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I have a good conceptual understanding of C++11's std::memory_order types (relaxed vs acquire-release vs sequentially consistent ...), but I'd like to have a better understanding of how they are typically implemented (by a compiler) for x86 (or x86_64) targets.

Specifically, a comparison of the low-level details (such as important memory-related CPU instructions for synchronizing state or cache between processors) for each of the order constraints (memory_order_consume, memory_order_acquire, memory_order_release, and memory_order_seq_cst).

Please provide as much low-level detail as possible, preferably for x86_64 or a similar architecture. Your help will be very much appreciated.

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2 Answers 2

up vote 4 down vote accepted

On x86 and x86_64 loads have acquire semantics and stores have release semantics anyway, even without using atomics, so all the memory orders except seq_cst require no special instructions at all.

To get full sequential consistency the compiler can insert an mfence instruction to prevent reordering of operations on distinct memory locations, but I don't think any other special instructions are needed.

Compilers need to avoid moving loads and stores across atomic operations, but that's purely a limitation on the compiler optimisers and requires no CPU instructions to be issued.

See http://www.stdthread.co.uk/forum/index.php?topic=72.0 for some good information.

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Herb Sutter breaks this down for x86 and other architectures included PowerPC and ARM in his atomic<> Weapons talks from C++ and Beyond 2012. I think the relevant slides are in the second part but the first part is also worth watching.

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This was also very helpful. +1. –  etherice May 29 '13 at 22:05

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