Description of compiler flags for Intel C Compiler 4.5 ------------------------------------------------------ /O3: In conjunction with QaxK/QxK, this switch causes the compiler to perform more aggressive data dependancy analysis than for /O2. This may result in longer compilation times. /Oa[-] assume no aliasing in program /Ow assume no aliasing in program but assume aliasing across function calls. This switch tells the compiler that no aliasing occurs within function bodies but might occur across function calls. After each function call, pointer variables must be reloaded from memory. /Qax generate code specialized for processor extensions specified by while also generating generic IA-32 code. includes one or more of the following characters: i Pentium Pro and Pentium II processor instructions M MMX(TM) instructions K streaming SIMD extensions /Qx generate specialized code to run exclusively on processors supporting the extensions indicated by as described above. /QIfist[-] enable/disable(DEFAULT) fast float-to-int conversions (*M) /Qip enable single-file IP optimizations (within files, same as /Ob2) /Qipo enable multi-file IP optimizations (between files) /Qipo_wp a higher level of ip optimizations that verifies that the whole program optimizations listed below are possible. These optimizations only happen at link time when it is known that an executable is generated. If the conditions for the listed optimizations are not met, the link time compilation will just do the equivalent of -Qipo Whole program optimizations done at link time: - Data alignment within common blocks - Data layout within common blocks - Elimination of external function not called - Interprocedural constant propagation - No alternate entry needed for stack aligned external function entries /Qprof_dir specify directory for profiling output files (*.dyn and *.dpi) /Qprof_file specify file name for profiling summary file /Qprof_gen[x] instrument program for profiling; with the x qualifier, extra information is gathered for use with the PROFORDER tool /Qprof_use enable use of profiling information during optimization /Qrcd same as /QIfist /Qunroll[n] set maximum number of times to unroll loops. Omit n to use default heuristics. Use n=0 to disable loop unroller. shlW32M.lib: MicroQuill SmartHeap Library 5.0 available from http://www.microquill.com/ Description of compiler flags for Intel FORTRAN Compiler 4.5 ------------------------------------------------------------ /O1 optimize for maximum speed, but disable some optimizations which increase code size for a small speed benefit: /Gs /Ob1gysi- /O2 optimize for maximum speed (same as /Ox) /O3 enable /O2 plus more aggressive optimizations that may not improve performance for all programs /Qax generate code specialized for processor extensions specified by while also generating generic IA-32 code. includes one or more of the following characters: i Pentium Pro and Pentium II processor instructions M MMX(TM) instructions K streaming SIMD extensions /Qx generate specialized code to run exclusively on processors supporting the extensions indicated by as described above. /QIfist[-] enable/disable(DEFAULT) fast float-to-int conversions (*M) /Qip enable single-file IP optimizations (within files, same as /Ob2) /Qipo enable multi-file interprocedural (ip) optimizations (between files) /Qipo_wp a higher level of ip optimizations that verifies that the whole program optimizations listed below are possible. These optimizations only happen at link time when it is known that an executable is generated. If the conditions for the listed optimizations are not met, the link time compilation will just do the equivalent of -Qipo Whole program optimizations done at link time: - Data alignment within common blocks - Data layout within common blocks - Elimination of external function not called - Interprocedural constant propagation - No alternate entry needed for stack aligned external function entries /Qpc 32 set internal FPU precision to 24 bit significand /Qprefetch[-] enable(DEFAULT)/disable prefetch insertion (requires /O3) /Qprof_dir specify directory for profiling output files (*.dyn and *.dpi) /Qprof_file specify file name for profiling summary file /Qprof_gen[x] instrument program for profiling; with the x qualifier, extra information is gathered for use with the PROFORDER tool /Qprof_use enable use of profiling information during optimization /Qrcd same as /QIfist /Qscalar_rep[-] enable(DEFAULT)/disable scalar replacement (requires /O3) -Zi Used to enable the generation of debugging information Portability options for CPU2000: ------------------------------- 176.gcc: -Dalloca=_alloca : so as to use the built-in optimized alloca /Fn : 176.gcc uses alloca and this options tells the linker to pre-allocate n bytes of stack. The default amount of stack allocated is not enough and 176.gcc crashes with a run-time error -Op : restricts optimization to maintain declared precision and to ensure that fp arithmetic conforms ore closely to ANSI and IEEE standards. This options adversely affects performance. It is necessary to ensure that certain fp operations in 176.gcc cause a loss of precision and hence a change in value. Using Intel's native 80-bit arithmetic causes the wrong results to be generated. 178.galgel: -FI : Fixed-format F90 source code. -link -stack:32000000 : Same as with 176.gcc, pre-allocates a 32MB stack 186.crafty: -DNT_i386 : Specifies that it is a Windows NT Intel processor-based system which makes the compiler use "long long" as the 64-bit variable that 186.crafty needs. 253.perlbmk: -DSPEC_CPU2000_NTOS : This enables the code changes for porting to WIndows get included -DPERLDLL : On Windows, we need a perl.exe instead of a perl.exe and perl.dll. This pre-defines ensures that the changes necessary to get a single, UNIX-style executible without getting the indirect calls that can cause a 10% performance degradation. This allows the Windows-based executible to be as close as possible to the Unix-based one. /MT : Use the static multi-threaded library else it will not compile. 254.gap: -DSYS_HAS_CALLOC_PROTO : -DSYS_HAS_MALLOC_PROTO : These two pre-defines tell of the existence of malloc and calloc prototypes.