1a4313204SMark Adams #include <petsc/private/pcbjkokkosimpl.h> 2a4313204SMark Adams 3a4313204SMark Adams #if defined(PETSC_HAVE_KOKKOS_KERNELS_BATCH) 4a4313204SMark Adams #include <fstream> 5a4313204SMark Adams 6a4313204SMark Adams #include "Kokkos_Timer.hpp" 7a4313204SMark Adams #include "Kokkos_Random.hpp" 8a4313204SMark Adams #include "Kokkos_UnorderedMap.hpp" 9a4313204SMark Adams #include "Kokkos_Sort.hpp" 10a4313204SMark Adams 11a4313204SMark Adams /// KokkosKernels headers 12a4313204SMark Adams #include "KokkosBatched_Util.hpp" 13a4313204SMark Adams #include "KokkosBatched_Vector.hpp" 14a4313204SMark Adams 15a4313204SMark Adams #include <Kokkos_ArithTraits.hpp> 16a4313204SMark Adams #include <KokkosBatched_Util.hpp> 17a4313204SMark Adams #include <KokkosBatched_Vector.hpp> 18a4313204SMark Adams #include <KokkosBatched_Copy_Decl.hpp> 19a4313204SMark Adams #include <KokkosBatched_Copy_Impl.hpp> 20a4313204SMark Adams #include <KokkosBatched_AddRadial_Decl.hpp> 21a4313204SMark Adams #include <KokkosBatched_AddRadial_Impl.hpp> 22a4313204SMark Adams #include <KokkosBatched_Gemm_Decl.hpp> 23a4313204SMark Adams #include <KokkosBatched_Gemm_Serial_Impl.hpp> 24a4313204SMark Adams #include <KokkosBatched_Gemm_Team_Impl.hpp> 25a4313204SMark Adams #include <KokkosBatched_Gemv_Decl.hpp> 26a4313204SMark Adams // #include <KokkosBatched_Gemv_Serial_Impl.hpp> 27a4313204SMark Adams #include <KokkosBatched_Gemv_Team_Impl.hpp> 28a4313204SMark Adams #include <KokkosBatched_Trsm_Decl.hpp> 29a4313204SMark Adams #include <KokkosBatched_Trsm_Serial_Impl.hpp> 30a4313204SMark Adams #include <KokkosBatched_Trsm_Team_Impl.hpp> 31a4313204SMark Adams #include <KokkosBatched_Trsv_Decl.hpp> 32a4313204SMark Adams #include <KokkosBatched_Trsv_Serial_Impl.hpp> 33a4313204SMark Adams #include <KokkosBatched_Trsv_Team_Impl.hpp> 34a4313204SMark Adams #include <KokkosBatched_LU_Decl.hpp> 35a4313204SMark Adams #include <KokkosBatched_LU_Serial_Impl.hpp> 36a4313204SMark Adams #include <KokkosBatched_LU_Team_Impl.hpp> 37a4313204SMark Adams #include <KokkosSparse_CrsMatrix.hpp> 38a4313204SMark Adams #include "KokkosBatched_Spmv.hpp" 39a4313204SMark Adams #include "KokkosBatched_CrsMatrix.hpp" 40a4313204SMark Adams #include "KokkosBatched_Krylov_Handle.hpp" 41a4313204SMark Adams 42a4313204SMark Adams #include "KokkosBatched_GMRES.hpp" 43a4313204SMark Adams #include "KokkosBatched_JacobiPrec.hpp" 44a4313204SMark Adams 45a4313204SMark Adams template <typename DeviceType, typename ValuesViewType, typename IntView, typename VectorViewType, typename KrylovHandleType> 46a4313204SMark Adams struct Functor_TestBatchedTeamVectorGMRES { 47a4313204SMark Adams const ValuesViewType _D; 48a4313204SMark Adams const ValuesViewType _diag; 49a4313204SMark Adams const IntView _r; 50a4313204SMark Adams const IntView _c; 51a4313204SMark Adams const VectorViewType _X; 52a4313204SMark Adams const VectorViewType _B; 53a4313204SMark Adams const int _N_team, _team_size, _vector_length; 54a4313204SMark Adams const int _N_iteration; 55a4313204SMark Adams const double _tol; 56a4313204SMark Adams const int _ortho_strategy; 57a4313204SMark Adams const int _scratch_pad_level; 58a4313204SMark Adams KrylovHandleType _handle; 59a4313204SMark Adams 60a4313204SMark Adams KOKKOS_INLINE_FUNCTION 61a4313204SMark Adams Functor_TestBatchedTeamVectorGMRES(const ValuesViewType &D, const IntView &r, const IntView &c, const VectorViewType &X, const VectorViewType &B, const int N_team, const int team_size, const int vector_length, const int N_iteration, const double tol, const int ortho_strategy, const int scratch_pad_level, KrylovHandleType &handle) : 62a4313204SMark Adams _D(D), _r(r), _c(c), _X(X), _B(B), _N_team(N_team), _team_size(team_size), _vector_length(vector_length), _N_iteration(N_iteration), _tol(tol), _ortho_strategy(ortho_strategy), _scratch_pad_level(scratch_pad_level), _handle(handle) 63a4313204SMark Adams { 64a4313204SMark Adams } 65a4313204SMark Adams 66a4313204SMark Adams KOKKOS_INLINE_FUNCTION 67a4313204SMark Adams Functor_TestBatchedTeamVectorGMRES(const ValuesViewType &D, const ValuesViewType &diag, const IntView &r, const IntView &c, const VectorViewType &X, const VectorViewType &B, const int N_team, const int team_size, const int vector_length, const int N_iteration, const double tol, int ortho_strategy, const int scratch_pad_level, KrylovHandleType &handle) : 68a4313204SMark Adams _D(D), _diag(diag), _r(r), _c(c), _X(X), _B(B), _N_team(N_team), _team_size(team_size), _vector_length(vector_length), _N_iteration(N_iteration), _tol(tol), _ortho_strategy(ortho_strategy), _scratch_pad_level(scratch_pad_level), _handle(handle) 69a4313204SMark Adams { 70a4313204SMark Adams } 71a4313204SMark Adams 72a4313204SMark Adams template <typename MemberType> 73a4313204SMark Adams KOKKOS_INLINE_FUNCTION void operator()(const MemberType &member) const 74a4313204SMark Adams { 75a4313204SMark Adams const int first_matrix = static_cast<int>(member.league_rank()) * _N_team; 76a4313204SMark Adams const int N = _D.extent(0); 77a4313204SMark Adams const int last_matrix = (static_cast<int>(member.league_rank() + 1) * _N_team < N ? static_cast<int>(member.league_rank() + 1) * _N_team : N); 78a4313204SMark Adams const int graphID = static_cast<int>(member.league_rank()); 79a4313204SMark Adams using TeamVectorCopy1D = KokkosBatched::TeamVectorCopy<MemberType, KokkosBatched::Trans::NoTranspose, 1>; 80a4313204SMark Adams 81a4313204SMark Adams auto d = Kokkos::subview(_D, Kokkos::make_pair(first_matrix, last_matrix), Kokkos::ALL); 82a4313204SMark Adams auto x = Kokkos::subview(_X, Kokkos::make_pair(first_matrix, last_matrix), Kokkos::ALL); 83a4313204SMark Adams auto b = Kokkos::subview(_B, Kokkos::make_pair(first_matrix, last_matrix), Kokkos::ALL); 84a4313204SMark Adams using ScratchPadIntViewType = Kokkos::View<typename IntView::non_const_value_type *, typename IntView::array_layout, typename IntView::execution_space::scratch_memory_space>; 85a4313204SMark Adams using ScratchPadValuesViewType = Kokkos::View<typename ValuesViewType::non_const_value_type **, typename ValuesViewType::array_layout, typename ValuesViewType::execution_space::scratch_memory_space>; 86a4313204SMark Adams 87a4313204SMark Adams using Operator = KokkosBatched::CrsMatrix<ValuesViewType, ScratchPadIntViewType>; 88a4313204SMark Adams ScratchPadIntViewType r(member.team_scratch(1), _r.extent(1)); 89a4313204SMark Adams ScratchPadIntViewType c(member.team_scratch(1), _c.extent(1)); 90a4313204SMark Adams 91a4313204SMark Adams TeamVectorCopy1D::invoke(member, Kokkos::subview(_r, graphID, Kokkos::ALL), r); 92a4313204SMark Adams TeamVectorCopy1D::invoke(member, Kokkos::subview(_c, graphID, Kokkos::ALL), c); 93a4313204SMark Adams Operator A(d, r, c); 94a4313204SMark Adams 95a4313204SMark Adams ScratchPadValuesViewType diag(member.team_scratch(1), last_matrix - first_matrix, _diag.extent(1)); 96a4313204SMark Adams using PrecOperator = KokkosBatched::JacobiPrec<ScratchPadValuesViewType>; 97a4313204SMark Adams 98a4313204SMark Adams KokkosBatched::TeamVectorCopy<MemberType>::invoke(member, Kokkos::subview(_diag, Kokkos::make_pair(first_matrix, last_matrix), Kokkos::ALL), diag); 99a4313204SMark Adams PrecOperator P(diag); 100a4313204SMark Adams P.setComputedInverse(); 101a4313204SMark Adams 102a4313204SMark Adams KokkosBatched::TeamVectorGMRES<MemberType>::template invoke<Operator, VectorViewType, PrecOperator, KrylovHandleType>(member, A, b, x, P, _handle); 103a4313204SMark Adams } 104a4313204SMark Adams inline double run(PC pc) 105a4313204SMark Adams { 106a4313204SMark Adams //typedef typename ValuesViewType::value_type value_type; 107a4313204SMark Adams std::string name("KokkosBatched::Test::TeamVectorGMRES"); 108a4313204SMark Adams Kokkos::Timer timer; 109a4313204SMark Adams Kokkos::Profiling::pushRegion(name.c_str()); 110a4313204SMark Adams 111a4313204SMark Adams Kokkos::TeamPolicy<DeviceType> auto_policy(ceil(1. * _D.extent(0) / _N_team), Kokkos::AUTO(), Kokkos::AUTO()); 112a4313204SMark Adams Kokkos::TeamPolicy<DeviceType> tuned_policy(ceil(1. * _D.extent(0) / _N_team), _team_size, _vector_length); 113a4313204SMark Adams Kokkos::TeamPolicy<DeviceType> policy; 114a4313204SMark Adams 115a4313204SMark Adams if (_team_size < 1) policy = auto_policy; 116a4313204SMark Adams else policy = tuned_policy; 117a4313204SMark Adams 118a4313204SMark Adams _handle.set_max_iteration(_N_iteration); 119a4313204SMark Adams _handle.set_tolerance(_tol); 120a4313204SMark Adams _handle.set_ortho_strategy(_ortho_strategy); 121a4313204SMark Adams _handle.set_scratch_pad_level(_scratch_pad_level); 122a4313204SMark Adams _handle.set_compute_last_residual(true); 123a4313204SMark Adams 124a4313204SMark Adams int maximum_iteration = _handle.get_max_iteration(); 125a4313204SMark Adams 126a4313204SMark Adams using ScalarType = typename ValuesViewType::non_const_value_type; 127a4313204SMark Adams using Layout = typename ValuesViewType::array_layout; 128a4313204SMark Adams using EXSP = typename ValuesViewType::execution_space; 129a4313204SMark Adams 130a4313204SMark Adams using ViewType2D = Kokkos::View<ScalarType **, Layout, EXSP>; 131a4313204SMark Adams using IntViewType1D = Kokkos::View<PetscInt *, Layout, EXSP>; 132a4313204SMark Adams 133a4313204SMark Adams size_t bytes_1D = ViewType2D::shmem_size(_N_team, 1); 134a4313204SMark Adams size_t bytes_row_ptr = IntViewType1D::shmem_size(_r.extent(1)); 135a4313204SMark Adams size_t bytes_col_idc = IntViewType1D::shmem_size(_c.extent(1)); 136a4313204SMark Adams size_t bytes_2D_1 = ViewType2D::shmem_size(_N_team, _X.extent(1)); 137a4313204SMark Adams size_t bytes_2D_2 = ViewType2D::shmem_size(_N_team, maximum_iteration + 1); 138a4313204SMark Adams 139a4313204SMark Adams size_t bytes_diag = bytes_2D_1; 140a4313204SMark Adams size_t bytes_tmp = 2 * bytes_2D_1 + 2 * bytes_1D + bytes_2D_2; 141a4313204SMark Adams 142a4313204SMark Adams policy.set_scratch_size(0, Kokkos::PerTeam(bytes_tmp)); 143a4313204SMark Adams policy.set_scratch_size(1, Kokkos::PerTeam(bytes_col_idc + bytes_row_ptr + bytes_diag)); 144*57508eceSPierre Jolivet PetscCall(PetscInfo(pc, "%d scratch memory(0) = %d + %d + %d bytes_diag=%d; %d scratch memory(1); %d maximum_iterations\n", (int)bytes_tmp, 2 * (int)bytes_2D_1, 2 * (int)bytes_1D, (int)bytes_2D_2, (int)bytes_diag, (int)(bytes_row_ptr + bytes_col_idc + bytes_diag), (int)maximum_iteration)); 145a4313204SMark Adams exec_space().fence(); 146a4313204SMark Adams timer.reset(); 147a4313204SMark Adams Kokkos::parallel_for(name.c_str(), policy, *this); 148a4313204SMark Adams exec_space().fence(); 149a4313204SMark Adams double sec = timer.seconds(); 150a4313204SMark Adams 151a4313204SMark Adams return sec; 152a4313204SMark Adams } 153a4313204SMark Adams }; 154a4313204SMark Adams 155a4313204SMark Adams PETSC_INTERN PetscErrorCode PCApply_BJKOKKOSKERNELS(PC pc, const PetscScalar *glb_bdata, PetscScalar *glb_xdata, const PetscInt *glb_Aai, const PetscInt *glb_Aaj, const PetscScalar *glb_Aaa, const PetscInt team_size, MatInfo info, const PetscInt batch_sz, PCFailedReason *pcreason) 156a4313204SMark Adams { 157a4313204SMark Adams PC_PCBJKOKKOS *jac = (PC_PCBJKOKKOS *)pc->data; 158a4313204SMark Adams Mat A = pc->pmat; 159a4313204SMark Adams const PetscInt maxit = jac->ksp->max_it, nBlk = jac->nBlocks; 160a4313204SMark Adams const int Nsolves = nBlk; 161a4313204SMark Adams int Nsolves_team = jac->nsolves_team, fill_idx = 0; 162a4313204SMark Adams int Nloc = jac->const_block_size; // same grids 163a4313204SMark Adams const int nnz = (int)info.nz_used / Nsolves; // fix for variable grid size 164a4313204SMark Adams PetscReal rtol = jac->ksp->rtol; 165a4313204SMark Adams const PetscScalar *glb_idiag = jac->d_idiag_k->data(); 166a4313204SMark Adams const PetscInt *d_bid_eqOffset = jac->d_bid_eqOffset_k->data(); 167a4313204SMark Adams const PetscInt *d_isicol = jac->d_isicol_k->data(), *d_isrow = jac->d_isrow_k->data(); 168a4313204SMark Adams 169a4313204SMark Adams PetscFunctionBegin; 170a4313204SMark Adams if (Nsolves_team > batch_sz) Nsolves_team = batch_sz; // silently fix this 171a4313204SMark Adams PetscCheck(jac->const_block_size, PetscObjectComm((PetscObject)pc), PETSC_ERR_ARG_WRONG, "Kokkos (GMRES) solver requires constant block size (but can be made to work with species ordering or N_team==1)"); 172a4313204SMark Adams PetscCheck(Nsolves % Nsolves_team == 0, PetscObjectComm((PetscObject)pc), PETSC_ERR_ARG_WRONG, "Nsolves.mod(Nsolves_team) != 0: Nsolves = %d, Nsolves_team = %d", Nsolves, Nsolves_team); 173a4313204SMark Adams PetscCheck(((int)info.nz_used) % Nsolves == 0, PetscObjectComm((PetscObject)pc), PETSC_ERR_ARG_WRONG, "info.nz_used.mod(Nsolves) != 0: info.nz_used = %g, Nsolves = %d", info.nz_used, Nsolves); 174a4313204SMark Adams #if defined(PETSC_HAVE_CUDA) 175a4313204SMark Adams nvtxRangePushA("gmres-kk"); 176a4313204SMark Adams #endif 177a4313204SMark Adams Kokkos::View<PetscScalar **, layout, exec_space, Kokkos::MemoryTraits<Kokkos::Unmanaged>> inv_diag((PetscScalar *)glb_idiag, Nsolves, Nloc); // in correct order 178a4313204SMark Adams if (!jac->rowOffsets) { 179a4313204SMark Adams jac->rowOffsets = new IntView("rowOffsets", Nsolves / Nsolves_team, Nloc + 1); // same grids 180a4313204SMark Adams jac->colIndices = new IntView("colIndices", Nsolves / Nsolves_team, nnz); 181a4313204SMark Adams jac->batch_b = new XYType("batch rhs", Nsolves, Nloc); 182a4313204SMark Adams jac->batch_x = new XYType("batch sol", Nsolves, Nloc); 183a4313204SMark Adams jac->batch_values = new AMatrixValueView("batch values", Nsolves, nnz); 184a4313204SMark Adams fill_idx = 1; 185a4313204SMark Adams PetscCall(PetscInfo(pc, "Setup indices Nloc=%d, nnz=%d\n", Nloc, nnz)); 186a4313204SMark Adams } 187a4313204SMark Adams IntView &rowOffsets = *jac->rowOffsets; 188a4313204SMark Adams IntView &colIndices = *jac->colIndices; 189a4313204SMark Adams XYType &batch_b = *jac->batch_b; 190a4313204SMark Adams XYType &batch_x = *jac->batch_x; 191a4313204SMark Adams AMatrixValueView &batch_values = *jac->batch_values; 192a4313204SMark Adams 193a4313204SMark Adams Kokkos::deep_copy(batch_x, 0.); 194a4313204SMark Adams PetscCall(PetscInfo(pc, "\tjac->n = %d, Nloc = %d, Nsolves = %d, nnz = %d, Nsolves_team = %d, league size = %d, maxit = %d\n", (int)jac->n, Nloc, Nsolves, nnz, Nsolves_team, Nsolves / Nsolves_team, (int)maxit)); 195a4313204SMark Adams Kokkos::parallel_for( 196a4313204SMark Adams "rowOffsets+map", Kokkos::TeamPolicy<>(Nsolves, team_size, PCBJKOKKOS_VEC_SIZE), KOKKOS_LAMBDA(const team_member team) { 197a4313204SMark Adams const int blkID = team.league_rank(), start = d_bid_eqOffset[blkID], end = d_bid_eqOffset[blkID + 1]; 198a4313204SMark Adams if (fill_idx) { 199a4313204SMark Adams if (blkID % Nsolves_team == 0) { // first matrix on this member 200a4313204SMark Adams Kokkos::parallel_for(Kokkos::TeamVectorRange(team, start, end), [=](const int rowb) { // Nloc 201a4313204SMark Adams int rowa = d_isicol[rowb]; 202a4313204SMark Adams int n = glb_Aai[rowa + 1] - glb_Aai[rowa]; 203a4313204SMark Adams rowOffsets(blkID / Nsolves_team, rowb + 1 - start) = n; // save sizes 204a4313204SMark Adams }); 205a4313204SMark Adams } 206a4313204SMark Adams } 207a4313204SMark Adams // map b into field major space 208a4313204SMark Adams Kokkos::parallel_for(Kokkos::TeamVectorRange(team, start, end), [=](int rowb) { 209a4313204SMark Adams int rowa = d_isicol[rowb]; 210a4313204SMark Adams batch_b(blkID, rowb - start) = glb_bdata[rowa]; 211a4313204SMark Adams }); 212a4313204SMark Adams }); 213a4313204SMark Adams Kokkos::fence(); 214a4313204SMark Adams if (fill_idx) { 215a4313204SMark Adams Kokkos::parallel_for( 216a4313204SMark Adams "prefix sum", Kokkos::TeamPolicy<>(Nsolves / Nsolves_team, 1, 1), KOKKOS_LAMBDA(const team_member team) { 217a4313204SMark Adams const int graphID = team.league_rank(); 218a4313204SMark Adams rowOffsets(graphID, 0) = 0; 219a4313204SMark Adams for (int i = 0; i < Nloc; ++i) rowOffsets(graphID, i + 1) += rowOffsets(graphID, i); 220a4313204SMark Adams }); 221a4313204SMark Adams Kokkos::fence(); 222a4313204SMark Adams } 223a4313204SMark Adams Kokkos::parallel_for( 224a4313204SMark Adams "copy matrix", Kokkos::TeamPolicy<>(Nsolves /* /batch_sz */, team_size, PCBJKOKKOS_VEC_SIZE), KOKKOS_LAMBDA(const team_member team) { 225a4313204SMark Adams const int blkID = team.league_rank(), start = d_bid_eqOffset[blkID], end = d_bid_eqOffset[blkID + 1], graphID = blkID / Nsolves_team; 226a4313204SMark Adams Kokkos::parallel_for(Kokkos::TeamThreadRange(team, start, end), [=](const int rowb) { 227a4313204SMark Adams int rowa = d_isicol[rowb]; 228a4313204SMark Adams int n = glb_Aai[rowa + 1] - glb_Aai[rowa]; 229a4313204SMark Adams const PetscInt *aj = glb_Aaj + glb_Aai[rowa]; // global index 230a4313204SMark Adams const PetscScalar *aa = glb_Aaa + glb_Aai[rowa]; 231a4313204SMark Adams Kokkos::parallel_for(Kokkos::ThreadVectorRange(team, n), [=](const int &i) { 232a4313204SMark Adams PetscScalar val = aa[i]; 233a4313204SMark Adams if (fill_idx && blkID % Nsolves_team == 0) colIndices(graphID, rowOffsets(graphID, rowb - start) + i) = d_isrow[aj[i]] - blkID * Nloc; // local" global - block start 234a4313204SMark Adams batch_values(blkID, rowOffsets(graphID, rowb - start) + i) = val; 235a4313204SMark Adams }); 236a4313204SMark Adams }); 237a4313204SMark Adams }); 238a4313204SMark Adams Kokkos::fence(); 239a4313204SMark Adams // setup solver 240a4313204SMark Adams using ScalarType = typename AMatrixValueView::non_const_value_type; 241a4313204SMark Adams using MagnitudeType = typename Kokkos::Details::ArithTraits<ScalarType>::mag_type; 242a4313204SMark Adams //using NormViewType = Kokkos::View<MagnitudeType *, layout, exec_space>; 243a4313204SMark Adams using Norm2DViewType = Kokkos::View<MagnitudeType **, layout, exec_space>; 244a4313204SMark Adams using Scalar3DViewType = Kokkos::View<ScalarType ***, layout, exec_space>; 245a4313204SMark Adams using IntViewType = Kokkos::View<int *, layout, exec_space>; 246a4313204SMark Adams using KrylovHandleType = KokkosBatched::KrylovHandle<Norm2DViewType, IntViewType, Scalar3DViewType>; 247a4313204SMark Adams const int n_iterations = maxit; 248a4313204SMark Adams //const int team_size = -1; 249a4313204SMark Adams const int vector_length = -1; 250a4313204SMark Adams const double tol = rtol; 251a4313204SMark Adams const int ortho_strategy = 0; 252a4313204SMark Adams KrylovHandleType handle(Nsolves, Nsolves_team, n_iterations, true); 253a4313204SMark Adams handle.Arnoldi_view = Scalar3DViewType("", Nsolves, n_iterations, Nloc + n_iterations + 3); 254a4313204SMark Adams // solve 255a4313204SMark Adams Functor_TestBatchedTeamVectorGMRES<exec_space, AMatrixValueView, IntView, XYType, KrylovHandleType>(batch_values, inv_diag, rowOffsets, colIndices, batch_x, batch_b, Nsolves_team, -1, vector_length, n_iterations, tol, ortho_strategy, 0, handle).run(pc); 256a4313204SMark Adams Kokkos::fence(); 257a4313204SMark Adams // get data back 258a4313204SMark Adams Kokkos::parallel_for( 259a4313204SMark Adams "map", Kokkos::TeamPolicy<>(Nsolves /* /batch_sz */, -1, PCBJKOKKOS_VEC_SIZE), KOKKOS_LAMBDA(const team_member team) { 260a4313204SMark Adams const int blkID = team.league_rank(), start = d_bid_eqOffset[blkID], end = d_bid_eqOffset[blkID + 1]; // 0 261a4313204SMark Adams // map x into Plex/PETSc 262a4313204SMark Adams Kokkos::parallel_for(Kokkos::TeamVectorRange(team, start, end), [=](int rowb) { 263a4313204SMark Adams int rowa = d_isicol[rowb]; 264a4313204SMark Adams glb_xdata[rowa] = batch_x(blkID, rowb - start); 265a4313204SMark Adams }); 266a4313204SMark Adams }); 267a4313204SMark Adams // output assume species major - clone from Kokkos solvers 268a4313204SMark Adams #if PCBJKOKKOS_VERBOSE_LEVEL >= 3 269a4313204SMark Adams #if PCBJKOKKOS_VERBOSE_LEVEL >= 4 270a4313204SMark Adams PetscCall(PetscPrintf(PetscObjectComm((PetscObject)A), "Iterations\n")); 271a4313204SMark Adams #else 272a4313204SMark Adams PetscCall(PetscPrintf(PetscObjectComm((PetscObject)A), "max iterations per species (gmres) :")); 273a4313204SMark Adams #endif 274a4313204SMark Adams for (PetscInt dmIdx = 0, s = 0, head = 0; dmIdx < jac->num_dms; dmIdx += batch_sz) { 275a4313204SMark Adams for (PetscInt f = 0, idx = head; f < jac->dm_Nf[dmIdx]; f++, s++, idx++) { 276a4313204SMark Adams #if PCBJKOKKOS_VERBOSE_LEVEL >= 4 277a4313204SMark Adams PetscCall(PetscPrintf(PetscObjectComm((PetscObject)A), "%2D:", s)); 278a4313204SMark Adams for (int bid = 0; bid < batch_sz; bid++) PetscCall(PetscPrintf(PetscObjectComm((PetscObject)A), "%3D ", handle.get_iteration_host(idx + bid * jac->dm_Nf[dmIdx]))); 279a4313204SMark Adams PetscCall(PetscPrintf(PetscObjectComm((PetscObject)A), "\n")); 280a4313204SMark Adams #else 281a4313204SMark Adams int count = 0, ii; 282a4313204SMark Adams for (int bid = 0; bid < batch_sz; bid++) { 283a4313204SMark Adams if ((ii = handle.get_iteration_host(idx + bid * jac->dm_Nf[dmIdx])) > count) count = ii; 284a4313204SMark Adams } 285a4313204SMark Adams PetscCall(PetscPrintf(PetscObjectComm((PetscObject)A), "%3d", count)); 286a4313204SMark Adams #endif 287a4313204SMark Adams } 288a4313204SMark Adams head += batch_sz * jac->dm_Nf[dmIdx]; 289a4313204SMark Adams } 290a4313204SMark Adams #if PCBJKOKKOS_VERBOSE_LEVEL == 3 291a4313204SMark Adams PetscCall(PetscPrintf(PetscObjectComm((PetscObject)A), "\n")); 292a4313204SMark Adams #endif 293a4313204SMark Adams #endif 294a4313204SMark Adams // return error code, get max it 295a4313204SMark Adams PetscInt count = 0, mbid = 0; 296a4313204SMark Adams if (handle.is_converged_host()) { 297a4313204SMark Adams *pcreason = PC_NOERROR; 298a4313204SMark Adams if (!jac->max_nits) { 299a4313204SMark Adams for (int blkID = 0; blkID < nBlk; blkID++) { 300a4313204SMark Adams if (handle.get_iteration_host(blkID) > jac->max_nits) { 301a4313204SMark Adams jac->max_nits = handle.get_iteration_host(blkID); 302a4313204SMark Adams mbid = blkID; 303a4313204SMark Adams } 304a4313204SMark Adams } 305a4313204SMark Adams } 306a4313204SMark Adams } else { 307a4313204SMark Adams PetscCall(PetscPrintf(PETSC_COMM_SELF, "There is at least one system that did not converge.")); 308a4313204SMark Adams *pcreason = PC_SUBPC_ERROR; 309a4313204SMark Adams } 310a4313204SMark Adams // output - assume species major order 311a4313204SMark Adams for (int blkID = 0; blkID < nBlk; blkID++) { 312a4313204SMark Adams if (jac->reason) { // -pc_bjkokkos_ksp_converged_reason 313a4313204SMark Adams if (jac->batch_target == blkID) { 314a4313204SMark Adams if (batch_sz != 1) 315a4313204SMark Adams PetscCall(PetscPrintf(PetscObjectComm((PetscObject)A), " Linear solve %s in %d iterations, batch %" PetscInt_FMT ", species %" PetscInt_FMT "\n", handle.is_converged_host(blkID) ? "converged" : "diverged", handle.get_iteration_host(blkID), blkID % batch_sz, blkID / batch_sz)); 316a4313204SMark Adams else PetscCall(PetscPrintf(PetscObjectComm((PetscObject)A), " Linear solve %s in %d iterations, block %" PetscInt_FMT "\n", handle.is_converged_host(blkID) ? "converged" : "diverged", handle.get_iteration_host(blkID), blkID)); 317a4313204SMark Adams } else if (jac->batch_target == -1 && handle.get_iteration_host(blkID) >= count) { 318a4313204SMark Adams jac->max_nits = count = handle.get_iteration_host(blkID); 319a4313204SMark Adams mbid = blkID; 320a4313204SMark Adams } 321a4313204SMark Adams if (!handle.is_converged_host(blkID)) PetscCall(PetscPrintf(PETSC_COMM_SELF, "ERROR species %d, batch %d did not converge with %d iterations\n", (int)(blkID / batch_sz), (int)blkID % batch_sz, handle.get_iteration_host(blkID))); 322a4313204SMark Adams } 323a4313204SMark Adams } 324a4313204SMark Adams if (jac->batch_target == -1 && jac->reason) { 325a4313204SMark Adams if (batch_sz != 1) 326a4313204SMark Adams PetscCall(PetscPrintf(PetscObjectComm((PetscObject)A), " Linear solve %s in %d iteration, batch %" PetscInt_FMT ", specie %" PetscInt_FMT "\n", handle.is_converged_host(mbid) ? "converged" : "diverged", jac->max_nits, mbid % batch_sz, mbid / batch_sz)); 327a4313204SMark Adams else PetscCall(PetscPrintf(PetscObjectComm((PetscObject)A), " Linear solve %s in %d iteration, block %" PetscInt_FMT "\n", handle.is_converged_host(mbid) ? "converged" : "diverged", jac->max_nits, mbid)); 328a4313204SMark Adams } 329a4313204SMark Adams #if defined(PETSC_HAVE_CUDA) 330a4313204SMark Adams nvtxRangePop(); 331a4313204SMark Adams #endif 332a4313204SMark Adams 333a4313204SMark Adams return PETSC_SUCCESS; 334a4313204SMark Adams } 335a4313204SMark Adams #endif 336