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I have some questions connected with memory model in C++11.

On https://www.think-cell.com/en/career/talks/pdf/think-cell_talk_memorymodel.pdf on the 29. slide is written

The C++ memory model guarantees sequential consistency

But, in my previous posts I learnt that C++ memory has weak memory model- the compiler can make reorder as he wants- he has to satisfy as if rule.

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    One question per question, please! – MrEricSir Jul 17 '16 at 21:10
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I think I figured out what that slide is talking about, from reading the earlier slides:

slide 12: sequential consistency [Leslie Lamport, 1979]
the result of any execution is the same as-if

  1. the operations of all threads are executed in some sequential order
  2. the operations of each thread appear in this sequence in the order specified by their program

slide14: sequential consistency for data-race-free programs
SC-DRF:

  • We take care our program does not contain data races
  • The system guarantees sequentially consistent execution

So on slide 29, the authors are saying that once you avoid data-race UB using std::atomic, the program runs as-if everything happened in program order.

This is an interesting way to look at C++'s weak memory model. This looks like a good set of slides.


Part two

Please don't make a habit of asking two very different questions at once.

This "how does the CPU do it?" question would be a better fit as part of your later question: Atomicity on x86

I have most of an answer to it already written, which I'll put there instead.

  • I edited these posts to make it more clear. – Gilgamesz Jul 20 '16 at 21:44
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The C++ memory model guarantees sequential consistency if you use atomic operations with the appropriate memory orderings to guarantee sequential consistency. If you just use plain non-atomic operations, or relaxed atomics, and no mutexes, then sequential consistency is not guaranteed.

Compilers are free to re-order operations if the difference in behaviour cannot be observed, that's the as-if rule. So for example, if re-ordering sequentially consistent atomics would produce a different observable result then it doesn't meet the as-if rule. If it would not produce a different observable result, then reordering is allowed.

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    Ok, so it is clear. C++ has weak model ineed. – Gilgamesz Jul 17 '16 at 21:23
  • @PeterCordes, thanks :) – Gilgamesz Jul 19 '16 at 9:37
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    update, the slides aren't being sloppy, so I deleted my prev comment. See my answer for what I think they mean there. Still, one slide shouldn't make you doubt all the other evidence that C++'s default software memory model is weak/relaxed, which includes a zillion web pages and the actual behaviour of compilers. – Peter Cordes Jul 19 '16 at 9:43
  • Amazing! Is compiler allowed to reorder the atomic operations with sequential consistency ? – bigxiao May 4 '18 at 14:53
  • @Olumide detecting data races is not possible in general, so the compiler is not required to detect them. Data races are UB, so the compiler can assume they never happen, and it's your job to avoid them (e.g. by using atomic operations for accessing any shared data). I don't know what you mean by "back off from adding fences". It sounds like you should ask your own question, not try to hijack the comments here for new questions. – Jonathan Wakely Nov 26 '18 at 13:36

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