diff options
Diffstat (limited to 'src')
46 files changed, 813 insertions, 621 deletions
diff --git a/src/database/database.cpp b/src/database/database.cpp index 38974b95..34c44a29 100644 --- a/src/database/database.cpp +++ b/src/database/database.cpp @@ -35,9 +35,9 @@ const std::vector<Database::DatabaseEntry> Database::database = { XdotHalf, XdotSingle, XdotDouble, XdotComplexSingle, XdotComplexDouble, XgemvHalf, XgemvSingle, XgemvDouble, XgemvComplexSingle, XgemvComplexDouble, XgemvFastHalf, XgemvFastSingle, XgemvFastDouble, XgemvFastComplexSingle, XgemvFastComplexDouble, - /* XgemvFastRotHalf, */ XgemvFastRotSingle, XgemvFastRotDouble, XgemvFastRotComplexSingle, XgemvFastRotComplexDouble, + XgemvFastRotHalf, XgemvFastRotSingle, XgemvFastRotDouble, XgemvFastRotComplexSingle, XgemvFastRotComplexDouble, XgerHalf, XgerSingle, XgerDouble, XgerComplexSingle, XgerComplexDouble, - /* XgemmHalf, */ XgemmSingle, XgemmDouble, XgemmComplexSingle, XgemmComplexDouble, + XgemmHalf, XgemmSingle, XgemmDouble, XgemmComplexSingle, XgemmComplexDouble, CopyHalf, CopySingle, CopyDouble, CopyComplexSingle, CopyComplexDouble, PadHalf, PadSingle, PadDouble, PadComplexSingle, PadComplexDouble, TransposeHalf, TransposeSingle, TransposeDouble, TransposeComplexSingle, TransposeComplexDouble, diff --git a/src/database/database.hpp b/src/database/database.hpp index 8d6d3863..a6ab49c5 100644 --- a/src/database/database.hpp +++ b/src/database/database.hpp @@ -72,9 +72,9 @@ class Database { static const DatabaseEntry XdotHalf, XdotSingle, XdotDouble, XdotComplexSingle, XdotComplexDouble; static const DatabaseEntry XgemvHalf, XgemvSingle, XgemvDouble, XgemvComplexSingle, XgemvComplexDouble; static const DatabaseEntry XgemvFastHalf, XgemvFastSingle, XgemvFastDouble, XgemvFastComplexSingle, XgemvFastComplexDouble; - static const DatabaseEntry /* XgemvFastRotHalf, */ XgemvFastRotSingle, XgemvFastRotDouble, XgemvFastRotComplexSingle, XgemvFastRotComplexDouble; + static const DatabaseEntry XgemvFastRotHalf, XgemvFastRotSingle, XgemvFastRotDouble, XgemvFastRotComplexSingle, XgemvFastRotComplexDouble; static const DatabaseEntry XgerHalf, XgerSingle, XgerDouble, XgerComplexSingle, XgerComplexDouble; - static const DatabaseEntry /* XgemmHalf, */ XgemmSingle, XgemmDouble, XgemmComplexSingle, XgemmComplexDouble; + static const DatabaseEntry XgemmHalf, XgemmSingle, XgemmDouble, XgemmComplexSingle, XgemmComplexDouble; static const DatabaseEntry CopyHalf, CopySingle, CopyDouble, CopyComplexSingle, CopyComplexDouble; static const DatabaseEntry PadHalf, PadSingle, PadDouble, PadComplexSingle, PadComplexDouble; static const DatabaseEntry TransposeHalf, TransposeSingle, TransposeDouble, TransposeComplexSingle, TransposeComplexDouble; diff --git a/src/database/kernels/copy.hpp b/src/database/kernels/copy.hpp index d592f110..a6b7dfe8 100644 --- a/src/database/kernels/copy.hpp +++ b/src/database/kernels/copy.hpp @@ -18,6 +18,7 @@ const Database::DatabaseEntry Database::CopyHalf = { "Copy", Precision::kHalf, { { // Intel GPUs kDeviceTypeGPU, "Intel", { + { "Intel(R) HD Graphics 5500 BroadWell U-Processor GT2", { {"COPY_DIMX",8}, {"COPY_DIMY",16}, {"COPY_VW",8}, {"COPY_WPT",4} } }, { "Intel(R) HD Graphics Skylake ULT GT2", { {"COPY_DIMX",8}, {"COPY_DIMY",8}, {"COPY_VW",4}, {"COPY_WPT",1} } }, { "default", { {"COPY_DIMX",8}, {"COPY_DIMY",8}, {"COPY_VW",4}, {"COPY_WPT",1} } }, } @@ -41,7 +42,7 @@ const Database::DatabaseEntry Database::CopySingle = { { "Oland", { {"COPY_DIMX",32}, {"COPY_DIMY",8}, {"COPY_VW",4}, {"COPY_WPT",2} } }, { "Pitcairn", { {"COPY_DIMX",8}, {"COPY_DIMY",16}, {"COPY_VW",4}, {"COPY_WPT",1} } }, { "Tahiti", { {"COPY_DIMX",32}, {"COPY_DIMY",8}, {"COPY_VW",2}, {"COPY_WPT",2} } }, - { "default", { {"COPY_DIMX",8}, {"COPY_DIMY",8}, {"COPY_VW",2}, {"COPY_WPT",1} } }, + { "default", { {"COPY_DIMX",32}, {"COPY_DIMY",8}, {"COPY_VW",2}, {"COPY_WPT",2} } }, } }, { // ARM GPUs @@ -61,11 +62,12 @@ const Database::DatabaseEntry Database::CopySingle = { { // Intel GPUs kDeviceTypeGPU, "Intel", { { "Intel(R) HD Graphics 530", { {"COPY_DIMX",8}, {"COPY_DIMY",8}, {"COPY_VW",2}, {"COPY_WPT",1} } }, - { "Intel(R) HD Graphics Haswell Ultrabook GT2 Mobile", { {"COPY_DIMX",8}, {"COPY_DIMY",8}, {"COPY_VW",2}, {"COPY_WPT",1} } }, + { "Intel(R) HD Graphics 5500 BroadWell U-Processor GT2", { {"COPY_DIMX",32}, {"COPY_DIMY",16}, {"COPY_VW",4}, {"COPY_WPT",1} } }, + { "Intel(R) HD Graphics Haswell Ultrabook GT2 Mobile", { {"COPY_DIMX",32}, {"COPY_DIMY",16}, {"COPY_VW",4}, {"COPY_WPT",1} } }, { "Intel(R) HD Graphics Skylake ULT GT2", { {"COPY_DIMX",32}, {"COPY_DIMY",8}, {"COPY_VW",2}, {"COPY_WPT",1} } }, { "Iris", { {"COPY_DIMX",16}, {"COPY_DIMY",8}, {"COPY_VW",1}, {"COPY_WPT",2} } }, { "Iris Pro", { {"COPY_DIMX",32}, {"COPY_DIMY",8}, {"COPY_VW",4}, {"COPY_WPT",4} } }, - { "default", { {"COPY_DIMX",8}, {"COPY_DIMY",8}, {"COPY_VW",1}, {"COPY_WPT",1} } }, + { "default", { {"COPY_DIMX",32}, {"COPY_DIMY",8}, {"COPY_VW",2}, {"COPY_WPT",1} } }, } }, { // Intel accelerators @@ -85,15 +87,15 @@ const Database::DatabaseEntry Database::CopySingle = { { "GeForce GTX 750 Ti", { {"COPY_DIMX",32}, {"COPY_DIMY",8}, {"COPY_VW",2}, {"COPY_WPT",1} } }, { "GeForce GTX 980", { {"COPY_DIMX",32}, {"COPY_DIMY",16}, {"COPY_VW",1}, {"COPY_WPT",1} } }, { "GeForce GTX TITAN", { {"COPY_DIMX",32}, {"COPY_DIMY",8}, {"COPY_VW",2}, {"COPY_WPT",4} } }, - { "GeForce GTX TITAN X", { {"COPY_DIMX",32}, {"COPY_DIMY",8}, {"COPY_VW",2}, {"COPY_WPT",1} } }, + { "GeForce GTX TITAN X", { {"COPY_DIMX",32}, {"COPY_DIMY",8}, {"COPY_VW",1}, {"COPY_WPT",2} } }, { "Tesla K20m", { {"COPY_DIMX",8}, {"COPY_DIMY",8}, {"COPY_VW",4}, {"COPY_WPT",4} } }, { "Tesla K40m", { {"COPY_DIMX",8}, {"COPY_DIMY",8}, {"COPY_VW",4}, {"COPY_WPT",2} } }, - { "default", { {"COPY_DIMX",8}, {"COPY_DIMY",8}, {"COPY_VW",1}, {"COPY_WPT",1} } }, + { "default", { {"COPY_DIMX",8}, {"COPY_DIMY",16}, {"COPY_VW",4}, {"COPY_WPT",1} } }, } }, { // Default kDeviceTypeAll, "default", { - { "default", { {"COPY_DIMX",8}, {"COPY_DIMY",8}, {"COPY_VW",1}, {"COPY_WPT",1} } }, + { "default", { {"COPY_DIMX",32}, {"COPY_DIMY",8}, {"COPY_VW",2}, {"COPY_WPT",2} } }, } }, } @@ -110,7 +112,7 @@ const Database::DatabaseEntry Database::CopyComplexSingle = { { "Oland", { {"COPY_DIMX",8}, {"COPY_DIMY",16}, {"COPY_VW",1}, {"COPY_WPT",1} } }, { "Pitcairn", { {"COPY_DIMX",8}, {"COPY_DIMY",8}, {"COPY_VW",1}, {"COPY_WPT",2} } }, { "Tahiti", { {"COPY_DIMX",8}, {"COPY_DIMY",8}, {"COPY_VW",2}, {"COPY_WPT",2} } }, - { "default", { {"COPY_DIMX",8}, {"COPY_DIMY",8}, {"COPY_VW",1}, {"COPY_WPT",1} } }, + { "default", { {"COPY_DIMX",32}, {"COPY_DIMY",8}, {"COPY_VW",1}, {"COPY_WPT",1} } }, } }, { // Intel CPUs @@ -118,17 +120,18 @@ const Database::DatabaseEntry Database::CopyComplexSingle = { { "Intel(R) Core(TM) i5-6200U CPU @ 2.30GHz", { {"COPY_DIMX",16}, {"COPY_DIMY",16}, {"COPY_VW",8}, {"COPY_WPT",1} } }, { "Intel(R) Core(TM) i7-3770 CPU @ 3.40GHz", { {"COPY_DIMX",32}, {"COPY_DIMY",8}, {"COPY_VW",2}, {"COPY_WPT",2} } }, { "Intel(R) Core(TM) i7-5930K CPU @ 3.50GHz", { {"COPY_DIMX",16}, {"COPY_DIMY",8}, {"COPY_VW",8}, {"COPY_WPT",1} } }, - { "default", { {"COPY_DIMX",16}, {"COPY_DIMY",8}, {"COPY_VW",2}, {"COPY_WPT",1} } }, + { "default", { {"COPY_DIMX",32}, {"COPY_DIMY",8}, {"COPY_VW",8}, {"COPY_WPT",1} } }, } }, { // Intel GPUs kDeviceTypeGPU, "Intel", { { "Intel(R) HD Graphics 530", { {"COPY_DIMX",16}, {"COPY_DIMY",8}, {"COPY_VW",2}, {"COPY_WPT",1} } }, + { "Intel(R) HD Graphics 5500 BroadWell U-Processor GT2", { {"COPY_DIMX",16}, {"COPY_DIMY",16}, {"COPY_VW",2}, {"COPY_WPT",2} } }, { "Intel(R) HD Graphics Haswell Ultrabook GT2 Mobile", { {"COPY_DIMX",8}, {"COPY_DIMY",8}, {"COPY_VW",1}, {"COPY_WPT",1} } }, { "Intel(R) HD Graphics Skylake ULT GT2", { {"COPY_DIMX",8}, {"COPY_DIMY",8}, {"COPY_VW",4}, {"COPY_WPT",4} } }, { "Iris", { {"COPY_DIMX",16}, {"COPY_DIMY",8}, {"COPY_VW",1}, {"COPY_WPT",2} } }, { "Iris Pro", { {"COPY_DIMX",32}, {"COPY_DIMY",16}, {"COPY_VW",1}, {"COPY_WPT",4} } }, - { "default", { {"COPY_DIMX",8}, {"COPY_DIMY",8}, {"COPY_VW",1}, {"COPY_WPT",1} } }, + { "default", { {"COPY_DIMX",16}, {"COPY_DIMY",8}, {"COPY_VW",1}, {"COPY_WPT",2} } }, } }, { // Intel accelerators @@ -149,12 +152,12 @@ const Database::DatabaseEntry Database::CopyComplexSingle = { { "GeForce GTX TITAN X", { {"COPY_DIMX",16}, {"COPY_DIMY",8}, {"COPY_VW",1}, {"COPY_WPT",1} } }, { "Tesla K20m", { {"COPY_DIMX",8}, {"COPY_DIMY",8}, {"COPY_VW",1}, {"COPY_WPT",4} } }, { "Tesla K40m", { {"COPY_DIMX",16}, {"COPY_DIMY",8}, {"COPY_VW",1}, {"COPY_WPT",1} } }, - { "default", { {"COPY_DIMX",8}, {"COPY_DIMY",8}, {"COPY_VW",1}, {"COPY_WPT",1} } }, + { "default", { {"COPY_DIMX",16}, {"COPY_DIMY",8}, {"COPY_VW",1}, {"COPY_WPT",1} } }, } }, { // Default kDeviceTypeAll, "default", { - { "default", { {"COPY_DIMX",8}, {"COPY_DIMY",8}, {"COPY_VW",1}, {"COPY_WPT",1} } }, + { "default", { {"COPY_DIMX",32}, {"COPY_DIMY",8}, {"COPY_VW",1}, {"COPY_WPT",1} } }, } }, } @@ -171,7 +174,7 @@ const Database::DatabaseEntry Database::CopyDouble = { { "Oland", { {"COPY_DIMX",32}, {"COPY_DIMY",8}, {"COPY_VW",2}, {"COPY_WPT",8} } }, { "Pitcairn", { {"COPY_DIMX",32}, {"COPY_DIMY",8}, {"COPY_VW",1}, {"COPY_WPT",1} } }, { "Tahiti", { {"COPY_DIMX",8}, {"COPY_DIMY",32}, {"COPY_VW",2}, {"COPY_WPT",1} } }, - { "default", { {"COPY_DIMX",8}, {"COPY_DIMY",8}, {"COPY_VW",1}, {"COPY_WPT",1} } }, + { "default", { {"COPY_DIMX",32}, {"COPY_DIMY",8}, {"COPY_VW",1}, {"COPY_WPT",2} } }, } }, { // ARM GPUs @@ -185,7 +188,7 @@ const Database::DatabaseEntry Database::CopyDouble = { { "Intel(R) Core(TM) i5-6200U CPU @ 2.30GHz", { {"COPY_DIMX",16}, {"COPY_DIMY",8}, {"COPY_VW",8}, {"COPY_WPT",1} } }, { "Intel(R) Core(TM) i7-3770 CPU @ 3.40GHz", { {"COPY_DIMX",16}, {"COPY_DIMY",32}, {"COPY_VW",2}, {"COPY_WPT",1} } }, { "Intel(R) Core(TM) i7-5930K CPU @ 3.50GHz", { {"COPY_DIMX",16}, {"COPY_DIMY",16}, {"COPY_VW",8}, {"COPY_WPT",1} } }, - { "default", { {"COPY_DIMX",16}, {"COPY_DIMY",8}, {"COPY_VW",2}, {"COPY_WPT",1} } }, + { "default", { {"COPY_DIMX",16}, {"COPY_DIMY",16}, {"COPY_VW",8}, {"COPY_WPT",1} } }, } }, { // Intel accelerators @@ -208,12 +211,12 @@ const Database::DatabaseEntry Database::CopyDouble = { { "GeForce GTX TITAN X", { {"COPY_DIMX",32}, {"COPY_DIMY",16}, {"COPY_VW",1}, {"COPY_WPT",1} } }, { "Tesla K20m", { {"COPY_DIMX",8}, {"COPY_DIMY",8}, {"COPY_VW",2}, {"COPY_WPT",1} } }, { "Tesla K40m", { {"COPY_DIMX",8}, {"COPY_DIMY",8}, {"COPY_VW",2}, {"COPY_WPT",2} } }, - { "default", { {"COPY_DIMX",8}, {"COPY_DIMY",8}, {"COPY_VW",1}, {"COPY_WPT",1} } }, + { "default", { {"COPY_DIMX",32}, {"COPY_DIMY",32}, {"COPY_VW",2}, {"COPY_WPT",1} } }, } }, { // Default kDeviceTypeAll, "default", { - { "default", { {"COPY_DIMX",8}, {"COPY_DIMY",8}, {"COPY_VW",1}, {"COPY_WPT",1} } }, + { "default", { {"COPY_DIMX",16}, {"COPY_DIMY",8}, {"COPY_VW",2}, {"COPY_WPT",1} } }, } }, } @@ -230,7 +233,7 @@ const Database::DatabaseEntry Database::CopyComplexDouble = { { "Oland", { {"COPY_DIMX",8}, {"COPY_DIMY",16}, {"COPY_VW",1}, {"COPY_WPT",1} } }, { "Pitcairn", { {"COPY_DIMX",16}, {"COPY_DIMY",8}, {"COPY_VW",1}, {"COPY_WPT",1} } }, { "Tahiti", { {"COPY_DIMX",8}, {"COPY_DIMY",16}, {"COPY_VW",1}, {"COPY_WPT",1} } }, - { "default", { {"COPY_DIMX",8}, {"COPY_DIMY",8}, {"COPY_VW",1}, {"COPY_WPT",1} } }, + { "default", { {"COPY_DIMX",8}, {"COPY_DIMY",16}, {"COPY_VW",1}, {"COPY_WPT",1} } }, } }, { // ARM GPUs @@ -244,7 +247,7 @@ const Database::DatabaseEntry Database::CopyComplexDouble = { { "Intel(R) Core(TM) i5-6200U CPU @ 2.30GHz", { {"COPY_DIMX",32}, {"COPY_DIMY",8}, {"COPY_VW",8}, {"COPY_WPT",1} } }, { "Intel(R) Core(TM) i7-3770 CPU @ 3.40GHz", { {"COPY_DIMX",32}, {"COPY_DIMY",32}, {"COPY_VW",8}, {"COPY_WPT",1} } }, { "Intel(R) Core(TM) i7-5930K CPU @ 3.50GHz", { {"COPY_DIMX",8}, {"COPY_DIMY",8}, {"COPY_VW",8}, {"COPY_WPT",1} } }, - { "default", { {"COPY_DIMX",8}, {"COPY_DIMY",8}, {"COPY_VW",8}, {"COPY_WPT",1} } }, + { "default", { {"COPY_DIMX",32}, {"COPY_DIMY",32}, {"COPY_VW",8}, {"COPY_WPT",1} } }, } }, { // Intel accelerators @@ -272,7 +275,7 @@ const Database::DatabaseEntry Database::CopyComplexDouble = { }, { // Default kDeviceTypeAll, "default", { - { "default", { {"COPY_DIMX",8}, {"COPY_DIMY",8}, {"COPY_VW",1}, {"COPY_WPT",1} } }, + { "default", { {"COPY_DIMX",16}, {"COPY_DIMY",8}, {"COPY_VW",1}, {"COPY_WPT",1} } }, } }, } diff --git a/src/database/kernels/pad.hpp b/src/database/kernels/pad.hpp index cd034f15..3cfabaf4 100644 --- a/src/database/kernels/pad.hpp +++ b/src/database/kernels/pad.hpp @@ -18,6 +18,7 @@ const Database::DatabaseEntry Database::PadHalf = { "Pad", Precision::kHalf, { { // Intel GPUs kDeviceTypeGPU, "Intel", { + { "Intel(R) HD Graphics 5500 BroadWell U-Processor GT2", { {"PAD_DIMX",8}, {"PAD_DIMY",8}, {"PAD_WPTX",4}, {"PAD_WPTY",1} } }, { "Intel(R) HD Graphics Skylake ULT GT2", { {"PAD_DIMX",8}, {"PAD_DIMY",8}, {"PAD_WPTX",2}, {"PAD_WPTY",1} } }, { "default", { {"PAD_DIMX",8}, {"PAD_DIMY",8}, {"PAD_WPTX",2}, {"PAD_WPTY",1} } }, } @@ -41,7 +42,7 @@ const Database::DatabaseEntry Database::PadSingle = { { "Oland", { {"PAD_DIMX",8}, {"PAD_DIMY",8}, {"PAD_WPTX",1}, {"PAD_WPTY",2} } }, { "Pitcairn", { {"PAD_DIMX",32}, {"PAD_DIMY",8}, {"PAD_WPTX",1}, {"PAD_WPTY",2} } }, { "Tahiti", { {"PAD_DIMX",32}, {"PAD_DIMY",8}, {"PAD_WPTX",1}, {"PAD_WPTY",2} } }, - { "default", { {"PAD_DIMX",8}, {"PAD_DIMY",8}, {"PAD_WPTX",1}, {"PAD_WPTY",1} } }, + { "default", { {"PAD_DIMX",8}, {"PAD_DIMY",8}, {"PAD_WPTX",1}, {"PAD_WPTY",2} } }, } }, { // ARM GPUs @@ -55,17 +56,18 @@ const Database::DatabaseEntry Database::PadSingle = { { "Intel(R) Core(TM) i5-6200U CPU @ 2.30GHz", { {"PAD_DIMX",32}, {"PAD_DIMY",16}, {"PAD_WPTX",4}, {"PAD_WPTY",1} } }, { "Intel(R) Core(TM) i7-3770 CPU @ 3.40GHz", { {"PAD_DIMX",16}, {"PAD_DIMY",32}, {"PAD_WPTX",4}, {"PAD_WPTY",4} } }, { "Intel(R) Core(TM) i7-5930K CPU @ 3.50GHz", { {"PAD_DIMX",32}, {"PAD_DIMY",8}, {"PAD_WPTX",4}, {"PAD_WPTY",1} } }, - { "default", { {"PAD_DIMX",16}, {"PAD_DIMY",8}, {"PAD_WPTX",4}, {"PAD_WPTY",1} } }, + { "default", { {"PAD_DIMX",32}, {"PAD_DIMY",8}, {"PAD_WPTX",4}, {"PAD_WPTY",2} } }, } }, { // Intel GPUs kDeviceTypeGPU, "Intel", { { "Intel(R) HD Graphics 530", { {"PAD_DIMX",32}, {"PAD_DIMY",8}, {"PAD_WPTX",2}, {"PAD_WPTY",4} } }, - { "Intel(R) HD Graphics Haswell Ultrabook GT2 Mobile", { {"PAD_DIMX",8}, {"PAD_DIMY",8}, {"PAD_WPTX",1}, {"PAD_WPTY",1} } }, + { "Intel(R) HD Graphics 5500 BroadWell U-Processor GT2", { {"PAD_DIMX",32}, {"PAD_DIMY",8}, {"PAD_WPTX",2}, {"PAD_WPTY",4} } }, + { "Intel(R) HD Graphics Haswell Ultrabook GT2 Mobile", { {"PAD_DIMX",16}, {"PAD_DIMY",8}, {"PAD_WPTX",1}, {"PAD_WPTY",2} } }, { "Intel(R) HD Graphics Skylake ULT GT2", { {"PAD_DIMX",16}, {"PAD_DIMY",8}, {"PAD_WPTX",2}, {"PAD_WPTY",1} } }, { "Iris", { {"PAD_DIMX",32}, {"PAD_DIMY",16}, {"PAD_WPTX",2}, {"PAD_WPTY",1} } }, { "Iris Pro", { {"PAD_DIMX",16}, {"PAD_DIMY",8}, {"PAD_WPTX",2}, {"PAD_WPTY",1} } }, - { "default", { {"PAD_DIMX",8}, {"PAD_DIMY",8}, {"PAD_WPTX",1}, {"PAD_WPTY",1} } }, + { "default", { {"PAD_DIMX",16}, {"PAD_DIMY",8}, {"PAD_WPTX",2}, {"PAD_WPTY",1} } }, } }, { // Intel accelerators @@ -88,12 +90,12 @@ const Database::DatabaseEntry Database::PadSingle = { { "GeForce GTX TITAN X", { {"PAD_DIMX",16}, {"PAD_DIMY",16}, {"PAD_WPTX",1}, {"PAD_WPTY",1} } }, { "Tesla K20m", { {"PAD_DIMX",32}, {"PAD_DIMY",8}, {"PAD_WPTX",2}, {"PAD_WPTY",1} } }, { "Tesla K40m", { {"PAD_DIMX",32}, {"PAD_DIMY",8}, {"PAD_WPTX",1}, {"PAD_WPTY",1} } }, - { "default", { {"PAD_DIMX",16}, {"PAD_DIMY",8}, {"PAD_WPTX",1}, {"PAD_WPTY",1} } }, + { "default", { {"PAD_DIMX",32}, {"PAD_DIMY",8}, {"PAD_WPTX",4}, {"PAD_WPTY",1} } }, } }, { // Default kDeviceTypeAll, "default", { - { "default", { {"PAD_DIMX",8}, {"PAD_DIMY",8}, {"PAD_WPTX",1}, {"PAD_WPTY",1} } }, + { "default", { {"PAD_DIMX",32}, {"PAD_DIMY",8}, {"PAD_WPTX",2}, {"PAD_WPTY",1} } }, } }, } @@ -110,7 +112,7 @@ const Database::DatabaseEntry Database::PadComplexSingle = { { "Oland", { {"PAD_DIMX",8}, {"PAD_DIMY",32}, {"PAD_WPTX",1}, {"PAD_WPTY",1} } }, { "Pitcairn", { {"PAD_DIMX",8}, {"PAD_DIMY",8}, {"PAD_WPTX",1}, {"PAD_WPTY",2} } }, { "Tahiti", { {"PAD_DIMX",16}, {"PAD_DIMY",16}, {"PAD_WPTX",1}, {"PAD_WPTY",1} } }, - { "default", { {"PAD_DIMX",8}, {"PAD_DIMY",8}, {"PAD_WPTX",1}, {"PAD_WPTY",1} } }, + { "default", { {"PAD_DIMX",32}, {"PAD_DIMY",8}, {"PAD_WPTX",1}, {"PAD_WPTY",1} } }, } }, { // ARM GPUs @@ -124,17 +126,18 @@ const Database::DatabaseEntry Database::PadComplexSingle = { { "Intel(R) Core(TM) i5-6200U CPU @ 2.30GHz", { {"PAD_DIMX",32}, {"PAD_DIMY",8}, {"PAD_WPTX",2}, {"PAD_WPTY",2} } }, { "Intel(R) Core(TM) i7-3770 CPU @ 3.40GHz", { {"PAD_DIMX",32}, {"PAD_DIMY",32}, {"PAD_WPTX",4}, {"PAD_WPTY",1} } }, { "Intel(R) Core(TM) i7-5930K CPU @ 3.50GHz", { {"PAD_DIMX",32}, {"PAD_DIMY",16}, {"PAD_WPTX",4}, {"PAD_WPTY",1} } }, - { "default", { {"PAD_DIMX",32}, {"PAD_DIMY",8}, {"PAD_WPTX",2}, {"PAD_WPTY",1} } }, + { "default", { {"PAD_DIMX",32}, {"PAD_DIMY",16}, {"PAD_WPTX",4}, {"PAD_WPTY",1} } }, } }, { // Intel GPUs kDeviceTypeGPU, "Intel", { { "Intel(R) HD Graphics 530", { {"PAD_DIMX",8}, {"PAD_DIMY",8}, {"PAD_WPTX",1}, {"PAD_WPTY",2} } }, + { "Intel(R) HD Graphics 5500 BroadWell U-Processor GT2", { {"PAD_DIMX",8}, {"PAD_DIMY",8}, {"PAD_WPTX",1}, {"PAD_WPTY",1} } }, { "Intel(R) HD Graphics Haswell Ultrabook GT2 Mobile", { {"PAD_DIMX",8}, {"PAD_DIMY",8}, {"PAD_WPTX",1}, {"PAD_WPTY",1} } }, { "Intel(R) HD Graphics Skylake ULT GT2", { {"PAD_DIMX",32}, {"PAD_DIMY",8}, {"PAD_WPTX",2}, {"PAD_WPTY",4} } }, { "Iris", { {"PAD_DIMX",32}, {"PAD_DIMY",16}, {"PAD_WPTX",2}, {"PAD_WPTY",4} } }, { "Iris Pro", { {"PAD_DIMX",32}, {"PAD_DIMY",8}, {"PAD_WPTX",2}, {"PAD_WPTY",1} } }, - { "default", { {"PAD_DIMX",8}, {"PAD_DIMY",8}, {"PAD_WPTX",1}, {"PAD_WPTY",1} } }, + { "default", { {"PAD_DIMX",32}, {"PAD_DIMY",8}, {"PAD_WPTX",1}, {"PAD_WPTY",4} } }, } }, { // Intel accelerators @@ -157,12 +160,12 @@ const Database::DatabaseEntry Database::PadComplexSingle = { { "GeForce GTX TITAN X", { {"PAD_DIMX",16}, {"PAD_DIMY",8}, {"PAD_WPTX",1}, {"PAD_WPTY",1} } }, { "Tesla K20m", { {"PAD_DIMX",32}, {"PAD_DIMY",8}, {"PAD_WPTX",1}, {"PAD_WPTY",2} } }, { "Tesla K40m", { {"PAD_DIMX",16}, {"PAD_DIMY",8}, {"PAD_WPTX",1}, {"PAD_WPTY",1} } }, - { "default", { {"PAD_DIMX",8}, {"PAD_DIMY",8}, {"PAD_WPTX",1}, {"PAD_WPTY",1} } }, + { "default", { {"PAD_DIMX",16}, {"PAD_DIMY",8}, {"PAD_WPTX",2}, {"PAD_WPTY",1} } }, } }, { // Default kDeviceTypeAll, "default", { - { "default", { {"PAD_DIMX",8}, {"PAD_DIMY",8}, {"PAD_WPTX",1}, {"PAD_WPTY",1} } }, + { "default", { {"PAD_DIMX",32}, {"PAD_DIMY",8}, {"PAD_WPTX",1}, {"PAD_WPTY",1} } }, } }, } @@ -179,7 +182,7 @@ const Database::DatabaseEntry Database::PadDouble = { { "Oland", { {"PAD_DIMX",8}, {"PAD_DIMY",32}, {"PAD_WPTX",1}, {"PAD_WPTY",1} } }, { "Pitcairn", { {"PAD_DIMX",8}, {"PAD_DIMY",8}, {"PAD_WPTX",1}, {"PAD_WPTY",2} } }, { "Tahiti", { {"PAD_DIMX",32}, {"PAD_DIMY",8}, {"PAD_WPTX",1}, {"PAD_WPTY",1} } }, - { "default", { {"PAD_DIMX",8}, {"PAD_DIMY",8}, {"PAD_WPTX",1}, {"PAD_WPTY",1} } }, + { "default", { {"PAD_DIMX",32}, {"PAD_DIMY",8}, {"PAD_WPTX",1}, {"PAD_WPTY",2} } }, } }, { // ARM GPUs @@ -193,7 +196,7 @@ const Database::DatabaseEntry Database::PadDouble = { { "Intel(R) Core(TM) i5-6200U CPU @ 2.30GHz", { {"PAD_DIMX",32}, {"PAD_DIMY",8}, {"PAD_WPTX",4}, {"PAD_WPTY",1} } }, { "Intel(R) Core(TM) i7-3770 CPU @ 3.40GHz", { {"PAD_DIMX",32}, {"PAD_DIMY",32}, {"PAD_WPTX",4}, {"PAD_WPTY",1} } }, { "Intel(R) Core(TM) i7-5930K CPU @ 3.50GHz", { {"PAD_DIMX",32}, {"PAD_DIMY",8}, {"PAD_WPTX",2}, {"PAD_WPTY",1} } }, - { "default", { {"PAD_DIMX",32}, {"PAD_DIMY",8}, {"PAD_WPTX",2}, {"PAD_WPTY",1} } }, + { "default", { {"PAD_DIMX",32}, {"PAD_DIMY",16}, {"PAD_WPTX",4}, {"PAD_WPTY",1} } }, } }, { // Intel accelerators @@ -216,12 +219,12 @@ const Database::DatabaseEntry Database::PadDouble = { { "GeForce GTX TITAN X", { {"PAD_DIMX",16}, {"PAD_DIMY",8}, {"PAD_WPTX",1}, {"PAD_WPTY",1} } }, { "Tesla K20m", { {"PAD_DIMX",32}, {"PAD_DIMY",8}, {"PAD_WPTX",1}, {"PAD_WPTY",1} } }, { "Tesla K40m", { {"PAD_DIMX",16}, {"PAD_DIMY",8}, {"PAD_WPTX",1}, {"PAD_WPTY",2} } }, - { "default", { {"PAD_DIMX",8}, {"PAD_DIMY",8}, {"PAD_WPTX",1}, {"PAD_WPTY",1} } }, + { "default", { {"PAD_DIMX",32}, {"PAD_DIMY",8}, {"PAD_WPTX",1}, {"PAD_WPTY",1} } }, } }, { // Default kDeviceTypeAll, "default", { - { "default", { {"PAD_DIMX",8}, {"PAD_DIMY",8}, {"PAD_WPTX",1}, {"PAD_WPTY",1} } }, + { "default", { {"PAD_DIMX",32}, {"PAD_DIMY",8}, {"PAD_WPTX",1}, {"PAD_WPTY",1} } }, } }, } @@ -238,7 +241,7 @@ const Database::DatabaseEntry Database::PadComplexDouble = { { "Oland", { {"PAD_DIMX",8}, {"PAD_DIMY",16}, {"PAD_WPTX",2}, {"PAD_WPTY",1} } }, { "Pitcairn", { {"PAD_DIMX",16}, {"PAD_DIMY",8}, {"PAD_WPTX",1}, {"PAD_WPTY",1} } }, { "Tahiti", { {"PAD_DIMX",8}, {"PAD_DIMY",16}, {"PAD_WPTX",1}, {"PAD_WPTY",1} } }, - { "default", { {"PAD_DIMX",8}, {"PAD_DIMY",8}, {"PAD_WPTX",1}, {"PAD_WPTY",1} } }, + { "default", { {"PAD_DIMX",32}, {"PAD_DIMY",8}, {"PAD_WPTX",1}, {"PAD_WPTY",1} } }, } }, { // ARM GPUs @@ -252,7 +255,7 @@ const Database::DatabaseEntry Database::PadComplexDouble = { { "Intel(R) Core(TM) i5-6200U CPU @ 2.30GHz", { {"PAD_DIMX",32}, {"PAD_DIMY",8}, {"PAD_WPTX",2}, {"PAD_WPTY",1} } }, { "Intel(R) Core(TM) i7-3770 CPU @ 3.40GHz", { {"PAD_DIMX",16}, {"PAD_DIMY",32}, {"PAD_WPTX",4}, {"PAD_WPTY",1} } }, { "Intel(R) Core(TM) i7-5930K CPU @ 3.50GHz", { {"PAD_DIMX",32}, {"PAD_DIMY",8}, {"PAD_WPTX",2}, {"PAD_WPTY",1} } }, - { "default", { {"PAD_DIMX",16}, {"PAD_DIMY",8}, {"PAD_WPTX",2}, {"PAD_WPTY",1} } }, + { "default", { {"PAD_DIMX",32}, {"PAD_DIMY",16}, {"PAD_WPTX",4}, {"PAD_WPTY",1} } }, } }, { // Intel accelerators @@ -275,12 +278,12 @@ const Database::DatabaseEntry Database::PadComplexDouble = { { "GeForce GTX TITAN X", { {"PAD_DIMX",16}, {"PAD_DIMY",8}, {"PAD_WPTX",1}, {"PAD_WPTY",1} } }, { "Tesla K20m", { {"PAD_DIMX",8}, {"PAD_DIMY",8}, {"PAD_WPTX",1}, {"PAD_WPTY",2} } }, { "Tesla K40m", { {"PAD_DIMX",8}, {"PAD_DIMY",8}, {"PAD_WPTX",1}, {"PAD_WPTY",1} } }, - { "default", { {"PAD_DIMX",8}, {"PAD_DIMY",8}, {"PAD_WPTX",1}, {"PAD_WPTY",1} } }, + { "default", { {"PAD_DIMX",16}, {"PAD_DIMY",8}, {"PAD_WPTX",1}, {"PAD_WPTY",1} } }, } }, { // Default kDeviceTypeAll, "default", { - { "default", { {"PAD_DIMX",8}, {"PAD_DIMY",8}, {"PAD_WPTX",1}, {"PAD_WPTY",1} } }, + { "default", { {"PAD_DIMX",32}, {"PAD_DIMY",8}, {"PAD_WPTX",1}, {"PAD_WPTY",1} } }, } }, } diff --git a/src/database/kernels/padtranspose.hpp b/src/database/kernels/padtranspose.hpp index c2034c3e..88bd4ea7 100644 --- a/src/database/kernels/padtranspose.hpp +++ b/src/database/kernels/padtranspose.hpp @@ -18,6 +18,7 @@ const Database::DatabaseEntry Database::PadtransposeHalf = { "Padtranspose", Precision::kHalf, { { // Intel GPUs kDeviceTypeGPU, "Intel", { + { "Intel(R) HD Graphics 5500 BroadWell U-Processor GT2", { {"PADTRA_PAD",0}, {"PADTRA_TILE",8}, {"PADTRA_WPT",1} } }, { "Intel(R) HD Graphics Skylake ULT GT2", { {"PADTRA_PAD",0}, {"PADTRA_TILE",8}, {"PADTRA_WPT",1} } }, { "default", { {"PADTRA_PAD",0}, {"PADTRA_TILE",8}, {"PADTRA_WPT",1} } }, } @@ -55,12 +56,13 @@ const Database::DatabaseEntry Database::PadtransposeSingle = { { "Intel(R) Core(TM) i5-6200U CPU @ 2.30GHz", { {"PADTRA_PAD",0}, {"PADTRA_TILE",16}, {"PADTRA_WPT",1} } }, { "Intel(R) Core(TM) i7-3770 CPU @ 3.40GHz", { {"PADTRA_PAD",0}, {"PADTRA_TILE",8}, {"PADTRA_WPT",8} } }, { "Intel(R) Core(TM) i7-5930K CPU @ 3.50GHz", { {"PADTRA_PAD",0}, {"PADTRA_TILE",32}, {"PADTRA_WPT",1} } }, - { "default", { {"PADTRA_PAD",0}, {"PADTRA_TILE",8}, {"PADTRA_WPT",1} } }, + { "default", { {"PADTRA_PAD",0}, {"PADTRA_TILE",8}, {"PADTRA_WPT",8} } }, } }, { // Intel GPUs kDeviceTypeGPU, "Intel", { { "Intel(R) HD Graphics 530", { {"PADTRA_PAD",1}, {"PADTRA_TILE",16}, {"PADTRA_WPT",2} } }, + { "Intel(R) HD Graphics 5500 BroadWell U-Processor GT2", { {"PADTRA_PAD",0}, {"PADTRA_TILE",16}, {"PADTRA_WPT",4} } }, { "Intel(R) HD Graphics Haswell Ultrabook GT2 Mobile", { {"PADTRA_PAD",1}, {"PADTRA_TILE",16}, {"PADTRA_WPT",2} } }, { "Intel(R) HD Graphics Skylake ULT GT2", { {"PADTRA_PAD",1}, {"PADTRA_TILE",16}, {"PADTRA_WPT",2} } }, { "Iris", { {"PADTRA_PAD",1}, {"PADTRA_TILE",16}, {"PADTRA_WPT",2} } }, @@ -88,12 +90,12 @@ const Database::DatabaseEntry Database::PadtransposeSingle = { { "GeForce GTX TITAN X", { {"PADTRA_PAD",1}, {"PADTRA_TILE",32}, {"PADTRA_WPT",1} } }, { "Tesla K20m", { {"PADTRA_PAD",1}, {"PADTRA_TILE",16}, {"PADTRA_WPT",2} } }, { "Tesla K40m", { {"PADTRA_PAD",1}, {"PADTRA_TILE",32}, {"PADTRA_WPT",2} } }, - { "default", { {"PADTRA_PAD",0}, {"PADTRA_TILE",16}, {"PADTRA_WPT",1} } }, + { "default", { {"PADTRA_PAD",1}, {"PADTRA_TILE",32}, {"PADTRA_WPT",2} } }, } }, { // Default kDeviceTypeAll, "default", { - { "default", { {"PADTRA_PAD",0}, {"PADTRA_TILE",8}, {"PADTRA_WPT",1} } }, + { "default", { {"PADTRA_PAD",1}, {"PADTRA_TILE",16}, {"PADTRA_WPT",2} } }, } }, } @@ -110,7 +112,7 @@ const Database::DatabaseEntry Database::PadtransposeComplexSingle = { { "Oland", { {"PADTRA_PAD",0}, {"PADTRA_TILE",8}, {"PADTRA_WPT",4} } }, { "Pitcairn", { {"PADTRA_PAD",0}, {"PADTRA_TILE",8}, {"PADTRA_WPT",4} } }, { "Tahiti", { {"PADTRA_PAD",0}, {"PADTRA_TILE",16}, {"PADTRA_WPT",2} } }, - { "default", { {"PADTRA_PAD",0}, {"PADTRA_TILE",8}, {"PADTRA_WPT",2} } }, + { "default", { {"PADTRA_PAD",0}, {"PADTRA_TILE",8}, {"PADTRA_WPT",4} } }, } }, { // ARM GPUs @@ -130,11 +132,12 @@ const Database::DatabaseEntry Database::PadtransposeComplexSingle = { { // Intel GPUs kDeviceTypeGPU, "Intel", { { "Intel(R) HD Graphics 530", { {"PADTRA_PAD",1}, {"PADTRA_TILE",16}, {"PADTRA_WPT",2} } }, + { "Intel(R) HD Graphics 5500 BroadWell U-Processor GT2", { {"PADTRA_PAD",0}, {"PADTRA_TILE",16}, {"PADTRA_WPT",2} } }, { "Intel(R) HD Graphics Haswell Ultrabook GT2 Mobile", { {"PADTRA_PAD",1}, {"PADTRA_TILE",16}, {"PADTRA_WPT",2} } }, { "Intel(R) HD Graphics Skylake ULT GT2", { {"PADTRA_PAD",0}, {"PADTRA_TILE",16}, {"PADTRA_WPT",4} } }, { "Iris", { {"PADTRA_PAD",0}, {"PADTRA_TILE",16}, {"PADTRA_WPT",2} } }, { "Iris Pro", { {"PADTRA_PAD",1}, {"PADTRA_TILE",16}, {"PADTRA_WPT",2} } }, - { "default", { {"PADTRA_PAD",0}, {"PADTRA_TILE",16}, {"PADTRA_WPT",2} } }, + { "default", { {"PADTRA_PAD",1}, {"PADTRA_TILE",16}, {"PADTRA_WPT",2} } }, } }, { // Intel accelerators @@ -157,12 +160,12 @@ const Database::DatabaseEntry Database::PadtransposeComplexSingle = { { "GeForce GTX TITAN X", { {"PADTRA_PAD",1}, {"PADTRA_TILE",32}, {"PADTRA_WPT",1} } }, { "Tesla K20m", { {"PADTRA_PAD",0}, {"PADTRA_TILE",16}, {"PADTRA_WPT",1} } }, { "Tesla K40m", { {"PADTRA_PAD",1}, {"PADTRA_TILE",16}, {"PADTRA_WPT",1} } }, - { "default", { {"PADTRA_PAD",0}, {"PADTRA_TILE",16}, {"PADTRA_WPT",1} } }, + { "default", { {"PADTRA_PAD",1}, {"PADTRA_TILE",16}, {"PADTRA_WPT",1} } }, } }, { // Default kDeviceTypeAll, "default", { - { "default", { {"PADTRA_PAD",0}, {"PADTRA_TILE",8}, {"PADTRA_WPT",1} } }, + { "default", { {"PADTRA_PAD",1}, {"PADTRA_TILE",16}, {"PADTRA_WPT",2} } }, } }, } @@ -179,7 +182,7 @@ const Database::DatabaseEntry Database::PadtransposeDouble = { { "Oland", { {"PADTRA_PAD",0}, {"PADTRA_TILE",16}, {"PADTRA_WPT",4} } }, { "Pitcairn", { {"PADTRA_PAD",0}, {"PADTRA_TILE",8}, {"PADTRA_WPT",4} } }, { "Tahiti", { {"PADTRA_PAD",1}, {"PADTRA_TILE",16}, {"PADTRA_WPT",2} } }, - { "default", { {"PADTRA_PAD",0}, {"PADTRA_TILE",8}, {"PADTRA_WPT",2} } }, + { "default", { {"PADTRA_PAD",0}, {"PADTRA_TILE",16}, {"PADTRA_WPT",4} } }, } }, { // ARM GPUs @@ -193,7 +196,7 @@ const Database::DatabaseEntry Database::PadtransposeDouble = { { "Intel(R) Core(TM) i5-6200U CPU @ 2.30GHz", { {"PADTRA_PAD",1}, {"PADTRA_TILE",8}, {"PADTRA_WPT",4} } }, { "Intel(R) Core(TM) i7-3770 CPU @ 3.40GHz", { {"PADTRA_PAD",0}, {"PADTRA_TILE",8}, {"PADTRA_WPT",8} } }, { "Intel(R) Core(TM) i7-5930K CPU @ 3.50GHz", { {"PADTRA_PAD",1}, {"PADTRA_TILE",32}, {"PADTRA_WPT",1} } }, - { "default", { {"PADTRA_PAD",0}, {"PADTRA_TILE",8}, {"PADTRA_WPT",1} } }, + { "default", { {"PADTRA_PAD",1}, {"PADTRA_TILE",8}, {"PADTRA_WPT",4} } }, } }, { // Intel accelerators @@ -216,12 +219,12 @@ const Database::DatabaseEntry Database::PadtransposeDouble = { { "GeForce GTX TITAN X", { {"PADTRA_PAD",1}, {"PADTRA_TILE",32}, {"PADTRA_WPT",1} } }, { "Tesla K20m", { {"PADTRA_PAD",0}, {"PADTRA_TILE",16}, {"PADTRA_WPT",1} } }, { "Tesla K40m", { {"PADTRA_PAD",1}, {"PADTRA_TILE",16}, {"PADTRA_WPT",1} } }, - { "default", { {"PADTRA_PAD",0}, {"PADTRA_TILE",16}, {"PADTRA_WPT",1} } }, + { "default", { {"PADTRA_PAD",1}, {"PADTRA_TILE",16}, {"PADTRA_WPT",1} } }, } }, { // Default kDeviceTypeAll, "default", { - { "default", { {"PADTRA_PAD",0}, {"PADTRA_TILE",8}, {"PADTRA_WPT",1} } }, + { "default", { {"PADTRA_PAD",1}, {"PADTRA_TILE",16}, {"PADTRA_WPT",2} } }, } }, } @@ -238,7 +241,7 @@ const Database::DatabaseEntry Database::PadtransposeComplexDouble = { { "Oland", { {"PADTRA_PAD",0}, {"PADTRA_TILE",8}, {"PADTRA_WPT",4} } }, { "Pitcairn", { {"PADTRA_PAD",0}, {"PADTRA_TILE",8}, {"PADTRA_WPT",4} } }, { "Tahiti", { {"PADTRA_PAD",0}, {"PADTRA_TILE",8}, {"PADTRA_WPT",2} } }, - { "default", { {"PADTRA_PAD",0}, {"PADTRA_TILE",8}, {"PADTRA_WPT",2} } }, + { "default", { {"PADTRA_PAD",0}, {"PADTRA_TILE",8}, {"PADTRA_WPT",4} } }, } }, { // ARM GPUs @@ -252,7 +255,7 @@ const Database::DatabaseEntry Database::PadtransposeComplexDouble = { { "Intel(R) Core(TM) i5-6200U CPU @ 2.30GHz", { {"PADTRA_PAD",1}, {"PADTRA_TILE",8}, {"PADTRA_WPT",2} } }, { "Intel(R) Core(TM) i7-3770 CPU @ 3.40GHz", { {"PADTRA_PAD",1}, {"PADTRA_TILE",8}, {"PADTRA_WPT",4} } }, { "Intel(R) Core(TM) i7-5930K CPU @ 3.50GHz", { {"PADTRA_PAD",1}, {"PADTRA_TILE",8}, {"PADTRA_WPT",4} } }, - { "default", { {"PADTRA_PAD",1}, {"PADTRA_TILE",8}, {"PADTRA_WPT",2} } }, + { "default", { {"PADTRA_PAD",1}, {"PADTRA_TILE",8}, {"PADTRA_WPT",4} } }, } }, { // Intel accelerators @@ -275,12 +278,12 @@ const Database::DatabaseEntry Database::PadtransposeComplexDouble = { { "GeForce GTX TITAN X", { {"PADTRA_PAD",1}, {"PADTRA_TILE",32}, {"PADTRA_WPT",1} } }, { "Tesla K20m", { {"PADTRA_PAD",1}, {"PADTRA_TILE",16}, {"PADTRA_WPT",1} } }, { "Tesla K40m", { {"PADTRA_PAD",1}, {"PADTRA_TILE",16}, {"PADTRA_WPT",1} } }, - { "default", { {"PADTRA_PAD",0}, {"PADTRA_TILE",16}, {"PADTRA_WPT",1} } }, + { "default", { {"PADTRA_PAD",1}, {"PADTRA_TILE",16}, {"PADTRA_WPT",1} } }, } }, { // Default kDeviceTypeAll, "default", { - { "default", { {"PADTRA_PAD",0}, {"PADTRA_TILE",8}, {"PADTRA_WPT",1} } }, + { "default", { {"PADTRA_PAD",0}, {"PADTRA_TILE",8}, {"PADTRA_WPT",2} } }, } }, } diff --git a/src/database/kernels/transpose.hpp b/src/database/kernels/transpose.hpp index 8e852c4b..0e1b608e 100644 --- a/src/database/kernels/transpose.hpp +++ b/src/database/kernels/transpose.hpp @@ -18,6 +18,7 @@ const Database::DatabaseEntry Database::TransposeHalf = { "Transpose", Precision::kHalf, { { // Intel GPUs kDeviceTypeGPU, "Intel", { + { "Intel(R) HD Graphics 5500 BroadWell U-Processor GT2", { {"TRA_DIM",8}, {"TRA_PAD",1}, {"TRA_SHUFFLE",1}, {"TRA_WPT",8} } }, { "Intel(R) HD Graphics Skylake ULT GT2", { {"TRA_DIM",16}, {"TRA_PAD",0}, {"TRA_SHUFFLE",0}, {"TRA_WPT",4} } }, { "default", { {"TRA_DIM",16}, {"TRA_PAD",0}, {"TRA_SHUFFLE",0}, {"TRA_WPT",4} } }, } @@ -41,7 +42,7 @@ const Database::DatabaseEntry Database::TransposeSingle = { { "Oland", { {"TRA_DIM",8}, {"TRA_PAD",0}, {"TRA_SHUFFLE",1}, {"TRA_WPT",4} } }, { "Pitcairn", { {"TRA_DIM",16}, {"TRA_PAD",0}, {"TRA_SHUFFLE",1}, {"TRA_WPT",1} } }, { "Tahiti", { {"TRA_DIM",4}, {"TRA_PAD",0}, {"TRA_SHUFFLE",1}, {"TRA_WPT",4} } }, - { "default", { {"TRA_DIM",4}, {"TRA_PAD",0}, {"TRA_SHUFFLE",1}, {"TRA_WPT",1} } }, + { "default", { {"TRA_DIM",4}, {"TRA_PAD",1}, {"TRA_SHUFFLE",1}, {"TRA_WPT",4} } }, } }, { // ARM GPUs @@ -61,11 +62,12 @@ const Database::DatabaseEntry Database::TransposeSingle = { { // Intel GPUs kDeviceTypeGPU, "Intel", { { "Intel(R) HD Graphics 530", { {"TRA_DIM",16}, {"TRA_PAD",0}, {"TRA_SHUFFLE",1}, {"TRA_WPT",4} } }, - { "Intel(R) HD Graphics Haswell Ultrabook GT2 Mobile", { {"TRA_DIM",8}, {"TRA_PAD",0}, {"TRA_SHUFFLE",0}, {"TRA_WPT",4} } }, + { "Intel(R) HD Graphics 5500 BroadWell U-Processor GT2", { {"TRA_DIM",16}, {"TRA_PAD",0}, {"TRA_SHUFFLE",0}, {"TRA_WPT",4} } }, + { "Intel(R) HD Graphics Haswell Ultrabook GT2 Mobile", { {"TRA_DIM",16}, {"TRA_PAD",0}, {"TRA_SHUFFLE",0}, {"TRA_WPT",4} } }, { "Intel(R) HD Graphics Skylake ULT GT2", { {"TRA_DIM",8}, {"TRA_PAD",0}, {"TRA_SHUFFLE",1}, {"TRA_WPT",4} } }, { "Iris", { {"TRA_DIM",8}, {"TRA_PAD",1}, {"TRA_SHUFFLE",0}, {"TRA_WPT",4} } }, { "Iris Pro", { {"TRA_DIM",16}, {"TRA_PAD",1}, {"TRA_SHUFFLE",0}, {"TRA_WPT",4} } }, - { "default", { {"TRA_DIM",8}, {"TRA_PAD",0}, {"TRA_SHUFFLE",0}, {"TRA_WPT",4} } }, + { "default", { {"TRA_DIM",16}, {"TRA_PAD",1}, {"TRA_SHUFFLE",0}, {"TRA_WPT",4} } }, } }, { // Intel accelerators @@ -88,12 +90,12 @@ const Database::DatabaseEntry Database::TransposeSingle = { { "GeForce GTX TITAN X", { {"TRA_DIM",16}, {"TRA_PAD",0}, {"TRA_SHUFFLE",0}, {"TRA_WPT",4} } }, { "Tesla K20m", { {"TRA_DIM",8}, {"TRA_PAD",0}, {"TRA_SHUFFLE",0}, {"TRA_WPT",4} } }, { "Tesla K40m", { {"TRA_DIM",8}, {"TRA_PAD",1}, {"TRA_SHUFFLE",0}, {"TRA_WPT",4} } }, - { "default", { {"TRA_DIM",4}, {"TRA_PAD",0}, {"TRA_SHUFFLE",0}, {"TRA_WPT",1} } }, + { "default", { {"TRA_DIM",8}, {"TRA_PAD",1}, {"TRA_SHUFFLE",0}, {"TRA_WPT",4} } }, } }, { // Default kDeviceTypeAll, "default", { - { "default", { {"TRA_DIM",4}, {"TRA_PAD",0}, {"TRA_SHUFFLE",0}, {"TRA_WPT",1} } }, + { "default", { {"TRA_DIM",8}, {"TRA_PAD",0}, {"TRA_SHUFFLE",1}, {"TRA_WPT",4} } }, } }, } @@ -110,7 +112,7 @@ const Database::DatabaseEntry Database::TransposeComplexSingle = { { "Oland", { {"TRA_DIM",4}, {"TRA_PAD",0}, {"TRA_SHUFFLE",1}, {"TRA_WPT",2} } }, { "Pitcairn", { {"TRA_DIM",8}, {"TRA_PAD",0}, {"TRA_SHUFFLE",1}, {"TRA_WPT",1} } }, { "Tahiti", { {"TRA_DIM",16}, {"TRA_PAD",0}, {"TRA_SHUFFLE",1}, {"TRA_WPT",1} } }, - { "default", { {"TRA_DIM",4}, {"TRA_PAD",0}, {"TRA_SHUFFLE",1}, {"TRA_WPT",1} } }, + { "default", { {"TRA_DIM",4}, {"TRA_PAD",0}, {"TRA_SHUFFLE",1}, {"TRA_WPT",2} } }, } }, { // ARM GPUs @@ -124,17 +126,18 @@ const Database::DatabaseEntry Database::TransposeComplexSingle = { { "Intel(R) Core(TM) i5-6200U CPU @ 2.30GHz", { {"TRA_DIM",8}, {"TRA_PAD",0}, {"TRA_SHUFFLE",0}, {"TRA_WPT",2} } }, { "Intel(R) Core(TM) i7-3770 CPU @ 3.40GHz", { {"TRA_DIM",4}, {"TRA_PAD",1}, {"TRA_SHUFFLE",0}, {"TRA_WPT",8} } }, { "Intel(R) Core(TM) i7-5930K CPU @ 3.50GHz", { {"TRA_DIM",16}, {"TRA_PAD",0}, {"TRA_SHUFFLE",0}, {"TRA_WPT",4} } }, - { "default", { {"TRA_DIM",4}, {"TRA_PAD",0}, {"TRA_SHUFFLE",0}, {"TRA_WPT",2} } }, + { "default", { {"TRA_DIM",4}, {"TRA_PAD",1}, {"TRA_SHUFFLE",0}, {"TRA_WPT",8} } }, } }, { // Intel GPUs kDeviceTypeGPU, "Intel", { { "Intel(R) HD Graphics 530", { {"TRA_DIM",16}, {"TRA_PAD",1}, {"TRA_SHUFFLE",1}, {"TRA_WPT",2} } }, + { "Intel(R) HD Graphics 5500 BroadWell U-Processor GT2", { {"TRA_DIM",8}, {"TRA_PAD",0}, {"TRA_SHUFFLE",0}, {"TRA_WPT",2} } }, { "Intel(R) HD Graphics Haswell Ultrabook GT2 Mobile", { {"TRA_DIM",8}, {"TRA_PAD",0}, {"TRA_SHUFFLE",0}, {"TRA_WPT",2} } }, { "Intel(R) HD Graphics Skylake ULT GT2", { {"TRA_DIM",16}, {"TRA_PAD",1}, {"TRA_SHUFFLE",1}, {"TRA_WPT",2} } }, { "Iris", { {"TRA_DIM",8}, {"TRA_PAD",0}, {"TRA_SHUFFLE",0}, {"TRA_WPT",2} } }, { "Iris Pro", { {"TRA_DIM",16}, {"TRA_PAD",1}, {"TRA_SHUFFLE",0}, {"TRA_WPT",2} } }, - { "default", { {"TRA_DIM",8}, {"TRA_PAD",0}, {"TRA_SHUFFLE",0}, {"TRA_WPT",2} } }, + { "default", { {"TRA_DIM",16}, {"TRA_PAD",1}, {"TRA_SHUFFLE",0}, {"TRA_WPT",2} } }, } }, { // NVIDIA GPUs @@ -151,12 +154,12 @@ const Database::DatabaseEntry Database::TransposeComplexSingle = { { "GeForce GTX TITAN X", { {"TRA_DIM",32}, {"TRA_PAD",1}, {"TRA_SHUFFLE",0}, {"TRA_WPT",1} } }, { "Tesla K20m", { {"TRA_DIM",16}, {"TRA_PAD",0}, {"TRA_SHUFFLE",0}, {"TRA_WPT",1} } }, { "Tesla K40m", { {"TRA_DIM",16}, {"TRA_PAD",1}, {"TRA_SHUFFLE",0}, {"TRA_WPT",1} } }, - { "default", { {"TRA_DIM",16}, {"TRA_PAD",0}, {"TRA_SHUFFLE",0}, {"TRA_WPT",1} } }, + { "default", { {"TRA_DIM",16}, {"TRA_PAD",1}, {"TRA_SHUFFLE",0}, {"TRA_WPT",1} } }, } }, { // Default kDeviceTypeAll, "default", { - { "default", { {"TRA_DIM",4}, {"TRA_PAD",0}, {"TRA_SHUFFLE",0}, {"TRA_WPT",1} } }, + { "default", { {"TRA_DIM",16}, {"TRA_PAD",1}, {"TRA_SHUFFLE",0}, {"TRA_WPT",1} } }, } }, } @@ -173,7 +176,7 @@ const Database::DatabaseEntry Database::TransposeDouble = { { "Oland", { {"TRA_DIM",8}, {"TRA_PAD",1}, {"TRA_SHUFFLE",1}, {"TRA_WPT",2} } }, { "Pitcairn", { {"TRA_DIM",4}, {"TRA_PAD",0}, {"TRA_SHUFFLE",1}, {"TRA_WPT",2} } }, { "Tahiti", { {"TRA_DIM",4}, {"TRA_PAD",1}, {"TRA_SHUFFLE",1}, {"TRA_WPT",4} } }, - { "default", { {"TRA_DIM",4}, {"TRA_PAD",0}, {"TRA_SHUFFLE",1}, {"TRA_WPT",1} } }, + { "default", { {"TRA_DIM",4}, {"TRA_PAD",0}, {"TRA_SHUFFLE",1}, {"TRA_WPT",4} } }, } }, { // ARM GPUs @@ -187,7 +190,7 @@ const Database::DatabaseEntry Database::TransposeDouble = { { "Intel(R) Core(TM) i5-6200U CPU @ 2.30GHz", { {"TRA_DIM",4}, {"TRA_PAD",0}, {"TRA_SHUFFLE",0}, {"TRA_WPT",4} } }, { "Intel(R) Core(TM) i7-3770 CPU @ 3.40GHz", { {"TRA_DIM",4}, {"TRA_PAD",1}, {"TRA_SHUFFLE",0}, {"TRA_WPT",8} } }, { "Intel(R) Core(TM) i7-5930K CPU @ 3.50GHz", { {"TRA_DIM",4}, {"TRA_PAD",0}, {"TRA_SHUFFLE",0}, {"TRA_WPT",8} } }, - { "default", { {"TRA_DIM",4}, {"TRA_PAD",0}, {"TRA_SHUFFLE",0}, {"TRA_WPT",4} } }, + { "default", { {"TRA_DIM",4}, {"TRA_PAD",0}, {"TRA_SHUFFLE",0}, {"TRA_WPT",8} } }, } }, { // Intel accelerators @@ -210,12 +213,12 @@ const Database::DatabaseEntry Database::TransposeDouble = { { "GeForce GTX TITAN X", { {"TRA_DIM",32}, {"TRA_PAD",1}, {"TRA_SHUFFLE",0}, {"TRA_WPT",1} } }, { "Tesla K20m", { {"TRA_DIM",16}, {"TRA_PAD",1}, {"TRA_SHUFFLE",0}, {"TRA_WPT",2} } }, { "Tesla K40m", { {"TRA_DIM",16}, {"TRA_PAD",1}, {"TRA_SHUFFLE",1}, {"TRA_WPT",2} } }, - { "default", { {"TRA_DIM",8}, {"TRA_PAD",0}, {"TRA_SHUFFLE",0}, {"TRA_WPT",1} } }, + { "default", { {"TRA_DIM",16}, {"TRA_PAD",1}, {"TRA_SHUFFLE",1}, {"TRA_WPT",2} } }, } }, { // Default kDeviceTypeAll, "default", { - { "default", { {"TRA_DIM",4}, {"TRA_PAD",0}, {"TRA_SHUFFLE",0}, {"TRA_WPT",1} } }, + { "default", { {"TRA_DIM",16}, {"TRA_PAD",1}, {"TRA_SHUFFLE",1}, {"TRA_WPT",2} } }, } }, } @@ -232,7 +235,7 @@ const Database::DatabaseEntry Database::TransposeComplexDouble = { { "Oland", { {"TRA_DIM",16}, {"TRA_PAD",0}, {"TRA_SHUFFLE",1}, {"TRA_WPT",1} } }, { "Pitcairn", { {"TRA_DIM",4}, {"TRA_PAD",0}, {"TRA_SHUFFLE",1}, {"TRA_WPT",1} } }, { "Tahiti", { {"TRA_DIM",16}, {"TRA_PAD",0}, {"TRA_SHUFFLE",1}, {"TRA_WPT",1} } }, - { "default", { {"TRA_DIM",4}, {"TRA_PAD",0}, {"TRA_SHUFFLE",1}, {"TRA_WPT",1} } }, + { "default", { {"TRA_DIM",8}, {"TRA_PAD",1}, {"TRA_SHUFFLE",1}, {"TRA_WPT",1} } }, } }, { // ARM GPUs @@ -246,7 +249,7 @@ const Database::DatabaseEntry Database::TransposeComplexDouble = { { "Intel(R) Core(TM) i5-6200U CPU @ 2.30GHz", { {"TRA_DIM",4}, {"TRA_PAD",0}, {"TRA_SHUFFLE",0}, {"TRA_WPT",4} } }, { "Intel(R) Core(TM) i7-3770 CPU @ 3.40GHz", { {"TRA_DIM",4}, {"TRA_PAD",1}, {"TRA_SHUFFLE",0}, {"TRA_WPT",4} } }, { "Intel(R) Core(TM) i7-5930K CPU @ 3.50GHz", { {"TRA_DIM",16}, {"TRA_PAD",1}, {"TRA_SHUFFLE",0}, {"TRA_WPT",2} } }, - { "default", { {"TRA_DIM",4}, {"TRA_PAD",0}, {"TRA_SHUFFLE",0}, {"TRA_WPT",2} } }, + { "default", { {"TRA_DIM",4}, {"TRA_PAD",0}, {"TRA_SHUFFLE",0}, {"TRA_WPT",4} } }, } }, { // NVIDIA GPUs @@ -263,12 +266,12 @@ const Database::DatabaseEntry Database::TransposeComplexDouble = { { "GeForce GTX TITAN X", { {"TRA_DIM",32}, {"TRA_PAD",1}, {"TRA_SHUFFLE",0}, {"TRA_WPT",1} } }, { "Tesla K20m", { {"TRA_DIM",16}, {"TRA_PAD",1}, {"TRA_SHUFFLE",0}, {"TRA_WPT",1} } }, { "Tesla K40m", { {"TRA_DIM",16}, {"TRA_PAD",1}, {"TRA_SHUFFLE",0}, {"TRA_WPT",1} } }, - { "default", { {"TRA_DIM",8}, {"TRA_PAD",0}, {"TRA_SHUFFLE",0}, {"TRA_WPT",1} } }, + { "default", { {"TRA_DIM",16}, {"TRA_PAD",1}, {"TRA_SHUFFLE",0}, {"TRA_WPT",1} } }, } }, { // Default kDeviceTypeAll, "default", { - { "default", { {"TRA_DIM",4}, {"TRA_PAD",0}, {"TRA_SHUFFLE",0}, {"TRA_WPT",1} } }, + { "default", { {"TRA_DIM",16}, {"TRA_PAD",1}, {"TRA_SHUFFLE",1}, {"TRA_WPT",1} } }, } }, } diff --git a/src/database/kernels/xaxpy.hpp b/src/database/kernels/xaxpy.hpp index 905ee084..9c1bcd99 100644 --- a/src/database/kernels/xaxpy.hpp +++ b/src/database/kernels/xaxpy.hpp @@ -18,13 +18,14 @@ const Database::DatabaseEntry Database::XaxpyHalf = { "Xaxpy", Precision::kHalf, { { // Intel GPUs kDeviceTypeGPU, "Intel", { + { "Intel(R) HD Graphics 5500 BroadWell U-Processor GT2", { {"VW",1}, {"WGS",64}, {"WPT",1} } }, { "Intel(R) HD Graphics Skylake ULT GT2", { {"VW",4}, {"WGS",512}, {"WPT",8} } }, - { "default", { {"VW",4}, {"WGS",512}, {"WPT",8} } }, + { "default", { {"VW",8}, {"WGS",64}, {"WPT",1} } }, } }, { // Default kDeviceTypeAll, "default", { - { "default", { {"VW",4}, {"WGS",512}, {"WPT",8} } }, + { "default", { {"VW",8}, {"WGS",64}, {"WPT",1} } }, } }, } @@ -41,7 +42,7 @@ const Database::DatabaseEntry Database::XaxpySingle = { { "Oland", { {"VW",1}, {"WGS",128}, {"WPT",1} } }, { "Pitcairn", { {"VW",2}, {"WGS",128}, {"WPT",1} } }, { "Tahiti", { {"VW",2}, {"WGS",64}, {"WPT",1} } }, - { "default", { {"VW",1}, {"WGS",64}, {"WPT",1} } }, + { "default", { {"VW",2}, {"WGS",256}, {"WPT",1} } }, } }, { // ARM GPUs @@ -55,13 +56,14 @@ const Database::DatabaseEntry Database::XaxpySingle = { { "Intel(R) Core(TM) i5-6200U CPU @ 2.30GHz", { {"VW",1}, {"WGS",512}, {"WPT",1} } }, { "Intel(R) Core(TM) i7-3770 CPU @ 3.40GHz", { {"VW",4}, {"WGS",256}, {"WPT",1} } }, { "Intel(R) Core(TM) i7-5930K CPU @ 3.50GHz", { {"VW",1}, {"WGS",128}, {"WPT",1} } }, - { "default", { {"VW",1}, {"WGS",128}, {"WPT",1} } }, + { "default", { {"VW",2}, {"WGS",256}, {"WPT",1} } }, } }, { // Intel GPUs kDeviceTypeGPU, "Intel", { { "Intel(R) HD Graphics 530", { {"VW",1}, {"WGS",128}, {"WPT",1} } }, - { "Intel(R) HD Graphics Haswell Ultrabook GT2 Mobile", { {"VW",8}, {"WGS",256}, {"WPT",1} } }, + { "Intel(R) HD Graphics 5500 BroadWell U-Processor GT2", { {"VW",1}, {"WGS",256}, {"WPT",1} } }, + { "Intel(R) HD Graphics Haswell Ultrabook GT2 Mobile", { {"VW",1}, {"WGS",64}, {"WPT",1} } }, { "Intel(R) HD Graphics Skylake ULT GT2", { {"VW",1}, {"WGS",512}, {"WPT",2} } }, { "Iris", { {"VW",1}, {"WGS",64}, {"WPT",1} } }, { "Iris Pro", { {"VW",1}, {"WGS",128}, {"WPT",2} } }, @@ -77,10 +79,10 @@ const Database::DatabaseEntry Database::XaxpySingle = { { // NVIDIA GPUs kDeviceTypeGPU, "NVIDIA", { { "GRID K520", { {"VW",2}, {"WGS",64}, {"WPT",1} } }, - { "GeForce GTX 1070", { {"VW",2}, {"WGS",64}, {"WPT",1} } }, - { "GeForce GTX 480", { {"VW",4}, {"WGS",64}, {"WPT",1} } }, + { "GeForce GTX 1070", { {"VW",1}, {"WGS",64}, {"WPT",4} } }, + { "GeForce GTX 480", { {"VW",2}, {"WGS",128}, {"WPT",1} } }, { "GeForce GTX 670", { {"VW",2}, {"WGS",64}, {"WPT",1} } }, - { "GeForce GTX 680", { {"VW",2}, {"WGS",64}, {"WPT",1} } }, + { "GeForce GTX 680", { {"VW",1}, {"WGS",128}, {"WPT",1} } }, { "GeForce GTX 750", { {"VW",1}, {"WGS",64}, {"WPT",1} } }, { "GeForce GTX 750 Ti", { {"VW",1}, {"WGS",1024}, {"WPT",1} } }, { "GeForce GTX 980", { {"VW",1}, {"WGS",1024}, {"WPT",1} } }, @@ -88,12 +90,12 @@ const Database::DatabaseEntry Database::XaxpySingle = { { "GeForce GTX TITAN X", { {"VW",1}, {"WGS",64}, {"WPT",1} } }, { "Tesla K20m", { {"VW",4}, {"WGS",128}, {"WPT",1} } }, { "Tesla K40m", { {"VW",4}, {"WGS",128}, {"WPT",1} } }, - { "default", { {"VW",1}, {"WGS",64}, {"WPT",1} } }, + { "default", { {"VW",4}, {"WGS",64}, {"WPT",1} } }, } }, { // Default kDeviceTypeAll, "default", { - { "default", { {"VW",1}, {"WGS",64}, {"WPT",1} } }, + { "default", { {"VW",4}, {"WGS",64}, {"WPT",1} } }, } }, } @@ -110,7 +112,7 @@ const Database::DatabaseEntry Database::XaxpyComplexSingle = { { "Oland", { {"VW",1}, {"WGS",128}, {"WPT",1} } }, { "Pitcairn", { {"VW",1}, {"WGS",64}, {"WPT",1} } }, { "Tahiti", { {"VW",1}, {"WGS",64}, {"WPT",1} } }, - { "default", { {"VW",1}, {"WGS",64}, {"WPT",1} } }, + { "default", { {"VW",1}, {"WGS",128}, {"WPT",1} } }, } }, { // ARM GPUs @@ -124,17 +126,18 @@ const Database::DatabaseEntry Database::XaxpyComplexSingle = { { "Intel(R) Core(TM) i5-6200U CPU @ 2.30GHz", { {"VW",4}, {"WGS",256}, {"WPT",1} } }, { "Intel(R) Core(TM) i7-3770 CPU @ 3.40GHz", { {"VW",1}, {"WGS",1024}, {"WPT",2} } }, { "Intel(R) Core(TM) i7-5930K CPU @ 3.50GHz", { {"VW",2}, {"WGS",1024}, {"WPT",1} } }, - { "default", { {"VW",1}, {"WGS",256}, {"WPT",1} } }, + { "default", { {"VW",8}, {"WGS",1024}, {"WPT",1} } }, } }, { // Intel GPUs kDeviceTypeGPU, "Intel", { { "Intel(R) HD Graphics 530", { {"VW",4}, {"WGS",64}, {"WPT",2} } }, + { "Intel(R) HD Graphics 5500 BroadWell U-Processor GT2", { {"VW",1}, {"WGS",64}, {"WPT",1} } }, { "Intel(R) HD Graphics Haswell Ultrabook GT2 Mobile", { {"VW",1}, {"WGS",64}, {"WPT",1} } }, { "Intel(R) HD Graphics Skylake ULT GT2", { {"VW",2}, {"WGS",512}, {"WPT",1} } }, { "Iris", { {"VW",2}, {"WGS",128}, {"WPT",1} } }, { "Iris Pro", { {"VW",1}, {"WGS",256}, {"WPT",8} } }, - { "default", { {"VW",1}, {"WGS",64}, {"WPT",1} } }, + { "default", { {"VW",1}, {"WGS",256}, {"WPT",2} } }, } }, { // Intel accelerators @@ -157,12 +160,12 @@ const Database::DatabaseEntry Database::XaxpyComplexSingle = { { "GeForce GTX TITAN X", { {"VW",1}, {"WGS",512}, {"WPT",1} } }, { "Tesla K20m", { {"VW",1}, {"WGS",128}, {"WPT",1} } }, { "Tesla K40m", { {"VW",1}, {"WGS",128}, {"WPT",1} } }, - { "default", { {"VW",1}, {"WGS",64}, {"WPT",1} } }, + { "default", { {"VW",1}, {"WGS",256}, {"WPT",1} } }, } }, { // Default kDeviceTypeAll, "default", { - { "default", { {"VW",1}, {"WGS",64}, {"WPT",1} } }, + { "default", { {"VW",1}, {"WGS",128}, {"WPT",1} } }, } }, } @@ -193,7 +196,7 @@ const Database::DatabaseEntry Database::XaxpyDouble = { { "Intel(R) Core(TM) i5-6200U CPU @ 2.30GHz", { {"VW",1}, {"WGS",1024}, {"WPT",1} } }, { "Intel(R) Core(TM) i7-3770 CPU @ 3.40GHz", { {"VW",8}, {"WGS",64}, {"WPT",1} } }, { "Intel(R) Core(TM) i7-5930K CPU @ 3.50GHz", { {"VW",8}, {"WGS",2048}, {"WPT",1} } }, - { "default", { {"VW",1}, {"WGS",64}, {"WPT",1} } }, + { "default", { {"VW",8}, {"WGS",512}, {"WPT",1} } }, } }, { // Intel accelerators @@ -206,7 +209,7 @@ const Database::DatabaseEntry Database::XaxpyDouble = { kDeviceTypeGPU, "NVIDIA", { { "GRID K520", { {"VW",1}, {"WGS",64}, {"WPT",1} } }, { "GeForce GTX 1070", { {"VW",1}, {"WGS",64}, {"WPT",8} } }, - { "GeForce GTX 480", { {"VW",2}, {"WGS",64}, {"WPT",1} } }, + { "GeForce GTX 480", { {"VW",1}, {"WGS",128}, {"WPT",1} } }, { "GeForce GTX 670", { {"VW",1}, {"WGS",64}, {"WPT",1} } }, { "GeForce GTX 680", { {"VW",1}, {"WGS",64}, {"WPT",1} } }, { "GeForce GTX 750", { {"VW",1}, {"WGS",128}, {"WPT",1} } }, @@ -216,7 +219,7 @@ const Database::DatabaseEntry Database::XaxpyDouble = { { "GeForce GTX TITAN X", { {"VW",1}, {"WGS",512}, {"WPT",1} } }, { "Tesla K20m", { {"VW",2}, {"WGS",128}, {"WPT",1} } }, { "Tesla K40m", { {"VW",2}, {"WGS",128}, {"WPT",1} } }, - { "default", { {"VW",1}, {"WGS",64}, {"WPT",1} } }, + { "default", { {"VW",1}, {"WGS",128}, {"WPT",1} } }, } }, { // Default @@ -238,7 +241,7 @@ const Database::DatabaseEntry Database::XaxpyComplexDouble = { { "Oland", { {"VW",1}, {"WGS",256}, {"WPT",1} } }, { "Pitcairn", { {"VW",1}, {"WGS",128}, {"WPT",1} } }, { "Tahiti", { {"VW",1}, {"WGS",128}, {"WPT",1} } }, - { "default", { {"VW",1}, {"WGS",64}, {"WPT",1} } }, + { "default", { {"VW",1}, {"WGS",128}, {"WPT",1} } }, } }, { // ARM GPUs @@ -252,7 +255,7 @@ const Database::DatabaseEntry Database::XaxpyComplexDouble = { { "Intel(R) Core(TM) i5-6200U CPU @ 2.30GHz", { {"VW",8}, {"WGS",128}, {"WPT",1} } }, { "Intel(R) Core(TM) i7-3770 CPU @ 3.40GHz", { {"VW",8}, {"WGS",512}, {"WPT",1} } }, { "Intel(R) Core(TM) i7-5930K CPU @ 3.50GHz", { {"VW",1}, {"WGS",256}, {"WPT",1} } }, - { "default", { {"VW",1}, {"WGS",128}, {"WPT",1} } }, + { "default", { {"VW",4}, {"WGS",1024}, {"WPT",1} } }, } }, { // Intel accelerators @@ -280,7 +283,7 @@ const Database::DatabaseEntry Database::XaxpyComplexDouble = { }, { // Default kDeviceTypeAll, "default", { - { "default", { {"VW",1}, {"WGS",64}, {"WPT",1} } }, + { "default", { {"VW",1}, {"WGS",128}, {"WPT",1} } }, } }, } diff --git a/src/database/kernels/xdot.hpp b/src/database/kernels/xdot.hpp index e36dd8ca..987a990d 100644 --- a/src/database/kernels/xdot.hpp +++ b/src/database/kernels/xdot.hpp @@ -18,6 +18,7 @@ const Database::DatabaseEntry Database::XdotHalf = { "Xdot", Precision::kHalf, { { // Intel GPUs kDeviceTypeGPU, "Intel", { + { "Intel(R) HD Graphics 5500 BroadWell U-Processor GT2", { {"WGS1",256}, {"WGS2",32} } }, { "Intel(R) HD Graphics Skylake ULT GT2", { {"WGS1",32}, {"WGS2",32} } }, { "default", { {"WGS1",32}, {"WGS2",32} } }, } @@ -37,7 +38,6 @@ const Database::DatabaseEntry Database::XdotSingle = { { // AMD GPUs kDeviceTypeGPU, "AMD", { { "AMD Radeon R9 M370X Compute Engine", { {"WGS1",128}, {"WGS2",32} } }, - { "Hawaii", { {"WGS1",256}, {"WGS2",32} } }, { "Oland", { {"WGS1",256}, {"WGS2",32} } }, { "Pitcairn", { {"WGS1",128}, {"WGS2",32} } }, { "Tahiti", { {"WGS1",128}, {"WGS2",32} } }, @@ -53,10 +53,11 @@ const Database::DatabaseEntry Database::XdotSingle = { { // Intel GPUs kDeviceTypeGPU, "Intel", { { "Intel(R) HD Graphics 530", { {"WGS1",64}, {"WGS2",32} } }, - { "Intel(R) HD Graphics Haswell Ultrabook GT2 Mobile", { {"WGS1",32}, {"WGS2",32} } }, + { "Intel(R) HD Graphics 5500 BroadWell U-Processor GT2", { {"WGS1",256}, {"WGS2",32} } }, + { "Intel(R) HD Graphics Haswell Ultrabook GT2 Mobile", { {"WGS1",64}, {"WGS2",32} } }, { "Intel(R) HD Graphics Skylake ULT GT2", { {"WGS1",64}, {"WGS2",32} } }, { "Iris Pro", { {"WGS1",512}, {"WGS2",64} } }, - { "default", { {"WGS1",32}, {"WGS2",32} } }, + { "default", { {"WGS1",64}, {"WGS2",32} } }, } }, { // NVIDIA GPUs @@ -70,12 +71,12 @@ const Database::DatabaseEntry Database::XdotSingle = { { "GeForce GTX 980", { {"WGS1",256}, {"WGS2",32} } }, { "GeForce GTX TITAN X", { {"WGS1",256}, {"WGS2",32} } }, { "Tesla K20m", { {"WGS1",1024}, {"WGS2",32} } }, - { "default", { {"WGS1",128}, {"WGS2",32} } }, + { "default", { {"WGS1",256}, {"WGS2",256} } }, } }, { // Default kDeviceTypeAll, "default", { - { "default", { {"WGS1",32}, {"WGS2",32} } }, + { "default", { {"WGS1",256}, {"WGS2",32} } }, } }, } @@ -88,11 +89,10 @@ const Database::DatabaseEntry Database::XdotComplexSingle = { { // AMD GPUs kDeviceTypeGPU, "AMD", { { "AMD Radeon R9 M370X Compute Engine", { {"WGS1",64}, {"WGS2",32} } }, - { "Hawaii", { {"WGS1",256}, {"WGS2",32} } }, { "Oland", { {"WGS1",128}, {"WGS2",32} } }, { "Pitcairn", { {"WGS1",256}, {"WGS2",32} } }, { "Tahiti", { {"WGS1",64}, {"WGS2",32} } }, - { "default", { {"WGS1",64}, {"WGS2",32} } }, + { "default", { {"WGS1",128}, {"WGS2",32} } }, } }, { // Intel CPUs @@ -104,6 +104,7 @@ const Database::DatabaseEntry Database::XdotComplexSingle = { { // Intel GPUs kDeviceTypeGPU, "Intel", { { "Intel(R) HD Graphics 530", { {"WGS1",256}, {"WGS2",32} } }, + { "Intel(R) HD Graphics 5500 BroadWell U-Processor GT2", { {"WGS1",256}, {"WGS2",32} } }, { "Intel(R) HD Graphics Haswell Ultrabook GT2 Mobile", { {"WGS1",32}, {"WGS2",32} } }, { "Intel(R) HD Graphics Skylake ULT GT2", { {"WGS1",32}, {"WGS2",32} } }, { "Iris Pro", { {"WGS1",32}, {"WGS2",32} } }, @@ -121,12 +122,12 @@ const Database::DatabaseEntry Database::XdotComplexSingle = { { "GeForce GTX 980", { {"WGS1",256}, {"WGS2",64} } }, { "GeForce GTX TITAN X", { {"WGS1",256}, {"WGS2",32} } }, { "Tesla K20m", { {"WGS1",512}, {"WGS2",32} } }, - { "default", { {"WGS1",64}, {"WGS2",32} } }, + { "default", { {"WGS1",512}, {"WGS2",64} } }, } }, { // Default kDeviceTypeAll, "default", { - { "default", { {"WGS1",32}, {"WGS2",32} } }, + { "default", { {"WGS1",256}, {"WGS2",32} } }, } }, } @@ -139,11 +140,10 @@ const Database::DatabaseEntry Database::XdotDouble = { { // AMD GPUs kDeviceTypeGPU, "AMD", { { "AMD Radeon R9 M370X Compute Engine", { {"WGS1",64}, {"WGS2",128} } }, - { "Hawaii", { {"WGS1",256}, {"WGS2",32} } }, { "Oland", { {"WGS1",256}, {"WGS2",32} } }, { "Pitcairn", { {"WGS1",128}, {"WGS2",32} } }, { "Tahiti", { {"WGS1",256}, {"WGS2",32} } }, - { "default", { {"WGS1",64}, {"WGS2",32} } }, + { "default", { {"WGS1",128}, {"WGS2",32} } }, } }, { // Intel CPUs @@ -163,12 +163,12 @@ const Database::DatabaseEntry Database::XdotDouble = { { "GeForce GTX 980", { {"WGS1",128}, {"WGS2",32} } }, { "GeForce GTX TITAN X", { {"WGS1",256}, {"WGS2",32} } }, { "Tesla K20m", { {"WGS1",512}, {"WGS2",32} } }, - { "default", { {"WGS1",64}, {"WGS2",32} } }, + { "default", { {"WGS1",256}, {"WGS2",64} } }, } }, { // Default kDeviceTypeAll, "default", { - { "default", { {"WGS1",64}, {"WGS2",32} } }, + { "default", { {"WGS1",128}, {"WGS2",64} } }, } }, } @@ -181,11 +181,10 @@ const Database::DatabaseEntry Database::XdotComplexDouble = { { // AMD GPUs kDeviceTypeGPU, "AMD", { { "AMD Radeon R9 M370X Compute Engine", { {"WGS1",64}, {"WGS2",32} } }, - { "Hawaii", { {"WGS1",256}, {"WGS2",32} } }, { "Oland", { {"WGS1",256}, {"WGS2",32} } }, { "Pitcairn", { {"WGS1",256}, {"WGS2",32} } }, { "Tahiti", { {"WGS1",256}, {"WGS2",32} } }, - { "default", { {"WGS1",64}, {"WGS2",32} } }, + { "default", { {"WGS1",256}, {"WGS2",32} } }, } }, { // Intel CPUs @@ -205,12 +204,12 @@ const Database::DatabaseEntry Database::XdotComplexDouble = { { "GeForce GTX 980", { {"WGS1",64}, {"WGS2",32} } }, { "GeForce GTX TITAN X", { {"WGS1",128}, {"WGS2",32} } }, { "Tesla K20m", { {"WGS1",128}, {"WGS2",32} } }, - { "default", { {"WGS1",64}, {"WGS2",32} } }, + { "default", { {"WGS1",128}, {"WGS2",64} } }, } }, { // Default kDeviceTypeAll, "default", { - { "default", { {"WGS1",64}, {"WGS2",32} } }, + { "default", { {"WGS1",256}, {"WGS2",64} } }, } }, } diff --git a/src/database/kernels/xgemm.hpp b/src/database/kernels/xgemm.hpp index 61b7ff05..d19c55b5 100644 --- a/src/database/kernels/xgemm.hpp +++ b/src/database/kernels/xgemm.hpp @@ -14,6 +14,18 @@ namespace clblast { // ================================================================================================= +const Database::DatabaseEntry Database::XgemmHalf = { + "Xgemm", Precision::kHalf, { + { // Default + kDeviceTypeAll, "default", { + { "default", { {"KWG",16}, {"KWI",2}, {"MDIMA",8}, {"MDIMC",8}, {"MWG",32}, {"NDIMB",8}, {"NDIMC",8}, {"NWG",16}, {"SA",0}, {"SB",0}, {"STRM",0}, {"STRN",0}, {"VWM",1}, {"VWN",1} } }, + } + }, + } +}; + +// ================================================================================================= + const Database::DatabaseEntry Database::XgemmSingle = { "Xgemm", Precision::kSingle, { { // AMD GPUs @@ -43,6 +55,7 @@ const Database::DatabaseEntry Database::XgemmSingle = { { // Intel GPUs kDeviceTypeGPU, "Intel", { { "Intel(R) HD Graphics 530", { {"KWG",32}, {"KWI",2}, {"MDIMA",8}, {"MDIMC",8}, {"MWG",128}, {"NDIMB",32}, {"NDIMC",16}, {"NWG",64}, {"SA",0}, {"SB",0}, {"STRM",1}, {"STRN",0}, {"VWM",4}, {"VWN",2} } }, + { "Intel(R) HD Graphics 5500 BroadWell U-Processor GT2", { {"KWG",32}, {"KWI",8}, {"MDIMA",8}, {"MDIMC",8}, {"MWG",64}, {"NDIMB",32}, {"NDIMC",16}, {"NWG",64}, {"SA",1}, {"SB",1}, {"STRM",1}, {"STRN",1}, {"VWM",4}, {"VWN",2} } }, { "Intel(R) HD Graphics Haswell Ultrabook GT2 Mobile", { {"KWG",16}, {"KWI",2}, {"MDIMA",16}, {"MDIMC",8}, {"MWG",32}, {"NDIMB",8}, {"NDIMC",16}, {"NWG",128}, {"SA",1}, {"SB",1}, {"STRM",1}, {"STRN",1}, {"VWM",2}, {"VWN",4} } }, { "Intel(R) HD Graphics Skylake ULT GT2", { {"KWG",32}, {"KWI",8}, {"MDIMA",16}, {"MDIMC",16}, {"MWG",64}, {"NDIMB",16}, {"NDIMC",16}, {"NWG",128}, {"SA",0}, {"SB",0}, {"STRM",0}, {"STRN",1}, {"VWM",1}, {"VWN",8} } }, { "Iris", { {"KWG",16}, {"KWI",8}, {"MDIMA",16}, {"MDIMC",8}, {"MWG",128}, {"NDIMB",32}, {"NDIMC",16}, {"NWG",64}, {"SA",1}, {"SB",1}, {"STRM",1}, {"STRN",1}, {"VWM",4}, {"VWN",1} } }, @@ -75,7 +88,7 @@ const Database::DatabaseEntry Database::XgemmSingle = { }, { // Default kDeviceTypeAll, "default", { - { "default", { {"KWG",16}, {"KWI",2}, {"MDIMA",8}, {"MDIMC",8}, {"MWG",32}, {"NDIMB",8}, {"NDIMC",8}, {"NWG",64}, {"SA",0}, {"SB",0}, {"STRM",0}, {"STRN",0}, {"VWM",1}, {"VWN",1} } }, + { "default", { {"KWG",16}, {"KWI",2}, {"MDIMA",8}, {"MDIMC",8}, {"MWG",32}, {"NDIMB",8}, {"NDIMC",8}, {"NWG",16}, {"SA",0}, {"SB",0}, {"STRM",0}, {"STRN",0}, {"VWM",1}, {"VWN",1} } }, } }, } @@ -112,6 +125,7 @@ const Database::DatabaseEntry Database::XgemmComplexSingle = { { // Intel GPUs kDeviceTypeGPU, "Intel", { { "Intel(R) HD Graphics 530", { {"KWG",16}, {"KWI",8}, {"MDIMA",8}, {"MDIMC",16}, {"MWG",64}, {"NDIMB",32}, {"NDIMC",8}, {"NWG",32}, {"SA",0}, {"SB",0}, {"STRM",0}, {"STRN",0}, {"VWM",2}, {"VWN",1} } }, + { "Intel(R) HD Graphics 5500 BroadWell U-Processor GT2", { {"KWG",16}, {"KWI",8}, {"MDIMA",8}, {"MDIMC",8}, {"MWG",32}, {"NDIMB",16}, {"NDIMC",16}, {"NWG",64}, {"SA",1}, {"SB",0}, {"STRM",0}, {"STRN",0}, {"VWM",4}, {"VWN",4} } }, { "Intel(R) HD Graphics Haswell Ultrabook GT2 Mobile", { {"KWG",32}, {"KWI",8}, {"MDIMA",16}, {"MDIMC",16}, {"MWG",64}, {"NDIMB",16}, {"NDIMC",16}, {"NWG",64}, {"SA",1}, {"SB",1}, {"STRM",1}, {"STRN",1}, {"VWM",2}, {"VWN",1} } }, { "Intel(R) HD Graphics Skylake ULT GT2", { {"KWG",32}, {"KWI",8}, {"MDIMA",8}, {"MDIMC",8}, {"MWG",32}, {"NDIMB",32}, {"NDIMC",16}, {"NWG",32}, {"SA",1}, {"SB",0}, {"STRM",0}, {"STRN",1}, {"VWM",4}, {"VWN",1} } }, { "Iris", { {"KWG",32}, {"KWI",8}, {"MDIMA",32}, {"MDIMC",16}, {"MWG",64}, {"NDIMB",8}, {"NDIMC",16}, {"NWG",64}, {"SA",1}, {"SB",0}, {"STRM",1}, {"STRN",0}, {"VWM",1}, {"VWN",1} } }, @@ -156,7 +170,7 @@ const Database::DatabaseEntry Database::XgemmDouble = { "Xgemm", Precision::kDouble, { { // AMD GPUs kDeviceTypeGPU, "AMD", { - { "AMD Radeon R9 M370X Compute Engine", { {"KWG",32}, {"KWI",2}, {"MDIMA",32}, {"MDIMC",32}, {"MWG",64}, {"NDIMB",8}, {"NDIMC",8}, {"NWG",64}, {"SA",0}, {"SB",0}, {"STRM",1}, {"STRN",1}, {"VWM",2}, {"VWN",8} } }, + { "AMD Radeon R9 M370X Compute Engine", { {"KWG",32}, {"KWI",2}, {"MDIMA",16}, {"MDIMC",16}, {"MWG",64}, {"NDIMB",8}, {"NDIMC",8}, {"NWG",32}, {"SA",0}, {"SB",0}, {"STRM",0}, {"STRN",0}, {"VWM",4}, {"VWN",4} } }, { "Hawaii", { {"KWG",16}, {"KWI",8}, {"MDIMA",32}, {"MDIMC",8}, {"MWG",128}, {"NDIMB",8}, {"NDIMC",8}, {"NWG",32}, {"SA",0}, {"SB",1}, {"STRM",0}, {"STRN",0}, {"VWM",1}, {"VWN",4} } }, { "Oland", { {"KWG",16}, {"KWI",2}, {"MDIMA",8}, {"MDIMC",16}, {"MWG",64}, {"NDIMB",16}, {"NDIMC",8}, {"NWG",16}, {"SA",0}, {"SB",0}, {"STRM",1}, {"STRN",1}, {"VWM",1}, {"VWN",1} } }, { "Pitcairn", { {"KWG",32}, {"KWI",2}, {"MDIMA",32}, {"MDIMC",16}, {"MWG",64}, {"NDIMB",8}, {"NDIMC",16}, {"NWG",32}, {"SA",0}, {"SB",0}, {"STRM",0}, {"STRN",0}, {"VWM",1}, {"VWN",2} } }, diff --git a/src/database/kernels/xgemv.hpp b/src/database/kernels/xgemv.hpp index 6d680b06..e5e8845e 100644 --- a/src/database/kernels/xgemv.hpp +++ b/src/database/kernels/xgemv.hpp @@ -18,13 +18,14 @@ const Database::DatabaseEntry Database::XgemvHalf = { "Xgemv", Precision::kHalf, { { // Intel GPUs kDeviceTypeGPU, "Intel", { + { "Intel(R) HD Graphics 5500 BroadWell U-Processor GT2", { {"WGS1",64}, {"WPT1",1} } }, { "Intel(R) HD Graphics Skylake ULT GT2", { {"WGS1",128}, {"WPT1",1} } }, - { "default", { {"WGS1",128}, {"WPT1",1} } }, + { "default", { {"WGS1",64}, {"WPT1",1} } }, } }, { // Default kDeviceTypeAll, "default", { - { "default", { {"WGS1",128}, {"WPT1",1} } }, + { "default", { {"WGS1",64}, {"WPT1",1} } }, } }, } @@ -48,13 +49,14 @@ const Database::DatabaseEntry Database::XgemvSingle = { kDeviceTypeCPU, "Intel", { { "Intel(R) Core(TM) i5-6200U CPU @ 2.30GHz", { {"WGS1",64}, {"WPT1",1} } }, { "Intel(R) Core(TM) i7-3770 CPU @ 3.40GHz", { {"WGS1",64}, {"WPT1",4} } }, - { "default", { {"WGS1",64}, {"WPT1",1} } }, + { "default", { {"WGS1",64}, {"WPT1",4} } }, } }, { // Intel GPUs kDeviceTypeGPU, "Intel", { { "Intel(R) HD Graphics 530", { {"WGS1",256}, {"WPT1",1} } }, - { "Intel(R) HD Graphics Haswell Ultrabook GT2 Mobile", { {"WGS1",256}, {"WPT1",1} } }, + { "Intel(R) HD Graphics 5500 BroadWell U-Processor GT2", { {"WGS1",64}, {"WPT1",1} } }, + { "Intel(R) HD Graphics Haswell Ultrabook GT2 Mobile", { {"WGS1",64}, {"WPT1",1} } }, { "Intel(R) HD Graphics Skylake ULT GT2", { {"WGS1",64}, {"WPT1",1} } }, { "Iris", { {"WGS1",64}, {"WPT1",2} } }, { "Iris Pro", { {"WGS1",256}, {"WPT1",2} } }, @@ -81,7 +83,7 @@ const Database::DatabaseEntry Database::XgemvSingle = { { "GeForce GTX TITAN X", { {"WGS1",256}, {"WPT1",1} } }, { "Tesla K20m", { {"WGS1",128}, {"WPT1",1} } }, { "Tesla K40m", { {"WGS1",256}, {"WPT1",1} } }, - { "default", { {"WGS1",64}, {"WPT1",1} } }, + { "default", { {"WGS1",256}, {"WPT1",1} } }, } }, { // Default @@ -116,6 +118,7 @@ const Database::DatabaseEntry Database::XgemvComplexSingle = { { // Intel GPUs kDeviceTypeGPU, "Intel", { { "Intel(R) HD Graphics 530", { {"WGS1",64}, {"WPT1",1} } }, + { "Intel(R) HD Graphics 5500 BroadWell U-Processor GT2", { {"WGS1",64}, {"WPT1",1} } }, { "Intel(R) HD Graphics Haswell Ultrabook GT2 Mobile", { {"WGS1",128}, {"WPT1",1} } }, { "Intel(R) HD Graphics Skylake ULT GT2", { {"WGS1",64}, {"WPT1",1} } }, { "Iris", { {"WGS1",256}, {"WPT1",1} } }, @@ -161,14 +164,14 @@ const Database::DatabaseEntry Database::XgemvDouble = { { "Oland", { {"WGS1",256}, {"WPT1",1} } }, { "Pitcairn", { {"WGS1",256}, {"WPT1",1} } }, { "Tahiti", { {"WGS1",256}, {"WPT1",1} } }, - { "default", { {"WGS1",64}, {"WPT1",1} } }, + { "default", { {"WGS1",256}, {"WPT1",1} } }, } }, { // Intel CPUs kDeviceTypeCPU, "Intel", { { "Intel(R) Core(TM) i5-6200U CPU @ 2.30GHz", { {"WGS1",64}, {"WPT1",2} } }, { "Intel(R) Core(TM) i7-3770 CPU @ 3.40GHz", { {"WGS1",64}, {"WPT1",4} } }, - { "default", { {"WGS1",64}, {"WPT1",2} } }, + { "default", { {"WGS1",64}, {"WPT1",4} } }, } }, { // Intel accelerators @@ -191,12 +194,12 @@ const Database::DatabaseEntry Database::XgemvDouble = { { "GeForce GTX TITAN X", { {"WGS1",64}, {"WPT1",1} } }, { "Tesla K20m", { {"WGS1",256}, {"WPT1",1} } }, { "Tesla K40m", { {"WGS1",256}, {"WPT1",1} } }, - { "default", { {"WGS1",64}, {"WPT1",1} } }, + { "default", { {"WGS1",128}, {"WPT1",1} } }, } }, { // Default kDeviceTypeAll, "default", { - { "default", { {"WGS1",64}, {"WPT1",1} } }, + { "default", { {"WGS1",128}, {"WPT1",1} } }, } }, } @@ -220,7 +223,7 @@ const Database::DatabaseEntry Database::XgemvComplexDouble = { kDeviceTypeCPU, "Intel", { { "Intel(R) Core(TM) i5-6200U CPU @ 2.30GHz", { {"WGS1",64}, {"WPT1",1} } }, { "Intel(R) Core(TM) i7-3770 CPU @ 3.40GHz", { {"WGS1",64}, {"WPT1",4} } }, - { "default", { {"WGS1",64}, {"WPT1",1} } }, + { "default", { {"WGS1",64}, {"WPT1",4} } }, } }, { // Intel accelerators @@ -234,7 +237,7 @@ const Database::DatabaseEntry Database::XgemvComplexDouble = { { "GRID K520", { {"WGS1",128}, {"WPT1",1} } }, { "GeForce GTX 480", { {"WGS1",64}, {"WPT1",1} } }, { "GeForce GTX 670", { {"WGS1",128}, {"WPT1",1} } }, - { "default", { {"WGS1",64}, {"WPT1",1} } }, + { "default", { {"WGS1",128}, {"WPT1",1} } }, } }, { // Default diff --git a/src/database/kernels/xgemv_fast.hpp b/src/database/kernels/xgemv_fast.hpp index 65b15030..52af628c 100644 --- a/src/database/kernels/xgemv_fast.hpp +++ b/src/database/kernels/xgemv_fast.hpp @@ -18,13 +18,14 @@ const Database::DatabaseEntry Database::XgemvFastHalf = { "XgemvFast", Precision::kHalf, { { // Intel GPUs kDeviceTypeGPU, "Intel", { + { "Intel(R) HD Graphics 5500 BroadWell U-Processor GT2", { {"VW2",1}, {"WGS2",16}, {"WPT2",1} } }, { "Intel(R) HD Graphics Skylake ULT GT2", { {"VW2",2}, {"WGS2",128}, {"WPT2",2} } }, - { "default", { {"VW2",2}, {"WGS2",128}, {"WPT2",2} } }, + { "default", { {"VW2",1}, {"WGS2",16}, {"WPT2",1} } }, } }, { // Default kDeviceTypeAll, "default", { - { "default", { {"VW2",2}, {"WGS2",128}, {"WPT2",2} } }, + { "default", { {"VW2",1}, {"WGS2",16}, {"WPT2",1} } }, } }, } @@ -48,17 +49,18 @@ const Database::DatabaseEntry Database::XgemvFastSingle = { kDeviceTypeCPU, "Intel", { { "Intel(R) Core(TM) i5-6200U CPU @ 2.30GHz", { {"VW2",4}, {"WGS2",128}, {"WPT2",4} } }, { "Intel(R) Core(TM) i7-3770 CPU @ 3.40GHz", { {"VW2",1}, {"WGS2",64}, {"WPT2",4} } }, - { "default", { {"VW2",1}, {"WGS2",64}, {"WPT2",4} } }, + { "default", { {"VW2",4}, {"WGS2",64}, {"WPT2",4} } }, } }, { // Intel GPUs kDeviceTypeGPU, "Intel", { { "Intel(R) HD Graphics 530", { {"VW2",1}, {"WGS2",256}, {"WPT2",1} } }, + { "Intel(R) HD Graphics 5500 BroadWell U-Processor GT2", { {"VW2",2}, {"WGS2",32}, {"WPT2",2} } }, { "Intel(R) HD Graphics Haswell Ultrabook GT2 Mobile", { {"VW2",4}, {"WGS2",128}, {"WPT2",4} } }, { "Intel(R) HD Graphics Skylake ULT GT2", { {"VW2",1}, {"WGS2",256}, {"WPT2",1} } }, { "Iris", { {"VW2",1}, {"WGS2",128}, {"WPT2",2} } }, { "Iris Pro", { {"VW2",1}, {"WGS2",128}, {"WPT2",2} } }, - { "default", { {"VW2",1}, {"WGS2",128}, {"WPT2",1} } }, + { "default", { {"VW2",2}, {"WGS2",64}, {"WPT2",2} } }, } }, { // Intel accelerators @@ -81,7 +83,7 @@ const Database::DatabaseEntry Database::XgemvFastSingle = { { "GeForce GTX TITAN X", { {"VW2",1}, {"WGS2",64}, {"WPT2",1} } }, { "Tesla K20m", { {"VW2",1}, {"WGS2",256}, {"WPT2",1} } }, { "Tesla K40m", { {"VW2",1}, {"WGS2",256}, {"WPT2",1} } }, - { "default", { {"VW2",1}, {"WGS2",64}, {"WPT2",1} } }, + { "default", { {"VW2",1}, {"WGS2",256}, {"WPT2",1} } }, } }, { // Default @@ -116,6 +118,7 @@ const Database::DatabaseEntry Database::XgemvFastComplexSingle = { { // Intel GPUs kDeviceTypeGPU, "Intel", { { "Intel(R) HD Graphics 530", { {"VW2",2}, {"WGS2",128}, {"WPT2",2} } }, + { "Intel(R) HD Graphics 5500 BroadWell U-Processor GT2", { {"VW2",1}, {"WGS2",32}, {"WPT2",2} } }, { "Intel(R) HD Graphics Haswell Ultrabook GT2 Mobile", { {"VW2",2}, {"WGS2",128}, {"WPT2",2} } }, { "Intel(R) HD Graphics Skylake ULT GT2", { {"VW2",1}, {"WGS2",64}, {"WPT2",1} } }, { "Iris", { {"VW2",1}, {"WGS2",64}, {"WPT2",1} } }, @@ -189,7 +192,7 @@ const Database::DatabaseEntry Database::XgemvFastDouble = { { "GeForce GTX TITAN X", { {"VW2",1}, {"WGS2",128}, {"WPT2",1} } }, { "Tesla K20m", { {"VW2",1}, {"WGS2",128}, {"WPT2",1} } }, { "Tesla K40m", { {"VW2",1}, {"WGS2",256}, {"WPT2",1} } }, - { "default", { {"VW2",1}, {"WGS2",64}, {"WPT2",1} } }, + { "default", { {"VW2",1}, {"WGS2",256}, {"WPT2",1} } }, } }, { // Default diff --git a/src/database/kernels/xgemv_fast_rot.hpp b/src/database/kernels/xgemv_fast_rot.hpp index 9822fb20..328094e1 100644 --- a/src/database/kernels/xgemv_fast_rot.hpp +++ b/src/database/kernels/xgemv_fast_rot.hpp @@ -14,6 +14,18 @@ namespace clblast { // ================================================================================================= +const Database::DatabaseEntry Database::XgemvFastRotHalf = { + "XgemvFastRot", Precision::kHalf, { + { // Default + kDeviceTypeAll, "default", { + { "default", { {"VW3",8}, {"WGS3",32}, {"WPT3",32} } }, + } + }, + } +}; + +// ================================================================================================= + const Database::DatabaseEntry Database::XgemvFastRotSingle = { "XgemvFastRot", Precision::kSingle, { { // AMD GPUs @@ -30,9 +42,11 @@ const Database::DatabaseEntry Database::XgemvFastRotSingle = { }, { // Intel GPUs kDeviceTypeGPU, "Intel", { + { "Intel(R) HD Graphics 5500 BroadWell U-Processor GT2", { {"VW3",8}, {"WGS3",64}, {"WPT3",32} } }, + { "Intel(R) HD Graphics Haswell Ultrabook GT2 Mobile", { {"VW3",4}, {"WGS3",64}, {"WPT3",16} } }, { "Intel(R) HD Graphics Skylake ULT GT2", { {"VW3",4}, {"WGS3",128}, {"WPT3",16} } }, { "Iris Pro", { {"VW3",4}, {"WGS3",32}, {"WPT3",16} } }, - { "default", { {"VW3",4}, {"WGS3",32}, {"WPT3",16} } }, + { "default", { {"VW3",8}, {"WGS3",32}, {"WPT3",32} } }, } }, { // NVIDIA GPUs @@ -43,7 +57,7 @@ const Database::DatabaseEntry Database::XgemvFastRotSingle = { }, { // Default kDeviceTypeAll, "default", { - { "default", { {"VW3",1}, {"WGS3",16}, {"WPT3",8} } }, + { "default", { {"VW3",8}, {"WGS3",32}, {"WPT3",32} } }, } }, } @@ -67,14 +81,16 @@ const Database::DatabaseEntry Database::XgemvFastRotComplexSingle = { }, { // Intel GPUs kDeviceTypeGPU, "Intel", { + { "Intel(R) HD Graphics 5500 BroadWell U-Processor GT2", { {"VW3",2}, {"WGS3",16}, {"WPT3",16} } }, + { "Intel(R) HD Graphics Haswell Ultrabook GT2 Mobile", { {"VW3",4}, {"WGS3",128}, {"WPT3",8} } }, { "Intel(R) HD Graphics Skylake ULT GT2", { {"VW3",2}, {"WGS3",32}, {"WPT3",16} } }, { "Iris Pro", { {"VW3",4}, {"WGS3",16}, {"WPT3",16} } }, - { "default", { {"VW3",2}, {"WGS3",16}, {"WPT3",16} } }, + { "default", { {"VW3",2}, {"WGS3",32}, {"WPT3",8} } }, } }, { // Default kDeviceTypeAll, "default", { - { "default", { {"VW3",2}, {"WGS3",16}, {"WPT3",16} } }, + { "default", { {"VW3",2}, {"WGS3",32}, {"WPT3",16} } }, } }, } @@ -104,7 +120,7 @@ const Database::DatabaseEntry Database::XgemvFastRotDouble = { }, { // Default kDeviceTypeAll, "default", { - { "default", { {"VW3",1}, {"WGS3",16}, {"WPT3",8} } }, + { "default", { {"VW3",4}, {"WGS3",16}, {"WPT3",16} } }, } }, } @@ -128,7 +144,7 @@ const Database::DatabaseEntry Database::XgemvFastRotComplexDouble = { }, { // Default kDeviceTypeAll, "default", { - { "default", { {"VW3",4}, {"WGS3",16}, {"WPT3",16} } }, + { "default", { {"VW3",8}, {"WGS3",32}, {"WPT3",16} } }, } }, } diff --git a/src/database/kernels/xger.hpp b/src/database/kernels/xger.hpp index 216925fc..3e9c25c1 100644 --- a/src/database/kernels/xger.hpp +++ b/src/database/kernels/xger.hpp @@ -18,6 +18,7 @@ const Database::DatabaseEntry Database::XgerHalf = { "Xger", Precision::kHalf, { { // Intel GPUs kDeviceTypeGPU, "Intel", { + { "Intel(R) HD Graphics 5500 BroadWell U-Processor GT2", { {"WGS1",256}, {"WGS2",1}, {"WPT",2} } }, { "Intel(R) HD Graphics Skylake ULT GT2", { {"WGS1",64}, {"WGS2",1}, {"WPT",1} } }, { "default", { {"WGS1",64}, {"WGS2",1}, {"WPT",1} } }, } @@ -41,7 +42,7 @@ const Database::DatabaseEntry Database::XgerSingle = { { "Oland", { {"WGS1",32}, {"WGS2",4}, {"WPT",2} } }, { "Pitcairn", { {"WGS1",64}, {"WGS2",1}, {"WPT",1} } }, { "Tahiti", { {"WGS1",256}, {"WGS2",1}, {"WPT",1} } }, - { "default", { {"WGS1",32}, {"WGS2",1}, {"WPT",1} } }, + { "default", { {"WGS1",32}, {"WGS2",4}, {"WPT",1} } }, } }, { // ARM GPUs @@ -54,16 +55,17 @@ const Database::DatabaseEntry Database::XgerSingle = { kDeviceTypeCPU, "Intel", { { "Intel(R) Core(TM) i5-6200U CPU @ 2.30GHz", { {"WGS1",128}, {"WGS2",2}, {"WPT",4} } }, { "Intel(R) Core(TM) i7-5930K CPU @ 3.50GHz", { {"WGS1",128}, {"WGS2",1}, {"WPT",4} } }, - { "default", { {"WGS1",128}, {"WGS2",1}, {"WPT",4} } }, + { "default", { {"WGS1",128}, {"WGS2",8}, {"WPT",4} } }, } }, { // Intel GPUs kDeviceTypeGPU, "Intel", { { "Intel(R) HD Graphics 530", { {"WGS1",32}, {"WGS2",1}, {"WPT",2} } }, - { "Intel(R) HD Graphics Haswell Ultrabook GT2 Mobile", { {"WGS1",256}, {"WGS2",2}, {"WPT",2} } }, + { "Intel(R) HD Graphics 5500 BroadWell U-Processor GT2", { {"WGS1",256}, {"WGS2",2}, {"WPT",2} } }, + { "Intel(R) HD Graphics Haswell Ultrabook GT2 Mobile", { {"WGS1",128}, {"WGS2",1}, {"WPT",2} } }, { "Intel(R) HD Graphics Skylake ULT GT2", { {"WGS1",8}, {"WGS2",8}, {"WPT",4} } }, { "Iris Pro", { {"WGS1",64}, {"WGS2",1}, {"WPT",4} } }, - { "default", { {"WGS1",8}, {"WGS2",1}, {"WPT",2} } }, + { "default", { {"WGS1",32}, {"WGS2",4}, {"WPT",2} } }, } }, { // NVIDIA GPUs @@ -75,12 +77,12 @@ const Database::DatabaseEntry Database::XgerSingle = { { "GeForce GTX 680", { {"WGS1",128}, {"WGS2",1}, {"WPT",4} } }, { "GeForce GTX 750", { {"WGS1",64}, {"WGS2",16}, {"WPT",4} } }, { "GeForce GTX TITAN", { {"WGS1",32}, {"WGS2",4}, {"WPT",2} } }, - { "default", { {"WGS1",32}, {"WGS2",1}, {"WPT",1} } }, + { "default", { {"WGS1",256}, {"WGS2",1}, {"WPT",4} } }, } }, { // Default kDeviceTypeAll, "default", { - { "default", { {"WGS1",8}, {"WGS2",1}, {"WPT",1} } }, + { "default", { {"WGS1",32}, {"WGS2",4}, {"WPT",2} } }, } }, } @@ -97,7 +99,7 @@ const Database::DatabaseEntry Database::XgerComplexSingle = { { "Oland", { {"WGS1",4}, {"WGS2",8}, {"WPT",1} } }, { "Pitcairn", { {"WGS1",128}, {"WGS2",2}, {"WPT",1} } }, { "Tahiti", { {"WGS1",64}, {"WGS2",2}, {"WPT",1} } }, - { "default", { {"WGS1",4}, {"WGS2",1}, {"WPT",1} } }, + { "default", { {"WGS1",256}, {"WGS2",1}, {"WPT",1} } }, } }, { // ARM GPUs @@ -110,16 +112,17 @@ const Database::DatabaseEntry Database::XgerComplexSingle = { kDeviceTypeCPU, "Intel", { { "Intel(R) Core(TM) i5-6200U CPU @ 2.30GHz", { {"WGS1",256}, {"WGS2",1}, {"WPT",4} } }, { "Intel(R) Core(TM) i7-5930K CPU @ 3.50GHz", { {"WGS1",512}, {"WGS2",4}, {"WPT",2} } }, - { "default", { {"WGS1",256}, {"WGS2",1}, {"WPT",2} } }, + { "default", { {"WGS1",512}, {"WGS2",4}, {"WPT",2} } }, } }, { // Intel GPUs kDeviceTypeGPU, "Intel", { { "Intel(R) HD Graphics 530", { {"WGS1",32}, {"WGS2",1}, {"WPT",2} } }, - { "Intel(R) HD Graphics Haswell Ultrabook GT2 Mobile", { {"WGS1",128}, {"WGS2",4}, {"WPT",1} } }, + { "Intel(R) HD Graphics 5500 BroadWell U-Processor GT2", { {"WGS1",128}, {"WGS2",2}, {"WPT",1} } }, + { "Intel(R) HD Graphics Haswell Ultrabook GT2 Mobile", { {"WGS1",512}, {"WGS2",1}, {"WPT",1} } }, { "Intel(R) HD Graphics Skylake ULT GT2", { {"WGS1",128}, {"WGS2",4}, {"WPT",2} } }, { "Iris Pro", { {"WGS1",16}, {"WGS2",2}, {"WPT",4} } }, - { "default", { {"WGS1",16}, {"WGS2",1}, {"WPT",1} } }, + { "default", { {"WGS1",64}, {"WGS2",1}, {"WPT",2} } }, } }, { // NVIDIA GPUs @@ -131,12 +134,12 @@ const Database::DatabaseEntry Database::XgerComplexSingle = { { "GeForce GTX 680", { {"WGS1",32}, {"WGS2",4}, {"WPT",2} } }, { "GeForce GTX 750", { {"WGS1",32}, {"WGS2",16}, {"WPT",4} } }, { "GeForce GTX TITAN", { {"WGS1",16}, {"WGS2",16}, {"WPT",2} } }, - { "default", { {"WGS1",16}, {"WGS2",2}, {"WPT",2} } }, + { "default", { {"WGS1",64}, {"WGS2",2}, {"WPT",2} } }, } }, { // Default kDeviceTypeAll, "default", { - { "default", { {"WGS1",4}, {"WGS2",1}, {"WPT",1} } }, + { "default", { {"WGS1",64}, {"WGS2",4}, {"WPT",2} } }, } }, } @@ -153,7 +156,7 @@ const Database::DatabaseEntry Database::XgerDouble = { { "Oland", { {"WGS1",128}, {"WGS2",1}, {"WPT",2} } }, { "Pitcairn", { {"WGS1",64}, {"WGS2",1}, {"WPT",1} } }, { "Tahiti", { {"WGS1",64}, {"WGS2",2}, {"WPT",1} } }, - { "default", { {"WGS1",32}, {"WGS2",1}, {"WPT",1} } }, + { "default", { {"WGS1",64}, {"WGS2",2}, {"WPT",1} } }, } }, { // ARM GPUs @@ -166,7 +169,7 @@ const Database::DatabaseEntry Database::XgerDouble = { kDeviceTypeCPU, "Intel", { { "Intel(R) Core(TM) i5-6200U CPU @ 2.30GHz", { {"WGS1",512}, {"WGS2",16}, {"WPT",1} } }, { "Intel(R) Core(TM) i7-5930K CPU @ 3.50GHz", { {"WGS1",512}, {"WGS2",8}, {"WPT",2} } }, - { "default", { {"WGS1",512}, {"WGS2",8}, {"WPT",1} } }, + { "default", { {"WGS1",512}, {"WGS2",8}, {"WPT",2} } }, } }, { // NVIDIA GPUs @@ -178,12 +181,12 @@ const Database::DatabaseEntry Database::XgerDouble = { { "GeForce GTX 680", { {"WGS1",128}, {"WGS2",4}, {"WPT",2} } }, { "GeForce GTX 750", { {"WGS1",256}, {"WGS2",2}, {"WPT",2} } }, { "GeForce GTX TITAN", { {"WGS1",16}, {"WGS2",8}, {"WPT",2} } }, - { "default", { {"WGS1",16}, {"WGS2",2}, {"WPT",1} } }, + { "default", { {"WGS1",256}, {"WGS2",2}, {"WPT",2} } }, } }, { // Default kDeviceTypeAll, "default", { - { "default", { {"WGS1",16}, {"WGS2",1}, {"WPT",1} } }, + { "default", { {"WGS1",128}, {"WGS2",1}, {"WPT",2} } }, } }, } @@ -200,7 +203,7 @@ const Database::DatabaseEntry Database::XgerComplexDouble = { { "Oland", { {"WGS1",16}, {"WGS2",16}, {"WPT",2} } }, { "Pitcairn", { {"WGS1",64}, {"WGS2",4}, {"WPT",1} } }, { "Tahiti", { {"WGS1",32}, {"WGS2",4}, {"WPT",1} } }, - { "default", { {"WGS1",16}, {"WGS2",1}, {"WPT",1} } }, + { "default", { {"WGS1",32}, {"WGS2",4}, {"WPT",1} } }, } }, { // ARM GPUs @@ -225,12 +228,12 @@ const Database::DatabaseEntry Database::XgerComplexDouble = { { "GeForce GTX 680", { {"WGS1",8}, {"WGS2",16}, {"WPT",1} } }, { "GeForce GTX 750", { {"WGS1",8}, {"WGS2",32}, {"WPT",4} } }, { "GeForce GTX TITAN", { {"WGS1",32}, {"WGS2",4}, {"WPT",2} } }, - { "default", { {"WGS1",8}, {"WGS2",2}, {"WPT",1} } }, + { "default", { {"WGS1",16}, {"WGS2",8}, {"WPT",2} } }, } }, { // Default kDeviceTypeAll, "default", { - { "default", { {"WGS1",8}, {"WGS2",1}, {"WPT",1} } }, + { "default", { {"WGS1",64}, {"WGS2",2}, {"WPT",2} } }, } }, } diff --git a/src/kernels/common.opencl b/src/kernels/common.opencl index 2fca6b73..b0817242 100644 --- a/src/kernels/common.opencl +++ b/src/kernels/common.opencl @@ -148,6 +148,13 @@ R"( #define SetToOne(a) a = ONE #endif +// Determines whether a variable is zero +#if PRECISION == 3232 || PRECISION == 6464 + #define IsZero(a) ((a.x == ZERO) && (a.y == ZERO)) +#else + #define IsZero(a) (a == ZERO) +#endif + // The absolute value (component-wise) #if PRECISION == 3232 || PRECISION == 6464 #define AbsoluteValue(value) value.x = fabs(value.x); value.y = fabs(value.y) diff --git a/src/kernels/level1/xamax.opencl b/src/kernels/level1/xamax.opencl index 48d0eb5c..48ad2e75 100644 --- a/src/kernels/level1/xamax.opencl +++ b/src/kernels/level1/xamax.opencl @@ -30,10 +30,10 @@ R"( // ================================================================================================= // The main reduction kernel, performing the loading and the majority of the operation -__attribute__((reqd_work_group_size(WGS1, 1, 1))) -__kernel void Xamax(const int n, - const __global real* restrict xgm, const int x_offset, const int x_inc, - __global singlereal* maxgm, __global unsigned int* imaxgm) { +__kernel __attribute__((reqd_work_group_size(WGS1, 1, 1))) +void Xamax(const int n, + const __global real* restrict xgm, const int x_offset, const int x_inc, + __global singlereal* maxgm, __global unsigned int* imaxgm) { __local singlereal maxlm[WGS1]; __local unsigned int imaxlm[WGS1]; const int lid = get_local_id(0); @@ -95,10 +95,10 @@ __kernel void Xamax(const int n, // The epilogue reduction kernel, performing the final bit of the operation. This kernel has to // be launched with a single workgroup only. -__attribute__((reqd_work_group_size(WGS2, 1, 1))) -__kernel void XamaxEpilogue(const __global singlereal* restrict maxgm, - const __global unsigned int* restrict imaxgm, - __global unsigned int* imax, const int imax_offset) { +__kernel __attribute__((reqd_work_group_size(WGS2, 1, 1))) +void XamaxEpilogue(const __global singlereal* restrict maxgm, + const __global unsigned int* restrict imaxgm, + __global unsigned int* imax, const int imax_offset) { __local singlereal maxlm[WGS2]; __local unsigned int imaxlm[WGS2]; const int lid = get_local_id(0); diff --git a/src/kernels/level1/xasum.opencl b/src/kernels/level1/xasum.opencl index 58d0f11b..1fc91be8 100644 --- a/src/kernels/level1/xasum.opencl +++ b/src/kernels/level1/xasum.opencl @@ -30,10 +30,10 @@ R"( // ================================================================================================= // The main reduction kernel, performing the loading and the majority of the operation -__attribute__((reqd_work_group_size(WGS1, 1, 1))) -__kernel void Xasum(const int n, - const __global real* restrict xgm, const int x_offset, const int x_inc, - __global real* output) { +__kernel __attribute__((reqd_work_group_size(WGS1, 1, 1))) +void Xasum(const int n, + const __global real* restrict xgm, const int x_offset, const int x_inc, + __global real* output) { __local real lm[WGS1]; const int lid = get_local_id(0); const int wgid = get_group_id(0); @@ -74,9 +74,9 @@ __kernel void Xasum(const int n, // The epilogue reduction kernel, performing the final bit of the operation. This kernel has to // be launched with a single workgroup only. -__attribute__((reqd_work_group_size(WGS2, 1, 1))) -__kernel void XasumEpilogue(const __global real* restrict input, - __global real* asum, const int asum_offset) { +__kernel __attribute__((reqd_work_group_size(WGS2, 1, 1))) +void XasumEpilogue(const __global real* restrict input, + __global real* asum, const int asum_offset) { __local real lm[WGS2]; const int lid = get_local_id(0); diff --git a/src/kernels/level1/xaxpy.opencl b/src/kernels/level1/xaxpy.opencl index d533041b..ece8476e 100644 --- a/src/kernels/level1/xaxpy.opencl +++ b/src/kernels/level1/xaxpy.opencl @@ -22,10 +22,10 @@ R"( // ================================================================================================= // Full version of the kernel with offsets and strided accesses -__attribute__((reqd_work_group_size(WGS, 1, 1))) -__kernel void Xaxpy(const int n, const real_arg arg_alpha, - const __global real* restrict xgm, const int x_offset, const int x_inc, - __global real* ygm, const int y_offset, const int y_inc) { +__kernel __attribute__((reqd_work_group_size(WGS, 1, 1))) +void Xaxpy(const int n, const real_arg arg_alpha, + const __global real* restrict xgm, const int x_offset, const int x_inc, + __global real* ygm, const int y_offset, const int y_inc) { const real alpha = GetRealArg(arg_alpha); // Loops over the work that needs to be done (allows for an arbitrary number of threads) @@ -40,10 +40,10 @@ __kernel void Xaxpy(const int n, const real_arg arg_alpha, // Faster version of the kernel without offsets and strided accesses. Also assumes that 'n' is // dividable by 'VW', 'WGS' and 'WPT'. -__attribute__((reqd_work_group_size(WGS, 1, 1))) -__kernel void XaxpyFast(const int n, const real_arg arg_alpha, - const __global realV* restrict xgm, - __global realV* ygm) { +__kernel __attribute__((reqd_work_group_size(WGS, 1, 1))) +void XaxpyFast(const int n, const real_arg arg_alpha, + const __global realV* restrict xgm, + __global realV* ygm) { const real alpha = GetRealArg(arg_alpha); #pragma unroll diff --git a/src/kernels/level1/xcopy.opencl b/src/kernels/level1/xcopy.opencl index 97c27ccf..228e0735 100644 --- a/src/kernels/level1/xcopy.opencl +++ b/src/kernels/level1/xcopy.opencl @@ -22,10 +22,10 @@ R"( // ================================================================================================= // Full version of the kernel with offsets and strided accesses -__attribute__((reqd_work_group_size(WGS, 1, 1))) -__kernel void Xcopy(const int n, - const __global real* restrict xgm, const int x_offset, const int x_inc, - __global real* ygm, const int y_offset, const int y_inc) { +__kernel __attribute__((reqd_work_group_size(WGS, 1, 1))) +void Xcopy(const int n, + const __global real* restrict xgm, const int x_offset, const int x_inc, + __global real* ygm, const int y_offset, const int y_inc) { // Loops over the work that needs to be done (allows for an arbitrary number of threads) #pragma unroll @@ -38,10 +38,10 @@ __kernel void Xcopy(const int n, // Faster version of the kernel without offsets and strided accesses. Also assumes that 'n' is // dividable by 'VW', 'WGS' and 'WPT'. -__attribute__((reqd_work_group_size(WGS, 1, 1))) -__kernel void XcopyFast(const int n, - const __global realV* restrict xgm, - __global realV* ygm) { +__kernel __attribute__((reqd_work_group_size(WGS, 1, 1))) +void XcopyFast(const int n, + const __global realV* restrict xgm, + __global realV* ygm) { #pragma unroll for (int w=0; w<WPT; ++w) { const int id = w*get_global_size(0) + get_global_id(0); diff --git a/src/kernels/level1/xdot.opencl b/src/kernels/level1/xdot.opencl index e13eb3c1..02f04ea7 100644 --- a/src/kernels/level1/xdot.opencl +++ b/src/kernels/level1/xdot.opencl @@ -30,11 +30,11 @@ R"( // ================================================================================================= // The main reduction kernel, performing the multiplication and the majority of the sum operation -__attribute__((reqd_work_group_size(WGS1, 1, 1))) -__kernel void Xdot(const int n, - const __global real* restrict xgm, const int x_offset, const int x_inc, - const __global real* restrict ygm, const int y_offset, const int y_inc, - __global real* output, const int do_conjugate) { +__kernel __attribute__((reqd_work_group_size(WGS1, 1, 1))) +void Xdot(const int n, + const __global real* restrict xgm, const int x_offset, const int x_inc, + const __global real* restrict ygm, const int y_offset, const int y_inc, + __global real* output, const int do_conjugate) { __local real lm[WGS1]; const int lid = get_local_id(0); const int wgid = get_group_id(0); @@ -73,9 +73,9 @@ __kernel void Xdot(const int n, // The epilogue reduction kernel, performing the final bit of the sum operation. This kernel has to // be launched with a single workgroup only. -__attribute__((reqd_work_group_size(WGS2, 1, 1))) -__kernel void XdotEpilogue(const __global real* restrict input, - __global real* dot, const int dot_offset) { +__kernel __attribute__((reqd_work_group_size(WGS2, 1, 1))) +void XdotEpilogue(const __global real* restrict input, + __global real* dot, const int dot_offset) { __local real lm[WGS2]; const int lid = get_local_id(0); diff --git a/src/kernels/level1/xnrm2.opencl b/src/kernels/level1/xnrm2.opencl index 9803687a..f6d869cb 100644 --- a/src/kernels/level1/xnrm2.opencl +++ b/src/kernels/level1/xnrm2.opencl @@ -30,10 +30,10 @@ R"( // ================================================================================================= // The main reduction kernel, performing the multiplication and the majority of the operation -__attribute__((reqd_work_group_size(WGS1, 1, 1))) -__kernel void Xnrm2(const int n, - const __global real* restrict xgm, const int x_offset, const int x_inc, - __global real* output) { +__kernel __attribute__((reqd_work_group_size(WGS1, 1, 1))) +void Xnrm2(const int n, + const __global real* restrict xgm, const int x_offset, const int x_inc, + __global real* output) { __local real lm[WGS1]; const int lid = get_local_id(0); const int wgid = get_group_id(0); @@ -72,9 +72,9 @@ __kernel void Xnrm2(const int n, // The epilogue reduction kernel, performing the final bit of the operation. This kernel has to // be launched with a single workgroup only. -__attribute__((reqd_work_group_size(WGS2, 1, 1))) -__kernel void Xnrm2Epilogue(const __global real* restrict input, - __global real* nrm2, const int nrm2_offset) { +__kernel __attribute__((reqd_work_group_size(WGS2, 1, 1))) +void Xnrm2Epilogue(const __global real* restrict input, + __global real* nrm2, const int nrm2_offset) { __local real lm[WGS2]; const int lid = get_local_id(0); diff --git a/src/kernels/level1/xscal.opencl b/src/kernels/level1/xscal.opencl index 59936776..3da9c2fd 100644 --- a/src/kernels/level1/xscal.opencl +++ b/src/kernels/level1/xscal.opencl @@ -22,9 +22,10 @@ R"( // ================================================================================================= // Full version of the kernel with offsets and strided accesses -__attribute__((reqd_work_group_size(WGS, 1, 1))) -__kernel void Xscal(const int n, const real alpha, - __global real* xgm, const int x_offset, const int x_inc) { +__kernel __attribute__((reqd_work_group_size(WGS, 1, 1))) +void Xscal(const int n, const real_arg arg_alpha, + __global real* xgm, const int x_offset, const int x_inc) { + const real alpha = GetRealArg(arg_alpha); // Loops over the work that needs to be done (allows for an arbitrary number of threads) #pragma unroll @@ -40,9 +41,11 @@ __kernel void Xscal(const int n, const real alpha, // Faster version of the kernel without offsets and strided accesses. Also assumes that 'n' is // dividable by 'VW', 'WGS' and 'WPT'. -__attribute__((reqd_work_group_size(WGS, 1, 1))) -__kernel void XscalFast(const int n, const real alpha, - __global realV* xgm) { +__kernel __attribute__((reqd_work_group_size(WGS, 1, 1))) +void XscalFast(const int n, const real_arg arg_alpha, + __global realV* xgm) { + const real alpha = GetRealArg(arg_alpha); + #pragma unroll for (int w=0; w<WPT; ++w) { const int id = w*get_global_size(0) + get_global_id(0); diff --git a/src/kernels/level1/xswap.opencl b/src/kernels/level1/xswap.opencl index f6487b58..267271c0 100644 --- a/src/kernels/level1/xswap.opencl +++ b/src/kernels/level1/xswap.opencl @@ -22,10 +22,10 @@ R"( // ================================================================================================= // Full version of the kernel with offsets and strided accesses -__attribute__((reqd_work_group_size(WGS, 1, 1))) -__kernel void Xswap(const int n, - __global real* xgm, const int x_offset, const int x_inc, - __global real* ygm, const int y_offset, const int y_inc) { +__kernel __attribute__((reqd_work_group_size(WGS, 1, 1))) +void Xswap(const int n, + __global real* xgm, const int x_offset, const int x_inc, + __global real* ygm, const int y_offset, const int y_inc) { // Loops over the work that needs to be done (allows for an arbitrary number of threads) #pragma unroll @@ -40,10 +40,10 @@ __kernel void Xswap(const int n, // Faster version of the kernel without offsets and strided accesses. Also assumes that 'n' is // dividable by 'VW', 'WGS' and 'WPT'. -__attribute__((reqd_work_group_size(WGS, 1, 1))) -__kernel void XswapFast(const int n, - __global realV* xgm, - __global realV* ygm) { +__kernel __attribute__((reqd_work_group_size(WGS, 1, 1))) +void XswapFast(const int n, + __global realV* xgm, + __global realV* ygm) { #pragma unroll for (int w=0; w<WPT; ++w) { const int id = w*get_global_size(0) + get_global_id(0); diff --git a/src/kernels/level2/xgemv.opencl b/src/kernels/level2/xgemv.opencl index 83b6b15d..ff011acd 100644 --- a/src/kernels/level2/xgemv.opencl +++ b/src/kernels/level2/xgemv.opencl @@ -210,8 +210,8 @@ inline real LoadMatrixA(const __global real* restrict agm, const int x, const in // ================================================================================================= // Full version of the kernel -__attribute__((reqd_work_group_size(WGS1, 1, 1))) -__kernel void Xgemv(const int m, const int n, +__kernel __attribute__((reqd_work_group_size(WGS1, 1, 1))) +void Xgemv(const int m, const int n, const real_arg arg_alpha, const real_arg arg_beta, const int a_rotated, diff --git a/src/kernels/level2/xgemv_fast.opencl b/src/kernels/level2/xgemv_fast.opencl index 210c42c1..02a1f956 100644 --- a/src/kernels/level2/xgemv_fast.opencl +++ b/src/kernels/level2/xgemv_fast.opencl @@ -88,16 +88,16 @@ inline realVF LoadMatrixAVF(const __global realVF* restrict agm, const int x, co // --> 'a_ld' is a multiple of VW2 // --> 'a_rotated' is 0 // --> 'do_conjugate' is 0 -__attribute__((reqd_work_group_size(WGS2, 1, 1))) -__kernel void XgemvFast(const int m, const int n, - const real_arg arg_alpha, - const real_arg arg_beta, - const int a_rotated, - const __global realVF* restrict agm, const int a_offset, const int a_ld, - const __global real* restrict xgm, const int x_offset, const int x_inc, - __global real* ygm, const int y_offset, const int y_inc, - const int do_conjugate, const int parameter, - const int kl_unused, const int ku_unused) { +__kernel __attribute__((reqd_work_group_size(WGS2, 1, 1))) +void XgemvFast(const int m, const int n, + const real_arg arg_alpha, + const real_arg arg_beta, + const int a_rotated, + const __global realVF* restrict agm, const int a_offset, const int a_ld, + const __global real* restrict xgm, const int x_offset, const int x_inc, + __global real* ygm, const int y_offset, const int y_inc, + const int do_conjugate, const int parameter, + const int kl_unused, const int ku_unused) { const real alpha = GetRealArg(arg_alpha); const real beta = GetRealArg(arg_beta); @@ -190,16 +190,16 @@ __kernel void XgemvFast(const int m, const int n, // --> 'a_ld' is a multiple of VW3 // --> 'a_rotated' is 1 // --> 'do_conjugate' is 0 -__attribute__((reqd_work_group_size(WGS3, 1, 1))) -__kernel void XgemvFastRot(const int m, const int n, - const real_arg arg_alpha, - const real_arg arg_beta, - const int a_rotated, - const __global realVFR* restrict agm, const int a_offset, const int a_ld, - const __global real* restrict xgm, const int x_offset, const int x_inc, - __global real* ygm, const int y_offset, const int y_inc, - const int do_conjugate, const int parameter, - const int kl_unused, const int ku_unused) { +__kernel __attribute__((reqd_work_group_size(WGS3, 1, 1))) +void XgemvFastRot(const int m, const int n, + const real_arg arg_alpha, + const real_arg arg_beta, + const int a_rotated, + const __global realVFR* restrict agm, const int a_offset, const int a_ld, + const __global real* restrict xgm, const int x_offset, const int x_inc, + __global real* ygm, const int y_offset, const int y_inc, + const int do_conjugate, const int parameter, + const int kl_unused, const int ku_unused) { const real alpha = GetRealArg(arg_alpha); const real beta = GetRealArg(arg_beta); diff --git a/src/kernels/level2/xger.opencl b/src/kernels/level2/xger.opencl index f218a346..1b9ded12 100644 --- a/src/kernels/level2/xger.opencl +++ b/src/kernels/level2/xger.opencl @@ -18,13 +18,13 @@ R"( // ================================================================================================= // Regular version of the rank-1 matrix update kernel (GER, GERU, GERC) -__attribute__((reqd_work_group_size(WGS1, WGS2, 1))) -__kernel void Xger(const int max1, const int max2, - const real_arg arg_alpha, - const __global real* restrict xgm, const int x_offset, const int x_inc, - const __global real* ygm, const int y_offset, const int y_inc, - __global real* restrict agm, const int a_offset, const int a_ld, - const int is_rowmajor) { +__kernel __attribute__((reqd_work_group_size(WGS1, WGS2, 1))) +void Xger(const int max1, const int max2, + const real_arg arg_alpha, + const __global real* restrict xgm, const int x_offset, const int x_inc, + const __global real* ygm, const int y_offset, const int y_inc, + __global real* restrict agm, const int a_offset, const int a_ld, + const int is_rowmajor) { const real alpha = GetRealArg(arg_alpha); // Register storage for X and Y diff --git a/src/kernels/level2/xher.opencl b/src/kernels/level2/xher.opencl index 1200ee63..b0772218 100644 --- a/src/kernels/level2/xher.opencl +++ b/src/kernels/level2/xher.opencl @@ -18,12 +18,12 @@ R"( // ================================================================================================= // Symmetric version of the rank-1 matrix update kernel (HER, HPR, SYR, SPR) -__attribute__((reqd_work_group_size(WGS1, WGS2, 1))) -__kernel void Xher(const int n, - const real_arg arg_alpha, - const __global real* restrict xgm, const int x_offset, const int x_inc, - __global real* restrict agm, const int a_offset, const int a_ld, - const int is_upper, const int is_rowmajor) { +__kernel __attribute__((reqd_work_group_size(WGS1, WGS2, 1))) +void Xher(const int n, + const real_arg arg_alpha, + const __global real* restrict xgm, const int x_offset, const int x_inc, + __global real* restrict agm, const int a_offset, const int a_ld, + const int is_upper, const int is_rowmajor) { const real alpha = GetRealArg(arg_alpha); // Register storage for X and XT diff --git a/src/kernels/level2/xher2.opencl b/src/kernels/level2/xher2.opencl index d0f41571..00a756c9 100644 --- a/src/kernels/level2/xher2.opencl +++ b/src/kernels/level2/xher2.opencl @@ -18,13 +18,13 @@ R"( // ================================================================================================= // Symmetric version of the rank-2 matrix update kernel (HER2, HPR2, SYR2, SPR2) -__attribute__((reqd_work_group_size(WGS1, WGS2, 1))) -__kernel void Xher2(const int n, - const real_arg arg_alpha, - const __global real* restrict xgm, const int x_offset, const int x_inc, - const __global real* restrict ygm, const int y_offset, const int y_inc, - __global real* restrict agm, const int a_offset, const int a_ld, - const int is_upper, const int is_rowmajor) { +__kernel __attribute__((reqd_work_group_size(WGS1, WGS2, 1))) +void Xher2(const int n, + const real_arg arg_alpha, + const __global real* restrict xgm, const int x_offset, const int x_inc, + const __global real* restrict ygm, const int y_offset, const int y_inc, + __global real* restrict agm, const int a_offset, const int a_ld, + const int is_upper, const int is_rowmajor) { const real alpha = GetRealArg(arg_alpha); // Register storage for X and Y diff --git a/src/kernels/level3/convert_hermitian.opencl b/src/kernels/level3/convert_hermitian.opencl index 53cc161a..ed2ded98 100644 --- a/src/kernels/level3/convert_hermitian.opencl +++ b/src/kernels/level3/convert_hermitian.opencl @@ -20,13 +20,13 @@ R"( // Kernel to populate a squared hermitian matrix, given that the triangle which holds the data is // stored as the lower-triangle of the input matrix. This uses the padding kernel's parameters. -__attribute__((reqd_work_group_size(PAD_DIMX, PAD_DIMY, 1))) -__kernel void HermLowerToSquared(const int src_dim, - const int src_ld, const int src_offset, - __global const real* restrict src, - const int dest_dim, - const int dest_ld, const int dest_offset, - __global real* dest) { +__kernel __attribute__((reqd_work_group_size(PAD_DIMX, PAD_DIMY, 1))) +void HermLowerToSquared(const int src_dim, + const int src_ld, const int src_offset, + __global const real* restrict src, + const int dest_dim, + const int dest_ld, const int dest_offset, + __global real* dest) { // Loops over the work per thread in both dimensions #pragma unroll @@ -59,13 +59,13 @@ __kernel void HermLowerToSquared(const int src_dim, } // Same as above, but now the matrix' data is stored in the upper-triangle -__attribute__((reqd_work_group_size(PAD_DIMX, PAD_DIMY, 1))) -__kernel void HermUpperToSquared(const int src_dim, - const int src_ld, const int src_offset, - __global const real* restrict src, - const int dest_dim, - const int dest_ld, const int dest_offset, - __global real* dest) { +__kernel __attribute__((reqd_work_group_size(PAD_DIMX, PAD_DIMY, 1))) +void HermUpperToSquared(const int src_dim, + const int src_ld, const int src_offset, + __global const real* restrict src, + const int dest_dim, + const int dest_ld, const int dest_offset, + __global real* dest) { // Loops over the work per thread in both dimensions #pragma unroll diff --git a/src/kernels/level3/convert_symmetric.opencl b/src/kernels/level3/convert_symmetric.opencl index c6ce93ca..8ae53b37 100644 --- a/src/kernels/level3/convert_symmetric.opencl +++ b/src/kernels/level3/convert_symmetric.opencl @@ -20,13 +20,13 @@ R"( // Kernel to populate a squared symmetric matrix, given that the triangle which holds the data is // stored as the lower-triangle of the input matrix. This uses the padding kernel's parameters. -__attribute__((reqd_work_group_size(PAD_DIMX, PAD_DIMY, 1))) -__kernel void SymmLowerToSquared(const int src_dim, - const int src_ld, const int src_offset, - __global const real* restrict src, - const int dest_dim, - const int dest_ld, const int dest_offset, - __global real* dest) { +__kernel __attribute__((reqd_work_group_size(PAD_DIMX, PAD_DIMY, 1))) +void SymmLowerToSquared(const int src_dim, + const int src_ld, const int src_offset, + __global const real* restrict src, + const int dest_dim, + const int dest_ld, const int dest_offset, + __global real* dest) { // Loops over the work per thread in both dimensions #pragma unroll @@ -53,13 +53,13 @@ __kernel void SymmLowerToSquared(const int src_dim, } // Same as above, but now the matrix' data is stored in the upper-triangle -__attribute__((reqd_work_group_size(PAD_DIMX, PAD_DIMY, 1))) -__kernel void SymmUpperToSquared(const int src_dim, - const int src_ld, const int src_offset, - __global const real* restrict src, - const int dest_dim, - const int dest_ld, const int dest_offset, - __global real* dest) { +__kernel __attribute__((reqd_work_group_size(PAD_DIMX, PAD_DIMY, 1))) +void SymmUpperToSquared(const int src_dim, + const int src_ld, const int src_offset, + __global const real* restrict src, + const int dest_dim, + const int dest_ld, const int dest_offset, + __global real* dest) { // Loops over the work per thread in both dimensions #pragma unroll diff --git a/src/kernels/level3/convert_triangular.opencl b/src/kernels/level3/convert_triangular.opencl index fdd2461a..f848dcc1 100644 --- a/src/kernels/level3/convert_triangular.opencl +++ b/src/kernels/level3/convert_triangular.opencl @@ -20,14 +20,14 @@ R"( // Kernel to populate a squared triangular matrix, given that the triangle which holds the data is // stored as the lower-triangle of the input matrix. This uses the padding kernel's parameters. -__attribute__((reqd_work_group_size(PAD_DIMX, PAD_DIMY, 1))) -__kernel void TriaLowerToSquared(const int src_dim, - const int src_ld, const int src_offset, - __global const real* restrict src, - const int dest_dim, - const int dest_ld, const int dest_offset, - __global real* dest, - const int unit_diagonal) { +__kernel __attribute__((reqd_work_group_size(PAD_DIMX, PAD_DIMY, 1))) +void TriaLowerToSquared(const int src_dim, + const int src_ld, const int src_offset, + __global const real* restrict src, + const int dest_dim, + const int dest_ld, const int dest_offset, + __global real* dest, + const int unit_diagonal) { // Loops over the work per thread in both dimensions #pragma unroll @@ -55,14 +55,14 @@ __kernel void TriaLowerToSquared(const int src_dim, } // Same as above, but now the matrix' data is stored in the upper-triangle -__attribute__((reqd_work_group_size(PAD_DIMX, PAD_DIMY, 1))) -__kernel void TriaUpperToSquared(const int src_dim, - const int src_ld, const int src_offset, - __global const real* restrict src, - const int dest_dim, - const int dest_ld, const int dest_offset, - __global real* dest, - const int unit_diagonal) { +__kernel __attribute__((reqd_work_group_size(PAD_DIMX, PAD_DIMY, 1))) +void TriaUpperToSquared(const int src_dim, + const int src_ld, const int src_offset, + __global const real* restrict src, + const int dest_dim, + const int dest_ld, const int dest_offset, + __global real* dest, + const int unit_diagonal) { // Loops over the work per thread in both dimensions #pragma unroll diff --git a/src/kernels/level3/copy_fast.opencl b/src/kernels/level3/copy_fast.opencl index dd975bf1..695b9003 100644 --- a/src/kernels/level3/copy_fast.opencl +++ b/src/kernels/level3/copy_fast.opencl @@ -35,11 +35,11 @@ R"( // Fast copy kernel. Requires 'ld' and the number of threads in dimension 0 to be a multiple of // COPY_VW. Also requires both matrices to be of the same dimensions and without offset. -__attribute__((reqd_work_group_size(COPY_DIMX, COPY_DIMY, 1))) -__kernel void CopyMatrixFast(const int ld, - __global const realC* restrict src, - __global realC* dest, - const real_arg arg_alpha) { +__kernel __attribute__((reqd_work_group_size(COPY_DIMX, COPY_DIMY, 1))) +void CopyMatrixFast(const int ld, + __global const realC* restrict src, + __global realC* dest, + const real_arg arg_alpha) { const real alpha = GetRealArg(arg_alpha); #pragma unroll for (int w_one=0; w_one<COPY_WPT; ++w_one) { diff --git a/src/kernels/level3/copy_pad.opencl b/src/kernels/level3/copy_pad.opencl index d0771c31..29480b25 100644 --- a/src/kernels/level3/copy_pad.opencl +++ b/src/kernels/level3/copy_pad.opencl @@ -24,15 +24,15 @@ R"( // Copies a matrix from source to destination. The output is padded with zero values in case the // destination matrix dimensions are larger than the source matrix dimensions. Additionally, the ld // value and offset can be different. -__attribute__((reqd_work_group_size(PAD_DIMX, PAD_DIMY, 1))) -__kernel void CopyPadMatrix(const int src_one, const int src_two, - const int src_ld, const int src_offset, - __global const real* restrict src, - const int dest_one, const int dest_two, - const int dest_ld, const int dest_offset, - __global real* dest, - const real_arg arg_alpha, - const int do_conjugate) { +__kernel __attribute__((reqd_work_group_size(PAD_DIMX, PAD_DIMY, 1))) +void CopyPadMatrix(const int src_one, const int src_two, + const int src_ld, const int src_offset, + __global const real* restrict src, + const int dest_one, const int dest_two, + const int dest_ld, const int dest_offset, + __global real* dest, + const real_arg arg_alpha, + const int do_conjugate) { const real alpha = GetRealArg(arg_alpha); // Loops over the work per thread in both dimensions @@ -65,16 +65,16 @@ __kernel void CopyPadMatrix(const int src_one, const int src_two, // Same as above, but now un-pads a matrix. This kernel reads data from a padded source matrix, but // writes only the actual data back to the destination matrix. Again, the ld value and offset can // be different. -__attribute__((reqd_work_group_size(PAD_DIMX, PAD_DIMY, 1))) -__kernel void CopyMatrix(const int src_one, const int src_two, - const int src_ld, const int src_offset, - __global const real* restrict src, - const int dest_one, const int dest_two, - const int dest_ld, const int dest_offset, - __global real* dest, - const real_arg arg_alpha, - const int upper, const int lower, - const int diagonal_imag_zero) { +__kernel __attribute__((reqd_work_group_size(PAD_DIMX, PAD_DIMY, 1))) +void CopyMatrix(const int src_one, const int src_two, + const int src_ld, const int src_offset, + __global const real* restrict src, + const int dest_one, const int dest_two, + const int dest_ld, const int dest_offset, + __global real* dest, + const real_arg arg_alpha, + const int upper, const int lower, + const int diagonal_imag_zero) { const real alpha = GetRealArg(arg_alpha); // Loops over the work per thread in both dimensions diff --git a/src/kernels/level3/transpose_fast.opencl b/src/kernels/level3/transpose_fast.opencl index ea343533..70156d3a 100644 --- a/src/kernels/level3/transpose_fast.opencl +++ b/src/kernels/level3/transpose_fast.opencl @@ -36,11 +36,11 @@ R"( // Transposes and copies a matrix. Requires both matrices to be of the same dimensions and without // offset. A more general version is available in 'padtranspose.opencl'. -__attribute__((reqd_work_group_size(TRA_DIM, TRA_DIM, 1))) -__kernel void TransposeMatrixFast(const int ld, - __global const realT* restrict src, - __global realT* dest, - const real_arg arg_alpha) { +__kernel __attribute__((reqd_work_group_size(TRA_DIM, TRA_DIM, 1))) +void TransposeMatrixFast(const int ld, + __global const realT* restrict src, + __global realT* dest, + const real_arg arg_alpha) { const real alpha = GetRealArg(arg_alpha); // Sets the group identifiers. They might be 'shuffled' around to distribute work in a different diff --git a/src/kernels/level3/transpose_pad.opencl b/src/kernels/level3/transpose_pad.opencl index 2e20d667..ba0b7062 100644 --- a/src/kernels/level3/transpose_pad.opencl +++ b/src/kernels/level3/transpose_pad.opencl @@ -24,15 +24,15 @@ R"( // Transposes a matrix from source to destination. The output is padded with zero values in case the // destination matrix dimensions are larger than the transposed source matrix dimensions. -__attribute__((reqd_work_group_size(PADTRA_TILE, PADTRA_TILE, 1))) -__kernel void TransposePadMatrix(const int src_one, const int src_two, - const int src_ld, const int src_offset, - __global const real* restrict src, - const int dest_one, const int dest_two, - const int dest_ld, const int dest_offset, - __global real* dest, - const real_arg arg_alpha, - const int do_conjugate) { +__kernel __attribute__((reqd_work_group_size(PADTRA_TILE, PADTRA_TILE, 1))) +void TransposePadMatrix(const int src_one, const int src_two, + const int src_ld, const int src_offset, + __global const real* restrict src, + const int dest_one, const int dest_two, + const int dest_ld, const int dest_offset, + __global real* dest, + const real_arg arg_alpha, + const int do_conjugate) { const real alpha = GetRealArg(arg_alpha); // Local memory to store a tile of the matrix (for coalescing) @@ -88,16 +88,16 @@ __kernel void TransposePadMatrix(const int src_one, const int src_two, // Transposes a matrix, while considering possible padding in the source matrix. Data is read from a // padded source matrix, but only the actual data is written back to the transposed destination // matrix. This kernel optionally checks for upper/lower triangular matrices. -__attribute__((reqd_work_group_size(PADTRA_TILE, PADTRA_TILE, 1))) -__kernel void TransposeMatrix(const int src_one, const int src_two, - const int src_ld, const int src_offset, - __global const real* restrict src, - const int dest_one, const int dest_two, - const int dest_ld, const int dest_offset, - __global real* dest, - const real_arg arg_alpha, - const int upper, const int lower, - const int diagonal_imag_zero) { +__kernel __attribute__((reqd_work_group_size(PADTRA_TILE, PADTRA_TILE, 1))) +void TransposeMatrix(const int src_one, const int src_two, + const int src_ld, const int src_offset, + __global const real* restrict src, + const int dest_one, const int dest_two, + const int dest_ld, const int dest_offset, + __global real* dest, + const real_arg arg_alpha, + const int upper, const int lower, + const int diagonal_imag_zero) { const real alpha = GetRealArg(arg_alpha); // Local memory to store a tile of the matrix (for coalescing) diff --git a/src/kernels/level3/xgemm_part1.opencl b/src/kernels/level3/xgemm_part1.opencl index 1ad0a558..d0ce06ad 100644 --- a/src/kernels/level3/xgemm_part1.opencl +++ b/src/kernels/level3/xgemm_part1.opencl @@ -31,7 +31,7 @@ // o-------o o-----o // // -// This kernel is seperated into two files. This is part 1 out of 2. +// This kernel is seperated into three files. This is part 1 out of 3. // // ================================================================================================= diff --git a/src/kernels/level3/xgemm_part2.opencl b/src/kernels/level3/xgemm_part2.opencl index 87e28cb5..e8234a29 100644 --- a/src/kernels/level3/xgemm_part2.opencl +++ b/src/kernels/level3/xgemm_part2.opencl @@ -7,7 +7,7 @@ // Author(s): // Cedric Nugteren <www.cedricnugteren.nl> // -// This is part 2 of 2 of the GEMM kernel. See part 1 for more information. +// This is part 2 of 3 of the GEMM kernel. See part 1 for more information. // // ================================================================================================= @@ -133,260 +133,98 @@ inline void StoreResults(__global realM* cgm, realM cpm[NWI][MWI/VWM], const int #endif int idm = mg + GetGroupID0() * (MWG/VWM); int idn = ng + GetGroupID1() * NWG; - - // The final multiplication with alpha and the addition with beta*C int index = idn*(kSizeM/VWM) + idm; + realM result; realM xval = cpm[ni][mi]; - realM yval = cgm[index]; - #if VWM == 1 - AXPBY(result, alpha, xval, beta, yval); - #elif VWM == 2 - AXPBY(result.x, alpha, xval.x, beta, yval.x); - AXPBY(result.y, alpha, xval.y, beta, yval.y); - #elif VWM == 4 - AXPBY(result.x, alpha, xval.x, beta, yval.x); - AXPBY(result.y, alpha, xval.y, beta, yval.y); - AXPBY(result.z, alpha, xval.z, beta, yval.z); - AXPBY(result.w, alpha, xval.w, beta, yval.w); - #elif VWM == 8 - AXPBY(result.s0, alpha, xval.s0, beta, yval.s0); - AXPBY(result.s1, alpha, xval.s1, beta, yval.s1); - AXPBY(result.s2, alpha, xval.s2, beta, yval.s2); - AXPBY(result.s3, alpha, xval.s3, beta, yval.s3); - AXPBY(result.s4, alpha, xval.s4, beta, yval.s4); - AXPBY(result.s5, alpha, xval.s5, beta, yval.s5); - AXPBY(result.s6, alpha, xval.s6, beta, yval.s6); - AXPBY(result.s7, alpha, xval.s7, beta, yval.s7); - #elif VWM == 16 - AXPBY(result.s0, alpha, xval.s0, beta, yval.s0); - AXPBY(result.s1, alpha, xval.s1, beta, yval.s1); - AXPBY(result.s2, alpha, xval.s2, beta, yval.s2); - AXPBY(result.s3, alpha, xval.s3, beta, yval.s3); - AXPBY(result.s4, alpha, xval.s4, beta, yval.s4); - AXPBY(result.s5, alpha, xval.s5, beta, yval.s5); - AXPBY(result.s6, alpha, xval.s6, beta, yval.s6); - AXPBY(result.s7, alpha, xval.s7, beta, yval.s7); - AXPBY(result.s8, alpha, xval.s8, beta, yval.s8); - AXPBY(result.s9, alpha, xval.s9, beta, yval.s9); - AXPBY(result.sA, alpha, xval.sA, beta, yval.sA); - AXPBY(result.sB, alpha, xval.sB, beta, yval.sB); - AXPBY(result.sC, alpha, xval.sC, beta, yval.sC); - AXPBY(result.sD, alpha, xval.sD, beta, yval.sD); - AXPBY(result.sE, alpha, xval.sE, beta, yval.sE); - AXPBY(result.sF, alpha, xval.sF, beta, yval.sF); - #endif - cgm[index] = result; - } - } -} - -// ================================================================================================= - -// Main body of the matrix-multiplication algorithm. It calls the (inlined) functions above. -inline void XgemmBody(const int kSizeM, const int kSizeN, const int kSizeK, - const __global realM* restrict agm, const __global realN* restrict bgm, - __global realM* cgm, realM cpm[NWI][MWI/VWM] - #if SA == 1 && SB == 1 - , __local realM* alm, __local realN* blm - #elif SA == 1 - , __local realM* alm - #elif SB == 1 - , __local realN* blm - #endif - ) { - - // Allocates workitem-private memory (registers) - realM apm[MWI/VWM]; - realN bpm[NWI/VWN]; - - // Combined thread identifier (volatile to disable caching) - #if SA == 1 || SB == 1 - volatile int tid = get_local_id(0) + MDIMC*get_local_id(1); - #endif - - // Initializes the accumulation registers - InitAccRegisters(cpm); - - // Loops over all workgroup tiles - for (int kwg=0; kwg<kSizeK; kwg+=KWG) { - // Loads data: off-chip --> local (matrix A) - #if SA == 1 - GlobalToLocalA(agm, alm, kSizeM, tid, kwg); - #endif - // Loads data: off-chip --> local (matrix B) - #if SB == 1 - GlobalToLocalB(bgm, blm, kSizeN, tid, kwg); - #endif - #if SA == 1 || SB == 1 - barrier(CLK_LOCAL_MEM_FENCE); - #endif - - // Loops over all workitem tiles, unrolled by a factor KWI - for (int pwi=0; pwi<KWG; pwi+=KWI) { - #pragma unroll - for (int pit=0; pit<KWI; ++pit) { - #if SA == 0 || SB == 0 - int idk = kwg + pwi + pit; - #endif - #if SA == 1 || SB == 1 - int kg = pwi+pit; - #endif - - // Loads data: local --> private (matrix A) - #if SA == 1 - LocalToPrivateA(alm, apm, kg); - // Loads data: off-chip --> private (matrix A) - #else - GlobalToPrivateA(agm, apm, kSizeM, idk, kwg); + // The final multiplication with alpha (in case beta == 0) + if (IsZero(beta)) { + #if VWM == 1 + Multiply(result, alpha, xval); + #elif VWM == 2 + Multiply(result.x, alpha, xval.x); + Multiply(result.y, alpha, xval.y); + #elif VWM == 4 + Multiply(result.x, alpha, xval.x); + Multiply(result.y, alpha, xval.y); + Multiply(result.z, alpha, xval.z); + Multiply(result.w, alpha, xval.w); + #elif VWM == 8 + Multiply(result.s0, alpha, xval.s0); + Multiply(result.s1, alpha, xval.s1); + Multiply(result.s2, alpha, xval.s2); + Multiply(result.s3, alpha, xval.s3); + Multiply(result.s4, alpha, xval.s4); + Multiply(result.s5, alpha, xval.s5); + Multiply(result.s6, alpha, xval.s6); + Multiply(result.s7, alpha, xval.s7); + #elif VWM == 16 + Multiply(result.s0, alpha, xval.s0); + Multiply(result.s1, alpha, xval.s1); + Multiply(result.s2, alpha, xval.s2); + Multiply(result.s3, alpha, xval.s3); + Multiply(result.s4, alpha, xval.s4); + Multiply(result.s5, alpha, xval.s5); + Multiply(result.s6, alpha, xval.s6); + Multiply(result.s7, alpha, xval.s7); + Multiply(result.s8, alpha, xval.s8); + Multiply(result.s9, alpha, xval.s9); + Multiply(result.sA, alpha, xval.sA); + Multiply(result.sB, alpha, xval.sB); + Multiply(result.sC, alpha, xval.sC); + Multiply(result.sD, alpha, xval.sD); + Multiply(result.sE, alpha, xval.sE); + Multiply(result.sF, alpha, xval.sF); #endif + } - // Loads data: local --> private (matrix B) - #if SB == 1 - LocalToPrivateB(blm, bpm, kg); - // Loads data: off-chip --> private (matrix B) - #else - GlobalToPrivateB(bgm, bpm, kSizeN, idk); + // The final multiplication with alpha and the addition with beta*C + else { + realM yval = cgm[index]; + #if VWM == 1 + AXPBY(result, alpha, xval, beta, yval); + #elif VWM == 2 + AXPBY(result.x, alpha, xval.x, beta, yval.x); + AXPBY(result.y, alpha, xval.y, beta, yval.y); + #elif VWM == 4 + AXPBY(result.x, alpha, xval.x, beta, yval.x); + AXPBY(result.y, alpha, xval.y, beta, yval.y); + AXPBY(result.z, alpha, xval.z, beta, yval.z); + AXPBY(result.w, alpha, xval.w, beta, yval.w); + #elif VWM == 8 + AXPBY(result.s0, alpha, xval.s0, beta, yval.s0); + AXPBY(result.s1, alpha, xval.s1, beta, yval.s1); + AXPBY(result.s2, alpha, xval.s2, beta, yval.s2); + AXPBY(result.s3, alpha, xval.s3, beta, yval.s3); + AXPBY(result.s4, alpha, xval.s4, beta, yval.s4); + AXPBY(result.s5, alpha, xval.s5, beta, yval.s5); + AXPBY(result.s6, alpha, xval.s6, beta, yval.s6); + AXPBY(result.s7, alpha, xval.s7, beta, yval.s7); + #elif VWM == 16 + AXPBY(result.s0, alpha, xval.s0, beta, yval.s0); + AXPBY(result.s1, alpha, xval.s1, beta, yval.s1); + AXPBY(result.s2, alpha, xval.s2, beta, yval.s2); + AXPBY(result.s3, alpha, xval.s3, beta, yval.s3); + AXPBY(result.s4, alpha, xval.s4, beta, yval.s4); + AXPBY(result.s5, alpha, xval.s5, beta, yval.s5); + AXPBY(result.s6, alpha, xval.s6, beta, yval.s6); + AXPBY(result.s7, alpha, xval.s7, beta, yval.s7); + AXPBY(result.s8, alpha, xval.s8, beta, yval.s8); + AXPBY(result.s9, alpha, xval.s9, beta, yval.s9); + AXPBY(result.sA, alpha, xval.sA, beta, yval.sA); + AXPBY(result.sB, alpha, xval.sB, beta, yval.sB); + AXPBY(result.sC, alpha, xval.sC, beta, yval.sC); + AXPBY(result.sD, alpha, xval.sD, beta, yval.sD); + AXPBY(result.sE, alpha, xval.sE, beta, yval.sE); + AXPBY(result.sF, alpha, xval.sF, beta, yval.sF); #endif - - // Performs the accumulation (Cpm += Apm * Bpm) - MultiplyAccumulate(cpm, apm, bpm); } + cgm[index] = result; } - #if SA == 1 || SB == 1 - barrier(CLK_LOCAL_MEM_FENCE); - #endif - } - #if GLOBAL_MEM_FENCE == 1 - barrier(CLK_GLOBAL_MEM_FENCE); - #endif -} - -// ================================================================================================= -// The upper-triangular and lower-triangular kernels are only used in special cases -#if defined(ROUTINE_SYRK) || defined(ROUTINE_HERK) || defined(ROUTINE_SYR2K) || defined(ROUTINE_HER2K) - -// Main entry point of the kernel. This is the upper-triangular version. -__attribute__((reqd_work_group_size(MDIMC, NDIMC, 1))) -__kernel void XgemmUpper(const int kSizeN, const int kSizeK, - const real_arg arg_alpha, - const real_arg arg_beta, - const __global realM* restrict agm, - const __global realN* restrict bgm, - __global realM* cgm) { - const real alpha = GetRealArg(arg_alpha); - const real beta = GetRealArg(arg_beta); - - // Skip these threads if they do not contain threads contributing to the upper-triangle - if (GetGroupID1()*NWG < GetGroupID0()*MWG) { - return; - } - - // Allocates workgroup-private memory (local memory) - #if SA == 1 - __local realM alm[KWG * MWG/VWM]; - #endif - #if SB == 1 - __local realN blm[KWG * NWG/VWN]; - #endif - - // Computes the matrix-multiplication and stores the result in register memory - realM cpm[NWI][MWI/VWM]; - #if SA == 1 && SB == 1 - XgemmBody(kSizeN, kSizeN, kSizeK, agm, bgm, cgm, cpm, alm, blm); - #elif SA == 1 - XgemmBody(kSizeN, kSizeN, kSizeK, agm, bgm, cgm, cpm, alm); - #elif SB == 1 - XgemmBody(kSizeN, kSizeN, kSizeK, agm, bgm, cgm, cpm, blm); - #else - XgemmBody(kSizeN, kSizeN, kSizeK, agm, bgm, cgm, cpm); - #endif - - // Stores an MWG * NWG tile of results and performs the multiplication with alpha and beta - StoreResults(cgm, cpm, kSizeN, alpha, beta); -} - -// Main entry point of the kernel. This is the lower-triangular version. -__attribute__((reqd_work_group_size(MDIMC, NDIMC, 1))) -__kernel void XgemmLower(const int kSizeN, const int kSizeK, - const real_arg arg_alpha, - const real_arg arg_beta, - const __global realM* restrict agm, - const __global realN* restrict bgm, - __global realM* cgm) { - const real alpha = GetRealArg(arg_alpha); - const real beta = GetRealArg(arg_beta); - - // Skip these threads if they do not contain threads contributing to the lower-triangle - if (GetGroupID1()*NWG > GetGroupID0()*MWG) { - return; } - - // Allocates workgroup-private memory (local memory) - #if SA == 1 - __local realM alm[KWG * MWG/VWM]; - #endif - #if SB == 1 - __local realN blm[KWG * NWG/VWN]; - #endif - - // Computes the matrix-multiplication and stores the result in register memory - realM cpm[NWI][MWI/VWM]; - #if SA == 1 && SB == 1 - XgemmBody(kSizeN, kSizeN, kSizeK, agm, bgm, cgm, cpm, alm, blm); - #elif SA == 1 - XgemmBody(kSizeN, kSizeN, kSizeK, agm, bgm, cgm, cpm, alm); - #elif SB == 1 - XgemmBody(kSizeN, kSizeN, kSizeK, agm, bgm, cgm, cpm, blm); - #else - XgemmBody(kSizeN, kSizeN, kSizeK, agm, bgm, cgm, cpm); - #endif - - // Stores an MWG * NWG tile of results and performs the multiplication with alpha and beta - StoreResults(cgm, cpm, kSizeN, alpha, beta); -} - -// ================================================================================================= -// If not using a triangular version, include the regular kernel -#else - -// Main entry point of the kernel. This is the regular full version. -__attribute__((reqd_work_group_size(MDIMC, NDIMC, 1))) -__kernel void Xgemm(const int kSizeM, const int kSizeN, const int kSizeK, - const real_arg arg_alpha, - const real_arg arg_beta, - const __global realM* restrict agm, - const __global realN* restrict bgm, - __global realM* cgm) { - const real alpha = GetRealArg(arg_alpha); - const real beta = GetRealArg(arg_beta); - - // Allocates workgroup-private memory (local memory) - #if SA == 1 - __local realM alm[KWG * MWG/VWM]; - #endif - #if SB == 1 - __local realN blm[KWG * NWG/VWN]; - #endif - - // Computes the matrix-multiplication and stores the result in register memory - realM cpm[NWI][MWI/VWM]; - #if SA == 1 && SB == 1 - XgemmBody(kSizeM, kSizeN, kSizeK, agm, bgm, cgm, cpm, alm, blm); - #elif SA == 1 - XgemmBody(kSizeM, kSizeN, kSizeK, agm, bgm, cgm, cpm, alm); - #elif SB == 1 - XgemmBody(kSizeM, kSizeN, kSizeK, agm, bgm, cgm, cpm, blm); - #else - XgemmBody(kSizeM, kSizeN, kSizeK, agm, bgm, cgm, cpm); - #endif - - // Stores an MWG * NWG tile of results and performs the multiplication with alpha and beta - StoreResults(cgm, cpm, kSizeM, alpha, beta); } -#endif // ================================================================================================= // End of the C++11 raw string literal diff --git a/src/kernels/level3/xgemm_part3.opencl b/src/kernels/level3/xgemm_part3.opencl new file mode 100644 index 00000000..a5faef5a --- /dev/null +++ b/src/kernels/level3/xgemm_part3.opencl @@ -0,0 +1,229 @@ + +// ================================================================================================= +// 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 is part 3 of 3 of the GEMM kernel. See part 1 for more information. +// +// ================================================================================================= + +// Enables loading of this file using the C++ pre-processor's #include (C++11 standard raw string +// literal). Comment-out this line for syntax-highlighting when developing. +R"( + +// ================================================================================================= + +// Main body of the matrix-multiplication algorithm. It calls the (inlined) functions above. +inline void XgemmBody(const int kSizeM, const int kSizeN, const int kSizeK, + const __global realM* restrict agm, const __global realN* restrict bgm, + __global realM* cgm, realM cpm[NWI][MWI/VWM] + #if SA == 1 && SB == 1 + , __local realM* alm, __local realN* blm + #elif SA == 1 + , __local realM* alm + #elif SB == 1 + , __local realN* blm + #endif + ) { + + // Allocates workitem-private memory (registers) + realM apm[MWI/VWM]; + realN bpm[NWI/VWN]; + + // Combined thread identifier (volatile to disable caching) + #if SA == 1 || SB == 1 + volatile int tid = get_local_id(0) + MDIMC*get_local_id(1); + #endif + + // Initializes the accumulation registers + InitAccRegisters(cpm); + + // Loops over all workgroup tiles + for (int kwg=0; kwg<kSizeK; kwg+=KWG) { + + // Loads data: off-chip --> local (matrix A) + #if SA == 1 + GlobalToLocalA(agm, alm, kSizeM, tid, kwg); + #endif + // Loads data: off-chip --> local (matrix B) + #if SB == 1 + GlobalToLocalB(bgm, blm, kSizeN, tid, kwg); + #endif + #if SA == 1 || SB == 1 + barrier(CLK_LOCAL_MEM_FENCE); + #endif + + // Loops over all workitem tiles, unrolled by a factor KWI + for (int pwi=0; pwi<KWG; pwi+=KWI) { + #pragma unroll + for (int pit=0; pit<KWI; ++pit) { + #if SA == 0 || SB == 0 + int idk = kwg + pwi + pit; + #endif + #if SA == 1 || SB == 1 + int kg = pwi+pit; + #endif + + // Loads data: local --> private (matrix A) + #if SA == 1 + LocalToPrivateA(alm, apm, kg); + // Loads data: off-chip --> private (matrix A) + #else + GlobalToPrivateA(agm, apm, kSizeM, idk, kwg); + #endif + + // Loads data: local --> private (matrix B) + #if SB == 1 + LocalToPrivateB(blm, bpm, kg); + // Loads data: off-chip --> private (matrix B) + #else + GlobalToPrivateB(bgm, bpm, kSizeN, idk); + #endif + + // Performs the accumulation (Cpm += Apm * Bpm) + MultiplyAccumulate(cpm, apm, bpm); + } + } + #if SA == 1 || SB == 1 + barrier(CLK_LOCAL_MEM_FENCE); + #endif + } + #if GLOBAL_MEM_FENCE == 1 + barrier(CLK_GLOBAL_MEM_FENCE); + #endif +} + +// ================================================================================================= +// The upper-triangular and lower-triangular kernels are only used in special cases +#if defined(ROUTINE_SYRK) || defined(ROUTINE_HERK) || defined(ROUTINE_SYR2K) || defined(ROUTINE_HER2K) + +// Main entry point of the kernel. This is the upper-triangular version. +__kernel __attribute__((reqd_work_group_size(MDIMC, NDIMC, 1))) +void XgemmUpper(const int kSizeN, const int kSizeK, + const real_arg arg_alpha, + const real_arg arg_beta, + const __global realM* restrict agm, + const __global realN* restrict bgm, + __global realM* cgm) { + const real alpha = GetRealArg(arg_alpha); + const real beta = GetRealArg(arg_beta); + + // Skip these threads if they do not contain threads contributing to the upper-triangle + if (GetGroupID1()*NWG < GetGroupID0()*MWG) { + return; + } + + // Allocates workgroup-private memory (local memory) + #if SA == 1 + __local realM alm[KWG * MWG/VWM]; + #endif + #if SB == 1 + __local realN blm[KWG * NWG/VWN]; + #endif + + // Computes the matrix-multiplication and stores the result in register memory + realM cpm[NWI][MWI/VWM]; + #if SA == 1 && SB == 1 + XgemmBody(kSizeN, kSizeN, kSizeK, agm, bgm, cgm, cpm, alm, blm); + #elif SA == 1 + XgemmBody(kSizeN, kSizeN, kSizeK, agm, bgm, cgm, cpm, alm); + #elif SB == 1 + XgemmBody(kSizeN, kSizeN, kSizeK, agm, bgm, cgm, cpm, blm); + #else + XgemmBody(kSizeN, kSizeN, kSizeK, agm, bgm, cgm, cpm); + #endif + + // Stores an MWG * NWG tile of results and performs the multiplication with alpha and beta + StoreResults(cgm, cpm, kSizeN, alpha, beta); +} + +// Main entry point of the kernel. This is the lower-triangular version. +__kernel __attribute__((reqd_work_group_size(MDIMC, NDIMC, 1))) +void XgemmLower(const int kSizeN, const int kSizeK, + const real_arg arg_alpha, + const real_arg arg_beta, + const __global realM* restrict agm, + const __global realN* restrict bgm, + __global realM* cgm) { + const real alpha = GetRealArg(arg_alpha); + const real beta = GetRealArg(arg_beta); + + // Skip these threads if they do not contain threads contributing to the lower-triangle + if (GetGroupID1()*NWG > GetGroupID0()*MWG) { + return; + } + + // Allocates workgroup-private memory (local memory) + #if SA == 1 + __local realM alm[KWG * MWG/VWM]; + #endif + #if SB == 1 + __local realN blm[KWG * NWG/VWN]; + #endif + + // Computes the matrix-multiplication and stores the result in register memory + realM cpm[NWI][MWI/VWM]; + #if SA == 1 && SB == 1 + XgemmBody(kSizeN, kSizeN, kSizeK, agm, bgm, cgm, cpm, alm, blm); + #elif SA == 1 + XgemmBody(kSizeN, kSizeN, kSizeK, agm, bgm, cgm, cpm, alm); + #elif SB == 1 + XgemmBody(kSizeN, kSizeN, kSizeK, agm, bgm, cgm, cpm, blm); + #else + XgemmBody(kSizeN, kSizeN, kSizeK, agm, bgm, cgm, cpm); + #endif + + // Stores an MWG * NWG tile of results and performs the multiplication with alpha and beta + StoreResults(cgm, cpm, kSizeN, alpha, beta); +} + +// ================================================================================================= +// If not using a triangular version, include the regular kernel +#else + +// Main entry point of the kernel. This is the regular full version. +__kernel __attribute__((reqd_work_group_size(MDIMC, NDIMC, 1))) +void Xgemm(const int kSizeM, const int kSizeN, const int kSizeK, + const real_arg arg_alpha, + const real_arg arg_beta, + const __global realM* restrict agm, + const __global realN* restrict bgm, + __global realM* cgm) { + const real alpha = GetRealArg(arg_alpha); + const real beta = GetRealArg(arg_beta); + + // Allocates workgroup-private memory (local memory) + #if SA == 1 + __local realM alm[KWG * MWG/VWM]; + #endif + #if SB == 1 + __local realN blm[KWG * NWG/VWN]; + #endif + + // Computes the matrix-multiplication and stores the result in register memory + realM cpm[NWI][MWI/VWM]; + #if SA == 1 && SB == 1 + XgemmBody(kSizeM, kSizeN, kSizeK, agm, bgm, cgm, cpm, alm, blm); + #elif SA == 1 + XgemmBody(kSizeM, kSizeN, kSizeK, agm, bgm, cgm, cpm, alm); + #elif SB == 1 + XgemmBody(kSizeM, kSizeN, kSizeK, agm, bgm, cgm, cpm, blm); + #else + XgemmBody(kSizeM, kSizeN, kSizeK, agm, bgm, cgm, cpm); + #endif + + // Stores an MWG * NWG tile of results and performs the multiplication with alpha and beta + StoreResults(cgm, cpm, kSizeM, alpha, beta); +} + +#endif +// ================================================================================================= + +// End of the C++11 raw string literal +)" + +// ================================================================================================= diff --git a/src/routine.cpp b/src/routine.cpp index 189ae190..d938d66f 100644 --- a/src/routine.cpp +++ b/src/routine.cpp @@ -14,6 +14,7 @@ #include <string> #include <vector> #include <chrono> +#include <cstdlib> #include "routine.hpp" @@ -42,13 +43,19 @@ StatusCode Routine::SetUp() { // Queries the cache to see whether or not the program (context-specific) is already there if (ProgramIsInCache(context_, precision_, routine_name_)) { return StatusCode::kSuccess; } + // Sets the build options from an environmental variable (if set) + auto options = std::vector<std::string>(); + const auto environment_variable = std::getenv("CLBLAST_BUILD_OPTIONS"); + if (environment_variable != nullptr) { + options.push_back(std::string(environment_variable)); + } + // Queries the cache to see whether or not the binary (device-specific) is already there. If it // is, a program is created and stored in the cache if (BinaryIsInCache(device_name_, precision_, routine_name_)) { try { auto& binary = GetBinaryFromCache(device_name_, precision_, routine_name_); auto program = Program(device_, context_, binary); - auto options = std::vector<std::string>(); program.Build(device_, options); StoreProgramToCache(program, context_, precision_, routine_name_); } catch (...) { return StatusCode::kBuildProgramFailure; } @@ -115,7 +122,6 @@ StatusCode Routine::SetUp() { // Compiles the kernel try { auto program = Program(context_, source_string); - auto options = std::vector<std::string>(); const auto build_status = program.Build(device_, options); // Checks for compiler crashes/errors/warnings diff --git a/src/routines/level3/xgemm.cpp b/src/routines/level3/xgemm.cpp index a85f55b5..90e43fe4 100644 --- a/src/routines/level3/xgemm.cpp +++ b/src/routines/level3/xgemm.cpp @@ -34,6 +34,7 @@ Xgemm<T>::Xgemm(Queue &queue, EventPointer event, const std::string &name): #include "../../kernels/level3/convert_hermitian.opencl" #include "../../kernels/level3/xgemm_part1.opencl" #include "../../kernels/level3/xgemm_part2.opencl" + #include "../../kernels/level3/xgemm_part3.opencl" #include "../../kernels/level3/xgemm_direct.opencl" ; } diff --git a/src/routines/level3/xher2k.cpp b/src/routines/level3/xher2k.cpp index 1ba6080f..ba770065 100644 --- a/src/routines/level3/xher2k.cpp +++ b/src/routines/level3/xher2k.cpp @@ -31,6 +31,7 @@ Xher2k<T,U>::Xher2k(Queue &queue, EventPointer event, const std::string &name): #include "../../kernels/level3/transpose_pad.opencl" #include "../../kernels/level3/xgemm_part1.opencl" #include "../../kernels/level3/xgemm_part2.opencl" + #include "../../kernels/level3/xgemm_part3.opencl" ; } diff --git a/src/routines/level3/xherk.cpp b/src/routines/level3/xherk.cpp index 0fa1b7b1..3063f3bc 100644 --- a/src/routines/level3/xherk.cpp +++ b/src/routines/level3/xherk.cpp @@ -31,6 +31,7 @@ Xherk<T,U>::Xherk(Queue &queue, EventPointer event, const std::string &name): #include "../../kernels/level3/transpose_pad.opencl" #include "../../kernels/level3/xgemm_part1.opencl" #include "../../kernels/level3/xgemm_part2.opencl" + #include "../../kernels/level3/xgemm_part3.opencl" ; } diff --git a/src/routines/level3/xsyr2k.cpp b/src/routines/level3/xsyr2k.cpp index 5a90a5a2..158cd9e5 100644 --- a/src/routines/level3/xsyr2k.cpp +++ b/src/routines/level3/xsyr2k.cpp @@ -31,6 +31,7 @@ Xsyr2k<T>::Xsyr2k(Queue &queue, EventPointer event, const std::string &name): #include "../../kernels/level3/transpose_pad.opencl" #include "../../kernels/level3/xgemm_part1.opencl" #include "../../kernels/level3/xgemm_part2.opencl" + #include "../../kernels/level3/xgemm_part3.opencl" ; } diff --git a/src/routines/level3/xsyrk.cpp b/src/routines/level3/xsyrk.cpp index 46b96b76..e1a72ef6 100644 --- a/src/routines/level3/xsyrk.cpp +++ b/src/routines/level3/xsyrk.cpp @@ -31,6 +31,7 @@ Xsyrk<T>::Xsyrk(Queue &queue, EventPointer event, const std::string &name): #include "../../kernels/level3/transpose_pad.opencl" #include "../../kernels/level3/xgemm_part1.opencl" #include "../../kernels/level3/xgemm_part2.opencl" + #include "../../kernels/level3/xgemm_part3.opencl" ; } diff --git a/src/tuning/kernels/xgemm.cpp b/src/tuning/kernels/xgemm.cpp index 898b8435..4cb7fd00 100644 --- a/src/tuning/kernels/xgemm.cpp +++ b/src/tuning/kernels/xgemm.cpp @@ -7,7 +7,9 @@ // Author(s): // Cedric Nugteren <www.cedricnugteren.nl> // -// This file uses the CLTune auto-tuner to tune the xgemm OpenCL kernels. +// This file uses the CLTune auto-tuner to tune the xgemm OpenCL 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. // // ================================================================================================= @@ -21,18 +23,19 @@ namespace clblast { // ================================================================================================= // See comment at top of file for a description of the class -template <typename T> +template <typename T, int V> class TuneXgemm { public: // The representative kernel and the source code - static std::string KernelFamily() { return "xgemm"; } + static std::string KernelFamily() { return (V==1) ? "xgemm_1" : "xgemm_2"; } static std::string KernelName() { return "Xgemm"; } static std::string GetSources() { return #include "../src/kernels/common.opencl" #include "../src/kernels/level3/xgemm_part1.opencl" #include "../src/kernels/level3/xgemm_part2.opencl" + #include "../src/kernels/level3/xgemm_part3.opencl" ; } @@ -48,7 +51,7 @@ class TuneXgemm { static size_t DefaultM() { return 1024; } static size_t DefaultN() { return 1024; } static size_t DefaultK() { return 1024; } - static double DefaultFraction() { return 2048.0; } + static double DefaultFraction() { return (V==1) ? 1.0 : 512.0; } // test all or sample randomly // Describes how to obtain the sizes of the buffers static size_t GetSizeX(const Arguments<T> &) { return 1; } // N/A for this kernel @@ -60,20 +63,38 @@ class TuneXgemm { // Sets the tuning parameters and their possible values static void SetParameters(cltune::Tuner &tuner, const size_t id) { - tuner.AddParameter(id, "MWG", {16, 32, 64, 128}); - tuner.AddParameter(id, "NWG", {16, 32, 64, 128}); - tuner.AddParameter(id, "KWG", {16, 32}); - tuner.AddParameter(id, "MDIMC", {8, 16, 32}); - tuner.AddParameter(id, "NDIMC", {8, 16, 32}); - tuner.AddParameter(id, "MDIMA", {8, 16, 32}); - tuner.AddParameter(id, "NDIMB", {8, 16, 32}); - tuner.AddParameter(id, "KWI", {2, 8}); - tuner.AddParameter(id, "VWM", {1, 2, 4, 8}); - tuner.AddParameter(id, "VWN", {1, 2, 4, 8}); - tuner.AddParameter(id, "STRM", {0, 1}); - tuner.AddParameter(id, "STRN", {0, 1}); - tuner.AddParameter(id, "SA", {0, 1}); - tuner.AddParameter(id, "SB", {0, 1}); + if (V==1) { // limited subset of tuning parameters - but explorable exhaustively + tuner.AddParameter(id, "MWG", {16, 32, 64}); + tuner.AddParameter(id, "NWG", {16, 32, 64}); + tuner.AddParameter(id, "KWG", {32}); + tuner.AddParameter(id, "MDIMC", {8, 16, 32}); + tuner.AddParameter(id, "NDIMC", {8, 16, 32}); + tuner.AddParameter(id, "MDIMA", {8, 16, 32}); + tuner.AddParameter(id, "NDIMB", {8, 16, 32}); + tuner.AddParameter(id, "KWI", {2}); + tuner.AddParameter(id, "VWM", {1, 2, 4}); + tuner.AddParameter(id, "VWN", {1, 2, 4}); + tuner.AddParameter(id, "STRM", {0}); + tuner.AddParameter(id, "STRN", {0}); + tuner.AddParameter(id, "SA", {0, 1}); + tuner.AddParameter(id, "SB", {0, 1}); + } // a lot more tuning parameters - has to be sampled randomly, too much to test all + else { + tuner.AddParameter(id, "MWG", {16, 32, 64, 128}); + tuner.AddParameter(id, "NWG", {16, 32, 64, 128}); + tuner.AddParameter(id, "KWG", {16, 32}); + tuner.AddParameter(id, "MDIMC", {8, 16, 32}); + tuner.AddParameter(id, "NDIMC", {8, 16, 32}); + tuner.AddParameter(id, "MDIMA", {8, 16, 32}); + tuner.AddParameter(id, "NDIMB", {8, 16, 32}); + tuner.AddParameter(id, "KWI", {2}); + tuner.AddParameter(id, "VWM", {1, 2, 4, 8}); + tuner.AddParameter(id, "VWN", {1, 2, 4, 8}); + tuner.AddParameter(id, "STRM", {0, 1}); + tuner.AddParameter(id, "STRN", {0, 1}); + tuner.AddParameter(id, "SA", {0, 1}); + tuner.AddParameter(id, "SB", {0, 1}); + } } // Sets the constraints @@ -92,6 +113,14 @@ class TuneXgemm { // KWG has to be a multiple of KDIMA = ((MDIMC*NDIMC)/(MDIMA)) and KDIMB = (...) tuner.AddConstraint(id, MultipleOfXMulYDivZ, {"KWG", "MDIMC", "NDIMC", "MDIMA"}); tuner.AddConstraint(id, MultipleOfXMulYDivZ, {"KWG", "MDIMC", "NDIMC", "NDIMB"}); + + // 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]; }; + tuner.AddConstraint(id, IsEqual, {"MDIMC", "MDIMA"}); + tuner.AddConstraint(id, IsEqual, {"NDIMC", "NDIMB"}); + tuner.AddConstraint(id, IsEqual, {"SA", "SB"}); + } } // Sets the local memory size @@ -145,15 +174,22 @@ class TuneXgemm { using float2 = clblast::float2; using double2 = clblast::double2; -// Main function (not within the clblast namespace) -int main(int argc, char *argv[]) { +// Function to tune a specific variation V (not within the clblast namespace) +template <int V> +void StartVariation(int argc, char *argv[]) { switch(clblast::GetPrecision(argc, argv)) { - case clblast::Precision::kHalf: clblast::Tuner<clblast::TuneXgemm<half>, half>(argc, argv); break; - case clblast::Precision::kSingle: clblast::Tuner<clblast::TuneXgemm<float>, float>(argc, argv); break; - case clblast::Precision::kDouble: clblast::Tuner<clblast::TuneXgemm<double>, double>(argc, argv); break; - case clblast::Precision::kComplexSingle: clblast::Tuner<clblast::TuneXgemm<float2>, float2>(argc, argv); break; - case clblast::Precision::kComplexDouble: clblast::Tuner<clblast::TuneXgemm<double2>, double2>(argc, argv); break; + case clblast::Precision::kHalf: clblast::Tuner<clblast::TuneXgemm<half,V>, half>(argc, argv); break; + case clblast::Precision::kSingle: clblast::Tuner<clblast::TuneXgemm<float,V>, float>(argc, argv); break; + case clblast::Precision::kDouble: clblast::Tuner<clblast::TuneXgemm<double,V>, double>(argc, argv); break; + case clblast::Precision::kComplexSingle: clblast::Tuner<clblast::TuneXgemm<float2,V>, float2>(argc, argv); break; + case clblast::Precision::kComplexDouble: clblast::Tuner<clblast::TuneXgemm<double2,V>, double2>(argc, argv); break; } +} + +// Main function (not within the clblast namespace) +int main(int argc, char *argv[]) { + StartVariation<1>(argc, argv); + StartVariation<2>(argc, argv); return 0; } diff --git a/src/utilities.cpp b/src/utilities.cpp index 11a6c439..77bc72d7 100644 --- a/src/utilities.cpp +++ b/src/utilities.cpp @@ -161,6 +161,8 @@ template <typename T> T ConvertArgument(const char* value) { return static_cast<T>(std::stoi(value)); } +template size_t ConvertArgument(const char* value); + template <> half ConvertArgument(const char* value) { return FloatToHalf(static_cast<float>(std::stod(value))); } @@ -179,6 +181,15 @@ template <> double2 ConvertArgument(const char* value) { return double2{val, val}; } +// Variant of "ConvertArgument" with default values +template <typename T> +T ConvertArgument(const char* value, T default_value) { + + if (value) { return ConvertArgument<T>(value); } + return default_value; +} +template size_t ConvertArgument(const char* value, size_t default_value); + // This function matches patterns in the form of "-option value" or "--option value". It returns a // default value in case the option is not found in the argument string. template <typename T> diff --git a/src/utilities.hpp b/src/utilities.hpp index 700d30d6..75bd5a69 100644 --- a/src/utilities.hpp +++ b/src/utilities.hpp @@ -187,6 +187,10 @@ std::string ToString(T value); template <typename T> T ConvertArgument(const char* value); +// Variant of "ConvertArgument" with default values +template <typename T> +T ConvertArgument(const char* value, T default_value); + // Basic argument parser, matching patterns in the form of "-option value" and "--option value" template <typename T> T GetArgument(const int argc, char **argv, std::string &help, |