/* Defines projective product routines where A is a MPIAIJ matrix C = P^T * A * P */ #include <../src/mat/impls/aij/seq/aij.h> /*I "petscmat.h" I*/ #include <../src/mat/utils/freespace.h> #include <../src/mat/impls/aij/mpi/mpiaij.h> #include #include /* #define PTAP_PROFILE */ extern PetscErrorCode MatDestroy_MPIAIJ(Mat); #undef __FUNCT__ #define __FUNCT__ "MatDestroy_MPIAIJ_PtAP" PetscErrorCode MatDestroy_MPIAIJ_PtAP(Mat A) { PetscErrorCode ierr; Mat_MPIAIJ *a=(Mat_MPIAIJ*)A->data; Mat_PtAPMPI *ptap=a->ptap; PetscFunctionBegin; if (ptap) { Mat_Merge_SeqsToMPI *merge=ptap->merge; ierr = PetscFree2(ptap->startsj_s,ptap->startsj_r);CHKERRQ(ierr); ierr = PetscFree(ptap->bufa);CHKERRQ(ierr); ierr = MatDestroy(&ptap->P_loc);CHKERRQ(ierr); ierr = MatDestroy(&ptap->P_oth);CHKERRQ(ierr); ierr = MatDestroy(&ptap->A_loc);CHKERRQ(ierr); /* used by MatTransposeMatMult() */ ierr = MatDestroy(&ptap->Rd);CHKERRQ(ierr); ierr = MatDestroy(&ptap->Ro);CHKERRQ(ierr); if (ptap->AP_loc) { /* used by alg_rap */ Mat_SeqAIJ *ap = (Mat_SeqAIJ*)(ptap->AP_loc)->data; ierr = PetscFree(ap->i);CHKERRQ(ierr); ierr = PetscFree2(ap->j,ap->a);CHKERRQ(ierr); ierr = MatDestroy(&ptap->AP_loc);CHKERRQ(ierr); } else { /* used by alg_ptap */ ierr = PetscFree(ptap->api);CHKERRQ(ierr); ierr = PetscFree(ptap->apj);CHKERRQ(ierr); } ierr = MatDestroy(&ptap->C_loc);CHKERRQ(ierr); ierr = MatDestroy(&ptap->C_oth);CHKERRQ(ierr); if (ptap->apa) {ierr = PetscFree(ptap->apa);CHKERRQ(ierr);} if (merge) { /* used by alg_ptap */ ierr = PetscFree(merge->id_r);CHKERRQ(ierr); ierr = PetscFree(merge->len_s);CHKERRQ(ierr); ierr = PetscFree(merge->len_r);CHKERRQ(ierr); ierr = PetscFree(merge->bi);CHKERRQ(ierr); ierr = PetscFree(merge->bj);CHKERRQ(ierr); ierr = PetscFree(merge->buf_ri[0]);CHKERRQ(ierr); ierr = PetscFree(merge->buf_ri);CHKERRQ(ierr); ierr = PetscFree(merge->buf_rj[0]);CHKERRQ(ierr); ierr = PetscFree(merge->buf_rj);CHKERRQ(ierr); ierr = PetscFree(merge->coi);CHKERRQ(ierr); ierr = PetscFree(merge->coj);CHKERRQ(ierr); ierr = PetscFree(merge->owners_co);CHKERRQ(ierr); ierr = PetscLayoutDestroy(&merge->rowmap);CHKERRQ(ierr); ierr = merge->destroy(A);CHKERRQ(ierr); ierr = PetscFree(ptap->merge);CHKERRQ(ierr); } else { ierr = MatDestroy_MPIAIJ(A);CHKERRQ(ierr); } ierr = PetscFree(ptap);CHKERRQ(ierr); } PetscFunctionReturn(0); } #undef __FUNCT__ #define __FUNCT__ "MatDuplicate_MPIAIJ_MatPtAP" PetscErrorCode MatDuplicate_MPIAIJ_MatPtAP(Mat A, MatDuplicateOption op, Mat *M) { PetscErrorCode ierr; Mat_MPIAIJ *a = (Mat_MPIAIJ*)A->data; Mat_PtAPMPI *ptap = a->ptap; PetscFunctionBegin; ierr = (*ptap->duplicate)(A,op,M);CHKERRQ(ierr); (*M)->ops->destroy = ptap->destroy; (*M)->ops->duplicate = ptap->duplicate; PetscFunctionReturn(0); } #undef __FUNCT__ #define __FUNCT__ "MatPtAP_MPIAIJ_MPIAIJ" PetscErrorCode MatPtAP_MPIAIJ_MPIAIJ(Mat A,Mat P,MatReuse scall,PetscReal fill,Mat *C) { PetscErrorCode ierr; PetscBool rap=PETSC_TRUE; /* do R=P^T locally, then C=R*A*P */ MPI_Comm comm; PetscFunctionBegin; /* check if matrix local sizes are compatible */ ierr = PetscObjectGetComm((PetscObject)A,&comm);CHKERRQ(ierr); if (A->rmap->rstart != P->rmap->rstart || A->rmap->rend != P->rmap->rend) { SETERRQ4(comm,PETSC_ERR_ARG_SIZ,"Matrix local dimensions are incompatible, Arow (%D, %D) != Prow (%D,%D)",A->rmap->rstart,A->rmap->rend,P->rmap->rstart,P->rmap->rend); } if (A->cmap->rstart != P->rmap->rstart || A->cmap->rend != P->rmap->rend) { SETERRQ4(comm,PETSC_ERR_ARG_SIZ,"Matrix local dimensions are incompatible, Acol (%D, %D) != Prow (%D,%D)",A->cmap->rstart,A->cmap->rend,P->rmap->rstart,P->rmap->rend); } ierr = PetscOptionsGetBool(NULL,"-matrap",&rap,NULL);CHKERRQ(ierr); if (scall == MAT_INITIAL_MATRIX) { ierr = PetscLogEventBegin(MAT_PtAPSymbolic,A,P,0,0);CHKERRQ(ierr); if (rap) { /* do R=P^T locally, then C=R*A*P */ ierr = MatPtAPSymbolic_MPIAIJ_MPIAIJ(A,P,fill,C);CHKERRQ(ierr); } else { /* do P^T*A*P */ ierr = MatPtAPSymbolic_MPIAIJ_MPIAIJ_ptap(A,P,fill,C);CHKERRQ(ierr); } ierr = PetscLogEventEnd(MAT_PtAPSymbolic,A,P,0,0);CHKERRQ(ierr); } ierr = PetscLogEventBegin(MAT_PtAPNumeric,A,P,0,0);CHKERRQ(ierr); ierr = (*(*C)->ops->ptapnumeric)(A,P,*C);CHKERRQ(ierr); ierr = PetscLogEventEnd(MAT_PtAPNumeric,A,P,0,0);CHKERRQ(ierr); PetscFunctionReturn(0); } #undef __FUNCT__ #define __FUNCT__ "MatPtAPSymbolic_MPIAIJ_MPIAIJ" PetscErrorCode MatPtAPSymbolic_MPIAIJ_MPIAIJ(Mat A,Mat P,PetscReal fill,Mat *C) { PetscErrorCode ierr; Mat_PtAPMPI *ptap; Mat_MPIAIJ *a=(Mat_MPIAIJ*)A->data,*p=(Mat_MPIAIJ*)P->data,*c; MPI_Comm comm; PetscMPIInt size,rank; Mat Cmpi; PetscFreeSpaceList free_space=NULL,current_space=NULL; PetscInt am=A->rmap->n,pm=P->rmap->n,pN=P->cmap->N,pn=P->cmap->n; PetscInt *lnk,i,k,pnz,row,nsend; PetscBT lnkbt; PetscMPIInt tagi,tagj,*len_si,*len_s,*len_ri,icompleted=0,nrecv; PetscInt **buf_rj,**buf_ri,**buf_ri_k; PetscInt len,proc,*dnz,*onz,*owners,nzi,nspacedouble; PetscInt nrows,*buf_s,*buf_si,*buf_si_i,**nextrow,**nextci; MPI_Request *swaits,*rwaits; MPI_Status *sstatus,rstatus; PetscLayout rowmap; PetscInt *owners_co,*coi,*coj; /* i and j array of (p->B)^T*A*P - used in the communication */ PetscMPIInt *len_r,*id_r; /* array of length of comm->size, store send/recv matrix values */ PetscInt *api,*apj,*Jptr,apnz,*prmap=p->garray,con,j,ap_rmax=0,Crmax,rmax,*aj,*ai,*pi; Mat_SeqAIJ *p_loc,*p_oth,*ad=(Mat_SeqAIJ*)(a->A)->data,*ao=(Mat_SeqAIJ*)(a->B)->data,*c_loc,*c_oth; PetscScalar *apv; PetscTable ta; const char *algTypes[2] = {"scalable","nonscalable"}; PetscInt alg=1; /* set default algorithm */ #if defined(PETSC_USE_INFO) PetscReal apfill; #endif #if defined(PTAP_PROFILE) PetscLogDouble t0,t1,t11,t12,t2,t3,t4; #endif PetscFunctionBegin; ierr = PetscObjectGetComm((PetscObject)A,&comm);CHKERRQ(ierr); ierr = MPI_Comm_size(comm,&size);CHKERRQ(ierr); ierr = MPI_Comm_rank(comm,&rank);CHKERRQ(ierr); #if defined(PTAP_PROFILE) ierr = PetscTime(&t0);CHKERRQ(ierr); #endif /* create struct Mat_PtAPMPI and attached it to C later */ ierr = PetscNew(&ptap);CHKERRQ(ierr); ptap->reuse = MAT_INITIAL_MATRIX; /* get P_oth by taking rows of P (= non-zero cols of local A) from other processors */ ierr = MatGetBrowsOfAoCols_MPIAIJ(A,P,MAT_INITIAL_MATRIX,&ptap->startsj_s,&ptap->startsj_r,&ptap->bufa,&ptap->P_oth);CHKERRQ(ierr); /* get P_loc by taking all local rows of P */ ierr = MatMPIAIJGetLocalMat(P,MAT_INITIAL_MATRIX,&ptap->P_loc);CHKERRQ(ierr); /* (0) compute Rd = Pd^T, Ro = Po^T */ /* --------------------------------- */ ierr = MatTranspose_SeqAIJ(p->A,MAT_INITIAL_MATRIX,&ptap->Rd);CHKERRQ(ierr); ierr = MatTranspose_SeqAIJ(p->B,MAT_INITIAL_MATRIX,&ptap->Ro);CHKERRQ(ierr); #if defined(PTAP_PROFILE) ierr = PetscTime(&t11);CHKERRQ(ierr); #endif /* (1) compute symbolic AP = A_loc*P = Ad*P_loc + Ao*P_oth (api,apj) */ /* ----------------------------------------------------------------- */ p_loc = (Mat_SeqAIJ*)(ptap->P_loc)->data; p_oth = (Mat_SeqAIJ*)(ptap->P_oth)->data; /* create and initialize a linked list */ Crmax = 5*(p_loc->rmax+p_oth->rmax + (PetscInt)(1.e-2*pN)); /* expected Crmax */ if (Crmax > pN) Crmax=pN; ierr = PetscTableCreate(Crmax,pN,&ta);CHKERRQ(ierr); /* for compute AP_loc and Cmpi */ MatRowMergeMax_SeqAIJ(p_loc,ptap->P_loc->rmap->N,ta); MatRowMergeMax_SeqAIJ(p_oth,ptap->P_oth->rmap->N,ta); ierr = PetscTableGetCount(ta,&Crmax);CHKERRQ(ierr); /* Crmax = nnz(sum of Prows) */ /* printf("[%d] est %d, Crmax %d; pN %d\n",rank,5*(p_loc->rmax+p_oth->rmax + (PetscInt)(1.e-2*pN)),Crmax,pN); */ ierr = PetscLLCondensedCreate(Crmax,pN,&lnk,&lnkbt);CHKERRQ(ierr); /* Initial FreeSpace size is fill*(nnz(A) + nnz(P)) */ ierr = PetscFreeSpaceGet((PetscInt)(fill*(ad->i[am]+ao->i[am]+p_loc->i[pm])),&free_space);CHKERRQ(ierr); current_space = free_space; nspacedouble = 0; ierr = PetscMalloc1(am+1,&api);CHKERRQ(ierr); api[0] = 0; for (i=0; ii; pi = p_loc->i; nzi = ai[i+1] - ai[i]; aj = ad->j + ai[i]; for (j=0; jj + pi[row]; /* add non-zero cols of P into the sorted linked list lnk */ ierr = PetscLLCondensedAddSorted(pnz,Jptr,lnk,lnkbt);CHKERRQ(ierr); } /* off-diagonal portion: Ao[i,:]*P */ ai = ao->i; pi = p_oth->i; nzi = ai[i+1] - ai[i]; aj = ao->j + ai[i]; for (j=0; jj + pi[row]; ierr = PetscLLCondensedAddSorted(pnz,Jptr,lnk,lnkbt);CHKERRQ(ierr); } apnz = lnk[0]; api[i+1] = api[i] + apnz; if (ap_rmax < apnz) ap_rmax = apnz; /* if free space is not available, double the total space in the list */ if (current_space->local_remainingtotal_array_size,¤t_space);CHKERRQ(ierr); nspacedouble++; } /* Copy data into free space, then initialize lnk */ ierr = PetscLLCondensedClean(pN,apnz,current_space->array,lnk,lnkbt);CHKERRQ(ierr); current_space->array += apnz; current_space->local_used += apnz; current_space->local_remaining -= apnz; } /* Allocate space for apj and apv, initialize apj, and */ /* destroy list of free space and other temporary array(s) */ ierr = PetscMalloc2(api[am],&apj,api[am],&apv);CHKERRQ(ierr); ierr = PetscFreeSpaceContiguous(&free_space,apj);CHKERRQ(ierr); ierr = PetscLLDestroy(lnk,lnkbt);CHKERRQ(ierr); /* Create AP_loc for reuse */ ierr = MatCreateSeqAIJWithArrays(PETSC_COMM_SELF,am,pN,api,apj,apv,&ptap->AP_loc);CHKERRQ(ierr); #if defined(PETSC_USE_INFO) apfill = (PetscReal)api[am]/(ad->i[am]+ao->i[am]+p_loc->i[pm]+1); ptap->AP_loc->info.mallocs = nspacedouble; ptap->AP_loc->info.fill_ratio_given = fill; ptap->AP_loc->info.fill_ratio_needed = apfill; if (api[am]) { ierr = PetscInfo3(ptap->AP_loc,"AP_loc reallocs %D; Fill ratio: given %g needed %g.\n",nspacedouble,(double)fill,(double)apfill);CHKERRQ(ierr); ierr = PetscInfo1(ptap->AP_loc,"Use MatPtAP(A,B,MatReuse,%g,&C) for best AP_loc performance.;\n",(double)apfill);CHKERRQ(ierr); } else { ierr = PetscInfo(ptap->AP_loc,"AP_loc is empty \n");CHKERRQ(ierr); } #endif #if defined(PTAP_PROFILE) ierr = PetscTime(&t12);CHKERRQ(ierr); #endif /* (2-1) compute symbolic Co = Ro*AP_loc */ /* ------------------------------------ */ ierr = MatMatMultSymbolic_SeqAIJ_SeqAIJ(ptap->Ro,ptap->AP_loc,fill,&ptap->C_oth);CHKERRQ(ierr); c_oth = (Mat_SeqAIJ*)ptap->C_oth->data; #if defined(PTAP_PROFILE) ierr = PetscTime(&t1);CHKERRQ(ierr); #endif /* (3) send coj of C_oth to other processors */ /* ------------------------------------------ */ /* determine row ownership */ ierr = PetscLayoutCreate(comm,&rowmap);CHKERRQ(ierr); rowmap->n = pn; rowmap->bs = 1; ierr = PetscLayoutSetUp(rowmap);CHKERRQ(ierr); owners = rowmap->range; /* determine the number of messages to send, their lengths */ ierr = PetscMalloc4(size,&len_s,size,&len_si,size,&sstatus,size+2,&owners_co);CHKERRQ(ierr); ierr = PetscMemzero(len_s,size*sizeof(PetscMPIInt));CHKERRQ(ierr); ierr = PetscMemzero(len_si,size*sizeof(PetscMPIInt));CHKERRQ(ierr); c_oth = (Mat_SeqAIJ*)ptap->C_oth->data; coi = c_oth->i; coj = c_oth->j; con = ptap->C_oth->rmap->n; proc = 0; for (i=0; i= owners[proc+1]) proc++; len_si[proc]++; /* num of rows in Co(=Pt*AP) to be sent to [proc] */ len_s[proc] += coi[i+1] - coi[i]; /* num of nonzeros in Co to be sent to [proc] */ } len = 0; /* max length of buf_si[], see (4) */ owners_co[0] = 0; nsend = 0; for (proc=0; procRd,ptap->AP_loc,fill,&ptap->C_loc);CHKERRQ(ierr); c_loc = (Mat_SeqAIJ*)ptap->C_loc->data; /* receives coj are complete */ for (i=0; ii[i+1] - c_loc->i[i]; Jptr = c_loc->j + c_loc->i[i]; ierr = PetscLLCondensedAddSorted(nzi,Jptr,lnk,lnkbt);CHKERRQ(ierr); /* add received col data into lnk */ for (k=0; karray,lnk,lnkbt);CHKERRQ(ierr); ierr = MatPreallocateSet(i+owners[rank],nzi,current_space->array,dnz,onz);CHKERRQ(ierr); if (nzi > rmax) rmax = nzi; } ierr = PetscFree3(buf_ri_k,nextrow,nextci);CHKERRQ(ierr); ierr = PetscLLDestroy(lnk,lnkbt);CHKERRQ(ierr); ierr = PetscFreeSpaceDestroy(free_space);CHKERRQ(ierr); #if defined(PTAP_PROFILE) ierr = PetscTime(&t3);CHKERRQ(ierr); #endif /* (6) create symbolic parallel matrix Cmpi */ /*------------------------------------------*/ ierr = MatCreate(comm,&Cmpi);CHKERRQ(ierr); ierr = MatSetSizes(Cmpi,pn,pn,PETSC_DETERMINE,PETSC_DETERMINE);CHKERRQ(ierr); ierr = MatSetBlockSizes(Cmpi,PetscAbs(P->cmap->bs),PetscAbs(P->cmap->bs));CHKERRQ(ierr); ierr = MatSetType(Cmpi,MATMPIAIJ);CHKERRQ(ierr); ierr = MatMPIAIJSetPreallocation(Cmpi,0,dnz,0,onz);CHKERRQ(ierr); ierr = MatPreallocateFinalize(dnz,onz);CHKERRQ(ierr); /* members in merge */ ierr = PetscFree(id_r);CHKERRQ(ierr); ierr = PetscFree(len_r);CHKERRQ(ierr); ierr = PetscFree(buf_ri[0]);CHKERRQ(ierr); ierr = PetscFree(buf_ri);CHKERRQ(ierr); ierr = PetscFree(buf_rj[0]);CHKERRQ(ierr); ierr = PetscFree(buf_rj);CHKERRQ(ierr); ierr = PetscLayoutDestroy(&rowmap);CHKERRQ(ierr); /* attach the supporting struct to Cmpi for reuse */ c = (Mat_MPIAIJ*)Cmpi->data; c->ptap = ptap; ptap->rmax = ap_rmax; ptap->duplicate = Cmpi->ops->duplicate; ptap->destroy = Cmpi->ops->destroy; ierr = PetscObjectOptionsBegin((PetscObject)A);CHKERRQ(ierr); ierr = PetscOptionsEList("-matptap_via","Algorithmic approach","MatPtAP",algTypes,2,algTypes[1],&alg,NULL);CHKERRQ(ierr); ierr = PetscOptionsEnd();CHKERRQ(ierr); if (alg == 1) { /* Do dense axpy in MatPtAPNumeric_MPIAIJ_MPIAIJ() */ ierr = PetscCalloc1(pN,&ptap->apa);CHKERRQ(ierr); Cmpi->ops->ptapnumeric = MatPtAPNumeric_MPIAIJ_MPIAIJ; } else { Cmpi->ops->ptapnumeric = 0; /* not done yet */ SETERRQ(comm,PETSC_ERR_ARG_SIZ,"Not done yet"); } /* Cmpi is not ready for use - assembly will be done by MatPtAPNumeric() */ Cmpi->assembled = PETSC_FALSE; Cmpi->ops->destroy = MatDestroy_MPIAIJ_PtAP; Cmpi->ops->duplicate = MatDuplicate_MPIAIJ_MatPtAP; *C = Cmpi; #if defined(PTAP_PROFILE) ierr = PetscTime(&t4);CHKERRQ(ierr); if (rank == 1) { printf("PtAPSym: %g + %g + %g + %g + %g + %g = %g\n",t11-t0,t1-t11,t12-t11,t2-t2,t3-t2,t4-t3,t4-t0); } #endif PetscFunctionReturn(0); } #undef __FUNCT__ #define __FUNCT__ "MatPtAPNumeric_MPIAIJ_MPIAIJ" PetscErrorCode MatPtAPNumeric_MPIAIJ_MPIAIJ(Mat A,Mat P,Mat C) { PetscErrorCode ierr; Mat_MPIAIJ *a=(Mat_MPIAIJ*)A->data,*p=(Mat_MPIAIJ*)P->data,*c=(Mat_MPIAIJ*)C->data; Mat_SeqAIJ *ad=(Mat_SeqAIJ*)(a->A)->data,*ao=(Mat_SeqAIJ*)(a->B)->data; Mat_SeqAIJ *ap,*p_loc,*p_oth,*c_seq; Mat_PtAPMPI *ptap = c->ptap; Mat AP_loc,C_loc,C_oth; PetscInt i,rstart,rend,cm,ncols,row; PetscInt *api,*apj,am = A->rmap->n,j,col,apnz; PetscScalar *apa; const PetscInt *cols; const PetscScalar *vals; #if defined(PTAP_PROFILE) PetscMPIInt rank; MPI_Comm comm; PetscLogDouble t0,t1,t2,t3,t4,eR,eAP,eCseq,eCmpi; #endif PetscFunctionBegin; ierr = MatZeroEntries(C);CHKERRQ(ierr); /* 1) get R = Pd^T,Ro = Po^T */ #if defined(PTAP_PROFILE) ierr = PetscTime(&t0);CHKERRQ(ierr); #endif if (ptap->reuse == MAT_REUSE_MATRIX) { ierr = MatTranspose_SeqAIJ(p->A,MAT_REUSE_MATRIX,&ptap->Rd);CHKERRQ(ierr); ierr = MatTranspose_SeqAIJ(p->B,MAT_REUSE_MATRIX,&ptap->Ro);CHKERRQ(ierr); } #if defined(PTAP_PROFILE) ierr = PetscTime(&t1);CHKERRQ(ierr); eR = t1 - t0; #endif /* 2) get AP_loc */ AP_loc = ptap->AP_loc; ap = (Mat_SeqAIJ*)AP_loc->data; /* 2-1) get P_oth = ptap->P_oth and P_loc = ptap->P_loc */ /*-----------------------------------------------------*/ if (ptap->reuse == MAT_REUSE_MATRIX) { /* P_oth and P_loc are obtained in MatPtASymbolic() when reuse == MAT_INITIAL_MATRIX */ ierr = MatGetBrowsOfAoCols_MPIAIJ(A,P,MAT_REUSE_MATRIX,&ptap->startsj_s,&ptap->startsj_r,&ptap->bufa,&ptap->P_oth);CHKERRQ(ierr); ierr = MatMPIAIJGetLocalMat(P,MAT_REUSE_MATRIX,&ptap->P_loc);CHKERRQ(ierr); } /* 2-2) compute numeric A_loc*P - dominating part */ /* ---------------------------------------------- */ /* get data from symbolic products */ p_loc = (Mat_SeqAIJ*)(ptap->P_loc)->data; p_oth = (Mat_SeqAIJ*)(ptap->P_oth)->data; apa = ptap->apa; api = ap->i; apj = ap->j; for (i=0; ia[j+ap->i[i]] = apa[col]; apa[col] = 0.0; } ierr = PetscLogFlops(2.0*apnz);CHKERRQ(ierr); } #if defined(PTAP_PROFILE) ierr = PetscTime(&t2);CHKERRQ(ierr); eAP = t2 - t1; #endif /* 3) C_loc = Rd*AP_loc, C_oth = Ro*AP_loc */ ierr = ((ptap->C_loc)->ops->matmultnumeric)(ptap->Rd,AP_loc,ptap->C_loc);CHKERRQ(ierr); ierr = ((ptap->C_oth)->ops->matmultnumeric)(ptap->Ro,AP_loc,ptap->C_oth);CHKERRQ(ierr); C_loc = ptap->C_loc; C_oth = ptap->C_oth; #if defined(PTAP_PROFILE) ierr = PetscTime(&t3);CHKERRQ(ierr); eCseq = t3 - t2; #endif /* add C_loc and Co to to C */ ierr = MatGetOwnershipRange(C,&rstart,&rend);CHKERRQ(ierr); /* C_loc -> C */ cm = C_loc->rmap->N; c_seq = (Mat_SeqAIJ*)C_loc->data; cols = c_seq->j; vals = c_seq->a; for (i=0; ii[i+1] - c_seq->i[i]; row = rstart + i; ierr = MatSetValues(C,1,&row,ncols,cols,vals,ADD_VALUES);CHKERRQ(ierr); cols += ncols; vals += ncols; } /* Co -> C, off-processor part */ cm = C_oth->rmap->N; c_seq = (Mat_SeqAIJ*)C_oth->data; cols = c_seq->j; vals = c_seq->a; for (i=0; ii[i+1] - c_seq->i[i]; row = p->garray[i]; ierr = MatSetValues(C,1,&row,ncols,cols,vals,ADD_VALUES);CHKERRQ(ierr); cols += ncols; vals += ncols; } ierr = MatAssemblyBegin(C,MAT_FINAL_ASSEMBLY);CHKERRQ(ierr); ierr = MatAssemblyEnd(C,MAT_FINAL_ASSEMBLY);CHKERRQ(ierr); #if defined(PTAP_PROFILE) ierr = PetscTime(&t4);CHKERRQ(ierr); eCmpi = t4 - t3; ierr = PetscObjectGetComm((PetscObject)C,&comm);CHKERRQ(ierr); ierr = MPI_Comm_rank(comm,&rank);CHKERRQ(ierr); if (rank==1) { ierr = PetscPrintf(MPI_COMM_SELF," R %g, AP %g, Cseq %g, Cmpi %g = %g\n", eR,eAP,eCseq,eCmpi,eR+eAP+eCseq+eCmpi);CHKERRQ(ierr); } #endif ptap->reuse = MAT_REUSE_MATRIX; PetscFunctionReturn(0); } #undef __FUNCT__ #define __FUNCT__ "MatPtAPSymbolic_MPIAIJ_MPIAIJ_ptap" PetscErrorCode MatPtAPSymbolic_MPIAIJ_MPIAIJ_ptap(Mat A,Mat P,PetscReal fill,Mat *C) { PetscErrorCode ierr; Mat Cmpi; Mat_PtAPMPI *ptap; PetscFreeSpaceList free_space=NULL,current_space=NULL; Mat_MPIAIJ *a =(Mat_MPIAIJ*)A->data,*p=(Mat_MPIAIJ*)P->data,*c; Mat_SeqAIJ *ad =(Mat_SeqAIJ*)(a->A)->data,*ao=(Mat_SeqAIJ*)(a->B)->data; Mat_SeqAIJ *p_loc,*p_oth; PetscInt *pi_loc,*pj_loc,*pi_oth,*pj_oth,*pdti,*pdtj,*poti,*potj,*ptJ; PetscInt *adi=ad->i,*aj,*aoi=ao->i,nnz; PetscInt *lnk,*owners_co,*coi,*coj,i,k,pnz,row; PetscInt am=A->rmap->n,pN=P->cmap->N,pm=P->rmap->n,pn=P->cmap->n; PetscBT lnkbt; MPI_Comm comm; PetscMPIInt size,rank,tagi,tagj,*len_si,*len_s,*len_ri,icompleted=0; PetscInt **buf_rj,**buf_ri,**buf_ri_k; PetscInt len,proc,*dnz,*onz,*owners; PetscInt nzi,*pti,*ptj; PetscInt nrows,*buf_s,*buf_si,*buf_si_i,**nextrow,**nextci; MPI_Request *swaits,*rwaits; MPI_Status *sstatus,rstatus; Mat_Merge_SeqsToMPI *merge; PetscInt *api,*apj,*Jptr,apnz,*prmap=p->garray,pon,nspacedouble=0,j,ap_rmax=0; PetscReal afill=1.0,afill_tmp; PetscInt rmax; PetscFunctionBegin; ierr = PetscObjectGetComm((PetscObject)A,&comm);CHKERRQ(ierr); ierr = MPI_Comm_size(comm,&size);CHKERRQ(ierr); ierr = MPI_Comm_rank(comm,&rank);CHKERRQ(ierr); /* create struct Mat_PtAPMPI and attached it to C later */ ierr = PetscNew(&ptap);CHKERRQ(ierr); ierr = PetscNew(&merge);CHKERRQ(ierr); ptap->merge = merge; ptap->reuse = MAT_INITIAL_MATRIX; /* get P_oth by taking rows of P (= non-zero cols of local A) from other processors */ ierr = MatGetBrowsOfAoCols_MPIAIJ(A,P,MAT_INITIAL_MATRIX,&ptap->startsj_s,&ptap->startsj_r,&ptap->bufa,&ptap->P_oth);CHKERRQ(ierr); /* get P_loc by taking all local rows of P */ ierr = MatMPIAIJGetLocalMat(P,MAT_INITIAL_MATRIX,&ptap->P_loc);CHKERRQ(ierr); p_loc = (Mat_SeqAIJ*)(ptap->P_loc)->data; p_oth = (Mat_SeqAIJ*)(ptap->P_oth)->data; pi_loc = p_loc->i; pj_loc = p_loc->j; pi_oth = p_oth->i; pj_oth = p_oth->j; /* (1) compute symbolic AP = A_loc*P = A_diag*P_loc + A_off*P_oth (api,apj) */ /*--------------------------------------------------------------------------*/ ierr = PetscMalloc1(am+1,&api);CHKERRQ(ierr); api[0] = 0; /* create and initialize a linked list */ ierr = PetscLLCondensedCreate(pN,pN,&lnk,&lnkbt);CHKERRQ(ierr); /* Initial FreeSpace size is fill*(nnz(A) + nnz(P)) -OOM for ex56, np=8k on Intrepid! */ ierr = PetscFreeSpaceGet((PetscInt)(fill*(adi[am]+aoi[am]+pi_loc[pm])),&free_space);CHKERRQ(ierr); current_space = free_space; for (i=0; ij + adi[i]; for (j=0; jj + aoi[i]; for (j=0; jlocal_remainingtotal_array_size,¤t_space);CHKERRQ(ierr); nspacedouble++; } /* Copy data into free space, then initialize lnk */ ierr = PetscLLCondensedClean(pN,apnz,current_space->array,lnk,lnkbt);CHKERRQ(ierr); current_space->array += apnz; current_space->local_used += apnz; current_space->local_remaining -= apnz; } /* Allocate space for apj, initialize apj, and */ /* destroy list of free space and other temporary array(s) */ ierr = PetscMalloc1(api[am]+1,&apj);CHKERRQ(ierr); ierr = PetscFreeSpaceContiguous(&free_space,apj);CHKERRQ(ierr); afill_tmp = (PetscReal)api[am]/(adi[am]+aoi[am]+pi_loc[pm]+1); if (afill_tmp > afill) afill = afill_tmp; /* (2) determine symbolic Co=(p->B)^T*AP - send to others (coi,coj)*/ /*-----------------------------------------------------------------*/ ierr = MatGetSymbolicTranspose_SeqAIJ(p->B,&poti,&potj);CHKERRQ(ierr); /* then, compute symbolic Co = (p->B)^T*AP */ pon = (p->B)->cmap->n; /* total num of rows to be sent to other processors >= (num of nonzero rows of C_seq) - pn */ ierr = PetscMalloc1(pon+1,&coi);CHKERRQ(ierr); coi[0] = 0; /* set initial free space to be fill*(nnz(p->B) + nnz(AP)) */ nnz = fill*(poti[pon] + api[am]); ierr = PetscFreeSpaceGet(nnz,&free_space);CHKERRQ(ierr); current_space = free_space; for (i=0; ilocal_remainingtotal_array_size,¤t_space);CHKERRQ(ierr); nspacedouble++; } /* Copy data into free space, and zero out denserows */ ierr = PetscLLCondensedClean(pN,nnz,current_space->array,lnk,lnkbt);CHKERRQ(ierr); current_space->array += nnz; current_space->local_used += nnz; current_space->local_remaining -= nnz; coi[i+1] = coi[i] + nnz; } ierr = PetscMalloc1(coi[pon],&coj);CHKERRQ(ierr); ierr = PetscFreeSpaceContiguous(&free_space,coj);CHKERRQ(ierr); afill_tmp = (PetscReal)coi[pon]/(poti[pon] + api[am]+1); if (afill_tmp > afill) afill = afill_tmp; ierr = MatRestoreSymbolicTranspose_SeqAIJ(p->B,&poti,&potj);CHKERRQ(ierr); /* (3) send j-array (coj) of Co to other processors */ /*--------------------------------------------------*/ ierr = PetscCalloc1(size,&merge->len_s);CHKERRQ(ierr); len_s = merge->len_s; merge->nsend = 0; /* determine row ownership */ ierr = PetscLayoutCreate(comm,&merge->rowmap);CHKERRQ(ierr); merge->rowmap->n = pn; merge->rowmap->bs = 1; ierr = PetscLayoutSetUp(merge->rowmap);CHKERRQ(ierr); owners = merge->rowmap->range; /* determine the number of messages to send, their lengths */ ierr = PetscMalloc2(size,&len_si,size,&sstatus);CHKERRQ(ierr); ierr = PetscMemzero(len_si,size*sizeof(PetscMPIInt));CHKERRQ(ierr); ierr = PetscMalloc1(size+2,&owners_co);CHKERRQ(ierr); proc = 0; for (i=0; i= owners[proc+1]) proc++; len_si[proc]++; /* num of rows in Co(=Pt*AP) to be sent to [proc] */ len_s[proc] += coi[i+1] - coi[i]; /* num of nonzeros in Co to be sent to [proc] */ } len = 0; /* max length of buf_si[], see (4) */ owners_co[0] = 0; for (proc=0; procnsend++; len_si[proc] = 2*(len_si[proc] + 1); /* length of buf_si to be sent to [proc] */ len += len_si[proc]; } } /* determine the number and length of messages to receive for coi and coj */ ierr = PetscGatherNumberOfMessages(comm,NULL,len_s,&merge->nrecv);CHKERRQ(ierr); ierr = PetscGatherMessageLengths2(comm,merge->nsend,merge->nrecv,len_s,len_si,&merge->id_r,&merge->len_r,&len_ri);CHKERRQ(ierr); /* post the Irecv and Isend of coj */ ierr = PetscCommGetNewTag(comm,&tagj);CHKERRQ(ierr); ierr = PetscPostIrecvInt(comm,tagj,merge->nrecv,merge->id_r,merge->len_r,&buf_rj,&rwaits);CHKERRQ(ierr); ierr = PetscMalloc1(merge->nsend+1,&swaits);CHKERRQ(ierr); for (proc=0, k=0; procnrecv; i++) { ierr = MPI_Waitany(merge->nrecv,rwaits,&icompleted,&rstatus);CHKERRQ(ierr); } ierr = PetscFree(rwaits);CHKERRQ(ierr); if (merge->nsend) {ierr = MPI_Waitall(merge->nsend,swaits,sstatus);CHKERRQ(ierr);} /* (4) send and recv coi */ /*-----------------------*/ ierr = PetscCommGetNewTag(comm,&tagi);CHKERRQ(ierr); ierr = PetscPostIrecvInt(comm,tagi,merge->nrecv,merge->id_r,len_ri,&buf_ri,&rwaits);CHKERRQ(ierr); ierr = PetscMalloc1(len+1,&buf_s);CHKERRQ(ierr); buf_si = buf_s; /* points to the beginning of k-th msg to be sent */ for (proc=0,k=0; procnrecv; while (i--) { ierr = MPI_Waitany(merge->nrecv,rwaits,&icompleted,&rstatus);CHKERRQ(ierr); } ierr = PetscFree(rwaits);CHKERRQ(ierr); if (merge->nsend) {ierr = MPI_Waitall(merge->nsend,swaits,sstatus);CHKERRQ(ierr);} ierr = PetscFree2(len_si,sstatus);CHKERRQ(ierr); ierr = PetscFree(len_ri);CHKERRQ(ierr); ierr = PetscFree(swaits);CHKERRQ(ierr); ierr = PetscFree(buf_s);CHKERRQ(ierr); /* (5) compute the local portion of C (mpi mat) */ /*----------------------------------------------*/ ierr = MatGetSymbolicTranspose_SeqAIJ(p->A,&pdti,&pdtj);CHKERRQ(ierr); /* allocate pti array and free space for accumulating nonzero column info */ ierr = PetscMalloc1(pn+1,&pti);CHKERRQ(ierr); pti[0] = 0; /* set initial free space to be fill*(nnz(P) + nnz(AP)) */ nnz = fill*(pi_loc[pm] + api[am]); ierr = PetscFreeSpaceGet(nnz,&free_space);CHKERRQ(ierr); current_space = free_space; ierr = PetscMalloc3(merge->nrecv,&buf_ri_k,merge->nrecv,&nextrow,merge->nrecv,&nextci);CHKERRQ(ierr); for (k=0; knrecv; k++) { buf_ri_k[k] = buf_ri[k]; /* beginning of k-th recved i-structure */ nrows = *buf_ri_k[k]; nextrow[k] = buf_ri_k[k] + 1; /* next row number of k-th recved i-structure */ nextci[k] = buf_ri_k[k] + (nrows + 1); /* poins to the next i-structure of k-th recved i-structure */ } ierr = MatPreallocateInitialize(comm,pn,pn,dnz,onz);CHKERRQ(ierr); rmax = 0; for (i=0; inrecv; k++) { /* k-th received message */ if (i == *nextrow[k]) { /* i-th row */ nzi = *(nextci[k]+1) - *nextci[k]; Jptr = buf_rj[k] + *nextci[k]; ierr = PetscLLCondensedAddSorted(nzi,Jptr,lnk,lnkbt);CHKERRQ(ierr); nextrow[k]++; nextci[k]++; } } nnz = lnk[0]; /* if free space is not available, make more free space */ if (current_space->local_remainingtotal_array_size,¤t_space);CHKERRQ(ierr); nspacedouble++; } /* copy data into free space, then initialize lnk */ ierr = PetscLLCondensedClean(pN,nnz,current_space->array,lnk,lnkbt);CHKERRQ(ierr); ierr = MatPreallocateSet(i+owners[rank],nnz,current_space->array,dnz,onz);CHKERRQ(ierr); current_space->array += nnz; current_space->local_used += nnz; current_space->local_remaining -= nnz; pti[i+1] = pti[i] + nnz; if (nnz > rmax) rmax = nnz; } ierr = MatRestoreSymbolicTranspose_SeqAIJ(p->A,&pdti,&pdtj);CHKERRQ(ierr); ierr = PetscFree3(buf_ri_k,nextrow,nextci);CHKERRQ(ierr); ierr = PetscMalloc1(pti[pn]+1,&ptj);CHKERRQ(ierr); ierr = PetscFreeSpaceContiguous(&free_space,ptj);CHKERRQ(ierr); afill_tmp = (PetscReal)pti[pn]/(pi_loc[pm] + api[am]+1); if (afill_tmp > afill) afill = afill_tmp; ierr = PetscLLDestroy(lnk,lnkbt);CHKERRQ(ierr); /* (6) create symbolic parallel matrix Cmpi */ /*------------------------------------------*/ ierr = MatCreate(comm,&Cmpi);CHKERRQ(ierr); ierr = MatSetSizes(Cmpi,pn,pn,PETSC_DETERMINE,PETSC_DETERMINE);CHKERRQ(ierr); ierr = MatSetBlockSizes(Cmpi,PetscAbs(P->cmap->bs),PetscAbs(P->cmap->bs));CHKERRQ(ierr); ierr = MatSetType(Cmpi,MATMPIAIJ);CHKERRQ(ierr); ierr = MatMPIAIJSetPreallocation(Cmpi,0,dnz,0,onz);CHKERRQ(ierr); ierr = MatPreallocateFinalize(dnz,onz);CHKERRQ(ierr); merge->bi = pti; /* Cseq->i */ merge->bj = ptj; /* Cseq->j */ merge->coi = coi; /* Co->i */ merge->coj = coj; /* Co->j */ merge->buf_ri = buf_ri; merge->buf_rj = buf_rj; merge->owners_co = owners_co; merge->destroy = Cmpi->ops->destroy; /* attach the supporting struct to Cmpi for reuse */ c = (Mat_MPIAIJ*)Cmpi->data; c->ptap = ptap; ptap->api = api; ptap->apj = apj; ptap->rmax = ap_rmax; ptap->duplicate = Cmpi->ops->duplicate; ptap->destroy = Cmpi->ops->destroy; /* Cmpi is not ready for use - assembly will be done by MatPtAPNumeric() */ Cmpi->assembled = PETSC_FALSE; Cmpi->ops->destroy = MatDestroy_MPIAIJ_PtAP; Cmpi->ops->duplicate = MatDuplicate_MPIAIJ_MatPtAP; Cmpi->ops->ptapnumeric = MatPtAPNumeric_MPIAIJ_MPIAIJ_ptap; *C = Cmpi; /* flag 'scalable' determines which implementations to be used: 0: do dense axpy in MatPtAPNumeric() - fast, but requires storage of a nonscalable dense array apa; 1: do sparse axpy in MatPtAPNumeric() - might slow, uses a sparse array apa */ /* set default scalable */ ptap->scalable = PETSC_FALSE; /* PETSC_TRUE; */ ierr = PetscOptionsGetBool(((PetscObject)Cmpi)->prefix,"-matptap_scalable",&ptap->scalable,NULL);CHKERRQ(ierr); if (!ptap->scalable) { /* Do dense axpy */ ierr = PetscCalloc1(pN,&ptap->apa);CHKERRQ(ierr); } else { ierr = PetscCalloc1(ap_rmax+1,&ptap->apa);CHKERRQ(ierr); } #if defined(PETSC_USE_INFO) if (pti[pn] != 0) { ierr = PetscInfo3(Cmpi,"Reallocs %D; Fill ratio: given %g needed %g.\n",nspacedouble,(double)fill,(double)afill);CHKERRQ(ierr); ierr = PetscInfo1(Cmpi,"Use MatPtAP(A,P,MatReuse,%g,&C) for best performance.\n",(double)afill);CHKERRQ(ierr); } else { ierr = PetscInfo(Cmpi,"Empty matrix product\n");CHKERRQ(ierr); } #endif PetscFunctionReturn(0); } #undef __FUNCT__ #define __FUNCT__ "MatPtAPNumeric_MPIAIJ_MPIAIJ_ptap" PetscErrorCode MatPtAPNumeric_MPIAIJ_MPIAIJ_ptap(Mat A,Mat P,Mat C) { PetscErrorCode ierr; Mat_MPIAIJ *a =(Mat_MPIAIJ*)A->data,*p=(Mat_MPIAIJ*)P->data,*c=(Mat_MPIAIJ*)C->data; Mat_SeqAIJ *ad=(Mat_SeqAIJ*)(a->A)->data,*ao=(Mat_SeqAIJ*)(a->B)->data; Mat_SeqAIJ *pd=(Mat_SeqAIJ*)(p->A)->data,*po=(Mat_SeqAIJ*)(p->B)->data; Mat_SeqAIJ *p_loc,*p_oth; Mat_PtAPMPI *ptap; Mat_Merge_SeqsToMPI *merge; PetscInt *adi=ad->i,*aoi=ao->i,*adj,*aoj,*apJ,nextp; PetscInt *pi_loc,*pj_loc,*pi_oth,*pj_oth,*pJ,*pj; PetscInt i,j,k,anz,pnz,apnz,nextap,row,*cj; MatScalar *ada,*aoa,*apa,*pa,*ca,*pa_loc,*pa_oth,valtmp; PetscInt am =A->rmap->n,cm=C->rmap->n,pon=(p->B)->cmap->n; MPI_Comm comm; PetscMPIInt size,rank,taga,*len_s; PetscInt *owners,proc,nrows,**buf_ri_k,**nextrow,**nextci; PetscInt **buf_ri,**buf_rj; PetscInt cnz=0,*bj_i,*bi,*bj,bnz,nextcj; /* bi,bj,ba: local array of C(mpi mat) */ MPI_Request *s_waits,*r_waits; MPI_Status *status; MatScalar **abuf_r,*ba_i,*pA,*coa,*ba; PetscInt *api,*apj,*coi,*coj; PetscInt *poJ=po->j,*pdJ=pd->j,pcstart=P->cmap->rstart,pcend=P->cmap->rend; PetscBool scalable; #if defined(PTAP_PROFILE) PetscLogDouble t0,t1,t2,eP,t3,t4,et2_AP=0.0,ePtAP=0.0,t2_0,t2_1,t2_2; #endif PetscFunctionBegin; ierr = PetscObjectGetComm((PetscObject)C,&comm);CHKERRQ(ierr); #if defined(PTAP_PROFILE) ierr = PetscTime(&t0);CHKERRQ(ierr); #endif ierr = MPI_Comm_size(comm,&size);CHKERRQ(ierr); ierr = MPI_Comm_rank(comm,&rank);CHKERRQ(ierr); ptap = c->ptap; if (!ptap) SETERRQ(PetscObjectComm((PetscObject)C),PETSC_ERR_ARG_INCOMP,"MatPtAP() has not been called to create matrix C yet, cannot use MAT_REUSE_MATRIX"); merge = ptap->merge; apa = ptap->apa; scalable = ptap->scalable; /* 1) get P_oth = ptap->P_oth and P_loc = ptap->P_loc */ /*-----------------------------------------------------*/ if (ptap->reuse == MAT_INITIAL_MATRIX) { /* P_oth and P_loc are obtained in MatPtASymbolic(), skip calling MatGetBrowsOfAoCols() and MatMPIAIJGetLocalMat() */ ptap->reuse = MAT_REUSE_MATRIX; } else { /* update numerical values of P_oth and P_loc */ ierr = MatGetBrowsOfAoCols_MPIAIJ(A,P,MAT_REUSE_MATRIX,&ptap->startsj_s,&ptap->startsj_r,&ptap->bufa,&ptap->P_oth);CHKERRQ(ierr); ierr = MatMPIAIJGetLocalMat(P,MAT_REUSE_MATRIX,&ptap->P_loc);CHKERRQ(ierr); } #if defined(PTAP_PROFILE) ierr = PetscTime(&t1);CHKERRQ(ierr); eP = t1-t0; #endif /* printf("[%d] Ad: %d, %d; Ao: %d, %d; P_loc: %d, %d; P_oth %d, %d;\n",rank, a->A->rmap->N,a->A->cmap->N,a->B->rmap->N,a->B->cmap->N, ptap->P_loc->rmap->N,ptap->P_loc->cmap->N, ptap->P_oth->rmap->N,ptap->P_oth->cmap->N); */ /* 2) compute numeric C_seq = P_loc^T*A_loc*P - dominating part */ /*--------------------------------------------------------------*/ /* get data from symbolic products */ p_loc = (Mat_SeqAIJ*)(ptap->P_loc)->data; p_oth = (Mat_SeqAIJ*)(ptap->P_oth)->data; pi_loc=p_loc->i; pj_loc=p_loc->j; pJ=pj_loc; pa_loc=p_loc->a; pi_oth=p_oth->i; pj_oth=p_oth->j; pa_oth=p_oth->a; coi = merge->coi; coj = merge->coj; ierr = PetscCalloc1(coi[pon]+1,&coa);CHKERRQ(ierr); bi = merge->bi; bj = merge->bj; owners = merge->rowmap->range; ierr = PetscCalloc1(bi[cm]+1,&ba);CHKERRQ(ierr); /* ba: Cseq->a */ api = ptap->api; apj = ptap->apj; if (!scalable) { /* Do dense axpy on apa (length of pN, stores A[i,:]*P) - nonscalable, but faster (could take 1/3 scalable time) */ ierr = PetscInfo(C,"Using non-scalable dense axpy\n");CHKERRQ(ierr); #if defined(PTAP_PROFILE) ierr = PetscTime(&t1);CHKERRQ(ierr); #endif for (i=0; ij + adi[i]; ada = ad->a + adi[i]; for (j=0; jj + aoi[i]; aoa = ao->a + aoi[i]; for (j=0; jB)^T*AP (off-diagonal part, send to others) */ pnz = po->i[i+1] - po->i[i]; poJ = po->j + po->i[i]; pA = po->a + po->i[i]; for (j=0; ji[i+1] - pd->i[i]; pdJ = pd->j + pd->i[i]; pA = pd->a + pd->i[i]; for (j=0; jj + adi[i]; ada = ad->a + adi[i]; for (j=0; jj + aoi[i]; aoa = ao->a + aoi[i]; for (j=0; j=pcend) { /* put the value into Co */ row = *poJ; cj = coj + coi[row]; ca = coa + coi[row]; poJ++; } else { /* put the value into Cd */ row = *pdJ; cj = bj + bi[row]; ca = ba + bi[row]; pdJ++; } valtmp = pA[j]; for (k=0; nextapbuf_ri; buf_rj = merge->buf_rj; len_s = merge->len_s; ierr = PetscCommGetNewTag(comm,&taga);CHKERRQ(ierr); ierr = PetscPostIrecvScalar(comm,taga,merge->nrecv,merge->id_r,merge->len_r,&abuf_r,&r_waits);CHKERRQ(ierr); ierr = PetscMalloc2(merge->nsend+1,&s_waits,size,&status);CHKERRQ(ierr); for (proc=0,k=0; procowners_co[proc]; ierr = MPI_Isend(coa+coi[i],len_s[proc],MPIU_MATSCALAR,proc,taga,comm,s_waits+k);CHKERRQ(ierr); k++; } if (merge->nrecv) {ierr = MPI_Waitall(merge->nrecv,r_waits,status);CHKERRQ(ierr);} if (merge->nsend) {ierr = MPI_Waitall(merge->nsend,s_waits,status);CHKERRQ(ierr);} ierr = PetscFree2(s_waits,status);CHKERRQ(ierr); ierr = PetscFree(r_waits);CHKERRQ(ierr); ierr = PetscFree(coa);CHKERRQ(ierr); #if defined(PTAP_PROFILE) ierr = PetscTime(&t3);CHKERRQ(ierr); #endif /* 4) insert local Cseq and received values into Cmpi */ /*------------------------------------------------------*/ ierr = PetscMalloc3(merge->nrecv,&buf_ri_k,merge->nrecv,&nextrow,merge->nrecv,&nextci);CHKERRQ(ierr); for (k=0; knrecv; k++) { buf_ri_k[k] = buf_ri[k]; /* beginning of k-th recved i-structure */ nrows = *(buf_ri_k[k]); nextrow[k] = buf_ri_k[k]+1; /* next row number of k-th recved i-structure */ nextci[k] = buf_ri_k[k] + (nrows + 1); /* poins to the next i-structure of k-th recved i-structure */ } for (i=0; inrecv; k++) { /* k-th received message */ /* i-th row */ if (i == *nextrow[k]) { cnz = *(nextci[k]+1) - *nextci[k]; cj = buf_rj[k] + *(nextci[k]); ca = abuf_r[k] + *(nextci[k]); nextcj = 0; for (j=0; nextcj