I am trying some machine learning algorithms in GNU Octave like the squared error cost function. The text I have says the proper vectorized forumula is:

J = (X * theta - y)' * (X * theta - y) * (1/(2*m)

where X is an m x n+1 matrix, theta is a n+1 x 1 vector, and y is a m x 1 vector. My question is whether this second way is a bit faster:

J = sum((X * theta - y).^2) * (1/(2*m))

since it only calculates X * theta -y once. Being new to octave, which seems to run in a very temperamental environment on windows, I don't know how to do benchmarking myself.

Since this is more of curiosity than anything, feel free to tell me it just doesn't even matter.

  • Are you sure the formulae yield identical results? If you want to optimize, why don't you write: TMP = (X * theta - y) J = TMP' * TMP * (1/(2*m)) – Deer Hunter Oct 11 '12 at 17:45

This checks wallclock time:

octave:2> tic; sleep(3); toc
Elapsed time is 3.00161 seconds.
octave:3> help tic

The resolutions is not too great, hence you might want to run a calculation several times in a loop.

To measure CPU time, use cputime:

octave:7> cputime()
ans =  0.21000
octave:8> sleep(3)
octave:9> cputime()
ans =  0.21000
  • Thanks, those will be useful. – Indigenuity Oct 10 '12 at 22:05

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