model/src/the_model_main.F

C $Header: /u/gcmpack/models/MITgcmUV/model/src/the_model_main.F,v 1.27 1999/03/22 16:44:17 adcroft Exp $

#include "CPP_OPTIONS.h"

      SUBROUTINE THE_MODEL_MAIN(myThid)
C     /==========================================================\
C     | SUBROUTINE THE_MODEL_MAIN                                |
C     | o Master controlling routine for model using the MITgcm  |
C     |   UV parallel wrapper.                                   |
C     |==========================================================|
C     | THE_MODEL_MAIN is invoked by the MITgcm UV parallel      |
C     | wrapper with a single integer argument "myThid". This    |
C     | variable identifies the thread number of an instance of  |
C     | THE_MODEL_MAIN. Each instance of THE_MODEL_MAIN works    |
C     | on a particular region of the models domain and          |
C     | synchronises with other instances as necessary. The      |
C     | routine has to "understand" the MITgcm parallel          |
C     | environment and the numerical algorithm. Editing this    |
C     | routine is best done with some knowledge of both aspects.|
C     | Notes                                                    |
C     | =====                                                    |
C     | C*P* comments indicating place holders for which code is |
C     |      presently being developed.                          |
C     \==========================================================/
      IMPLICIT NONE
C
C     Call Tree
C     =========
C     
C      main ( eesupp )
C       |
C       .
C       .
C       . Generic environment initialisation ( see eesupp/src and
C       .                                      eesupp/inc )      
C       . multiple threads and/or processes are created in here
C       .
C       .
C       .
C       |
C       |-THE_MODEL_MAIN - Begin specific model. One instance
C       |  |               of this codes exists for each thread
C       |  |               and/or instance. Each instance manages
C       |  |               a specifc set of tiles.               
C       |  |
C       |  |--INITIALISE
C       |  |   o Set initial conditions and model configuration
C       |  |     Topography, hydrography, timestep, grid, etc..
C       |  | 
C  ==>  |  | ** Time stepping loop starts here **
C  |    |  |
C /|\   |  |
C  |    |  |--LOAD_EXTERNAL_DATA
C /|\   |  |   o Load and/or set time dependent forcing fields
C  |    |  |
C /|\   |  |--DYNAMICS
C  |    |  |   o Evaluate "forward" terms
C /|\   |  |
C  |    |  |--DO_THE_MODEL_IO
C /|\   |  |   o Write model state
C  |    |  |
C /|\   |  |--SOLVE_FOR_PRESSURE
C  |    |  |   o Find pressure field to keep flow non-divergent
C /|\   |  |
C  |    |  |--DO_GTERM_BLOCKING_EXCHANGES
C /|\   |  |   o Update overlap regions
C  |    |  |
C /|\   |  |--WRITE_CHECKPOINT
C  |    |  |   o Write restart file(s)
C /|\   |  |
C  |    |  |
C  |<== |  | ** Time stepping loop finishes here **
C       |  |
C       |  |--WRITE_STATE
C       |  |--WRITE_CHECKPOINT
C       |
C       .
C       .
C       . Generic environment termination ( see eesupp/src and
C       .                                      eesupp/inc )      
C       .
C       .

C     == Global variables ===
#include "SIZE.h"
#include "EEPARAMS.h"
#include "PARAMS.h"
#include "DYNVARS.h"
#include "CG2D.h"
#ifdef ALLOW_NONHYDROSTATIC
#include "CG3D.h"
#endif

C     == Routine arguments ==
C     myThid - Thread number for this instance of the routine.
      INTEGER myThid  

C     == Local variables ==
C     Note: Under the multi-threaded model myCurrentIter and 
C           myCurrentTime 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     myCurrentIter - Iteration counter for this thread
C     myCurrentTime - Time counter for this thread
C     I             - Loop counter
      INTEGER I, myCurrentIter
      REAL    myCurrentTime
      CHARACTER*(30) suff

C--   This timer encompasses the whole code
      CALL TIMER_START('ALL',myThid)

      CALL TIMER_START('SPIN-UP',myThid)

C--   Set model initial conditions 
      CALL TIMER_START('INITIALISE          [SPIN-UP]',myThid)
      CALL INITIALISE( myThid )
      myCurrentTime = startTime
      myCurrentIter = nIter0
      CALL TIMER_STOP ('INITIALISE          [SPIN-UP]',myThid)

C--   Dump for start state
      CALL TIMER_START('I/O (WRITE)         [SPIN-UP]',myThid)
      CALL WRITE_STATE( .TRUE., myCurrentTime, myCurrentIter, myThid )
      CALL TIMER_STOP ('I/O (WRITE)         [SPIN-UP]',myThid)

      CALL TIMER_STOP ('SPIN-UP',myThid)

C--   Begin time stepping loop
      CALL TIMER_START('MAIN LOOP',myThid)
      DO I=1, nTimeSteps

C--    Load forcing/external data fields
       CALL TIMER_START('I/O (READ)         [MAIN LOOP]',myThid)
       CALL LOAD_EXTERNAL_FIELDS( myCurrentTime, myCurrentIter, myThid )
       CALL TIMER_STOP ('I/O (READ)         [MAIN LOOP]',myThid)

#ifdef INCLUDE_SHAPIRO_FILTER_CODE
C--    Step forward all tiles, filter and exchange.
       CALL TIMER_START('SHAP_FILT          [MAIN LOOP]',myThid)
       CALL SHAP_FILT( myCurrentTime, myCurrentIter, myThid )
       CALL TIMER_STOP ('SHAP_FILT          [MAIN LOOP]',myThid)
#endif

#ifdef ALLOW_OBCS
C--    Set Open Boundaries Values
       IF (openBoundaries) THEN
        CALL TIMER_START('OBCS               [MAIN LOOP]',myThid)
        CALL SET_OBCS( myCurrentTime, myThid )
        CALL TIMER_STOP ('OBCS               [MAIN LOOP]',myThid)
       ENDIF
#endif

C--    Step forward fields and calculate time tendency terms
       CALL TIMER_START('DYNAMICS           [MAIN LOOP]',myThid)
       CALL DYNAMICS( myCurrentTime, myCurrentIter, myThid )
       CALL TIMER_STOP ('DYNAMICS           [MAIN LOOP]',myThid)

#ifdef ALLOW_NONHYDROSTATIC
C--    Step forward W field in N-H algorithm
       IF ( nonHydrostatic ) THEN
        CALL TIMER_START('CALC_GW            [MAIN LOOP]',myThid)
        CALL CALC_GW( myThid)
        CALL TIMER_STOP ('CALC_GW            [MAIN LOOP]',myThid)
       ENDIF
#endif

C--    Do time averages
#ifdef INCLUDE_DIAGNOSTICS_INTERFACE_CODE
       CALL TIMER_START('I/O (WRITE)        [MAIN LOOP]',myThid)
       IF (taveFreq.GT.0.) THEN
        CALL WRITE_TIME_AVERAGES( myCurrentTime, myCurrentIter, myThid )
       ENDIF
       CALL TIMER_STOP ('I/O (WRITE)        [MAIN LOOP]',myThid)
#endif

C--    Do IO if needed.
C      Note:
C      =====
C      At this point model arrays hold U,V,T,S  at "time-level" N 
C      and cg2d_x at "time-level" N-1/2 where N = I+timeLevBase-1. 
C      By convention this is taken to be the model "state". 
       CALL TIMER_START('I/O (WRITE)        [MAIN LOOP]',myThid)
       CALL DO_THE_MODEL_IO( myCurrentTime, myCurrentIter, myThid )
       CALL TIMER_STOP ('I/O (WRITE)        [MAIN LOOP]',myThid)

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

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

       myCurrentIter = myCurrentIter + 1
       myCurrentTime = myCurrentTime + deltaTClock 

C--    Save state for restarts
C      Note:
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 cg2d_x at "time-level" N+1/2.
C       where N = I+timeLevBase-1
C      Thus a checkpoint contains U.0000000000, GU.0000000001 and 
C      cg2d_x.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('I/O (WRITE)        [MAIN LOOP]',myThid)
       CALL 
     & WRITE_CHECKPOINT( .FALSE., myCurrentTime, myCurrentIter, myThid )
       CALL TIMER_STOP ('I/O (WRITE)        [MAIN LOOP]',myThid)

      ENDDO
      CALL TIMER_STOP ('MAIN LOOP',myThid)
      CALL TIMER_START('SPIN-DOWN',myThid)

C--   Final checkpoint (incase the in-loop checkpoint was missed)
      CALL TIMER_START('I/O (WRITE)         [SPIN-DOWN]',myThid)
      CALL 
     & WRITE_CHECKPOINT( .TRUE., myCurrentTime, myCurrentIter, myThid )
      CALL TIMER_STOP ('I/O (WRITE)         [SPIN-DOWN]',myThid)

#ifdef ALLOW_OBCS
C--   Set Open Boundaries Values
      IF (openBoundaries) THEN
       CALL TIMER_START('OBCS               [SPIN_DOWN]',myThid)
       CALL SET_OBCS( myCurrentTime, myThid )
       CALL TIMER_STOP ('OBCS               [SPIN_DOWN]',myThid)
      ENDIF
#endif

C--   Step-forward U/V/Theta/Salt for purposes of final I/O dump
      CALL TIMER_START('DYNAMICS            [SPIN-DOWN]',myThid)
      CALL DYNAMICS( myCurrentTime, myCurrentIter, myThid )
      CALL TIMER_STOP ('DYNAMICS            [SPIN-DOWN]',myThid)

#ifdef ALLOW_NONHYDROSTATIC
      IF ( nonHydrostatic ) THEN
C--    Step forward W field in N-H algorithm
       CALL TIMER_START('CALC_GW            [SPIN-DOWN]',myThid)
       CALL CALC_GW( myThid)
       CALL TIMER_STOP ('CALC_GW            [SPIN-DOWN]',myThid)
      ENDIF
#endif

C--   Do time averages
#ifdef ALLOW_DIAGNOSTICS
      IF (taveFreq.GT.0.) THEN
       CALL TIMER_START('I/O (WRITE)        [SPIN-DOWN]',myThid)
       CALL WRITE_TIME_AVERAGES( myCurrentTime, myCurrentIter, myThid )
       CALL TIMER_STOP ('I/O (WRITE)        [SPIN-DOWN]',myThid)
      ENDIF
#endif

C--   Dump for end state
      CALL TIMER_START('I/O (WRITE)         [SPIN-DOWN]',myThid)
      CALL WRITE_STATE( .FALSE., myCurrentTime, myCurrentIter, myThid )
      CALL TIMER_STOP ('I/O (WRITE)         [SPIN-DOWN]',myThid)

      CALL TIMER_STOP ('SPIN-DOWN',myThid)
      CALL TIMER_STOP ('ALL',myThid)

C--   Write timer statistics
      IF ( myThid .EQ. 1 ) THEN
       CALL TIMER_PRINTALL( myThid )
       CALL COMM_STATS
      ENDIF

      RETURN
      END
1	adcroft	1.28	C $Header: /u/gcmpack/models/MITgcmUV/model/src/the_model_main.F,v 1.27 1999/03/22 16:44:17 adcroft Exp $
2	cnh	1.1
3	adcroft	1.18	#include "CPP_OPTIONS.h"
4	cnh	1.1
5			SUBROUTINE THE_MODEL_MAIN(myThid)
6			C /==========================================================\
7			C \| SUBROUTINE THE_MODEL_MAIN \|
8			C \| o Master controlling routine for model using the MITgcm \|
9			C \| UV parallel wrapper. \|
10			C \|==========================================================\|
11			C \| THE_MODEL_MAIN is invoked by the MITgcm UV parallel \|
12			C \| wrapper with a single integer argument "myThid". This \|
13			C \| variable identifies the thread number of an instance of \|
14			C \| THE_MODEL_MAIN. Each instance of THE_MODEL_MAIN works \|
15			C \| on a particular region of the models domain and \|
16			C \| synchronises with other instances as necessary. The \|
17			C \| routine has to "understand" the MITgcm parallel \|
18			C \| environment and the numerical algorithm. Editing this \|
19			C \| routine is best done with some knowledge of both aspects.\|
20			C \| Notes \|
21			C \| ===== \|
22			C \| CP comments indicating place holders for which code is \|
23			C \| presently being developed. \|
24			C \==========================================================/
25	adcroft	1.24	IMPLICIT NONE
26	cnh	1.10	C
27			C Call Tree
28			C =========
29			C
30			C main ( eesupp )
31			C \|
32			C .
33			C .
34			C . Generic environment initialisation ( see eesupp/src and
35			C . eesupp/inc )
36			C . multiple threads and/or processes are created in here
37			C .
38			C .
39			C .
40			C \|
41			C \|-THE_MODEL_MAIN - Begin specific model. One instance
42			C \| \| of this codes exists for each thread
43			C \| \| and/or instance. Each instance manages
44			C \| \| a specifc set of tiles.
45			C \| \|
46			C \| \|--INITIALISE
47			C \| \| o Set initial conditions and model configuration
48			C \| \| Topography, hydrography, timestep, grid, etc..
49			C \| \|
50			C ==> \| \| Time stepping loop starts here
51			C \| \| \|
52			C /\|\ \| \|
53			C \| \| \|--LOAD_EXTERNAL_DATA
54			C /\|\ \| \| o Load and/or set time dependent forcing fields
55			C \| \| \|
56			C /\|\ \| \|--DYNAMICS
57			C \| \| \| o Evaluate "forward" terms
58			C /\|\ \| \|
59			C \| \| \|--DO_THE_MODEL_IO
60			C /\|\ \| \| o Write model state
61			C \| \| \|
62			C /\|\ \| \|--SOLVE_FOR_PRESSURE
63			C \| \| \| o Find pressure field to keep flow non-divergent
64			C /\|\ \| \|
65			C \| \| \|--DO_GTERM_BLOCKING_EXCHANGES
66			C /\|\ \| \| o Update overlap regions
67			C \| \| \|
68			C /\|\ \| \|--WRITE_CHECKPOINT
69			C \| \| \| o Write restart file(s)
70			C /\|\ \| \|
71			C \| \| \|
72			C \|<== \| \| Time stepping loop finishes here
73			C \| \|
74			C \| \|--WRITE_STATE
75	adcroft	1.17	C \| \|--WRITE_CHECKPOINT
76	cnh	1.10	C \|
77			C .
78			C .
79			C . Generic environment termination ( see eesupp/src and
80			C . eesupp/inc )
81			C .
82			C .
83	cnh	1.1
84			C == Global variables ===
85			#include "SIZE.h"
86			#include "EEPARAMS.h"
87			#include "PARAMS.h"
88	adcroft	1.26	#include "DYNVARS.h"
89	cnh	1.1	#include "CG2D.h"
90	adcroft	1.27	#ifdef ALLOW_NONHYDROSTATIC
91	adcroft	1.26	#include "CG3D.h"
92	adcroft	1.27	#endif
93	cnh	1.1
94			C == Routine arguments ==
95			C myThid - Thread number for this instance of the routine.
96	cnh	1.6	INTEGER myThid
97	cnh	1.1
98			C == Local variables ==
99	cnh	1.7	C Note: Under the multi-threaded model myCurrentIter and
100			C myCurrentTime are local variables passed around as routine
101			C arguments. Although this is fiddly it saves the need to
102			C impose additional synchronisation points when they are
103			C updated.
104	cnh	1.1	C myCurrentIter - Iteration counter for this thread
105			C myCurrentTime - Time counter for this thread
106			C I - Loop counter
107			INTEGER I, myCurrentIter
108			REAL myCurrentTime
109	adcroft	1.26	CHARACTER*(30) suff
110	cnh	1.1
111	adcroft	1.19	C-- This timer encompasses the whole code
112			CALL TIMER_START('ALL',myThid)
113
114			CALL TIMER_START('SPIN-UP',myThid)
115
116	cnh	1.1	C-- Set model initial conditions
117	adcroft	1.19	CALL TIMER_START('INITIALISE [SPIN-UP]',myThid)
118	cnh	1.1	CALL INITIALISE( myThid )
119			myCurrentTime = startTime
120			myCurrentIter = nIter0
121	adcroft	1.19	CALL TIMER_STOP ('INITIALISE [SPIN-UP]',myThid)
122	cnh	1.1
123	adcroft	1.15	C-- Dump for start state
124	adcroft	1.19	CALL TIMER_START('I/O (WRITE) [SPIN-UP]',myThid)
125	adcroft	1.15	CALL WRITE_STATE( .TRUE., myCurrentTime, myCurrentIter, myThid )
126	adcroft	1.19	CALL TIMER_STOP ('I/O (WRITE) [SPIN-UP]',myThid)
127
128			CALL TIMER_STOP ('SPIN-UP',myThid)
129	adcroft	1.15
130	cnh	1.1	C-- Begin time stepping loop
131	adcroft	1.19	CALL TIMER_START('MAIN LOOP',myThid)
132	cnh	1.1	DO I=1, nTimeSteps
133	cnh	1.4
134	cnh	1.11	C-- Load forcing/external data fields
135	adcroft	1.19	CALL TIMER_START('I/O (READ) [MAIN LOOP]',myThid)
136	cnh	1.11	CALL LOAD_EXTERNAL_FIELDS( myCurrentTime, myCurrentIter, myThid )
137	adcroft	1.19	CALL TIMER_STOP ('I/O (READ) [MAIN LOOP]',myThid)
138	cnh	1.1
139	cnh	1.22	#ifdef INCLUDE_SHAPIRO_FILTER_CODE
140			C-- Step forward all tiles, filter and exchange.
141			CALL TIMER_START('SHAP_FILT [MAIN LOOP]',myThid)
142			CALL SHAP_FILT( myCurrentTime, myCurrentIter, myThid )
143			CALL TIMER_STOP ('SHAP_FILT [MAIN LOOP]',myThid)
144			#endif
145
146	adcroft	1.28	#ifdef ALLOW_OBCS
147	adcroft	1.23	C-- Set Open Boundaries Values
148			IF (openBoundaries) THEN
149			CALL TIMER_START('OBCS [MAIN LOOP]',myThid)
150			CALL SET_OBCS( myCurrentTime, myThid )
151			CALL TIMER_STOP ('OBCS [MAIN LOOP]',myThid)
152			ENDIF
153	adcroft	1.28	#endif
154	cnh	1.22
155	cnh	1.1	C-- Step forward fields and calculate time tendency terms
156	adcroft	1.19	CALL TIMER_START('DYNAMICS [MAIN LOOP]',myThid)
157	cnh	1.8	CALL DYNAMICS( myCurrentTime, myCurrentIter, myThid )
158	adcroft	1.19	CALL TIMER_STOP ('DYNAMICS [MAIN LOOP]',myThid)
159	cnh	1.1
160	adcroft	1.26	#ifdef ALLOW_NONHYDROSTATIC
161			C-- Step forward W field in N-H algorithm
162			IF ( nonHydrostatic ) THEN
163			CALL TIMER_START('CALC_GW [MAIN LOOP]',myThid)
164			CALL CALC_GW( myThid)
165			CALL TIMER_STOP ('CALC_GW [MAIN LOOP]',myThid)
166			ENDIF
167			#endif
168
169	adcroft	1.14	C-- Do time averages
170	cnh	1.22	#ifdef INCLUDE_DIAGNOSTICS_INTERFACE_CODE
171	adcroft	1.19	CALL TIMER_START('I/O (WRITE) [MAIN LOOP]',myThid)
172	adcroft	1.14	IF (taveFreq.GT.0.) THEN
173	adcroft	1.17	CALL WRITE_TIME_AVERAGES( myCurrentTime, myCurrentIter, myThid )
174	adcroft	1.14	ENDIF
175	adcroft	1.19	CALL TIMER_STOP ('I/O (WRITE) [MAIN LOOP]',myThid)
176	adcroft	1.17	#endif
177	adcroft	1.14
178	cnh	1.7	C-- Do IO if needed.
179			C Note:
180			C =====
181			C At this point model arrays hold U,V,T,S at "time-level" N
182			C and cg2d_x at "time-level" N-1/2 where N = I+timeLevBase-1.
183			C By convention this is taken to be the model "state".
184	adcroft	1.19	CALL TIMER_START('I/O (WRITE) [MAIN LOOP]',myThid)
185	cnh	1.7	CALL DO_THE_MODEL_IO( myCurrentTime, myCurrentIter, myThid )
186	adcroft	1.19	CALL TIMER_STOP ('I/O (WRITE) [MAIN LOOP]',myThid)
187	adcroft	1.26
188	cnh	1.1	C-- Solve elliptic equation(s).
189	cnh	1.7	C Two-dimensional only for conventional hydrostatic or
190			C three-dimensional for non-hydrostatic and/or IGW scheme.
191	adcroft	1.19	CALL TIMER_START('SOLVE_FOR_PRESSURE [MAIN LOOP]',myThid)
192	cnh	1.1	CALL SOLVE_FOR_PRESSURE( myThid )
193	adcroft	1.19	CALL TIMER_STOP ('SOLVE_FOR_PRESSURE [MAIN LOOP]',myThid)
194	cnh	1.1
195			C-- Do "blocking" sends and receives for tendency "overlap" terms
196	adcroft	1.19	CALL TIMER_START('BLOCKING_EXCHANGES [MAIN LOOP]',myThid)
197	cnh	1.1	CALL DO_GTERM_BLOCKING_EXCHANGES( myThid )
198	adcroft	1.19	CALL TIMER_STOP ('BLOCKING_EXCHANGES [MAIN LOOP]',myThid)
199	cnh	1.1
200			myCurrentIter = myCurrentIter + 1
201	cnh	1.7	myCurrentTime = myCurrentTime + deltaTClock
202	cnh	1.1
203			C-- Save state for restarts
204	cnh	1.7	C Note:
205			C =====
206	adcroft	1.12	C Because of the ordering of the timestepping code and
207	cnh	1.7	C tendency term code at end of loop model arrays hold
208			C U,V,T,S at "time-level" N but gu, gv, gs, gt, guNM1,...
209			C at "time-level" N+1/2 (guNM1 at "time-level" N+1/2 is
210			C gu at "time-level" N-1/2) and cg2d_x at "time-level" N+1/2.
211			C where N = I+timeLevBase-1
212			C Thus a checkpoint contains U.0000000000, GU.0000000001 and
213			C cg2d_x.0000000001 in the indexing scheme used for the model
214			C "state" files. This example is referred to as a checkpoint
215			C at time level 1
216	adcroft	1.19	CALL TIMER_START('I/O (WRITE) [MAIN LOOP]',myThid)
217	cnh	1.21	CALL
218			& WRITE_CHECKPOINT( .FALSE., myCurrentTime, myCurrentIter, myThid )
219	adcroft	1.19	CALL TIMER_STOP ('I/O (WRITE) [MAIN LOOP]',myThid)
220	cnh	1.1
221			ENDDO
222	adcroft	1.19	CALL TIMER_STOP ('MAIN LOOP',myThid)
223			CALL TIMER_START('SPIN-DOWN',myThid)
224	adcroft	1.13
225	adcroft	1.12	C-- Final checkpoint (incase the in-loop checkpoint was missed)
226	adcroft	1.19	CALL TIMER_START('I/O (WRITE) [SPIN-DOWN]',myThid)
227	cnh	1.21	CALL
228			& WRITE_CHECKPOINT( .TRUE., myCurrentTime, myCurrentIter, myThid )
229	adcroft	1.19	CALL TIMER_STOP ('I/O (WRITE) [SPIN-DOWN]',myThid)
230	adcroft	1.23
231	adcroft	1.28	#ifdef ALLOW_OBCS
232	adcroft	1.23	C-- Set Open Boundaries Values
233			IF (openBoundaries) THEN
234			CALL TIMER_START('OBCS [SPIN_DOWN]',myThid)
235			CALL SET_OBCS( myCurrentTime, myThid )
236			CALL TIMER_STOP ('OBCS [SPIN_DOWN]',myThid)
237			ENDIF
238	adcroft	1.28	#endif
239	adcroft	1.12
240			C-- Step-forward U/V/Theta/Salt for purposes of final I/O dump
241	adcroft	1.19	CALL TIMER_START('DYNAMICS [SPIN-DOWN]',myThid)
242	adcroft	1.12	CALL DYNAMICS( myCurrentTime, myCurrentIter, myThid )
243	adcroft	1.19	CALL TIMER_STOP ('DYNAMICS [SPIN-DOWN]',myThid)
244	adcroft	1.26
245			#ifdef ALLOW_NONHYDROSTATIC
246			IF ( nonHydrostatic ) THEN
247			C-- Step forward W field in N-H algorithm
248			CALL TIMER_START('CALC_GW [SPIN-DOWN]',myThid)
249			CALL CALC_GW( myThid)
250			CALL TIMER_STOP ('CALC_GW [SPIN-DOWN]',myThid)
251			ENDIF
252			#endif
253	adcroft	1.14
254			C-- Do time averages
255	adcroft	1.17	#ifdef ALLOW_DIAGNOSTICS
256	adcroft	1.14	IF (taveFreq.GT.0.) THEN
257	adcroft	1.19	CALL TIMER_START('I/O (WRITE) [SPIN-DOWN]',myThid)
258			CALL WRITE_TIME_AVERAGES( myCurrentTime, myCurrentIter, myThid )
259			CALL TIMER_STOP ('I/O (WRITE) [SPIN-DOWN]',myThid)
260	adcroft	1.14	ENDIF
261	adcroft	1.17	#endif
262	adcroft	1.12
263			C-- Dump for end state
264	adcroft	1.19	CALL TIMER_START('I/O (WRITE) [SPIN-DOWN]',myThid)
265	adcroft	1.15	CALL WRITE_STATE( .FALSE., myCurrentTime, myCurrentIter, myThid )
266	adcroft	1.19	CALL TIMER_STOP ('I/O (WRITE) [SPIN-DOWN]',myThid)
267
268			CALL TIMER_STOP ('SPIN-DOWN',myThid)
269			CALL TIMER_STOP ('ALL',myThid)
270	cnh	1.7
271	adcroft	1.19	C-- Write timer statistics
272	cnh	1.20	IF ( myThid .EQ. 1 ) THEN
273			CALL TIMER_PRINTALL( myThid )
274			CALL COMM_STATS
275			ENDIF
276	cnh	1.1
277			RETURN
278			END