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I have a small struct of per-CPU data in a linux kernel module, where each CPU frequently writes and reads its own data. I know that I need to make sure these items of data aren't on the same cache line, because if they were then the cores would be forever dirtying each other's caches. However, is there anything at the page level that I need to worry about from an SMP performance point of view? ie. would there be any performance impact from padding these per-cpu structures out to 4096 bytes and aligning them?

This is on linux 2.6 on x86_64.

(Points about whether it's worth optimising and suggestions that I go benchmark it aren't needed -- what I'm looking for is whether there's any theoretical basis for worrying about page alignment).

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up vote 5 down vote accepted

Within a single NUMA node, different pages are only helpful if you want to apply different permissions, or map them individually into processes. For performance issues, being on different cachelines is sufficient.

On NUMA architectures, you may want to place a CPU's per-CPU structure on a page that is local to that CPU's node - but you still wouldn't pad the structure out to a page size to achieve that, because you can place the structures for multiple CPUs within the same NUMA node on the same page.

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Thanks for the answer. With 'exotic NUMA' are you suggesting that for some NUMA architectures there may be artificial cache contention between data on separate lines but in one CPU's page? Can you give an example of such an architecture? –  kdt Dec 22 '10 at 14:26
    
I think what caf meant was that NUMA is considered exotic (debatable), and in a NUMA system, you want each core to store its data on locally-accessible memory (true). –  Karmastan Dec 22 '10 at 15:51
    
I don't know if it's exotic but it sure is ugly. –  R.. Dec 22 '10 at 16:16
    
@kdt: I just meant that for best performance you might want to allocate a node-local block of memory, which will by necessity be at least a page in size. –  caf Dec 22 '10 at 21:07
    
NUMA isn't exotic anymore. Anything much bigger than a small x86 server will be NUMA these days. –  mpe Dec 23 '10 at 2:28
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Even on a NUMA system, you probably won't benefit much by allocating memory pages local to each cpu (use kmalloc_node(), if you're curious).

Node-local memory will be faster, but only in the case where it misses at all cache levels. For anything used with any frequency, you probably won't be able to tell the difference. If you're allocating megabytes of cpu-local data, then it probably makes sense to allocate pages local to each cpu.

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Well, I've read a fair bit about linux having NUMA support these days. In a NUMA setup, it would be helpful if the data for each CPU was located on a page that is local to that CPU.

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percpu generally makes sure that they don't share a cache line. Otherwise commits like 7489aec8eed4f2f1eb3b4d35763bd3ea30b32ef5 would have been pretty useless.

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