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I have a column vector A which is 10 elements long. I have a matrix B which is 10 by 10. The memory storage for B is column major. I would like to overwrite the first row in B with the column vector A.

Clearly, I can do:

for ( int i=0; i < 10; i++ )
{
    B[0 + 10 * i] = A[i];
}

where I've left the zero in 0 + 10 * i to highlight that B uses column-major storage (zero is the row-index).

After some shenanigans in CUDA-land tonight, I had a thought that there might be a CPU function to perform a strided memcpy?? I guess at a low-level, performance would depend on the existence of a strided load/store instruction, which I don't recall there being in x86 assembly?

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maybe you should consider switching storage strategy for this matrix, or to store its transpose. –  David Heffernan May 16 '11 at 6:46

1 Answer 1

up vote 5 down vote accepted

Short answer: The code you have written is as fast as it's going to get.

Long answer: The memcpy function is written using some complicated intrinsics or assembly because it operates on memory operands that have arbitrary size and alignment. If you are overwriting a column of a matrix, then your operands will have natural alignment, and you won't need to resort to the same tricks to get decent speed.

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I guess I just had hopes of assembly level access to say 'un'-strided load/store instructions for dual&triple channel memory. –  M. Tibbits May 16 '11 at 6:42
    
I'm not sure what you mean by 'un-strided' load/store operations. –  Dietrich Epp May 16 '11 at 6:49
    
Perhaps just an incorrect perception on my part, but I thought triple channel ram was striped through the address space? If I could write to just one of the memory chips (write only in one channel at a slower speed) that would be the equivalent of a strided memcpy? This would of course depend strongly on the granularity of the striping. –  M. Tibbits May 16 '11 at 6:55
    
I'm no longer sure what you mean by 'strided memcpy'. I thought you meant copy from X,X+1,X+2... to Y,Y+N,Y+2*N,... This has little to do with the way RAM is organized. I suggest reading about how modern processors work, especially w.r.t. caching. –  Dietrich Epp May 16 '11 at 7:04
    
Yes, that's exactly what I want: Y, Y+N, Y+2N, ... Your comment on caching made me realize that it's impractical to transfer to the system bus just to transpose -- sorry, a bit tired here. Clearly, the code in the question would stay within the L1 cache on my Core i7. –  M. Tibbits May 16 '11 at 7:16

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