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i am using gcc 4.4.6 and atomics can be accessed by #include <cstdatomic> . After using them, i realized they are very very slow. Finally i came across a post on stackoverflow, which describes it here std::atomic<bool> is VERY slow

But i am not able to follow it. Can someone please help me understand that post or explain why atomics in gcc4.4.6 are so slow?

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I don't know about <stdatomic.h> (the new C11 atomic functionality), but the C++11 support in GCC 4.4 is generally not very mature. I would guess it would be the same for C11. – Joachim Pileborg Feb 2 '13 at 20:11
Because they don't use lock-free instructions. As the answer to that linked question said, upgrade to 4.7 – Seth Carnegie Feb 2 '13 at 20:12

2 Answers 2

I believe that gcc-4.4 was very early in the support for atomics. The atomics in gcc were recently reworked in gcc-4.7. I believe this is the first release where different hardware targets were able to use hardware-specific and efficient builtin functions. In gcc-4.8 a libatomic was provided. Over the course of 4.7 and 4.8 various platforms have upgraded their atomics support. The wiki explains some of the optimization tradeoffs wit the various memory models when using atomics.

Basically, gcc-4.4 was a bit early. IIRC even the standard specification for atomics was in flux through gcc-4.7.

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I have used the __sync_* functions in 4.6.3, and not noticed any notable slowness, nor does the assembler code generated show anything untoward. I just updated my project that used to use __sync_fetch_and_add to use std::atomic<>::fetch_add() - and although it doesn't call the atomic function THAT often, my code showed no difference at all - in single or multi-threaded runs of the code. So I agree with the previous answer: get a newer gcc, and it should fix itself.

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