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What is the difference between atomic and critical in openMP? I can do this

#pragma omp atomic

but isn't this same as

#pragma omp critical

Thanks in advance

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up vote 97 down vote accepted

The effect on g_qCount is the same, but what's done is different.

An OpenMP critical section is completely general - it can surround any arbitrary block of code. You pay for that generality, however, by incurring significant overhead every time a thread enters and exits the critical section (on top of the inherent cost of serialization).

(In addition, in OpenMP all unnamed critical sections are considered identical (if you prefer, there's only one lock for all unnamed critical sections), so that if one thread is in one [unnamed] critical section as above, no thread can enter any [unnamed] critical section. As you you might guess, you can get around this by using named critical sections).

An atomic operation has much lower overhead. It relies on the hardware providing (say) an atomic increment operation; in that case there's no lock/unlock needed on entering/exiting the line of code, it just does the atomic increment which the hardware tells you can't be interfered with.

The upsides are that the overhead is much lower, and one thread being in an atomic operation doesn't block any (different) atomic operations about to happen. The downsides are that you aren't guaranteed any particular set of atomic operations on any particular platform, and you could loose portability. The compiler should tell you if the particular atomic isn't supported, however.

Of course, in either case, you incur the cost of serialization.

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The previous answer is great, except one little think, in OpenMP all the unnamed critical sections are mutually exclusive. And the most important difference between critical and atomic is that atomic can protect only a single assignment and you can use it with specific operators.

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This would have better been a comment (or an edit) of the previous answer. – kynan Mar 10 '15 at 8:18

Critical section:

  • Ensures serialisation of blocks of code.
  • Can be extended to serialise groups of blocks with proper use of "name" tag.

  • Slower!

Atomic operation:

  • Is much faster!

  • Only ensures the serialisation of a particular operation.

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This answer doesn't add any new information. – hawk Dec 23 '13 at 3:09
But this answer is very readable and would be a great sum up of the first answer – Michał Miszczyszyn Dec 15 '15 at 18:16

The fastest way is neither critical nor atomic. Approximately, addition with critical section is 200 times more expensive than simple addition, atomic addition is 25 times more expensive then simple addition.

The fastest option (not always applicable) is to give each thread its own counter and make reduce operation when you need total sum.

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I disagree with all numbers you mention in your explanation. Assuming x86_64, the atomic operation will have a few cycle overhead (synchronizing a cache line) on the cost of roughly a cycle. If you would have a ''true sharing'' cost otherwise, the overhead is nihil. A critical section incurs the cost of a lock. Depending on whether the lock is already taken or not, the overhead is roughly 2 atomic instructions OR two runs of the scheduler and the sleep time - that will usually be significantly more than 200x. – Klaas van Gend Apr 1 at 11:37

The limitations of atomic are important. They should be detailed on the OpenMP specs. MSDN offers a quick cheat sheet as I wouldn't be surprised if this will not change. (Visual Studio 2012 has an OpenMP implementation from March 2002.) To quote MSDN:

The expression statement must have one of the following forms:






In the preceding expressions: x is an lvalue expression with scalar type. expr is an expression with scalar type, and it does not reference the object designated by x. binop is not an overloaded operator and is one of +, *, -, /, &, ^, |, <<, or >>.

I recommend to use atomic when you can and named critical sections otherwise. Naming them is important; you'll avoid debugging headaches this way.

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atomic is relatively performance efficient when you need to enable mutual exclusion for only a single instruction similar is not true about omp critical.

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This is nothing more than a poorly-worded restatement of the accepted answer without explanation. – High Performance Mark Jul 26 '13 at 8:05

atomic is a single statement Critical section, i.e. you lock for one statement execution

critical section is a lock on a block of code

A good compiler will translate your second code the same way it does the first

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