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I was wondering how to get ptxas info for the device linker stage when using separate compilation introduced in cuda 5.0? Adding -Xptxas=-v to the nvcc -dlink call doesn't print any info:

/usr/local/cuda/bin/nvcc -Xptxas=-v -m64 -ccbin "/usr/bin/cc" -arch=sm_20 -dlink ...

Any idea how to achieve that? Thanks in advance!

EDIT:

the requested set of commands:

/usr/local/cuda/bin/nvcc first.cu -dc -o first.cu.o -ccbin /usr/bin/cc -m64 -Xcompiler ,\"-O3\",\"-DNDEBUG\" -arch=sm_20 -Xptxas=-v -DNDEBUG -DNVCC -I/usr/local/cuda/include ... other includes

/usr/local/cuda/bin/nvcc second.cu -dc -o second.cu.o -ccbin /usr/bin/cc -m64 -Xcompiler ,\"-O3\",\"-DNDEBUG\" -arch=sm_20 -Xptxas=-v -DNDEBUG -DNVCC -I/usr/local/cuda/include ... other includes

/usr/local/cuda/bin/nvcc -m64 -ccbin "/usr/bin/cc" -arch=sm_20 -dlink first.cu.o second.cu.o -o intermediate_link.o

/usr/bin/ar cr libgpuacceleration.a  first.cu.o second.cu.o intermediate_link.o

Unfortunately my project contains a lot of files and since I use cmake for building the path are made absolute and the output is too verbose post here. I just removed the -I includes and most of the .o-files.

My Question is how to get the ptxas info for the linker stage. There must be some difference because the compiled entry function gives 40 registers and the profiler shows 63 registers.

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1  
-dlink refers to the device level linker. ptxas is the device code assembler (part of the device compiler, basically). running the assembler (part of the device compile step) precedes linking. So depending on exactly how your compile and link commands are set up, the assembler may not be running when you invoke the linker. Notice where the device link step appears in the diagram here. Please post a more complete set of compile and link commands that you are using to sort this out. –  Robert Crovella Mar 21 '13 at 3:43
    
@RobertCrovella I edited my question and added the requested set of compilation commands. –  soriak Mar 21 '13 at 6:46
    
In your case there is no ptxas info on the line where you have -dlink because ptxas is not running at that point. It seems that the question you are really interested in is why does the ptxas info (for a particular module/kernel, I suppose) indicate 40 registers while the profiler indicates 63. Which GPU are you running the profiler on? –  Robert Crovella Mar 21 '13 at 19:10
    
@RobertCrovella I'm running it on a gtx470 and gtx 560 Ti with the same behaviour. So I have tested it for compute capability 2.1, does this have any influence? –  soriak Mar 21 '13 at 22:00
    
Yes. Compiling for cc 2.0 (sm_20) and running on cc 2.1 means your ptx can go through a JIT compile step. If you are running on cc 2.1 try compiling for sm_21 instead. Then see if you have variance between ptxas and profiler data. –  Robert Crovella Mar 22 '13 at 1:05

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