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bdytra.F90 in NEMO/branches/2019/dev_r10984_HPC-13_IRRMANN_BDY_optimization/src/OCE/BDY – NEMO

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source: NEMO/branches/2019/dev_r10984_HPC-13_IRRMANN_BDY_optimization/src/OCE/BDY/bdytra.F90 @ 11067

Last change on this file since 11067 was 11067, checked in by girrmann, 5 years ago
dev_r10984_HPC-13 : new implementation of lbc_bdy_lnk in prevision of step 2, regroup communications, see #2285
Property svn:keywords set to `Id`
File size: 8.1 KB

Line
1	MODULE bdytra
2	!!======================================================================
3	!! * MODULE bdytra *
4	!! Ocean tracers: Apply boundary conditions for tracers
5	!!======================================================================
6	!! History : 1.0 ! 2005-01 (J. Chanut, A. Sellar) Original code
7	!! 3.0 ! 2008-04 (NEMO team) add in the reference version
8	!! 3.4 ! 2011 (D. Storkey) rewrite in preparation for OBC-BDY merge
9	!! 3.5 ! 2012 (S. Mocavero, I. Epicoco) Optimization of BDY communications
10	!! 4.0 ! 2016 (T. Lovato) Generalize OBC structure
11	!!----------------------------------------------------------------------
12	!! bdy_tra : Apply open boundary conditions & damping to T and S
13	!!----------------------------------------------------------------------
14	USE oce ! ocean dynamics and tracers variables
15	USE dom_oce ! ocean space and time domain variables
16	USE bdy_oce ! ocean open boundary conditions
17	USE bdylib ! for orlanski library routines
18	!
19	USE in_out_manager ! I/O manager
20	USE lbclnk ! ocean lateral boundary conditions (or mpp link)
21	USE lib_mpp, ONLY: ctl_stop
22	USE timing ! Timing
23
24	IMPLICIT NONE
25	PRIVATE
26
27	! Local structure to rearrange tracers data
28	TYPE, PUBLIC :: ztrabdy
29	REAL(wp), POINTER, DIMENSION(:,:) :: tra
30	END TYPE
31
32	PUBLIC bdy_tra ! called in tranxt.F90
33	PUBLIC bdy_tra_dmp ! called in step.F90
34
35	!!----------------------------------------------------------------------
36	!! NEMO/OCE 4.0 , NEMO Consortium (2018)
37	!! $Id$
38	!! Software governed by the CeCILL license (see ./LICENSE)
39	!!----------------------------------------------------------------------
40	CONTAINS
41
42	SUBROUTINE bdy_tra( kt )
43	!!----------------------------------------------------------------------
44	!! * SUBROUTINE bdy_tra *
45	!!
46	!! ** Purpose : - Apply open boundary conditions for temperature and salinity
47	!!
48	!!----------------------------------------------------------------------
49	INTEGER, INTENT(in) :: kt ! Main time step counter
50	!
51	INTEGER :: ib_bdy, jn, igrd ! Loop indeces
52	TYPE(ztrabdy), DIMENSION(jpts) :: zdta ! Temporary data structure
53	LOGICAL, DIMENSION(4) :: lsend1, lrecv1 ! indicate how communications are to be carried out
54	!!----------------------------------------------------------------------
55	igrd = 1
56
57	DO ib_bdy=1, nb_bdy
58	!
59	zdta(1)%tra => dta_bdy(ib_bdy)%tem
60	zdta(2)%tra => dta_bdy(ib_bdy)%sal
61	!
62	DO jn = 1, jpts
63	!
64	SELECT CASE( TRIM(cn_tra(ib_bdy)) )
65	CASE('none' ) ; CYCLE
66	CASE('frs' ) ; CALL bdy_frs ( idx_bdy(ib_bdy), tsa(:,:,:,jn), zdta(jn)%tra )
67	CASE('specified' ) ; CALL bdy_spe ( idx_bdy(ib_bdy), tsa(:,:,:,jn), zdta(jn)%tra )
68	CASE('neumann' ) ; CALL bdy_nmn ( idx_bdy(ib_bdy), igrd , tsa(:,:,:,jn) ) ! tsa masked
69	CASE('orlanski' ) ; CALL bdy_orl ( idx_bdy(ib_bdy), tsb(:,:,:,jn), tsa(:,:,:,jn), zdta(jn)%tra, ll_npo=.false. )
70	CASE('orlanski_npo') ; CALL bdy_orl ( idx_bdy(ib_bdy), tsb(:,:,:,jn), tsa(:,:,:,jn), zdta(jn)%tra, ll_npo=.true. )
71	CASE('runoff' ) ; CALL bdy_rnf ( idx_bdy(ib_bdy), tsa(:,:,:,jn), jn )
72	CASE DEFAULT ; CALL ctl_stop( 'bdy_tra : unrecognised option for open boundaries for T and S' )
73	END SELECT
74	!
75	END DO
76	END DO
77	!
78	lsend1(:) = .false.
79	lrecv1(:) = .false.
80	DO ib_bdy=1, nb_bdy
81	SELECT CASE( TRIM(cn_tra(ib_bdy)) )
82	CASE('neumann')
83	lsend1(:) = lsend1(:) .OR. lsend_bdy(ib_bdy,1,:) ! to every bdy neighbour, T points
84	lrecv1(:) = lrecv1(:) .OR. lrecv_bdy(ib_bdy,1,:) ! from every bdy neighbour, T points
85	CASE('orlanski')
86	lsend1(:) = lsend1(:) .OR. lsend_bdy(ib_bdy,1,:) ! to every bdy neighbour, T points
87	lrecv1(:) = lrecv1(:) .OR. lrecv_bdy(ib_bdy,1,:) ! from every bdy neighbour, T points
88	CASE('orlanski_npo')
89	lsend1(:) = lsend1(:) .OR. lsend_bdy(ib_bdy,1,:) ! to every bdy neighbour, T points
90	lrecv1(:) = lrecv1(:) .OR. lrecv_bdy(ib_bdy,1,:) ! from every bdy neighbour, T points
91	CASE('runoff')
92	lsend1(:) = lsend1(:) .OR. lsend_bdy(ib_bdy,1,:) ! to every bdy neighbour, T points
93	lrecv1(:) = lrecv1(:) .OR. lrecv_bdy(ib_bdy,1,:) ! from every bdy neighbour, T points
94	END SELECT
95	END DO
96	IF( ANY(lsend1) .OR. ANY(lrecv1) ) THEN ! if need to send/recv in at least one direction
97	CALL lbc_bdy_lnk( 'bdytra', lsend1, lrecv1, tsa, 'T', 1. )
98	END IF
99	!
100	END SUBROUTINE bdy_tra
101
102
103	SUBROUTINE bdy_rnf( idx, pta, jpa )
104	!!----------------------------------------------------------------------
105	!! * SUBROUTINE bdy_rnf *
106	!!
107	!! ** Purpose : Specialized routine to apply TRA runoff values at OBs:
108	!! - duplicate the neighbour value for the temperature
109	!! - specified to 0.1 PSU for the salinity
110	!!
111	!!----------------------------------------------------------------------
112	TYPE(OBC_INDEX), INTENT(in) :: idx ! OBC indices
113	REAL(wp), DIMENSION(jpi,jpj,jpk), INTENT(inout) :: pta ! tracer trend
114	INTEGER, INTENT(in) :: jpa ! TRA index
115	!
116	INTEGER :: ib, ii, ij, igrd ! dummy loop indices
117	INTEGER :: ik, ip, jp ! 2D addresses
118	!!----------------------------------------------------------------------
119	!
120	igrd = 1 ! Everything is at T-points here
121	IF( jpa == jp_tem ) THEN
122	CALL bdy_nmn( idx, igrd, pta )
123	ELSE IF( jpa == jp_sal ) THEN
124	DO ib = 1, idx%nblenrim(igrd)
125	ii = idx%nbi(ib,igrd)
126	ij = idx%nbj(ib,igrd)
127	pta(ii,ij,1:jpkm1) = 0.1 * tmask(ii,ij,1:jpkm1)
128	END DO
129	END IF
130	!
131	END SUBROUTINE bdy_rnf
132
133
134	SUBROUTINE bdy_tra_dmp( kt )
135	!!----------------------------------------------------------------------
136	!! * SUBROUTINE bdy_tra_dmp *
137	!!
138	!! ** Purpose : Apply damping for tracers at open boundaries.
139	!!
140	!!----------------------------------------------------------------------
141	INTEGER, INTENT(in) :: kt !
142	!
143	REAL(wp) :: zwgt ! boundary weight
144	REAL(wp) :: zta, zsa, ztime
145	INTEGER :: ib, ik, igrd ! dummy loop indices
146	INTEGER :: ii, ij ! 2D addresses
147	INTEGER :: ib_bdy ! Loop index
148	!!----------------------------------------------------------------------
149	!
150	IF( ln_timing ) CALL timing_start('bdy_tra_dmp')
151	!
152	DO ib_bdy = 1, nb_bdy
153	IF( ln_tra_dmp(ib_bdy) ) THEN
154	igrd = 1 ! Everything is at T-points here
155	DO ib = 1, idx_bdy(ib_bdy)%nblen(igrd)
156	ii = idx_bdy(ib_bdy)%nbi(ib,igrd)
157	ij = idx_bdy(ib_bdy)%nbj(ib,igrd)
158	zwgt = idx_bdy(ib_bdy)%nbd(ib,igrd)
159	DO ik = 1, jpkm1
160	zta = zwgt * ( dta_bdy(ib_bdy)%tem(ib,ik) - tsb(ii,ij,ik,jp_tem) ) * tmask(ii,ij,ik)
161	zsa = zwgt * ( dta_bdy(ib_bdy)%sal(ib,ik) - tsb(ii,ij,ik,jp_sal) ) * tmask(ii,ij,ik)
162	tsa(ii,ij,ik,jp_tem) = tsa(ii,ij,ik,jp_tem) + zta
163	tsa(ii,ij,ik,jp_sal) = tsa(ii,ij,ik,jp_sal) + zsa
164	END DO
165	END DO
166	ENDIF
167	END DO
168	!
169	IF( ln_timing ) CALL timing_stop('bdy_tra_dmp')
170	!
171	END SUBROUTINE bdy_tra_dmp
172
173	!!======================================================================
174	END MODULE bdytra

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