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The following loop iterates over all edges of a graph, determines if the end nodes belong to the same group, and then adds the edge weight to the total edge weight of that group.

// TODO: parallel
    node u = EDGE_SOURCE;
    node v = EDGE_DEST;
    cluster c = zeta[u];
    cluster d = zeta[v];
    if (c == d) {
        // TODO: critical section
        intraEdgeWeight[c] += G->weight(u, v);
    } // else ignore edge

I would like to parallelize it with OpenMP. I think that the code in the if statement is a critical section that might lead to a race condition and wrong results if threads are interrupted in the middle of it (correct?).

If the += operation could be made atomically, I believe that the problem is solved (correct?). However, I've looked up the atomic directive and there it states that:

Unfortunately, the atomicity setting can only be specified to simple expressions that usually can be compiled into a single processor opcode, such as increments, decrements, xors and the such. For example, it cannot include function calls, array indexing, overloaded operators, non-POD types, or multiple statements.

What should I use to parallelize this loop correctly?

share|improve this question
up vote 3 down vote accepted

Actually the accepted syntax for atomic update is:





x binop= expr;

x = x binop expr;

where x is a scalar l-value expression and expr is any expression, including function calls, with the only restriction being that it must be of scalar type. The compiler would take care to store the intermediate result in a temporary variable.

Sometimes it's better to consult the standards documents instead of reading tutorials on the Internet. Observe the OpenMP 3.1 standard Expample A.22.1c:

float work1(int i)
  return 1.0 * i;
#pragma omp atomic update
x[index[i]] += work1(i);
share|improve this answer
but not x[i] binop= expr, right? – cls Dec 13 '12 at 11:53
@cls, on the contrary, x in this case is a scalar l-value expression. x[i] is also a scalar l-value expression, so it is perfectly acceptable. After all, atomic x[i] += ... translates to: compute the address of x[i], issue locked addition to that memory address. – Hristo Iliev Dec 13 '12 at 11:56
Thanks. With omp atomic update, the code actually runs faster in parallel than in serial for 10^6 edges. With omp critical it runs slower. – cls Dec 13 '12 at 12:26
Quite simple: on x86 atomic update + += = lock addl addr,value and critical = call _omp_critical_acquire; addl addr,value; call _omp_critical_release. – Hristo Iliev Dec 13 '12 at 12:32

I also think your if block is a critical section, you should not write a vector from multiple threads without serializing the writes. You can use #pragma omp critical to restrict the execution of the += in your if block to a single thread at a time.

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You can split the expression in two parts: the function call that assigns the result into a temporary, and the addition of that temporary to the accumulator. In that case, the second expression will be simple enough to use omp atomic, assuming that the addition itself is not a complex overloaded operator for a custom type. Of course you can only do that in case G->weight(u,v) is a thread-safe call, otherwise you have to use omp critical or a mutex.

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But in this case, addition involves an (overloaded) index operator intraEdgeWeight[c] += tmp - is this supported by omp atomic? – cls Dec 13 '12 at 11:21
As far as I understand, the OpenMP specification does not allow that. But again, if the operator returns an lvalue reference to something of a type supported by omp atomic, why not splitting that expression with the help of another temporary? – Alexey Kukanov Dec 13 '12 at 11:35
I don't understand how one can avoid using the [] operator within the atomic section. Could you show me the code for what you mean? – cls Dec 13 '12 at 11:37
@AlexeyKukanov, the OpenMP standard only requires that the LHS is a scalar l-value and doesn't restrict it in any other way. I have just tried this with an overloaded operator [] and it works as expected. – Hristo Iliev Dec 13 '12 at 12:15

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