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C $Header$ |
C $Header$ |
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C $Name$ |
C $Name$ |
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#include "CPP_OPTIONS.h" |
#include "MONITOR_OPTIONS.h" |
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C---+----1----+----2----+----3----+----4----+----5----+----6----+----7-|--+----| |
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CBOP |
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C !ROUTINE: MON_KE |
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C !INTERFACE: |
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SUBROUTINE MON_KE( |
SUBROUTINE MON_KE( |
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I myThid ) |
I myIter, myThid ) |
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C /==========================================================\ |
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C | SUBROUTINE MON_KE | |
C !DESCRIPTION: |
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C | o Calculates stats for Kinetic energy | |
C Calculates stats for Kinetic energy |
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C |==========================================================| |
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C \==========================================================/ |
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IMPLICIT NONE |
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C === Global data === |
C !USES: |
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IMPLICIT NONE |
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#include "SIZE.h" |
#include "SIZE.h" |
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#include "EEPARAMS.h" |
#include "EEPARAMS.h" |
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#include "PARAMS.h" |
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#include "DYNVARS.h" |
#include "DYNVARS.h" |
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#include "MONITOR.h" |
#include "MONITOR.h" |
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#include "GRID.h" |
#include "GRID.h" |
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#include "SURFACE.h" |
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C === Routine arguments === |
C !INPUT PARAMETERS: |
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INTEGER myThid |
INTEGER myIter, myThid |
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CEOP |
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C === Local variables ==== |
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INTEGER bi,bj,I,J,K |
C !LOCAL VARIABLES: |
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_RL tmpVal,tmpVol,theMax,theMean,theVolMean,theVol |
INTEGER bi,bj,i,j,k,kp1 |
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INTEGER numPnts |
_RL numPnts,theVol,tmpVal, mskp1, msk_1 |
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_RL theMax,theMean,theVolMean,potEnMean |
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_RL tileMean(nSx,nSy) |
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_RL tileVlAv(nSx,nSy) |
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_RL tilePEav(nSx,nSy) |
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_RL tileVol (nSx,nSy) |
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#ifdef ALLOW_NONHYDROSTATIC |
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_RL tmpWke |
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#endif |
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numPnts=0. |
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theVol=0. |
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theMax=0. |
theMax=0. |
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numPnts=0 |
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theMean=0. |
theMean=0. |
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theVolMean=0. |
theVolMean=0. |
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theVol=0. |
potEnMean =0. |
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DO bj=myByLo(myThid),myByHi(myThid) |
DO bj=myByLo(myThid),myByHi(myThid) |
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DO bi=myBxLo(myThid),myBxHi(myThid) |
DO bi=myBxLo(myThid),myBxHi(myThid) |
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DO K=1,Nr |
tileVol(bi,bj) = 0. _d 0 |
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DO J=1,sNy |
tileMean(bi,bj) = 0. _d 0 |
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DO I=1,sNx |
tileVlAv(bi,bj) = 0. _d 0 |
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theVol=theVol+rA(i,j,bi,bj)*drF(k)*hFacC(i,j,k,bi,bj) |
tilePEav(bi,bj) = 0. _d 0 |
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DO k=1,Nr |
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kp1 = MIN(k+1,Nr) |
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mskp1 = 1. |
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IF ( k.GE.Nr ) mskp1 = 0. |
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C- Note: Present NH implementation does not account for D.w/dt at k=1. |
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C Consequently, wVel(k=1) does not contribute to NH KE (msk_1=0). |
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msk_1 = 1. |
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IF ( k.EQ. 1 ) msk_1 = 0. |
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DO j=1,sNy |
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DO i=1,sNx |
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tileVol(bi,bj) = tileVol(bi,bj) |
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& + rA(i,j,bi,bj)*deepFac2C(k) |
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& *rhoFacC(k)*drF(k)*_hFacC(i,j,k,bi,bj) |
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C- Vector Invariant form (like in pkg/mom_vecinv/mom_vi_calc_ke.F) |
C- Vector Invariant form (like in pkg/mom_vecinv/mom_vi_calc_ke.F) |
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c tmpVal=0.25*( uVel( I , J ,K,bi,bj)*uVel( I , J ,K,bi,bj) |
c tmpVal=0.25*( uVel( i , j ,k,bi,bj)*uVel( i , j ,k,bi,bj) |
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c & +uVel(I+1, J ,K,bi,bj)*uVel(I+1, J ,K,bi,bj) |
c & +uVel(i+1, j ,k,bi,bj)*uVel(i+1, j ,k,bi,bj) |
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c & +vVel( I , J ,K,bi,bj)*vVel( I , J ,K,bi,bj) |
c & +vVel( i , j ,k,bi,bj)*vVel( i , j ,k,bi,bj) |
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c & +vVel( I ,J+1,K,bi,bj)*vVel( I ,J+1,K,bi,bj) ) |
c & +vVel( i ,j+1,k,bi,bj)*vVel( i ,j+1,k,bi,bj) ) |
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c theVolMean=theVolMean+tmpVal |
c tileVlAv(bi,bj) = tileVlAv(bi,bj) |
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c & *ra(i,j,bi,bj)*drf(k)*hFacC(i,j,k,bi,bj) |
c & +tmpVal*rA(i,j,bi,bj)*drF(k)*hFacC(i,j,k,bi,bj) |
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C- Energy conservative form (like in pkg/mom_fluxform/mom_calc_ke.F) |
C- Energy conservative form (like in pkg/mom_fluxform/mom_calc_ke.F) |
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C this is the safe way to check the energy conservation |
C this is the safe way to check the energy conservation |
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C with no assumption on how grid spacing & area are defined. |
C with no assumption on how grid spacing & area are defined. |
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tmpVal=0.25*( |
tmpVal=0.25*( |
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& uVel( i ,j,k,bi,bj)*uVel( i ,j,k,bi,bj) |
& uVel( i ,j,k,bi,bj)*uVel( i ,j,k,bi,bj) |
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& *dyG( i ,j,bi,bj)*dxC( i ,j,bi,bj)*hFacW( i ,j,k,bi,bj) |
& *dyG( i ,j,bi,bj)*dxC( i ,j,bi,bj)*_hFacW( i ,j,k,bi,bj) |
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& +uVel(i+1,j,k,bi,bj)*uVel(i+1,j,k,bi,bj) |
& +uVel(i+1,j,k,bi,bj)*uVel(i+1,j,k,bi,bj) |
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& *dyG(i+1,j,bi,bj)*dxC(i+1,j,bi,bj)*hFacW(i+1,j,k,bi,bj) |
& *dyG(i+1,j,bi,bj)*dxC(i+1,j,bi,bj)*_hFacW(i+1,j,k,bi,bj) |
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& +vVel(i, j ,k,bi,bj)*vVel(i, j ,k,bi,bj) |
& +vVel(i, j ,k,bi,bj)*vVel(i, j ,k,bi,bj) |
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& *dxG(i, j ,bi,bj)*dyC(i, j ,bi,bj)*hFacS(i, j ,k,bi,bj) |
& *dxG(i, j ,bi,bj)*dyC(i, j ,bi,bj)*_hFacS(i, j ,k,bi,bj) |
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& +vVel(i,j+1,k,bi,bj)*vVel(i,j+1,k,bi,bj) |
& +vVel(i,j+1,k,bi,bj)*vVel(i,j+1,k,bi,bj) |
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& *dxG(i,j+1,bi,bj)*dyC(i,j+1,bi,bj)*hFacS(i,j+1,k,bi,bj) |
& *dxG(i,j+1,bi,bj)*dyC(i,j+1,bi,bj)*_hFacS(i,j+1,k,bi,bj) |
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& ) |
& ) |
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theVolMean= theVolMean + tmpVal*drF(k) |
tileVlAv(bi,bj) = tileVlAv(bi,bj) |
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tmpVal= tmpVal*recip_hFacC(i,j,k,bi,bj)*recip_rA(i,j,bi,bj) |
& + tmpVal*deepFac2C(k)*rhoFacC(k)*drF(k) |
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tmpVal= tmpVal*_recip_hFacC(i,j,k,bi,bj)*recip_rA(i,j,bi,bj) |
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#ifdef ALLOW_NONHYDROSTATIC |
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IF ( nonHydrostatic ) THEN |
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tmpWke = 0.25* |
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& ( wVel(i,j, k, bi,bj)*wVel(i,j, k, bi,bj)*msk_1 |
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& *deepFac2F( k )*rhoFacF( k ) |
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& +wVel(i,j,kp1,bi,bj)*wVel(i,j,kp1,bi,bj)*mskp1 |
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& *deepFac2F(kp1)*rhoFacF(kp1) |
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& )*maskC(i,j,k,bi,bj) |
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tileVlAv(bi,bj) = tileVlAv(bi,bj) |
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& + tmpWke*rA(i,j,bi,bj)*drF(k)*_hFacC(i,j,k,bi,bj) |
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tmpVal = tmpVal |
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& + tmpWke*recip_deepFac2C(k)*recip_rhoFacC(k) |
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ENDIF |
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#endif |
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theMax=max(theMax,tmpVal) |
theMax=MAX(theMax,tmpVal) |
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IF (tmpVal.NE.0.) THEN |
IF (tmpVal.NE.0.) THEN |
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theMean=theMean+tmpVal |
tileMean(bi,bj)=tileMean(bi,bj)+tmpVal |
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numPnts=numPnts+1 |
numPnts=numPnts+1. |
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ENDIF |
ENDIF |
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ENDDO |
ENDDO |
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ENDDO |
ENDDO |
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ENDDO |
ENDDO |
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C- Potential Energy (external mode): |
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DO j=1,sNy |
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DO i=1,sNx |
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tmpVal = 0.5 _d 0*Bo_surf(i,j,bi,bj) |
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& *etaN(i,j,bi,bj)*etaN(i,j,bi,bj) |
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C- jmc: if geoid not flat (phi0surf), needs to add this term. |
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C not sure for atmos/ocean in P ; or atmos. loading in ocean-Z |
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tmpVal = tmpVal |
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& + phi0surf(i,j,bi,bj)*etaN(i,j,bi,bj) |
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tilePEav(bi,bj) = tilePEav(bi,bj) |
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& + tmpVal*rA(i,j,bi,bj)*deepFac2F(1) |
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& *maskInC(i,j,bi,bj) |
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c tmpVal = etaN(i,j,bi,bj) |
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c & + phi0surf(i,j,bi,bj)*recip_Bo(i,j,bi,bj) |
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c tilePEav(bi,bj) = tilePEav(bi,bj) |
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c & + 0.5 _d 0*Bo_surf(i,j,bi,bj)*tmpVal*tmpVal |
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c & *rA(i,j,bi,bj)*maskInC(i,j,bi,bj) |
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ENDDO |
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ENDDO |
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C- end bi,bj loops |
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ENDDO |
ENDDO |
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ENDDO |
ENDDO |
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_GLOBAL_MAX_R8(theMax,myThid) |
_GLOBAL_SUM_RL(numPnts,myThid) |
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_GLOBAL_SUM_R8(theMean,myThid) |
_GLOBAL_MAX_RL(theMax,myThid) |
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tmpVal=float(numPnts) |
CALL GLOBAL_SUM_TILE_RL( tileMean, theMean , myThid ) |
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_GLOBAL_SUM_R8(tmpVal,myThid) |
CALL GLOBAL_SUM_TILE_RL( tileVol , theVol , myThid ) |
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IF (tmpVal.NE.0.) theMean=theMean/tmpVal |
CALL GLOBAL_SUM_TILE_RL( tileVlAv, theVolMean, myThid ) |
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_GLOBAL_SUM_R8(theVol,myThid) |
CALL GLOBAL_SUM_TILE_RL( tilePEav, potEnMean , myThid ) |
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_GLOBAL_SUM_R8(theVolMean,myThid) |
IF (numPnts.NE.0.) theMean=theMean/numPnts |
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IF (theVol.NE.0.) THEN |
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theVolMean=theVolMean/theVol |
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potEnMean = potEnMean/theVol |
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ENDIF |
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C-- Print stats for (barotropic) Potential Energy: |
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CALL MON_SET_PREF('pe_b',myThid) |
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CALL MON_OUT_RL(mon_string_none,potEnMean, |
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& mon_foot_mean,myThid) |
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C-- Print stats for KE |
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CALL MON_SET_PREF('ke',myThid) |
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CALL MON_OUT_RL(mon_string_none,theMax,mon_foot_max,myThid) |
CALL MON_OUT_RL(mon_string_none,theMax,mon_foot_max,myThid) |
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CALL MON_OUT_RL(mon_string_none,theMean,mon_foot_mean,myThid) |
c CALL MON_OUT_RL(mon_string_none,theMean,mon_foot_mean,myThid) |
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CALL MON_OUT_RL(mon_string_none,theVolMean, |
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& mon_foot_volint,myThid) |
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IF (theVol.NE.0.) theVolMean=theVolMean/theVol |
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CALL MON_OUT_RL(mon_string_none,theVolMean, |
CALL MON_OUT_RL(mon_string_none,theVolMean, |
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& mon_foot_volmean,myThid) |
& mon_foot_mean,myThid) |
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CALL MON_OUT_RL(mon_string_none,theVol, |
CALL MON_OUT_RL(mon_string_none,theVol, |
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& mon_foot_vol,myThid) |
& mon_foot_vol,myThid) |
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RETURN |
RETURN |
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END |
END |
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C---+----1----+----2----+----3----+----4----+----5----+----6----+----7-|--+----| |
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