Because the suggested atomic assignment does not protect against anything.
Remember that an atomic instruction can be thought of as a critical section that could be (but does not have to be) efficiently implemented by the compiler by using magic hardware. Think about two threads reaching
x = y with shared
x and private
y. After all the threads finish,
x is equal to the last thread to execute "wins" and sets
x to its
y. Wrap the assignment in a critical section and nothing changes, the last thread still "wins". Now, if the threads do something else with
x afterwards the slowest thread may not have caught up and even if it has the compiler could legitimately end up using choosing to some cached value for
x (i.e. the thread's local
y). To avoid this, you would need a barrier (so the winning thread has won) and its implied flush (so the local cache has been invalidated):
x = y;
#pragma omp barrier
\\ do something with shared x...
but I cannot think of a good reason to do this. Why do all the work to find y on many threads if most of them will be (non-deterministically) thrown away?