# How to traverse a graph in parallel with 2 or n processes

I am searching on the internet in order to find some algorithm that can traverse a graph in parallel using 2 or n processes without one process stepping into a previously visited node of the other so I can speed up the total scanning task of the whole graph, but I can't find anything. Is there any algorithm that can help me do such task in parallel? is it worth it?

Note : n processes share the same memory of visited and tovisit nodes

thank you

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You should also indicate what is your memory model. Is it shared memory? – amit Nov 30 '12 at 17:26
yes it is shared memory – themis Nov 30 '12 at 17:27
I think this case looks like a producer consumer problem, but if I make processes wait for each other then it is worth it? – themis Nov 30 '12 at 17:33
Does the graph have loops? – Gabe Moothart Nov 30 '12 at 17:35
I would try doing it as a producer consumer indeed but writing and reading from the queue in blocks rather then a single element, and doing some extra work when adding to make sure the elements is not visited since it was last checked – amit Nov 30 '12 at 17:36

You can try the consumer-producer model for traversing the graph - but with some modifications from the pure model:

• Read and write to the queue in blocks, rather then element at a time, also update the `visited` set in blocks. It will save you the synchronization time - which will be needed to be done less frequently.
• When you do modify the queue (and `visited` set) - you should do some extra work to make sure you don't add data that was already visited since the set was last checked.

Note that with this approach - you are more then likely to search some vertices a few times - but you can bound it with the frequency the queue and `visited` set are updated.

Will it worth it? It is hard to say in these things - it is dependent on a lot of things (graph structure, size, queue implementation, ...).

You should run a few tests and try to fine tune the parameter for "how often to update", and check which is better empirically. You should use statistical tools (wilcoxon test is the de-facto standard for this usually) and determine if one is better then the other.

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Unless the bulk of the time is spent on actual traversal, you could traverse the graph on a single thread, and queue up the work at each node to be processed in parallel from multiple processes. Once you have work in a queue, you can use a simple producer-consumer model.

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so you say that I need to split the work of collecting the nodes of each process by n process, and gathering the new nodes to be visited by a single process? – themis Nov 30 '12 at 17:50
A model like this would keep the graph traversal simple (use whatever algorithm you are using today), and make it easy to parallelize the work being performed at each node. – Scott Wegner Nov 30 '12 at 19:43