/[MITgcm]/MITgcm/pkg/seaice/seaice_calc_strainrates.F

Diff of /MITgcm/pkg/seaice/seaice_calc_strainrates.F

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-revision 1.5 by mlosch,
Tue May 15 14:32:55 2007 UTC
+revision 1.17 by mlosch,
Fri Nov  5 08:13:03 2010 UTC
 Line 4 
 C $Name$
  #include "SEAICE_OPTIONS.h"
  CStartOfInterface
        SUBROUTINE SEAICE_CALC_STRAINRATES(
       I     uFld, vFld,
-      O     e11, e22, e12,
+      O     e11Loc, e22Loc, e12Loc,
-      I     myThid )
+      I     iStep, myTime, myIter, myThid )
  C     /==========================================================\
  C     | SUBROUTINE  SEAICE_CALC_STRAINRATES                      |
  C     | o compute strain rates from ice velocities               |
 Line 22 
 C     === Global variables ===
  #include "PARAMS.h"
  #include "GRID.h"
  #include "SEAICE_PARAMS.h"
+ #include "SEAICE.h"
  #ifdef ALLOW_AUTODIFF_TAMC
  # include "tamc.h"
  #endif
  C     === Routine arguments ===
- C     myThid - Thread no. that called this routine.
+ C     iStep  :: Sub-time-step number
+ C     myTime :: Simulation time
+ C     myIter :: Simulation timestep number
+ C     myThid :: My Thread Id. number
+       INTEGER iStep
+       _RL     myTime
+       INTEGER myIter
        INTEGER myThid
  C     ice velocities
-       _RL uFld(1-Olx:sNx+Olx,1-Oly:sNy+Oly,nSx,nSy)
+       _RL uFld   (1-Olx:sNx+Olx,1-Oly:sNy+Oly,nSx,nSy)
-       _RL vFld(1-Olx:sNx+Olx,1-Oly:sNy+Oly,nSx,nSy)
+       _RL vFld   (1-Olx:sNx+Olx,1-Oly:sNy+Oly,nSx,nSy)
  C     strain rate tensor
-       _RL e11 (1-OLx:sNx+OLx,1-OLy:sNy+OLy,nSx,nSy)
+       _RL e11Loc (1-OLx:sNx+OLx,1-OLy:sNy+OLy,nSx,nSy)
-       _RL e22 (1-OLx:sNx+OLx,1-OLy:sNy+OLy,nSx,nSy)
+       _RL e22Loc (1-OLx:sNx+OLx,1-OLy:sNy+OLy,nSx,nSy)
-       _RL e12 (1-OLx:sNx+OLx,1-OLy:sNy+OLy,nSx,nSy)
+       _RL e12Loc (1-OLx:sNx+OLx,1-OLy:sNy+OLy,nSx,nSy)
  CEndOfInterface
  #ifdef SEAICE_CGRID
-Line 44 
 CEndOfInterface
+Line 51 
 CEndOfInterface
  C     === Local variables ===
  C     i,j,bi,bj - Loop counters
        INTEGER i, j, bi, bj
- C  hFacU, hFacV - determine the no-slip boundary condition
+ C     hFacU, hFacV - determine the no-slip boundary condition
        INTEGER k
-       _RS hFacU, hFacV
+       _RS hFacU, hFacV, noSlipFac
+ C     auxillary variables that help writing code that
+ C     vectorizes even after TAFization
+       _RL dudx (1-OLx:sNx+OLx,1-OLy:sNy+OLy)
+       _RL dvdy (1-OLx:sNx+OLx,1-OLy:sNy+OLy)
+       _RL dudy (1-OLx:sNx+OLx,1-OLy:sNy+OLy)
+       _RL dvdx (1-OLx:sNx+OLx,1-OLy:sNy+OLy)
+       _RL uave (1-OLx:sNx+OLx,1-OLy:sNy+OLy)
+       _RL vave (1-OLx:sNx+OLx,1-OLy:sNy+OLy)
        k = 1
+       noSlipFac = 0. _d 0
+       IF ( SEAICE_no_slip ) noSlipFac = 1. _d 0
  C
        DO bj=myByLo(myThid),myByHi(myThid)
         DO bi=myBxLo(myThid),myBxHi(myThid)
+ C     abbreviations on C-points, need to do them in separate loops
+ C     for vectorization
          DO j=1-Oly,sNy+Oly-1
           DO i=1-Olx,sNx+Olx-1
- C     evaluate strain rates
+           dudx(I,J) = _recip_dxF(I,J,bi,bj) *
-           e11(I,J,bi,bj)= _recip_dxF(I,J,bi,bj) *
       &         (uFld(I+1,J,bi,bj)-uFld(I,J,bi,bj))
-      &         -HALF*
+           uave(I,J) = 0.5 _d 0 * (uFld(I,J,bi,bj)+uFld(I+1,J,bi,bj))
-      &         (vFld(I,J,bi,bj)+vFld(I,J+1,bi,bj))
+          ENDDO
-      &         * _tanPhiAtU(I,J,bi,bj)*recip_rSphere
+         ENDDO
-           e22(I,J,bi,bj)= _recip_dyF(I,J,bi,bj) *
+         DO j=1-Oly,sNy+Oly-1
+          DO i=1-Olx,sNx+Olx-1
+           dvdy(I,J) = _recip_dyF(I,J,bi,bj) *
       &         (vFld(I,J+1,bi,bj)-vFld(I,J,bi,bj))
- C     one metric term is missing
+           vave(I,J) = 0.5 _d 0 * (vFld(I,J,bi,bj)+vFld(I,J+1,bi,bj))
+          ENDDO
+         ENDDO
+ C     evaluate strain rates at C-points
+         DO j=1-Oly,sNy+Oly-1
+          DO i=1-Olx,sNx+Olx-1
+           e11Loc(I,J,bi,bj) = dudx(I,J) + vave(I,J) * k2AtC(I,J,bi,bj)
+           e22Loc(I,J,bi,bj) = dvdy(I,J) + uave(I,J) * k1AtC(I,J,bi,bj)
+          ENDDO
+         ENDDO
+ C     abbreviations at Z-points, need to do them in separate loops
+ C     for vectorization
+         DO j=1-Oly+1,sNy+Oly
+          DO i=1-Olx+1,sNx+Olx
+           dudy(I,J) = ( uFld(I,J,bi,bj) - uFld(I  ,J-1,bi,bj) )
+      &         * _recip_dyU(I,J,bi,bj)
+           uave(I,J) = 0.5 _d 0 * (uFld(I,J,bi,bj)+uFld(I  ,J-1,bi,bj))
+          ENDDO
+         ENDDO
+         DO j=1-Oly+1,sNy+Oly
+          DO i=1-Olx+1,sNx+Olx
+           dvdx(I,J) = ( vFld(I,J,bi,bj) - vFld(I-1,J  ,bi,bj) )
+      &         * _recip_dxV(I,J,bi,bj)
+           vave(I,J) = 0.5 _d 0 * (vFld(I,J,bi,bj)+vFld(I-1,J  ,bi,bj))
           ENDDO
          ENDDO
+ C     evaluate strain rates at Z-points
          DO j=1-Oly+1,sNy+Oly
           DO i=1-Olx+1,sNx+Olx
-           e12(I,J,bi,bj)=HALF*(
+           hFacU = _maskW(i,j,k,bi,bj) - _maskW(i,j-1,k,bi,bj)
-      &         (uFld(I  ,J  ,bi,bj) * _dxC(I  ,J  ,bi,bj)
+           hFacV = _maskS(i,j,k,bi,bj) - _maskS(i-1,j,k,bi,bj)
-      &         -uFld(I  ,J-1,bi,bj) * _dxC(I  ,J-1,bi,bj)
+           e12Loc(I,J,bi,bj) = 0.5 _d 0 * (
-      &         +vFld(I  ,J  ,bi,bj) * _dyC(I  ,J  ,bi,bj)
+      &         dudy(I,J) + dvdx(I,J)
-      &         -vFld(I-1,J  ,bi,bj) * _dyC(I-1,J  ,bi,bj))
+      &         - k1AtZ(I,J,bi,bj) * vave(I,J)
-      &         * recip_rAz(I,J,bi,bj)
+      &         - k2AtZ(I,J,bi,bj) * uave(I,J)
-      &         +
-      &         0.25 _d 0 * (uFld(I,J,bi,bj)+uFld(I  ,J-1,bi,bj))
-      &         * ( _tanPhiAtU(I,J,bi,bj) + _tanPhiAtU(I,J-1,bi,bj) )
-      &         *recip_rSphere
       &         )
       &         *maskC(I  ,J  ,k,bi,bj)*maskC(I-1,J  ,k,bi,bj)
       &         *maskC(I  ,J-1,k,bi,bj)*maskC(I-1,J-1,k,bi,bj)
- C     one metric term is missing
+      &         + 2.0 _d 0 * noSlipFac * (
+      &           2.0 _d 0 * uave(I,J) * _recip_dyU(I,J,bi,bj) * hFacU
+      &         + 2.0 _d 0 * vave(I,J) * _recip_dxV(I,J,bi,bj) * hFacV
+      &         )
+ C     no slip at the boundary implies u(j)+u(j-1)=0 and v(i)+v(i-1)=0
+ C     accross the boundary; this is already accomplished by masking so
+ C     that the following lines are not necessary
+ c$$$     &         - hFacV * k1AtZ(I,J,bi,bj) * vave(I,J)
+ c$$$     &         - hFacU * k2AtZ(I,J,bi,bj) * uave(I,J)
           ENDDO
          ENDDO
-         IF ( SEAICE_no_slip ) THEN
- C     no slip boundary conditions apply only to e12
-          DO j=1-Oly+1,sNy+Oly
-           DO i=1-Olx+1,sNx+Olx
-            hFacU = _maskW(i,j,k,bi,bj) - _maskW(i,j-1,k,bi,bj)
-            hFacV = _maskS(i,j,k,bi,bj) - _maskS(i-1,j,k,bi,bj)
-            e12(I,J,bi,bj)= e12(I,J,bi,bj)
-      &          + recip_rAz(i,j,bi,bj) *
-      &          ( hFacU * ( _dxC(i,j  ,bi,bj)*uFld(i,j  ,bi,bj)
-      &                    + _dxC(i,j-1,bi,bj)*uFld(i,j-1,bi,bj) )
-      &          + hFacV * ( _dyC(i  ,j,bi,bj)*vFld(i  ,j,bi,bj)
-      &                    + _dyC(i-1,j,bi,bj)*vFld(i-1,j,bi,bj) ) )
-      &         - hFacU
-      &         * 0.25 _d 0 * (uFld(I,J,bi,bj)+uFld(I  ,J-1,bi,bj))
-      &         * ( _tanPhiAtU(I,J,bi,bj) + _tanPhiAtU(I,J-1,bi,bj) )
-      &         *recip_rSphere
- C     one metric term is missing
-           ENDDO
-          ENDDO
-         ENDIF
         ENDDO
        ENDDO
+ #ifdef ALLOW_AUTODIFF_TAMC
+ #ifdef SEAICE_DYN_STABLE_ADJOINT
+ cgf zero out adjoint fields to stabilize pkg/seaice dyna. adjoint
+       CALL ZERO_ADJ( 1, e11Loc, myThid)
+       CALL ZERO_ADJ( 1, e12Loc, myThid)
+       CALL ZERO_ADJ( 1, e22Loc, myThid)
+ #endif
+ #endif /* ALLOW_AUTODIFF_TAMC */
  #endif /* SEAICE_ALLOW_DYNAMICS */
  #endif /* SEAICE_CGRID */
        RETURN

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