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im trying to make a multithreaded extension to the FANN library. Because FANN is not threadsafe i will do this:

  1. divide the training set in N pieces (N is the number of CPUs)
  2. copy the ANN to N copies
  3. train each on his piece for 1 epoch
  4. combine the ANN weights from the N copies
  5. if not end conditions goto 2.

My question is: how can I combine the neural network weights into one. Can I just make mean from all?

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That would be a new training algorithm and I think it wouldn't work as good as the existing algorithms. You could make N copies of the network and use each copy to calculate gradients of different training examples and then sum up these gradients to adjust the weights of all networks in the same way. Then you will have N identical networks. – alfa Sep 5 '12 at 10:06
I tried it and it goes good. Thank you! – microo8 Sep 6 '12 at 10:42
Did you try what you suggested or did you try what I suggested? :D Btw. when you make a copy of all networks, are you really faster? The networks have to be big enough and the training has to be complex enough to compensate the initial computational cost. – alfa Sep 7 '12 at 14:20
I writen what you suggested. But it is just a little bit faster. but i must make copies of the ann. Or what you recommend? I also think i can use this algorithm with RPC and than i must also make copies. – microo8 Sep 8 '12 at 9:32
When you don't make these copies, you won't be able to calculate the gradient correctly. If your problem is complex enough, i. e. the optimization needs many steps to converge, however, the overhead will be negligible. – alfa Sep 9 '12 at 7:47

I am curious how you managed to merge them. I my opinion, spliting is not a big deal, we can always have n networks and feed samples as we want, but what we gonna do with n different results is the qn. I didnt see that answer in this thread and hence want

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This should be in the comments, not an answer. – JabberwockyDecompiler Nov 5 '15 at 19:27

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