Base Compiler Invocation
C benchmarks
-
- cc
![[user]](http://www.spec.org/auto/cpu2006/flags/user.png)
- CC, LD
-
Invoke the Sun Studio C Compiler.
C++ benchmarks
-
- CC
- CXX, LD
-
Invoke the Sun Studio C++ Compiler
Fortran benchmarks
-
- f90
- FC, LD
-
Invoke the Sun Studio Fortran 90 Compiler
| Compilers |
Sun Studio 12 and Sun Studio 12u1
GCC for SPARC Systems V4.2 (gccfss).
Note: these compilers are described together because gccfss uses the same optimizing code generator as Studio 12. |
|---|---|
| Operating systems: | Solaris 10 |
| Copyright: |
The text for many of the descriptions below was excerpted from the Sun Studio Compiler Documentation, which is copyright © 2009 Sun Microsystems, Inc. The original documentation can be found at docs.sun.com. Some material below is quoted from the gccfss website, http://cooltools.sunsource.net/gcc/. Additional information about GCC options may be found at the The GNU C documentation website. |
| Updated: 23-Sep-2009 jh | |
Invoke the Sun Studio C Compiler.
Invoke the Sun Studio C++ Compiler
Invoke the Sun Studio Fortran 90 Compiler
Invoke the Sun Studio C Compiler.
Invoke the Sun Studio C++ Compiler
Invoke the Sun Studio Fortran 90 Compiler
A convenience option, this switch selects several other options that are described in this file.
Enables the use of the fused multiply-add instruction.
Perform optimizations across all object files in the link step:
At -xipo=2, the compiler performs inter-procedural aliasing analysis as well as optimization of memory allocation and layout to improve cache performance.
Set the preferred page size for running the program.
Control the level of searching that the compiler does for prefetch opportunities by setting n to 1, 2, or 3, where higher numbers mean to do more searching. The default for Sun Studio C and Sun Studio C++ is 1. The default for Sun Studio Fortran and for gccfss is 2.
Allows the compiler to perform type-based alias analysis at the specified alias level:
Generate indirect prefetches for data arrays accessed indirectly.
Adjust the compiler's assumptions about prefetch latency by the specified factor. Typically values in the range of 0.5 to 2.0 will be useful. A lower number might indicate that data will usually be cache resident; a higher number might indicate a relatively larger gap between the processor speed and the memory speed (compared to the assumptions built into the compiler).
Links in a linker mapfile that enables the creation of a 'bss' segment, and aligns the segment at 4Mb. This effectively provides an appropriate alignment for large page mapping of the heap.
Include a library containing chip-specific memory routines.
Analyze loops for inter-iteration data dependencies, and do loop restructuring. Loop restructuring includes loop interchange, loop fusion, scalar replacement, and elimination of "dead" array assignments.
A convenience option, this switch selects several other options that are described in this file.
Enables the use of the fused multiply-add instruction.
Perform optimizations across all object files in the link step:
At -xipo=2, the compiler performs inter-procedural aliasing analysis as well as optimization of memory allocation and layout to improve cache performance.
Set the preferred page size for running the program.
Control the level of searching that the compiler does for prefetch opportunities by setting n to 1, 2, or 3, where higher numbers mean to do more searching. The default for Sun Studio C and Sun Studio C++ is 1. The default for Sun Studio Fortran and for gccfss is 2.
Allows the compiler to perform type-based alias analysis:
Control the level of searching that the compiler does for prefetch opportunities by setting n to 1, 2, or 3, where higher numbers mean to do more searching. The default for Sun Studio C and Sun Studio C++ is 1. The default for Sun Studio Fortran and for gccfss is 2.
Disables use of the compiler-provided Cstd header files.
Adds the directory for the Apache C++ Standard Library include files to the search path at compile time.
Adds the directory for the Apache C++ Standard Library include files to the search path at compile time.
Links in a linker mapfile that enables the creation of a 'bss' segment, and aligns the segment at 4Mb. This effectively provides an appropriate alignment for large page mapping of the heap.
Adds the directory for the Apache C++ Standard Library to the search path at link time
Specifies library search directory for the Apache C++ Standard Library for use by the runtime linker. The information is recorded in the object file and passed to the runtime linker.
Link with the Apache C++ Standard Library ("stdcxx"). The conventions for naming libraries are described in the README that comes with stdcxx; for example, "std8D" indicates a 64-bit shared library with optimization enabled; "std8d" is a 32-bit shared library with optimization enabled.
A convenience option, this switch selects the following switches that are described in this file:
Enables the use of the fused multiply-add instruction.
Perform optimizations across all object files in the link step:
At -xipo=2, the compiler performs inter-procedural aliasing analysis as well as optimization of memory allocation and layout to improve cache performance.
Set the preferred page size for running the program.
Control the level of searching that the compiler does for prefetch opportunities by setting n to 1, 2, or 3, where higher numbers mean to do more searching. The default for Sun Studio C and Sun Studio C++ is 1. The default for Sun Studio Fortran and for gccfss is 2.
Adjust the compiler's assumptions about prefetch latency by the specified factor. Typically values in the range of 0.5 to 2.0 will be useful. A lower number might indicate that data will usually be cache resident; a higher number might indicate a relatively larger gap between the processor speed and the memory speed (compared to the assumptions built into the compiler).
Links in a linker mapfile that enables the creation of a 'bss' segment, and aligns the segment at 4Mb. This effectively provides an appropriate alignment for large page mapping of the heap.
Include a library containing chip-specific memory routines.
A convenience option, this switch selects several other options that are described in this file.
A convenience option, this switch selects the following switches that are described in this file:
Enables the use of the fused multiply-add instruction.
Perform optimizations across all object files in the link step:
At -xipo=2, the compiler performs inter-procedural aliasing analysis as well as optimization of memory allocation and layout to improve cache performance.
Set the preferred page size for running the program.
Control the level of searching that the compiler does for prefetch opportunities by setting n to 1, 2, or 3, where higher numbers mean to do more searching. The default for Sun Studio C and Sun Studio C++ is 1. The default for Sun Studio Fortran and for gccfss is 2.
Allows the compiler to perform type-based alias analysis at the specified alias level:
Generate indirect prefetches for data arrays accessed indirectly.
Adjust the compiler's assumptions about prefetch latency by the specified factor. Typically values in the range of 0.5 to 2.0 will be useful. A lower number might indicate that data will usually be cache resident; a higher number might indicate a relatively larger gap between the processor speed and the memory speed (compared to the assumptions built into the compiler).
Links in a linker mapfile that enables the creation of a 'bss' segment, and aligns the segment at 4Mb. This effectively provides an appropriate alignment for large page mapping of the heap.
Include a library containing chip-specific memory routines.
A convenience option, this switch selects several other options that are described in this file.
Enables the use of the fused multiply-add instruction.
Set the preferred page size for running the program.
Perform optimizations across all object files in the link step:
At -xipo=2, the compiler performs inter-procedural aliasing analysis as well as optimization of memory allocation and layout to improve cache performance.
Control the level of searching that the compiler does for prefetch opportunities by setting n to 1, 2, or 3, where higher numbers mean to do more searching. The default for Sun Studio C and Sun Studio C++ is 1. The default for Sun Studio Fortran and for gccfss is 2.
Adjust the compiler's assumptions about prefetch latency by the specified factor. Typically values in the range of 0.5 to 2.0 will be useful. A lower number might indicate that data will usually be cache resident; a higher number might indicate a relatively larger gap between the processor speed and the memory speed (compared to the assumptions built into the compiler).
Controls simplifying assumptions for floating point arithmetic:
Generate indirect prefetches for data arrays accessed indirectly.
[optimizer flag]
Inliner only considers routines smaller than n pseudo instructions as possible inline candidates.
Allows the compiler to perform type-based alias analysis at the specified alias level:
Include a library containing chip-specific memory routines.
A convenience option, this switch selects several other options that are described in this file.
Enables the use of the fused multiply-add instruction.
Set the preferred page size for running the program.
Perform optimizations across all object files in the link step:
At -xipo=2, the compiler performs inter-procedural aliasing analysis as well as optimization of memory allocation and layout to improve cache performance.
Specifies which instructions can be used. Among the choices are:
Allow the compiler to transform math library calls within loops into calls to the vector math library. Specifying -xvector is equivalent to -xvector=lib.
Control the level of searching that the compiler does for prefetch opportunities by setting n to 1, 2, or 3, where higher numbers mean to do more searching. The default for Sun Studio C and Sun Studio C++ is 1. The default for Sun Studio Fortran and for gccfss is 2.
Analyze loops for inter-iteration data dependencies, and do loop restructuring. Loop restructuring includes loop interchange, loop fusion, scalar replacement, and elimination of "dead" array assignments.
A convenience option, this switch selects several other options that are described in this file.
Enables the use of the fused multiply-add instruction.
Set the preferred page size for running the program.
Allows the compiler to perform type-based alias analysis:
Use STLport's Standard Library implementation instead of the default libCstd.
Allows the compiler to perform type-based alias analysis:
Analyze loops for inter-iteration data dependencies, and do loop restructuring. Loop restructuring includes loop interchange, loop fusion, scalar replacement, and elimination of "dead" array assignments.
Collect profile data for feedback-directed optimization. If an option directory is named, the feedback will be stored there.
When FDO is used, the training run gathers information regarding execution paths and data values. Hardware performance counters are not used. FDO improves existing optimizations but does not introduce new classes of optimization.
For gccfss, profile collection works the same as Sun Studio on SPARC.
Use data collected for profile feedback. If an option directory is named, look for the feedback data there.
A convenience option, this switch selects several other options that are described in this file.
Enables the use of the fused multiply-add instruction.
Set the preferred page size for running the program.
Allows the compiler to perform type-based alias analysis:
Disables use of the compiler-provided Cstd header files.
Adds the directory for the Apache C++ Standard Library include files to the search path at compile time.
Adds the directory for the Apache C++ Standard Library include files to the search path at compile time.
Perform optimizations across all object files in the link step:
At -xipo=2, the compiler performs inter-procedural aliasing analysis as well as optimization of memory allocation and layout to improve cache performance.
Control the level of searching that the compiler does for prefetch opportunities by setting n to 1, 2, or 3, where higher numbers mean to do more searching. The default for Sun Studio C and Sun Studio C++ is 1. The default for Sun Studio Fortran and for gccfss is 2.
Treat pointer-valued function parameters as restricted pointers.
Adds the directory for the Apache C++ Standard Library to the search path at link time
Specifies library search directory for the Apache C++ Standard Library for use by the runtime linker. The information is recorded in the object file and passed to the runtime linker.
Link with the Apache C++ Standard Library ("stdcxx"). The conventions for naming libraries are described in the README that comes with stdcxx; for example, "std8D" indicates a 64-bit shared library with optimization enabled; "std8d" is a 32-bit shared library with optimization enabled.
Include a library containing chip-specific memory routines.
Analyze loops for inter-iteration data dependencies, and do loop restructuring. Loop restructuring includes loop interchange, loop fusion, scalar replacement, and elimination of "dead" array assignments.
Collect profile data for feedback-directed optimization. If an option directory is named, the feedback will be stored there.
When FDO is used, the training run gathers information regarding execution paths and data values. Hardware performance counters are not used. FDO improves existing optimizations but does not introduce new classes of optimization.
For gccfss, profile collection works the same as Sun Studio on SPARC.
Use data collected for profile feedback. If an option directory is named, look for the feedback data there.
A convenience option, this switch selects several other options that are described in this file.
Perform optimizations across all object files in the link step:
At -xipo=2, the compiler performs inter-procedural aliasing analysis as well as optimization of memory allocation and layout to improve cache performance.
Adjust the compiler's assumptions about prefetch latency by the specified factor. Typically values in the range of 0.5 to 2.0 will be useful. A lower number might indicate that data will usually be cache resident; a higher number might indicate a relatively larger gap between the processor speed and the memory speed (compared to the assumptions built into the compiler).
Control the level of searching that the compiler does for prefetch opportunities by setting n to 1, 2, or 3, where higher numbers mean to do more searching. The default for Sun Studio C and Sun Studio C++ is 1. The default for Sun Studio Fortran and for gccfss is 2.
Generate indirect prefetches for data arrays accessed indirectly.
[code generator flag]
Turns on prefetching for outer loops
[code generator flag]
Indicates to the compiler to insert n extra prefetches for each indirect access in outer loops
[code generator flag]
Insert indirect prefetches when the indirect access chain spans across basic blocks.
[optimizer flag]
Allow prefetching through up to n levels of indirect memory references.
Allows the compiler to perform type-based alias analysis:
Treat pointer-valued function parameters as restricted pointers.
Use STLport's Standard Library implementation instead of the default libCstd.
Analyze loops for inter-iteration data dependencies, and do loop restructuring. Loop restructuring includes loop interchange, loop fusion, scalar replacement, and elimination of "dead" array assignments.
Collect profile data for feedback-directed optimization. If an option directory is named, the feedback will be stored there.
When FDO is used, the training run gathers information regarding execution paths and data values. Hardware performance counters are not used. FDO improves existing optimizations but does not introduce new classes of optimization.
For gccfss, profile collection works the same as Sun Studio on SPARC.
Use data collected for profile feedback. If an option directory is named, look for the feedback data there.
A convenience option, this switch selects several other options that are described in this file.
Enables the use of the fused multiply-add instruction.
Set the preferred page size for running the program.
Allows the compiler to perform type-based alias analysis:
Use STLport's Standard Library implementation instead of the default libCstd.
Perform optimizations across all object files in the link step:
At -xipo=2, the compiler performs inter-procedural aliasing analysis as well as optimization of memory allocation and layout to improve cache performance.
Perform link-time optimizations, such as branch optimization and cache coloring.
Adjust the compiler's assumptions about prefetch latency by the specified factor. Typically values in the range of 0.5 to 2.0 will be useful. A lower number might indicate that data will usually be cache resident; a higher number might indicate a relatively larger gap between the processor speed and the memory speed (compared to the assumptions built into the compiler).
A convenience option, this switch selects the following switches that are described in this file:
Enables the use of the fused multiply-add instruction.
Perform optimizations across all object files in the link step:
At -xipo=2, the compiler performs inter-procedural aliasing analysis as well as optimization of memory allocation and layout to improve cache performance.
Set the preferred page size for running the program.
Control the level of searching that the compiler does for prefetch opportunities by setting n to 1, 2, or 3, where higher numbers mean to do more searching. The default for Sun Studio C and Sun Studio C++ is 1. The default for Sun Studio Fortran and for gccfss is 2.
Adjust the compiler's assumptions about prefetch latency by the specified factor. Typically values in the range of 0.5 to 2.0 will be useful. A lower number might indicate that data will usually be cache resident; a higher number might indicate a relatively larger gap between the processor speed and the memory speed (compared to the assumptions built into the compiler).
Collect profile data for feedback-directed optimization. If an option directory is named, the feedback will be stored there.
When FDO is used, the training run gathers information regarding execution paths and data values. Hardware performance counters are not used. FDO improves existing optimizations but does not introduce new classes of optimization.
For gccfss, profile collection works the same as Sun Studio on SPARC.
Use data collected for profile feedback. If an option directory is named, look for the feedback data there.
A convenience option, this switch selects the following switches that are described in this file:
Enables the use of the fused multiply-add instruction.
Set the preferred page size for running the program.
Perform optimizations across all object files in the link step:
At -xipo=2, the compiler performs inter-procedural aliasing analysis as well as optimization of memory allocation and layout to improve cache performance.
Control the level of searching that the compiler does for prefetch opportunities by setting n to 1, 2, or 3, where higher numbers mean to do more searching. The default for Sun Studio C and Sun Studio C++ is 1. The default for Sun Studio Fortran and for gccfss is 2.
Adjust the compiler's assumptions about prefetch latency by the specified factor. Typically values in the range of 0.5 to 2.0 will be useful. A lower number might indicate that data will usually be cache resident; a higher number might indicate a relatively larger gap between the processor speed and the memory speed (compared to the assumptions built into the compiler).
A convenience option, this switch selects the following switches that are described in this file:
Enables the use of the fused multiply-add instruction.
Set the preferred page size for running the program.
Links in a linker mapfile that enables the creation of a 'bss' segment, and aligns the segment at 4Mb. This effectively provides an appropriate alignment for large page mapping of the heap.
Perform optimizations across all object files in the link step:
At -xipo=2, the compiler performs inter-procedural aliasing analysis as well as optimization of memory allocation and layout to improve cache performance.
Control the level of searching that the compiler does for prefetch opportunities by setting n to 1, 2, or 3, where higher numbers mean to do more searching. The default for Sun Studio C and Sun Studio C++ is 1. The default for Sun Studio Fortran and for gccfss is 2.
Adjust the compiler's assumptions about prefetch latency by the specified factor. Typically values in the range of 0.5 to 2.0 will be useful. A lower number might indicate that data will usually be cache resident; a higher number might indicate a relatively larger gap between the processor speed and the memory speed (compared to the assumptions built into the compiler).
Include a library containing chip-specific memory routines.
A convenience option, this switch selects the following switches that are described in this file:
Enables the use of the fused multiply-add instruction.
Set the preferred page size for running the program.
Links in a linker mapfile that enables the creation of a 'bss' segment, and aligns the segment at 4Mb. This effectively provides an appropriate alignment for large page mapping of the heap.
Perform optimizations across all object files in the link step:
At -xipo=2, the compiler performs inter-procedural aliasing analysis as well as optimization of memory allocation and layout to improve cache performance.
Adjust the compiler's assumptions about prefetch latency by the specified factor. Typically values in the range of 0.5 to 2.0 will be useful. A lower number might indicate that data will usually be cache resident; a higher number might indicate a relatively larger gap between the processor speed and the memory speed (compared to the assumptions built into the compiler).
Include a library containing chip-specific memory routines.
A convenience option, this switch selects the following switches that are described in this file:
Enables the use of the fused multiply-add instruction.
Set the preferred page size for running the program.
Perform optimizations across all object files in the link step:
At -xipo=2, the compiler performs inter-procedural aliasing analysis as well as optimization of memory allocation and layout to improve cache performance.
Controls simplifying assumptions for floating point arithmetic:
Adjust the compiler's assumptions about prefetch latency by the specified factor. Typically values in the range of 0.5 to 2.0 will be useful. A lower number might indicate that data will usually be cache resident; a higher number might indicate a relatively larger gap between the processor speed and the memory speed (compared to the assumptions built into the compiler).
Collect profile data for feedback-directed optimization. If an option directory is named, the feedback will be stored there.
When FDO is used, the training run gathers information regarding execution paths and data values. Hardware performance counters are not used. FDO improves existing optimizations but does not introduce new classes of optimization.
For gccfss, profile collection works the same as Sun Studio on SPARC.
Use data collected for profile feedback. If an option directory is named, look for the feedback data there.
A convenience option, this switch selects the following switches that are described in this file:
Enables the use of the fused multiply-add instruction.
Set the preferred page size for running the program.
Perform optimizations across all object files in the link step:
At -xipo=2, the compiler performs inter-procedural aliasing analysis as well as optimization of memory allocation and layout to improve cache performance.
This library provides faster versions of some common functions, such as malloc/free and bcopy.
Collect profile data for feedback-directed optimization. If an option directory is named, the feedback will be stored there.
When FDO is used, the training run gathers information regarding execution paths and data values. Hardware performance counters are not used. FDO improves existing optimizations but does not introduce new classes of optimization.
For gccfss, profile collection works the same as Sun Studio on SPARC.
Use data collected for profile feedback. If an option directory is named, look for the feedback data there.
A convenience option, this switch selects several other options that are described in this file.
A convenience option, this switch selects the following switches that are described in this file:
Enables the use of the fused multiply-add instruction.
Set the preferred page size for running the program.
Perform optimizations across all object files in the link step:
At -xipo=2, the compiler performs inter-procedural aliasing analysis as well as optimization of memory allocation and layout to improve cache performance.
Turn off inlining.
xchip determines timing properties that are assumed by the compiler. It does not limit which instructions are allowed (see xtarget for that). Among the choices are:
Controls simplifying assumptions for floating point arithmetic:
Adjust the compiler's assumptions about prefetch latency by the specified factor. Typically values in the range of 0.5 to 2.0 will be useful. A lower number might indicate that data will usually be cache resident; a higher number might indicate a relatively larger gap between the processor speed and the memory speed (compared to the assumptions built into the compiler).
A convenience option, this switch selects several other options that are described in this file.
A convenience option, this switch selects the following switches that are described in this file:
Enables the use of the fused multiply-add instruction.
Perform optimizations across all object files in the link step:
At -xipo=2, the compiler performs inter-procedural aliasing analysis as well as optimization of memory allocation and layout to improve cache performance.
Set the preferred page size for running the program.
Control the level of searching that the compiler does for prefetch opportunities by setting n to 1, 2, or 3, where higher numbers mean to do more searching. The default for Sun Studio C and Sun Studio C++ is 1. The default for Sun Studio Fortran and for gccfss is 2.
Allows the compiler to perform type-based alias analysis at the specified alias level:
Control the level of searching that the compiler does for prefetch opportunities by setting n to 1, 2, or 3, where higher numbers mean to do more searching. The default for Sun Studio C and Sun Studio C++ is 1. The default for Sun Studio Fortran and for gccfss is 2.
Generate indirect prefetches for data arrays accessed indirectly.
Controls simplifying assumptions for floating point arithmetic:
A convenience option, this switch selects several other options that are described in this file.
A convenience option, this switch selects the following switches that are described in this file:
Enables the use of the fused multiply-add instruction.
Set the preferred page size for running the program.
Perform optimizations across all object files in the link step:
At -xipo=2, the compiler performs inter-procedural aliasing analysis as well as optimization of memory allocation and layout to improve cache performance.
Control the level of searching that the compiler does for prefetch opportunities by setting n to 1, 2, or 3, where higher numbers mean to do more searching. The default for Sun Studio C and Sun Studio C++ is 1. The default for Sun Studio Fortran and for gccfss is 2.
Adjust the compiler's assumptions about prefetch latency by the specified factor. Typically values in the range of 0.5 to 2.0 will be useful. A lower number might indicate that data will usually be cache resident; a higher number might indicate a relatively larger gap between the processor speed and the memory speed (compared to the assumptions built into the compiler).
Allows the compiler to perform type-based alias analysis at the specified alias level:
Generate indirect prefetches for data arrays accessed indirectly.
A convenience option, this switch selects several other options that are described in this file.
A convenience option, this switch selects the following switches that are described in this file:
Enables the use of the fused multiply-add instruction.
Perform optimizations across all object files in the link step:
At -xipo=2, the compiler performs inter-procedural aliasing analysis as well as optimization of memory allocation and layout to improve cache performance.
Set the preferred page size for running the program.
Control the level of searching that the compiler does for prefetch opportunities by setting n to 1, 2, or 3, where higher numbers mean to do more searching. The default for Sun Studio C and Sun Studio C++ is 1. The default for Sun Studio Fortran and for gccfss is 2.
Adjust the compiler's assumptions about prefetch latency by the specified factor. Typically values in the range of 0.5 to 2.0 will be useful. A lower number might indicate that data will usually be cache resident; a higher number might indicate a relatively larger gap between the processor speed and the memory speed (compared to the assumptions built into the compiler).
Allows the compiler to perform type-based alias analysis at the specified alias level:
Generate indirect prefetches for data arrays accessed indirectly.
Specify the -xjobs option to set how many processes the compiler creates to complete its work. Currently, -xjobs works only with the -xipo option. When you specify -xjobs=n, the interprocedural optimizer uses n as the maximum number of code generator instances it can invoke to compile different files.
Directs the compiler to print the name and version ID of each component as the compiler executes.
Turns on verbose mode, showing how command options expand. Shows each component as it is invoked.
Specify the -xjobs option to set how many processes the compiler creates to complete its work. Currently, -xjobs works only with the -xipo option. When you specify -xjobs=n, the interprocedural optimizer uses n as the maximum number of code generator instances it can invoke to compile different files.
Controls compiler verbosity. There are several values that can be used with this flag:
The default is -verbose=%none.
Specify the -xjobs option to set how many processes the compiler creates to complete its work. Currently, -xjobs works only with the -xipo option. When you specify -xjobs=n, the interprocedural optimizer uses n as the maximum number of code generator instances it can invoke to compile different files.
Directs the compiler to print the name and version ID of each component as the compiler executes.
This flag will cause the Sun Studio Fortran compiler to emit verbose messages.
Specify the -xjobs option to set how many processes the compiler creates to complete its work. Currently, -xjobs works only with the -xipo option. When you specify -xjobs=n, the interprocedural optimizer uses n as the maximum number of code generator instances it can invoke to compile different files.
Directs the compiler to print the name and version ID of each component as the compiler executes.
Turns on verbose mode, showing how command options expand. Shows each component as it is invoked.
This flag will cause the Sun Studio Fortran compiler to emit verbose messages.
Specify the -xjobs option to set how many processes the compiler creates to complete its work. Currently, -xjobs works only with the -xipo option. When you specify -xjobs=n, the interprocedural optimizer uses n as the maximum number of code generator instances it can invoke to compile different files.
Directs the compiler to print the name and version ID of each component as the compiler executes.
Turns on verbose mode, showing how command options expand. Shows each component as it is invoked.
Specify the -xjobs option to set how many processes the compiler creates to complete its work. Currently, -xjobs works only with the -xipo option. When you specify -xjobs=n, the interprocedural optimizer uses n as the maximum number of code generator instances it can invoke to compile different files.
Controls compiler verbosity. There are several values that can be used with this flag:
The default is -verbose=%none.
Specify the -xjobs option to set how many processes the compiler creates to complete its work. Currently, -xjobs works only with the -xipo option. When you specify -xjobs=n, the interprocedural optimizer uses n as the maximum number of code generator instances it can invoke to compile different files.
Directs the compiler to print the name and version ID of each component as the compiler executes.
This flag will cause the Sun Studio Fortran compiler to emit verbose messages.
Specify the -xjobs option to set how many processes the compiler creates to complete its work. Currently, -xjobs works only with the -xipo option. When you specify -xjobs=n, the interprocedural optimizer uses n as the maximum number of code generator instances it can invoke to compile different files.
Directs the compiler to print the name and version ID of each component as the compiler executes.
Turns on verbose mode, showing how command options expand. Shows each component as it is invoked.
This flag will cause the Sun Studio Fortran compiler to emit verbose messages.
This section contains descriptions of flags that were included implicitly by other flags, but which do not have a permanent home at SPEC.
Allows the compiler to assume that your code does not rely on setting of the errno variable.
Sets the maximum assumed data alignment:
Selects faster (but nonstandard) handling of floating point arithmetic exceptions and gradual underflow.
Controls simplifying assumptions for floating point arithmetic:
Evaluate float expressions as single precision.
Turns off all IEEE 754 trapping modes.
Allows the compiler to perform type-based alias analysis at the specified alias level:
Substitute intrinsic functions or inline system functions where profitable for performance.
Analyze loops for inter-iteration data dependencies, and do loop restructuring. Loop restructuring includes loop interchange, loop fusion, scalar replacement, and elimination of "dead" array assignments.
Use inline expansion for math library, libm.
Select the optimized math library.
Specify optimization level n:
Selects options for architecture, chip timing, and cache sizes. These can also be controlled separately, via -xarch, -xchip, and -xcache, respectively. A wide variety of targets can be selected, including ultra3, ultra3cu, ultra3i, ultra3iplus, ultra4, ultra4plus, ultraT1, ultraT2, sparc64vi. In each case, appropriate options are selected for architecture, chip timing, and cache size to match that target.
If -xtarget=native is selected, options that are appropriate for the system where the compile is being done.
The default is -xtarget=generic, which sets the parameters for the best performance over most 32-bit platform architectures.
On Solaris SPARC systems, the default pointer size with -xtarget=native is 32-bit.
Specifies which instructions can be used. Among the choices are:
xcache defines the cache properties for use by the optimizer. It can specify use of default assumptions ("generic"); use of whatever the compiler can assume about the current platform ("native"); or an explicit description of up to three levels of cache, using colon-separated specifiers of the form si/li/ai, where:
xchip determines timing properties that are assumed by the compiler. It does not limit which instructions are allowed (see xtarget for that). Among the choices are:
Assume data is naturally aligned.
Sets the IEEE 754 trapping mode to common exceptions (invalid, division by zero, and overflow).
Pad local variables, for better use of cache.
Allow the compiler to transform math library calls within loops into calls to the vector math library. Specifying -xvector is equivalent to -xvector=lib.
Platform settings
One or more of the following settings may have been applied to the testbed. If so, the "Platform Notes" section of the report will say so; and you can read below to find out more about what these settings mean.
autoup=<n> (Unix /etc/system)
When the file system flush daemon fsflush runs, it writes to disk all modified file buffers that are more
than n seconds old.
bufhwm=<n> (Unix /etc/system)
Sets the upper limit of the file system buffer cache. The units for bufhwm are in kilobytes.
cpu_bringup_set=<n> (Unix /etc/system)
Specifies which processors are enabled at boot time. <n> represents a bitmap of the
processors to be brought online.
disablecomponent (System Management Services)
This command can be used prior to booting the system for a 1-cpu test. The tester uses disablecomponent to
add all other CPUs to the "blacklist", which is a list of components that cannot be used at boot time.
LD_LIBRARY_PATH=<directories> (linker)
LD_LIBRARY_PATH controls the search order for both the compile-time and run-time linkers. Usually, it can be
defaulted; but testers may sometimes choose to explicitly set it (as documented in the notes in the submission), in order to
ensure that the correct versions of libraries are picked up.
LD_PRELOAD=<shared object> (Unix environment variable)
Adds the named shared object to the runtime environment.
MADV=access_lwp and LD_PRELOAD=madv.so.1 (Unix environment variables)
When the madv.so.1 shared object is present in the LD_PRELOAD list, it is possible to provide advice to the system
about how memory is likely to be accessed. The advice present in MADV applies to all processes and their descendants. A
commonly used value is access_lwp, which means that when memory is allocated, the next process to touch it will be
the primary user. Examples of other possible values include sequential, for memory that is used only once and
then no longer needed and acces_many when many processes will be sharing data.
MPSSHEAP=<size>, MPSSSTACK=<size>, and
LD_PRELOAD=mpss.so.1 (Unix environment variables)
When these variables are set, the mpss.so.1 shared object will set the preferred page size for new processes, and their
descendants, to the requested sizes for the heap and stack.
PARALLEL=<n> (Unix environment variable)
If programs have been compiled with -xautopar, this environment variable can be set to the number of
processors that programs should use.
segmap_percent=<n> (Unix /etc/system)
This value controls the size of the segmap cache as a percent of total memory. Set this value to help keep the file system cache from consuming memory unnecessarily.
STACKSIZE=<n> (Unix environment variable)
Set the size of the stack (temporary storage area) for each slave thread of a multithreaded program.
submit=echo 'pbind -b...' > dobmk; sh dobmk (SPEC tools, Unix shell)
When running multiple copies of benchmarks, the SPEC config file feature submit is sometimes used to
cause individual jobs to be bound to specific processors. If so, the specific command may be found in the config file; here
is a brief guide to understanding that command:
psrset -c <n> (Unix, superuser commands)
Creates a new processor set and displays the new processor set ID.
psrset -e <n> (Unix, superuser commands)
Executes a command (with optional arguments) in the specified processor set.
The command process and any child processes are executed only by processors in the processor set.
svcadm disable webconsole (Unix, superuser commands)
Turns off the Sun Web Console, a browser-based interface that performs systems management.
If it is enabled, system administrators can manage systems, devices and services from remote systems.
ts_dispatch_extended=<n> (Unix /etc/system)
Controls which dispatch table is loaded upon boot. A value of 1 loads the large system table, a value of 0 loads the regular system table.
tune_t_fsflushr=<n> (Unix /etc/system)
Controls the number of seconds between runs of the file system flush daemon, fsflush.
ulimit -s <n> (Unix shell)
Sets the stack size to n kbytes, or "unlimited" to allow the stack size to grow without limit.
Note that the "heap" and the "stack" share space; if your application allocates large amounts of memory on the heap,
then you may find that the stack limit should not be set to "unlimited". A commonly used setting for SPEC CPU2006 purposes
is a stack size of 128MB (131072K).
Flag description origin markings:
|
Indicates that the flag description came from the user flags file. |
![[suite]](http://www.spec.org/auto/cpu2006/flags/suite.png) |
Indicates that the flag description came from the suite-wide flags file. |
![[benchmark]](http://www.spec.org/auto/cpu2006/flags/benchmark.png) |
Indicates that the flag description came from a per-benchmark flags file. |
For questions about the meanings of these flags, please contact the tester.
For other inquiries, please contact webmaster@spec.org
Copyright 2006-2014 Standard Performance Evaluation Corporation
Tested with SPEC CPU2006 v1.1.
Report generated on Wed Jul 23 06:11:43 2014 by SPEC CPU2006 flags formatter v6906.