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Performance wise, which of the following is more efficient?

Assigning in the master thread and copying the value to all threads:

int i = 0;
#pragma omp parallel for firstprivate(i)
for( ; i < n; i++){

Declaring and assigning the variable in each thread

#pragma omp parallel for
for(int i = 0; i < n; i++){

Declaring the variable in the master thread but assigning it in each thread.

int i;
#pragma omp parallel for private(i)
for(i = 0; i < n; i++){

It may seem a silly question and/or the performance impact may be negligible. But I'm parallelizing a loop that does a small amount of computation and is called a large number of times, so any optimization I can squeeze out of this loop is helpful.

I'm looking for a more low level explanation and how OpenMP handles this.

For example, if parallelizing for a large number of threads I assume the second implementation would be more efficient, since initializing a variable using xor is far more efficient than copying the variable to all the threads

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Did you try measuring it, or are you asking us to do that for you? –  paddy Mar 18 '13 at 1:23
I did not measure it, but I do not seek an answer in numbers, I seek a more low level answer. –  Cristiano Sousa Mar 18 '13 at 1:27
This question would be more interesting if you had tried to measure it and then asked the results to be explained. –  paddy Mar 18 '13 at 1:29
The first version is not a valid OpenMP code. The other two versions are equivalent and most likely would result in the same assembly code being generated for the extracted OpenMP region. –  Hristo Iliev Mar 18 '13 at 12:40

1 Answer 1

up vote 5 down vote accepted

There is not much of a difference in terms of performance among the 3 versions you presented, since each one of them is using #pragma omp parallel for. Hence, OpenMP will automatically assign each for iteration to different threads. Thus, variable i will became private to each thread, and each thread will have a different range of for iterations to work with. The variable 'i' was automatically set to private in order to avoid race conditions when updating this variable. Since, the variable 'i' will be private on the parallel for anyway, there is no need to put private(i) on the #pragma omp parallel for.

Nevertheless, your first version will produce an error since OpenMP is expecting that the loop right underneath of #pragma omp parallel for have the following format:

for(init-expr; test-expr;incr-expr)

inorder to precompute the range of work.

The for directive places restrictions on the structure of all associated for-loops. Specifically, all associated for-loops must have the following canonical form:

for (init-expr; test-expr;incr-expr) structured-block (OpenMP Application Program Interface pag. 39/40.)

Edit: I tested your two last versions, and inspected the generated assembly. Both version produce the same assembly, as you can see -> version 2 and version 3.

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The default loop scheduling (i.e. when no schedule clause is specified) is implementation dependent. Most implementations default to static as the most natural one, but that is not guaranteed by the standard. –  Hristo Iliev Mar 18 '13 at 12:57
@HristoIliev Thanks for the comment, did not know that. I will remove that part, to not generate ambiguities. –  dreamcrash Mar 18 '13 at 13:25

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