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Is there a good way to do a multithreaded A* search? Single threaded is fairly easy, as given in (for example) Artificial Intelligence: A Modern Approach, but I have not come across a good multithreaded version.

Assume a sane language like Java or C# or Lisp where we have thread pools and work blocks, and of course garbage collection.

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So non garbage collected languages are not sane languages? –  BobbyShaftoe Oct 28 '09 at 22:49
Not for doing A*! –  Adam Goode Oct 28 '09 at 22:56
I don't think garbage collection is at all necessary for A*. Sequential A* is pretty simple. Parallel A* has some workload issues. –  BobbyShaftoe Oct 28 '09 at 23:03
I guess reference counting would probably be sufficient, is that what you are thinking? –  Adam Goode Oct 28 '09 at 23:07
You really don't need either (though each are nice to have). Memory management is not remotely complex in this case, and I say that having implemented A* in both Python and C++. –  Kylotan Oct 31 '09 at 11:00

2 Answers 2

up vote 6 down vote accepted

I recommend reading this paper:

"Parallel bidirectional A* search on a symmetry multiprocessor"

There is also another paper, also at IEEE called:

"Parallel Astar search on message-passing architectures"

Both papers find novel methods for gaining quite a bit of speedup.

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Links would be helpful. –  Steven Roose May 4 '13 at 15:04

I hear what you are saying but I am not sure that you would want to. In an A* search you want to take the most optimal path and you don't want to do any calculations for the same path twice.

Look at the facts:

  • The 'best' squares to choose are all next to eachother
  • Calculating for any other square other than the 'best' choice is premature computation. The point of A* is that it's choices are efficient.

If you threaded the application you would need:

  • a 'Waiter' in order to make sure that no thread touched the same square and to give them new squares to caclulate. They would all be working in such a tight knit area that they would be fighting for the path resources because all of the 'best' squares are next to eachother.

This problem is procedural and has no nice way of breaking it up into separate parts and thus is not a good choice for threading. In short nobody has done it because it is not a desirable thing to do. I hope this helps.

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It's true you might do extra work, but I could imagine an algorithm where you do sufficiently little wasted work that you can benefit from the many hardware threads that exist these days, especially if your search space is big or you have a poor heuristic. –  Adam Goode Oct 28 '09 at 22:55
Yes but all the 'best' squares are next to eachother. This would only help if your goal was not a single point. If your goal was say get to any wall of a room then threading would be nice because you could make one thread for each wall fo the room and run to it and then take the result of the best thread. But for single point A* search this is not a good idea. –  Robert Massaioli Oct 28 '09 at 22:59
There is not just the matter of wasted work, there also is the overhead incurred by coordinating threads. –  meriton Oct 28 '09 at 23:03
Well, that's not really true. If you look into the literature this has been done a few times. –  BobbyShaftoe Oct 28 '09 at 23:04

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