SUBROUTINE calldrag_noro(ngrid,nlayer,ptimestep, & pplay,pplev,pt,pu,pv,pdtgw,pdugw,pdvgw) IMPLICIT NONE c======================================================================= c subject: c -------- c Subroutine designed to call SUBROUTINE drag_noro c Interface for sub-grid scale orographic scheme c The purpose of this subroutine is c 1) Make some initial calculation at first call c 2) Split the calculation in several sub-grid c ("sub-domain") to save memory and c be able run on a workstation at high resolution c The sub-grid size is defined in dimradmars.h. c c author: c ------ c Christophe Hourdin/ Francois Forget c c changes: c ------- c > J.-B. Madeleine 10W12 c This version uses the variable's splitting, which can be usefull c when performing very high resolution simulation like LES. c c input: c ----- c ngrid number of gridpoint of horizontal grid c nlayer Number of layer c ptimestep Physical timestep (s) c pplay(ngrid,nlayer) pressure (Pa) in the middle of each layer c pplev(ngrid,nlayer+1) pressure (Pa) at boundaries of each layer c pt(ngrid,nlayer) atmospheric temperature (K) c pu(ngrid,nlayer) zonal wind (m s-1) c pv(ngrid,nlayer) meridional wind (m s-1) c c output: c ------- c pdtgw(ngrid,nlayer) Temperature trend (K.s-1) c pdugw(ngrid,nlayer) zonal wind trend (m.s-2) c pdvgw(ngrid,nlayer) meridional wind trend (m.s-2) c c c c c c======================================================================= c c 0. Declarations : c ------------------ c #include "dimensions.h" #include "dimphys.h" #include "dimradmars.h" #include "surfdat.h" c----------------------------------------------------------------------- c Input/Output c ------------ INTEGER ngrid,nlayer real ptimestep REAL pplev(ngrid,nlayer+1),pplay(ngrid,nlayer) REAL pt(ngrid,nlayer), pu(ngrid,nlayer),pv(ngrid,nlayer) REAL pdtgw(ngrid,nlayer), pdugw(ngrid,nlayer),pdvgw(ngrid,nlayer) c c Local variables : c ----------------- REAL sigtest(nlayermx+1) INTEGER igwd,igwdim,itest(ngridmx) INTEGER ndomain parameter (ndomain = (ngridmx-1) / ndomainsz + 1) INTEGER l,ig INTEGER jd,ig0,nd REAL zulow(ngridmx),zvlow(ngridmx) REAL zustr(ngridmx),zvstr(ngridmx) REAL zplev(ndomainsz,nlayermx+1) REAL zplay(ndomainsz,nlayermx) REAL zt(ndomainsz,nlayermx) REAL zu(ndomainsz,nlayermx) REAL zv(ndomainsz,nlayermx) INTEGER zidx(ndomainsz) REAL zzdtgw(ndomainsz,nlayermx) REAL zzdugw(ndomainsz,nlayermx) REAL zzdvgw(ndomainsz,nlayermx) logical ll c local saved variables c --------------------- LOGICAL firstcall DATA firstcall/.true./ SAVE firstcall c---------------------------------------------------------------------- c Initialisation c -------------- IF (firstcall) THEN do l=1,nlayermx+1 sigtest(l)=pplev(1,l)/pplev(1,1) enddo call sugwd(nlayermx,sigtest) if (ngridmx .EQ. 1) then if (ndomainsz .NE. 1) then print* print*,'ATTENTION !!!' print*,'pour tourner en 1D, meme pour drag_noro ' print*,'fixer ndomainsz=1 dans phymars/dimradmars.h' print* call exit(1) endif endif firstcall=.false. END IF c Starting loop on sub-domain c ---------------------------- DO jd=1,ndomain ig0=(jd-1)*ndomainsz if (jd.eq.ndomain) then nd=ngridmx-ig0 else nd=ndomainsz endif c Detecting points concerned by the scheme c ---------------------------------------- igwd=0 DO ig=ig0+1,ig0+nd itest(ig)=0 ll=zstd(ig).gt.50.0 IF(ll) then itest(ig)=1 igwd=igwd+1 zidx(igwd)=ig - ig0 ENDIF ENDDO IGWDIM=MAX(1,IGWD) c Spliting input variable in sub-domain input variables c --------------------------------------------------- do l=1,nlayer+1 do ig = 1,nd zplev(ig,l) = pplev(ig0+ig,l) enddo enddo do l=1,nlayer do ig = 1,nd zplay(ig,l) = pplay(ig0+ig,l) zt(ig,l) = pt(ig0+ig,l) zu(ig,l) = pu(ig0+ig,l) zv(ig,l) = pv(ig0+ig,l) enddo enddo c Calling gravity wave and subgrid scale topo parameterization c ------------------------------------------------------------- call drag_noro (nd,nlayer,ptimestep,zplay,zplev, e zstd(ig0+1),zsig(ig0+1),zgam(ig0+1),zthe(ig0+1), e igwd,igwdim,zidx,itest(ig0+1), e zt, zu, zv, s zulow(ig0+1),zvlow(ig0+1),zustr(ig0+1),zvstr(ig0+1), s zzdtgw,zzdugw,zzdvgw) c Un-spliting output variable from sub-domain input variables c ------------------------------------------------------------ c (and devide by ptimestep -> true tendancies) do l=1,nlayer do ig = 1,nd pdtgw(ig0+ig,l) = zzdtgw(ig,l)/ptimestep pdugw(ig0+ig,l) = zzdugw(ig,l)/ptimestep pdvgw(ig0+ig,l) = zzdvgw(ig,l)/ptimestep enddo enddo ENDDO ! (boucle jd=1, ndomain) return end