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
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