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#include <thrust/transform.h>
#include <thrust/device_vector.h>
#include <thrust/host_vector.h>
#include <thrust/functional.h>
#include <iostream>
#include <iterator>
#include <algorithm>
// This example illustrates how to implement the SAXPY
// operation (Y[i] = a * X[i] + Y[i]) using Thrust.
// The saxpy_slow function demonstrates the most
// straightforward implementation using a temporary
// array and two separate transformations, one with
// multiplies and one with plus. The saxpy_fast function
// implements the operation with a single transformation
// and represents "best practice".
struct saxpy_functor : public thrust::binary_function<float,float,float>
{
const float a;
saxpy_functor(float _a) : a(_a) {}
__host__ __device__
float operator()(const float& x, const float& y) const {
return a * x + y;
}
};
void saxpy_fast(float A, thrust::device_vector<float>& X, thrust::device_vector<float>& Y)
{
// Y <- A * X + Y
thrust::transform(X.begin(), X.end(), Y.begin(), Y.begin(), saxpy_functor(A));
}
void saxpy_slow(float A, thrust::device_vector<float>& X, thrust::device_vector<float>& Y)
{
thrust::device_vector<float> temp(X.size());
// temp <- A
thrust::fill(temp.begin(), temp.end(), A);
// temp <- A * X
thrust::transform(X.begin(), X.end(), temp.begin(), temp.begin(), thrust::multiplies<float>());
// Y <- A * X + Y
thrust::transform(temp.begin(), temp.end(), Y.begin(), Y.begin(), thrust::plus<float>());
}
int main(void)
{
// initialize host arrays
float x[4] = {1.0, 1.0, 1.0, 1.0};
float y[4] = {1.0, 2.0, 3.0, 4.0};
{
// transfer to device
thrust::device_vector<float> X(x, x + 4);
thrust::device_vector<float> Y(y, y + 4);
// slow method
saxpy_slow(2.0, X, Y);
}
{
// transfer to device
thrust::device_vector<float> X(x, x + 4);
thrust::device_vector<float> Y(y, y + 4);
// fast method
saxpy_fast(2.0, X, Y);
}
return 0;
}