model/src/forward_step.F

C $Header: /u/gcmpack/models/MITgcmUV/model/src/forward_step.F,v 1.21 2001/09/19 13:58:08 jmc Exp $
C $Name:  $

#include "CPP_OPTIONS.h"

CBOP
C     !ROUTINE: FORWARD_STEP
C     !INTERFACE:
      SUBROUTINE FORWARD_STEP( iloop, myTime, myIter, myThid )

C     !DESCRIPTION: \bv
C     *==================================================================
C     | SUBROUTINE forward_step
C     | o Run the ocean model and, optionally, evaluate a cost function.
C     *==================================================================
C     |
C     | THE_MAIN_LOOP is the toplevel routine for the Tangent Linear and
C     | Adjoint Model Compiler (TAMC). For this purpose the initialization
C     | of the model was split into two parts. Those parameters that do
C     | not depend on a specific model run are set in INITIALISE_FIXED,   
C     | whereas those that do depend on the specific realization are
C     | initialized in INITIALISE_VARIA.   
C     |
C     *==================================================================
C     \ev

C     !USES:
      IMPLICIT NONE
C     == Global variables ==
#include "SIZE.h"
#include "EEPARAMS.h"
#include "PARAMS.h"
#include "DYNVARS.h"
#include "FFIELDS.h"

#ifdef ALLOW_NONHYDROSTATIC
#include "CG3D.h"
#endif

#ifdef ALLOW_AUTODIFF_TAMC
#include "tamc.h"
#include "ctrl.h"
#include "ctrl_dummy.h"
#include "cost.h"
#endif

C     !LOCAL VARIABLES:
C     == Routine arguments ==
C     note: under the multi-threaded model myiter and 
C           mytime are local variables passed around as routine 
C           arguments. Although this is fiddly it saves the need to 
C           impose additional synchronisation points when they are 
C           updated.
C     myiter - iteration counter for this thread
C     mytime - time counter for this thread
C     mythid - thread number for this instance of the routine.
      integer iloop
      integer mythid 
      integer myiter
      _RL     mytime
      INTEGER bi,bj

CEOP


#ifdef ALLOW_AUTODIFF_TAMC
C--     Reset the model iteration counter and the model time.
        myiter = nIter0 + (iloop-1)
        mytime = startTime + float(iloop-1)*deltaTclock
#endif

#ifdef ALLOW_AUTODIFF_TAMC
C       Include call to a dummy routine. Its adjoint will be 
C       called at the proper place in the adjoint code.
C       The adjoint routine will print out adjoint values 
C       if requested. The location of the call is important, 
C       it has to be after the adjoint of the exchanges 
C       (DO_GTERM_BLOCKING_EXCHANGES).
        CALL DUMMY_IN_STEPPING( myTime, myIter, myThid )
#endif

#ifdef EXACT_CONSERV
      IF (exactConserv) THEN
C--   Update etaH(n+1) :
        DO bj=myByLo(myThid),myByHi(myThid)
         DO bi=myBxLo(myThid),myBxHi(myThid)
           CALL CALC_EXACT_ETA( .FALSE., bi,bj, uVel,vVel,
     I                          startTime, nIter0, myThid )
         ENDDO
        ENDDO
        IF (implicDiv2Dflow .NE. 1. _d 0 )
     &     _EXCH_XY_R8(etaH, myThid )
      ENDIF
#endif /* EXACT_CONSERV */ 

#ifdef NONLIN_FRSURF
C--   compute the future surface level thickness
C      according to etaH(n+1) 
        IF ( nonlinFreeSurf.GT.0) THEN
          CALL CALC_SURF_DR(etaH, myTime, myIter, myThid )
        ENDIF
#endif /* NONLIN_FRSURF */

C--     Load forcing/external data fields.
#ifdef INCLUDE_EXTERNAL_FORCING_PACKAGE
C       NOTE, that although the exf package is part of the
C       distribution, it is not currently maintained, i.e.
C       exf is disabled by default in genmake.
        CALL EXF_GETFORCING( mytime, myiter, mythid )
#else
        CALL TIMER_START('EXTERNAL_FIELDS_LOAD[THE_MAIN_LOOP]',mythid)
        CALL EXTERNAL_FIELDS_LOAD( mytime, myiter, mythid )
        CALL TIMER_STOP ('EXTERNAL_FIELDS_LOAD[THE_MAIN_LOOP]',mythid)
#endif

C--     Step forward fields and calculate time tendency terms.
        CALL TIMER_START('THERMODYNAMICS      [THE_MAIN_LOOP]',mythid)
        CALL THERMODYNAMICS( myTime, myIter, myThid )
        CALL TIMER_STOP ('THERMODYNAMICS      [THE_MAIN_LOOP]',mythid)

C--     Step forward fields and calculate time tendency terms.
        IF ( momStepping ) THEN
        CALL TIMER_START('DYNAMICS            [THE_MAIN_LOOP]',mythid)
        CALL DYNAMICS( myTime, myIter, myThid )
        CALL TIMER_STOP ('DYNAMICS            [THE_MAIN_LOOP]',mythid)
        ENDIF

#ifndef ALLOW_AUTODIFF_TAMC
#ifdef ALLOW_NONHYDROSTATIC
C--   Step forward W field in N-H algorithm
        IF ( momStepping .AND. nonHydrostatic ) THEN
          CALL TIMER_START('CALC_GW          [THE_MAIN_LOOP]',myThid)
          CALL CALC_GW(myThid)
          CALL TIMER_STOP ('CALC_GW          [THE_MAIN_LOOP]',myThid)
        ENDIF
#endif
#endif /* ALLOW_AUTODIFF_TAMC */

#ifdef NONLIN_FRSURF
C--   update hfacC,W,S and recip_hFac according to etaH(n+1) :
      IF ( momStepping ) THEN
      IF ( nonlinFreeSurf.GT.0) THEN
        CALL UPDATE_SURF_DR( myTime, myIter, myThid )
      ENDIF
C-    update also CG2D matrix (and preconditioner)
      IF ( nonlinFreeSurf.GT.2) THEN
        CALL UPDATE_CG2D( myTime, myIter, myThid )
      ENDIF
      ENDIF
#endif

C-- This block has been moved to the_correction_step(). We have
C   left this code here to indicate where the filters used to be
C   in the algorithm before JMC moved them to after the pressure
C   solver.
C
C#ifdef ALLOW_SHAP_FILT
CC--   Step forward all tiles, filter and exchange.
C      CALL TIMER_START('SHAP_FILT           [THE_MAIN_LOOP]',myThid)
C      CALL SHAP_FILT_APPLY( 
C     I                     gUnm1, gVnm1, gTnm1, gSnm1,
C     I                     myTime, myIter, myThid )
C      IF (implicDiv2Dflow.LT.1.) THEN
CC--   Explicit+Implicit part of the Barotropic Flow Divergence
CC      => Filtering of uVel,vVel is necessary
C         CALL SHAP_FILT_UV( uVel, vVel, myTime, myThid )
C      ENDIF
C      CALL TIMER_STOP ('SHAP_FILT           [THE_MAIN_LOOP]',myThid)
C#endif
C
C#ifdef ALLOW_ZONAL_FILT
C      IF (zonal_filt_lat.LT.90.) THEN 
C        CALL TIMER_START('ZONAL_FILT_APPLY    [THE_MAIN_LOOP]',myThid)
C        CALL ZONAL_FILT_APPLY(
C     U           gUnm1, gVnm1, gTnm1, gSnm1,
C     I           myThid )
C        CALL TIMER_STOP ('ZONAL_FILT_APPLY    [THE_MAIN_LOOP]',myThid)
C      ENDIF
C#endif

C--   Solve elliptic equation(s).
C     Two-dimensional only for conventional hydrostatic or 
C     three-dimensional for non-hydrostatic and/or IGW scheme.
      IF ( momStepping ) THEN
      CALL TIMER_START('SOLVE_FOR_PRESSURE  [THE_MAIN_LOOP]',myThid)
      CALL SOLVE_FOR_PRESSURE( myThid )
      CALL TIMER_STOP ('SOLVE_FOR_PRESSURE  [THE_MAIN_LOOP]',myThid)
      ENDIF

C--   Correct divergence in flow field and cycle time-stepping
C     arrays (for all fields) ; update time-counter
      myIter = nIter0 + iLoop
      myTime = startTime + deltaTClock * float(iLoop)
      CALL TIMER_START('THE_CORRECTION_STEP [THE_MAIN_LOOP]',myThid)
      CALL THE_CORRECTION_STEP(myTime, myIter, myThid)
      CALL TIMER_STOP ('THE_CORRECTION_STEP [THE_MAIN_LOOP]',myThid)

C--   Do "blocking" sends and receives for tendency "overlap" terms
c     CALL TIMER_START('BLOCKING_EXCHANGES  [THE_MAIN_LOOP]',myThid)
c     CALL DO_GTERM_BLOCKING_EXCHANGES( myThid )
c     CALL TIMER_STOP ('BLOCKING_EXCHANGES  [THE_MAIN_LOOP]',myThid)

C--   Do "blocking" sends and receives for field "overlap" terms
      CALL TIMER_START('BLOCKING_EXCHANGES  [THE_MAIN_LOOP]',myThid)
      CALL DO_FIELDS_BLOCKING_EXCHANGES( myThid )
      CALL TIMER_STOP ('BLOCKING_EXCHANGES  [THE_MAIN_LOOP]',myThid)

#ifdef ALLOW_FLT
C--   Calculate float trajectories
      IF (useFLT) THEN
        CALL TIMER_START('FLOATS            [THE_MAIN_LOOP]',myThid)
        CALL FLT_MAIN(myIter,myTime, myThid)
        CALL TIMER_STOP ('FLOATS            [THE_MAIN_LOOP]',myThid)
      ENDIF
#endif

#ifndef EXCLUDE_MONITOR
C--   Check status of solution (statistics, cfl, etc...)
      CALL MONITOR( myIter, myTime, myThid )
#endif /* EXCLUDE_MONITOR */

#ifndef ALLOW_AUTODIFF_TAMC
C--   Do IO if needed.
      CALL TIMER_START('DO_THE_MODEL_IO     [THE_MAIN_LOOP]',myThid)
      CALL DO_THE_MODEL_IO( myTime, myIter, myThid )
      CALL TIMER_STOP ('DO_THE_MODEL_IO     [THE_MAIN_LOOP]',myThid)

C--   Save state for restarts
C     Note:    (jmc: is it still the case after ckp35 ?)
C     =====
C     Because of the ordering of the timestepping code and
C     tendency term code at end of loop model arrays hold
C     U,V,T,S  at "time-level" N but gu, gv, gs, gt, guNM1,... 
C     at "time-level" N+1/2 (guNM1 at "time-level" N+1/2 is 
C     gu at "time-level" N-1/2) and etaN at "time-level" N+1/2.
C      where N = I+timeLevBase-1
C     Thus a checkpoint contains U.0000000000, GU.0000000001 and 
C     etaN.0000000001 in the indexing scheme used for the model 
C     "state" files. This example is referred to as a checkpoint 
C     at time level 1 
      CALL TIMER_START('WRITE_CHECKPOINT    [THE_MAIN_LOOP]',myThid)
      CALL WRITE_CHECKPOINT(
     &        .FALSE., myTime, myIter, myThid )
      CALL TIMER_STOP ('WRITE_CHECKPOINT    [THE_MAIN_LOOP]',myThid)

#endif /* ALLOW_AUTODIFF_TAMC */

      END
1	C $Header: /u/gcmpack/models/MITgcmUV/model/src/forward_step.F,v 1.21 2001/09/19 13:58:08 jmc Exp $
2	C $Name: $
3
4	#include "CPP_OPTIONS.h"
5
6	CBOP
7	C !ROUTINE: FORWARD_STEP
8	C !INTERFACE:
9	SUBROUTINE FORWARD_STEP( iloop, myTime, myIter, myThid )
10
11	C !DESCRIPTION: \bv
12	C *==================================================================
13	C \| SUBROUTINE forward_step
14	C \| o Run the ocean model and, optionally, evaluate a cost function.
15	C *==================================================================
16	C \|
17	C \| THE_MAIN_LOOP is the toplevel routine for the Tangent Linear and
18	C \| Adjoint Model Compiler (TAMC). For this purpose the initialization
19	C \| of the model was split into two parts. Those parameters that do
20	C \| not depend on a specific model run are set in INITIALISE_FIXED,
21	C \| whereas those that do depend on the specific realization are
22	C \| initialized in INITIALISE_VARIA.
23	C \|
24	C *==================================================================
25	C \ev
26
27	C !USES:
28	IMPLICIT NONE
29	C == Global variables ==
30	#include "SIZE.h"
31	#include "EEPARAMS.h"
32	#include "PARAMS.h"
33	#include "DYNVARS.h"
34	#include "FFIELDS.h"
35
36	#ifdef ALLOW_NONHYDROSTATIC
37	#include "CG3D.h"
38	#endif
39
40	#ifdef ALLOW_AUTODIFF_TAMC
41	#include "tamc.h"
42	#include "ctrl.h"
43	#include "ctrl_dummy.h"
44	#include "cost.h"
45	#endif
46
47	C !LOCAL VARIABLES:
48	C == Routine arguments ==
49	C note: under the multi-threaded model myiter and
50	C mytime are local variables passed around as routine
51	C arguments. Although this is fiddly it saves the need to
52	C impose additional synchronisation points when they are
53	C updated.
54	C myiter - iteration counter for this thread
55	C mytime - time counter for this thread
56	C mythid - thread number for this instance of the routine.
57	integer iloop
58	integer mythid
59	integer myiter
60	_RL mytime
61	INTEGER bi,bj
62
63	CEOP
64
65
66	#ifdef ALLOW_AUTODIFF_TAMC
67	C-- Reset the model iteration counter and the model time.
68	myiter = nIter0 + (iloop-1)
69	mytime = startTime + float(iloop-1)*deltaTclock
70	#endif
71
72	#ifdef ALLOW_AUTODIFF_TAMC
73	C Include call to a dummy routine. Its adjoint will be
74	C called at the proper place in the adjoint code.
75	C The adjoint routine will print out adjoint values
76	C if requested. The location of the call is important,
77	C it has to be after the adjoint of the exchanges
78	C (DO_GTERM_BLOCKING_EXCHANGES).
79	CALL DUMMY_IN_STEPPING( myTime, myIter, myThid )
80	#endif
81
82	#ifdef EXACT_CONSERV
83	IF (exactConserv) THEN
84	C-- Update etaH(n+1) :
85	DO bj=myByLo(myThid),myByHi(myThid)
86	DO bi=myBxLo(myThid),myBxHi(myThid)
87	CALL CALC_EXACT_ETA( .FALSE., bi,bj, uVel,vVel,
88	I startTime, nIter0, myThid )
89	ENDDO
90	ENDDO
91	IF (implicDiv2Dflow .NE. 1. _d 0 )
92	& _EXCH_XY_R8(etaH, myThid )
93	ENDIF
94	#endif /* EXACT_CONSERV */
95
96	#ifdef NONLIN_FRSURF
97	C-- compute the future surface level thickness
98	C according to etaH(n+1)
99	IF ( nonlinFreeSurf.GT.0) THEN
100	CALL CALC_SURF_DR(etaH, myTime, myIter, myThid )
101	ENDIF
102	#endif /* NONLIN_FRSURF */
103
104	C-- Load forcing/external data fields.
105	#ifdef INCLUDE_EXTERNAL_FORCING_PACKAGE
106	C NOTE, that although the exf package is part of the
107	C distribution, it is not currently maintained, i.e.
108	C exf is disabled by default in genmake.
109	CALL EXF_GETFORCING( mytime, myiter, mythid )
110	#else
111	CALL TIMER_START('EXTERNAL_FIELDS_LOAD[THE_MAIN_LOOP]',mythid)
112	CALL EXTERNAL_FIELDS_LOAD( mytime, myiter, mythid )
113	CALL TIMER_STOP ('EXTERNAL_FIELDS_LOAD[THE_MAIN_LOOP]',mythid)
114	#endif
115
116	C-- Step forward fields and calculate time tendency terms.
117	CALL TIMER_START('THERMODYNAMICS [THE_MAIN_LOOP]',mythid)
118	CALL THERMODYNAMICS( myTime, myIter, myThid )
119	CALL TIMER_STOP ('THERMODYNAMICS [THE_MAIN_LOOP]',mythid)
120
121	C-- Step forward fields and calculate time tendency terms.
122	IF ( momStepping ) THEN
123	CALL TIMER_START('DYNAMICS [THE_MAIN_LOOP]',mythid)
124	CALL DYNAMICS( myTime, myIter, myThid )
125	CALL TIMER_STOP ('DYNAMICS [THE_MAIN_LOOP]',mythid)
126	ENDIF
127
128	#ifndef ALLOW_AUTODIFF_TAMC
129	#ifdef ALLOW_NONHYDROSTATIC
130	C-- Step forward W field in N-H algorithm
131	IF ( momStepping .AND. nonHydrostatic ) THEN
132	CALL TIMER_START('CALC_GW [THE_MAIN_LOOP]',myThid)
133	CALL CALC_GW(myThid)
134	CALL TIMER_STOP ('CALC_GW [THE_MAIN_LOOP]',myThid)
135	ENDIF
136	#endif
137	#endif /* ALLOW_AUTODIFF_TAMC */
138
139	#ifdef NONLIN_FRSURF
140	C-- update hfacC,W,S and recip_hFac according to etaH(n+1) :
141	IF ( momStepping ) THEN
142	IF ( nonlinFreeSurf.GT.0) THEN
143	CALL UPDATE_SURF_DR( myTime, myIter, myThid )
144	ENDIF
145	C- update also CG2D matrix (and preconditioner)
146	IF ( nonlinFreeSurf.GT.2) THEN
147	CALL UPDATE_CG2D( myTime, myIter, myThid )
148	ENDIF
149	ENDIF
150	#endif
151
152	C-- This block has been moved to the_correction_step(). We have
153	C left this code here to indicate where the filters used to be
154	C in the algorithm before JMC moved them to after the pressure
155	C solver.
156	C
157	C#ifdef ALLOW_SHAP_FILT
158	CC-- Step forward all tiles, filter and exchange.
159	C CALL TIMER_START('SHAP_FILT [THE_MAIN_LOOP]',myThid)
160	C CALL SHAP_FILT_APPLY(
161	C I gUnm1, gVnm1, gTnm1, gSnm1,
162	C I myTime, myIter, myThid )
163	C IF (implicDiv2Dflow.LT.1.) THEN
164	CC-- Explicit+Implicit part of the Barotropic Flow Divergence
165	CC => Filtering of uVel,vVel is necessary
166	C CALL SHAP_FILT_UV( uVel, vVel, myTime, myThid )
167	C ENDIF
168	C CALL TIMER_STOP ('SHAP_FILT [THE_MAIN_LOOP]',myThid)
169	C#endif
170	C
171	C#ifdef ALLOW_ZONAL_FILT
172	C IF (zonal_filt_lat.LT.90.) THEN
173	C CALL TIMER_START('ZONAL_FILT_APPLY [THE_MAIN_LOOP]',myThid)
174	C CALL ZONAL_FILT_APPLY(
175	C U gUnm1, gVnm1, gTnm1, gSnm1,
176	C I myThid )
177	C CALL TIMER_STOP ('ZONAL_FILT_APPLY [THE_MAIN_LOOP]',myThid)
178	C ENDIF
179	C#endif
180
181	C-- Solve elliptic equation(s).
182	C Two-dimensional only for conventional hydrostatic or
183	C three-dimensional for non-hydrostatic and/or IGW scheme.
184	IF ( momStepping ) THEN
185	CALL TIMER_START('SOLVE_FOR_PRESSURE [THE_MAIN_LOOP]',myThid)
186	CALL SOLVE_FOR_PRESSURE( myThid )
187	CALL TIMER_STOP ('SOLVE_FOR_PRESSURE [THE_MAIN_LOOP]',myThid)
188	ENDIF
189
190	C-- Correct divergence in flow field and cycle time-stepping
191	C arrays (for all fields) ; update time-counter
192	myIter = nIter0 + iLoop
193	myTime = startTime + deltaTClock * float(iLoop)
194	CALL TIMER_START('THE_CORRECTION_STEP [THE_MAIN_LOOP]',myThid)
195	CALL THE_CORRECTION_STEP(myTime, myIter, myThid)
196	CALL TIMER_STOP ('THE_CORRECTION_STEP [THE_MAIN_LOOP]',myThid)
197
198	C-- Do "blocking" sends and receives for tendency "overlap" terms
199	c CALL TIMER_START('BLOCKING_EXCHANGES [THE_MAIN_LOOP]',myThid)
200	c CALL DO_GTERM_BLOCKING_EXCHANGES( myThid )
201	c CALL TIMER_STOP ('BLOCKING_EXCHANGES [THE_MAIN_LOOP]',myThid)
202
203	C-- Do "blocking" sends and receives for field "overlap" terms
204	CALL TIMER_START('BLOCKING_EXCHANGES [THE_MAIN_LOOP]',myThid)
205	CALL DO_FIELDS_BLOCKING_EXCHANGES( myThid )
206	CALL TIMER_STOP ('BLOCKING_EXCHANGES [THE_MAIN_LOOP]',myThid)
207
208	#ifdef ALLOW_FLT
209	C-- Calculate float trajectories
210	IF (useFLT) THEN
211	CALL TIMER_START('FLOATS [THE_MAIN_LOOP]',myThid)
212	CALL FLT_MAIN(myIter,myTime, myThid)
213	CALL TIMER_STOP ('FLOATS [THE_MAIN_LOOP]',myThid)
214	ENDIF
215	#endif
216
217	#ifndef EXCLUDE_MONITOR
218	C-- Check status of solution (statistics, cfl, etc...)
219	CALL MONITOR( myIter, myTime, myThid )
220	#endif /* EXCLUDE_MONITOR */
221
222	#ifndef ALLOW_AUTODIFF_TAMC
223	C-- Do IO if needed.
224	CALL TIMER_START('DO_THE_MODEL_IO [THE_MAIN_LOOP]',myThid)
225	CALL DO_THE_MODEL_IO( myTime, myIter, myThid )
226	CALL TIMER_STOP ('DO_THE_MODEL_IO [THE_MAIN_LOOP]',myThid)
227
228	C-- Save state for restarts
229	C Note: (jmc: is it still the case after ckp35 ?)
230	C =====
231	C Because of the ordering of the timestepping code and
232	C tendency term code at end of loop model arrays hold
233	C U,V,T,S at "time-level" N but gu, gv, gs, gt, guNM1,...
234	C at "time-level" N+1/2 (guNM1 at "time-level" N+1/2 is
235	C gu at "time-level" N-1/2) and etaN at "time-level" N+1/2.
236	C where N = I+timeLevBase-1
237	C Thus a checkpoint contains U.0000000000, GU.0000000001 and
238	C etaN.0000000001 in the indexing scheme used for the model
239	C "state" files. This example is referred to as a checkpoint
240	C at time level 1
241	CALL TIMER_START('WRITE_CHECKPOINT [THE_MAIN_LOOP]',myThid)
242	CALL WRITE_CHECKPOINT(
243	& .FALSE., myTime, myIter, myThid )
244	CALL TIMER_STOP ('WRITE_CHECKPOINT [THE_MAIN_LOOP]',myThid)
245
246	#endif /* ALLOW_AUTODIFF_TAMC */
247
248	END