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I'm coding an computationally expensive application (NLP machine learning task) which is in a need of optimization.

Since my code has a lot of for-loops, I've used the Parallel.For (and variants) to parallelize the outer-most loops. I've also used arrays and Dictionarys to build a few indices which cut the cost considerably.

VS2010's profiler indicated that the application spends most of it's time in Dictionary.TryGetValue() (which is a side-product of indices).

This begs the question whether I can do better? And how?

My first question is whether there is general consensus that ConcurrentDictionary.TryGetValue performs any better than Dictionary.TryGetValue in my scenario -- many readers, no writers?

I'm not motivated to code my own hashmap as it will probably fare worse than .NET's collections. But are there any libraries out there that guarantee faster lookups for my scenario?

Perhaps the hashcode implementation is slowing things down?

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3 Answers 3

up vote 8 down vote accepted

Dictionary.TryGetValue is already very well optimized, according to MSDN:

This method approaches an O(1) operation.

You haven't mentioned what are the keys of your dictionary, if you use a custom type, make sure you've implemented its GetHashCode method properly, as dictionaries and hash tables rely on it and use it extensively.

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O(1) is not quite the same thing as "very well optimized". I could add Thread.Sleep(60000) to the start of a method and still legitimately claim it was O(1) ;p –  Marc Gravell May 16 '13 at 7:25
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Yes, you can, but if you are after maximum performance you won't ;) What I mean, is that the TryGetValue method is unlikely to be causing slow downs, but the GetHashCode method may be doing so if not coded properly. –  Pavel Vladov May 16 '13 at 7:28
    
I've profiled the GetHashCode method, and the program spends less than 0,1% time in it. I guess I'll need to approach this bottleneck in a different way. –  Howie May 16 '13 at 15:05

When looking at profiler result which claims a method is accountable for most of the execution time, it is also important to figure out if it is because:

  1. The method has been called too many times, or
  2. a single invocation of the method takes a long time

If TryGetValue accounts for the most of the time because it is called too many times, it probably is an indication that you need to reduce the complexity of your indexing/lookup algorithm so that TryGetValue can be called less frequently.

It will only be worthy to further investigate the TryGetValue method if it takes a long time per invocation. However as Pavel mentioned, TryGetValue itself is already well optimized. It is very likely the method(s) invoked by TryGetValue, the method(s) that can be overridden by you, is to be blamed. Typically you need to pay attention to GetHashCode and Equals method. Both of them will be invoked when calling TryGetValue. Equals may be invoked more than once. My experience is that Equals method usually has a better chance to be the problem since the built-in equality comparison of certain framework construct involves reflection.

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My first question is whether there is general consensus that ConcurrentDictionary.TryGetValue performs any better than Dictionary.TryGetValue in my scenario -- many readers, no writers?

I haven't tested it, but I would typically expect a concurrent implementation to have additional overheads, being slightly slower overall. The difference comes when you need to synchronize access - i.e. if your read-centric code needs to lock the dictionary, then the concurrent version (without locks) may be faster. Since you mention that your code has no writers, I'm guessing you aren't using locks, and thus there won't be any reason to look at one implementation over the other. That said, it may be worth profiling it, but even if it was faster (and again: I expect it to be slightly slower), I would only expect it to be slightly faster - so unlikely to change the performance significantly.

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