/* Copyright 2020 Equinor ASA This file is part of the Open Porous Media project (OPM). OPM is free software: you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation, either version 3 of the License, or (at your option) any later version. OPM is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with OPM. If not, see . */ #ifndef OPENCL_HPP #define OPENCL_HPP #include #include #include namespace Opm { namespace Accelerator { using spmv_blocked_kernel_type = cl::KernelFunctor; using spmv_kernel_type = cl::KernelFunctor; using residual_blocked_kernel_type = cl::KernelFunctor; using residual_kernel_type = cl::KernelFunctor; using ilu_apply1_kernel_type = cl::KernelFunctor; using ilu_apply2_kernel_type = cl::KernelFunctor; using stdwell_apply_kernel_type = cl::KernelFunctor; using stdwell_apply_no_reorder_kernel_type = cl::KernelFunctor; using ilu_decomp_kernel_type = cl::KernelFunctor; using isaiL_kernel_type = cl::KernelFunctor; using isaiU_kernel_type = cl::KernelFunctor; class OpenclKernels { private: static int verbosity; static cl::CommandQueue *queue; static std::vector tmp; // used as tmp CPU buffer for dot() and norm() static bool initialized; static std::unique_ptr > dot_k; static std::unique_ptr > norm_k; static std::unique_ptr > axpy_k; static std::unique_ptr > scale_k; static std::unique_ptr > vmul_k; static std::unique_ptr > custom_k; static std::unique_ptr > full_to_pressure_restriction_k; static std::unique_ptr > add_coarse_pressure_correction_k; static std::unique_ptr > prolongate_vector_k; static std::unique_ptr spmv_blocked_k; static std::unique_ptr spmv_blocked_add_k; static std::unique_ptr spmv_k; static std::unique_ptr spmv_noreset_k; static std::unique_ptr residual_blocked_k; static std::unique_ptr residual_k; static std::unique_ptr ILU_apply1_k; static std::unique_ptr ILU_apply2_k; static std::unique_ptr stdwell_apply_k; static std::unique_ptr stdwell_apply_no_reorder_k; static std::unique_ptr ilu_decomp_k; static std::unique_ptr isaiL_k; static std::unique_ptr isaiU_k; OpenclKernels(){}; // disable instantiation public: static const std::string axpy_str; static const std::string scale_str; static const std::string vmul_str; static const std::string dot_1_str; static const std::string norm_str; static const std::string custom_str; static const std::string full_to_pressure_restriction_str; static const std::string add_coarse_pressure_correction_str; static const std::string prolongate_vector_str; static const std::string spmv_blocked_str; static const std::string spmv_blocked_add_str; static const std::string spmv_str; static const std::string spmv_noreset_str; static const std::string residual_blocked_str; static const std::string residual_str; #if CHOW_PATEL static const std::string ILU_apply1_str; static const std::string ILU_apply2_str; #else static const std::string ILU_apply1_fm_str; static const std::string ILU_apply2_fm_str; #endif static const std::string stdwell_apply_str; static const std::string stdwell_apply_no_reorder_str; static const std::string ILU_decomp_str; static const std::string isaiL_str; static const std::string isaiU_str; static void init(cl::Context *context, cl::CommandQueue *queue, std::vector& devices, int verbosity); static double dot(cl::Buffer& in1, cl::Buffer& in2, cl::Buffer& out, int N); static double norm(cl::Buffer& in, cl::Buffer& out, int N); static void axpy(cl::Buffer& in, const double a, cl::Buffer& out, int N); static void scale(cl::Buffer& in, const double a, int N); static void vmul(const double alpha, cl::Buffer& in1, cl::Buffer& in2, cl::Buffer& out, int N); static void custom(cl::Buffer& p, cl::Buffer& v, cl::Buffer& r, const double omega, const double beta, int N); static void full_to_pressure_restriction(const cl::Buffer& fine_y, cl::Buffer& weights, cl::Buffer& coarse_y, int Nb); static void add_coarse_pressure_correction(cl::Buffer& coarse_x, cl::Buffer& fine_x, int pressure_idx, int Nb); static void prolongate_vector(const cl::Buffer& in, cl::Buffer& out, const cl::Buffer& cols, int N); static void spmv(cl::Buffer& vals, cl::Buffer& cols, cl::Buffer& rows, const cl::Buffer& x, cl::Buffer& b, int Nb, unsigned int block_size, bool reset = true, bool add = false); static void residual(cl::Buffer& vals, cl::Buffer& cols, cl::Buffer& rows, cl::Buffer& x, const cl::Buffer& rhs, cl::Buffer& out, int Nb, unsigned int block_size); static void ILU_apply1(cl::Buffer& vals, cl::Buffer& cols, cl::Buffer& rows, cl::Buffer& diagIndex, const cl::Buffer& y, cl::Buffer& x, cl::Buffer& rowsPerColor, int color, int Nb, unsigned int block_size); static void ILU_apply2(cl::Buffer& vals, cl::Buffer& cols, cl::Buffer& rows, cl::Buffer& diagIndex, cl::Buffer& invDiagVals, cl::Buffer& x, cl::Buffer& rowsPerColor, int color, int Nb, unsigned int block_size); static void ILU_decomp(int firstRow, int lastRow, cl::Buffer& vals, cl::Buffer& cols, cl::Buffer& rows, cl::Buffer& diagIndex, cl::Buffer& invDiagVals, int Nb, unsigned int block_size); static void apply_stdwells_reorder(cl::Buffer& d_Cnnzs_ocl, cl::Buffer &d_Dnnzs_ocl, cl::Buffer &d_Bnnzs_ocl, cl::Buffer &d_Ccols_ocl, cl::Buffer &d_Bcols_ocl, cl::Buffer &d_x, cl::Buffer &d_y, cl::Buffer &d_toOrder, int dim, int dim_wells, cl::Buffer &d_val_pointers_ocl, int num_std_wells); static void apply_stdwells_no_reorder(cl::Buffer& d_Cnnzs_ocl, cl::Buffer &d_Dnnzs_ocl, cl::Buffer &d_Bnnzs_ocl, cl::Buffer &d_Ccols_ocl, cl::Buffer &d_Bcols_ocl, cl::Buffer &d_x, cl::Buffer &d_y, int dim, int dim_wells, cl::Buffer &d_val_pointers_ocl, int num_std_wells); static void isaiL(cl::Buffer& diagIndex, cl::Buffer& colPointers, cl::Buffer& mapping, cl::Buffer& nvc, cl::Buffer& luIdxs, cl::Buffer& xxIdxs, cl::Buffer& dxIdxs, cl::Buffer& LUvals, cl::Buffer& invLvals, unsigned int Nb); static void isaiU(cl::Buffer& diagIndex, cl::Buffer& colPointers, cl::Buffer& rowIndices, cl::Buffer& mapping, cl::Buffer& nvc, cl::Buffer& luIdxs, cl::Buffer& xxIdxs, cl::Buffer& dxIdxs, cl::Buffer& LUvals, cl::Buffer& invDiagVals, cl::Buffer& invUvals, unsigned int Nb); }; } // namespace Accelerator } // namespace Opm #endif