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I'm attempting to optimize an OpenCL matrix multiplication program for an NVIDIA GeForce 9800 GT graphics card. I'm multiplying two 512x512 matrices, but I'm not sure what global and local work group sizes I should use. Can anyone point me in the right direction?

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Global size should ideally be as high as possible insofar as you do not need to interrupt the computation to add or modify inputs, if this is so then there are no diminishing returns to use as large a global size as you need. Though in practice, if you are using a GPU, most of them don't support task concurrency yet, so a GPU running your kernels will do only that. So if you were using it as a main graphics card, your screen will freeze. As for local work size, it depends on the kernel and the device, you can get OpenCL to try and optimize it (look up clGetKernelWorkGroupInfo) –  Thomas Apr 10 '13 at 0:43
Keep in mind that Nvidia GPUs group threads into groups of 32 threads (a warp), hence for coalesced memory access, you would want to have one dimension of the local work group size be a multiple of 32. –  chippies Apr 10 '13 at 12:02

2 Answers 2

As 512 is a power of two, you can try the following sizes:

size_t global_work_size[2] = {512, 512};
size_t  local_work_size[2] = {2^p, 2^n};

where :

  • (2^m + 2^n) % 32 = 0: 32 must be a divider of your number of threads, as a wrap will contain 32 threads

  • The power of two is need as the local work size must be a divider of the global work size.

  • With a size of 512, it will certainly not be a problem, but you have to take into account the CL_DEVICE_MAX_WORK_GROUP_SIZE (given by clGetDeviceInfo()) parameter. For bigger matrices, you will have to use more than 2 dimensions.

  • The number of dimensions is itself limited by CL_DEVICE_MAX_WORK_ITEM_DIMENSIONS...

Indeed the best choice is algorithm dependent, and depends on the kind of matrix multiplication you intend to perform.

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If you need peak performance, benchmark it with various local work group sizes and then use the best one. You might be surprised to find that the fastest one isn't always the one that matches the guidance given by the providers of the implementations!

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