sustaining_gazes/matlab_version/face_validation/DeepLearnToolbox/NN/nntrain.m
2016-04-28 15:40:36 -04:00

77 lines
2.4 KiB
Matlab

function [nn, L] = nntrain(nn, train_x, train_y, opts, val_x, val_y)
%NNTRAIN trains a neural net
% [nn, L] = nnff(nn, x, y, opts) trains the neural network nn with input x and
% output y for opts.numepochs epochs, with minibatches of size
% opts.batchsize. Returns a neural network nn with updated activations,
% errors, weights and biases, (nn.a, nn.e, nn.W, nn.b) and L, the sum
% squared error for each training minibatch.
assert(isfloat(train_x), 'train_x must be a float');
assert(nargin == 4 || nargin == 6,'number ofinput arguments must be 4 or 6')
loss.train.e = [];
loss.train.e_frac = [];
loss.val.e = [];
loss.val.e_frac = [];
opts.validation = 0;
if nargin == 6
opts.validation = 1;
end
fhandle = [];
if isfield(opts,'plot') && opts.plot == 1
fhandle = figure();
end
m = size(train_x, 1);
batchsize = opts.batchsize;
numepochs = opts.numepochs;
numbatches = floor(m / batchsize);
assert(rem(numbatches, 1) == 0, 'numbatches must be a integer');
L = zeros(numepochs*numbatches,1);
n = 1;
for i = 1 : numepochs
tic;
kk = randperm(m);
for l = 1 : numbatches
batch_x = train_x(kk((l - 1) * batchsize + 1 : l * batchsize), :);
%Add noise to input (for use in denoising autoencoder)
if(nn.inputZeroMaskedFraction ~= 0)
batch_x = batch_x.*(rand(size(batch_x))>nn.inputZeroMaskedFraction);
end
batch_y = train_y(kk((l - 1) * batchsize + 1 : l * batchsize), :);
nn = nnff(nn, batch_x, batch_y);
nn = nnbp(nn);
nn = nnapplygrads(nn);
L(n) = nn.L;
n = n + 1;
end
t = toc;
if opts.validation == 1
loss = nneval(nn, loss, train_x, train_y, val_x, val_y);
str_perf = sprintf('; Full-batch train mse = %f, val mse = %f', loss.train.e(end), loss.val.e(end));
else
loss = nneval(nn, loss, train_x, train_y);
str_perf = sprintf('; Full-batch train err = %f', loss.train.e(end));
end
if ishandle(fhandle)
nnupdatefigures(nn, fhandle, loss, opts, i);
end
% disp(['epoch ' num2str(i) '/' num2str(opts.numepochs) '. Took ' num2str(t) ' seconds' '. Mini-batch mean squared error on training set is ' num2str(mean(L((n-numbatches):(n-1)))) str_perf]);
nn.learningRate = nn.learningRate * nn.scaling_learningRate;
end
end