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I would like to determine the maximum int value in a CUDA kernel. Unfortunately I can't find anything similar to std::numeric_limits for CUDA. Trying to use the ::std function results in a error:

error : calling a __host__ function("std::numeric_limits<int> ::max") from a __global__ function("xyz_kernel") is not allowed C:\cuda.cu(153) (col. 10)

Is there a way to determine the desired value from withing a kernel, or should I just pass it as a parameter?

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It exists but it is not as generic as std::numeric_limits. See this page for the list.

For example, you can have NPP_MAX_32U but this is specific to 32-bit unsigned rather than to the int type, whose width is system-dependent.

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  • Okay thanks. Even though it won't work as expected (system-dependent behavior is intentional), it answers my question.
    – wondering
    Jun 30 '14 at 20:26
  • 1
    NPP is just a (particular, primarily image-processing focused) library within the CUDA ecosystem. Technically these values are specific to NPP. There's nothing wrong with using these header-defined quantities in arbitrary code as long as you include the npp header file and understand what the values mean. Jun 30 '14 at 20:38
  • @RobertCrovella, Very good point. I should have checked more carefully.
    – merlin2011
    Jun 30 '14 at 20:39
  • @RobertCrovella: Would like your input on my answer, if you can spare the time.
    – einpoklum
    Oct 21 '17 at 11:00
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I've written something like that:

CUDA-compatible version of <limits> (named limits.cuh)

Essentially this means adding __host__ __device__ to a bunch of functions, and putting all of the structures within a namespace other than std.

Notes:

  1. Licensing. It's based on <limits> from libstdc++, so GPL with the standard library exception.
  2. This has undergone some, but not extensive, testing, with device-side code (only).
  3. There may be some macro clashes with the actual <limits> (I'm not sure).
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  • Instead of adding __host__ __device__ to every constexpr function, you can just pass --expt-relaxed-constexpr to nvcc. See docs.nvidia.com/cuda/cuda-compiler-driver-nvcc/… Jan 29 '18 at 9:36
  • @JakubKlinkovský: That is, indeed, possible, but it means forcing you to always build that way. Perhaps that's not a bad idea though.
    – einpoklum
    Jan 29 '18 at 10:11

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