I'm writting some low-level synchronization code in C. And I met a problem:
Assume there're two threads
Thread A and
Thread B running on a x86_64 machine.
Thread A write a memory location at time t1 and there is no more writes to this location afterward.
Thread B read the same memory location at time t2.
Thread A: foo = magic_value; /* happens at t1 */ Thread B: bar = foo; /* happens at t2 */ assert(bar == magic_value);
My question is: whether there exist a delta,
for any t1 and t2 that t2 - t1 > delta.
Thread B is guarented to read the newest value that
Thread A wrote at t1.
I've read the documents from Intel and AMD and they did not mentioned if such a guarentee exists. I know that this value may depends on processor model or even mother board design (for multi-socket machine). I guess there must be some limit on this latency on any sane currently available x86_64 machine.
I know how to use sychronization primitives such as locks or memory barriers to guarentee such behaviour. I just need to know if such a guarenteed latency existed for a memory access to become globally visible.
Thanks a lot!!