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In terms of runtime, what is the best known transitive closure algorithm for directed graphs?

I am currently using Warshall's algorithm but its O(n^3). Although, due to the graph representation my implementation does slightly better (instead of checking all edges, it only checks all out going edges). Is there any transitive closure algorithm which is better than this? In particular, is there anything specifically for shared memory multi-threaded architectures?

Thanks in advance.


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2 Answers 2

The Algorithm Design manual has some useful information. Key points:

  • Transitive closure is as difficult as matrix multiplication; so the best known bound is the Coppersmith–Winograd algorithm which runs in O(n^2.376), but in practice it's probably not worthwhile to use matrix multiplication algorithms.
  • For a heuristic speedup, calculate strongly connected components first.
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Thank you for the reply. I guess the heuristic speedup would be useful only if there many strongly connected components in the graph. I need to observe the graphs generated by different data sets to see if this is the case. But if that is not the case, then Warshall's is the best one isn't it. I thought there might be some more. –  Raghava Aug 19 '10 at 14:56
I think approach mentioned in the first bullet point of the first link is the way to go. It'll be relatively easy to parallelize, too! –  Tom Sirgedas Aug 20 '10 at 2:05
@Tom: As of now, I am already using a multi threaded graph library. So I am using their graph representation which isn't a matrix. –  Raghava Aug 20 '10 at 4:44

This paper discusses the performance of various transitive closure algorithms:


One interesting idea from the paper is to avoid recomputing the entire closure as the graph changes.

There is also this page by Esko Nuutila, which lists a couple of more recent algorithms:


His PhD thesis listed on that page may be the best place to start:


From that page:

The experiments also indicate that with the interval representation and the new algorithms, the transitive closure can be computed typically in time linear to the size of the input graph.

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