//===----------------------------------------------------------------------===// // // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions. // See https://llvm.org/LICENSE.txt for license information. // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception // //===----------------------------------------------------------------------===// /// /// \file /// This file contains the implementation of the device kernels that wrap the /// math functions from the cuda-math provider. /// //===----------------------------------------------------------------------===// #ifdef CUDA_MATH_FOUND #include "Conformance/device_code/DeviceAPIs.hpp" #include "Conformance/device_code/KernelRunner.hpp" #include #include using namespace kernels; //===----------------------------------------------------------------------===// // Helpers //===----------------------------------------------------------------------===// static inline float powfRoundedExponent(float Base, float Exponent) { return __nv_powf(Base, __nv_roundf(Exponent)); } static inline double sincosSin(double X) { double SinX, CosX; __nv_sincos(X, &SinX, &CosX); return SinX; } static inline double sincosCos(double X) { double SinX, CosX; __nv_sincos(X, &SinX, &CosX); return CosX; } static inline float sincosfSin(float X) { float SinX, CosX; __nv_sincosf(X, &SinX, &CosX); return SinX; } static inline float sincosfCos(float X) { float SinX, CosX; __nv_sincosf(X, &SinX, &CosX); return CosX; } //===----------------------------------------------------------------------===// // Kernels //===----------------------------------------------------------------------===// extern "C" { __gpu_kernel void acosKernel(const double *X, double *Out, size_t NumElements) noexcept { runKernelBody<__nv_acos>(NumElements, Out, X); } __gpu_kernel void acosfKernel(const float *X, float *Out, size_t NumElements) noexcept { runKernelBody<__nv_acosf>(NumElements, Out, X); } __gpu_kernel void acoshfKernel(const float *X, float *Out, size_t NumElements) noexcept { runKernelBody<__nv_acoshf>(NumElements, Out, X); } __gpu_kernel void asinKernel(const double *X, double *Out, size_t NumElements) noexcept { runKernelBody<__nv_asin>(NumElements, Out, X); } __gpu_kernel void asinfKernel(const float *X, float *Out, size_t NumElements) noexcept { runKernelBody<__nv_asinf>(NumElements, Out, X); } __gpu_kernel void asinhfKernel(const float *X, float *Out, size_t NumElements) noexcept { runKernelBody<__nv_asinhf>(NumElements, Out, X); } __gpu_kernel void atanfKernel(const float *X, float *Out, size_t NumElements) noexcept { runKernelBody<__nv_atanf>(NumElements, Out, X); } __gpu_kernel void atan2fKernel(const float *X, const float *Y, float *Out, size_t NumElements) noexcept { runKernelBody<__nv_atan2f>(NumElements, Out, X, Y); } __gpu_kernel void atanhfKernel(const float *X, float *Out, size_t NumElements) noexcept { runKernelBody<__nv_atanhf>(NumElements, Out, X); } __gpu_kernel void cbrtKernel(const double *X, double *Out, size_t NumElements) noexcept { runKernelBody<__nv_cbrt>(NumElements, Out, X); } __gpu_kernel void cbrtfKernel(const float *X, float *Out, size_t NumElements) noexcept { runKernelBody<__nv_cbrtf>(NumElements, Out, X); } __gpu_kernel void cosKernel(const double *X, double *Out, size_t NumElements) noexcept { runKernelBody<__nv_cos>(NumElements, Out, X); } __gpu_kernel void cosfKernel(const float *X, float *Out, size_t NumElements) noexcept { runKernelBody<__nv_cosf>(NumElements, Out, X); } __gpu_kernel void coshfKernel(const float *X, float *Out, size_t NumElements) noexcept { runKernelBody<__nv_coshf>(NumElements, Out, X); } __gpu_kernel void cospifKernel(const float *X, float *Out, size_t NumElements) noexcept { runKernelBody<__nv_cospif>(NumElements, Out, X); } __gpu_kernel void erffKernel(const float *X, float *Out, size_t NumElements) noexcept { runKernelBody<__nv_erff>(NumElements, Out, X); } __gpu_kernel void expKernel(const double *X, double *Out, size_t NumElements) noexcept { runKernelBody<__nv_exp>(NumElements, Out, X); } __gpu_kernel void expfKernel(const float *X, float *Out, size_t NumElements) noexcept { runKernelBody<__nv_expf>(NumElements, Out, X); } __gpu_kernel void exp10Kernel(const double *X, double *Out, size_t NumElements) noexcept { runKernelBody<__nv_exp10>(NumElements, Out, X); } __gpu_kernel void exp10fKernel(const float *X, float *Out, size_t NumElements) noexcept { runKernelBody<__nv_exp10f>(NumElements, Out, X); } __gpu_kernel void exp2Kernel(const double *X, double *Out, size_t NumElements) noexcept { runKernelBody<__nv_exp2>(NumElements, Out, X); } __gpu_kernel void exp2fKernel(const float *X, float *Out, size_t NumElements) noexcept { runKernelBody<__nv_exp2f>(NumElements, Out, X); } __gpu_kernel void expm1Kernel(const double *X, double *Out, size_t NumElements) noexcept { runKernelBody<__nv_expm1>(NumElements, Out, X); } __gpu_kernel void expm1fKernel(const float *X, float *Out, size_t NumElements) noexcept { runKernelBody<__nv_expm1f>(NumElements, Out, X); } __gpu_kernel void hypotKernel(const double *X, const double *Y, double *Out, size_t NumElements) noexcept { runKernelBody<__nv_hypot>(NumElements, Out, X, Y); } __gpu_kernel void hypotfKernel(const float *X, const float *Y, float *Out, size_t NumElements) noexcept { runKernelBody<__nv_hypotf>(NumElements, Out, X, Y); } __gpu_kernel void logKernel(const double *X, double *Out, size_t NumElements) noexcept { runKernelBody<__nv_log>(NumElements, Out, X); } __gpu_kernel void logfKernel(const float *X, float *Out, size_t NumElements) noexcept { runKernelBody<__nv_logf>(NumElements, Out, X); } __gpu_kernel void log10Kernel(const double *X, double *Out, size_t NumElements) noexcept { runKernelBody<__nv_log10>(NumElements, Out, X); } __gpu_kernel void log10fKernel(const float *X, float *Out, size_t NumElements) noexcept { runKernelBody<__nv_log10f>(NumElements, Out, X); } __gpu_kernel void log1pKernel(const double *X, double *Out, size_t NumElements) noexcept { runKernelBody<__nv_log1p>(NumElements, Out, X); } __gpu_kernel void log1pfKernel(const float *X, float *Out, size_t NumElements) noexcept { runKernelBody<__nv_log1pf>(NumElements, Out, X); } __gpu_kernel void log2Kernel(const double *X, double *Out, size_t NumElements) noexcept { runKernelBody<__nv_log2>(NumElements, Out, X); } __gpu_kernel void log2fKernel(const float *X, float *Out, size_t NumElements) noexcept { runKernelBody<__nv_log2f>(NumElements, Out, X); } __gpu_kernel void powfKernel(const float *X, float *Y, float *Out, size_t NumElements) noexcept { runKernelBody<__nv_powf>(NumElements, Out, X, Y); } __gpu_kernel void powfRoundedExponentKernel(const float *X, float *Y, float *Out, size_t NumElements) noexcept { runKernelBody(NumElements, Out, X, Y); } __gpu_kernel void sinKernel(const double *X, double *Out, size_t NumElements) noexcept { runKernelBody<__nv_sin>(NumElements, Out, X); } __gpu_kernel void sinfKernel(const float *X, float *Out, size_t NumElements) noexcept { runKernelBody<__nv_sinf>(NumElements, Out, X); } __gpu_kernel void sincosSinKernel(const double *X, double *Out, size_t NumElements) noexcept { runKernelBody(NumElements, Out, X); } __gpu_kernel void sincosCosKernel(const double *X, double *Out, size_t NumElements) noexcept { runKernelBody(NumElements, Out, X); } __gpu_kernel void sincosfSinKernel(const float *X, float *Out, size_t NumElements) noexcept { runKernelBody(NumElements, Out, X); } __gpu_kernel void sincosfCosKernel(const float *X, float *Out, size_t NumElements) noexcept { runKernelBody(NumElements, Out, X); } __gpu_kernel void sinhfKernel(const float *X, float *Out, size_t NumElements) noexcept { runKernelBody<__nv_sinhf>(NumElements, Out, X); } __gpu_kernel void sinpifKernel(const float *X, float *Out, size_t NumElements) noexcept { runKernelBody<__nv_sinpif>(NumElements, Out, X); } __gpu_kernel void tanKernel(const double *X, double *Out, size_t NumElements) noexcept { runKernelBody<__nv_tan>(NumElements, Out, X); } __gpu_kernel void tanfKernel(const float *X, float *Out, size_t NumElements) noexcept { runKernelBody<__nv_tanf>(NumElements, Out, X); } __gpu_kernel void tanhfKernel(const float *X, float *Out, size_t NumElements) noexcept { runKernelBody<__nv_tanhf>(NumElements, Out, X); } } // extern "C" #endif // CUDA_MATH_FOUND