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OpenBLAS/Makefile.arm64

Makefile.arm64 3.9 kB
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Support compilation with NVIDIA HPC compilers (which do not take gcc-style arch options)
5 years ago
GCC did not support -mtune for ARM64 before 5.1
4 years ago
Add march/mtune flags for clang builds on ARM64 as well (#3414) * Add march/mtune flags for clang as well
4 years ago
GCC did not support -mtune for ARM64 before 5.1
4 years ago
added experimental support for ARMV8
12 years ago
Support compilation with NAG fortran
4 years ago
added experimental support for ARMV8
12 years ago
Support compilation with NAG fortran
4 years ago
added experimental support for ARMV8
12 years ago
add ARMV8SVE target
4 years ago
Simplifying ARMv8 build parameters ARMv8 builds were a bit mixed up, with ThunderX2 code in ARMv8 mode (which is not right because TX2 is ARMv8.1) as well as requiring a few redundancies in the defines, making it harder to maintain and understand what core has what. A few other minor issues were also fixed. Tests were made on the following cores: A53, A57, A72, Falkor, ThunderX, ThunderX2, and XGene. Tests were: OpenBLAS/test, OpenBLAS/benchmark, BLAS-Tester. A summary: * Removed TX2 code from ARMv8 build, to make sure it is compatible with all ARMv8 cores, not just v8.1. Also, the TX2 code has actually harmed performance on big cores. * Commoned up ARMv8 architectures' defines in params.h, to make sure that all will benefit from ARMv8 settings, in addition to their own. * Adding a few more cores, using ARMv8's include strategy, to benefit from compiler optimisations using mtune. Also updated cache information from the manuals, making sure we set good conservative values by default. Removed Vulcan, as it's an alias to TX2. * Auto-detecting most of those cores, but also updating the forced compilation in getarch.c, to make sure the parameters are the same whether compiled natively or forced arch. Benefits: * ARMv8 build is now guaranteed to work on all ARMv8 cores * Improved performance for ARMv8 builds on some cores (A72, Falkor, ThunderX1 and 2: up to 11%) over current develop * Improved performance for *all* cores comparing to develop branch before TX2's patch (9% ~ 36%) * ThunderX1 builds are 14% faster than ARMv8 on TX1, 9% faster than current develop's branch and 8% faster than deveop before tx2 patches Issues: * Regression from current develop branch for A53 (-12%) and A57 (-3%) with ARMv8 builds, but still faster than before TX2's commit (+15% and +24% respectively). This can be improved with a simplification of TX2's code, to be done in future patches. At least the code is guaranteed to be ARMv8.0 now. Comments: * CortexA57 builds are unchanged on A57 hardware from develop's branch, which makes sense, as it's untouched. * CortexA72 builds improve over A57 on A72 hardware, even if they're using the same includes due to new compiler tunning in the makefile.
7 years ago
Support compilation with NAG fortran
4 years ago
Simplifying ARMv8 build parameters ARMv8 builds were a bit mixed up, with ThunderX2 code in ARMv8 mode (which is not right because TX2 is ARMv8.1) as well as requiring a few redundancies in the defines, making it harder to maintain and understand what core has what. A few other minor issues were also fixed. Tests were made on the following cores: A53, A57, A72, Falkor, ThunderX, ThunderX2, and XGene. Tests were: OpenBLAS/test, OpenBLAS/benchmark, BLAS-Tester. A summary: * Removed TX2 code from ARMv8 build, to make sure it is compatible with all ARMv8 cores, not just v8.1. Also, the TX2 code has actually harmed performance on big cores. * Commoned up ARMv8 architectures' defines in params.h, to make sure that all will benefit from ARMv8 settings, in addition to their own. * Adding a few more cores, using ARMv8's include strategy, to benefit from compiler optimisations using mtune. Also updated cache information from the manuals, making sure we set good conservative values by default. Removed Vulcan, as it's an alias to TX2. * Auto-detecting most of those cores, but also updating the forced compilation in getarch.c, to make sure the parameters are the same whether compiled natively or forced arch. Benefits: * ARMv8 build is now guaranteed to work on all ARMv8 cores * Improved performance for ARMv8 builds on some cores (A72, Falkor, ThunderX1 and 2: up to 11%) over current develop * Improved performance for *all* cores comparing to develop branch before TX2's patch (9% ~ 36%) * ThunderX1 builds are 14% faster than ARMv8 on TX1, 9% faster than current develop's branch and 8% faster than deveop before tx2 patches Issues: * Regression from current develop branch for A53 (-12%) and A57 (-3%) with ARMv8 builds, but still faster than before TX2's commit (+15% and +24% respectively). This can be improved with a simplification of TX2's code, to be done in future patches. At least the code is guaranteed to be ARMv8.0 now. Comments: * CortexA57 builds are unchanged on A57 hardware from develop's branch, which makes sense, as it's untouched. * CortexA72 builds improve over A57 on A72 hardware, even if they're using the same includes due to new compiler tunning in the makefile.
7 years ago
Support compilation with NAG fortran
4 years ago
Simplifying ARMv8 build parameters ARMv8 builds were a bit mixed up, with ThunderX2 code in ARMv8 mode (which is not right because TX2 is ARMv8.1) as well as requiring a few redundancies in the defines, making it harder to maintain and understand what core has what. A few other minor issues were also fixed. Tests were made on the following cores: A53, A57, A72, Falkor, ThunderX, ThunderX2, and XGene. Tests were: OpenBLAS/test, OpenBLAS/benchmark, BLAS-Tester. A summary: * Removed TX2 code from ARMv8 build, to make sure it is compatible with all ARMv8 cores, not just v8.1. Also, the TX2 code has actually harmed performance on big cores. * Commoned up ARMv8 architectures' defines in params.h, to make sure that all will benefit from ARMv8 settings, in addition to their own. * Adding a few more cores, using ARMv8's include strategy, to benefit from compiler optimisations using mtune. Also updated cache information from the manuals, making sure we set good conservative values by default. Removed Vulcan, as it's an alias to TX2. * Auto-detecting most of those cores, but also updating the forced compilation in getarch.c, to make sure the parameters are the same whether compiled natively or forced arch. Benefits: * ARMv8 build is now guaranteed to work on all ARMv8 cores * Improved performance for ARMv8 builds on some cores (A72, Falkor, ThunderX1 and 2: up to 11%) over current develop * Improved performance for *all* cores comparing to develop branch before TX2's patch (9% ~ 36%) * ThunderX1 builds are 14% faster than ARMv8 on TX1, 9% faster than current develop's branch and 8% faster than deveop before tx2 patches Issues: * Regression from current develop branch for A53 (-12%) and A57 (-3%) with ARMv8 builds, but still faster than before TX2's commit (+15% and +24% respectively). This can be improved with a simplification of TX2's code, to be done in future patches. At least the code is guaranteed to be ARMv8.0 now. Comments: * CortexA57 builds are unchanged on A57 hardware from develop's branch, which makes sense, as it's untouched. * CortexA72 builds improve over A57 on A72 hardware, even if they're using the same includes due to new compiler tunning in the makefile.
7 years ago
Adding arm64 target CORTEXA57 Co-Authored-By: Ralph Campbell <ralph.campbell@broadcom.com>
10 years ago
Simplifying ARMv8 build parameters ARMv8 builds were a bit mixed up, with ThunderX2 code in ARMv8 mode (which is not right because TX2 is ARMv8.1) as well as requiring a few redundancies in the defines, making it harder to maintain and understand what core has what. A few other minor issues were also fixed. Tests were made on the following cores: A53, A57, A72, Falkor, ThunderX, ThunderX2, and XGene. Tests were: OpenBLAS/test, OpenBLAS/benchmark, BLAS-Tester. A summary: * Removed TX2 code from ARMv8 build, to make sure it is compatible with all ARMv8 cores, not just v8.1. Also, the TX2 code has actually harmed performance on big cores. * Commoned up ARMv8 architectures' defines in params.h, to make sure that all will benefit from ARMv8 settings, in addition to their own. * Adding a few more cores, using ARMv8's include strategy, to benefit from compiler optimisations using mtune. Also updated cache information from the manuals, making sure we set good conservative values by default. Removed Vulcan, as it's an alias to TX2. * Auto-detecting most of those cores, but also updating the forced compilation in getarch.c, to make sure the parameters are the same whether compiled natively or forced arch. Benefits: * ARMv8 build is now guaranteed to work on all ARMv8 cores * Improved performance for ARMv8 builds on some cores (A72, Falkor, ThunderX1 and 2: up to 11%) over current develop * Improved performance for *all* cores comparing to develop branch before TX2's patch (9% ~ 36%) * ThunderX1 builds are 14% faster than ARMv8 on TX1, 9% faster than current develop's branch and 8% faster than deveop before tx2 patches Issues: * Regression from current develop branch for A53 (-12%) and A57 (-3%) with ARMv8 builds, but still faster than before TX2's commit (+15% and +24% respectively). This can be improved with a simplification of TX2's code, to be done in future patches. At least the code is guaranteed to be ARMv8.0 now. Comments: * CortexA57 builds are unchanged on A57 hardware from develop's branch, which makes sense, as it's untouched. * CortexA72 builds improve over A57 on A72 hardware, even if they're using the same includes due to new compiler tunning in the makefile.
7 years ago
Support compilation with NAG fortran
4 years ago
Simplifying ARMv8 build parameters ARMv8 builds were a bit mixed up, with ThunderX2 code in ARMv8 mode (which is not right because TX2 is ARMv8.1) as well as requiring a few redundancies in the defines, making it harder to maintain and understand what core has what. A few other minor issues were also fixed. Tests were made on the following cores: A53, A57, A72, Falkor, ThunderX, ThunderX2, and XGene. Tests were: OpenBLAS/test, OpenBLAS/benchmark, BLAS-Tester. A summary: * Removed TX2 code from ARMv8 build, to make sure it is compatible with all ARMv8 cores, not just v8.1. Also, the TX2 code has actually harmed performance on big cores. * Commoned up ARMv8 architectures' defines in params.h, to make sure that all will benefit from ARMv8 settings, in addition to their own. * Adding a few more cores, using ARMv8's include strategy, to benefit from compiler optimisations using mtune. Also updated cache information from the manuals, making sure we set good conservative values by default. Removed Vulcan, as it's an alias to TX2. * Auto-detecting most of those cores, but also updating the forced compilation in getarch.c, to make sure the parameters are the same whether compiled natively or forced arch. Benefits: * ARMv8 build is now guaranteed to work on all ARMv8 cores * Improved performance for ARMv8 builds on some cores (A72, Falkor, ThunderX1 and 2: up to 11%) over current develop * Improved performance for *all* cores comparing to develop branch before TX2's patch (9% ~ 36%) * ThunderX1 builds are 14% faster than ARMv8 on TX1, 9% faster than current develop's branch and 8% faster than deveop before tx2 patches Issues: * Regression from current develop branch for A53 (-12%) and A57 (-3%) with ARMv8 builds, but still faster than before TX2's commit (+15% and +24% respectively). This can be improved with a simplification of TX2's code, to be done in future patches. At least the code is guaranteed to be ARMv8.0 now. Comments: * CortexA57 builds are unchanged on A57 hardware from develop's branch, which makes sense, as it's untouched. * CortexA72 builds improve over A57 on A72 hardware, even if they're using the same includes due to new compiler tunning in the makefile.
7 years ago
Support compilation with NAG fortran
4 years ago
Simplifying ARMv8 build parameters ARMv8 builds were a bit mixed up, with ThunderX2 code in ARMv8 mode (which is not right because TX2 is ARMv8.1) as well as requiring a few redundancies in the defines, making it harder to maintain and understand what core has what. A few other minor issues were also fixed. Tests were made on the following cores: A53, A57, A72, Falkor, ThunderX, ThunderX2, and XGene. Tests were: OpenBLAS/test, OpenBLAS/benchmark, BLAS-Tester. A summary: * Removed TX2 code from ARMv8 build, to make sure it is compatible with all ARMv8 cores, not just v8.1. Also, the TX2 code has actually harmed performance on big cores. * Commoned up ARMv8 architectures' defines in params.h, to make sure that all will benefit from ARMv8 settings, in addition to their own. * Adding a few more cores, using ARMv8's include strategy, to benefit from compiler optimisations using mtune. Also updated cache information from the manuals, making sure we set good conservative values by default. Removed Vulcan, as it's an alias to TX2. * Auto-detecting most of those cores, but also updating the forced compilation in getarch.c, to make sure the parameters are the same whether compiled natively or forced arch. Benefits: * ARMv8 build is now guaranteed to work on all ARMv8 cores * Improved performance for ARMv8 builds on some cores (A72, Falkor, ThunderX1 and 2: up to 11%) over current develop * Improved performance for *all* cores comparing to develop branch before TX2's patch (9% ~ 36%) * ThunderX1 builds are 14% faster than ARMv8 on TX1, 9% faster than current develop's branch and 8% faster than deveop before tx2 patches Issues: * Regression from current develop branch for A53 (-12%) and A57 (-3%) with ARMv8 builds, but still faster than before TX2's commit (+15% and +24% respectively). This can be improved with a simplification of TX2's code, to be done in future patches. At least the code is guaranteed to be ARMv8.0 now. Comments: * CortexA57 builds are unchanged on A57 hardware from develop's branch, which makes sense, as it's untouched. * CortexA72 builds improve over A57 on A72 hardware, even if they're using the same includes due to new compiler tunning in the makefile.
7 years ago
Support compilation with NAG fortran
4 years ago
Simplifying ARMv8 build parameters ARMv8 builds were a bit mixed up, with ThunderX2 code in ARMv8 mode (which is not right because TX2 is ARMv8.1) as well as requiring a few redundancies in the defines, making it harder to maintain and understand what core has what. A few other minor issues were also fixed. Tests were made on the following cores: A53, A57, A72, Falkor, ThunderX, ThunderX2, and XGene. Tests were: OpenBLAS/test, OpenBLAS/benchmark, BLAS-Tester. A summary: * Removed TX2 code from ARMv8 build, to make sure it is compatible with all ARMv8 cores, not just v8.1. Also, the TX2 code has actually harmed performance on big cores. * Commoned up ARMv8 architectures' defines in params.h, to make sure that all will benefit from ARMv8 settings, in addition to their own. * Adding a few more cores, using ARMv8's include strategy, to benefit from compiler optimisations using mtune. Also updated cache information from the manuals, making sure we set good conservative values by default. Removed Vulcan, as it's an alias to TX2. * Auto-detecting most of those cores, but also updating the forced compilation in getarch.c, to make sure the parameters are the same whether compiled natively or forced arch. Benefits: * ARMv8 build is now guaranteed to work on all ARMv8 cores * Improved performance for ARMv8 builds on some cores (A72, Falkor, ThunderX1 and 2: up to 11%) over current develop * Improved performance for *all* cores comparing to develop branch before TX2's patch (9% ~ 36%) * ThunderX1 builds are 14% faster than ARMv8 on TX1, 9% faster than current develop's branch and 8% faster than deveop before tx2 patches Issues: * Regression from current develop branch for A53 (-12%) and A57 (-3%) with ARMv8 builds, but still faster than before TX2's commit (+15% and +24% respectively). This can be improved with a simplification of TX2's code, to be done in future patches. At least the code is guaranteed to be ARMv8.0 now. Comments: * CortexA57 builds are unchanged on A57 hardware from develop's branch, which makes sense, as it's untouched. * CortexA72 builds improve over A57 on A72 hardware, even if they're using the same includes due to new compiler tunning in the makefile.
7 years ago
Adding arm64 target CORTEXA57 Co-Authored-By: Ralph Campbell <ralph.campbell@broadcom.com>
10 years ago
Support compilation with NAG fortran
4 years ago
added experimental support for ARMV8
12 years ago
Simplifying ARMv8 build parameters ARMv8 builds were a bit mixed up, with ThunderX2 code in ARMv8 mode (which is not right because TX2 is ARMv8.1) as well as requiring a few redundancies in the defines, making it harder to maintain and understand what core has what. A few other minor issues were also fixed. Tests were made on the following cores: A53, A57, A72, Falkor, ThunderX, ThunderX2, and XGene. Tests were: OpenBLAS/test, OpenBLAS/benchmark, BLAS-Tester. A summary: * Removed TX2 code from ARMv8 build, to make sure it is compatible with all ARMv8 cores, not just v8.1. Also, the TX2 code has actually harmed performance on big cores. * Commoned up ARMv8 architectures' defines in params.h, to make sure that all will benefit from ARMv8 settings, in addition to their own. * Adding a few more cores, using ARMv8's include strategy, to benefit from compiler optimisations using mtune. Also updated cache information from the manuals, making sure we set good conservative values by default. Removed Vulcan, as it's an alias to TX2. * Auto-detecting most of those cores, but also updating the forced compilation in getarch.c, to make sure the parameters are the same whether compiled natively or forced arch. Benefits: * ARMv8 build is now guaranteed to work on all ARMv8 cores * Improved performance for ARMv8 builds on some cores (A72, Falkor, ThunderX1 and 2: up to 11%) over current develop * Improved performance for *all* cores comparing to develop branch before TX2's patch (9% ~ 36%) * ThunderX1 builds are 14% faster than ARMv8 on TX1, 9% faster than current develop's branch and 8% faster than deveop before tx2 patches Issues: * Regression from current develop branch for A53 (-12%) and A57 (-3%) with ARMv8 builds, but still faster than before TX2's commit (+15% and +24% respectively). This can be improved with a simplification of TX2's code, to be done in future patches. At least the code is guaranteed to be ARMv8.0 now. Comments: * CortexA57 builds are unchanged on A57 hardware from develop's branch, which makes sense, as it's untouched. * CortexA72 builds improve over A57 on A72 hardware, even if they're using the same includes due to new compiler tunning in the makefile.
7 years ago
Support compilation with NAG fortran
4 years ago
Simplifying ARMv8 build parameters ARMv8 builds were a bit mixed up, with ThunderX2 code in ARMv8 mode (which is not right because TX2 is ARMv8.1) as well as requiring a few redundancies in the defines, making it harder to maintain and understand what core has what. A few other minor issues were also fixed. Tests were made on the following cores: A53, A57, A72, Falkor, ThunderX, ThunderX2, and XGene. Tests were: OpenBLAS/test, OpenBLAS/benchmark, BLAS-Tester. A summary: * Removed TX2 code from ARMv8 build, to make sure it is compatible with all ARMv8 cores, not just v8.1. Also, the TX2 code has actually harmed performance on big cores. * Commoned up ARMv8 architectures' defines in params.h, to make sure that all will benefit from ARMv8 settings, in addition to their own. * Adding a few more cores, using ARMv8's include strategy, to benefit from compiler optimisations using mtune. Also updated cache information from the manuals, making sure we set good conservative values by default. Removed Vulcan, as it's an alias to TX2. * Auto-detecting most of those cores, but also updating the forced compilation in getarch.c, to make sure the parameters are the same whether compiled natively or forced arch. Benefits: * ARMv8 build is now guaranteed to work on all ARMv8 cores * Improved performance for ARMv8 builds on some cores (A72, Falkor, ThunderX1 and 2: up to 11%) over current develop * Improved performance for *all* cores comparing to develop branch before TX2's patch (9% ~ 36%) * ThunderX1 builds are 14% faster than ARMv8 on TX1, 9% faster than current develop's branch and 8% faster than deveop before tx2 patches Issues: * Regression from current develop branch for A53 (-12%) and A57 (-3%) with ARMv8 builds, but still faster than before TX2's commit (+15% and +24% respectively). This can be improved with a simplification of TX2's code, to be done in future patches. At least the code is guaranteed to be ARMv8.0 now. Comments: * CortexA57 builds are unchanged on A57 hardware from develop's branch, which makes sense, as it's untouched. * CortexA72 builds improve over A57 on A72 hardware, even if they're using the same includes due to new compiler tunning in the makefile.
7 years ago
ARM64: Add the VULCAN Target
9 years ago
Support compilation with NAG fortran
4 years ago
ARM64: Add the VULCAN Target
9 years ago
Add Neoverse-N1 core The implementation is a hybird of the ARMV8 one with some of the improved TX2 rountines along with specifying -march=v8.2-a
6 years ago
Add march/mtune flags for clang builds on ARM64 as well (#3414) * Add march/mtune flags for clang as well
4 years ago
Add Neoverse-N1 core The implementation is a hybird of the ARMV8 one with some of the improved TX2 rountines along with specifying -march=v8.2-a
6 years ago
Support compilation with NAG fortran
4 years ago
Add Neoverse-N1 core The implementation is a hybird of the ARMV8 one with some of the improved TX2 rountines along with specifying -march=v8.2-a
6 years ago
Support compilation with NAG fortran
4 years ago
Add Neoverse-N1 core The implementation is a hybird of the ARMV8 one with some of the improved TX2 rountines along with specifying -march=v8.2-a
6 years ago
Support compilation with NAG fortran
4 years ago
Add Neoverse-N1 core The implementation is a hybird of the ARMV8 one with some of the improved TX2 rountines along with specifying -march=v8.2-a
6 years ago
Support compilation with NAG fortran
4 years ago
Add Neoverse-N1 core The implementation is a hybird of the ARMV8 one with some of the improved TX2 rountines along with specifying -march=v8.2-a
6 years ago
Support compilation with NAG fortran
4 years ago
Add Neoverse-N1 core The implementation is a hybird of the ARMV8 one with some of the improved TX2 rountines along with specifying -march=v8.2-a
6 years ago
Support compilation with NAG fortran
4 years ago
Add Neoverse-N1 core The implementation is a hybird of the ARMV8 one with some of the improved TX2 rountines along with specifying -march=v8.2-a
6 years ago
WiP CORTEX A55 support
4 years ago
Add march/mtune flags for clang builds on ARM64 as well (#3414) * Add march/mtune flags for clang as well
4 years ago
WiP CORTEX A55 support
4 years ago
ARM64: Add Cavium THUNDERX Target
9 years ago
Simplifying ARMv8 build parameters ARMv8 builds were a bit mixed up, with ThunderX2 code in ARMv8 mode (which is not right because TX2 is ARMv8.1) as well as requiring a few redundancies in the defines, making it harder to maintain and understand what core has what. A few other minor issues were also fixed. Tests were made on the following cores: A53, A57, A72, Falkor, ThunderX, ThunderX2, and XGene. Tests were: OpenBLAS/test, OpenBLAS/benchmark, BLAS-Tester. A summary: * Removed TX2 code from ARMv8 build, to make sure it is compatible with all ARMv8 cores, not just v8.1. Also, the TX2 code has actually harmed performance on big cores. * Commoned up ARMv8 architectures' defines in params.h, to make sure that all will benefit from ARMv8 settings, in addition to their own. * Adding a few more cores, using ARMv8's include strategy, to benefit from compiler optimisations using mtune. Also updated cache information from the manuals, making sure we set good conservative values by default. Removed Vulcan, as it's an alias to TX2. * Auto-detecting most of those cores, but also updating the forced compilation in getarch.c, to make sure the parameters are the same whether compiled natively or forced arch. Benefits: * ARMv8 build is now guaranteed to work on all ARMv8 cores * Improved performance for ARMv8 builds on some cores (A72, Falkor, ThunderX1 and 2: up to 11%) over current develop * Improved performance for *all* cores comparing to develop branch before TX2's patch (9% ~ 36%) * ThunderX1 builds are 14% faster than ARMv8 on TX1, 9% faster than current develop's branch and 8% faster than deveop before tx2 patches Issues: * Regression from current develop branch for A53 (-12%) and A57 (-3%) with ARMv8 builds, but still faster than before TX2's commit (+15% and +24% respectively). This can be improved with a simplification of TX2's code, to be done in future patches. At least the code is guaranteed to be ARMv8.0 now. Comments: * CortexA57 builds are unchanged on A57 hardware from develop's branch, which makes sense, as it's untouched. * CortexA72 builds improve over A57 on A72 hardware, even if they're using the same includes due to new compiler tunning in the makefile.
7 years ago
Support compilation with NAG fortran
4 years ago
Simplifying ARMv8 build parameters ARMv8 builds were a bit mixed up, with ThunderX2 code in ARMv8 mode (which is not right because TX2 is ARMv8.1) as well as requiring a few redundancies in the defines, making it harder to maintain and understand what core has what. A few other minor issues were also fixed. Tests were made on the following cores: A53, A57, A72, Falkor, ThunderX, ThunderX2, and XGene. Tests were: OpenBLAS/test, OpenBLAS/benchmark, BLAS-Tester. A summary: * Removed TX2 code from ARMv8 build, to make sure it is compatible with all ARMv8 cores, not just v8.1. Also, the TX2 code has actually harmed performance on big cores. * Commoned up ARMv8 architectures' defines in params.h, to make sure that all will benefit from ARMv8 settings, in addition to their own. * Adding a few more cores, using ARMv8's include strategy, to benefit from compiler optimisations using mtune. Also updated cache information from the manuals, making sure we set good conservative values by default. Removed Vulcan, as it's an alias to TX2. * Auto-detecting most of those cores, but also updating the forced compilation in getarch.c, to make sure the parameters are the same whether compiled natively or forced arch. Benefits: * ARMv8 build is now guaranteed to work on all ARMv8 cores * Improved performance for ARMv8 builds on some cores (A72, Falkor, ThunderX1 and 2: up to 11%) over current develop * Improved performance for *all* cores comparing to develop branch before TX2's patch (9% ~ 36%) * ThunderX1 builds are 14% faster than ARMv8 on TX1, 9% faster than current develop's branch and 8% faster than deveop before tx2 patches Issues: * Regression from current develop branch for A53 (-12%) and A57 (-3%) with ARMv8 builds, but still faster than before TX2's commit (+15% and +24% respectively). This can be improved with a simplification of TX2's code, to be done in future patches. At least the code is guaranteed to be ARMv8.0 now. Comments: * CortexA57 builds are unchanged on A57 hardware from develop's branch, which makes sense, as it's untouched. * CortexA72 builds improve over A57 on A72 hardware, even if they're using the same includes due to new compiler tunning in the makefile.
7 years ago
Support compilation with NAG fortran
4 years ago
Simplifying ARMv8 build parameters ARMv8 builds were a bit mixed up, with ThunderX2 code in ARMv8 mode (which is not right because TX2 is ARMv8.1) as well as requiring a few redundancies in the defines, making it harder to maintain and understand what core has what. A few other minor issues were also fixed. Tests were made on the following cores: A53, A57, A72, Falkor, ThunderX, ThunderX2, and XGene. Tests were: OpenBLAS/test, OpenBLAS/benchmark, BLAS-Tester. A summary: * Removed TX2 code from ARMv8 build, to make sure it is compatible with all ARMv8 cores, not just v8.1. Also, the TX2 code has actually harmed performance on big cores. * Commoned up ARMv8 architectures' defines in params.h, to make sure that all will benefit from ARMv8 settings, in addition to their own. * Adding a few more cores, using ARMv8's include strategy, to benefit from compiler optimisations using mtune. Also updated cache information from the manuals, making sure we set good conservative values by default. Removed Vulcan, as it's an alias to TX2. * Auto-detecting most of those cores, but also updating the forced compilation in getarch.c, to make sure the parameters are the same whether compiled natively or forced arch. Benefits: * ARMv8 build is now guaranteed to work on all ARMv8 cores * Improved performance for ARMv8 builds on some cores (A72, Falkor, ThunderX1 and 2: up to 11%) over current develop * Improved performance for *all* cores comparing to develop branch before TX2's patch (9% ~ 36%) * ThunderX1 builds are 14% faster than ARMv8 on TX1, 9% faster than current develop's branch and 8% faster than deveop before tx2 patches Issues: * Regression from current develop branch for A53 (-12%) and A57 (-3%) with ARMv8 builds, but still faster than before TX2's commit (+15% and +24% respectively). This can be improved with a simplification of TX2's code, to be done in future patches. At least the code is guaranteed to be ARMv8.0 now. Comments: * CortexA57 builds are unchanged on A57 hardware from develop's branch, which makes sense, as it's untouched. * CortexA72 builds improve over A57 on A72 hardware, even if they're using the same includes due to new compiler tunning in the makefile.
7 years ago
Fix two mistakes on Arm64 builds * Falkor is an ARMv8.0 with ARMv8.1 features, and chosing armv8.1-a for march generates instructions it cannot cope with. Reverting it back to armv8-a. * ThunderX2's build was left with a #define VULCAN, which made it miss the right compiler flags in Makefile.arm64, although it did create the right library in the end.
7 years ago
Support compilation with NAG fortran
4 years ago
Fix two mistakes on Arm64 builds * Falkor is an ARMv8.0 with ARMv8.1 features, and chosing armv8.1-a for march generates instructions it cannot cope with. Reverting it back to armv8-a. * ThunderX2's build was left with a #define VULCAN, which made it miss the right compiler flags in Makefile.arm64, although it did create the right library in the end.
7 years ago
ARM64: Add Cavium THUNDERX Target
9 years ago
Support compilation with NAG fortran
4 years ago
ARM64: Add Cavium THUNDERX2T99 Target
9 years ago
Simplifying ARMv8 build parameters ARMv8 builds were a bit mixed up, with ThunderX2 code in ARMv8 mode (which is not right because TX2 is ARMv8.1) as well as requiring a few redundancies in the defines, making it harder to maintain and understand what core has what. A few other minor issues were also fixed. Tests were made on the following cores: A53, A57, A72, Falkor, ThunderX, ThunderX2, and XGene. Tests were: OpenBLAS/test, OpenBLAS/benchmark, BLAS-Tester. A summary: * Removed TX2 code from ARMv8 build, to make sure it is compatible with all ARMv8 cores, not just v8.1. Also, the TX2 code has actually harmed performance on big cores. * Commoned up ARMv8 architectures' defines in params.h, to make sure that all will benefit from ARMv8 settings, in addition to their own. * Adding a few more cores, using ARMv8's include strategy, to benefit from compiler optimisations using mtune. Also updated cache information from the manuals, making sure we set good conservative values by default. Removed Vulcan, as it's an alias to TX2. * Auto-detecting most of those cores, but also updating the forced compilation in getarch.c, to make sure the parameters are the same whether compiled natively or forced arch. Benefits: * ARMv8 build is now guaranteed to work on all ARMv8 cores * Improved performance for ARMv8 builds on some cores (A72, Falkor, ThunderX1 and 2: up to 11%) over current develop * Improved performance for *all* cores comparing to develop branch before TX2's patch (9% ~ 36%) * ThunderX1 builds are 14% faster than ARMv8 on TX1, 9% faster than current develop's branch and 8% faster than deveop before tx2 patches Issues: * Regression from current develop branch for A53 (-12%) and A57 (-3%) with ARMv8 builds, but still faster than before TX2's commit (+15% and +24% respectively). This can be improved with a simplification of TX2's code, to be done in future patches. At least the code is guaranteed to be ARMv8.0 now. Comments: * CortexA57 builds are unchanged on A57 hardware from develop's branch, which makes sense, as it's untouched. * CortexA72 builds improve over A57 on A72 hardware, even if they're using the same includes due to new compiler tunning in the makefile.
7 years ago
Support compilation with NAG fortran
4 years ago
Simplifying ARMv8 build parameters ARMv8 builds were a bit mixed up, with ThunderX2 code in ARMv8 mode (which is not right because TX2 is ARMv8.1) as well as requiring a few redundancies in the defines, making it harder to maintain and understand what core has what. A few other minor issues were also fixed. Tests were made on the following cores: A53, A57, A72, Falkor, ThunderX, ThunderX2, and XGene. Tests were: OpenBLAS/test, OpenBLAS/benchmark, BLAS-Tester. A summary: * Removed TX2 code from ARMv8 build, to make sure it is compatible with all ARMv8 cores, not just v8.1. Also, the TX2 code has actually harmed performance on big cores. * Commoned up ARMv8 architectures' defines in params.h, to make sure that all will benefit from ARMv8 settings, in addition to their own. * Adding a few more cores, using ARMv8's include strategy, to benefit from compiler optimisations using mtune. Also updated cache information from the manuals, making sure we set good conservative values by default. Removed Vulcan, as it's an alias to TX2. * Auto-detecting most of those cores, but also updating the forced compilation in getarch.c, to make sure the parameters are the same whether compiled natively or forced arch. Benefits: * ARMv8 build is now guaranteed to work on all ARMv8 cores * Improved performance for ARMv8 builds on some cores (A72, Falkor, ThunderX1 and 2: up to 11%) over current develop * Improved performance for *all* cores comparing to develop branch before TX2's patch (9% ~ 36%) * ThunderX1 builds are 14% faster than ARMv8 on TX1, 9% faster than current develop's branch and 8% faster than deveop before tx2 patches Issues: * Regression from current develop branch for A53 (-12%) and A57 (-3%) with ARMv8 builds, but still faster than before TX2's commit (+15% and +24% respectively). This can be improved with a simplification of TX2's code, to be done in future patches. At least the code is guaranteed to be ARMv8.0 now. Comments: * CortexA57 builds are unchanged on A57 hardware from develop's branch, which makes sense, as it's untouched. * CortexA72 builds improve over A57 on A72 hardware, even if they're using the same includes due to new compiler tunning in the makefile.
7 years ago
ARM64: Add Cavium THUNDERX2T99 Target
9 years ago
Support compilation with NAG fortran
4 years ago
add TARGET support for HiSilicon tsv110 CPUs
7 years ago
ARM64: Add THUNDERX3T110 Target
5 years ago
Support compilation with NAG fortran
4 years ago
ARM64: Add THUNDERX3T110 Target
5 years ago
Support compilation with NAG fortran
4 years ago
ARM64: Add THUNDERX3T110 Target
5 years ago
Support compilation with NAG fortran
4 years ago
ARM64: Add THUNDERX3T110 Target
5 years ago
Support compilation with NAG fortran
4 years ago
ARM64: Add THUNDERX3T110 Target
5 years ago
rename SILICON to VORTEX
5 years ago
Add AppleSIlicon cpu
5 years ago
Support compilation with NAG fortran
4 years ago
Add AppleSIlicon cpu
5 years ago
Support compilation with NAG fortran
4 years ago
Add AppleSIlicon cpu
5 years ago
Add march/mtune flags for clang builds on ARM64 as well (#3414) * Add march/mtune flags for clang as well
4 years ago
add TARGET support for HiSilicon tsv110 CPUs
7 years ago
Support compilation with NAG fortran
4 years ago
add TARGET support for HiSilicon tsv110 CPUs
7 years ago
Update DYNAMIC_ARCH support for ARM64 and PPC (#2332) * Update DYNAMIC_ARCH list of ARM64 targets for gmake * Update arm64 cpu list for runtime detection * Update DYNAMIC_ARCH list of ARM64 targets for cmake and add POWERPC targets
6 years ago
Support compilation with NVIDIA HPC compilers (which do not take gcc-style arch options)
5 years ago
Update Makefile.arm64 Added -march and -mtune flags for EMAG processors when GCC 9 or later
4 years ago
GCC did not support -mtune for ARM64 before 5.1
4 years ago
Add basic support for the Fujitsu A64FX (#3415) * Add initial support for Fujitsu A64FX as generic ARMV8
4 years ago
Enable SVE for A64FX
4 years ago
Add basic support for the Fujitsu A64FX (#3415) * Add initial support for Fujitsu A64FX as generic ARMV8
4 years ago
Enable SVE for A64FX
4 years ago
Add basic support for the Fujitsu A64FX (#3415) * Add initial support for Fujitsu A64FX as generic ARMV8
4 years ago
Support compilation with NAG fortran
4 years ago
GCC did not support -mtune for ARM64 before 5.1
4 years ago
Enable SVE for A64FX
4 years ago
 123456789101112131415161718192021222324252627282930313233343536373839404142434445464748495051525354555657585960616263646566676869707172737475767778798081828384858687888990919293949596979899100101102103104105106107108109110111112113114115116117118119120121122123124125126127128129130131132133134135136137138139140141142143144145146147148149150151152153154155156157158159160161162163164165166167168169170171172173174 
  1. ifneq ($(C_COMPILER), PGI)

  2. 

  3. ifeq ($(C_COMPILER), CLANG)

  4. ISCLANG=1

  5. endif

  6. ifneq (1, $(filter 1,$(GCCVERSIONGT4) $(ISCLANG)))

  7. CCOMMON_OPT += -march=armv8-a

  8. ifneq ($(F_COMPILER), NAG)

  9. FCOMMON_OPT += -march=armv8-a

  10. endif

  11. 

  12. 

  13. else 

  14. 

  15. 

  16. ifeq ($(CORE), ARMV8)

  17. CCOMMON_OPT += -march=armv8-a

  18. ifneq ($(F_COMPILER), NAG)

  19. FCOMMON_OPT += -march=armv8-a

  20. endif

  21. endif

  22. 

  23. ifeq ($(CORE), ARMV8SVE)

  24. CCOMMON_OPT += -march=armv8-a+sve

  25. ifneq ($(F_COMPILER), NAG)

  26. FCOMMON_OPT += -march=armv8-a+sve

  27. endif

  28. endif

  29. 

  30. ifeq ($(CORE), CORTEXA53)

  31. CCOMMON_OPT += -march=armv8-a -mtune=cortex-a53

  32. ifneq ($(F_COMPILER), NAG)

  33. FCOMMON_OPT += -march=armv8-a -mtune=cortex-a53

  34. endif

  35. endif

  36. 

  37. ifeq ($(CORE), CORTEXA57)

  38. CCOMMON_OPT += -march=armv8-a -mtune=cortex-a57

  39. ifneq ($(F_COMPILER), NAG)

  40. FCOMMON_OPT += -march=armv8-a -mtune=cortex-a57

  41. endif

  42. endif

  43. 

  44. ifeq ($(CORE), CORTEXA72)

  45. CCOMMON_OPT += -march=armv8-a -mtune=cortex-a72

  46. ifneq ($(F_COMPILER), NAG)

  47. FCOMMON_OPT += -march=armv8-a -mtune=cortex-a72

  48. endif

  49. endif

  50. 

  51. ifeq ($(CORE), CORTEXA73)

  52. CCOMMON_OPT += -march=armv8-a -mtune=cortex-a73

  53. ifneq ($(F_COMPILER), NAG)

  54. FCOMMON_OPT += -march=armv8-a -mtune=cortex-a73

  55. endif

  56. endif

  57. 

  58. # Use a72 tunings because Neoverse-N1 is only available

  59. # in GCC>=9

  60. ifeq ($(CORE), NEOVERSEN1)

  61. ifeq (1, $(filter 1,$(GCCVERSIONGTEQ7) $(ISCLANG)))

  62. ifeq ($(GCCVERSIONGTEQ9), 1)

  63. CCOMMON_OPT += -march=armv8.2-a -mtune=neoverse-n1

  64. ifneq ($(F_COMPILER), NAG)

  65. FCOMMON_OPT += -march=armv8.2-a -mtune=neoverse-n1

  66. endif

  67. else

  68. CCOMMON_OPT += -march=armv8.2-a -mtune=cortex-a72

  69. ifneq ($(F_COMPILER), NAG)

  70. FCOMMON_OPT += -march=armv8.2-a -mtune=cortex-a72

  71. endif

  72. endif

  73. else

  74. CCOMMON_OPT += -march=armv8-a -mtune=cortex-a72

  75. ifneq ($(F_COMPILER), NAG)

  76. FCOMMON_OPT += -march=armv8-a -mtune=cortex-a72

  77. endif

  78. endif

  79. endif

  80. 

  81. # Use a53 tunings because a55 is only available in GCC>=8.1

  82. ifeq ($(CORE), CORTEXA55)

  83. ifeq (1, $(filter 1,$(GCCVERSIONGTEQ7) $(ISCLANG)))

  84. ifeq ($(GCCVERSIONGTEQ8), 1)

  85. CCOMMON_OPT += -march=armv8.2-a -mtune=cortex-a55

  86. ifneq ($(F_COMPILER), NAG)

  87. FCOMMON_OPT += -march=armv8.2-a -mtune=cortex-a55

  88. endif

  89. else

  90. CCOMMON_OPT += -march=armv8.2-a -mtune=cortex-a53

  91. ifneq ($(F_COMPILER), NAG)

  92. FCOMMON_OPT += -march=armv8.2-a -mtune=cortex-a53

  93. endif

  94. endif

  95. else

  96. CCOMMON_OPT += -march=armv8-a -mtune=cortex-a53

  97. ifneq ($(F_COMPILER), NAG)

  98. FCOMMON_OPT += -march=armv8-a -mtune=cortex-a53

  99. endif

  100. endif

  101. endif

  102. 

  103. ifeq ($(CORE), THUNDERX)

  104. CCOMMON_OPT += -march=armv8-a -mtune=thunderx

  105. ifneq ($(F_COMPILER), NAG)

  106. FCOMMON_OPT += -march=armv8-a -mtune=thunderx

  107. endif

  108. endif

  109. 

  110. ifeq ($(CORE), FALKOR)

  111. CCOMMON_OPT += -march=armv8-a -mtune=falkor

  112. ifneq ($(F_COMPILER), NAG)

  113. FCOMMON_OPT += -march=armv8-a -mtune=falkor

  114. endif

  115. endif

  116. 

  117. ifeq ($(CORE), THUNDERX2T99)

  118. CCOMMON_OPT += -march=armv8.1-a -mtune=thunderx2t99

  119. ifneq ($(F_COMPILER), NAG)

  120. FCOMMON_OPT += -march=armv8.1-a -mtune=thunderx2t99

  121. endif

  122. endif

  123. 

  124. ifeq ($(CORE), THUNDERX3T110)

  125. ifeq ($(GCCVERSIONGTEQ10), 1)

  126. CCOMMON_OPT += -march=armv8.3-a -mtune=thunderx3t110

  127. ifneq ($(F_COMPILER), NAG)

  128. FCOMMON_OPT += -march=armv8.3-a -mtune=thunderx3t110

  129. endif

  130. else

  131. CCOMMON_OPT += -march=armv8.1-a -mtune=thunderx2t99

  132. ifneq ($(F_COMPILER), NAG)

  133. FCOMMON_OPT += -march=armv8.1-a -mtune=thunderx2t99

  134. endif

  135. endif

  136. endif

  137. 

  138. ifeq ($(CORE), VORTEX)

  139. CCOMMON_OPT += -march=armv8.3-a

  140. ifneq ($(F_COMPILER), NAG)

  141. FCOMMON_OPT += -march=armv8.3-a

  142. endif

  143. endif

  144. 

  145. ifeq (1, $(filter 1,$(GCCVERSIONGTEQ9) $(ISCLANG)))

  146. ifeq ($(CORE), TSV110)

  147. CCOMMON_OPT += -march=armv8.2-a -mtune=tsv110

  148. ifneq ($(F_COMPILER), NAG)

  149. FCOMMON_OPT += -march=armv8.2-a -mtune=tsv110

  150. endif

  151. endif

  152. endif

  153. 

  154. ifeq ($(GCCVERSIONGTEQ9), 1)

  155. ifeq ($(CORE), EMAG8180)

  156. CCOMMON_OPT += -march=armv8-a -mtune=emag

  157. ifneq ($(F_COMPILER), NAG)

  158. FCOMMON_OPT += -march=armv8-a -mtune=emag

  159. endif

  160. endif

  161. endif

  162. 

  163. ifeq (1, $(filter 1,$(GCCVERSIONGTEQ11) $(ISCLANG)))

  164. ifeq ($(CORE), A64FX)

  165. CCOMMON_OPT += -march=armv8.2-a+sve -mtune=a64fx

  166. ifneq ($(F_COMPILER), NAG)

  167. FCOMMON_OPT += -march=armv8.2-a+sve -mtune=a64fx

  168. endif

  169. endif

  170. endif

  171. 

  172. endif

  173. 

  174. endif

OpenBLAS is an optimized BLAS library based on GotoBLAS2 1.13 BSD version.