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In Dmitry Vyukov's excellent bounded mpmc queue written in C++ See: http://www.1024cores.net/home/lock-free-algorithms/queues/bounded-mpmc-queue

He adds some padding variables. I presume this is to make it align to a cache line for performance.

I have some questions.

  1. Why is it done in this way?
  2. Is it a portable method that will always work
  3. In what cases would it be best to use __attribute__ ((aligned (64))) instead.
  4. why would padding before a buffer pointer help with performance? isn't just the pointer loaded into the cache so it's really only the size of a pointer?

    static size_t const     cacheline_size = 64;
    typedef char            cacheline_pad_t [cacheline_size];
    cacheline_pad_t         pad0_;
    cell_t* const           buffer_;
    size_t const            buffer_mask_;
    cacheline_pad_t         pad1_;
    std::atomic<size_t>     enqueue_pos_;
    cacheline_pad_t         pad2_;
    std::atomic<size_t>     dequeue_pos_;
    cacheline_pad_t         pad3_;

Would this concept work under gcc for c code?

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1 Answer 1

up vote 20 down vote accepted

It's done this way so that different cores modifying different fields won't have to bounce the cache line containing both of them between their caches. In general, for a processor to access some data in memory, the entire cache line containing it must be in that processor's local cache. If it's modifying that data, that cache entry usually must be the only copy in any cache in the system (Exclusive mode in the MESI/MOESI-style cache coherence protocols). When separate cores try to modify different data that happens to live on the same cache line, and thus waste time moving that whole line back and forth, that's known as false sharing.

In the particular example you give, one core can be enqueueing an entry (reading (shared) buffer_ and writing (exclusive) only enqueue_pos_) while another dequeues (shared buffer_ and exclusive dequeue_pos_) without either core stalling on a cache line owned by the other.

The padding at the beginning means that buffer_ and buffer_mask_ end up on the same cache line, rather than split across two lines and thus requiring double the memory traffic to access.

I'm unsure whether the technique is entirely portable. The assumption is that each cacheline_pad_t will itself be aligned to a 64 byte (its size) cache line boundary, and hence whatever follows it will be on the next cache line. So far as I know, the C and C++ language standards only require this of whole structures, so that they can live in arrays nicely, without violating alignment requirements of any of their members. (see comments)

The attribute approach would be more compiler specific, but might cut the size of this structure in half, since the padding would be limited to rounding up each element to a full cache line. That could be quite beneficial if one had a lot of these.

The same concept applies in C as well as C++.

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@Novelcrat - Ok that makes a lot of sense. So what about questions 2 & 3? –  Matt Dec 12 '11 at 3:43
@MattH: For portability C++11 introduces std::aligned_storage which allow you to require a storage of defined size and alignment. The default alignment for a char [N] is 1 otherwise. –  Matthieu M. Dec 12 '11 at 7:32
Why would the linker not optimize the padding variables out if they are not used? –  RishiD Aug 26 '13 at 17:37
Actually, there is no assumption that "cacheline_pad_t will itself be aligned to a 64 byte;" alignment is actually not required. The padding just guarantees the only goal, namely that the variables before and after are in different cache lines. –  hrr Feb 17 at 11:22

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