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all, From "NVIDIA CUDA Programming Guide 2.0" Section "Coalescing on Devices with Compute Capability 1.2 and Higher"

"Find the memory segment that contains the address requested by the lowest numbered active thread. Segment size is 32 bytes for 8-bit data, 64 bytes for 16-bit data, 128 bytes for 32-, 64- and 128-bit data."

I have a doubt here: since each half-warp has 16 threads, if all threads access 8-bit data, then the total size for per half-warp should be 16 * 8-bit=128 bits= 16 bytes. While "Guide" says "32 bytes for 8-bit data". It seems half bandwidth is wasted. Am I understanding correctly?

Thanks Deryk

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Yes. Memory access is always in chunks of 32, 64 or 128 bytes, regardless of how much you actually need from that memory line.


Question: How does that explain 64 bytes for 16 bit data ?

The value: 32bytes for 1byte-words, 64bytes for 2byte-words and 128bytes for higher-byte words is the maximum size of the accessed segment. If, for example, each thread is fetching 2-byte word and your access is perfectly aligned, the memory access will be reduced to use only 32-byte line fetch.

Check out the section G.3.2.2 "Devices of Compute Capability 1.2 and 1.3" of "CUDA programming guide (v3.2)".

I see you used CUDA PG v. 2.0 (and probably CUDA 2.0 compiler). There were lots of improvements (in particular: bug fixes) since then.

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How does that explain 64 bytes for 16 bit data ? (16 * 16 / 8 = 32) – Pavan Yalamanchili Mar 18 '11 at 7:44

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