1b1a0a8a3SJed Brown #define PETSCKSP_DLL 2b1a0a8a3SJed Brown 3b1a0a8a3SJed Brown /* 4f746d493SDmitry Karpeev This file defines an "generalized" additive Schwarz preconditioner for any Mat implementation. 544fe18e5SDmitry Karpeev In this version each processor may have any number of subdomains and a subdomain may live on multiple 6f746d493SDmitry Karpeev processors. 7b1a0a8a3SJed Brown 8af538404SDmitry Karpeev N - total number of subdomains on all processors 9f746d493SDmitry Karpeev n - actual number of subdomains on this processor 10f746d493SDmitry Karpeev nmax - maximum number of subdomains per processor 11b1a0a8a3SJed Brown */ 12b1a0a8a3SJed Brown #include "private/pcimpl.h" /*I "petscpc.h" I*/ 13b1a0a8a3SJed Brown 14b1a0a8a3SJed Brown typedef struct { 15f746d493SDmitry Karpeev PetscInt N,n,nmax; 16b1a0a8a3SJed Brown PetscInt overlap; /* overlap requested by user */ 17b1a0a8a3SJed Brown KSP *ksp; /* linear solvers for each block */ 18f746d493SDmitry Karpeev Vec gx,gy; /* Merged work vectors */ 19f746d493SDmitry Karpeev Vec *x,*y; /* Split work vectors; storage aliases pieces of storage of the above merged vectors. */ 20f746d493SDmitry Karpeev IS gis, gis_local; /* merged ISs */ 21f746d493SDmitry Karpeev VecScatter grestriction; /* merged restriction */ 22f746d493SDmitry Karpeev VecScatter gprolongation; /* merged prolongation */ 23b1a0a8a3SJed Brown IS *is; /* index set that defines each overlapping subdomain */ 24f746d493SDmitry Karpeev IS *is_local; /* index set that defines each local subdomain (same as subdomain with the overlap removed); may be NULL */ 25f746d493SDmitry Karpeev Mat *pmat; /* subdomain block matrices */ 26f746d493SDmitry Karpeev PCGASMType type; /* use reduced interpolation, restriction or both */ 27b1a0a8a3SJed Brown PetscBool type_set; /* if user set this value (so won't change it for symmetric problems) */ 28b1a0a8a3SJed Brown PetscBool same_local_solves; /* flag indicating whether all local solvers are same */ 29b1a0a8a3SJed Brown PetscBool sort_indices; /* flag to sort subdomain indices */ 30f746d493SDmitry Karpeev } PC_GASM; 31b1a0a8a3SJed Brown 32b1a0a8a3SJed Brown #undef __FUNCT__ 33af538404SDmitry Karpeev #define __FUNCT__ "PCGASMPrintSubdomains" 34af538404SDmitry Karpeev static PetscErrorCode PCGASMPrintSubdomains(PC pc) 35af538404SDmitry Karpeev { 36af538404SDmitry Karpeev PC_GASM *osm = (PC_GASM*)pc->data; 37af538404SDmitry Karpeev const char *prefix; 38af538404SDmitry Karpeev char fname[PETSC_MAX_PATH_LEN+1]; 39af538404SDmitry Karpeev PetscViewer viewer, sviewer; 40af538404SDmitry Karpeev PetscInt i,j,nidx; 41af538404SDmitry Karpeev const PetscInt *idx; 42af538404SDmitry Karpeev char *cidx; 43af538404SDmitry Karpeev PetscBool found; 44*eec7e3faSDmitry Karpeev PetscMPIInt size, rank; 45af538404SDmitry Karpeev PetscErrorCode ierr; 46af538404SDmitry Karpeev 47af538404SDmitry Karpeev PetscFunctionBegin; 48*eec7e3faSDmitry Karpeev ierr = MPI_Comm_size(((PetscObject)pc)->comm, &size); CHKERRQ(ierr); 49*eec7e3faSDmitry Karpeev ierr = MPI_Comm_rank(((PetscObject)pc)->comm, &rank); CHKERRQ(ierr); 50af538404SDmitry Karpeev ierr = PCGetOptionsPrefix(pc,&prefix);CHKERRQ(ierr); 51af538404SDmitry Karpeev ierr = PetscOptionsGetString(prefix,"-pc_gasm_print_subdomains",fname,PETSC_MAX_PATH_LEN,&found);CHKERRQ(ierr); 52af538404SDmitry Karpeev if (!found) { ierr = PetscStrcpy(fname,"stdout");CHKERRQ(ierr); }; 53af538404SDmitry Karpeev for (i=0;i<osm->n;++i) { 54af538404SDmitry Karpeev ierr = PetscViewerASCIIOpen(((PetscObject)((osm->is)[i]))->comm,fname,&viewer);CHKERRQ(ierr); 55af538404SDmitry Karpeev ierr = ISGetLocalSize(osm->is[i], &nidx); CHKERRQ(ierr); 56*eec7e3faSDmitry Karpeev /* 57*eec7e3faSDmitry Karpeev No more than 15 characters per index plus a space. 58*eec7e3faSDmitry Karpeev PetscViewerStringSPrintf requires a string of size at least 2, so use (nidx+1) instead of nidx, 59*eec7e3faSDmitry Karpeev in case nidx == 0. That will take care of the space for the trailing '\0' as well. 60*eec7e3faSDmitry Karpeev For nidx == 0, the whole string 16 '\0'. 61*eec7e3faSDmitry Karpeev */ 62*eec7e3faSDmitry Karpeev ierr = PetscMalloc(sizeof(char)*(16*(nidx+1)+1), &cidx); CHKERRQ(ierr); 63af538404SDmitry Karpeev ierr = ISGetIndices(osm->is[i], &idx); CHKERRQ(ierr); 64*eec7e3faSDmitry Karpeev ierr = PetscViewerStringOpen(((PetscObject)(osm->is[i]))->comm, cidx, 16*(nidx+1), &sviewer); CHKERRQ(ierr); 65af538404SDmitry Karpeev for(j = 0; j < nidx; ++j) { 66af538404SDmitry Karpeev ierr = PetscViewerStringSPrintf(sviewer, "%D ", idx[j]); CHKERRQ(ierr); 67af538404SDmitry Karpeev } 68af538404SDmitry Karpeev ierr = PetscViewerDestroy(sviewer); CHKERRQ(ierr); 69af538404SDmitry Karpeev ierr = ISRestoreIndices(osm->is[i],&idx); CHKERRQ(ierr); 70*eec7e3faSDmitry Karpeev 71af538404SDmitry Karpeev ierr = PetscViewerASCIIPrintf(viewer, "Subdomain with overlap\n"); CHKERRQ(ierr); 72af538404SDmitry Karpeev ierr = PetscViewerASCIISynchronizedPrintf(viewer, "%s", cidx); CHKERRQ(ierr); 73af538404SDmitry Karpeev ierr = PetscViewerFlush(viewer); CHKERRQ(ierr); 74af538404SDmitry Karpeev ierr = PetscViewerASCIIPrintf(viewer, "\n"); CHKERRQ(ierr); 75af538404SDmitry Karpeev ierr = PetscFree(cidx); CHKERRQ(ierr); 76af538404SDmitry Karpeev ierr = PetscViewerDestroy(viewer); CHKERRQ(ierr); 77af538404SDmitry Karpeev if (osm->is_local) { 78af538404SDmitry Karpeev ierr = PetscViewerASCIIOpen(((PetscObject)((osm->is)[i]))->comm,fname,&viewer);CHKERRQ(ierr); 79af538404SDmitry Karpeev ierr = ISGetLocalSize(osm->is_local[i], &nidx); CHKERRQ(ierr); 80*eec7e3faSDmitry Karpeev /* 81*eec7e3faSDmitry Karpeev No more than 15 characters per index plus a space. 82*eec7e3faSDmitry Karpeev PetscViewerStringSPrintf requires a string of size at least 2, so use (nidx+1) instead of nidx, 83*eec7e3faSDmitry Karpeev in case nidx == 0. That will take care of the space for the trailing '\0' as well. 84*eec7e3faSDmitry Karpeev For nidx == 0, the whole string 16 '\0'. 85*eec7e3faSDmitry Karpeev */ 86*eec7e3faSDmitry Karpeev ierr = PetscMalloc(sizeof(char)*(16*(nidx+1)+1), &cidx); CHKERRQ(ierr); 87af538404SDmitry Karpeev ierr = ISGetIndices(osm->is_local[i], &idx); CHKERRQ(ierr); 88*eec7e3faSDmitry Karpeev ierr = PetscViewerStringOpen(((PetscObject)(osm->is_local[i]))->comm, cidx, 16*(nidx+1), &sviewer); CHKERRQ(ierr); 89af538404SDmitry Karpeev for(j = 0; j < nidx; ++j) { 90af538404SDmitry Karpeev ierr = PetscViewerStringSPrintf(sviewer, "%D ", idx[j]); CHKERRQ(ierr); 91af538404SDmitry Karpeev } 92af538404SDmitry Karpeev ierr = PetscViewerDestroy(sviewer); CHKERRQ(ierr); 93af538404SDmitry Karpeev ierr = ISRestoreIndices(osm->is_local[i],&idx); CHKERRQ(ierr); 94*eec7e3faSDmitry Karpeev 95af538404SDmitry Karpeev ierr = PetscViewerASCIIPrintf(viewer, "Subdomain without overlap\n"); CHKERRQ(ierr); 96af538404SDmitry Karpeev ierr = PetscViewerASCIISynchronizedPrintf(viewer, "%s", cidx); CHKERRQ(ierr); 97af538404SDmitry Karpeev ierr = PetscViewerFlush(viewer); CHKERRQ(ierr); 98af538404SDmitry Karpeev ierr = PetscViewerASCIIPrintf(viewer, "\n"); CHKERRQ(ierr); 99af538404SDmitry Karpeev ierr = PetscFree(cidx); CHKERRQ(ierr); 100af538404SDmitry Karpeev ierr = PetscViewerDestroy(viewer); CHKERRQ(ierr); 101af538404SDmitry Karpeev } 102af538404SDmitry Karpeev } 103af538404SDmitry Karpeev PetscFunctionReturn(0); 104af538404SDmitry Karpeev } 105af538404SDmitry Karpeev 106af538404SDmitry Karpeev 107af538404SDmitry Karpeev #undef __FUNCT__ 108f746d493SDmitry Karpeev #define __FUNCT__ "PCView_GASM" 109f746d493SDmitry Karpeev static PetscErrorCode PCView_GASM(PC pc,PetscViewer viewer) 110b1a0a8a3SJed Brown { 111f746d493SDmitry Karpeev PC_GASM *osm = (PC_GASM*)pc->data; 112af538404SDmitry Karpeev const char *prefix; 113b1a0a8a3SJed Brown PetscErrorCode ierr; 114af538404SDmitry Karpeev PetscMPIInt rank, size; 115b1a0a8a3SJed Brown PetscInt i,bsz; 116af538404SDmitry Karpeev PetscBool iascii,isstring, print_subdomains; 117b1a0a8a3SJed Brown PetscViewer sviewer; 118b1a0a8a3SJed Brown 119b1a0a8a3SJed Brown 120b1a0a8a3SJed Brown PetscFunctionBegin; 121af538404SDmitry Karpeev ierr = MPI_Comm_size(((PetscObject)pc)->comm, &size); CHKERRQ(ierr); 122af538404SDmitry Karpeev ierr = MPI_Comm_rank(((PetscObject)pc)->comm, &rank); CHKERRQ(ierr); 123b1a0a8a3SJed Brown ierr = PetscTypeCompare((PetscObject)viewer,PETSCVIEWERASCII,&iascii);CHKERRQ(ierr); 124b1a0a8a3SJed Brown ierr = PetscTypeCompare((PetscObject)viewer,PETSCVIEWERSTRING,&isstring);CHKERRQ(ierr); 125af538404SDmitry Karpeev ierr = PCGetOptionsPrefix(pc,&prefix);CHKERRQ(ierr); 126af538404SDmitry Karpeev ierr = PetscOptionsGetBool(prefix,"-pc_gasm_print_subdomains",&print_subdomains,PETSC_NULL);CHKERRQ(ierr); 127b1a0a8a3SJed Brown if (iascii) { 128af538404SDmitry Karpeev char overlaps[256] = "user-defined overlap",subdomains[256] = "total subdomains set"; 129b1a0a8a3SJed Brown if (osm->overlap >= 0) {ierr = PetscSNPrintf(overlaps,sizeof overlaps,"amount of overlap = %D",osm->overlap);CHKERRQ(ierr);} 130af538404SDmitry Karpeev if (osm->nmax > 0) {ierr = PetscSNPrintf(subdomains,sizeof subdomains,"max number of local subdomains = %D",osm->nmax);CHKERRQ(ierr);} 131*eec7e3faSDmitry Karpeev ierr = PetscViewerASCIISynchronizedPrintf(viewer," [%d:%d] number of locally-supported subdomains = %D\n",(int)rank,(int)size,osm->n);CHKERRQ(ierr); 132af538404SDmitry Karpeev ierr = PetscViewerFlush(viewer); CHKERRQ(ierr); 133af538404SDmitry Karpeev ierr = PetscViewerASCIIPrintf(viewer," Generalized additive Schwarz: %s, %s\n",subdomains,overlaps);CHKERRQ(ierr); 134f746d493SDmitry Karpeev ierr = PetscViewerASCIIPrintf(viewer," Generalized additive Schwarz: restriction/interpolation type - %s\n",PCGASMTypes[osm->type]);CHKERRQ(ierr); 135b1a0a8a3SJed Brown ierr = MPI_Comm_rank(((PetscObject)pc)->comm,&rank);CHKERRQ(ierr); 136b1a0a8a3SJed Brown if (osm->same_local_solves) { 137b1a0a8a3SJed Brown if (osm->ksp) { 138af538404SDmitry Karpeev ierr = PetscViewerASCIIPrintf(viewer," Local solve is same for all subdomains, in the following KSP and PC objects:\n");CHKERRQ(ierr); 139b1a0a8a3SJed Brown ierr = PetscViewerGetSingleton(viewer,&sviewer);CHKERRQ(ierr); 140b1a0a8a3SJed Brown if (!rank) { 141b1a0a8a3SJed Brown ierr = PetscViewerASCIIPushTab(viewer);CHKERRQ(ierr); 142b1a0a8a3SJed Brown ierr = KSPView(osm->ksp[0],sviewer);CHKERRQ(ierr); 143b1a0a8a3SJed Brown ierr = PetscViewerASCIIPopTab(viewer);CHKERRQ(ierr); 144b1a0a8a3SJed Brown } 145b1a0a8a3SJed Brown ierr = PetscViewerRestoreSingleton(viewer,&sviewer);CHKERRQ(ierr); 146b1a0a8a3SJed Brown } 147b1a0a8a3SJed Brown } else { 148b1a0a8a3SJed Brown ierr = PetscViewerFlush(viewer);CHKERRQ(ierr); 149af538404SDmitry Karpeev ierr = PetscViewerASCIIPrintf(viewer," Local solve info for each subdomain is in the following KSP and PC objects:\n");CHKERRQ(ierr); 150b1a0a8a3SJed Brown ierr = PetscViewerASCIIPushTab(viewer);CHKERRQ(ierr); 151b1a0a8a3SJed Brown ierr = PetscViewerASCIIPrintf(viewer,"- - - - - - - - - - - - - - - - - -\n");CHKERRQ(ierr); 152f746d493SDmitry Karpeev for (i=0; i<osm->nmax; i++) { 153b1a0a8a3SJed Brown ierr = PetscViewerGetSingleton(viewer,&sviewer);CHKERRQ(ierr); 154f746d493SDmitry Karpeev if (i < osm->n) { 155b1a0a8a3SJed Brown ierr = ISGetLocalSize(osm->is[i],&bsz);CHKERRQ(ierr); 156af538404SDmitry Karpeev ierr = PetscViewerASCIISynchronizedPrintf(sviewer,"[%d:%d] local subdomain number %D, size = %D\n",(int)rank,(int)size,i,bsz);CHKERRQ(ierr); 157b1a0a8a3SJed Brown ierr = KSPView(osm->ksp[i],sviewer);CHKERRQ(ierr); 158b1a0a8a3SJed Brown ierr = PetscViewerASCIISynchronizedPrintf(sviewer,"- - - - - - - - - - - - - - - - - -\n");CHKERRQ(ierr); 159b1a0a8a3SJed Brown } 160b1a0a8a3SJed Brown ierr = PetscViewerRestoreSingleton(viewer,&sviewer);CHKERRQ(ierr); 161b1a0a8a3SJed Brown } 162b1a0a8a3SJed Brown ierr = PetscViewerASCIIPopTab(viewer);CHKERRQ(ierr); 163b1a0a8a3SJed Brown ierr = PetscViewerFlush(viewer);CHKERRQ(ierr); 164b1a0a8a3SJed Brown } 165b1a0a8a3SJed Brown } else if (isstring) { 166af538404SDmitry Karpeev ierr = PetscViewerStringSPrintf(viewer," subdomains=%D, overlap=%D, type=%s",osm->n,osm->overlap,PCGASMTypes[osm->type]);CHKERRQ(ierr); 167b1a0a8a3SJed Brown ierr = PetscViewerGetSingleton(viewer,&sviewer);CHKERRQ(ierr); 168b1a0a8a3SJed Brown if (osm->ksp) {ierr = KSPView(osm->ksp[0],sviewer);CHKERRQ(ierr);} 169b1a0a8a3SJed Brown ierr = PetscViewerRestoreSingleton(viewer,&sviewer);CHKERRQ(ierr); 170b1a0a8a3SJed Brown } else { 171f746d493SDmitry Karpeev SETERRQ1(((PetscObject)pc)->comm,PETSC_ERR_SUP,"Viewer type %s not supported for PCGASM",((PetscObject)viewer)->type_name); 172b1a0a8a3SJed Brown } 173b1a0a8a3SJed Brown ierr = PetscViewerFlush(viewer); CHKERRQ(ierr); 174af538404SDmitry Karpeev if(print_subdomains) { 175af538404SDmitry Karpeev ierr = PCGASMPrintSubdomains(pc); CHKERRQ(ierr); 176af538404SDmitry Karpeev } 177b1a0a8a3SJed Brown PetscFunctionReturn(0); 178b1a0a8a3SJed Brown } 179b1a0a8a3SJed Brown 180af538404SDmitry Karpeev 181af538404SDmitry Karpeev 182af538404SDmitry Karpeev 183af538404SDmitry Karpeev 184b1a0a8a3SJed Brown #undef __FUNCT__ 185f746d493SDmitry Karpeev #define __FUNCT__ "PCSetUp_GASM" 186f746d493SDmitry Karpeev static PetscErrorCode PCSetUp_GASM(PC pc) 187b1a0a8a3SJed Brown { 188f746d493SDmitry Karpeev PC_GASM *osm = (PC_GASM*)pc->data; 189b1a0a8a3SJed Brown PetscErrorCode ierr; 190b1a0a8a3SJed Brown PetscBool symset,flg; 19188389755SJed Brown PetscInt i; 192c10bc1a1SDmitry Karpeev PetscMPIInt rank, size; 193b1a0a8a3SJed Brown MatReuse scall = MAT_REUSE_MATRIX; 194b1a0a8a3SJed Brown KSP ksp; 195b1a0a8a3SJed Brown PC subpc; 196b1a0a8a3SJed Brown const char *prefix,*pprefix; 197f746d493SDmitry Karpeev PetscInt dn; /* Number of indices in a single subdomain assigned to this processor. */ 198f746d493SDmitry Karpeev const PetscInt *didx; /* Indices from a single subdomain assigned to this processor. */ 199f746d493SDmitry Karpeev PetscInt ddn; /* Number of indices in all subdomains assigned to this processor. */ 200f746d493SDmitry Karpeev PetscInt *ddidx; /* Indices of all subdomains assigned to this processor. */ 201f746d493SDmitry Karpeev IS gid; /* Identity IS of the size of all subdomains assigned to this processor. */ 202f746d493SDmitry Karpeev Vec x,y; 203f746d493SDmitry Karpeev PetscScalar *gxarray, *gyarray; 2046d98aee9SDmitry Karpeev PetscInt gfirst, glast; 205b1a0a8a3SJed Brown 206b1a0a8a3SJed Brown PetscFunctionBegin; 207c10bc1a1SDmitry Karpeev ierr = MPI_Comm_size(((PetscObject)pc)->comm,&size);CHKERRQ(ierr); 208c10bc1a1SDmitry Karpeev ierr = MPI_Comm_rank(((PetscObject)pc)->comm,&rank);CHKERRQ(ierr); 209b1a0a8a3SJed Brown if (!pc->setupcalled) { 210b1a0a8a3SJed Brown 211b1a0a8a3SJed Brown if (!osm->type_set) { 212b1a0a8a3SJed Brown ierr = MatIsSymmetricKnown(pc->pmat,&symset,&flg);CHKERRQ(ierr); 213f746d493SDmitry Karpeev if (symset && flg) { osm->type = PC_GASM_BASIC; } 214b1a0a8a3SJed Brown } 215b1a0a8a3SJed Brown 21644fe18e5SDmitry Karpeev if (osm->N == PETSC_DECIDE && osm->n < 1) { 217b1a0a8a3SJed Brown /* no subdomains given, use one per processor */ 21844fe18e5SDmitry Karpeev osm->nmax = osm->n = 1; 219b1a0a8a3SJed Brown ierr = MPI_Comm_size(((PetscObject)pc)->comm,&size);CHKERRQ(ierr); 220f746d493SDmitry Karpeev osm->N = size; 221f746d493SDmitry Karpeev } else if (osm->N == PETSC_DECIDE) { 222b1a0a8a3SJed Brown PetscInt inwork[2], outwork[2]; 223f746d493SDmitry Karpeev /* determine global number of subdomains and the max number of local subdomains */ 224f746d493SDmitry Karpeev inwork[0] = inwork[1] = osm->n; 225b1a0a8a3SJed Brown ierr = MPI_Allreduce(inwork,outwork,1,MPIU_2INT,PetscMaxSum_Op,((PetscObject)pc)->comm);CHKERRQ(ierr); 226f746d493SDmitry Karpeev osm->nmax = outwork[0]; 227f746d493SDmitry Karpeev osm->N = outwork[1]; 228b1a0a8a3SJed Brown } 229b1a0a8a3SJed Brown if (!osm->is){ /* create the index sets */ 230f746d493SDmitry Karpeev ierr = PCGASMCreateSubdomains(pc->pmat,osm->n,&osm->is);CHKERRQ(ierr); 231b1a0a8a3SJed Brown } 23293c1ec32SDmitry Karpeev if (!osm->is_local) { 23393c1ec32SDmitry Karpeev /* 23493c1ec32SDmitry Karpeev This indicates that osm->is should define a nonoverlapping decomposition 23593c1ec32SDmitry Karpeev (there is no way to really guarantee that if subdomains are set by the user through PCGASMSetLocalSubdomains, 23693c1ec32SDmitry Karpeev but the assumption is that either the user does the right thing, or subdomains in ossm->is have been created 23793c1ec32SDmitry Karpeev via PCGASMCreateSubdomains, which guarantees a nonoverlapping decomposition). 23893c1ec32SDmitry Karpeev Therefore, osm->is will be used to define osm->is_local. 23993c1ec32SDmitry Karpeev If a nonzero overlap has been requested by the user, then osm->is will be expanded and will overlap, 24093c1ec32SDmitry Karpeev so osm->is_local should obtain a copy of osm->is while they are still (presumably) nonoverlapping. 24193c1ec32SDmitry Karpeev Otherwise (no overlap has been requested), osm->is_local are simply aliases for osm->is. 24293c1ec32SDmitry Karpeev */ 243f746d493SDmitry Karpeev ierr = PetscMalloc(osm->n*sizeof(IS),&osm->is_local);CHKERRQ(ierr); 244f746d493SDmitry Karpeev for (i=0; i<osm->n; i++) { 245b1a0a8a3SJed Brown if (osm->overlap > 0) { /* With positive overlap, osm->is[i] will be modified */ 246b1a0a8a3SJed Brown ierr = ISDuplicate(osm->is[i],&osm->is_local[i]);CHKERRQ(ierr); 247b1a0a8a3SJed Brown ierr = ISCopy(osm->is[i],osm->is_local[i]);CHKERRQ(ierr); 248b1a0a8a3SJed Brown } else { 249b1a0a8a3SJed Brown ierr = PetscObjectReference((PetscObject)osm->is[i]);CHKERRQ(ierr); 250b1a0a8a3SJed Brown osm->is_local[i] = osm->is[i]; 251b1a0a8a3SJed Brown } 252b1a0a8a3SJed Brown } 253b1a0a8a3SJed Brown } 25493c1ec32SDmitry Karpeev /* Beyond this point osm->is_local is not null. */ 25593c1ec32SDmitry Karpeev if (osm->overlap > 0) { 25693c1ec32SDmitry Karpeev /* Extend the "overlapping" regions by a number of steps */ 25793c1ec32SDmitry Karpeev ierr = MatIncreaseOverlap(pc->pmat,osm->n,osm->is,osm->overlap);CHKERRQ(ierr); 25893c1ec32SDmitry Karpeev } 259b1a0a8a3SJed Brown ierr = PCGetOptionsPrefix(pc,&prefix);CHKERRQ(ierr); 260b1a0a8a3SJed Brown flg = PETSC_FALSE; 261f746d493SDmitry Karpeev ierr = PetscOptionsGetBool(prefix,"-pc_gasm_print_subdomains",&flg,PETSC_NULL);CHKERRQ(ierr); 262f746d493SDmitry Karpeev if (flg) { ierr = PCGASMPrintSubdomains(pc);CHKERRQ(ierr); } 263b1a0a8a3SJed Brown 264b1a0a8a3SJed Brown if (osm->sort_indices) { 265f746d493SDmitry Karpeev for (i=0; i<osm->n; i++) { 266b1a0a8a3SJed Brown ierr = ISSort(osm->is[i]);CHKERRQ(ierr); 267b1a0a8a3SJed Brown ierr = ISSort(osm->is_local[i]);CHKERRQ(ierr); 268b1a0a8a3SJed Brown } 269b1a0a8a3SJed Brown } 270f746d493SDmitry Karpeev /* Merge the ISs, create merged vectors and scatter contexts. */ 27193c1ec32SDmitry Karpeev /* Restriction ISs. */ 272f746d493SDmitry Karpeev ddn = 0; 273f746d493SDmitry Karpeev for (i=0; i<osm->n; i++) { 274f746d493SDmitry Karpeev ierr = ISGetLocalSize(osm->is[i],&dn); CHKERRQ(ierr); 275f746d493SDmitry Karpeev ddn += dn; 276f746d493SDmitry Karpeev } 277f746d493SDmitry Karpeev ierr = PetscMalloc(ddn*sizeof(PetscInt), &ddidx); CHKERRQ(ierr); 278f746d493SDmitry Karpeev ddn = 0; 279f746d493SDmitry Karpeev for (i=0; i<osm->n; i++) { 280f746d493SDmitry Karpeev ierr = ISGetLocalSize(osm->is[i],&dn); CHKERRQ(ierr); 281f746d493SDmitry Karpeev ierr = ISGetIndices(osm->is[i],&didx); CHKERRQ(ierr); 282f746d493SDmitry Karpeev ierr = PetscMemcpy(ddidx+ddn, didx, sizeof(PetscInt)*dn); CHKERRQ(ierr); 283f746d493SDmitry Karpeev ierr = ISRestoreIndices(osm->is[i], &didx); CHKERRQ(ierr); 28493c1ec32SDmitry Karpeev ddn += dn; 285f746d493SDmitry Karpeev } 286f746d493SDmitry Karpeev ierr = ISCreateGeneral(((PetscObject)(pc))->comm, ddn, ddidx, PETSC_OWN_POINTER, &osm->gis); CHKERRQ(ierr); 287f746d493SDmitry Karpeev ierr = MatGetVecs(pc->pmat,&x,&y);CHKERRQ(ierr); 288f746d493SDmitry Karpeev ierr = VecCreateMPI(((PetscObject)pc)->comm, ddn, PETSC_DECIDE, &osm->gx); CHKERRQ(ierr); 289f746d493SDmitry Karpeev ierr = VecDuplicate(osm->gx,&osm->gy); CHKERRQ(ierr); 2906d98aee9SDmitry Karpeev ierr = VecGetOwnershipRange(osm->gx, &gfirst, &glast); CHKERRQ(ierr); 2916d98aee9SDmitry Karpeev ierr = ISCreateStride(((PetscObject)pc)->comm,ddn,gfirst,1, &gid); CHKERRQ(ierr); 292f746d493SDmitry Karpeev ierr = VecScatterCreate(x,osm->gis,osm->gx,gid, &(osm->grestriction)); CHKERRQ(ierr); 293f746d493SDmitry Karpeev ierr = ISDestroy(gid); CHKERRQ(ierr); 29493c1ec32SDmitry Karpeev /* Prolongation ISs */ 29581a5c4aaSDmitry Karpeev { PetscInt dn_local; /* Number of indices in the local part of a single domain assigned to this processor. */ 296f746d493SDmitry Karpeev const PetscInt *didx_local; /* Global indices from the local part of a single domain assigned to this processor. */ 297f746d493SDmitry Karpeev PetscInt ddn_local; /* Number of indices in the local part of the disjoint union all domains assigned to this processor. */ 298f746d493SDmitry Karpeev PetscInt *ddidx_local; /* Global indices of the local part of the disjoint union of all domains assigned to this processor. */ 299f746d493SDmitry Karpeev /**/ 30093c1ec32SDmitry Karpeev ISLocalToGlobalMapping ltog; /* Map from global to local indices on the disjoint union of subdomains: "local" ind's run from 0 to ddn-1. */ 30193c1ec32SDmitry Karpeev PetscInt *ddidx_llocal; /* Mapped local indices of the disjoint union of local parts of subdomains. */ 302f746d493SDmitry Karpeev PetscInt ddn_llocal; /* Number of indices in ddidx_llocal; must equal ddn_local, or else gis_local is not a sub-IS of gis. */ 303f746d493SDmitry Karpeev IS gis_llocal; /* IS with ddidx_llocal indices. */ 304f746d493SDmitry Karpeev PetscInt j; 305f746d493SDmitry Karpeev ddn_local = 0; 306f746d493SDmitry Karpeev for (i=0; i<osm->n; i++) { 307f746d493SDmitry Karpeev ierr = ISGetLocalSize(osm->is_local[i],&dn_local); CHKERRQ(ierr); 308f746d493SDmitry Karpeev ddn_local += dn_local; 309f746d493SDmitry Karpeev } 310f746d493SDmitry Karpeev ierr = PetscMalloc(ddn_local*sizeof(PetscInt), &ddidx_local); CHKERRQ(ierr); 311f746d493SDmitry Karpeev ddn_local = 0; 312f746d493SDmitry Karpeev for (i=0; i<osm->n; i++) { 313f746d493SDmitry Karpeev ierr = ISGetLocalSize(osm->is_local[i],&dn_local); CHKERRQ(ierr); 314f746d493SDmitry Karpeev ierr = ISGetIndices(osm->is_local[i],&didx_local); CHKERRQ(ierr); 315f746d493SDmitry Karpeev ierr = PetscMemcpy(ddidx_local+ddn_local, didx_local, sizeof(PetscInt)*dn_local); CHKERRQ(ierr); 316f746d493SDmitry Karpeev ierr = ISRestoreIndices(osm->is_local[i], &didx_local); CHKERRQ(ierr); 317f746d493SDmitry Karpeev ddn_local += dn_local; 318f746d493SDmitry Karpeev } 319ab3e923fSDmitry Karpeev ierr = PetscMalloc(sizeof(PetscInt)*ddn_local, &ddidx_llocal); CHKERRQ(ierr); 320f746d493SDmitry Karpeev ierr = ISCreateGeneral(((PetscObject)pc)->comm, ddn_local, ddidx_local, PETSC_OWN_POINTER, &(osm->gis_local)); CHKERRQ(ierr); 321f746d493SDmitry Karpeev ierr = ISLocalToGlobalMappingCreateIS(osm->gis,<og);CHKERRQ(ierr); 32281a5c4aaSDmitry Karpeev ierr = ISGlobalToLocalMappingApply(ltog,IS_GTOLM_DROP,ddn_local,ddidx_local,&ddn_llocal,ddidx_llocal);CHKERRQ(ierr); 323b1a0a8a3SJed Brown ierr = ISLocalToGlobalMappingDestroy(ltog);CHKERRQ(ierr); 32493c1ec32SDmitry Karpeev if (ddn_llocal != ddn_local) SETERRQ1(PETSC_COMM_SELF,PETSC_ERR_PLIB,"gis_local contains %D indices outside of gis", ddn_llocal - ddn_local); 325f746d493SDmitry Karpeev /* Now convert these localized indices into the global indices into the merged output vector. */ 3266d98aee9SDmitry Karpeev ierr = VecGetOwnershipRange(osm->gy, &gfirst, &glast); CHKERRQ(ierr); 327f746d493SDmitry Karpeev for(j=0; j < ddn_llocal; ++j) { 3286d98aee9SDmitry Karpeev ddidx_llocal[j] += gfirst; 329f746d493SDmitry Karpeev } 330f746d493SDmitry Karpeev ierr = ISCreateGeneral(PETSC_COMM_SELF,ddn_llocal,ddidx_llocal,PETSC_OWN_POINTER,&gis_llocal); CHKERRQ(ierr); 331f746d493SDmitry Karpeev ierr = VecScatterCreate(y,osm->gis_local,osm->gy,gis_llocal,&osm->gprolongation); CHKERRQ(ierr); 332f746d493SDmitry Karpeev ierr = ISDestroy(gis_llocal);CHKERRQ(ierr); 333b1a0a8a3SJed Brown } 334f746d493SDmitry Karpeev /* Create the subdomain work vectors. */ 335f746d493SDmitry Karpeev ierr = PetscMalloc(osm->n*sizeof(Vec),&osm->x);CHKERRQ(ierr); 336f746d493SDmitry Karpeev ierr = PetscMalloc(osm->n*sizeof(Vec),&osm->y);CHKERRQ(ierr); 3376d98aee9SDmitry Karpeev ierr = VecGetOwnershipRange(osm->gx, &gfirst, &glast);CHKERRQ(ierr); 338f746d493SDmitry Karpeev ierr = VecGetArray(osm->gx, &gxarray); CHKERRQ(ierr); 339f746d493SDmitry Karpeev ierr = VecGetArray(osm->gy, &gyarray); CHKERRQ(ierr); 340f746d493SDmitry Karpeev for (i=0, ddn=0; i<osm->n; ++i, ddn += dn) { 34186b96d36SDmitry Karpeev PetscInt dN; 342f746d493SDmitry Karpeev ierr = ISGetLocalSize(osm->is[i],&dn);CHKERRQ(ierr); 34386b96d36SDmitry Karpeev ierr = ISGetSize(osm->is[i],&dN);CHKERRQ(ierr); 34486b96d36SDmitry Karpeev ierr = VecCreateMPIWithArray(((PetscObject)(osm->is[i]))->comm,dn,dN,gxarray+ddn,&osm->x[i]);CHKERRQ(ierr); 34586b96d36SDmitry Karpeev ierr = VecCreateMPIWithArray(((PetscObject)(osm->is[i]))->comm,dn,dN,gyarray+ddn,&osm->y[i]);CHKERRQ(ierr); 346b1a0a8a3SJed Brown } 347f746d493SDmitry Karpeev ierr = VecRestoreArray(osm->gx, &gxarray); CHKERRQ(ierr); 348f746d493SDmitry Karpeev ierr = VecRestoreArray(osm->gy, &gyarray); CHKERRQ(ierr); 349f746d493SDmitry Karpeev ierr = VecDestroy(x); CHKERRQ(ierr); 350f746d493SDmitry Karpeev ierr = VecDestroy(y); CHKERRQ(ierr); 351b1a0a8a3SJed Brown /* Create the local solvers */ 352f746d493SDmitry Karpeev ierr = PetscMalloc(osm->n*sizeof(KSP *),&osm->ksp);CHKERRQ(ierr); 35344fe18e5SDmitry Karpeev for (i=0; i<osm->n; i++) { /* KSPs are local */ 35486b96d36SDmitry Karpeev ierr = KSPCreate(((PetscObject)(osm->is[i]))->comm,&ksp);CHKERRQ(ierr); 355b1a0a8a3SJed Brown ierr = PetscLogObjectParent(pc,ksp);CHKERRQ(ierr); 356b1a0a8a3SJed Brown ierr = PetscObjectIncrementTabLevel((PetscObject)ksp,(PetscObject)pc,1);CHKERRQ(ierr); 357b1a0a8a3SJed Brown ierr = KSPSetType(ksp,KSPPREONLY);CHKERRQ(ierr); 358b1a0a8a3SJed Brown ierr = KSPGetPC(ksp,&subpc);CHKERRQ(ierr); 359b1a0a8a3SJed Brown ierr = PCGetOptionsPrefix(pc,&prefix);CHKERRQ(ierr); 360b1a0a8a3SJed Brown ierr = KSPSetOptionsPrefix(ksp,prefix);CHKERRQ(ierr); 361b1a0a8a3SJed Brown ierr = KSPAppendOptionsPrefix(ksp,"sub_");CHKERRQ(ierr); 362b1a0a8a3SJed Brown osm->ksp[i] = ksp; 363b1a0a8a3SJed Brown } 364b1a0a8a3SJed Brown scall = MAT_INITIAL_MATRIX; 365b1a0a8a3SJed Brown 366b1a0a8a3SJed Brown } else { 367b1a0a8a3SJed Brown /* 368b1a0a8a3SJed Brown Destroy the blocks from the previous iteration 369b1a0a8a3SJed Brown */ 370b1a0a8a3SJed Brown if (pc->flag == DIFFERENT_NONZERO_PATTERN) { 371f746d493SDmitry Karpeev ierr = MatDestroyMatrices(osm->n,&osm->pmat);CHKERRQ(ierr); 372b1a0a8a3SJed Brown scall = MAT_INITIAL_MATRIX; 373b1a0a8a3SJed Brown } 374b1a0a8a3SJed Brown } 375b1a0a8a3SJed Brown 376b1a0a8a3SJed Brown /* 377f746d493SDmitry Karpeev Extract out the submatrices. 378b1a0a8a3SJed Brown */ 37981a5c4aaSDmitry Karpeev if(size > 1) { 3806d42056aSDmitry Karpeev ierr = MatGetSubMatricesParallel(pc->pmat,osm->n,osm->is, osm->is,scall,&osm->pmat);CHKERRQ(ierr); 38181a5c4aaSDmitry Karpeev } 38281a5c4aaSDmitry Karpeev else { 38381a5c4aaSDmitry Karpeev ierr = MatGetSubMatrices(pc->pmat,osm->n,osm->is, osm->is,scall,&osm->pmat);CHKERRQ(ierr); 38481a5c4aaSDmitry Karpeev } 385b1a0a8a3SJed Brown if (scall == MAT_INITIAL_MATRIX) { 386b1a0a8a3SJed Brown ierr = PetscObjectGetOptionsPrefix((PetscObject)pc->pmat,&pprefix);CHKERRQ(ierr); 387f746d493SDmitry Karpeev for (i=0; i<osm->n; i++) { 388b1a0a8a3SJed Brown ierr = PetscLogObjectParent(pc,osm->pmat[i]);CHKERRQ(ierr); 389b1a0a8a3SJed Brown ierr = PetscObjectSetOptionsPrefix((PetscObject)osm->pmat[i],pprefix);CHKERRQ(ierr); 390b1a0a8a3SJed Brown } 391b1a0a8a3SJed Brown } 392b1a0a8a3SJed Brown 393b1a0a8a3SJed Brown /* Return control to the user so that the submatrices can be modified (e.g., to apply 394b1a0a8a3SJed Brown different boundary conditions for the submatrices than for the global problem) */ 395c10bc1a1SDmitry Karpeev ierr = PCModifySubMatrices(pc,osm->n,osm->is,osm->is,osm->pmat,pc->modifysubmatricesP);CHKERRQ(ierr); 396b1a0a8a3SJed Brown 397b1a0a8a3SJed Brown /* 398f746d493SDmitry Karpeev Loop over submatrices putting them into local ksp 399b1a0a8a3SJed Brown */ 400f746d493SDmitry Karpeev for (i=0; i<osm->n; i++) { 401b1a0a8a3SJed Brown ierr = KSPSetOperators(osm->ksp[i],osm->pmat[i],osm->pmat[i],pc->flag);CHKERRQ(ierr); 402b1a0a8a3SJed Brown if (!pc->setupcalled) { 403b1a0a8a3SJed Brown ierr = KSPSetFromOptions(osm->ksp[i]);CHKERRQ(ierr); 404b1a0a8a3SJed Brown } 405b1a0a8a3SJed Brown } 406b1a0a8a3SJed Brown 407b1a0a8a3SJed Brown PetscFunctionReturn(0); 408b1a0a8a3SJed Brown } 409b1a0a8a3SJed Brown 410b1a0a8a3SJed Brown #undef __FUNCT__ 411f746d493SDmitry Karpeev #define __FUNCT__ "PCSetUpOnBlocks_GASM" 412f746d493SDmitry Karpeev static PetscErrorCode PCSetUpOnBlocks_GASM(PC pc) 413b1a0a8a3SJed Brown { 414f746d493SDmitry Karpeev PC_GASM *osm = (PC_GASM*)pc->data; 415b1a0a8a3SJed Brown PetscErrorCode ierr; 416b1a0a8a3SJed Brown PetscInt i; 417b1a0a8a3SJed Brown 418b1a0a8a3SJed Brown PetscFunctionBegin; 419f746d493SDmitry Karpeev for (i=0; i<osm->n; i++) { 420b1a0a8a3SJed Brown ierr = KSPSetUp(osm->ksp[i]);CHKERRQ(ierr); 421b1a0a8a3SJed Brown } 422b1a0a8a3SJed Brown PetscFunctionReturn(0); 423b1a0a8a3SJed Brown } 424b1a0a8a3SJed Brown 425b1a0a8a3SJed Brown #undef __FUNCT__ 426f746d493SDmitry Karpeev #define __FUNCT__ "PCApply_GASM" 427f746d493SDmitry Karpeev static PetscErrorCode PCApply_GASM(PC pc,Vec x,Vec y) 428b1a0a8a3SJed Brown { 429f746d493SDmitry Karpeev PC_GASM *osm = (PC_GASM*)pc->data; 430b1a0a8a3SJed Brown PetscErrorCode ierr; 431f746d493SDmitry Karpeev PetscInt i; 432b1a0a8a3SJed Brown ScatterMode forward = SCATTER_FORWARD,reverse = SCATTER_REVERSE; 433b1a0a8a3SJed Brown 434b1a0a8a3SJed Brown PetscFunctionBegin; 435b1a0a8a3SJed Brown /* 436b1a0a8a3SJed Brown Support for limiting the restriction or interpolation to only local 437b1a0a8a3SJed Brown subdomain values (leaving the other values 0). 438b1a0a8a3SJed Brown */ 439f746d493SDmitry Karpeev if (!(osm->type & PC_GASM_RESTRICT)) { 440b1a0a8a3SJed Brown forward = SCATTER_FORWARD_LOCAL; 441b1a0a8a3SJed Brown /* have to zero the work RHS since scatter may leave some slots empty */ 442f746d493SDmitry Karpeev ierr = VecZeroEntries(osm->gx); CHKERRQ(ierr); 443b1a0a8a3SJed Brown } 444f746d493SDmitry Karpeev if (!(osm->type & PC_GASM_INTERPOLATE)) { 445b1a0a8a3SJed Brown reverse = SCATTER_REVERSE_LOCAL; 446b1a0a8a3SJed Brown } 447b1a0a8a3SJed Brown 448f746d493SDmitry Karpeev ierr = VecScatterBegin(osm->grestriction,x,osm->gx,INSERT_VALUES,forward);CHKERRQ(ierr); 449b1a0a8a3SJed Brown ierr = VecZeroEntries(y);CHKERRQ(ierr); 450f746d493SDmitry Karpeev ierr = VecScatterEnd(osm->grestriction,x,osm->gx,INSERT_VALUES,forward);CHKERRQ(ierr); 45186b96d36SDmitry Karpeev /* do the subdomain solves */ 45286b96d36SDmitry Karpeev for (i=0; i<osm->n; ++i) { 453b1a0a8a3SJed Brown ierr = KSPSolve(osm->ksp[i],osm->x[i],osm->y[i]);CHKERRQ(ierr); 454b1a0a8a3SJed Brown } 455f746d493SDmitry Karpeev ierr = VecScatterBegin(osm->gprolongation,osm->gy,y,ADD_VALUES,reverse);CHKERRQ(ierr); 456f746d493SDmitry Karpeev ierr = VecScatterEnd(osm->gprolongation,osm->gy,y,ADD_VALUES,reverse);CHKERRQ(ierr); 457b1a0a8a3SJed Brown PetscFunctionReturn(0); 458b1a0a8a3SJed Brown } 459b1a0a8a3SJed Brown 460b1a0a8a3SJed Brown #undef __FUNCT__ 461f746d493SDmitry Karpeev #define __FUNCT__ "PCApplyTranspose_GASM" 462f746d493SDmitry Karpeev static PetscErrorCode PCApplyTranspose_GASM(PC pc,Vec x,Vec y) 463b1a0a8a3SJed Brown { 464f746d493SDmitry Karpeev PC_GASM *osm = (PC_GASM*)pc->data; 465b1a0a8a3SJed Brown PetscErrorCode ierr; 466f746d493SDmitry Karpeev PetscInt i; 467b1a0a8a3SJed Brown ScatterMode forward = SCATTER_FORWARD,reverse = SCATTER_REVERSE; 468b1a0a8a3SJed Brown 469b1a0a8a3SJed Brown PetscFunctionBegin; 470b1a0a8a3SJed Brown /* 471b1a0a8a3SJed Brown Support for limiting the restriction or interpolation to only local 472b1a0a8a3SJed Brown subdomain values (leaving the other values 0). 473b1a0a8a3SJed Brown 474f746d493SDmitry Karpeev Note: these are reversed from the PCApply_GASM() because we are applying the 475b1a0a8a3SJed Brown transpose of the three terms 476b1a0a8a3SJed Brown */ 477f746d493SDmitry Karpeev if (!(osm->type & PC_GASM_INTERPOLATE)) { 478b1a0a8a3SJed Brown forward = SCATTER_FORWARD_LOCAL; 479b1a0a8a3SJed Brown /* have to zero the work RHS since scatter may leave some slots empty */ 480f746d493SDmitry Karpeev ierr = VecZeroEntries(osm->gx);CHKERRQ(ierr); 481b1a0a8a3SJed Brown } 482f746d493SDmitry Karpeev if (!(osm->type & PC_GASM_RESTRICT)) { 483b1a0a8a3SJed Brown reverse = SCATTER_REVERSE_LOCAL; 484b1a0a8a3SJed Brown } 485b1a0a8a3SJed Brown 486ab3e923fSDmitry Karpeev ierr = VecScatterBegin(osm->grestriction,x,osm->gx,INSERT_VALUES,forward);CHKERRQ(ierr); 487b1a0a8a3SJed Brown ierr = VecZeroEntries(y);CHKERRQ(ierr); 488ab3e923fSDmitry Karpeev ierr = VecScatterEnd(osm->grestriction,x,osm->gx,INSERT_VALUES,forward);CHKERRQ(ierr); 489b1a0a8a3SJed Brown /* do the local solves */ 490ab3e923fSDmitry Karpeev for (i=0; i<osm->n; ++i) { /* Note that the solves are local, so we can go to osm->n, rather than osm->nmax. */ 491b1a0a8a3SJed Brown ierr = KSPSolveTranspose(osm->ksp[i],osm->x[i],osm->y[i]);CHKERRQ(ierr); 492b1a0a8a3SJed Brown } 493ab3e923fSDmitry Karpeev ierr = VecScatterBegin(osm->gprolongation,osm->gy,y,ADD_VALUES,reverse);CHKERRQ(ierr); 494ab3e923fSDmitry Karpeev ierr = VecScatterEnd(osm->gprolongation,osm->gy,y,ADD_VALUES,reverse);CHKERRQ(ierr); 495b1a0a8a3SJed Brown PetscFunctionReturn(0); 496b1a0a8a3SJed Brown } 497b1a0a8a3SJed Brown 498b1a0a8a3SJed Brown #undef __FUNCT__ 499f746d493SDmitry Karpeev #define __FUNCT__ "PCDestroy_GASM" 500f746d493SDmitry Karpeev static PetscErrorCode PCDestroy_GASM(PC pc) 501b1a0a8a3SJed Brown { 502f746d493SDmitry Karpeev PC_GASM *osm = (PC_GASM*)pc->data; 503b1a0a8a3SJed Brown PetscErrorCode ierr; 504b1a0a8a3SJed Brown PetscInt i; 505b1a0a8a3SJed Brown 506b1a0a8a3SJed Brown PetscFunctionBegin; 507b1a0a8a3SJed Brown if (osm->ksp) { 508f746d493SDmitry Karpeev for (i=0; i<osm->n; i++) { 509b1a0a8a3SJed Brown ierr = KSPDestroy(osm->ksp[i]);CHKERRQ(ierr); 510b1a0a8a3SJed Brown } 511b1a0a8a3SJed Brown ierr = PetscFree(osm->ksp);CHKERRQ(ierr); 512b1a0a8a3SJed Brown } 513b1a0a8a3SJed Brown if (osm->pmat) { 514f746d493SDmitry Karpeev if (osm->n > 0) { 515ab3e923fSDmitry Karpeev ierr = MatDestroyMatrices(osm->n,&osm->pmat);CHKERRQ(ierr); 516b1a0a8a3SJed Brown } 517b1a0a8a3SJed Brown } 518f746d493SDmitry Karpeev for (i=0; i<osm->n; i++) { 519b1a0a8a3SJed Brown ierr = VecDestroy(osm->x[i]);CHKERRQ(ierr); 520b1a0a8a3SJed Brown ierr = VecDestroy(osm->y[i]);CHKERRQ(ierr); 521b1a0a8a3SJed Brown } 522b1a0a8a3SJed Brown ierr = PetscFree(osm->x);CHKERRQ(ierr); 523b1a0a8a3SJed Brown ierr = PetscFree(osm->y);CHKERRQ(ierr); 524f746d493SDmitry Karpeev ierr = VecDestroy(osm->gx); CHKERRQ(ierr); 525ab3e923fSDmitry Karpeev ierr = VecDestroy(osm->gy); CHKERRQ(ierr); 526ab3e923fSDmitry Karpeev 527ab3e923fSDmitry Karpeev ierr = VecScatterDestroy(osm->grestriction); CHKERRQ(ierr); 528ab3e923fSDmitry Karpeev ierr = VecScatterDestroy(osm->gprolongation); CHKERRQ(ierr); 529f746d493SDmitry Karpeev 530b1a0a8a3SJed Brown if (osm->is) { 531ab3e923fSDmitry Karpeev ierr = PCGASMDestroySubdomains(osm->n,osm->is,osm->is_local);CHKERRQ(ierr); 532b1a0a8a3SJed Brown } 533b1a0a8a3SJed Brown ierr = PetscFree(osm);CHKERRQ(ierr); 534b1a0a8a3SJed Brown PetscFunctionReturn(0); 535b1a0a8a3SJed Brown } 536b1a0a8a3SJed Brown 537b1a0a8a3SJed Brown #undef __FUNCT__ 538f746d493SDmitry Karpeev #define __FUNCT__ "PCSetFromOptions_GASM" 539ab3e923fSDmitry Karpeev static PetscErrorCode PCSetFromOptions_GASM(PC pc) { 540f746d493SDmitry Karpeev PC_GASM *osm = (PC_GASM*)pc->data; 541b1a0a8a3SJed Brown PetscErrorCode ierr; 542b1a0a8a3SJed Brown PetscInt blocks,ovl; 543b1a0a8a3SJed Brown PetscBool symset,flg; 544f746d493SDmitry Karpeev PCGASMType gasmtype; 545b1a0a8a3SJed Brown 546b1a0a8a3SJed Brown PetscFunctionBegin; 547b1a0a8a3SJed Brown /* set the type to symmetric if matrix is symmetric */ 548b1a0a8a3SJed Brown if (!osm->type_set && pc->pmat) { 549b1a0a8a3SJed Brown ierr = MatIsSymmetricKnown(pc->pmat,&symset,&flg);CHKERRQ(ierr); 550f746d493SDmitry Karpeev if (symset && flg) { osm->type = PC_GASM_BASIC; } 551b1a0a8a3SJed Brown } 55244fe18e5SDmitry Karpeev ierr = PetscOptionsHead("Generalized additive Schwarz options");CHKERRQ(ierr); 553f746d493SDmitry Karpeev ierr = PetscOptionsInt("-pc_gasm_blocks","Number of subdomains","PCGASMSetTotalSubdomains",osm->n,&blocks,&flg);CHKERRQ(ierr); 554ab3e923fSDmitry Karpeev if (flg) {ierr = PCGASMSetTotalSubdomains(pc,blocks);CHKERRQ(ierr); } 555f746d493SDmitry Karpeev ierr = PetscOptionsInt("-pc_gasm_overlap","Number of grid points overlap","PCGASMSetOverlap",osm->overlap,&ovl,&flg);CHKERRQ(ierr); 556f746d493SDmitry Karpeev if (flg) {ierr = PCGASMSetOverlap(pc,ovl);CHKERRQ(ierr); } 557b1a0a8a3SJed Brown flg = PETSC_FALSE; 558f746d493SDmitry Karpeev ierr = PetscOptionsEnum("-pc_gasm_type","Type of restriction/extension","PCGASMSetType",PCGASMTypes,(PetscEnum)osm->type,(PetscEnum*)&gasmtype,&flg);CHKERRQ(ierr); 559f746d493SDmitry Karpeev if (flg) {ierr = PCGASMSetType(pc,gasmtype);CHKERRQ(ierr); } 560b1a0a8a3SJed Brown ierr = PetscOptionsTail();CHKERRQ(ierr); 561b1a0a8a3SJed Brown PetscFunctionReturn(0); 562b1a0a8a3SJed Brown } 563b1a0a8a3SJed Brown 564b1a0a8a3SJed Brown /*------------------------------------------------------------------------------------*/ 565b1a0a8a3SJed Brown 566b1a0a8a3SJed Brown EXTERN_C_BEGIN 567b1a0a8a3SJed Brown #undef __FUNCT__ 568f746d493SDmitry Karpeev #define __FUNCT__ "PCGASMSetLocalSubdomains_GASM" 5697087cfbeSBarry Smith PetscErrorCode PCGASMSetLocalSubdomains_GASM(PC pc,PetscInt n,IS is[],IS is_local[]) 570b1a0a8a3SJed Brown { 571f746d493SDmitry Karpeev PC_GASM *osm = (PC_GASM*)pc->data; 572b1a0a8a3SJed Brown PetscErrorCode ierr; 573b1a0a8a3SJed Brown PetscInt i; 574b1a0a8a3SJed Brown 575b1a0a8a3SJed Brown PetscFunctionBegin; 576b1a0a8a3SJed Brown if (n < 1) SETERRQ1(PETSC_COMM_SELF,PETSC_ERR_ARG_OUTOFRANGE,"Each process must have 1 or more blocks, n = %D",n); 577f746d493SDmitry Karpeev if (pc->setupcalled && (n != osm->n || is)) SETERRQ(((PetscObject)pc)->comm,PETSC_ERR_ARG_WRONGSTATE,"PCGASMSetLocalSubdomains() should be called before calling PCSetUp()."); 578b1a0a8a3SJed Brown 579b1a0a8a3SJed Brown if (!pc->setupcalled) { 58093c1ec32SDmitry Karpeev osm->n = n; 58193c1ec32SDmitry Karpeev osm->is = 0; 58293c1ec32SDmitry Karpeev osm->is_local = 0; 583b1a0a8a3SJed Brown if (is) { 584b1a0a8a3SJed Brown for (i=0; i<n; i++) {ierr = PetscObjectReference((PetscObject)is[i]);CHKERRQ(ierr);} 585b1a0a8a3SJed Brown } 586b1a0a8a3SJed Brown if (is_local) { 587b1a0a8a3SJed Brown for (i=0; i<n; i++) {ierr = PetscObjectReference((PetscObject)is_local[i]);CHKERRQ(ierr);} 588b1a0a8a3SJed Brown } 589b1a0a8a3SJed Brown if (osm->is) { 590ab3e923fSDmitry Karpeev ierr = PCGASMDestroySubdomains(osm->n,osm->is,osm->is_local);CHKERRQ(ierr); 591b1a0a8a3SJed Brown } 592b1a0a8a3SJed Brown if (is) { 593b1a0a8a3SJed Brown ierr = PetscMalloc(n*sizeof(IS),&osm->is);CHKERRQ(ierr); 594b1a0a8a3SJed Brown for (i=0; i<n; i++) { osm->is[i] = is[i]; } 595f746d493SDmitry Karpeev /* Flag indicating that the user has set overlapping subdomains so PCGASM should not increase their size. */ 596b1a0a8a3SJed Brown osm->overlap = -1; 597b1a0a8a3SJed Brown } 598b1a0a8a3SJed Brown if (is_local) { 599b1a0a8a3SJed Brown ierr = PetscMalloc(n*sizeof(IS),&osm->is_local);CHKERRQ(ierr); 600b1a0a8a3SJed Brown for (i=0; i<n; i++) { osm->is_local[i] = is_local[i]; } 601b1a0a8a3SJed Brown } 602b1a0a8a3SJed Brown } 603b1a0a8a3SJed Brown PetscFunctionReturn(0); 604b1a0a8a3SJed Brown } 605b1a0a8a3SJed Brown EXTERN_C_END 606b1a0a8a3SJed Brown 607b1a0a8a3SJed Brown EXTERN_C_BEGIN 608b1a0a8a3SJed Brown #undef __FUNCT__ 609f746d493SDmitry Karpeev #define __FUNCT__ "PCGASMSetTotalSubdomains_GASM" 6107087cfbeSBarry Smith PetscErrorCode PCGASMSetTotalSubdomains_GASM(PC pc,PetscInt N) { 611f746d493SDmitry Karpeev PC_GASM *osm = (PC_GASM*)pc->data; 612b1a0a8a3SJed Brown PetscErrorCode ierr; 613b1a0a8a3SJed Brown PetscMPIInt rank,size; 614b1a0a8a3SJed Brown PetscInt n; 615b1a0a8a3SJed Brown 616b1a0a8a3SJed Brown PetscFunctionBegin; 617b1a0a8a3SJed Brown if (N < 1) SETERRQ1(((PetscObject)pc)->comm,PETSC_ERR_ARG_OUTOFRANGE,"Number of total blocks must be > 0, N = %D",N); 618b1a0a8a3SJed Brown 619b1a0a8a3SJed Brown /* 620b1a0a8a3SJed Brown Split the subdomains equally among all processors 621b1a0a8a3SJed Brown */ 622b1a0a8a3SJed Brown ierr = MPI_Comm_rank(((PetscObject)pc)->comm,&rank);CHKERRQ(ierr); 623b1a0a8a3SJed Brown ierr = MPI_Comm_size(((PetscObject)pc)->comm,&size);CHKERRQ(ierr); 624b1a0a8a3SJed Brown n = N/size + ((N % size) > rank); 625b1a0a8a3SJed Brown if (!n) SETERRQ3(PETSC_COMM_SELF,PETSC_ERR_ARG_OUTOFRANGE,"Process %d must have at least one block: total processors %d total blocks %D",(int)rank,(int)size,N); 626f746d493SDmitry Karpeev if (pc->setupcalled && n != osm->n) SETERRQ(PETSC_COMM_SELF,PETSC_ERR_ARG_WRONGSTATE,"PCGASMSetTotalSubdomains() should be called before PCSetUp()."); 627b1a0a8a3SJed Brown if (!pc->setupcalled) { 628b1a0a8a3SJed Brown if (osm->is) { 629ab3e923fSDmitry Karpeev ierr = PCGASMDestroySubdomains(osm->n,osm->is,osm->is_local);CHKERRQ(ierr); 630b1a0a8a3SJed Brown } 63193c1ec32SDmitry Karpeev osm->N = N; 632f746d493SDmitry Karpeev osm->n = n; 633b1a0a8a3SJed Brown osm->is = 0; 634b1a0a8a3SJed Brown osm->is_local = 0; 635b1a0a8a3SJed Brown } 636b1a0a8a3SJed Brown PetscFunctionReturn(0); 637ab3e923fSDmitry Karpeev }/* PCGASMSetTotalSubdomains_GASM() */ 638b1a0a8a3SJed Brown EXTERN_C_END 639b1a0a8a3SJed Brown 640b1a0a8a3SJed Brown EXTERN_C_BEGIN 641b1a0a8a3SJed Brown #undef __FUNCT__ 642f746d493SDmitry Karpeev #define __FUNCT__ "PCGASMSetOverlap_GASM" 6437087cfbeSBarry Smith PetscErrorCode PCGASMSetOverlap_GASM(PC pc,PetscInt ovl) 644b1a0a8a3SJed Brown { 645f746d493SDmitry Karpeev PC_GASM *osm = (PC_GASM*)pc->data; 646b1a0a8a3SJed Brown 647b1a0a8a3SJed Brown PetscFunctionBegin; 648b1a0a8a3SJed Brown if (ovl < 0) SETERRQ(((PetscObject)pc)->comm,PETSC_ERR_ARG_OUTOFRANGE,"Negative overlap value requested"); 649f746d493SDmitry Karpeev if (pc->setupcalled && ovl != osm->overlap) SETERRQ(((PetscObject)pc)->comm,PETSC_ERR_ARG_WRONGSTATE,"PCGASMSetOverlap() should be called before PCSetUp()."); 650b1a0a8a3SJed Brown if (!pc->setupcalled) { 651b1a0a8a3SJed Brown osm->overlap = ovl; 652b1a0a8a3SJed Brown } 653b1a0a8a3SJed Brown PetscFunctionReturn(0); 654b1a0a8a3SJed Brown } 655b1a0a8a3SJed Brown EXTERN_C_END 656b1a0a8a3SJed Brown 657b1a0a8a3SJed Brown EXTERN_C_BEGIN 658b1a0a8a3SJed Brown #undef __FUNCT__ 659f746d493SDmitry Karpeev #define __FUNCT__ "PCGASMSetType_GASM" 6607087cfbeSBarry Smith PetscErrorCode PCGASMSetType_GASM(PC pc,PCGASMType type) 661b1a0a8a3SJed Brown { 662f746d493SDmitry Karpeev PC_GASM *osm = (PC_GASM*)pc->data; 663b1a0a8a3SJed Brown 664b1a0a8a3SJed Brown PetscFunctionBegin; 665b1a0a8a3SJed Brown osm->type = type; 666b1a0a8a3SJed Brown osm->type_set = PETSC_TRUE; 667b1a0a8a3SJed Brown PetscFunctionReturn(0); 668b1a0a8a3SJed Brown } 669b1a0a8a3SJed Brown EXTERN_C_END 670b1a0a8a3SJed Brown 671b1a0a8a3SJed Brown EXTERN_C_BEGIN 672b1a0a8a3SJed Brown #undef __FUNCT__ 673f746d493SDmitry Karpeev #define __FUNCT__ "PCGASMSetSortIndices_GASM" 6747087cfbeSBarry Smith PetscErrorCode PCGASMSetSortIndices_GASM(PC pc,PetscBool doSort) 675b1a0a8a3SJed Brown { 676f746d493SDmitry Karpeev PC_GASM *osm = (PC_GASM*)pc->data; 677b1a0a8a3SJed Brown 678b1a0a8a3SJed Brown PetscFunctionBegin; 679b1a0a8a3SJed Brown osm->sort_indices = doSort; 680b1a0a8a3SJed Brown PetscFunctionReturn(0); 681b1a0a8a3SJed Brown } 682b1a0a8a3SJed Brown EXTERN_C_END 683b1a0a8a3SJed Brown 684b1a0a8a3SJed Brown EXTERN_C_BEGIN 685b1a0a8a3SJed Brown #undef __FUNCT__ 686f746d493SDmitry Karpeev #define __FUNCT__ "PCGASMGetSubKSP_GASM" 68744fe18e5SDmitry Karpeev /* 68844fe18e5SDmitry Karpeev FIX: This routine might need to be modified once multiple ranks per subdomain are allowed. 68944fe18e5SDmitry Karpeev In particular, it would upset the global subdomain number calculation. 69044fe18e5SDmitry Karpeev */ 6917087cfbeSBarry Smith PetscErrorCode PCGASMGetSubKSP_GASM(PC pc,PetscInt *n,PetscInt *first,KSP **ksp) 692b1a0a8a3SJed Brown { 693f746d493SDmitry Karpeev PC_GASM *osm = (PC_GASM*)pc->data; 694b1a0a8a3SJed Brown PetscErrorCode ierr; 695b1a0a8a3SJed Brown 696b1a0a8a3SJed Brown PetscFunctionBegin; 697ab3e923fSDmitry Karpeev if (osm->n < 1) SETERRQ(((PetscObject)pc)->comm,PETSC_ERR_ORDER,"Need to call PCSetUP() on PC (or KSPSetUp() on the outer KSP object) before calling here"); 698b1a0a8a3SJed Brown 699ab3e923fSDmitry Karpeev if (n) { 700ab3e923fSDmitry Karpeev *n = osm->n; 701b1a0a8a3SJed Brown } 702ab3e923fSDmitry Karpeev if (first) { 703ab3e923fSDmitry Karpeev ierr = MPI_Scan(&osm->n,first,1,MPIU_INT,MPI_SUM,((PetscObject)pc)->comm);CHKERRQ(ierr); 704ab3e923fSDmitry Karpeev *first -= osm->n; 705b1a0a8a3SJed Brown } 706b1a0a8a3SJed Brown if (ksp) { 707b1a0a8a3SJed Brown /* Assume that local solves are now different; not necessarily 708f746d493SDmitry Karpeev true though! This flag is used only for PCView_GASM() */ 709b1a0a8a3SJed Brown *ksp = osm->ksp; 710b1a0a8a3SJed Brown osm->same_local_solves = PETSC_FALSE; 711b1a0a8a3SJed Brown } 712b1a0a8a3SJed Brown PetscFunctionReturn(0); 713ab3e923fSDmitry Karpeev }/* PCGASMGetSubKSP_GASM() */ 714b1a0a8a3SJed Brown EXTERN_C_END 715b1a0a8a3SJed Brown 716b1a0a8a3SJed Brown 717b1a0a8a3SJed Brown #undef __FUNCT__ 718f746d493SDmitry Karpeev #define __FUNCT__ "PCGASMSetLocalSubdomains" 719b1a0a8a3SJed Brown /*@C 720f746d493SDmitry Karpeev PCGASMSetLocalSubdomains - Sets the local subdomains (for this processor 721b1a0a8a3SJed Brown only) for the additive Schwarz preconditioner. 722b1a0a8a3SJed Brown 723b1a0a8a3SJed Brown Collective on PC 724b1a0a8a3SJed Brown 725b1a0a8a3SJed Brown Input Parameters: 726b1a0a8a3SJed Brown + pc - the preconditioner context 727b1a0a8a3SJed Brown . n - the number of subdomains for this processor (default value = 1) 728b1a0a8a3SJed Brown . is - the index set that defines the subdomains for this processor 729b1a0a8a3SJed Brown (or PETSC_NULL for PETSc to determine subdomains) 730b1a0a8a3SJed Brown - is_local - the index sets that define the local part of the subdomains for this processor 731b1a0a8a3SJed Brown (or PETSC_NULL to use the default of 1 subdomain per process) 732b1a0a8a3SJed Brown 733b1a0a8a3SJed Brown Notes: 734b1a0a8a3SJed Brown The IS numbering is in the parallel, global numbering of the vector. 735b1a0a8a3SJed Brown 736f746d493SDmitry Karpeev By default the GASM preconditioner uses 1 block per processor. 737b1a0a8a3SJed Brown 738f746d493SDmitry Karpeev Use PCGASMSetTotalSubdomains() to set the subdomains for all processors. 739b1a0a8a3SJed Brown 740b1a0a8a3SJed Brown Level: advanced 741b1a0a8a3SJed Brown 742f746d493SDmitry Karpeev .keywords: PC, GASM, set, local, subdomains, additive Schwarz 743b1a0a8a3SJed Brown 744f746d493SDmitry Karpeev .seealso: PCGASMSetTotalSubdomains(), PCGASMSetOverlap(), PCGASMGetSubKSP(), 745f746d493SDmitry Karpeev PCGASMCreateSubdomains2D(), PCGASMGetLocalSubdomains() 746b1a0a8a3SJed Brown @*/ 7477087cfbeSBarry Smith PetscErrorCode PCGASMSetLocalSubdomains(PC pc,PetscInt n,IS is[],IS is_local[]) 748b1a0a8a3SJed Brown { 749b1a0a8a3SJed Brown PetscErrorCode ierr; 750b1a0a8a3SJed Brown 751b1a0a8a3SJed Brown PetscFunctionBegin; 752b1a0a8a3SJed Brown PetscValidHeaderSpecific(pc,PC_CLASSID,1); 753f746d493SDmitry Karpeev ierr = PetscTryMethod(pc,"PCGASMSetLocalSubdomains_C",(PC,PetscInt,IS[],IS[]),(pc,n,is,is_local));CHKERRQ(ierr); 754b1a0a8a3SJed Brown PetscFunctionReturn(0); 755b1a0a8a3SJed Brown } 756b1a0a8a3SJed Brown 757b1a0a8a3SJed Brown #undef __FUNCT__ 758f746d493SDmitry Karpeev #define __FUNCT__ "PCGASMSetTotalSubdomains" 759b1a0a8a3SJed Brown /*@C 760f746d493SDmitry Karpeev PCGASMSetTotalSubdomains - Sets the subdomains for all processor for the 761b1a0a8a3SJed Brown additive Schwarz preconditioner. Either all or no processors in the 762b1a0a8a3SJed Brown PC communicator must call this routine, with the same index sets. 763b1a0a8a3SJed Brown 764b1a0a8a3SJed Brown Collective on PC 765b1a0a8a3SJed Brown 766b1a0a8a3SJed Brown Input Parameters: 767b1a0a8a3SJed Brown + pc - the preconditioner context 768b1a0a8a3SJed Brown . n - the number of subdomains for all processors 769b1a0a8a3SJed Brown . is - the index sets that define the subdomains for all processor 770b1a0a8a3SJed Brown (or PETSC_NULL for PETSc to determine subdomains) 771b1a0a8a3SJed Brown - is_local - the index sets that define the local part of the subdomains for this processor 772b1a0a8a3SJed Brown (or PETSC_NULL to use the default of 1 subdomain per process) 773b1a0a8a3SJed Brown 774b1a0a8a3SJed Brown Options Database Key: 775b1a0a8a3SJed Brown To set the total number of subdomain blocks rather than specify the 776b1a0a8a3SJed Brown index sets, use the option 777f746d493SDmitry Karpeev . -pc_gasm_blocks <blks> - Sets total blocks 778b1a0a8a3SJed Brown 779b1a0a8a3SJed Brown Notes: 780b1a0a8a3SJed Brown Currently you cannot use this to set the actual subdomains with the argument is. 781b1a0a8a3SJed Brown 782f746d493SDmitry Karpeev By default the GASM preconditioner uses 1 block per processor. 783b1a0a8a3SJed Brown 784b1a0a8a3SJed Brown These index sets cannot be destroyed until after completion of the 785f746d493SDmitry Karpeev linear solves for which the GASM preconditioner is being used. 786b1a0a8a3SJed Brown 787f746d493SDmitry Karpeev Use PCGASMSetLocalSubdomains() to set local subdomains. 788b1a0a8a3SJed Brown 789b1a0a8a3SJed Brown Level: advanced 790b1a0a8a3SJed Brown 791f746d493SDmitry Karpeev .keywords: PC, GASM, set, total, global, subdomains, additive Schwarz 792b1a0a8a3SJed Brown 793f746d493SDmitry Karpeev .seealso: PCGASMSetLocalSubdomains(), PCGASMSetOverlap(), PCGASMGetSubKSP(), 794f746d493SDmitry Karpeev PCGASMCreateSubdomains2D() 795b1a0a8a3SJed Brown @*/ 7967087cfbeSBarry Smith PetscErrorCode PCGASMSetTotalSubdomains(PC pc,PetscInt N) 797b1a0a8a3SJed Brown { 798b1a0a8a3SJed Brown PetscErrorCode ierr; 799b1a0a8a3SJed Brown 800b1a0a8a3SJed Brown PetscFunctionBegin; 801b1a0a8a3SJed Brown PetscValidHeaderSpecific(pc,PC_CLASSID,1); 802f746d493SDmitry Karpeev ierr = PetscTryMethod(pc,"PCGASMSetTotalSubdomains_C",(PC,PetscInt),(pc,N));CHKERRQ(ierr); 803b1a0a8a3SJed Brown PetscFunctionReturn(0); 804b1a0a8a3SJed Brown } 805b1a0a8a3SJed Brown 806b1a0a8a3SJed Brown #undef __FUNCT__ 807f746d493SDmitry Karpeev #define __FUNCT__ "PCGASMSetOverlap" 808b1a0a8a3SJed Brown /*@ 809f746d493SDmitry Karpeev PCGASMSetOverlap - Sets the overlap between a pair of subdomains for the 810b1a0a8a3SJed Brown additive Schwarz preconditioner. Either all or no processors in the 811b1a0a8a3SJed Brown PC communicator must call this routine. 812b1a0a8a3SJed Brown 813b1a0a8a3SJed Brown Logically Collective on PC 814b1a0a8a3SJed Brown 815b1a0a8a3SJed Brown Input Parameters: 816b1a0a8a3SJed Brown + pc - the preconditioner context 817b1a0a8a3SJed Brown - ovl - the amount of overlap between subdomains (ovl >= 0, default value = 1) 818b1a0a8a3SJed Brown 819b1a0a8a3SJed Brown Options Database Key: 820f746d493SDmitry Karpeev . -pc_gasm_overlap <ovl> - Sets overlap 821b1a0a8a3SJed Brown 822b1a0a8a3SJed Brown Notes: 823f746d493SDmitry Karpeev By default the GASM preconditioner uses 1 block per processor. To use 824f746d493SDmitry Karpeev multiple blocks per perocessor, see PCGASMSetTotalSubdomains() and 825f746d493SDmitry Karpeev PCGASMSetLocalSubdomains() (and the option -pc_gasm_blocks <blks>). 826b1a0a8a3SJed Brown 827b1a0a8a3SJed Brown The overlap defaults to 1, so if one desires that no additional 828b1a0a8a3SJed Brown overlap be computed beyond what may have been set with a call to 829f746d493SDmitry Karpeev PCGASMSetTotalSubdomains() or PCGASMSetLocalSubdomains(), then ovl 830b1a0a8a3SJed Brown must be set to be 0. In particular, if one does not explicitly set 831b1a0a8a3SJed Brown the subdomains an application code, then all overlap would be computed 832f746d493SDmitry Karpeev internally by PETSc, and using an overlap of 0 would result in an GASM 833b1a0a8a3SJed Brown variant that is equivalent to the block Jacobi preconditioner. 834b1a0a8a3SJed Brown 835b1a0a8a3SJed Brown Note that one can define initial index sets with any overlap via 836f746d493SDmitry Karpeev PCGASMSetTotalSubdomains() or PCGASMSetLocalSubdomains(); the routine 837f746d493SDmitry Karpeev PCGASMSetOverlap() merely allows PETSc to extend that overlap further 838b1a0a8a3SJed Brown if desired. 839b1a0a8a3SJed Brown 840b1a0a8a3SJed Brown Level: intermediate 841b1a0a8a3SJed Brown 842f746d493SDmitry Karpeev .keywords: PC, GASM, set, overlap 843b1a0a8a3SJed Brown 844f746d493SDmitry Karpeev .seealso: PCGASMSetTotalSubdomains(), PCGASMSetLocalSubdomains(), PCGASMGetSubKSP(), 845f746d493SDmitry Karpeev PCGASMCreateSubdomains2D(), PCGASMGetLocalSubdomains() 846b1a0a8a3SJed Brown @*/ 8477087cfbeSBarry Smith PetscErrorCode PCGASMSetOverlap(PC pc,PetscInt ovl) 848b1a0a8a3SJed Brown { 849b1a0a8a3SJed Brown PetscErrorCode ierr; 850b1a0a8a3SJed Brown 851b1a0a8a3SJed Brown PetscFunctionBegin; 852b1a0a8a3SJed Brown PetscValidHeaderSpecific(pc,PC_CLASSID,1); 853b1a0a8a3SJed Brown PetscValidLogicalCollectiveInt(pc,ovl,2); 854f746d493SDmitry Karpeev ierr = PetscTryMethod(pc,"PCGASMSetOverlap_C",(PC,PetscInt),(pc,ovl));CHKERRQ(ierr); 855b1a0a8a3SJed Brown PetscFunctionReturn(0); 856b1a0a8a3SJed Brown } 857b1a0a8a3SJed Brown 858b1a0a8a3SJed Brown #undef __FUNCT__ 859f746d493SDmitry Karpeev #define __FUNCT__ "PCGASMSetType" 860b1a0a8a3SJed Brown /*@ 861f746d493SDmitry Karpeev PCGASMSetType - Sets the type of restriction and interpolation used 862b1a0a8a3SJed Brown for local problems in the additive Schwarz method. 863b1a0a8a3SJed Brown 864b1a0a8a3SJed Brown Logically Collective on PC 865b1a0a8a3SJed Brown 866b1a0a8a3SJed Brown Input Parameters: 867b1a0a8a3SJed Brown + pc - the preconditioner context 868f746d493SDmitry Karpeev - type - variant of GASM, one of 869b1a0a8a3SJed Brown .vb 870f746d493SDmitry Karpeev PC_GASM_BASIC - full interpolation and restriction 871f746d493SDmitry Karpeev PC_GASM_RESTRICT - full restriction, local processor interpolation 872f746d493SDmitry Karpeev PC_GASM_INTERPOLATE - full interpolation, local processor restriction 873f746d493SDmitry Karpeev PC_GASM_NONE - local processor restriction and interpolation 874b1a0a8a3SJed Brown .ve 875b1a0a8a3SJed Brown 876b1a0a8a3SJed Brown Options Database Key: 877f746d493SDmitry Karpeev . -pc_gasm_type [basic,restrict,interpolate,none] - Sets GASM type 878b1a0a8a3SJed Brown 879b1a0a8a3SJed Brown Level: intermediate 880b1a0a8a3SJed Brown 881f746d493SDmitry Karpeev .keywords: PC, GASM, set, type 882b1a0a8a3SJed Brown 883f746d493SDmitry Karpeev .seealso: PCGASMSetTotalSubdomains(), PCGASMSetTotalSubdomains(), PCGASMGetSubKSP(), 884f746d493SDmitry Karpeev PCGASMCreateSubdomains2D() 885b1a0a8a3SJed Brown @*/ 8867087cfbeSBarry Smith PetscErrorCode PCGASMSetType(PC pc,PCGASMType type) 887b1a0a8a3SJed Brown { 888b1a0a8a3SJed Brown PetscErrorCode ierr; 889b1a0a8a3SJed Brown 890b1a0a8a3SJed Brown PetscFunctionBegin; 891b1a0a8a3SJed Brown PetscValidHeaderSpecific(pc,PC_CLASSID,1); 892b1a0a8a3SJed Brown PetscValidLogicalCollectiveEnum(pc,type,2); 893f746d493SDmitry Karpeev ierr = PetscTryMethod(pc,"PCGASMSetType_C",(PC,PCGASMType),(pc,type));CHKERRQ(ierr); 894b1a0a8a3SJed Brown PetscFunctionReturn(0); 895b1a0a8a3SJed Brown } 896b1a0a8a3SJed Brown 897b1a0a8a3SJed Brown #undef __FUNCT__ 898f746d493SDmitry Karpeev #define __FUNCT__ "PCGASMSetSortIndices" 899b1a0a8a3SJed Brown /*@ 900f746d493SDmitry Karpeev PCGASMSetSortIndices - Determines whether subdomain indices are sorted. 901b1a0a8a3SJed Brown 902b1a0a8a3SJed Brown Logically Collective on PC 903b1a0a8a3SJed Brown 904b1a0a8a3SJed Brown Input Parameters: 905b1a0a8a3SJed Brown + pc - the preconditioner context 906b1a0a8a3SJed Brown - doSort - sort the subdomain indices 907b1a0a8a3SJed Brown 908b1a0a8a3SJed Brown Level: intermediate 909b1a0a8a3SJed Brown 910f746d493SDmitry Karpeev .keywords: PC, GASM, set, type 911b1a0a8a3SJed Brown 912f746d493SDmitry Karpeev .seealso: PCGASMSetLocalSubdomains(), PCGASMSetTotalSubdomains(), PCGASMGetSubKSP(), 913f746d493SDmitry Karpeev PCGASMCreateSubdomains2D() 914b1a0a8a3SJed Brown @*/ 9157087cfbeSBarry Smith PetscErrorCode PCGASMSetSortIndices(PC pc,PetscBool doSort) 916b1a0a8a3SJed Brown { 917b1a0a8a3SJed Brown PetscErrorCode ierr; 918b1a0a8a3SJed Brown 919b1a0a8a3SJed Brown PetscFunctionBegin; 920b1a0a8a3SJed Brown PetscValidHeaderSpecific(pc,PC_CLASSID,1); 921b1a0a8a3SJed Brown PetscValidLogicalCollectiveBool(pc,doSort,2); 922f746d493SDmitry Karpeev ierr = PetscTryMethod(pc,"PCGASMSetSortIndices_C",(PC,PetscBool),(pc,doSort));CHKERRQ(ierr); 923b1a0a8a3SJed Brown PetscFunctionReturn(0); 924b1a0a8a3SJed Brown } 925b1a0a8a3SJed Brown 926b1a0a8a3SJed Brown #undef __FUNCT__ 927f746d493SDmitry Karpeev #define __FUNCT__ "PCGASMGetSubKSP" 928b1a0a8a3SJed Brown /*@C 929f746d493SDmitry Karpeev PCGASMGetSubKSP - Gets the local KSP contexts for all blocks on 930b1a0a8a3SJed Brown this processor. 931b1a0a8a3SJed Brown 932b1a0a8a3SJed Brown Collective on PC iff first_local is requested 933b1a0a8a3SJed Brown 934b1a0a8a3SJed Brown Input Parameter: 935b1a0a8a3SJed Brown . pc - the preconditioner context 936b1a0a8a3SJed Brown 937b1a0a8a3SJed Brown Output Parameters: 938b1a0a8a3SJed Brown + n_local - the number of blocks on this processor or PETSC_NULL 939b1a0a8a3SJed Brown . first_local - the global number of the first block on this processor or PETSC_NULL, 940b1a0a8a3SJed Brown all processors must request or all must pass PETSC_NULL 941b1a0a8a3SJed Brown - ksp - the array of KSP contexts 942b1a0a8a3SJed Brown 943b1a0a8a3SJed Brown Note: 944f746d493SDmitry Karpeev After PCGASMGetSubKSP() the array of KSPes is not to be freed 945b1a0a8a3SJed Brown 946b1a0a8a3SJed Brown Currently for some matrix implementations only 1 block per processor 947b1a0a8a3SJed Brown is supported. 948b1a0a8a3SJed Brown 949f746d493SDmitry Karpeev You must call KSPSetUp() before calling PCGASMGetSubKSP(). 950b1a0a8a3SJed Brown 951b1a0a8a3SJed Brown Level: advanced 952b1a0a8a3SJed Brown 953f746d493SDmitry Karpeev .keywords: PC, GASM, additive Schwarz, get, sub, KSP, context 954b1a0a8a3SJed Brown 955f746d493SDmitry Karpeev .seealso: PCGASMSetTotalSubdomains(), PCGASMSetTotalSubdomains(), PCGASMSetOverlap(), 956f746d493SDmitry Karpeev PCGASMCreateSubdomains2D(), 957b1a0a8a3SJed Brown @*/ 9587087cfbeSBarry Smith PetscErrorCode PCGASMGetSubKSP(PC pc,PetscInt *n_local,PetscInt *first_local,KSP *ksp[]) 959b1a0a8a3SJed Brown { 960b1a0a8a3SJed Brown PetscErrorCode ierr; 961b1a0a8a3SJed Brown 962b1a0a8a3SJed Brown PetscFunctionBegin; 963b1a0a8a3SJed Brown PetscValidHeaderSpecific(pc,PC_CLASSID,1); 964f746d493SDmitry Karpeev ierr = PetscUseMethod(pc,"PCGASMGetSubKSP_C",(PC,PetscInt*,PetscInt*,KSP **),(pc,n_local,first_local,ksp));CHKERRQ(ierr); 965b1a0a8a3SJed Brown PetscFunctionReturn(0); 966b1a0a8a3SJed Brown } 967b1a0a8a3SJed Brown 968b1a0a8a3SJed Brown /* -------------------------------------------------------------------------------------*/ 969b1a0a8a3SJed Brown /*MC 970f746d493SDmitry Karpeev PCGASM - Use the (restricted) additive Schwarz method, each block is (approximately) solved with 971b1a0a8a3SJed Brown its own KSP object. 972b1a0a8a3SJed Brown 973b1a0a8a3SJed Brown Options Database Keys: 974f746d493SDmitry Karpeev + -pc_gasm_truelocal - Activates PCGGASMSetUseTrueLocal() 975f746d493SDmitry Karpeev . -pc_gasm_blocks <blks> - Sets total blocks 976f746d493SDmitry Karpeev . -pc_gasm_overlap <ovl> - Sets overlap 977f746d493SDmitry Karpeev - -pc_gasm_type [basic,restrict,interpolate,none] - Sets GASM type 978b1a0a8a3SJed Brown 979b1a0a8a3SJed Brown IMPORTANT: If you run with, for example, 3 blocks on 1 processor or 3 blocks on 3 processors you 980f746d493SDmitry Karpeev will get a different convergence rate due to the default option of -pc_gasm_type restrict. Use 981f746d493SDmitry Karpeev -pc_gasm_type basic to use the standard GASM. 982b1a0a8a3SJed Brown 983b1a0a8a3SJed Brown Notes: Each processor can have one or more blocks, but a block cannot be shared by more 984b1a0a8a3SJed Brown than one processor. Defaults to one block per processor. 985b1a0a8a3SJed Brown 986b1a0a8a3SJed Brown To set options on the solvers for each block append -sub_ to all the KSP, and PC 987b1a0a8a3SJed Brown options database keys. For example, -sub_pc_type ilu -sub_pc_factor_levels 1 -sub_ksp_type preonly 988b1a0a8a3SJed Brown 989f746d493SDmitry Karpeev To set the options on the solvers separate for each block call PCGASMGetSubKSP() 990b1a0a8a3SJed Brown and set the options directly on the resulting KSP object (you can access its PC 991b1a0a8a3SJed Brown with KSPGetPC()) 992b1a0a8a3SJed Brown 993b1a0a8a3SJed Brown 994b1a0a8a3SJed Brown Level: beginner 995b1a0a8a3SJed Brown 996b1a0a8a3SJed Brown Concepts: additive Schwarz method 997b1a0a8a3SJed Brown 998b1a0a8a3SJed Brown References: 999b1a0a8a3SJed Brown An additive variant of the Schwarz alternating method for the case of many subregions 1000b1a0a8a3SJed Brown M Dryja, OB Widlund - Courant Institute, New York University Technical report 1001b1a0a8a3SJed Brown 1002b1a0a8a3SJed Brown Domain Decompositions: Parallel Multilevel Methods for Elliptic Partial Differential Equations, 1003b1a0a8a3SJed Brown Barry Smith, Petter Bjorstad, and William Gropp, Cambridge University Press, ISBN 0-521-49589-X. 1004b1a0a8a3SJed Brown 1005b1a0a8a3SJed Brown .seealso: PCCreate(), PCSetType(), PCType (for list of available types), PC, 1006f746d493SDmitry Karpeev PCBJACOBI, PCGASMSetUseTrueLocal(), PCGASMGetSubKSP(), PCGASMSetLocalSubdomains(), 1007f746d493SDmitry Karpeev PCGASMSetTotalSubdomains(), PCSetModifySubmatrices(), PCGASMSetOverlap(), PCGASMSetType() 1008b1a0a8a3SJed Brown 1009b1a0a8a3SJed Brown M*/ 1010b1a0a8a3SJed Brown 1011b1a0a8a3SJed Brown EXTERN_C_BEGIN 1012b1a0a8a3SJed Brown #undef __FUNCT__ 1013f746d493SDmitry Karpeev #define __FUNCT__ "PCCreate_GASM" 10147087cfbeSBarry Smith PetscErrorCode PCCreate_GASM(PC pc) 1015b1a0a8a3SJed Brown { 1016b1a0a8a3SJed Brown PetscErrorCode ierr; 1017f746d493SDmitry Karpeev PC_GASM *osm; 1018b1a0a8a3SJed Brown 1019b1a0a8a3SJed Brown PetscFunctionBegin; 1020f746d493SDmitry Karpeev ierr = PetscNewLog(pc,PC_GASM,&osm);CHKERRQ(ierr); 1021ab3e923fSDmitry Karpeev osm->N = PETSC_DECIDE; 1022ab3e923fSDmitry Karpeev osm->n = 0; 1023ab3e923fSDmitry Karpeev osm->nmax = 0; 1024b1a0a8a3SJed Brown osm->overlap = 1; 1025b1a0a8a3SJed Brown osm->ksp = 0; 1026ab3e923fSDmitry Karpeev osm->grestriction = 0; 1027ab3e923fSDmitry Karpeev osm->gprolongation = 0; 1028ab3e923fSDmitry Karpeev osm->gx = 0; 1029ab3e923fSDmitry Karpeev osm->gy = 0; 1030b1a0a8a3SJed Brown osm->x = 0; 1031b1a0a8a3SJed Brown osm->y = 0; 1032b1a0a8a3SJed Brown osm->is = 0; 1033b1a0a8a3SJed Brown osm->is_local = 0; 1034b1a0a8a3SJed Brown osm->pmat = 0; 1035f746d493SDmitry Karpeev osm->type = PC_GASM_RESTRICT; 1036b1a0a8a3SJed Brown osm->same_local_solves = PETSC_TRUE; 1037b1a0a8a3SJed Brown osm->sort_indices = PETSC_TRUE; 1038b1a0a8a3SJed Brown 1039b1a0a8a3SJed Brown pc->data = (void*)osm; 1040f746d493SDmitry Karpeev pc->ops->apply = PCApply_GASM; 1041f746d493SDmitry Karpeev pc->ops->applytranspose = PCApplyTranspose_GASM; 1042f746d493SDmitry Karpeev pc->ops->setup = PCSetUp_GASM; 1043f746d493SDmitry Karpeev pc->ops->destroy = PCDestroy_GASM; 1044f746d493SDmitry Karpeev pc->ops->setfromoptions = PCSetFromOptions_GASM; 1045f746d493SDmitry Karpeev pc->ops->setuponblocks = PCSetUpOnBlocks_GASM; 1046f746d493SDmitry Karpeev pc->ops->view = PCView_GASM; 1047b1a0a8a3SJed Brown pc->ops->applyrichardson = 0; 1048b1a0a8a3SJed Brown 1049f746d493SDmitry Karpeev ierr = PetscObjectComposeFunctionDynamic((PetscObject)pc,"PCGASMSetLocalSubdomains_C","PCGASMSetLocalSubdomains_GASM", 1050f746d493SDmitry Karpeev PCGASMSetLocalSubdomains_GASM);CHKERRQ(ierr); 1051f746d493SDmitry Karpeev ierr = PetscObjectComposeFunctionDynamic((PetscObject)pc,"PCGASMSetTotalSubdomains_C","PCGASMSetTotalSubdomains_GASM", 1052f746d493SDmitry Karpeev PCGASMSetTotalSubdomains_GASM);CHKERRQ(ierr); 1053f746d493SDmitry Karpeev ierr = PetscObjectComposeFunctionDynamic((PetscObject)pc,"PCGASMSetOverlap_C","PCGASMSetOverlap_GASM", 1054f746d493SDmitry Karpeev PCGASMSetOverlap_GASM);CHKERRQ(ierr); 1055f746d493SDmitry Karpeev ierr = PetscObjectComposeFunctionDynamic((PetscObject)pc,"PCGASMSetType_C","PCGASMSetType_GASM", 1056f746d493SDmitry Karpeev PCGASMSetType_GASM);CHKERRQ(ierr); 1057f746d493SDmitry Karpeev ierr = PetscObjectComposeFunctionDynamic((PetscObject)pc,"PCGASMSetSortIndices_C","PCGASMSetSortIndices_GASM", 1058f746d493SDmitry Karpeev PCGASMSetSortIndices_GASM);CHKERRQ(ierr); 1059f746d493SDmitry Karpeev ierr = PetscObjectComposeFunctionDynamic((PetscObject)pc,"PCGASMGetSubKSP_C","PCGASMGetSubKSP_GASM", 1060f746d493SDmitry Karpeev PCGASMGetSubKSP_GASM);CHKERRQ(ierr); 1061b1a0a8a3SJed Brown PetscFunctionReturn(0); 1062b1a0a8a3SJed Brown } 1063b1a0a8a3SJed Brown EXTERN_C_END 1064b1a0a8a3SJed Brown 1065b1a0a8a3SJed Brown 1066b1a0a8a3SJed Brown #undef __FUNCT__ 1067f746d493SDmitry Karpeev #define __FUNCT__ "PCGASMCreateSubdomains" 1068b1a0a8a3SJed Brown /*@C 1069f746d493SDmitry Karpeev PCGASMCreateSubdomains - Creates the index sets for the overlapping Schwarz 1070b1a0a8a3SJed Brown preconditioner for a any problem on a general grid. 1071b1a0a8a3SJed Brown 1072b1a0a8a3SJed Brown Collective 1073b1a0a8a3SJed Brown 1074b1a0a8a3SJed Brown Input Parameters: 1075b1a0a8a3SJed Brown + A - The global matrix operator 1076b1a0a8a3SJed Brown - n - the number of local blocks 1077b1a0a8a3SJed Brown 1078b1a0a8a3SJed Brown Output Parameters: 1079b1a0a8a3SJed Brown . outis - the array of index sets defining the subdomains 1080b1a0a8a3SJed Brown 1081b1a0a8a3SJed Brown Level: advanced 1082b1a0a8a3SJed Brown 1083f746d493SDmitry Karpeev Note: this generates nonoverlapping subdomains; the PCGASM will generate the overlap 1084f746d493SDmitry Karpeev from these if you use PCGASMSetLocalSubdomains() 1085b1a0a8a3SJed Brown 1086b1a0a8a3SJed Brown In the Fortran version you must provide the array outis[] already allocated of length n. 1087b1a0a8a3SJed Brown 1088f746d493SDmitry Karpeev .keywords: PC, GASM, additive Schwarz, create, subdomains, unstructured grid 1089b1a0a8a3SJed Brown 1090f746d493SDmitry Karpeev .seealso: PCGASMSetLocalSubdomains(), PCGASMDestroySubdomains() 1091b1a0a8a3SJed Brown @*/ 10927087cfbeSBarry Smith PetscErrorCode PCGASMCreateSubdomains(Mat A, PetscInt n, IS* outis[]) 1093b1a0a8a3SJed Brown { 1094b1a0a8a3SJed Brown MatPartitioning mpart; 1095b1a0a8a3SJed Brown const char *prefix; 1096b1a0a8a3SJed Brown PetscErrorCode (*f)(Mat,PetscBool *,MatReuse,Mat*); 1097b1a0a8a3SJed Brown PetscMPIInt size; 1098b1a0a8a3SJed Brown PetscInt i,j,rstart,rend,bs; 1099b1a0a8a3SJed Brown PetscBool iscopy = PETSC_FALSE,isbaij = PETSC_FALSE,foundpart = PETSC_FALSE; 1100b1a0a8a3SJed Brown Mat Ad = PETSC_NULL, adj; 1101b1a0a8a3SJed Brown IS ispart,isnumb,*is; 1102b1a0a8a3SJed Brown PetscErrorCode ierr; 1103b1a0a8a3SJed Brown 1104b1a0a8a3SJed Brown PetscFunctionBegin; 1105b1a0a8a3SJed Brown PetscValidHeaderSpecific(A,MAT_CLASSID,1); 1106b1a0a8a3SJed Brown PetscValidPointer(outis,3); 1107b1a0a8a3SJed Brown if (n < 1) SETERRQ1(PETSC_COMM_SELF,PETSC_ERR_ARG_WRONG,"number of local blocks must be > 0, n = %D",n); 1108b1a0a8a3SJed Brown 1109b1a0a8a3SJed Brown /* Get prefix, row distribution, and block size */ 1110b1a0a8a3SJed Brown ierr = MatGetOptionsPrefix(A,&prefix);CHKERRQ(ierr); 1111b1a0a8a3SJed Brown ierr = MatGetOwnershipRange(A,&rstart,&rend);CHKERRQ(ierr); 1112b1a0a8a3SJed Brown ierr = MatGetBlockSize(A,&bs);CHKERRQ(ierr); 1113b1a0a8a3SJed Brown if (rstart/bs*bs != rstart || rend/bs*bs != rend) SETERRQ3(PETSC_COMM_SELF,PETSC_ERR_ARG_WRONG,"bad row distribution [%D,%D) for matrix block size %D",rstart,rend,bs); 1114b1a0a8a3SJed Brown 1115b1a0a8a3SJed Brown /* Get diagonal block from matrix if possible */ 1116b1a0a8a3SJed Brown ierr = MPI_Comm_size(((PetscObject)A)->comm,&size);CHKERRQ(ierr); 1117b1a0a8a3SJed Brown ierr = PetscObjectQueryFunction((PetscObject)A,"MatGetDiagonalBlock_C",(void (**)(void))&f);CHKERRQ(ierr); 1118b1a0a8a3SJed Brown if (f) { 1119b1a0a8a3SJed Brown ierr = (*f)(A,&iscopy,MAT_INITIAL_MATRIX,&Ad);CHKERRQ(ierr); 1120b1a0a8a3SJed Brown } else if (size == 1) { 1121b1a0a8a3SJed Brown iscopy = PETSC_FALSE; Ad = A; 1122b1a0a8a3SJed Brown } else { 1123b1a0a8a3SJed Brown iscopy = PETSC_FALSE; Ad = PETSC_NULL; 1124b1a0a8a3SJed Brown } 1125b1a0a8a3SJed Brown if (Ad) { 1126b1a0a8a3SJed Brown ierr = PetscTypeCompare((PetscObject)Ad,MATSEQBAIJ,&isbaij);CHKERRQ(ierr); 1127b1a0a8a3SJed Brown if (!isbaij) {ierr = PetscTypeCompare((PetscObject)Ad,MATSEQSBAIJ,&isbaij);CHKERRQ(ierr);} 1128b1a0a8a3SJed Brown } 1129b1a0a8a3SJed Brown if (Ad && n > 1) { 1130b1a0a8a3SJed Brown PetscBool match,done; 1131b1a0a8a3SJed Brown /* Try to setup a good matrix partitioning if available */ 1132b1a0a8a3SJed Brown ierr = MatPartitioningCreate(PETSC_COMM_SELF,&mpart);CHKERRQ(ierr); 1133b1a0a8a3SJed Brown ierr = PetscObjectSetOptionsPrefix((PetscObject)mpart,prefix);CHKERRQ(ierr); 1134b1a0a8a3SJed Brown ierr = MatPartitioningSetFromOptions(mpart);CHKERRQ(ierr); 1135b1a0a8a3SJed Brown ierr = PetscTypeCompare((PetscObject)mpart,MATPARTITIONINGCURRENT,&match);CHKERRQ(ierr); 1136b1a0a8a3SJed Brown if (!match) { 1137b1a0a8a3SJed Brown ierr = PetscTypeCompare((PetscObject)mpart,MATPARTITIONINGSQUARE,&match);CHKERRQ(ierr); 1138b1a0a8a3SJed Brown } 1139b1a0a8a3SJed Brown if (!match) { /* assume a "good" partitioner is available */ 1140b1a0a8a3SJed Brown PetscInt na,*ia,*ja; 1141b1a0a8a3SJed Brown ierr = MatGetRowIJ(Ad,0,PETSC_TRUE,isbaij,&na,&ia,&ja,&done);CHKERRQ(ierr); 1142b1a0a8a3SJed Brown if (done) { 1143b1a0a8a3SJed Brown /* Build adjacency matrix by hand. Unfortunately a call to 1144b1a0a8a3SJed Brown MatConvert(Ad,MATMPIADJ,MAT_INITIAL_MATRIX,&adj) will 1145b1a0a8a3SJed Brown remove the block-aij structure and we cannot expect 1146b1a0a8a3SJed Brown MatPartitioning to split vertices as we need */ 1147b1a0a8a3SJed Brown PetscInt i,j,*row,len,nnz,cnt,*iia=0,*jja=0; 1148b1a0a8a3SJed Brown nnz = 0; 1149b1a0a8a3SJed Brown for (i=0; i<na; i++) { /* count number of nonzeros */ 1150b1a0a8a3SJed Brown len = ia[i+1] - ia[i]; 1151b1a0a8a3SJed Brown row = ja + ia[i]; 1152b1a0a8a3SJed Brown for (j=0; j<len; j++) { 1153b1a0a8a3SJed Brown if (row[j] == i) { /* don't count diagonal */ 1154b1a0a8a3SJed Brown len--; break; 1155b1a0a8a3SJed Brown } 1156b1a0a8a3SJed Brown } 1157b1a0a8a3SJed Brown nnz += len; 1158b1a0a8a3SJed Brown } 1159b1a0a8a3SJed Brown ierr = PetscMalloc((na+1)*sizeof(PetscInt),&iia);CHKERRQ(ierr); 1160b1a0a8a3SJed Brown ierr = PetscMalloc((nnz)*sizeof(PetscInt),&jja);CHKERRQ(ierr); 1161b1a0a8a3SJed Brown nnz = 0; 1162b1a0a8a3SJed Brown iia[0] = 0; 1163b1a0a8a3SJed Brown for (i=0; i<na; i++) { /* fill adjacency */ 1164b1a0a8a3SJed Brown cnt = 0; 1165b1a0a8a3SJed Brown len = ia[i+1] - ia[i]; 1166b1a0a8a3SJed Brown row = ja + ia[i]; 1167b1a0a8a3SJed Brown for (j=0; j<len; j++) { 1168b1a0a8a3SJed Brown if (row[j] != i) { /* if not diagonal */ 1169b1a0a8a3SJed Brown jja[nnz+cnt++] = row[j]; 1170b1a0a8a3SJed Brown } 1171b1a0a8a3SJed Brown } 1172b1a0a8a3SJed Brown nnz += cnt; 1173b1a0a8a3SJed Brown iia[i+1] = nnz; 1174b1a0a8a3SJed Brown } 1175b1a0a8a3SJed Brown /* Partitioning of the adjacency matrix */ 1176b1a0a8a3SJed Brown ierr = MatCreateMPIAdj(PETSC_COMM_SELF,na,na,iia,jja,PETSC_NULL,&adj);CHKERRQ(ierr); 1177b1a0a8a3SJed Brown ierr = MatPartitioningSetAdjacency(mpart,adj);CHKERRQ(ierr); 1178b1a0a8a3SJed Brown ierr = MatPartitioningSetNParts(mpart,n);CHKERRQ(ierr); 1179b1a0a8a3SJed Brown ierr = MatPartitioningApply(mpart,&ispart);CHKERRQ(ierr); 1180b1a0a8a3SJed Brown ierr = ISPartitioningToNumbering(ispart,&isnumb);CHKERRQ(ierr); 1181b1a0a8a3SJed Brown ierr = MatDestroy(adj);CHKERRQ(ierr); 1182b1a0a8a3SJed Brown foundpart = PETSC_TRUE; 1183b1a0a8a3SJed Brown } 1184b1a0a8a3SJed Brown ierr = MatRestoreRowIJ(Ad,0,PETSC_TRUE,isbaij,&na,&ia,&ja,&done);CHKERRQ(ierr); 1185b1a0a8a3SJed Brown } 1186b1a0a8a3SJed Brown ierr = MatPartitioningDestroy(mpart);CHKERRQ(ierr); 1187b1a0a8a3SJed Brown } 1188b1a0a8a3SJed Brown if (iscopy) {ierr = MatDestroy(Ad);CHKERRQ(ierr);} 1189b1a0a8a3SJed Brown 1190b1a0a8a3SJed Brown ierr = PetscMalloc(n*sizeof(IS),&is);CHKERRQ(ierr); 1191b1a0a8a3SJed Brown *outis = is; 1192b1a0a8a3SJed Brown 1193b1a0a8a3SJed Brown if (!foundpart) { 1194b1a0a8a3SJed Brown 1195b1a0a8a3SJed Brown /* Partitioning by contiguous chunks of rows */ 1196b1a0a8a3SJed Brown 1197b1a0a8a3SJed Brown PetscInt mbs = (rend-rstart)/bs; 1198b1a0a8a3SJed Brown PetscInt start = rstart; 1199b1a0a8a3SJed Brown for (i=0; i<n; i++) { 1200b1a0a8a3SJed Brown PetscInt count = (mbs/n + ((mbs % n) > i)) * bs; 1201b1a0a8a3SJed Brown ierr = ISCreateStride(PETSC_COMM_SELF,count,start,1,&is[i]);CHKERRQ(ierr); 1202b1a0a8a3SJed Brown start += count; 1203b1a0a8a3SJed Brown } 1204b1a0a8a3SJed Brown 1205b1a0a8a3SJed Brown } else { 1206b1a0a8a3SJed Brown 1207b1a0a8a3SJed Brown /* Partitioning by adjacency of diagonal block */ 1208b1a0a8a3SJed Brown 1209b1a0a8a3SJed Brown const PetscInt *numbering; 1210b1a0a8a3SJed Brown PetscInt *count,nidx,*indices,*newidx,start=0; 1211b1a0a8a3SJed Brown /* Get node count in each partition */ 1212b1a0a8a3SJed Brown ierr = PetscMalloc(n*sizeof(PetscInt),&count);CHKERRQ(ierr); 1213b1a0a8a3SJed Brown ierr = ISPartitioningCount(ispart,n,count);CHKERRQ(ierr); 1214b1a0a8a3SJed Brown if (isbaij && bs > 1) { /* adjust for the block-aij case */ 1215b1a0a8a3SJed Brown for (i=0; i<n; i++) count[i] *= bs; 1216b1a0a8a3SJed Brown } 1217b1a0a8a3SJed Brown /* Build indices from node numbering */ 1218b1a0a8a3SJed Brown ierr = ISGetLocalSize(isnumb,&nidx);CHKERRQ(ierr); 1219b1a0a8a3SJed Brown ierr = PetscMalloc(nidx*sizeof(PetscInt),&indices);CHKERRQ(ierr); 1220b1a0a8a3SJed Brown for (i=0; i<nidx; i++) indices[i] = i; /* needs to be initialized */ 1221b1a0a8a3SJed Brown ierr = ISGetIndices(isnumb,&numbering);CHKERRQ(ierr); 1222b1a0a8a3SJed Brown ierr = PetscSortIntWithPermutation(nidx,numbering,indices);CHKERRQ(ierr); 1223b1a0a8a3SJed Brown ierr = ISRestoreIndices(isnumb,&numbering);CHKERRQ(ierr); 1224b1a0a8a3SJed Brown if (isbaij && bs > 1) { /* adjust for the block-aij case */ 1225b1a0a8a3SJed Brown ierr = PetscMalloc(nidx*bs*sizeof(PetscInt),&newidx);CHKERRQ(ierr); 1226b1a0a8a3SJed Brown for (i=0; i<nidx; i++) 1227b1a0a8a3SJed Brown for (j=0; j<bs; j++) 1228b1a0a8a3SJed Brown newidx[i*bs+j] = indices[i]*bs + j; 1229b1a0a8a3SJed Brown ierr = PetscFree(indices);CHKERRQ(ierr); 1230b1a0a8a3SJed Brown nidx *= bs; 1231b1a0a8a3SJed Brown indices = newidx; 1232b1a0a8a3SJed Brown } 1233b1a0a8a3SJed Brown /* Shift to get global indices */ 1234b1a0a8a3SJed Brown for (i=0; i<nidx; i++) indices[i] += rstart; 1235b1a0a8a3SJed Brown 1236b1a0a8a3SJed Brown /* Build the index sets for each block */ 1237b1a0a8a3SJed Brown for (i=0; i<n; i++) { 1238b1a0a8a3SJed Brown ierr = ISCreateGeneral(PETSC_COMM_SELF,count[i],&indices[start],PETSC_COPY_VALUES,&is[i]);CHKERRQ(ierr); 1239b1a0a8a3SJed Brown ierr = ISSort(is[i]);CHKERRQ(ierr); 1240b1a0a8a3SJed Brown start += count[i]; 1241b1a0a8a3SJed Brown } 1242b1a0a8a3SJed Brown 1243b1a0a8a3SJed Brown ierr = PetscFree(count); 1244b1a0a8a3SJed Brown ierr = PetscFree(indices); 1245b1a0a8a3SJed Brown ierr = ISDestroy(isnumb);CHKERRQ(ierr); 1246b1a0a8a3SJed Brown ierr = ISDestroy(ispart);CHKERRQ(ierr); 1247b1a0a8a3SJed Brown 1248b1a0a8a3SJed Brown } 1249b1a0a8a3SJed Brown 1250b1a0a8a3SJed Brown PetscFunctionReturn(0); 1251b1a0a8a3SJed Brown } 1252b1a0a8a3SJed Brown 1253b1a0a8a3SJed Brown #undef __FUNCT__ 1254f746d493SDmitry Karpeev #define __FUNCT__ "PCGASMDestroySubdomains" 1255b1a0a8a3SJed Brown /*@C 1256f746d493SDmitry Karpeev PCGASMDestroySubdomains - Destroys the index sets created with 1257f746d493SDmitry Karpeev PCGASMCreateSubdomains(). Should be called after setting subdomains 1258f746d493SDmitry Karpeev with PCGASMSetLocalSubdomains(). 1259b1a0a8a3SJed Brown 1260b1a0a8a3SJed Brown Collective 1261b1a0a8a3SJed Brown 1262b1a0a8a3SJed Brown Input Parameters: 1263b1a0a8a3SJed Brown + n - the number of index sets 1264b1a0a8a3SJed Brown . is - the array of index sets 1265b1a0a8a3SJed Brown - is_local - the array of local index sets, can be PETSC_NULL 1266b1a0a8a3SJed Brown 1267b1a0a8a3SJed Brown Level: advanced 1268b1a0a8a3SJed Brown 1269f746d493SDmitry Karpeev .keywords: PC, GASM, additive Schwarz, create, subdomains, unstructured grid 1270b1a0a8a3SJed Brown 1271f746d493SDmitry Karpeev .seealso: PCGASMCreateSubdomains(), PCGASMSetLocalSubdomains() 1272b1a0a8a3SJed Brown @*/ 12737087cfbeSBarry Smith PetscErrorCode PCGASMDestroySubdomains(PetscInt n, IS is[], IS is_local[]) 1274b1a0a8a3SJed Brown { 1275b1a0a8a3SJed Brown PetscInt i; 1276b1a0a8a3SJed Brown PetscErrorCode ierr; 1277b1a0a8a3SJed Brown PetscFunctionBegin; 1278b1a0a8a3SJed Brown if (n <= 0) SETERRQ1(PETSC_COMM_SELF,PETSC_ERR_ARG_OUTOFRANGE,"n must be > 0: n = %D",n); 1279b1a0a8a3SJed Brown PetscValidPointer(is,2); 1280b1a0a8a3SJed Brown for (i=0; i<n; i++) { ierr = ISDestroy(is[i]);CHKERRQ(ierr); } 1281b1a0a8a3SJed Brown ierr = PetscFree(is);CHKERRQ(ierr); 1282b1a0a8a3SJed Brown if (is_local) { 1283b1a0a8a3SJed Brown PetscValidPointer(is_local,3); 1284b1a0a8a3SJed Brown for (i=0; i<n; i++) { ierr = ISDestroy(is_local[i]);CHKERRQ(ierr); } 1285b1a0a8a3SJed Brown ierr = PetscFree(is_local);CHKERRQ(ierr); 1286b1a0a8a3SJed Brown } 1287b1a0a8a3SJed Brown PetscFunctionReturn(0); 1288b1a0a8a3SJed Brown } 1289b1a0a8a3SJed Brown 1290af538404SDmitry Karpeev 1291af538404SDmitry Karpeev #define PCGASMLocalSubdomainBounds2D(M,N,xleft,ylow,xright,yhigh,first,last,xleft_loc,ylow_loc,xright_loc,yhigh_loc,n) \ 1292af538404SDmitry Karpeev { \ 1293af538404SDmitry Karpeev PetscInt first_row = first/M, last_row = last/M+1; \ 1294af538404SDmitry Karpeev /* \ 1295af538404SDmitry Karpeev Compute ylow_loc and yhigh_loc so that (ylow_loc,xleft) and (yhigh_loc,xright) are the corners \ 1296af538404SDmitry Karpeev of the bounding box of the intersection of the subdomain with the local ownership range (local \ 1297af538404SDmitry Karpeev subdomain). \ 1298af538404SDmitry Karpeev Also compute xleft_loc and xright_loc as the lower and upper bounds on the first and last rows \ 1299af538404SDmitry Karpeev of the intersection. \ 1300af538404SDmitry Karpeev */ \ 1301af538404SDmitry Karpeev /* ylow_loc is the grid row containing the first element of the local sumbdomain */ \ 1302*eec7e3faSDmitry Karpeev *ylow_loc = PetscMax(first_row,ylow); \ 1303af538404SDmitry Karpeev /* xleft_loc is the offset of first element of the local subdomain within its grid row (might actually be outside the local subdomain) */ \ 1304*eec7e3faSDmitry Karpeev *xleft_loc = *ylow_loc==first_row?PetscMax(first%M,xleft):xleft; \ 1305af538404SDmitry Karpeev /* yhigh_loc is the grid row above the last local subdomain element */ \ 1306*eec7e3faSDmitry Karpeev *yhigh_loc = PetscMin(last_row,yhigh); \ 1307af538404SDmitry Karpeev /* xright is the offset of the end of the local subdomain within its grid row (might actually be outside the local subdomain) */ \ 1308*eec7e3faSDmitry Karpeev *xright_loc = *yhigh_loc==last_row?PetscMin(xright,last%M):xright; \ 1309af538404SDmitry Karpeev /* Now compute the size of the local subdomain n. */ \ 1310af538404SDmitry Karpeev n = 0; \ 1311*eec7e3faSDmitry Karpeev if(*ylow_loc < *yhigh_loc) { \ 1312af538404SDmitry Karpeev PetscInt width = xright-xleft; \ 1313*eec7e3faSDmitry Karpeev *n += width*(*yhigh_loc-*ylow_loc-1); \ 1314*eec7e3faSDmitry Karpeev *n += PetscMin(PetscMax(*xright_loc-xleft,0),width); \ 1315*eec7e3faSDmitry Karpeev *n -= PetscMin(PetscMax(*xleft_loc-xleft,0), width); \ 1316af538404SDmitry Karpeev }\ 1317af538404SDmitry Karpeev } 1318af538404SDmitry Karpeev 1319b1a0a8a3SJed Brown #undef __FUNCT__ 1320*eec7e3faSDmitry Karpeev #define __FUNCT__ "PCGASMLocalSubdomainBounds2D_Private" 1321*eec7e3faSDmitry Karpeev static PetscErrorCode PCGASMLocalSubdomainBounds2D_Private(PetscInt M,PetscInt N, 1322*eec7e3faSDmitry Karpeev PetscInt xleft,PetscInt ylow, 1323*eec7e3faSDmitry Karpeev PetscInt xright,PetscInt yhigh, 1324*eec7e3faSDmitry Karpeev PetscInt first, PetscInt last, 1325*eec7e3faSDmitry Karpeev PetscInt *xleft_loc, PetscInt *ylow_loc, 1326*eec7e3faSDmitry Karpeev PetscInt *xright_loc,PetscInt *yhigh_loc, 1327*eec7e3faSDmitry Karpeev PetscInt *n) 1328*eec7e3faSDmitry Karpeev { 1329*eec7e3faSDmitry Karpeev PetscInt first_row = first/M, last_row = last/M+1; 1330*eec7e3faSDmitry Karpeev PetscFunctionBegin; 1331*eec7e3faSDmitry Karpeev /* 1332*eec7e3faSDmitry Karpeev Compute ylow_loc and yhigh_loc so that (ylow_loc,xleft) and (yhigh_loc,xright) are the corners 1333*eec7e3faSDmitry Karpeev of the bounding box of the intersection of the subdomain with the local ownership range (local 1334*eec7e3faSDmitry Karpeev subdomain). 1335*eec7e3faSDmitry Karpeev Also compute xleft_loc and xright_loc as the lower and upper bounds on the first and last rows 1336*eec7e3faSDmitry Karpeev of the intersection. 1337*eec7e3faSDmitry Karpeev */ 1338*eec7e3faSDmitry Karpeev /* ylow_loc is the grid row containing the first element of the local sumbdomain */ 1339*eec7e3faSDmitry Karpeev *ylow_loc = PetscMax(first_row,ylow); 1340*eec7e3faSDmitry Karpeev /* xleft_loc is the offset of first element of the local subdomain within its grid row (might actually be outside the local subdomain) */ 1341*eec7e3faSDmitry Karpeev *xleft_loc = *ylow_loc==first_row?PetscMax(first%M,xleft):xleft; 1342*eec7e3faSDmitry Karpeev /* yhigh_loc is the grid row above the last local subdomain element */ 1343*eec7e3faSDmitry Karpeev *yhigh_loc = PetscMin(last_row,yhigh); 1344*eec7e3faSDmitry Karpeev /* xright is the offset of the end of the local subdomain within its grid row (might actually be outside the local subdomain) */ 1345*eec7e3faSDmitry Karpeev *xright_loc = *yhigh_loc==last_row?PetscMin(xright,last%M):xright; 1346*eec7e3faSDmitry Karpeev /* Now compute the size of the local subdomain n. */ 1347*eec7e3faSDmitry Karpeev *n = 0; 1348*eec7e3faSDmitry Karpeev if(*ylow_loc < *yhigh_loc) { 1349*eec7e3faSDmitry Karpeev PetscInt width = xright-xleft; 1350*eec7e3faSDmitry Karpeev *n += width*(*yhigh_loc-*ylow_loc-1); 1351*eec7e3faSDmitry Karpeev *n += PetscMin(PetscMax(*xright_loc-xleft,0),width); 1352*eec7e3faSDmitry Karpeev *n -= PetscMin(PetscMax(*xleft_loc-xleft,0), width); 1353*eec7e3faSDmitry Karpeev } 1354*eec7e3faSDmitry Karpeev PetscFunctionReturn(0); 1355*eec7e3faSDmitry Karpeev } 1356*eec7e3faSDmitry Karpeev 1357*eec7e3faSDmitry Karpeev #undef __FUNCT__ 1358f746d493SDmitry Karpeev #define __FUNCT__ "PCGASMCreateSubdomains2D" 1359b1a0a8a3SJed Brown /*@ 1360f746d493SDmitry Karpeev PCGASMCreateSubdomains2D - Creates the index sets for the overlapping Schwarz 1361b1a0a8a3SJed Brown preconditioner for a two-dimensional problem on a regular grid. 1362b1a0a8a3SJed Brown 1363af538404SDmitry Karpeev Collective 1364b1a0a8a3SJed Brown 1365b1a0a8a3SJed Brown Input Parameters: 1366af538404SDmitry Karpeev + M, N - the global number of mesh points in the x and y directions 1367af538404SDmitry Karpeev . Mdomains, Ndomains - the global number of subdomains in the x and y directions 1368b1a0a8a3SJed Brown . dof - degrees of freedom per node 1369b1a0a8a3SJed Brown - overlap - overlap in mesh lines 1370b1a0a8a3SJed Brown 1371b1a0a8a3SJed Brown Output Parameters: 1372af538404SDmitry Karpeev + Nsub - the number of local subdomains created 1373b1a0a8a3SJed Brown . is - array of index sets defining overlapping (if overlap > 0) subdomains 1374b1a0a8a3SJed Brown - is_local - array of index sets defining non-overlapping subdomains 1375b1a0a8a3SJed Brown 1376b1a0a8a3SJed Brown Note: 1377b1a0a8a3SJed Brown Presently PCAMSCreateSubdomains2d() is valid only for sequential 1378b1a0a8a3SJed Brown preconditioners. More general related routines are 1379f746d493SDmitry Karpeev PCGASMSetTotalSubdomains() and PCGASMSetLocalSubdomains(). 1380b1a0a8a3SJed Brown 1381b1a0a8a3SJed Brown Level: advanced 1382b1a0a8a3SJed Brown 1383f746d493SDmitry Karpeev .keywords: PC, GASM, additive Schwarz, create, subdomains, 2D, regular grid 1384b1a0a8a3SJed Brown 1385f746d493SDmitry Karpeev .seealso: PCGASMSetTotalSubdomains(), PCGASMSetLocalSubdomains(), PCGASMGetSubKSP(), 1386f746d493SDmitry Karpeev PCGASMSetOverlap() 1387b1a0a8a3SJed Brown @*/ 13887087cfbeSBarry Smith PetscErrorCode PCGASMCreateSubdomains2D(PC pc, PetscInt M,PetscInt N,PetscInt Mdomains,PetscInt Ndomains,PetscInt dof,PetscInt overlap, PetscInt *nsub,IS **is,IS **is_local) 1389b1a0a8a3SJed Brown { 1390b1a0a8a3SJed Brown PetscErrorCode ierr; 13912bbb417fSDmitry Karpeev PetscMPIInt size, rank; 13922bbb417fSDmitry Karpeev PetscInt i, j; 13932bbb417fSDmitry Karpeev PetscInt maxheight, maxwidth; 13942bbb417fSDmitry Karpeev PetscInt xstart, xleft, xright, xleft_loc, xright_loc; 13952bbb417fSDmitry Karpeev PetscInt ystart, ylow, yhigh, ylow_loc, yhigh_loc; 1396*eec7e3faSDmitry Karpeev PetscInt x[2][2], y[2][2], n[2]; 13972bbb417fSDmitry Karpeev PetscInt first, last; 13982bbb417fSDmitry Karpeev PetscInt nidx, *idx; 13992bbb417fSDmitry Karpeev PetscInt ii,jj,s,q,d; 1400af538404SDmitry Karpeev PetscInt k,kk; 14012bbb417fSDmitry Karpeev PetscMPIInt color; 14022bbb417fSDmitry Karpeev MPI_Comm comm, subcomm; 1403af538404SDmitry Karpeev 14042bbb417fSDmitry Karpeev IS **iis; 1405b1a0a8a3SJed Brown PetscFunctionBegin; 14062bbb417fSDmitry Karpeev ierr = PetscObjectGetComm((PetscObject)pc, &comm); CHKERRQ(ierr); 14072bbb417fSDmitry Karpeev ierr = MPI_Comm_size(comm, &size); CHKERRQ(ierr); 14082bbb417fSDmitry Karpeev ierr = MPI_Comm_rank(comm, &rank); CHKERRQ(ierr); 14092bbb417fSDmitry Karpeev ierr = MatGetOwnershipRange(pc->pmat, &first, &last); CHKERRQ(ierr); 14102bbb417fSDmitry Karpeev if(first%dof || last%dof) { 14112bbb417fSDmitry Karpeev SETERRQ3(PETSC_COMM_SELF, PETSC_ERR_ARG_OUTOFRANGE, "Matrix row partitioning unsuitable for domain decomposition: local row range (%D,%D) " 14122bbb417fSDmitry Karpeev "does not respect the number of degrees of freedom per grid point %D", first, last, dof); 14132bbb417fSDmitry Karpeev } 1414af538404SDmitry Karpeev /* Determine the number of domains with nonzero intersections with the local ownership range. */ 14152bbb417fSDmitry Karpeev s = 0; 1416af538404SDmitry Karpeev ystart = 0; 1417af538404SDmitry Karpeev for (j=0; j<Ndomains; ++j) { 1418af538404SDmitry Karpeev maxheight = N/Ndomains + ((N % Ndomains) > j); /* Maximal height of subdomain */ 1419af538404SDmitry Karpeev if (maxheight < 2) SETERRQ2(PETSC_COMM_SELF,PETSC_ERR_ARG_OUTOFRANGE,"Too many %D subdomains in the vertical directon for mesh height %D", Ndomains, N); 1420*eec7e3faSDmitry Karpeev /* Vertical domain limits with an overlap. */ 1421*eec7e3faSDmitry Karpeev ylow = PetscMax(ystart - overlap,0); 1422*eec7e3faSDmitry Karpeev yhigh = PetscMin(ystart + maxheight + overlap,N); 1423b1a0a8a3SJed Brown xstart = 0; 1424af538404SDmitry Karpeev for (i=0; i<Mdomains; ++i) { 1425af538404SDmitry Karpeev maxwidth = M/Mdomains + ((M % Mdomains) > i); /* Maximal width of subdomain */ 1426af538404SDmitry Karpeev if (maxwidth < 2) SETERRQ2(PETSC_COMM_SELF,PETSC_ERR_ARG_OUTOFRANGE,"Too many %D subdomains in the horizontal direction for mesh width %D", Mdomains, M); 1427*eec7e3faSDmitry Karpeev /* Horizontal domain limits with an overlap. */ 1428*eec7e3faSDmitry Karpeev xleft = PetscMax(xstart - overlap,0); 1429*eec7e3faSDmitry Karpeev xright = PetscMin(xstart + maxwidth + overlap,M); 1430af538404SDmitry Karpeev /* 1431af538404SDmitry Karpeev Determine whether this subdomain intersects this processor's ownership range of pc->pmat. 1432af538404SDmitry Karpeev */ 1433*eec7e3faSDmitry Karpeev PCGASMLocalSubdomainBounds2D_Private(M,N,xleft,ylow,xright,yhigh,first,last,&xleft_loc,&ylow_loc,&xright_loc,&yhigh_loc,&nidx); 1434af538404SDmitry Karpeev if(nidx) { 1435af538404SDmitry Karpeev ++s; 1436af538404SDmitry Karpeev } 1437af538404SDmitry Karpeev xstart += maxwidth; 1438af538404SDmitry Karpeev }/* for(i = 0; i < Mdomains; ++i) */ 1439af538404SDmitry Karpeev ystart += maxheight; 1440af538404SDmitry Karpeev }/* for(j = 0; j < Ndomains; ++j) */ 1441af538404SDmitry Karpeev /* Now we can allocate the necessary number of ISs. */ 1442af538404SDmitry Karpeev *nsub = s; 1443af538404SDmitry Karpeev ierr = PetscMalloc((*nsub)*sizeof(IS*),is); CHKERRQ(ierr); 1444af538404SDmitry Karpeev ierr = PetscMalloc((*nsub)*sizeof(IS*),is_local); CHKERRQ(ierr); 1445af538404SDmitry Karpeev s = 0; 1446af538404SDmitry Karpeev ystart = 0; 1447af538404SDmitry Karpeev for (j=0; j<Ndomains; ++j) { 1448af538404SDmitry Karpeev maxheight = N/Ndomains + ((N % Ndomains) > j); /* Maximal height of subdomain */ 1449af538404SDmitry Karpeev if (maxheight < 2) SETERRQ2(PETSC_COMM_SELF,PETSC_ERR_ARG_OUTOFRANGE,"Too many %D subdomains in the vertical directon for mesh height %D", Ndomains, N); 1450af538404SDmitry Karpeev /* Vertical domain limits with an overlap. */ 1451*eec7e3faSDmitry Karpeev y[0][0] = PetscMax(ystart - overlap,0); 1452*eec7e3faSDmitry Karpeev y[0][1] = PetscMin(ystart + maxheight + overlap,N); 1453*eec7e3faSDmitry Karpeev /* Vertical domain limits without an overlap. */ 1454*eec7e3faSDmitry Karpeev y[1][0] = ystart; 1455*eec7e3faSDmitry Karpeev y[1][1] = PetscMin(ystart + maxheight,N); 1456*eec7e3faSDmitry Karpeev xstart = 0; 1457af538404SDmitry Karpeev for (i=0; i<Mdomains; ++i) { 1458af538404SDmitry Karpeev maxwidth = M/Mdomains + ((M % Mdomains) > i); /* Maximal width of subdomain */ 1459af538404SDmitry Karpeev if (maxwidth < 2) SETERRQ2(PETSC_COMM_SELF,PETSC_ERR_ARG_OUTOFRANGE,"Too many %D subdomains in the horizontal direction for mesh width %D", Mdomains, M); 1460af538404SDmitry Karpeev /* Horizontal domain limits with an overlap. */ 1461*eec7e3faSDmitry Karpeev x[0][0] = PetscMax(xstart - overlap,0); 1462*eec7e3faSDmitry Karpeev x[0][1] = PetscMin(xstart + maxwidth + overlap,M); 1463*eec7e3faSDmitry Karpeev /* Horizontal domain limits without an overlap. */ 1464*eec7e3faSDmitry Karpeev x[1][0] = xstart; 1465*eec7e3faSDmitry Karpeev x[1][1] = PetscMin(xstart+maxwidth,M); 14662bbb417fSDmitry Karpeev /* 14672bbb417fSDmitry Karpeev Determine whether this domain intersects this processor's ownership range of pc->pmat. 14682bbb417fSDmitry Karpeev Do this twice: first for the domains with overlaps, and once without. 14692bbb417fSDmitry Karpeev During the first pass create the subcommunicators, and use them on the second pass as well. 14702bbb417fSDmitry Karpeev */ 14712bbb417fSDmitry Karpeev for(q = 0; q < 2; ++q) { 14722bbb417fSDmitry Karpeev /* 14732bbb417fSDmitry Karpeev domain limits, (xleft, xright) and (ylow, yheigh) are adjusted 14742bbb417fSDmitry Karpeev according to whether the domain with an overlap or without is considered. 14752bbb417fSDmitry Karpeev */ 14762bbb417fSDmitry Karpeev xleft = x[q][0]; xright = x[q][1]; 14772bbb417fSDmitry Karpeev ylow = y[q][0]; yhigh = y[q][1]; 1478*eec7e3faSDmitry Karpeev PCGASMLocalSubdomainBounds2D_Private(M,N,xleft,ylow,xright,yhigh,first,last,&xleft_loc,&ylow_loc,&xright_loc,&yhigh_loc,&nidx); 1479af538404SDmitry Karpeev nidx *= dof; 1480*eec7e3faSDmitry Karpeev n[q] = nidx; 14812bbb417fSDmitry Karpeev /* 1482*eec7e3faSDmitry Karpeev Based on the counted number of indices in the local domain *with an overlap*, 1483af538404SDmitry Karpeev construct a subcommunicator of all the processors supporting this domain. 1484*eec7e3faSDmitry Karpeev Observe that a domain with an overlap might have nontrivial local support, 1485*eec7e3faSDmitry Karpeev while the domain without an overlap might not. Hence, the decision to participate 1486*eec7e3faSDmitry Karpeev in the subcommunicator must be based on the domain with an overlap. 14872bbb417fSDmitry Karpeev */ 14882bbb417fSDmitry Karpeev if(q == 0) { 14892bbb417fSDmitry Karpeev if(nidx) { 14902bbb417fSDmitry Karpeev color = 1; 1491b1a0a8a3SJed Brown } 14922bbb417fSDmitry Karpeev else { 14932bbb417fSDmitry Karpeev color = MPI_UNDEFINED; 14942bbb417fSDmitry Karpeev } 14952bbb417fSDmitry Karpeev ierr = MPI_Comm_split(comm, color, rank, &subcomm); CHKERRQ(ierr); 14962bbb417fSDmitry Karpeev } 1497af538404SDmitry Karpeev /* 1498*eec7e3faSDmitry Karpeev Proceed only if the number of local indices *with an overlap* is nonzero. 1499af538404SDmitry Karpeev */ 1500*eec7e3faSDmitry Karpeev if(n[0]) { 1501af538404SDmitry Karpeev if(q == 0) { 1502*eec7e3faSDmitry Karpeev iis = is; 1503af538404SDmitry Karpeev } 1504af538404SDmitry Karpeev if(q == 1) { 1505af538404SDmitry Karpeev /* 1506*eec7e3faSDmitry Karpeev The IS for the no-overlap subdomain shares a communicator with the overlapping domain. 1507af538404SDmitry Karpeev Moreover, if the overlap is zero, the two ISs are identical. 1508af538404SDmitry Karpeev */ 1509b1a0a8a3SJed Brown if(overlap == 0) { 1510*eec7e3faSDmitry Karpeev (*is_local)[s] = (*is)[s]; 15112bbb417fSDmitry Karpeev ierr = PetscObjectReference((PetscObject)(*is)[s]);CHKERRQ(ierr); 15122bbb417fSDmitry Karpeev continue; 15132bbb417fSDmitry Karpeev } 1514af538404SDmitry Karpeev else { 1515*eec7e3faSDmitry Karpeev iis = is_local; 1516*eec7e3faSDmitry Karpeev subcomm = ((PetscObject)(*is)[s])->comm; 15172bbb417fSDmitry Karpeev } 1518af538404SDmitry Karpeev }/* if(q == 1) */ 1519*eec7e3faSDmitry Karpeev idx = PETSC_NULL; 15202bbb417fSDmitry Karpeev ierr = PetscMalloc(nidx*sizeof(PetscInt),&idx);CHKERRQ(ierr); 1521*eec7e3faSDmitry Karpeev if(nidx) { 15222bbb417fSDmitry Karpeev k = 0; 15232bbb417fSDmitry Karpeev for (jj=ylow_loc; jj<yhigh_loc; ++jj) { 1524af538404SDmitry Karpeev PetscInt x0 = (jj==ylow_loc)?xleft_loc:xleft; 1525af538404SDmitry Karpeev PetscInt x1 = (jj==yhigh_loc-1)?xright_loc:xright; 1526af538404SDmitry Karpeev kk = dof*(M*jj + x0); 15272bbb417fSDmitry Karpeev for (ii=x0; ii<x1; ++ii) { 15282bbb417fSDmitry Karpeev for(d = 0; d < dof; ++d) { 15292bbb417fSDmitry Karpeev idx[k++] = kk++; 1530b1a0a8a3SJed Brown } 1531b1a0a8a3SJed Brown } 1532b1a0a8a3SJed Brown } 1533*eec7e3faSDmitry Karpeev } 15342bbb417fSDmitry Karpeev ierr = ISCreateGeneral(subcomm,nidx,idx,PETSC_OWN_POINTER,(*iis)+s);CHKERRQ(ierr); 1535*eec7e3faSDmitry Karpeev }/* if(n[0]) */ 15362bbb417fSDmitry Karpeev }/* for(q = 0; q < 2; ++q) */ 1537*eec7e3faSDmitry Karpeev if(n[0]) { 15382bbb417fSDmitry Karpeev ++s; 1539b1a0a8a3SJed Brown } 1540af538404SDmitry Karpeev xstart += maxwidth; 1541af538404SDmitry Karpeev }/* for(i = 0; i < Mdomains; ++i) */ 15422bbb417fSDmitry Karpeev ystart += maxheight; 1543af538404SDmitry Karpeev }/* for(j = 0; j < Ndomains; ++j) */ 1544b1a0a8a3SJed Brown PetscFunctionReturn(0); 1545b1a0a8a3SJed Brown } 1546b1a0a8a3SJed Brown 1547b1a0a8a3SJed Brown #undef __FUNCT__ 1548f746d493SDmitry Karpeev #define __FUNCT__ "PCGASMGetLocalSubdomains" 1549b1a0a8a3SJed Brown /*@C 1550f746d493SDmitry Karpeev PCGASMGetLocalSubdomains - Gets the local subdomains (for this processor 1551b1a0a8a3SJed Brown only) for the additive Schwarz preconditioner. 1552b1a0a8a3SJed Brown 1553b1a0a8a3SJed Brown Not Collective 1554b1a0a8a3SJed Brown 1555b1a0a8a3SJed Brown Input Parameter: 1556b1a0a8a3SJed Brown . pc - the preconditioner context 1557b1a0a8a3SJed Brown 1558b1a0a8a3SJed Brown Output Parameters: 1559b1a0a8a3SJed Brown + n - the number of subdomains for this processor (default value = 1) 1560b1a0a8a3SJed Brown . is - the index sets that define the subdomains for this processor 1561b1a0a8a3SJed Brown - is_local - the index sets that define the local part of the subdomains for this processor (can be PETSC_NULL) 1562b1a0a8a3SJed Brown 1563b1a0a8a3SJed Brown 1564b1a0a8a3SJed Brown Notes: 1565b1a0a8a3SJed Brown The IS numbering is in the parallel, global numbering of the vector. 1566b1a0a8a3SJed Brown 1567b1a0a8a3SJed Brown Level: advanced 1568b1a0a8a3SJed Brown 1569f746d493SDmitry Karpeev .keywords: PC, GASM, set, local, subdomains, additive Schwarz 1570b1a0a8a3SJed Brown 1571f746d493SDmitry Karpeev .seealso: PCGASMSetTotalSubdomains(), PCGASMSetOverlap(), PCGASMGetSubKSP(), 1572f746d493SDmitry Karpeev PCGASMCreateSubdomains2D(), PCGASMSetLocalSubdomains(), PCGASMGetLocalSubmatrices() 1573b1a0a8a3SJed Brown @*/ 15747087cfbeSBarry Smith PetscErrorCode PCGASMGetLocalSubdomains(PC pc,PetscInt *n,IS *is[],IS *is_local[]) 1575b1a0a8a3SJed Brown { 1576f746d493SDmitry Karpeev PC_GASM *osm; 1577b1a0a8a3SJed Brown PetscErrorCode ierr; 1578b1a0a8a3SJed Brown PetscBool match; 1579b1a0a8a3SJed Brown 1580b1a0a8a3SJed Brown PetscFunctionBegin; 1581b1a0a8a3SJed Brown PetscValidHeaderSpecific(pc,PC_CLASSID,1); 1582b1a0a8a3SJed Brown PetscValidIntPointer(n,2); 1583b1a0a8a3SJed Brown if (is) PetscValidPointer(is,3); 1584f746d493SDmitry Karpeev ierr = PetscTypeCompare((PetscObject)pc,PCGASM,&match);CHKERRQ(ierr); 1585b1a0a8a3SJed Brown if (!match) { 1586b1a0a8a3SJed Brown if (n) *n = 0; 1587b1a0a8a3SJed Brown if (is) *is = PETSC_NULL; 1588b1a0a8a3SJed Brown } else { 1589f746d493SDmitry Karpeev osm = (PC_GASM*)pc->data; 1590ab3e923fSDmitry Karpeev if (n) *n = osm->n; 1591b1a0a8a3SJed Brown if (is) *is = osm->is; 1592b1a0a8a3SJed Brown if (is_local) *is_local = osm->is_local; 1593b1a0a8a3SJed Brown } 1594b1a0a8a3SJed Brown PetscFunctionReturn(0); 1595b1a0a8a3SJed Brown } 1596b1a0a8a3SJed Brown 1597b1a0a8a3SJed Brown #undef __FUNCT__ 1598f746d493SDmitry Karpeev #define __FUNCT__ "PCGASMGetLocalSubmatrices" 1599b1a0a8a3SJed Brown /*@C 1600f746d493SDmitry Karpeev PCGASMGetLocalSubmatrices - Gets the local submatrices (for this processor 1601b1a0a8a3SJed Brown only) for the additive Schwarz preconditioner. 1602b1a0a8a3SJed Brown 1603b1a0a8a3SJed Brown Not Collective 1604b1a0a8a3SJed Brown 1605b1a0a8a3SJed Brown Input Parameter: 1606b1a0a8a3SJed Brown . pc - the preconditioner context 1607b1a0a8a3SJed Brown 1608b1a0a8a3SJed Brown Output Parameters: 1609b1a0a8a3SJed Brown + n - the number of matrices for this processor (default value = 1) 1610b1a0a8a3SJed Brown - mat - the matrices 1611b1a0a8a3SJed Brown 1612b1a0a8a3SJed Brown 1613b1a0a8a3SJed Brown Level: advanced 1614b1a0a8a3SJed Brown 1615f746d493SDmitry Karpeev .keywords: PC, GASM, set, local, subdomains, additive Schwarz, block Jacobi 1616b1a0a8a3SJed Brown 1617f746d493SDmitry Karpeev .seealso: PCGASMSetTotalSubdomains(), PCGASMSetOverlap(), PCGASMGetSubKSP(), 1618f746d493SDmitry Karpeev PCGASMCreateSubdomains2D(), PCGASMSetLocalSubdomains(), PCGASMGetLocalSubdomains() 1619b1a0a8a3SJed Brown @*/ 16207087cfbeSBarry Smith PetscErrorCode PCGASMGetLocalSubmatrices(PC pc,PetscInt *n,Mat *mat[]) 1621b1a0a8a3SJed Brown { 1622f746d493SDmitry Karpeev PC_GASM *osm; 1623b1a0a8a3SJed Brown PetscErrorCode ierr; 1624b1a0a8a3SJed Brown PetscBool match; 1625b1a0a8a3SJed Brown 1626b1a0a8a3SJed Brown PetscFunctionBegin; 1627b1a0a8a3SJed Brown PetscValidHeaderSpecific(pc,PC_CLASSID,1); 1628b1a0a8a3SJed Brown PetscValidIntPointer(n,2); 1629b1a0a8a3SJed Brown if (mat) PetscValidPointer(mat,3); 1630b1a0a8a3SJed Brown if (!pc->setupcalled) SETERRQ(((PetscObject)pc)->comm,PETSC_ERR_ARG_WRONGSTATE,"Must call after KSPSetUP() or PCSetUp()."); 1631f746d493SDmitry Karpeev ierr = PetscTypeCompare((PetscObject)pc,PCGASM,&match);CHKERRQ(ierr); 1632b1a0a8a3SJed Brown if (!match) { 1633b1a0a8a3SJed Brown if (n) *n = 0; 1634b1a0a8a3SJed Brown if (mat) *mat = PETSC_NULL; 1635b1a0a8a3SJed Brown } else { 1636f746d493SDmitry Karpeev osm = (PC_GASM*)pc->data; 1637ab3e923fSDmitry Karpeev if (n) *n = osm->n; 1638b1a0a8a3SJed Brown if (mat) *mat = osm->pmat; 1639b1a0a8a3SJed Brown } 1640b1a0a8a3SJed Brown PetscFunctionReturn(0); 1641b1a0a8a3SJed Brown } 1642