/[MITgcm]/MITgcm/model/src/dynamics.F

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-revision 1.56 by heimbach,
Mon Jan 29 20:05:46 2001 UTC
+revision 1.130 by jmc,
Thu Mar 16 16:29:40 2006 UTC
 Line 1
  C $Header$
+ C $Name$
+ #include "PACKAGES_CONFIG.h"
  #include "CPP_OPTIONS.h"
+ #undef DYNAMICS_GUGV_EXCH_CHECK
+ CBOP
+ C     !ROUTINE: DYNAMICS
+ C     !INTERFACE:
        SUBROUTINE DYNAMICS(myTime, myIter, myThid)
- C     /==========================================================\
+ C     !DESCRIPTION: \bv
- C     | SUBROUTINE DYNAMICS                                      |
+ C     *==========================================================*
- C     | o Controlling routine for the explicit part of the model |
+ C     | SUBROUTINE DYNAMICS
- C     |   dynamics.                                              |
+ C     | o Controlling routine for the explicit part of the model
- C     |==========================================================|
+ C     |   dynamics.
- C     | This routine evaluates the "dynamics" terms for each     |
+ C     *==========================================================*
- C     | block of ocean in turn. Because the blocks of ocean have |
+ C     | This routine evaluates the "dynamics" terms for each
- C     | overlap regions they are independent of one another.     |
+ C     | block of ocean in turn. Because the blocks of ocean have
- C     | If terms involving lateral integrals are needed in this  |
+ C     | overlap regions they are independent of one another.
- C     | routine care will be needed. Similarly finite-difference |
+ C     | If terms involving lateral integrals are needed in this
- C     | operations with stencils wider than the overlap region   |
+ C     | routine care will be needed. Similarly finite-difference
- C     | require special consideration.                           |
+ C     | operations with stencils wider than the overlap region
- C     | Notes                                                    |
+ C     | require special consideration.
- C     | =====                                                    |
+ C     | The algorithm...
- C     | C*P* comments indicating place holders for which code is |
+ C     |
- C     |      presently being developed.                          |
+ C     | "Correction Step"
- C     \==========================================================/
+ C     | =================
+ C     | Here we update the horizontal velocities with the surface
+ C     | pressure such that the resulting flow is either consistent
+ C     | with the free-surface evolution or the rigid-lid:
+ C     |   U[n] = U* + dt x d/dx P
+ C     |   V[n] = V* + dt x d/dy P
+ C     |   W[n] = W* + dt x d/dz P  (NH mode)
+ C     |
+ C     | "Calculation of Gs"
+ C     | ===================
+ C     | This is where all the accelerations and tendencies (ie.
+ C     | physics, parameterizations etc...) are calculated
+ C     |   rho = rho ( theta[n], salt[n] )
+ C     |   b   = b(rho, theta)
+ C     |   K31 = K31 ( rho )
+ C     |   Gu[n] = Gu( u[n], v[n], wVel, b, ... )
+ C     |   Gv[n] = Gv( u[n], v[n], wVel, b, ... )
+ C     |   Gt[n] = Gt( theta[n], u[n], v[n], wVel, K31, ... )
+ C     |   Gs[n] = Gs( salt[n], u[n], v[n], wVel, K31, ... )
+ C     |
+ C     | "Time-stepping" or "Prediction"
+ C     | ================================
+ C     | The models variables are stepped forward with the appropriate
+ C     | time-stepping scheme (currently we use Adams-Bashforth II)
+ C     | - For momentum, the result is always *only* a "prediction"
+ C     | in that the flow may be divergent and will be "corrected"
+ C     | later with a surface pressure gradient.
+ C     | - Normally for tracers the result is the new field at time
+ C     | level [n+1} *BUT* in the case of implicit diffusion the result
+ C     | is also *only* a prediction.
+ C     | - We denote "predictors" with an asterisk (*).
+ C     |   U* = U[n] + dt x ( 3/2 Gu[n] - 1/2 Gu[n-1] )
+ C     |   V* = V[n] + dt x ( 3/2 Gv[n] - 1/2 Gv[n-1] )
+ C     |   theta[n+1] = theta[n] + dt x ( 3/2 Gt[n] - 1/2 atG[n-1] )
+ C     |   salt[n+1] = salt[n] + dt x ( 3/2 Gt[n] - 1/2 atG[n-1] )
+ C     | With implicit diffusion:
+ C     |   theta* = theta[n] + dt x ( 3/2 Gt[n] - 1/2 atG[n-1] )
+ C     |   salt* = salt[n] + dt x ( 3/2 Gt[n] - 1/2 atG[n-1] )
+ C     |   (1 + dt * K * d_zz) theta[n] = theta*
+ C     |   (1 + dt * K * d_zz) salt[n] = salt*
+ C     |
+ C     *==========================================================*
+ C     \ev
+ C     !USES:
        IMPLICIT NONE
  C     == Global variables ===
  #include "SIZE.h"
  #include "EEPARAMS.h"
- #include "CG2D.h"
  #include "PARAMS.h"
  #include "DYNVARS.h"
+ #ifdef ALLOW_CD_CODE
+ #include "CD_CODE_VARS.h"
+ #endif
  #include "GRID.h"
  #ifdef ALLOW_AUTODIFF_TAMC
  # include "tamc.h"
  # include "tamc_keys.h"
  # include "FFIELDS.h"
+ # include "EOS.h"
  # ifdef ALLOW_KPP
  #  include "KPP.h"
  # endif
- # ifdef ALLOW_GMREDI
- #  include "GMREDI.h"
- # endif
  #endif /* ALLOW_AUTODIFF_TAMC */
+ C     !CALLING SEQUENCE:
+ C     DYNAMICS()
+ C      |
+ C      |-- CALC_EP_FORCING
+ C      |
+ C      |-- CALC_GRAD_PHI_SURF
+ C      |
+ C      |-- CALC_VISCOSITY
+ C      |
+ C      |-- CALC_PHI_HYD
+ C      |
+ C      |-- MOM_FLUXFORM
+ C      |
+ C      |-- MOM_VECINV
+ C      |
+ C      |-- TIMESTEP
+ C      |
+ C      |-- OBCS_APPLY_UV
+ C      |
+ C      |-- MOM_U_IMPLICIT_R
+ C      |-- MOM_V_IMPLICIT_R
+ C      |
+ C      |-- IMPLDIFF
+ C      |
+ C      |-- OBCS_APPLY_UV
+ C      |
+ C      |-- CALC_GW
+ C      |
+ C      |-- DIAGNOSTICS_FILL
+ C      |-- DEBUG_STATS_RL
+ C     !INPUT/OUTPUT PARAMETERS:
  C     == Routine arguments ==
  C     myTime - Current time in simulation
  C     myIter - Current iteration number in simulation
-Line 50 
 C     myThid - Thread number for this in
+Line 129 
 C     myThid - Thread number for this in
        INTEGER myIter
        INTEGER myThid
+ C     !LOCAL VARIABLES:
  C     == Local variables
- C     xA, yA                 - Per block temporaries holding face areas
+ C     fVer[UV]               o fVer: Vertical flux term - note fVer
- C     uTrans, vTrans, rTrans - Per block temporaries holding flow
+ C                                    is "pipelined" in the vertical
- C                              transport
+ C                                    so we need an fVer for each
- C     rVel                     o uTrans: Zonal transport
+ C                                    variable.
- C                              o vTrans: Meridional transport
+ C     phiHydC    :: hydrostatic potential anomaly at cell center
- C                              o rTrans: Vertical transport
+ C                   In z coords phiHyd is the hydrostatic potential
- C                              o rVel:   Vertical velocity at upper and
+ C                      (=pressure/rho0) anomaly
- C                                        lower cell faces.
+ C                   In p coords phiHyd is the geopotential height anomaly.
- C     maskC,maskUp             o maskC: land/water mask for tracer cells
+ C     phiHydF    :: hydrostatic potential anomaly at middle between 2 centers
- C                              o maskUp: land/water mask for W points
+ C     dPhiHydX,Y :: Gradient (X & Y directions) of hydrostatic potential anom.
- C     aTerm, xTerm, cTerm    - Work arrays for holding separate terms in
+ C     phiSurfX,  ::  gradient of Surface potential (Pressure/rho, ocean)
- C     mTerm, pTerm,            tendency equations.
+ C     phiSurfY             or geopotential (atmos) in X and Y direction
- C     fZon, fMer, fVer[STUV]   o aTerm: Advection term
+ C     guDissip   :: dissipation tendency (all explicit terms), u component
- C                              o xTerm: Mixing term
+ C     gvDissip   :: dissipation tendency (all explicit terms), v component
- C                              o cTerm: Coriolis term
- C                              o mTerm: Metric term
- C                              o pTerm: Pressure term
- C                              o fZon: Zonal flux term
- C                              o fMer: Meridional flux term
- C                              o fVer: Vertical flux term - note fVer
- C                                      is "pipelined" in the vertical
- C                                      so we need an fVer for each
- C                                      variable.
- C     rhoK, rhoKM1   - Density at current level, level above and level
- C                      below.
- C     rhoKP1
- C     buoyK, buoyKM1 - Buoyancy at current level and level above.
- C     phiHyd         - Hydrostatic part of the potential phiHydi.
- C                      In z coords phiHydiHyd is the hydrostatic
- C                      pressure anomaly
- C                      In p coords phiHydiHyd is the geopotential
- C                      surface height
- C                      anomaly.
- C     etaSurfX,      - Holds surface elevation gradient in X and Y.
- C     etaSurfY
- C     KappaRT,       - Total diffusion in vertical for T and S.
- C     KappaRS          (background + spatially varying, isopycnal term).
  C     iMin, iMax     - Ranges and sub-block indices on which calculations
  C     jMin, jMax       are applied.
  C     bi, bj
  C     k, kup,        - Index for layer above and below. kup and kDown
  C     kDown, km1       are switched with layer to be the appropriate
  C                      index into fVerTerm.
-       _RS xA      (1-OLx:sNx+OLx,1-OLy:sNy+OLy)
-       _RS yA      (1-OLx:sNx+OLx,1-OLy:sNy+OLy)
-       _RL uTrans  (1-OLx:sNx+OLx,1-OLy:sNy+OLy)
-       _RL vTrans  (1-OLx:sNx+OLx,1-OLy:sNy+OLy)
-       _RL rTrans  (1-OLx:sNx+OLx,1-OLy:sNy+OLy)
-       _RL rVel    (1-OLx:sNx+OLx,1-OLy:sNy+OLy,2)
-       _RS maskC   (1-OLx:sNx+OLx,1-OLy:sNy+OLy)
-       _RS maskUp  (1-OLx:sNx+OLx,1-OLy:sNy+OLy)
-       _RL aTerm   (1-OLx:sNx+OLx,1-OLy:sNy+OLy)
-       _RL xTerm   (1-OLx:sNx+OLx,1-OLy:sNy+OLy)
-       _RL cTerm   (1-OLx:sNx+OLx,1-OLy:sNy+OLy)
-       _RL mTerm   (1-OLx:sNx+OLx,1-OLy:sNy+OLy)
-       _RL pTerm   (1-OLx:sNx+OLx,1-OLy:sNy+OLy)
-       _RL fZon    (1-OLx:sNx+OLx,1-OLy:sNy+OLy)
-       _RL fMer    (1-OLx:sNx+OLx,1-OLy:sNy+OLy)
-       _RL fVerT   (1-OLx:sNx+OLx,1-OLy:sNy+OLy,2)
-       _RL fVerS   (1-OLx:sNx+OLx,1-OLy:sNy+OLy,2)
        _RL fVerU   (1-OLx:sNx+OLx,1-OLy:sNy+OLy,2)
        _RL fVerV   (1-OLx:sNx+OLx,1-OLy:sNy+OLy,2)
-       _RL phiHyd  (1-OLx:sNx+OLx,1-OLy:sNy+OLy,Nr)
+       _RL phiHydF (1-OLx:sNx+OLx,1-OLy:sNy+OLy)
-       _RL rhokm1  (1-OLx:sNx+OLx,1-OLy:sNy+OLy)
+       _RL phiHydC (1-OLx:sNx+OLx,1-OLy:sNy+OLy)
-       _RL rhokp1  (1-OLx:sNx+OLx,1-OLy:sNy+OLy)
+       _RL dPhiHydX(1-Olx:sNx+Olx,1-Oly:sNy+Oly)
-       _RL rhok    (1-OLx:sNx+OLx,1-OLy:sNy+OLy)
+       _RL dPhiHydY(1-Olx:sNx+Olx,1-Oly:sNy+Oly)
-       _RL buoyKM1 (1-OLx:sNx+OLx,1-OLy:sNy+OLy)
+       _RL phiSurfX(1-OLx:sNx+OLx,1-OLy:sNy+OLy)
-       _RL buoyK   (1-OLx:sNx+OLx,1-OLy:sNy+OLy)
+       _RL phiSurfY(1-OLx:sNx+OLx,1-OLy:sNy+OLy)
-       _RL rhotmp  (1-OLx:sNx+OLx,1-OLy:sNy+OLy)
+       _RL guDissip(1-OLx:sNx+OLx,1-OLy:sNy+OLy)
-       _RL etaSurfX(1-OLx:sNx+OLx,1-OLy:sNy+OLy)
+       _RL gvDissip(1-OLx:sNx+OLx,1-OLy:sNy+OLy)
-       _RL etaSurfY(1-OLx:sNx+OLx,1-OLy:sNy+OLy)
-       _RL KappaRT (1-Olx:sNx+Olx,1-Oly:sNy+Oly,Nr)
-       _RL KappaRS (1-Olx:sNx+Olx,1-Oly:sNy+Oly,Nr)
        _RL KappaRU (1-Olx:sNx+Olx,1-Oly:sNy+Oly,Nr)
        _RL KappaRV (1-Olx:sNx+Olx,1-Oly:sNy+Oly,Nr)
-       _RL sigmaX  (1-OLx:sNx+OLx,1-OLy:sNy+OLy,Nr)
-       _RL sigmaY  (1-OLx:sNx+OLx,1-OLy:sNy+OLy,Nr)
-       _RL sigmaR  (1-OLx:sNx+OLx,1-OLy:sNy+OLy,Nr)
- C This is currently also used by IVDC and Diagnostics
- C #ifdef INCLUDE_CONVECT_CALL
-       _RL ConvectCount (1-OLx:sNx+OLx,1-OLy:sNy+OLy,Nr)
- C #endif
        INTEGER iMin, iMax
        INTEGER jMin, jMax
        INTEGER bi, bj
        INTEGER i, j
-       INTEGER k, km1, kup, kDown
+       INTEGER k, km1, kp1, kup, kDown
-       LOGICAL BOTTOM_LAYER
- #ifdef ALLOW_AUTODIFF_TAMC
-       INTEGER    isbyte
-       PARAMETER( isbyte = 4 )
-       INTEGER act1, act2, act3, act4
+ #ifdef ALLOW_DIAGNOSTICS
-       INTEGER max1, max2, max3
+       _RL tmpFac
-       INTEGER iikey, kkey
+ #endif /* ALLOW_DIAGNOSTICS */
-       INTEGER maximpl
- #endif /* ALLOW_AUTODIFF_TAMC */
  C---    The algorithm...
  C
  C       "Correction Step"
-Line 166 
 C       "Calculation of Gs"
+Line 189 
 C       "Calculation of Gs"
  C       ===================
  C       This is where all the accelerations and tendencies (ie.
  C       physics, parameterizations etc...) are calculated
- C         rVel = sum_r ( div. u[n] )
  C         rho = rho ( theta[n], salt[n] )
  C         b   = b(rho, theta)
  C         K31 = K31 ( rho )
- C         Gu[n] = Gu( u[n], v[n], rVel, b, ... )
+ C         Gu[n] = Gu( u[n], v[n], wVel, b, ... )
- C         Gv[n] = Gv( u[n], v[n], rVel, b, ... )
+ C         Gv[n] = Gv( u[n], v[n], wVel, b, ... )
- C         Gt[n] = Gt( theta[n], u[n], v[n], rVel, K31, ... )
+ C         Gt[n] = Gt( theta[n], u[n], v[n], wVel, K31, ... )
- C         Gs[n] = Gs( salt[n], u[n], v[n], rVel, K31, ... )
+ C         Gs[n] = Gs( salt[n], u[n], v[n], wVel, K31, ... )
  C
  C       "Time-stepping" or "Prediction"
  C       ================================
-Line 196 
 C         salt* = salt[n] + dt x ( 3/2 G
+Line 218 
 C         salt* = salt[n] + dt x ( 3/2 G
  C         (1 + dt * K * d_zz) theta[n] = theta*
  C         (1 + dt * K * d_zz) salt[n] = salt*
  C---
+ CEOP
- #ifdef ALLOW_AUTODIFF_TAMC
+ #ifdef ALLOW_DEBUG
- C--   dummy statement to end declaration part
+       IF ( debugLevel .GE. debLevB )
-       ikey = 1
+      &   CALL DEBUG_ENTER( 'DYNAMICS', myThid )
- #endif /* ALLOW_AUTODIFF_TAMC */
+ #endif
- C--   Set up work arrays with valid (i.e. not NaN) values
- C     These inital values do not alter the numerical results. They
- C     just ensure that all memory references are to valid floating
- C     point numbers. This prevents spurious hardware signals due to
- C     uninitialised but inert locations.
-       DO j=1-OLy,sNy+OLy
-        DO i=1-OLx,sNx+OLx
-         xA(i,j)      = 0. _d 0
-         yA(i,j)      = 0. _d 0
-         uTrans(i,j)  = 0. _d 0
-         vTrans(i,j)  = 0. _d 0
-         aTerm(i,j)   = 0. _d 0
-         xTerm(i,j)   = 0. _d 0
-         cTerm(i,j)   = 0. _d 0
-         mTerm(i,j)   = 0. _d 0
-         pTerm(i,j)   = 0. _d 0
-         fZon(i,j)    = 0. _d 0
-         fMer(i,j)    = 0. _d 0
-         DO k=1,Nr
-          phiHyd (i,j,k)  = 0. _d 0
-          KappaRU(i,j,k) = 0. _d 0
-          KappaRV(i,j,k) = 0. _d 0
-          sigmaX(i,j,k) = 0. _d 0
-          sigmaY(i,j,k) = 0. _d 0
-          sigmaR(i,j,k) = 0. _d 0
-         ENDDO
-         rhoKM1 (i,j) = 0. _d 0
-         rhok   (i,j) = 0. _d 0
-         rhoKP1 (i,j) = 0. _d 0
-         rhoTMP (i,j) = 0. _d 0
-         buoyKM1(i,j) = 0. _d 0
-         buoyK  (i,j) = 0. _d 0
-         maskC  (i,j) = 0. _d 0
-        ENDDO
-       ENDDO
+ C-- Call to routine for calculation of
+ C   Eliassen-Palm-flux-forced U-tendency,
+ C   if desired:
+ #ifdef INCLUDE_EP_FORCING_CODE
+       CALL CALC_EP_FORCING(myThid)
+ #endif
  #ifdef ALLOW_AUTODIFF_TAMC
  C--   HPF directive to help TAMC
-Line 249 
 CHPF$ INDEPENDENT
+Line 241 
 CHPF$ INDEPENDENT
  #ifdef ALLOW_AUTODIFF_TAMC
  C--    HPF directive to help TAMC
- CHPF$  INDEPENDENT, NEW (rTrans,rVel,fVerT,fVerS,fVerU,fVerV
+ CHPF$  INDEPENDENT, NEW (fVerU,fVerV
- CHPF$&                  ,phiHyd,utrans,vtrans,maskc,xA,yA
+ CHPF$&                  ,phiHydF
- CHPF$&                  ,KappaRT,KappaRS,KappaRU,KappaRV
+ CHPF$&                  ,KappaRU,KappaRV
  CHPF$&                  )
  #endif /* ALLOW_AUTODIFF_TAMC */
-Line 260 
 CHPF$&                  )
+Line 252 
 CHPF$&                  )
  #ifdef ALLOW_AUTODIFF_TAMC
            act1 = bi - myBxLo(myThid)
            max1 = myBxHi(myThid) - myBxLo(myThid) + 1
            act2 = bj - myByLo(myThid)
            max2 = myByHi(myThid) - myByLo(myThid) + 1
            act3 = myThid - 1
            max3 = nTx*nTy
            act4 = ikey_dynamics - 1
+           idynkey = (act1 + 1) + act2*max1
-           ikey = (act1 + 1) + act2*max1
       &                      + act3*max1*max2
       &                      + act4*max1*max2*max3
  #endif /* ALLOW_AUTODIFF_TAMC */
- C--     Set up work arrays that need valid initial values
+ C--   Set up work arrays with valid (i.e. not NaN) values
-         DO j=1-OLy,sNy+OLy
+ C     These inital values do not alter the numerical results. They
-          DO i=1-OLx,sNx+OLx
+ C     just ensure that all memory references are to valid floating
-           rTrans(i,j)   = 0. _d 0
+ C     point numbers. This prevents spurious hardware signals due to
-           rVel  (i,j,1) = 0. _d 0
+ C     uninitialised but inert locations.
-           rVel  (i,j,2) = 0. _d 0
-           fVerT (i,j,1) = 0. _d 0
-           fVerT (i,j,2) = 0. _d 0
-           fVerS (i,j,1) = 0. _d 0
-           fVerS (i,j,2) = 0. _d 0
-           fVerU (i,j,1) = 0. _d 0
-           fVerU (i,j,2) = 0. _d 0
-           fVerV (i,j,1) = 0. _d 0
-           fVerV (i,j,2) = 0. _d 0
-           phiHyd(i,j,1) = 0. _d 0
-          ENDDO
-         ENDDO
          DO k=1,Nr
           DO j=1-OLy,sNy+OLy
            DO i=1-OLx,sNx+OLx
- #ifdef INCLUDE_CONVECT_CALL
+            KappaRU(i,j,k) = 0. _d 0
-            ConvectCount(i,j,k) = 0.
+            KappaRV(i,j,k) = 0. _d 0
- #endif
-            KappaRT(i,j,k) = 0. _d 0
-            KappaRS(i,j,k) = 0. _d 0
-           ENDDO
-          ENDDO
-         ENDDO
-         iMin = 1-OLx+1
-         iMax = sNx+OLx
-         jMin = 1-OLy+1
-         jMax = sNy+OLy
-         k = 1
-         BOTTOM_LAYER = k .EQ. Nr
- #ifdef DO_PIPELINED_CORRECTION_STEP
- C--     Calculate gradient of surface pressure
-         CALL CALC_GRAD_ETA_SURF(
-      I       bi,bj,iMin,iMax,jMin,jMax,
-      O       etaSurfX,etaSurfY,
-      I       myThid)
- C--     Update fields in top level according to tendency terms
-         CALL CORRECTION_STEP(
-      I       bi,bj,iMin,iMax,jMin,jMax,k,
-      I       etaSurfX,etaSurfY,myTime,myThid)
- #ifdef ALLOW_OBCS
-         IF (openBoundaries) THEN
- #ifdef ALLOW_AUTODIFF_TAMC
- CADJ STORE uvel (:,:,k,bi,bj) = comlev1_bibj, key = ikey, byte = isbyte
- CADJ STORE vvel (:,:,k,bi,bj) = comlev1_bibj, key = ikey, byte = isbyte
- CADJ STORE theta(:,:,k,bi,bj) = comlev1_bibj, key = ikey, byte = isbyte
- CADJ STORE salt (:,:,k,bi,bj) = comlev1_bibj, key = ikey, byte = isbyte
- #endif /* ALLOW_AUTODIFF_TAMC */
-            CALL APPLY_OBCS1( bi, bj, k, myThid )
-         END IF
- #endif
-         IF ( .NOT. BOTTOM_LAYER ) THEN
- C--      Update fields in layer below according to tendency terms
-          CALL CORRECTION_STEP(
-      I        bi,bj,iMin,iMax,jMin,jMax,k+1,
-      I        etaSurfX,etaSurfY,myTime,myThid)
- #ifdef ALLOW_OBCS
-          IF (openBoundaries) THEN
- #ifdef ALLOW_AUTODIFF_TAMC
- CADJ STORE uvel (:,:,k,bi,bj) = comlev1_bibj, key = ikey, byte = isbyte
- CADJ STORE vvel (:,:,k,bi,bj) = comlev1_bibj, key = ikey, byte = isbyte
- CADJ STORE theta(:,:,k,bi,bj) = comlev1_bibj, key = ikey, byte = isbyte
- CADJ STORE salt (:,:,k,bi,bj) = comlev1_bibj, key = ikey, byte = isbyte
- #endif /* ALLOW_AUTODIFF_TAMC */
-             CALL APPLY_OBCS1( bi, bj, k+1, myThid )
-          END IF
- #endif
-         ENDIF
- #endif
- C--     Density of 1st level (below W(1)) reference to level 1
- #ifdef  INCLUDE_FIND_RHO_CALL
- #ifdef ALLOW_AUTODIFF_TAMC
- CADJ STORE theta(:,:,k,bi,bj) = comlev1_bibj, key = ikey, byte = isbyte
- CADJ STORE salt (:,:,k,bi,bj) = comlev1_bibj, key = ikey, byte = isbyte
- #endif /* ALLOW_AUTODIFF_TAMC */
-         CALL FIND_RHO(
-      I     bi, bj, iMin, iMax, jMin, jMax, k, k, eosType,
-      O     rhoKm1,
-      I     myThid )
- #endif
-         IF (.NOT. BOTTOM_LAYER) THEN
- C--      Check static stability with layer below
- C--      and mix as needed.
- #ifdef  INCLUDE_FIND_RHO_CALL
- #ifdef ALLOW_AUTODIFF_TAMC
- CADJ STORE theta(:,:,k+1,bi,bj) = comlev1_bibj
- CADJ &   , key = ikey, byte = isbyte
- CADJ STORE salt (:,:,k+1,bi,bj) = comlev1_bibj
- CADJ &   , key = ikey, byte = isbyte
- #endif /* ALLOW_AUTODIFF_TAMC */
-          CALL FIND_RHO(
-      I      bi, bj, iMin, iMax, jMin, jMax, k+1, k, eosType,
-      O      rhoKp1,
-      I      myThid )
- #endif
- #ifdef ALLOW_AUTODIFF_TAMC
- CADJ STORE rhoKm1(:,:)  = comlev1_bibj, key = ikey, byte = isbyte
- CADJ STORE rhoKp1(:,:)  = comlev1_bibj, key = ikey, byte = isbyte
- #endif /* ALLOW_AUTODIFF_TAMC */
- #ifdef  INCLUDE_CONVECT_CALL
-          CALL CONVECT(
-      I       bi,bj,iMin,iMax,jMin,jMax,k+1,rhoKm1,rhoKp1,
-      U       ConvectCount,
-      I       myTime,myIter,myThid)
- #ifdef ALLOW_AUTODIFF_TAMC
- CADJ STORE theta(:,:,k+1,bi,bj),theta(:,:,k,bi,bj)
- CADJ &     = comlev1_bibj, key = ikey, byte = isbyte
- CADJ STORE salt (:,:,k+1,bi,bj),salt (:,:,k,bi,bj)
- CADJ &     = comlev1_bibj, key = ikey, byte = isbyte
- #endif /* ALLOW_AUTODIFF_TAMC */
- #endif
- C--      Implicit Vertical Diffusion for Convection
-          IF (ivdc_kappa.NE.0.) THEN
-             CALL CALC_IVDC(
-      I       bi,bj,iMin,iMax,jMin,jMax,k+1,rhoKm1,rhoKp1,
-      U       ConvectCount, KappaRT, KappaRS,
-      I       myTime,myIter,myThid)
-          ENDIF
- C--      Recompute density after mixing
- #ifdef  INCLUDE_FIND_RHO_CALL
-          CALL FIND_RHO(
-      I      bi, bj, iMin, iMax, jMin, jMax, k, k, eosType,
-      O      rhoKm1,
-      I      myThid )
- #endif
-         ENDIF
- C--     Calculate buoyancy
-         CALL CALC_BUOYANCY(
-      I      bi,bj,iMin,iMax,jMin,jMax,k,rhoKm1,
-      O      buoyKm1,
-      I      myThid )
- C--     Integrate hydrostatic balance for phiHyd with BC of
- C--     phiHyd(z=0)=0
-         CALL CALC_PHI_HYD(
-      I      bi,bj,iMin,iMax,jMin,jMax,k,buoyKm1,buoyKm1,
-      U      phiHyd,
-      I      myThid )
- #ifdef ALLOW_GMREDI
-         IF ( useGMRedi ) THEN
-         CALL GRAD_SIGMA(
-      I            bi, bj, iMin, iMax, jMin, jMax, k,
-      I            rhoKm1, rhoKm1, rhoKm1,
-      O            sigmaX, sigmaY, sigmaR,
-      I            myThid )
-         ELSE
-          DO j=1-OLy,sNy+OLy
-           DO i=1-OLx,sNx+OLx
-            sigmaX(i,j,k) = 0. _d 0
-            sigmaY(i,j,k) = 0. _d 0
-            sigmaR(i,j,k) = 0. _d 0
-           ENDDO
-          ENDDO
-         ENDIF
- #endif
- C--     Start of downward loop
-         DO k=2,Nr
- #ifdef ALLOW_AUTODIFF_TAMC
-          kkey = (ikey-1)*(Nr-2+1) + (k-2) + 1
- #endif /* ALLOW_AUTODIFF_TAMC */
-          BOTTOM_LAYER = k .EQ. Nr
- #ifdef DO_PIPELINED_CORRECTION_STEP
-          IF ( .NOT. BOTTOM_LAYER ) THEN
- C--       Update fields in layer below according to tendency terms
-           CALL CORRECTION_STEP(
-      I         bi,bj,iMin,iMax,jMin,jMax,k+1,
-      I         etaSurfX,etaSurfY,myTime,myThid)
- #ifdef ALLOW_OBCS
-           IF (openBoundaries) THEN
- #ifdef ALLOW_AUTODIFF_TAMC
- CADJ STORE uvel (:,:,k,bi,bj) = comlev1_bibj_k
- CADJ &   , key = kkey, byte = isbyte
- CADJ STORE vvel (:,:,k,bi,bj) = comlev1_bibj_k
- CADJ &   , key = kkey, byte = isbyte
- CADJ STORE theta(:,:,k,bi,bj) = comlev1_bibj_k
- CADJ &   , key = kkey, byte = isbyte
- CADJ STORE salt (:,:,k,bi,bj) = comlev1_bibj_k
- CADJ &   , key = kkey, byte = isbyte
- #endif /* ALLOW_AUTODIFF_TAMC */
-              CALL APPLY_OBCS1( bi, bj, k+1, myThid )
-           END IF
- #endif
-          ENDIF
- #endif /* DO_PIPELINED_CORRECTION_STEP */
- C--      Density of k level (below W(k)) reference to k level
- #ifdef  INCLUDE_FIND_RHO_CALL
  #ifdef ALLOW_AUTODIFF_TAMC
- CADJ STORE theta(:,:,k,bi,bj) = comlev1_bibj_k
+ cph(
- CADJ &   , key = kkey, byte = isbyte
+ c--   need some re-initialisation here to break dependencies
- CADJ STORE salt (:,:,k,bi,bj) = comlev1_bibj_k
- CADJ &   , key = kkey, byte = isbyte
- #endif /* ALLOW_AUTODIFF_TAMC */
-          CALL FIND_RHO(
-      I      bi, bj, iMin, iMax, jMin, jMax,  k, k, eosType,
-      O      rhoK,
-      I      myThid )
- #ifdef ALLOW_AUTODIFF_TAMC
- cph(   storing not necessary
- cphCADJ STORE rhoK(:,:)  = comlev1_bibj_k, key = kkey, byte = isbyte
  cph)
- #endif /* ALLOW_AUTODIFF_TAMC */
+            gU(i,j,k,bi,bj) = 0. _d 0
+            gV(i,j,k,bi,bj) = 0. _d 0
  #endif
-          IF (.NOT. BOTTOM_LAYER) THEN
- C--       Check static stability with layer below and mix as needed.
- C--       Density of k+1 level (below W(k+1)) reference to k level.
- #ifdef  INCLUDE_FIND_RHO_CALL
- #ifdef ALLOW_AUTODIFF_TAMC
- CADJ STORE theta(:,:,k+1,bi,bj) = comlev1_bibj_k
- CADJ &   , key = kkey, byte = isbyte
- CADJ STORE salt (:,:,k+1,bi,bj) = comlev1_bibj_k
- CADJ &   , key = kkey, byte = isbyte
- #endif /* ALLOW_AUTODIFF_TAMC */
-           CALL FIND_RHO(
-      I       bi, bj, iMin, iMax, jMin, jMax,  k+1, k, eosType,
-      O       rhoKp1,
-      I       myThid )
- #ifdef ALLOW_AUTODIFF_TAMC
- CADJ STORE rhoKp1(:,:) = comlev1_bibj_k, key = kkey, byte = isbyte
- #endif /* ALLOW_AUTODIFF_TAMC */
- #endif
- #ifdef  INCLUDE_CONVECT_CALL
-           CALL CONVECT(
-      I        bi,bj,iMin,iMax,jMin,jMax,k+1,rhoK,rhoKp1,
-      U        ConvectCount,
-      I        myTime,myIter,myThid)
- #endif
- C--      Implicit Vertical Diffusion for Convection
-          IF (ivdc_kappa.NE.0.) THEN
- #ifdef ALLOW_AUTODIFF_TAMC
- CADJ STORE rhoKm1(:,:) = comlev1_bibj_k, key = kkey, byte = isbyte
- #endif /* ALLOW_AUTODIFF_TAMC */
-             CALL CALC_IVDC(
-      I       bi,bj,iMin,iMax,jMin,jMax,k+1,rhoKm1,rhoKp1,
-      U       ConvectCount, KappaRT, KappaRS,
-      I       myTime,myIter,myThid)
-          END IF
- C--       Recompute density after mixing
- #ifdef  INCLUDE_FIND_RHO_CALL
- #ifdef ALLOW_AUTODIFF_TAMC
- CADJ STORE theta(:,:,k,bi,bj) = comlev1_bibj_k
- CADJ &   , key = kkey, byte = isbyte
- CADJ STORE salt (:,:,k,bi,bj) = comlev1_bibj_k
- CADJ &   , key = kkey, byte = isbyte
- #endif /* ALLOW_AUTODIFF_TAMC */
-           CALL FIND_RHO(
-      I       bi, bj, iMin, iMax, jMin, jMax, k, k, eosType,
-      O       rhoK,
-      I       myThid )
- #endif
- C--            IF (.NOT. BOTTOM_LAYER) ends here
-          ENDIF
- C--      Calculate buoyancy
-          CALL CALC_BUOYANCY(
-      I       bi,bj,iMin,iMax,jMin,jMax,k,rhoK,
-      O       buoyK,
-      I       myThid )
- C--      Integrate hydrostatic balance for phiHyd with BC of
- C--      phiHyd(z=0)=0
-          CALL CALC_PHI_HYD(
-      I        bi,bj,iMin,iMax,jMin,jMax,k,buoyKm1,buoyK,
-      U        phiHyd,
-      I        myThid )
- #ifdef  INCLUDE_FIND_RHO_CALL
- C--      Calculate iso-neutral slopes for the GM/Redi parameterisation
- #ifdef ALLOW_AUTODIFF_TAMC
- CADJ STORE theta(:,:,k-1,bi,bj) = comlev1_bibj_k
- CADJ &   , key = kkey, byte = isbyte
- CADJ STORE salt (:,:,k-1,bi,bj) = comlev1_bibj_k
- CADJ &   , key = kkey, byte = isbyte
- #endif /* ALLOW_AUTODIFF_TAMC */
-          CALL FIND_RHO(
-      I        bi, bj, iMin, iMax, jMin, jMax, k-1, k, eosType,
-      O        rhoTmp,
-      I        myThid )
- #endif
- #ifdef ALLOW_GMREDI
-          IF ( useGMRedi ) THEN
-          CALL GRAD_SIGMA(
-      I             bi, bj, iMin, iMax, jMin, jMax, k,
-      I             rhoK, rhotmp, rhoK,
-      O             sigmaX, sigmaY, sigmaR,
-      I             myThid )
-          ELSE
-           DO j=1-OLy,sNy+OLy
-            DO i=1-OLx,sNx+OLx
-             sigmaX(i,j,k) = 0. _d 0
-             sigmaY(i,j,k) = 0. _d 0
-             sigmaR(i,j,k) = 0. _d 0
-            ENDDO
-           ENDDO
-          ENDIF
- #endif
-          DO J=jMin,jMax
-           DO I=iMin,iMax
- #ifdef  INCLUDE_FIND_RHO_CALL
-            rhoKm1 (I,J) = rhoK(I,J)
- #endif
-            buoyKm1(I,J) = buoyK(I,J)
            ENDDO
           ENDDO
- C--     end of k loop
          ENDDO
+         DO j=1-OLy,sNy+OLy
- C     Determines forcing terms based on external fields
+          DO i=1-OLx,sNx+OLx
- C     relaxation terms, etc.
+           fVerU  (i,j,1) = 0. _d 0
-       CALL EXTERNAL_FORCING_SURF(
+           fVerU  (i,j,2) = 0. _d 0
-      I             bi, bj, iMin, iMax, jMin, jMax,
+           fVerV  (i,j,1) = 0. _d 0
-      I             myThid )
+           fVerV  (i,j,2) = 0. _d 0
+           phiHydF (i,j)  = 0. _d 0
- #ifdef ALLOW_AUTODIFF_TAMC
+           phiHydC (i,j)  = 0. _d 0
+           dPhiHydX(i,j)  = 0. _d 0
- CADJ STORE surfacetendencyu(:,:,bi,bj)
+           dPhiHydY(i,j)  = 0. _d 0
- CADJ &   , surfacetendencyv(:,:,bi,bj)
+           phiSurfX(i,j)  = 0. _d 0
- CADJ &   , surfacetendencys(:,:,bi,bj)
+           phiSurfY(i,j)  = 0. _d 0
- CADJ &   , surfacetendencyt(:,:,bi,bj)
+           guDissip(i,j)  = 0. _d 0
- CADJ &                        = comlev1_bibj, key=ikey, byte=isbyte
+           gvDissip(i,j)  = 0. _d 0
+          ENDDO
- # ifdef ALLOW_GMREDI
- CADJ STORE sigmaX(:,:,:) = comlev1, key=ikey, byte=isbyte
- CADJ STORE sigmaY(:,:,:) = comlev1, key=ikey, byte=isbyte
- CADJ STORE sigmaR(:,:,:) = comlev1, key=ikey, byte=isbyte
- # endif /* ALLOW_GMREDI */
- #endif /* ALLOW_AUTODIFF_TAMC */
- #ifdef ALLOW_GMREDI
-         IF (useGMRedi) THEN
-           DO k=1, Nr
-             CALL GMREDI_CALC_TENSOR(
-      I             bi, bj, iMin, iMax, jMin, jMax, k,
-      I             sigmaX, sigmaY, sigmaR,
-      I             myThid )
-           ENDDO
- #ifdef ALLOW_AUTODIFF_TAMC
-         ELSE
-           DO k=1, Nr
-             CALL GMREDI_CALC_TENSOR_DUMMY(
-      I             bi, bj, iMin, iMax, jMin, jMax, k,
-      I             sigmaX, sigmaY, sigmaR,
-      I             myThid )
-           ENDDO
- #endif /* ALLOW_AUTODIFF_TAMC */
-         ENDIF
- #endif
- #ifdef ALLOW_AUTODIFF_TAMC
- CADJ STORE KappaRT(:,:,:)     = comlev1_bibj, key=ikey, byte=isbyte
- CADJ STORE KappaRS(:,:,:)     = comlev1_bibj, key=ikey, byte=isbyte
- #ifdef ALLOW_GMREDI
- C-- R.G. We need to define a new tape since Kw use mythid instead of bi,bj
- CADJ STORE Kwx(:,:,:,myThid)  = comlev1_bibj, key=ikey, byte=isbyte
- CADJ STORE Kwy(:,:,:,myThid)  = comlev1_bibj, key=ikey, byte=isbyte
- CADJ STORE Kwz(:,:,:,myThid)  = comlev1_bibj, key=ikey, byte=isbyte
- #endif
- CADJ STORE theta(:,:,:,bi,bj) = comlev1_bibj, key=ikey, byte=isbyte
- CADJ STORE salt (:,:,:,bi,bj) = comlev1_bibj, key=ikey, byte=isbyte
- CADJ STORE uvel (:,:,:,bi,bj) = comlev1_bibj, key=ikey, byte=isbyte
- CADJ STORE vvel (:,:,:,bi,bj) = comlev1_bibj, key=ikey, byte=isbyte
- =======
- C-- R.G. We need to define a new tape since Kw use mythid instead of bi,bj
- CADJ STORE Kwx(:,:,:,myThid)  = comlev1_bibj, key=ikey, byte=isbyte
- CADJ STORE Kwy(:,:,:,myThid)  = comlev1_bibj, key=ikey, byte=isbyte
- CADJ STORE Kwz(:,:,:,myThid)  = comlev1_bibj, key=ikey, byte=isbyte
- CADJ STORE theta(:,:,:,bi,bj) = comlev1_bibj, key=ikey, byte=isbyte
- CADJ STORE salt (:,:,:,bi,bj) = comlev1_bibj, key=ikey, byte=isbyte
- CADJ STORE uvel (:,:,:,bi,bj) = comlev1_bibj, key=ikey, byte=isbyte
- CADJ STORE vvel (:,:,:,bi,bj) = comlev1_bibj, key=ikey, byte=isbyte
- C--     dummy initialization to break data flow because
- C--     calc_div_ghat has a condition for initialization
-         DO J=jMin,jMax
-            DO I=iMin,iMax
-               cg2d_b(i,j,bi,bj) = 0.0
-            ENDDO
          ENDDO
- #endif /* ALLOW_AUTODIFF_TAMC */
- #ifdef ALLOW_KPP
- C--   Compute KPP mixing coefficients
-         IF (useKPP) THEN
-           CALL TIMER_START('KPP_CALC               [DYNAMICS]', myThid)
-           CALL KPP_CALC(
-      I                  bi, bj, myTime, myThid )
-           CALL TIMER_STOP ('KPP_CALC               [DYNAMICS]', myThid)
- #ifdef ALLOW_AUTODIFF_TAMC
+ C--     Start computation of dynamics
-         ELSE
+         iMin = 0
-           DO j=1-OLy,sNy+OLy
+         iMax = sNx+1
-             DO i=1-OLx,sNx+OLx
+         jMin = 0
-               KPPhbl (i,j,bi,bj) = 1.0
+         jMax = sNy+1
-               KPPfrac(i,j,bi,bj) = 0.0
-               DO k = 1,Nr
+ #ifdef ALLOW_AUTODIFF_TAMC
-                  KPPghat   (i,j,k,bi,bj) = 0.0
+ CADJ STORE wvel (:,:,:,bi,bj) =
-                  KPPviscAz (i,j,k,bi,bj) = viscAz
+ CADJ &     comlev1_bibj, key = idynkey, byte = isbyte
-                  KPPdiffKzT(i,j,k,bi,bj) = diffKzT
+ #endif /* ALLOW_AUTODIFF_TAMC */
-                  KPPdiffKzS(i,j,k,bi,bj) = diffKzS
-               ENDDO
+ C--     Explicit part of the Surface Potentiel Gradient (add in TIMESTEP)
-             ENDDO
+ C       (note: this loop will be replaced by CALL CALC_GRAD_ETA)
-           ENDDO
+         IF (implicSurfPress.NE.1.) THEN
- #endif /* ALLOW_AUTODIFF_TAMC */
+           CALL CALC_GRAD_PHI_SURF(
+      I         bi,bj,iMin,iMax,jMin,jMax,
+      I         etaN,
+      O         phiSurfX,phiSurfY,
+      I         myThid )
          ENDIF
  #ifdef ALLOW_AUTODIFF_TAMC
- CADJ STORE KPPghat   (:,:,:,bi,bj)
+ CADJ STORE uvel (:,:,:,bi,bj) = comlev1_bibj, key=idynkey, byte=isbyte
- CADJ &   , KPPviscAz (:,:,:,bi,bj)
+ CADJ STORE vvel (:,:,:,bi,bj) = comlev1_bibj, key=idynkey, byte=isbyte
- CADJ &   , KPPdiffKzT(:,:,:,bi,bj)
+ #ifdef ALLOW_KPP
- CADJ &   , KPPdiffKzS(:,:,:,bi,bj)
+ CADJ STORE KPPviscAz (:,:,:,bi,bj)
- CADJ &   , KPPfrac   (:,:  ,bi,bj)
+ CADJ &                 = comlev1_bibj, key=idynkey, byte=isbyte
- CADJ &                 = comlev1_bibj, key=ikey, byte=isbyte
- #endif /* ALLOW_AUTODIFF_TAMC */
  #endif /* ALLOW_KPP */
- C--     Start of upward loop
-         DO k = Nr, 1, -1
- C--      km1    Points to level above k (=k-1)
- C--      kup    Cycles through 1,2 to point to layer above
- C--      kDown  Cycles through 2,1 to point to current layer
-          km1  =max(1,k-1)
-          kup  =1+MOD(k+1,2)
-          kDown=1+MOD(k,2)
-          iMin = 1-OLx+2
-          iMax = sNx+OLx-1
-          jMin = 1-OLy+2
-          jMax = sNy+OLy-1
- #ifdef ALLOW_AUTODIFF_TAMC
-          kkey = (ikey-1)*(Nr-1+1) + (k-1) + 1
- CADJ STORE rvel  (:,:,kdown)  = comlev1_bibj_k, key=kkey, byte=isbyte
- CADJ STORE rTrans(:,:)        = comlev1_bibj_k, key=kkey, byte=isbyte
- CADJ STORE KappaRT(:,:,k)     = comlev1_bibj_k, key=kkey, byte=isbyte
- CADJ STORE KappaRS(:,:,k)     = comlev1_bibj_k, key=kkey, byte=isbyte
  #endif /* ALLOW_AUTODIFF_TAMC */
- C--      Get temporary terms used by tendency routines
-          CALL CALC_COMMON_FACTORS (
-      I        bi,bj,iMin,iMax,jMin,jMax,k,km1,kup,kDown,
-      O        xA,yA,uTrans,vTrans,rTrans,rVel,maskC,maskUp,
-      I        myThid)
- #ifdef ALLOW_OBCS
-         IF (openBoundaries) THEN
-          CALL APPLY_OBCS3( bi, bj, k, kup, rTrans, rVel, myThid )
-         ENDIF
- #endif
  #ifdef  INCLUDE_CALC_DIFFUSIVITY_CALL
  C--      Calculate the total vertical diffusivity
-          CALL CALC_DIFFUSIVITY(
+         DO k=1,Nr
+          CALL CALC_VISCOSITY(
       I        bi,bj,iMin,iMax,jMin,jMax,k,
-      I        maskC,maskUp,
+      O        KappaRU,KappaRV,
-      O        KappaRT,KappaRS,KappaRU,KappaRV,
       I        myThid)
+        ENDDO
  #endif
- C--      Calculate accelerations in the momentum equations
-          IF ( momStepping ) THEN
-           CALL CALC_MOM_RHS(
-      I         bi,bj,iMin,iMax,jMin,jMax,k,km1,kup,kDown,
-      I         xA,yA,uTrans,vTrans,rTrans,rVel,maskC,
-      I         phiHyd,KappaRU,KappaRV,
-      U         aTerm,xTerm,cTerm,mTerm,pTerm,
-      U         fZon, fMer, fVerU, fVerV,
-      I         myTime, myThid)
- #ifdef ALLOW_AUTODIFF_TAMC
- #ifdef INCLUDE_CD_CODE
-          ELSE
-             DO j=1-OLy,sNy+OLy
-                DO i=1-OLx,sNx+OLx
-                   guCD(i,j,k,bi,bj) = 0.0
-                   gvCD(i,j,k,bi,bj) = 0.0
-                END DO
-             END DO
- #endif
- #endif /* ALLOW_AUTODIFF_TAMC */
-          ENDIF
- C--      Calculate active tracer tendencies
-          IF ( tempStepping ) THEN
-           CALL CALC_GT(
-      I         bi,bj,iMin,iMax,jMin,jMax, k,km1,kup,kDown,
-      I         xA,yA,uTrans,vTrans,rTrans,maskUp,maskC,
-      I         KappaRT,
-      U         aTerm,xTerm,fZon,fMer,fVerT,
-      I         myTime, myThid)
-          ENDIF
-          IF ( saltStepping ) THEN
-           CALL CALC_GS(
-      I         bi,bj,iMin,iMax,jMin,jMax, k,km1,kup,kDown,
-      I         xA,yA,uTrans,vTrans,rTrans,maskUp,maskC,
-      I         KappaRS,
-      U         aTerm,xTerm,fZon,fMer,fVerS,
-      I         myTime, myThid)
-          ENDIF
- #ifdef ALLOW_OBCS
- C--      Calculate future values on open boundaries
-          IF (openBoundaries) THEN
- Caja      CALL CYCLE_OBCS( k, bi, bj, myThid )
-           CALL SET_OBCS( k, bi, bj, myTime+deltaTclock, myThid )
-          ENDIF
- #endif
- C--      Prediction step (step forward all model variables)
-          CALL TIMESTEP(
-      I       bi,bj,iMin,iMax,jMin,jMax,k,
-      I       myIter, myThid)
- #ifdef ALLOW_OBCS
- C--      Apply open boundary conditions
-          IF (openBoundaries) THEN
- #ifdef ALLOW_AUTODIFF_TAMC
- CADJ STORE gunm1(:,:,k,bi,bj) = comlev1_bibj_k, key=kkey, byte=isbyte
- CADJ STORE gvnm1(:,:,k,bi,bj) = comlev1_bibj_k, key=kkey, byte=isbyte
- CADJ STORE gwnm1(:,:,k,bi,bj) = comlev1_bibj_k, key=kkey, byte=isbyte
- #endif /* ALLOW_AUTODIFF_TAMC */
-             CALL APPLY_OBCS2( bi, bj, k, myThid )
-          END IF
- #endif
- C--      Freeze water
-          IF (allowFreezing) THEN
  #ifdef ALLOW_AUTODIFF_TAMC
- CADJ STORE gTNm1(:,:,k,bi,bj) = comlev1_bibj_k, key=kkey, byte=isbyte
+ CADJ STORE KappaRU(:,:,:)
+ CADJ &                 = comlev1_bibj, key=idynkey, byte=isbyte
+ CADJ STORE KappaRV(:,:,:)
+ CADJ &                 = comlev1_bibj, key=idynkey, byte=isbyte
  #endif /* ALLOW_AUTODIFF_TAMC */
-             CALL FREEZE( bi, bj, iMin, iMax, jMin, jMax, k, myThid )
-          END IF
- #ifdef DIVG_IN_DYNAMICS
- C--      Diagnose barotropic divergence of predicted fields
-          CALL CALC_DIV_GHAT(
-      I       bi,bj,iMin,iMax,jMin,jMax,k,
-      I       xA,yA,
-      I       myThid)
- #endif /* DIVG_IN_DYNAMICS */
- C--      Cumulative diagnostic calculations (ie. time-averaging)
- #ifdef INCLUDE_DIAGNOSTICS_INTERFACE_CODE
-          IF (taveFreq.GT.0.) THEN
-           CALL DO_TIME_AVERAGES(
-      I                           myTime, myIter, bi, bj, k, kup, kDown,
-      I                           rVel, ConvectCount,
-      I                           myThid )
-          ENDIF
- #endif
+ C--     Start of dynamics loop
+         DO k=1,Nr
- C--     k loop
+ C--       km1    Points to level above k (=k-1)
-         ENDDO
+ C--       kup    Cycles through 1,2 to point to layer above
+ C--       kDown  Cycles through 2,1 to point to current layer
+           km1  = MAX(1,k-1)
+           kp1  = MIN(k+1,Nr)
+           kup  = 1+MOD(k+1,2)
+           kDown= 1+MOD(k,2)
  #ifdef ALLOW_AUTODIFF_TAMC
-            maximpl = 6
+          kkey = (idynkey-1)*Nr + k
-            iikey = (ikey-1)*maximpl
+ c
+ CADJ STORE totphihyd (:,:,k,bi,bj)
+ CADJ &     = comlev1_bibj_k, key=kkey, byte=isbyte
+ CADJ STORE theta (:,:,k,bi,bj)
+ CADJ &     = comlev1_bibj_k, key=kkey, byte=isbyte
+ CADJ STORE salt  (:,:,k,bi,bj)
+ CADJ &     = comlev1_bibj_k, key=kkey, byte=isbyte
+ CADJ STORE gt(:,:,k,bi,bj)
+ CADJ &     = comlev1_bibj_k, key=kkey, byte=isbyte
+ CADJ STORE gs(:,:,k,bi,bj)
+ CADJ &     = comlev1_bibj_k, key=kkey, byte=isbyte
+ # ifdef NONLIN_FRSURF
+ cph-test
+ CADJ STORE  phiHydC (:,:)
+ CADJ &     = comlev1_bibj_k, key=kkey, byte=isbyte
+ CADJ STORE  phiHydF (:,:)
+ CADJ &     = comlev1_bibj_k, key=kkey, byte=isbyte
+ CADJ STORE  gudissip (:,:)
+ CADJ &     = comlev1_bibj_k, key=kkey, byte=isbyte
+ CADJ STORE  gvdissip (:,:)
+ CADJ &     = comlev1_bibj_k, key=kkey, byte=isbyte
+ CADJ STORE  fVerU (:,:,:)
+ CADJ &     = comlev1_bibj_k, key=kkey, byte=isbyte
+ CADJ STORE  fVerV (:,:,:)
+ CADJ &     = comlev1_bibj_k, key=kkey, byte=isbyte
+ CADJ STORE gu(:,:,k,bi,bj)
+ CADJ &     = comlev1_bibj_k, key=kkey, byte=isbyte
+ CADJ STORE gv(:,:,k,bi,bj)
+ CADJ &     = comlev1_bibj_k, key=kkey, byte=isbyte
+ CADJ STORE gunm1(:,:,k,bi,bj)
+ CADJ &     = comlev1_bibj_k, key=kkey, byte=isbyte
+ CADJ STORE gvnm1(:,:,k,bi,bj)
+ CADJ &     = comlev1_bibj_k, key=kkey, byte=isbyte
+ #  ifdef ALLOW_CD_CODE
+ CADJ STORE unm1(:,:,k,bi,bj)
+ CADJ &     = comlev1_bibj_k, key=kkey, byte=isbyte
+ CADJ STORE vnm1(:,:,k,bi,bj)
+ CADJ &     = comlev1_bibj_k, key=kkey, byte=isbyte
+ CADJ STORE uVelD(:,:,k,bi,bj)
+ CADJ &     = comlev1_bibj_k, key=kkey, byte=isbyte
+ CADJ STORE vVelD(:,:,k,bi,bj)
+ CADJ &     = comlev1_bibj_k, key=kkey, byte=isbyte
+ #  endif
+ # endif
  #endif /* ALLOW_AUTODIFF_TAMC */
- C--     Implicit diffusion
+ C--      Integrate hydrostatic balance for phiHyd with BC of
-         IF (implicitDiffusion) THEN
+ C        phiHyd(z=0)=0
+          IF ( implicitIntGravWave ) THEN
+            CALL CALC_PHI_HYD(
+      I        bi,bj,iMin,iMax,jMin,jMax,k,
+      I        gT, gS,
+      U        phiHydF,
+      O        phiHydC, dPhiHydX, dPhiHydY,
+      I        myTime, myIter, myThid )
+          ELSE
+            CALL CALC_PHI_HYD(
+      I        bi,bj,iMin,iMax,jMin,jMax,k,
+      I        theta, salt,
+      U        phiHydF,
+      O        phiHydC, dPhiHydX, dPhiHydY,
+      I        myTime, myIter, myThid )
+          ENDIF
-          IF (tempStepping) THEN
+ C--      Calculate accelerations in the momentum equations (gU, gV, ...)
- #ifdef ALLOW_AUTODIFF_TAMC
+ C        and step forward storing the result in gU, gV, etc...
-             idkey = iikey + 1
+          IF ( momStepping ) THEN
- CADJ STORE gTNm1(:,:,:,bi,bj) = comlev1_bibj , key=ikey, byte=isbyte
+ #ifdef ALLOW_MOM_FLUXFORM
- #endif /* ALLOW_AUTODIFF_TAMC */
+            IF (.NOT. vectorInvariantMomentum) CALL MOM_FLUXFORM(
-             CALL IMPLDIFF(
+      I         bi,bj,iMin,iMax,jMin,jMax,k,kup,kDown,
-      I         bi, bj, iMin, iMax, jMin, jMax,
+      I         KappaRU, KappaRV,
-      I         deltaTtracer, KappaRT,recip_HFacC,
+      U         fVerU, fVerV,
-      U         gTNm1,
+      O         guDissip, gvDissip,
-      I         myThid )
+      I         myTime, myIter, myThid)
-          END IF
+ #endif
+ #ifdef ALLOW_MOM_VECINV
+            IF (vectorInvariantMomentum) THEN
+ C
+ # ifdef ALLOW_AUTODIFF_TAMC
+ #  ifdef NONLIN_FRSURF
+ CADJ STORE fVerU(:,:,:)
+ CADJ &     = comlev1_bibj_k, key=kkey, byte=isbyte
+ CADJ STORE fVerV(:,:,:)
+ CADJ &     = comlev1_bibj_k, key=kkey, byte=isbyte
+ #  endif
+ # endif /* ALLOW_AUTODIFF_TAMC */
+ C
+              CALL MOM_VECINV(
+      I         bi,bj,iMin,iMax,jMin,jMax,k,kup,kDown,
+      I         KappaRU, KappaRV,
+      U         fVerU, fVerV,
+      O         guDissip, gvDissip,
+      I         myTime, myIter, myThid)
+            ENDIF
+ #endif
+            CALL TIMESTEP(
+      I         bi,bj,iMin,iMax,jMin,jMax,k,
+      I         dPhiHydX,dPhiHydY, phiSurfX, phiSurfY,
+      I         guDissip, gvDissip,
+      I         myTime, myIter, myThid)
-          IF (saltStepping) THEN
+ #ifdef   ALLOW_OBCS
- #ifdef ALLOW_AUTODIFF_TAMC
+ C--      Apply open boundary conditions
-          idkey = iikey + 2
+            IF (useOBCS) THEN
- CADJ STORE gSNm1(:,:,:,bi,bj) = comlev1_bibj , key=ikey, byte=isbyte
+              CALL OBCS_APPLY_UV( bi, bj, k, gU, gV, myThid )
- #endif /* ALLOW_AUTODIFF_TAMC */
+            ENDIF
-             CALL IMPLDIFF(
+ #endif   /* ALLOW_OBCS */
-      I         bi, bj, iMin, iMax, jMin, jMax,
-      I         deltaTtracer, KappaRS,recip_HFacC,
-      U         gSNm1,
-      I         myThid )
-          END IF
- C--     implicitDiffusion
+          ENDIF
-         ENDIF
- C--     Implicit viscosity
-         IF (implicitViscosity) THEN
-          IF (momStepping) THEN
+ C--     end of dynamics k loop (1:Nr)
- #ifdef ALLOW_AUTODIFF_TAMC
+         ENDDO
-          idkey = iikey + 3
- CADJ STORE gUNm1(:,:,:,bi,bj) = comlev1_bibj , key=ikey, byte=isbyte
+ C--     Implicit Vertical advection & viscosity
- #endif /* ALLOW_AUTODIFF_TAMC */
+ #if (defined (INCLUDE_IMPLVERTADV_CODE) && defined (ALLOW_MOM_COMMON))
+         IF ( momImplVertAdv ) THEN
+           CALL MOM_U_IMPLICIT_R( kappaRU,
+      I                           bi, bj, myTime, myIter, myThid )
+           CALL MOM_V_IMPLICIT_R( kappaRV,
+      I                           bi, bj, myTime, myIter, myThid )
+         ELSEIF ( implicitViscosity ) THEN
+ #else /* INCLUDE_IMPLVERTADV_CODE */
+         IF     ( implicitViscosity ) THEN
+ #endif /* INCLUDE_IMPLVERTADV_CODE */
+ #ifdef    ALLOW_AUTODIFF_TAMC
+ CADJ STORE KappaRU(:,:,:) = comlev1_bibj , key=idynkey, byte=isbyte
+ CADJ STORE gU(:,:,:,bi,bj) = comlev1_bibj , key=idynkey, byte=isbyte
+ #endif    /* ALLOW_AUTODIFF_TAMC */
            CALL IMPLDIFF(
       I         bi, bj, iMin, iMax, jMin, jMax,
-      I         deltaTmom, KappaRU,recip_HFacW,
+      I         -1, KappaRU,recip_HFacW,
-      U         gUNm1,
+      U         gU,
       I         myThid )
- #ifdef ALLOW_AUTODIFF_TAMC
+ #ifdef    ALLOW_AUTODIFF_TAMC
-          idkey = iikey + 4
+ CADJ STORE KappaRV(:,:,:) = comlev1_bibj , key=idynkey, byte=isbyte
- CADJ STORE gVNm1(:,:,:,bi,bj) = comlev1_bibj , key=ikey, byte=isbyte
+ CADJ STORE gV(:,:,:,bi,bj) = comlev1_bibj , key=idynkey, byte=isbyte
- #endif /* ALLOW_AUTODIFF_TAMC */
+ #endif    /* ALLOW_AUTODIFF_TAMC */
            CALL IMPLDIFF(
       I         bi, bj, iMin, iMax, jMin, jMax,
-      I         deltaTmom, KappaRV,recip_HFacS,
+      I         -2, KappaRV,recip_HFacS,
-      U         gVNm1,
+      U         gV,
       I         myThid )
+         ENDIF
- #ifdef INCLUDE_CD_CODE
+ #ifdef   ALLOW_OBCS
+ C--      Apply open boundary conditions
+         IF ( useOBCS .AND.(implicitViscosity.OR.momImplVertAdv) ) THEN
+            DO K=1,Nr
+              CALL OBCS_APPLY_UV( bi, bj, k, gU, gV, myThid )
+            ENDDO
+         ENDIF
+ #endif   /* ALLOW_OBCS */
- #ifdef ALLOW_AUTODIFF_TAMC
+ #ifdef    ALLOW_CD_CODE
-          idkey = iikey + 5
+         IF (implicitViscosity.AND.useCDscheme) THEN
- CADJ STORE vVelD(:,:,:,bi,bj) = comlev1_bibj , key=ikey, byte=isbyte
+ #ifdef    ALLOW_AUTODIFF_TAMC
- #endif /* ALLOW_AUTODIFF_TAMC */
+ CADJ STORE vVelD(:,:,:,bi,bj) = comlev1_bibj , key=idynkey, byte=isbyte
+ #endif    /* ALLOW_AUTODIFF_TAMC */
            CALL IMPLDIFF(
       I         bi, bj, iMin, iMax, jMin, jMax,
-      I         deltaTmom, KappaRU,recip_HFacW,
+      I         0, KappaRU,recip_HFacW,
       U         vVelD,
       I         myThid )
- #ifdef ALLOW_AUTODIFF_TAMC
+ #ifdef    ALLOW_AUTODIFF_TAMC
-         idkey = iikey + 6
+ CADJ STORE uVelD(:,:,:,bi,bj) = comlev1_bibj , key=idynkey, byte=isbyte
- CADJ STORE uVelD(:,:,:,bi,bj) = comlev1_bibj , key=ikey, byte=isbyte
+ #endif    /* ALLOW_AUTODIFF_TAMC */
- #endif /* ALLOW_AUTODIFF_TAMC */
            CALL IMPLDIFF(
       I         bi, bj, iMin, iMax, jMin, jMax,
-      I         deltaTmom, KappaRV,recip_HFacS,
+      I         0, KappaRV,recip_HFacS,
       U         uVelD,
       I         myThid )
- #endif
- C--      momStepping
-          ENDIF
- C--     implicitViscosity
          ENDIF
+ #endif    /* ALLOW_CD_CODE */
+ C--     End implicit Vertical advection & viscosity
         ENDDO
        ENDDO
+ #ifdef ALLOW_OBCS
+       IF (useOBCS) THEN
+        CALL OBCS_PRESCRIBE_EXCHANGES(myThid)
+       ENDIF
+ #endif
+ C---+----1----+----2----+----3----+----4----+----5----+----6----+----7-|--+----|
+ #ifdef ALLOW_NONHYDROSTATIC
+ C--   Step forward W field in N-H algorithm
+       IF ( nonHydrostatic ) THEN
+ #ifdef ALLOW_DEBUG
+          IF ( debugLevel .GE. debLevB )
+      &     CALL DEBUG_CALL('CALC_GW', myThid )
+ #endif
+          CALL TIMER_START('CALC_GW          [DYNAMICS]',myThid)
+          CALL CALC_GW( myTime, myIter, myThid )
+       ENDIF
+       IF ( nonHydrostatic.OR.implicitIntGravWave )
+      &   CALL TIMESTEP_WVEL( myTime, myIter, myThid )
+       IF ( nonHydrostatic )
+      &   CALL TIMER_STOP ('CALC_GW          [DYNAMICS]',myThid)
+ #endif
+ C---+----1----+----2----+----3----+----4----+----5----+----6----+----7-|--+----|
+ Cml(
+ C     In order to compare the variance of phiHydLow of a p/z-coordinate
+ C     run with etaH of a z/p-coordinate run the drift of phiHydLow
+ C     has to be removed by something like the following subroutine:
+ C      CALL REMOVE_MEAN_RL( 1, phiHydLow, maskH, maskH, rA, drF,
+ C     &                'phiHydLow', myThid )
+ Cml)
+ #ifdef ALLOW_DIAGNOSTICS
+       IF ( useDiagnostics ) THEN
+        CALL DIAGNOSTICS_FILL(totPhihyd,'PHIHYD  ',0,Nr,0,1,1,myThid)
+        CALL DIAGNOSTICS_FILL(phiHydLow,'PHIBOT  ',0, 1,0,1,1,myThid)
+        tmpFac = 1. _d 0
+        CALL DIAGNOSTICS_SCALE_FILL(totPhihyd,tmpFac,2,
+      &                                 'PHIHYDSQ',0,Nr,0,1,1,myThid)
+        CALL DIAGNOSTICS_SCALE_FILL(phiHydLow,tmpFac,2,
+      &                                 'PHIBOTSQ',0, 1,0,1,1,myThid)
+       ENDIF
+ #endif /* ALLOW_DIAGNOSTICS */
+ #ifdef ALLOW_DEBUG
+       If ( debugLevel .GE. debLevB ) THEN
+        CALL DEBUG_STATS_RL(1,EtaN,'EtaN (DYNAMICS)',myThid)
+        CALL DEBUG_STATS_RL(Nr,uVel,'Uvel (DYNAMICS)',myThid)
+        CALL DEBUG_STATS_RL(Nr,vVel,'Vvel (DYNAMICS)',myThid)
+        CALL DEBUG_STATS_RL(Nr,wVel,'Wvel (DYNAMICS)',myThid)
+        CALL DEBUG_STATS_RL(Nr,theta,'Theta (DYNAMICS)',myThid)
+        CALL DEBUG_STATS_RL(Nr,salt,'Salt (DYNAMICS)',myThid)
+        CALL DEBUG_STATS_RL(Nr,gU,'Gu (DYNAMICS)',myThid)
+        CALL DEBUG_STATS_RL(Nr,gV,'Gv (DYNAMICS)',myThid)
+        CALL DEBUG_STATS_RL(Nr,gT,'Gt (DYNAMICS)',myThid)
+        CALL DEBUG_STATS_RL(Nr,gS,'Gs (DYNAMICS)',myThid)
+ #ifndef ALLOW_ADAMSBASHFORTH_3
+        CALL DEBUG_STATS_RL(Nr,guNm1,'GuNm1 (DYNAMICS)',myThid)
+        CALL DEBUG_STATS_RL(Nr,gvNm1,'GvNm1 (DYNAMICS)',myThid)
+        CALL DEBUG_STATS_RL(Nr,gtNm1,'GtNm1 (DYNAMICS)',myThid)
+        CALL DEBUG_STATS_RL(Nr,gsNm1,'GsNm1 (DYNAMICS)',myThid)
+ #endif
+       ENDIF
+ #endif
+ #ifdef DYNAMICS_GUGV_EXCH_CHECK
+ C- jmc: For safety checking only: This Exchange here should not change
+ C       the solution. If solution changes, it means something is wrong,
+ C       but it does not mean that it is less wrong with this exchange.
+       IF ( debugLevel .GT. debLevB ) THEN
+        CALL EXCH_UV_XYZ_RL(gU,gV,.TRUE.,myThid)
+       ENDIF
+ #endif
+ #ifdef ALLOW_DEBUG
+       IF ( debugLevel .GE. debLevB )
+      &   CALL DEBUG_LEAVE( 'DYNAMICS', myThid )
+ #endif
        RETURN
        END

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