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I myIter, myThid ) |
I myIter, myThid ) |
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C !DESCRIPTION: |
C !DESCRIPTION: |
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C Calculates stats for Kinetic energy |
C Calculates stats for Kinetic Energy, (barotropic) Potential Energy |
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C and total Angular Momentum |
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C !USES: |
C !USES: |
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IMPLICIT NONE |
IMPLICIT NONE |
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CEOP |
CEOP |
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C !LOCAL VARIABLES: |
C !LOCAL VARIABLES: |
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INTEGER bi,bj,i,j,k,kp1 |
INTEGER bi, bj |
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INTEGER i,j,k |
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INTEGER ks, kp1 |
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_RL numPnts,theVol,tmpVal, mskp1, msk_1 |
_RL numPnts,theVol,tmpVal, mskp1, msk_1 |
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_RL theMax,theMean,theVolMean,potEnMean |
_RL theMax,theMean,theVolMean,potEnMean |
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_RL uBarC, vBarC, totAMu, totAMs |
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_RL tileMean(nSx,nSy) |
_RL tileMean(nSx,nSy) |
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_RL tileVlAv(nSx,nSy) |
_RL tileVlAv(nSx,nSy) |
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_RL tilePEav(nSx,nSy) |
_RL tilePEav(nSx,nSy) |
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_RL tileVol (nSx,nSy) |
_RL tileVol (nSx,nSy) |
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_RL tileAMu (nSx,nSy) |
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_RL tileAMs (nSx,nSy) |
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_RL radDist(1:sNx,1:sNy) |
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#ifdef ALLOW_NONHYDROSTATIC |
#ifdef ALLOW_NONHYDROSTATIC |
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_RL tmpWke |
_RL tmpWke |
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#endif |
#endif |
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C---+----1----+----2----+----3----+----4----+----5----+----6----+----7-|--+----| |
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numPnts=0. |
numPnts=0. |
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theVol=0. |
theVol=0. |
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theMax=0. |
theMax=0. |
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C- Note: Present NH implementation does not account for D.w/dt at k=1. |
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). |
C Consequently, wVel(k=1) does not contribute to NH KE (msk_1=0). |
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msk_1 = 1. |
msk_1 = 1. |
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IF ( k.EQ. 1 ) msk_1 = 0. |
IF ( k.EQ.1 .AND. selectNHfreeSurf.LE.0 ) msk_1 = 0. |
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DO j=1,sNy |
DO j=1,sNy |
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DO i=1,sNx |
DO i=1,sNx |
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tileVol(bi,bj) = tileVol(bi,bj) |
tileVol(bi,bj) = tileVol(bi,bj) |
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& + rA(i,j,bi,bj)*deepFac2C(k) |
& + rA(i,j,bi,bj)*deepFac2C(k) |
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& *rhoFacC(k)*drF(k)*_hFacC(i,j,k,bi,bj) |
& *rhoFacC(k)*drF(k)*_hFacC(i,j,k,bi,bj) |
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& *maskInC(i,j,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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& *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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& ) |
& )*maskInC(i,j,bi,bj) |
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tileVlAv(bi,bj) = tileVlAv(bi,bj) |
tileVlAv(bi,bj) = tileVlAv(bi,bj) |
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& + tmpVal*deepFac2C(k)*rhoFacC(k)*drF(k) |
& + 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) |
tmpVal= tmpVal*_recip_hFacC(i,j,k,bi,bj)*recip_rA(i,j,bi,bj) |
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& *deepFac2F( k )*rhoFacF( k ) |
& *deepFac2F( k )*rhoFacF( k ) |
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& +wVel(i,j,kp1,bi,bj)*wVel(i,j,kp1,bi,bj)*mskp1 |
& +wVel(i,j,kp1,bi,bj)*wVel(i,j,kp1,bi,bj)*mskp1 |
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& *deepFac2F(kp1)*rhoFacF(kp1) |
& *deepFac2F(kp1)*rhoFacF(kp1) |
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& )*maskC(i,j,k,bi,bj) |
& )*maskC(i,j,k,bi,bj)*maskInC(i,j,bi,bj) |
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tileVlAv(bi,bj) = tileVlAv(bi,bj) |
tileVlAv(bi,bj) = tileVlAv(bi,bj) |
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& + tmpWke*rA(i,j,bi,bj)*drF(k)*_hFacC(i,j,k,bi,bj) |
& + tmpWke*rA(i,j,bi,bj)*drF(k)*_hFacC(i,j,k,bi,bj) |
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tmpVal = tmpVal |
tmpVal = tmpVal |
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potEnMean = potEnMean/theVol |
potEnMean = potEnMean/theVol |
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ENDIF |
ENDIF |
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C-- Compute total angular momentum |
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IF ( mon_output_AM ) THEN |
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DO bj=myByLo(myThid),myByHi(myThid) |
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DO bi=myBxLo(myThid),myBxHi(myThid) |
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C- calculate radial distance |
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DO j=1,sNy |
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DO i=1,sNx |
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radDist(i,j) = rSphere*COS( deg2rad*yC(i,j,bi,bj) ) |
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& *maskInC(i,j,bi,bj) |
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ENDDO |
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ENDDO |
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C- calculate contribution from zonal velocity |
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tileAMu(bi,bj) = 0. _d 0 |
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tileAMs(bi,bj) = 0. _d 0 |
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DO k=1,Nr |
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DO j=1,sNy |
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DO i=1,sNx |
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uBarC = (uVel(i,j,k,bi,bj)+uVel(i+1,j,k,bi,bj))*0.5 _d 0 |
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vBarC = (vVel(i,j,k,bi,bj)+vVel(i,j+1,k,bi,bj))*0.5 _d 0 |
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tmpVal = ( angleCosC(i,j,bi,bj)*uBarC |
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& -angleSinC(i,j,bi,bj)*vBarC |
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& )*radDist(i,j)*deepFacC(k) |
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tileAMu(bi,bj) = tileAMu(bi,bj) |
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& + tmpVal*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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ENDDO |
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ENDDO |
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ENDDO |
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C- add contribution from mass distribution anomaly (i.e., free-surface) |
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c IF ( nonlinFreeSurf.GT.0 ) THEN |
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DO j=1,sNy |
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DO i=1,sNx |
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ks = kSurfC(i,j,bi,bj) |
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tmpVal = omega*etaN(i,j,bi,bj) |
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& * radDist(i,j)*radDist(i,j)*deepFac2F(ks) |
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tileAMs(bi,bj) = tileAMs(bi,bj) |
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& + tmpVal*rA(i,j,bi,bj)*deepFac2F(ks)*rhoFacF(ks) |
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ENDDO |
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ENDDO |
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c ENDIF |
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C- end bi,bj loops |
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ENDDO |
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ENDDO |
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CALL GLOBAL_SUM_TILE_RL( tileAMu , totAMu, myThid ) |
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CALL GLOBAL_SUM_TILE_RL( tileAMs , totAMs, myThid ) |
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C-- Print stats for total Angular Momentum: |
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CALL MON_SET_PREF('am',myThid) |
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totAMu = totAMu*rUnit2mass |
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totAMs = totAMs*rUnit2mass |
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IF ( globalArea.GT.0. ) totAMu = totAMu/globalArea |
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IF ( globalArea.GT.0. ) totAMs = totAMs/globalArea |
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CALL MON_OUT_RL( mon_string_none, totAMs, |
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& '_eta_mean', myThid ) |
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CALL MON_OUT_RL( mon_string_none, totAMu, |
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& '_uZo_mean', myThid ) |
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totAMu = totAMu + totAMs |
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CALL MON_OUT_RL( mon_string_none, totAMu, |
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& '_tot_mean', myThid ) |
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ENDIF |
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C-- Print stats for (barotropic) Potential Energy: |
C-- Print stats for (barotropic) Potential Energy: |
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CALL MON_SET_PREF('pe_b',myThid) |
CALL MON_SET_PREF('pe_b',myThid) |
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CALL MON_OUT_RL(mon_string_none,potEnMean, |
CALL MON_OUT_RL(mon_string_none,potEnMean, |
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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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