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step.F90 @ 2176

Last change on this file since 2176 was 2176, checked in by sga, 14 years ago

NEMO branch DEV_r1924_visbeck.

Add code to be cut from branch DEV_r1924_nocs_latphys at revision 2163

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1	MODULE step
2	!!======================================================================
3	!! * MODULE step *
4	!! Time-stepping : manager of the ocean, tracer and ice time stepping
5	!!======================================================================
6	!! History : OPA ! 1991-03 (G. Madec) Original code
7	!! - ! 1991-11 (G. Madec)
8	!! - ! 1992-06 (M. Imbard) add a first output record
9	!! - ! 1996-04 (G. Madec) introduction of dynspg
10	!! - ! 1996-04 (M.A. Foujols) introduction of passive tracer
11	!! 8.0 ! 1997-06 (G. Madec) new architecture of call
12	!! 8.2 ! 1997-06 (G. Madec, M. Imbard, G. Roullet) free surface
13	!! - ! 1999-02 (G. Madec, N. Grima) hpg implicit
14	!! - ! 2000-07 (J-M Molines, M. Imbard) Open Bondary Conditions
15	!! NEMO 1.0 ! 2002-06 (G. Madec) free form, suppress macro-tasking
16	!! - ! 2004-08 (C. Talandier) New trends organization
17	!! - ! 2005-01 (C. Ethe) Add the KPP closure scheme
18	!! - ! 2005-11 (G. Madec) Reorganisation of tra and dyn calls
19	!! - ! 2006-01 (L. Debreu, C. Mazauric) Agrif implementation
20	!! - ! 2006-07 (S. Masson) restart using iom
21	!! 3.2 ! 2009-02 (G. Madec, R. Benshila) reintroduicing z*-coordinate
22	!! - ! 2009-06 (S. Masson, G. Madec) TKE restart compatible with key_cpl
23	!!----------------------------------------------------------------------
24
25	!!----------------------------------------------------------------------
26	!! stp : OPA system time-stepping
27	!!----------------------------------------------------------------------
28	USE oce ! ocean dynamics and tracers variables
29	USE dom_oce ! ocean space and time domain variables
30	USE zdf_oce ! ocean vertical physics variables
31	USE ldftra_oce ! ocean tracer - trends
32	USE ldfdyn_oce ! ocean dynamics - trends
33	USE in_out_manager ! I/O manager
34	USE iom !
35	USE lbclnk
36
37	USE daymod ! calendar (day routine)
38
39	USE dtatem ! ocean temperature data (dta_tem routine)
40	USE dtasal ! ocean salinity data (dta_sal routine)
41	USE sbcmod ! surface boundary condition (sbc routine)
42	USE sbcrnf ! surface boundary condition: runoff variables
43	USE sbccpl ! surface boundary condition: coupled formulation (call send at end of step)
44	USE cpl_oasis3, ONLY : lk_cpl
45
46	#if defined key_top
47	USE trcstp ! passive tracer time-stepping (trc_stp routine)
48	#endif
49
50	USE traqsr ! solar radiation penetration (tra_qsr routine)
51	USE trasbc ! surface boundary condition (tra_sbc routine)
52	USE trabbc ! bottom boundary condition (tra_bbc routine)
53	USE trabbl ! bottom boundary layer (tra_bbl routine)
54	USE tradmp ! internal damping (tra_dmp routine)
55	USE traadv ! advection scheme control (tra_adv_ctl routine)
56	USE traldf ! lateral mixing (tra_ldf routine)
57	USE cla ! cross land advection (tra_cla routine)
58	! zdfkpp ! KPP non-local tracer fluxes (tra_kpp routine)
59	USE trazdf ! vertical mixing (tra_zdf routine)
60	USE tranxt ! time-stepping (tra_nxt routine)
61	USE tranpc ! non-penetrative convection (tra_npc routine)
62
63	USE eosbn2 ! equation of state (eos_bn2 routine)
64
65	USE dynadv ! advection (dyn_adv routine)
66	USE dynbfr ! Bottom friction terms (dyn_bfr routine)
67	USE dynvor ! vorticity term (dyn_vor routine)
68	USE dynhpg ! hydrostatic pressure grad. (dyn_hpg routine)
69	USE dynldf ! lateral momentum diffusion (dyn_ldf routine)
70	USE dynzdf ! vertical diffusion (dyn_zdf routine)
71	USE dynspg_oce ! surface pressure gradient (dyn_spg routine)
72	USE dynspg ! surface pressure gradient (dyn_spg routine)
73	USE dynnxt ! time-stepping (dyn_nxt routine)
74
75	USE obc_par ! open boundary condition variables
76	USE obcdta ! open boundary condition data (obc_dta routine)
77	USE obcrst ! open boundary cond. restart (obc_rst routine)
78	USE obcrad ! open boundary cond. radiation (obc_rad routine)
79
80	USE bdy_par ! unstructured open boundary data variables
81	USE bdydta ! unstructured open boundary data (bdy_dta routine)
82
83	USE sshwzv ! vertical velocity and ssh (ssh_wzv routine)
84
85	USE ldfslp ! iso-neutral slopes (ldf_slp routine)
86	USE ldfeiv ! eddy induced velocity coef. (ldf_eiv routine)
87	USE ldfeiv_vis ! eddy induced velocity coef. (ldf_eiv_vis routine)
88
89	USE zdftmx ! tide-induced vertical mixing (zdf_tmx routine)
90	USE zdfbfr ! bottom friction (zdf_bfr routine)
91	USE zdftke_old ! old TKE vertical mixing (zdf_tke_old routine)
92	USE zdftke ! TKE vertical mixing (zdf_tke routine)
93	USE zdfkpp ! KPP vertical mixing (zdf_kpp routine)
94	USE zdfddm ! double diffusion mixing (zdf_ddm routine)
95	USE zdfevd ! enhanced vertical diffusion (zdf_evd routine)
96	USE zdfric ! Richardson vertical mixing (zdf_ric routine)
97	USE zdfmxl ! Mixed-layer depth (zdf_mxl routine)
98
99	USE zpshde ! partial step: hor. derivative (zps_hde routine)
100
101	USE diawri ! Standard run outputs (dia_wri routine)
102	USE trdicp ! Ocean momentum/tracers trends (trd_wri routine)
103	USE trdmld ! mixed-layer trends (trd_mld routine)
104	USE trdmld_rst ! restart for mixed-layer trends
105	USE trdmod_oce ! ocean momentum/tracers trends
106	USE trdvor ! vorticity budget (trd_vor routine)
107	USE diagap ! hor. mean model-data gap (dia_gap routine)
108	USE diahdy ! dynamic height (dia_hdy routine)
109	USE diaptr ! poleward transports (dia_ptr routine)
110	USE diaar5 ! AR5 diagnosics (dia_ar5 routine)
111	USE diahth ! thermocline depth (dia_hth routine)
112	USE diafwb ! freshwater budget (dia_fwb routine)
113	USE flo_oce ! floats variables
114	USE floats ! floats computation (flo_stp routine)
115
116	USE stpctl ! time stepping control (stp_ctl routine)
117	USE restart ! ocean restart (rst_wri routine)
118	USE prtctl ! Print control (prt_ctl routine)
119
120	#if defined key_agrif
121	USE agrif_opa_sponge ! Momemtum and tracers sponges
122	#endif
123
124	IMPLICIT NONE
125	PRIVATE
126
127	PUBLIC stp ! called by opa.F90
128
129	!! * Substitutions
130	# include "domzgr_substitute.h90"
131	# include "zdfddm_substitute.h90"
132	!!----------------------------------------------------------------------
133	!! NEMO/OPA 3.2 , LOCEAN-IPSL (2009)
134	!! $Id$
135	!! Software governed by the CeCILL licence (modipsl/doc/NEMO_CeCILL.txt)
136	!!----------------------------------------------------------------------
137
138	CONTAINS
139
140	#if defined key_agrif
141	SUBROUTINE stp( )
142	INTEGER :: kstp ! ocean time-step index
143	#else
144	SUBROUTINE stp( kstp )
145	INTEGER, INTENT(in) :: kstp ! ocean time-step index
146	#endif
147	!!----------------------------------------------------------------------
148	!! * ROUTINE stp *
149	!!
150	!! ** Purpose : - Time stepping of OPA (momentum and active tracer eqs.)
151	!! - Time stepping of LIM (dynamic and thermodynamic eqs.)
152	!! - Tme stepping of TRC (passive tracer eqs.)
153	!!
154	!! ** Method : -1- Update forcings and data
155	!! -2- Update ocean physics
156	!! -3- Compute the t and s trends
157	!! -4- Update t and s
158	!! -5- Compute the momentum trends
159	!! -6- Update the horizontal velocity
160	!! -7- Compute the diagnostics variables (rd,N2, div,cur,w)
161	!! -8- Outputs and diagnostics
162	!!----------------------------------------------------------------------
163	INTEGER :: jk ! dummy loop indice
164	INTEGER :: indic ! error indicator if < 0
165	!! ---------------------------------------------------------------------
166
167	#if defined key_agrif
168	kstp = nit000 + Agrif_Nb_Step()
169	! IF( Agrif_Root() .and. lwp) Write(,) '---'
170	! IF(lwp) Write(,) 'Grid Number',Agrif_Fixed(),' time step ',kstp
171	# if defined key_iomput
172	IF( Agrif_Nbstepint() == 0) CALL iom_swap
173	# endif
174	#endif
175	indic = 1 ! reset to no error condition
176
177	IF( kstp /= nit000 ) CALL day( kstp ) ! Calendar (day was already called at nit000 in day_init)
178
179	CALL iom_setkt( kstp ) ! say to iom that we are at time step kstp
180
181	CALL rst_opn( kstp ) ! Open the restart file
182
183	!>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>
184	! Update data, open boundaries, surface boundary condition (including sea-ice)
185	!<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<
186	IF( lk_dtatem ) CALL dta_tem( kstp ) ! update 3D temperature data
187	IF( lk_dtasal ) CALL dta_sal( kstp ) ! update 3D salinity data
188	CALL sbc ( kstp ) ! Sea Boundary Condition (including sea-ice)
189	IF( lk_obc ) CALL obc_dta( kstp ) ! update dynamic and tracer data at open boundaries
190	IF( lk_obc ) CALL obc_rad( kstp ) ! compute phase velocities at open boundaries
191	IF( lk_bdy ) CALL bdy_dta( kstp ) ! update dynamic and tracer data at unstructured open boundary
192
193	!>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>
194	! Ocean dynamics : ssh, wn, hdiv, rot !
195	!<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<
196	CALL ssh_wzv( kstp ) ! after ssh & vertical velocity
197
198	!>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>
199	! Ocean physics update (ua, va, ta, sa used as workspace)
200	!<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<
201	CALL bn2( tb, sb, rn2b ) ! before Brunt-Vaisala frequency
202	CALL bn2( tn, sn, rn2 ) ! now Brunt-Vaisala frequency
203	!
204	! VERTICAL PHYSICS
205	CALL zdf_bfr( kstp ) ! bottom friction
206	! ! Vertical eddy viscosity and diffusivity coefficients
207	IF( lk_zdfric ) CALL zdf_ric ( kstp ) ! Richardson number dependent Kz
208	IF( lk_zdftke_old ) CALL zdf_tke_old( kstp ) ! TKE closure scheme for Kz (old scheme)
209	IF( lk_zdftke ) CALL zdf_tke ( kstp ) ! TKE closure scheme for Kz
210	IF( lk_zdfkpp ) CALL zdf_kpp ( kstp ) ! KPP closure scheme for Kz
211	IF( lk_zdfcst ) THEN ! Constant Kz (reset avt, avm[uv] to the background value)
212	avt (:,:,:) = rn_avt0 * tmask(:,:,:)
213	avmu(:,:,:) = rn_avm0 * umask(:,:,:)
214	avmv(:,:,:) = rn_avm0 * vmask(:,:,:)
215	ENDIF
216	IF( ln_rnf_mouth ) THEN ! increase diffusivity at rivers mouths
217	DO jk = 2, nkrnf ; avt(:,:,jk) = avt(:,:,jk) + 2.e0 * rn_avt_rnf * rnfmsk(:,:) * tmask(:,:,jk) ; END DO
218	ENDIF
219	IF( ln_zdfevd ) CALL zdf_evd( kstp ) ! enhanced vertical eddy diffusivity
220
221	IF( lk_zdftmx ) CALL zdf_tmx( kstp ) ! tidal vertical mixing
222
223	IF( lk_zdfddm .AND. .NOT. lk_zdfkpp ) &
224	& CALL zdf_ddm( kstp ) ! double diffusive mixing
225	CALL zdf_mxl( kstp ) ! mixed layer depth
226
227	! write tke information in the restart file
228	IF( lrst_oce .AND. lk_zdftke ) CALL tke_rst( kstp, 'WRITE' )
229	!
230	! LATERAL PHYSICS
231	!
232	IF( lk_ldfslp ) THEN ! slope of lateral mixing
233	CALL eos( tb, sb, rhd ) ! before in situ density
234	IF( ln_zps ) CALL zps_hde( kstp, tb, sb, rhd, & ! Partial steps: before horizontal gradient
235	& gtu, gsu, gru, & ! of t, s, rd at the last ocean level
236	& gtv, gsv, grv )
237	CALL ldf_slp( kstp, rhd, rn2b ) ! before slope of the lateral mixing
238	ENDIF
239	#if defined key_traldf_c2d
240	IF( lk_traldf_eiv ) THEN ! eddy induced velocity coefficient
241	IF ( ln_traldf_vis ) THEN
242	CALL ldf_eiv_vis( kstp )
243	ELSE
244	CALL ldf_eiv( kstp )
245	ENDIF
246	ENDIF
247	# endif
248
249	!>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>
250	! diagnostics and outputs (ua, va, ta, sa used as workspace)
251	!<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<
252	IF( lk_floats ) CALL flo_stp( kstp ) ! drifting Floats
253	IF( lk_diahth ) CALL dia_hth( kstp ) ! Thermocline depth (20 degres isotherm depth)
254	IF( lk_diagap ) CALL dia_gap( kstp ) ! basin averaged diagnostics
255	IF( lk_diahdy ) CALL dia_hdy( kstp ) ! dynamical heigh diagnostics
256	IF( lk_diafwb ) CALL dia_fwb( kstp ) ! Fresh water budget diagnostics
257	IF( ln_diaptr ) CALL dia_ptr( kstp ) ! Poleward TRansports diagnostics
258	IF( lk_diaar5 ) CALL dia_ar5( kstp ) ! ar5 diag
259	CALL dia_wri( kstp ) ! ocean model: outputs
260
261	#if defined key_top
262	!>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>
263	! Passive Tracer Model
264	!<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<
265	CALL trc_stp( kstp ) ! time-stepping
266	#endif
267
268	!>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>
269	! Active tracers (ua, va used as workspace)
270	!<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<
271	ta(:,:,:) = 0.e0 ! set tracer trends to zero
272	sa(:,:,:) = 0.e0
273
274	CALL tra_sbc ( kstp ) ! surface boundary condition
275	IF( ln_traqsr ) CALL tra_qsr ( kstp ) ! penetrative solar radiation qsr
276	IF( lk_trabbc ) CALL tra_bbc ( kstp ) ! bottom heat flux
277	IF( lk_trabbl_dif ) CALL tra_bbl_dif( kstp ) ! diffusive bottom boundary layer scheme
278	IF( lk_trabbl_adv ) CALL tra_bbl_adv( kstp ) ! advective (and/or diffusive) bottom boundary layer scheme
279	IF( lk_tradmp ) CALL tra_dmp ( kstp ) ! internal damping trends
280	CALL tra_adv ( kstp ) ! horizontal & vertical advection
281	IF( n_cla == 1 ) CALL tra_cla ( kstp ) ! Cross Land Advection (Update Hor. advection)
282	IF( lk_zdfkpp ) CALL tra_kpp ( kstp ) ! KPP non-local tracer fluxes
283	CALL tra_ldf ( kstp ) ! lateral mixing
284	#if defined key_agrif
285	IF(.NOT. Agrif_Root()) CALL Agrif_Sponge_tra ! tracers sponge
286	#endif
287	CALL tra_zdf ( kstp ) ! vertical mixing and after tracer fields
288
289	IF( ln_dynhpg_imp ) THEN ! semi-implicit hpg (time stepping then eos)
290	IF( ln_zdfnpc ) CALL tra_npc ( kstp ) ! update after fields by non-penetrative convection
291	CALL tra_nxt ( kstp ) ! tracer fields at next time step
292	CALL eos( ta, sa, rhd, rhop ) ! Time-filtered in situ density for hpg computation
293	IF( ln_zps ) CALL zps_hde( kstp, ta, sa, rhd, & ! Partial steps: time filtered hor. derivative
294	& gtu, gsu, gru, & ! of t, s, rd at the bottom ocean level
295	& gtv, gsv, grv )
296
297	ELSE ! centered hpg (eos then time stepping)
298	CALL eos( tn, sn, rhd, rhop ) ! now in situ density for hpg computation
299	IF( ln_zps ) CALL zps_hde( kstp, tn, sn, rhd, & ! Partial steps: now horizontal derivative
300	& gtu, gsu, gru, & ! of t, s, rd at the bottom ocean level
301	& gtv, gsv, grv )
302	IF( ln_zdfnpc ) CALL tra_npc ( kstp ) ! update after fields by non-penetrative convection
303	CALL tra_nxt ( kstp ) ! tracer fields at next time step
304	ENDIF
305
306	!>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>
307	! Dynamics (ta, sa used as workspace)
308	!<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<
309	ua(:,:,:) = 0.e0 ! set dynamics trends to zero
310	va(:,:,:) = 0.e0
311
312	CALL dyn_adv( kstp ) ! advection (vector or flux form)
313	CALL dyn_vor( kstp ) ! vorticity term including Coriolis
314	CALL dyn_ldf( kstp ) ! lateral mixing
315	#if defined key_agrif
316	IF(.NOT. Agrif_Root()) CALL Agrif_Sponge_dyn ! momemtum sponge
317	#endif
318	CALL dyn_hpg( kstp ) ! horizontal gradient of Hydrostatic pressure
319	CALL dyn_bfr( kstp ) ! bottom friction
320	CALL dyn_zdf( kstp ) ! vertical diffusion
321	indic=0
322	CALL dyn_spg( kstp, indic ) ! surface pressure gradient
323	CALL dyn_nxt( kstp ) ! lateral velocity at next time step
324
325	CALL ssh_nxt( kstp ) ! sea surface height at next time step
326
327	!>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>
328	! Control and restarts
329	!<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<
330	CALL stp_ctl( kstp, indic )
331	IF( indic < 0 ) THEN
332	CALL ctl_stop( 'step: indic < 0' )
333	CALL dia_wri_state( 'output.abort', kstp )
334	ENDIF
335	IF( kstp == nit000 ) CALL iom_close( numror ) ! close input ocean restart file
336	IF( lrst_oce ) CALL rst_write ( kstp ) ! write output ocean restart file
337	IF( lk_obc ) CALL obc_rst_write( kstp ) ! write open boundary restart file
338
339	!>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>
340	! Trends (ua, va, ta, sa used as workspace)
341	!<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<
342	IF( nstop == 0 ) THEN
343	IF( lk_trddyn ) CALL trd_dwr( kstp ) ! trends: dynamics
344	IF( lk_trdtra ) CALL trd_twr( kstp ) ! trends: active tracers
345	IF( lk_trdmld ) CALL trd_mld( kstp ) ! trends: Mixed-layer
346	IF( lk_trdvor ) CALL trd_vor( kstp ) ! trends: vorticity budget
347	ENDIF
348
349	!>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>
350	! Coupled mode
351	!<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<
352	IF( lk_cpl ) CALL sbc_cpl_snd( kstp ) ! coupled mode : field exchanges
353	!
354	!
355	END SUBROUTINE stp
356
357	!!======================================================================
358	END MODULE step

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