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I want to use assembly code in CUDA C code in order to reduce expensive executions as we do using asm in c programming. I've googled for that but nothing has been found.

Is it possible?

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2 Answers 2

up vote 4 down vote accepted

No, you can't, there is nothing like the asm constructs from C/C++. What you can do is tweak the generated PTX assembly and then use it with CUDA.

See this for an example.

But for GPUs, assembly optimizations are NOT necessary, you should do other optimizations first, such as memory coalescency and occupancy. See the CUDA Best Practices guide for more information.

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Second that! In my experience, CUDA programs are almost always memory bound, not compute bound. –  mch Sep 9 '10 at 14:16
thanks above both. I just wanted to reduce the number of division and modulo operations, but now I will focus on the memory issue. –  superscalar Sep 10 '10 at 2:02
Note, if you're compiling against the newest architecture (using the flag -arch sm_20), the newest API is now fully?? compliant with IEEE floating point specifications for division and square root. If you've got a bunch of divisions and you're also using -arch sm_20, then you might consider switching back to the "less" compliant version for a performance gain using the flag: -prec-div=false forums.nvidia.com/lofiversion/index.php?t170749.html –  M. Tibbits Sep 23 '10 at 20:11
Suggest unaccepting this answer and accepting njuffa's, since time has made this answer less useful thanks to new features. –  harrism Sep 26 '12 at 0:37

Since CUDA 4.0, inline PTX is supported by the CUDA toolchain. There is a document in the toolkit that describes it: Using_Inline_PTX_Assembly_In_CUDA.pdf

Below is some code demonstrating use of inline PTX in CUDA 4.0. Note that this code should not be used as a replacement for CUDA's built-in __clz() function, I merely wrote it to explore aspects of the new inline PTX capability.

__device__ __forceinline__ int my_clz (unsigned int x)
    int res;

    asm ("{\n"
         "        .reg .pred iszero, gezero;\n"
         "        .reg .u32 t1, t2;\n"
         "        mov.b32         t1, %1;\n"
         "        shr.u32         %0, t1, 16;\n"
         "        setp.eq.b32     iszero, %0, 0;\n"
         "        mov.b32         %0, 0;\n"
         "@iszero shl.b32         t1, t1, 16;\n"
         "@iszero or.b32          %0, %0, 16;\n"
         "        and.b32         t2, t1, 0xff000000;\n"
         "        setp.eq.b32     iszero, t2, 0;\n"
         "@iszero shl.b32         t1, t1, 8;\n"
         "@iszero or.b32          %0, %0, 8;\n"
         "        and.b32         t2, t1, 0xf0000000;\n"
         "        setp.eq.b32     iszero, t2, 0;\n"
         "@iszero shl.b32         t1, t1, 4;\n"
         "@iszero or.b32          %0, %0, 4;\n"
         "        and.b32         t2, t1, 0xc0000000;\n"
         "        setp.eq.b32     iszero, t2, 0;\n"
         "@iszero shl.b32         t1, t1, 2;\n"
         "@iszero or.b32          %0, %0, 2;\n"
         "        setp.ge.s32     gezero, t1, 0;\n"
         "        setp.eq.b32     iszero, t1, 0;\n"
         "@gezero or.b32          %0, %0, 1;\n"
         "@iszero add.u32         %0, %0, 1;\n\t"
         : "=r"(res)
         : "r"(x));
    return res;
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