time:long_name = "Time offset from midnight" ; time:units = "seconds since 2016-08-30 00:00:00 0:00" ; time:calendar = "gregorian" ; time:standard_name = "time" ; time:bounds = "time_bounds" ; double time_bounds(time, bound) ; time_bounds:long_name = "Time cell bounds" ; time_bounds:units = "unitless" ; float simulation_id(simulation_id) ; simulation_id:long_name = "Simulation ID" ; simulation_id:units = "unitless" ; int variable(variable) ; variable:long_name = "Variable" ; variable:units = "unitless" ; char variable_name(variable, variable_name_length) ; variable_name:long_name = "Variable name" ; variable_name:units = "unitless" ; float taylor_skill(time, variable, simulation_id) ; taylor_skill:long_name = "Taylor skill score" ; taylor_skill:units = "unitless" ; taylor_skill:missing_value = -9999.f ; float taylor_r0(time, variable, simulation_id) ; taylor_r0:long_name = "Taylor_r0" ; taylor_r0:units = "unitless" ; taylor_r0:missing_value = -9999.f ; float relative_mean_skill(time, variable, simulation_id) ; relative_mean_skill:long_name = "Skill of relative mean" ; relative_mean_skill:units = "unitless" ; relative_mean_skill:missing_value = -9999.f ; float net_skill(time, variable, simulation_id) ; net_skill:long_name = "Skill of: relative mean skill and taylor skill" ; net_skill:units = "unitless" ; net_skill:missing_value = -9999.f ; float cloud_1d_skill(time, simulation_id) ; cloud_1d_skill:long_name = "Skill of: LWP net skill and TSI cloud fraction net skill" ; cloud_1d_skill:units = "unitless" ; cloud_1d_skill:missing_value = -9999.f ; float total_cloud_skill(time, simulation_id) ; total_cloud_skill:long_name = "Skill of: cloud mask net skill and 1D cloud skill (cloud_1d_skill)" ; total_cloud_skill:units = "unitless" ; total_cloud_skill:missing_value = -9999.f ; total_cloud_skill:comments = "Cloud mask net skill found in datastream: lassostat2d.m1" ; float lat ; lat:long_name = "North latitude" ; lat:units = "degree_N" ; lat:valid_min = -90.f ; lat:valid_max = 90.f ; lat:standard_name = "latitude" ; float lon ; lon:long_name = "East longitude" ; lon:units = "degree_E" ; lon:valid_min = -180.f ; lon:valid_max = 180.f ; lon:standard_name = "longitude" ; float alt ; alt:long_name = "Altitude above mean sea level" ; alt:units = "m" ; alt:standard_name = "altitude" ; // global attributes: :process_version = "Alpha 2 Release" ; :dod_version = "Southern Great Plains (SGP), Lamont, Oklahoma" ; :site_id = "sgp" ; :platform_id = "m1" ; :facility_id = "C1" ; :data_level = "sgplassostat2dC1.m1" ; :location_description = "lassostat" ; :contacts = "William.Gustafson@pnnl.gov, Vogelmann@bnl.gov" ; :doi = "sgplassostatC1.m1" ; :history = "Tue Sep 5 21:37:57 2017" ; } ================================================== netcdf sgplassodiagobsmod18C1.m1.20160830.000000 { dimensions: time = UNLIMITED ; // (29 currently) source_type = 2 ; variables: int base_time ; base_time:long_name = "Base time in Epoch" ; base_time:units = "seconds since 1970-1-1 0:00:00 0:00" ; base_time:ancillary_variables = "time_offset" ; double time_offset(time) ; time_offset:long_name = "Time offset from base_time" ; time_offset:units = "seconds since 2016-08-30 00:00:00 0:00" ; time_offset:ancillary_variables = "base_time" ; time_offset:comments = "time offset corresponds to center of averaging interval" ; double time(time) ; time:long_name = "Time offset from midnight" ; time:units = "seconds since 2016-08-30 00:00:00 0:00" ; time:calendar = "gregorian" ; time:standard_name = "time" ; int source_type(source_type) ; source_type:long_name = "Type of data source" ; source_type:units = "unitless" ; source_type:description = "This field contains integer values which should be interpreted as listed." ; source_type:flag_method = "integer" ; source_type:flag_0_description = "Observation" ; source_type:flag_1_description = "Model" ; float low_cloud_fraction_arscl(time, source_type) ; low_cloud_fraction_arscl:long_name = "Frequency of 15-min cloud occurrence, as identified by ARSCL, below 5km AGL" ; low_cloud_fraction_arscl:units = "1" ; low_cloud_fraction_arscl:missing_value = -9999.f ; low_cloud_fraction_arscl:valid_min = 0.f ; low_cloud_fraction_arscl:valid_max = 1.f ; low_cloud_fraction_arscl:cell_methods = "time: mean" ; low_cloud_fraction_arscl:ancillary_variables = "qc_low_cloud_fraction_arscl low_cloud_fraction_arscl_goodfraction" ; int qc_low_cloud_fraction_arscl(time, source_type) ; qc_low_cloud_fraction_arscl:long_name = "Quality check results on field: Frequency of 15-min cloud occurrence, as identified by ARSCL, be" ; qc_low_cloud_fraction_arscl:units = "unitless" ; qc_low_cloud_fraction_arscl:description = "This field contains bit packed integer values, where each bit represents a QC test on the data." ; qc_low_cloud_fraction_arscl:flag_method = "bit" ; qc_low_cloud_fraction_arscl:bit_1_description = "Calculated with valid points between 30% and 50%" ; qc_low_cloud_fraction_arscl:bit_2_description = "Calculated with valid points less than 30%" ; qc_low_cloud_fraction_arscl:bit_2_assessment = "Bad" ; qc_low_cloud_fraction_arscl:bit_1_assessment = "Indeterminate" ; float low_cloud_fraction_arscl_goodfraction(time, source_type) ; low_cloud_fraction_arscl_goodfraction:long_name = "Metric goodfraction for Frequency of 15-min cloud occurrence, as identified by ARSCL, below 5km" ; low_cloud_fraction_arscl_goodfraction:units = "unitless" ; low_cloud_fraction_arscl_goodfraction:missing_value = -9999.f ; float low_cloud_fraction_arscl_std(time, source_type) ; low_cloud_fraction_arscl_std:long_name = "Metric standard deviation for field Frequency of 15-min cloud occurrence, as identified by ARSC" ; low_cloud_fraction_arscl_std:units = "m" ; low_cloud_fraction_arscl_std:missing_value = -9999.f ; float cloud_fraction_tsi(time, source_type) ; cloud_fraction_tsi:long_name = "Hemispheric cloud fraction, as identified by TSI (opaque)" ; cloud_fraction_tsi:units = "1" ; cloud_fraction_tsi:missing_value = -9999.f ; cloud_fraction_tsi:valid_min = 0.f ; cloud_fraction_tsi:valid_max = 1.f ; cloud_fraction_tsi:cell_methods = "time: mean" ; cloud_fraction_tsi:ancillary_variables = "qc_cloud_fraction_tsi cloud_fraction_tsi_goodfraction" ; int qc_cloud_fraction_tsi(time, source_type) ; qc_cloud_fraction_tsi:long_name = "Quality check results on field: Hemispheric cloud fraction, as identified by TSI (opaque)" ; qc_cloud_fraction_tsi:units = "unitless" ; qc_cloud_fraction_tsi:description = "This field contains bit packed integer values, where each bit represents a QC test on the data." ; qc_cloud_fraction_tsi:flag_method = "bit" ; qc_cloud_fraction_tsi:bit_1_description = "Calculated with valid points between 30% and 50%" ; qc_cloud_fraction_tsi:bit_1_assessment = "Indeterminate" ; qc_cloud_fraction_tsi:bit_2_description = "Calculated with valid points less than 30%" ; qc_cloud_fraction_tsi:bit_2_assessment = "Bad" ; float cloud_fraction_tsi_goodfraction(time, source_type) ; cloud_fraction_tsi_goodfraction:long_name = "Metric goodfraction for Hemispheric cloud fraction, as identified by TSI (opaque)" ; cloud_fraction_tsi_goodfraction:units = "unitless" ; cloud_fraction_tsi_goodfraction:missing_value = -9999.f ; float cloud_fraction_tsi_std(time, source_type) ; cloud_fraction_tsi_std:long_name = "Metric standard deviation for field Hemispheric cloud fraction, as identified by TSI (opaque)" ; cloud_fraction_tsi_std:units = "1" ; cloud_fraction_tsi_std:missing_value = -9999.f ; float lwp(time, source_type) ; lwp:long_name = "Liquid water path" ; lwp:units = "g m-2" ; lwp:missing_value = -9999.f ; lwp:cell_methods = "time: mean" ; lwp:ancillary_variables = "qc_lwp lwp_goodfraction" ; int qc_lwp(time, source_type) ; qc_lwp:long_name = "Quality check results on field: Liquid water path" ; qc_lwp:units = "unitless" ; qc_lwp:description = "This field contains bit packed integer values, where each bit represents a QC test on the data." ; qc_lwp:flag_method = "bit" ; qc_lwp:bit_1_description = "Calculated with valid points between 30% and 50%" ; qc_lwp:bit_1_assessment = "Indeterminate" ; qc_lwp:bit_2_description = "Calculated with valid points less than 30%" ; qc_lwp:bit_2_assessment = "Bad" ; float lwp_goodfraction(time, source_type) ; lwp_goodfraction:long_name = "Metric goodfraction for Liquid water path" ; lwp_goodfraction:units = "unitless" ; lwp_goodfraction:missing_value = -9999.f ; float lwp_std(time, source_type) ; lwp_std:long_name = "Metric standard deviation for field Liquid water path" ; lwp_std:units = "g m-2" ; lwp_std:missing_value = -9999.f ; float lcl(time, source_type) ; lcl:long_name = "Lifting condensation level" ; lcl:units = "m" ; lcl:missing_value = -9999.f ; lcl:cell_methods = "time: mean" ; lcl:ancillary_variables = "qc_lcl lcl_goodfraction" ; lcl:standard_name = "atmosphere_lifting_condensation_level_wrt_surface" ; int qc_lcl(time, source_type) ; qc_lcl:long_name = "Quality check results on field: Lifting condensation level" ; qc_lcl:units = "unitless" ; qc_lcl:description = "This field contains bit packed integer values, where each bit represents a QC test on the data." ; qc_lcl:flag_method = "bit" ; qc_lcl:bit_1_description = "Calculated with valid points between 30% and 50%" ; qc_lcl:bit_1_assessment = "Indeterminate" ; qc_lcl:bit_2_description = "Calculated with valid points less than 30%" ; qc_lcl:bit_2_assessment = "Bad" ; float lcl_goodfraction(time, source_type) ; lcl_goodfraction:long_name = "Metric goodfraction for Lifting condensation level" ; lcl_goodfraction:units = "unitless" ; lcl_goodfraction:missing_value = -9999.f ; float lcl_std(time, source_type) ; lcl_std:long_name = "Metric standard deviation for field Lifting condensation level" ; lcl_std:units = "m" ; lcl_std:missing_value = -9999.f ; float lcl_domain(time, source_type) ; lcl_domain:long_name = "Lifting condensation level, domain" ; lcl_domain:units = "m" ; lcl_domain:missing_value = -9999.f ; lcl_domain:cell_methods = "time: mean" ; lcl_domain:ancillary_variables = "qc_lcl_domain lcl_domain_goodfraction" ; lcl_domain:standard_name = "atmosphere_lifting_condensation_level_wrt_surface" ; int qc_lcl_domain(time, source_type) ; qc_lcl_domain:long_name = "Quality check results on field: Lifting condensation level, domain" ; qc_lcl_domain:units = "unitless" ; qc_lcl_domain:description = "This field contains bit packed integer values, where each bit represents a QC test on the data." ; qc_lcl_domain:flag_method = "bit" ; qc_lcl_domain:bit_1_description = "Calculated with valid points between 30% and 50%" ; qc_lcl_domain:bit_1_assessment = "Indeterminate" ; qc_lcl_domain:bit_2_description = "Calculated with valid points less than 30%" ; qc_lcl_domain:bit_2_assessment = "Bad" ; float lcl_domain_goodfraction(time, source_type) ; lcl_domain_goodfraction:long_name = "Metric goodfraction for Lifting condensation level, domain" ; lcl_domain_goodfraction:units = "unitless" ; lcl_domain_goodfraction:missing_value = -9999.f ; float lcl_domain_std(time, source_type) ; lcl_domain_std:long_name = "Metric standard deviation for field Lifting condensation level, domain" ; lcl_domain_std:units = "m" ; lcl_domain_std:missing_value = -9999.f ; float cloud_base_height(time, source_type) ; cloud_base_height:long_name = "Cloud base height" ; cloud_base_height:units = "m" ; cloud_base_height:missing_value = -9999.f ; cloud_base_height:cell_methods = "time: mean" ; cloud_base_height:ancillary_variables = "qc_cloud_base_height cloud_base_height_goodfraction" ; cloud_base_height:standard_name = "convective_cloud_base_height" ; int qc_cloud_base_height(time, source_type) ; qc_cloud_base_height:long_name = "Quality check results on field: Cloud base height" ; qc_cloud_base_height:units = "unitless" ; qc_cloud_base_height:description = "This field contains bit packed integer values, where each bit represents a QC test on the data." ; qc_cloud_base_height:flag_method = "bit" ; qc_cloud_base_height:bit_1_description = "Calculated with valid points between 30% and 50%" ; qc_cloud_base_height:bit_1_assessment = "Indeterminate" ; qc_cloud_base_height:bit_2_description = "Calculated with valid points less than 30%" ; qc_cloud_base_height:bit_2_assessment = "Bad" ; float cloud_base_height_goodfraction(time, source_type) ; cloud_base_height_goodfraction:long_name = "Metric goodfraction for Cloud base height" ; cloud_base_height_goodfraction:units = "unitless" ; cloud_base_height_goodfraction:missing_value = -9999.f ; float cloud_base_height_std(time, source_type) ; cloud_base_height_std:long_name = "Metric standard deviation for field Cloud base height" ; cloud_base_height_std:units = "m" ; cloud_base_height_std:missing_value = -9999.f ; float water_vapor_mixing_ratio_surface(time, source_type) ; water_vapor_mixing_ratio_surface:long_name = "Water vapor mixing ratio at surface" ; water_vapor_mixing_ratio_surface:units = "g kg-1" ; water_vapor_mixing_ratio_surface:missing_value = -9999.f ; water_vapor_mixing_ratio_surface:cell_methods = "time: mean" ; water_vapor_mixing_ratio_surface:ancillary_variables = "qc_water_vapor_mixing_ratio_surface" ; int qc_water_vapor_mixing_ratio_surface(time, source_type) ; qc_water_vapor_mixing_ratio_surface:long_name = "Quality check results on field: Water vapor mixing ratio at surface" ; qc_water_vapor_mixing_ratio_surface:units = "unitless" ; qc_water_vapor_mixing_ratio_surface:description = "This field contains bit packed integer values, where each bit represents a QC test on the data." ; qc_water_vapor_mixing_ratio_surface:flag_method = "bit" ; qc_water_vapor_mixing_ratio_surface:bit_1_description = "Calculated with valid points between 30% and 50%" ; qc_water_vapor_mixing_ratio_surface:bit_1_assessment = "Indeterminate" ; qc_water_vapor_mixing_ratio_surface:bit_2_description = "Calculated with valid points less than 30%" ; qc_water_vapor_mixing_ratio_surface:bit_2_assessment = "Bad" ; float water_vapor_mixing_ratio_surface_std(time, source_type) ; water_vapor_mixing_ratio_surface_std:long_name = "Metric standard deviation for field Water vapor mixing ratio at surface" ; water_vapor_mixing_ratio_surface_std:units = "g kg-1" ; water_vapor_mixing_ratio_surface_std:missing_value = -9999.f ; float water_vapor_mixing_ratio_surface_goodfraction(time, source_type) ; water_vapor_mixing_ratio_surface_goodfraction:long_name = "Metric goodfraction for Water vapor mixing ratio at surface" ; water_vapor_mixing_ratio_surface_goodfraction:units = "unitless" ; water_vapor_mixing_ratio_surface_goodfraction:missing_value = -9999.f ; float temperature_surface(time, source_type) ; temperature_surface:long_name = "Temperature at surface" ; temperature_surface:units = "K" ; temperature_surface:missing_value = -9999.f ; temperature_surface:cell_methods = "time: mean" ; temperature_surface:ancillary_variables = "qc_temperature_surface" ; temperature_surface:standard_name = "surface_temperature" ; int qc_temperature_surface(time, source_type) ; qc_temperature_surface:long_name = "Quality check results on field: Temperature at surface" ; qc_temperature_surface:units = "unitless" ; qc_temperature_surface:description = "This field contains bit packed integer values, where each bit represents a QC test on the data." ; qc_temperature_surface:flag_method = "bit" ; qc_temperature_surface:bit_1_description = "Calculated with valid points between 30% and 50%" ; qc_temperature_surface:bit_1_assessment = "Indeterminate" ; qc_temperature_surface:bit_2_description = "Calculated with valid points less than 30%" ; qc_temperature_surface:bit_2_assessment = "Bad" ; float temperature_surface_std(time, source_type) ; temperature_surface_std:long_name = "Metric standard deviation for field Temperature at surface" ; temperature_surface_std:units = "K" ; temperature_surface_std:missing_value = -9999.f ; float temperature_surface_goodfraction(time, source_type) ; temperature_surface_goodfraction:long_name = "Metric goodfraction for Temperature at surface" ; temperature_surface_goodfraction:units = "unitless" ; temperature_surface_goodfraction:missing_value = -9999.f ; float rh_surface(time, source_type) ; rh_surface:long_name = "Relative humidity" ; rh_surface:units = "%" ; rh_surface:missing_value = -9999.f ; rh_surface:cell_methods = "time: mean" ; rh_surface:ancillary_variables = "qc_rh_surface" ; int qc_rh_surface(time, source_type) ; qc_rh_surface:long_name = "Quality check results on field: Relative humidity" ; qc_rh_surface:units = "unitless" ; qc_rh_surface:description = "This field contains bit packed integer values, where each bit represents a QC test on the data." ; qc_rh_surface:flag_method = "bit" ; qc_rh_surface:bit_1_description = "Calculated with valid points between 30% and 50%" ; qc_rh_surface:bit_1_assessment = "Indeterminate" ; qc_rh_surface:bit_2_description = "Calculated with valid points less than 30%" ; qc_rh_surface:bit_2_assessment = "Bad" ; float rh_surface_std(time, source_type) ; rh_surface_std:long_name = "Metric standard deviation for field Relative humidity at surface" ; rh_surface_std:units = "%" ; rh_surface_std:missing_value = -9999.f ; float rh_surface_goodfraction(time, source_type) ; rh_surface_goodfraction:long_name = "Metric goodfraction for Relative humidity at surface" ; rh_surface_goodfraction:units = "unitless" ; rh_surface_goodfraction:missing_value = -9999.f ; float water_vapor_mixing_ratio_boundary_layer(time, source_type) ; water_vapor_mixing_ratio_boundary_layer:long_name = "Water vapor mixing ratio; average of boundary layer" ; water_vapor_mixing_ratio_boundary_layer:units = "g kg-1" ; water_vapor_mixing_ratio_boundary_layer:missing_value = -9999.f ; water_vapor_mixing_ratio_boundary_layer:cell_methods = "time: mean" ; water_vapor_mixing_ratio_boundary_layer:ancillary_variables = "qc_water_vapor_mixing_ratio_boundary_layer" ; int qc_water_vapor_mixing_ratio_boundary_layer(time, source_type) ; qc_water_vapor_mixing_ratio_boundary_layer:long_name = "Quality check results on field: Water vapor mixing ratio; average of boundary layer" ; qc_water_vapor_mixing_ratio_boundary_layer:units = "unitless" ; qc_water_vapor_mixing_ratio_boundary_layer:description = "This field contains bit packed integer values, where each bit represents a QC test on the data." ; qc_water_vapor_mixing_ratio_boundary_layer:flag_method = "bit" ; qc_water_vapor_mixing_ratio_boundary_layer:bit_1_description = "Calculated with valid points between 30% and 50%" ; qc_water_vapor_mixing_ratio_boundary_layer:bit_1_assessment = "Indeterminate" ; qc_water_vapor_mixing_ratio_boundary_layer:bit_2_description = "Calculated with valid points less than 30%" ; qc_water_vapor_mixing_ratio_boundary_layer:bit_2_assessment = "Bad" ; float water_vapor_mixing_ratio_boundary_layer_std(time, source_type) ; water_vapor_mixing_ratio_boundary_layer_std:long_name = "Metric standard deviation for field Water vapor mixing ratio: average of boundary layer" ; water_vapor_mixing_ratio_boundary_layer_std:units = "g kg-1" ; water_vapor_mixing_ratio_boundary_layer_std:missing_value = -9999.f ; float water_vapor_mixing_ratio_boundary_layer_goodfraction(time, source_type) ; water_vapor_mixing_ratio_boundary_layer_goodfraction:long_name = "Metric goodfraction for Water vapor mixing ratio: average of boundary layer" ; water_vapor_mixing_ratio_boundary_layer_goodfraction:units = "unitless" ; water_vapor_mixing_ratio_boundary_layer_goodfraction:missing_value = -9999.f ; float temperature_boundary_layer(time, source_type) ; temperature_boundary_layer:long_name = "Temperature; average of boundary layer" ; temperature_boundary_layer:units = "K" ; temperature_boundary_layer:missing_value = -9999.f ; temperature_boundary_layer:cell_methods = "time: mean" ; temperature_boundary_layer:ancillary_variables = "qc_temperature_boundary_layer" ; int qc_temperature_boundary_layer(time, source_type) ; qc_temperature_boundary_layer:long_name = "Quality check results on field: Temperature; average of boundary layer" ; qc_temperature_boundary_layer:units = "unitless" ; qc_temperature_boundary_layer:description = "This field contains bit packed integer values, where each bit represents a QC test on the data." ; qc_temperature_boundary_layer:flag_method = "bit" ; qc_temperature_boundary_layer:bit_1_description = "Calculated with valid points between 30% and 50%" ; qc_temperature_boundary_layer:bit_1_assessment = "Indeterminate" ; qc_temperature_boundary_layer:bit_2_description = "Calculated with valid points less than 30%" ; qc_temperature_boundary_layer:bit_2_assessment = "Bad" ; float temperature_boundary_layer_std(time, source_type) ; temperature_boundary_layer_std:long_name = "Metric standard deviation for field Temperature: average of boundary layer" ; temperature_boundary_layer_std:units = "K" ; temperature_boundary_layer_std:missing_value = -9999.f ; float temperature_boundary_layer_goodfraction(time, source_type) ; temperature_boundary_layer_goodfraction:long_name = "Metric goodfraction for Temperature: average of boundary layer" ; temperature_boundary_layer_goodfraction:units = "unitless" ; temperature_boundary_layer_goodfraction:missing_value = -9999.f ; float rh_boundary_layer(time, source_type) ; rh_boundary_layer:long_name = "Relative humidity; average of boundary layer" ; rh_boundary_layer:units = "%" ; rh_boundary_layer:missing_value = -9999.f ; rh_boundary_layer:cell_methods = "time: mean" ; rh_boundary_layer:ancillary_variables = "qc_rh_boundary_layer" ; int qc_rh_boundary_layer(time, source_type) ; qc_rh_boundary_layer:long_name = "Quality check results on field: Relative humidity; average of boundary layer" ; qc_rh_boundary_layer:units = "unitless" ; qc_rh_boundary_layer:description = "This field contains bit packed integer values, where each bit represents a QC test on the data." ; qc_rh_boundary_layer:flag_method = "bit" ; qc_rh_boundary_layer:bit_1_description = "Calculated with valid points between 30% and 50%" ; qc_rh_boundary_layer:bit_1_assessment = "Indeterminate" ; qc_rh_boundary_layer:bit_2_description = "Calculated with valid points less than 30%" ; qc_rh_boundary_layer:bit_2_assessment = "Bad" ; float rh_boundary_layer_std(time, source_type) ; rh_boundary_layer_std:long_name = "Metric standard deviation for field Relative humidity: average of boundary layer" ; rh_boundary_layer_std:units = "%" ; rh_boundary_layer_std:missing_value = -9999.f ; float rh_boundary_layer_goodfraction(time, source_type) ; rh_boundary_layer_goodfraction:long_name = "Metric goodfraction for Relative humidity: average of boundary layer" ; rh_boundary_layer_goodfraction:units = "unitless" ; rh_boundary_layer_goodfraction:missing_value = -9999.f ; float lat ; lat:long_name = "North latitude" ; lat:units = "degree_N" ; lat:valid_min = -90.f ; lat:valid_max = 90.f ; lat:standard_name = "latitude" ; float lon ; lon:long_name = "East longitude" ; lon:units = "degree_E" ; lon:valid_min = -180.f ; lon:valid_max = 180.f ; lon:standard_name = "longitude" ; float alt ; alt:long_name = "Altitude above mean sea level" ; alt:units = "m" ; alt:standard_name = "altitude" ; // global attributes: :process_version = "Alpha 2 Release" ; :dod_version = "lassodiagobsmod.m1-2.0.hdr" ; :input_source = "sgplassodiagmod18C1.m1.20160830.000000.nc,sgplassodiagobsC1.c1.20160830.000000.nc" ; :site_id = "sgp" ; :platform_id = "lassodiagobsmod" ; :facility_id = "C1" ; :data_level = "m1" ; :location_description = "Southern Great Plains (SGP), Lamont, Oklahoma" ; :datastream = "sgplassodiagobsmod18C1.m1" ; :simulation_id_number = "18" ; :simulation_origin_host = "cumulus-login1" ; :simulation_origin_directory = "/gpfs/wolf/cli120/proj-shared/alpha2/toprocess/wrf/alpha2runs-b/runlas20160830a2msda2d75km" ; :simulation_origin_run_date_time = "2017-07-18 18:55:05" ; :model_type = "WRF" ; :model_version = "3.8.1" ; :model_github_hash = "6719cfe1a49919dc76305cb6179e124ff70dc2d9" ; :output_domain_size = "14.4 km" ; :output_number_of_levels = "226" ; :output_horizontal_grid_spacing = "100 m" ; :output_start_datetime = "20160830.120000 UTC" ; :config_large_scale_forcing = "MSDA" ; :config_large_scale_forcing_scale = "75 km" ; :config_large_scale_forcing_specifics = "msda_lasso_fnl_dp61L10_Sb_mp8_rwp (v20170713)" ; :config_surface_treatment = "VARANAL" ; :config_surface_treatment_specifics = "sgp60varanarapC1.c1 (v20161129)" ; :config_initial_condition = "Sounding" ; :config_initial_condition_specifics = "sgpsondewnpnC1" ; :config_aerosol = "Constant" ; :config_forecast_time = "15 h" ; :config_boundary_method = "Periodic" ; :config_microphysics = "LASSO Morrison" ; :config_physics_suite = "1" ; :config_nickname = "runlas20160830a2msda2d75km" ; :config_comments = "Alpha 2" ; :boundary_layer_top = "730 m AGL" ; :boundary_layer_bottom = "530 m AGL" ; :lcl_domain_sites = "C1, E32, E33, E36, E37, E39, E41, BLAC, BREC, CARL, MRSH, MEDF, REDR" ; :contacts = "William.Gustafson@pnnl.gov, Vogelmann@bnl.gov" ; :doi = "10.5439/1342961" ; :history = "Tue Sep 5 17:50:26 2017" ; } ================================================== netcdf sgplassodiagobsmod2d18C1.m1.20160830.000000 { dimensions: time = UNLIMITED ; // (91 currently) height = 226 ; variables: int base_time ; base_time:long_name = "Base time in Epoch" ; base_time:units = "seconds since 1970-1-1 0:00:00 0:00" ; base_time:ancillary_variables = "time_offset" ; double time_offset(time) ; time_offset:long_name = "Time offset from base_time" ; time_offset:units = "seconds since 2016-08-30 12:00:00 0:00" ; time_offset:ancillary_variables = "base_time" ; double time(time) ; time:long_name = "Time offset from midnight" ; time:units = "seconds since 2016-08-30 00:00:00 0:00" ; time:calendar = "gregorian" ; time:standard_name = "time" ; float height(time, height) ; height:long_name = "Height above ground level" ; height:units = "km" ; height:standard_name = "height" ; float cloud_fraction(time, height) ; cloud_fraction:long_name = "Cloud fraction (from simulation)" ; cloud_fraction:units = "1" ; cloud_fraction:missing_value = -9999.f ; cloud_fraction:valid_min = 0.f ; cloud_fraction:valid_max = 1.f ; float cloud_fraction_mask_arscl(time, height) ; cloud_fraction_mask_arscl:long_name = "Cloud fraction mask (from ARSCL)" ; cloud_fraction_mask_arscl:units = "unitless" ; cloud_fraction_mask_arscl:description = "This field contains integer values which should be interpreted as listed." ; cloud_fraction_mask_arscl:flag_method = "integer" ; cloud_fraction_mask_arscl:flag_0_description = "no cloud" ; cloud_fraction_mask_arscl:flag_1_description = "cloud" ; cloud_fraction_mask_arscl:flag_2_description = "no data available" ; float lat ; lat:long_name = "North latitude" ; lat:units = "degree_N" ; lat:valid_min = -90.f ; lat:valid_max = 90.f ; lat:standard_name = "latitude" ; float lon ; lon:long_name = "East longitude" ; lon:units = "degree_E" ; lon:valid_min = -180.f ; lon:valid_max = 180.f ; lon:standard_name = "longitude" ; float alt ; alt:long_name = "Altitude above mean sea level" ; alt:units = "m" ; alt:standard_name = "altitude" ; // global attributes: :process_version = "Alpha 2 Release" ; :dod_version = "lassodiagobsmod2d.m1-2.0.hdr" ; :input_source = "sgplassomod2d18C1.m1.20160830.000000.nc,sgplassomod18C1.m1.20160830.000000.nc,sgpcloudfraction15mC1.c1.20160830.000030.nc,sgpcloudfraction15mC1.c1.20160831.000030.nc" ; :site_id = "sgp" ; :platform_id = "lassodiagobsmod2d" ; :facility_id = "C1" ; :data_level = "m1" ; :location_description = "Southern Great Plains (SGP), Lamont, Oklahoma" ; :datastream = "sgplassodiagobsmod2d18C1.m1" ; :simulation_id_number = "18" ; :simulation_origin_host = "cumulus-login1" ; :simulation_origin_directory = "/gpfs/wolf/cli120/proj-shared/alpha2/toprocess/wrf/alpha2runs-b/runlas20160830a2msda2d75km" ; :simulation_origin_run_date_time = "2017-07-18 18:55:05" ; :model_type = "WRF" ; :model_version = "3.8.1" ; :model_github_hash = "6719cfe1a49919dc76305cb6179e124ff70dc2d9" ; :output_domain_size = "14.4 km" ; :output_number_of_levels = "226" ; :output_horizontal_grid_spacing = "100 m" ; :output_start_datetime = "20160830.120000 UTC" ; :config_large_scale_forcing = "MSDA" ; :config_large_scale_forcing_scale = "75 km" ; :config_large_scale_forcing_specifics = "msda_lasso_fnl_dp61L10_Sb_mp8_rwp (v20170713)" ; :config_surface_treatment = "VARANAL" ; :config_surface_treatment_specifics = "sgp60varanarapC1.c1 (v20161129)" ; :config_initial_condition = "Sounding" ; :config_initial_condition_specifics = "sgpsondewnpnC1" ; :config_aerosol = "Constant" ; :config_forecast_time = "15 h" ; :config_boundary_method = "Periodic" ; :config_microphysics = "LASSO Morrison" ; :config_physics_suite = "1" ; :config_nickname = "runlas20160830a2msda2d75km" ; :config_comments = "Alpha 2" ; :contacts = "William.Gustafson@pnnl.gov, Vogelmann@bnl.gov" ; :doi = "10.5439/1342961" ; :history = "Fri Sep 1 15:28:32 2017" ; } ================================================== netcdf sgplassomod18C1.m1.20160830.000000 { dimensions: time = UNLIMITED ; // (91 currently) variables: int base_time ; base_time:long_name = "Base time in Epoch" ; base_time:units = "seconds since 1970-1-1 0:00:00 0:00" ; base_time:ancillary_variables = "time_offset" ; double time_offset(time) ; time_offset:long_name = "Time offset from base_time" ; time_offset:units = "seconds since 2016-08-30 12:00:00 0:00" ; time_offset:ancillary_variables = "base_time" ; double time(time) ; time:long_name = "Time offset from midnight" ; time:units = "seconds since 2016-08-30 00:00:00 0:00" ; time:calendar = "gregorian" ; time:standard_name = "time" ; float low_cloud_fraction_arscl(time) ; low_cloud_fraction_arscl:long_name = "Frequency of 15-min cloud occurrence, as identified by ARSCL, below 5km AGL" ; low_cloud_fraction_arscl:units = "1" ; low_cloud_fraction_arscl:missing_value = -9999.f ; low_cloud_fraction_arscl:valid_min = 0.f ; low_cloud_fraction_arscl:valid_max = 1.f ; float cloud_fraction_tsi(time) ; cloud_fraction_tsi:long_name = "Hemispheric cloud fraction, as identified by TSI (opaque)" ; cloud_fraction_tsi:units = "1" ; cloud_fraction_tsi:missing_value = -9999.f ; cloud_fraction_tsi:valid_min = 0.f ; cloud_fraction_tsi:valid_max = 1.f ; float lwp(time) ; lwp:long_name = "Liquid water path" ; lwp:units = "g m-2" ; lwp:missing_value = -9999.f ; float lcl(time) ; lcl:long_name = "Lifting condensation level" ; lcl:units = "m" ; lcl:missing_value = -9999.f ; lcl:standard_name = "atmosphere_lifting_condensation_level_wrt_surface" ; float water_vapor_mixing_ratio_surface(time) ; water_vapor_mixing_ratio_surface:long_name = "Water vapor mixing ratio at surface" ; water_vapor_mixing_ratio_surface:units = "g kg-1" ; water_vapor_mixing_ratio_surface:missing_value = -9999.f ; float temperature_surface(time) ; temperature_surface:long_name = "Temperature at surface" ; temperature_surface:units = "K" ; temperature_surface:missing_value = -9999.f ; temperature_surface:standard_name = "surface_temperature" ; float pressure_surface(time) ; pressure_surface:long_name = "Pressure at surface" ; pressure_surface:units = "kPa" ; pressure_surface:missing_value = -9999.f ; pressure_surface:standard_name = "surface_air_pressure" ; float rh_surface(time) ; rh_surface:long_name = "Relative humidity" ; rh_surface:units = "%" ; rh_surface:missing_value = -9999.f ; float water_vapor_mixing_ratio_boundary_layer(time) ; water_vapor_mixing_ratio_boundary_layer:long_name = "Water vapor mixing ratio; average of boundary layer" ; water_vapor_mixing_ratio_boundary_layer:units = "g kg-1" ; water_vapor_mixing_ratio_boundary_layer:missing_value = -9999.f ; float temperature_boundary_layer(time) ; temperature_boundary_layer:long_name = "Temperature; average of boundary layer" ; temperature_boundary_layer:units = "K" ; temperature_boundary_layer:missing_value = -9999.f ; float pressure_boundary_layer(time) ; pressure_boundary_layer:long_name = "Pressure; average of boundary layer" ; pressure_boundary_layer:units = "kPa" ; pressure_boundary_layer:missing_value = -9999.f ; float rh_boundary_layer(time) ; rh_boundary_layer:long_name = "Relative humidity; average of boundary layer" ; rh_boundary_layer:units = "%" ; rh_boundary_layer:missing_value = -9999.f ; float lat ; lat:long_name = "North latitude" ; lat:units = "degree_N" ; lat:valid_min = -90.f ; lat:valid_max = 90.f ; lat:standard_name = "latitude" ; float lon ; lon:long_name = "East longitude" ; lon:units = "degree_E" ; lon:valid_min = -180.f ; lon:valid_max = 180.f ; lon:standard_name = "longitude" ; float alt ; alt:long_name = "Altitude above mean sea level" ; alt:units = "m" ; alt:standard_name = "altitude" ; // global attributes: :process_version = "Alpha 2 Release" ; :dod_version = "lassomod.m1-2.0.hdr" ; :site_id = "sgp" ; :platform_id = "lassomod" ; :facility_id = "C1" ; :data_level = "m1" ; :location_description = "Southern Great Plains (SGP), Lamont, Oklahoma" ; :datastream = "sgplassomod18C1.m1" ; :simulation_id_number = "18" ; :simulation_origin_host = "cumulus-login1" ; :simulation_origin_directory = "/gpfs/wolf/cli120/proj-shared/alpha2/toprocess/wrf/alpha2runs-b/runlas20160830a2msda2d75km" ; :simulation_origin_run_date_time = "2017-07-18 18:55:05" ; :model_type = "WRF" ; :model_version = "3.8.1" ; :model_github_hash = "6719cfe1a49919dc76305cb6179e124ff70dc2d9" ; :output_domain_size = "14.4 km" ; :output_number_of_levels = "226" ; :output_horizontal_grid_spacing = "100 m" ; :output_start_datetime = "20160830.120000 UTC" ; :config_large_scale_forcing = "MSDA" ; :config_large_scale_forcing_scale = "75 km" ; :config_large_scale_forcing_specifics = "msda_lasso_fnl_dp61L10_Sb_mp8_rwp (v20170713)" ; :config_surface_treatment = "VARANAL" ; :config_surface_treatment_specifics = "sgp60varanarapC1.c1 (v20161129)" ; :config_initial_condition = "Sounding" ; :config_initial_condition_specifics = "sgpsondewnpnC1" ; :config_aerosol = "Constant" ; :config_forecast_time = "15 h" ; :config_boundary_method = "Periodic" ; :config_microphysics = "LASSO Morrison" ; :config_physics_suite = "1" ; :config_nickname = "runlas20160830a2msda2d75km" ; :config_comments = "Alpha 2" ; :boundary_layer_top = "730 m AGL" ; :boundary_layer_bottom = "530 m AGL" ; :contacts = "William.Gustafson@pnnl.gov, Vogelmann@bnl.gov" ; :doi = "10.5439/1342961" ; :history = "Sat Jul 29 20:53:41 2017" ; } ================================================== netcdf sgplassomod2d18C1.m1.20160830.000000 { dimensions: time = UNLIMITED ; // (91 currently) height = 226 ; variables: int base_time ; base_time:long_name = "Base time in Epoch" ; base_time:units = "seconds since 1970-1-1 0:00:00 0:00" ; base_time:ancillary_variables = "time_offset" ; double time_offset(time) ; time_offset:long_name = "Time offset from base_time" ; time_offset:units = "seconds since 2016-08-30 12:00:00 0:00" ; time_offset:ancillary_variables = "base_time" ; double time(time) ; time:long_name = "Time offset from midnight" ; time:units = "seconds since 2016-08-30 00:00:00 0:00" ; time:calendar = "gregorian" ; time:standard_name = "time" ; float height(time, height) ; height:long_name = "Height above ground level" ; height:units = "km" ; height:standard_name = "height" ; float cloud_fraction(time, height) ; cloud_fraction:long_name = "Cloud fraction" ; cloud_fraction:units = "1" ; cloud_fraction:missing_value = -9999.f ; cloud_fraction:valid_min = "0.f" ; cloud_fraction:valid_max = "1.f" ; cloud_fraction:cell_methods = "area: mean time: point height: point" ; cloud_fraction:standard_name = "cloud_area_fraction" ; float potential_temp(time, height) ; potential_temp:long_name = "Potential temperature" ; potential_temp:units = "K" ; potential_temp:missing_value = -9999.f ; potential_temp:cell_methods = "area: mean time: point height: point" ; potential_temp:standard_name = "air_potential_temperature" ; float water_vapor_mixing_ratio(time, height) ; water_vapor_mixing_ratio:long_name = "Water vapor mixing ratio" ; water_vapor_mixing_ratio:units = "g kg-1" ; water_vapor_mixing_ratio:missing_value = -9999.f ; water_vapor_mixing_ratio:cell_methods = "area: mean time: point height: point" ; float bar_pres(time, height) ; bar_pres:long_name = "Barometric pressure" ; bar_pres:units = "kPa" ; bar_pres:standard_name = "air_pressure" ; bar_pres:valid_min = "0.f" ; bar_pres:valid_max = "110.f" ; bar_pres:missing_value = -9999.f ; bar_pres:cell_methods = "area: mean time: point height: point" ; float lat ; lat:long_name = "North latitude" ; lat:units = "degree_N" ; lat:valid_min = -90.f ; lat:valid_max = 90.f ; lat:standard_name = "latitude" ; float lon ; lon:long_name = "East longitude" ; lon:units = "degree_E" ; lon:valid_min = -180.f ; lon:valid_max = 180.f ; lon:standard_name = "longitude" ; float alt ; alt:long_name = "Altitude above mean sea level" ; alt:units = "m" ; alt:standard_name = "altitude" ; // global attributes: :process_version = "Alpha 2 Release" ; :dod_version = "lassomod2d.m1-2.0.hdr" ; :site_id = "sgp" ; :platform_id = "lassomod" ; :facility_id = "C1" ; :data_level = "m1" ; :location_description = "Southern Great Plains (SGP), Lamont, Oklahoma" ; :datastream = "sgplassomod2d18C1.m1" ; :simulation_id_number = "18" ; :simulation_origin_host = "cumulus-login1" ; :simulation_origin_directory = "/gpfs/wolf/cli120/proj-shared/alpha2/toprocess/wrf/alpha2runs-b/runlas20160830a2msda2d75km" ; :simulation_origin_run_date_time = "2017-07-18 18:55:05" ; :model_type = "WRF" ; :model_version = "3.8.1" ; :model_github_hash = "6719cfe1a49919dc76305cb6179e124ff70dc2d9" ; :output_domain_size = "14.4 km" ; :output_number_of_levels = "226" ; :output_horizontal_grid_spacing = "100 m" ; :output_start_datetime = "20160830.120000 UTC" ; :config_large_scale_forcing = "MSDA" ; :config_large_scale_forcing_scale = "75 km" ; :config_large_scale_forcing_specifics = "msda_lasso_fnl_dp61L10_Sb_mp8_rwp (v20170713)" ; :config_surface_treatment = "VARANAL" ; :config_surface_treatment_specifics = "sgp60varanarapC1.c1 (v20161129)" ; :config_initial_condition = "Sounding" ; :config_initial_condition_specifics = "sgpsondewnpnC1" ; :config_aerosol = "Constant" ; :config_forecast_time = "15 h" ; :config_boundary_method = "Periodic" ; :config_microphysics = "LASSO Morrison" ; :config_physics_suite = "1" ; :config_nickname = "runlas20160830a2msda2d75km" ; :config_comments = "Alpha 2" ; :boundary_layer_top = "730 m AGL" ; :boundary_layer_bottom = "530 m AGL" ; :contacts = "William.Gustafson@pnnl.gov, Vogelmann@bnl.gov" ; :doi = "10.5439/1342961" ; :history = "Sat Jul 29 20:53:41 2017" ; } ================================================== netcdf sgplassomodxy18C1.m1.20160830.000000 { dimensions: time = UNLIMITED ; // (91 currently) south_north = 144 ; west_east = 144 ; variables: int base_time ; base_time:long_name = "Base time in Epoch" ; base_time:units = "seconds since 1970-1-1 0:00:00 0:00" ; base_time:ancillary_variables = "time_offset" ; double time_offset(time) ; time_offset:long_name = "Time offset from base_time" ; time_offset:units = "seconds since 2016-08-30 12:00:00 0:00" ; time_offset:ancillary_variables = "base_time" ; double time(time) ; time:long_name = "Time offset from midnight" ; time:calendar = "gregorian" ; time:standard_name = "time" ; float west_east(west_east) ; west_east:long_name = "Coordinate variable for west_east" ; west_east:units = "m" ; float south_north(south_north) ; south_north:long_name = "Coordinate variable for south_north" ; south_north:units = "m" ; float cloud_base_height(time, south_north, west_east) ; cloud_base_height:long_name = "Cloud base height" ; cloud_base_height:units = "m" ; cloud_base_height:missing_value = -9999.f ; cloud_base_height:standard_name = "convective_cloud_base_height" ; float lat ; lat:long_name = "North latitude" ; lat:units = "degree_N" ; lat:valid_min = -90.f ; lat:valid_max = 90.f ; lat:standard_name = "latitude" ; float lon ; lon:long_name = "East longitude" ; lon:units = "degree_E" ; lon:valid_min = -180.f ; lon:valid_max = 180.f ; lon:standard_name = "longitude" ; float alt ; alt:long_name = "Altitude above mean sea level" ; alt:units = "m" ; alt:standard_name = "altitude" ; // global attributes: :process_version = "Alpha 2 Release" ; :dod_version = "lassomodxy.m1-2.0.hdr" ; :site_id = "sgp" ; :platform_id = "lassomod" ; :facility_id = "C1" ; :data_level = "m1" ; :location_description = "Southern Great Plains (SGP), Lamont, Oklahoma" ; :datastream = "sgplassomodxy18C1.m1" ; :simulation_id_number = "18" ; :simulation_origin_host = "cumulus-login1" ; :simulation_origin_directory = "/gpfs/wolf/cli120/proj-shared/alpha2/toprocess/wrf/alpha2runs-b/runlas20160830a2msda2d75km" ; :simulation_origin_run_date_time = "2017-07-18 18:55:05" ; :model_type = "WRF" ; :model_version = "3.8.1" ; :model_github_hash = "6719cfe1a49919dc76305cb6179e124ff70dc2d9" ; :output_domain_size = "14.4 km" ; :output_number_of_levels = "226" ; :output_horizontal_grid_spacing = "100 m" ; :output_start_datetime = "20160830.120000 UTC" ; :config_large_scale_forcing = "MSDA" ; :config_large_scale_forcing_scale = "75 km" ; :config_large_scale_forcing_specifics = "msda_lasso_fnl_dp61L10_Sb_mp8_rwp (v20170713)" ; :config_surface_treatment = "VARANAL" ; :config_surface_treatment_specifics = "sgp60varanarapC1.c1 (v20161129)" ; :config_initial_condition = "Sounding" ; :config_initial_condition_specifics = "sgpsondewnpnC1" ; :config_aerosol = "Constant" ; :config_forecast_time = "15 h" ; :config_boundary_method = "Periodic" ; :config_microphysics = "LASSO Morrison" ; :config_physics_suite = "1" ; :config_nickname = "runlas20160830a2msda2d75km" ; :config_comments = "Alpha 2" ; :boundary_layer_top = "730 m AGL" ; :boundary_layer_bottom = "530 m AGL" ; :contacts = "William.Gustafson@pnnl.gov, Vogelmann@bnl.gov" ; :doi = "10.5439/1342961" ; :history = "Sat Jul 29 20:53:41 2017" ; } ==================================================