Retro68/gcc/libgomp/testsuite/libgomp.fortran/examples-4/teams-2.f90
2017-04-10 13:32:00 +02:00

66 lines
1.5 KiB
Fortran

! { dg-do run }
function dotprod_ref (B, C, N) result (sum)
implicit none
real :: B(N), C(N), sum
integer :: N, i
sum = 0.0e0
do i = 1, N
sum = sum + B(i) * C(i)
end do
end function
function dotprod (B, C, N, block_size, num_teams, block_threads) result (sum)
implicit none
real :: B(N), C(N), sum
integer :: N, block_size, num_teams, block_threads, i, i0
sum = 0.0e0
!$omp target map(to: B, C, block_size, num_teams, block_threads)
!$omp teams num_teams(num_teams) thread_limit(block_threads) &
!$omp& reduction(+:sum)
!$omp distribute
do i0 = 1, N, block_size
!$omp parallel do reduction(+:sum)
do i = i0, min (i0 + block_size - 1, N)
sum = sum + B(i) * C(i)
end do
end do
!$omp end teams
!$omp end target
end function
subroutine init (B, C, N)
real :: B(N), C(N)
integer :: N, i
do i = 1, N
B(i) = 0.0001 * i
C(i) = 0.000001 * i * i
end do
end subroutine
subroutine check (a, b)
real :: a, b, err
real, parameter :: EPS = 0.0001
if (b == 0.0) then
err = a
else if (a == 0.0) then
err = b
else
err = (a - b) / b
end if
if (err > EPS .or. err < -EPS) call abort
end subroutine
program e_54_1
integer :: n
real :: ref, d
real, pointer, dimension(:) :: B, C
n = 1024 * 1024
allocate (B(n), C(n))
call init (B, C, n)
ref = dotprod_ref (B, C, n)
d = dotprod (B, C, n, n / 8, 2, 8)
call check (ref, d)
deallocate (B, C)
end program