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I want to accelerate my algorithm using long long instead of double data type. My algorithm is to find the shortest path in a directed acyclic graph (DAG). Simply, it adds the weight of an edge "E: a->b" to b, and if the new weight of b is lower than the previous one, it is updated along with its parent which is set to a.

I mean, my algorithm is simply some addition and comparison operations. The weight of edges are originally of "double", is it possible for me to multiply them to a large number and cast them to "long long". If this tweak makes my program faster and worth considering. How can I handle instability problems due to rounding big double to long long.

Thanks

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Try both, and compare the results of whatever criteria you want to measure in. –  Joachim Pileborg Feb 5 '13 at 6:32

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On i5 x64 even imul seems to about 40% faster [than double multiplication]. Integer addition should also happen in fewer cycles / better throughput. About the "inexactness" problem you should be aware that doubles can be more inexact than integers.

Calculate which numbers cause problems when converting decimal to floating point?

If you have access to the original data (e.g. decimal representation of the weights, multiplying them with a large power of ten should produce exact integers without any rounding artifacts. With long longs the only concern will be that of an overflow.

How to address possible rounding instability depends on the dynamic range of your weights, and the maximum number of iterations. E.g. if your weights are all less than 1.0 and larger than 2^-52, then multiplying with 2^52 gives exact integers with no rounding errors. Then the "instability" is determined by the possibility of an overflow. (2^12 * 2^52) >= 2^64.

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I have doubles, but I want to go to long or long long getting more faster code. It's likely it is very dependent on the algorithm itself. –  remo Feb 5 '13 at 7:16
    
Just go ahead -- and as commented by J.P. do a performance comparison. (I should have mentioned, that even imul is a bit faster than double multiplication in an undisclosed test setup -- you'll be probably using mostly addition. The keyword "weight" was the probable reason for comparing multiplications.) –  Aki Suihkonen Feb 5 '13 at 7:51
    
Any idea to implement the shortest path problem for a DAG on a GPU? –  remo Feb 5 '13 at 10:06

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