! { dg-options "-O2" } ! { dg-skip-if "AArch64 tiny code model does not support programs larger than 1MiB" {aarch64_tiny} } program strassen_matmul use omp_lib integer, parameter :: N = 1024 double precision, save :: A(N,N), B(N,N), C(N,N), D(N,N) double precision :: start, end call random_seed call random_number (A) call random_number (B) start = omp_get_wtime () C = matmul (A, B) end = omp_get_wtime () write(*,'(a, f10.6)') ' Time for matmul = ', end - start D = 0 start = omp_get_wtime () call strassen (A, B, D, N) end = omp_get_wtime () write(*,'(a, f10.6)') ' Time for Strassen = ', end - start if (sqrt (sum ((C - D) ** 2)) / N .gt. 0.1) stop 1 D = 0 start = omp_get_wtime () !$omp parallel !$omp single call strassen (A, B, D, N) !$omp end single nowait !$omp end parallel end = omp_get_wtime () write(*,'(a, f10.6)') ' Time for Strassen MP = ', end - start if (sqrt (sum ((C - D) ** 2)) / N .gt. 0.1) stop 2 contains recursive subroutine strassen (A, B, C, N) integer, intent(in) :: N double precision, intent(in) :: A(N,N), B(N,N) double precision, intent(out) :: C(N,N) double precision :: T(N/2,N/2,7) integer :: K, L if (iand (N,1) .ne. 0 .or. N < 64) then C = matmul (A, B) return end if K = N / 2 L = N / 2 + 1 !$omp task shared (A, B, T) call strassen (A(:K,:K) + A(L:,L:), B(:K,:K) + B(L:,L:), T(:,:,1), K) !$omp end task !$omp task shared (A, B, T) call strassen (A(L:,:K) + A(L:,L:), B(:K,:K), T(:,:,2), K) !$omp end task !$omp task shared (A, B, T) call strassen (A(:K,:K), B(:K,L:) - B(L:,L:), T(:,:,3), K) !$omp end task !$omp task shared (A, B, T) call strassen (A(L:,L:), B(L:,:K) - B(:K,:K), T(:,:,4), K) !$omp end task !$omp task shared (A, B, T) call strassen (A(:K,:K) + A(:K,L:), B(L:,L:), T(:,:,5), K) !$omp end task !$omp task shared (A, B, T) call strassen (A(L:,:K) - A(:K,:K), B(:K,:K) + B(:K,L:), T(:,:,6), K) !$omp end task !$omp task shared (A, B, T) call strassen (A(:K,L:) - A(L:,L:), B(L:,:K) + B(L:,L:), T(:,:,7), K) !$omp end task !$omp taskwait C(:K,:K) = T(:,:,1) + T(:,:,4) - T(:,:,5) + T(:,:,7) C(L:,:K) = T(:,:,2) + T(:,:,4) C(:K,L:) = T(:,:,3) + T(:,:,5) C(L:,L:) = T(:,:,1) - T(:,:,2) + T(:,:,3) + T(:,:,6) end subroutine strassen end