159599516SKenneth E. Jansen subroutine itrdrv (y, ac, 259599516SKenneth E. Jansen & uold, x, 359599516SKenneth E. Jansen & iBC, BC, 459599516SKenneth E. Jansen & iper, ilwork, shp, 559599516SKenneth E. Jansen & shgl, shpb, shglb, 659599516SKenneth E. Jansen & ifath, velbar, nsons ) 759599516SKenneth E. Jansenc 859599516SKenneth E. Jansenc---------------------------------------------------------------------- 959599516SKenneth E. Jansenc 1059599516SKenneth E. Jansenc This iterative driver is the semi-discrete, predictor multi-corrector 1159599516SKenneth E. Jansenc algorithm. It contains the Hulbert Generalized Alpha method which 1259599516SKenneth E. Jansenc is 2nd order accurate for Rho_inf from 0 to 1. The method can be 1359599516SKenneth E. Jansenc made first-order accurate by setting Rho_inf=-1. It uses CGP and 1459599516SKenneth E. Jansenc GMRES iterative solvers. 1559599516SKenneth E. Jansenc 1659599516SKenneth E. Jansenc working arrays: 1759599516SKenneth E. Jansenc y (nshg,ndof) : Y variables 1859599516SKenneth E. Jansenc x (nshg,nsd) : node coordinates 1959599516SKenneth E. Jansenc iBC (nshg) : BC codes 2059599516SKenneth E. Jansenc BC (nshg,ndofBC) : BC constraint parameters 2159599516SKenneth E. Jansenc iper (nshg) : periodicity table 2259599516SKenneth E. Jansenc 2359599516SKenneth E. Jansenc 2459599516SKenneth E. Jansenc Zdenek Johan, Winter 1991. (Fortran 90) 2559599516SKenneth E. Jansenc Alberto Figueroa, Winter 2004. CMM-FSI 2659599516SKenneth E. Jansenc Irene Vignon, Fall 2004. Impedance BC 2759599516SKenneth E. Jansenc---------------------------------------------------------------------- 2859599516SKenneth E. Jansenc 2959599516SKenneth E. Jansen use pvsQbi !gives us splag (the spmass at the end of this run 3059599516SKenneth E. Jansen use specialBC !gives us itvn 3159599516SKenneth E. Jansen use timedata !allows collection of time series 3259599516SKenneth E. Jansen use convolImpFlow !for Imp bc 3359599516SKenneth E. Jansen use convolRCRFlow !for RCR bc 3459599516SKenneth E. Jansen!MR CHANGE 3559599516SKenneth E. Jansen use turbsa ! used to access d2wall 3659599516SKenneth E. Jansen!MR CHANGE END 379071d3baSCameron Smith use iso_c_binding 3859599516SKenneth E. Jansen 3959599516SKenneth E. Jansenc use readarrays !reads in uold and acold 4059599516SKenneth E. Jansen 4159599516SKenneth E. Jansen include "common.h" 4259599516SKenneth E. Jansen include "mpif.h" 4359599516SKenneth E. Jansen include "auxmpi.h" 4459599516SKenneth E. Jansenc 4559599516SKenneth E. Jansen 4659599516SKenneth E. Jansen 4759599516SKenneth E. Jansen real*8 y(nshg,ndof), ac(nshg,ndof), 4859599516SKenneth E. Jansen & yold(nshg,ndof), acold(nshg,ndof), 4959599516SKenneth E. Jansen & u(nshg,nsd), uold(nshg,nsd), 5059599516SKenneth E. Jansen & x(numnp,nsd), solinc(nshg,ndof), 5159599516SKenneth E. Jansen & BC(nshg,ndofBC), tf(nshg,ndof), 5259599516SKenneth E. Jansen & GradV(nshg,nsdsq) 5359599516SKenneth E. Jansen 5459599516SKenneth E. Jansenc 5559599516SKenneth E. Jansen real*8 res(nshg,ndof) 5659599516SKenneth E. Jansenc 5759599516SKenneth E. Jansen real*8 shp(MAXTOP,maxsh,MAXQPT), 5859599516SKenneth E. Jansen & shgl(MAXTOP,nsd,maxsh,MAXQPT), 5959599516SKenneth E. Jansen & shpb(MAXTOP,maxsh,MAXQPT), 6059599516SKenneth E. Jansen & shglb(MAXTOP,nsd,maxsh,MAXQPT) 6159599516SKenneth E. Jansenc 6259599516SKenneth E. Jansen integer rowp(nshg,nnz), colm(nshg+1), 6359599516SKenneth E. Jansen & iBC(nshg), 6459599516SKenneth E. Jansen & ilwork(nlwork), 6559599516SKenneth E. Jansen & iper(nshg), ifuncs(6) 6659599516SKenneth E. Jansen 6759599516SKenneth E. Jansen real*8 vbc_prof(nshg,3) 6859599516SKenneth E. Jansen 6959599516SKenneth E. Jansen integer stopjob 7059599516SKenneth E. Jansen character*10 cname2 7159599516SKenneth E. Jansen character*5 cname 7259599516SKenneth E. Jansenc 7359599516SKenneth E. Jansenc stuff for dynamic model s.w.avg and wall model 7459599516SKenneth E. Jansenc 7559599516SKenneth E. Jansen dimension ifath(numnp), velbar(nfath,ndof), nsons(nfath) 7659599516SKenneth E. Jansen 7759599516SKenneth E. Jansen dimension wallubar(2),walltot(2) 7859599516SKenneth E. Jansenc 7959599516SKenneth E. Jansenc.... For Farzin's Library 8059599516SKenneth E. Jansenc 8159599516SKenneth E. Jansen integer eqnType, prjFlag, presPrjFlag, verbose 8259599516SKenneth E. Jansenc 8359599516SKenneth E. Jansen real*8, allocatable, dimension(:,:) :: aperm, atemp, atempS 8459599516SKenneth E. Jansen real*8, allocatable, dimension(:,:,:) :: apermS 8559599516SKenneth E. Jansen 8659599516SKenneth E. Jansen real*8, allocatable, dimension(:,:) :: lhsP, lhsK, lhsS 8759599516SKenneth E. Jansen real*8 almit, alfit, gamit 8859599516SKenneth E. Jansenc 8959599516SKenneth E. Jansen character*1024 servername 9059599516SKenneth E. Jansen character*20 fname1,fmt1 9159599516SKenneth E. Jansen character*20 fname2,fmt2 9259599516SKenneth E. Jansen character*60 fnamepold, fvarts 9359599516SKenneth E. Jansen character*4 fname4c ! 4 characters 9459599516SKenneth E. Jansen integer iarray(50) ! integers for headers 9559599516SKenneth E. Jansen integer isgn(ndof), isgng(ndof) 9659599516SKenneth E. Jansen 9759599516SKenneth E. Jansen!MR CHANGE 9859599516SKenneth E. Jansen! real*8 rerr(nshg,10), ybar(nshg,13) ! including 7 sq. terms with 3 cross terms of uv, uw and vw 9959599516SKenneth E. Jansen! real*8 rerr(nshg,10), ybar(nshg,12) ! including 7 sq. terms with 3 cross terms of uv, uw and vw 10059599516SKenneth E. Jansen real*8 rerr(nshg,10) 10159599516SKenneth E. Jansen real*8, allocatable, dimension(:,:) :: ybar, strain, vorticity 10259599516SKenneth E. Jansen real*8, allocatable, dimension(:,:) :: wallssVec, wallssVecbar 10359599516SKenneth E. Jansen!MR CHANGE 10459599516SKenneth E. Jansen 10559599516SKenneth E. Jansen real*8 tcorecp(2), tcorecpscal(2) 10659599516SKenneth E. Jansen 10759599516SKenneth E. Jansen integer, allocatable, dimension(:) :: ivarts 10859599516SKenneth E. Jansen integer, allocatable, dimension(:) :: ivartsg 10959599516SKenneth E. Jansen integer, allocatable, dimension(:) :: iv_rank 11059599516SKenneth E. Jansen real*8, allocatable, dimension(:) :: vartssoln 11159599516SKenneth E. Jansen real*8, allocatable, dimension(:) :: vartssolng 11259599516SKenneth E. Jansen real*8, allocatable, dimension(:,:,:) :: yphbar 11359599516SKenneth E. Jansen real*8 CFLworst(numel) 11459599516SKenneth E. Jansen 11559599516SKenneth E. Jansen!MR CHANGE 11659599516SKenneth E. Jansen integer :: iv_rankpernode, iv_totnodes, iv_totcores 11759599516SKenneth E. Jansen integer :: iv_node, iv_core, iv_thread 11859599516SKenneth E. Jansen!MR CHANGE 11959599516SKenneth E. Jansen 12059599516SKenneth E. Jansen impistat = 0 12159599516SKenneth E. Jansen impistat2 = 0 12259599516SKenneth E. Jansen iISend = 0 12359599516SKenneth E. Jansen iISendScal = 0 12459599516SKenneth E. Jansen iIRecv = 0 12559599516SKenneth E. Jansen iIRecvScal = 0 12659599516SKenneth E. Jansen iWaitAll = 0 12759599516SKenneth E. Jansen iWaitAllScal = 0 12859599516SKenneth E. Jansen iAllR = 0 12959599516SKenneth E. Jansen iAllRScal = 0 13059599516SKenneth E. Jansen rISend = zero 13159599516SKenneth E. Jansen rISendScal = zero 13259599516SKenneth E. Jansen rIRecv = zero 13359599516SKenneth E. Jansen rIRecvScal = zero 13459599516SKenneth E. Jansen rWaitAll = zero 13559599516SKenneth E. Jansen rWaitAllScal = zero 13659599516SKenneth E. Jansen rAllR = zero 13759599516SKenneth E. Jansen rAllRScal = zero 13859599516SKenneth E. Jansen rCommu = zero 13959599516SKenneth E. Jansen rCommuScal = zero 14059599516SKenneth E. Jansen 14159599516SKenneth E. Jansen call initmemstat() 14259599516SKenneth E. Jansen 14359599516SKenneth E. Jansenc 14459599516SKenneth E. Jansenc hack SA variable 14559599516SKenneth E. Jansenc 14659599516SKenneth E. JansencHack BC(:,7)=BC(:,7)*0.001 14759599516SKenneth E. JansencHack if(lstep.eq.0) y(:,6)=y(:,6)*0.001 14859599516SKenneth E. Jansen call SolverLicenseServer(servername) 14959599516SKenneth E. Jansenc 15059599516SKenneth E. Jansenc only master should be verbose 15159599516SKenneth E. Jansenc 15259599516SKenneth E. Jansen 15359599516SKenneth E. Jansen if(numpe.gt.0 .and. myrank.ne.master)iverbose=0 15459599516SKenneth E. Jansenc 15559599516SKenneth E. Jansen 15659599516SKenneth E. Jansen lskeep=lstep 15759599516SKenneth E. Jansen 15859599516SKenneth E. Jansen inquire(file='xyzts.dat',exist=exts) 15959599516SKenneth E. Jansen if(exts) then 16059599516SKenneth E. Jansen 16159599516SKenneth E. Jansen open(unit=626,file='xyzts.dat',status='old') 16259599516SKenneth E. Jansen read(626,*) ntspts, freq, tolpt, iterat, varcod 16359599516SKenneth E. Jansen call sTD ! sets data structures 16459599516SKenneth E. Jansen 16559599516SKenneth E. Jansen do jj=1,ntspts ! read coordinate data where solution desired 16659599516SKenneth E. Jansen read(626,*) ptts(jj,1),ptts(jj,2),ptts(jj,3) 16759599516SKenneth E. Jansen enddo 16859599516SKenneth E. Jansen close(626) 16959599516SKenneth E. Jansen 17059599516SKenneth E. Jansen statptts(:,:) = 0 17159599516SKenneth E. Jansen parptts(:,:) = zero 17259599516SKenneth E. Jansen varts(:,:) = zero 17359599516SKenneth E. Jansen 17459599516SKenneth E. Jansen allocate (ivarts(ntspts*ndof)) 17559599516SKenneth E. Jansen allocate (ivartsg(ntspts*ndof)) 17659599516SKenneth E. Jansen allocate (iv_rank(ntspts)) 17759599516SKenneth E. Jansen allocate (vartssoln(ntspts*ndof)) 17859599516SKenneth E. Jansen allocate (vartssolng(ntspts*ndof)) 17959599516SKenneth E. Jansen 18059599516SKenneth E. Jansen iv_rankpernode = iv_rankpercore*iv_corepernode 18159599516SKenneth E. Jansen iv_totnodes = numpe/iv_rankpernode 18259599516SKenneth E. Jansen iv_totcores = iv_corepernode*iv_totnodes 18359599516SKenneth E. Jansen if (myrank .eq. 0) then 18459599516SKenneth E. Jansen write(*,*) 'Info for probes:' 18559599516SKenneth E. Jansen write(*,*) ' Ranks per core:',iv_rankpercore 18659599516SKenneth E. Jansen write(*,*) ' Cores per node:',iv_corepernode 18759599516SKenneth E. Jansen write(*,*) ' Ranks per node:',iv_rankpernode 18859599516SKenneth E. Jansen write(*,*) ' Total number of nodes:',iv_totnodes 18959599516SKenneth E. Jansen write(*,*) ' Total number of cores',iv_totcores 19059599516SKenneth E. Jansen endif 19159599516SKenneth E. Jansen 19259599516SKenneth E. Jansen! if (myrank .eq. numpe-1) then 19359599516SKenneth E. Jansen do jj=1,ntspts 19459599516SKenneth E. Jansen 19559599516SKenneth E. Jansen ! Compute the adequate rank which will take care of probe jj 19659599516SKenneth E. Jansen jjm1 = jj-1 19759599516SKenneth E. Jansen iv_node = (iv_totnodes-1)-mod(jjm1,iv_totnodes) 19859599516SKenneth E. Jansen iv_core = (iv_corepernode-1) - mod((jjm1 - 19959599516SKenneth E. Jansen & mod(jjm1,iv_totnodes))/iv_totnodes,iv_corepernode) 20059599516SKenneth E. Jansen iv_thread = (iv_rankpercore-1) - mod((jjm1- 20159599516SKenneth E. Jansen & (mod(jjm1,iv_totcores)))/iv_totcores,iv_rankpercore) 20259599516SKenneth E. Jansen iv_rank(jj) = iv_node*iv_rankpernode 20359599516SKenneth E. Jansen & + iv_core*iv_rankpercore 20459599516SKenneth E. Jansen & + iv_thread 20559599516SKenneth E. Jansen 20659599516SKenneth E. Jansen if(myrank == 0) then 20759599516SKenneth E. Jansen write(*,*) ' Probe', jj, 'handled by rank', 20859599516SKenneth E. Jansen & iv_rank(jj), ' on node', iv_node 20959599516SKenneth E. Jansen endif 21059599516SKenneth E. Jansen 21159599516SKenneth E. Jansen ! Verification just in case 21259599516SKenneth E. Jansen if(iv_rank(jj) .lt.0 .or. iv_rank(jj) .ge. numpe) then 21359599516SKenneth E. Jansen write(*,*) 'WARNING: iv_rank(',jj,') is ', iv_rank(jj), 21459599516SKenneth E. Jansen & ' and reset to numpe-1' 21559599516SKenneth E. Jansen iv_rank(jj) = numpe-1 21659599516SKenneth E. Jansen endif 21759599516SKenneth E. Jansen 21859599516SKenneth E. Jansen ! Open the varts files 21959599516SKenneth E. Jansen if(myrank == iv_rank(jj)) then 22059599516SKenneth E. Jansen fvarts='varts/varts' 22159599516SKenneth E. Jansen fvarts=trim(fvarts)//trim(cname2(jj)) 22259599516SKenneth E. Jansen fvarts=trim(fvarts)//trim(cname2(lstep)) 22359599516SKenneth E. Jansen fvarts=trim(fvarts)//'.dat' 22459599516SKenneth E. Jansen fvarts=trim(fvarts) 22559599516SKenneth E. Jansen open(unit=1000+jj, file=fvarts, status='unknown') 22659599516SKenneth E. Jansen endif 22759599516SKenneth E. Jansen enddo 22859599516SKenneth E. Jansen! endif 22959599516SKenneth E. Jansen 23059599516SKenneth E. Jansen endif 23159599516SKenneth E. Jansenc 23259599516SKenneth E. Jansenc.... open history and aerodynamic forces files 23359599516SKenneth E. Jansenc 23459599516SKenneth E. Jansen if (myrank .eq. master) then 235c9a96f21SKenneth E. Jansen open (unit=ihist, file=fhist, status='unknown') 23659599516SKenneth E. Jansen open (unit=iforce, file=fforce, status='unknown') 23759599516SKenneth E. Jansen open (unit=76, file="fort.76", status='unknown') 23859599516SKenneth E. Jansen if(numImpSrfs.gt.0 .or. numRCRSrfs.gt.0) then 23959599516SKenneth E. Jansen fnamepold = 'pold' 24059599516SKenneth E. Jansen fnamepold = trim(fnamepold)//trim(cname2(lstep)) 24159599516SKenneth E. Jansen fnamepold = trim(fnamepold)//'.dat' 24259599516SKenneth E. Jansen fnamepold = trim(fnamepold) 24359599516SKenneth E. Jansen open (unit=8177, file=fnamepold, status='unknown') 24459599516SKenneth E. Jansen endif 24559599516SKenneth E. Jansen endif 24659599516SKenneth E. Jansenc 24759599516SKenneth E. Jansenc.... initialize 24859599516SKenneth E. Jansenc 24959599516SKenneth E. Jansen ifuncs(:) = 0 ! func. evaluation counter 25059599516SKenneth E. Jansen istep = 0 25159599516SKenneth E. Jansen yold = y 25259599516SKenneth E. Jansen acold = ac 25359599516SKenneth E. Jansen 25459599516SKenneth E. Jansen rerr = zero 25559599516SKenneth E. Jansen 25659599516SKenneth E. Jansen if(ierrcalc.eq.1 .or. ioybar.eq.1) then ! we need ybar for error too 25759599516SKenneth E. Jansen if (ivort == 1) then 25859599516SKenneth E. Jansen allocate(ybar(nshg,17)) ! more space for vorticity if requested 25959599516SKenneth E. Jansen else 26059599516SKenneth E. Jansen allocate(ybar(nshg,13)) 26159599516SKenneth E. Jansen endif 26259599516SKenneth E. Jansen ybar = zero ! Initialize ybar to zero, which is essential 26359599516SKenneth E. Jansen endif 26459599516SKenneth E. Jansen 26559599516SKenneth E. Jansen if(ivort == 1) then 26659599516SKenneth E. Jansen allocate(strain(nshg,6)) 26759599516SKenneth E. Jansen allocate(vorticity(nshg,5)) 26859599516SKenneth E. Jansen endif 26959599516SKenneth E. Jansen 27059599516SKenneth E. Jansen if(abs(itwmod).ne.1 .and. iowflux.eq.1) then 27159599516SKenneth E. Jansen allocate(wallssVec(nshg,3)) 27259599516SKenneth E. Jansen if (ioybar .eq. 1) then 27359599516SKenneth E. Jansen allocate(wallssVecbar(nshg,3)) 27459599516SKenneth E. Jansen wallssVecbar = zero ! Initialization important if mean wss computed 27559599516SKenneth E. Jansen endif 27659599516SKenneth E. Jansen endif 27759599516SKenneth E. Jansen 27859599516SKenneth E. Jansen! both nstepsincycle and nphasesincycle needs to be set 27959599516SKenneth E. Jansen if(nstepsincycle.eq.0) nphasesincycle = 0 28059599516SKenneth E. Jansen if(nphasesincycle.ne.0) then 28159599516SKenneth E. Jansen! & allocate(yphbar(nshg,5,nphasesincycle)) 28259599516SKenneth E. Jansen if (ivort == 1) then 28359599516SKenneth E. Jansen allocate(yphbar(nshg,15,nphasesincycle)) ! more space for vorticity 28459599516SKenneth E. Jansen else 28559599516SKenneth E. Jansen allocate(yphbar(nshg,11,nphasesincycle)) 28659599516SKenneth E. Jansen endif 28759599516SKenneth E. Jansen yphbar = zero 28859599516SKenneth E. Jansen endif 28959599516SKenneth E. Jansen 29059599516SKenneth E. Jansen!MR CHANGE END 29159599516SKenneth E. Jansen 29259599516SKenneth E. Jansen vbc_prof(:,1:3) = BC(:,3:5) 29359599516SKenneth E. Jansen if(iramp.eq.1) then 29459599516SKenneth E. Jansen call BCprofileInit(vbc_prof,x) 29559599516SKenneth E. Jansen endif 29659599516SKenneth E. Jansen 29759599516SKenneth E. Jansenc 29859599516SKenneth E. Jansenc.... ---------------> initialize Farzin's Library <--------------- 29959599516SKenneth E. Jansenc 30059599516SKenneth E. Jansenc.... assign parameter values 30159599516SKenneth E. Jansenc 30259599516SKenneth E. Jansen do i = 1, 100 30359599516SKenneth E. Jansen numeqns(i) = i 30459599516SKenneth E. Jansen enddo 30559599516SKenneth E. Jansen nKvecs = Kspace 30659599516SKenneth E. Jansen prjFlag = iprjFlag 30759599516SKenneth E. Jansen presPrjFlag = ipresPrjFlag 30859599516SKenneth E. Jansen verbose = iverbose 30959599516SKenneth E. Jansenc 31059599516SKenneth E. Jansenc.... determine how many scalar equations we are going to need to solve 31159599516SKenneth E. Jansenc 31259599516SKenneth E. Jansen nsolt=mod(impl(1),2) ! 1 if solving temperature 31359599516SKenneth E. Jansen nsclrsol=nsolt+nsclr ! total number of scalars solved At 31459599516SKenneth E. Jansen ! some point we probably want to create 31559599516SKenneth E. Jansen ! a map, considering stepseq(), to find 31659599516SKenneth E. Jansen ! what is actually solved and only 31759599516SKenneth E. Jansen ! dimension lhs to the appropriate 31859599516SKenneth E. Jansen ! size. (see 1.6.1 and earlier for a 31959599516SKenneth E. Jansen ! "failed" attempt at this). 32059599516SKenneth E. Jansen 32159599516SKenneth E. Jansen 32259599516SKenneth E. Jansen nsolflow=mod(impl(1),100)/10 ! 1 if solving flow 32359599516SKenneth E. Jansen 32459599516SKenneth E. Jansenc 32559599516SKenneth E. Jansenc.... Now, call Farzin's lesNew routine to initialize 32659599516SKenneth E. Jansenc memory space 32759599516SKenneth E. Jansenc 32859599516SKenneth E. Jansen call genadj(colm, rowp, icnt ) ! preprocess the adjacency list 32959599516SKenneth E. Jansen 33059599516SKenneth E. Jansen nnz_tot=icnt ! this is exactly the number of non-zero blocks on 33159599516SKenneth E. Jansen ! this proc 33259599516SKenneth E. Jansen 33359599516SKenneth E. Jansen if (nsolflow.eq.1) then 33459599516SKenneth E. Jansen lesId = numeqns(1) 33559599516SKenneth E. Jansen eqnType = 1 33659599516SKenneth E. Jansen nDofs = 4 33759599516SKenneth E. Jansen call myfLesNew( lesId, 41994, 33859599516SKenneth E. Jansen & eqnType, 33959599516SKenneth E. Jansen & nDofs, minIters, maxIters, 34059599516SKenneth E. Jansen & nKvecs, prjFlag, nPrjs, 34159599516SKenneth E. Jansen & presPrjFlag, nPresPrjs, epstol(1), 34259599516SKenneth E. Jansen & prestol, verbose, statsflow, 34359599516SKenneth E. Jansen & nPermDims, nTmpDims, servername ) 34459599516SKenneth E. Jansen 34559599516SKenneth E. Jansen allocate (aperm(nshg,nPermDims)) 34659599516SKenneth E. Jansen allocate (atemp(nshg,nTmpDims)) 34759599516SKenneth E. Jansen allocate (lhsP(4,nnz_tot)) 34859599516SKenneth E. Jansen allocate (lhsK(9,nnz_tot)) 34959599516SKenneth E. Jansen 35059599516SKenneth E. Jansen call readLesRestart( lesId, aperm, nshg, myrank, lstep, 35159599516SKenneth E. Jansen & nPermDims ) 35259599516SKenneth E. Jansen 35359599516SKenneth E. Jansen else 35459599516SKenneth E. Jansen nPermDims = 0 35559599516SKenneth E. Jansen nTempDims = 0 35659599516SKenneth E. Jansen endif 35759599516SKenneth E. Jansen 35859599516SKenneth E. Jansen 35959599516SKenneth E. Jansen if(nsclrsol.gt.0) then 36059599516SKenneth E. Jansen do isolsc=1,nsclrsol 36159599516SKenneth E. Jansen lesId = numeqns(isolsc+1) 36259599516SKenneth E. Jansen eqnType = 2 36359599516SKenneth E. Jansen nDofs = 1 36459599516SKenneth E. Jansen presPrjflag = 0 36559599516SKenneth E. Jansen nPresPrjs = 0 36659599516SKenneth E. Jansen prjFlag = 1 36759599516SKenneth E. Jansen indx=isolsc+2-nsolt ! complicated to keep epstol(2) for 36859599516SKenneth E. Jansen ! temperature followed by scalars 36959599516SKenneth E. Jansen call myfLesNew( lesId, 41994, 37059599516SKenneth E. Jansen & eqnType, 37159599516SKenneth E. Jansen & nDofs, minIters, maxIters, 37259599516SKenneth E. Jansen & nKvecs, prjFlag, nPrjs, 37359599516SKenneth E. Jansen & presPrjFlag, nPresPrjs, epstol(indx), 37459599516SKenneth E. Jansen & prestol, verbose, statssclr, 37559599516SKenneth E. Jansen & nPermDimsS, nTmpDimsS, servername ) 37659599516SKenneth E. Jansen enddo 37759599516SKenneth E. Jansenc 37859599516SKenneth E. Jansenc Assume all scalars have the same size needs 37959599516SKenneth E. Jansenc 38059599516SKenneth E. Jansen allocate (apermS(nshg,nPermDimsS,nsclrsol)) 38159599516SKenneth E. Jansen allocate (atempS(nshg,nTmpDimsS)) !they can all share this 38259599516SKenneth E. Jansen allocate (lhsS(nnz_tot,nsclrsol)) 38359599516SKenneth E. Jansenc 38459599516SKenneth E. Jansenc actually they could even share with atemp but leave that for later 38559599516SKenneth E. Jansenc 38659599516SKenneth E. Jansen else 38759599516SKenneth E. Jansen nPermDimsS = 0 38859599516SKenneth E. Jansen nTmpDimsS = 0 38959599516SKenneth E. Jansen endif 39059599516SKenneth E. Jansenc 39159599516SKenneth E. Jansenc... prepare lumped mass if needed 39259599516SKenneth E. Jansenc 39359599516SKenneth E. Jansen if((flmpr.ne.0).or.(flmpl.ne.0)) call genlmass(x, shp,shgl) 39459599516SKenneth E. Jansenc 39559599516SKenneth E. Jansenc.... -----------------> End of initialization <----------------- 39659599516SKenneth E. Jansenc 39759599516SKenneth E. Jansenc.....open the necessary files to gather time series 39859599516SKenneth E. Jansenc 39959599516SKenneth E. Jansen lstep0 = lstep+1 40059599516SKenneth E. Jansen nsteprcr = nstep(1)+lstep 40159599516SKenneth E. Jansenc 40259599516SKenneth E. Jansenc.... loop through the time sequences 40359599516SKenneth E. Jansenc 40459599516SKenneth E. Jansen 40559599516SKenneth E. Jansen 40659599516SKenneth E. Jansen do 3000 itsq = 1, ntseq 40759599516SKenneth E. Jansen itseq = itsq 40859599516SKenneth E. Jansen 40959599516SKenneth E. JansenCAD tcorecp1 = second(0) 41059599516SKenneth E. JansenCAD tcorewc1 = second(-1) 41159599516SKenneth E. Jansenc 41259599516SKenneth E. Jansenc.... set up the time integration parameters 41359599516SKenneth E. Jansenc 41459599516SKenneth E. Jansen nstp = nstep(itseq) 41559599516SKenneth E. Jansen nitr = niter(itseq) 41659599516SKenneth E. Jansen LCtime = loctim(itseq) 41759599516SKenneth E. Jansen dtol(:)= deltol(itseq,:) 41859599516SKenneth E. Jansen 41959599516SKenneth E. Jansen call itrSetup ( y, acold ) 42059599516SKenneth E. Jansenc 42159599516SKenneth E. Jansenc...initialize the coefficients for the impedance convolution, 42259599516SKenneth E. Jansenc which are functions of alphaf so need to do it after itrSetup 42359599516SKenneth E. Jansen if(numImpSrfs.gt.zero) then 42459599516SKenneth E. Jansen call calcImpConvCoef (numImpSrfs, ntimeptpT) 42559599516SKenneth E. Jansen endif 42659599516SKenneth E. Jansenc 42759599516SKenneth E. Jansenc...initialize the initial condition P(0)-RQ(0)-Pd(0) for RCR BC 42859599516SKenneth E. Jansenc need ndsurf so should be after initNABI 42959599516SKenneth E. Jansen if(numRCRSrfs.gt.zero) then 43059599516SKenneth E. Jansen call calcRCRic(y,nsrflistRCR,numRCRSrfs) 43159599516SKenneth E. Jansen endif 43259599516SKenneth E. Jansenc 43359599516SKenneth E. Jansenc find the last solve of the flow in the step sequence so that we will 43459599516SKenneth E. Jansenc know when we are at/near end of step 43559599516SKenneth E. Jansenc 43659599516SKenneth E. Jansenc ilast=0 43759599516SKenneth E. Jansen nitr=0 ! count number of flow solves in a step (# of iterations) 43859599516SKenneth E. Jansen do i=1,seqsize 43959599516SKenneth E. Jansen if(stepseq(i).eq.0) nitr=nitr+1 44059599516SKenneth E. Jansen enddo 44159599516SKenneth E. Jansen 44259599516SKenneth E. Jansen if (numpe > 1) call MPI_BARRIER(MPI_COMM_WORLD, ierr) 44359599516SKenneth E. Jansen tcorecp(:) = zero ! used in solfar.f (solflow) 44459599516SKenneth E. Jansen tcorecpscal(:) = zero ! used in solfar.f (solflow) 44559599516SKenneth E. Jansen if(myrank.eq.0) then 44659599516SKenneth E. Jansen tcorecp1 = TMRC() 44759599516SKenneth E. Jansen endif 44859599516SKenneth E. Jansen 44959599516SKenneth E. Jansenc 45059599516SKenneth E. Jansenc.... loop through the time steps 45159599516SKenneth E. Jansenc 45259599516SKenneth E. Jansen istop=0 45359599516SKenneth E. Jansen rmub=datmat(1,2,1) 45459599516SKenneth E. Jansen if(rmutarget.gt.0) then 45559599516SKenneth E. Jansen rmue=rmutarget 45659599516SKenneth E. Jansen else 45759599516SKenneth E. Jansen rmue=datmat(1,2,1) ! keep constant 45859599516SKenneth E. Jansen endif 45959599516SKenneth E. Jansen 46059599516SKenneth E. Jansen if(iramp.eq.1) then 46159599516SKenneth E. Jansen call BCprofileScale(vbc_prof,BC,yold) ! fix the yold values to the reset BC 46259599516SKenneth E. Jansen isclr=1 ! fix scalar 46359599516SKenneth E. Jansen do isclr=1,nsclr 46459599516SKenneth E. Jansen call itrBCSclr(yold,ac,iBC,BC,iper,ilwork) 46559599516SKenneth E. Jansen enddo 46659599516SKenneth E. Jansen endif 46759599516SKenneth E. Jansen 46859599516SKenneth E. Jansen do 2000 istp = 1, nstp 46959599516SKenneth E. Jansen if(iramp.eq.1) 47059599516SKenneth E. Jansen & call BCprofileScale(vbc_prof,BC,yold) 47159599516SKenneth E. Jansen 47259599516SKenneth E. Jansen call rerun_check(stopjob) 473c89b8efeSKenneth E. Jansen if(myrank.eq.master) write(*,*) 474c89b8efeSKenneth E. Jansen & 'stopjob,lstep,istep', stopjob,lstep,istep 475c89b8efeSKenneth E. Jansen if(stopjob.eq.lstep) then 476c89b8efeSKenneth E. Jansen stopjob=-2 ! this is the code to finish 477c89b8efeSKenneth E. Jansen if ((irs .ge. 1) .and. (mod(lstep, ntout) .eq. 0)) then 478c89b8efeSKenneth E. Jansen if(myrank.eq.master) write(*,*) 479c89b8efeSKenneth E. Jansen & 'line 473 says last step written so exit' 480c89b8efeSKenneth E. Jansen goto 2002 ! the step was written last step so just exit 481c89b8efeSKenneth E. Jansen else 482c89b8efeSKenneth E. Jansen if(myrank.eq.master) 483c89b8efeSKenneth E. Jansen & write(*,*) 'line 473 says last step not written' 484c89b8efeSKenneth E. Jansen istep=nstp ! have to do this so that solution will be written 485c89b8efeSKenneth E. Jansen goto 2001 486c89b8efeSKenneth E. Jansen endif 487c89b8efeSKenneth E. Jansen endif 48859599516SKenneth E. Jansen 48959599516SKenneth E. Jansen xi=istp*1.0/nstp 49059599516SKenneth E. Jansen datmat(1,2,1)=rmub*(1.0-xi)+xi*rmue 49159599516SKenneth E. Jansenc write(*,*) "current mol. visc = ", datmat(1,2,1) 49259599516SKenneth E. Jansenc.... if we have time varying boundary conditions update the values of BC. 49359599516SKenneth E. Jansenc these will be for time step n+1 so use lstep+1 49459599516SKenneth E. Jansenc 49559599516SKenneth E. Jansen if(itvn.gt.0) call BCint((lstep+1)*Delt(1), shp, shgl, 49659599516SKenneth E. Jansen & shpb, shglb, x, BC, iBC) 49759599516SKenneth E. Jansen 49859599516SKenneth E. Jansenc 49959599516SKenneth E. Jansenc ... calculate the pressure contribution that depends on the history for the Imp. BC 50059599516SKenneth E. Jansenc 50159599516SKenneth E. Jansen if(numImpSrfs.gt.0) then 50259599516SKenneth E. Jansen call pHist(poldImp,QHistImp,ImpConvCoef, 50359599516SKenneth E. Jansen & ntimeptpT,numImpSrfs) 50459599516SKenneth E. Jansen if (myrank.eq.master) 50559599516SKenneth E. Jansen & write(8177,*) (poldImp(n), n=1,numImpSrfs) 50659599516SKenneth E. Jansen endif 50759599516SKenneth E. Jansenc 50859599516SKenneth E. Jansenc ... calc the pressure contribution that depends on the history for the RCR BC 50959599516SKenneth E. Jansenc 51059599516SKenneth E. Jansen if(numRCRSrfs.gt.0) then 51159599516SKenneth E. Jansen call CalcHopRCR (Delt(itseq), lstep, numRCRSrfs) 51259599516SKenneth E. Jansen call CalcRCRConvCoef(lstep,numRCRSrfs) 51359599516SKenneth E. Jansen call pHist(poldRCR,QHistRCR,RCRConvCoef,nsteprcr, 51459599516SKenneth E. Jansen & numRCRSrfs) 51559599516SKenneth E. Jansen if (myrank.eq.master) 51659599516SKenneth E. Jansen & write(8177,*) (poldRCR(n), n=1,numRCRSrfs) 51759599516SKenneth E. Jansen endif 51859599516SKenneth E. Jansenc 51959599516SKenneth E. Jansenc Decay of scalars 52059599516SKenneth E. Jansenc 52159599516SKenneth E. Jansen if(nsclr.gt.0 .and. tdecay.ne.1) then 52259599516SKenneth E. Jansen yold(:,6:ndof)=y(:,6:ndof)*tdecay 52359599516SKenneth E. Jansen BC(:,7:6+nsclr)= BC(:,7:6+nsclr)*tdecay 52459599516SKenneth E. Jansen endif 52559599516SKenneth E. Jansen 52659599516SKenneth E. Jansen if(nosource.eq.1) BC(:,7:6+nsclr)= BC(:,7:6+nsclr)*0.8 52759599516SKenneth E. Jansen 52859599516SKenneth E. Jansen 52959599516SKenneth E. Jansen if(iLES.gt.0) then !complicated stuff has moved to 53059599516SKenneth E. Jansen !routine below 53159599516SKenneth E. Jansen call lesmodels(yold, acold, shgl, shp, 53259599516SKenneth E. Jansen & iper, ilwork, rowp, colm, 53359599516SKenneth E. Jansen & nsons, ifath, x, 53459599516SKenneth E. Jansen & iBC, BC) 53559599516SKenneth E. Jansen 53659599516SKenneth E. Jansen 53759599516SKenneth E. Jansen endif 53859599516SKenneth E. Jansen 53959599516SKenneth E. Jansenc.... set traction BCs for modeled walls 54059599516SKenneth E. Jansenc 54159599516SKenneth E. Jansen if (itwmod.ne.0) then 54259599516SKenneth E. Jansen call asbwmod(yold, acold, x, BC, iBC, 54359599516SKenneth E. Jansen & iper, ilwork, ifath, velbar) 54459599516SKenneth E. Jansen endif 54559599516SKenneth E. Jansen 54659599516SKenneth E. Jansen!MR CHANGE 54759599516SKenneth E. Jansenc 54859599516SKenneth E. Jansenc.... Determine whether the vorticity field needs to be computed for this time step or not 54959599516SKenneth E. Jansenc 55059599516SKenneth E. Jansen icomputevort = 0 55159599516SKenneth E. Jansen if (ivort == 1) then ! Print vorticity = True in solver.inp 55259599516SKenneth E. Jansen ! We then compute the vorticity only if we 55359599516SKenneth E. Jansen ! 1) we write an intermediate checkpoint 55459599516SKenneth E. Jansen ! 2) we reach the last time step and write the last checkpoint 55559599516SKenneth E. Jansen ! 3) we accumulate statistics in ybar for every time step 55659599516SKenneth E. Jansen ! BEWARE: we need here lstep+1 and istep+1 because the lstep and 55759599516SKenneth E. Jansen ! istep gets incremened after the flowsolve, further below 55859599516SKenneth E. Jansen if (((irs .ge. 1) .and. (mod(lstep+1, ntout) .eq. 0)) .or. 55959599516SKenneth E. Jansen & istep+1.eq.nstep(itseq) .or. ioybar == 1) then 56059599516SKenneth E. Jansen icomputevort = 1 56159599516SKenneth E. Jansen endif 56259599516SKenneth E. Jansen endif 56359599516SKenneth E. Jansen 56459599516SKenneth E. Jansen! write(*,*) 'icomputevort: ',icomputevort, ' - istep: ', 56559599516SKenneth E. Jansen! & istep,' - nstep(itseq):',nstep(itseq),'- lstep:', 56659599516SKenneth E. Jansen! & lstep, '- ntout:', ntout 56759599516SKenneth E. Jansen!MR CHANGE 56859599516SKenneth E. Jansen 56959599516SKenneth E. Jansenc 57059599516SKenneth E. Jansenc.... -----------------------> predictor phase <----------------------- 57159599516SKenneth E. Jansenc 57259599516SKenneth E. Jansen call itrPredict(yold, y, acold, ac , uold, u, iBC) 57359599516SKenneth E. Jansen call itrBC (y, ac, iBC, BC, iper,ilwork) 57459599516SKenneth E. Jansen 57559599516SKenneth E. Jansen if(nsolt.eq.1) then 57659599516SKenneth E. Jansen isclr=0 57759599516SKenneth E. Jansen call itrBCSclr (y, ac, iBC, BC, iper, ilwork) 57859599516SKenneth E. Jansen endif 57959599516SKenneth E. Jansen do isclr=1,nsclr 58059599516SKenneth E. Jansen call itrBCSclr (y, ac, iBC, BC, iper, ilwork) 58159599516SKenneth E. Jansen enddo 58259599516SKenneth E. Jansen iter=0 58359599516SKenneth E. Jansen ilss=0 ! this is a switch thrown on first solve of LS redistance 58459599516SKenneth E. Jansen do istepc=1,seqsize 58559599516SKenneth E. Jansen icode=stepseq(istepc) 58659599516SKenneth E. Jansen if(mod(icode,5).eq.0) then ! this is a solve 58759599516SKenneth E. Jansen isolve=icode/10 58859599516SKenneth E. Jansen if(icode.eq.0) then ! flow solve (encoded as 0) 58959599516SKenneth E. Jansenc 59059599516SKenneth E. Jansen iter = iter+1 59159599516SKenneth E. Jansen ifuncs(1) = ifuncs(1) + 1 59259599516SKenneth E. Jansenc 59359599516SKenneth E. Jansen Force(1) = zero 59459599516SKenneth E. Jansen Force(2) = zero 59559599516SKenneth E. Jansen Force(3) = zero 59659599516SKenneth E. Jansen HFlux = zero 59759599516SKenneth E. Jansen lhs = 1 - min(1,mod(ifuncs(1)-1,LHSupd(1))) 59859599516SKenneth E. Jansen 59959599516SKenneth E. Jansen call SolFlow(y, ac, u, 60059599516SKenneth E. Jansen & yold, acold, uold, 60159599516SKenneth E. Jansen & x, iBC, 60259599516SKenneth E. Jansen & BC, res, 60359599516SKenneth E. Jansen & nPermDims, nTmpDims, aperm, 60459599516SKenneth E. Jansen & atemp, iper, 60559599516SKenneth E. Jansen & ilwork, shp, shgl, 60659599516SKenneth E. Jansen & shpb, shglb, rowp, 60759599516SKenneth E. Jansen & colm, lhsK, lhsP, 60859599516SKenneth E. Jansen & solinc, rerr, tcorecp, 60959599516SKenneth E. Jansen & GradV) 61059599516SKenneth E. Jansen 61159599516SKenneth E. Jansen else ! scalar type solve 61259599516SKenneth E. Jansen if (icode.eq.5) then ! Solve for Temperature 61359599516SKenneth E. Jansen ! (encoded as (nsclr+1)*10) 61459599516SKenneth E. Jansen isclr=0 61559599516SKenneth E. Jansen ifuncs(2) = ifuncs(2) + 1 61659599516SKenneth E. Jansen j=1 61759599516SKenneth E. Jansen else ! solve a scalar (encoded at isclr*10) 61859599516SKenneth E. Jansen isclr=isolve 61959599516SKenneth E. Jansen ifuncs(isclr+2) = ifuncs(isclr+2) + 1 62059599516SKenneth E. Jansen j=isclr+nsolt 62159599516SKenneth E. Jansen if((iLSet.eq.2).and.(ilss.eq.0) 62259599516SKenneth E. Jansen & .and.(isclr.eq.2)) then 62359599516SKenneth E. Jansen ilss=1 ! throw switch (once per step) 62459599516SKenneth E. Jansen y(:,7)=y(:,6) ! redistance field initialized 62559599516SKenneth E. Jansen ac(:,7) = zero 62659599516SKenneth E. Jansen call itrBCSclr ( y, ac, iBC, BC, iper, 62759599516SKenneth E. Jansen & ilwork) 62859599516SKenneth E. Jansenc 62959599516SKenneth E. Jansenc....store the flow alpha, gamma parameter values and assigm them the 63059599516SKenneth E. Jansenc....Backward Euler parameters to solve the second levelset scalar 63159599516SKenneth E. Jansenc 63259599516SKenneth E. Jansen alfit=alfi 63359599516SKenneth E. Jansen gamit=gami 63459599516SKenneth E. Jansen almit=almi 63559599516SKenneth E. Jansen Deltt=Delt(1) 63659599516SKenneth E. Jansen Dtglt=Dtgl 63759599516SKenneth E. Jansen alfi = 1 63859599516SKenneth E. Jansen gami = 1 63959599516SKenneth E. Jansen almi = 1 64059599516SKenneth E. Jansenc Delt(1)= Deltt ! Give a pseudo time step 64159599516SKenneth E. Jansen Dtgl = one / Delt(1) 64259599516SKenneth E. Jansen endif ! level set eq. 2 64359599516SKenneth E. Jansen endif ! deciding between temperature and scalar 64459599516SKenneth E. Jansen 64559599516SKenneth E. Jansen lhs = 1 - min(1,mod(ifuncs(isclr+2)-1, 64659599516SKenneth E. Jansen & LHSupd(isclr+2))) 64759599516SKenneth E. Jansen 64859599516SKenneth E. Jansen call SolSclr(y, ac, u, 64959599516SKenneth E. Jansen & yold, acold, uold, 65059599516SKenneth E. Jansen & x, iBC, 65159599516SKenneth E. Jansen & BC, nPermDimsS,nTmpDimsS, 65259599516SKenneth E. Jansen & apermS(1,1,j), atempS, iper, 65359599516SKenneth E. Jansen & ilwork, shp, shgl, 65459599516SKenneth E. Jansen & shpb, shglb, rowp, 65559599516SKenneth E. Jansen & colm, lhsS(1,j), 65659599516SKenneth E. Jansen & solinc(1,isclr+5), tcorecpscal) 65759599516SKenneth E. Jansen 65859599516SKenneth E. Jansen 65959599516SKenneth E. Jansen endif ! end of scalar type solve 66059599516SKenneth E. Jansen 66159599516SKenneth E. Jansen else ! this is an update (mod did not equal zero) 66259599516SKenneth E. Jansen iupdate=icode/10 ! what to update 66359599516SKenneth E. Jansen if(icode.eq.1) then !update flow 66459599516SKenneth E. Jansen call itrCorrect ( y, ac, u, solinc, iBC) 66559599516SKenneth E. Jansen call itrBC (y, ac, iBC, BC, iper, ilwork) 66659599516SKenneth E. Jansen else ! update scalar 66759599516SKenneth E. Jansen isclr=iupdate !unless 66859599516SKenneth E. Jansen if(icode.eq.6) isclr=0 66959599516SKenneth E. Jansen if(iRANS.lt.-100)then ! RANS 67059599516SKenneth E. Jansen call itrCorrectSclrPos(y,ac,solinc(1,isclr+5)) 67159599516SKenneth E. Jansen else 67259599516SKenneth E. Jansen call itrCorrectSclr (y, ac, solinc(1,isclr+5)) 67359599516SKenneth E. Jansen endif 67459599516SKenneth E. Jansen if (ilset.eq.2 .and. isclr.eq.2) then 67559599516SKenneth E. Jansen if (ivconstraint .eq. 1) then 67659599516SKenneth E. Jansen call itrBCSclr ( y, ac, iBC, BC, iper, 67759599516SKenneth E. Jansen & ilwork) 67859599516SKenneth E. Jansenc 67959599516SKenneth E. Jansenc ... applying the volume constraint on second level set scalar 68059599516SKenneth E. Jansenc 68159599516SKenneth E. Jansen call solvecon (y, x, iBC, BC, 68259599516SKenneth E. Jansen & iper, ilwork, shp, shgl) 68359599516SKenneth E. Jansenc 68459599516SKenneth E. Jansen endif ! end of volume constraint calculations 68559599516SKenneth E. Jansen endif ! end of redistance calculations 68659599516SKenneth E. Jansenc 68759599516SKenneth E. Jansen call itrBCSclr ( y, ac, iBC, BC, iper, 68859599516SKenneth E. Jansen & ilwork) 68959599516SKenneth E. Jansen endif ! end of flow or scalar update 69059599516SKenneth E. Jansen endif ! end of switch between solve or update 69159599516SKenneth E. Jansen enddo ! loop over sequence in step 69259599516SKenneth E. Jansenc 69359599516SKenneth E. Jansenc 69459599516SKenneth E. Jansenc.... obtain the time average statistics 69559599516SKenneth E. Jansenc 69659599516SKenneth E. Jansen if (ioform .eq. 2) then 69759599516SKenneth E. Jansen 69859599516SKenneth E. Jansen call stsGetStats( y, yold, ac, acold, 69959599516SKenneth E. Jansen & u, uold, x, 70059599516SKenneth E. Jansen & shp, shgl, shpb, shglb, 70159599516SKenneth E. Jansen & iBC, BC, iper, ilwork, 70259599516SKenneth E. Jansen & rowp, colm, lhsK, lhsP ) 70359599516SKenneth E. Jansen endif 70459599516SKenneth E. Jansen 70559599516SKenneth E. Jansenc 70659599516SKenneth E. Jansenc Find the solution at the end of the timestep and move it to old 70759599516SKenneth E. Jansenc 70859599516SKenneth E. Jansenc 70959599516SKenneth E. Jansenc ...First to reassign the parameters for the original time integrator scheme 71059599516SKenneth E. Jansenc 71159599516SKenneth E. Jansen if((iLSet.eq.2).and.(ilss.eq.1)) then 71259599516SKenneth E. Jansen alfi =alfit 71359599516SKenneth E. Jansen gami =gamit 71459599516SKenneth E. Jansen almi =almit 71559599516SKenneth E. Jansen Delt(1)=Deltt 71659599516SKenneth E. Jansen Dtgl =Dtglt 71759599516SKenneth E. Jansen endif 71859599516SKenneth E. Jansen call itrUpdate( yold, acold, uold, y, ac, u) 71959599516SKenneth E. Jansen call itrBC (yold, acold, iBC, BC, iper,ilwork) 72059599516SKenneth E. Jansen 72159599516SKenneth E. Jansen istep = istep + 1 72259599516SKenneth E. Jansen lstep = lstep + 1 72359599516SKenneth E. Jansenc 72459599516SKenneth E. Jansenc .. Print memory consumption on BGQ 72559599516SKenneth E. Jansenc 72659599516SKenneth E. Jansen call printmeminfo("itrdrv"//char(0)) 72759599516SKenneth E. Jansen 72859599516SKenneth E. Jansenc 72959599516SKenneth E. Jansenc .. Compute vorticity 73059599516SKenneth E. Jansenc 73159599516SKenneth E. Jansen if ( icomputevort == 1) then 73259599516SKenneth E. Jansen 73359599516SKenneth E. Jansen ! vorticity components and magnitude 73459599516SKenneth E. Jansen vorticity(:,1) = GradV(:,8)-GradV(:,6) !omega_x 73559599516SKenneth E. Jansen vorticity(:,2) = GradV(:,3)-GradV(:,7) !omega_y 73659599516SKenneth E. Jansen vorticity(:,3) = GradV(:,4)-GradV(:,2) !omega_z 73759599516SKenneth E. Jansen vorticity(:,4) = sqrt( vorticity(:,1)*vorticity(:,1) 73859599516SKenneth E. Jansen & + vorticity(:,2)*vorticity(:,2) 73959599516SKenneth E. Jansen & + vorticity(:,3)*vorticity(:,3) ) 74059599516SKenneth E. Jansen ! Q 74159599516SKenneth E. Jansen strain(:,1) = GradV(:,1) !S11 74259599516SKenneth E. Jansen strain(:,2) = 0.5*(GradV(:,2)+GradV(:,4)) !S12 74359599516SKenneth E. Jansen strain(:,3) = 0.5*(GradV(:,3)+GradV(:,7)) !S13 74459599516SKenneth E. Jansen strain(:,4) = GradV(:,5) !S22 74559599516SKenneth E. Jansen strain(:,5) = 0.5*(GradV(:,6)+GradV(:,8)) !S23 74659599516SKenneth E. Jansen strain(:,6) = GradV(:,9) !S33 74759599516SKenneth E. Jansen 74859599516SKenneth E. Jansen vorticity(:,5) = 0.25*( vorticity(:,4)*vorticity(:,4) !Q 74959599516SKenneth E. Jansen & - 2.0*( strain(:,1)*strain(:,1) 75059599516SKenneth E. Jansen & + 2* strain(:,2)*strain(:,2) 75159599516SKenneth E. Jansen & + 2* strain(:,3)*strain(:,3) 75259599516SKenneth E. Jansen & + strain(:,4)*strain(:,4) 75359599516SKenneth E. Jansen & + 2* strain(:,5)*strain(:,5) 75459599516SKenneth E. Jansen & + strain(:,6)*strain(:,6))) 75559599516SKenneth E. Jansen 75659599516SKenneth E. Jansen endif 75759599516SKenneth E. Jansenc 758*9dcf5646SKenneth E. Jansenc.... update and the aerodynamic forces 759*9dcf5646SKenneth E. Jansenc 760*9dcf5646SKenneth E. Jansen call forces ( yold, ilwork ) 761*9dcf5646SKenneth E. Jansen 762*9dcf5646SKenneth E. Jansenc 763c89b8efeSKenneth E. Jansenc .. write out the instantaneous solution 76459599516SKenneth E. Jansenc 765c89b8efeSKenneth E. Jansen2001 continue ! we could get here by 2001 label if user requested stop 76659599516SKenneth E. Jansen if (((irs .ge. 1) .and. (mod(lstep, ntout) .eq. 0)) .or. 76759599516SKenneth E. Jansen & istep.eq.nstep(itseq)) then 768c89b8efeSKenneth E. Jansen 769c89b8efeSKenneth E. Jansen!so that we can see progress in force file close it so that it flushes 770c89b8efeSKenneth E. Jansen!and then reopen in append mode 771c89b8efeSKenneth E. Jansen 772c89b8efeSKenneth E. Jansen close(iforce) 773c89b8efeSKenneth E. Jansen open (unit=iforce, file=fforce, position='append') 77459599516SKenneth E. Jansen 77559599516SKenneth E. Jansen! Call to restar() will open restart file in write mode (and not append mode) 77659599516SKenneth E. Jansen! that is needed as other fields are written in append mode 777c89b8efeSKenneth E. Jansen 77859599516SKenneth E. Jansen call restar ('out ', yold ,ac) 77959599516SKenneth E. Jansen if(ideformwall == 1) then 780*9dcf5646SKenneth E. Jansen! call write_displ(myrank, lstep, nshg, 3, uold ) 7814c3261e2SCameron Smith if(myrank.eq.master) then 7824c3261e2SCameron Smith write(*,*) 'ideformwall is 1 and is a dead code path... exiting' 7834c3261e2SCameron Smith endif 7844c3261e2SCameron Smith stop 78559599516SKenneth E. Jansen endif 78659599516SKenneth E. Jansen 78759599516SKenneth E. Jansen if(ivort == 1) then 78859599516SKenneth E. Jansen call write_field(myrank,'a','vorticity',9,vorticity, 78959599516SKenneth E. Jansen & 'd',nshg,5,lstep) 79059599516SKenneth E. Jansen endif 79159599516SKenneth E. Jansen 79259599516SKenneth E. Jansen call printmeminfo("itrdrv after checkpoint"//char(0)) 793c89b8efeSKenneth E. Jansen else if(stopjob.eq.-2) then 794c89b8efeSKenneth E. Jansen if(myrank.eq.master) then 795c89b8efeSKenneth E. Jansen write(*,*) 'line 755 says no write before stopping' 796c89b8efeSKenneth E. Jansen write(*,*) 'istep,nstep,irs',istep,nstep(itseq),irs 79759599516SKenneth E. Jansen endif 798c89b8efeSKenneth E. Jansen endif !just the instantaneous stuff for videos 799c89b8efeSKenneth E. Jansenc 800c89b8efeSKenneth E. Jansenc.... compute the consistent boundary flux 801c89b8efeSKenneth E. Jansenc 802c89b8efeSKenneth E. Jansen if(abs(itwmod).ne.1 .and. iowflux.eq.1) then 803c89b8efeSKenneth E. Jansen call Bflux ( yold, acold, uold, x, 804c89b8efeSKenneth E. Jansen & shp, shgl, shpb, 805c89b8efeSKenneth E. Jansen & shglb, ilwork, iBC, 806c89b8efeSKenneth E. Jansen & BC, iper, wallssVec) 807c89b8efeSKenneth E. Jansen endif 808c89b8efeSKenneth E. Jansen 809c89b8efeSKenneth E. Jansen if(stopjob.eq.-2) goto 2003 810c89b8efeSKenneth E. Jansen 81159599516SKenneth E. Jansen 81259599516SKenneth E. Jansenc 81359599516SKenneth E. Jansenc ... update the flow history for the impedance convolution, filter it and write it out 81459599516SKenneth E. Jansenc 81559599516SKenneth E. Jansen if(numImpSrfs.gt.zero) then 81659599516SKenneth E. Jansen call UpdHistConv(y,nsrflistImp,numImpSrfs) !uses Delt(1) 81759599516SKenneth E. Jansen endif 81859599516SKenneth E. Jansen 81959599516SKenneth E. Jansenc 82059599516SKenneth E. Jansenc ... update the flow history for the RCR convolution 82159599516SKenneth E. Jansenc 82259599516SKenneth E. Jansen if(numRCRSrfs.gt.zero) then 82359599516SKenneth E. Jansen call UpdHistConv(y,nsrflistRCR,numRCRSrfs) !uses lstep 82459599516SKenneth E. Jansen endif 82559599516SKenneth E. Jansen 82659599516SKenneth E. Jansen 82759599516SKenneth E. Jansenc... dump TIME SERIES 82859599516SKenneth E. Jansen 82959599516SKenneth E. Jansen if (exts) then 83059599516SKenneth E. Jansen if (mod(lstep-1,freq).eq.0) then 83159599516SKenneth E. Jansen 83259599516SKenneth E. Jansen if (numpe > 1) then 83359599516SKenneth E. Jansen do jj = 1, ntspts 83459599516SKenneth E. Jansen vartssoln((jj-1)*ndof+1:jj*ndof)=varts(jj,:) 83559599516SKenneth E. Jansen ivarts=zero 83659599516SKenneth E. Jansen enddo 83759599516SKenneth E. Jansen do k=1,ndof*ntspts 83859599516SKenneth E. Jansen if(vartssoln(k).ne.zero) ivarts(k)=1 83959599516SKenneth E. Jansen enddo 84059599516SKenneth E. Jansen 84159599516SKenneth E. Jansen! call MPI_REDUCE(vartssoln, vartssolng, ndof*ntspts, 84259599516SKenneth E. Jansen! & MPI_DOUBLE_PRECISION, MPI_SUM, master, 84359599516SKenneth E. Jansen! & MPI_COMM_WORLD, ierr) 84459599516SKenneth E. Jansen 84559599516SKenneth E. Jansen call MPI_BARRIER(MPI_COMM_WORLD, ierr) 84659599516SKenneth E. Jansen call MPI_ALLREDUCE(vartssoln, vartssolng, 84759599516SKenneth E. Jansen & ndof*ntspts, 84859599516SKenneth E. Jansen & MPI_DOUBLE_PRECISION, MPI_SUM, 84959599516SKenneth E. Jansen & MPI_COMM_WORLD, ierr) 85059599516SKenneth E. Jansen 85159599516SKenneth E. Jansen! call MPI_REDUCE(ivarts, ivartsg, ndof*ntspts, 85259599516SKenneth E. Jansen! & MPI_INTEGER, MPI_SUM, master, 85359599516SKenneth E. Jansen! & MPI_COMM_WORLD, ierr) 85459599516SKenneth E. Jansen 85559599516SKenneth E. Jansen call MPI_BARRIER(MPI_COMM_WORLD, ierr) 85659599516SKenneth E. Jansen call MPI_ALLREDUCE(ivarts, ivartsg, ndof*ntspts, 85759599516SKenneth E. Jansen & MPI_INTEGER, MPI_SUM, 85859599516SKenneth E. Jansen & MPI_COMM_WORLD, ierr) 85959599516SKenneth E. Jansen 86059599516SKenneth E. Jansen! if (myrank.eq.zero) then 86159599516SKenneth E. Jansen do jj = 1, ntspts 86259599516SKenneth E. Jansen 86359599516SKenneth E. Jansen if(myrank .eq. iv_rank(jj)) then 86459599516SKenneth E. Jansen ! No need to update all varts components, only the one treated by the expected rank 86559599516SKenneth E. Jansen ! Note: keep varts as a vector, as multiple probes could be treated by one rank 86659599516SKenneth E. Jansen indxvarts = (jj-1)*ndof 86759599516SKenneth E. Jansen do k=1,ndof 86859599516SKenneth E. Jansen if(ivartsg(indxvarts+k).ne.0) then ! none of the vartssoln(parts) were non zero 86959599516SKenneth E. Jansen varts(jj,k)=vartssolng(indxvarts+k)/ 87059599516SKenneth E. Jansen & ivartsg(indxvarts+k) 87159599516SKenneth E. Jansen endif 87259599516SKenneth E. Jansen enddo 87359599516SKenneth E. Jansen endif !only if myrank eq iv_rank(jj) 87459599516SKenneth E. Jansen enddo 87559599516SKenneth E. Jansen! endif !only on master 87659599516SKenneth E. Jansen endif !only if numpe > 1 87759599516SKenneth E. Jansen 87859599516SKenneth E. Jansen! if (myrank.eq.zero) then 87959599516SKenneth E. Jansen do jj = 1, ntspts 88059599516SKenneth E. Jansen if(myrank .eq. iv_rank(jj)) then 88159599516SKenneth E. Jansen ifile = 1000+jj 88259599516SKenneth E. Jansen write(ifile,555) lstep, (varts(jj,k),k=1,ndof) !Beware of format 555 - check ndof 88359599516SKenneth E. Jansenc call flush(ifile) 88459599516SKenneth E. Jansen if (((irs .ge. 1) .and. 88559599516SKenneth E. Jansen & (mod(lstep, ntout) .eq. 0))) then 88659599516SKenneth E. Jansen close(ifile) 88759599516SKenneth E. Jansen fvarts='varts/varts' 88859599516SKenneth E. Jansen fvarts=trim(fvarts)//trim(cname2(jj)) 88959599516SKenneth E. Jansen fvarts=trim(fvarts)//trim(cname2(lskeep)) 89059599516SKenneth E. Jansen fvarts=trim(fvarts)//'.dat' 89159599516SKenneth E. Jansen fvarts=trim(fvarts) 89259599516SKenneth E. Jansen open(unit=ifile, file=fvarts, 89359599516SKenneth E. Jansen & position='append') 89459599516SKenneth E. Jansen endif !only when dumping restart 89559599516SKenneth E. Jansen endif 89659599516SKenneth E. Jansen enddo 89759599516SKenneth E. Jansen! endif !only on master 89859599516SKenneth E. Jansen 89959599516SKenneth E. Jansen varts(:,:) = zero ! reset the array for next step 90059599516SKenneth E. Jansen 90159599516SKenneth E. Jansen 90259599516SKenneth E. Jansen!555 format(i6,5(2x,E12.5e2)) 90359599516SKenneth E. Jansen555 format(i6,6(2x,E20.12e2)) !assuming ndof = 6 here 90459599516SKenneth E. Jansen 90559599516SKenneth E. Jansen endif 90659599516SKenneth E. Jansen endif 90759599516SKenneth E. Jansen 90859599516SKenneth E. Jansen if((irscale.ge.0).or.(itwmod.gt.0)) 90959599516SKenneth E. Jansen & call getvel (yold, ilwork, iBC, 91059599516SKenneth E. Jansen & nsons, ifath, velbar) 91159599516SKenneth E. Jansen 91259599516SKenneth E. Jansen if((irscale.ge.0).and.(myrank.eq.master)) then 91359599516SKenneth E. Jansen call genscale(yold, x, iper, 91459599516SKenneth E. Jansen & iBC, ifath, velbar, 91559599516SKenneth E. Jansen & nsons) 91659599516SKenneth E. Jansen endif 91759599516SKenneth E. Jansenc 91859599516SKenneth E. Jansenc.... print out results. 91959599516SKenneth E. Jansenc 92059599516SKenneth E. Jansen ntoutv=max(ntout,100) ! velb is not needed so often 92159599516SKenneth E. Jansen if ((irs .ge. 1) .and. (mod(lstep, ntout) .eq. 0)) then 92259599516SKenneth E. Jansen if( (mod(lstep, ntoutv) .eq. 0) .and. 92359599516SKenneth E. Jansen & ((irscale.ge.0).or.(itwmod.gt.0) .or. 92459599516SKenneth E. Jansen & ((nsonmax.eq.1).and.(iLES.gt.0)))) 92559599516SKenneth E. Jansen & call rwvelb ('out ', velbar ,ifail) 92659599516SKenneth E. Jansen endif 92759599516SKenneth E. Jansenc 92859599516SKenneth E. Jansenc.... end of the NSTEP and NTSEQ loops 92959599516SKenneth E. Jansenc 93059599516SKenneth E. Jansen 93159599516SKenneth E. Jansen 93259599516SKenneth E. Jansenc 93359599516SKenneth E. Jansenc.... -------------------> error calculation <----------------- 93459599516SKenneth E. Jansenc 93559599516SKenneth E. Jansen if(ierrcalc.eq.1 .or. ioybar.eq.1) then 93659599516SKenneth E. Jansenc$$$c 93759599516SKenneth E. Jansenc$$$c compute average 93859599516SKenneth E. Jansenc$$$c 93959599516SKenneth E. Jansenc$$$ tfact=one/istep 94059599516SKenneth E. Jansenc$$$ ybar =tfact*yold + (one-tfact)*ybar 94159599516SKenneth E. Jansen 94259599516SKenneth E. Jansenc compute average 94359599516SKenneth E. Jansenc ybar(:,1:3) are average velocity components 94459599516SKenneth E. Jansenc ybar(:,4) is average pressure 94559599516SKenneth E. Jansenc ybar(:,5) is average speed 94659599516SKenneth E. Jansenc ybar(:,6:8) is average of sq. of each vel. component 94759599516SKenneth E. Jansenc ybar(:,9) is average of sq. of pressure 94859599516SKenneth E. Jansenc ybar(:,10:12) is average of cross vel. components : uv, uw and vw 94959599516SKenneth E. Jansenc averaging procedure justified only for identical time step sizes 95059599516SKenneth E. Jansenc ybar(:,13) is average of eddy viscosity 95159599516SKenneth E. Jansenc ybar(:,14:16) is average vorticity components 95259599516SKenneth E. Jansenc ybar(:,17) is average vorticity magnitude 95359599516SKenneth E. Jansenc istep is number of time step 95459599516SKenneth E. Jansenc 95559599516SKenneth E. Jansen icollectybar = 0 95659599516SKenneth E. Jansen if(nphasesincycle.eq.0 .or. 95759599516SKenneth E. Jansen & istep.gt.ncycles_startphaseavg*nstepsincycle) then 95859599516SKenneth E. Jansen icollectybar = 1 95959599516SKenneth E. Jansen if((istep-1).eq.ncycles_startphaseavg*nstepsincycle) 96059599516SKenneth E. Jansen & istepsinybar = 0 ! init. to zero in first cycle in avg. 96159599516SKenneth E. Jansen endif 96259599516SKenneth E. Jansen 96359599516SKenneth E. Jansen if(icollectybar.eq.1) then 96459599516SKenneth E. Jansen istepsinybar = istepsinybar+1 96559599516SKenneth E. Jansen tfact=one/istepsinybar 96659599516SKenneth E. Jansen 96759599516SKenneth E. Jansen if(myrank.eq.master .and. nphasesincycle.ne.0 .and. 96859599516SKenneth E. Jansen & mod((istep-1),nstepsincycle).eq.0) 96959599516SKenneth E. Jansen & write(*,*)'nsamples in phase average:',istepsinybar 97059599516SKenneth E. Jansen 97159599516SKenneth E. Jansenc ybar to contain the averaged ((u,v,w),p)-fields 97259599516SKenneth E. Jansenc and speed average, i.e., sqrt(u^2+v^2+w^2) 97359599516SKenneth E. Jansenc and avg. of sq. terms including 97459599516SKenneth E. Jansenc u^2, v^2, w^2, p^2 and cross terms of uv, uw and vw 97559599516SKenneth E. Jansen 97659599516SKenneth E. Jansen ybar(:,1) = tfact*yold(:,1) + (one-tfact)*ybar(:,1) 97759599516SKenneth E. Jansen ybar(:,2) = tfact*yold(:,2) + (one-tfact)*ybar(:,2) 97859599516SKenneth E. Jansen ybar(:,3) = tfact*yold(:,3) + (one-tfact)*ybar(:,3) 97959599516SKenneth E. Jansen ybar(:,4) = tfact*yold(:,4) + (one-tfact)*ybar(:,4) 98059599516SKenneth E. Jansen ybar(:,5) = tfact*sqrt(yold(:,1)**2+yold(:,2)**2+ 98159599516SKenneth E. Jansen & yold(:,3)**2) + (one-tfact)*ybar(:,5) 98259599516SKenneth E. Jansen ybar(:,6) = tfact*yold(:,1)**2 + 98359599516SKenneth E. Jansen & (one-tfact)*ybar(:,6) 98459599516SKenneth E. Jansen ybar(:,7) = tfact*yold(:,2)**2 + 98559599516SKenneth E. Jansen & (one-tfact)*ybar(:,7) 98659599516SKenneth E. Jansen ybar(:,8) = tfact*yold(:,3)**2 + 98759599516SKenneth E. Jansen & (one-tfact)*ybar(:,8) 98859599516SKenneth E. Jansen ybar(:,9) = tfact*yold(:,4)**2 + 98959599516SKenneth E. Jansen & (one-tfact)*ybar(:,9) 99059599516SKenneth E. Jansen ybar(:,10) = tfact*yold(:,1)*yold(:,2) + !uv 99159599516SKenneth E. Jansen & (one-tfact)*ybar(:,10) 99259599516SKenneth E. Jansen ybar(:,11) = tfact*yold(:,1)*yold(:,3) + !uw 99359599516SKenneth E. Jansen & (one-tfact)*ybar(:,11) 99459599516SKenneth E. Jansen ybar(:,12) = tfact*yold(:,2)*yold(:,3) + !vw 99559599516SKenneth E. Jansen & (one-tfact)*ybar(:,12) 99659599516SKenneth E. Jansen!MR CHANGE 99759599516SKenneth E. Jansen if(nsclr.gt.0) !nut 99859599516SKenneth E. Jansen & ybar(:,13) = tfact*yold(:,6) + (one-tfact)*ybar(:,13) 99959599516SKenneth E. Jansen 100059599516SKenneth E. Jansen if(ivort == 1) then !vorticity 100159599516SKenneth E. Jansen ybar(:,14) = tfact*vorticity(:,1) + 100259599516SKenneth E. Jansen & (one-tfact)*ybar(:,14) 100359599516SKenneth E. Jansen ybar(:,15) = tfact*vorticity(:,2) + 100459599516SKenneth E. Jansen & (one-tfact)*ybar(:,15) 100559599516SKenneth E. Jansen ybar(:,16) = tfact*vorticity(:,3) + 100659599516SKenneth E. Jansen & (one-tfact)*ybar(:,16) 100759599516SKenneth E. Jansen ybar(:,17) = tfact*vorticity(:,4) + 100859599516SKenneth E. Jansen & (one-tfact)*ybar(:,17) 100959599516SKenneth E. Jansen endif 101059599516SKenneth E. Jansen 101159599516SKenneth E. Jansen if(abs(itwmod).ne.1 .and. iowflux.eq.1) then 101259599516SKenneth E. Jansen wallssVecBar(:,1) = tfact*wallssVec(:,1) 101359599516SKenneth E. Jansen & +(one-tfact)*wallssVecBar(:,1) 101459599516SKenneth E. Jansen wallssVecBar(:,2) = tfact*wallssVec(:,2) 101559599516SKenneth E. Jansen & +(one-tfact)*wallssVecBar(:,2) 101659599516SKenneth E. Jansen wallssVecBar(:,3) = tfact*wallssVec(:,3) 101759599516SKenneth E. Jansen & +(one-tfact)*wallssVecBar(:,3) 101859599516SKenneth E. Jansen endif 101959599516SKenneth E. Jansen!MR CHANGE END 102059599516SKenneth E. Jansen endif 102159599516SKenneth E. Jansenc 102259599516SKenneth E. Jansenc compute phase average 102359599516SKenneth E. Jansenc 102459599516SKenneth E. Jansen if(nphasesincycle.ne.0 .and. 102559599516SKenneth E. Jansen & istep.gt.ncycles_startphaseavg*nstepsincycle) then 102659599516SKenneth E. Jansen 102759599516SKenneth E. Jansenc beginning of cycle is considered as ncycles_startphaseavg*nstepsincycle+1 102859599516SKenneth E. Jansen if((istep-1).eq.ncycles_startphaseavg*nstepsincycle) 102959599516SKenneth E. Jansen & icyclesinavg = 0 ! init. to zero in first cycle in avg. 103059599516SKenneth E. Jansen 103159599516SKenneth E. Jansen ! find number of steps between phases 103259599516SKenneth E. Jansen nstepsbtwphase = nstepsincycle/nphasesincycle ! integer value 103359599516SKenneth E. Jansen if(mod(istep-1,nstepsincycle).eq.0) then 103459599516SKenneth E. Jansen iphase = 1 ! init. to one in beginning of every cycle 103559599516SKenneth E. Jansen icyclesinavg = icyclesinavg + 1 103659599516SKenneth E. Jansen endif 103759599516SKenneth E. Jansen 103859599516SKenneth E. Jansen icollectphase = 0 103959599516SKenneth E. Jansen istepincycle = mod(istep,nstepsincycle) 104059599516SKenneth E. Jansen if(istepincycle.eq.0) istepincycle=nstepsincycle 104159599516SKenneth E. Jansen if(istepincycle.eq.iphase*nstepsbtwphase) then 104259599516SKenneth E. Jansen icollectphase = 1 104359599516SKenneth E. Jansen iphase = iphase+1 ! use 'iphase-1' below 104459599516SKenneth E. Jansen endif 104559599516SKenneth E. Jansen 104659599516SKenneth E. Jansen if(icollectphase.eq.1) then 104759599516SKenneth E. Jansen tfactphase = one/icyclesinavg 104859599516SKenneth E. Jansen 104959599516SKenneth E. Jansen if(myrank.eq.master) then 105059599516SKenneth E. Jansen write(*,*) 'nsamples in phase ',iphase-1,': ', 105159599516SKenneth E. Jansen & icyclesinavg 105259599516SKenneth E. Jansen endif 105359599516SKenneth E. Jansen 105459599516SKenneth E. Jansen yphbar(:,1,iphase-1) = tfactphase*yold(:,1) + 105559599516SKenneth E. Jansen & (one-tfactphase)*yphbar(:,1,iphase-1) 105659599516SKenneth E. Jansen yphbar(:,2,iphase-1) = tfactphase*yold(:,2) + 105759599516SKenneth E. Jansen & (one-tfactphase)*yphbar(:,2,iphase-1) 105859599516SKenneth E. Jansen yphbar(:,3,iphase-1) = tfactphase*yold(:,3) + 105959599516SKenneth E. Jansen & (one-tfactphase)*yphbar(:,3,iphase-1) 106059599516SKenneth E. Jansen yphbar(:,4,iphase-1) = tfactphase*yold(:,4) + 106159599516SKenneth E. Jansen & (one-tfactphase)*yphbar(:,4,iphase-1) 106259599516SKenneth E. Jansen yphbar(:,5,iphase-1) = tfactphase*sqrt(yold(:,1)**2 106359599516SKenneth E. Jansen & +yold(:,2)**2+yold(:,3)**2) + 106459599516SKenneth E. Jansen & (one-tfactphase)*yphbar(:,5,iphase-1) 106559599516SKenneth E. Jansen!MR CHANGE 106659599516SKenneth E. Jansen yphbar(:,6,iphase-1) = 106759599516SKenneth E. Jansen & tfactphase*yold(:,1)*yold(:,1) 106859599516SKenneth E. Jansen & +(one-tfactphase)*yphbar(:,6,iphase-1) 106959599516SKenneth E. Jansen 107059599516SKenneth E. Jansen yphbar(:,7,iphase-1) = 107159599516SKenneth E. Jansen & tfactphase*yold(:,1)*yold(:,2) 107259599516SKenneth E. Jansen & +(one-tfactphase)*yphbar(:,7,iphase-1) 107359599516SKenneth E. Jansen 107459599516SKenneth E. Jansen yphbar(:,8,iphase-1) = 107559599516SKenneth E. Jansen & tfactphase*yold(:,1)*yold(:,3) 107659599516SKenneth E. Jansen & +(one-tfactphase)*yphbar(:,8,iphase-1) 107759599516SKenneth E. Jansen 107859599516SKenneth E. Jansen yphbar(:,9,iphase-1) = 107959599516SKenneth E. Jansen & tfactphase*yold(:,2)*yold(:,2) 108059599516SKenneth E. Jansen & +(one-tfactphase)*yphbar(:,9,iphase-1) 108159599516SKenneth E. Jansen 108259599516SKenneth E. Jansen yphbar(:,10,iphase-1) = 108359599516SKenneth E. Jansen & tfactphase*yold(:,2)*yold(:,3) 108459599516SKenneth E. Jansen & +(one-tfactphase)*yphbar(:,10,iphase-1) 108559599516SKenneth E. Jansen 108659599516SKenneth E. Jansen yphbar(:,11,iphase-1) = 108759599516SKenneth E. Jansen & tfactphase*yold(:,3)*yold(:,3) 108859599516SKenneth E. Jansen & +(one-tfactphase)*yphbar(:,11,iphase-1) 108959599516SKenneth E. Jansen 109059599516SKenneth E. Jansen if(ivort == 1) then 109159599516SKenneth E. Jansen yphbar(:,12,iphase-1) = 109259599516SKenneth E. Jansen & tfactphase*vorticity(:,1) 109359599516SKenneth E. Jansen & +(one-tfactphase)*yphbar(:,12,iphase-1) 109459599516SKenneth E. Jansen yphbar(:,13,iphase-1) = 109559599516SKenneth E. Jansen & tfactphase*vorticity(:,2) 109659599516SKenneth E. Jansen & +(one-tfactphase)*yphbar(:,13,iphase-1) 109759599516SKenneth E. Jansen yphbar(:,14,iphase-1) = 109859599516SKenneth E. Jansen & tfactphase*vorticity(:,3) 109959599516SKenneth E. Jansen & +(one-tfactphase)*yphbar(:,14,iphase-1) 110059599516SKenneth E. Jansen yphbar(:,15,iphase-1) = 110159599516SKenneth E. Jansen & tfactphase*vorticity(:,4) 110259599516SKenneth E. Jansen & +(one-tfactphase)*yphbar(:,15,iphase-1) 110359599516SKenneth E. Jansen endif 110459599516SKenneth E. Jansen!MR CHANGE END 110559599516SKenneth E. Jansen endif 110659599516SKenneth E. Jansen endif 110759599516SKenneth E. Jansenc 110859599516SKenneth E. Jansenc compute rms 110959599516SKenneth E. Jansenc 111059599516SKenneth E. Jansen if(icollectybar.eq.1) then 111159599516SKenneth E. Jansen rerr(:, 7)=rerr(:, 7)+(yold(:,1)-ybar(:,1))**2 111259599516SKenneth E. Jansen rerr(:, 8)=rerr(:, 8)+(yold(:,2)-ybar(:,2))**2 111359599516SKenneth E. Jansen rerr(:, 9)=rerr(:, 9)+(yold(:,3)-ybar(:,3))**2 111459599516SKenneth E. Jansen rerr(:,10)=rerr(:,10)+(yold(:,4)-ybar(:,4))**2 111559599516SKenneth E. Jansen endif 111659599516SKenneth E. Jansen endif 1117c89b8efeSKenneth E. Jansen 2003 continue ! we get here if stopjob equals lstep and this jumped over 1118c89b8efeSKenneth E. Jansen! the statistics computation because we have no new data to average in 1119c89b8efeSKenneth E. Jansen! rather we are just trying to output the last state that was not already 1120c89b8efeSKenneth E. Jansen! written 1121c89b8efeSKenneth E. Jansenc 1122c89b8efeSKenneth E. Jansenc.... ----------------------> Complete Restart Processing <---------------------- 1123c89b8efeSKenneth E. Jansenc 1124c89b8efeSKenneth E. Jansen! for now it is the same frequency but need to change this 1125c89b8efeSKenneth E. Jansen! soon.... but don't forget to change the field counter in 1126c89b8efeSKenneth E. Jansen! new_interface.cc 1127c89b8efeSKenneth E. Jansen! 1128c89b8efeSKenneth E. Jansen if (((irs .ge. 1) .and. (mod(lstep, ntout) .eq. 0)) .or. 1129c89b8efeSKenneth E. Jansen & istep.eq.nstep(itseq)) then 1130c89b8efeSKenneth E. Jansen if ((irs .ge. 1) .and. ((mod(lstep, ntout) .ne. 0) .or. 1131c89b8efeSKenneth E. Jansen & (nstp .eq. 0))) then 1132c89b8efeSKenneth E. Jansen if( 1133c89b8efeSKenneth E. Jansen & ((irscale.ge.0).or.(itwmod.gt.0) .or. 1134c89b8efeSKenneth E. Jansen & ((nsonmax.eq.1).and.iLES.gt.0))) 1135c89b8efeSKenneth E. Jansen & call rwvelb ('out ', velbar ,ifail) 1136c89b8efeSKenneth E. Jansen endif 113759599516SKenneth E. Jansen 1138c89b8efeSKenneth E. Jansen lesId = numeqns(1) 1139c89b8efeSKenneth E. Jansen if (numpe > 1) call MPI_BARRIER(MPI_COMM_WORLD, ierr) 1140c89b8efeSKenneth E. Jansen if(myrank.eq.0) then 1141c89b8efeSKenneth E. Jansen tcormr1 = TMRC() 1142c89b8efeSKenneth E. Jansen endif 1143c89b8efeSKenneth E. Jansen call saveLesRestart( lesId, aperm , nshg, myrank, lstep, 1144c89b8efeSKenneth E. Jansen & nPermDims ) 1145c89b8efeSKenneth E. Jansen if (numpe > 1) call MPI_BARRIER(MPI_COMM_WORLD, ierr) 1146c89b8efeSKenneth E. Jansen if(myrank.eq.0) then 1147c89b8efeSKenneth E. Jansen tcormr2 = TMRC() 1148c89b8efeSKenneth E. Jansen write(6,*) 'call saveLesRestart for projection and'// 1149c89b8efeSKenneth E. Jansen & 'pressure projection vectors', tcormr2-tcormr1 1150c89b8efeSKenneth E. Jansen endif 1151c89b8efeSKenneth E. Jansen 1152c89b8efeSKenneth E. Jansen if(ierrcalc.eq.1) then 1153c89b8efeSKenneth E. Jansenc 1154c89b8efeSKenneth E. Jansenc.....smooth the error indicators 1155c89b8efeSKenneth E. Jansenc 1156c89b8efeSKenneth E. Jansen do i=1,ierrsmooth 1157c89b8efeSKenneth E. Jansen call errsmooth( rerr, x, iper, ilwork, shp, shgl, iBC ) 1158c89b8efeSKenneth E. Jansen end do 1159c89b8efeSKenneth E. Jansen if (numpe > 1) call MPI_BARRIER(MPI_COMM_WORLD, ierr) 1160c89b8efeSKenneth E. Jansen if(myrank.eq.0) then 1161c89b8efeSKenneth E. Jansen tcormr1 = TMRC() 1162c89b8efeSKenneth E. Jansen endif 1163c89b8efeSKenneth E. Jansen call write_error(myrank, lstep, nshg, 10, rerr ) 1164c89b8efeSKenneth E. Jansen if (numpe > 1) call MPI_BARRIER(MPI_COMM_WORLD, ierr) 1165c89b8efeSKenneth E. Jansen if(myrank.eq.0) then 1166c89b8efeSKenneth E. Jansen tcormr2 = TMRC() 1167c89b8efeSKenneth E. Jansen write(6,*) 'Time to write the error fields to the disks', 1168c89b8efeSKenneth E. Jansen & tcormr2-tcormr1 1169c89b8efeSKenneth E. Jansen endif 1170c89b8efeSKenneth E. Jansen endif ! ierrcalc 1171c89b8efeSKenneth E. Jansen 1172c89b8efeSKenneth E. Jansen if(ioybar.eq.1) then 1173c89b8efeSKenneth E. Jansen if(ivort == 1) then 1174c89b8efeSKenneth E. Jansen call write_field(myrank,'a','ybar',4, 1175c89b8efeSKenneth E. Jansen & ybar,'d',nshg,17,lstep) 1176c89b8efeSKenneth E. Jansen else 1177c89b8efeSKenneth E. Jansen call write_field(myrank,'a','ybar',4, 1178c89b8efeSKenneth E. Jansen & ybar,'d',nshg,13,lstep) 1179c89b8efeSKenneth E. Jansen endif 1180c89b8efeSKenneth E. Jansen 1181c89b8efeSKenneth E. Jansen if(abs(itwmod).ne.1 .and. iowflux.eq.1) then 1182c89b8efeSKenneth E. Jansen call write_field(myrank,'a','wssbar',6, 1183c89b8efeSKenneth E. Jansen & wallssVecBar,'d',nshg,3,lstep) 1184c89b8efeSKenneth E. Jansen endif 1185c89b8efeSKenneth E. Jansen 1186c89b8efeSKenneth E. Jansen if(nphasesincycle .gt. 0) then 1187c89b8efeSKenneth E. Jansen if (numpe > 1) call MPI_BARRIER(MPI_COMM_WORLD, ierr) 1188c89b8efeSKenneth E. Jansen if(myrank.eq.0) then 1189c89b8efeSKenneth E. Jansen tcormr1 = TMRC() 1190c89b8efeSKenneth E. Jansen endif 1191c89b8efeSKenneth E. Jansen do iphase=1,nphasesincycle 1192c89b8efeSKenneth E. Jansen if(ivort == 1) then 1193c89b8efeSKenneth E. Jansen call write_phavg2(myrank,'a','phase_average',13,iphase, 1194c89b8efeSKenneth E. Jansen & nphasesincycle,yphbar(:,:,iphase),'d',nshg,15,lstep) 1195c89b8efeSKenneth E. Jansen else 1196c89b8efeSKenneth E. Jansen call write_phavg2(myrank,'a','phase_average',13,iphase, 1197c89b8efeSKenneth E. Jansen & nphasesincycle,yphbar(:,:,iphase),'d',nshg,11,lstep) 1198c89b8efeSKenneth E. Jansen endif 1199c89b8efeSKenneth E. Jansen end do 1200c89b8efeSKenneth E. Jansen if (numpe > 1) call MPI_BARRIER(MPI_COMM_WORLD, ierr) 1201c89b8efeSKenneth E. Jansen if(myrank.eq.0) then 1202c89b8efeSKenneth E. Jansen tcormr2 = TMRC() 1203c89b8efeSKenneth E. Jansen write(6,*) 'write all phase avg to the disks = ', 1204c89b8efeSKenneth E. Jansen & tcormr2-tcormr1 1205c89b8efeSKenneth E. Jansen endif 1206c89b8efeSKenneth E. Jansen endif !nphasesincyle 1207c89b8efeSKenneth E. Jansen endif !ioybar 1208c89b8efeSKenneth E. Jansen 1209c89b8efeSKenneth E. Jansen if ( ( ihessian .eq. 1 ) .and. ( numpe < 2 ) )then 1210c89b8efeSKenneth E. Jansen uhess = zero 1211c89b8efeSKenneth E. Jansen gradu = zero 1212c89b8efeSKenneth E. Jansen tf = zero 1213c89b8efeSKenneth E. Jansen 1214c89b8efeSKenneth E. Jansen do ku=1,nshg 1215c89b8efeSKenneth E. Jansen tf(ku,1) = x(ku,1)**3 1216c89b8efeSKenneth E. Jansen end do 1217c89b8efeSKenneth E. Jansen call hessian( yold, x, shp, shgl, iBC, 1218c89b8efeSKenneth E. Jansen & shpb, shglb, iper, ilwork, uhess, gradu ) 1219c89b8efeSKenneth E. Jansen 1220c89b8efeSKenneth E. Jansen call write_hessian( uhess, gradu, nshg ) 1221c89b8efeSKenneth E. Jansen endif 1222c89b8efeSKenneth E. Jansen 1223c89b8efeSKenneth E. Jansen if(iRANS.lt.0) then 1224c89b8efeSKenneth E. Jansen if (numpe > 1) call MPI_BARRIER(MPI_COMM_WORLD, ierr) 1225c89b8efeSKenneth E. Jansen if(myrank.eq.0) then 1226c89b8efeSKenneth E. Jansen tcormr1 = TMRC() 1227c89b8efeSKenneth E. Jansen endif 1228c89b8efeSKenneth E. Jansen call write_field(myrank,'a','dwal',4,d2wall,'d', 1229c89b8efeSKenneth E. Jansen & nshg,1,lstep) 1230c89b8efeSKenneth E. Jansen if (numpe > 1) call MPI_BARRIER(MPI_COMM_WORLD, ierr) 1231c89b8efeSKenneth E. Jansen if(myrank.eq.0) then 1232c89b8efeSKenneth E. Jansen tcormr2 = TMRC() 1233c89b8efeSKenneth E. Jansen write(6,*) 'Time to write dwal to the disks = ', 1234c89b8efeSKenneth E. Jansen & tcormr2-tcormr1 1235c89b8efeSKenneth E. Jansen endif 1236c89b8efeSKenneth E. Jansen endif !iRANS 1237c89b8efeSKenneth E. Jansen 1238c89b8efeSKenneth E. Jansen endif ! write out complete restart state 1239c89b8efeSKenneth E. Jansen !next 2 lines are two ways to end early 1240c89b8efeSKenneth E. Jansen if(stopjob.eq.-2) goto 2002 1241c89b8efeSKenneth E. Jansen if(istop.eq.1000) goto 2002 ! stop when delta small (see rstatic) 124259599516SKenneth E. Jansen 2000 continue 1243c89b8efeSKenneth E. Jansen 2002 continue 1244c89b8efeSKenneth E. Jansen 1245c89b8efeSKenneth E. Jansen! done with time stepping so deallocate fields already written 1246c89b8efeSKenneth E. Jansen! 1247c89b8efeSKenneth E. Jansen if(ioybar.eq.1) then 1248c89b8efeSKenneth E. Jansen deallocate(ybar) 1249c89b8efeSKenneth E. Jansen if(abs(itwmod).ne.1 .and. iowflux.eq.1) then 1250c89b8efeSKenneth E. Jansen deallocate(wallssVecbar) 1251c89b8efeSKenneth E. Jansen endif 1252c89b8efeSKenneth E. Jansen if(nphasesincycle .gt. 0) then 1253c89b8efeSKenneth E. Jansen deallocate(yphbar) 1254c89b8efeSKenneth E. Jansen endif !nphasesincyle 1255c89b8efeSKenneth E. Jansen endif !ioybar 1256c89b8efeSKenneth E. Jansen if(ivort == 1) then 1257c89b8efeSKenneth E. Jansen deallocate(strain,vorticity) 1258c89b8efeSKenneth E. Jansen endif 1259c89b8efeSKenneth E. Jansen if(abs(itwmod).ne.1 .and. iowflux.eq.1) then 1260c89b8efeSKenneth E. Jansen deallocate(wallssVec) 1261c89b8efeSKenneth E. Jansen endif 1262c89b8efeSKenneth E. Jansen if(iRANS.lt.0) then 1263c89b8efeSKenneth E. Jansen deallocate(d2wall) 1264c89b8efeSKenneth E. Jansen endif 126559599516SKenneth E. Jansen 126659599516SKenneth E. Jansen 126759599516SKenneth E. JansenCAD tcorecp2 = second(0) 126859599516SKenneth E. JansenCAD tcorewc2 = second(-1) 126959599516SKenneth E. Jansen 127059599516SKenneth E. JansenCAD write(6,*) 'T(core) cpu-wallclock = ',tcorecp2-tcorecp1, 127159599516SKenneth E. JansenCAD & tcorewc2-tcorewc1 127259599516SKenneth E. Jansen 127359599516SKenneth E. Jansen if (numpe > 1) call MPI_BARRIER(MPI_COMM_WORLD, ierr) 127459599516SKenneth E. Jansen if(myrank.eq.0) then 127559599516SKenneth E. Jansen tcorecp2 = TMRC() 127659599516SKenneth E. Jansen write(6,*) 'T(core) cpu = ',tcorecp2-tcorecp1 127759599516SKenneth E. Jansen write(6,*) '(Elm. form.',tcorecp(1), 127859599516SKenneth E. Jansen & ',Lin. alg. sol.',tcorecp(2),')' 127959599516SKenneth E. Jansen write(6,*) '(Elm. form. Scal.',tcorecpscal(1), 128059599516SKenneth E. Jansen & ',Lin. alg. sol. Scal.',tcorecpscal(2),')' 128159599516SKenneth E. Jansen write(6,*) '' 128259599516SKenneth E. Jansen 128359599516SKenneth E. Jansen endif 128459599516SKenneth E. Jansen 128559599516SKenneth E. Jansen call print_system_stats(tcorecp, tcorecpscal) 128659599516SKenneth E. Jansen call print_mesh_stats() 128759599516SKenneth E. Jansen call print_mpi_stats() 128859599516SKenneth E. Jansen if (numpe > 1) call MPI_BARRIER(MPI_COMM_WORLD, ierr) 128959599516SKenneth E. Jansen! return 129059599516SKenneth E. Jansenc call MPI_Finalize() 129159599516SKenneth E. Jansenc call MPI_ABORT(MPI_COMM_WORLD, ierr) 129259599516SKenneth E. Jansen 129359599516SKenneth E. Jansen 3000 continue 129459599516SKenneth E. Jansen 129559599516SKenneth E. Jansen 129659599516SKenneth E. Jansenc 129759599516SKenneth E. Jansenc.... close history and aerodynamic forces files 129859599516SKenneth E. Jansenc 129959599516SKenneth E. Jansen if (myrank .eq. master) then 130059599516SKenneth E. Jansen! close (ihist) 130159599516SKenneth E. Jansen close (iforce) 130259599516SKenneth E. Jansen close(76) 130359599516SKenneth E. Jansen if(numImpSrfs.gt.0 .or. numRCRSrfs.gt.0) then 130459599516SKenneth E. Jansen close (8177) 130559599516SKenneth E. Jansen endif 130659599516SKenneth E. Jansen endif 130759599516SKenneth E. Jansenc 130859599516SKenneth E. Jansenc.... close varts file for probes 130959599516SKenneth E. Jansenc 131059599516SKenneth E. Jansen if(exts) then 131159599516SKenneth E. Jansen do jj=1,ntspts 131259599516SKenneth E. Jansen if (myrank == iv_rank(jj)) then 131359599516SKenneth E. Jansen close(1000+jj) 131459599516SKenneth E. Jansen endif 131559599516SKenneth E. Jansen enddo 131659599516SKenneth E. Jansen deallocate (ivarts) 131759599516SKenneth E. Jansen deallocate (ivartsg) 131859599516SKenneth E. Jansen deallocate (iv_rank) 131959599516SKenneth E. Jansen deallocate (vartssoln) 132059599516SKenneth E. Jansen deallocate (vartssolng) 132159599516SKenneth E. Jansen endif 132259599516SKenneth E. Jansen 132359599516SKenneth E. Jansen!MR CHANGE 132459599516SKenneth E. Jansen if (numpe > 1) call MPI_BARRIER(MPI_COMM_WORLD, ierr) 132559599516SKenneth E. Jansen if(myrank.eq.0) then 132659599516SKenneth E. Jansen write(*,*) 'itrdrv - done with aerodynamic forces' 132759599516SKenneth E. Jansen endif 132859599516SKenneth E. Jansen!MR CHANGE 132959599516SKenneth E. Jansen 133059599516SKenneth E. Jansen do isrf = 0,MAXSURF 133159599516SKenneth E. Jansen! if ( nsrflist(isrf).ne.0 ) then 133259599516SKenneth E. Jansen if ( nsrflist(isrf).ne.0 .and. 133359599516SKenneth E. Jansen & myrank.eq.irankfilesforce(isrf)) then 133459599516SKenneth E. Jansen iunit=60+isrf 133559599516SKenneth E. Jansen close(iunit) 133659599516SKenneth E. Jansen endif 133759599516SKenneth E. Jansen enddo 133859599516SKenneth E. Jansen 133959599516SKenneth E. Jansen!MR CHANGE 134059599516SKenneth E. Jansen if (numpe > 1) call MPI_BARRIER(MPI_COMM_WORLD, ierr) 134159599516SKenneth E. Jansen if(myrank.eq.0) then 134259599516SKenneth E. Jansen write(*,*) 'itrdrv - done with MAXSURF' 134359599516SKenneth E. Jansen endif 134459599516SKenneth E. Jansen!MR CHANGE 134559599516SKenneth E. Jansen 134659599516SKenneth E. Jansen 134759599516SKenneth E. Jansen 5 format(1X,F15.10,3X,F15.10,3X,F15.10,3X,F15.10) 134859599516SKenneth E. Jansen 444 format(6(2x,e14.7)) 134959599516SKenneth E. Jansenc 135059599516SKenneth E. Jansenc.... end 135159599516SKenneth E. Jansenc 135259599516SKenneth E. Jansen if(nsolflow.eq.1) then 135359599516SKenneth E. Jansen deallocate (lhsK) 135459599516SKenneth E. Jansen deallocate (lhsP) 135559599516SKenneth E. Jansen deallocate (aperm) 135659599516SKenneth E. Jansen deallocate (atemp) 135759599516SKenneth E. Jansen endif 135859599516SKenneth E. Jansen if(nsclrsol.gt.0) then 135959599516SKenneth E. Jansen deallocate (lhsS) 136059599516SKenneth E. Jansen deallocate (apermS) 136159599516SKenneth E. Jansen deallocate (atempS) 136259599516SKenneth E. Jansen endif 136359599516SKenneth E. Jansen 136459599516SKenneth E. Jansen if(iabc==1) deallocate(acs) 136559599516SKenneth E. Jansen 136659599516SKenneth E. Jansen!MR CHANGE 136759599516SKenneth E. Jansen if (numpe > 1) call MPI_BARRIER(MPI_COMM_WORLD, ierr) 136859599516SKenneth E. Jansen if(myrank.eq.0) then 136959599516SKenneth E. Jansen write(*,*) 'itrdrv - done - BACK TO process.f' 137059599516SKenneth E. Jansen endif 137159599516SKenneth E. Jansen!MR CHANGE 137259599516SKenneth E. Jansen 137359599516SKenneth E. Jansen 137459599516SKenneth E. Jansen 137559599516SKenneth E. Jansen return 137659599516SKenneth E. Jansen end 137759599516SKenneth E. Jansen 137859599516SKenneth E. Jansen subroutine lesmodels(y, ac, shgl, shp, 137959599516SKenneth E. Jansen & iper, ilwork, rowp, colm, 138059599516SKenneth E. Jansen & nsons, ifath, x, 138159599516SKenneth E. Jansen & iBC, BC) 138259599516SKenneth E. Jansen 138359599516SKenneth E. Jansen include "common.h" 138459599516SKenneth E. Jansen 138559599516SKenneth E. Jansen real*8 y(nshg,ndof), ac(nshg,ndof), 138659599516SKenneth E. Jansen & x(numnp,nsd), 138759599516SKenneth E. Jansen & BC(nshg,ndofBC) 138859599516SKenneth E. Jansen real*8 shp(MAXTOP,maxsh,MAXQPT), 138959599516SKenneth E. Jansen & shgl(MAXTOP,nsd,maxsh,MAXQPT) 139059599516SKenneth E. Jansen 139159599516SKenneth E. Jansenc 139259599516SKenneth E. Jansen integer rowp(nshg,nnz), colm(nshg+1), 139359599516SKenneth E. Jansen & iBC(nshg), 139459599516SKenneth E. Jansen & ilwork(nlwork), 139559599516SKenneth E. Jansen & iper(nshg) 139659599516SKenneth E. Jansen dimension ifath(numnp), nsons(nfath) 139759599516SKenneth E. Jansen 139859599516SKenneth E. Jansen real*8, allocatable, dimension(:) :: fwr2,fwr3,fwr4 139959599516SKenneth E. Jansen real*8, allocatable, dimension(:) :: stabdis,cdelsq1 140059599516SKenneth E. Jansen real*8, allocatable, dimension(:,:) :: xavegt, xavegt2,xavegt3 140159599516SKenneth E. Jansen 140259599516SKenneth E. Jansen if( (iLES.gt.1) ) then ! Allocate Stuff for advanced LES models 140359599516SKenneth E. Jansen allocate (fwr2(nshg)) 140459599516SKenneth E. Jansen allocate (fwr3(nshg)) 140559599516SKenneth E. Jansen allocate (fwr4(nshg)) 140659599516SKenneth E. Jansen allocate (xavegt(nfath,12)) 140759599516SKenneth E. Jansen allocate (xavegt2(nfath,12)) 140859599516SKenneth E. Jansen allocate (xavegt3(nfath,12)) 140959599516SKenneth E. Jansen allocate (stabdis(nfath)) 141059599516SKenneth E. Jansen endif 141159599516SKenneth E. Jansen 141259599516SKenneth E. Jansenc.... get dynamic model coefficient 141359599516SKenneth E. Jansenc 141459599516SKenneth E. Jansen ilesmod=iLES/10 141559599516SKenneth E. Jansenc 141659599516SKenneth E. Jansenc digit bit set filter rule, 10 bit set model 141759599516SKenneth E. Jansenc 141859599516SKenneth E. Jansen if (ilesmod.eq.0) then ! 0 < iLES< 10 => dyn. model calculated 141959599516SKenneth E. Jansen ! at nodes based on discrete filtering 142059599516SKenneth E. Jansen 142159599516SKenneth E. Jansen 142259599516SKenneth E. Jansen if(isubmod.eq.2) then 142359599516SKenneth E. Jansen call SUPGdis(y, ac, shgl, shp, 142459599516SKenneth E. Jansen & iper, ilwork, 142559599516SKenneth E. Jansen & nsons, ifath, x, 142659599516SKenneth E. Jansen & iBC, BC, stabdis, xavegt3) 142759599516SKenneth E. Jansen endif 142859599516SKenneth E. Jansen 142959599516SKenneth E. Jansen if( ((isubmod.eq.0).or.(isubmod.eq.2)))then ! If no 143059599516SKenneth E. Jansen ! sub-model 143159599516SKenneth E. Jansen ! or SUPG 143259599516SKenneth E. Jansen ! model wanted 143359599516SKenneth E. Jansen 143459599516SKenneth E. Jansen if(i2filt.eq.0)then ! If simple filter 143559599516SKenneth E. Jansen 143659599516SKenneth E. Jansen if(modlstats .eq. 0) then ! If no model stats wanted 143759599516SKenneth E. Jansen call getdmc (y, shgl, shp, 143859599516SKenneth E. Jansen & iper, ilwork, nsons, 143959599516SKenneth E. Jansen & ifath, x) 144059599516SKenneth E. Jansen else ! else get model stats 144159599516SKenneth E. Jansen call stdfdmc (y, shgl, shp, 144259599516SKenneth E. Jansen & iper, ilwork, nsons, 144359599516SKenneth E. Jansen & ifath, x) 144459599516SKenneth E. Jansen endif ! end of stats if statement 144559599516SKenneth E. Jansen 144659599516SKenneth E. Jansen else ! else if twice filtering 144759599516SKenneth E. Jansen 144859599516SKenneth E. Jansen call widefdmc(y, shgl, shp, 144959599516SKenneth E. Jansen & iper, ilwork, nsons, 145059599516SKenneth E. Jansen & ifath, x) 145159599516SKenneth E. Jansen 145259599516SKenneth E. Jansen 145359599516SKenneth E. Jansen endif ! end of simple filter if statement 145459599516SKenneth E. Jansen 145559599516SKenneth E. Jansen endif ! end of SUPG or no sub-model if statement 145659599516SKenneth E. Jansen 145759599516SKenneth E. Jansen 145859599516SKenneth E. Jansen if( (isubmod.eq.1) ) then ! If DFWR sub-model wanted 145959599516SKenneth E. Jansen call cdelBHsq (y, shgl, shp, 146059599516SKenneth E. Jansen & iper, ilwork, nsons, 146159599516SKenneth E. Jansen & ifath, x, cdelsq1) 146259599516SKenneth E. Jansen call FiltRat (y, shgl, shp, 146359599516SKenneth E. Jansen & iper, ilwork, nsons, 146459599516SKenneth E. Jansen & ifath, x, cdelsq1, 146559599516SKenneth E. Jansen & fwr4, fwr3) 146659599516SKenneth E. Jansen 146759599516SKenneth E. Jansen 146859599516SKenneth E. Jansen if (i2filt.eq.0) then ! If simple filter wanted 146959599516SKenneth E. Jansen call DFWRsfdmc(y, shgl, shp, 147059599516SKenneth E. Jansen & iper, ilwork, nsons, 147159599516SKenneth E. Jansen & ifath, x, fwr2, fwr3) 147259599516SKenneth E. Jansen else ! else if twice filtering wanted 147359599516SKenneth E. Jansen call DFWRwfdmc(y, shgl, shp, 147459599516SKenneth E. Jansen & iper, ilwork, nsons, 147559599516SKenneth E. Jansen & ifath, x, fwr4, fwr4) 147659599516SKenneth E. Jansen endif ! end of simple filter if statement 147759599516SKenneth E. Jansen 147859599516SKenneth E. Jansen endif ! end of DFWR sub-model if statement 147959599516SKenneth E. Jansen 148059599516SKenneth E. Jansen if( (isubmod.eq.2) )then ! If SUPG sub-model wanted 148159599516SKenneth E. Jansen call dmcSUPG (y, ac, shgl, 148259599516SKenneth E. Jansen & shp, iper, ilwork, 148359599516SKenneth E. Jansen & nsons, ifath, x, 148459599516SKenneth E. Jansen & iBC, BC, rowp, colm, 148559599516SKenneth E. Jansen & xavegt2, stabdis) 148659599516SKenneth E. Jansen endif 148759599516SKenneth E. Jansen 148859599516SKenneth E. Jansen if(idis.eq.1)then ! If SUPG/Model dissipation wanted 148959599516SKenneth E. Jansen call ediss (y, ac, shgl, 149059599516SKenneth E. Jansen & shp, iper, ilwork, 149159599516SKenneth E. Jansen & nsons, ifath, x, 149259599516SKenneth E. Jansen & iBC, BC, xavegt) 149359599516SKenneth E. Jansen endif 149459599516SKenneth E. Jansen 149559599516SKenneth E. Jansen endif ! end of ilesmod 149659599516SKenneth E. Jansen 149759599516SKenneth E. Jansen if (ilesmod .eq. 1) then ! 10 < iLES < 20 => dynamic-mixed 149859599516SKenneth E. Jansen ! at nodes based on discrete filtering 149959599516SKenneth E. Jansen call bardmc (y, shgl, shp, 150059599516SKenneth E. Jansen & iper, ilwork, 150159599516SKenneth E. Jansen & nsons, ifath, x) 150259599516SKenneth E. Jansen endif 150359599516SKenneth E. Jansen 150459599516SKenneth E. Jansen if (ilesmod .eq. 2) then ! 20 < iLES < 30 => dynamic at quad 150559599516SKenneth E. Jansen ! pts based on lumped projection filt. 150659599516SKenneth E. Jansen 150759599516SKenneth E. Jansen if(isubmod.eq.0)then 150859599516SKenneth E. Jansen call projdmc (y, shgl, shp, 150959599516SKenneth E. Jansen & iper, ilwork, x) 151059599516SKenneth E. Jansen else 151159599516SKenneth E. Jansen call cpjdmcnoi (y, shgl, shp, 151259599516SKenneth E. Jansen & iper, ilwork, x, 151359599516SKenneth E. Jansen & rowp, colm, 151459599516SKenneth E. Jansen & iBC, BC) 151559599516SKenneth E. Jansen endif 151659599516SKenneth E. Jansen 151759599516SKenneth E. Jansen endif 151859599516SKenneth E. Jansen 151959599516SKenneth E. Jansen if( (iLES.gt.1) ) then ! Deallocate Stuff for advanced LES models 152059599516SKenneth E. Jansen deallocate (fwr2) 152159599516SKenneth E. Jansen deallocate (fwr3) 152259599516SKenneth E. Jansen deallocate (fwr4) 152359599516SKenneth E. Jansen deallocate (xavegt) 152459599516SKenneth E. Jansen deallocate (xavegt2) 152559599516SKenneth E. Jansen deallocate (xavegt3) 152659599516SKenneth E. Jansen deallocate (stabdis) 152759599516SKenneth E. Jansen endif 152859599516SKenneth E. Jansen return 152959599516SKenneth E. Jansen end 153059599516SKenneth E. Jansen 153159599516SKenneth E. Jansenc 153259599516SKenneth E. Jansenc...initialize the coefficients for the impedance convolution 153359599516SKenneth E. Jansenc 153459599516SKenneth E. Jansen subroutine CalcImpConvCoef (numISrfs, numTpoints) 153559599516SKenneth E. Jansen 153659599516SKenneth E. Jansen use convolImpFlow !uses flow history and impedance for convolution 153759599516SKenneth E. Jansen 153859599516SKenneth E. Jansen include "common.h" !for alfi 153959599516SKenneth E. Jansen 154059599516SKenneth E. Jansen integer numISrfs, numTpoints 154159599516SKenneth E. Jansen 154259599516SKenneth E. Jansen allocate (ConvCoef(numTpoints+2,3)) !same time discret. for all imp. BC 154359599516SKenneth E. Jansen do j=1,numTpoints+2 154459599516SKenneth E. Jansen ConvCoef(j,:)=0.5/numTpoints !dt/2 divided by period T=N*dt 154559599516SKenneth E. Jansen ConvCoef(j,1)=ConvCoef(j,1)*(1.0-alfi)*(1.0-alfi) 154659599516SKenneth E. Jansen ConvCoef(j,2)=ConvCoef(j,2)*(1.0+2*alfi*(1.0-alfi)) 154759599516SKenneth E. Jansen ConvCoef(j,3)=ConvCoef(j,3)*alfi*alfi 154859599516SKenneth E. Jansen enddo 154959599516SKenneth E. Jansen ConvCoef(1,2)=zero 155059599516SKenneth E. Jansen ConvCoef(1,3)=zero 155159599516SKenneth E. Jansen ConvCoef(2,3)=zero 155259599516SKenneth E. Jansen ConvCoef(numTpoints+1,1)=zero 155359599516SKenneth E. Jansen ConvCoef(numTpoints+2,2)=zero 155459599516SKenneth E. Jansen ConvCoef(numTpoints+2,1)=zero 155559599516SKenneth E. Jansenc 155659599516SKenneth E. Jansenc...calculate the coefficients for the impedance convolution 155759599516SKenneth E. Jansenc 155859599516SKenneth E. Jansen allocate (ImpConvCoef(numTpoints+2,numISrfs)) 155959599516SKenneth E. Jansen 156059599516SKenneth E. Jansenc..coefficients below assume Q linear in time step, Z constant 156159599516SKenneth E. Jansenc do j=3,numTpoints 156259599516SKenneth E. Jansenc ImpConvCoef(j,:) = ValueListImp(j-1,:)*ConvCoef(j,3) 156359599516SKenneth E. Jansenc & + ValueListImp(j,:)*ConvCoef(j,2) 156459599516SKenneth E. Jansenc & + ValueListImp(j+1,:)*ConvCoef(j,1) 156559599516SKenneth E. Jansenc enddo 156659599516SKenneth E. Jansenc ImpConvCoef(1,:) = ValueListImp(2,:)*ConvCoef(1,1) 156759599516SKenneth E. Jansenc ImpConvCoef(2,:) = ValueListImp(2,:)*ConvCoef(2,2) 156859599516SKenneth E. Jansenc & + ValueListImp(3,:)*ConvCoef(2,1) 156959599516SKenneth E. Jansenc ImpConvCoef(numTpoints+1,:) = 157059599516SKenneth E. Jansenc & ValueListImp(numTpoints,:)*ConvCoef(numTpoints+1,3) 157159599516SKenneth E. Jansenc & + ValueListImp(numTpoints+1,:)*ConvCoef(numTpoints+1,2) 157259599516SKenneth E. Jansenc ImpConvCoef(numTpoints+2,:) = 157359599516SKenneth E. Jansenc & ValueListImp(numTpoints+1,:)*ConvCoef(numTpoints+2,3) 157459599516SKenneth E. Jansen 157559599516SKenneth E. Jansenc..try easiest convolution Q and Z constant per time step 157659599516SKenneth E. Jansen do j=3,numTpoints+1 157759599516SKenneth E. Jansen ImpConvCoef(j,:) = ValueListImp(j-1,:)/numTpoints 157859599516SKenneth E. Jansen enddo 157959599516SKenneth E. Jansen ImpConvCoef(1,:) =zero 158059599516SKenneth E. Jansen ImpConvCoef(2,:) =zero 158159599516SKenneth E. Jansen ImpConvCoef(numTpoints+2,:) = 158259599516SKenneth E. Jansen & ValueListImp(numTpoints+1,:)/numTpoints 158359599516SKenneth E. Jansenc compensate for yalpha passed not y in Elmgmr() 158459599516SKenneth E. Jansen ImpConvCoef(numTpoints+1,:)= ImpConvCoef(numTpoints+1,:) 158559599516SKenneth E. Jansen & - ImpConvCoef(numTpoints+2,:)*(1.0-alfi)/alfi 158659599516SKenneth E. Jansen ImpConvCoef(numTpoints+2,:)= ImpConvCoef(numTpoints+2,:)/alfi 158759599516SKenneth E. Jansen return 158859599516SKenneth E. Jansen end 158959599516SKenneth E. Jansen 159059599516SKenneth E. Jansenc 159159599516SKenneth E. Jansenc ... update the flow rate history for the impedance convolution, filter it and write it out 159259599516SKenneth E. Jansenc 159359599516SKenneth E. Jansen subroutine UpdHistConv(y,nsrfIdList,numSrfs) 159459599516SKenneth E. Jansen 159559599516SKenneth E. Jansen use convolImpFlow !brings ntimeptpT, QHistImp, QHistTry, QHistTryF, numImpSrfs 159659599516SKenneth E. Jansen use convolRCRFlow !brings QHistRCR, numRCRSrfs 159759599516SKenneth E. Jansen 159859599516SKenneth E. Jansen include "common.h" 159959599516SKenneth E. Jansen 160059599516SKenneth E. Jansen integer nsrfIdList(0:MAXSURF), numSrfs 160159599516SKenneth E. Jansen character*20 fname1 160259599516SKenneth E. Jansen character*10 cname2 160359599516SKenneth E. Jansen character*5 cname 160459599516SKenneth E. Jansen real*8 y(nshg,3) !velocity at time n+1 160559599516SKenneth E. Jansen real*8 NewQ(0:MAXSURF) !temporary unknown for the flow rate 160659599516SKenneth E. Jansen !that needs to be added to the flow history 160759599516SKenneth E. Jansen 160859599516SKenneth E. Jansen call GetFlowQ(NewQ,y,nsrfIdList,numSrfs) !new flow at time n+1 160959599516SKenneth E. Jansenc 161059599516SKenneth E. Jansenc... for imp BC: shift QHist, add new constribution, filter and write out 161159599516SKenneth E. Jansenc 161259599516SKenneth E. Jansen if(numImpSrfs.gt.zero) then 161359599516SKenneth E. Jansen do j=1, ntimeptpT 161459599516SKenneth E. Jansen QHistImp(j,1:numSrfs)=QHistImp(j+1,1:numSrfs) 161559599516SKenneth E. Jansen enddo 161659599516SKenneth E. Jansen QHistImp(ntimeptpT+1,1:numSrfs) = NewQ(1:numSrfs) 161759599516SKenneth E. Jansen 161859599516SKenneth E. Jansenc 161959599516SKenneth E. Jansenc....filter the flow rate history 162059599516SKenneth E. Jansenc 162159599516SKenneth E. Jansen cutfreq = 10 !hardcoded cutting frequency of the filter 162259599516SKenneth E. Jansen do j=1, ntimeptpT 162359599516SKenneth E. Jansen QHistTry(j,:)=QHistImp(j+1,:) 162459599516SKenneth E. Jansen enddo 162559599516SKenneth E. Jansen call Filter(QHistTryF,QHistTry,ntimeptpT,Delt(1),cutfreq) 162659599516SKenneth E. Jansenc.... if no filter applied then uncomment next three lines 162759599516SKenneth E. Jansenc do j=1, ntimeptpT 162859599516SKenneth E. Jansenc QHistTryF(j,:)=QHistTry(j,:) 162959599516SKenneth E. Jansenc enddo 163059599516SKenneth E. Jansen 163159599516SKenneth E. Jansenc QHistImp(1,:)=zero ! why do we do this? for beta(1,:) = zero it does not really matters 163259599516SKenneth E. Jansen do j=1, ntimeptpT 163359599516SKenneth E. Jansen QHistImp(j+1,:)=QHistTryF(j,:) 163459599516SKenneth E. Jansen enddo 163559599516SKenneth E. Jansenc 163659599516SKenneth E. Jansenc.... write out the new history of flow rates to Qhistor.dat 163759599516SKenneth E. Jansenc 163859599516SKenneth E. Jansen if (((irs .ge. 1) .and. ((mod(lstep, ntout) .eq. 0) .or. 163959599516SKenneth E. Jansen & (istep .eq. nstep(1)))) .and. 164059599516SKenneth E. Jansen & (myrank .eq. master)) then 164159599516SKenneth E. Jansen open(unit=816, file='Qhistor.dat',status='replace') 164259599516SKenneth E. Jansen write(816,*) ntimeptpT 164359599516SKenneth E. Jansen do j=1,ntimeptpT+1 164459599516SKenneth E. Jansen write(816,*) (QHistImp(j,n),n=1, numSrfs) 164559599516SKenneth E. Jansen enddo 164659599516SKenneth E. Jansen close(816) 164759599516SKenneth E. Jansenc... write out a copy with step number to be able to restart 164859599516SKenneth E. Jansen fname1 = 'Qhistor' 164959599516SKenneth E. Jansen fname1 = trim(fname1)//trim(cname2(lstep))//'.dat' 165059599516SKenneth E. Jansen open(unit=8166,file=trim(fname1),status='unknown') 165159599516SKenneth E. Jansen write(8166,*) ntimeptpT 165259599516SKenneth E. Jansen do j=1,ntimeptpT+1 165359599516SKenneth E. Jansen write(8166,*) (QHistImp(j,n),n=1, numSrfs) 165459599516SKenneth E. Jansen enddo 165559599516SKenneth E. Jansen close(8166) 165659599516SKenneth E. Jansen endif 165759599516SKenneth E. Jansen endif 165859599516SKenneth E. Jansen 165959599516SKenneth E. Jansenc 166059599516SKenneth E. Jansenc... for RCR bc just add the new contribution 166159599516SKenneth E. Jansenc 166259599516SKenneth E. Jansen if(numRCRSrfs.gt.zero) then 166359599516SKenneth E. Jansen QHistRCR(lstep+1,1:numSrfs) = NewQ(1:numSrfs) 166459599516SKenneth E. Jansenc 166559599516SKenneth E. Jansenc.... write out the new history of flow rates to Qhistor.dat 166659599516SKenneth E. Jansenc 166759599516SKenneth E. Jansen if ((irs .ge. 1) .and. (myrank .eq. master)) then 166859599516SKenneth E. Jansen if(istep.eq.1) then 166959599516SKenneth E. Jansen open(unit=816,file='Qhistor.dat',status='unknown') 167059599516SKenneth E. Jansen else 167159599516SKenneth E. Jansen open(unit=816,file='Qhistor.dat',position='append') 167259599516SKenneth E. Jansen endif 167359599516SKenneth E. Jansen if(istep.eq.1) then 167459599516SKenneth E. Jansen do j=1,lstep 167559599516SKenneth E. Jansen write(816,*) j, (QHistRCR(j,n),n=1,numSrfs) ! read from file of previous run 167659599516SKenneth E. Jansen enddo 167759599516SKenneth E. Jansen endif 167859599516SKenneth E. Jansen write(816,*) lstep+1, (QHistRCR(lstep+1,n),n=1, numSrfs) 167959599516SKenneth E. Jansen close(816) 168059599516SKenneth E. Jansenc... write out a copy with step number to be able to restart 168159599516SKenneth E. Jansen if (((irs .ge. 1) .and. ((mod(lstep, ntout) .eq. 0) .or. 168259599516SKenneth E. Jansen & (istep .eq. nstep(1)))) .and. 168359599516SKenneth E. Jansen & (myrank .eq. master)) then 168459599516SKenneth E. Jansen fname1 = 'Qhistor' 168559599516SKenneth E. Jansen fname1 = trim(fname1)//trim(cname2(lstep))//'.dat' 168659599516SKenneth E. Jansen open(unit=8166,file=trim(fname1),status='unknown') 168759599516SKenneth E. Jansen write(8166,*) lstep+1 168859599516SKenneth E. Jansen do j=1,lstep+1 168959599516SKenneth E. Jansen write(8166,*) (QHistRCR(j,n),n=1, numSrfs) 169059599516SKenneth E. Jansen enddo 169159599516SKenneth E. Jansen close(8166) 169259599516SKenneth E. Jansen endif 169359599516SKenneth E. Jansen endif 169459599516SKenneth E. Jansen endif 169559599516SKenneth E. Jansen 169659599516SKenneth E. Jansen return 169759599516SKenneth E. Jansen end 169859599516SKenneth E. Jansen 169959599516SKenneth E. Jansenc 170059599516SKenneth E. Jansenc...calculate the time varying coefficients for the RCR convolution 170159599516SKenneth E. Jansenc 170259599516SKenneth E. Jansen subroutine CalcRCRConvCoef (stepn, numSrfs) 170359599516SKenneth E. Jansen 170459599516SKenneth E. Jansen use convolRCRFlow !brings in ValueListRCR, dtRCR 170559599516SKenneth E. Jansen 170659599516SKenneth E. Jansen include "common.h" !brings alfi 170759599516SKenneth E. Jansen 170859599516SKenneth E. Jansen integer numSrfs, stepn 170959599516SKenneth E. Jansen 171059599516SKenneth E. Jansen RCRConvCoef = zero 171159599516SKenneth E. Jansen if (stepn .eq. 0) then 171259599516SKenneth E. Jansen RCRConvCoef(1,:) = ValueListRCR(1,:)*(1.0-alfi) + 171359599516SKenneth E. Jansen & ValueListRCR(3,:)*(-alfi + 1.0 + 1/dtRCR(:) 171459599516SKenneth E. Jansen & - exp(-alfi*dtRCR(:))*(1 + 1/dtRCR(:))) 171559599516SKenneth E. Jansen RCRConvCoef(2,:) = ValueListRCR(1,:)*alfi 171659599516SKenneth E. Jansen & + ValueListRCR(3,:) 171759599516SKenneth E. Jansen & *(alfi - 1/dtRCR(:) + exp(-alfi*dtRCR(:))/dtRCR(:)) 171859599516SKenneth E. Jansen endif 171959599516SKenneth E. Jansen if (stepn .ge. 1) then 172059599516SKenneth E. Jansen RCRConvCoef(1,:) =-ValueListRCR(3,:)*exp(-dtRCR(:)*(stepn+alfi)) 172159599516SKenneth E. Jansen & *(1 + (1 - exp(dtRCR(:)))/dtRCR(:)) 172259599516SKenneth E. Jansen RCRConvCoef(stepn+1,:) = ValueListRCR(1,:)*(1-alfi) 172359599516SKenneth E. Jansen & - ValueListRCR(3,:)*(alfi - 1 - 1/dtRCR(:) 172459599516SKenneth E. Jansen & + exp(-alfi*dtRCR(:))/dtRCR(:)*(2 - exp(-dtRCR(:)))) 172559599516SKenneth E. Jansen RCRConvCoef(stepn+2,:) = ValueListRCR(1,:)*alfi 172659599516SKenneth E. Jansen & + ValueListRCR(3,:) 172759599516SKenneth E. Jansen & *(alfi - 1/dtRCR(:) + exp(-alfi*dtRCR(:))/dtRCR(:)) 172859599516SKenneth E. Jansen endif 172959599516SKenneth E. Jansen if (stepn .ge. 2) then 173059599516SKenneth E. Jansen do j=2,stepn 173159599516SKenneth E. Jansen RCRConvCoef(j,:) = ValueListRCR(3,:)/dtRCR(:)* 173259599516SKenneth E. Jansen & exp(-dtRCR(:)*(stepn + alfi + 2 - j))* 173359599516SKenneth E. Jansen & (1 - exp(dtRCR(:)))**2 173459599516SKenneth E. Jansen enddo 173559599516SKenneth E. Jansen endif 173659599516SKenneth E. Jansen 173759599516SKenneth E. Jansenc compensate for yalpha passed not y in Elmgmr() 173859599516SKenneth E. Jansen RCRConvCoef(stepn+1,:)= RCRConvCoef(stepn+1,:) 173959599516SKenneth E. Jansen & - RCRConvCoef(stepn+2,:)*(1.0-alfi)/alfi 174059599516SKenneth E. Jansen RCRConvCoef(stepn+2,:)= RCRConvCoef(stepn+2,:)/alfi 174159599516SKenneth E. Jansen 174259599516SKenneth E. Jansen return 174359599516SKenneth E. Jansen end 174459599516SKenneth E. Jansen 174559599516SKenneth E. Jansenc 174659599516SKenneth E. Jansenc...calculate the time dependent H operator for the RCR convolution 174759599516SKenneth E. Jansenc 174859599516SKenneth E. Jansen subroutine CalcHopRCR (timestepRCR, stepn, numSrfs) 174959599516SKenneth E. Jansen 175059599516SKenneth E. Jansen use convolRCRFlow !brings in HopRCR, dtRCR 175159599516SKenneth E. Jansen 175259599516SKenneth E. Jansen include "common.h" 175359599516SKenneth E. Jansen 175459599516SKenneth E. Jansen integer numSrfs, stepn 175559599516SKenneth E. Jansen real*8 PdistCur(0:MAXSURF), timestepRCR 175659599516SKenneth E. Jansen 175759599516SKenneth E. Jansen HopRCR=zero 175859599516SKenneth E. Jansen call RCRint(timestepRCR*(stepn + alfi),PdistCur) 175959599516SKenneth E. Jansen HopRCR(1:numSrfs) = RCRic(1:numSrfs) 176059599516SKenneth E. Jansen & *exp(-dtRCR(1:numSrfs)*(stepn + alfi)) + PdistCur(1:numSrfs) 176159599516SKenneth E. Jansen return 176259599516SKenneth E. Jansen end 176359599516SKenneth E. Jansenc 176459599516SKenneth E. Jansenc ... initialize the influence of the initial conditions for the RCR BC 176559599516SKenneth E. Jansenc 176659599516SKenneth E. Jansen subroutine calcRCRic(y,srfIdList,numSrfs) 176759599516SKenneth E. Jansen 176859599516SKenneth E. Jansen use convolRCRFlow !brings RCRic, ValueListRCR, ValuePdist 176959599516SKenneth E. Jansen 177059599516SKenneth E. Jansen include "common.h" 177159599516SKenneth E. Jansen 177259599516SKenneth E. Jansen integer srfIdList(0:MAXSURF), numSrfs, irankCoupled 177359599516SKenneth E. Jansen real*8 y(nshg,4) !need velocity and pressure 177459599516SKenneth E. Jansen real*8 Qini(0:MAXSURF) !initial flow rate 177559599516SKenneth E. Jansen real*8 PdistIni(0:MAXSURF) !initial distal pressure 177659599516SKenneth E. Jansen real*8 Pini(0:MAXSURF),CoupleArea(0:MAXSURF) ! initial pressure 177759599516SKenneth E. Jansen real*8 VelOnly(nshg,3), POnly(nshg) 177859599516SKenneth E. Jansen 177959599516SKenneth E. Jansen allocate (RCRic(0:MAXSURF)) 178059599516SKenneth E. Jansen 178159599516SKenneth E. Jansen if(lstep.eq.0) then 178259599516SKenneth E. Jansen VelOnly(:,1:3)=y(:,1:3) 178359599516SKenneth E. Jansen call GetFlowQ(Qini,VelOnly,srfIdList,numSrfs) !get initial flow 178459599516SKenneth E. Jansen QHistRCR(1,1:numSrfs)=Qini(1:numSrfs) !initialize QHistRCR 178559599516SKenneth E. Jansen POnly(:)=y(:,4) ! pressure 178659599516SKenneth E. Jansen call integrScalar(Pini,POnly,srfIdList,numSrfs) !get initial pressure integral 178759599516SKenneth E. Jansen POnly(:)=one ! one to get area 178859599516SKenneth E. Jansen call integrScalar(CoupleArea,POnly,srfIdList,numSrfs) !get surf area 178959599516SKenneth E. Jansen Pini(1:numSrfs) = Pini(1:numSrfs)/CoupleArea(1:numSrfs) 179059599516SKenneth E. Jansen else 179159599516SKenneth E. Jansen Qini(1:numSrfs)=QHistRCR(1,1:numSrfs) 179259599516SKenneth E. Jansen Pini(1:numSrfs)=zero ! hack 179359599516SKenneth E. Jansen endif 179459599516SKenneth E. Jansen call RCRint(istep,PdistIni) !get initial distal P (use istep) 179559599516SKenneth E. Jansen RCRic(1:numSrfs) = Pini(1:numSrfs) 179659599516SKenneth E. Jansen & - ValueListRCR(1,:)*Qini(1:numSrfs)-PdistIni(1:numSrfs) 179759599516SKenneth E. Jansen return 179859599516SKenneth E. Jansen end 179959599516SKenneth E. Jansen 180059599516SKenneth E. Jansenc.........function that integrates a scalar over a boundary 180159599516SKenneth E. Jansen subroutine integrScalar(scalInt,scal,srfIdList,numSrfs) 180259599516SKenneth E. Jansen 180359599516SKenneth E. Jansen use pvsQbi !brings ndsurf, NASC 180459599516SKenneth E. Jansen 180559599516SKenneth E. Jansen include "common.h" 180659599516SKenneth E. Jansen include "mpif.h" 180759599516SKenneth E. Jansen 180859599516SKenneth E. Jansen integer srfIdList(0:MAXSURF), numSrfs, irankCoupled, i, k 180959599516SKenneth E. Jansen real*8 scal(nshg), scalInt(0:MAXSURF), scalIntProc(0:MAXSURF) 181059599516SKenneth E. Jansen 181159599516SKenneth E. Jansen scalIntProc = zero 181259599516SKenneth E. Jansen do i = 1,nshg 181359599516SKenneth E. Jansen if(numSrfs.gt.zero) then 181459599516SKenneth E. Jansen do k = 1,numSrfs 181559599516SKenneth E. Jansen irankCoupled = 0 181659599516SKenneth E. Jansen if (srfIdList(k).eq.ndsurf(i)) then 181759599516SKenneth E. Jansen irankCoupled=k 181859599516SKenneth E. Jansen scalIntProc(irankCoupled) = scalIntProc(irankCoupled) 181959599516SKenneth E. Jansen & + NASC(i)*scal(i) 182059599516SKenneth E. Jansen exit 182159599516SKenneth E. Jansen endif 182259599516SKenneth E. Jansen enddo 182359599516SKenneth E. Jansen endif 182459599516SKenneth E. Jansen enddo 182559599516SKenneth E. Jansenc 182659599516SKenneth E. Jansenc at this point, each scalint has its "nodes" contributions to the scalar 182759599516SKenneth E. Jansenc accumulated into scalIntProc. Note, because NASC is on processor this 182859599516SKenneth E. Jansenc will NOT be the scalar for the surface yet 182959599516SKenneth E. Jansenc 183059599516SKenneth E. Jansenc.... reduce integrated scalar for each surface, push on scalInt 183159599516SKenneth E. Jansenc 183259599516SKenneth E. Jansen npars=MAXSURF+1 183359599516SKenneth E. Jansen call MPI_ALLREDUCE (scalIntProc, scalInt(:), npars, 183459599516SKenneth E. Jansen & MPI_DOUBLE_PRECISION,MPI_SUM, MPI_COMM_WORLD,ierr) 183559599516SKenneth E. Jansen 183659599516SKenneth E. Jansen return 183759599516SKenneth E. Jansen end 183859599516SKenneth E. Jansen 18399071d3baSCameron Smith subroutine writeTimingMessage(key,iomode,timing) 18409071d3baSCameron Smith use iso_c_binding 18419071d3baSCameron Smith use phstr 18429071d3baSCameron Smith implicit none 184359599516SKenneth E. Jansen 18449071d3baSCameron Smith character(len=*) :: key 18459071d3baSCameron Smith integer :: iomode 18469071d3baSCameron Smith real*8 :: timing 1847da7d5714SCameron Smith character(len=1024) :: timing_msg 184889625e43SCameron Smith character(len=*), parameter :: 184989625e43SCameron Smith & streamModeString = c_char_"stream"//c_null_char, 185089625e43SCameron Smith & fileModeString = c_char_"disk"//c_null_char 185159599516SKenneth E. Jansen 1852da7d5714SCameron Smith timing_msg = c_char_"Time to write "//c_null_char 18539071d3baSCameron Smith call phstr_appendStr(timing_msg,key) 18549071d3baSCameron Smith if ( iomode .eq. -1 ) then 18559071d3baSCameron Smith call phstr_appendStr(timing_msg, streamModeString) 18569071d3baSCameron Smith else 18579071d3baSCameron Smith call phstr_appendStr(timing_msg, fileModeString) 18589071d3baSCameron Smith endif 18599071d3baSCameron Smith call phstr_appendStr(timing_msg, c_char_' = '//c_null_char) 18609071d3baSCameron Smith call phstr_appendDbl(timing_msg, timing) 1861da7d5714SCameron Smith write(6,*) trim(timing_msg) 18629071d3baSCameron Smith return 18639071d3baSCameron Smith end subroutine 186459599516SKenneth E. Jansen 1865