I want VC++ to emit code like this:

vpxor     ymm0, ymm0, ymm0
vmovdqa   xmm0, xmm7

In human language, I want a 32-byte __m256i value where the lowest 16 bytes come from another variable, and the highest 16 bytes are zero. An equivalent of _mm256_castsi128_si256 intrinsic, only I need the upper 128 bits to be zero, as opposed to undefined.

Here’s what I’ve tried:

_mm256_setr_m128i( low, _mm_setzero_si128() )
_mm256_insertf128_si256( _mm256_setzero_si256(), low, 0 )

Both lines above compile into vinsertf128, relatively slow, 3-4 cycles latency, much slower than vmovdqa. Any workaround for VC++ 2017?

  • 1
    You don't actually want vpxor ymm0, ymm0, ymm0 first; simply writing an XMM register with a VEX or EVEX encoded instruction like vmovdqa (not legacy SSE) already zero-extends to full width. That's how 128-bit AVX instructions avoid false dependencies without SSE/AVX transition penalties. It's the same as writing a 32-bit integer register on x86-64. In fact, the most efficient way to zero a YMM register is with xor-zero of the corresponding XMM, so AMD CPUs before Zen2 still only need 1 uop. – Peter Cordes Feb 5 '20 at 10:59
  • As far as getting compilers to not be horrible; good luck with that. If MSVC shoots itself in the foot with _mm256_setr_m128i and the non-r set version, you're probably screwed. Upvoted your question because it's an ever bigger missed optimization than you thought. It's possible with 1 uop with zero latency on IvB+ and Bulldozer/Zen. – Peter Cordes Feb 5 '20 at 11:02

First, you don't need vpxor ymm0, ymm0, ymm0 because vmovdqa xmm0, xmm7 already zeroes the upper bits of the target ymm/zmm register. That is unlike the legacy movdqa instruction, which you should not use in AVX code anyway.

Second, the choice of the particular instructions is the compiler responsibility. If your compiler generates inefficient code, consider reporting a bug to the compiler vendor. For example, gcc recognizes this pattern of intrinsics and generates the optimal code.

As for MSVC, given that there is no support for inline assembler in x86-64 mode, there is no reliable way to ensure the particular instructions except to use a separately compiled assembler source. You may find some combination of intrinsics that generate the code you want, but that will be unreliable (and possibly invoke undefined behavior), and may change from one compiler version to another.

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    MSVC generally doesn't optimize intrinsics (for real instructions) at all; if you write _mm256_insertf128_si256 you get vinsertf128. Although apparently not always. And BTW, your test forgot to use -arch:AVX2 for MSVC; in one case it will use non-VEX xorps xmm2,xmm2 before vinsertf128! gcc.godbolt.org/z/HEcHDe. You should use -arch:AVX2 -Gv (vectorcall calling convention so __m128i args are passed in XMM regs). gcc.godbolt.org/z/fm2heu shows that MSVC 19.21 and higher thinks __m128i args are already zero-extended to 256 and emits only a ret x86 and x64 – Peter Cordes Feb 5 '20 at 12:16
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    And ironically, GCC shoots itself in the foot with _mm256_set_m128i. Only clang doesn't suck at stuff like this (and optimizing shuffles in general). gcc.godbolt.org/z/9HNtpi (GCC, clang, and x86-64 MSVC 19.24) – Peter Cordes Feb 5 '20 at 12:18
  • Thanks, I've added the MSVC arguments and updated the answer with a new link. Yes, I agree that MSVC is especially terrible with vector intrinsics. – Andrey Semashev Feb 5 '20 at 12:19
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    It cannot have that guarantee because AVX code can be called from SSE code, and SSE code may be executed with dirty upper vector state. Also, I created a ticket for gcc: gcc.gnu.org/bugzilla/show_bug.cgi?id=93594. Also see the followup gcc.gnu.org/bugzilla/show_bug.cgi?id=93613. Hopefully, it will improve soon. – Andrey Semashev Feb 9 '20 at 11:59
  • 1
    Also, the MSVC bug report: developercommunity.visualstudio.com/content/problem/911769/… – Andrey Semashev Feb 9 '20 at 12:29

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