! Exercise three levels of parallelism using SGEMM from BLAS. ! { dg-do run } ! { dg-additional-options -Wuninitialized } ! Explicitly set vector_length to 128 using a vector_length clause. subroutine openacc_sgemm_128 (m, n, k, alpha, a, b, beta, c) integer :: m, n, k real :: alpha, beta real :: a(k,*), b(k,*), c(m,*) integer :: i, j, l real :: temp ! { dg-note {'temp' was declared here} {} { target *-*-* } .-1 } !$acc parallel loop copy(c(1:m,1:n)) copyin(a(1:k,1:m),b(1:k,1:n)) vector_length (128) firstprivate (temp) ! { dg-warning {'temp' is used uninitialized} {} { target *-*-* } .-1 } do j = 1, n !$acc loop do i = 1, m temp = 0.0 !$acc loop reduction(+:temp) do l = 1, k temp = temp + a(l,i)*b(l,j) end do if(beta == 0.0) then c(i,j) = alpha*temp else c(i,j) = alpha*temp + beta*c(i,j) end if end do end do end subroutine openacc_sgemm_128 subroutine host_sgemm (m, n, k, alpha, a, b, beta, c) integer :: m, n, k real :: alpha, beta real :: a(k,*), b(k,*), c(m,*) integer :: i, j, l real :: temp do j = 1, n do i = 1, m temp = 0.0 do l = 1, k temp = temp + a(l,i)*b(l,j) end do if(beta == 0.0) then c(i,j) = alpha*temp else c(i,j) = alpha*temp + beta*c(i,j) end if end do end do end subroutine host_sgemm program main integer, parameter :: M = 100, N = 50, K = 2000 real :: a(K, M), b(K, N), c(M, N), d (M, N), e (M, N) real alpha, beta integer i, j a(:,:) = 1.0 b(:,:) = 0.25 c(:,:) = 0.0 d(:,:) = 0.0 e(:,:) = 0.0 alpha = 1.05 beta = 1.25 call openacc_sgemm_128 (M, N, K, alpha, a, b, beta, d) call host_sgemm (M, N, K, alpha, a, b, beta, e) do i = 1, m do j = 1, n if (d(i,j) /= e(i,j)) stop 1 end do end do end program main