subroutine init_arrays (tile) implicit none integer*4 LLm,Lm,MMm,Mm,N, LLm0,MMm0 parameter (LLm0=503, MMm0=601, N=42) parameter (LLm=LLm0, MMm=MMm0) integer*4 Lmmpi,Mmmpi,iminmpi,imaxmpi,jminmpi,jmaxmpi common /comm_setup_mpi1/ Lmmpi,Mmmpi common /comm_setup_mpi2/ iminmpi,imaxmpi,jminmpi,jmaxmpi integer*4 NSUB_X, NSUB_E, NPP integer*4 NP_XI, NP_ETA, NNODES parameter (NP_XI=2, NP_ETA=2, NNODES=NP_XI*NP_ETA) parameter (NPP=1) parameter (NSUB_X=1, NSUB_E=1) integer*4 NWEIGHT parameter (NWEIGHT=1000) integer*4 stdout, Np, padd_X,padd_E common /stdout/stdout parameter (Np=N+1) parameter (Lm=(LLm+NP_XI-1)/NP_XI, Mm=(MMm+NP_ETA-1)/NP_ETA) parameter (padd_X=(Lm+2)/2-(Lm+1)/2) parameter (padd_E=(Mm+2)/2-(Mm+1)/2) integer*4 NSA, N2d,N3d, size_XI,size_ETA integer*4 se,sse, sz,ssz parameter (NSA=28) parameter (size_XI=7+(Lm+NSUB_X-1)/NSUB_X) parameter (size_ETA=7+(Mm+NSUB_E-1)/NSUB_E) parameter (sse=size_ETA/Np, ssz=Np/size_ETA) parameter (se=sse/(sse+ssz), sz=1-se) parameter (N2d=size_XI*(se*size_ETA+sz*Np)) parameter (N3d=size_XI*size_ETA*Np) real Vtransform parameter (Vtransform=2) integer*4 NT, NTA, itemp, NTot integer*4 ntrc_temp, ntrc_salt, ntrc_pas, ntrc_bio, ntrc_sed integer*4 ntrc_subs, ntrc_substot parameter (itemp=1) parameter (ntrc_temp=1) parameter (ntrc_salt=1) parameter (ntrc_pas=0) parameter (ntrc_bio=0) parameter (ntrc_subs=0, ntrc_substot=0) parameter (ntrc_sed=0) parameter (NTA=itemp+ntrc_salt) parameter (NT=itemp+ntrc_salt+ntrc_pas+ntrc_bio+ntrc_sed) parameter (NTot=NT) integer*4 ntrc_diats, ntrc_diauv, ntrc_diabio integer*4 ntrc_diavrt, ntrc_diaek, ntrc_diapv integer*4 ntrc_diaeddy, ntrc_surf & , isalt parameter (isalt=itemp+1) parameter (ntrc_diabio=0) parameter (ntrc_diats=0) parameter (ntrc_diauv=0) parameter (ntrc_diavrt=0) parameter (ntrc_diaek=0) parameter (ntrc_diapv=0) parameter (ntrc_diaeddy=0) parameter (ntrc_surf=0) integer*4 tile, trd C$ integer*4 omp_get_thread_num integer*4 chunk_size_X,margin_X,chunk_size_E,margin_E integer*4 Istr,Iend,Jstr,Jend, i_X,j_E chunk_size_X=(Lmmpi+NSUB_X-1)/NSUB_X margin_X=(NSUB_X*chunk_size_X-Lmmpi)/2 chunk_size_E=(Mmmpi+NSUB_E-1)/NSUB_E margin_E=(NSUB_E*chunk_size_E-Mmmpi)/2 j_E=tile/NSUB_X i_X=tile-j_E*NSUB_X Istr=1+i_X*chunk_size_X-margin_X Iend=Istr+chunk_size_X-1 Istr=max(Istr,1) Iend=min(Iend,Lmmpi) Jstr=1+j_E*chunk_size_E-margin_E Jend=Jstr+chunk_size_E-1 Jstr=max(Jstr,1) Jend=min(Jend,Mmmpi) call init_arrays_tile (Istr,Iend,Jstr,Jend) return end subroutine init_arrays_tile (Istr,Iend,Jstr,Jend) integer*4 LLm,Lm,MMm,Mm,N, LLm0,MMm0 parameter (LLm0=503, MMm0=601, N=42) parameter (LLm=LLm0, MMm=MMm0) integer*4 Lmmpi,Mmmpi,iminmpi,imaxmpi,jminmpi,jmaxmpi common /comm_setup_mpi1/ Lmmpi,Mmmpi common /comm_setup_mpi2/ iminmpi,imaxmpi,jminmpi,jmaxmpi integer*4 NSUB_X, NSUB_E, NPP integer*4 NP_XI, NP_ETA, NNODES parameter (NP_XI=2, NP_ETA=2, NNODES=NP_XI*NP_ETA) parameter (NPP=1) parameter (NSUB_X=1, NSUB_E=1) integer*4 NWEIGHT parameter (NWEIGHT=1000) integer*4 stdout, Np, padd_X,padd_E common /stdout/stdout parameter (Np=N+1) parameter (Lm=(LLm+NP_XI-1)/NP_XI, Mm=(MMm+NP_ETA-1)/NP_ETA) parameter (padd_X=(Lm+2)/2-(Lm+1)/2) parameter (padd_E=(Mm+2)/2-(Mm+1)/2) integer*4 NSA, N2d,N3d, size_XI,size_ETA integer*4 se,sse, sz,ssz parameter (NSA=28) parameter (size_XI=7+(Lm+NSUB_X-1)/NSUB_X) parameter (size_ETA=7+(Mm+NSUB_E-1)/NSUB_E) parameter (sse=size_ETA/Np, ssz=Np/size_ETA) parameter (se=sse/(sse+ssz), sz=1-se) parameter (N2d=size_XI*(se*size_ETA+sz*Np)) parameter (N3d=size_XI*size_ETA*Np) real Vtransform parameter (Vtransform=2) integer*4 NT, NTA, itemp, NTot integer*4 ntrc_temp, ntrc_salt, ntrc_pas, ntrc_bio, ntrc_sed integer*4 ntrc_subs, ntrc_substot parameter (itemp=1) parameter (ntrc_temp=1) parameter (ntrc_salt=1) parameter (ntrc_pas=0) parameter (ntrc_bio=0) parameter (ntrc_subs=0, ntrc_substot=0) parameter (ntrc_sed=0) parameter (NTA=itemp+ntrc_salt) parameter (NT=itemp+ntrc_salt+ntrc_pas+ntrc_bio+ntrc_sed) parameter (NTot=NT) integer*4 ntrc_diats, ntrc_diauv, ntrc_diabio integer*4 ntrc_diavrt, ntrc_diaek, ntrc_diapv integer*4 ntrc_diaeddy, ntrc_surf & , isalt parameter (isalt=itemp+1) parameter (ntrc_diabio=0) parameter (ntrc_diats=0) parameter (ntrc_diauv=0) parameter (ntrc_diavrt=0) parameter (ntrc_diaek=0) parameter (ntrc_diapv=0) parameter (ntrc_diaeddy=0) parameter (ntrc_surf=0) integer*4 filetype_his, filetype_avg & ,filetype_dia, filetype_dia_avg & ,filetype_diaM, filetype_diaM_avg & ,filetype_diags_vrt, filetype_diags_vrt_avg & ,filetype_diags_ek, filetype_diags_ek_avg & ,filetype_diags_pv, filetype_diags_pv_avg & ,filetype_diags_eddy_avg & ,filetype_surf, filetype_surf_avg & ,filetype_diabio, filetype_diabio_avg parameter (filetype_his=1, filetype_avg=2, & filetype_dia=3, filetype_dia_avg=4, & filetype_diaM=5, filetype_diaM_avg=6, & filetype_diags_vrt=7, filetype_diags_vrt_avg=8, & filetype_diags_ek=9, filetype_diags_ek_avg=10, & filetype_diags_pv=11, filetype_diags_pv_avg=12, & filetype_diags_eddy_avg=17, & filetype_surf=13, filetype_surf_avg=14, & filetype_diabio=15,filetype_diabio_avg=16) integer*4 iloop, indextemp integer*4 indxTime, indxZ, indxUb, indxVb parameter (indxTime=1, indxZ=2, indxUb=3, indxVb=4) integer*4 indxU, indxV parameter (indxU=6, indxV=7) integer*4 indxT parameter (indxT=indxV+1) integer*4 indxS parameter (indxS=indxV+ntrc_temp+1) integer*4 indxBSD, indxBSS parameter (indxBSD=indxV+ntrc_temp+ntrc_salt+ntrc_pas+ntrc_bio+1, & indxBSS=101) integer*4 indxO, indxW, indxR, indxVisc, indxDiff, indxAkv, & indxAkt parameter (indxO=indxV+ntrc_temp+ntrc_salt+ntrc_pas+ntrc_bio & +ntrc_sed+ntrc_substot & +ntrc_diats+ntrc_diauv+ntrc_diavrt+ntrc_diaek & +ntrc_diapv+ntrc_diaeddy+ntrc_surf+ntrc_diabio+1, & indxW=indxO+1, indxR=indxO+2, indxVisc=indxO+3, & indxDiff=indxO+4,indxAkv=indxO+5, indxAkt=indxO+6) integer*4 indxAks parameter (indxAks=indxAkv+ntrc_temp+4) integer*4 indxHbl parameter (indxHbl=indxAkv+ntrc_temp+5) integer*4 indxHbbl parameter (indxHbbl=indxAkv+ntrc_temp+6) integer*4 indxSSH parameter (indxSSH=indxAkv+ntrc_temp+12) integer*4 indxbvf parameter (indxbvf=indxSSH+1) integer*4 indxSUSTR, indxSVSTR parameter (indxSUSTR=indxSSH+2, indxSVSTR=indxSSH+3) integer*4 indxTime2 parameter (indxTime2=indxSSH+4) integer*4 indxShflx, indxShflx_rsw parameter (indxShflx=indxSUSTR+5) integer*4 indxSwflx parameter (indxSwflx=indxShflx+1, indxShflx_rsw=indxShflx+2) integer*4 indxSST, indxdQdSST parameter (indxSST=indxShflx_rsw+1, indxdQdSST=indxShflx_rsw+2) integer*4 indxWstr parameter (indxWstr=indxSUSTR+23) integer*4 indxUWstr parameter (indxUWstr=indxSUSTR+24) integer*4 indxVWstr parameter (indxVWstr=indxSUSTR+25) integer*4 indxBostr parameter (indxBostr=indxSUSTR+26) integer*4 indxBustr, indxBvstr parameter (indxBustr=indxSUSTR+27, indxBvstr=indxBustr+1) integer*4 indxWWA,indxWWD,indxWWP,indxWEB,indxWED,indxWER parameter (indxWWA=indxSUSTR+42, indxWWD=indxWWA+1, & indxWWP=indxWWA+2 & ) integer*4 r2dvar, u2dvar, v2dvar, p2dvar, r3dvar, & u3dvar, v3dvar, p3dvar, w3dvar, & pw3dvar, b3dvar parameter (r2dvar=0, u2dvar=1, v2dvar=2, p2dvar=3, & r3dvar=4, u3dvar=5, v3dvar=6, p3dvar=7, w3dvar=8, & pw3dvar=11, b3dvar=12) integer*4 xi_rho,xi_u, eta_rho,eta_v parameter (xi_rho=LLm+2, xi_u=xi_rho-1, & eta_rho=MMm+2, eta_v=eta_rho-1) integer*4 ncidfrc, ncidbulk, ncidclm, ntsms & , ncidqbar, ncidbtf & , ntsrf, ntssh, ntsst, ntsss, ntuclm & , ntbulk, ntqbar, ntww integer*4 nttclm(NT), ntstf(NT), nttsrc(NT) & , ntbtf(NT) integer*4 ncidrst, nrecrst, nrpfrst & , rstTime, rstTime2, rstTstep, rstZ, rstUb, rstVb & , rstU, rstV integer*4 rstT(NT) integer*4 rstHbl integer*4 rstHbbl integer*4 ncidhis, nrechis, nrpfhis & , hisTime, hisTime2, hisTstep, hisZ, hisUb, hisVb & , hisBostr, hisWstr, hisUWstr, hisVWstr & , hisBustr, hisBvstr & , hisShflx, hisSwflx, hisShflx_rsw, hisBhflx, hisBwflx & , hisU, hisV, hisR, hisHbl, hisHbbl & , hisO, hisW, hisVisc, hisDiff & , hisAkv, hisAkt, hisAks & , hisbvf integer*4 hisT(NT) integer*4 ncidavg, nrecavg, nrpfavg & , avgTime, avgTime2, avgTstep, avgZ, avgUb, avgVb & , avgBostr, avgWstr, avgUwstr, avgVwstr & , avgBustr, avgBvstr & , avgShflx, avgSwflx, avgShflx_rsw, avgBhflx, avgBwflx & , avgU, avgV, avgR, avgHbl, avgHbbl & , avgO, avgW, avgVisc, avgDiff & , avgAkv, avgAkt, avgAks & , avgbvf integer*4 avgT(NT) logical wrthis(800+NT) & , wrtavg(800+NT) common/incscrum/ & ncidfrc, ncidbulk,ncidclm, ncidqbar, ncidbtf & , ntsms, ntsrf, ntssh, ntsst & , ntuclm, ntsss, ntbulk, ntqbar, ntww & , nttclm, ntstf, nttsrc, ntbtf & , ncidrst, nrecrst, nrpfrst & , rstTime, rstTime2, rstTstep, rstZ, rstUb, rstVb & , rstU, rstV & , rstT & , rstHbl & , rstHbbl & , ncidhis, nrechis, nrpfhis & , hisTime, hisTime2, hisTstep, hisZ, hisUb, hisVb & , hisBostr, hisWstr, hisUWstr, hisVWstr & , hisBustr, hisBvstr & , hisShflx, hisSwflx, hisShflx_rsw & , hisBhflx, hisBwflx & , hisU, hisV, hisT, hisR & , hisO, hisW, hisVisc, hisDiff & , hisAkv, hisAkt, hisAks & , hisHbl, hisHbbl & , hisbvf & , ncidavg, nrecavg, nrpfavg & , avgTime, avgTime2, avgTstep, avgZ, avgUb, avgVb & , avgBostr, avgWstr, avgUWstr, avgVWstr & , avgBustr, avgBvstr & , avgShflx, avgSwflx, avgShflx_rsw & , avgBhflx, avgBwflx & , avgU, avgV & , avgT & , avgR & , avgO, avgW, avgVisc, avgDiff & , avgAkv, avgAkt, avgAks & , avgHbl, avgHbbl & , avgbvf & , wrthis & , wrtavg character*80 date_str, title character*80 origin_date, start_date_run, xios_origin_date integer*4 start_day, start_month, start_year & , start_hour, start_minute, start_second & , origin_day, origin_month, origin_year & , origin_hour, origin_minute, origin_second REAL(kind=8) :: origin_date_in_sec, xios_origin_date_in_sec character*180 ininame, grdname, hisname & , rstname, frcname, bulkname, usrname & , qbarname, tsrcname & , btfname & , avgname & , bry_file character*75 vname(20, 800) common /cncscrum/ date_str, title & , origin_date, start_date_run & , xios_origin_date & , ininame, grdname, hisname & , rstname, frcname, bulkname, usrname & , qbarname, tsrcname & , btfname, origin_date_in_sec & , xios_origin_date_in_sec & , start_day, start_month, start_year & , start_hour, start_minute, start_second & , origin_day, origin_month, origin_year & , origin_hour, origin_minute, origin_second & , avgname & , bry_file & , vname real h(-1:Lm+2+padd_X,-1:Mm+2+padd_E) real hinv(-1:Lm+2+padd_X,-1:Mm+2+padd_E) real f(-1:Lm+2+padd_X,-1:Mm+2+padd_E) real fomn(-1:Lm+2+padd_X,-1:Mm+2+padd_E) common /grid_h/h /grid_hinv/hinv /grid_f/f /grid_fomn/fomn real angler(-1:Lm+2+padd_X,-1:Mm+2+padd_E) common /grid_angler/angler real latr(-1:Lm+2+padd_X,-1:Mm+2+padd_E) real lonr(-1:Lm+2+padd_X,-1:Mm+2+padd_E) real latu(-1:Lm+2+padd_X,-1:Mm+2+padd_E) real lonu(-1:Lm+2+padd_X,-1:Mm+2+padd_E) real latv(-1:Lm+2+padd_X,-1:Mm+2+padd_E) real lonv(-1:Lm+2+padd_X,-1:Mm+2+padd_E) common /grid_latr/latr /grid_lonr/lonr common /grid_latu/latu /grid_lonu/lonu common /grid_latv/latv /grid_lonv/lonv real pm(-1:Lm+2+padd_X,-1:Mm+2+padd_E) real pn(-1:Lm+2+padd_X,-1:Mm+2+padd_E) real om_r(-1:Lm+2+padd_X,-1:Mm+2+padd_E) real on_r(-1:Lm+2+padd_X,-1:Mm+2+padd_E) real om_u(-1:Lm+2+padd_X,-1:Mm+2+padd_E) real on_u(-1:Lm+2+padd_X,-1:Mm+2+padd_E) real om_v(-1:Lm+2+padd_X,-1:Mm+2+padd_E) real on_v(-1:Lm+2+padd_X,-1:Mm+2+padd_E) real om_p(-1:Lm+2+padd_X,-1:Mm+2+padd_E) real on_p(-1:Lm+2+padd_X,-1:Mm+2+padd_E) real pn_u(-1:Lm+2+padd_X,-1:Mm+2+padd_E) real pm_v(-1:Lm+2+padd_X,-1:Mm+2+padd_E) real pm_u(-1:Lm+2+padd_X,-1:Mm+2+padd_E) real pn_v(-1:Lm+2+padd_X,-1:Mm+2+padd_E) common /metrics_pm/pm /metrics_pn/pn common /metrics_omr/om_r /metrics_on_r/on_r common /metrics_omu/om_u /metrics_on_u/on_u common /metrics_omv/om_v /metrics_on_v/on_v common /metrics_omp/om_p /metrics_on_p/on_p common /metrics_pnu/pn_u /metrics_pmv/pm_v common /metrics_pmu/pm_u /metrics_pnv/pn_v real dmde(-1:Lm+2+padd_X,-1:Mm+2+padd_E) real dndx(-1:Lm+2+padd_X,-1:Mm+2+padd_E) common /metrics_dmde/dmde /metrics_dndx/dndx real pmon_p(-1:Lm+2+padd_X,-1:Mm+2+padd_E) real pmon_r(-1:Lm+2+padd_X,-1:Mm+2+padd_E) real pmon_u(-1:Lm+2+padd_X,-1:Mm+2+padd_E) real pnom_p(-1:Lm+2+padd_X,-1:Mm+2+padd_E) real pnom_r(-1:Lm+2+padd_X,-1:Mm+2+padd_E) real pnom_v(-1:Lm+2+padd_X,-1:Mm+2+padd_E) real grdscl(-1:Lm+2+padd_X,-1:Mm+2+padd_E) common /metrics_pmon_p/pmon_p /metrics_pnom_p/pnom_p common /metrics_pmon_r/pmon_r /metrics_pnom_r/pnom_r common /metrics_pmon_u/pmon_u /metrics_pnom_v/pnom_v common /metrics_grdscl/grdscl real rmask(-1:Lm+2+padd_X,-1:Mm+2+padd_E) real pmask(-1:Lm+2+padd_X,-1:Mm+2+padd_E) real umask(-1:Lm+2+padd_X,-1:Mm+2+padd_E) real vmask(-1:Lm+2+padd_X,-1:Mm+2+padd_E) real pmask2(-1:Lm+2+padd_X,-1:Mm+2+padd_E) common /mask_r/rmask common /mask_p/pmask common /mask_u/umask common /mask_v/vmask common /mask_p2/pmask2 real zob(-1:Lm+2+padd_X,-1:Mm+2+padd_E) common /Z0B_VAR/zob real zeta(-1:Lm+2+padd_X,-1:Mm+2+padd_E,4) real ubar(-1:Lm+2+padd_X,-1:Mm+2+padd_E,4) real vbar(-1:Lm+2+padd_X,-1:Mm+2+padd_E,4) common /ocean_zeta/zeta common /ocean_ubar/ubar common /ocean_vbar/vbar real u(-1:Lm+2+padd_X,-1:Mm+2+padd_E,N,3) real v(-1:Lm+2+padd_X,-1:Mm+2+padd_E,N,3) real t(-1:Lm+2+padd_X,-1:Mm+2+padd_E,N,3,NT) common /ocean_u/u /ocean_v/v /ocean_t/t real Hz(-1:Lm+2+padd_X,-1:Mm+2+padd_E,N) real Hz_bak(-1:Lm+2+padd_X,-1:Mm+2+padd_E,N) real z_r(-1:Lm+2+padd_X,-1:Mm+2+padd_E,N) real z_w(-1:Lm+2+padd_X,-1:Mm+2+padd_E,0:N) real Huon(-1:Lm+2+padd_X,-1:Mm+2+padd_E,N) real Hvom(-1:Lm+2+padd_X,-1:Mm+2+padd_E,N) common /grid_Hz_bak/Hz_bak /grid_zw/z_w /grid_Huon/Huon common /grid_Hvom/Hvom real We(-1:Lm+2+padd_X,-1:Mm+2+padd_E,0:N) common /grid_Hz/Hz /grid_zr/z_r /grid_We/We real rho1(-1:Lm+2+padd_X,-1:Mm+2+padd_E,N) real rho(-1:Lm+2+padd_X,-1:Mm+2+padd_E,N) common /ocean_rho1/rho1 /ocean_rho/rho real qp1(-1:Lm+2+padd_X,-1:Mm+2+padd_E,N) common /ocean_qp1/qp1 real qp2 parameter (qp2=0.0000172D0) real rhoA(-1:Lm+2+padd_X,-1:Mm+2+padd_E) real rhoS(-1:Lm+2+padd_X,-1:Mm+2+padd_E) common /coup_rhoA/rhoA /coup_rhoS/rhoS real rufrc(-1:Lm+2+padd_X,-1:Mm+2+padd_E) real rvfrc(-1:Lm+2+padd_X,-1:Mm+2+padd_E) real rufrc_bak(-1:Lm+2+padd_X,-1:Mm+2+padd_E,2) real rvfrc_bak(-1:Lm+2+padd_X,-1:Mm+2+padd_E,2) common /coup_rufrc/rufrc common /coup_rvfrc/rvfrc common /coup_rufrc_bak/rufrc_bak common /coup_rvfrc_bak/rvfrc_bak real Zt_avg1(-1:Lm+2+padd_X,-1:Mm+2+padd_E) real DU_avg1(-1:Lm+2+padd_X,-1:Mm+2+padd_E,5) real DV_avg1(-1:Lm+2+padd_X,-1:Mm+2+padd_E,5) real DU_avg2(-1:Lm+2+padd_X,-1:Mm+2+padd_E) real DV_avg2(-1:Lm+2+padd_X,-1:Mm+2+padd_E) common /ocean_Zt_avg1/Zt_avg1 common /coup_DU_avg1/DU_avg1 common /coup_DV_avg1/DV_avg1 common /coup_DU_avg2/DU_avg2 common /coup_DV_avg2/DV_avg2 real zeta_avg(-1:Lm+2+padd_X,-1:Mm+2+padd_E) real ubar_avg(-1:Lm+2+padd_X,-1:Mm+2+padd_E) real vbar_avg(-1:Lm+2+padd_X,-1:Mm+2+padd_E) common /avg_zeta/zeta_avg & /avg_ubar/ubar_avg & /avg_vbar/vbar_avg real bostr_avg(-1:Lm+2+padd_X,-1:Mm+2+padd_E) common /avg_bostr/bostr_avg real bustr_avg(-1:Lm+2+padd_X,-1:Mm+2+padd_E) common /avg_bustr/bustr_avg real bvstr_avg(-1:Lm+2+padd_X,-1:Mm+2+padd_E) common /avg_bvstr/bvstr_avg real wstr_avg(-1:Lm+2+padd_X,-1:Mm+2+padd_E) common /avg_wstr/wstr_avg real sustr_avg(-1:Lm+2+padd_X,-1:Mm+2+padd_E) common /avg_sustr/sustr_avg real svstr_avg(-1:Lm+2+padd_X,-1:Mm+2+padd_E) common /avg_svstr/svstr_avg real srflx_avg(-1:Lm+2+padd_X,-1:Mm+2+padd_E) common /avg_srflx/srflx_avg real u_avg(-1:Lm+2+padd_X,-1:Mm+2+padd_E,N) real v_avg(-1:Lm+2+padd_X,-1:Mm+2+padd_E,N) real t_avg(-1:Lm+2+padd_X,-1:Mm+2+padd_E,N,NT) real rho_avg(-1:Lm+2+padd_X,-1:Mm+2+padd_E,N) real bvf_avg(-1:Lm+2+padd_X,-1:Mm+2+padd_E,0:N) real omega_avg(-1:Lm+2+padd_X,-1:Mm+2+padd_E,0:N) real w_avg(-1:Lm+2+padd_X,-1:Mm+2+padd_E,N) common /avg_u/u_avg /avg_v/v_avg /avg_t/t_avg & /avg_rho/rho_avg /avg_omega/omega_avg & /avg_bvf/bvf_avg & /avg_w/w_avg real stflx_avg(-1:Lm+2+padd_X,-1:Mm+2+padd_E,NT) common /avg_stflx/stflx_avg real btflx_avg(-1:Lm+2+padd_X,-1:Mm+2+padd_E,NT) common /avg_btflx/btflx_avg real hbl_avg(-1:Lm+2+padd_X,-1:Mm+2+padd_E) common /avg_hbl/hbl_avg real hbbl_avg(-1:Lm+2+padd_X,-1:Mm+2+padd_E) common /avg_hbbl/hbbl_avg real diff3d_avg(-1:Lm+2+padd_X,-1:Mm+2+padd_E,N) common /avg_diff3d/diff3d_avg real Akv_avg(-1:Lm+2+padd_X,-1:Mm+2+padd_E,0:N) real Akt_avg(-1:Lm+2+padd_X,-1:Mm+2+padd_E,0:N,2) common /avg_Akv/Akv_avg /avg_Akt/Akt_avg real sustr(-1:Lm+2+padd_X,-1:Mm+2+padd_E) real svstr(-1:Lm+2+padd_X,-1:Mm+2+padd_E) common /forces_sustr/sustr /forces_svstr/svstr real smstr(-1:Lm+2+padd_X,-1:Mm+2+padd_E) common /forces_smstr/smstr real patm2d(-1:Lm+2+padd_X,-1:Mm+2+padd_E) common /forces_patm/ patm2d real paref parameter(paref=101325) real sustrg(-1:Lm+2+padd_X,-1:Mm+2+padd_E,2) real svstrg(-1:Lm+2+padd_X,-1:Mm+2+padd_E,2) common /smsdat_sustrg/sustrg /smsdat_svstrg/svstrg real sustrp(2), svstrp(2), sms_time(2) real sms_cycle, sms_scale integer*4 itsms, sms_ncycle, sms_rec, lsusgrd integer*4 lsvsgrd,sms_tid, susid, svsid real sms_origin_date_in_sec common /smsdat1/ sustrp, svstrp, sms_time common /smsdat2/ sms_origin_date_in_sec common /smsdat3/ sms_cycle, sms_scale common /smsdat4/ itsms, sms_ncycle, sms_rec, lsusgrd common /smsdat5/ lsvsgrd,sms_tid, susid, svsid integer*4 lwgrd, wid common /smsdat5/ lwgrd, wid real bustr(-1:Lm+2+padd_X,-1:Mm+2+padd_E) real bvstr(-1:Lm+2+padd_X,-1:Mm+2+padd_E) common /forces_bustr/bustr /forces_bvstr/bvstr real bustrg(-1:Lm+2+padd_X,-1:Mm+2+padd_E,2) real bvstrg(-1:Lm+2+padd_X,-1:Mm+2+padd_E,2) common /bmsdat_bustrg/bustrg /bmsdat_bvstrg/bvstrg real bms_tintrp(2), bustrp(2), bvstrp(2), tbms(2) real bmsclen, bms_tstart, bms_tend, tsbms, sclbms integer*4 itbms, bmstid,busid, bvsid, tbmsindx logical bmscycle, bms_onerec, lbusgrd, lbvsgrd common /bmsdat1/bms_tintrp, bustrp, bvstrp, tbms common /bmsdat2/bmsclen, bms_tstart, bms_tend, tsbms, sclbms common /bmsdat3/itbms, bmstid,busid, bvsid, tbmsindx common /bmsdat4/bmscycle, bms_onerec, lbusgrd, lbvsgrd real stflx(-1:Lm+2+padd_X,-1:Mm+2+padd_E,NT) common /forces_stflx/stflx real stflxg(-1:Lm+2+padd_X,-1:Mm+2+padd_E,2,NT) common /stfdat_stflxg/stflxg real stflxp(2,NT), stf_time(2,NT) real stf_cycle(NT), stf_scale(NT) integer*4 itstf(NT), stf_ncycle(NT), stf_rec(NT) integer*4 lstfgrd(NT), stf_tid(NT), stf_id(NT) REAL(kind=8) :: stf_origin_date_in_sec common /stfdat1/ stflxp, stf_time, stf_cycle, stf_scale common /stfdat2/ stf_origin_date_in_sec common /stfdat3/ itstf, stf_ncycle, stf_rec, lstfgrd common /stfdat4/ stf_tid, stf_id real btflx(-1:Lm+2+padd_X,-1:Mm+2+padd_E,NT) common /forces_btflx/btflx real srflx(-1:Lm+2+padd_X,-1:Mm+2+padd_E) common /forces_srflx/srflx real srflxg(-1:Lm+2+padd_X,-1:Mm+2+padd_E,2) common /srfdat_srflxg/srflxg real srflxp(2),srf_time(2) real srf_cycle, srf_scale integer*4 itsrf, srf_ncycle, srf_rec integer*4 lsrfgrd, srf_tid, srf_id REAL(kind=8) :: srf_origin_date_in_sec common /srfdat1/ srflxp, srf_time, srf_cycle, srf_scale common /srfdat2/ srf_origin_date_in_sec common /srfdat3/ itsrf,srf_ncycle,srf_rec,lsrfgrd,srf_tid,srf_id real visc2_r(-1:Lm+2+padd_X,-1:Mm+2+padd_E) real visc2_p(-1:Lm+2+padd_X,-1:Mm+2+padd_E) real visc2_sponge_r(-1:Lm+2+padd_X,-1:Mm+2+padd_E) real visc2_sponge_p(-1:Lm+2+padd_X,-1:Mm+2+padd_E) common /mixing_visc2_r/visc2_r /mixing_visc2_p/visc2_p common /mixing_visc2_sponge_r/visc2_sponge_r common /mixing_visc2_sponge_p/visc2_sponge_p real diff2_sponge(-1:Lm+2+padd_X,-1:Mm+2+padd_E) real diff2(-1:Lm+2+padd_X,-1:Mm+2+padd_E,NT) common /mixing_diff2_sponge/diff2_sponge common /mixing_diff2/diff2 real diff4_sponge(-1:Lm+2+padd_X,-1:Mm+2+padd_E) real diff4(-1:Lm+2+padd_X,-1:Mm+2+padd_E,NT) common /mixing_diff4_sponge/diff4_sponge common /mixing_diff4/diff4 real diff3d_u(-1:Lm+2+padd_X,-1:Mm+2+padd_E,N) real diff3d_v(-1:Lm+2+padd_X,-1:Mm+2+padd_E,N) common /mixing_diff3d_u/diff3d_u common /mixing_diff3d_v/diff3d_v real dRdx(-1:Lm+2+padd_X,-1:Mm+2+padd_E,N) real dRde(-1:Lm+2+padd_X,-1:Mm+2+padd_E,N) real idRz(-1:Lm+2+padd_X,-1:Mm+2+padd_E,0:N) common /mixing_dRdx/dRdx common /mixing_dRde/dRde common /mixing_idRz/idRz real Rslope_max,Gslope_max parameter (Gslope_max=1.D0, Rslope_max=0.05D0) integer*4 ismooth real csmooth common /mixing_csmooth/ csmooth common /mixing_ismooth/ ismooth real Akv(-1:Lm+2+padd_X,-1:Mm+2+padd_E,0:N) real Akt(-1:Lm+2+padd_X,-1:Mm+2+padd_E,0:N,2) common /mixing_Akv/Akv /mixing_Akt/Akt real bvf(-1:Lm+2+padd_X,-1:Mm+2+padd_E,0:N) common /mixing_bvf/ bvf real ustar(-1:Lm+2+padd_X,-1:Mm+2+padd_E) common /lmd_kpp_ustar/ustar integer*4 kbl(-1:Lm+2+padd_X,-1:Mm+2+padd_E) integer*4 kbbl(-1:Lm+2+padd_X,-1:Mm+2+padd_E) real hbbl(-1:Lm+2+padd_X,-1:Mm+2+padd_E) common /lmd_kpp_kbl/ kbl common /lmd_kpp_hbbl/ hbbl common /lmd_kpp_kbbl/ kbbl real hbls(-1:Lm+2+padd_X,-1:Mm+2+padd_E,2) common /lmd_kpp_hbl/ hbls real ghats(-1:Lm+2+padd_X,-1:Mm+2+padd_E,0:N) common /lmd_kpp_ghats/ghats real dt, dtfast, time, time2, time_start, tdays, start_time integer*4 ndtfast, iic, kstp, krhs, knew, next_kstp & , iif, nstp, nrhs, nnew, nbstep3d logical PREDICTOR_2D_STEP common /time_indices/ dt,dtfast, time, time2,time_start, tdays, & ndtfast, iic, kstp, krhs, knew, next_kstp, & start_time, & iif, nstp, nrhs, nnew, nbstep3d, & PREDICTOR_2D_STEP real time_avg, time2_avg, rho0 & , rdrg, rdrg2, Cdb_min, Cdb_max, Zobt & , xl, el, visc2, visc4, gamma2 real theta_s, theta_b, Tcline, hc real sc_w(0:N), Cs_w(0:N), sc_r(N), Cs_r(N) real rx0, rx1 real tnu2(NT),tnu4(NT) real weight(6,0:NWEIGHT) real x_sponge, v_sponge real tauT_in, tauT_out, tauM_in, tauM_out integer*4 numthreads, ntstart, ntimes, ninfo & , nfast, nrrec, nrst, nwrt & , ntsavg, navg logical ldefhis logical got_tini(NT) common /scalars_main/ & time_avg, time2_avg, rho0, rdrg, rdrg2 & , Zobt, Cdb_min, Cdb_max & , xl, el, visc2, visc4, gamma2 & , theta_s, theta_b, Tcline, hc & , sc_w, Cs_w, sc_r, Cs_r & , rx0, rx1 & , tnu2, tnu4 & , weight & , x_sponge, v_sponge & , tauT_in, tauT_out, tauM_in, tauM_out & , numthreads, ntstart, ntimes, ninfo & , nfast, nrrec, nrst, nwrt & , ntsavg, navg & , got_tini & , ldefhis logical synchro_flag common /sync_flag/ synchro_flag integer*4 may_day_flag integer*4 tile_count, first_time, bc_count common /communicators_i/ & may_day_flag, tile_count, first_time, bc_count real hmin, hmax, grdmin, grdmax, Cu_min, Cu_max common /communicators_r/ & hmin, hmax, grdmin, grdmax, Cu_min, Cu_max real lonmin, lonmax, latmin, latmax common /communicators_lonlat/ & lonmin, lonmax, latmin, latmax real*8 Cu_Adv3d, Cu_W, Cu_Nbq_X, Cu_Nbq_Y, Cu_Nbq_Z integer*4 i_cx_max, j_cx_max, k_cx_max common /diag_vars/ Cu_Adv3d, Cu_W, & i_cx_max, j_cx_max, k_cx_max real*8 volume, avgke, avgpe, avgkp, bc_crss common /communicators_rq/ & volume, avgke, avgpe, avgkp, bc_crss real*4 CPU_time(0:31,0:NPP) integer*4 proc(0:31,0:NPP),trd_count common /timers_roms/CPU_time,proc,trd_count logical EAST_INTER2, WEST_INTER2, NORTH_INTER2, SOUTH_INTER2 logical EAST_INTER, WEST_INTER, NORTH_INTER, SOUTH_INTER logical CORNER_SW,CORNER_NW,CORNER_NE,CORNER_SE integer*4 mynode, mynode2, ii,jj, p_W,p_E,p_S,p_N, p_SW,p_SE, & p_NW,p_NE,NNODES2 common /comm_setup/ mynode, mynode2, ii,jj, p_W,p_E,p_S,p_N, & p_SW,p_SE, p_NW,p_NE, EAST_INTER, WEST_INTER, NORTH_INTER, & SOUTH_INTER, EAST_INTER2, WEST_INTER2, NORTH_INTER2, & SOUTH_INTER2, & CORNER_SW,CORNER_NW,CORNER_NE,CORNER_SE,NNODES2 real pi, deg2rad, rad2deg parameter (pi=3.14159265358979323846D0, deg2rad=pi/180.D0, & rad2deg=180.D0/pi) real Eradius, Erotation, g, day2sec,sec2day, jul_off, & year2day,day2year parameter (Eradius=6371315.0D0, Erotation=7.292115090D-5, & day2sec=86400.D0, sec2day=1.D0/86400.D0, & year2day=365.25D0, day2year=1.D0/365.25D0, & jul_off=2440000.D0) parameter (g=9.81D0) real Cp parameter (Cp=3985.0D0) real vonKar parameter (vonKar=0.41D0) real spval parameter (spval=-999.0D0) logical mask_val parameter (mask_val = .true.) logical got_tbry(NT) common /bry_logical/ got_tbry real bry_time(2) REAL(kind=8) :: bry_origin_date_in_sec common /bry_indices_array/ bry_time, & bry_origin_date_in_sec real bry_cycle common /bry_indices_real/ bry_cycle integer*4 bry_id, bry_time_id, bry_ncycle, bry_rec, itbry, ntbry common /bry_indices_integer/ bry_id, bry_time_id, bry_ncycle, & bry_rec, itbry, ntbry integer*4 zetabry_west_id common /zeta_west_id/ zetabry_west_id integer*4 ubarbry_west_id, vbarbry_west_id common /ubar_west_id/ ubarbry_west_id, vbarbry_west_id integer*4 ubry_west_id, vbry_west_id common /u_west_id/ ubry_west_id, vbry_west_id integer*4 tbry_west_id(NT) common /t_west_id/ tbry_west_id integer*4 zetabry_east_id common /zeta_east_id/ zetabry_east_id integer*4 ubarbry_east_id, vbarbry_east_id common /ubar_east_id/ ubarbry_east_id, vbarbry_east_id integer*4 ubry_east_id, vbry_east_id common /u_east_id/ ubry_east_id, vbry_east_id integer*4 tbry_east_id(NT) common /t_east_id/ tbry_east_id integer*4 zetabry_south_id common /zeta_south_id/ zetabry_south_id integer*4 ubarbry_south_id, vbarbry_south_id common /ubar_south_id/ ubarbry_south_id, vbarbry_south_id integer*4 ubry_south_id, vbry_south_id common /u_south_id/ ubry_south_id, vbry_south_id integer*4 tbry_south_id(NT) common /t_south_id/ tbry_south_id integer*4 zetabry_north_id common /zeta_north_id/ zetabry_north_id integer*4 ubarbry_north_id, vbarbry_north_id common /ubar_north_id/ ubarbry_north_id, vbarbry_north_id integer*4 ubry_north_id, vbry_north_id common /u_north_id/ ubry_north_id, vbry_north_id integer*4 tbry_north_id(NT) common /t_north_id/ tbry_north_id real zetabry_west(-1:Mm+2+padd_E), & zetabry_west_dt(-1:Mm+2+padd_E,2) common /bry_zeta_west/ zetabry_west, zetabry_west_dt real ubarbry_west(-1:Mm+2+padd_E), & ubarbry_west_dt(-1:Mm+2+padd_E,2) & ,vbarbry_west(-1:Mm+2+padd_E), & vbarbry_west_dt(-1:Mm+2+padd_E,2) common /bry_ubar_west/ ubarbry_west, ubarbry_west_dt, & vbarbry_west, vbarbry_west_dt real ubry_west(-1:Mm+2+padd_E,N), & ubry_west_dt(-1:Mm+2+padd_E,N,2) & ,vbry_west(-1:Mm+2+padd_E,N), & vbry_west_dt(-1:Mm+2+padd_E,N,2) common /bry_u_west/ ubry_west, ubry_west_dt, & vbry_west, vbry_west_dt real tbry_west(-1:Mm+2+padd_E,N,NT), & tbry_west_dt(-1:Mm+2+padd_E,N,2,NT) common /bry_t_west/ tbry_west, tbry_west_dt real zetabry_east(-1:Mm+2+padd_E), & zetabry_east_dt(-1:Mm+2+padd_E,2) common /bry_zeta_east/ zetabry_east, zetabry_east_dt real ubarbry_east(-1:Mm+2+padd_E), & ubarbry_east_dt(-1:Mm+2+padd_E,2) & ,vbarbry_east(-1:Mm+2+padd_E), & vbarbry_east_dt(-1:Mm+2+padd_E,2) common /bry_ubar_east/ ubarbry_east, ubarbry_east_dt, & vbarbry_east, vbarbry_east_dt real ubry_east(-1:Mm+2+padd_E,N), & ubry_east_dt(-1:Mm+2+padd_E,N,2) & ,vbry_east(-1:Mm+2+padd_E,N), & vbry_east_dt(-1:Mm+2+padd_E,N,2) common /bry_u_east/ ubry_east, ubry_east_dt, & vbry_east, vbry_east_dt real tbry_east(-1:Mm+2+padd_E,N,NT), & tbry_east_dt(-1:Mm+2+padd_E,N,2,NT) common /bry_t_east/ tbry_east, tbry_east_dt real zetabry_south(-1:Lm+2+padd_X), & zetabry_south_dt(-1:Lm+2+padd_X,2) common /bry_zeta_south/ zetabry_south, zetabry_south_dt real ubarbry_south(-1:Lm+2+padd_X), & ubarbry_south_dt(-1:Lm+2+padd_X,2) & ,vbarbry_south(-1:Lm+2+padd_X), & vbarbry_south_dt(-1:Lm+2+padd_X,2) common /bry_ubar_south/ ubarbry_south, ubarbry_south_dt, & vbarbry_south, vbarbry_south_dt real ubry_south(-1:Lm+2+padd_X,N), & ubry_south_dt(-1:Lm+2+padd_X,N,2) & ,vbry_south(-1:Lm+2+padd_X,N), & vbry_south_dt(-1:Lm+2+padd_X,N,2) common /bry_u_south/ ubry_south, ubry_south_dt, & vbry_south, vbry_south_dt real tbry_south(-1:Lm+2+padd_X,N,NT), & tbry_south_dt(-1:Lm+2+padd_X,N,2,NT) common /bry_t_south/ tbry_south, tbry_south_dt real zetabry_north(-1:Lm+2+padd_X), & zetabry_north_dt(-1:Lm+2+padd_X,2) common /bry_zeta_north/ zetabry_north, zetabry_north_dt real ubarbry_north(-1:Lm+2+padd_X), & ubarbry_north_dt(-1:Lm+2+padd_X,2) & ,vbarbry_north(-1:Lm+2+padd_X), & vbarbry_north_dt(-1:Lm+2+padd_X,2) common /bry_ubar_north/ ubarbry_north, ubarbry_north_dt, & vbarbry_north, vbarbry_north_dt real ubry_north(-1:Lm+2+padd_X,N), & ubry_north_dt(-1:Lm+2+padd_X,N,2) & ,vbry_north(-1:Lm+2+padd_X,N), & vbry_north_dt(-1:Lm+2+padd_X,N,2) common /bry_u_north/ ubry_north, ubry_north_dt, & vbry_north, vbry_north_dt real tbry_north(-1:Lm+2+padd_X,N,NT), & tbry_north_dt(-1:Lm+2+padd_X,N,2,NT) common /bry_t_north/ tbry_north, tbry_north_dt integer*4 Istr,Iend,Jstr,Jend, i,j & ,k,itrc real init parameter (init=0.D0) include 'mpif.h' integer*4 ierr integer*4 IstrR,IendR,JstrR,JendR if (Istr.eq.1) then if (WEST_INTER) then IstrR=Istr-2 else IstrR=Istr-1 endif else IstrR=Istr endif if (Iend.eq.Lmmpi) then if (EAST_INTER) then IendR=Iend+2 else IendR=Iend+1 endif else IendR=Iend endif if (Jstr.eq.1) then if (SOUTH_INTER) then JstrR=Jstr-2 else JstrR=Jstr-1 endif else JstrR=Jstr endif if (Jend.eq.Mmmpi) then if (NORTH_INTER) then JendR=Jend+2 else JendR=Jend+1 endif else JendR=Jend endif do j=JstrR,JendR do i=IstrR,IendR zeta(i,j,1)=0.D0 zeta(i,j,2)=init zeta(i,j,3)=init zeta(i,j,4)=init ubar(i,j,1)=init ubar(i,j,2)=init ubar(i,j,3)=init ubar(i,j,4)=init vbar(i,j,1)=init vbar(i,j,2)=init vbar(i,j,3)=init vbar(i,j,4)=init zeta_avg(i,j)=init ubar_avg(i,j)=init vbar_avg(i,j)=init rufrc(i,j)=init rufrc(i,j)=init rufrc_bak(i,j,1)=init rvfrc_bak(i,j,1)=init rufrc_bak(i,j,2)=init rvfrc_bak(i,j,2)=init Zt_avg1(i,j)=0.D0 DU_avg1(i,j,1)=0.D0 DV_avg1(i,j,1)=0.D0 DU_avg1(i,j,2)=0.D0 DV_avg1(i,j,2)=0.D0 DU_avg2(i,j)=0.D0 DV_avg2(i,j)=0.D0 enddo enddo do k=1,N do j=JstrR,JendR do i=IstrR,IendR u(i,j,k,1)=init u(i,j,k,2)=init v(i,j,k,1)=init v(i,j,k,2)=init rho(i,j,k) =init rho_avg(i,j,k)=init u_avg(i,j,k)=init v_avg(i,j,k)=init w_avg(i,j,k)=init enddo enddo enddo do k=0,N do j=JstrR,JendR do i=IstrR,IendR We(i,j,k)=init omega_avg(i,j,k)=init bvf_avg(i,j,k)=init enddo enddo enddo do itrc=1,NT got_tini(itrc)=.false. do k=1,N do j=JstrR,JendR do i=IstrR,IendR t(i,j,k,1,itrc)=init t(i,j,k,2,itrc)=init t_avg(i,j,k,itrc)=init enddo enddo enddo enddo do j=JstrR,JendR do i=IstrR,IendR sustr(i,j)=init svstr(i,j)=init smstr(i,j)=init patm2d(i,j)=paref sustrg(i,j,1)=init svstrg(i,j,1)=init sustrg(i,j,2)=init svstrg(i,j,2)=init bustr(i,j)=init bvstr(i,j)=init bostr_avg(i,j)=init wstr_avg(i,j)=init sustr_avg(i,j)=init svstr_avg(i,j)=init bustrg(i,j,1)=init bvstrg(i,j,1)=init bustrg(i,j,2)=init bvstrg(i,j,2)=init enddo enddo do itrc=1,NT do j=JstrR,JendR do i=IstrR,IendR stflx(i,j,itrc)=init stflx_avg(i,j,itrc)=init stflxg(i,j,1,itrc)=init stflxg(i,j,2,itrc)=init btflx(i,j,itrc)=init enddo enddo enddo do j=JstrR,JendR do i=IstrR,IendR srflx(i,j)=init srflx_avg(i,j)=init srflxg(i,j,1)=init srflxg(i,j,2)=init enddo enddo if (.not.WEST_INTER) then do j=JstrR,JendR zetabry_west(j)=init enddo do j=JstrR,JendR ubarbry_west(j)=init vbarbry_west(j)=init enddo do k=1,N do j=JstrR,JendR ubry_west(j,k)=init vbry_west(j,k)=init do itrc=1,NT tbry_west(j,k,itrc)=init enddo enddo enddo endif if (.not.EAST_INTER) then do j=JstrR,JendR zetabry_east(j)=init enddo do j=JstrR,JendR ubarbry_east(j)=init vbarbry_east(j)=init enddo do k=1,N do j=JstrR,JendR ubry_east(j,k)=init vbry_east(j,k)=init do itrc=1,NT tbry_east(j,k,itrc)=init enddo enddo enddo endif if (.not.SOUTH_INTER) then do i=IstrR,IendR zetabry_south(i)=init enddo do i=IstrR,IendR ubarbry_south(i)=init vbarbry_south(i)=init enddo do k=1,N do i=IstrR,IendR ubry_south(i,k)=init vbry_south(i,k)=init do itrc=1,NT tbry_south(i,k,itrc)=init enddo enddo enddo endif if (.not.NORTH_INTER) then do i=IstrR,IendR zetabry_north(i)=init enddo do i=IstrR,IendR ubarbry_north(i)=init vbarbry_north(i)=init enddo do k=1,N do i=IstrR,IendR ubry_north(i,k)=init vbry_north(i,k)=init do itrc=1,NT tbry_north(i,k,itrc)=init enddo enddo enddo endif do j=JstrR,JendR do i=IstrR,IendR visc2_r(i,j)=visc2 visc2_p(i,j)=visc2 visc2_sponge_r(i,j)=init visc2_sponge_p(i,j)=init enddo enddo do itrc=1,NT do j=JstrR,JendR do i=IstrR,IendR diff2(i,j,itrc)=tnu2(itrc) enddo enddo enddo do j=JstrR,JendR do i=IstrR,IendR diff2_sponge(i,j)=init enddo enddo do itrc=1,NT do j=JstrR,JendR do i=IstrR,IendR diff4(i,j,itrc)=tnu4(itrc) enddo enddo enddo do j=JstrR,JendR do i=IstrR,IendR diff4_sponge(i,j)=init enddo enddo do k=1,N do j=JstrR,JendR do i=IstrR,IendR diff3d_u(i,j,k)=init diff3d_v(i,j,k)=init enddo enddo enddo do k=1,N-1 do j=JstrR,JendR do i=IstrR,IendR dRdx(i,j,k)=0.D0 dRde(i,j,k)=0.D0 enddo enddo enddo do k=0,N do j=JstrR,JendR do i=IstrR,IendR Akv(i,j,k)=init bvf(i,j,k)=init enddo enddo do j=JstrR,JendR do i=IstrR,IendR Akt(i,j,k,itemp)=init Akt(i,j,k,isalt)=init enddo enddo enddo do k=1,N do j=JstrR,JendR do i=IstrR,IendR ghats(i,j,k)=init enddo enddo enddo do j=JstrR,JendR do i=IstrR,IendR hbls(i,j,1)=init hbls(i,j,2)=init kbl(i,j)=init hbl_avg(i,j)=init enddo enddo do j=JstrR,JendR do i=IstrR,IendR hbbl(i,j)=init hbbl_avg(i,j)=init enddo enddo return end