C $Header: /home/ubuntu/mnt/e9_copy/MITgcm/pkg/fizhi/fizhi_driver.F,v 1.10 2004/07/12 21:33:37 molod Exp $ C $Name: $ #include "CPP_OPTIONS.h" subroutine fizhi_driver (myid,im,jm,lm,bi,bj,ptracer,ntracer, . xlats,xlons, . p,u,v,t,q,pl,ple,dpres,pkht,pkl,fracland,landtype,radswt, . phis_var,tgz,sea_ice, . nchp,chlat,chlon,igrd,nchpland,chfr,ityp, . tcanopy,tdeep,ecanopy,swetshal,swetroot,swetdeep,capac,snodep, . ctmt,xxmt,yymt,zetamt,xlmt,khmt,tke, . albvisdr,albvisdf,albnirdr,albnirdf,emiss,alai,agrn, . chemq,chemo3,co2,cfc11,cfc12,cfc22,methane,n2o, . lwdt,lwdtclr,swdt,swdtclr,turbu,turbv,turbt,turbq, . moistu,moistv,moistt,moistq, . radswg,swgclr,fdirpar,fdifpar,osr,osrclr,tg0,radlwg, . st4,dst4,dlwdtg,rainlsp,raincon,snowfall,iras,nlwcld, . cldtot_lw,clras_lw,cldlsp_lw,nlwlz,lwlz,nswcld,cldtot_sw, . clras_sw,cldlsp_sw,nswlz,swlz,imstturbsw,imstturblw,qliqavesw, . qliqavelw,fccavesw,fccavelw,qq) C*********************************************************************** C Purpose C ------- C Driver for the FIZHI high-end Atmospheric Physics C C Arguments Description C ---------------------- C nymd ..... Current YYMMDD C nhms ..... Current HHMMSS C fracland.. Land Fractions C landtype.. Land Vegetation Types C radswt ... Incident Solar Radiation C C*********************************************************************** implicit none c Diagnostic Common c ----------------- #ifdef ALLOW_DIAGNOSTICS #include 'diagnostics.h' #endif c Timers Common c ------------- #include 'chronos.h' c Input Parameters c ---------------- integer myid,im,jm,lm,bi,bj,ptracer,ntracer integer nchp,igrd(nchp),nchpland,ityp(nchp) integer iras,nlwcld,nlwlz,nswcld,nswlz integer imstturbsw,imstturblw real xlats(im,jm), xlons(im,jm) real p(im,jm) real u(im,jm,lm), v(im,jm,lm), t(im,jm,lm) real q(im,jm,lm,ntracer) real pl(im,jm,lm),ple(im,jm,lm+1),dpres(im,jm,lm),pkht(im,jm,lm) real pkl(im,jm,lm) real radswt(im,jm), fracland(im,jm), landtype(im,jm) real phis_var(im,jm), sea_ice(im,jm) real chlat(nchp),chlon(nchp),chfr(nchp) real tcanopy(nchp),tdeep(nchp),ecanopy(nchp),swetshal(nchp) real swetroot(nchp),swetdeep(nchp),capac(nchp),snodep(nchp) real ctmt(nchp),xxmt(nchp),yymt(nchp),zetamt(nchp) real xlmt(nchp,lm),khmt(nchp,lm),tke(nchp,lm) real co2,cfc11,cfc12,cfc22,methane(lm),n2o(lm) real lwdt(im,jm,lm),lwdtclr(im,jm,lm) real swdt(im,jm,lm),swdtclr(im,jm,lm) real turbu(im,jm,lm),turbv(im,jm,lm),turbt(im,jm,lm) real turbq(im,jm,lm) real moistu(im,jm,lm),moistv(im,jm,lm),moistt(im,jm,lm) real moistq(im,jm,lm) real chemo3(im,jm,lm),chemq(im,jm,lm) real albvisdr(im,jm),albvisdf(im,jm),albnirdr(im,jm) real albnirdf(im,jm),emiss(im,jm) real alai(nchp),agrn(nchp) real radswg(im,jm),swgclr(im,jm) real fdirpar(im,jm),fdifpar(im,jm),osr(im,jm),osrclr(im,jm) real tg0(im,jm),radlwg(im,jm),st4(im,jm),dst4(im,jm) real dlwdtg(im,jm,lm) real rainlsp(im,jm),raincon(im,jm),snowfall(im,jm) real cldtot_lw(im,jm,lm),clras_lw(im,jm,lm),cldlsp_lw(im,jm,lm) real lwlz(im,jm,lm) real cldtot_sw(im,jm,lm),clras_sw(im,jm,lm),cldlsp_sw(im,jm,lm) real swlz(im,jm,lm) real qliqavesw(im,jm,lm),qliqavelw(im,jm,lm) real fccavesw(im,jm,lm),fccavelw(im,jm,lm) real qq(im,jm,lm) real tgz(im,jm) c Local Variables c --------------- logical alarm external alarm integer numpcheck parameter (numpcheck = 5) integer pchecklevs(numpcheck) real pcheckpress(numpcheck) data pcheckpress/950.,750.,700.,400.,10./ integer low_level,mid_level,nltop,nsubmin,nsubmax,Lup integer ndmoist,ndturb,ndlw,ndsw integer istrip,npcs integer i,j,L,n integer ndum,ndpnt real dum,akap,getcon real ptop logical lpnt istrip = min( im*jm,71 ) npcs = ((im*jm-1)/istrip) + 1 ptop = 0. akap = getcon('KAPPA') C ********************************************************************** C **** Initialization **** C ********************************************************************** call get_alarm ( 'radlw',ndum,ndum,ndlw ,ndum ) call get_alarm ( 'radsw',ndum,ndum,ndsw ,ndum ) call get_alarm ( 'turb' ,ndum,ndum,ndturb ,ndum ) call get_alarm ( 'moist',ndum,ndum,ndmoist,ndum ) call get_alarm ( 'pnt',ndum,ndum,ndpnt,ndum ) lpnt = ndpnt.ne.0 C Fill array of model levels closest to a given pressure value call getpwhere(myid,numpcheck,pcheckpress,pchecklevs) low_level = pchecklevs(3) mid_level = pchecklevs(4) nltop = pchecklevs(5) nsubmin = pchecklevs(1) nsubmax = pchecklevs(2) Lup = pchecklevs(3) C ********************************************************************** C **** Call Physics Mini-Drivers **** C ********************************************************************** C SHORT WAVE RADIATION C ==================== IF ( alarm('radsw') ) THEN call swrio ( nymd,nhms,bi,bj,ndsw,myid,istrip,npcs, . low_level,mid_level, . p,pl,ple,dpres,pkht,pkl,t,chemq,chemo3,co2, . albvisdr,albvisdf,albnirdr,albnirdf,swdt,swdtclr, . radswg,swgclr,fdifpar,fdirpar,osr,osrclr,im,jm,lm, . ptop,nswcld,cldtot_sw,cldras_sw,nswlz,swlz, . .false.,imstturbsw,qliqavesw, . fccavesw,landtype,xlats,xlons ) ENDIF C LONG WAVE RADIATION C =================== IF ( alarm('radlw') ) THEN c Set Reference Ground Temperature c -------------------------------- do j=1,jm do i=1,im tg0(i,j) = tgz(i,j) enddo enddo call lwrio ( nymd,nhms,bi,bj,istrip,npcs, . low_level,mid_level, . p,pl,ple,dpres,pkht,pkl,t,chemq,pkht,chemo3,co2, . cfc11,cfc12,cfc22,methane,n2o,emiss,tgz,radlwg,st4,dst4, . lwdt,dlwdtg,lwdtclr,lwgclr,im,jm,lm,ptop, . nlwcld,cldtot_lw,cldras_lw,nlwlz,lwlz, . .false.,imstturblw,qliqavelw, . fccavelw,landtype ) ENDIF C TURBULENCE C ========== IF ( alarm('turb') ) THEN call turbio (im,jm,lm,1,nymd,nhms,bi,bj,ndturb, . ptop,p,u,v,t,q,ntracer,ptracer,pl,ple,dpres,pkht,pkl, . ctmt,xxmt,yymt,zetamt,xlmt,khmt,tke, . tgz,fracland,landtype, . tcanopy,ecanopy,tdeep,swetshal,swetroot,swetdeep,snodep,capac, . nchp,nchpland,chfr,chlt,chlon,igrd,ityp,alai,agrn,sea_ice,lpnt, . turbu,turbv,turbt,turbq,radlwg,st4,dst4,radswg,radswt, . fdifpar,fdirpar,rainlsp,rainconv,snowfall,tg0, . imstturblw,imstturbsw,qliqavelw,qliqavesw,fccavelw,fccavesw,qq, . myid) c Add Gravity-Wave Drag Tendency c ------------------------------ C Comment this out for now - run tropospheric resolutions only. C Need to see how to get zonal wavelengths on the cube. c call gwdrag (myid,p,pl,ple,dpres,pkht,pkl,u,v,t,q,phis_var, c . turbu,turbv,turbt,im,jm,lm,ptop,istrip,npcs, c . imglobal) endif C MOIST PROCESSES C =============== if ( alarm('moist') ) then call moistio (ndmoist,istrip,npcs, . low_level,mid_level,nltop,nsubmin,nsubmax,Lup, . p,pl,ple,dpres,pkht,pkl,t,q,bi,bj,ntracer,ptracer,qq, . moistu,moistv,moistt,moistq,im,jm,lm,ptop,iras, . rainlsp,rainconv,snowfall, . nswcld,cldtot_sw,cldras_sw,cldlsp_sw,nswlz,swlz, . nlwcld,cldtot_lw,cldras_lw,cldlsp_lw,nlwlz,lwlz, . .false.,myid) endif return end