OpenACC
This is not a complete article: This is a draft, a work in progress that is intended to be published into an article, which may or may not be ready for inclusion in the main wiki. It should not necessarily be considered factual or authoritative.
OpenACC makes it relatively easy to offload vectorized code to accelerators such as GPUs, for example. Unlike CUDA and OpenCL where kernels need to be coded explicitly, OpenACC minimizes the amount of modifications to do on a serial or OpenMP code. The compiler converts the OpenACC code into a binary executable that can make use of accelerators. The performance of OpenACC codes can be similar to the one of a CUDA code, except that OpenACC requires less code development.
OpenACC directives
Similar to OpenMP, OpenACC can convert a for
loop into parallel code that would run on an accelerator. This can be achieved with compiler directives #pragma acc ...
before structured blocks of code like, for example, a for
loop. All supported pragma
directives are described in the OpenACC specification.
Code examples
OpenACC can be used in Fortran, C and C++, which we illustrate here using the simple example of a definite integral which is equal to the arctangent of unity, i.e. π/4,
#include <stdio.h>
const int vl = 512;
const long long N = 2000000000;
int main(int argc,char** argv) {
double pi = 0.0f;
long long i;
#pragma acc parallel vector_length(vl)
#pragma acc loop reduction(+:pi)
for (i = 0; i < N; i++) {
double t = (double)((i + 0.5) / N);
pi += 4.0 / (1.0 + t * t);
}
printf("pi = %11.10f\n", pi / N);
return 0;
}
#include <iostream>
#include <iomanip>
const int vl = 512;
const long long N = 2000000000;
int main(int argc,char** argv) {
double pi = 0.0f;
long long i;
#pragma acc parallel vector_length(vl)
#pragma acc loop reduction(+:pi)
for (i = 0; i < N; i++) {
double t = double((i + 0.5) / N);
pi += 4.0/(1.0 + t * t);
}
std::cout << std::fixed;
std::cout << std::setprecision(10);
std::cout << "pi = " << pi/double(N) << std::endl;
return 0;
}
Compilers
PGI
- Module
pgi
, any version from 13.10- Newer versions support newest GPU capabilities.
Compilation example:
# TODO
GCC
- Module
gcc
, any version from 9.3.0- Newer versions support newest GPU capabilities.
Compilation example:
gcc -fopenacc -march=native -O3 pi.c -o pi
Tutorial
See our OpenACC_Tutorial.