cuda-samples/Samples/5_Domain_Specific/quasirandomGenerator_nvrtc/quasirandomGenerator.cpp

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// CUDA Runtime
#include <cuda_runtime.h>
#include <cuda.h>

// Utilities and system includes
#include <helper_functions.h>

#include "quasirandomGenerator_gpu.cuh"

#include "quasirandomGenerator_common.h"

////////////////////////////////////////////////////////////////////////////////
// CPU code
////////////////////////////////////////////////////////////////////////////////

extern "C" void initQuasirandomGenerator(
    unsigned int table[QRNG_DIMENSIONS][QRNG_RESOLUTION]);

extern "C" float getQuasirandomValue(
    unsigned int table[QRNG_DIMENSIONS][QRNG_RESOLUTION], int i, int dim);

extern "C" double getQuasirandomValue63(INT64 i, int dim);
extern "C" double MoroInvCNDcpu(unsigned int p);

const int N = 1048576;

int main(int argc, char **argv) {
  // Start logs
  printf("%s Starting...\n\n", argv[0]);

  // Compile the kernels
  char *kernel_file =
      sdkFindFilePath("quasirandomGenerator_kernel.cu", argv[0]);
  compileFileToCUBIN(kernel_file, argc, argv, &cubin, &cubinSize, 0);
  module = loadCUBIN(cubin, argc, argv);

  unsigned int tableCPU[QRNG_DIMENSIONS][QRNG_RESOLUTION];
  float *h_OutputGPU;
  CUdeviceptr d_Output;

  int dim, pos;
  double delta, ref, sumDelta, sumRef, L1norm, gpuTime;

  StopWatchInterface *hTimer = NULL;

  if (sizeof(INT64) != 8) {
    printf("sizeof(INT64) != 8\n");
    return 0;
  }

  sdkCreateTimer(&hTimer);

  printf("Allocating GPU memory...\n");
  checkCudaErrors(cuMemAlloc(&d_Output, QRNG_DIMENSIONS * N * sizeof(float)));

  printf("Allocating CPU memory...\n");
  h_OutputGPU = (float *)malloc(QRNG_DIMENSIONS * N * sizeof(float));

  printf("Initializing QRNG tables...\n\n");
  initQuasirandomGenerator(tableCPU);

  initTableGPU(tableCPU);

  printf("Testing QRNG...\n\n");

  checkCudaErrors(cuMemsetD8(d_Output, 0, QRNG_DIMENSIONS * N * sizeof(float)));

  int numIterations = 20;

  for (int i = -1; i < numIterations; i++) {
    if (i == 0) {
      sdkResetTimer(&hTimer);
      sdkStartTimer(&hTimer);
    }

    quasirandomGeneratorGPU(d_Output, 0, N);
  }

  sdkStopTimer(&hTimer);
  gpuTime = sdkGetTimerValue(&hTimer) / (double)numIterations * 1e-3;
  printf(
      "quasirandomGenerator, Throughput = %.4f GNumbers/s, Time = %.5f s, Size "
      "= %u Numbers, NumDevsUsed = %u, Workgroup = %u\n",
      (double)QRNG_DIMENSIONS * (double)N * 1.0E-9 / gpuTime, gpuTime,
      QRNG_DIMENSIONS * N, 1, 128 * QRNG_DIMENSIONS);

  printf("\nReading GPU results...\n");

  checkCudaErrors(
      cuMemcpyDtoH(h_OutputGPU, d_Output, QRNG_DIMENSIONS * N * sizeof(float)));

  printf("Comparing to the CPU results...\n\n");
  sumDelta = 0;
  sumRef = 0;

  for (dim = 0; dim < QRNG_DIMENSIONS; dim++)
    for (pos = 0; pos < N; pos++) {
      ref = getQuasirandomValue63(pos, dim);
      delta = (double)h_OutputGPU[dim * N + pos] - ref;
      sumDelta += fabs(delta);
      sumRef += fabs(ref);
    }

  printf("L1 norm: %E\n", sumDelta / sumRef);

  printf("\nTesting inverseCNDgpu()...\n\n");

  checkCudaErrors(cuMemsetD8(d_Output, 0, QRNG_DIMENSIONS * N * sizeof(float)));

  for (int i = -1; i < numIterations; i++) {
    if (i == 0) {
      sdkResetTimer(&hTimer);
      sdkStartTimer(&hTimer);
    }

    inverseCNDgpu(d_Output, QRNG_DIMENSIONS * N);
  }

  sdkStopTimer(&hTimer);
  gpuTime = sdkGetTimerValue(&hTimer) / (double)numIterations * 1e-3;
  printf(
      "quasirandomGenerator-inverse, Throughput = %.4f GNumbers/s, Time = %.5f "
      "s, Size = %u Numbers, NumDevsUsed = %u, Workgroup = %u\n",
      (double)QRNG_DIMENSIONS * (double)N * 1E-9 / gpuTime, gpuTime,
      QRNG_DIMENSIONS * N, 1, 128);

  printf("Reading GPU results...\n");
  checkCudaErrors(
      cuMemcpyDtoH(h_OutputGPU, d_Output, QRNG_DIMENSIONS * N * sizeof(float)));

  printf("\nComparing to the CPU results...\n");

  sumDelta = 0;
  sumRef = 0;
  unsigned int distance = ((unsigned int)-1) / (QRNG_DIMENSIONS * N + 1);

  for (pos = 0; pos < QRNG_DIMENSIONS * N; pos++) {
    unsigned int d = (pos + 1) * distance;
    ref = MoroInvCNDcpu(d);
    delta = (double)h_OutputGPU[pos] - ref;
    sumDelta += fabs(delta);
    sumRef += fabs(ref);
  }

  printf("L1 norm: %E\n\n", L1norm = sumDelta / sumRef);
  printf("Shutting down...\n");

  sdkDeleteTimer(&hTimer);
  free(h_OutputGPU);

  checkCudaErrors(cuMemFree(d_Output));

  exit(L1norm < 1e-6 ? EXIT_SUCCESS : EXIT_FAILURE);
}