static double GetGFlops(ComputeMethod Method, bool IsFloat) { int upper = 10000000; float[] fvalues = Enumerable.Range(0, upper).Select(x => Convert.ToSingle(x)).ToArray(); double[] dvalues = Enumerable.Range(0, upper).Select(x => Convert.ToDouble(x)).ToArray(); long worksize = upper / 1000000; if (IsFloat) { Method.Invoke(worksize, fvalues, 2.0f); //invoke once to cache everything } else { Method.Invoke(worksize, dvalues, 2.0); //invoke once to cache everything } Stopwatch watch = Stopwatch.StartNew(); while (watch.Elapsed.TotalMilliseconds < 25) //loop until 25ms or 10000000 elements { watch.Restart(); if (IsFloat) { Method.Invoke(worksize); } else { Method.Invoke(worksize); } if (worksize == upper) { break; } worksize = Math.Min(worksize * 2, upper); } double flops = (double)4096 * worksize / (watch.Elapsed.TotalSeconds); double gflops = (flops / 1000000000.0); return(gflops); }
public static double GetDeviceBandwidth_GBps(AcceleratorDevice Device) { ComputeMethod method = new ComputeMethod(Kernels.PerformanceKernel, "Bandwidth", Device); int[] values = Enumerable.Range(0, 1000000).ToArray(); double bytes = values.Length * sizeof(int); method.Invoke(values.Length, values); method.Invoke(values.Length); Stopwatch total = Stopwatch.StartNew(); method.Invoke(values.Length); double bytespersec = bytes / total.Elapsed.TotalSeconds; double GBytespersec = bytespersec / (8 * 1000 * 1000 * 1000.0); return(GBytespersec); }