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As the title reads, I am trying to use STL vector with SIMD intrinsic data type. I know it is not a good practice due to the potential overhead of load/store, but I encountered a quite weird fault. Here is the code:

#include "immintrin.h"
#include <vector>
#include <stdio.h>

#define VL 8

int main () {
    std::vector<__m256> vec_1(10);
    std::vector<__m256> vec_2(10);

    float * tmp_1 = new float[VL];
    printf("vec_1[0]:\n");
    _mm256_storeu_ps(tmp_1, vec_1[0]); // seems to go as expected
    for (int i = 0; i < VL; ++i)
        printf("%f ", tmp_1[i]);
    printf("\n");
    delete tmp_1;

    float * tmp_2 = new float[VL];
    printf("vec_2[0]:\n");
    _mm256_storeu_ps(tmp_2, vec_2[0]); // segmentation fault
    for (int i = 0; i < VL; ++i)
        printf("%f ", tmp_2[i]);
    printf("\n");
    delete tmp_2;

    return 0;
}

I compiled it using g++ -O3 -g -std=c++11 -mavx2 test.cpp -o test. vec_1[0] is printed as expected (all zeros), but segmentation fault happens when it comes to vec_2[0]. I thought it was the alignment issue, but instead of _mm256_store_ps, I used _mm256_storeu_ps, which does not require alignment.

It is a Intel Haswell architecture with AVX2 extension. GCC version is 4.8.5.

Any possible clue is welcome.

  • 4
    When I compile and run your code, I get a segmentation fault in the vector constructor, because it's doing fill_n on misaligned __m256, I suppose. If I wrap your __m256 in std::aligned_storage<sizeof(__m256), alignof(__m256)> (and reinterpret_cast where appropriate), it runs fine and prints all zeroes. So presumably, yes, it is an alignment issue. I'm not sure how these things work, but _mm256_storeu_ps takes its 2nd argument by value, which is hence copied from the underlying vector by operator[], whose elements aren't aligned! – user703016 Sep 21 '16 at 5:37
  • @PatrickM'Bongo Thanks for your advice. I tried typedef std::aligned_storage<sizeof(__m256), alignof(__m256)>::type __m256_pod; then std::vector<__m256_pod> vec_2(10); and _mm256_storeu_ps(tmp_2, reinterpret_cast<__m256&>(vec_2[0])); but segmentation fault still happens at the same line. Did I do something wrong? I am sorry I am new to this. – MarZzz Sep 21 '16 at 7:01
  • 3
    I wasn't aware of this but it seems the allocator is allowed to ignore the requested alignment. Indeed on my machine the first vector elements are aligned on 32 bytes, but the second vector element are aligned on 16 bytes. Not sure why. Perhaps the first vector gets a "fresh" memory chunk which happens to be nicely aligned? Either way, you will have to write your own aligned_allocator and pass it as template argument to your vector. – user703016 Sep 21 '16 at 7:35
  • 1
    Referencing vec_2[0] requires the memory used by vec_2 to be aligned, since gcc will emit aligned loads/stores when dereferencing __m256*. If you check with a debugger, you should see the segfault on a load insn. If you use a vector of float, you could use unaligned load intrinsics on it. (But it would be more sensible to avoid the overhead of dynamically allocating memory at all for small fixed sizes. Just use a local array. If it's an array of float, use alignas(32) float foo[VL*8], otherwise __m256 foo[VL] should correctly inherit the alignment requirement of __m256). – Peter Cordes Sep 21 '16 at 9:15
  • 1
    Maybe also try not using such an old compiler, especially if you care about performance. AVX2 was still pretty new when gcc4.8 was released. The current versions are 5.4 or 6.2. – Peter Cordes Sep 21 '16 at 9:16

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