CPU2017 Result Flag Description

This result has been formatted using multiple flags files. The "default header section" from each of them appears next.

Default header section from aocc130-flags-revA21

AMD Optimizing C/C++ Compiler Suite Version 1.3.0 SPEC CPU2017 Flag Description

Compilers: AMD Optimizing C/C++ Compiler Suite 1.3.0

Default header section from gcc

GNU Compiler Collection Flags

Flag descriptions for GCC, the GNU Compiler Collection

SPEC's modifications are:
Copyright (C) 2006-2017 Standard Performance Evaluation Corporation

Permission is granted to copy, distribute and/or modify this document under the terms of the GNU Free Documentation License, Version 1.3 or any later version published by the Free Software Foundation; with the Invariant Sections being "Funding Free Software", the Front-Cover Texts being (a) (see below), and with the Back-Cover Texts being (b) (see below). A copy of the license is included in your SPEC CPU kit at $SPEC/Docs/licenses/FDL.v1.3 and on the web at http://www.spec.org/cpu2017/Docs/licenses/FDL.v1.3. A copy of "Funding Free Software" is on your SPEC CPU kit at $SPEC/Docs/licenses/FundingFreeSW and on the web at http://www.spec.org/cpu2017/Docs/licenses/FundingFreeSW.

You have freedom to copy and modify this GNU Manual, like GNU software. Copies published by the Free Software Foundation raise funds for GNU development.

Base Optimization Flags

C benchmarks

- -flto
- COPTIMIZE, EXTRA_LDFLAGS
- Generate output files in LLVM formats suitable for link time optimization. When used with -S this generates LLVM intermediate language assembly files, otherwise this generates LLVM bitcode format object files (which may be passed to the linker depending on the stage selection options).
- -Wl,-plugin-opt=-merge-constant
- EXTRA_LDFLAGS
- This optimization merges duplicate constant uses into a register to reduce instruction width.
- -Wl,-plugin-opt=-lsr-in-nested-loop
- EXTRA_LDFLAGS
- Enables loop strength reduction for nested loop structures. By default, the compiler will do loop strength reduction only for the innermost loop.
- -Wl,-plugin-opt=-enable-vectorize-compares=false
- EXTRA_LDFLAGS
- Certain loops with breaks may be vectorized by default at -O2 and above. In some extreme situations this may result in unsafe behavior. Use this option to disable vectorization of such loops.
- -O3
- COPTIMIZE
- Like -O2, except that it enables optimizations that take longer to perform or that may generate larger code (in an attempt to make the program run faster).
  
  If multiple "O" options are used, with or without level numbers, the last such option is the one that is effective.
- Includes:
  - -O2
    - -O1
- -ffast-math
- COPTIMIZE
- Enables a range of optimizations that provide faster, though sometimes less precise, mathematical operations that may not conform to the IEEE-754 specifications. When this option is specified, the __STDC_IEC_559__ macro is ignored even if set by the system headers.
- -march=znver1
- COPTIMIZE
- Specify that Clang should generate code for a specific processor family member and later. For example, if you specify -march=znver1, the compiler is allowed to generate instructions that are valid on AMD Zen processors, but which may not exist on earlier products.
- -mno-avx2
- COPTIMIZE
- This option restricts the optimization and code generation to first-generation AVX instructions.
- -fstruct-layout=3
- COPTIMIZE
- This option enables transformation of the layout of arrays of structure types and their fields to improve the cache locality. Aggressive analysis and transformations are performed at higher levels. This option is effective only with -flto as whole program analysis is required to perform this optimization.
  
  Possible values:
  - 1: Use when the allocated size of the array of structures is unknown at compile time.
  - 2: Use when the allocated size of the array of structures is known to fall within 64KB and 4GB.
  - 3: Use when the allocated size of the array of structures is known to be less than 64KB.
- -mllvm -unroll-threshold=50
- COPTIMIZE
- Sets the limit at which loops will be unrolled. For example, if unroll threshold is set to 100 then only loops with 100 or fewer instructions will be unrolled.
- -fremap-arrays
- COPTIMIZE
- This option enables an optimization that transforms the data layout of a single dimensional array to provide better cache locality by analyzing the access patterns.
- -mllvm -inline-threshold=1000
- COPTIMIZE
- Sets the compiler's inlining threshold level to the value passed. The inline threshold is used in the inliner heuristics to decide which functions should be inlined.
- -flv-function-specialization
- COPTIMIZE
- This option enables an optimization that generates and calls specialized function versions when the loops inside function are vectorizable and the arguments are not aliased with each other. This optimization helps in function inlining and vectorization.
- -mllvm -enable-gvn-hoist
- COPTIMIZE
- This option enables the GVN hoist pass, which is used to hoist computations from branches.
- -mllvm -function-specialize
- COPTIMIZE
- This option enables an optimization that generates and calls specialized function versions when they are called with constant arguments. This optimization helps in function inlining.
- -z muldefs
- LDOPTIMIZE
- Instructs the linker to use the first definition encountered for a symbol, and ignore all others.
- -DSPEC_OPENMP
- EXTRA_OPTIMIZE
- Definition of this macro indicates that compilation for parallel operation is enabled, and that any OpenMP directives or pragmas will be visible to the compiler. The behavior of this macro is overridden if -DSPEC_SUPPRESS_OPENMP also appears in the list of compilation flags.
- -fopenmp
- Yes
- EXTRA_OPTIMIZE
- Enable handling of OpenMP directives and generate parallel code.
- -fopenmp=libomp
- Yes
- EXTRA_LIBS
- Enable handling of OpenMP directives and generate parallel code.
- -lomp
- EXTRA_LIBS
- Instructs the compiler to link with the OpenMP runtime libraries.
- -lpthread
- EXTRA_LIBS
- This option instructs the linker to link the executable with the pthread library.
- -ldl
- EXTRA_LIBS
- This option instructs the linker to link the executable with libdl, the interface to the dynamic loader.
- -ljemalloc
- EXTRA_LIBS
- Use the jemalloc library, which is a general purpose malloc(3) implementation that emphasizes fragmentation avoidance and scalable concurrency support.
- -lamdlibm
- EXTRA_LIBS
- Instructs the compiler to link with AMD-supported optimized math library.

Fortran benchmarks

- -flto
- EXTRA_LDFLAGS
- Generate output files in LLVM formats suitable for link time optimization. When used with -S this generates LLVM intermediate language assembly files, otherwise this generates LLVM bitcode format object files (which may be passed to the linker depending on the stage selection options).
- -Wl,-plugin-opt=-merge-constant
- EXTRA_LDFLAGS
- This optimization merges duplicate constant uses into a register to reduce instruction width.
- -Wl,-plugin-opt=-lsr-in-nested-loop
- EXTRA_LDFLAGS
- Enables loop strength reduction for nested loop structures. By default, the compiler will do loop strength reduction only for the innermost loop.
- -Wl,-plugin-opt=-enable-vectorize-compares=false
- EXTRA_LDFLAGS
- Certain loops with breaks may be vectorized by default at -O2 and above. In some extreme situations this may result in unsafe behavior. Use this option to disable vectorization of such loops.
- -O3
- FOPTIMIZE
- Like -O2, except that it enables optimizations that take longer to perform or that may generate larger code (in an attempt to make the program run faster).
  
  If multiple "O" options are used, with or without level numbers, the last such option is the one that is effective.
- Includes:
  - -O2
    - -O1
- -mavx
- FOPTIMIZE
- Generate code for processors that include the AVX extensions.
- -madx
- FOPTIMIZE
- This option enables generation of the adx instruction.
- -funroll-loops
- FOPTIMIZE
- This option instructs the compiler to unroll loops wherever possible.
- -ffast-math
- FOPTIMIZE
- Enables a range of optimizations that provide faster, though sometimes less precise, mathematical operations that may not conform to the IEEE-754 specifications. When this option is specified, the __STDC_IEC_559__ macro is ignored even if set by the system headers.
- -z muldefs
- LDOPTIMIZE
- Instructs the linker to use the first definition encountered for a symbol, and ignore all others.
- -fplugin=dragonegg.so
- EXTRA_FFLAGS
- Load compiler plugin code from the dragonegg.so file.
- -fplugin-arg-dragonegg-llvm-option=-merge-constant
- EXTRA_FFLAGS
- This optimization merges duplicate constant uses into a register to reduce instruction width.
- -fplugin-arg-dragonegg-llvm-option=-enable-vectorize-compares:false
- EXTRA_FFLAGS
- Certain loops with breaks may be vectorized by default at -O2 and above. In some extreme situations this may result in unsafe behavior. Use this option to disable vectorization of such loops.
- -DSPEC_OPENMP
- EXTRA_OPTIMIZE
- Definition of this macro indicates that compilation for parallel operation is enabled, and that any OpenMP directives or pragmas will be visible to the compiler. The behavior of this macro is overridden if -DSPEC_SUPPRESS_OPENMP also appears in the list of compilation flags.
- -fopenmp
- Yes
- EXTRA_OPTIMIZE
- Enable handling of OpenMP directives and generate parallel code.
- -fopenmp=libomp
- Yes
- EXTRA_LIBS
- Enable handling of OpenMP directives and generate parallel code.
- -lomp
- EXTRA_LIBS
- Instructs the compiler to link with the OpenMP runtime libraries.
- -lpthread
- EXTRA_LIBS
- This option instructs the linker to link the executable with the pthread library.
- -ldl
- EXTRA_LIBS
- This option instructs the linker to link the executable with libdl, the interface to the dynamic loader.
- -ljemalloc
- EXTRA_LIBS
- Use the jemalloc library, which is a general purpose malloc(3) implementation that emphasizes fragmentation avoidance and scalable concurrency support.
- -lamdlibm
- EXTRA_FLIBS, EXTRA_LIBS
- Instructs the compiler to link with AMD-supported optimized math library.
- -lgfortran
- EXTRA_FLIBS
- Instructs the compiler to link with the gfortran Fortran runtime libraries.

Benchmarks using both Fortran and C

- -flto
- COPTIMIZE, EXTRA_LDFLAGS
- Generate output files in LLVM formats suitable for link time optimization. When used with -S this generates LLVM intermediate language assembly files, otherwise this generates LLVM bitcode format object files (which may be passed to the linker depending on the stage selection options).
- -Wl,-plugin-opt=-merge-constant
- EXTRA_LDFLAGS
- This optimization merges duplicate constant uses into a register to reduce instruction width.
- -Wl,-plugin-opt=-lsr-in-nested-loop
- EXTRA_LDFLAGS
- Enables loop strength reduction for nested loop structures. By default, the compiler will do loop strength reduction only for the innermost loop.
- -Wl,-plugin-opt=-enable-vectorize-compares=false
- EXTRA_LDFLAGS
- Certain loops with breaks may be vectorized by default at -O2 and above. In some extreme situations this may result in unsafe behavior. Use this option to disable vectorization of such loops.
- -O3
- COPTIMIZE, FOPTIMIZE
- Like -O2, except that it enables optimizations that take longer to perform or that may generate larger code (in an attempt to make the program run faster).
  
  If multiple "O" options are used, with or without level numbers, the last such option is the one that is effective.
- Includes:
  - -O2
    - -O1
- -ffast-math
- COPTIMIZE, FOPTIMIZE
- Enables a range of optimizations that provide faster, though sometimes less precise, mathematical operations that may not conform to the IEEE-754 specifications. When this option is specified, the __STDC_IEC_559__ macro is ignored even if set by the system headers.
- -march=znver1
- COPTIMIZE
- Specify that Clang should generate code for a specific processor family member and later. For example, if you specify -march=znver1, the compiler is allowed to generate instructions that are valid on AMD Zen processors, but which may not exist on earlier products.
- -mno-avx2
- COPTIMIZE
- This option restricts the optimization and code generation to first-generation AVX instructions.
- -fstruct-layout=3
- COPTIMIZE
- This option enables transformation of the layout of arrays of structure types and their fields to improve the cache locality. Aggressive analysis and transformations are performed at higher levels. This option is effective only with -flto as whole program analysis is required to perform this optimization.
  
  Possible values:
  - 1: Use when the allocated size of the array of structures is unknown at compile time.
  - 2: Use when the allocated size of the array of structures is known to fall within 64KB and 4GB.
  - 3: Use when the allocated size of the array of structures is known to be less than 64KB.
- -mllvm -unroll-threshold=50
- COPTIMIZE
- Sets the limit at which loops will be unrolled. For example, if unroll threshold is set to 100 then only loops with 100 or fewer instructions will be unrolled.
- -fremap-arrays
- COPTIMIZE
- This option enables an optimization that transforms the data layout of a single dimensional array to provide better cache locality by analyzing the access patterns.
- -mllvm -inline-threshold=1000
- COPTIMIZE
- Sets the compiler's inlining threshold level to the value passed. The inline threshold is used in the inliner heuristics to decide which functions should be inlined.
- -flv-function-specialization
- COPTIMIZE
- This option enables an optimization that generates and calls specialized function versions when the loops inside function are vectorizable and the arguments are not aliased with each other. This optimization helps in function inlining and vectorization.
- -mllvm -enable-gvn-hoist
- COPTIMIZE
- This option enables the GVN hoist pass, which is used to hoist computations from branches.
- -mllvm -function-specialize
- COPTIMIZE
- This option enables an optimization that generates and calls specialized function versions when they are called with constant arguments. This optimization helps in function inlining.
- -mavx
- FOPTIMIZE
- Generate code for processors that include the AVX extensions.
- -madx
- FOPTIMIZE
- This option enables generation of the adx instruction.
- -funroll-loops
- FOPTIMIZE
- This option instructs the compiler to unroll loops wherever possible.
- -z muldefs
- LDOPTIMIZE
- Instructs the linker to use the first definition encountered for a symbol, and ignore all others.
- -fplugin=dragonegg.so
- EXTRA_FFLAGS
- Load compiler plugin code from the dragonegg.so file.
- -fplugin-arg-dragonegg-llvm-option=-merge-constant
- EXTRA_FFLAGS
- This optimization merges duplicate constant uses into a register to reduce instruction width.
- -fplugin-arg-dragonegg-llvm-option=-enable-vectorize-compares:false
- EXTRA_FFLAGS
- Certain loops with breaks may be vectorized by default at -O2 and above. In some extreme situations this may result in unsafe behavior. Use this option to disable vectorization of such loops.
- -DSPEC_OPENMP
- EXTRA_OPTIMIZE
- Definition of this macro indicates that compilation for parallel operation is enabled, and that any OpenMP directives or pragmas will be visible to the compiler. The behavior of this macro is overridden if -DSPEC_SUPPRESS_OPENMP also appears in the list of compilation flags.
- -fopenmp
- Yes
- EXTRA_OPTIMIZE
- Enable handling of OpenMP directives and generate parallel code.
- -fopenmp=libomp
- Yes
- EXTRA_LIBS
- Enable handling of OpenMP directives and generate parallel code.
- -lomp
- EXTRA_LIBS
- Instructs the compiler to link with the OpenMP runtime libraries.
- -lpthread
- EXTRA_LIBS
- This option instructs the linker to link the executable with the pthread library.
- -ldl
- EXTRA_LIBS
- This option instructs the linker to link the executable with libdl, the interface to the dynamic loader.
- -ljemalloc
- EXTRA_LIBS
- Use the jemalloc library, which is a general purpose malloc(3) implementation that emphasizes fragmentation avoidance and scalable concurrency support.
- -lamdlibm
- EXTRA_FLIBS, EXTRA_LIBS
- Instructs the compiler to link with AMD-supported optimized math library.
- -lgfortran
- EXTRA_FLIBS
- Instructs the compiler to link with the gfortran Fortran runtime libraries.

Benchmarks using Fortran, C, and C++

- -std=c++98
- CXX
- Selects the C++ language dialect.
- -flto
- COPTIMIZE, CXXOPTIMIZE, EXTRA_LDFLAGS
- Generate output files in LLVM formats suitable for link time optimization. When used with -S this generates LLVM intermediate language assembly files, otherwise this generates LLVM bitcode format object files (which may be passed to the linker depending on the stage selection options).
- -Wl,-plugin-opt=-merge-constant
- EXTRA_LDFLAGS
- This optimization merges duplicate constant uses into a register to reduce instruction width.
- -Wl,-plugin-opt=-lsr-in-nested-loop
- EXTRA_LDFLAGS
- Enables loop strength reduction for nested loop structures. By default, the compiler will do loop strength reduction only for the innermost loop.
- -Wl,-plugin-opt=-enable-vectorize-compares=false
- EXTRA_LDFLAGS
- Certain loops with breaks may be vectorized by default at -O2 and above. In some extreme situations this may result in unsafe behavior. Use this option to disable vectorization of such loops.
- -O3
- COPTIMIZE, CXXOPTIMIZE, FOPTIMIZE
- Like -O2, except that it enables optimizations that take longer to perform or that may generate larger code (in an attempt to make the program run faster).
  
  If multiple "O" options are used, with or without level numbers, the last such option is the one that is effective.
- Includes:
  - -O2
    - -O1
- -ffast-math
- COPTIMIZE, FOPTIMIZE
- Enables a range of optimizations that provide faster, though sometimes less precise, mathematical operations that may not conform to the IEEE-754 specifications. When this option is specified, the __STDC_IEC_559__ macro is ignored even if set by the system headers.
- -march=znver1
- COPTIMIZE, CXXOPTIMIZE
- Specify that Clang should generate code for a specific processor family member and later. For example, if you specify -march=znver1, the compiler is allowed to generate instructions that are valid on AMD Zen processors, but which may not exist on earlier products.
- -mno-avx2
- COPTIMIZE
- This option restricts the optimization and code generation to first-generation AVX instructions.
- -fstruct-layout=3
- COPTIMIZE
- This option enables transformation of the layout of arrays of structure types and their fields to improve the cache locality. Aggressive analysis and transformations are performed at higher levels. This option is effective only with -flto as whole program analysis is required to perform this optimization.
  
  Possible values:
  - 1: Use when the allocated size of the array of structures is unknown at compile time.
  - 2: Use when the allocated size of the array of structures is known to fall within 64KB and 4GB.
  - 3: Use when the allocated size of the array of structures is known to be less than 64KB.
- -mllvm -unroll-threshold=50
- COPTIMIZE
- Sets the limit at which loops will be unrolled. For example, if unroll threshold is set to 100 then only loops with 100 or fewer instructions will be unrolled.
- -fremap-arrays
- COPTIMIZE, CXXOPTIMIZE
- This option enables an optimization that transforms the data layout of a single dimensional array to provide better cache locality by analyzing the access patterns.
- -mllvm -inline-threshold=1000
- COPTIMIZE, CXXOPTIMIZE
- Sets the compiler's inlining threshold level to the value passed. The inline threshold is used in the inliner heuristics to decide which functions should be inlined.
- -flv-function-specialization
- COPTIMIZE
- This option enables an optimization that generates and calls specialized function versions when the loops inside function are vectorizable and the arguments are not aliased with each other. This optimization helps in function inlining and vectorization.
- -mllvm -enable-gvn-hoist
- COPTIMIZE
- This option enables the GVN hoist pass, which is used to hoist computations from branches.
- -mllvm -function-specialize
- COPTIMIZE
- This option enables an optimization that generates and calls specialized function versions when they are called with constant arguments. This optimization helps in function inlining.
- -mllvm -unroll-threshold=100
- CXXOPTIMIZE
- Sets the limit at which loops will be unrolled. For example, if unroll threshold is set to 100 then only loops with 100 or fewer instructions will be unrolled.
- -finline-aggressive
- CXXOPTIMIZE
- Sets the compiler's inlining heuristics to an aggressive level by increasing the inline thresholds.
- -mllvm -enable-vectorize-compares=false
- CXXOPTIMIZE
- Certain loops with breaks may be vectorized by default at -O2 and above. In some extreme situations this may result in unsafe behavior. Use this option to disable vectorization of such loops.
- -mavx
- FOPTIMIZE
- Generate code for processors that include the AVX extensions.
- -madx
- FOPTIMIZE
- This option enables generation of the adx instruction.
- -funroll-loops
- FOPTIMIZE
- This option instructs the compiler to unroll loops wherever possible.
- -z muldefs
- LDOPTIMIZE
- Instructs the linker to use the first definition encountered for a symbol, and ignore all others.
- -fplugin=dragonegg.so
- EXTRA_FFLAGS
- Load compiler plugin code from the dragonegg.so file.
- -fplugin-arg-dragonegg-llvm-option=-merge-constant
- EXTRA_FFLAGS
- This optimization merges duplicate constant uses into a register to reduce instruction width.
- -fplugin-arg-dragonegg-llvm-option=-enable-vectorize-compares:false
- EXTRA_FFLAGS
- Certain loops with breaks may be vectorized by default at -O2 and above. In some extreme situations this may result in unsafe behavior. Use this option to disable vectorization of such loops.
- -DSPEC_OPENMP
- EXTRA_OPTIMIZE
- Definition of this macro indicates that compilation for parallel operation is enabled, and that any OpenMP directives or pragmas will be visible to the compiler. The behavior of this macro is overridden if -DSPEC_SUPPRESS_OPENMP also appears in the list of compilation flags.
- -fopenmp
- Yes
- EXTRA_OPTIMIZE
- Enable handling of OpenMP directives and generate parallel code.
- -fopenmp=libomp
- Yes
- EXTRA_LIBS
- Enable handling of OpenMP directives and generate parallel code.
- -lomp
- EXTRA_LIBS
- Instructs the compiler to link with the OpenMP runtime libraries.
- -lpthread
- EXTRA_LIBS
- This option instructs the linker to link the executable with the pthread library.
- -ldl
- EXTRA_LIBS
- This option instructs the linker to link the executable with libdl, the interface to the dynamic loader.
- -ljemalloc
- EXTRA_LIBS
- Use the jemalloc library, which is a general purpose malloc(3) implementation that emphasizes fragmentation avoidance and scalable concurrency support.
- -lamdlibm
- EXTRA_LIBS
- Instructs the compiler to link with AMD-supported optimized math library.

Peak Optimization Flags

C benchmarks

619.lbm_s

- -flto
- COPTIMIZE, EXTRA_LDFLAGS
- Generate output files in LLVM formats suitable for link time optimization. When used with -S this generates LLVM intermediate language assembly files, otherwise this generates LLVM bitcode format object files (which may be passed to the linker depending on the stage selection options).
- -Wl,-plugin-opt=-merge-constant
- EXTRA_LDFLAGS
- This optimization merges duplicate constant uses into a register to reduce instruction width.
- -Wl,-plugin-opt=-lsr-in-nested-loop
- EXTRA_LDFLAGS
- Enables loop strength reduction for nested loop structures. By default, the compiler will do loop strength reduction only for the innermost loop.
- -Ofast
- COPTIMIZE
- Enables all the optimizations from -O3 along with other aggressive optimizations that may violate strict compliance with language standards. Refer to the AOCC options document for the language you're using for more detailed documentation of optimizations enabled under -Ofast.
- Includes:
  - -O3
    - -O2
      
      -O1
- -march=znver1
- COPTIMIZE
- Specify that Clang should generate code for a specific processor family member and later. For example, if you specify -march=znver1, the compiler is allowed to generate instructions that are valid on AMD Zen processors, but which may not exist on earlier products.
- -fstruct-layout=3
- COPTIMIZE
- This option enables transformation of the layout of arrays of structure types and their fields to improve the cache locality. Aggressive analysis and transformations are performed at higher levels. This option is effective only with -flto as whole program analysis is required to perform this optimization.
  
  Possible values:
  - 1: Use when the allocated size of the array of structures is unknown at compile time.
  - 2: Use when the allocated size of the array of structures is known to fall within 64KB and 4GB.
  - 3: Use when the allocated size of the array of structures is known to be less than 64KB.
- -mllvm -vectorize-memory-aggressively
- COPTIMIZE
- This option avoids runtime memory dependency checks to enable aggressive vectorization.
- -mno-avx2
- COPTIMIZE
- This option restricts the optimization and code generation to first-generation AVX instructions.
- -mllvm -unroll-threshold=100
- COPTIMIZE
- Sets the limit at which loops will be unrolled. For example, if unroll threshold is set to 100 then only loops with 100 or fewer instructions will be unrolled.
- -fremap-arrays
- COPTIMIZE
- This option enables an optimization that transforms the data layout of a single dimensional array to provide better cache locality by analyzing the access patterns.
- -mllvm -inline-threshold=1000
- COPTIMIZE
- Sets the compiler's inlining threshold level to the value passed. The inline threshold is used in the inliner heuristics to decide which functions should be inlined.
- -DSPEC_OPENMP
- EXTRA_OPTIMIZE
- Definition of this macro indicates that compilation for parallel operation is enabled, and that any OpenMP directives or pragmas will be visible to the compiler. The behavior of this macro is overridden if -DSPEC_SUPPRESS_OPENMP also appears in the list of compilation flags.
- -fopenmp
- Yes
- EXTRA_OPTIMIZE
- Enable handling of OpenMP directives and generate parallel code.
- -fopenmp=libomp
- Yes
- EXTRA_LIBS
- Enable handling of OpenMP directives and generate parallel code.
- -lomp
- EXTRA_LIBS
- Instructs the compiler to link with the OpenMP runtime libraries.
- -lpthread
- EXTRA_LIBS
- This option instructs the linker to link the executable with the pthread library.
- -ldl
- EXTRA_LIBS
- This option instructs the linker to link the executable with libdl, the interface to the dynamic loader.
- -ljemalloc
- EXTRA_LIBS
- Use the jemalloc library, which is a general purpose malloc(3) implementation that emphasizes fragmentation avoidance and scalable concurrency support.
- -lamdlibm
- EXTRA_LIBS
- Instructs the compiler to link with AMD-supported optimized math library.

638.imagick_s

- -flto
- COPTIMIZE, EXTRA_LDFLAGS
- Generate output files in LLVM formats suitable for link time optimization. When used with -S this generates LLVM intermediate language assembly files, otherwise this generates LLVM bitcode format object files (which may be passed to the linker depending on the stage selection options).
- -Wl,-plugin-opt=-merge-constant
- EXTRA_LDFLAGS
- This optimization merges duplicate constant uses into a register to reduce instruction width.
- -Wl,-plugin-opt=-lsr-in-nested-loop
- EXTRA_LDFLAGS
- Enables loop strength reduction for nested loop structures. By default, the compiler will do loop strength reduction only for the innermost loop.
- -Ofast
- COPTIMIZE
- Enables all the optimizations from -O3 along with other aggressive optimizations that may violate strict compliance with language standards. Refer to the AOCC options document for the language you're using for more detailed documentation of optimizations enabled under -Ofast.
- Includes:
  - -O3
    - -O2
      
      -O1
- -march=znver1
- COPTIMIZE
- Specify that Clang should generate code for a specific processor family member and later. For example, if you specify -march=znver1, the compiler is allowed to generate instructions that are valid on AMD Zen processors, but which may not exist on earlier products.
- -fstruct-layout=3
- COPTIMIZE
- This option enables transformation of the layout of arrays of structure types and their fields to improve the cache locality. Aggressive analysis and transformations are performed at higher levels. This option is effective only with -flto as whole program analysis is required to perform this optimization.
  
  Possible values:
  - 1: Use when the allocated size of the array of structures is unknown at compile time.
  - 2: Use when the allocated size of the array of structures is known to fall within 64KB and 4GB.
  - 3: Use when the allocated size of the array of structures is known to be less than 64KB.
- -mllvm -vectorize-memory-aggressively
- COPTIMIZE
- This option avoids runtime memory dependency checks to enable aggressive vectorization.
- -mno-avx2
- COPTIMIZE
- This option restricts the optimization and code generation to first-generation AVX instructions.
- -mllvm -unroll-threshold=100
- COPTIMIZE
- Sets the limit at which loops will be unrolled. For example, if unroll threshold is set to 100 then only loops with 100 or fewer instructions will be unrolled.
- -fremap-arrays
- COPTIMIZE
- This option enables an optimization that transforms the data layout of a single dimensional array to provide better cache locality by analyzing the access patterns.
- -mllvm -inline-threshold=1000
- COPTIMIZE
- Sets the compiler's inlining threshold level to the value passed. The inline threshold is used in the inliner heuristics to decide which functions should be inlined.
- -DSPEC_OPENMP
- EXTRA_OPTIMIZE
- Definition of this macro indicates that compilation for parallel operation is enabled, and that any OpenMP directives or pragmas will be visible to the compiler. The behavior of this macro is overridden if -DSPEC_SUPPRESS_OPENMP also appears in the list of compilation flags.
- -fopenmp
- Yes
- EXTRA_OPTIMIZE
- Enable handling of OpenMP directives and generate parallel code.
- -fopenmp=libomp
- Yes
- EXTRA_LIBS
- Enable handling of OpenMP directives and generate parallel code.
- -lomp
- EXTRA_LIBS
- Instructs the compiler to link with the OpenMP runtime libraries.
- -lpthread
- EXTRA_LIBS
- This option instructs the linker to link the executable with the pthread library.
- -ldl
- EXTRA_LIBS
- This option instructs the linker to link the executable with libdl, the interface to the dynamic loader.
- -ljemalloc
- EXTRA_LIBS
- Use the jemalloc library, which is a general purpose malloc(3) implementation that emphasizes fragmentation avoidance and scalable concurrency support.

644.nab_s

- Same as 638.imagick_s

Fortran benchmarks

603.bwaves_s

- -flto
- EXTRA_LDFLAGS
- Generate output files in LLVM formats suitable for link time optimization. When used with -S this generates LLVM intermediate language assembly files, otherwise this generates LLVM bitcode format object files (which may be passed to the linker depending on the stage selection options).
- -Wl,-plugin-opt=-merge-constant
- EXTRA_LDFLAGS
- This optimization merges duplicate constant uses into a register to reduce instruction width.
- -Wl,-plugin-opt=-lsr-in-nested-loop
- EXTRA_LDFLAGS
- Enables loop strength reduction for nested loop structures. By default, the compiler will do loop strength reduction only for the innermost loop.
- -O3
- FOPTIMIZE
- Like -O2, except that it enables optimizations that take longer to perform or that may generate larger code (in an attempt to make the program run faster).
  
  If multiple "O" options are used, with or without level numbers, the last such option is the one that is effective.
- Includes:
  - -O2
    - -O1
- -mavx2
- FOPTIMIZE
- This option enables AVX2 (Advanced Vector Extensions, 2nd generation) support.
- -madx
- FOPTIMIZE
- This option enables generation of the adx instruction.
- -funroll-loops
- FOPTIMIZE
- This option instructs the compiler to unroll loops wherever possible.
- -ffast-math
- FOPTIMIZE
- Enables a range of optimizations that provide faster, though sometimes less precise, mathematical operations that may not conform to the IEEE-754 specifications. When this option is specified, the __STDC_IEC_559__ macro is ignored even if set by the system headers.
- -fplugin=dragonegg.so
- EXTRA_FFLAGS
- Load compiler plugin code from the dragonegg.so file.
- -fplugin-arg-dragonegg-llvm-option=-merge-constant
- EXTRA_FFLAGS
- This optimization merges duplicate constant uses into a register to reduce instruction width.
- -fplugin-arg-dragonegg-llvm-option=-inline-threshold:1000
- EXTRA_FFLAGS
- Sets the compiler's inlining threshold level to the value passed. The inline threshold is used in the inliner heuristics to decide which functions should be inlined.
- -DSPEC_OPENMP
- EXTRA_OPTIMIZE
- Definition of this macro indicates that compilation for parallel operation is enabled, and that any OpenMP directives or pragmas will be visible to the compiler. The behavior of this macro is overridden if -DSPEC_SUPPRESS_OPENMP also appears in the list of compilation flags.
- -fopenmp
- Yes
- EXTRA_OPTIMIZE
- Enable handling of OpenMP directives and generate parallel code.
- -fopenmp=libomp
- Yes
- EXTRA_LIBS
- Enable handling of OpenMP directives and generate parallel code.
- -lomp
- EXTRA_LIBS
- Instructs the compiler to link with the OpenMP runtime libraries.
- -lpthread
- EXTRA_LIBS
- This option instructs the linker to link the executable with the pthread library.
- -ldl
- EXTRA_LIBS
- This option instructs the linker to link the executable with libdl, the interface to the dynamic loader.
- -ljemalloc
- EXTRA_LIBS
- Use the jemalloc library, which is a general purpose malloc(3) implementation that emphasizes fragmentation avoidance and scalable concurrency support.
- -lamdlibm
- EXTRA_FLIBS, EXTRA_LIBS
- Instructs the compiler to link with AMD-supported optimized math library.
- -lgfortran
- EXTRA_FLIBS
- Instructs the compiler to link with the gfortran Fortran runtime libraries.

649.fotonik3d_s

- basepeak = yes

654.roms_s

- basepeak = yes

Benchmarks using both Fortran and C

621.wrf_s

- basepeak = yes

627.cam4_s

- basepeak = yes

628.pop2_s

- -flto
- COPTIMIZE, EXTRA_LDFLAGS
- Generate output files in LLVM formats suitable for link time optimization. When used with -S this generates LLVM intermediate language assembly files, otherwise this generates LLVM bitcode format object files (which may be passed to the linker depending on the stage selection options).
- -Wl,-plugin-opt=-merge-constant
- EXTRA_LDFLAGS
- This optimization merges duplicate constant uses into a register to reduce instruction width.
- -Wl,-plugin-opt=-lsr-in-nested-loop
- EXTRA_LDFLAGS
- Enables loop strength reduction for nested loop structures. By default, the compiler will do loop strength reduction only for the innermost loop.
- -Ofast
- COPTIMIZE
- Enables all the optimizations from -O3 along with other aggressive optimizations that may violate strict compliance with language standards. Refer to the AOCC options document for the language you're using for more detailed documentation of optimizations enabled under -Ofast.
- Includes:
  - -O3
    - -O2
      
      -O1
- -march=znver1
- COPTIMIZE
- Specify that Clang should generate code for a specific processor family member and later. For example, if you specify -march=znver1, the compiler is allowed to generate instructions that are valid on AMD Zen processors, but which may not exist on earlier products.
- -fstruct-layout=3
- COPTIMIZE
- This option enables transformation of the layout of arrays of structure types and their fields to improve the cache locality. Aggressive analysis and transformations are performed at higher levels. This option is effective only with -flto as whole program analysis is required to perform this optimization.
  
  Possible values:
  - 1: Use when the allocated size of the array of structures is unknown at compile time.
  - 2: Use when the allocated size of the array of structures is known to fall within 64KB and 4GB.
  - 3: Use when the allocated size of the array of structures is known to be less than 64KB.
- -mllvm -vectorize-memory-aggressively
- COPTIMIZE
- This option avoids runtime memory dependency checks to enable aggressive vectorization.
- -mno-avx2
- COPTIMIZE
- This option restricts the optimization and code generation to first-generation AVX instructions.
- -mllvm -unroll-threshold=100
- COPTIMIZE
- Sets the limit at which loops will be unrolled. For example, if unroll threshold is set to 100 then only loops with 100 or fewer instructions will be unrolled.
- -fremap-arrays
- COPTIMIZE
- This option enables an optimization that transforms the data layout of a single dimensional array to provide better cache locality by analyzing the access patterns.
- -mllvm -inline-threshold=1000
- COPTIMIZE
- Sets the compiler's inlining threshold level to the value passed. The inline threshold is used in the inliner heuristics to decide which functions should be inlined.
- -O3
- FOPTIMIZE
- Like -O2, except that it enables optimizations that take longer to perform or that may generate larger code (in an attempt to make the program run faster).
  
  If multiple "O" options are used, with or without level numbers, the last such option is the one that is effective.
- Includes:
  - -O2
    - -O1
- -mavx2
- FOPTIMIZE
- This option enables AVX2 (Advanced Vector Extensions, 2nd generation) support.
- -madx
- FOPTIMIZE
- This option enables generation of the adx instruction.
- -funroll-loops
- FOPTIMIZE
- This option instructs the compiler to unroll loops wherever possible.
- -ffast-math
- FOPTIMIZE
- Enables a range of optimizations that provide faster, though sometimes less precise, mathematical operations that may not conform to the IEEE-754 specifications. When this option is specified, the __STDC_IEC_559__ macro is ignored even if set by the system headers.
- -fplugin=dragonegg.so
- EXTRA_FFLAGS
- Load compiler plugin code from the dragonegg.so file.
- -fplugin-arg-dragonegg-llvm-option=-merge-constant
- EXTRA_FFLAGS
- This optimization merges duplicate constant uses into a register to reduce instruction width.
- -fplugin-arg-dragonegg-llvm-option=-inline-threshold:1000
- EXTRA_FFLAGS
- Sets the compiler's inlining threshold level to the value passed. The inline threshold is used in the inliner heuristics to decide which functions should be inlined.
- -DSPEC_OPENMP
- EXTRA_OPTIMIZE
- Definition of this macro indicates that compilation for parallel operation is enabled, and that any OpenMP directives or pragmas will be visible to the compiler. The behavior of this macro is overridden if -DSPEC_SUPPRESS_OPENMP also appears in the list of compilation flags.
- -fopenmp
- Yes
- EXTRA_OPTIMIZE
- Enable handling of OpenMP directives and generate parallel code.
- -fopenmp=libomp
- Yes
- EXTRA_LIBS
- Enable handling of OpenMP directives and generate parallel code.
- -lomp
- EXTRA_LIBS
- Instructs the compiler to link with the OpenMP runtime libraries.
- -lpthread
- EXTRA_LIBS
- This option instructs the linker to link the executable with the pthread library.
- -ldl
- EXTRA_LIBS
- This option instructs the linker to link the executable with libdl, the interface to the dynamic loader.
- -ljemalloc
- EXTRA_LIBS
- Use the jemalloc library, which is a general purpose malloc(3) implementation that emphasizes fragmentation avoidance and scalable concurrency support.
- -lamdlibm
- EXTRA_FLIBS, EXTRA_LIBS
- Instructs the compiler to link with AMD-supported optimized math library.
- -lgfortran
- EXTRA_FLIBS
- Instructs the compiler to link with the gfortran Fortran runtime libraries.

Benchmarks using Fortran, C, and C++

- -std=c++98
- CXX
- Selects the C++ language dialect.
- -flto
- COPTIMIZE, CXXOPTIMIZE, EXTRA_LDFLAGS
- Generate output files in LLVM formats suitable for link time optimization. When used with -S this generates LLVM intermediate language assembly files, otherwise this generates LLVM bitcode format object files (which may be passed to the linker depending on the stage selection options).
- -Wl,-plugin-opt=-merge-constant
- EXTRA_LDFLAGS
- This optimization merges duplicate constant uses into a register to reduce instruction width.
- -Wl,-plugin-opt=-lsr-in-nested-loop
- EXTRA_LDFLAGS
- Enables loop strength reduction for nested loop structures. By default, the compiler will do loop strength reduction only for the innermost loop.
- -Ofast
- COPTIMIZE, CXXOPTIMIZE
- Enables all the optimizations from -O3 along with other aggressive optimizations that may violate strict compliance with language standards. Refer to the AOCC options document for the language you're using for more detailed documentation of optimizations enabled under -Ofast.
- Includes:
  - -O3
    - -O2
      
      -O1
- -march=znver1
- COPTIMIZE, CXXOPTIMIZE
- Specify that Clang should generate code for a specific processor family member and later. For example, if you specify -march=znver1, the compiler is allowed to generate instructions that are valid on AMD Zen processors, but which may not exist on earlier products.
- -fstruct-layout=3
- COPTIMIZE
- This option enables transformation of the layout of arrays of structure types and their fields to improve the cache locality. Aggressive analysis and transformations are performed at higher levels. This option is effective only with -flto as whole program analysis is required to perform this optimization.
  
  Possible values:
  - 1: Use when the allocated size of the array of structures is unknown at compile time.
  - 2: Use when the allocated size of the array of structures is known to fall within 64KB and 4GB.
  - 3: Use when the allocated size of the array of structures is known to be less than 64KB.
- -mllvm -vectorize-memory-aggressively
- COPTIMIZE
- This option avoids runtime memory dependency checks to enable aggressive vectorization.
- -mno-avx2
- COPTIMIZE
- This option restricts the optimization and code generation to first-generation AVX instructions.
- -mllvm -unroll-threshold=100
- COPTIMIZE, CXXOPTIMIZE
- Sets the limit at which loops will be unrolled. For example, if unroll threshold is set to 100 then only loops with 100 or fewer instructions will be unrolled.
- -fremap-arrays
- COPTIMIZE, CXXOPTIMIZE
- This option enables an optimization that transforms the data layout of a single dimensional array to provide better cache locality by analyzing the access patterns.
- -mllvm -inline-threshold=1000
- COPTIMIZE, CXXOPTIMIZE
- Sets the compiler's inlining threshold level to the value passed. The inline threshold is used in the inliner heuristics to decide which functions should be inlined.
- -finline-aggressive
- CXXOPTIMIZE
- Sets the compiler's inlining heuristics to an aggressive level by increasing the inline thresholds.
- -O3
- FOPTIMIZE
- Like -O2, except that it enables optimizations that take longer to perform or that may generate larger code (in an attempt to make the program run faster).
  
  If multiple "O" options are used, with or without level numbers, the last such option is the one that is effective.
- Includes:
  - -O2
    - -O1
- -mavx2
- FOPTIMIZE
- This option enables AVX2 (Advanced Vector Extensions, 2nd generation) support.
- -madx
- FOPTIMIZE
- This option enables generation of the adx instruction.
- -funroll-loops
- FOPTIMIZE
- This option instructs the compiler to unroll loops wherever possible.
- -ffast-math
- FOPTIMIZE
- Enables a range of optimizations that provide faster, though sometimes less precise, mathematical operations that may not conform to the IEEE-754 specifications. When this option is specified, the __STDC_IEC_559__ macro is ignored even if set by the system headers.
- -fplugin=dragonegg.so
- EXTRA_FFLAGS
- Load compiler plugin code from the dragonegg.so file.
- -fplugin-arg-dragonegg-llvm-option=-merge-constant
- EXTRA_FFLAGS
- This optimization merges duplicate constant uses into a register to reduce instruction width.
- -fplugin-arg-dragonegg-llvm-option=-inline-threshold:1000
- EXTRA_FFLAGS
- Sets the compiler's inlining threshold level to the value passed. The inline threshold is used in the inliner heuristics to decide which functions should be inlined.
- -DSPEC_OPENMP
- EXTRA_OPTIMIZE
- Definition of this macro indicates that compilation for parallel operation is enabled, and that any OpenMP directives or pragmas will be visible to the compiler. The behavior of this macro is overridden if -DSPEC_SUPPRESS_OPENMP also appears in the list of compilation flags.
- -fopenmp
- Yes
- EXTRA_OPTIMIZE
- Enable handling of OpenMP directives and generate parallel code.
- -fopenmp=libomp
- Yes
- EXTRA_LIBS
- Enable handling of OpenMP directives and generate parallel code.
- -lomp
- EXTRA_LIBS
- Instructs the compiler to link with the OpenMP runtime libraries.
- -lpthread
- EXTRA_LIBS
- This option instructs the linker to link the executable with the pthread library.
- -ldl
- EXTRA_LIBS
- This option instructs the linker to link the executable with libdl, the interface to the dynamic loader.
- -ljemalloc
- EXTRA_LIBS
- Use the jemalloc library, which is a general purpose malloc(3) implementation that emphasizes fragmentation avoidance and scalable concurrency support.
- -lamdlibm
- EXTRA_LIBS
- Instructs the compiler to link with AMD-supported optimized math library.

Implicitly Included Flags

This section contains descriptions of flags that were included implicitly by other flags, but which do not have a permanent home at SPEC.

Commands and Options Used to Submit Benchmark Runs

This result has been formatted using multiple flags files. The "submit command" from each of them appears next.

Submit command from aocc130-flags-revA21

AMD Optimizing C/C++ Compiler Suite Version 1.3.0 SPEC CPU2017 Flag Description

For multi-copy runs or single copy runs on systems with multiple sockets, it is advantageous to bind a process to a particular core. Otherwise, the OS may arbitrarily move your process from one core to another. This can affect performance. To help, SPEC allows the use of a "submit" command where users can specify a utility to use to bind processes. We have found the utility 'numactl' to be the best choice.

numactl runs processes with a specific NUMA scheduling or memory placement policy. The policy is set for a command and inherited by all of its children. The numactl flag "--physcpubind" specifies which core(s) to bind the process. "-l" instructs numactl to keep a process's memory on the local node while "-m" specifies which node(s) to place a process's memory. For full details on using numactl, please refer to your Linux documentation, 'man numactl'

Note that some older versions of numactl incorrectly interpret application arguments as its own. For example, with the command "numactl --physcpubind=0 -l a.out -m a", numactl will interpret a.out's "-m" option as its own "-m" option. To work around this problem, we put the command to be run in a shell script and then run the shell script using numactl. For example: "echo 'a.out -m a' > run.sh ; numactl --physcpubind=0 bash run.sh"

Submit command from gcc

GNU Compiler Collection Flags

SPECrate runs might use one of these methods to bind processes to specific processors, depending on the config file.

Commands and Options Used for Feedback-Directed Optimization

No special commands are needed for feedback-directed optimization, other than the compiler profile flags.

Shell, Environment, and Other Software Settings

This result has been formatted using multiple flags files. The "sw environment" from each of them appears next.

Sw environment from aocc130-flags-revA21

AMD Optimizing C/C++ Compiler Suite Version 1.3.0 SPEC CPU2017 Flag Description

THP is an abstraction layer that automates most aspects of creating, managing, and using huge pages. THP is designed to hide much of the complexity in using huge pages from system administrators and developers, as normal huge pages must be assigned at boot time, can be difficult to manage manually, and often require significant changes to code in order to be used effectively. Most recent Linux OS releases have THP enabled by default.

If you need finer control you can manually set huge pages using the following steps:

Sets the stack size to n kbytes, or unlimited to allow the stack size to grow without limit.

Sets the CPU governor to "performance" to enable the highest supported performance state for all cores.

Disables the cpu frequency scaling program in order to set the CPUs to the highest supported frequency.

Sets the maximum number of OpenMP parallel threads applications based on OpenMP may use.

An environment variable that indicates the location in the filesystem of bundled libraries to use when running the benchmark binaries.

This option can be used to select the type of process address space randomization that is used in the system, for architectures that support this feature.

An environment variable set to tune the jemalloc allocation strategy during the execution of the binaries. This environment variable setting is not needed when building the binaries on the system under test.

Sw environment from gcc

GNU Compiler Collection Flags

One or more of the following may have been used in the run. If so, it will be listed in the notes sections. Here is a brief guide to understanding them:

Firmware / BIOS / Microcode Settings

Model	Minimum cTDP	Maximum cTDP
EPYC 7742	225	240
EPYC 7702	165	200
EPYC 7702P	180	200
EPYC 7452	155	180

For questions about the meanings of these flags, please contact the tester.
For other inquiries, please contact info@spec.org
Copyright 2017-2019 Standard Performance Evaluation Corporation
Tested with SPEC CPU2017 v1.0.5.
Report generated on 2019-08-08 11:12:28 by SPEC CPU2017 flags formatter v5178.

	Indicates that the flag description came from the user flags file.
	Indicates that the flag description came from the suite-wide flags file.
	Indicates that the flag description came from a per-benchmark flags file.

CPU2017 Flag DescriptionGIGA-BYTE TECHNOLOGY CO., LTD. R282-Z90 (AMD EPYC 7742, 2.25GHz)

Default header section from aocc130-flags-revA21

AMD Optimizing C/C++ Compiler Suite Version 1.3.0 SPEC CPU2017 Flag Description

Compilers: AMD Optimizing C/C++ Compiler Suite 1.3.0

Default header section from gcc

GNU Compiler Collection Flags

Flag descriptions for GCC, the GNU Compiler Collection

Base Compiler Invocation

Peak Compiler Invocation

Base Portability Flags

Peak Portability Flags

Base Optimization Flags

Peak Optimization Flags

Base Other Flags

Peak Other Flags

Implicitly Included Flags

Submit command from aocc130-flags-revA21

AMD Optimizing C/C++ Compiler Suite Version 1.3.0 SPEC CPU2017 Flag Description

Submit command from gcc

GNU Compiler Collection Flags

Sw environment from aocc130-flags-revA21

AMD Optimizing C/C++ Compiler Suite Version 1.3.0 SPEC CPU2017 Flag Description

Sw environment from gcc

GNU Compiler Collection Flags

CPU2017 Flag Description
GIGA-BYTE TECHNOLOGY CO., LTD. R282-Z90 (AMD EPYC 7742, 2.25GHz)