- Timestamp:
- 2020-11-02T10:56:42+01:00 (4 years ago)
- Location:
- NEMO/branches/2020/dev_r12702_ASINTER-02_emanuelaclementi_Waves
- Files:
-
- 7 edited
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NEMO/branches/2020/dev_r12702_ASINTER-02_emanuelaclementi_Waves
- Property svn:externals
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old new 3 3 ^/utils/build/mk@HEAD mk 4 4 ^/utils/tools@HEAD tools 5 ^/vendors/AGRIF/dev @HEADext/AGRIF5 ^/vendors/AGRIF/dev_r12970_AGRIF_CMEMS ext/AGRIF 6 6 ^/vendors/FCM@HEAD ext/FCM 7 7 ^/vendors/IOIPSL@HEAD ext/IOIPSL 8 8 9 9 # SETTE 10 ^/utils/CI/sette@ HEADsette10 ^/utils/CI/sette@13559 sette
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- Property svn:externals
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NEMO/branches/2020/dev_r12702_ASINTER-02_emanuelaclementi_Waves/tests/WAD/EXPREF/context_nemo.xml
r12276 r13710 11 11 <variable id="ref_month" type="int"> 01 </variable> 12 12 <variable id="ref_day" type="int"> 01 </variable> 13 <variable id="r au0" type="float" > 1026.0 </variable>13 <variable id="rho0" type="float" > 1026.0 </variable> 14 14 <variable id="cpocean" type="float" > 3991.86795711963 </variable> 15 15 <variable id="convSpsu" type="float" > 0.99530670233846 </variable> -
NEMO/branches/2020/dev_r12702_ASINTER-02_emanuelaclementi_Waves/tests/WAD/EXPREF/namelist_cfg
r12489 r13710 200 200 !! !! 201 201 !! namdrg top/bottom drag coefficient (default: NO selection) 202 !! namdrg_top top friction (ln_ OFF=F & ln_isfcav=T)203 !! namdrg_bot bottom friction (ln_ OFF=F)202 !! namdrg_top top friction (ln_drg_OFF=F & ln_isfcav=T) 203 !! namdrg_bot bottom friction (ln_drg_OFF=F) 204 204 !! nambbc bottom temperature boundary condition (default: OFF) 205 205 !! nambbl bottom boundary layer scheme (default: OFF) … … 253 253 ! 254 254 ! ! S-EOS coefficients (ln_seos=T): 255 ! ! rd(T,S,Z)*r au0 = -a0*(1+.5*lambda*dT+mu*Z+nu*dS)*dT+b0*dS255 ! ! rd(T,S,Z)*rho0 = -a0*(1+.5*lambda*dT+mu*Z+nu*dS)*dT+b0*dS 256 256 rn_a0 = 1.6550e-1 ! thermal expension coefficient (nn_eos= 1) 257 257 rn_b0 = 7.6554e-1 ! saline expension coefficient (nn_eos= 1) … … 263 263 !!org GYRE rn_alpha = 2.0e-4 ! thermal expension coefficient (nn_eos= 1 or 2) 264 264 !!org GYRE rn_beta = 7.7e-4 ! saline expension coefficient (nn_eos= 2) 265 !!org caution now a0 = alpha / r au0 with rau0 = 1026265 !!org caution now a0 = alpha / rho0 with rho0 = 1026 266 266 / 267 267 !----------------------------------------------------------------------- … … 417 417 !! !! 418 418 !! namtrd dynamics and/or tracer trends (default: OFF) 419 !! namptr Poleward Transport Diagnostics (default: OFF)420 419 !! namhsb Heat and salt budgets (default: OFF) 421 420 !! namdiu Cool skin and warm layer models (default: OFF) -
NEMO/branches/2020/dev_r12702_ASINTER-02_emanuelaclementi_Waves/tests/WAD/MY_SRC/usrdef_hgr.F90
r10074 r13710 13 13 !! usr_def_hgr : initialize the horizontal mesh for WAD_TEST_CASES configuration 14 14 !!---------------------------------------------------------------------- 15 USE dom_oce , ONLY: nimpp, njmpp ! ocean space and time domain15 USE dom_oce 16 16 USE par_oce ! ocean space and time domain 17 17 USE phycst ! physical constants … … 26 26 PUBLIC usr_def_hgr ! called by domhgr.F90 27 27 28 !! * Substitutions 29 # include "do_loop_substitute.h90" 28 30 !!---------------------------------------------------------------------- 29 31 !! NEMO/OCE 4.0 , NEMO Consortium (2018) … … 72 74 ! !== grid point position ==! (in kilometers) 73 75 zfact = rn_dx * 1.e-3 ! conversion in km 74 DO jj = 1, jpj 75 DO ji = 1, jpi ! longitude 76 plamt(ji,jj) = zfact * ( - 0.5 + REAL( ji-1 + nimpp-1 , wp ) ) 77 plamu(ji,jj) = zfact * ( REAL( ji-1 + nimpp-1 , wp ) ) 78 plamv(ji,jj) = plamt(ji,jj) 79 plamf(ji,jj) = plamu(ji,jj) 80 ! ! latitude 81 pphit(ji,jj) = zfact * ( - 0.5 + REAL( jj-1 + njmpp-1 , wp ) ) 82 pphiu(ji,jj) = pphit(ji,jj) 83 pphiv(ji,jj) = zfact * ( REAL( jj-1 + njmpp-1 , wp ) ) 84 pphif(ji,jj) = pphiv(ji,jj) 85 END DO 86 END DO 76 DO_2D( 1, 1, 1, 1 ) 77 ! ! longitude 78 plamt(ji,jj) = zfact * ( - 0.5 + REAL( mig0_oldcmp(ji)-1 , wp ) ) 79 plamu(ji,jj) = zfact * ( REAL( mig0_oldcmp(ji)-1 , wp ) ) 80 plamv(ji,jj) = plamt(ji,jj) 81 plamf(ji,jj) = plamu(ji,jj) 82 ! ! latitude 83 pphit(ji,jj) = zfact * ( - 0.5 + REAL( mjg0_oldcmp(jj)-1 , wp ) ) 84 pphiu(ji,jj) = pphit(ji,jj) 85 pphiv(ji,jj) = zfact * ( REAL( mjg0_oldcmp(jj)-1 , wp ) ) 86 pphif(ji,jj) = pphiv(ji,jj) 87 END_2D 87 88 ! 88 89 ! !== Horizontal scale factors ==! (in meters) -
NEMO/branches/2020/dev_r12702_ASINTER-02_emanuelaclementi_Waves/tests/WAD/MY_SRC/usrdef_istate.F90
r10074 r13710 26 26 PUBLIC usr_def_istate ! called in istate.F90 27 27 28 !! * Substitutions 29 # include "do_loop_substitute.h90" 28 30 !!---------------------------------------------------------------------- 29 31 !! NEMO/OCE 4.0 , NEMO Consortium (2018) … … 174 176 ! Apply minimum wetdepth criterion 175 177 ! 176 do jj = 1,jpj 177 do ji = 1,jpi 178 IF( ht_0(ji,jj) + pssh(ji,jj) < rn_wdmin1 ) THEN 179 pssh(ji,jj) = ptmask(ji,jj,1)*( rn_wdmin1 - ht_0(ji,jj) ) 180 ENDIF 181 end do 182 end do 178 DO_2D( 1, 1, 1, 1 ) 179 IF( ht_0(ji,jj) + pssh(ji,jj) < rn_wdmin1 ) THEN 180 pssh(ji,jj) = ptmask(ji,jj,1)*( rn_wdmin1 - ht_0(ji,jj) ) 181 ENDIF 182 END_2D 183 183 ! 184 184 END SUBROUTINE usr_def_istate -
NEMO/branches/2020/dev_r12702_ASINTER-02_emanuelaclementi_Waves/tests/WAD/MY_SRC/usrdef_nam.F90
r12377 r13710 14 14 !! usr_def_hgr : initialize the horizontal mesh 15 15 !!---------------------------------------------------------------------- 16 USE dom_oce , ONLY: nimpp , njmpp ! i- & j-indices of the local domain17 16 USE par_oce ! ocean space and time domain 18 17 USE phycst ! physical constants … … 77 76 ! ! Set the lateral boundary condition of the global domain 78 77 kperio = 0 ! WAD_TEST_CASES configuration : closed domain 79 IF( nn_wad_test == 8 ) kperio = 7 ! North-South cyclic test 78 IF( nn_wad_test == 8 ) THEN 79 kperio = 7 ! North-South cyclic test 80 kpi = kpi - 2 ! no closed boundary 81 kpj = kpj - 2 ! no closed boundary 82 ENDIF 80 83 ! 81 84 ! ! control print -
NEMO/branches/2020/dev_r12702_ASINTER-02_emanuelaclementi_Waves/tests/WAD/MY_SRC/usrdef_zgr.F90
r12377 r13710 15 15 !!--------------------------------------------------------------------- 16 16 USE oce ! ocean variables 17 USE dom_oce , ONLY: ht_0, mi0, mi1, nimpp, njmpp, & 18 & mj0, mj1, glamt, gphit ! ocean space and time domain 17 USE dom_oce , ONLY: ht_0, mi0, mi1, mj0, mj1, glamt, gphit ! ocean space and time domain 19 18 USE usrdef_nam ! User defined : namelist variables 20 19 USE wet_dry , ONLY: rn_wdmin1, rn_wdmin2, rn_wdld ! Wetting and drying … … 29 28 PUBLIC usr_def_zgr ! called by domzgr.F90 30 29 30 !! * Substitutions 31 # include "do_loop_substitute.h90" 31 32 !!---------------------------------------------------------------------- 32 33 !! NEMO/OCE 4.0 , NEMO Consortium (2018) … … 242 243 ! at v-point: averaging zht 243 244 zhv = 0._wp 244 DO jj = 1, jpjm1245 zhv( :,jj) = 0.5_wp * ( zht(:,jj) + zht(:,jj+1) )246 END DO245 DO_2D( 0, 0, 0, 0 ) 246 zhv(ji,jj) = 0.5_wp * ( zht(ji,jj) + zht(ji,jj+1) ) 247 END_2D 247 248 CALL lbc_lnk( 'usrdef_zgr', zhv, 'V', 1. ) ! boundary condition: this mask the surrounding grid-points 248 249 DO jj = mj0(1), mj1(1) ! first row of global domain only … … 279 280 ht_0 = zht 280 281 k_bot(:,:) = jpkm1 * k_top(:,:) !* bottom ocean = jpk-1 (here use k_top as a land mask) 281 DO jj = 1, jpj 282 DO ji = 1, jpi 283 IF( zht(ji,jj) <= -(rn_wdld - rn_wdmin2)) THEN 284 k_bot(ji,jj) = 0 285 k_top(ji,jj) = 0 286 ENDIF 287 END DO 288 END DO 282 DO_2D( 1, 1, 1, 1 ) 283 IF( zht(ji,jj) <= -(rn_wdld - rn_wdmin2)) THEN 284 k_bot(ji,jj) = 0 285 k_top(ji,jj) = 0 286 ENDIF 287 END_2D 289 288 ! 290 289 ! !* terrain-following coordinate with e3.(k)=cst) 291 290 ! ! OVERFLOW case : identical with j-index (T=V, U=F) 292 DO jj = 1, jpjm1 293 DO ji = 1, jpim1 294 z1_jpkm1 = 1._wp / REAL( k_bot(ji,jj) - k_top(ji,jj) + 1 , wp) 295 DO jk = 1, jpk 296 zwet = MAX( zht(ji,jj), rn_wdmin1 ) 297 pdept(ji,jj,jk) = zwet * z1_jpkm1 * ( REAL( jk , wp ) - 0.5_wp ) 298 pdepw(ji,jj,jk) = zwet * z1_jpkm1 * ( REAL( jk-1 , wp ) ) 299 pe3t (ji,jj,jk) = zwet * z1_jpkm1 300 pe3w (ji,jj,jk) = zwet * z1_jpkm1 301 zwet = MAX( zhu(ji,jj), rn_wdmin1 ) 302 pe3u (ji,jj,jk) = zwet * z1_jpkm1 303 pe3uw(ji,jj,jk) = zwet * z1_jpkm1 304 pe3f (ji,jj,jk) = zwet * z1_jpkm1 305 zwet = MAX( zhv(ji,jj), rn_wdmin1 ) 306 pe3v (ji,jj,jk) = zwet * z1_jpkm1 307 pe3vw(ji,jj,jk) = zwet * z1_jpkm1 308 END DO 309 END DO 310 END DO 291 DO_2D( 0, 0, 0, 0 ) 292 z1_jpkm1 = 1._wp / REAL( k_bot(ji,jj) - k_top(ji,jj) + 1 , wp) 293 DO jk = 1, jpk 294 zwet = MAX( zht(ji,jj), rn_wdmin1 ) 295 pdept(ji,jj,jk) = zwet * z1_jpkm1 * ( REAL( jk , wp ) - 0.5_wp ) 296 pdepw(ji,jj,jk) = zwet * z1_jpkm1 * ( REAL( jk-1 , wp ) ) 297 pe3t (ji,jj,jk) = zwet * z1_jpkm1 298 pe3w (ji,jj,jk) = zwet * z1_jpkm1 299 zwet = MAX( zhu(ji,jj), rn_wdmin1 ) 300 pe3u (ji,jj,jk) = zwet * z1_jpkm1 301 pe3uw(ji,jj,jk) = zwet * z1_jpkm1 302 pe3f (ji,jj,jk) = zwet * z1_jpkm1 303 zwet = MAX( zhv(ji,jj), rn_wdmin1 ) 304 pe3v (ji,jj,jk) = zwet * z1_jpkm1 305 pe3vw(ji,jj,jk) = zwet * z1_jpkm1 306 END DO 307 END_2D 311 308 CALL lbc_lnk( 'usrdef_zgr', pdept, 'T', 1. ) 312 309 CALL lbc_lnk( 'usrdef_zgr', pdepw, 'T', 1. )
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