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I currently work on a machine learning algorithm and I noticed that when I use Matlab's fminunc the algorithm converges to the global minimum very fast (few iterations) comparing to when I manually update the parameters:

thetas[j] = thetas[j] - (alpha*gradient)/sampleNum;

I think it's because I naively presume alpha (step proportion) to be constant.

So, how does one implement something like fminunc in C?

I tried to start with a large alpha and adjust it if the current cost turns out to be larger than the previous cost. The problem with this comes when the shape of the minimised function is not linear, since alpha can get a very small value initially and fail to return to a larger one when the function shape tends to become 'flat' (and larger steps could be taken).

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Matlab's fminunc doesn't use gradient descent. It uses quasi-Newton methods, which can be significantly faster, no matter how you control the step size. –  3lectrologos Dec 22 '12 at 0:37
@3lectrologos thanks for the insight. That would explain why I get very good results for quadratic functions when using fminunc. So, maybe I should try to use a different method instead improving my alpha guessing. From your experience, using quasi-Newton methods has any downsides compared with gradient descent (except that, it's probably harder to implement) –  Valentin Radu Dec 22 '12 at 0:52
I'm probably not the right person to answer this, but I think there are some implementation details in Newton-like methods that may be somewhat tricky if you try to implement them from scratch (e.g. numerical issues). In terms of performance, I don't know of a reason to prefer gradient descent, except if your problem is really large (see stochastic gradient descent). –  3lectrologos Dec 22 '12 at 1:05
Since your first comment somehow answers my question (I was wrong to assume fminunc uses gradient descent and probably improving my step size guessing won't take me to the right direction) could you convert it to an answer so I can accept it. I'll study further the quasi-Newton methods. Thank you! –  Valentin Radu Dec 22 '12 at 1:19

1 Answer 1

up vote 3 down vote accepted

Matlab's fminunc doesn't actually use gradient descent, but rather Newton-like methods (BFGS-based quasi-Newton or trust-region depending on the problem size), which are in general significantly faster than gradient descent, no matter how you choose the step size.

Maybe you should look into this kind of methods if you want faster convergence.

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