CPU2006 Flag Description
Hewlett-Packard Company ProLiant DL785 G6 (2.8 GHz AMD Opteron 8439 SE)

Base Optimization Flags

C benchmarks

• • -march=barcelona
  • 
  • CC, LD

  • Compiler will generate instructions and schedule them appropriately for the selected processor type. The default value, auto, means to optimize for the platform on which the compiler is running, as determined by reading /proc/cpuinfo. anyx86 means a generic 32-bit x86 processor without SSE2 support.

• • -Ofast
  • 
  • COPTIMIZE

  • Uses a selection of optimizations in order to maximize performance.
    Specifying "-Ofast" is equivalent to -O3 -ipa -OPT:Ofast -fno-math-errno -ffast-math.
    These optimization options are generally safe. Floating-point accuracy may be affected due to the transformation of the computational code. Note the interprocedural analysis option, -ipa, specifies limitations on how libraries and object files (.o files) are built.

  • Includes:
    • -O3
      • -O2
        • -O1
    • -ipa
    • -OPT:Ofast
      • -OPT:ro
      • -OPT:Olimit
      • -OPT:div_split
      • -OPT:alias
    • -fno-math-errno
    • -ffast-math
• • -CG:local_sched_alg=1
  • 
  • COPTIMIZE

  • -CG:local_sched_alg=(0|1|2): This option selects the basic block instruction scheduling algorithm.
    To perform backward scheduling (i.e. where instructions are scheduled from the bottom to the top of the basic block) select 0.
    To perform forward scheduling select 1.
    To schedule the instruction twice (i.e. once in the forward direction and once in the backward direction) and take the optimal of the two schedules select 2.
    The default value for this option is determined by the Open64 compiler during compilation.

• • -HP:bdt=2m:heap=2m
  • 
  • COPTIMIZE

  • Instructs the compiler to use 2MB hugepages for bss, data and text segments (i.e. bdt), and/or for heap allocation. Mixed usage of huge and small pages is not supported for bdt, but is supported for heap allocation. The limit option specifies a combined limit on the number of hugepages that may be used by the compiled program. If no limit is set, the number of hugepages that can be used by the program is effectively limited by the system configuration.

C++ benchmarks

• • -march=barcelona
  • 
  • CXX, LD

  • Compiler will generate instructions and schedule them appropriately for the selected processor type. The default value, auto, means to optimize for the platform on which the compiler is running, as determined by reading /proc/cpuinfo. anyx86 means a generic 32-bit x86 processor without SSE2 support.

• • -Ofast
  • 
  • CXXOPTIMIZE

  • Uses a selection of optimizations in order to maximize performance.
    Specifying "-Ofast" is equivalent to -O3 -ipa -OPT:Ofast -fno-math-errno -ffast-math.
    These optimization options are generally safe. Floating-point accuracy may be affected due to the transformation of the computational code. Note the interprocedural analysis option, -ipa, specifies limitations on how libraries and object files (.o files) are built.

  • Includes:
    • -O3
      • -O2
        • -O1
    • -ipa
    • -OPT:Ofast
      • -OPT:ro
      • -OPT:Olimit
      • -OPT:div_split
      • -OPT:alias
    • -fno-math-errno
    • -ffast-math
• • -m32
  • 
  • CXXOPTIMIZE

  • Generate code for a 32-bit environment. The 32-bit environment sets int, long and pointer to 32 bits and generates code that runs on any i386 system. The compiler generates x86 or IA32 32-bit ABI. The default on a 32-bit host is 32-bit ABI. The default on a 64-bit host is 64-bit ABI if the target platform specified is 64-bit, otherwise the default is 32-bit.

• • -INLINE:aggressive=on
  • 
  • CXXOPTIMIZE

  • -INLINE:aggressive=(on|off|0|1): Instructs the compiler to be very aggressive when performing inlining. The default is "-INLINE:aggressive=OFF".

• • -L/root/work/libraries/SmartHeap-8.1/lib -lsmartheap
  • 
  • EXTRA_CXXLIBS

  • -L<library directory> -lsmartheap ,
    when used as an EXTRA_CXXLIB variable, results in linking with MicroQuill's SmartHeap 8 (32-bit) library for Linux. This is a library that optimizes calls to new, delete, malloc and free.

Peak Optimization Flags

C benchmarks

400.perlbench

• • -march=barcelona
  • 
  • CC, LD

  • Compiler will generate instructions and schedule them appropriately for the selected processor type. The default value, auto, means to optimize for the platform on which the compiler is running, as determined by reading /proc/cpuinfo. anyx86 means a generic 32-bit x86 processor without SSE2 support.

• • -fb_create fbdata
  • 
  • PASS1_CFLAGS, PASS1_LDFLAGS

  • -fb_create <path>
    Instructs the compiler to generate an instrumented executable program from the source code under development. The instrumented executable produces feedback data files at runtime using an example dataset. filename specifies the name of the feedback data file generated by the instrumented executable.
    opencc -O2 -ipa -fb_create fbdata -o foo foo.c
    "fbdata" will contain the instrumented feedback data from the instrumented executable "foo". The default is "-fb_create" is disabled.

    When feedback directed optimization (FDO) is used, an instrumented executable is used for a training run that produces information regarding execution paths and data values. Hardware performance counters are not used. This information is then provided to the optimizer during a second compilation pass to produce an optimized executable. FDO enables the optimizer to perform some optimizations which are not available without feedback data. The safety level of optimizations is unchanged with FDO, i.e. the safety level is the same as determined by the other (non-FDO) optimization flags specified on the compile and link lines.

• • -fb_opt fbdata
  • 
  • PASS2_CFLAGS, PASS2_LDFLAGS

  • -fb_opt <prefix for feedback data files>
    Instructs the compiler to perform a feedback directed compilation using the instrumented feedback data produced by the -fb_create option.
    opencc -O2 -ipa -fb-opt fbdata -o foo foo.c
    The new executable, foo, will be optimized to execute faster, and will not include any instrumentation library calls. Note the same optimization flags specified when creating the instrumented data file with the -fb_create must be specified when invoking the compiler with the -fb_opt option. Otherwise, the compiler will emit checksum errors. The default is "-fb_opt" disabled.

• • -Ofast
  • 
  • COPTIMIZE

  • Uses a selection of optimizations in order to maximize performance.
    Specifying "-Ofast" is equivalent to -O3 -ipa -OPT:Ofast -fno-math-errno -ffast-math.
    These optimization options are generally safe. Floating-point accuracy may be affected due to the transformation of the computational code. Note the interprocedural analysis option, -ipa, specifies limitations on how libraries and object files (.o files) are built.

  • Includes:
    • -O3
      • -O2
        • -O1
    • -ipa
    • -OPT:Ofast
      • -OPT:ro
      • -OPT:Olimit
      • -OPT:div_split
      • -OPT:alias
    • -fno-math-errno
    • -ffast-math
• • -IPA:plimit=20000
  • 
  • COPTIMIZE

  • -IPA:plimit=N : The compiler is instructed to halt inlining within a program once the intermediate representation indicates that the code size of the program has surpassed the limit set by N. The default is "-IPA:plimit=2500".

• • -LNO:opt=0
  • 
  • COPTIMIZE

  • This option group commands the compiler loop nest optimizer to perform nested loop analysis and transformations. Note an optimization level of "-O3" or higher must be specified in order to enable the "-LNO:" options. To verify the LNO options that were invoked during compilation use the option "-LIST:all_options=ON".

    -LNO:opt=(0|1) : Instructs the compiler at which level to perform loop nest optimizations. The flag can be set to:
    0 The compiler is restricted to suppress nearly all loop nest optimizations.
    1 The compiler performs full loop nest optimizations.
    The default is "-LNO:opt=1"

• • -OPT:unroll_times_max=8
  • 
  • COPTIMIZE

  • -OPT:unroll_times_max=N
    Instructs the compiler to limit the unrolling of inner loops to the value specified by N. The default is "-OPT:unroll_times_max=4".

• • -OPT:unroll_size=256
  • 
  • COPTIMIZE

  • -OPT:unroll_size=N
    Instructs the compiler to limit the number of instructions produced when unrolling inner loops. When N=0 the ceiling is disregarded. Note by specifying "-O3" sets "-OPT:unroll_size=128". The default is "-OPT:unroll_size=40".

• • -OPT:unroll_level=2
  • 
  • COPTIMIZE

  • -OPT:unroll_level=(1|2)
    Controls the level at which the compiler will perform unrolling optimizations. When "-OPT:unroll_level=2" the compiler is instructed to aggressively unroll loops in the presence of control flow. The default is "-OPT:unroll_level=1".

• • -OPT:keep_ext=on
  • 
  • COPTIMIZE

  • -OPT:keep_ext=(on|off|0|1)
    Instructs the compiler to preserve external symbolic information. The default is "-OPT:keep_ext=OFF".

• • -WOPT:if_conv=0
  • 
  • COPTIMIZE

  • -WOPT:if_conv=(0|1|2):
    "-WOPT:if_conv" instructs the compiler to transform simple IF statements to conditional move instructions. "-WOPT:if_conv" has three settings:
    0 Disables this optimization.
    1 Specifies conservative IF statement transformations. The context surrounding the IF statement is used in the transformation decision.
    2 Use aggressive IF statement transformations. Perform the IF statement transformation regardless of the surrounding context.
    The default is "-WOPT:if_conv=1".

• • -CG:local_sched_alg=1
  • 
  • COPTIMIZE

  • -CG:local_sched_alg=(0|1|2): This option selects the basic block instruction scheduling algorithm.
    To perform backward scheduling (i.e. where instructions are scheduled from the bottom to the top of the basic block) select 0.
    To perform forward scheduling select 1.
    To schedule the instruction twice (i.e. once in the forward direction and once in the backward direction) and take the optimal of the two schedules select 2.
    The default value for this option is determined by the Open64 compiler during compilation.

• • -CG:unroll_fb_req=on
  • 
  • COPTIMIZE

  • -CG:unroll_fb_req=(on|off|0|1): The compiler is instructed to override cold code motion to keep the code generator from adding control flow in unrolled loops. The default is "-CG:unroll_fb_req=OFF".

• • -HP:bdt=2m:heap=2m
  • 
  • COPTIMIZE

  • Instructs the compiler to use 2MB hugepages for bss, data and text segments (i.e. bdt), and/or for heap allocation. Mixed usage of huge and small pages is not supported for bdt, but is supported for heap allocation. The limit option specifies a combined limit on the number of hugepages that may be used by the compiled program. If no limit is set, the number of hugepages that can be used by the program is effectively limited by the system configuration.

401.bzip2

• • -march=barcelona
  • 
  • CC, LD

  • Compiler will generate instructions and schedule them appropriately for the selected processor type. The default value, auto, means to optimize for the platform on which the compiler is running, as determined by reading /proc/cpuinfo. anyx86 means a generic 32-bit x86 processor without SSE2 support.

• • -fb_create fbdata
  • 
  • PASS1_CFLAGS, PASS1_LDFLAGS

  • -fb_create <path>
    Instructs the compiler to generate an instrumented executable program from the source code under development. The instrumented executable produces feedback data files at runtime using an example dataset. filename specifies the name of the feedback data file generated by the instrumented executable.
    opencc -O2 -ipa -fb_create fbdata -o foo foo.c
    "fbdata" will contain the instrumented feedback data from the instrumented executable "foo". The default is "-fb_create" is disabled.

    When feedback directed optimization (FDO) is used, an instrumented executable is used for a training run that produces information regarding execution paths and data values. Hardware performance counters are not used. This information is then provided to the optimizer during a second compilation pass to produce an optimized executable. FDO enables the optimizer to perform some optimizations which are not available without feedback data. The safety level of optimizations is unchanged with FDO, i.e. the safety level is the same as determined by the other (non-FDO) optimization flags specified on the compile and link lines.

• • -fb_opt fbdata
  • 
  • PASS2_CFLAGS, PASS2_LDFLAGS

  • -fb_opt <prefix for feedback data files>
    Instructs the compiler to perform a feedback directed compilation using the instrumented feedback data produced by the -fb_create option.
    opencc -O2 -ipa -fb-opt fbdata -o foo foo.c
    The new executable, foo, will be optimized to execute faster, and will not include any instrumentation library calls. Note the same optimization flags specified when creating the instrumented data file with the -fb_create must be specified when invoking the compiler with the -fb_opt option. Otherwise, the compiler will emit checksum errors. The default is "-fb_opt" disabled.

• • -O3
  • 
  • COPTIMIZE

  • Perform all the optimizations at the -O2 level as well as many more aggressive optimizations. Examples of such aggressive optimizations are loop nest optimizations and generation of prefetch instructions. Although these more aggressive optimizations can significantly speed up the run time execution of the compiled program, in rare cases they may not be profitable and may instead lead to a slow down. Also, some of these more aggressive optimizations may affect the accuracy of some floating point computations.

    If multiple "O" options are used, with or without level numbers, the last such option is the one that is effective. Level 2 is assumed if no value is specified (i.e. "-O". The default is "-O2".

  • Includes:
    • -O2
      • -O1
• • -OPT:alias=disjoint
  • 
  • COPTIMIZE

  • The "-OPT:" option group controls various optimizations. The "-OPT:" options supersede the defaults that are based on the main optimization level.

    -OPT:alias=<model>
    Identify which pointer aliasing model to use. The compiler will make assumptions during compilation when one or more of the following <model> is specified:

    typed
    Assumes that two pointers of different types will not point to the same location in memory (i.e. the code adheres to the ANSI/ISO C standards). Note when specifying "-OPT:Ofast" turns this option ON.

    restrict
    Assumes that distinct pointers are pointing to distinct non-overlapping objects. The default is that this optimization is disabled.

    disjoint
    Assumes that any two pointer expressions are pointing to distinct non-overlapping objects. This default is that this optimization is disabled.

    no_f90_pointer_alias
    Assumes that any two different Fortran 90 pointers are pointing to distinct non-overlapping objects. The default is that this optimization is disabled.

• • -OPT:unroll_size=0
  • 
  • COPTIMIZE

  • -OPT:unroll_size=N
    Instructs the compiler to limit the number of instructions produced when unrolling inner loops. When N=0 the ceiling is disregarded. Note by specifying "-O3" sets "-OPT:unroll_size=128". The default is "-OPT:unroll_size=40".

• • -OPT:Ofast
  • 
  • COPTIMIZE

  • -OPT:Ofast
    Maximizes performance for a given platform using the selected optimizations. "-OPT:Ofast" specifies four optimizations; "-OPT:ro=2", "-OPT:Olimit=0", "-OPT:div_split=ON", and "-OPT:alias=typed". Note the specified optimizations are ordinarily safe but floating point accuracy due to transformations may be diminished.

  • Includes:
    • -OPT:ro
    • -OPT:Olimit
    • -OPT:div_split
    • -OPT:alias
• • -OPT:goto=off
  • 
  • COPTIMIZE

  • -OPT:goto=(on|off|0|1)
    Transforms GOTO into higher level structures e.g., FOR loops. Note if "-O2" is specified "-OPT:goto=ON". The default is "-OPT:goto=OFF".

• • -INLINE:aggressive=on
  • 
  • COPTIMIZE

  • -INLINE:aggressive=(on|off|0|1): Instructs the compiler to be very aggressive when performing inlining. The default is "-INLINE:aggressive=OFF".

• • -CG:local_sched_alg=1
  • 
  • COPTIMIZE

  • -CG:local_sched_alg=(0|1|2): This option selects the basic block instruction scheduling algorithm.
    To perform backward scheduling (i.e. where instructions are scheduled from the bottom to the top of the basic block) select 0.
    To perform forward scheduling select 1.
    To schedule the instruction twice (i.e. once in the forward direction and once in the backward direction) and take the optimal of the two schedules select 2.
    The default value for this option is determined by the Open64 compiler during compilation.

• • -m3dnow
  • 
  • COPTIMIZE

  • Enables the use of 3DNow instructions.

• • -HP:bdt=2m:heap=2m
  • 
  • COPTIMIZE

  • Instructs the compiler to use 2MB hugepages for bss, data and text segments (i.e. bdt), and/or for heap allocation. Mixed usage of huge and small pages is not supported for bdt, but is supported for heap allocation. The limit option specifies a combined limit on the number of hugepages that may be used by the compiled program. If no limit is set, the number of hugepages that can be used by the program is effectively limited by the system configuration.

403.gcc

• • -march=barcelona
  • 
  • CC, LD

  • Compiler will generate instructions and schedule them appropriately for the selected processor type. The default value, auto, means to optimize for the platform on which the compiler is running, as determined by reading /proc/cpuinfo. anyx86 means a generic 32-bit x86 processor without SSE2 support.

• • -fb_create fbdata
  • 
  • PASS1_CFLAGS, PASS1_LDFLAGS

  • -fb_create <path>
    Instructs the compiler to generate an instrumented executable program from the source code under development. The instrumented executable produces feedback data files at runtime using an example dataset. filename specifies the name of the feedback data file generated by the instrumented executable.
    opencc -O2 -ipa -fb_create fbdata -o foo foo.c
    "fbdata" will contain the instrumented feedback data from the instrumented executable "foo". The default is "-fb_create" is disabled.

    When feedback directed optimization (FDO) is used, an instrumented executable is used for a training run that produces information regarding execution paths and data values. Hardware performance counters are not used. This information is then provided to the optimizer during a second compilation pass to produce an optimized executable. FDO enables the optimizer to perform some optimizations which are not available without feedback data. The safety level of optimizations is unchanged with FDO, i.e. the safety level is the same as determined by the other (non-FDO) optimization flags specified on the compile and link lines.

• • -fb_opt fbdata
  • 
  • PASS2_CFLAGS, PASS2_LDFLAGS

  • -fb_opt <prefix for feedback data files>
    Instructs the compiler to perform a feedback directed compilation using the instrumented feedback data produced by the -fb_create option.
    opencc -O2 -ipa -fb-opt fbdata -o foo foo.c
    The new executable, foo, will be optimized to execute faster, and will not include any instrumentation library calls. Note the same optimization flags specified when creating the instrumented data file with the -fb_create must be specified when invoking the compiler with the -fb_opt option. Otherwise, the compiler will emit checksum errors. The default is "-fb_opt" disabled.

• • -Ofast
  • 
  • COPTIMIZE

  • Uses a selection of optimizations in order to maximize performance.
    Specifying "-Ofast" is equivalent to -O3 -ipa -OPT:Ofast -fno-math-errno -ffast-math.
    These optimization options are generally safe. Floating-point accuracy may be affected due to the transformation of the computational code. Note the interprocedural analysis option, -ipa, specifies limitations on how libraries and object files (.o files) are built.

  • Includes:
    • -O3
      • -O2
        • -O1
    • -ipa
    • -OPT:Ofast
      • -OPT:ro
      • -OPT:Olimit
      • -OPT:div_split
      • -OPT:alias
    • -fno-math-errno
    • -ffast-math
• • -LNO:trip_count=256
  • 
  • COPTIMIZE

  • This option group commands the compiler loop nest optimizer to perform nested loop analysis and transformations. Note an optimization level of "-O3" or higher must be specified in order to enable the "-LNO:" options. To verify the LNO options that were invoked during compilation use the option "-LIST:all_options=ON".

    -LNO:trip_count,trip_count_assumed_when_unknown=N : The compiler is instructed to use the value in N for a presumed loop trip-count if at compile time a loop trip-count is not known. The loop trip-count, N, is used for loop transformations and prefetch optimizations and must be a positive integer. The default is "-LNO:trip_count_assumed_when_unknown,trip_count=1000".

• • -LNO:prefetch_ahead=10
  • 
  • COPTIMIZE

  • This option group commands the compiler loop nest optimizer to perform nested loop analysis and transformations. Note an optimization level of "-O3" or higher must be specified in order to enable the "-LNO:" options. To verify the LNO options that were invoked during compilation use the option "-LIST:all_options=ON".

    -LNO:prefetch_ahead=N : The compiler is instructed to prefetch ahead N cache line(s). The default is "-LNO:prefetch_ahead=2".

• • -CG:cmp_peep=on
  • 
  • COPTIMIZE

  • -CG:cmp_peep=(on|off|0|1): Instructs the compiler to perform aggressive load execution peeps on compare operations. Note for 32-bit environments the default is "-CG:cmp_peep=ON". The default is "CG:cmp_peep=OFF".

• • -m32
  • 
  • COPTIMIZE

  • Generate code for a 32-bit environment. The 32-bit environment sets int, long and pointer to 32 bits and generates code that runs on any i386 system. The compiler generates x86 or IA32 32-bit ABI. The default on a 32-bit host is 32-bit ABI. The default on a 64-bit host is 64-bit ABI if the target platform specified is 64-bit, otherwise the default is 32-bit.

• • -HP:bdt=2m:heap=2m
  • 
  • COPTIMIZE

  • Instructs the compiler to use 2MB hugepages for bss, data and text segments (i.e. bdt), and/or for heap allocation. Mixed usage of huge and small pages is not supported for bdt, but is supported for heap allocation. The limit option specifies a combined limit on the number of hugepages that may be used by the compiled program. If no limit is set, the number of hugepages that can be used by the program is effectively limited by the system configuration.

• • -GRA:unspill=on
  • 
  • COPTIMIZE

  • -GRA:unspill=(on|off|0|1)
    Instructs the compiler's Global Register Allocator (GRA) to aggressively remove redundant register spills that occur in the boundary region between GRA and LRA (Local Register Allocator). The default is "-GRA:unspill=off".

429.mcf

• • -march=barcelona
  • 
  • CC, LD

  • Compiler will generate instructions and schedule them appropriately for the selected processor type. The default value, auto, means to optimize for the platform on which the compiler is running, as determined by reading /proc/cpuinfo. anyx86 means a generic 32-bit x86 processor without SSE2 support.

• • -O3
  • 
  • COPTIMIZE

  • Perform all the optimizations at the -O2 level as well as many more aggressive optimizations. Examples of such aggressive optimizations are loop nest optimizations and generation of prefetch instructions. Although these more aggressive optimizations can significantly speed up the run time execution of the compiled program, in rare cases they may not be profitable and may instead lead to a slow down. Also, some of these more aggressive optimizations may affect the accuracy of some floating point computations.

    If multiple "O" options are used, with or without level numbers, the last such option is the one that is effective. Level 2 is assumed if no value is specified (i.e. "-O". The default is "-O2".

  • Includes:
    • -O2
      • -O1
• • -ipa
  • 
  • COPTIMIZE

  • Instructs the compiler to invoke inter-procedural analysis. Specifying "-ipa" is equivalent to "-IPA" and "-IPA:" with no suboptions, thus the default settings for the individual IPA suboptions are used.

• • -INLINE:aggressive=on
  • 
  • COPTIMIZE

  • -INLINE:aggressive=(on|off|0|1): Instructs the compiler to be very aggressive when performing inlining. The default is "-INLINE:aggressive=OFF".

• • -CG:gcm=off
  • 
  • COPTIMIZE

  • -CG:gcm=(on|off|0|1): "-CG:gcm=OFF" instructs the compiler to disable the instruction level global code motion optimization phase. The default is "-CG:gcm=ON".

• • -GRA:prioritize_by_density=on
  • 
  • COPTIMIZE

  • -GRA:prioritize_by_density=(on|off|0|1)
    Instructs the compiler's Global Register Allocator (GRA) to prioritize register assignments to variables based on the variables' reference count density (number of times the variables are referenced in a local region of interest) and not on their global reference count. The default is "-GRA:prioritize_by_density=OFF".

• • -m32
  • 
  • COPTIMIZE

  • Generate code for a 32-bit environment. The 32-bit environment sets int, long and pointer to 32 bits and generates code that runs on any i386 system. The compiler generates x86 or IA32 32-bit ABI. The default on a 32-bit host is 32-bit ABI. The default on a 64-bit host is 64-bit ABI if the target platform specified is 64-bit, otherwise the default is 32-bit.

• • -HP:bdt=2m:heap=2m
  • 
  • COPTIMIZE

  • Instructs the compiler to use 2MB hugepages for bss, data and text segments (i.e. bdt), and/or for heap allocation. Mixed usage of huge and small pages is not supported for bdt, but is supported for heap allocation. The limit option specifies a combined limit on the number of hugepages that may be used by the compiled program. If no limit is set, the number of hugepages that can be used by the program is effectively limited by the system configuration.

445.gobmk

• • -march=barcelona
  • 
  • CC, LD

  • Compiler will generate instructions and schedule them appropriately for the selected processor type. The default value, auto, means to optimize for the platform on which the compiler is running, as determined by reading /proc/cpuinfo. anyx86 means a generic 32-bit x86 processor without SSE2 support.

• • -fb_create fbdata
  • 
  • PASS1_CFLAGS, PASS1_LDFLAGS

  • -fb_create <path>
    Instructs the compiler to generate an instrumented executable program from the source code under development. The instrumented executable produces feedback data files at runtime using an example dataset. filename specifies the name of the feedback data file generated by the instrumented executable.
    opencc -O2 -ipa -fb_create fbdata -o foo foo.c
    "fbdata" will contain the instrumented feedback data from the instrumented executable "foo". The default is "-fb_create" is disabled.

    When feedback directed optimization (FDO) is used, an instrumented executable is used for a training run that produces information regarding execution paths and data values. Hardware performance counters are not used. This information is then provided to the optimizer during a second compilation pass to produce an optimized executable. FDO enables the optimizer to perform some optimizations which are not available without feedback data. The safety level of optimizations is unchanged with FDO, i.e. the safety level is the same as determined by the other (non-FDO) optimization flags specified on the compile and link lines.

• • -fb_opt fbdata
  • 
  • PASS2_CFLAGS, PASS2_LDFLAGS

  • -fb_opt <prefix for feedback data files>
    Instructs the compiler to perform a feedback directed compilation using the instrumented feedback data produced by the -fb_create option.
    opencc -O2 -ipa -fb-opt fbdata -o foo foo.c
    The new executable, foo, will be optimized to execute faster, and will not include any instrumentation library calls. Note the same optimization flags specified when creating the instrumented data file with the -fb_create must be specified when invoking the compiler with the -fb_opt option. Otherwise, the compiler will emit checksum errors. The default is "-fb_opt" disabled.

• • -O3
  • 
  • COPTIMIZE

  • Perform all the optimizations at the -O2 level as well as many more aggressive optimizations. Examples of such aggressive optimizations are loop nest optimizations and generation of prefetch instructions. Although these more aggressive optimizations can significantly speed up the run time execution of the compiled program, in rare cases they may not be profitable and may instead lead to a slow down. Also, some of these more aggressive optimizations may affect the accuracy of some floating point computations.

    If multiple "O" options are used, with or without level numbers, the last such option is the one that is effective. Level 2 is assumed if no value is specified (i.e. "-O". The default is "-O2".

  • Includes:
    • -O2
      • -O1
• • -OPT:alias=restrict
  • 
  • COPTIMIZE

  • The "-OPT:" option group controls various optimizations. The "-OPT:" options supersede the defaults that are based on the main optimization level.

    -OPT:alias=<model>
    Identify which pointer aliasing model to use. The compiler will make assumptions during compilation when one or more of the following <model> is specified:

    typed
    Assumes that two pointers of different types will not point to the same location in memory (i.e. the code adheres to the ANSI/ISO C standards). Note when specifying "-OPT:Ofast" turns this option ON.

    restrict
    Assumes that distinct pointers are pointing to distinct non-overlapping objects. The default is that this optimization is disabled.

    disjoint
    Assumes that any two pointer expressions are pointing to distinct non-overlapping objects. This default is that this optimization is disabled.

    no_f90_pointer_alias
    Assumes that any two different Fortran 90 pointers are pointing to distinct non-overlapping objects. The default is that this optimization is disabled.

• • -OPT:unroll_times_max=8
  • 
  • COPTIMIZE

  • -OPT:unroll_times_max=N
    Instructs the compiler to limit the unrolling of inner loops to the value specified by N. The default is "-OPT:unroll_times_max=4".

• • -OPT:unroll_size=256
  • 
  • COPTIMIZE

  • -OPT:unroll_size=N
    Instructs the compiler to limit the number of instructions produced when unrolling inner loops. When N=0 the ceiling is disregarded. Note by specifying "-O3" sets "-OPT:unroll_size=128". The default is "-OPT:unroll_size=40".

• • -OPT:unroll_level=2
  • 
  • COPTIMIZE

  • -OPT:unroll_level=(1|2)
    Controls the level at which the compiler will perform unrolling optimizations. When "-OPT:unroll_level=2" the compiler is instructed to aggressively unroll loops in the presence of control flow. The default is "-OPT:unroll_level=1".

• • -OPT:keep_ext=on
  • 
  • COPTIMIZE

  • -OPT:keep_ext=(on|off|0|1)
    Instructs the compiler to preserve external symbolic information. The default is "-OPT:keep_ext=OFF".

• • -ipa
  • 
  • COPTIMIZE

  • Instructs the compiler to invoke inter-procedural analysis. Specifying "-ipa" is equivalent to "-IPA" and "-IPA:" with no suboptions, thus the default settings for the individual IPA suboptions are used.

• • -IPA:plimit=750
  • 
  • COPTIMIZE

  • -IPA:plimit=N : The compiler is instructed to halt inlining within a program once the intermediate representation indicates that the code size of the program has surpassed the limit set by N. The default is "-IPA:plimit=2500".

• • -IPA:min_hotness=300
  • 
  • COPTIMIZE

  • -IPA:min_hotness=N : The compiler is instructed not to inline a function to a call site (i.e. caller) unless the callee is invoked more than N times. The compiler examines the interprocedural feedback to determine if the threshold set by N is surpassed by a call site to a procedure and then proceeds to inline the procedure if the limit is exceeded. The default is "-IPA:min_hotness=10".

• • -IPA:pu_reorder=1
  • 
  • COPTIMIZE

  • -IPA:pu_reorder=(0|1|2) : The compiler is instructed to examine compilation feedback for invocation patterns to determine the process of reordering the layout of program procedures in order to minimize instruction cache misses. Possible settings are:

    0    Suppress reordering of program procedures.

    1    Use the frequent occurrence of procedure invocation to determine reordering.

    2    Use the relationship between caller and callee to determine reordering.

    The default is "-IPA:pu_reorder=1" for C++ programs and "-IPA:pu_reorder=0" for non-C++ programs.

• • -LNO:prefetch=1
  • 
  • COPTIMIZE

  • This option group commands the compiler loop nest optimizer to perform nested loop analysis and transformations. Note an optimization level of "-O3" or higher must be specified in order to enable the "-LNO:" options. To verify the LNO options that were invoked during compilation use the option "-LIST:all_options=ON".

    -LNO:prefetch=(0|1|2|3) : Instructs the compiler to perform prefetching optimizations at a specified level. The flag can be set to:
    0 Instructs the compiler to suppress prefetching.
    1 The compiler is instructed to allow prefetching only for arrays that are always referenced in every loop iteration.
    2 The compiler is instructed to implement prefetching disregarding the restrictions in the above setting.
    3 The compiler is instructed to implement aggressive prefetching.
    The default is "-LNO:prefetch=2".

• • -LNO:ignore_feedback=off
  • 
  • COPTIMIZE

  • This option group commands the compiler loop nest optimizer to perform nested loop analysis and transformations. Note an optimization level of "-O3" or higher must be specified in order to enable the "-LNO:" options. To verify the LNO options that were invoked during compilation use the option "-LIST:all_options=ON".

    -LNO:ignore_feedback=(on|off|0|1) : The compiler is instructed to ignore feedback information generated by loop annotations during loop nest optimizations. The default is "-LNO:ignore_feedback=OFF".

• • -CG:p2align=on
  • 
  • COPTIMIZE

  • -CG:p2align=(on|off|0|1): When ON instructs the compiler to align loop heads to 64-byte boundaries. The default is "-CG:p2align=OFF".

• • -CG:unroll_fb_req=on
  • 
  • COPTIMIZE

  • -CG:unroll_fb_req=(on|off|0|1): The compiler is instructed to override cold code motion to keep the code generator from adding control flow in unrolled loops. The default is "-CG:unroll_fb_req=OFF".

• • -HP:bdt=2m:heap=2m
  • 
  • COPTIMIZE

  • Instructs the compiler to use 2MB hugepages for bss, data and text segments (i.e. bdt), and/or for heap allocation. Mixed usage of huge and small pages is not supported for bdt, but is supported for heap allocation. The limit option specifies a combined limit on the number of hugepages that may be used by the compiled program. If no limit is set, the number of hugepages that can be used by the program is effectively limited by the system configuration.

456.hmmer

• • -fastsse
  • 
  • pgcc_l, pgcpp_l, pgf95_l, pgcc_w, pgcpp_w, pgf95_w
  • COPTIMIZE

  • Chooses generally optimal flags for the target platform. As of the PGI 7.0 release, the flags "-fast" and "-fastsse" are equivalent for 64-bit compilations. For 32-bit compilations "-fast" does not include "-Mscalarsse", "-Mcache_align", or "-Mvect=sse".

  • Includes:
    • -O2
      • -O1
    • -Munroll=c:1
      • -Munroll
    • -Mautoinline
    • -Msmart
    • -Mlre
    • -Mnoframe
    • -Mvect=sse
      • -Mvect
        • -Mvect=assoc
        • -Mvect=altcode
    • -Mcache_align
    • -Mflushz
    • -Mdaz
    • -Mscalarsse
• • -Mvect=partial
  • 
  • pgcc_l, pgcpp_l, pgf95_l, pgcc_w, pgcpp_w, pgf95_w
  • COPTIMIZE

  • Instructs the vectorizer to generate partial vectorization.

  • Includes:
    • -Mvect
      • -Mvect=assoc
      • -Mvect=altcode
• • -Munroll=n:8
  • 
  • pgcc_l, pgcpp_l, pgf95_l, pgcc_w, pgcpp_w, pgf95_w
  • COPTIMIZE

  • "-Munroll=n:n" instructs the compiler to unroll loops 8 times where 8 is a supplied constant value. If no constant value is given, then a default of 4 is used.

  • Includes:
    • -Munroll
• • -Msmartalloc=huge
  • 
  • pgcc_l, pgcpp_l, pgf95_l, pgcc_w, pgcpp_w, pgf95_w
  • COPTIMIZE

  • Link with the huge page runtime library. The maximum number of huge pages the application can use is limited by the number of huge pages the operating system has available or the value of the environment variable PGI_HUGE_PAGES.

• • -Msafeptr
  • 
  • pgcc_l, pgcpp_l, pgcc_w, pgcpp_w
  • COPTIMIZE

  • Instructs the C/C++ compiler to override data dependencies between pointers of a given storage class.

• • -Mprefetch=t0
  • 
  • pgcc_l, pgcpp_l, pgf95_l, pgcc_w, pgcpp_w, pgf95_w
  • COPTIMIZE

  • Use the prefetcht0 instruction.

  • Includes:
    • -Mprefetch
• • -Mfprelaxed
  • 
  • pgcc_l, pgcpp_l, pgf95_l, pgcc_w, pgcpp_w, pgf95_w
  • COPTIMIZE

  • Instructs the compiler to use relaxed precision in the calculation of some intrinsic functions. Can result in improved performance at the expense of numerical accuracy. The default on an AMD system is "-Mfprelaxed=sqrt,rsqrt,order". The default on an Intel system is "-Mfprelaxed=rsqrt,sqrt,div,order"

  • Includes:
    • -Mfprelaxed=rsqrt
    • -Mfprelaxed=sqrt
    • -Mfprelaxed=div
    • -Mfprelaxed=order
• • -Mipa=const
  • 
  • pgcc_l, pgcpp_l, pgf95_l, pgcc_w, pgcpp_w, pgf95_w
  • COPTIMIZE

  • Interprocedural Analysis option: Enable interprocedural constant propagation.

• • -Mipa=ptr
  • 
  • pgcc_l, pgcpp_l, pgf95_l, pgcc_w, pgcpp_w, pgf95_w
  • COPTIMIZE

  • Interprocedural Analysis option: Enable pointer disambiguation across procedure calls.

• • -Mipa=arg
  • 
  • pgcc_l, pgcpp_l, pgf95_l, pgcc_w, pgcpp_w, pgf95_w
  • COPTIMIZE

  • Interprocedural Analysis option: Remove arguments replaced by -Mipa=ptr,const

  • Includes:
    • -Mipa=ptr
    • -Mipa=const
• • -Mipa=inline
  • 
  • pgcc_l, pgcpp_l, pgf95_l, pgcc_w, pgcpp_w, pgf95_w
  • COPTIMIZE

  • Interprocedural Analysis option: Automatically determine which functions to inline, limit to 2 levels (default). IPA-based function inlining is performed from leaf routines upward.

• • -tp shanghai-64
  • 
  • pgcc_l, pgcpp_l, pgf95_l, pgcc_w, pgcpp_w, pgf95_w
  • COPTIMIZE

  • Specify the type of the target processor as AMD64 Shanghai Processor 64-bit mode.

• • -Bstatic_pgi
  • 
  • pgcc_l, pgcpp_l, pgf95_l
  • EXTRA_LDFLAGS

  • Statically link with the PGI runtime libraries. System libraries may still be dynamically linked.

458.sjeng

• • -march=barcelona
  • 
  • CC, LD

  • Compiler will generate instructions and schedule them appropriately for the selected processor type. The default value, auto, means to optimize for the platform on which the compiler is running, as determined by reading /proc/cpuinfo. anyx86 means a generic 32-bit x86 processor without SSE2 support.

• • -fb_create fbdata
  • 
  • PASS1_CFLAGS, PASS1_LDFLAGS

  • -fb_create <path>
    Instructs the compiler to generate an instrumented executable program from the source code under development. The instrumented executable produces feedback data files at runtime using an example dataset. filename specifies the name of the feedback data file generated by the instrumented executable.
    opencc -O2 -ipa -fb_create fbdata -o foo foo.c
    "fbdata" will contain the instrumented feedback data from the instrumented executable "foo". The default is "-fb_create" is disabled.

    When feedback directed optimization (FDO) is used, an instrumented executable is used for a training run that produces information regarding execution paths and data values. Hardware performance counters are not used. This information is then provided to the optimizer during a second compilation pass to produce an optimized executable. FDO enables the optimizer to perform some optimizations which are not available without feedback data. The safety level of optimizations is unchanged with FDO, i.e. the safety level is the same as determined by the other (non-FDO) optimization flags specified on the compile and link lines.

• • -fb_opt fbdata
  • 
  • PASS2_CFLAGS, PASS2_LDFLAGS

  • -fb_opt <prefix for feedback data files>
    Instructs the compiler to perform a feedback directed compilation using the instrumented feedback data produced by the -fb_create option.
    opencc -O2 -ipa -fb-opt fbdata -o foo foo.c
    The new executable, foo, will be optimized to execute faster, and will not include any instrumentation library calls. Note the same optimization flags specified when creating the instrumented data file with the -fb_create must be specified when invoking the compiler with the -fb_opt option. Otherwise, the compiler will emit checksum errors. The default is "-fb_opt" disabled.

• • -O3
  • 
  • COPTIMIZE

  • Perform all the optimizations at the -O2 level as well as many more aggressive optimizations. Examples of such aggressive optimizations are loop nest optimizations and generation of prefetch instructions. Although these more aggressive optimizations can significantly speed up the run time execution of the compiled program, in rare cases they may not be profitable and may instead lead to a slow down. Also, some of these more aggressive optimizations may affect the accuracy of some floating point computations.

    If multiple "O" options are used, with or without level numbers, the last such option is the one that is effective. Level 2 is assumed if no value is specified (i.e. "-O". The default is "-O2".

  • Includes:
    • -O2
      • -O1
• • -ipa
  • 
  • COPTIMIZE

  • Instructs the compiler to invoke inter-procedural analysis. Specifying "-ipa" is equivalent to "-IPA" and "-IPA:" with no suboptions, thus the default settings for the individual IPA suboptions are used.

• • -LNO:ignore_feedback=off
  • 
  • COPTIMIZE

  • This option group commands the compiler loop nest optimizer to perform nested loop analysis and transformations. Note an optimization level of "-O3" or higher must be specified in order to enable the "-LNO:" options. To verify the LNO options that were invoked during compilation use the option "-LIST:all_options=ON".

    -LNO:ignore_feedback=(on|off|0|1) : The compiler is instructed to ignore feedback information generated by loop annotations during loop nest optimizations. The default is "-LNO:ignore_feedback=OFF".

• • -LNO:full_unroll=10
  • 
  • COPTIMIZE

  • This option group commands the compiler loop nest optimizer to perform nested loop analysis and transformations. Note an optimization level of "-O3" or higher must be specified in order to enable the "-LNO:" options. To verify the LNO options that were invoked during compilation use the option "-LIST:all_options=ON".

    -LNO:full_unroll,fu=N : The compiler is instructed to fully unroll loops after examining the loop, within the loop nest optimizer, to determine if the loop can be fully unrolled in N or less iterations. Argument "fu=N" specifies the maximum number of unrolls that can be performed to fully unroll the loop. Note that setting N=0 suppresses full unrolling of loops inside the loop nest optimizer. The default is "-LNO:full_unroll=5".

• • -LNO:fusion=0
  • 
  • COPTIMIZE

  • This option group commands the compiler loop nest optimizer to perform nested loop analysis and transformations. Note an optimization level of "-O3" or higher must be specified in order to enable the "-LNO:" options. To verify the LNO options that were invoked during compilation use the option "-LIST:all_options=ON".

    -LNO:fusion=N : The compiler is instructed to perform loop fusion. The flag can be set to:
    0 Suppress loop fusion.
    1 The compiler performs traditional loop fusion.
    2 The compiler performs aggressive loop fusion.
    The default is "-LNO:fusion=0".

• • -LNO:fission=2
  • 
  • COPTIMIZE

  • This option group commands the compiler loop nest optimizer to perform nested loop analysis and transformations. Note an optimization level of "-O3" or higher must be specified in order to enable the "-LNO:" options. To verify the LNO options that were invoked during compilation use the option "-LIST:all_options=ON".

    -LNO:fission=N : Instsructs the compiler to perform loop fission. This option can be set to:
    0 Suppress loop fission.
    1 The compiler performs normal loop fission as necessary.
    2 The compiler performs loop fission prior to loop fusion.
    Note loop fusion is usually applied before loop fission, therefore if "-LNO:fission=ON" and "-LNO:fusion=ON" when the compiler is invoked a reverse effect may be induced. To counter this effect specify "-LNO:fission=2" to instruct the compiler to perform loop fission prior to loop fusion. The default is "-LNO:fission=0".

• • -IPA:pu_reorder=2
  • 
  • COPTIMIZE

  • -IPA:pu_reorder=(0|1|2) : The compiler is instructed to examine compilation feedback for invocation patterns to determine the process of reordering the layout of program procedures in order to minimize instruction cache misses. Possible settings are:

    0    Suppress reordering of program procedures.

    1    Use the frequent occurrence of procedure invocation to determine reordering.

    2    Use the relationship between caller and callee to determine reordering.

    The default is "-IPA:pu_reorder=1" for C++ programs and "-IPA:pu_reorder=0" for non-C++ programs.

• • -CG:ptr_load_use=0
  • 
  • COPTIMIZE

  • -CG:ptr_load_use=N: The code generator increases the modeled latency between an instruction that loads a pointer and an instruction that uses the pointer by N cycles. Ordinarily, it is advantageous to load pointers as fast as possible so the dependent memory instructions can begin execution. However, the additional latency will force the instruction scheduler to schedule the load pointer even earlier. Note the load pointer instructions include load-execute instructions which compute pointer results. The default is "-CG:ptr_load_use=4".

• • -OPT:unroll_times_max=8
  • 
  • COPTIMIZE

  • -OPT:unroll_times_max=N
    Instructs the compiler to limit the unrolling of inner loops to the value specified by N. The default is "-OPT:unroll_times_max=4".

• • -INLINE:aggressive=on
  • 
  • COPTIMIZE

  • -INLINE:aggressive=(on|off|0|1): Instructs the compiler to be very aggressive when performing inlining. The default is "-INLINE:aggressive=OFF".

• • -HP:bdt=2m:heap=2m
  • 
  • COPTIMIZE

  • Instructs the compiler to use 2MB hugepages for bss, data and text segments (i.e. bdt), and/or for heap allocation. Mixed usage of huge and small pages is not supported for bdt, but is supported for heap allocation. The limit option specifies a combined limit on the number of hugepages that may be used by the compiled program. If no limit is set, the number of hugepages that can be used by the program is effectively limited by the system configuration.

462.libquantum

• • -march=barcelona
  • 
  • CC, LD

  • Compiler will generate instructions and schedule them appropriately for the selected processor type. The default value, auto, means to optimize for the platform on which the compiler is running, as determined by reading /proc/cpuinfo. anyx86 means a generic 32-bit x86 processor without SSE2 support.

• • -Ofast
  • 
  • COPTIMIZE

  • Uses a selection of optimizations in order to maximize performance.
    Specifying "-Ofast" is equivalent to -O3 -ipa -OPT:Ofast -fno-math-errno -ffast-math.
    These optimization options are generally safe. Floating-point accuracy may be affected due to the transformation of the computational code. Note the interprocedural analysis option, -ipa, specifies limitations on how libraries and object files (.o files) are built.

  • Includes:
    • -O3
      • -O2
        • -O1
    • -ipa
    • -OPT:Ofast
      • -OPT:ro
      • -OPT:Olimit
      • -OPT:div_split
      • -OPT:alias
    • -fno-math-errno
    • -ffast-math
• • -LNO:pf2=0
  • 
  • COPTIMIZE

  • This option group commands the compiler loop nest optimizer to perform nested loop analysis and transformations. Note an optimization level of "-O3" or higher must be specified in order to enable the "-LNO:" options. To verify the LNO options that were invoked during compilation use the option "-LIST:all_options=ON".

    -LNO:pf2=(on|off|0|1): The compiler is instructed to turn ON/OFF prefetching for specified cache levels. "pf2" specifies the level 2 cache.

• • -CG:gcm=off
  • 
  • COPTIMIZE

  • -CG:gcm=(on|off|0|1): "-CG:gcm=OFF" instructs the compiler to disable the instruction level global code motion optimization phase. The default is "-CG:gcm=ON".

• • -CG:use_prefetchnta=on
  • 
  • COPTIMIZE

  • -CG:use_prefetchnta=(on|off|0|1): When enabled, prefetching is performed on non-temporal data at all levels of the cache hierarchy. Note this option is for data streaming situations when the data will not need to be reused soon. The default is "-CG:use_prefetchnta=OFF".

• • -CG:cmp_peep=on
  • 
  • COPTIMIZE

  • -CG:cmp_peep=(on|off|0|1): Instructs the compiler to perform aggressive load execution peeps on compare operations. Note for 32-bit environments the default is "-CG:cmp_peep=ON". The default is "CG:cmp_peep=OFF".

• • -WOPT:aggstr=0
  • 
  • COPTIMIZE

  • This group of options controls the affect the global optimizer has on the program. "-WOPT:" only influences global optimizations specified by "-O2" or above.

    -WOPT:aggstr=N
    -WOPT:aggstr regulates the aggressiveness of the compilers scalar optimizer when performing strength reduction optimizations. Strength reduction is the substitution of induction expressions within a loop with temporaries that are incremented together with the loop variable. The value N specifies the maximum number of induction expressions being replaced. Select positive integers only for variable N. Setting N=0 tells the scalar optimizer to use strength reduction for non-trivial induction expressions. Note specifying very aggressive strength reductions may prompt additional temporaries increasing register pressure and resulting in excessive register spills that decrease performance. The default is "-WOPT:aggstr=11".

• • -HP:bdt=2m:heap=2m
  • 
  • COPTIMIZE

  • Instructs the compiler to use 2MB hugepages for bss, data and text segments (i.e. bdt), and/or for heap allocation. Mixed usage of huge and small pages is not supported for bdt, but is supported for heap allocation. The limit option specifies a combined limit on the number of hugepages that may be used by the compiled program. If no limit is set, the number of hugepages that can be used by the program is effectively limited by the system configuration.

• • -OPT:alias=disjoint
  • 
  • COPTIMIZE

  • The "-OPT:" option group controls various optimizations. The "-OPT:" options supersede the defaults that are based on the main optimization level.

    -OPT:alias=<model>
    Identify which pointer aliasing model to use. The compiler will make assumptions during compilation when one or more of the following <model> is specified:

    typed
    Assumes that two pointers of different types will not point to the same location in memory (i.e. the code adheres to the ANSI/ISO C standards). Note when specifying "-OPT:Ofast" turns this option ON.

    restrict
    Assumes that distinct pointers are pointing to distinct non-overlapping objects. The default is that this optimization is disabled.

    disjoint
    Assumes that any two pointer expressions are pointing to distinct non-overlapping objects. This default is that this optimization is disabled.

    no_f90_pointer_alias
    Assumes that any two different Fortran 90 pointers are pointing to distinct non-overlapping objects. The default is that this optimization is disabled.

• • -INLINE:aggressive=on
  • 
  • COPTIMIZE

  • -INLINE:aggressive=(on|off|0|1): Instructs the compiler to be very aggressive when performing inlining. The default is "-INLINE:aggressive=OFF".

• • -IPA:space=1000
  • 
  • COPTIMIZE

  • -IPA:space=N : The compiler is instructed to perform inlining until the program code size expands by percentage specified by N. Therefore, to limit program code size growth to ~20%, due to inlining, specify "-IPA:space=20". The default is "-IPA:space=infinity".

• • -IPA:plimit=20000
  • 
  • COPTIMIZE

  • -IPA:plimit=N : The compiler is instructed to halt inlining within a program once the intermediate representation indicates that the code size of the program has surpassed the limit set by N. The default is "-IPA:plimit=2500".

464.h264ref

• • -march=barcelona
  • 
  • CC, LD

  • Compiler will generate instructions and schedule them appropriately for the selected processor type. The default value, auto, means to optimize for the platform on which the compiler is running, as determined by reading /proc/cpuinfo. anyx86 means a generic 32-bit x86 processor without SSE2 support.

• • -fb_create fbdata
  • 
  • PASS1_CFLAGS, PASS1_LDFLAGS

  • -fb_create <path>
    Instructs the compiler to generate an instrumented executable program from the source code under development. The instrumented executable produces feedback data files at runtime using an example dataset. filename specifies the name of the feedback data file generated by the instrumented executable.
    opencc -O2 -ipa -fb_create fbdata -o foo foo.c
    "fbdata" will contain the instrumented feedback data from the instrumented executable "foo". The default is "-fb_create" is disabled.

    When feedback directed optimization (FDO) is used, an instrumented executable is used for a training run that produces information regarding execution paths and data values. Hardware performance counters are not used. This information is then provided to the optimizer during a second compilation pass to produce an optimized executable. FDO enables the optimizer to perform some optimizations which are not available without feedback data. The safety level of optimizations is unchanged with FDO, i.e. the safety level is the same as determined by the other (non-FDO) optimization flags specified on the compile and link lines.

• • -fb_opt fbdata
  • 
  • PASS2_CFLAGS, PASS2_LDFLAGS

  • -fb_opt <prefix for feedback data files>
    Instructs the compiler to perform a feedback directed compilation using the instrumented feedback data produced by the -fb_create option.
    opencc -O2 -ipa -fb-opt fbdata -o foo foo.c
    The new executable, foo, will be optimized to execute faster, and will not include any instrumentation library calls. Note the same optimization flags specified when creating the instrumented data file with the -fb_create must be specified when invoking the compiler with the -fb_opt option. Otherwise, the compiler will emit checksum errors. The default is "-fb_opt" disabled.

• • -O3
  • 
  • COPTIMIZE

  • Perform all the optimizations at the -O2 level as well as many more aggressive optimizations. Examples of such aggressive optimizations are loop nest optimizations and generation of prefetch instructions. Although these more aggressive optimizations can significantly speed up the run time execution of the compiled program, in rare cases they may not be profitable and may instead lead to a slow down. Also, some of these more aggressive optimizations may affect the accuracy of some floating point computations.

    If multiple "O" options are used, with or without level numbers, the last such option is the one that is effective. Level 2 is assumed if no value is specified (i.e. "-O". The default is "-O2".

  • Includes:
    • -O2
      • -O1
• • -IPA:plimit=20000
  • 
  • COPTIMIZE

  • -IPA:plimit=N : The compiler is instructed to halt inlining within a program once the intermediate representation indicates that the code size of the program has surpassed the limit set by N. The default is "-IPA:plimit=2500".

• • -OPT:alias=disjoint
  • 
  • COPTIMIZE

  • The "-OPT:" option group controls various optimizations. The "-OPT:" options supersede the defaults that are based on the main optimization level.

    -OPT:alias=<model>
    Identify which pointer aliasing model to use. The compiler will make assumptions during compilation when one or more of the following <model> is specified:

    typed
    Assumes that two pointers of different types will not point to the same location in memory (i.e. the code adheres to the ANSI/ISO C standards). Note when specifying "-OPT:Ofast" turns this option ON.

    restrict
    Assumes that distinct pointers are pointing to distinct non-overlapping objects. The default is that this optimization is disabled.

    disjoint
    Assumes that any two pointer expressions are pointing to distinct non-overlapping objects. This default is that this optimization is disabled.

    no_f90_pointer_alias
    Assumes that any two different Fortran 90 pointers are pointing to distinct non-overlapping objects. The default is that this optimization is disabled.

• • -LNO:prefetch=0
  • 
  • COPTIMIZE

  • This option group commands the compiler loop nest optimizer to perform nested loop analysis and transformations. Note an optimization level of "-O3" or higher must be specified in order to enable the "-LNO:" options. To verify the LNO options that were invoked during compilation use the option "-LIST:all_options=ON".

    -LNO:prefetch=(0|1|2|3) : Instructs the compiler to perform prefetching optimizations at a specified level. The flag can be set to:
    0 Instructs the compiler to suppress prefetching.
    1 The compiler is instructed to allow prefetching only for arrays that are always referenced in every loop iteration.
    2 The compiler is instructed to implement prefetching disregarding the restrictions in the above setting.
    3 The compiler is instructed to implement aggressive prefetching.
    The default is "-LNO:prefetch=2".

• • -CG:ptr_load_use=0
  • 
  • COPTIMIZE

  • -CG:ptr_load_use=N: The code generator increases the modeled latency between an instruction that loads a pointer and an instruction that uses the pointer by N cycles. Ordinarily, it is advantageous to load pointers as fast as possible so the dependent memory instructions can begin execution. However, the additional latency will force the instruction scheduler to schedule the load pointer even earlier. Note the load pointer instructions include load-execute instructions which compute pointer results. The default is "-CG:ptr_load_use=4".

• • -CG:push_pop_int_saved_regs=off
  • 
  • COPTIMIZE

  • -CG:push_pop_int_saved_regs=(on|off|0|1): When ON, the compiler generates push and pop instructions to save integer callee-saved registers at function prologues and epilogues. The push and pop instructions replace mov instructions to and from memory locations based off the stack pointer. The default is "-CG:push_pop_int_saved_regs=OFF". When the specified target is barcelona, default is "-CG:push_pop_int_saved_regs=ON".

• • -HP:bdt=2m:heap=2m
  • 
  • COPTIMIZE

  • Instructs the compiler to use 2MB hugepages for bss, data and text segments (i.e. bdt), and/or for heap allocation. Mixed usage of huge and small pages is not supported for bdt, but is supported for heap allocation. The limit option specifies a combined limit on the number of hugepages that may be used by the compiled program. If no limit is set, the number of hugepages that can be used by the program is effectively limited by the system configuration.

C++ benchmarks

471.omnetpp

• • -march=barcelona
  • 
  • CXX, LD

  • Compiler will generate instructions and schedule them appropriately for the selected processor type. The default value, auto, means to optimize for the platform on which the compiler is running, as determined by reading /proc/cpuinfo. anyx86 means a generic 32-bit x86 processor without SSE2 support.

• • -Ofast
  • 
  • CXXOPTIMIZE

  • Uses a selection of optimizations in order to maximize performance.
    Specifying "-Ofast" is equivalent to -O3 -ipa -OPT:Ofast -fno-math-errno -ffast-math.
    These optimization options are generally safe. Floating-point accuracy may be affected due to the transformation of the computational code. Note the interprocedural analysis option, -ipa, specifies limitations on how libraries and object files (.o files) are built.

  • Includes:
    • -O3
      • -O2
        • -O1
    • -ipa
    • -OPT:Ofast
      • -OPT:ro
      • -OPT:Olimit
      • -OPT:div_split
      • -OPT:alias
    • -fno-math-errno
    • -ffast-math
• • -CG:gcm=off
  • 
  • CXXOPTIMIZE

  • -CG:gcm=(on|off|0|1): "-CG:gcm=OFF" instructs the compiler to disable the instruction level global code motion optimization phase. The default is "-CG:gcm=ON".

• • -INLINE:aggressive=on
  • 
  • CXXOPTIMIZE

  • -INLINE:aggressive=(on|off|0|1): Instructs the compiler to be very aggressive when performing inlining. The default is "-INLINE:aggressive=OFF".

• • -OPT:alias=disjoint
  • 
  • CXXOPTIMIZE

  • The "-OPT:" option group controls various optimizations. The "-OPT:" options supersede the defaults that are based on the main optimization level.

    -OPT:alias=<model>
    Identify which pointer aliasing model to use. The compiler will make assumptions during compilation when one or more of the following <model> is specified:

    typed
    Assumes that two pointers of different types will not point to the same location in memory (i.e. the code adheres to the ANSI/ISO C standards). Note when specifying "-OPT:Ofast" turns this option ON.

    restrict
    Assumes that distinct pointers are pointing to distinct non-overlapping objects. The default is that this optimization is disabled.

    disjoint
    Assumes that any two pointer expressions are pointing to distinct non-overlapping objects. This default is that this optimization is disabled.

    no_f90_pointer_alias
    Assumes that any two different Fortran 90 pointers are pointing to distinct non-overlapping objects. The default is that this optimization is disabled.

• • -WOPT:if_conv=0
  • 
  • CXXOPTIMIZE

  • -WOPT:if_conv=(0|1|2):
    "-WOPT:if_conv" instructs the compiler to transform simple IF statements to conditional move instructions. "-WOPT:if_conv" has three settings:
    0 Disables this optimization.
    1 Specifies conservative IF statement transformations. The context surrounding the IF statement is used in the transformation decision.
    2 Use aggressive IF statement transformations. Perform the IF statement transformation regardless of the surrounding context.
    The default is "-WOPT:if_conv=1".

• • -m32
  • 
  • CXXOPTIMIZE

  • Generate code for a 32-bit environment. The 32-bit environment sets int, long and pointer to 32 bits and generates code that runs on any i386 system. The compiler generates x86 or IA32 32-bit ABI. The default on a 32-bit host is 32-bit ABI. The default on a 64-bit host is 64-bit ABI if the target platform specified is 64-bit, otherwise the default is 32-bit.

• • -L/root/work/libraries/SmartHeap-8.1/lib -lsmartheap
  • 
  • EXTRA_CXXLIBS

  • -L<library directory> -lsmartheap ,
    when used as an EXTRA_CXXLIB variable, results in linking with MicroQuill's SmartHeap 8 (32-bit) library for Linux. This is a library that optimizes calls to new, delete, malloc and free.

473.astar

• • -Mpfi
  • 
  • pgcc_l, pgcpp_l, pgf95_l, pgcc_w, pgcpp_w, pgf95_w
  • PASS1_CXXFLAGS, PASS1_LDFLAGS

  • Generate profile-feedback instrumentation (PFI); this includes extra code to collect run-time statistics and dump them to a trace file for use in a subsequent compilation. PFI gathers information about a program's execution and data values but does not gather information from hardware performance counters. PFI does gather data for optimizations which are unique to profile-feedback optimization.

• • -Mpfo
  • 
  • pgcc_l, pgcpp_l, pgf95_l, pgcc_w, pgcpp_w, pgf95_w
  • PASS2_CXXFLAGS, PASS2_LDFLAGS

  • Enable profile-feedback optimizations.

• • -Mipa=fast
  • 
  • pgcc_l, pgcpp_l, pgf95_l, pgcc_w, pgcpp_w, pgf95_w
  • PASS2_CXXFLAGS, PASS2_LDFLAGS

  • Instructs the compiler to perform interprocedural analysis. Equivalant to -Mipa=align,arg,const,f90ptr,shape,globals,libc,localarg,ptr,pure.

  • Includes:
    • -Mipa=align
    • -Mipa=arg
      • -Mipa=ptr
      • -Mipa=const
    • -Mipa=const
    • -Mipa=f90ptr
    • -Mipa=shape
    • -Mipa=globals
    • -Mipa=libc
    • -Mipa=localarg
      • -Mipa=arg
        • -Mipa=ptr
        • -Mipa=const
    • -Mipa=ptr
    • -Mipa=pure
• • -Mipa=inline:6
  • 
  • pgcc_l, pgcpp_l, pgf95_l, pgcc_w, pgcpp_w, pgf95_w
  • PASS2_CXXFLAGS, PASS2_LDFLAGS

  • Interprocedural Analysis option: Automatically determine which functions to inline, limit to 6 levels where 6 is a supplied constant value. If no value is supplied, then the default value of 2 is used. IPA-based function inlining is performed from leaf routines upward.

• • -fastsse
  • 
  • pgcc_l, pgcpp_l, pgf95_l, pgcc_w, pgcpp_w, pgf95_w
  • CXXOPTIMIZE

  • Chooses generally optimal flags for the target platform. As of the PGI 7.0 release, the flags "-fast" and "-fastsse" are equivalent for 64-bit compilations. For 32-bit compilations "-fast" does not include "-Mscalarsse", "-Mcache_align", or "-Mvect=sse".

  • Includes:
    • -O2
      • -O1
    • -Munroll=c:1
      • -Munroll
    • -Mautoinline
    • -Msmart
    • -Mlre
    • -Mnoframe
    • -Mvect=sse
      • -Mvect
        • -Mvect=assoc
        • -Mvect=altcode
    • -Mcache_align
    • -Mflushz
    • -Mdaz
    • -Mscalarsse
• • -O4
  • 
  • pgcc_l, pgcpp_l, pgf95_l, pgcc_w, pgcpp_w, pgf95_w
  • CXXOPTIMIZE

  • Performs all level 1, 2, and 3 optimizations and enables hoisting of guarded invariant floating point expressions.

  • Includes:
    • -O3
      • -O2
        • -O1
• • -Msmartalloc=huge
  • 
  • pgcc_l, pgcpp_l, pgf95_l, pgcc_w, pgcpp_w, pgf95_w
  • CXXOPTIMIZE

  • Link with the huge page runtime library. The maximum number of huge pages the application can use is limited by the number of huge pages the operating system has available or the value of the environment variable PGI_HUGE_PAGES.

• • -Msafeptr=global
  • 
  • pgcc_l, pgcpp_l, pgcc_w, pgcpp_w
  • CXXOPTIMIZE

  • Instructs the compiler that global or external pointers and arrays do not overlap or conflict with each other and are independent.

  • Includes:
    • -Msafeptr
• • -Mfprelaxed
  • 
  • pgcc_l, pgcpp_l, pgf95_l, pgcc_w, pgcpp_w, pgf95_w
  • CXXOPTIMIZE

  • Instructs the compiler to use relaxed precision in the calculation of some intrinsic functions. Can result in improved performance at the expense of numerical accuracy. The default on an AMD system is "-Mfprelaxed=sqrt,rsqrt,order". The default on an Intel system is "-Mfprelaxed=rsqrt,sqrt,div,order"

  • Includes:
    • -Mfprelaxed=rsqrt
    • -Mfprelaxed=sqrt
    • -Mfprelaxed=div
    • -Mfprelaxed=order
• • --zc_eh
  • 
  • pgcpp_l, pgcpp_w
  • CXXOPTIMIZE

  • Generate zero-overhead C++ exception handlers.

• • -tp shanghai-32
  • 
  • pgcc_l, pgcpp_l, pgf95_l, pgcc_w, pgcpp_w, pgf95_w
  • CXXOPTIMIZE

  • Specify the type of the target processor as AMD64 Shanghai Processor 32-bit mode.

• • -Bstatic_pgi
  • 
  • pgcc_l, pgcpp_l, pgf95_l
  • EXTRA_LDFLAGS

  • Statically link with the PGI runtime libraries. System libraries may still be dynamically linked.

483.xalancbmk

• • -march=barcelona
  • 
  • CXX, LD

  • Compiler will generate instructions and schedule them appropriately for the selected processor type. The default value, auto, means to optimize for the platform on which the compiler is running, as determined by reading /proc/cpuinfo. anyx86 means a generic 32-bit x86 processor without SSE2 support.

• • -Ofast
  • 
  • CXXOPTIMIZE

  • Uses a selection of optimizations in order to maximize performance.
    Specifying "-Ofast" is equivalent to -O3 -ipa -OPT:Ofast -fno-math-errno -ffast-math.
    These optimization options are generally safe. Floating-point accuracy may be affected due to the transformation of the computational code. Note the interprocedural analysis option, -ipa, specifies limitations on how libraries and object files (.o files) are built.

  • Includes:
    • -O3
      • -O2
        • -O1
    • -ipa
    • -OPT:Ofast
      • -OPT:ro
      • -OPT:Olimit
      • -OPT:div_split
      • -OPT:alias
    • -fno-math-errno
    • -ffast-math
• • -INLINE:aggressive=on
  • 
  • CXXOPTIMIZE

  • -INLINE:aggressive=(on|off|0|1): Instructs the compiler to be very aggressive when performing inlining. The default is "-INLINE:aggressive=OFF".

• • -m32
  • 
  • CXXOPTIMIZE

  • Generate code for a 32-bit environment. The 32-bit environment sets int, long and pointer to 32 bits and generates code that runs on any i386 system. The compiler generates x86 or IA32 32-bit ABI. The default on a 32-bit host is 32-bit ABI. The default on a 64-bit host is 64-bit ABI if the target platform specified is 64-bit, otherwise the default is 32-bit.

• • -CG:cmp_peep=on
  • 
  • CXXOPTIMIZE

  • -CG:cmp_peep=(on|off|0|1): Instructs the compiler to perform aggressive load execution peeps on compare operations. Note for 32-bit environments the default is "-CG:cmp_peep=ON". The default is "CG:cmp_peep=OFF".

• • -GRA:unspill=on
  • 
  • CXXOPTIMIZE

  • -GRA:unspill=(on|off|0|1)
    Instructs the compiler's Global Register Allocator (GRA) to aggressively remove redundant register spills that occur in the boundary region between GRA and LRA (Local Register Allocator). The default is "-GRA:unspill=off".

• • -TENV:frame_pointer=off
  • 
  • CXXOPTIMIZE

  • These -TENV: options control the target environment assumed and/or produced by the compiler.

    -TENV:frame_pointer=(on|off)
    Setting this option to ON tells the compiler to use the frame pointer register to address local variables in the function stack frame. Generally, if the compiler determines that the stack pointer is fixed it will use the stack pointer to address local variables throughout the function invocation in place of the frame pointer. This frees up the frame pointer for other purposes. The default is ON for C/C++ and OFF for Fortran. This flag defaults to ON for C/C++ because the exception handling mechanism relies on the frame pointer register being used to address local variables. This flag can be turned OFF for C/C++ programs that do not generate exceptions.

• • -L/root/work/libraries/SmartHeap-8.1/lib -lsmartheap
  • 
  • EXTRA_CXXLIBS

  • -L<library directory> -lsmartheap ,
    when used as an EXTRA_CXXLIB variable, results in linking with MicroQuill's SmartHeap 8 (32-bit) library for Linux. This is a library that optimizes calls to new, delete, malloc and free.