为什么在NVRTC中没有对整数除法和取模进行优化 [英] Why integer division and modulo isn't optimized out in NVRTC

问题描述

我在NVRTC中编译了一个内核:

I compiled a kernel in NVRTC:

__global__ void kernel_A(/* args */) {
    unsigned short idx = threadIdx.x;
    unsigned char warp_id = idx / 32;
    unsigned char lane_id = idx % 32;
    /* ... */
}

我知道在CUDA GPU上整数除法和取模非常昂贵.但是，我认为应该将这种除以2的除法方法进行优化，以进行位运算，直到发现不是这样为止:

I know integer division and modulo are very costly on CUDA GPUs. However I thought this kind of division-by-power-of-2 should be optimized into bit operations, until I found it isn't:

__global__ void kernel_B(/* args */) {
    unsigned short idx = threadIdx.x;
    unsigned char warp_id = idx >> 5;
    unsigned char lane_id = idx & 31;
    /* ... */
}

似乎kernel_B运行得更快.当省略内核中的所有其他代码时，以1024个大小为1024的块启动，nvprof显示kernel_A平均运行 15.2us ，而kernel_B运行 7.4us 平均而言.我推测NVRTC并没有优化整数除法和取模.

it seems kernel_B just runs faster. When omitting all other codes in kernel, launching with 1024 blocks of size 1024, nvprof shows kernel_A runs for 15.2us in average, while kernel_B runs 7.4us in average. I speculate NVRTC did not optimize out the integer division and modulo.

在GeForce 750 Ti，CUDA 8.0上获得的结果平均为100次调用.赋予nvrtcCompileProgram()的编译器选项是-arch compute_50.

The result is obtained on a GeForce 750 Ti, CUDA 8.0, averaged from 100 calls. The compiler options given to nvrtcCompileProgram() is -arch compute_50.

这是预期的吗?

推荐答案

在代码库中进行了彻底的错误检查.原来我的应用是在DEBUG模式下构建的.这会导致将其他标志-G和-lineinfo传递给nvrtcCompileProgram()

Did a thorough bugsweep in the codebase. Turns out my app was built in DEBUG mode. This causes additional flags -G and -lineinfo passed to nvrtcCompileProgram()

在nvcc手册页中:

--device-debug (-G)

生成设备代码的调试信息.关闭所有优化. 请勿用于剖析；改用-lineinfo.

Generate debug information for device code. Turns off all optimizations. Don't use for profiling; use -lineinfo instead.

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