120

Which header files provide the intrinsics for the different x86 SIMD instruction set extensions (MMX, SSE, AVX, ...)? It seems impossible to find such a list online. Correct me if I'm wrong.

157
<mmintrin.h>  MMX

<xmmintrin.h> SSE

<emmintrin.h> SSE2

<pmmintrin.h> SSE3

<tmmintrin.h> SSSE3

<smmintrin.h> SSE4.1

<nmmintrin.h> SSE4.2

<ammintrin.h> SSE4A

<wmmintrin.h> AES

<immintrin.h> AVX

<zmmintrin.h> AVX512
  • 60
    Or you can just #include <x86intrin.h> which pulls in everything you need. – Paul R Jun 27 '12 at 15:19
  • 2
    zmmintrin.h has the AVX-512 intrinsics. – onitake Oct 29 '14 at 16:01
  • 3
    Why are p, t, s and n for SSE3/SSSE3/SSE4.1 and 4.2? What do those characters represent? – phuclv Jan 16 '15 at 17:48
  • 5
    @LưuVĩnhPhúc SSE3 = Prescott new instructions, SSSE3 = Tejas new instructions. I think SSE4.2 and AES refer to the processor family they were introduced on (Nehalem and Westmere) – Drew McGowen Jun 7 '15 at 23:11
  • 13
    Don't include <zmmintrin.h> directly; gcc doesn't even provide it. Just use <immintrin.h> or the even-more-complete <x86intrin.h>. This answer is basically obsolete, unless you're intentionally avoiding including intrinsics for newer versions of SSE because your compiler doesn't complain when you use an SSE4.1 instruction while compiling for SSE2. (gcc/clang do complain, so you should just use immintrin.h for them. IDK about others.) – Peter Cordes Jun 28 '16 at 22:31
71

If you use just

#include <x86intrin.h>

it will include all SSE/AVX headers which are enabled according to compiler switches like -march=corei7 or just -march=native. Additionally some x86 specific instructions like bswap or ror become available as intrinsics.

  • 16
    +1, I'll also note that Visual C++ doesn't have that header. – Mysticial Jun 27 '12 at 16:02
  • I wasn't sure, if the newer versions might... Anyway as long as gcc, icc and clang have it, it ok to use I think :-) – Gunther Piez Jun 27 '12 at 16:04
  • 5
    MSVC doesn't have <x86intrin.h>, but <intrin.h> achieves a similar effect. You still need conditional compilation, of course. :-( – Cody Gray Jun 1 '14 at 13:21
  • All the major x86 compilers have #include <immintrin.h>. Use that for SIMD intrinsics. You only need the even-larger (and slightly slower to compiler) x86intrin.h or intrin.h if you need stuff like integer rotate / bit-scan intrinsics (although Intel documents some of those as being available in immintrin.h in their intrinsics guide). – Peter Cordes Apr 15 '18 at 22:13
  • IIRC, there are some non-SIMD intrinsics which Intel documents as being in immintrin.h, but which gcc, clang, and/or MSVC only have in x86intrin.h / intrin.h but not in immintrin.h. – Peter Cordes Apr 15 '18 at 22:15
56

The header name depends on your compiler and target architecture.

  • For Microsoft C++ (targeting x86, x86-64 or ARM) and Intel C/C++ Compiler for Windows use intrin.h
  • For gcc/clang/icc targeting x86/x86-64 use x86intrin.h
  • For gcc/clang/armcc targeting ARM with NEON use arm_neon.h
  • For gcc/clang/armcc targeting ARM with WMMX use mmintrin.h
  • For gcc/clang/xlcc targeting PowerPC with VMX (aka Altivec) and/or VSX use altivec.h
  • For gcc/clang targeting PowerPC with SPE use spe.h

You can handle all these cases with conditional preprocessing directives:

#if defined(_MSC_VER)
     /* Microsoft C/C++-compatible compiler */
     #include <intrin.h>
#elif defined(__GNUC__) && (defined(__x86_64__) || defined(__i386__))
     /* GCC-compatible compiler, targeting x86/x86-64 */
     #include <x86intrin.h>
#elif defined(__GNUC__) && defined(__ARM_NEON__)
     /* GCC-compatible compiler, targeting ARM with NEON */
     #include <arm_neon.h>
#elif defined(__GNUC__) && defined(__IWMMXT__)
     /* GCC-compatible compiler, targeting ARM with WMMX */
     #include <mmintrin.h>
#elif (defined(__GNUC__) || defined(__xlC__)) && (defined(__VEC__) || defined(__ALTIVEC__))
     /* XLC or GCC-compatible compiler, targeting PowerPC with VMX/VSX */
     #include <altivec.h>
#elif defined(__GNUC__) && defined(__SPE__)
     /* GCC-compatible compiler, targeting PowerPC with SPE */
     #include <spe.h>
#endif
  • Here's some more to add to your list: On UltraSPARC+VIS with gcc, use visintrin.h; if you have Sun's VSDK, vis.h offers a different set of intrinsics. Documention can be found here: GCC VIS builtins, Sun VIS user's guide. – onitake Oct 29 '14 at 15:37
40

From this page

+----------------+------------------------------------------------------------------------------------------+
|     Header     |                                         Purpose                                          |
+----------------+------------------------------------------------------------------------------------------+
| x86intrin.h    | Everything, including non-vector x86 instructions like _rdtsc().                         |
| mmintrin.h     | MMX (Pentium MMX!)                                                                       |
| mm3dnow.h      | 3dnow! (K6-2) (deprecated)                                                               |
| xmmintrin.h    | SSE + MMX (Pentium 3, Athlon XP)                                                         |
| emmintrin.h    | SSE2 + SSE + MMX (Pentium 4, Athlon 64)                                                  |
| pmmintrin.h    | SSE3 + SSE2 + SSE + MMX (Pentium 4 Prescott, Athlon 64 San Diego)                        |
| tmmintrin.h    | SSSE3 + SSE3 + SSE2 + SSE + MMX (Core 2, Bulldozer)                                      |
| popcntintrin.h | POPCNT (Nehalem (Core i7), Phenom)                                                       |
| ammintrin.h    | SSE4A + SSE3 + SSE2 + SSE + MMX (AMD-only, starting with Phenom)                         |
| smmintrin.h    | SSE4_1 + SSSE3 + SSE3 + SSE2 + SSE + MMX (Penryn, Bulldozer)                             |
| nmmintrin.h    | SSE4_2 + SSE4_1 + SSSE3 + SSE3 + SSE2 + SSE + MMX (Nehalem (aka Core i7), Bulldozer)     |
| wmmintrin.h    | AES (Core i7 Westmere, Bulldozer)                                                        |
| immintrin.h    | AVX, AVX2, AVX512, all SSE+MMX (except SSE4A and XOP), popcnt, BMI/BMI2, FMA             |
+----------------+------------------------------------------------------------------------------------------+

So in general you can just include immintrin.h to get all Intel extensions, or x86intrin.h if you want everything, including _bit_scan_forward and _rdtsc, as well as all vector intrinsics include AMD-only ones. If you are against including more that you actually need then you can pick the right include by looking at the table.

x86intrin.h is the recommended way to get intrinsics for AMD XOP (Bulldozer-only, not even future AMD CPUs), rather than having its own header.

Some compilers will still generate error messages if you use intrinsics for instruction-sets you haven't enabled (e.g. _mm_fmadd_ps without enabling fma, even if you include immintrin.h and enable AVX2).

11

As many of the answers and comments have stated, <x86intrin.h> is the comprehensive header for x86[-64] SIMD intrinsics. It also provides intrinsics supporting instructions for other ISA extensions. gcc, clang, and icc have all settled on this. I needed to do some digging on versions that support the header, and thought it might be useful to list some findings...

  • gcc : support for x86intrin.h first appears in gcc-4.5.0. The gcc-4 release series is no longer being maintained, while gcc-6.x is the current stable release series. gcc-5 also introduced the __has_include extension present in all clang-3.x releases. gcc-7 is in pre-release (regression testing, etc.) and following the current versioning scheme, will be released as gcc-7.1.0.

  • clang : x86intrin.h appears to have been supported for all clang-3.x releases. The latest stable release is clang (LLVM) 3.9.1. The development branch is clang (LLVM) 5.0.0. It's not clear what's happened to the 4.x series.

  • Apple clang : annoyingly, Apple's versioning doesn't correspond with that of the LLVM projects. That said, the current release: clang-800.0.42.1, is based on LLVM 3.9.0. The first LLVM 3.0 based version appears to be Apple clang 2.1 back in Xcode 4.1. LLVM 3.1 first appears with Apple clang 3.1 (a numeric coincidence) in Xcode 4.3.3.

    Apple also defines __apple_build_version__ e.g., 8000042. This seems about the most stable, strictly ascending versioning scheme available. If you don't want to support legacy compilers, make one of these values a minimum requirement.

Any recent version of clang, including Apple versions, should therefore have no issue with x86intrin.h. Of course, along with gcc-5, you can always use the following:

#if defined (__has_include) && (__has_include(<x86intrin.h>))
#include <x86intrin.h>
#else
#error "upgrade your compiler. it's free..."
#endif

One trick you can't really rely on is using the __GNUC__ versions in clang. The versioning is, for historical reasons, stuck at 4.2.1. A version that precedes the x86intrin.h header. It's occasionally useful for, say, simple GNU C extensions that have remained backwards compatible.

  • icc : as far as I can tell, the x86intrin.h header is supported since at least Intel C++ 16.0. The version test can by performed with: #if (__INTEL_COMPILER >= 1600). This version (and possibly earlier versions) also provides support for the __has_include extension.

  • MSVC : It appears that MSVC++ 12.0 (Visual Studio 2013) is the first version to provide the intrin.h header - not x86intrin.h... this suggests: #if (_MSC_VER >= 1800) as a version test. Of course, if you're trying to write code that's portable across all these different compilers, the header name on this platform will be the least of your problems.

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.