# how to use orphaned for loop in OpenMP?

SOLVED: see EDIT 2 below

I am trying to parallelise an algorithm which does some operation on a matrix (lets call it blurring for simplicity sake). Once this operation has been done, it finds the biggest change between the old and new matrix (max of absolute difference between old and new matrix on a per element basis). If this maximum difference is above some threshold, then do another iteration of the matrix operation.

So my main program has the following loop:

``````converged = 0;
for( i = 1; i <= iteration_limit; i++ ){
max_diff = update( &data_grid );

if( max_diff < tol ) {
converged = 1;
break;
}
}
``````

`update( &data_grid )` then calls the actual implementation of the blurring algorithm. The blurring algorithm then iterates over the matrix, it is this loop that I am trying to parallelise:

``````for( i = 0; i < width; i++ ) {
for( j = 0; j <= height; j++ ) {
g->data[ update ][ i ][ j ] =
ONE_QUARTER * (
g->data[ update ][ i + 1 ][ j     ] +
g->data[ update ][ i - 1 ][ j     ] +
g->data[ update ][ i     ][ j + 1 ] +
g->data[ update ][ i     ][ j - 1 ] +
);
diff = fabs( g->data[ old ][ i ][ j ] - g->data[ update ][ i ][ j ] );
maxdiff = maxdiff > diff ? maxdiff : diff;
}
}
``````

I could just stick a parallel region inside `update(&data_grid)` but that would mean threads would be created and destroyed on each iteration which I am trying to avoid.:

``````#pragma omp parallel for private(i, j, diff, maxdg) shared(width, height, update, g, dg, chunksize) default(none) schedule(static, chunksize)
``````

I have 2 copies of the grid and write the new answer in the "other one" on every iteration by switching `old` and `update` between `0` and `1`.

EDIT:

So I've made an orphaned omp for loop as per Jonathan Dursi's suggestion, but for some reason, can't seem to find the maximum value between threads...

Here is my "outer" code:

``````  converged = 0;

#pragma omp parallel shared(i, max_iter, g, tol, maxdg, dg) private(converged) default(none)
{
for( i = 1; i <= 40; i++ ){

maxdg = 0;

dg = grid_update( &g );

printf("[%d] dg from a single thread: %f\n", omp_get_thread_num(), dg );

#pragma omp critical
{
if (dg > maxdg) maxdg = dg;
}

#pragma omp barrier
#pragma omp flush

printf("[%d] maxdg: %f\n", omp_get_thread_num(), maxdg);

if( maxdg < tol ) {
converged = 1;
break;
}
}
}
``````

And the result:

``````  [11] dg from a single thread: 0.000000
[3] dg from a single thread: 0.000000
[4] dg from a single thread: 0.000000
[5] dg from a single thread: 0.000000
[0] dg from a single thread: 0.166667
[6] dg from a single thread: 0.000000
[7] dg from a single thread: 0.000000
[8] dg from a single thread: 0.000000
[9] dg from a single thread: 0.000000
[15] dg from a single thread: 0.000000
[10] dg from a single thread: 0.000000
[1] dg from a single thread: 0.166667
[12] dg from a single thread: 0.000000
[13] dg from a single thread: 0.000000
[14] dg from a single thread: 0.000000
[2] maxdg: 0.000000
[3] maxdg: 0.000000
[0] maxdg: 0.000000
[8] maxdg: 0.000000
[9] maxdg: 0.000000
[4] maxdg: 0.000000
[5] maxdg: 0.000000
[6] maxdg: 0.000000
[7] maxdg: 0.000000
[1] maxdg: 0.000000
[14] maxdg: 0.000000
[11] maxdg: 0.000000
[15] maxdg: 0.000000
[10] maxdg: 0.000000
[12] maxdg: 0.000000
[13] maxdg: 0.000000
``````

EDIT 2: Made some mistakes with the private/shared classifiers and forgot a barrier. This is the correct code:

``````  #pragma omp parallel shared(max_iter, g, tol, maxdg) private(i, dg, converged) default(none)
{
for( i = 1; i <= max_iter; i++ ){

#pragma omp barrier
maxdg=0;
/*#pragma omp flush */

dg = grid_update( &g );

#pragma omp critical
{
if (dg > maxdg) maxdg = dg;
}

#pragma omp barrier
/*#pragma omp flush*/

if( maxdg < tol ) {
converged = 1;
break;
}
}
}
``````
-
Are you sure your OMP implementation actually destroys threads after parallel region? Normally I'd expect it uses a threadpool to avoid this. –  user180326 May 19 '11 at 19:24
From what I can understand it does, in any case however I'd like to know how to apply orphaned directives to this situation. –  lms May 19 '11 at 19:32
Most implementations actually use a thread pool to reduce the overhead of destroying and getting threads again for each new parallel region. That said, there is still a fair amount of overhead each time you enter a parallel region - though the first region is usually going to be the most expensive (since it creates the threads). Note - that it depends on the implementation as to when the threads are really first obtained - it could be before the user code gets control, or the first parallel region, or ... –  ejd May 19 '11 at 21:59

There's no problem with having the parallel section start in another routine before the for, certainly since OpenMP 3.0 (2008) and maybe since OpenMP 2.5. With gcc4.4:

outer.c:

``````#include <stdio.h>
#include <stdlib.h>
#include <omp.h>

void update(int n, int iter);

int main(int argc, char **argv) {
int n=10;

#pragma omp parallel num_threads(4) default(none) shared(n)
for (int iter=0; iter<3; iter++)
{
#pragma omp single
printf("---iteration %d---\n", iter);
update(n, iter);
}

return 0;
}
``````

inner.c:

``````#include <omp.h>
#include <stdio.h>

void update(int n, int iter) {

#pragma omp for
for  (int i=0;i<n;i++) {
printf("%3d: doing loop index %d.\n",newthread,i);
}
}
``````

Building:

``````\$ make
gcc44 -g -fopenmp -std=c99   -c -o inner.o inner.c
gcc44 -g -fopenmp -std=c99   -c -o outer.o outer.c
gcc44 -o main outer.o inner.o -fopenmp -lgomp
\$ ./main
---iteration 0---
2: doing loop index 6.
2: doing loop index 7.
2: doing loop index 8.
0: doing loop index 0.
0: doing loop index 1.
0: doing loop index 2.
1: doing loop index 3.
1: doing loop index 4.
1: doing loop index 5.
3: doing loop index 9.
---iteration 1---
0: doing loop index 0.
0: doing loop index 1.
0: doing loop index 2.
1: doing loop index 3.
1: doing loop index 4.
1: doing loop index 5.
3: doing loop index 9.
2: doing loop index 6.
2: doing loop index 7.
2: doing loop index 8.
---iteration 2---
0: doing loop index 0.
0: doing loop index 1.
0: doing loop index 2.
3: doing loop index 9.
2: doing loop index 6.
2: doing loop index 7.
2: doing loop index 8.
1: doing loop index 3.
1: doing loop index 4.
1: doing loop index 5.
``````

But as per @jdv-Jan de Vaan, I'd be very surprised if in a up-to-date OpenMP implmentation this led to a significant performance improvement over having the parallel for in update, particularly if update is expensive enough.

BTW, there are issues with just putting a parallel for around the i-loop in the Gauss-Seidel routine in update; you can see that the i steps aren't independant, and that will lead to race conditions. You will need to do something like Red-Black or Jacobi iteration instead...

Update:

The code sample provided is for a G-S iteration, not Jacobi, but I'll just assume that's a typo.

If your question is actually about the reduce and not the orphaned for loop: yes, you sadly have to roll your own min/max reductions in OpenMP, but it's pretty straightforward, you just use the usual tricks.

Update 2 -- yikes, locmax needs to be private, not shared.

outer.c:

``````#include <stdio.h>
#include <stdlib.h>
#include <omp.h>

int update(int n, int iter);

int main(int argc, char **argv) {
int n=10;
int max, locmax;

max = -999;

#pragma omp parallel num_threads(4) default(none) shared(n, max) private(locmax)
for (int iter=0; iter<3; iter++)
{
#pragma omp single
printf("---iteration %d---\n", iter);

locmax = update(n, iter);

#pragma omp critical
{
if (locmax > max) max=locmax;
}

#pragma omp barrier
#pragma omp flush

#pragma omp single
printf("---iteration %d's max value = %d---\n", iter, max);
}
return 0;
}
``````

inner.c:

``````#include <omp.h>
#include <stdio.h>

int update(int n, int iter) {
int max = -999;

#pragma omp for
for  (int i=0;i<n;i++) {
printf("%3d: doing loop index %d.\n",thread,i);
if (i+iter>max) max = i+iter;
}

return max;
}
``````

and building:

``````\$ make
gcc44 -g -fopenmp -std=c99   -c -o inner.o inner.c
gcc44 -g -fopenmp -std=c99   -c -o outer.o outer.c
gcc44 -o main outer.o inner.o -fopenmp -lgomp
bash-3.2\$ ./main
---iteration 0---
0: doing loop index 0.
0: doing loop index 1.
0: doing loop index 2.
2: doing loop index 6.
2: doing loop index 7.
2: doing loop index 8.
1: doing loop index 3.
1: doing loop index 4.
1: doing loop index 5.
3: doing loop index 9.
---iteration 0's max value = 9---
---iteration 1---
0: doing loop index 0.
0: doing loop index 1.
0: doing loop index 2.
3: doing loop index 9.
2: doing loop index 6.
2: doing loop index 7.
2: doing loop index 8.
1: doing loop index 3.
1: doing loop index 4.
1: doing loop index 5.
---iteration 1's max value = 10---
---iteration 2---
0: doing loop index 0.
0: doing loop index 1.
0: doing loop index 2.
1: doing loop index 3.
1: doing loop index 4.
1: doing loop index 5.
3: doing loop index 9.
2: doing loop index 6.
2: doing loop index 7.
2: doing loop index 8.
---iteration 2's max value = 11---
``````
-
I am actually using Jacobi iteration, my main problem is how do I find the maximum difference from all the different threads in an iteration? I'm using C so I can't use reduce unfortunately. –  lms May 19 '11 at 21:26
No, you just have to write your own using the usual tricks. –  Jonathan Dursi May 19 '11 at 22:01
@Jonathan - I don't believe you have to specify both -fopenmp and -lgomp on the last line. The -fopenmp option does several things including adding -lgomp to the ld command gcc issues. –  ejd May 19 '11 at 22:08
The min and max reductions are coming soon for C/C++ - in an OpenMP V3.1 implementation near you. Meanwhile it is not that hard to "roll your own". There are several discussions of them here at stackoverflow and at openmp.org/forum. –  ejd May 19 '11 at 22:11
@Jonathan I've followed your suggestions but still can't find the max for some reason. Am I just being dumb? –  lms May 19 '11 at 22:25