# Registry file NMM_NEST # # At the present time this file is managed manually and edited by hand. # ################################################################################ # Dimension specifications # # This section of the Registry file is used to specify the dimensions # that will be used to define arrays. Dim is the one-letter name of the # dimension. How defined can either be "standard_domain", which means # that the dimension (1) is one of the three spatial dimensions and (2) # it will be set using the standard namelist mechanism and domain data # structure dimension fields (e.g. sd31,ed31,sd32...). # # Order refers to which of the three sets of just-mentioned internal # dimension variables the dimension is referred to by in the driver. # That is, is it the first, second, or third dimension. The registry # infers the mapping of its internal dimensions according to the # combination of Order and Coord-axis that are specified in this table. # Note that it is all right to more than one dimension name for, say, the # x dimension. However, the Order and Coord-axis relationship must be # consistent throughout. # # Note: these entries do not enforce storage order on a particular field. # That is determined by the dimension strings for each field. But it does # relate the dimspec to the internal data structures that the driver uses # to maintain the three physical domain dimensions. # # "How defined" can also specify the name of a namelist variable from which # the definition for the dimension will come; this is specified as # "namelist=". The namelist variable must have been # defined as an integer and with only one entry in the rconfig table. Or # a constant can be specified. The coordinate axis for the dimension is # either X, Y, Z, or C (for "not a spatial dimension"). The Dimname is # the descriptive name of the dimension that will be included in the # metadata in data sets. Note that the b, f, and t modifiers that appear # as the last characters of dimension strings used # in state and # i1 # registry definitions are not dimensions and do not need to be declared # here. # include registry.dimspec ############# rconfig integer ntracers namelist,physics 1 4 - # option 1 #dimspec ntracevars - constant=4 c number of 4d tracer variables #state real - ijk{ntracevars}f tracers 1 - - - - #state real t1 ijk{ntracevars}f tracers 1 - r - - #state real t2 ijk{ntracevars}f tracers 1 - r - - #state real t3 ijk{ntracevars}f tracers 1 - r - - #state real t4 ijk{ntracevars}f tracers 1 - r - - #package tracer_option_1 ntracers==4 - tracers:t1,t2,t3,t4 # option 2 state real - ijkf szj 1 - - - - state real szj1 ijkf szj 1 - r "szj1" "szj" "units" state real szj2 ijkf szj 1 - r "szj2" "szj" "units" state real szj3 ijkf szj 1 - r "szj3" "szj" "units" state real szj4 ijkf szj 1 - r "szj4" "szj" "units" state real - ijkf s1z 1 - - - - state real s1z1 ijkf s1z 1 - r "s1z1" "s1z" "units" state real s1z2 ijkf s1z 1 - r "s1z2" "s1z" "units" state real s1z3 ijkf s1z 1 - r "s1z3" "s1z" "units" state real s1z4 ijkf s1z 1 - r "s1z4" "s1z" "units" state real - ijkf spz 1 - - - - state real spz1 ijkf spz 1 - r "spz1" "spz" "units" state real spz2 ijkf spz 1 - r "spz2" "spz" "units" state real spz3 ijkf spz 1 - r "spz3" "spz" "units" state real spz4 ijkf spz 1 - r "spz4" "spz" "units" state real - ijkf tcs 1 - - - - state real tcs1 ijkf tcs 1 - r "tcs1" "tcs" "units" state real tcs2 ijkf tcs 1 - r "tcs2" "tcs" "units" state real tcs3 ijkf tcs 1 - r "tcs3" "tcs" "units" state real tcs4 ijkf tcs 1 - r "tcs4" "tcs" "units" package tracer_option_2 ntracers==4 - szj:szj1,szj2,szj3,szj4;s1z:s1z1,s1z2,s1z3,s1z4;spz:spz1,spz2,spz3,spz4;tcs:tcs1,tcs2,tcs3,tcs4 ################################################################################ ################################################################################ ################################################################################ # 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. # # It is reauired that LU_INDEX appears before any variable that is # interpolated with a mask, as lu_index supplies that mask. # state real LU_INDEX ij misc 1 - irh01d=(interp_fcnm)u=(copy_fcnm) "LU_INDEX" "LAND USE CATEGORY" "" state real LU_MASK ij misc 1 - i3h1 "LU_MASK" "0 land 1 water" "" ################################################################################ ################################################################################ ################################ ## WPS-specific Variables ################################ state real p_gc ijg dyn_nmm 1 Z i1 "PRES" "pressure" "Pa" state real vegcat ij misc 1 - i12 "VEGCAT" "VEGETATION CAT DOMINANT TYPE" "" state real soilcat ij misc 1 - i12 "SOILCAT" "SOIL CAT DOMINANT TYPE" "" state real input_soil_cat ij misc 1 - i12 "SOIL_CAT" "SOIL CAT DOMINANT TYPE" "" state real tsk_gc ij dyn_nmm 1 - i1 "SKINTEMP" "skin temperature" "K" state real XICE_gc ij misc 1 - i014r "SEAICE" "SEA ICE" "" state real ght_gc ijg dyn_nmm 1 Z i1 "GHT" "geopotential height" "m" state real rh_gc ijg dyn_nmm 1 Z i1 "RH" "relative humidity" "%" state real v_gc ijg dyn_nmm 1 Z i1 "VV" "y-wind component" "m s-1" state real u_gc ijg dyn_nmm 1 Z i1 "UU" "x-wind component" "m s-1" state real t_gc ijg dyn_nmm 1 Z i1 "TT" "temperature" "K" state real snoalb ij misc 1 - i012r "SNOALB" "ANNUAL MAX SNOW ALBEDO IN FRACTION" "" state real greenfrac_gc ijm dyn_nmm 1 Z i1 "GREENFRAC" "monthly greenness fraction" "0 - 1 fraction" state real albedo12m_gc ijm dyn_nmm 1 Z i1 "ALBEDO12M" "background albedo" "0 - 1 fraction" state real soilcbot_gc ijs misc 1 Z i1 "SOILCBOT" "description" "units" state real soilctop_gc ijs misc 1 Z i1 "SOILCTOP" "description" "units" state real tmn_gc ij dyn_nmm 1 - i1 "SOILTEMP" "annual mean deep soil temperature" "K" state real htv_gc ij dyn_nmm 1 - i1 "HGT_V" "wind point topography elevation" "m" state real ht_gc ij dyn_nmm 1 - i1 "HGT_M" "mass point topography elevation" "m" state real landusef_gc iju misc 1 Z i1 "LANDUSEF" "description" "units" state real vlon_gc ij dyn_nmm 1 - i1 "XLONG_V" "longitude, positive east" "degrees" state real vlat_gc ij dyn_nmm 1 - i1 "XLAT_V" "latitude, positive north" "degrees" state real hlon_gc ij dyn_nmm 1 - i1 "XLONG_M" "longitude, positive east" "degrees" state real hlat_gc ij dyn_nmm 1 - i1 "XLAT_M" "latitude, positive north" "degrees" ############################################################## # Variables for nmm dynamics # # module_BC # # pdb is only 2d but registry doesn't support 2d bdy arrays right now... # The following arrays were added to avoid using _b and _bt arrays for nesting. # This is gopal' doing: state integer nrnd1 k dyn_nmm 1 - r "NRND1" #for HWRF: zhang's doing: added a 'r' at end to store these variables in restart file state real pdnest_b ij dyn_nmm 1 - r state real pdnest_bt ij dyn_nmm 1 - r state real tnest_b ijk dyn_nmm 1 - r state real tnest_bt ijk dyn_nmm 1 - r state real qnest_b ijk dyn_nmm 1 - r state real qnest_bt ijk dyn_nmm 1 - r state real unest_b ijk dyn_nmm 1 - r state real unest_bt ijk dyn_nmm 1 - r state real vnest_b ijk dyn_nmm 1 - r state real vnest_bt ijk dyn_nmm 1 - r state real q2nest_b ijk dyn_nmm 1 - r state real q2nest_bt ijk dyn_nmm 1 - r state real cwmnest_b ijk dyn_nmm 1 - r state real cwmnest_bt ijk dyn_nmm 1 - r # # For the moving nest. This is gopal's doing # state real pdyn ij dyn_nmm 1 - r "PDYN" "DYNAMIC PRESSURE USED FOR TRACKING GRID MOTION" state real mslp ij dyn_nmm 1 - rh "MSLP" "MSLP USED TO DETERMINE STORM LOCATION" state real sqws ij dyn_nmm 1 - r "SQWS" "SQUARE OF WIND SPEED AT LEVEL 10" state integer xloc - dyn_nmm 2 - r "XLOC" "I-LOCATION OF MINIMUM DYNAMIC PRESSURE" state integer yloc - dyn_nmm 2 - r "YLOC" "J-LOCATION OF MINIMUM DYNAMIC PRESSURE" state logical mvnest - dyn_nmm 1 - r "MVNEST" "LOGICAL SWITCH FOR NMM GRID MOTION" #for HWRF: zhang's doing added to calculate radiation constant for moving nest for restart state integer julyr_rst - dyn_nmm 1 - r "JULYR_RST" "JULYR for restart moving nest " state integer julday_rst - dyn_nmm 1 - r "JULDAY_RST" "JULDAY for restart moving nest " state real gmt_rst - dyn_nmm 1 - r "GMT_RST" "GMT for restart moving nest " state integer NTIME0 - dyn_nmm 1 - r "NTIME0" "COUNT FOR PREVIOUS MOVING NEST" #for HWRF: # flag for nest movement state logical moved - misc 1 - r state real ducudt ijk misc 1 - rh "UMMIX" "U TENDENCY MOMENTUM MIXING IN SAS" state real dvcudt ijk misc 1 - rh "VMMIX" "V TENDENCY MOMENTUM MIXING IN SAS" # For random number in SAS convection in HWRF state real store_rand ij dyn_nmm 1 - rh "RANDOM" "RANDOM NUMBER FOR SAS" # Location of the SOUTH-WEST nested pointed in terms of parent grid state integer IIH ij dyn_nmm 1 - rh state integer JJH ij dyn_nmm 1 - rh state integer IIV ij dyn_nmm 1 - rh state integer JJV ij dyn_nmm 1 - rh # Bi-linear weights state real HBWGT1 ij dyn_nmm 1 - rh state real HBWGT2 ij dyn_nmm 1 - rh state real HBWGT3 ij dyn_nmm 1 - rh state real HBWGT4 ij dyn_nmm 1 - rh state real VBWGT1 ij dyn_nmm 1 - rh state real VBWGT2 ij dyn_nmm 1 - rh state real VBWGT3 ij dyn_nmm 1 - rh state real VBWGT4 ij dyn_nmm 1 - rh #end of HWRF: # state real HLON ij dyn_nmm 1 - h01d=(test_nmm:IIH,JJH,HBWGT1,HBWGT2,HBWGT3,HBWGT4) state real HLAT ij dyn_nmm 1 - h01d=(test_nmm:IIH,JJH,HBWGT1,HBWGT2,HBWGT3,HBWGT4) state real VLON ij dyn_nmm 1 - irh state real VLAT ij dyn_nmm 1 - irh # rconfig real wbd0 derived max_domains 0 - "wbd0" "western boundary of the domain" rconfig real sbd0 derived max_domains 0 - "sbd0" "southern boundary of the domain" #for HWRF: rconfig logical analysis namelist,time_control max_domains .false. irh "days" "analysis control for the nested domain" state real PSTD k dyn_nmm 1 Z r state integer KZMAX - dyn_nmm - - r state real Z3D ijk dyn_nmm 1 Z rd=(nmm_copy:IIH,JJH)f=(nmm_copy:IIH,JJH) "Z3D" "HEIGHT ARRAY FIELD VALID FOR PARENT ONLY" state real T3D ijk dyn_nmm 1 - rd=(nmm_copy:IIH,JJH)f=(nmm_copy:IIH,JJH) "T3D" "TEMPERATURE ARRAY ON STANDARD PRESSURE LEVELS" state real Q3D ijk dyn_nmm 1 - rd=(nmm_copy:IIH,JJH)f=(nmm_copy:IIH,JJH) "Q3D" "SP HUMIDITY ARRAY ON STANDARD PRESSURE LEVELS" #end of HWRF: state real HRES_FIS ij dyn_nmm 1 - r "HRES_FIS" "HIGH RESOLUTION TERRAIN DATA FOR NESTED DOMAIN" # # module_MASKS # state real hbm2 ij dyn_nmm 1 - irh "HBM2" "Height boundary mask; =0 outer 2 rows on H points" "" state real hbm3 ij dyn_nmm 1 - irh "HBM3" "Height boundary mask; =0 outer 3 rows on H points" "" state real vbm2 ij dyn_nmm 1 - irh "VBM2" "Velocity boundary mask; =0 outer 2 rows on V points" "" state real vbm3 ij dyn_nmm 1 - irh "VBM3" "Velocity boundary mask; =0 outer 3 rows on V points" "" state real sm ij dyn_nmm 1 - i01rhd=(interp_hnear_nmm:IIH,JJH,HBWGT1,HBWGT2,HBWGT3,HBWGT4) "SM" "Sea mask; =1 for sea, =0 for land" "" state real sice ij dyn_nmm 1 - irhd=(interp_hnear_nmm:IIH,JJH,HBWGT1,HBWGT2,HBWGT3,HBWGT4) "SICE" "Sea ice mask; =1 for sea ice, =0 for no sea ice" "" # # module_VRBLS # state integer ntsd - dyn_nmm - - r "NTSD" "Number of timesteps done" "" state integer nstart_hour - dyn_nmm - - r "NSTART_HOUR" "Forecast hour at start of integration" "" state real pd ijb dyn_nmm 1 - i01rhu=(nmm_feedback:IIH,JJH,HBWGT1,HBWGT2,HBWGT3,HBWGT4)d=(interp_mass_nmm:IIH,JJH,HBWGT1,HBWGT2,HBWGT3,HBWGT4,Z3D,HRES_FIS,SM,PDTOP,PT,PSTD,KZMAX)f=(nmm_bdymass_hinterp:pdnest_b,pdnest_bt,IIH,JJH,HBWGT1,HBWGT2,HBWGT3,HBWGT4,Z3D,HRES_FIS,SM,PDTOP,PT,PSTD,KZMAX) "PD" "Mass at I,J in the sigma domain" "Pa" state real fis ij dyn_nmm 1 - i01rh "FIS" "Surface geopotential" "m2 s-2" state real res ij dyn_nmm 1 - irh "RES" "Reciprocal of surface sigma" "" state real t ijkb dyn_nmm 1 - i01rhu=(nmm_feedback:IIH,JJH,HBWGT1,HBWGT2,HBWGT3,HBWGT4)d=(interp_scalar_nmm:IIH,JJH,HBWGT1,HBWGT2,HBWGT3,HBWGT4,T3D,PD,PSTD,PDTOP,PT,ETA1,ETA2)f=(nmm_bdy_scalar:dt,tnest_b,tnest_bt,IIH,JJH,HBWGT1,HBWGT2,HBWGT3,HBWGT4,T3d,PD,PSTD,PDTOP,PT,ETA1,ETA2) "T" "Sensible temperature" "K" state real q ijkb dyn_nmm 1 - i01rhu=(nmm_feedback:IIH,JJH,HBWGT1,HBWGT2,HBWGT3,HBWGT4)d=(interp_scalar_nmm:IIH,JJH,HBWGT1,HBWGT2,HBWGT3,HBWGT4,Q3D,PD,PSTD,PDTOP,PT,ETA1,ETA2)f=(nmm_bdy_scalar:dt,qnest_b,qnest_bt,IIH,JJH,HBWGT1,HBWGT2,HBWGT3,HBWGT4,Q3d,PD,PSTD,PDTOP,PT,ETA1,ETA2) "Q" "Specific humidity" "kg kg-1" state real u ijkb dyn_nmm 1 - i01rhu=(nmm_vfeedback:IIV,JJV,VBWGT1,VBWGT2,VBWGT3,VBWGT4)d=(interp_v_nmm:IIV,JJV,VBWGT1,VBWGT2,VBWGT3,VBWGT4)f=(nmm_bdy_vinterp:unest_b,unest_bt,IIV,JJV,VBWGT1,VBWGT2,VBWGT3,VBWGT4) "U" "U component of wind" "m s-1" state real v ijkb dyn_nmm 1 - i01rhu=(nmm_vfeedback:IIV,JJV,VBWGT1,VBWGT2,VBWGT3,VBWGT4)d=(interp_v_nmm:IIV,JJV,VBWGT1,VBWGT2,VBWGT3,VBWGT4)f=(nmm_bdy_vinterp:vnest_b,vnest_bt,IIV,JJV,VBWGT1,VBWGT2,VBWGT3,VBWGT4) "V" "V component of wind" "m s-1" state real told ijk dyn_nmm 1 - r "TOLD" "T from previous timestep" "K" state real uold ijk dyn_nmm 1 - r "UOLD" "U from previous timestep" "m s-1" state real vold ijk dyn_nmm 1 - r "VOLD" "V from previous timestep" "m s-1" # # NMM DFI # state real hcoeff {ndfi} misc 1 - - "HCOEFF" "initialization weights" state real hcoeff_tot - misc 1 - - "HCOEFF_TOT" "initialization weights" state real dfi_pd ij misc 1 - r "DFI_PD" "Mass at I,J in the sigma domain" "Pa" state real dfi_pint ijk misc 1 Z r "DFI_PINT" "Model layer interface pressure" "Pa" state real dfi_dwdt ijk misc 1 - r "DFI_DWDT" "dwdt and 1+(dwdt)/g" "m s-2" state real dfi_t ijk misc 1 - r "DFI_T" "Sensible temperature" "K" state real dfi_q ijk misc 1 - r "DFI_Q" "Specific humidity" "kg kg-1" state real dfi_u ijk misc 1 - r "DFI_U" "U component of wind" "m s-1" state real dfi_v ijk misc 1 - r "DFI_V" "V component of wind" "m s-1" state real dfi_q2 ijk misc 1 - r "DFI_Q2" "2 * Turbulence kinetic energy" "m2 s-2" state real dfi_cwm ijk misc 1 - r "DFI_CWM" "Total condensate" "kg kg-1" state real dfi_rrw ijk misc 1 - r "DFI_RRW" "Tracer" "kg kg-1" ### remaining simply set aside, and restored to original values after filtering. ### state real dfi_STC ilj misc 1 Z r "DFI_STC" "SOIL TEMPERATURE" "K" state real dfi_SMC ilj misc 1 Z r "DFI_SMC" "SOIL MOISTURE" "m3 m-3" state real dfi_SH2O ilj misc 1 Z r "DFI_SH2O" "UNFROZEN SOIL MOISTURE" "m3 m-3" state real dfi_SNOW ij misc 1 - r "dfi_SNOW" "SNOW WATER EQUIVALENT" "kg m-2" state real dfi_SNOWH ij misc 1 - r "dfi_SNOWH" "PHYSICAL SNOW DEPTH" "m" state real dfi_CANWAT ij misc 1 - r "dfi_CANWAT" "CANOPY WATER" "kg m-2" state real dfi_NMM_TSK ij misc 1 - r "dfi_NMM_TSK" "saved SURFACE SKIN TEMPERATURE" state real dfi_SNOWC ij misc 1 - r "dfi_SNOWC" "FLAG INDICATING SNOW COVERAGE (1 FOR SNOW COVER)" "" # # module_DYNAM # state real dx_nmm ij dyn_nmm 1 - irh "DX_NMM" "East-west distance H-to-V points" "m" state real wpdar ij dyn_nmm 1 - ir state real cpgfu ij dyn_nmm 1 - ir state real curv ij dyn_nmm 1 - ir "CURV" "Curvature term= .5*DT*TAN(phi)/RadEarth" "s m-1" state real fcp ij dyn_nmm 1 - ir state real fdiv ij dyn_nmm 1 - ir state real f ij dyn_nmm 1 - ir "F" "Coriolis * DT/2" "" state real fad ij dyn_nmm 1 - ir state real ddmpu ij dyn_nmm 1 - ir "DDMPU" "Divergence damping term for U" "m" state real ddmpv ij dyn_nmm 1 - ir "DDMPV" "Divergence damping term for V" "m" state real deta k dyn_nmm 1 - i01r "DETA" "Delta sigma in sigma domain" "" state real rdeta k dyn_nmm 1 - ir "RDETA" "Reciprocal of DETA" "" state real aeta k dyn_nmm 1 - i01r state real f4q2 k dyn_nmm 1 - ir state real etax k dyn_nmm 1 - i01r state real dfl k dyn_nmm 1 Z i01r "DFL" "Standard atmosphere geopotential" "m2 s-2" state real deta1 k dyn_nmm 1 - i01rh "DETA1" "Delta sigma in pressure domain" "" state real aeta1 k dyn_nmm 1 - i01rh "AETA1" "Midlayer sigma value in pressure domain" "" state real eta1 k dyn_nmm 1 Z i01rh "ETA1" "Interface sigma value in pressure domain" "" state real deta2 k dyn_nmm 1 - i01rh "DETA2" "Delta sigma in sigma domain" "" state real aeta2 k dyn_nmm 1 - i01rh "AETA2" "Midlayer sigma value in sigma domain" "" state real eta2 k dyn_nmm 1 Z i01rh "ETA2" "Interface sigma value in sigma domain" "" state real em q dyn_nmm 1 - ir state real emt q dyn_nmm 1 - ir #for HWRF: add to restart state real adt ij dyn_nmm 1 - r "ADT" "Change of T due to advection" "K" state real adu ij dyn_nmm 1 - r "ADU" "Change of U due to advection" "m s-1" state real adv ij dyn_nmm 1 - r "ADV" "Change of V due to advection" "m s-1" #end HWRF: state real em_loc q dyn_nmm 1 - r state real emt_loc q dyn_nmm 1 - r state real dy_nmm - dyn_nmm - - ir "DY_NMM" "North-south distance H-to-V points" "m" state real cpgfv - dyn_nmm - - ir state real en - dyn_nmm - - ir state real ent - dyn_nmm - - ir state real f4d - dyn_nmm - - ir state real f4q - dyn_nmm - - ir state real ef4t - dyn_nmm - - ir #for HWRF: add to restart state logical upstrm - dyn_nmm - - - "UPSTRM" ".TRUE. => In upstream advec region of grid" "" #end HWRF: state real dlmd - dyn_nmm - - irh "DLMD" "East-west angular distance H-to-V points" "degrees" state real dphd - dyn_nmm - - irh "DPHD" "North-south angular distance H-to-V points" "degrees" state real pdtop - dyn_nmm - - i01rh "PDTOP" "Mass at I,J in pressure domain" "Pa" state real pt - dyn_nmm - - i01rh "PT" "Pressure at top of domain" "Pa" # # module_CONTIN # #for HWRF: add to restart state real pdsl ij dyn_nmm 1 - r "PDSL" "Sigma-domain pressure at sigma=1" "Pa" state real pdslo ij dyn_nmm 1 - r "PDSLO" "PDSL from previous timestep" "Pa" #end HWRF: state real psdt ij dyn_nmm 1 - r "PSDT" "Surface pressure tendency" "Pa s-1" state real div ijk dyn_nmm 1 - r "DIV" "Divergence" "Pa s-1" state real def3d ijk dyn_nmm 1 - r "DEF3D" "Deformation term from horizontal diffusion" "" #for HWRF: add to restart state real few ijk dyn_nmm 1 - r "FEW" "Integrated east-west mass flux" "Pa m2 s-1" state real fne ijk dyn_nmm 1 - r "FNE" "Integrated northeast-southwest mass flux" "Pa m2 s-1" state real fns ijk dyn_nmm 1 - r "FNS" "Integrated north-south mass flux" "Pa m2 s-1" state real fse ijk dyn_nmm 1 - r "FSE" "Integrated southeast-northwest mass flux" "Pa m2 s-1" #end HWRF: state real omgalf ijk dyn_nmm 1 - r "OMGALF" "Omega-alpha" "K" #for HWRF: add to restart state real petdt ijk dyn_nmm 1 - r "PETDT" "Vertical mass flux" "Pa s-1" #end HWRF: state real rtop ijk dyn_nmm 1 - r "RTOP" "Rd * Tv / P" "m3 kg-1" # # module_PVRBLS # state real pblh ij dyn_nmm 1 - rh "PBLH" "PBL Height" "m" state integer lpbl ij dyn_nmm 1 - ir "LPBL" "Model layer of PBL top" "" state real mixht ij dyn_nmm 1 - rh "MIXHT" "MXL HEIGHT" "m" state real ustar ij dyn_nmm 1 - irhd=(interp_hnear_nmm:IIH,JJH,HBWGT1,HBWGT2,HBWGT3,HBWGT4) "USTAR" "Friction velocity" "m s-1" state real z0 ij dyn_nmm 1 - i01rhd=(interp_hnear_nmm:IIH,JJH,HBWGT1,HBWGT2,HBWGT3,HBWGT4) "Z0" "Roughness height" "m" state real z0base ij dyn_nmm 1 - ir "Z0BASE" "Base roughness height" "m" state real ths ij dyn_nmm 1 - irhd=(interp_h_nmm:IIH,JJH,HBWGT1,HBWGT2,HBWGT3,HBWGT4) "THS" "Surface potential temperature" "K" state real mavail ij dyn_nmm 1 - i state real qsh ij dyn_nmm 1 - irhd=(interp_h_nmm:IIH,JJH,HBWGT1,HBWGT2,HBWGT3,HBWGT4) "QS" "Surface specific humidity" "kg kg-1" state real twbs ij dyn_nmm 1 - irh "TWBS" "Instantaneous sensible heat flux" "W m-2" state real qwbs ij dyn_nmm 1 - irh "QWBS" "Instantaneous latent heat flux" "W m-2" state real taux ij dyn_nmm 1 - irh "TAUX" "Instantaneous stress along X direction in KG/M/S^2" state real tauy ij dyn_nmm 1 - irh "TAUY" "Instantaneous stress along Y direction in KG/M/S^2" state real prec ij dyn_nmm 1 - rh "PREC" "Precipitation in physics timestep" "m" state real aprec ij dyn_nmm 1 - rh state real acprec ij dyn_nmm 1 - rh01d=(interp_h_nmm:IIH,JJH,HBWGT1,HBWGT2,HBWGT3,HBWGT4) "ACPREC" "Accumulatedtotal precipitation" "m" state real cuprec ij dyn_nmm 1 - rh "CUPREC" "Accumulated convective precipitation" "m" state real lspa ij dyn_nmm 1 - h "LSPA" "Land Surface Precipitation Accumulation" "kg m-2" state real ddata ij dyn_nmm 1 - - "DDATA" "Observed precip to each physics timestep" "kg m-2" state real accliq ij dyn_nmm 1 - r state real sno ij dyn_nmm 1 - irh "SNO" "Liquid water eqiv of snow on ground" "kg m-2" state real si ij dyn_nmm 1 - irh "SI" "Depth of snow on ground" "mm" state real cldefi ij dyn_nmm 1 - rhd=(interp_h_nmm:IIH,JJH,HBWGT1,HBWGT2,HBWGT3,HBWGT4) "CLDEFI" "Convective cloud efficiency" "" state real deep ij dyn_nmm 1 - r "DEEP" "Deep convection =>.TRUE." "" state real rf ij dyn_nmm 1 - r state real th10 ij dyn_nmm 1 - rhd=(interp_h_nmm:IIH,JJH,HBWGT1,HBWGT2,HBWGT3,HBWGT4) "TH10" "10-m potential temperature from MYJ" "K" state real q10 ij dyn_nmm 1 - rhd=(interp_h_nmm:IIH,JJH,HBWGT1,HBWGT2,HBWGT3,HBWGT4) "Q10" "10-m specific humidity from MYJ" "kg kg-1" state real pshltr ij dyn_nmm 1 - rhd=(interp_h_nmm:IIH,JJH,HBWGT1,HBWGT2,HBWGT3,HBWGT4) "PSHLTR" "2-m pressure from MYJ" "Pa" state real tshltr ij dyn_nmm 1 - rhd=(interp_h_nmm:IIH,JJH,HBWGT1,HBWGT2,HBWGT3,HBWGT4) "TSHLTR" "2-m potential temperature from MYJ" "K" state real qshltr ij dyn_nmm 1 - rhd=(interp_h_nmm:IIH,JJH,HBWGT1,HBWGT2,HBWGT3,HBWGT4) "QSHLTR" "2-m specific humidity from MYJ" "kg kg-1" state real q2 ijkb dyn_nmm 1 - irhu=(nmm_feedback:IIH,JJH,HBWGT1,HBWGT2,HBWGT3,HBWGT4)d=(interp_h_nmm:IIH,JJH,HBWGT1,HBWGT2,HBWGT3,HBWGT4)f=(nmm_bdy_hinterp:q2nest_b,q2nest_bt,IIH,JJH,HBWGT1,HBWGT2,HBWGT3,HBWGT4) "Q2" "2 * Turbulence kinetic energy" "m2 s-2" state real t_adj ijk dyn_nmm 1 - rd=(interp_hnear_nmm:IIH,JJH,HBWGT1,HBWGT2,HBWGT3,HBWGT4) "T_ADJ" "T change due to precip in phys step" "K" state real t_old ijk dyn_nmm 1 - r "T_OLD" "T before last call to precip" "K" state real zero_3d ijk dyn_nmm 1 - r state real W0AVG ikj dyn_nmm 1 - r "W0AVG" "AVERAGE VERTICAL VELOCITY FOR KF CUMULUS SCHEME" "m s-1" state real AKHS_OUT ij dyn_nmm 1 - rh "AKHS_OUT" "Output sfc exch coeff for heat" "m2 s-1" state real AKMS_OUT ij dyn_nmm 1 - rh "AKMS_OUT" "Output sfc exch coeff for momentum" "m2 s-1" # # module_PHYS # state real albase ij dyn_nmm 1 - i01rhd=(interp_h_nmm:IIH,JJH,HBWGT1,HBWGT2,HBWGT3,HBWGT4) "ALBASE" "Base albedo" "" state real albedo ij dyn_nmm 1 - irh "ALBEDO" "Dynamic albedo" "" state real cnvbot ij dyn_nmm 1 - irh "CNVBOT" "Lowest convec cloud bottom lyr between outputs" "" state real cnvtop ij dyn_nmm 1 - irh "CNVTOP" "Highest convec cloud top lyr between outputs" "" state real czen ij dyn_nmm 1 - irh "CZEN" "Cosine of solar zenith angle" "" state real czmean ij dyn_nmm 1 - irh "CZMEAN" "Mean CZEN between SW radiation calls" "" state real embck ij dyn_nmm 1 - ir "EMBCK" "Background radiative emissivity" "" state real epsr ij dyn_nmm 1 - irh "EPSR" "Radiative emissivity" "" state real gffc ij dyn_nmm 1 - ir state real glat ij dyn_nmm 1 - i01rh "GLAT" "Geographic latitude, radians" "" state real glon ij dyn_nmm 1 - i01rh "GLON" "Geographic longitude, radians" "" state real NMM_TSK ij dyn_nmm 1 - i01rd=(interp_hnear_nmm:IIH,JJH,HBWGT1,HBWGT2,HBWGT3,HBWGT4) "TSK" "Skin temperature" "K" state real hdac ij dyn_nmm 1 - ir "HDAC" "Composite diffusion coeff for mass points" "s m-1" state real hdacv ij dyn_nmm 1 - ir "HDACV" "Composite diffusion coeff for velocity points" "s m-1" state real mxsnal ij dyn_nmm 1 - i01rhd=(interp_hnear_nmm:IIH,JJH,HBWGT1,HBWGT2,HBWGT3,HBWGT4) "MXSNAL" "Maximum deep snow albedo" "" state real radin ij dyn_nmm 1 - r state real radot ij dyn_nmm 1 - rh "RADOT" "Radiative emission from surface" "W m-2" state real sigt4 ij dyn_nmm 1 - rhd=(interp_h_nmm:IIH,JJH,HBWGT1,HBWGT2,HBWGT3,HBWGT4) "SIGT4" "Stefan-Boltzmann * T**4" "W m-2" state real tg ij dyn_nmm 1 - i01rhd=(interp_hnear_nmm:IIH,JJH,HBWGT1,HBWGT2,HBWGT3,HBWGT4) "TGROUND" "Deep ground soil temperature" "K" state real dfrlg k dyn_nmm 1 Z i01r "DFRLG" "Std atmosphere height of model layer interfaces" "m" state integer lvl ij dyn_nmm 1 - ir # # module_CLDWTR.F # state real cwm ijkb dyn_nmm 1 - rhu=(nmm_feedback:IIH,JJH,HBWGT1,HBWGT2,HBWGT3,HBWGT4)d=(interp_h_nmm:IIH,JJH,HBWGT1,HBWGT2,HBWGT3,HBWGT4)f=(nmm_bdy_hinterp:cwmnest_b,cwmnest_bt,IIH,JJH,HBWGT1,HBWGT2,HBWGT3,HBWGT4) "CWM" "Total condensate" "kg kg-1" state real rrw ijkb dyn_nmm 1 - rh "RRW" "Tracer" "kg kg-1" state real f_ice ikj dyn_nmm 1 - rhd=(interp_hnear_ikj_nmm:IIH,JJH,HBWGT1,HBWGT2,HBWGT3,HBWGT4) "F_ICE" "Frozen fraction of CWM" "" state real f_rain ikj dyn_nmm 1 - rhd=(interp_hnear_ikj_nmm:IIH,JJH,HBWGT1,HBWGT2,HBWGT3,HBWGT4) "F_RAIN" "Rain fraction of liquid part of CWM" "" state real f_rimef ikj dyn_nmm 1 - rhd=(interp_hnear_ikj_nmm:IIH,JJH,HBWGT1,HBWGT2,HBWGT3,HBWGT4) "F_RIMEF" "Rime factor" "" state real cldfra ijk dyn_nmm 1 - rh "CLDFRA" "Cloud fraction" "" state real sr ij dyn_nmm 1 - irh "SR" "Timestep mass ratio of snow:precip" "" state real cfrach ij dyn_nmm 1 - rhd=(interp_h_nmm:IIH,JJH,HBWGT1,HBWGT2,HBWGT3,HBWGT4) "CFRACH" "High cloud fraction" "" state real cfracl ij dyn_nmm 1 - rhd=(interp_h_nmm:IIH,JJH,HBWGT1,HBWGT2,HBWGT3,HBWGT4) "CFRACL" "Low cloud fraction" "" state real cfracm ij dyn_nmm 1 - rhd=(interp_h_nmm:IIH,JJH,HBWGT1,HBWGT2,HBWGT3,HBWGT4) "CFRACM" "Middle cloud fraction" "" state logical micro_start - dyn_nmm - - - # # module_SOIL.F # state integer islope ij dyn_nmm 1 - i01rhd=(interp_int_hnear_nmm:IIH,JJH,HBWGT1,HBWGT2,HBWGT3,HBWGT4) "ISLOPE" state real dzsoil k dyn_nmm 1 - irh "DZSOIL" "Thickness of soil layers" "m" state real rtdpth k dyn_nmm 1 - i01r state real sldpth k dyn_nmm 1 - i01rh "SLDPTH" "Depths of centers of soil layers" "m" state real cmc ij dyn_nmm 1 - i01rhd=(interp_hnear_nmm:IIH,JJH,HBWGT1,HBWGT2,HBWGT3,HBWGT4) "CMC" "Canopy moisture" "m" state real grnflx ij dyn_nmm 1 - irh "GRNFLX" "Deep soil heat flux" "W m-2" state real pctsno ij dyn_nmm 1 - irh state real soiltb ij dyn_nmm 1 - i01rhd=(interp_hnear_nmm:IIH,JJH,HBWGT1,HBWGT2,HBWGT3,HBWGT4) "SOILTB" "Deep ground soil temperature" "K" state real vegfrc ij dyn_nmm 1 - i014rhd=(interp_hnear_nmm:IIH,JJH,HBWGT1,HBWGT2,HBWGT3,HBWGT4) "VEGFRC" "Vegetation fraction" "" state real shdmin ij dyn_nmm 1 - - state real shdmax ij dyn_nmm 1 - - state real sh2o ilj dyn_nmm 1 Z irhd=(interp_hnear_ikj_nmm:IIH,JJH,HBWGT1,HBWGT2,HBWGT3,HBWGT4) "SH2O" "Unfrozen soil moisture volume fraction" "" state real smc ilj dyn_nmm 1 Z irhd=(interp_hnear_ikj_nmm:IIH,JJH,HBWGT1,HBWGT2,HBWGT3,HBWGT4) "SMC" "Soil moisture volume fraction" "" state real stc ilj dyn_nmm 1 Z irhd=(interp_hnear_ikj_nmm:IIH,JJH,HBWGT1,HBWGT2,HBWGT3,HBWGT4) "STC" "Soil temperature" "K" # # module_GWD.F # state real hstdv ij dyn_nmm 1 - i01rh "HSTDV" "Standard deviation of height" "m" state real hcnvx ij dyn_nmm 1 - i01rh "HCNVX" "Normalized 4th moment of orographic convexity" "" state real hasyw ij dyn_nmm 1 - i01rh "HASYW" "Orographic asymmetry in W-E plane" "" state real hasys ij dyn_nmm 1 - i01rh "HASYS" "Orographic asymmetry in S-N plane" "" state real hasysw ij dyn_nmm 1 - i01rh "HASYSW" "Orographic asymmetry in SW-NE plane" "" state real hasynw ij dyn_nmm 1 - i01rh "HASYNW" "Orographic asymmetry in NW-SE plane" "" state real hlenw ij dyn_nmm 1 - i01rh "HLENW" "Orographic length scale in W-E plane" "" state real hlens ij dyn_nmm 1 - i01rh "HLENS" "Orographic length scale in S-N plane" "" state real hlensw ij dyn_nmm 1 - i01rh "HLENSW" "Orographic length scale in SW-NE plane" "" state real hlennw ij dyn_nmm 1 - i01rh "HLENNW" "Orographic length scale in NW-SE plane" "" state real hangl ij dyn_nmm 1 - i01rh "HANGL" "Angle of the mountain range w/r/t east" "deg" state real hanis ij dyn_nmm 1 - i01rh "HANIS" "Anisotropy/aspect ratio of orography" "" state real hslop ij dyn_nmm 1 - i01rh "HSLOP" "Slope of orography" "" state real hzmax ij dyn_nmm 1 - i01rh "HZMAX" "Maximum height above mean orography" "m" state real crot ij dyn_nmm 1 - - "CROT" "Cosine of angle between model and earth coordinates" "" state real srot ij dyn_nmm 1 - - "SROT" "Sine of angle between model and earth coordinates" "" state real UGWDsfc ij dyn_nmm 1 - h "UGWDsfc" "Surface zonal wind stress due to gravity wave drag" "N m-2" state real VGWDsfc ij dyn_nmm 1 - h "VGWDsfc" "Surface meridional wind stress due to gravity wave drag" "N m-2" # # module_NHYDRO.F # state logical hydro - dyn_nmm - - - "HYDRO" ".FALSE. => nonhydrostatic" "" state real dwdtmn ij dyn_nmm 1 - - "DWDTMN" "Minimum value for DWDT" "m s-2" state real dwdtmx ij dyn_nmm 1 - - "DWDTMX" "Maximum value for DWDT" "m s-2" state real dwdt ijk dyn_nmm 1 - rd=(interp_v_nmm:IIV,JJV,VBWGT1,VBWGT2,VBWGT3,VBWGT4) "DWDT" "dwdt and 1+(dwdt)/g" "m s-2" state real pdwdt ijk dyn_nmm 1 - r state real pint ijk dyn_nmm 1 Z irhd=(interp_h_nmm:IIH,JJH,HBWGT1,HBWGT2,HBWGT3,HBWGT4) "PINT" "Model layer interface pressure" "Pa" state real w ijk dyn_nmm 1 Z rhd=(interp_h_nmm:IIH,JJH,HBWGT1,HBWGT2,HBWGT3,HBWGT4) "W" "Vertical velocity" "m s-1" state real z ijk dyn_nmm 1 Z - "Z" "Distance from ground" "m" # # module_ACCUM.F # state real acfrcv ij dyn_nmm 1 - rh "ACFRCV" "Accum convective cloud fraction" "" state real acfrst ij dyn_nmm 1 - rh "ACFRST" "Accum stratiform cloud fraction" "" state real ssroff ij dyn_nmm 1 - rh "SSROFF" "Surface runoff" "mm" state real bgroff ij dyn_nmm 1 - rh "BGROFF" "Subsurface runoff" "mm" state real rlwin ij dyn_nmm 1 - rhd=(interp_h_nmm:IIH,JJH,HBWGT1,HBWGT2,HBWGT3,HBWGT4) "RLWIN" "Downward longwave at surface" "W m-2" state real rlwout ij dyn_nmm 1 - - state real rlwtoa ij dyn_nmm 1 - rh "RLWTOA" "Outgoing LW flux at top of atmos" "W m-2" state real alwin ij dyn_nmm 1 - rh "ALWIN" "Accum LW down at surface" "W m-2" state real alwout ij dyn_nmm 1 - rh "ALWOUT" "Accum RADOT (see above)" "W m-2" state real alwtoa ij dyn_nmm 1 - rh "ALWTOA" "Accum RLWTOA" "W m-2" state real rswin ij dyn_nmm 1 - rhd=(interp_h_nmm:IIH,JJH,HBWGT1,HBWGT2,HBWGT3,HBWGT4) "RSWIN" "Downward shortwave at surface" "W m-2" state real rswinc ij dyn_nmm 1 - rh "RSWINC" "Clear-sky equivalent of RSWIN" "W m-2" state real rswout ij dyn_nmm 1 - rh "RSWOUT" "Upward shortwave at surface" "W m-2" #for HWRF: add to restart state real rswtoa ij dyn_nmm 1 - r "RSWTOA" "Outgoing SW flux at top of atmos" "W m-2" #end HWRF state real aswin ij dyn_nmm 1 - rh "ASWIN" "Accum SW down at surface" "W m-2" state real aswout ij dyn_nmm 1 - rh "ASWOUT" "Accum RSWOUT" "W m-2" state real aswtoa ij dyn_nmm 1 - rh "ASWTOA" "Accum RSWTOA" "W m-2" state real sfcshx ij dyn_nmm 1 - rh "SFCSHX" "Accum sfc sensible heat flux" "W m-2" state real sfclhx ij dyn_nmm 1 - rh "SFCLHX" "Accum sfc latent heat flux" "W m-2" state real subshx ij dyn_nmm 1 - rh "SUBSHX" "Accum deep soil heat flux" "W m-2" state real snopcx ij dyn_nmm 1 - rh "SNOPCX" "Snow phase change heat flux" "W m-2" state real sfcuvx ij dyn_nmm 1 - rh state real potevp ij dyn_nmm 1 - rh "POTEVP" "Accum potential evaporation" "m" state real potflx ij dyn_nmm 1 - rh "POTFLX" "Energy equivalent of POTEVP" "W m-2" state real tlmin ij dyn_nmm 1 - rh state real tlmax ij dyn_nmm 1 - rh state real t02_min ij dyn_nmm 1 - rh "T02_MIN" "Hourly Min Shelter Temperature" "K" state real t02_max ij dyn_nmm 1 - rh "T02_MAX" "Hourly Max Shelter Temperature" "K" state real rh02_min ij dyn_nmm 1 - rh "RH02_MIN" "Hourly Min Relative Humidity" "" state real rh02_max ij dyn_nmm 1 - rh "RH02_MAX" "Hourly Max Relative Humidity" "" state real rlwtt ijk dyn_nmm 1 - rd=(interp_hnear_nmm:IIH,JJH,HBWGT1,HBWGT2,HBWGT3,HBWGT4) "RLWTT" "Longwave temperature tendency" "K s-1" state real rswtt ijk dyn_nmm 1 - rd=(interp_hnear_nmm:IIH,JJH,HBWGT1,HBWGT2,HBWGT3,HBWGT4) "RSWTT" "Shortwave temperature tendency" "K s-1" #for HWRF: add to restart state real tcucn ijk dyn_nmm 1 - r "TCUCN" "Accum convec temperature tendency" "K s-1" state real train ijk dyn_nmm 1 - r "TRAIN" "Accum stratiform temp tendency" "K s-1" #end HWRF state integer ncfrcv ij dyn_nmm 1 - irh "NCFRCV" "# times convec cloud >0 between rad calls" "" state integer ncfrst ij dyn_nmm 1 - irh "NCFRST" "# times stratiform cloud >0 between rad calls" "" state integer nphs0 - dyn_nmm - - rh state integer ncnvc0 - dyn_nmm - - rh state integer nprec - dyn_nmm - - irh "NPREC" "# timesteps between resetting precip bucket" "" state integer nclod - dyn_nmm - - irh "NCLOD" "# timesteps between resetting cloud frac accum" "" state integer nheat - dyn_nmm - - irh "NHEAT" "# timesteps between resetting latent heat accum" "" state integer nrdlw - dyn_nmm - - irh "NRDLW" "# timesteps between resetting longwave accums" "" state integer nrdsw - dyn_nmm - - irh "NRDSW" "# timesteps between resetting shortwave accums" "" state integer nsrfc - dyn_nmm - - irh "NSRFC" "# timesteps between resetting sfcflux accums" "" state real avrain - dyn_nmm - - irh "AVRAIN" "# of times gridscale precip called in NHEAT steps" "" state real avcnvc - dyn_nmm - - irh "AVCNVC" "# of times convective precip called in NHEAT steps" "" state real aratim - dyn_nmm - - ir state real acutim - dyn_nmm - - irh state real ardlw - dyn_nmm - - irh "ARDLW" "# of times LW fluxes summed before resetting" "" state real ardsw - dyn_nmm - - irh "ARDSW" "# of times SW fluxes summed before resetting" "" state real asrfc - dyn_nmm - - irh "ASRFC" "# of times sfc fluxes summed before resetting" "" state real aphtim - dyn_nmm - - irh # # module_INDX.F # state integer ihe j dyn_nmm 1 - - "IHE" "0 or +1 to obtain I index of V point east of H point" "" state integer ihw j dyn_nmm 1 - - "IHW" "0 or -1 to obtain I index of V point west of H point" "" state integer ive j dyn_nmm 1 - - "IVE" "0 or +1 to obtain I index of H point east of V point" "" state integer ivw j dyn_nmm 1 - - "IVW" "0 or -1 to obtain I index of H point west of V point" "" state integer irad i dyn_nmm 1 - - #definitions for NMM east-west orientation on E grid state integer iheg q dyn_nmm 1 - - state integer ihwg q dyn_nmm 1 - - state integer iveg q dyn_nmm 1 - - state integer ivwg q dyn_nmm 1 - - state integer iradg r dyn_nmm 1 - - state integer n_iup_h j dyn_nmm 1 - - "N_IUP_H" "# mass points needed in each row for upstream advection" "" state integer n_iup_v j dyn_nmm 1 - - "N_IUP_V" "# velocity points needed in each row for upstream advection" "" state integer n_iup_adh j dyn_nmm 1 - - "N_IUP_ADH" "# mass points in each row of upstream advection" "" state integer n_iup_adv j dyn_nmm 1 - - "N_IUP_ADV" "# velocity points in each row of upstream advection" "" state integer iup_h ij dyn_nmm 1 - - state integer iup_v ij dyn_nmm 1 - - state integer iup_adh ij dyn_nmm 1 - - state integer iup_adv ij dyn_nmm 1 - - state integer imicrogram - misc - - r "imicrogram" "flag 0/1 0=mixratio, 1=mcrograms/m3" "" # # table entries are of the form # # # Mask for moving nest interpolations state integer imask_nostag ij misc - state integer imask_xstag ij misc X state integer imask_ystag ij misc Y state integer imask_xystag ij misc XY # #--------------------------------------------------------------------------------------------------------------------------------- # SI - start variables from netCDF format from Standard Initialization, most eventually for use in LSM schemes #--------------------------------------------------------------------------------------------------------------------------------- state real sm000007 ij misc 1 - i1 "SM000007" "LAYER SOIL MOISTURE" "m3 m-3" state real sm007028 ij misc 1 - i1 "SM007028" "LAYER SOIL MOISTURE" "m3 m-3" state real sm028100 ij misc 1 - i1 "SM028100" "LAYER SOIL MOISTURE" "m3 m-3" state real sm100255 ij misc 1 - i1 "SM100255" "LAYER SOIL MOISTURE" "m3 m-3" state real st000007 ij misc 1 - i1 "ST000007" "LAYER SOIL TEMPERATURE" "K" state real st007028 ij misc 1 - i1 "ST007028" "LAYER SOIL TEMPERATURE" "K" state real st028100 ij misc 1 - i1 "ST028100" "LAYER SOIL TEMPERATURE" "K" state real st100255 ij misc 1 - i1 "ST100255" "LAYER SOIL TEMPERATURE" "K" state real sm000010 ij misc 1 - i1 "SM000010" "description" "units" state real sm010040 ij misc 1 - i1 "SM010040 " "description" "units" state real sm040100 ij misc 1 - i1 "SM040100 " "description" "units" state real sm100200 ij misc 1 - i1 "SM100200 " "description" "units" state real sm010200 ij misc 1 - i1 "SM010200" "description" "units" state real soilm000 ij misc 1 - i1 "SOILM000" "description" "units" state real soilm005 ij misc 1 - i1 "SOILM005" "description" "units" state real soilm020 ij misc 1 - i1 "SOILM020" "description" "units" state real soilm040 ij misc 1 - i1 "SOILM040" "description" "units" state real soilm160 ij misc 1 - i1 "SOILM160" "description" "units" state real soilm300 ij misc 1 - i1 "SOILM300" "description" "units" state real sw000010 ij misc 1 - i1 "SW000010" "description" "units" state real sw010040 ij misc 1 - i1 "SW010040" "description" "units" state real sw040100 ij misc 1 - i1 "SW040100" "description" "units" state real sw100200 ij misc 1 - i1 "SW100200" "description" "units" state real sw010200 ij misc 1 - i1 "SW010200" "description" "units" state real soilw000 ij misc 1 - i1 "SOILW000" "description" "units" state real soilw005 ij misc 1 - i1 "SOILW005" "description" "units" state real soilw020 ij misc 1 - i1 "SOILW020" "description" "units" state real soilw040 ij misc 1 - i1 "SOILW040" "description" "units" state real soilw160 ij misc 1 - i1 "SOILW160" "description" "units" state real soilw300 ij misc 1 - i1 "SOILW300" "description" "units" state real st000010 ij misc 1 - i1 "ST000010" "description" "units" state real st010040 ij misc 1 - i1 "ST010040" "description" "units" state real st040100 ij misc 1 - i1 "ST040100" "description" "units" state real st100200 ij misc 1 - i1 "ST100200" "description" "units" state real st010200 ij misc 1 - i1 "ST010200" "description" "units" state real soilt000 ij misc 1 - i1 "SOILT000" "description" "units" state real soilt005 ij misc 1 - i1 "SOILT005" "description" "units" state real soilt020 ij misc 1 - i1 "SOILT020" "description" "units" state real soilt040 ij misc 1 - i1 "SOILT040" "description" "units" state real soilt160 ij misc 1 - i1 "SOILT160" "description" "units" state real soilt300 ij misc 1 - i1 "SOILT300" "description" "units" state real landmask ij misc 1 - i01rhd=(interp_hnear_nmm:IIH,JJH,HBWGT1,HBWGT2,HBWGT3,HBWGT4) "LANDMASK" "description" "units" state real topostdv ij misc 1 - i1 "TOPOSTDV" "description" "units" state real toposlpx ij misc 1 - i1 "TOPOSLPX" "description" "units" state real toposlpy ij misc 1 - i1 "TOPOSLPY" "description" "units" state real greenmax ij misc 1 - i1 "GREENMAX" "description" "units" state real greenmin ij misc 1 - i1 "GREENMIN" "description" "units" state real albedomx ij misc 1 - i1 "ALBEDOMX" "description" "units" state real slopecat ij misc 1 - i1 "SLOPECAT" "description" "units" state real toposoil ij misc 1 - i1d=(interp_hnear_nmm:IIH,JJH,HBWGT1,HBWGT2,HBWGT3,HBWGT4) "TOPOSOIL" "description" "units" state real landusef iuj misc 1 Z - "" "description" "units" state real soilctop isj misc 1 Z - "" "description" "units" state real soilcbot isj misc 1 Z - "" "description" "units" #------------------------------------------------------------------------------------------------------------------------------- # SI - end variables from netCDF format from Standard Initialization #------------------------------------------------------------------------------------------------------------------------------- # Time series variables state real ts_hour ?! misc - - - "TS_HOUR" "Model integration time, hours" state real ts_u ?! misc - - - "TS_U" "Surface wind U-component, earth-relative" state real ts_v ?! misc - - - "TS_V" "Surface wind V-component, earth-relative" state real ts_q ?! misc - - - "TS_Q" "Surface mixing ratio" state real ts_t ?! misc - - - "TS_T" "Surface temperature" state real ts_psfc ?! misc - - - "TS_PSFC" "Surface pressure" state real ts_tsk ?! misc - - - "TS_TSK" "Skin temperature" state real ts_tslb ?! misc - - - "TS_TSLB" "Soil temperature" state real ts_clw ?! misc - - - "TS_CLW" "Column integrated cloud water" #----------------------------------------------------------------------------------------------------------------------------------------------------------------- # Moist Scalars - both height and mass coordinate models # # 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 - ijkft moist 1 - - - state real qv ijkft moist 1 - rh "QVAPOR" "Water vapor mixing ratio" "kg kg-1" state real qc ijkft moist 1 - rh "QCLOUD" "Cloud water mixing ratio" "kg kg-1" state real qr ijkft moist 1 - rh "QRAIN" "Rain water mixing ratio" "kg kg-1" state real qi ijkft moist 1 - rh "QICE" "Ice mixing ratio" "kg kg-1" state real qs ijkft moist 1 - rh "QSNOW" "Snow mixing ratio" "kg kg-1" state real qg ijkft moist 1 - rh "QGRAUP" "Graupel mixing ratio" "kg kg-1" state real qh ijkft moist 1 - rh "QHAIL" "Hail mixing ratio" "kg kg-1" state real - ijkft dfi_moist 1 - - - state real dfi_qv ijkft dfi_moist 1 - r "QVAPOR" "Water vapor mixing ratio" "kg kg-1" state real dfi_qc ijkft dfi_moist 1 - r "QCLOUD" "Cloud water mixing ratio" "kg kg-1" state real dfi_qr ijkft dfi_moist 1 - r "QRAIN" "Rain water mixing ratio" "kg kg-1" state real dfi_qi ijkft dfi_moist 1 - r "QICE" "Ice mixing ratio" "kg kg-1" state real dfi_qs ijkft dfi_moist 1 - r "QSNOW" "Snow mixing ratio" "kg kg-1" state real dfi_qg ijkft dfi_moist 1 - r "QGRAUP" "Graupel mixing ratio" "kg kg-1" state real dfi_qh ijkft dfi_moist 1 - r "QHAIL" "Hail mixing ratio" "kg kg-1" state real dfi_qnh ijkft dfi_moist 1 - r "QNHAIL" "Hail Number concentration" "# kg(-1)" # # Other Scalars state real - ijkftb scalar 1 - - - state real qni ijkftb scalar 1 - i01rusdf=(bdy_interp:dt) "QNI" "Ice Number concentration" "# kg(-1)" state real qns ijkftb scalar 1 - i01rusdf=(bdy_interp:dt) "QNS" "Snow Number concentration" "# kg(-1)" state real qnr ijkftb scalar 1 - i01rusdf=(bdy_interp:dt) "QNR" "Rain Number concentration" "# kg(-1)" state real qng ijkftb scalar 1 - i01rusdf=(bdy_interp:dt) "QNG" "Graupel Number concentration" "# kg(-1)" state real qnh ijkftb scalar 1 - i01rusdf=(bdy_interp:dt) "QNHAIL" "Hail Number concentration" "# kg(-1)" state real qnn ijkftb scalar 1 - i01rusdf=(bdy_interp:dt) "QNCCN" "CCN Number concentration" "# kg(-1)" state real qnc ijkftb scalar 1 - i01rusdf=(bdy_interp:dt) "QNCLOUD" "cloud water Number concentration" "# kg(-1)" state real - ijkftb dfi_scalar 1 - - - state real dfi_qndrop ijkftb dfi_scalar 1 - \ rusdf=(bdy_interp:dt) "DFI_QNDROP" "Droplet number mixing ratio" "# kg-1" state real dfi_qni ijkftb dfi_scalar 1 - \ rusdf=(bdy_interp:dt) "DFI_QNICE" "Ice Number concentration" "# kg-1" state real dfi_qt ijkftb dfi_scalar 1 - \ rusdf=(bdy_interp:dt) "DFI_CWM" "Total condensate mixing ratio" "kg kg-1" state real dfi_qns ijkftb dfi_scalar 1 - \ rusdf=(bdy_interp:dt) "DFI_QNSNOW" "Snow Number concentration" "# kg(-1)" state real dfi_qnr ijkftb dfi_scalar 1 - \ rusdf=(bdy_interp:dt) "DFI_QNRAIN" "Rain Number concentration" "# kg(-1)" state real dfi_qng ijkftb dfi_scalar 1 - \ rusdf=(bdy_interp:dt) "DFI_QNGRAUPEL" "Graupel Number concentration" "# kg(-1)" state real dfi_qnn ijkftb dfi_scalar 1 - \ rusdf=(bdy_interp:dt) "DFI_QNCC" "CNN Number concentration" "# kg(-1)" state real dfi_qnc ijkftb dfi_scalar 1 - \ rusdf=(bdy_interp:dt) "DFI_QNCLOUD" "Cloud Number concentration" "# kg(-1)" #----------------------------------------------------------------------------------------------------------------------------------------------------------------- ## Chem Scalars - both height and mass coordinate models # state real - ikjft chem 1 - - - #----------------------------------------------------------------------------------------------------------------------------------------------------------------- # specified LBC arrays, first, Eulerian height coordinate model # specified LBC arrays, next, Eulerian mass coordinate model # specified LBC variables shared between the mass and height coordinate models # 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 # 2m and 10m output diagnostics # lsm State Variables state real SMOIS ilj - 1 Z rh "SMOIS" "SOIL MOISTURE" "" state real TSLB ilj - 1 Z r "TSLB" "SOIL TEMPERATURE" "" # MYJ PBL variables # gfdl (eta) radiation State Variables # eta microphpysics State Variables # new eta microphpysics State Variables # some mass-coordinate-model-specific variables # was em_only ################################################################# # Physics Variables (em core) ################################################################# # Physics Variables (eh core) ; should be same as em ################################################################# # variables added for CHEMISTRY compatibility with ARW core - kludge ################################################################# state real GSW ij misc 1 - - "" "" state real XLAT ij misc 1 - - "" "" state real XLONG ij misc 1 - - "" "" state real XLAND ij misc 1 - - "" "" state real RAINCV ij misc 1 - - "" "" ################################################################# # other misc variables (all cores) ################################################################# # added for surface_driver state real PSFC ij misc 1 - i1rh "PSFC" "SFC PRESSURE" state real dtbc - misc - - ir "dtbc" "TIME SINCE BOUNDARY READ" "" state real TH2 ij misc 1 - irh "TH2" "POT TEMP at 2 M" "" state real T2 ij misc 1 - ir "T2" "TEMP at 2 M" "" state real U10 ij misc 1 - irh01d=(interp_h_nmm:IIH,JJH,HBWGT1,HBWGT2,HBWGT3,HBWGT4) "U10" "U at 10 M" " " state real V10 ij misc 1 - irh01d=(interp_h_nmm:IIH,JJH,HBWGT1,HBWGT2,HBWGT3,HBWGT4) "V10" "V at 10 M" " " state real XICE ij misc 1 - i01rd=(interp_hnear_nmm:IIH,JJH,HBWGT1,HBWGT2,HBWGT3,HBWGT4) "XICE" "SEA ICE" "" state real LAI ij misc 1 - i0124rh "LAI" "Leaf area index" "area/area" state real SMSTAV ij misc 1 - irh "SMSTAV" "MOISTURE VARIBILITY" "" state real SMSTOT ij misc 1 - irh "SMSTOT" "TOTAL SOIL MOISTURE" "" state real SFCRUNOFF ij misc 1 - rh "SFROFF" "SURFACE RUNOFF" "" state real UDRUNOFF ij misc 1 - rh "UDROFF" "UNDERGROUND RUNOFF" "" state integer IVGTYP ij misc 1 - irhd=(interp_int_hnear_nmm:IIH,JJH,HBWGT1,HBWGT2,HBWGT3,HBWGT4) "IVGTYP" "VEGETATION TYPE" "" state integer ISLTYP ij misc 1 - irhd=(interp_int_hnear_nmm:IIH,JJH,HBWGT1,HBWGT2,HBWGT3,HBWGT4) "ISLTYP" "SOIL TYPE" " " state real VEGFRA ij misc 1 - i014rhd=(interp_hnear_nmm:IIH,JJH,HBWGT1,HBWGT2,HBWGT3,HBWGT4) "VEGFRA" "VEGETATION FRACTION" "" state real SFCEVP ij misc 1 - irh "SFCEVP" "SURFACE EVAPORATION" "" state real GRDFLX ij misc 1 - irh "GRDFLX" "GROUND HEAT FLUX" "" state real ALBBCK ij misc 1 - i0124r "ALBBCK" "BACKGROUND ALBEDO" "NA" state real SFCEXC ij misc 1 - irh "SFCEXC " "SURFACE EXCHANGE COEFFICIENT" "" state real SNOTIME ij misc 1 - r "SNOTIME" "SNOTIME" "" state real ACSNOW ij misc 1 - irh "ACSNOW" "ACCUMULATED SNOW" "kg m-2" state real ACSNOM ij misc 1 - irh "ACSNOM" "ACCUMULATED MELTED SNOW" "kg m-2" state real RMOL ij misc 1 - ir "RMOL" "" "" state real SNOW ij misc 1 - i01rh "SNOW" "SNOW WATER EQUIVALENT" "kg m-2" state real CANWAT ij misc 1 - i01rh "CANWAT" "CANOPY WATER" "" state real SST ij misc 1 - i014rhd=(interp_hnear_nmm:IIH,JJH,HBWGT1,HBWGT2,HBWGT3,HBWGT4 "SST" "SEA SURFACE TEMPERATURE" "K" state real WEASD ij misc 1 - i01rhd=(interp_hnear_nmm:IIH,JJH,HBWGT1,HBWGT2,HBWGT3,HBWGT4) "WEASD" "WATER EQUIVALENT OF ACCUMULATED SNOW" "kg m-2" state real ZNT ij misc 1 - irh "ZNT" "TIME-VARYING ROUGHNESS LENGTH" state real MOL ij misc 1 - ir "MOL" "T* IN SIMILARITY THEORY" "K" state real NOAHRES ij misc 1 - rh "NOAHRES" "RESIDUAL OF THE NOAH SURFACE ENERGY BUDGET" "W m{-2}" state real tke_pbl ijk misc 1 - r "TKE_PBL" "TKE FROM PBL SCHEME" "m2 s-2" state real el_pbl ikj misc 1 - - "EL_PBL" "MIXING LENGTH FROM PBL SCHEME" "m" state real EXCH_H ikj misc 1 - r "EXCH_H" "EXCHANGE COEFFICIENTS FOR HEAT" "m2 s-1" state real EXCH_M ikj misc 1 - r "EXCH_M" "EXCHANGE COEFFICIENTS FOR MOMENTUM" "m2 s-1" state real THZ0 ij misc 1 - irhd=(interp_h_nmm:IIH,JJH,HBWGT1,HBWGT2,HBWGT3,HBWGT4) "THZ0" "POT. TEMPERATURE AT TOP OF VISC. SUBLYR" "K" state real QZ0 ij misc 1 - irhd=(interp_h_nmm:IIH,JJH,HBWGT1,HBWGT2,HBWGT3,HBWGT4) "QZ0" "SPECIFIC HUMIDITY AT TOP OF VISC. SUBLYR" "kg kg-1" state real UZ0 ij misc 1 - irhd=(interp_v_nmm:IIV,JJV,VBWGT1,VBWGT2,VBWGT3,VBWGT4) "UZ0" "U WIND COMPONENT AT TOP OF VISC. SUBLYR" "m s-1" state real VZ0 ij misc 1 - irhd=(interp_v_nmm:IIV,JJV,VBWGT1,VBWGT2,VBWGT3,VBWGT4) "VZ0" "V WIND COMPONENT AT TOP OF VISC. SUBLYR" "m s-1" state real FLHC ij misc 1 - r "FLHC" "SURFACE EXCHANGE COEFFICIENT FOR HEAT" "" state real FLQC ij misc 1 - r "FLQC" "SURFACE EXCHANGE COEFFICIENT FOR MOISTURE" "" state real QSG ij misc 1 - r "QSG" "SURFACE SATURATION WATER VAPOR MIXING RATIO" "kg kg-1" state real QVG ij misc 1 - r "QVG" "WATER VAPOR MIXING RATIO AT THE SURFACE" "kg kg-1" state real QCG ij misc 1 - r "QCG" "CLOUD WATER MIXING RATIO AT THE SURFACE" "kg kg-1" state real DEW ij misc 1 - r "DEW" "DEW MIXING RATIO AT THE SURFACE" "kg kg-1" state real SOILT1 ij misc 1 - r "SOILT1" "TEMPERATURE INSIDE SNOW " "K" state real TSNAV ij misc 1 - r "TSNAV" "AVERAGE SNOW TEMPERATURE " "C" # added as state for HALO_NMM_MG2, mep state real psfc_out ij dyn_nmm 1 - - # added as state for HALO_NMM_TURBL, jm state real UZ0h ij misc 1 - - state real VZ0h ij misc 1 - - state real dudt ijk misc 1 - - state real dvdt ijk misc 1 - - state real QSFC ij misc 1 - irh "QSFC" "SPECIFIC HUMIDITY AT LOWER BOUNDARY" "kg kg-1" state real AKHS ij misc 1 - ir "AKHS" "SFC EXCH COEFF FOR HEAT /DELTA Z" "m s-1" state real AKMS ij misc 1 - ir "AKMS" "SFC EXCH COEFF FOR MOMENTUM /DELTA Z" "m s-1" i1 real CHKLOWQ ij misc 1 - - "CHKLOWQ" "SURFACE SATURATION FLAG" "" state real HTOP ij misc 1 - irhd=(interp_hnear_nmm:IIH,JJH,HBWGT1,HBWGT2,HBWGT3,HBWGT4) "HTOP" "TOP OF CONVECTION LEVEL" "" state real HBOT ij misc 1 - irhd=(interp_hnear_nmm:IIH,JJH,HBWGT1,HBWGT2,HBWGT3,HBWGT4) "HBOT" "BOT OF CONVECTION LEVEL" "" state real HTOPR ij misc 1 - ird=(interp_hnear_nmm:IIH,JJH,HBWGT1,HBWGT2,HBWGT3,HBWGT4) "HTOPR" "TOP OF CONVECTION LEVEL FOR RADIATION" "" state real HBOTR ij misc 1 - ird=(interp_hnear_nmm:IIH,JJH,HBWGT1,HBWGT2,HBWGT3,HBWGT4) "HBOTR" "BOT OF CONVECTION LEVEL FOR RADIATION" "" state real HTOPD ij misc 1 - rh "HTOPD" "TOP DEEP CONVECTION LEVEL" "" state real HBOTD ij misc 1 - rh "HBOTD" "BOT DEEP CONVECTION LEVEL" "" state real HTOPS ij misc 1 - rh "HTOPS" "TOP SHALLOW CONVECTION LEVEL" "" state real HBOTS ij misc 1 - rh "HBOTS" "BOT SHALLOW CONVECTION LEVEL" "" state REAL CUPPT ij misc 1 - rhd=(interp_hnear_nmm:IIH,JJH,HBWGT1,HBWGT2,HBWGT3,HBWGT4) "CUPPT" "ACCUMULATED CONVECTIVE RAIN SINCE LAST CALL TO THE RADIATION" "" state REAL CPRATE ij misc 1 - rh "CPRATE" "INSTANTANEOUS CONVECTIVE PRECIPITATION RATE" "" # 1-17-06a state real F_ICE_PHY ikj misc 1 - - "F_ICE_PHY" "FRACTION OF ICE" "" state real F_RAIN_PHY ikj misc 1 - - "F_RAIN_PHY" "FRACTION OF RAIN " "" state real F_RIMEF_PHY ikj misc 1 - - "F_RIMEF_PHY" "MASS RATIO OF RIMED ICE " "" state real MASS_FLUX ij misc 1 - r "MASS_FLUX" "DOWNDRAFT MASS FLUX FOR IN GRELL CUMULUS SCHEME" "mb/hour" state real apr_gr ij misc 1 - r "APR_GR" "PRECIP FROM CLOSURE OLD_GRELL " "mm/hour" state real apr_w ij misc 1 - r "APR_W" "PRECIP FROM CLOSURE W " "mm/hour" state real apr_mc ij misc 1 - r "APR_MC" "PRECIP FROM CLOSURE KRISH MV" "mm/hour" state real apr_st ij misc 1 - r "APR_ST" "PRECIP FROM CLOSURE STABILITY " "mm/hour" state real apr_as ij misc 1 - r "APR_AS" "PRECIP FROM CLOSURE AS-TYPE " "mm/hour" state real apr_capma ij misc 1 - r "APR_CAPMA" "PRECIP FROM MAX CAP" "mm/hour" state real apr_capme ij misc 1 - r "APR_CAPME" "PRECIP FROM MEAN CAP" "mm/hour" state real apr_capmi ij misc 1 - r "APR_CAPMI" "PRECIP FROM MIN CAP" "mm/hour" state real xf_ens ije misc 1 Z r "XF_ENS" "MASS FLUX PDF IN GRELL CUMULUS SCHEME" "mb hour-1" state real pr_ens ije misc 1 Z r "PR_ENS" "PRECIP RATE PDF IN GRELL CUMULUS SCHEME" "mb hour-1" state real RTHFTEN ikj misc 1 - r "RTHFTEN" "TEMPERATURE TENDENCY USED IN GRELL CUMULUS SCHEME" "K/sec" state real RQVFTEN ikj misc 1 - r "RQVFTEN" "MOISTURE TENDENCY USED IN GRELL CUMULUS SCHEME" "kg/sec" state real SNOWH ij misc 1 - i01rhd=(interp_h_nmm:IIH,JJH,HBWGT1,HBWGT2,HBWGT3,HBWGT4) "SNOWH" "PHYSICAL SNOW DEPTH" "m" state real RHOSN ij misc 1 - i01rd=(interp_h_nmm:IIH,JJH,HBWGT1,HBWGT2,HBWGT3,HBWGT4) "RHOSN" " SNOW DENSITY" "kg m-3" state real SMFR3D ilj misc 1 Z rh "SMFR3D" "SOIL ICE" "" state real KEEPFR3DFLAG ilj misc 1 Z r "KEEPFR3DFLAG" "FLAG - 1. FROZEN SOIL YES, 0 - NO" "" # added state for etampnew microphysics (needed for restarts) state real mp_restart_state p misc 1 - r "MP_RESTART_STATE" "STATE VECTOR FOR MICROPHYSICS RESTARTS" state real tbpvs_state p misc 1 - r "TBPVS_STATE" "STATE FOR ETAMPNEW MICROPHYSICS" state real tbpvs0_state p misc 1 - r "TBPVS0_STATE" "STATE FOR ETAMPNEW MICROPHYSICS" # State variables for landuse_init, Must be declared state because the are read in and needed for restarts. Had been SAVE vars in # landuse_init (phys/module_physics_init.F) state integer landuse_isice - misc - - - state integer landuse_lucats - misc - - - state integer landuse_luseas - misc - - - state integer landuse_isn - misc - - - state real lu_state p misc - - - ################################################################# # state integer number_at_same_level - - - - - "number_at_same_level" "" "" # State for derived time quantities. #for HWRF: add to restart state integer itimestep - - - - rh "itimestep" "" "" state real xtime - - - - h "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" "" "" # vortex center indices; need for restarts of moving nests state real xi - misc - - r state real xj - misc - - r state real vc_i - misc - - r state real vc_j - misc - - r ###### # # Variables that are set at run-time to control configuration (namelist-settable) # #
# Time Control rconfig integer run_days namelist,time_control 1 0 irh "run_days" "NUMBER OF DAYS TO RUN" rconfig integer run_hours namelist,time_control 1 0 irh "run_hours" "NUMBER OF HOURS TO RUN" rconfig integer run_minutes namelist,time_control 1 0 irh "run_minutes" "NUMBER OF MINUTES TO RUN" rconfig integer run_seconds namelist,time_control 1 0 irh "run_seconds" "NUMBER OF SECONDS TO RUN" rconfig integer start_year namelist,time_control max_domains 1993 irh "start_year" "4 DIGIT YEAR OF START OF MODEL" "YEARS" rconfig integer start_month namelist,time_control max_domains 03 irh "start_month" "2 DIGIT MONTH OF THE YEAR OF START OF MODEL, 1-12" "MONTHS" rconfig integer start_day namelist,time_control max_domains 13 irh "start_day" "2 DIGIT DAY OF THE MONTH OF START OF MODEL, 1-31" "DAYS" rconfig integer start_hour namelist,time_control max_domains 12 irh "start_hour" "2 DIGIT HOUR OF THE DAY OF START OF MODEL, 0-23" "HOURS" rconfig integer start_minute namelist,time_control max_domains 00 irh "start_minute" "2 DIGIT MINUTE OF THE HOUR OF START OF MODEL, 0-59" "MINUTES" rconfig integer start_second namelist,time_control max_domains 00 irh "start_second" "2 DIGIT SECOND OF THE MINUTE OF START OF MODEL, 0-59" "SECONDS" rconfig integer end_year namelist,time_control max_domains 1993 irh "end_year" "4 DIGIT YEAR OF END OF MODEL" "YEARS" rconfig integer end_month namelist,time_control max_domains 03 irh "end_month" "2 DIGIT MONTH OF THE YEAR OF END OF MODEL, 1-12" "MONTHS" rconfig integer end_day namelist,time_control max_domains 14 irh "end_day" "2 DIGIT DAY OF THE MONTH OF END OF MODEL, 1-31" "DAYS" rconfig integer end_hour namelist,time_control max_domains 12 irh "end_hour" "2 DIGIT HOUR OF THE DAY OF END OF MODEL, 0-23" "HOURS" rconfig integer end_minute namelist,time_control max_domains 00 irh "end_minute" "2 DIGIT MINUTE OF THE HOUR OF END OF MODEL, 0-59" "MINUTES" rconfig integer end_second namelist,time_control max_domains 00 irh "end_second" "2 DIGIT SECOND OF THE MINUTE OF END OF MODEL, 0-59" "SECONDS" rconfig integer interval_seconds namelist,time_control 1 43200 irh "interval_seconds" "SECONDS BETWEEN ANALYSIS AND BOUNDARY PERIODS" "SECONDS" rconfig logical input_from_file namelist,time_control max_domains .false. irh "input_from_file" "T/F INPUT FOR THIS DOMAIN FROM A SEPARATE INPUT FILE" "" rconfig integer fine_input_stream namelist,time_control max_domains 0 irh "fine_input_stream" "0 THROUGH 11, WHAT INPUT STREAM IS FINE GRID IC FROM" "" include registry.io_boilerplate #for HWRF: added a 'r' for restart rconfig integer JULYR namelist,time_control max_domains 0 hr "JULYR" "" "" rconfig integer JULDAY namelist,time_control max_domains 1 hr "JULDAY" "" "" rconfig real GMT namelist,time_control max_domains 0. hr "GMT" "" "" #for HWRF: end rconfig character input_inname namelist,time_control 1 "wrfinput_d" - "name of input infile" "" "" rconfig character input_outname namelist,time_control 1 "wrfinput_d" - "name of input outfile" "" "" rconfig character bdy_inname namelist,time_control 1 "wrfbdy_d" - "name of boundary infile" "" "" rconfig character bdy_outname namelist,time_control 1 "wrfbdy_d" - "name of boundary outfile" "" "" rconfig character rst_inname namelist,time_control 1 "wrfrst_d_" - "name of restrt infile" "" "" rconfig character rst_outname namelist,time_control 1 "wrfrst_d_" - "name of restrt outfile" "" "" #for HWRF: rconfig character anl_outname namelist,time_control max_domains "wrfanl_d_" - "name of analysis outfile" "" "" rconfig logical write_input namelist,time_control 1 .false. - "write input data for 3dvar etc." "" "" rconfig logical write_restart_at_0h namelist,time_control 1 .false. h "write_restart_at_0h" "" "" rconfig logical adjust_output_times namelist,time_control 1 .false. - "adjust_output_times" rconfig logical adjust_input_times namelist,time_control 1 .false. - "adjust_input_times" rconfig real tstart namelist,time_control max_domains 0. irh "tstart" "forecast hour at the start of the NMM integration" rconfig logical nocolons namelist,time_control 1 .false. - "nocolons" rconfig logical cycling namelist,time_control 1 .false. - "true for cycling (using wrfout file as input data)" # DFI namelist rconfig integer dfi_opt namelist,dfi_control 1 0 rh "dfi_opt" "" "" rconfig integer dfi_nfilter namelist,dfi_control 1 7 rh "dfi_nfilter" "Digital filter type" "" rconfig logical dfi_write_filtered_input namelist,dfi_control 1 .true. rh "dfi_write_filtered_input" "Write a wrfinput_filtered_d0n file?" "" rconfig logical dfi_write_dfi_history namelist,dfi_control 1 .false. rh "dfi_write_dfi_history" "Write history files during filtering?" "" rconfig integer dfi_cutoff_seconds namelist,dfi_control 1 3600 rh "dfi_cutoff_seconds" "Digital filter cutoff time" "" rconfig integer dfi_time_dim namelist,dfi_control 1 1000 rh "dfi_time_dim" "MAX DIMENSION FOR HCOEFF" rconfig integer dfi_fwdstop_year namelist,dfi_control 1 2004 rh "dfi_fwdstop_year" "4 DIGIT YEAR OF START OF DFI" "YEARS" rconfig integer dfi_fwdstop_month namelist,dfi_control 1 03 rh "dfi_fwdstop_month" "2 DIGIT MONTH OF THE YEAR OF START OF DFI" "MONTHS" rconfig integer dfi_fwdstop_day namelist,dfi_control 1 13 rh "dfi_fwdstop_day" "2 DIGIT DAY OF THE MONTH OF START OF DFI" "DAYS" rconfig integer dfi_fwdstop_hour namelist,dfi_control 1 12 rh "dfi_fwdstop_hour" "2 DIGIT HOUR OF THE DAY OF START OF DFI" "HOURS" rconfig integer dfi_fwdstop_minute namelist,dfi_control 1 00 rh "dfi_fwdstop_minute" "2 DIGIT MINUTE OF THE HOUR OF START OF DFI" "MINUTES" rconfig integer dfi_fwdstop_second namelist,dfi_control 1 00 rh "dfi_fwdstop_second" "2 DIGIT SECOND OF THE MINUTE OF START OF DFI" "SECONDS" rconfig integer dfi_bckstop_year namelist,dfi_control 1 2004 rh "dfi_bckstop_year" "4 DIGIT YEAR OF END OF DFI" "YEARS" rconfig integer dfi_bckstop_month namelist,dfi_control 1 03 rh "dfi_bckstop_month" "2 DIGIT MONTH OF THE YEAR OF END OF DFI" "MONTHS" rconfig integer dfi_bckstop_day namelist,dfi_control 1 14 rh "dfi_bckstop_day" "2 DIGIT DAY OF THE MONTH OF END OF DFI" "DAYS" rconfig integer dfi_bckstop_hour namelist,dfi_control 1 12 rh "dfi_bckstop_hour" "2 DIGIT HOUR OF THE DAY OF END OF DFI" "HOURS" rconfig integer dfi_bckstop_minute namelist,dfi_control 1 00 rh "dfi_bckstop_minute" "2 DIGIT MINUTE OF THE HOUR OF END OF DFI" "MINUTES" rconfig integer dfi_bckstop_second namelist,dfi_control 1 00 rh "dfi_bckstop_second" "2 DIGIT SECOND OF THE MINUTE OF END OF DFI" "SECONDS" # Domains rconfig integer time_step namelist,domains 1 - ih "time_step" rconfig integer time_step_fract_num namelist,domains 1 0 ih "time_step_fract_num" rconfig integer time_step_fract_den namelist,domains 1 1 ih "time_step_fract_den" rconfig integer time_step_dfi namelist,domains 1 - ih "time_step_dfi" rconfig integer max_dom namelist,domains 1 1 irh "max_dom" "" "" rconfig integer s_we namelist,domains max_domains 1 irh "s_we" "" "" rconfig integer e_we namelist,domains max_domains 32 irh "e_we" "" "" rconfig integer s_sn namelist,domains max_domains 1 irh "s_sn" "" "" rconfig integer e_sn namelist,domains max_domains 32 irh "e_sn" "" "" rconfig integer s_vert namelist,domains max_domains 1 irh "s_vert" "" "" rconfig integer e_vert namelist,domains max_domains 31 irh "e_vert" "" "" rconfig integer num_metgrid_soil_levels namelist,domains 1 4 irh "num_metgrid_soil_levels" "number of input levels or layers in 3D sm, st, sw arrays" "" rconfig real dx namelist,domains max_domains 200 h "dx" "X HORIZONTAL RESOLUTION" "METERS" rconfig real dy namelist,domains max_domains 200 h "dy" "Y HORIZONTAL RESOLUTION" "METERS" rconfig integer grid_id namelist,domains max_domains 1 irh "id" "" "" rconfig logical grid_allowed namelist,domains max_domains .true. irh "allowed" "" "" rconfig integer parent_id namelist,domains max_domains 0 h "parent_id" "" "" rconfig integer i_parent_start namelist,domains max_domains 1 h "i_parent_start" "" "" rconfig integer j_parent_start namelist,domains max_domains 1 h "j_parent_start" "" "" rconfig integer parent_grid_ratio namelist,domains max_domains 1 h "parent_grid_ratio" "" "" rconfig integer parent_time_step_ratio namelist,domains max_domains 1 h "parent_time_step_ratio" "" "" rconfig integer feedback namelist,domains 1 0 h "feedback" "" "" rconfig integer smooth_option namelist,domains 1 2 h "smooth_option" "" "" rconfig real ztop namelist,domains max_domains 15000. h "ztop" "" "" rconfig integer moad_grid_ratio namelist,domains max_domains 1 h "moad_grid_ratio" "" "" rconfig integer moad_time_step_ratio namelist,domains max_domains 1 h "moad_time_step_ratio" "" "" rconfig integer shw namelist,domains max_domains 2 h "stencil_half_width" "HORIZONTAL INTERPOLATION STENCIL HALF-WIDTH" "GRID POINTS" rconfig integer tile_sz_x namelist,domains 1 0 - "tile_sz_x" "" "" rconfig integer tile_sz_y namelist,domains 1 0 - "tile_sz_y" "" "" rconfig integer numtiles namelist,domains 1 1 - "numtiles" "" "" rconfig integer nproc_x namelist,domains 1 -1 - "nproc_x" "-1 means not set" "" rconfig integer nproc_y namelist,domains 1 -1 - "nproc_y" "-1 means not set" "" rconfig integer irand namelist,domains 1 0 - "irand" "" "" rconfig real dt derived max_domains 2. h "dt" "TEMPORAL RESOLUTION" "SECONDS" rconfig integer ts_buf_size namelist,domains 1 200 - "ts_buf_size" "Size of time series buffer" rconfig integer max_ts_locs namelist,domains 1 5 - "max_ts_locs" "Maximum number of time series locations" rconfig integer num_moves namelist,domains 1 0 rconfig integer vortex_interval namelist,domains max_domains 15 - "" "" "minutes" rconfig integer corral_dist namelist,domains max_domains 8 rconfig integer move_id namelist,domains max_moves 0 rconfig integer move_interval namelist,domains max_moves 999999999 rconfig integer move_cd_x namelist,domains max_moves 0 rconfig integer move_cd_y namelist,domains max_moves 0 rconfig logical swap_x namelist,domains max_domains .false. rh "swap_x" "" "" rconfig logical swap_y namelist,domains max_domains .false. rh "swap_y" "" "" rconfig logical cycle_x namelist,domains max_domains .false. rh "cycle_x" "" "" rconfig logical cycle_y namelist,domains max_domains .false. rh "cycle_y" "" "" rconfig logical reorder_mesh namelist,domains 1 .false. rh "reorder_mesh" "" "" rconfig logical perturb_input namelist,domains 1 .false. h "" "" "" # WPS related rconfig real eta_levels namelist,domains max_eta -1. rconfig real ptsgm namelist,domains 1 42000. rconfig integer num_metgrid_levels namelist,domains 1 43 irh "num_metgrid_levels" "" "" rconfig real p_top_requested namelist,domains 1 5000 irh "p_top_requested" "Pa" "" rconfig logical use_prep_hybrid namelist,domains 1 .false. irh "T=GFS spectral sigma files were used" "" "" # Physics rconfig integer mp_physics namelist,physics max_domains 0 rh "mp_physics" "" "" #for HWRF: rconfig real mommix namelist,physics max_domains 0.7 irh "MOMENTUM MIXING FOR SAS CONVECTION SCHEME" rconfig logical disheat namelist,physics max_domains .true. irh "nmm input 7" #end HWRF: rconfig integer ra_lw_physics namelist,physics max_domains 0 rh "ra_lw_physics" "" "" rconfig integer ra_sw_physics namelist,physics max_domains 0 rh "ra_sw_physics" "" "" rconfig real radt namelist,physics max_domains 0 h "RADT" "" "" rconfig integer sf_sfclay_physics namelist,physics max_domains 0 rh "sf_sfclay_physics" "" "" rconfig integer sf_surface_physics namelist,physics max_domains 0 rh "sf_surface_physics" "" "" rconfig integer bl_pbl_physics namelist,physics max_domains 0 rh "bl_pbl_physics" "" "" rconfig real BLDT namelist,physics max_domains 0 h "BLDT" "" "" rconfig integer cu_physics namelist,physics max_domains 0 rh "cu_physics" "" "" rconfig integer shcu_physics namelist,physics max_domains 0 rh "shcu_physics" "" "" rconfig real CUDT namelist,physics max_domains 0 h "CUDT" "" "" rconfig real GSMDT namelist,physics max_domains 0 h "GSMDT" "" "" rconfig integer ISFFLX namelist,physics 1 1 irh "ISFFLX" "" "" rconfig integer IFSNOW namelist,physics 1 0 irh "IFSNOW" "" "" rconfig integer ICLOUD namelist,physics 1 1 irh "ICLOUD" "" "" rconfig real swrad_scat namelist,physics 1 1 irh "SWRAD_SCAT" "SCATTERING FACTOR IN SWRAD" "" rconfig integer surface_input_source namelist,physics 1 1 irh "surface_input_source" "1=static (fractional), 2=time dependent (dominant), 3=hybrid (not yet implemented)" "" rconfig integer num_soil_layers namelist,physics 1 5 irh "num_soil_layers" "" "" rconfig integer num_urban_layers namelist,physics 1 400 irh "num_urban_layers" "" "" rconfig integer maxiens namelist,physics 1 1 irh "maxiens" "" "" rconfig integer maxens namelist,physics 1 3 irh "maxens" "" "" rconfig integer maxens2 namelist,physics 1 3 irh "maxens2" "" "" rconfig integer maxens3 namelist,physics 1 16 irh "maxens3" "" "" rconfig integer ensdim namelist,physics 1 144 irh "ensdim" "" "" rconfig integer chem_opt namelist,physics max_domains 0 rh "chem_opt" "" "" rconfig integer num_land_cat namelist,physics 1 24 - "num_land_cat" "" "" rconfig integer num_soil_cat namelist,physics 1 16 - "num_soil_cat" "" "" rconfig integer mp_zero_out namelist,physics 1 0 - "mp_zero_out" "microphysics fields set to zero 0=no action taken, 1=all fields but Qv, 2=all fields including Qv" "flag" rconfig real mp_zero_out_thresh namelist,physics 1 1.e-8 - "mp_zero_out_thresh" "minimum threshold for non-Qv moist fields, below are set to zero" "kg/kg" rconfig real seaice_threshold namelist,physics 1 271 h "seaice_threshold" "tsk below which which water points are set to sea ice for slab scheme" "K" rconfig integer fractional_seaice namelist,physics 1 0 - "fractional_seiace" "Fractional sea-ice option" rconfig logical tice2tsk_if2cold namelist,physics 1 .false. - "tice2tsk_if2cold" "Avoid low ice temps when ice frac and Tsk are inconsistent" rconfig integer sst_update namelist,physics 1 0 i01rh "sst_update" "update sst from wrflowinp file 0=no, 1=yes" "" rconfig integer sf_urban_physics namelist,physics max_domains 0 h "sf_urban_physics" "activate urban model 0=no, 1=Noah_UCM 2=BEP_UCM" "" rconfig logical usemonalb namelist,physics 1 .true. h "usemonalb" "use 2d field vs table values false=table, True=2d" "" rconfig logical rdmaxalb namelist,physics 1 .true. h "rdmaxalb" "false set it to table values" "" rconfig logical rdlai2d namelist,physics 1 .false. h "rdlai2d" "false set it to table values" "" rconfig integer gwd_opt namelist,physics max_domains 0 irh "gwd_opt" "activate gravity wave drag: 0=off, 1=ARW, 2=NMM" "" rconfig integer iz0tlnd namelist,physics 1 0 h "iz0tlnd" "switch to control land thermal roughness length" "" # nmm variables rconfig integer idtad namelist,physics max_domains 2 irh "idtad" "fundamental timesteps between calls to NMM passive advection scheme" rconfig integer nsoil namelist,physics max_domains 4 irh "nsoil" "number of soil layers" rconfig integer nphs namelist,physics max_domains 10 irh "nphs" "fundamental timesteps between calls to NMM turbulence" rconfig integer ncnvc namelist,physics max_domains 10 irh "ncnvc" "fundamental timesteps between calls to NMM convection" rconfig integer nrads namelist,physics max_domains 200 irh "nrads" "fundamental timesteps between calls to NMM shortwave radiation" rconfig integer nradl namelist,physics max_domains 200 irh "nradl" "fundamental timesteps between calls to NMM longwave radiation" rconfig real tprec namelist,physics max_domains 3. irh "tprec" "number of hours in bucket for total precipitation" rconfig real theat namelist,physics max_domains 6. irh "theat" "number of hours in bucket for gridscale and convective heating rates" rconfig real tclod namelist,physics max_domains 6. irh "tclod" "number of hours in bucket for cloud amounts" rconfig real trdsw namelist,physics max_domains 6. irh "trdsw" "number of hours in bucket for short wave fluxes" rconfig real trdlw namelist,physics max_domains 6. irh "trdlw" "number of hours in bucket for long wave fluxes" rconfig real tsrfc namelist,physics max_domains 6. irh "tsrfc" "number of hours in bucket for evaporation / sfc fluxes" rconfig logical pcpflg namelist,physics max_domains .false. irh "pcpflg" "logical switch that turns on/off the precipitation assimilation" rconfig integer sigma namelist,physics max_domains 1 irh "sigma" "logical switch for NMM vertical coordinate (sigma or hybrid)" rconfig real sfenth namelist,physics max_domains 1.0 irh "sea spray parameter" rconfig integer co2tf namelist,physics 1 0 - "co2tf" "GFDL radiation co2 flag" rconfig integer ra_call_offset namelist,physics 1 -1 - "ra_call_offset" "radiation call offset in timesteps (-1=old, 0=new offset)" "" rconfig real cam_abs_freq_s namelist,physics 1 21600. - "cam_abs_freq_s" "CAM radiation frequency for clear-sky longwave calculations" "s" rconfig integer levsiz namelist,physics 1 1 - "levsiz" "Number of ozone data levels for CAM radiation (59)" "" rconfig integer paerlev namelist,physics 1 1 - "paerlev" "Number of aerosol data levels for CAM radiation (29)" "" rconfig integer cam_abs_dim1 namelist,physics 1 1 - "cam_abs_dim1" "dimension for absnxt in CAM radiation" "" rconfig integer cam_abs_dim2 namelist,physics 1 1 - "cam_abs_dim2" "dimension for abstot in CAM radiation" "" rconfig logical cu_rad_feedback namelist,physics max_domains .false. - "feedback cumulus to radiation" "" rconfig real h_diff namelist,physics max_domains 0.1 irh "nmm input 9" rconfig integer movemin namelist,physics max_domains 10 irh "nmm input 12" # Dynamics # dynamics option (see package definitions, below) rconfig integer dyn_opt namelist,dynamics 1 - rconfig integer rk_ord namelist,dynamics 1 3 irh "rk_order" "" "" rconfig integer w_damping namelist,dynamics 1 0 irh "w_damping" "" "" # diff_opt 1=old diffusion, 2=new rconfig integer diff_opt namelist,dynamics 1 1 irh "diff_opt" "" "" # km_opt 1=old coefs, 2=tke, 3=Smagorinksy rconfig integer km_opt namelist,dynamics 1 1 irh "km_opt" "" "" rconfig integer damp_opt namelist,dynamics 1 1 irh "damp_opt" "" "" rconfig real zdamp namelist,dynamics max_domains 5000. h "zdamp" "" "" rconfig real base_pres namelist,dynamics 1 100000. h "base_pres" "Base state pressure - do not change (10^5 Pa), real only" "Pa" rconfig real base_temp namelist,dynamics 1 290. h "base_temp" "Base state sea level temperature, real only" "K" rconfig real base_lapse namelist,dynamics 1 50. h "base_lapse" "Base state temperature difference between base pres and 1/e of atm depth - do not change, real only" "K" rconfig real iso_temp namelist,dynamics 1 0. h "iso_temp" "Isothermal temperature in stratosphere, real only" "K" rconfig real dampcoef namelist,dynamics max_domains 0.2 h "dampcoef" "" "" rconfig real khdif namelist,dynamics max_domains 0 h "khdif" "" "" rconfig real kvdif namelist,dynamics max_domains 0 h "kvdif" "" "" rconfig real c_s namelist,dynamics max_domains 0.25 h "c_s" "Smagorinsky coeff" "" rconfig real c_k namelist,dynamics max_domains 0.15 h "c_k" "TKE coeff" "" rconfig real smdiv namelist,dynamics max_domains 0. h "smdiv" "" "" rconfig real emdiv namelist,dynamics max_domains 0. h "emdiv" "" "" rconfig real epssm namelist,dynamics max_domains .1 h "epssm" "" "" rconfig logical non_hydrostatic namelist,dynamics max_domains .true. irh "non_hydrostatic" "" "" rconfig integer time_step_sound namelist,dynamics max_domains 10 h "time_step_sound" "" "" rconfig integer h_mom_adv_order namelist,dynamics max_domains 3 rh "h_mom_adv_order" "" "" rconfig integer v_mom_adv_order namelist,dynamics max_domains 3 rh "v_mom_adv_order" "" "" rconfig integer h_sca_adv_order namelist,dynamics max_domains 3 rh "h_sca_adv_order" "" "" rconfig integer v_sca_adv_order namelist,dynamics max_domains 3 rh "v_sca_adv_order" "" "" rconfig logical top_radiation namelist,dynamics max_domains .false. rh "top_radiation" "" "" rconfig real tke_upper_bound namelist,dynamics max_domains 1000. h "tke_upper_bound" "" "" rconfig real tke_drag_coefficient namelist,dynamics max_domains 0. h "tke_drag_coefficient" "" "" rconfig real tke_heat_flux namelist,dynamics max_domains 0. h "tke_heat_flux" "" "" rconfig logical pert_coriolis namelist,dynamics max_domains .false. irh "pert_coriolis" "" "" rconfig logical euler_adv namelist,dynamics 1 .true. irh "euler_adv" "logical flag to turn on/off Eulerian passive advection" "" rconfig integer idtadt namelist,dynamics 1 2 irh "idtadt" "fundamental timesteps between calls to Eulerian advection for dynamics" "" rconfig integer idtadc namelist,dynamics 1 2 irh "idtadc" "fundamental timesteps between calls to Eulerian advection for chemistry" "" rconfig real codamp namelist,dynamics max_domains 6.4 irh "codamp" "divergence damping weighting factor (larger = more damping) " "" rconfig real coac namelist,dynamics max_domains 1.6 irh "coac" "horizontal diffusion weighting factor (larger = more diffusion) " "" rconfig real slophc namelist,dynamics max_domains 6.363961e-3 irh "slophc" "Maximum model level slope (dZ/dy) for which hor diffusion is applied" "" rconfig real wp namelist,dynamics max_domains 0. irh "wp" "Off-centering weight in the updating of nonhyrostatic eps" # Bdy_control rconfig integer spec_bdy_width namelist,bdy_control 1 5 irh "spec_bdy_width" "" "" rconfig integer spec_zone namelist,bdy_control 1 1 irh "spec_zone" "" "" rconfig integer relax_zone namelist,bdy_control 1 4 irh "relax_zone" "" "" rconfig logical specified namelist,bdy_control max_domains .false. rh "specified" "" "" rconfig logical periodic_x namelist,bdy_control max_domains .false. rh "periodic_x" "" "" rconfig logical symmetric_xs namelist,bdy_control max_domains .false. rh "symmetric_xs" "" "" rconfig logical symmetric_xe namelist,bdy_control max_domains .false. rh "symmetric_xe" "" "" rconfig logical open_xs namelist,bdy_control max_domains .false. rh "open_xs" "" "" rconfig logical open_xe namelist,bdy_control max_domains .false. rh "open_xe" "" "" rconfig logical periodic_y namelist,bdy_control max_domains .false. rh "periodic_y" "" "" rconfig logical symmetric_ys namelist,bdy_control max_domains .false. rh "symmetric_ys" "" "" rconfig logical symmetric_ye namelist,bdy_control max_domains .false. rh "symmetric_ye" "" "" rconfig logical open_ys namelist,bdy_control max_domains .false. rh "open_ys" "" "" rconfig logical open_ye namelist,bdy_control max_domains .false. rh "open_ye" "" "" rconfig logical polar namelist,bdy_control max_domains .false. rh "polar" "" "" rconfig logical nested namelist,bdy_control max_domains .false. rh "nested" "" "" rconfig integer real_data_init_type namelist,bdy_control 1 1 irh "real_data_init_type" "REAL DATA INITIALIZATION OPTIONS: 1=SI, 2=MM5, 3=GENERIC" "PRE-PROCESSOR TYPES" rconfig integer background_proc_id namelist,grib2 1 255 rh "background_proc_id" "Background processing id for grib2" "" rconfig integer forecast_proc_id namelist,grib2 1 255 rh "forecast_proc_id" "Analysis and forecast processing id for grib2" "" rconfig integer production_status namelist,grib2 1 255 rh "production_status" "Background processing id for grib2" "" rconfig integer compression namelist,grib2 1 40 rh "compression" "grib2 compression, 40 for JPEG2000 or 41 for PNG" "" # NAMELIST DERIVED rconfig real cen_lat derived max_domains 0 - "cen_lat" "center latitude" "degrees, negative is south" rconfig real cen_lon derived max_domains 0 - "cen_lon" "central longitude" "degrees, negative is west" rconfig real truelat1 derived max_domains 0 - "true_lat1" "first standard parallel" "degrees, negative is south" rconfig real truelat2 derived max_domains 0 - "true_lat2" "second standard parallel" "degrees, negative is south" rconfig real moad_cen_lat derived max_domains 0 - "moad_cen_lat" "center latitude of the most coarse grid" "degrees, negative is south" rconfig real stand_lon derived max_domains 0 - "stand_lon" "standard longitude, parallel to j-direction, perpendicular to i-direction " "degrees, negative is west" rconfig integer FLAG_METGRID derived 1 0 - "FLAG_METGRID" "Flag in global attributes for metgrid data" rconfig integer FLAG_SNOW derived 1 0 - "FLAG_SNOW" "Flag for snow in the global attributes for metgrid data" rconfig integer FLAG_PSFC derived 1 0 - "FLAG_PSFC" "Flag for surface pressure in the global attributes for metgrid data" rconfig integer FLAG_SM000010 derived 1 0 - "FLAG_SM000010" "Flag for soil moisture in the global attributes for metgrid data" rconfig integer FLAG_SM010040 derived 1 0 - "FLAG_SM010040" "Flag for soil moisture in the global attributes for metgrid data" rconfig integer FLAG_SM040100 derived 1 0 - "FLAG_SM040100" "Flag for soil moisture in the global attributes for metgrid data" rconfig integer FLAG_SM100200 derived 1 0 - "FLAG_SM100200" "Flag for soil moisture in the global attributes for metgrid data" rconfig integer FLAG_ST000010 derived 1 0 - "FLAG_ST000010" "Flag for soil temperature in the global attributes for metgrid data" rconfig integer FLAG_ST010040 derived 1 0 - "FLAG_ST000010" "Flag for soil temperature in the global attributes for metgrid data" rconfig integer FLAG_ST040100 derived 1 0 - "FLAG_ST010040" "Flag for soil temperature in the global attributes for metgrid data" rconfig integer FLAG_ST100200 derived 1 0 - "FLAG_ST100200" "Flag for soil temperature in the global attributes for metgrid data" rconfig integer FLAG_SLP derived 1 0 - "FLAG_SLP" "Flag for sea level pressure in the global attributes for metgrid data" rconfig integer FLAG_SOILHGT derived 1 0 - "FLAG_SOILHGT" "Flag for soil height in the global attributes for metgrid data" rconfig integer FLAG_MF_XY derived 1 0 - "FLAG_MF_XY" "Flag for MF_XYin the global attributes for metgrid data" rconfig real bdyfrq derived max_domains 0 - "bdyfrq" "lateral boundary input frequency" "seconds" rconfig character mminlu derived max_domains " " - "mminlu" "land use dataset" "" rconfig integer iswater derived max_domains 0 - "iswater" "land use index of water" "index category" rconfig integer islake derived max_domains 0 - "islake" "land use index of inland lake" "index category" rconfig integer isice derived max_domains 0 - "isice" "land use index of ice" "index category" rconfig integer isurban derived max_domains 0 - "isurban" "land use index for 'urban and built-up" "index category" rconfig integer isoilwater derived max_domains 0 - "isoilwater" "land use index of water for soil" "index category" rconfig integer map_proj derived max_domains 0 - "map_proj" "domain map projection" "0=none, 1=Lambert, 2=polar, 3=Mercator" rconfig integer dfi_stage derived 1 3 - "dfi_stage" "current stage of DFI processing" "0=DFI setup, 1=DFI backward integration, 2=DFI forward integration, 3=WRF forecast" rconfig integer mp_physics_dfi derived max_domains -1 - "mp_physics_dfi" "" "-1 = no DFI and so no need to allocate DFI moistnd scalar variables, >0 = running with DFI, so allocate DFI moist and scalar variables appropriate for selected microphysics package" #rconfig integer simulation_start_year derived 1 0 h "simulation_start_year" "start of simulation through restarts" "4-digit year" #rconfig integer simulation_start_month derived 1 0 h "simulation_start_month" "start of simulation through restarts" "2-digit month" #rconfig integer simulation_start_day derived 1 0 h "simulation_start_day" "start of simulation through restarts" "2-digit day" #rconfig integer simulation_start_hour derived 1 0 h "simulation_start_hour" "start of simulation through restarts" "2-digit hour" #rconfig integer simulation_start_minute derived 1 0 h "simulation_start_minute" "start of simulation through restarts" "2-digit minute" #rconfig integer simulation_start_second derived 1 0 h "simulation_start_second" "start of simulation through restarts" "2-digit second" # # Single dummy declaration to define a nodyn dyn option state integer nodyn_dummy - dyn_nodyn - - - "" "" "" # Turbine drag (td) physics # Turbine positions and characteristics for real-data cases are specified in a file # whose name is given in the windturbines_spec variable. If the setting is "ideal", # the td_ variables specify idealized wind farm geometries and turbine characteristics. # If the setting is "none" then wind turbine drag physics is turned off. rconfig character windturbines_spec namelist,physics 1 "none" - - "" "none, ideal, or a file name" rconfig integer td_turbgridid namelist,physics 1 -1 - - "" "which grid id has turbines in it" rconfig real td_hubheight namelist,physics 1 100. - - "" "hub height (m)" rconfig real td_diameter namelist,physics 1 60. - - "" "turbine diameter (m)" rconfig real td_stdthrcoef namelist,physics 1 .158 - - "" "standing thrust coefficient" rconfig real td_cutinspeed namelist,physics 1 4. - - "" "cut-in speed (m/s)" rconfig real td_cutoutspeed namelist,physics 1 27. - - "" "cut-out speed (m/s)" rconfig real td_power namelist,physics 1 2. - - "" "turbine power (MW)" rconfig real td_turbpercell namelist,physics 1 1. - - "" "number of turbines per cell" rconfig integer td_ewfx namelist,physics 1 0 - - "" "extent of wind farm in x-cells" rconfig integer td_ewfy namelist,physics 1 0 - - "" "extent of wind farm in y-cells" rconfig integer td_pwfx namelist,physics 1 1 - - "" "southwest corner of wind farm in x-cells" rconfig integer td_pwfy namelist,physics 1 1 - - "" "southwest corner of wind farm in y-cells" #key package associated package associated 4d scalars # name namelist choice state vars #### 9. Edit the Registry file to set up '5' as the value of the **** namelist variable dyn_opt that means to select our exp dyncore. package dyn_exp dyn_opt==5 - - #package passivec1 chem_opt==0 - package passiveqv mp_physics==0 - moist:qv package kesslerscheme mp_physics==1 - moist:qv,qc,qr package linscheme mp_physics==2 - moist:qv,qc,qr,qi,qs,qg package wsm3scheme mp_physics==3 - moist:qv,qc,qr package wsm5scheme mp_physics==4 - moist:qv,qc,qr,qi,qs package etampnew mp_physics==5 - moist:qv,qc,qr,qs package wsm6scheme mp_physics==6 - moist:qv,qc,qr,qi,qs,qg package gsfcgcescheme mp_physics==7 - moist:qv,qc,qr,qi,qs,qg package thompson mp_physics==8 - moist:qv,qc,qr,qi,qs,qg;scalar:qni,qnr package milbrandt2mom mp_physics==9 - moist:qv,qc,qr,qi,qs,qg,qh;scalar:qnc,qnr,qni,qns,qng,qnh package morr_two_moment mp_physics==10 - moist:qv,qc,qr,qi,qs,qg;scalar:qni,qns,qnr,qng package sbu_ylinscheme mp_physics==13 - moist:qv,qc,qr,qi,qs package wdm5scheme mp_physics==14 - moist:qv,qc,qr,qi,qs;scalar:qnn,qnc,qnr package wdm6scheme mp_physics==16 - moist:qv,qc,qr,qi,qs,qg;scalar:qnn,qnc,qnr package etamp_hwrf mp_physics==85 - moist:qv,qc,qr,qi,qs package nodfimoist mp_physics_dfi==-1 - - package passiveqv_dfi mp_physics_dfi==0 - dfi_moist:dfi_qv package kesslerscheme_dfi mp_physics_dfi==1 - dfi_moist:dfi_qv,dfi_qc,dfi_qr package linscheme_dfi mp_physics_dfi==2 - dfi_moist:dfi_qv,dfi_qc,dfi_qr,dfi_qi,dfi_qs,dfi_qg package wsm3scheme_dfi mp_physics_dfi==3 - dfi_moist:dfi_qv,dfi_qc,dfi_qr package wsm5scheme_dfi mp_physics_dfi==4 - dfi_moist:dfi_qv,dfi_qc,dfi_qr,dfi_qi,dfi_qs package etampnew_dfi mp_physics_dfi==5 - dfi_moist:dfi_qv,dfi_qc,dfi_qr,dfi_qs package wsm6scheme_dfi mp_physics_dfi==6 - dfi_moist:dfi_qv,dfi_qc,dfi_qr,dfi_qi,dfi_qs,dfi_qg package gsfcgcescheme_dfi mp_physics_dfi==7 - dfi_moist:dfi_qv,dfi_qc,dfi_qr,dfi_qi,dfi_qs,dfi_qg package thompson_dfi mp_physics_dfi==8 - dfi_moist:dfi_qv,dfi_qc,dfi_qr,dfi_qi,dfi_qs,dfi_qg;dfi_scalar:dfi_qni,dfi_qnr package milbrandt2mom_dfi mp_physics_dfi==9 - dfi_moist:dfi_qv,dfi_qc,dfi_qr,dfi_qi,dfi_qs,dfi_qg,dfi_qh;dfi_scalar:dfi_qnc,dfi_qnr,dfi_qni,dfi_qns,dfi_qng,dfi_qnh package morr_two_moment_dfi mp_physics_dfi==10 - dfi_moist:dfi_qv,dfi_qc,dfi_qr,dfi_qi,dfi_qs,dfi_qg;dfi_scalar:dfi_qni,dfi_qns,dfi_qnr,dfi_qng package sbu_ylinscheme_dfi mp_physics==13 - dfi_moist:dfi_qv,dfi_qc,dfi_qr,dfi_qi,dfi_qs package wdm5scheme_dfi mp_physics_dfi==14 - dfi_moist:dfi_qv,dfi_qc,dfi_qr,dfi_qi,dfi_qs;dfi_scalar:dfi_qnn,dfi_qnc,dfi_qnr package wdm6scheme_dfi mp_physics_dfi==16 - dfi_moist:dfi_qv,dfi_qc,dfi_qr,dfi_qi,dfi_qs,dfi_qg;dfi_scalar:dfi_qnn,dfi_qnc,dfi_qnr # package noprogn progn==0 - - # package progndrop progn==1 - scalar:qndrop;dfi_scalar:dfi_qndrop package rrtmscheme ra_lw_physics==1 - - package camlwscheme ra_lw_physics==3 - - package rrtmg_lwscheme ra_lw_physics==4 - - package goddardlwscheme ra_lw_physics==5 - - package gfdllwscheme ra_lw_physics==99 - - package hwrflwscheme ra_lw_physics==98 package swradscheme ra_sw_physics==1 - - package gsfcswscheme ra_sw_physics==2 - - package camswscheme ra_sw_physics==3 - - package rrtmg_swscheme ra_sw_physics==4 - - package goddardswscheme ra_sw_physics==5 - - package gfdlswscheme ra_sw_physics==99 - - package hwrfswscheme ra_sw_physics==98 package heldsuarez ra_lw_physics==31 - - package sfclayscheme sf_sfclay_physics==1 - - package myjsfcscheme sf_sfclay_physics==2 - - package gfssfcscheme sf_sfclay_physics==3 - - package gfdlsfcscheme sf_sfclay_physics==88 - - package qnsesfcscheme sf_sfclay_physics==4 - - package pxsfcscheme sf_sfclay_physics==7 - - package temfsfcscheme sf_sfclay_physics==10 - - package idealscmsfcscheme sf_sfclay_physics==89 - - package slabscheme sf_surface_physics==1 - - package lsmscheme sf_surface_physics==2 - - package ruclsmscheme sf_surface_physics==3 - - package gfdlslab sf_surface_physics==88 - - package pxlsmscheme sf_surface_physics==7 - - package ysuscheme bl_pbl_physics==1 - - package myjpblscheme bl_pbl_physics==2 - - package gfsscheme bl_pbl_physics==3 - - package qnsepblscheme bl_pbl_physics==4 - - package acmpblscheme bl_pbl_physics==7 - - package boulacscheme bl_pbl_physics==8 - - package camuwpblscheme bl_pbl_physics==9 - - package mrfscheme bl_pbl_physics==99 - - package temfpblscheme bl_pbl_physics==10 - - package kfetascheme cu_physics==1 - - package bmjscheme cu_physics==2 - - package gdscheme cu_physics==3 - - package sasscheme cu_physics==4 - - package g3scheme cu_physics==5 - - package camzmscheme cu_physics==7 - - package tiedtkescheme cu_physics==6 - - package nsasscheme cu_physics==14 - - package kfscheme cu_physics==99 - - package g3shcuscheme shcu_physics==1 - - package camuwshcuscheme shcu_physics==2 - - 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 - \ state:dfi_pd,dfi_pint,dfi_dwdt,dfi_t,dfi_q,dfi_u,dfi_v,dfi_q2,dfi_cwm,dfi_rrw,dfi_STC,dfi_SMC,dfi_SH2O,dfi_SNOW,dfi_SNOWH,dfi_CANWAT,dfi_NMM_TSK,dfi_SNOWC package dfi_ddfi dfi_opt==2 - \ state:dfi_pd,dfi_pint,dfi_dwdt,dfi_t,dfi_q,dfi_u,dfi_v,dfi_q2,dfi_cwm,dfi_rrw,dfi_STC,dfi_SMC,dfi_SH2O,dfi_SNOW,dfi_SNOWH,dfi_CANWAT,dfi_NMM_TSK,dfi_SNOWC package dfi_tdfi dfi_opt==3 - \ state:dfi_pd,dfi_pint,dfi_dwdt,dfi_t,dfi_q,dfi_u,dfi_v,dfi_q2,dfi_cwm,dfi_rrw,dfi_STC,dfi_SMC,dfi_SH2O,dfi_SNOW,dfi_SNOWH,dfi_CANWAT,dfi_NMM_TSK,dfi_SNOWC # 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 - - ## communications ### 8. Edit the Registry file and create a halo-exchange for x_1. # NMM communications halo HALO_NMM_INIT_1 dyn_nmm 120:HBM2 halo HALO_NMM_INIT_2 dyn_nmm 120:HBM3,VBM2,VBM3 halo HALO_NMM_INIT_3 dyn_nmm 120:SM,SICE halo HALO_NMM_INIT_4 dyn_nmm 120:DX_NMM,WPDAR halo HALO_NMM_INIT_5 dyn_nmm 120:CPGFU,CURV,FCP halo HALO_NMM_INIT_6 dyn_nmm 120:FDIV,FAD,F halo HALO_NMM_INIT_7 dyn_nmm 120:DDMPU,DDMPV,GLAT halo HALO_NMM_INIT_8 dyn_nmm 120:GLON,EPSR,TG halo HALO_NMM_INIT_9 dyn_nmm 120:GFFC,SST,ALBASE #halo HALO_NMM_INIT_10 dyn_nmm 120:HDAC,HDACV,IVGTYP halo HALO_NMM_INIT_10 dyn_nmm 120:HDAC,HDACV #halo HALO_NMM_INIT_11 dyn_nmm 120:ISLTYP,ISLOPE,VEGFRC halo HALO_NMM_INIT_11 dyn_nmm 120:VEGFRC halo HALO_NMM_INIT_12 dyn_nmm 120:DIV,OMGALF,PD,RES halo HALO_NMM_INIT_13 dyn_nmm 120:FIS,T,U halo HALO_NMM_INIT_14 dyn_nmm 120:V,Q,Q2 halo HALO_NMM_INIT_15 dyn_nmm 120:CWM,TRAIN,TCUCN halo HALO_NMM_INIT_15B dyn_nmm 120:moist,scalar halo HALO_NMM_INIT_16 dyn_nmm 120:RSWIN,RSWOUT,TG halo HALO_NMM_INIT_17 dyn_nmm 120:Z0,AKMS,CZEN halo HALO_NMM_INIT_18 dyn_nmm 120:AKHS,THS,QSH halo HALO_NMM_INIT_19 dyn_nmm 120:TWBS,QWBS,HBOT halo HALO_NMM_INIT_20 dyn_nmm 120:CFRACL,THZ0,QZ0 halo HALO_NMM_INIT_21 dyn_nmm 120:UZ0,VZ0,USTAR halo HALO_NMM_INIT_22 dyn_nmm 120:HTOP,CFRACM,SNO halo HALO_NMM_INIT_23 dyn_nmm 120:SI,CLDEFI,RF halo HALO_NMM_INIT_24 dyn_nmm 120:CUPPT,CFRACH,SOILTB halo HALO_NMM_INIT_25 dyn_nmm 120:SFCEXC,SMSTAV,SMSTOT halo HALO_NMM_INIT_26 dyn_nmm 120:GRNFLX,PCTSNO,RLWIN halo HALO_NMM_INIT_27 dyn_nmm 120:RADOT,CZMEAN,SIGT4 halo HALO_NMM_INIT_28 dyn_nmm 120:SR halo HALO_NMM_INIT_29 dyn_nmm 120:PREC,ACPREC,ACCLIQ halo HALO_NMM_INIT_30 dyn_nmm 120:ACFRST,ACSNOW halo HALO_NMM_INIT_31 dyn_nmm 120:ACSNOM,SSROFF,BGROFF halo HALO_NMM_INIT_32 dyn_nmm 120:SFCSHX,SFCLHX,SUBSHX halo HALO_NMM_INIT_33 dyn_nmm 120:SNOPCX,SFCUVX,SFCEVP halo HALO_NMM_INIT_34 dyn_nmm 120:POTEVP,ASWIN,ASWOUT halo HALO_NMM_INIT_35 dyn_nmm 120:ASWTOA,ALWIN,ALWOUT halo HALO_NMM_INIT_36 dyn_nmm 120:ALWTOA,SMC,CMC halo HALO_NMM_INIT_37 dyn_nmm 120:STC,SH2O,ALBEDO halo HALO_NMM_INIT_38 dyn_nmm 120:PINT,Z,DWDT halo HALO_NMM_INIT_39 dyn_nmm 120:TOLD,UOLD,VOLD #for HWRF: zhang increase halo width to fix feedback bug for HALO_NMM_A (24 => 48) #for HWRF: zhang HALO_NMM_C (24 => 48), HALO_NMM_G (24 => 48), HALO_NMM_K (8 => 24) halo HALO_NMM_A dyn_nmm 48:pd,t,u,v,q,cwm,dwdt,div;48:pint halo HALO_NMM_A_3 dyn_nmm 24:moist,scalar halo HALO_NMM_B dyn_nmm 24:div halo HALO_NMM_C dyn_nmm 48:u,v halo HALO_NMM_D dyn_nmm 48:pd halo HALO_NMM_E dyn_nmm 24:petdt halo HALO_NMM_F dyn_nmm 24:t,u,v halo HALO_NMM_F1 dyn_nmm 80:pdslo halo HALO_NMM_G dyn_nmm 48:u,v;24:z halo HALO_NMM_H dyn_nmm 24:w halo HALO_NMM_I dyn_nmm 48:q,q2,cwm,rrw halo HALO_NMM_I_3 dyn_nmm 48:moist,scalar halo HALO_NMM_J dyn_nmm 8:pd,uz0,vz0,t,q,cwm halo HALO_NMM_J_3 dyn_nmm 8:moist,scalar halo HALO_NMM_K dyn_nmm 24:q2;24:t,u,v,q,w,z halo HALO_NMM_L dyn_nmm 8:pd,t,q,cwm,q2 halo HALO_NMM_L_3 dyn_nmm 8:moist,scalar halo HALO_NMM_MG dyn_nmm 8:ht_gc halo HALO_NMM_MG2 dyn_nmm 8:pd,psfc_out halo HALO_NMM_MG3 dyn_nmm 8:p_gc halo HALO_NMM_TURBL_A dyn_nmm 8:uz0h,vz0h,hbm2 halo HALO_NMM_TURBL_B dyn_nmm 8:dudt,dvdt # following halos added for nesting purpose (gopal's doing): halo HALO_NMM_ZZ dyn_nmm 8:pdnest_b,unest_b,vnest_b,tnest_b,qnest_b,cwmnest_b,q2nest_b,pdnest_bt,unest_bt,vnest_bt,tnest_bt,qnest_bt,cwmnest_bt,q2nest_bt halo HALO_NMM_TRACK dyn_nmm 120:sm,pdyn,mslp,sqws halo HALO_NMM_INTERP_DOWN1 dyn_nmm 120:sm,fis,t,u,v,q,q2,z3d,q3d,t3d,pd,albase,nmm_tsk,mxsnal,tg,islope,cmc,soiltb,vegfrc,sh2o,smc,stc,toposoil,xice,ivgtyp,isltyp,vegfra,sst,weasd,snowh,hlat,hlon,z0,landmask,cwm,ustar,ths,qsh,cldefi,pshltr,dwdt,acprec,thz0,qz0,uz0,vz0,htop,hbot,cuppt,rlwtt,rswtt,t_adj,f_ice,f_rain,f_rimef halo HALO_NMM_FORCE_DOWN1 dyn_nmm 120:t,u,v,q,q2,cwm,z3d,q3d,t3d #,qv,qc,qr,qi,qs,qg halo HALO_NMM_WEIGHTS dyn_nmm 48:IIH,JJH,HBWGT1,HBWGT2,HBWGT3,HBWGT4,IIV,JJV,VBWGT1,VBWGT2,VBWGT3,VBWGT4 halo HALO_NMM_SAS_A dyn_nmm 24:uz0h,vz0h,hbm2 halo HALO_NMM_SAS_B dyn_nmm 24:ducudt,dvcudt halo HALO_TRACERS dyn_nmm 48:szj,s1z,spz,tcs