The following code compiles (with nvcc test.cu -o test) and runs without error, meaning that std::sin() does work on the device:

#include <cmath>
#include <vector>
#include <cassert>
#include <numeric>

__global__ void map_sin(double* in, double* out, int n) {
  const int i = blockIdx.x * 512 + threadIdx.x;
  if (i < n) {
    out[i] = std::sin(in[i]);

int main() {
  const int n = 1024;
  std::vector<double> in(n), out(n);
  std::iota(in.begin(), in.end(), 1.);

  double *in_, *out_;
  cudaMalloc(reinterpret_cast<void**>(&in_), n * sizeof(double));
  cudaMemcpy(in_, in.data(), n * sizeof(double), cudaMemcpyHostToDevice);
  cudaMalloc(reinterpret_cast<void**>(&out_), n * sizeof(double));

  map_sin<<<n / 512, 512>>>(in_, out_, n);

  cudaMemcpy(out.data(), out_, n * sizeof(double), cudaMemcpyDeviceToHost);

  for (int i = 0; i != 10; ++i) {
    assert(std::abs(out[i] - std::sin(in[i])) < 1e-3);

Why? How? According to this answer, CUDA kernels are supposed to be able to call only __device__ functions. Is std::sin() somehow marked __device__ when compiling with nvcc?

  • 2
    Which CUDA version did you use? I can confirm that this code builds and runs just fine with CUDA 9.2. The proximate cause is that std::sin is translated into plain sin in the source code sent to the device-code compiler (by inspection of the intermediate file retained with --keep). Whether that is a documented feature or just "happens to work" in recent CUDA versions I do not know at this time.
    – njuffa
    Jun 20, 2021 at 21:54
  • I'm using CUDA 10.2, and talonmies' answer mentions 11.1, so this behavior is here on three major versions of CUDA.
    – jacquev6
    Jun 21, 2021 at 6:31
  • The programming guide states: "The reference manual lists, along with their description, all the functions of the C/C++ standard library mathematical functions that are supported in device code". (emphasis added) So that seems fairly explicit. The restriction on standard library usage in device code allows for such exceptions. Jun 21, 2021 at 15:34

1 Answer 1


Is std::sin() somehow marked __device__ when compiling with nvcc?

No. It is apparently replaced with sin by the CUDA front end parser in the code which is passed to the GPU compiler, and then the normal overload mechanism is used to ensure the correct GPU math library function is substituted. The code which the GPU compiler sees is (nvcc version 11.1.74):

__global__ __var_used__ void _Z7map_sinPdS_i( double *in, double *out, int n)
        int __cuda_local_var_31644_13_non_const_i;
        __cuda_local_var_31644_13_non_const_i = ((int)(((blockIdx.x) * 512U) + (threadIdx.x)));
        if (__cuda_local_var_31644_13_non_const_i < n)
        (out[__cuda_local_var_31644_13_non_const_i]) = (sin((in[__cuda_local_var_31644_13_non_const_i])));

As you can see, there are no namespaces.

Why? How?

It isn't documented and I have no special insider information on implementation details, but I am guessing that for the contents of <cmath> (where the CUDA math library has an implementation of everything defined in the C++11 standard), the namespace is just stripped off and everything works. For other C++ standard library functions, that can't happen and you will get a compile failure of the sort you expect.

  • Thanks! Accepting this answer because it shows the "How". If another answer manages to point at some official documentation of this behavior, or comes from someone with (justified) "insider information", I may change the accepted answer.
    – jacquev6
    Jun 21, 2021 at 6:34
  • 1
    @RobertCrovella: Perhaps I didn't make it clear, but the magic bit is the handling/stripping of the std namespace. Obviously the C standard math library requires nothing special where there are overloads available through templating But the namespace stripping/transformation is the undocumented bit AFAIK
    – talonmies
    Jun 21, 2021 at 15:23
  • sorry, I put my comment in the wrong place. I had intended my comment to be mostly orthogonal to your answer, which does not really have documentation in view. I agree the implementation is not documented. Jun 21, 2021 at 15:34

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