I'm trying to get into something deeper to better understand how many options do I have when writing multi-threaded applications in C++ 11.

In short I see this 3 options so far:

  • mutexes with explicit locking and freeing mechanism, they keep the threading in sync by locking and freeing, this is costly and doesn't guarantee the ordering of the execution of my code, but often times this solution is quite portable among different memory models.
  • atomic operations, since atomic = 1single operation without a race and it is always consistent, the sync is accomplished without locking and freeing, there is no need for locking without a race, with highly optimized atomic operations, but atomics still can't guarantee the order in which my code will be executed.
  • fences, they create a block in my code where nothing can't be re-ordered by the compiler, are less flexible and they tend to be costly in terms of code maintenance because I always have to keep an eye on what is really being executed and in what order, but they also improve caching techniques and among this 3 solutions they are probably the one with the most predictable behaviour.

This is more or less the core of what I got from the first lessons about threading and memory models, my problems is:

I was going for lockfree data structures and atomics to achieve flexibility and good performances, the problem here is the fact that apparently an X86 machine performs memory re-ordering differently from an ARM one and I would like to keep my code portable as much as possible at least across this 2 platforms, so what kind of approach you can suggest to write a portable multi-threaded software when 2 platforms are not guarantee to have the same re-ordering mechanisms ? Or atomic operations are the best choice as it is by now and I got all this wrong ?

For example I noticed that the Intel TBB library ( which is not C++11 code ) is being ported to ARM/Android with heavy modifications on the part dedicated to the atomic, so maybe I can write portable multi-threaded code in C++11, with lockfree data structures, and optimize the part about atomic later on when porting my library to another platform ?


The issues surrounding multi-threaded programming are not language-specific or architecture-specific. You are better off studying them first with a generalized view - and only after, as a second step, specializing your general understanding to specific languages, libraries, platforms, etc, etc.

The textbook required when I went to school was:

Principles of Concurrent and Distributed Programming - Ben-Ari

The second edition is 2006 I believe. There may be better ones, but this should suffice for starters.

  • thanks, I will take a look at it, there is some library with atomic and a threading pool that I can take as a reference for teaching purpose ? I mean even if it's not super-duper-fast but it's clearly written it's ok. – user2485710 Jun 26 '13 at 21:37

Yep, X86 and ARM have different memory models. The C++11 memory model is however not platform-specific, it has the same behavior everywhere.

That means implementation of the C++11 atomics is different on each platform - on x86, which has a fairly strong memory model, the implementation of std::atomic might get away without special assembler instructions when storing a value, while on ARM, the implementation needs special locking or fence instructions internally.

So you can simply use the atomic classes in C++11, they will work the same on all platforms. If you want to, you can even tweak the memory order if you are absolutely sure what you are doing. A weaker memory order might be faster since the implementation of the atomics might need less assembler instructions for locks and fences internally.

I can highly recommend watching Herb Sutter's talk Atomic Weapons for some detailed explanations about this.

  • I already watched that webinar, my point is where do I start in practice, I mean I would like to write my C++11 compliant threading pool with atomic and lockfree data structures under the hood: where do I start assuming that I know how to code in C++ but I know almost nothing about multithreaded programming ( I have always worked on single-threaded stuff ). My point is more about what kind of theory do I need to add to my C++ knowledge to build a real library. – user2485710 Jun 26 '13 at 21:36
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    I see. Maybe a good book would be "C++ Concurrency in Action" by Anthony Williams. While the examples are all C++11, I think it gives enough theoretical background. As a bonus, the book contains examples about how to write lock-free algorithms and even a thread pool, seems like exactly what you are looking for. – Thomas McGuire Jun 26 '13 at 21:41

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