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I'm trying to measure peak single-precision flops on my GPU, for that I'm modifying a PTX file to perform successive MAD instructions on registers. Unfortunately the compiler is removing all the code because it actually does nothing usefull since I do not perform any load/store of the data. Is there a compiler flag or pragma to add to the code so the compiler does not touch it?


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Would inline PTX possibly work? I would think that the compiler would have to include your code in that case, although I've never tried this myself. – sj755 Aug 6 '12 at 5:59
@sj755: The assembler is probably the cause of the problem here and inline PTX doesn't help in that case. – talonmies Aug 6 '12 at 6:26
up vote 2 down vote accepted

I don't think there is any way to turn off such optimization in the compiler. You can work around this by adding code to store your values and wrapping that code in a conditional statement that is always false. To make a conditional that the compiler can't determine to always be false, use at least one variable (not just constants).

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This is the canonical way to do it. If the dummy flag that protects the write is put into constant memory, you get constant cache + broadcast which has very little impact on overall performance as long as there are enough FLOPs/IOPs in the compute phase of the kernel. – talonmies Aug 6 '12 at 6:28

To completely disable optimizations with nvcc, you can use the following:

nvcc -O0 -Xopencc -O0 -Xptxas -O0  // sm_1x targets using Open64 frontend
nvcc -O0 -Xcicc -O0 -Xptxas -O0 // sm_2x and sm_3x targets using NVVM frontend

Note that the resulting code may be extremely slow. The -O0 flag is passed to the host compiler to disable host code optimization. The -Xopencc -O0 and -Xcicc -O0 flags control the compiler frontend (the part that produces PTX) and turn off optimizations there. The -Xptxas -O0 flag controls the compiler backend (the part that converts PTX to machine code) and turns off optimizations in that part. Note that -Xopencc, -Xcicc, and -Xptxas flags are component-level flags, and unless documented in the nvcc manual, should be considered unsupported.

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It does make the code slower on my GPU too, but that shows that the flags work. Even the generated PTX has unoptimized code. Works wonders, thank you! – kv.333 May 29 at 12:10

As far as I know, there is no compiler flag or pragma for that. but you can compute more and store less

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(I am still in CUDA 4.0, it may have changed with the new version)

To disable optimizations of ptxas (the tool that converts ptx into cubin) you need to pass an option --opt-level 0 (default is --opt-level 3). If you want to pass this option through nvcc you will need to prefix it with --ptxas-options.

Do note however, that ptxas does a lot of useful optimizations that --- when disabled --- may render your code even slower if not incorrect at all! For example, it does register allocation and tries to predict where is shared and where is global memory.

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These worked for me:

-g -G -Xcompiler -O0 -Xptxas -O0 -lineinfo -O0

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These are the flags for which command? Also please exaplain what they do and why they solve the OP's problem... – Marki555 Jun 28 '15 at 20:43

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