0

I have created a simple feed forward Neural Network library in Java - and I need a benchmark to compare and troubleshoot my library.

Computer specs:

  • AMD Ryzen 7 2700X Eight-Core Processor
  • RAM 16.0 GB
  • WINDOWS 10 OS
  • JVM args: -Xms1024m -Xmx8192m

Note that I am not using a GPU.

Please list the following specs:

  • Computer specs?
  • GPU or CPU (CPU is proffered but GPU is good info)
  • Number of inputs 784 (this is fixed)
  • For each layer:
    • How many nodes?
    • What activation function?
  • Output layer:
    • How many nodes? (10 if classification or 1 as regression)
    • What activation function?
  • What loss function?
  • What gradient descent algorithm (i.e.: vanilla)
  • What batch size?
  • How many epochs? (not iterations)
  • And finally, what is the training time and accuracy?

Thank you so much

Edit

Just to give an idea of what I am dealing with. I created a network with

  • 784 input nodes
  • 784 in hidden layer 0
  • 256 in hidden layer 1
  • 128 in hidden layer 2
  • 1 output nodes
  • mini-batch size 5
  • 16 threads for backprop And it has been training for ~8 hours and has only completed 694 iterations - that is not even 20% of one epoch.

How is this done in minutes as I've seen some claims?

9
  • I'm unclear as to what you want here. Do you want someone to train a network with the MNIST dataset and report the performance?
    – rayryeng
    May 12 '19 at 1:36
  • @rayryeng I am assuming someone already has - and they have the information available
    – Edv Beq
    May 12 '19 at 1:36
  • 1
    Probably not - MNIST is a toy dataset and usually just used for demonstration purposes to show that neural networks can achieve higher accuracy and performance within just a few epochs. Results are quite reproducible regardless of any package or framework you use. Most likely someone will have to set this up and run it again to give you what you want - that I don't believe many people will want to do.
    – rayryeng
    May 12 '19 at 1:39
  • @rayryeng Then I ll add a bounty - or Venmo someone :)
    – Edv Beq
    May 12 '19 at 1:40
  • 1
    @EdvBeq, you might want to consider spinning up virtual machines of varying specs in AWS, GCP, Azure, etc. and building the desired list yourself :) May 12 '19 at 15:24
1

784 input nodes 784 in hidden layer 0 256 in hidden layer 1 128 in hidden layer 2 1 output nodes mini-batch size 5

You could do thinner do: 784 => 784/2, 160, 40, batch size at least 50.

And yes event in java, what generally slow, the naive solution must run like several minutes for COMPLETE train means 10~20 epoch.

How have you implemented it? Do not tell you have a neuron class and each neuron is represented by an instance.

It dont suppose to run so horrible slow. The optimisations i know is to represent second matrix of dot transposed and use strassen-vinograd algorithm, but you do wrong something else

Look at my dot implementation:

import java.util.Arrays;

public class JTensor {


private float [] data;// contains data.length

private int width;



public static void dot_T(double [] out, double [] x, double [] y, int wy) {

    int iOut = 0;
    for (int ix = 0; ix < x.length; ix+=wy) {

        for (int iy = 0; iy < y.length;) {

            int ixv = ix;

            int iyLimit = iy + wy;
            double summ = 0;
            for(;iy <iyLimit;) {                    
                summ += x[ixv++] * y[iy++];             

            }
            out[iOut++] = summ;         



        }


    }


}

public static void main(String[] args) {

    System.out.println("generate random");

    int size = 1000;

    double []x = new double [size * size];

    double []y = new double [size * size];

    double []out = new double [size * size];

     for (int i = 0; i < x.length; i++) {            
         x[i] = (double)i   ;       
    }

     for (int i = 0; i < y.length; i++) {            
         y[i] = (double)i   ;           
    }       

    System.out.println("start ");
    long start = System.nanoTime();

    JTensor.dot_T(out, x,y,size);

    long end = System.nanoTime();

    System.out.println("elapsed " + ((end- start)/ (1000.0*1000*1000)));

    //System.out.println(Arrays.toString( x));
    //System.out.println(Arrays.toString( y));
    //System.out.println(Arrays.toString( out));


}
5
  • "Do not tell you have a neuron class and each neuron is represented by an instance." haha yes - actually I have a class instance for each node and each connection from one node to another. Is that bad?
    – Edv Beq
    Jul 18 '19 at 0:19
  • OMG... yes. You should do this with only matrix operations - dot product and elementvise operators. Also in java represent matrix as one dimensional array, second matrix is transposed because of sequential access and also like 1d array and look yourself how to do mult to them. Jul 18 '19 at 0:20
  • also it is an illustration how java objects are slow compare to primitive ops Jul 18 '19 at 0:22
  • yes I can see that now - but it was the only way i could wrap my mind around it. I get lost with matrix operations
    – Edv Beq
    Jul 18 '19 at 0:24
  • ok give me a second i ll find my dot product implementation. I also wrote NN in java long ago for fun Jul 18 '19 at 0:25
0

am not really clear about the benchmark you're looking for, there is it performance from training perspective, or accuracy? for accuracy, there are some tools that can do the comparison between the predictions and actuals so you can measure the performance

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.