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I replace

if((nMark >> tempOffset) & 1){nDuplicate++;}
else{nMark = (nMark | (1 << tempOffset));}


nDuplicate += ((nMark >> tempOffset) & 1);
nMark = (nMark | (1 << tempOffset));

this replacement turns out to be 5ms slower on GT 520 graphics card.

Could you tell me why? or do you have any idea to help me improve it?

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Are you sure that the way you are timing these things is precise enough that your 5 ms difference is statistically significant? –  aroth Aug 25 '11 at 2:02
It should be precise. I have run the kernel for a few times. The results have around 5ms difference. The problem here is that bit operation is slower than if-else. I am so confused. Maybe those shift-operation consume more time. Do you have any idea? –  Yik Aug 25 '11 at 2:06
Then I would blame the fact that in the second version, you are always performing the += operation on nDuplicate. In the first version the add and store operations do not always trigger, making it probably just slightly faster. –  aroth Aug 25 '11 at 2:11
Thank you for your comment, aroth. –  Yik Aug 25 '11 at 2:15

4 Answers 4

up vote 0 down vote accepted

The native instruction set for the GPU deals with small conditions very efficiently via predication. Additionally, the ISET instruction converts a condition code register into an integer with the value 0 or 1, which naturally fits with your conditional increment.

My guess is that the key difference between the first and second formulations is that you've effectively hidden the fact that it's an if/else.

To tell for sure, you can use cuobjdump to look at the microcode generated for the two cases: specify --keep to nvcc and use cuobjdump on the .cubin file to see the disassembled microcode.

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Shot in the dark, but you're always incrementing/re-assigning to the nDuplicate variable now in the latter implementation where as you weren't incrementing/assigning to it if the test in the if statement was false previously. Guessing the overhead comes from that, but you don't describe your test data set so I don't know if that was already the case.

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Thank you Drew. I just ran both kernel functions, which contain hundreds of threads, for a few times. And then I found out bit-operations slower than if-else. In SIMT architecture, I thought about removing if-else. But I was proved wrong... –  Yik Aug 25 '11 at 2:30
Ah, well good find. Hopefully this will answer the question for people who attempt the same micro-optimization in the future. ;) –  Drew Marsh Aug 25 '11 at 4:42

Does your program exhibit significant branch divergence? If you're running e.g. 100 warps and only 5 have divergent behavior, and they run in 5 SMs, you would only see 21 time cycles (expecting 20)... a 5% increase that could easily be defeated by doing 2x the work in each thread to avoid rare divergence.

Barring that, the 520 is a fairly modern graphics card, and might incorporate modern SIMT scheduling techniques, e.g. Dynamic Warp Formation and Thread Block Compaction, to hide SIMT stalls. Maybe look into architectural features (specs) or write a simple benchmark to generate n-way branch divergence and measure slowdown?

Barring that, check where your variables live. Does making them shared affect performance/results? Since you always access all variables in the second and the first can avoid accessing nDimension, slow (uncoalesced global?) memory accesses could explain it.

Just some things to think about.

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For low-level optimization, it is often helpful to look at the low-level assembly (SASS) of the kernel directly. You can do this with the cuobjdump tool distributed as part of the CUDA Toolkit. Basic usage is to compile with -keep in nvcc then do:

cuobjdump -sass mykernel.cubin

Then you can see the exact sequence of instructions and compare them. I'm not sure why version 1 would be faster than version 2 of the code, but the SASS listings might give you a clue.

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