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mod_filtre_fft.F90 @ 3906

Last change on this file since 3906 was 1907, checked in by lguez, 11 years ago

Added a copyright property to every file of the distribution, except
for the fcm files (which have their own copyright). Use svn propget on
a file to see the copyright. For instance:

$ svn propget copyright libf/phylmd/physiq.F90
Name of program: LMDZ
Creation date: 1984
Version: LMDZ5
License: CeCILL version 2
Holder: Laboratoire de m\'et\'eorologie dynamique, CNRS, UMR 8539
See the license file in the root directory

Also added the files defining the CeCILL version 2 license, in French
and English, at the top of the LMDZ tree.

Property copyright set to
Name of program: LMDZ
Creation date: 1984
Version: LMDZ5
License: CeCILL version 2
Holder: Laboratoire de m\'et\'eorologie dynamique, CNRS, UMR 8539
See the license file in the root directory
Property svn:eol-style set to native
Property svn:keywords set to Author Date Id Revision

File size: 6.9 KB

Rev	Line
[1403]	1	!
	2	! $Id: mod_filtre_fft.F90 1907 2013-11-26 13:10:46Z jyg $
	3	!
	4
[994]	5	MODULE mod_filtre_fft
	6
	7	LOGICAL,SAVE :: use_filtre_fft
	8	REAL,SAVE,ALLOCATABLE :: Filtre_u(:,:)
	9	REAL,SAVE,ALLOCATABLE :: Filtre_v(:,:)
	10	REAL,SAVE,ALLOCATABLE :: Filtre_inv(:,:)
	11
	12	CONTAINS
	13
	14	SUBROUTINE Init_filtre_fft(coeffu,modfrstu,jfiltnu,jfiltsu,coeffv,modfrstv,jfiltnv,jfiltsv)
	15	USE mod_fft
	16	IMPLICIT NONE
	17	include 'dimensions.h'
	18	REAL, INTENT(IN) :: coeffu(iim,jjm)
	19	INTEGER,INTENT(IN) :: modfrstu(jjm)
	20	INTEGER,INTENT(IN) :: jfiltnu
	21	INTEGER,INTENT(IN) :: jfiltsu
	22	REAL, INTENT(IN) :: coeffv(iim,jjm)
	23	INTEGER,INTENT(IN) :: modfrstv(jjm)
	24	INTEGER,INTENT(IN) :: jfiltnv
	25	INTEGER,INTENT(IN) :: jfiltsv
	26
	27	INTEGER :: index_vp(iim)
	28	INTEGER :: i,j
[1403]	29	INTEGER :: l,ll_nb
	30
[994]	31	index_vp(1)=1
	32	DO i=1,iim/2
	33	index_vp(i+1)=i*2
	34	ENDDO
	35
	36	DO i=1,iim/2-1
	37	index_vp(iim/2+i+1)=iim-2*i+1
	38	ENDDO
	39
	40	ALLOCATE(Filtre_u(iim,jjm))
	41	ALLOCATE(Filtre_v(iim,jjm))
	42	ALLOCATE(Filtre_inv(iim,jjm))
	43
	44
	45	DO j=2,jfiltnu
	46	DO i=1,iim
	47	IF (index_vp(i) < modfrstu(j)) THEN
	48	Filtre_u(i,j)=0
	49	ELSE
	50	Filtre_u(i,j)=coeffu(index_vp(i),j)
	51	ENDIF
	52	ENDDO
	53	ENDDO
	54
	55	DO j=jfiltsu,jjm
	56	DO i=1,iim
	57	IF (index_vp(i) < modfrstu(j)) THEN
	58	Filtre_u(i,j)=0
	59	ELSE
	60	Filtre_u(i,j)=coeffu(index_vp(i),j)
	61	ENDIF
	62	ENDDO
	63	ENDDO
	64
	65	DO j=1,jfiltnv
	66	DO i=1,iim
	67	IF (index_vp(i) < modfrstv(j)) THEN
	68	Filtre_v(i,j)=0
	69	ELSE
	70	Filtre_v(i,j)=coeffv(index_vp(i),j)
	71	ENDIF
	72	ENDDO
	73	ENDDO
	74
	75	DO j=jfiltsv,jjm
	76	DO i=1,iim
	77	IF (index_vp(i) < modfrstv(j)) THEN
	78	Filtre_v(i,j)=0
	79	ELSE
	80	Filtre_v(i,j)=coeffv(index_vp(i),j)
	81	ENDIF
	82	ENDDO
	83	ENDDO
	84
	85	DO j=2,jfiltnu
	86	DO i=1,iim
	87	IF (index_vp(i) < modfrstu(j)) THEN
	88	Filtre_inv(i,j)=0
	89	ELSE
	90	Filtre_inv(i,j)=coeffu(index_vp(i),j)/(1.+coeffu(index_vp(i),j))
	91	ENDIF
	92	ENDDO
	93	ENDDO
	94
	95	DO j=jfiltsu,jjm
	96	DO i=1,iim
	97	IF (index_vp(i) < modfrstu(j)) THEN
	98	Filtre_inv(i,j)=0
	99	ELSE
	100	Filtre_inv(i,j)=coeffu(index_vp(i),j)/(1.+coeffu(index_vp(i),j))
	101	ENDIF
	102	ENDDO
	103	ENDDO
	104
[1403]	105	#ifdef FFT_FFTW
	106
	107	WRITE (,)"COTH jfiltnu,jfiltsu,jfiltnv,jjm-jfiltsv"
	108	WRITE (,)jfiltnu,jfiltsu,jfiltnv,jjm-jfiltsv
	109	WRITE (,)MAX(jfiltnu-2,jjm-jfiltsu,jfiltnv-2,jjm-jfiltsv)+1
	110	CALL Init_FFT(iim,(llm+1)*(MAX(jfiltnu-2,jjm-jfiltsu,jfiltnv-2,jjm-jfiltsv)+1))
	111	#else
[994]	112	CALL Init_FFT(iim,(jjm+1)*(llm+1))
[1403]	113	#endif
[994]	114
	115	END SUBROUTINE Init_filtre_fft
	116
	117	SUBROUTINE Filtre_u_fft(vect_inout,nlat,jj_begin,jj_end,nbniv)
	118	USE mod_fft
	119	#ifdef CPP_PARA
[1823]	120	USE parallel_lmdz,ONLY : OMP_CHUNK
[994]	121	#endif
	122	IMPLICIT NONE
	123	include 'dimensions.h'
	124	INTEGER,INTENT(IN) :: nlat
	125	INTEGER,INTENT(IN) :: jj_begin
	126	INTEGER,INTENT(IN) :: jj_end
	127	INTEGER,INTENT(IN) :: nbniv
	128	REAL,INTENT(INOUT) :: vect_inout(iim+1,nlat,nbniv)
	129
	130	REAL :: vect(iim+inc,jj_end-jj_begin+1,nbniv)
[1403]	131	COMPLEX :: TF_vect(iim/2+1,jj_end-jj_begin+1,nbniv)
[994]	132	INTEGER :: nb_vect
	133	INTEGER :: i,j,l
	134	INTEGER :: ll_nb
	135
	136	ll_nb=0
	137	!$OMP DO SCHEDULE(STATIC,OMP_CHUNK)
	138	DO l=1,nbniv
	139	ll_nb=ll_nb+1
	140	DO j=1,jj_end-jj_begin+1
	141	DO i=1,iim+1
	142	vect(i,j,ll_nb)=vect_inout(i,j+jj_begin-1,l)
	143	ENDDO
	144	ENDDO
	145	ENDDO
	146	!$OMP END DO NOWAIT
	147
	148	nb_vect=(jj_end-jj_begin+1)*ll_nb
	149
	150	CALL FFT_forward(vect,TF_vect,nb_vect)
	151
	152	DO l=1,ll_nb
	153	DO j=1,jj_end-jj_begin+1
	154	DO i=1,iim/2+1
	155	TF_vect(i,j,l)=TF_vect(i,j,l)*Filtre_u(i,jj_begin+j-1)
	156	ENDDO
	157	ENDDO
	158	ENDDO
[1403]	159
[994]	160	CALL FFT_backward(TF_vect,vect,nb_vect)
[1403]	161
	162
[994]	163	ll_nb=0
	164	!$OMP DO SCHEDULE(STATIC,OMP_CHUNK)
	165	DO l=1,nbniv
	166	ll_nb=ll_nb+1
	167	DO j=1,jj_end-jj_begin+1
	168	DO i=1,iim+1
	169	vect_inout(i,j+jj_begin-1,l)=vect(i,j,ll_nb)
	170	ENDDO
	171	ENDDO
	172	ENDDO
	173	!$OMP END DO NOWAIT
	174
	175	END SUBROUTINE Filtre_u_fft
	176
	177
	178	SUBROUTINE Filtre_v_fft(vect_inout,nlat,jj_begin,jj_end,nbniv)
	179	USE mod_fft
	180	#ifdef CPP_PARA
[1823]	181	USE parallel_lmdz,ONLY : OMP_CHUNK
[994]	182	#endif
	183	IMPLICIT NONE
	184	INCLUDE 'dimensions.h'
	185	INTEGER,INTENT(IN) :: nlat
	186	INTEGER,INTENT(IN) :: jj_begin
	187	INTEGER,INTENT(IN) :: jj_end
	188	INTEGER,INTENT(IN) :: nbniv
	189	REAL,INTENT(INOUT) :: vect_inout(iim+1,nlat,nbniv)
	190
	191	REAL :: vect(iim+inc,jj_end-jj_begin+1,nbniv)
[1403]	192	COMPLEX :: TF_vect(iim/2+1,jj_end-jj_begin+1,nbniv)
[994]	193	INTEGER :: nb_vect
	194	INTEGER :: i,j,l
	195	INTEGER :: ll_nb
	196
	197	ll_nb=0
	198	!$OMP DO SCHEDULE(STATIC,OMP_CHUNK)
	199	DO l=1,nbniv
	200	ll_nb=ll_nb+1
	201	DO j=1,jj_end-jj_begin+1
	202	DO i=1,iim+1
	203	vect(i,j,ll_nb)=vect_inout(i,j+jj_begin-1,l)
	204	ENDDO
	205	ENDDO
	206	ENDDO
	207	!$OMP END DO NOWAIT
	208
	209
	210	nb_vect=(jj_end-jj_begin+1)*ll_nb
	211
	212	CALL FFT_forward(vect,TF_vect,nb_vect)
	213
	214	DO l=1,ll_nb
	215	DO j=1,jj_end-jj_begin+1
	216	DO i=1,iim/2+1
	217	TF_vect(i,j,l)=TF_vect(i,j,l)*Filtre_v(i,jj_begin+j-1)
	218	ENDDO
	219	ENDDO
	220	ENDDO
	221
	222	CALL FFT_backward(TF_vect,vect,nb_vect)
	223
	224
	225	ll_nb=0
	226	!$OMP DO SCHEDULE(STATIC,OMP_CHUNK)
	227	DO l=1,nbniv
	228	ll_nb=ll_nb+1
	229	DO j=1,jj_end-jj_begin+1
	230	DO i=1,iim+1
	231	vect_inout(i,j+jj_begin-1,l)=vect(i,j,ll_nb)
	232	ENDDO
	233	ENDDO
	234	ENDDO
	235	!$OMP END DO NOWAIT
	236
	237	END SUBROUTINE Filtre_v_fft
	238
	239
	240	SUBROUTINE Filtre_inv_fft(vect_inout,nlat,jj_begin,jj_end,nbniv)
	241	USE mod_fft
	242	#ifdef CPP_PARA
[1823]	243	USE parallel_lmdz,ONLY : OMP_CHUNK
[994]	244	#endif
	245	IMPLICIT NONE
	246	INCLUDE 'dimensions.h'
	247	INTEGER,INTENT(IN) :: nlat
	248	INTEGER,INTENT(IN) :: jj_begin
	249	INTEGER,INTENT(IN) :: jj_end
	250	INTEGER,INTENT(IN) :: nbniv
	251	REAL,INTENT(INOUT) :: vect_inout(iim+1,nlat,nbniv)
	252
[1403]	253	REAL :: vect(iim+inc,jj_end-jj_begin+1,nbniv)
	254	COMPLEX :: TF_vect(iim/2+1,jj_end-jj_begin+1,nbniv)
[994]	255	INTEGER :: nb_vect
	256	INTEGER :: i,j,l
	257	INTEGER :: ll_nb
	258
	259	ll_nb=0
	260	!$OMP DO SCHEDULE(STATIC,OMP_CHUNK)
	261	DO l=1,nbniv
	262	ll_nb=ll_nb+1
	263	DO j=1,jj_end-jj_begin+1
	264	DO i=1,iim+1
	265	vect(i,j,ll_nb)=vect_inout(i,j+jj_begin-1,l)
	266	ENDDO
	267	ENDDO
	268	ENDDO
	269	!$OMP END DO NOWAIT
	270
	271	nb_vect=(jj_end-jj_begin+1)*ll_nb
	272
	273	CALL FFT_forward(vect,TF_vect,nb_vect)
	274
	275	DO l=1,ll_nb
	276	DO j=1,jj_end-jj_begin+1
	277	DO i=1,iim/2+1
	278	TF_vect(i,j,l)=TF_vect(i,j,l)*Filtre_inv(i,jj_begin+j-1)
	279	ENDDO
	280	ENDDO
	281	ENDDO
	282
	283	CALL FFT_backward(TF_vect,vect,nb_vect)
	284
	285	ll_nb=0
	286	!$OMP DO SCHEDULE(STATIC,OMP_CHUNK)
	287	DO l=1,nbniv
	288	ll_nb=ll_nb+1
	289	DO j=1,jj_end-jj_begin+1
	290	DO i=1,iim+1
	291	vect_inout(i,j+jj_begin-1,l)=vect(i,j,ll_nb)
	292	ENDDO
	293	ENDDO
	294	ENDDO
	295	!$OMP END DO NOWAIT
	296
	297	END SUBROUTINE Filtre_inv_fft
	298
	299	END MODULE mod_filtre_fft
	300

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