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dynbfr.F90 in branches/2016/dev_r6519_HPC_4/NEMOGCM/NEMO/OPA_SRC/DYN – NEMO

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source: branches/2016/dev_r6519_HPC_4/NEMOGCM/NEMO/OPA_SRC/DYN/dynbfr.F90 @ 6748

Last change on this file since 6748 was 6748, checked in by mocavero, 8 years ago
GYRE hybrid parallelization
Property svn:keywords set to `Id`
File size: 5.6 KB

Line
1	MODULE dynbfr
2	!!==============================================================================
3	!! * MODULE dynbfr *
4	!! Ocean dynamics : bottom friction component of the momentum mixing trend
5	!!==============================================================================
6	!! History : 3.2 ! 2008-11 (A. C. Coward) Original code
7	!! 3.4 ! 2011-09 (H. Liu) Make it consistent with semi-implicit
8	!! Bottom friction (ln_bfrimp = .true.)
9	!!----------------------------------------------------------------------
10
11	!!----------------------------------------------------------------------
12	!! dyn_bfr : Update the momentum trend with the bottom friction contribution
13	!!----------------------------------------------------------------------
14	USE oce ! ocean dynamics and tracers variables
15	USE dom_oce ! ocean space and time domain variables
16	USE zdf_oce ! ocean vertical physics variables
17	USE zdfbfr ! ocean bottom friction variables
18	USE trd_oce ! trends: ocean variables
19	USE trddyn ! trend manager: dynamics
20	USE in_out_manager ! I/O manager
21	USE prtctl ! Print control
22	USE timing ! Timing
23	USE wrk_nemo ! Memory Allocation
24
25	IMPLICIT NONE
26	PRIVATE
27
28	PUBLIC dyn_bfr ! routine called by step.F90
29
30	!! * Substitutions
31	# include "vectopt_loop_substitute.h90"
32	!!----------------------------------------------------------------------
33	!! NEMO/OPA 3.3 , NEMO Consortium (2010)
34	!! $Id$
35	!! Software governed by the CeCILL licence (NEMOGCM/NEMO_CeCILL.txt)
36	!!----------------------------------------------------------------------
37	CONTAINS
38
39	SUBROUTINE dyn_bfr( kt )
40	!!----------------------------------------------------------------------
41	!! * ROUTINE dyn_bfr *
42	!!
43	!! ** Purpose : compute the bottom friction ocean dynamics physics.
44	!!
45	!! ** Action : (ua,va) momentum trend increased by bottom friction trend
46	!!---------------------------------------------------------------------
47	INTEGER, INTENT(in) :: kt ! ocean time-step index
48	!!
49	INTEGER :: ji, jj ! dummy loop indexes
50	INTEGER :: ikbu, ikbv ! local integers
51	REAL(wp) :: zm1_2dt ! local scalar
52	REAL(wp), POINTER, DIMENSION(:,:,:) :: ztrdu, ztrdv
53	!!---------------------------------------------------------------------
54	!
55	IF( nn_timing == 1 ) CALL timing_start('dyn_bfr')
56	!
57	!!gm issue: better to put the logical in step to control the call of zdf_bfr
58	!! ==> change the logical from ln_bfrimp to ln_bfr_exp !!
59	IF( .NOT.ln_bfrimp) THEN ! only for explicit bottom friction form
60	! implicit bfr is implemented in dynzdf_imp
61
62	!!gm bug : time step is only rdt (not 2 rdt if euler start !)
63	zm1_2dt = - 1._wp / ( 2._wp * rdt )
64
65	IF( l_trddyn ) THEN ! trends: store the input trends
66	CALL wrk_alloc( jpi,jpj,jpk, ztrdu, ztrdv )
67	!$OMP PARALLEL WORKSHARE
68	ztrdu(:,:,:) = ua(:,:,:)
69	ztrdv(:,:,:) = va(:,:,:)
70	!$OMP END PARALLEL WORKSHARE
71	ENDIF
72
73	!$OMP PARALLEL DO schedule(static) private(jj, ji, ikbu, ikbv)
74	DO jj = 2, jpjm1
75	DO ji = 2, jpim1
76	ikbu = mbku(ji,jj) ! deepest ocean u- & v-levels
77	ikbv = mbkv(ji,jj)
78	!
79	! Apply stability criteria on absolute value : abs(bfr/e3) < 1/(2dt) => bfr/e3 > -1/(2dt)
80	ua(ji,jj,ikbu) = ua(ji,jj,ikbu) + MAX( bfrua(ji,jj) / e3u_n(ji,jj,ikbu) , zm1_2dt ) * ub(ji,jj,ikbu)
81	va(ji,jj,ikbv) = va(ji,jj,ikbv) + MAX( bfrva(ji,jj) / e3v_n(ji,jj,ikbv) , zm1_2dt ) * vb(ji,jj,ikbv)
82	END DO
83	END DO
84	!
85	IF( ln_isfcav ) THEN ! ocean cavities
86	!$OMP PARALLEL DO schedule(static) private(jj, ji, ikbu, ikbv)
87	DO jj = 2, jpjm1
88	DO ji = 2, jpim1
89	! (ISF) stability criteria for top friction
90	ikbu = miku(ji,jj) ! first wet ocean u- & v-levels
91	ikbv = mikv(ji,jj)
92	!
93	! Apply stability criteria on absolute value : abs(bfr/e3) < 1/(2dt) => bfr/e3 > -1/(2dt)
94	ua(ji,jj,ikbu) = ua(ji,jj,ikbu) + MAX( tfrua(ji,jj) / e3u_n(ji,jj,ikbu) , zm1_2dt ) * ub(ji,jj,ikbu) &
95	& * (1.-umask(ji,jj,1))
96	va(ji,jj,ikbv) = va(ji,jj,ikbv) + MAX( tfrva(ji,jj) / e3v_n(ji,jj,ikbv) , zm1_2dt ) * vb(ji,jj,ikbv) &
97	& * (1.-vmask(ji,jj,1))
98	! (ISF)
99	END DO
100	END DO
101	END IF
102	!
103	IF( l_trddyn ) THEN ! trends: send trends to trddyn for further diagnostics
104	!$OMP PARALLEL WORKSHARE
105	ztrdu(:,:,:) = ua(:,:,:) - ztrdu(:,:,:)
106	ztrdv(:,:,:) = va(:,:,:) - ztrdv(:,:,:)
107	!$OMP END PARALLEL WORKSHARE
108	CALL trd_dyn( ztrdu(:,:,:), ztrdv(:,:,:), jpdyn_bfr, kt )
109	CALL wrk_dealloc( jpi,jpj,jpk, ztrdu, ztrdv )
110	ENDIF
111	! ! print mean trends (used for debugging)
112	IF(ln_ctl) CALL prt_ctl( tab3d_1=ua, clinfo1=' bfr - Ua: ', mask1=umask, &
113	& tab3d_2=va, clinfo2= ' Va: ', mask2=vmask, clinfo3='dyn' )
114	!
115	ENDIF ! end explicit bottom friction
116	!
117	IF( nn_timing == 1 ) CALL timing_stop('dyn_bfr')
118	!
119	END SUBROUTINE dyn_bfr
120
121	!!==============================================================================
122	END MODULE dynbfr

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