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I am training a neural network to classify images and it takes too long to finish one iteration... about five minutes and it is still not done. I am using Encog 3.1. Is there something wrong with my code?

BasicNetwork network = new BasicNetwork();
        network.addLayer(new BasicLayer(null,true,5625));
        network.addLayer(new BasicLayer(new ActivationSigmoid(),true,(intIdealCount+5625)/2));
        network.addLayer(new BasicLayer(new ActivationSigmoid(),true,intIdealCount));

here is my training codes:

final ResilientPropagation train = new ResilientPropagation(network, trainingSet);

        int epoch = 1;

        do {
            System.out.println("Epoch #" + epoch + " Error:" + train.getError());
        } while(train.getError() > 0.01);

Any response will be appreciated. Thank you.

share|improve this question
I'm not familiar with this library, but am familiar with machine learning and its application to imaging. It could take a long time... – Steve P. Nov 10 '13 at 6:20
Hi, Sorry for OT, but I am starting with encog and I have some things that I do not fully understand. Can I ask you for a little bit of your time an help? If yes, please check my question… .Thank you – user2886091 Feb 20 '14 at 12:14
up vote 3 down vote accepted

Your code seems fine, but training can get arbitrary long depending on your data. From the size of your network one can deduce, that you are working with images - now if you have lots of them - even the most efficient implementation will take forever. Encog is quite good piece of code - it by default works on all avaliable cores, but FANN seems to be the fastest library for ANN for now.

You have ~5000 input neurons, assuming that you have ~10 output neurons, you have ~2500 hidden ones. So your network has (5000+1)*2500 + (2500+1)*10 weights (about 12,500,000). Now, assuming that you have N images in your training set - one epoch requires computation (and update) of 12,500,000 * N values. So even if you have just ~200 images it is 2,500,000,000 updates to compute.

There are at least three possible ways:

  • Try the FANN library, which is one of the most efficient ones
  • Reduce dimensionality of your images using for example PCA (and as a result - reduce the size of the network)
  • Are you sure that you need 2500 hidden nodes? It is quite a lot
share|improve this answer
how many hidden layers do you suggest? i am working on a skin disease diagnosis via image recognition. – Ray Lionfang Nov 10 '13 at 16:35
I suggest as small as possible. Bigger amount not only means longer computation but also more probable overfitting. Simply start with some small one and increase its size if necessary - not the other way around. – lejlot Nov 10 '13 at 22:13
I've never used Encog before - but thats not the full picture. While a big number - thats only 2.5 GigaFLOPs. A (not fancy) core 2 Q6600 can do 38 GigaFLOPs per second. Even assuming a penalty for Java being slower than C/C++ for raw throughput - it should be possible to complete 1 epoch in a reasonable time. – Raff.Edward Nov 11 '13 at 9:44
see specs here: – Raff.Edward Nov 11 '13 at 9:48
now I'm getting a better iteration rate... about 3 iterations for five mins... I want to ask now if is it alright to use raw single-int rgb value for the image recognition input neuron so i could save memory space or should i use the red, green and blue values as three separate neurons? – Ray Lionfang Nov 11 '13 at 17:14

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