3

This question already has an answer here:

I do some operations on array using SIMD, so I need to have them aligned in memory. When I place arrays on the stack, I simply do this and it works:

#define BUFFER_SIZE 10000
alignas(16) float approxFreqMuls_Float[BUFFER_SIZE];
alignas(16) double approxFreqMuls_Double[BUFFER_SIZE];

But now I need to allocate more memory (such as 96k doubles, or more): so I think the heap is the way; but when I do this:

int numSteps = 96000;
alignas(16) float *approxFreqMuls_Float = new float[numSteps];
alignas(16) double *approxFreqMuls_Double = new double[numSteps];

It thrown error on ostream. Not really sure about the message (I'm on MSVC, nothing appair).

How would you allocate aligned arrays on heap?

marked as duplicate by Peter Cordes c++ Feb 8 at 11:08

This question has been asked before and already has an answer. If those answers do not fully address your question, please ask a new question.

4

Heap allocations are aligned to the maximum native alignment by default, so as long as you don't need to over-align, then you don't need to do anything in particular to align it.

If you do need over-alignment, for some reason, you can use the aligned new syntax new (std::align_val_t(16)) float[numSteps]; (or std::aligned_alloc which is in the malloc family of functions and the memory must therefore be freed rather than deleted).

If you don't have C++17, then you need to allocate size + align - 1 bytes instead if size, and std::align the pointer - or use a non-standard aligned allocation function provided on your target platform.

  • Heap allocations are aligned to the maximum native alignment by default what does it means this? Shouldn't align to 16 using SIMD? i.e. __mm_load_pd software.intel.com/sites/landingpage/IntrinsicsGuide/… (mem_addr must be aligned on a 16-byte boundary or a general-protection exception may be generated.) – markzzz Feb 8 at 11:03
  • In fact, If I remove the align, it crash as well :) – markzzz Feb 8 at 11:04
  • 1
    @markzzz It means that (regardless of the type given to new), the memory will be aligned sufficiently for any and all types except those that use alignas with larger values than alignof(std::max_align_t) i.e. types that are over-aligned. If max native alignment is 16, then you're all good. If it is less, then you need over-alignment. If you need specific alignment and don't know the native alignment, then using aligned allocation is a safe choice. – eerorika Feb 8 at 11:05
  • how can I check the "max native alignment"? – markzzz Feb 8 at 11:07
  • 1
    that print 8. So I think I need to over-align. – markzzz Feb 8 at 11:08

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