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My different kernels will be using some constant data. In order to optimize my code, I was considering using texture memory instead of constant memory, since each thread will be loading a different piece of data (the same for every block though).

For each thread, my data involves either a float (M), a size-3 vector of floats (K), or a 3-by-3 matrix of floats (J).

I have at least two choices:

  • storing M in a 1D array, K in a 2D array and J in a 3D array.
  • storing M, K and J in linear memory with some mapping.

Since the number of threads is very low (N = 32), which solution would be the best? Is it equivalent, or is tex1Dfetch faster than tex2D and tex3D? I do not need the features brought by CUDA arrays (hardware interpolation and so on), and memory limits are obviously not a problem.

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Are your access patterns random? Which compute capability will you use? –  pQB Dec 13 '12 at 17:36
No, basically thread i will access M[i], K[0..2][i] etc. I am using CC 3.0. –  BenC Dec 13 '12 at 17:37

1 Answer 1

Your access pattern for M is perfectly coalesced, so the global memory with the help of the cache hierarchy of compute capability devices > 2.x will give the best performance for that array.

You have the same access pattern in K and J, so, the accesses are also coalesced. So, there is no reason for not use the global memory and get the best performance

As you commented that memory limits are obviously not a problem I understand that the size of the arrays will be small, so you would expect a good behaviour of the cache hierarchy.

If you want to go one step forward, you could copy the K array to 1D texture memory and compare the performance of both approach.

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Wouldn't K[i][0..2] be AoS instead? Memory would look like this: K0x K0y K0z | K1x K1y K1z | K2x..., so when loading the x coordinate of the vectors, memory access would be uncoalesced. –  BenC Dec 13 '12 at 18:36
Another way to see this: if I use tex1Dfetch to get the x-th coordinate of K for a thread whose id is tid (with K[0..2][tid]), it would look like tex1Dfetch(TEXTURE_REF_K, tid + x*NTHREADS). Your way would be tex1Dfetch(TEXTURE_REF_K, tid*3 + x), wouldn't it? –  BenC Dec 13 '12 at 18:55
Ups, you are right. I was mistaken. I should read the question more than twice. –  pQB Dec 13 '12 at 20:29
I updated the answer –  pQB Dec 17 '12 at 22:38

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