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Does any one have experience in creating/manipulating GPU machine code, possibly at run-time?

I am interested in modifying GPU assembler code, possibly at run time with minimal overhead. Specifically I'm interested in assembler based genetic programming.

I understand ATI has released ISAs for some of their cards, and nvidia recently released a disassembler for CUDA for older cards, but I am not sure if it is possible to modify instructions in memory at runtime or even before hand.

Is this possible? Any related information is welcome.

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Do you have a link for the disassembler recently released by nvidia ? All I find is "decuda" which is an independent work; I thought nvidia never released information about the opcodes actually understood by their hardware. –  Thomas Pornin Jan 13 '11 at 13:27
    
It may be released to registered developers only, although I thought they included it in the latest CUDA release –  zenna Jan 14 '11 at 12:17
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It's called cuobjdump –  zenna Jan 14 '11 at 12:18
    
cuobjdump just lets you extract *.cubin files or linear disassembly from a host binary file. There is no full reference for FERMI as there is for say, x86. Or can you tell me what flags get set when we perform a subtraction? –  avgvstvs May 1 at 4:42

5 Answers 5

In the CUDA driver API, the module management functions allow an application to load at runtime a "module", which is (roughly) a PTX or cubin file. PTX is the intermediate language, while cubin is an already compiled set of instructions. cuModuleLoadData() and cuModuleLoadDataEx() appear to be capable of "loading" the module from a pointer in RAM, which means that no actual file is required.

So your problem seems to be: how to programmatically build a cubin module in RAM ? As far as I know, NVIDIA never released details on the instructions actually understood by their hardware. There is, however, an independent opensource package called decuda which includes "cudasm", a assembler for what the "older" NVIDIA GPU understand ("older" = GeForce 8xxx and 9xxx). I do not know how easy it would be to integrate in a wider application; it is written in Python.

Newer NVIDIA GPU use a distinct instruction set (how much distinct, I do not know), so a cubin for an old GPU ("computing capability 1.x" in NVIDIA/CUDA terminology) may not work on a recent GPU (computing capability 2.x, i.e. "Fermi architecture" such as a GTX 480). Which is why PTX is usually preferred: a given PTX file will be portable across GPU generations.

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I've found gpuocelot open-source (BSD Licence) project interesting.

It's "a dynamic compilation framework for PTX". I would call it cpu translator.

"Ocelot currently allows CUDA programs to be executed on NVIDIA GPUs, AMD GPUs, and x86-CPUs". As far as I know, this framework do control-flow and data-flow analysis on PTX Kernel in order to apply proper transformations.

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OpenCL is done for that purpose. You provide a program as a string and possibly compile it at runtime. See links provided by other poster.

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As far as I know, OpenCL is compiled at installation time first to intermediate language IL (similar to NVidia's PTX) and then properly compiled into machine instructions. It is the machine instructions I am interested in. –  zenna Jan 13 '11 at 11:59

An assembler for the NVIDIA Fermi ISA: http://code.google.com/p/asfermi

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