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When we use CUDA profiler nvvp, there are several "overhead"s correlated with instructions, for example:

  • Branch Divergence Overhead;
  • Shared/Global Memory Replay Overhead; and
  • Local/Global Cache Replay Overhead.

My Questions are:

  1. What cause(s) these overheads?And
  2. how are they computed?
  3. Similarly, how are Global Load/Store Efficiency computed?

Attachment: I've found all the formulas computing these overheads in the 'CUDA Profiler Users Guide' packed in CUDA5 toolkit.

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1 Answer 1

You can find some of the answers to your question here:

Why does CUDA Profiler indicate replayed instructions: 82% != global replay + local replay + shared replay?

Replayed Instructions (%) This gives the percentage of instructions replayed during kernel execution. Replayed instructions are the difference between the numbers of instructions that are actually issued by the hardware to the number of instructions that are to be executed by the kernel. Ideally this should be zero. This is calculated as 100 * (instructions issued - instruction executed) / instruction issued

Global memory replay (%) Percentage of replayed instructions caused due to global memory accesses. This is calculated as 100 * (l1 global load miss) / instructions issued

Local memory replay (%) Percentage of replayed instructions caused due to local memory accesses. This is calculated as 100 * (l1 local load miss + l1 local store miss) / instructions issued

Shared bank conflict replay (%) Percentage of replayed instructions caused due to shared memory bank conflicts. This is calculated as 100 * (l1 shared conflict)/ instructions issued

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Thanks for your answers, BenC, I've figured out the "Replayed Instructions" and "Shared bank conflict replay" percentages. However, given the formulae for "Global/Local memory" replays, I still can't grasp why the global/local cache misses would cause instruction replays. When cache misses happen, it just needs to go to global memory to fetch what are needed, WHY REPLAY? –  troore Dec 12 '12 at 12:43
I think you can find some answers to your question in these slides. Memory operations are issued per warp, just like every other instruction. When a warp requests the next words, a poor memory coalescing will lead to multiple l1 load misses, thus causing instruction replays. Note that I am no CUDA expert so my understanding may not be correct :-) –  BenC Dec 12 '12 at 14:54
This other link may be what you were looking for, but the technical details require some real motivation. –  BenC Dec 12 '12 at 15:09
Thank you for these useful materials! –  troore Dec 13 '12 at 12:35
You're welcome! :-) –  BenC Dec 13 '12 at 13:46

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