I'm working on a project which will involve running algorithms on large graphs. The largest two have around 300k and 600k vertices (fairly sparse I think). I'm hoping to find a java library that can handle graphs that large, and also trees of a somewhat smaller size, as one of the algorithms I'll be using involves decomposing a graph into a tree. Ideally the library would also include breadth first search and Dijkstra's or other shortest-path algorithms.

Based on another question, I've been looking at a few libraries (JGraphT, JUNG, jdsl, yworks) but I'm having a hard time finding out how many vertices they can realistically handle. Looking at their documentation, all I could find was a bit in the JUNG FAQ that said it could easily handle graphs of upwards of 150k vertices, which is still quite a bit smaller than my graphs... I'm hoping someone here has used one or more of these libraries and can tell me if it'll handle the graph sizes I need, or if there's some other library that would be better.

For the record I don't need any visualization tools; this is strictly about representing the graphs and trees in data structures and running algorithms on them.

Background if anyone really cares: for a class I'm supposed to implement an algorithm described in a research paper, and run the experiments run in the paper as best I can. The paper and datasets I'll be using can be found here. My professor says I can use any library I can find as long as I can tell what the time/space complexity of the algorithms/data structures are.

  • 1
    Just found some info on JGraphT. Apparently it should handle these graphs no problem... – Maltiriel Mar 29 '12 at 19:16

You should take a look at Neo4J which is a graphical database which might be a good solution for your problems.

|improve this answer|||||
  • Thanks, I'm looking into this now. It can definitely handle those datasets. – Maltiriel Mar 29 '12 at 18:15
  • 1
    I'm first going to try one of the in-memory libraries, as that's what's done in the paper so I think my prof would like that better, but if that doesn't work I'll go with Neo4J. It looks easy to use and it has all the algorithms I need. Thanks for the suggestion! – Maltiriel Apr 2 '12 at 14:26

Checkout JGraph as well. However it is oriented towards visualization.

Also, maybe Apache Hama - a distributed computing framework for massive scientific computations e.g., matrix, graph and network algorithms.

Annas may also interest you - open-source Java framework that was built for developers and researchers in the fields of Graph Theory - AI, Path finding, distributed systems, etc.

|improve this answer|||||
  • Hmm. The info I've seen makes it seem like this wouldn't be as suitable... In the user manual they start off by going on about swing for example. I don't want to have to mess with the visualization stuff at all. Is that possible, do you know? – Maltiriel Mar 29 '12 at 18:19
  • @Maltiriel, you could potentially work on graph model standalone. However, if you don't need to visualize the graph, it is an overkill. – tenorsax Mar 29 '12 at 18:43
  • Thanks for the additional suggestions. Hama may be a bit much for what I'm doing, but Annas looks very interesting. I haven't come across either one in my searches before this. – Maltiriel Mar 29 '12 at 21:20

Cassovary https://github.com/twitter/cassovary -project from Twitter can handle very big graphs with Scala (thus JVM) in memory.

Alternatively, GraphChi's Java version can handle even bigger graphs, by using disk: http://code.google.com/p/graphchi-java/

However, GraphChi will not be efficient for exact shortest-path type algorithms, as they require fast random access.

|improve this answer|||||

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.