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Diffstat (limited to 'src/tuning/kernels/xgemm_direct.hpp')
-rw-r--r-- | src/tuning/kernels/xgemm_direct.hpp | 162 |
1 files changed, 162 insertions, 0 deletions
diff --git a/src/tuning/kernels/xgemm_direct.hpp b/src/tuning/kernels/xgemm_direct.hpp new file mode 100644 index 00000000..7cc9f654 --- /dev/null +++ b/src/tuning/kernels/xgemm_direct.hpp @@ -0,0 +1,162 @@ + +// ================================================================================================= +// This file is part of the CLBlast project. The project is licensed under Apache Version 2.0. This +// project loosely follows the Google C++ styleguide and uses a tab-size of two spaces and a max- +// width of 100 characters per line. +// +// Author(s): +// Cedric Nugteren <www.cedricnugteren.nl> +// +// This file uses the auto-tuner to tune the direct xgemm kernels. There are two variations: +// - V==1: This tests some limited set of tuning parameters exhaustively. +// - V==2: This tests a much larger set of tuning parameters by randomly sampling a subset. +// +// ================================================================================================= + +#include <string> +#include <vector> + +#include "utilities/utilities.hpp" +#include "tuning/tuning.hpp" + +namespace clblast { +// ================================================================================================= + +// Settings for this kernel (default command-line arguments) +TunerDefaults GetTunerDefaults(const int V) { + auto settings = TunerDefaults(); + settings.options = {kArgM, kArgN, kArgK, kArgAlpha, kArgBeta, kArgFraction, + kArgHeuristicSelection, kArgPsoSwarmSize, + kArgPsoInfGlobal, kArgPsoInfLocal, kArgPsoInfRandom}; + settings.default_m = 256; + settings.default_n = 256; + settings.default_k = 256; + settings.default_fraction = (V==1) ? 1.0 : 64.0; // test all or sample randomly + settings.default_num_runs = 4; + return settings; +} + +// Settings for this kernel (general) +template <typename T> +TunerSettings GetTunerSettings(const int V, const Arguments<T> &args) { + auto settings = TunerSettings(); + + // Identification of the kernel + settings.kernel_family = (V==1) ? "xgemm_direct_1" : "xgemm_direct_2"; + settings.kernel_name = "XgemmDirectTN"; + settings.sources = +#include "../src/kernels/level3/xgemm_direct_part1.opencl" +#include "../src/kernels/level3/xgemm_direct_part2.opencl" +#include "../src/kernels/level3/xgemm_direct_part3.opencl" + ; + + // Buffer sizes + settings.size_a = args.m * args.k; + settings.size_b = args.n * args.k; + settings.size_c = args.m * args.n; + + // Inputs and outputs IDs (X:0, Y:1, A:2, B:3, C:4, temp:5) + settings.inputs = {2, 3, 4}; + settings.outputs = {4}; + + // Sets the base thread configuration + settings.global_size = {args.m, args.n}; + settings.global_size_ref = settings.global_size; + settings.local_size = {1, 1}; + settings.local_size_ref = {8, 8}; + + // Transforms the thread configuration based on the parameters + settings.mul_local = {{"MDIMCD", "NDIMCD"}}; + settings.mul_global = {{"MDIMCD", "NDIMCD"}}; + settings.div_global = {{"WGD", "WGD"}}; + + // Sets the tuning parameters and their possible values + if (V==1) { // limited subset of tuning parameters - but explorable exhaustively + settings.parameters = { + {"WGD", {8, 16, 32}}, + {"MDIMCD", {8, 16, 32}}, + {"NDIMCD", {8, 16, 32}}, + {"MDIMAD", {8, 16, 32}}, + {"NDIMBD", {8, 16, 32}}, + {"KWID", {2}}, + {"VWMD", {1, 2, 4, 8}}, + {"VWND", {1, 2, 4, 8}}, + {"PADA", {1}}, + {"PADB", {1}}, + }; + } + else { // a lot more tuning parameters - has to be sampled randomly, too much to test all + settings.parameters = { + {"WGD", {8, 16, 32, 64}}, + {"MDIMCD", {8, 16, 32}}, + {"NDIMCD", {8, 16, 32}}, + {"MDIMAD", {8, 16, 32}}, + {"NDIMBD", {8, 16, 32}}, + {"KWID", {2, 8, 16}}, + {"VWMD", {1, 2, 4, 8}}, + {"VWND", {1, 2, 4, 8}}, + {"PADA", {0, 1}}, + {"PADB", {0, 1}}, + }; + } + + // Describes how to compute the performance metrics + settings.metric_amount = 2 * args.m * args.n * args.k; + settings.performance_unit = "GFLOPS"; + + return settings; +} + +// Tests for valid arguments +template <typename T> +void TestValidArguments(const int, const Arguments<T> &) { } +std::vector<Constraint> SetConstraints(const int V) { + auto constraints = std::vector<Constraint>(); + auto MultipleOfX = [] (std::vector<size_t> v) { return IsMultiple(v[0], v[1]); }; + auto MultipleOfXMulY = [] (std::vector<size_t> v) { return IsMultiple(v[0], v[1]*v[2]); }; + auto MultipleOfXMulYDivZ = [] (std::vector<size_t> v) { return IsMultiple(v[0], (v[1]*v[2])/v[3]); }; + // Requirement for unrolling the WGD loop + constraints.push_back({MultipleOfX, {"WGD", "KWID"}}); + // Required for integer MWID and NWID + constraints.push_back({MultipleOfXMulY, {"WGD", "MDIMCD", "VWMD"}}); + constraints.push_back({MultipleOfXMulY, {"WGD", "NDIMCD", "VWND"}}); + // Required for integer MWIAD and NWIBD + constraints.push_back({MultipleOfXMulY, {"WGD", "MDIMAD", "VWMD"}}); + constraints.push_back({MultipleOfXMulY, {"WGD", "NDIMBD", "VWND"}}); + // WGD has to be a multiple of KDIMAD = ((MDIMCD*NDIMCD)/(MDIMAD)) and KDIMBD = (...) + constraints.push_back({MultipleOfXMulYDivZ, {"WGD", "MDIMCD", "NDIMCD", "MDIMAD"}}); + constraints.push_back({MultipleOfXMulYDivZ, {"WGD", "MDIMCD", "NDIMCD", "NDIMBD"}}); + + // Extra constraints for variation 1 to limit the set of options significantly + if (V==1) { + auto IsEqual = [] (std::vector<size_t> v) { return v[0] == v[1]; }; + constraints.push_back({IsEqual, {"MDIMCD", "MDIMAD"}}); + constraints.push_back({IsEqual, {"NDIMCD", "NDIMBD"}}); + } + return constraints; +} + +// Sets the kernel's arguments +template <typename T> +void SetArguments(const int, Kernel &kernel, const Arguments<T> &args, std::vector<Buffer<T>>& buffers) { + kernel.SetArgument(0, static_cast<int>(args.m)); + kernel.SetArgument(1, static_cast<int>(args.n)); + kernel.SetArgument(2, static_cast<int>(args.k)); + kernel.SetArgument(3, GetRealArg(args.alpha)); + kernel.SetArgument(4, GetRealArg(args.beta)); + kernel.SetArgument(5, buffers[2]()); // 2 == A matrix + kernel.SetArgument(6, 0); // a_offset + kernel.SetArgument(7, static_cast<int>(args.k)); // a_ld + kernel.SetArgument(8, buffers[3]()); // 3 == B matrix + kernel.SetArgument(9, 0); // b_offset + kernel.SetArgument(10, static_cast<int>(args.n)); // b_ld + kernel.SetArgument(11, buffers[4]()); // 4 == C matrix + kernel.SetArgument(12, 0); // c_offset + kernel.SetArgument(13, static_cast<int>(args.n)); // c_ld + kernel.SetArgument(14, 1); // c_do_transpose + kernel.SetArgument(15, 0); // a_conjugate + kernel.SetArgument(16, 0); // b_conjugate +} + +// ================================================================================================= +} // namespace clblast |