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421 lines (360 loc) · 35.8 KB
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# At the present time this file is managed manually and edited by hand.
# This file includes the minimal subset of Registry.EM_COMMON required by WRFDA compilation
# All "ikj" variables are changed to "ijk" variables.
################################################################################
################################################################################
################################################################################
# Lines that start with the word 'state' form a table that is
# used by the script use_registry to generate module_state_descript.F
# and other files. Also see documentation in use_registry.
#
# table entries are of the form
#<Table> <Type> <Sym> <Dims> <Use> <NumTLev> <Stagger> <IO> <DNAME> <DESCRIP> <UNITS>
#
# It is required that LU_INDEX appears before any variable that is
# interpolated with a mask, as lu_index supplies that mask.
# this next 1 is for the HFSoLE/PET demo; writing these to auxhist1 output over MCEL for coupling
# with wave model, only if compiled with -DMCELIO, JM 2003/05/29
state real LU_INDEX ij misc 1 - i012rh01d=(interp_fcnm)u=(copy_fcnm) "LU_INDEX" "LAND USE CATEGORY" ""
state real LU_MASK ij misc 1 - i3h1 "LU_MASK" "0 land 1 water" ""
# znw, znu, dzs, and zs must be listed before any 3-d fields
# in order for the grib output module to work correctly. The grib output
# module retrieves the vertical levels from these parameters. If znw, znu
# dzs, and zs are not listed first, vertical level will not be encoded at
# time 0.
state real znu k dyn_em 1 - irh "znu" "eta values on half (mass) levels" ""
state real znw k dyn_em 1 Z i0rh "znw" "eta values on full (w) levels" ""
state real ZS l misc - Z irh "ZS" "DEPTHS OF CENTERS OF SOIL LAYERS" "m"
state real DZS l misc - Z irh "DZS" "THICKNESSES OF SOIL LAYERS" "m"
#-----------------------------------------------------------------------------------------------------------------------------------------------------------------
#
# Variables for Eulerian mass coordinate dynamics
#
# Velocities
#
# U Vel
state real u ijkb dyn_em 2 X \
i0rhusdf=(bdy_interp:dt) "U" "x-wind component" "m s-1"
state real ru ijk dyn_em 1 X - "MU_U" "mu-coupled u" "Pa m s-1"
state real ru_m ijk dyn_em 1 X - "ru_m" "" ""
state real ru_tend ijk dyn_em 1 X - "ru_tend" "" ""
#
# V Vel
state real v ijkb dyn_em 2 Y \
i0rhusdf=(bdy_interp:dt) "V" "y-wind component" "m s-1"
state real rv ijk dyn_em 1 Y - "MU_V" "mu-coupled v" "Pa m s-1"
state real rv_m ijk dyn_em 1 Y - "rv_m"
state real rv_tend ijk dyn_em 1 Y - "rv_tend"
#
# Vertical Vel
state real w ijkb dyn_em 2 Z \
irhusdf=(bdy_interp:dt) "w" "z-wind component" "m s-1"
# Geopotential
state real ph ijkb dyn_em 2 Z \
irhusdf=(bdy_interp:dt) "ph" "perturbation geopotential" "m2 s-2"
state real phb ijk dyn_em 1 Z irhdus "phb" "base-state geopotential" "m2 s-2"
state real ph0 ijk dyn_em 1 Z r "ph0" "initial geopotential" "m2 s-2"
state real php ijk dyn_em 1 - r "php" "geopotential" "m2 s-2"
# Potential Temperature
state real t ijkb dyn_em 2 - \
i0rhusdf=(bdy_interp:dt) "t" "perturbation potential temperature (theta-t0)" "K"
state real t_init ijk dyn_em 1 - ir "t_init" "initial potential temperature" "K"
# Mass
state real mu ijb dyn_em 2 - \
irhusdf=(bdy_interp:dt) "mu" "perturbation dry air mass in column" "Pa"
state real mub ij dyn_em 1 - irhdus "mub" "base state dry air mass in column" "Pa"
state real mu0 ij dyn_em 1 - i1 "mu0" "initial dry mass in column" "Pa"
state real mudf ij dyn_em 1 - - "mudf" "" ""
state real muu ij dyn_em 1 X - "muu"
i1 real muus ij dyn_em 1 -
state real muv ij dyn_em 1 Y - "muv"
i1 real muvs ij dyn_em 1 -
state real mut ij dyn_em 1 - - "mut"
state real muts ij dyn_em 1 - - "muts"
# Pressure and Density
state real p ijk dyn_em 1 - irh "p" "perturbation pressure" "Pa"
state real al ijk dyn_em 1 - r "al" "inverse perturbation density" "m3 kg-1"
state real alt ijk dyn_em 1 - r "alt" "inverse density" "m3 kg-1"
state real alb ijk dyn_em 1 - rdus "alb" "inverse base density" "m3 kg-1"
state real zx ijk dyn_em 1 X - " " " " " "
state real zy ijk dyn_em 1 Y - " " " " " "
state real rdz ijk dyn_em 1 Z - " " " " " "
state real rdzw ijk dyn_em 1 Z - " " " " " "
state real pb ijk dyn_em 1 - irhdus "pb" "BASE STATE PRESSURE " "Pa"
#
# Other dyn
#
state real fnm k dyn_em 1 - irh "fnm" "upper weight for vertical stretching" ""
state real fnp k dyn_em 1 - irh "fnp" "lower weight for vertical stretching" ""
state real rdnw k dyn_em 1 - irh "rdnw" "inverse d(eta) values between full (w) levels" ""
state real rdn k dyn_em 1 - irh "rdn" "inverse d(eta) values between half (mass) levels" ""
state real dnw k dyn_em 1 - irh "dnw" "d(eta) values between full (w) levels" ""
state real dn k dyn_em 1 - irh "dn " "d(eta) values between half (mass) levels" ""
state real t_base k dyn_em 1 - ir "t_base" "BASE STATE T IN IDEALIZED CASES" "K"
state real z ijk dyn_em 1 - - " " " " " "
state real z_at_w ijk dyn_em 1 Z
state real cfn - misc - - irh "cfn" "extrapolation constant" ""
state real cfn1 - misc - - irh "cfn1" "extrapolation constant" ""
state integer step_number - misc - - ir "step_number" ""
# Idealized run
state logical this_is_an_ideal_run - misc - - r "this_is_an_ideal_run" "T/F flag: this is an ARW ideal simulation"
# For the adaptive timestep restart
state logical stepping_to_time - misc - - r "stepping_to_time" ""
state integer last_step_updated - misc - - r "last_step_updated" ""
# hydrostatic pressure vars
state real p_hyd ijk dyn_em 1 - irh "p_hyd" "hydrostatic pressure" "Pa"
state real p_hyd_w ijk dyn_em 1 Z r "p_hyd_w" "hydrostatic pressure at full levels" "Pa"
# 2m and 10m output diagnostics
state real Q2 ij misc 1 - irh0{23}du "Q2" "QV at 2 M" "kg kg-1"
state real T2 ij misc 1 - i01rh0{23}du "T2" "TEMP at 2 M" "K"
state real TH2 ij misc 1 - irhdu "TH2" "POT TEMP at 2 M" "K"
state real PSFC ij misc 1 - i01rhdu "PSFC" "SFC PRESSURE" "Pa"
state real QSFC ij misc 1 - irh "QSFC" "SPECIFIC HUMIDITY AT LOWER BOUNDARY" "kg kg-1"
# these next 2 are for the HFSoLE/PET demo; writing these to auxhist1 output over MCEL for coupling
# with wave model, only if compiled with -DMCELIO, JM 2003/05/29
state real U10 ij misc 1 - irh01du "U10" "U at 10 M" "m s-1"
state real V10 ij misc 1 - irh01du "V10" "V at 10 M" "m s-1"
# Other
state real rdx - misc - - irh "rdx" "INVERSE X GRID LENGTH" ""
state real rdy - misc - - irh "rdy" "INVERSE Y GRID LENGTH" ""
state real dts - misc - - ir "dts" "SMALL TIMESTEP" ""
state real dtseps - misc - - ir "dtseps" "TIME WEIGHT CONSTANT FOR SMALL STEPS" ""
state real resm - misc - - irh "resm" "TIME WEIGHT CONSTANT FOR SMALL STEPS" ""
state real zetatop - misc - - irh "zetatop" "ZETA AT MODEL TOP" ""
state real cf1 - misc - - irh "cf1" "2nd order extrapolation constant" ""
state real cf2 - misc - - irh "cf2" "2nd order extrapolation constant" ""
state real cf3 - misc - - irh "cf3" "2nd order extrapolation constant" ""
# State for derived time quantities.
state integer itimestep - - - - rh "itimestep" "" ""
state real xtime - - - - rh "xtime" "minutes since simulation start" ""
state real julian - - - - - "julian" "day of year, 0.0 at 0Z on 1 Jan." "days"
# input file descriptor for lbcs on parent domain
state integer lbc_fid - - - - - "lbc_fid" "" ""
# indicates if tiling has been computed
state logical tiled - - - - - "tiled" "" ""
# indicates if patches have been computed
state logical patched - - - - - "patched" "" ""
# indicates whether to read input from file or generate
#state logical input_from_file - - - - - "input_from_file" "" ""
# indicates whether to recompute mu
state logical press_adj - - - - - "press_adj" "T/F flag adjust mu" ""
# Mask for moving nest interpolations
state integer imask_nostag ij misc 1 -
state integer imask_xstag ij misc 1 X
state integer imask_ystag ij misc 1 Y
state integer imask_xystag ij misc 1 XY
#-----------------------------------------------------------------------------------------------------------------------------------------------------------------
# Scalar (4D) arrays
# Moist Scalars
#
# The first line ensures that there will be identifiers named moist and
# moist_tend even if there are not any moist scalars (so the essentially
# dry code will will still link properly)
#
state real - ijkftb moist 1 - - -
state real qv ijkftb moist 1 - \
i0rhusdf=(bdy_interp:dt) "QVAPOR" "Water vapor mixing ratio" "kg kg-1"
state real qc ijkftb moist 1 - \
i0rhusdf=(bdy_interp:dt) "QCLOUD" "Cloud water mixing ratio" "kg kg-1"
state real qr ijkftb moist 1 - \
i0rhusdf=(bdy_interp:dt) "QRAIN" "Rain water mixing ratio" "kg kg-1"
state real qi ijkftb moist 1 - \
i0rhusdf=(bdy_interp:dt) "QICE" "Ice mixing ratio" "kg kg-1"
state real qi2 ijkftb moist 1 - \
i0rhusdf=(bdy_interp:dt) "QICE2" "Ice mixing ratio cat 2" "kg kg-1"
state real qs ijkftb moist 1 - \
i0rhusdf=(bdy_interp:dt) "QSNOW" "Snow mixing ratio" "kg kg-1"
state real qg ijkftb moist 1 - \
i0rhusdf=(bdy_interp:dt) "QGRAUP" "Graupel mixing ratio" "kg kg-1"
state real qh ijkftb moist 1 - \
i0rhusdf=(bdy_interp:dt) "QHAIL" "Hail mixing ratio" "kg kg-1"
# Other Scalars
state real - ijkftb scalar 1 - - -
state real qndrop ijkftb scalar 1 - \
i0rhusdf=(bdy_interp:dt) "QNDROP" "Droplet number mixing ratio" "# kg-1"
state real qni ijkftb scalar 1 - \
i0rhusdf=(bdy_interp:dt) "QNICE" "Ice Number concentration" "# kg-1"
state real qt ijkftb scalar 1 - \
i0rhusdf=(bdy_interp:dt) "CWM" "Total condensate mixing ratio" "kg kg-1"
state real qns ijkftb scalar 1 - \
i0rhusdf=(bdy_interp:dt) "QNSNOW" "Snow Number concentration" "# kg(-1)"
state real qnr ijkftb scalar 1 - \
i0rhusdf=(bdy_interp:dt) "QNRAIN" "Rain Number concentration" "# kg(-1)"
state real qng ijkftb scalar 1 - \
i0rhusdf=(bdy_interp:dt) "QNGRAUPEL" "Graupel Number concentration" "# kg(-1)"
state real qnh ijkftb scalar 1 - \
i0rhusdf=(bdy_interp:dt) "QNHAIL" "Hail Number concentration" "# kg(-1)"
state real qnn ijkftb scalar 1 - \
i0rhusdf=(bdy_interp:dt) "QNCCN" "CCN Number concentration" "# kg(-1)"
state real qnc ijkftb scalar 1 - \
i0rhusdf=(bdy_interp:dt) "QNCLOUD" "cloud water Number concentration" "# kg(-1)"
state real qvolg ijkftb scalar 1 - \
i0rhusdf=(bdy_interp:dt) "QVGRAUPEL" "Graupel Particle Volume" "m(3) kg(-1)"
#state real qvolh ijkftb scalar 1 - \
i0rhusdf=(bdy_interp:dt) "QVHAIL" "Hail Particle Volume" "m(3) kg(-1)""
#-----------------------------------------------------------------------------------------------------------------------------------------------------------------
# Arrays for Specified LBCs (lbc arrays REMOVED; Boundary arrays are now specified with the state array; see above, 20050413 JM )
state real fcx w misc - - ir "fcx" "RELAXATION TERM FOR BOUNDARY ZONE" ""
state real gcx w misc - - ir "gcx" "2ND RELAXATION TERM FOR BOUNDARY ZONE" ""
state real dtbc - misc - - ir "dtbc" "TIME SINCE BOUNDARY READ" ""
#-------------------------------------------------------------------------------------------------------------------------------------------
# Physics Related State Varibles
# lsm State Variables
state real SMOIS ijl - 1 Z i02rhd=(interp_mask_land_field:lu_index)u=(copy_fcnm) "SMOIS" "SOIL MOISTURE" "m3 m-3"
state real SH2O ijl - 1 Z i02rhd=(interp_mask_land_field:lu_index)u=(copy_fcnm) "SH2O" "SOIL LIQUID WATER" "m3 m-3"
state real SMCREL ijl - 1 Z i02rhd=(interp_mask_land_field:lu_index)u=(copy_fcnm) "SMCREL" "RELATIVE SOIL MOISTURE" ""
state real XICE ij misc 1 - i0124rhd=(interp_mask_water_field:lu_index,isice)u=(copy_fcnm) "SEAICE" "SEA ICE FLAG" ""
state integer IVGTYP ij misc 1 - i02rhd=(interp_fcni)u=(copy_fcni) "IVGTYP" "DOMINANT VEGETATION CATEGORY" ""
state integer ISLTYP ij misc 1 - i02rhd=(interp_fcni)u=(copy_fcni) "ISLTYP" "DOMINANT SOIL CATEGORY" ""
state real VEGFRA ij misc 1 - i024rhd=(interp_mask_land_field:lu_index)u=(copy_fcnm) "VEGFRA" "VEGETATION FRACTION" ""
state real SNOW ij misc 1 - i012rhd=(interp_mask_land_field:lu_index)u=(copy_fcnm) "SNOW" "SNOW WATER EQUIVALENT" "kg m-2"
state real SNOWH ij misc 1 - i012rhd=(interp_mask_land_field:lu_index)u=(copy_fcnm) "SNOWH" "PHYSICAL SNOW DEPTH" "m"
# gfdl (eta) radiation State Variables
state real HTOP ij misc 1 - r "HTOP" "TOP OF CONVECTION LEVEL" ""
state real HBOT ij misc 1 - r "HBOT" "BOT OF CONVECTION LEVEL" ""
#---------------------------------------------------------------------------------------------------------------------------------------
# SI - end variables from netCDF format from Standard Initialization
#---------------------------------------------------------------------------------------------------------------------------------------
# soil model variables (Note that they are marked as staggered in the vertical dimension
# because they are "fully dimensioned" -- they use every element in that dim
state real TSLB ijl misc 1 Z i02rhd=(interp_mask_land_field:lu_index)u=(copy_fcnm) "TSLB" "SOIL TEMPERATURE" "K"
# Other Misc State Variables
#zxstate real h_diabatic ijk misc 1 - rdu "h_diabatic" "MICROPHYSICS LATENT HEATING" "K s-1"
state real msft ij misc 1 - i012rhdu=(copy_fcnm) "MAPFAC_M" "Map scale factor on mass grid" ""
state real msfu ij misc 1 X i012rhdu=(copy_fcnm) "MAPFAC_U" "Map scale factor on u-grid" ""
state real msfv ij misc 1 Y i012rhdu=(copy_fcnm) "MAPFAC_V" "Map scale factor on v-grid" ""
state real msftx ij misc 1 - i012rhdu=(copy_fcnm) "MAPFAC_MX" "Map scale factor on mass grid, x direction" ""
state real msfty ij misc 1 - i012rhdu=(copy_fcnm) "MAPFAC_MY" "Map scale factor on mass grid, y direction" ""
state real msfux ij misc 1 X i012rhdu=(copy_fcnm) "MAPFAC_UX" "Map scale factor on u-grid, x direction" ""
state real msfuy ij misc 1 X i012rhdu=(copy_fcnm) "MAPFAC_UY" "Map scale factor on u-grid, y direction" ""
state real msfvx ij misc 1 Y i012rhdu=(copy_fcnm) "MAPFAC_VX" "Map scale factor on v-grid, x direction" ""
state real msfvx_inv ij misc 1 Y i012rhdu=(copy_fcnm) "MF_VX_INV" "Inverse map scale factor on v-grid, x direction" ""
state real msfvy ij misc 1 Y i012rhdu=(copy_fcnm) "MAPFAC_VY" "Map scale factor on v-grid, y direction" ""
state real f ij misc 1 - i012rhdu=(copy_fcnm) "f" "Coriolis sine latitude term" "s-1"
state real e ij misc 1 - i012rhdu=(copy_fcnm) "e" "Coriolis cosine latitude term" "s-1"
state real sina ij misc 1 - i012rhdu=(copy_fcnm) "SINALPHA" "Local sine of map rotation" ""
state real cosa ij misc 1 - i012rhdu=(copy_fcnm) "COSALPHA" "Local cosine of map rotation" ""
state real ht ij misc 1 - i012rhdus "HGT" "Terrain Height" "m"
state real ht_fine ij misc 1 - - "HGT_FINE" "Fine Terrain Height" "m"
state real ht_int ij misc 1 - - "HGT_INT" "Terrain Height Horizontally Interpolated" "m"
state real ht_input ij misc 1 - - "HGT_INPUT" "Terrain Height from FG Input File" "m"
state real TSK ij misc 1 - i012rhdu=(copy_fcnm) "TSK" "SURFACE SKIN TEMPERATURE" "K"
state real u_base k misc 1 - ir "u_base" "BASE STATE X WIND IN IDEALIZED CASES" ""
state real v_base k misc 1 - ir "v_base" "BASE STATE Y WIND IN IDEALIZED CASES" ""
state real qv_base k misc 1 - ir "qv_base" "BASE STATE QV IN IDEALIZED CASES" ""
state real z_base k misc 1 - ir "z_base" "BASE STATE HEIGHT IN IDEALIZED CASES" ""
state real u_frame - misc 1 - ir "u_frame" "FRAME X WIND" "m s-1"
state real v_frame - misc 1 - ir "v_frame" "FRAME Y WIND" "m s-1"
# p_top appears as metadata between SI and real but as a state variable in real and WRF
# since it is a scalar and a constant, it makes sense to have it as metadata -- there
# are, however, probably post-processing programs that expect to see it as an I/O record
# another problem: share/input_wrf tries to read this as metadata (fine for real reading
# SI, but with model reading real output, it generates a warning when debug is > 0 in
# namelist and causes repeated questions from users. A third problem is the potential
# collision between a metadata name and a field record in the I/O data
# resolve this how? Have the real program throw a switch to tell the code to get it
# from the metadata? Otherwise it's a field?
state real p_top - misc - - irh "p_top" "PRESSURE TOP OF THE MODEL" "Pa"
state real t00 - misc - - i02rh "t00" "BASE STATE TEMPERATURE " "K"
state real p00 - misc - - i02rh "p00" "BASE STATE PRESSURE" "Pa"
state real tlp - misc - - i02rh "tlp" "BASE STATE LAPSE RATE " ""
state real tiso - misc - - i02rh "tiso" "TEMP AT WHICH THE BASE T TURNS CONST" "K"
state real tlp_strat - misc - - i02rh "tlp_strat" "BASE STATE LAPSE RATE (DT/D(LN(P)) IN STRATOSPHERE" "K"
state real p_strat - misc - - i02rh "p_strat" "BASE STATE PRESSURE AT BOTTOM OF STRATOSPHERE" "Pa"
state real max_msftx - misc - - rh "max_mstfx" "Max map factor in domain" ""
state real max_msfty - misc - - rh "max_mstfy" "Max map factor in domain" ""
state logical v4_metgrid - misc - - - "v4_metgrid" "for real, T/F: identify if this is v4 metgrid data" ""
state real RAINC ij misc 1 - rhdu "RAINC" "ACCUMULATED TOTAL CUMULUS PRECIPITATION" "mm"
state real RAINNC ij misc 1 - rhdu "RAINNC" "ACCUMULATED TOTAL GRID SCALE PRECIPITATION" "mm"
state real RAINCV ij misc 1 - r "RAINCV" "TIME-STEP CUMULUS PRECIPITATION" "mm"
state real RAINNCV ij misc 1 - r "RAINNCV" "TIME-STEP NONCONVECTIVE PRECIPITATION" "mm"
# these next 2 are for the HFSoLE/PET demo; writing these to auxhist1 output over MCEL for coupling
# with wave model, only if compiled with -DMCELIO, JM 2003/05/29
state real XLAT ij misc 1 - i0123rh01du=(copy_fcnm) "XLAT" "LATITUDE, SOUTH IS NEGATIVE" "degree_north"
state real XLONG ij misc 1 - i0123rh01du=(copy_fcnm) "XLONG" "LONGITUDE, WEST IS NEGATIVE" "degree_east"
state real XLAT_U ij dyn_em 1 X i012rh01du=(copy_fcnm) "XLAT_U" "LATITUDE, SOUTH IS NEGATIVE" "degree_north"
state real XLONG_U ij dyn_em 1 X i012rh01du=(copy_fcnm) "XLONG_U" "LONGITUDE, WEST IS NEGATIVE" "degree_east"
state real XLAT_V ij dyn_em 1 Y i012rh01du=(copy_fcnm) "XLAT_V" "LATITUDE, SOUTH IS NEGATIVE" "degree_north"
state real XLONG_V ij dyn_em 1 Y i012rh01du=(copy_fcnm) "XLONG_V" "LONGITUDE, WEST IS NEGATIVE" "degree_east"
state real ALBEDO ij misc 1 - rh "ALBEDO" "ALBEDO"
state real CLAT ij misc 1 - i012rhdu=(copy_fcnm) "CLAT" "COMPUTATIONAL GRID LATITUDE, SOUTH IS NEGATIVE" "degree_north"
state real ALBBCK ij misc 1 - i0124rh "ALBBCK" "BACKGROUND ALBEDO" ""
state real EMBCK ij misc 1 - r "EMBCK" "BACKGROUND EMISSIVITY" ""
state real EMISS ij misc 1 - rh "EMISS" "SURFACE EMISSIVITY" ""
state real SNOTIME ij misc 1 - r "SNOTIME" "SNOTIME" ""
state real NOAHRES ij misc 1 - h "NOAHRES" "RESIDUAL OF THE NOAH SURFACE ENERGY BUDGET" "W m{-2}"
state real CLDEFI ij misc 1 - r "CLDEFI" "precipitation efficiency in BMJ SCHEME" ""
state integer STEPRA - misc 1 - r "STEPRA" "NUMBER OF FUNDAMENTAL TIMESTEPS BETWEEN RADIATION CALLS" ""
# State variables for landuse_init, Must be declared state because they are read in and needed for restarts. Had been SAVE vars in
# landuse_init (phys/module_physics_init.F)
state logical warm_rain - misc 1 - - "warm_rain" "WARM_RAIN_LOGICAL"
state logical adv_moist_cond - misc 1 - - "adv_moist_cond" "ADVECT MOIST CONDENSATES LOGICAL"
state integer save_topo_from_real - dyn_em 1 - irh "save_topo_from_real" "1=original topo from real/0=topo modified by WRF" "flag"
state real TMN ij misc 1 - i012rhd=(interp_mask_land_field:lu_index)u=(copy_fcnm) "TMN" "SOIL TEMPERATURE AT LOWER BOUNDARY" "K"
state real XLAND ij misc 1 - i02rhd=(interp_fcnm)u=(copy_fcnm) "XLAND" "LAND MASK (1 FOR LAND, 2 FOR WATER)" ""
state real SNOWC ij misc 1 - irhd=(interp_mask_land_field:lu_index)u=(copy_fcnm) "SNOWC" "FLAG INDICATING SNOW COVERAGE (1 FOR SNOW COVER)" ""
state real ZNT ij misc 1 - irh "ZNT" "TIME-VARYING ROUGHNESS LENGTH" "m"
state real UST ij misc 1 - irh "UST" "U* IN SIMILARITY THEORY" "m s-1"
state real MOL ij misc 1 - irh "MOL" "T* IN SIMILARITY THEORY" "K"
state real PBLH ij misc 1 - irh "PBLH" "PBL HEIGHT" "m"
state real HFX ij misc 1 - irh "HFX" "UPWARD HEAT FLUX AT THE SURFACE" "W m-2"
state real QFX ij misc 1 - irh "QFX" "UPWARD MOISTURE FLUX AT THE SURFACE" "kg m-2 s-1"
state real REGIME ij misc 1 - irh "REGIME" "FLAGS: 1=Night/Stable, 2=Mechanical Turbulent, 3=Forced Conv, 4=Free Conv" ""
state integer KPBL ij misc 1 - irh "KPBL" "LEVEL OF PBL TOP" ""
#
#---------------------------------------------------------------------------------------------------------------------------------------
#
######
#
# Variables that are set at run-time to control configuration (namelist-settable)
#
#<Table> <Type> <Sym> <How set> <Nentries> <Default>
include Registry.rconfig
#
#---------------------------------------------------------------------------------------------------------------------------------------
# Package Declarations
#
#key package associated package associated 4d scalars
# name namelist choice state vars
#package passivec1 chem_opt==0 -
package nolsmscheme sf_surface_physics==0 - -
package slabscheme sf_surface_physics==1 - -
package lsmscheme sf_surface_physics==2 - -
package ruclsmscheme sf_surface_physics==3 - -
package noahmpscheme sf_surface_physics==4 - -
package dfi_setup dfi_stage==0 - -
package dfi_bck dfi_stage==1 - -
package dfi_fwd dfi_stage==2 - -
package dfi_fst dfi_stage==3 - -
package dfi_startfwd dfi_stage==4 - -
package dfi_startbck dfi_stage==5 - -
package dfi_nodfi dfi_opt==0 - -
package dfi_dfl dfi_opt==1 - -
package dfi_ddfi dfi_opt==2 - -
package dfi_tdfi dfi_opt==3 - -
# only need to specify these once; not for every io_form* variable
package io_intio io_form_restart==1 - -
package io_netcdf io_form_restart==2 - -
# Placeholders for additional packages (we can go beyond zzz
# but that will entail modifying frame/module_io.F and frame/md_calls.m4)
# Please note these are placeholders; HDF has not been implemented yet.
package io_hdf io_form_restart==3 - -
package io_phdf5 io_form_restart==4 - -
package io_grib1 io_form_restart==5 - -
package io_mcel io_form_restart==6 - -
package io_esmf io_form_restart==7 - -
package io_yyy io_form_restart==8 - -
package io_zzz io_form_restart==9 - -
package io_grib2 io_form_restart==10 - -
package io_pnetcdf io_form_restart==11 - -
package io_pio io_form_restart==12 - -
package io_netcdfpar io_form_restart==13 - -
package io_adios2 io_form_restart==14 - -
#WRF Hydro
package no_wrfhydro wrf_hydro==0 - -
package wrfhydro wrf_hydro==1 - -
#---------------------------------------------------------------------------------------------------------------------------------------
## communications
### 8. Edit the Registry file and create a halo-exchange for x_1.
# Halo Update Communications
halo HALO_EM_C dyn_em 4:u_2,v_2