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I'm trying to determine an efficient method for detecting the availability of AVX and AVX2 on Intel and AMD processors. I was kind of surprised to learn it was closer to SSE and XSAVE when reading the Intel Software Developer Manual, Volume I (MANAGING STATE USING THE XSAVE FEATURE SET, p. 310).

Intel posts some code for detecting AVX availability at Is AVX enabled? The code is shown below and its not too painful. The problem is, Visual Studio is a pain point because we need to move code out of C/C++ files ind into ASM files for X64.

Others seem to be taking the SIGILL approach to detecting AVX availability. Or they are unwittingly using the SIGILL method. See, for example, SIGILL on AVX instruction.

My question is, is it safe to use the SIGILL method to detect AVX availability? Here, "safe" means an AVX instruction will not generate a SIGILL when the CPU and OS supports AVX; and it will generate a SIGILL otherwise.


The code below is for 32-bit machines and its from the Intel blog Is AVX enabled? The thing that worries me is manipulating the control registers. Reading and writing some X86 and ARM control registers sometimes require super user/administrator privileges. Its the reason I prefer a SIGILL (and avoid control registers).

; int isAvxSupported();
isAvxSupported proc

  xor eax, eax
  cpuid
  cmp eax, 1           ; does CPUID support eax = 1?
  jb not_supported

  mov eax, 1
  cpuid
  and ecx, 018000000h  ; check 27 bit (OS uses XSAVE/XRSTOR)
  cmp ecx, 018000000h  ; and 28       (AVX supported by CPU)
  jne not_supported

  xor ecx, ecx         ; XFEATURE_ENABLED_MASK/XCR0 register number = 0
  xgetbv               ; XFEATURE_ENABLED_MASK register is in edx:eax
  and eax, 110b
  cmp eax, 110b        ; check the AVX registers restore at context switch
  jne not_supported

supported:
  mov eax, 1
  ret

not_supported:
  xor eax, eax
  ret

isAvxSupported endp
  • 1
    Have you checked the manuals? I believe this code does not require elevated privileges. Why don't you check the manusl if xgetbv does so? – fuz May 23 '17 at 21:05
  • Related question, but its compile time detection; not run time detection: How to detect SSE/AVX/AVX2 availability at compile-time? – jww May 24 '17 at 2:01
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A bit of theory first.

In order to use the AVX instructions set a few conditions must meet:

  1. CR4.OSXSAVE[bit 18] must be 1.
    This flag is set by the OS to signal the processor that it supports the xsave extensions.
    The xsave extensions are the only way to save the AVX state (fxsave doesn't save the ymm registers) and thus the OS must support them.

  2. XCR0.SSE[bit 1] and XCR0.AVX[bit 2] must be 1.
    These flags are set by the OS to signal the processor that it supports saving and restoring the SSE and AVX states (through xsave).

  3. CPUID.1:ECX.AVX[bit 28] = 1
    Of course, the processor must support the AVX extensions in the first place.

All these registers are user-mode readable but for CR4.
Fortunately, the bit CR4.OSXSAVE is reflected in CPUID.1:ECX.OSXSAVE[bit 27] and thus all information is user-mode accessible. No privileged instructions are involved.

In order to use the AVX extensions both hardware (CPUID.1:ECX.AVX and CPUID.1:ECX.XSAVE) and OS (CPUID.1:ECX.OSXSAVE, XCR0.SSE and XCR0.AVX) support must be present.
Since the OS signals its support for xsave only in presence of the hardware support, testing the former is enough.
For the AVX extensions, testing CPUID.1:ECX.AVX is still recommended as the OS may set XCR0.AVX even if AVX is not supported.

This leads to the Intel official, and strongly recommended, algorithm:

Official Intel algorithm for AVX detection. Section 14.3 of manual 1

which is the exact same one you posted.


Catching exceptions to detect the support for the AVX extensions will also do granted that you can guarantee that the exception caught is #UD.
For example, by executing vzeroall the only possible exceptions are #UD and #NM.
The first one is thrown only when:

If XCR0[2:1] ≠ ‘11b’.
If CR4.OSXSAVE[bit 18]=0.
If CPUID.01H.ECX.AVX[bit 28]=0.
If VEX.vvvv ≠ 1111B.

So unless you have a broken assembler/compiler, it is exactly equivalent of the conditions stated at the beginning.

The latter is thrown as an optimisation for saving the AVX state and as such, it is not exposed to user-mode programs by the OS.

Thereby catching SIGILL on vzeroall or similar would also do.

  • The #NM exception is thrown when the instruction doesn't generate #UD and CR3.TS = 1. If a lock prefix is used with VZEROALL then an #UD exception is generated. Only ring 0 code can set CR3.TS so #NM will only be generated so the the OS can lazily save the FPU/SIMD state. – Ross Ridge May 24 '17 at 22:53
  • Thanks Margaret. I'm still digesting the answer. A quick question... if isAvxSupported returns true, then does that mean AVX2 is also available? Or do we need an additional test? Naively, it seems like AVX and AVX2 are different features and AVX2 would need an additional test. But Chapter 13, MANAGING STATE USING THE XSAVE FEATURE SET, only discusses AVX; and it does not discuss AVX2 or AVX512. Chapter 13 does discuss state size, however; and that may be enough for {AVX|AVX2|AVX512} and OS support. – jww May 24 '17 at 23:48
  • 2
    @jww, Sorry for the late answer. The bit CPUID.7:EBX.AVX2[bit 5] should be tested before using AVX2. Since AVX2 just introduces new instructions and no new states, that should be enough (in addition to the AVX test). – Margaret Bloom May 25 '17 at 7:20
  • Thanks @RossRidge, I've read the manuals too quickly. – Margaret Bloom May 25 '17 at 7:21
  • @MargaretBloom - I still have not had time to test this. It is a FOSS project, and I'm buried in other work at the moment. Thank you for the answer, and sorry for the delayed feedback. If I have feedback once implemented, I'll let you know. – jww Jun 6 '17 at 4:29

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