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I have a 123MB big intarray, and it is basically used like this:

private static int[] data = new int[32487834]; 
static int eval(int[] c)
    int p = data[c[0]];
    p = data[p + c[1]];
    p = data[p + c[2]];
    p = data[p + c[3]];
    p = data[p + c[4]];
    p = data[p + c[5]];
    return data[p + c[6]];

eval() is called a lot (~50B times) with different c and I would like to know if (and how) I could speed it up.

I already use a unsafe function with an fixed array that makes use of all the CPUs. It's a C# port of the TwoPlusTwo 7 card evaluator by RayW. The C++ version is insignificantly faster.

Can the GPU be used to speed this up?

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I wasn't sure how my question could be as useful as possible for others, therefore I generalized the function and added my current implementation as gist-snippet. If thats wrong, feel free to edit my question. – Sven Dec 27 '12 at 12:19
one way would be to parallelize this function across multiple cores... – Dave Bish Dec 27 '12 at 12:21
I already do – Sven Dec 27 '12 at 12:25
Maybe caching your array reference in a variable would help - var current = Hands[i]; But I doubt it'd make any difference.... – Dave Bish Dec 27 '12 at 12:33
What do you mean by insignificantly faster ? – leppie Dec 27 '12 at 14:28
up vote 2 down vote accepted
  1. Cache the array reference into a local variable. Static field accesses are generally slower than locals for multiple reasons (one of them is that the field can change so it has to be reloaded all the time. The JIT can optimize locals much more freely).
  2. Don't use an array as the argument to the method. Hard-code 7 integer-indices. That reduces array allocation, indirection-penalty and bounds checking.
  3. Use unsafe code to index into the array. This will eliminate bounds checking. Use a GCHandle to fix the array and cache the pointer in a static field (don't just use a fixed-block - I believe it has certain (small) overhead associated with entering it. Not sure).
  4. As an alternative to fixing the array, allocate the 123MB array using VirtualAlloc and use huge pages. That cuts down on TLB misses.

All of these are hardcore low-level optimizations. They only apply if you need maximum performance.

I think we are pretty much at the limit here when it comes to optimizing this function. We probably can only do better if you show the caller of the function so that they can be optimized as a single unit.

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Thanks for your suggestions. I know some of those words, more research for me ;) – Sven Dec 27 '12 at 15:30
This is the current initialization, suggestions? I don't know if thats the right place here.. – Sven Dec 27 '12 at 15:46
That looks fine. You can now change the HR array to an int* that points to a buffer allocated with VirtualAlloc passing MEM_LARGE_PAGES. You need to memcpy to that buffer and use that buffer in your calculation. – usr Dec 27 '12 at 16:20
Well, again I know some of those words. I'm sorry, but Google did absolutely not help. You probably wanted me to use P/Invoke with those C++ functions, but I couldn't find a single relevant example. Should I ask a new question in regards to this or can you help me with that? – Sven Dec 30 '12 at 23:37
@BeatMe I understand. If the docs (msdn.microsoft.com/en-us/library/windows/desktop/…) don't help you (I think they're good) I suggest you ask "How does allocating and using native memory with VirtualAlloc work with C#?". I think you'll get a more holistic answer from that than I can provide in a few lines. If you mention that you are not proficient with unsafe code yet you'll probably get very actionable answers. Feel free to post the link to the question here, though. – usr Dec 30 '12 at 23:57

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