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Currently I try to improve my understanding of memory barriers, locks and memory model.

As far as I know there exist four different types of relaxations, namley Write -> Read, Write -> Write, Read -> Write and Read -> Read. An x86 processor allows just Write->Read relaxation which is often called Total Store Order (TSO). Partial Store Order (PSO) allows further Write->Write relaxations and Relaxed Store Order (RSO) allows all the above relaxations.

Further there exist three types of memory barriers: release, acquire and both together. Locks can use just acquire and release barriers or sometimes full barriers (.Net).

Now consider the following example:

// thread 0
x = 1
flag = 1

//thread 1
while (flag != 1);
print x

My current understanding tells me, that I need no additional memory barriers if I run this code on TSO machine. If it is a PSO machine I need a release barrier between x=1 and flag = 1 to ensure that thread 1 gets the actual value of x if flag =1. If it is a RSO machine I need further a acquire barrier between while(flag != 1); and print x to prevent that thread 1 reads the value of x to early.

Are my observations correct?

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1 Answer 1

I am thinking your code sample is close to one in this question

That said for RSO you need more memory barriers than you describe, more specifically for example one that provides freshness guarantee for thread 1 before while.

I am unsure about TSO and PSO part, hope this can be helpful cause I was also trying to understand memory barriers in that question and a couple of related ones

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