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I am implementing an application using CUDA with a compute capability 1.3 GPU that involves scanning a two-dimensional array for the locations where a smaller two-dimensional array occurs. Up until now, both arrays were allocated using cudaMallocPitch() and transferred using cudaMemcpy2D() to meet the memory alignment requirements for coalescing.

During the first optimization steps, I am trying to coalescence the memory accesses to global memory by collectively reading data to the shared memory. As a test in the unoptimized code (where for example there is divergent branching and the memory accesses to the global memory are not coalesced ) I allocated the bigger array using cudaMalloc() and found that the performance improved by a factor of up to 50%. How is this possible?

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No, nothing like that. By unoptimized, as stated in the text, i refer to GPU specific optimizations; for example memory access patterns and thread divergence –  charis Feb 5 '13 at 23:59
Missed the word "the" before "unoptimized", my bad. –  GManNickG Feb 6 '13 at 0:01

1 Answer 1

cudaMallocPitch() ensure that the starting address of each row in the 2-D array (row-major) is a multiple of 2^N (N is 7~10 depending on the compute capability).

Whether the accesss is more efficient depends on not only the data alignment but also your compute capability, global mem access manner and sometimes the cache configuration.

This blog explains the great bandwidth reduction of mis-aligned data access on early compute capability, which could be an A to your Q.

Since the performance depends on many factors, you may have to post your device module type and the kernel code as well to allow further investigation.

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The article mentions the following: "For (...) devices with compute capability of 1.2 or 1.3, misaligned accesses are less problematic. Basically, the misaligned accesses of contiguous data by a half warp of threads are serviced in a few transactions that “cover” the requested data. There is still a performance penalty relative to the aligned case due both to unrequested data being transferred and to some overlap of data requested by different half-warps (...)" This refers to 1D arrays and it is according to the expected results, but in my results i have a completely different picture –  charis Feb 6 '13 at 15:55
@charis What is the size of your 2 arrays? If the cudaMalloc() approach is quicker. The reason could be the higher cache miss rate of the cudaMallocPitch() approach. Since the rows of the array are seperated by the padding space allocated by cudaMallocPitch() –  Eric Feb 7 '13 at 15:17
Are you sure about the starting address of each row being a multiple of 2^7-2^10? I believe that a memory transaction of 32, 64 or 128 bytes is aligned when the first address of every 32, 64 or 128 bytes memory segment respectively is a multiple of its size, at least for compute capability 1.3 devices –  charis May 22 '13 at 12:55

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