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Basic OpenMP Atomic Operations

Use OpenMP atomic operations to allow multiple threads to safely update a shared numeric variable, such as on hardware platforms that support atomic operation use. An atomic operation applies only to the single assignment statement that immediately follows it, so atomic operations are useful for code that requires fine-grain synchronization.
Before the statement to be protected, use:
  • #pragma omp atomic
    for C/C++.
  • !$omp atomic
    for Fortran.
After you rewrite your code to use OpenMP* parallel framework, you can analyze its performance with
Intel® Advisor
perspectives. Use the
Vectorization and Code Insights
perspective to analyze how well you OpenMP code is vectorized or use the
Offload Modeling
perspective to model its performance on a GPU.
For example, consider this annotated C/C++ serial code:
int count; void Tick() { ANNOTATE_LOCK_ACQUIRE(0); count = count+1; ANNOTATE_LOCK_RELEASE(0); } . . .
The parallel C/C++ code after adding
#include <omp.h>
and
#pragma omp atomic
:
#include <omp.h> //prevents a load-time problem with a .dll not being found int count; void Tick() { // Replace lock annotations #pragma omp atomic count = count+1; } . . .
Consider this annotated Fortran serial code:
program ABC integer(kind=4) :: count = 0 . . . contains subroutine Tick call annotate_lock_acquire(0) count = count + 1 call annotate_lock_release(0) end subroutine Tick . . . end program ABC
The parallel Fortran code after adding
use omp_lib
and the
!$omp atomic
directive:
program ABC use omp_lib integer(kind=4) :: count = 0 . . . contains subroutine Tick !$omp atomic count = count + 1 end subroutine Tick . . . end program ABC
The
Intel Advisor
Fortran sample
nqueens.f90
demonstrates the use of an atomic operation.
This topic introduces basic OpenMP atomic operations. For advanced atomic operations that use clauses after the
atomic
construct, see Advanced OpenMP Atomic Operations.

Product and Performance Information

1

Performance varies by use, configuration and other factors. Learn more at www.Intel.com/PerformanceIndex.