#include #include #include #include #include #include "ruy/context.h" #include "ruy/matrix.h" #include "ruy/mul_params.h" #include "ruy/ruy.h" template void read_cmdline_args(bool help, int argc, char* argv[], const char* name, const char* format, const char* default_value, const char* allowed_values, Dst... dst) { if (help) { fprintf(stderr, "%-20s %-12s %-16s %s\n", name, format, default_value, allowed_values ? allowed_values : ""); return; } const char* value = default_value; for (int i = 1; i < argc; i++) { if (std::strstr(argv[i], name) == argv[i]) { const char* equal_sign = std::strchr(argv[i], '='); if (equal_sign == argv[i] + std::strlen(name)) { value = equal_sign + 1; } break; } } if (allowed_values) { if (!std::strstr(allowed_values, value)) { fprintf(stderr, "Illegal value %s. The legal values are %s.\n", value, allowed_values); exit(1); } } if (sizeof...(Dst) != sscanf(value, format, dst...)) { fprintf(stderr, "Failed to parse %s\n", value); exit(1); } } struct Params { char types[100]; int m, k, n; // matmul shape m*k*n int paths; int num_threads; int repeat; int lhs_cache_policy; int rhs_cache_policy; int lhs_stride; int rhs_stride; int dst_stride; int lhs_zero_point; int rhs_zero_point; int dst_zero_point; char lhs_order[100]; char rhs_order[100]; char dst_order[100]; }; template void run(const Params& params) { using AccumType = typename std::conditional::value, DstType, std::int32_t>::type; ruy::Matrix lhs; ruy::Matrix rhs; ruy::Matrix dst; auto parse_order = [](const char* name) { if (!std::strcmp(name, "row-major")) { return ruy::Order::kRowMajor; } else if (!std::strcmp(name, "column-major")) { return ruy::Order::kColMajor; } else { fprintf(stderr, "Failed to parse %s\n", name); exit(1); } }; auto make_layout = [](int rows, int cols, int stride, ruy::Order order, ruy::Layout* layout) { layout->set_rows(rows); layout->set_cols(cols); layout->set_order(order); int base_stride = order == ruy::Order::kRowMajor ? cols : rows; layout->set_stride(stride ? stride : base_stride); }; make_layout(params.m, params.k, params.lhs_stride, parse_order(params.lhs_order), lhs.mutable_layout()); make_layout(params.k, params.n, params.rhs_stride, parse_order(params.rhs_order), rhs.mutable_layout()); make_layout(params.m, params.n, params.dst_stride, parse_order(params.dst_order), dst.mutable_layout()); lhs.set_zero_point(params.lhs_zero_point); rhs.set_zero_point(params.rhs_zero_point); dst.set_zero_point(params.dst_zero_point); lhs.set_cache_policy(static_cast(params.lhs_cache_policy)); rhs.set_cache_policy(static_cast(params.rhs_cache_policy)); auto flat_size = [](const ruy::Layout& layout) { int outer_size = layout.order() == ruy::Order::kRowMajor ? layout.rows() : layout.cols(); return outer_size * layout.stride(); }; std::vector lhs_buf(flat_size(lhs.layout())); std::vector rhs_buf(flat_size(rhs.layout())); std::vector dst_buf(flat_size(dst.layout())); lhs.set_data(lhs_buf.data()); rhs.set_data(rhs_buf.data()); dst.set_data(dst_buf.data()); ruy::Context context; context.set_max_num_threads(params.num_threads); context.set_runtime_enabled_paths(static_cast(params.paths)); ruy::MulParams mul_params; // Here an actual application might set some mul_params fields. // Quantization multipliers, bias-vector, clamp bounds, etc. for (int r = 0; r < params.repeat; r++) { ruy::Mul(lhs, rhs, mul_params, &context, &dst); } } int main(int argc, char* argv[]) { bool help = argc == 1 || (argc == 2 && !strcmp(argv[1], "--help")); if (help) { fprintf(stderr, "Command-line flags (all in the form --flag=value):\n"); fprintf(stderr, "%-20s %-12s %-16s %s\n", "flag", "format", "default", "allowed"); } Params params; const char* allowed_types = "f32xf32->f32, i8xi8->i8, i8xi8->i16, i8xi8->i32, u8xu8->i16, u8xi8->u8, " "i8xi16->i16, i16xi8->i16"; const char* allowed_orders = "row-major, column-major"; read_cmdline_args(help, argc, argv, "--types", "%s", "f32xf32->f32", allowed_types, ¶ms.types); read_cmdline_args(help, argc, argv, "--shape", "%dx%dx%d", "100x100x100", nullptr, ¶ms.m, ¶ms.k, ¶ms.n); read_cmdline_args(help, argc, argv, "--paths", "%x", "0", nullptr, ¶ms.paths); read_cmdline_args(help, argc, argv, "--num_threads", "%d", "1", nullptr, ¶ms.num_threads); read_cmdline_args(help, argc, argv, "--repeat", "%d", "1", nullptr, ¶ms.repeat); read_cmdline_args(help, argc, argv, "--lhs_cache_policy", "%d", "0", "0, 1, 2, 3", ¶ms.lhs_cache_policy); read_cmdline_args(help, argc, argv, "--rhs_cache_policy", "%d", "0", "0, 1, 2, 3", ¶ms.rhs_cache_policy); read_cmdline_args(help, argc, argv, "--lhs_stride", "%d", "0", nullptr, ¶ms.lhs_stride); read_cmdline_args(help, argc, argv, "--rhs_stride", "%d", "0", nullptr, ¶ms.rhs_stride); read_cmdline_args(help, argc, argv, "--dst_stride", "%d", "0", nullptr, ¶ms.dst_stride); read_cmdline_args(help, argc, argv, "--lhs_zero_point", "%d", "0", nullptr, ¶ms.lhs_zero_point); read_cmdline_args(help, argc, argv, "--rhs_zero_point", "%d", "0", nullptr, ¶ms.rhs_zero_point); read_cmdline_args(help, argc, argv, "--dst_zero_point", "%d", "0", nullptr, ¶ms.dst_zero_point); read_cmdline_args(help, argc, argv, "--lhs_order", "%s", "row-major", allowed_orders, ¶ms.lhs_order); read_cmdline_args(help, argc, argv, "--rhs_order", "%s", "row-major", allowed_orders, ¶ms.rhs_order); read_cmdline_args(help, argc, argv, "--dst_order", "%s", "row-major", allowed_orders, ¶ms.dst_order); if (help) { exit(1); } if (!strcmp(params.types, "f32xf32->f32")) { run(params); } else if (!strcmp(params.types, "i8xi8->i8")) { run(params); } else if (!strcmp(params.types, "i8xi8->i16")) { run(params); } else if (!strcmp(params.types, "i8xi8->i32")) { run(params); } else if (!strcmp(params.types, "u8xu8->i16")) { run(params); } else if (!strcmp(params.types, "u8xi8->u8")) { run(params); } else if (!strcmp(params.types, "i8xi16->i16")) { run(params); } else if (!strcmp(params.types, "i16xi8->i16")) { run(params); } else { fprintf(stderr, "Unknown types: %s\n", params.types); exit(1); } }