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Say I have predictor array x=numpy.array(n,px) and a predicted array y=numpy.array(n, py) What would be the best way in python to calculate all regression (linear) from x to each dimension of y (1...py)? The output of the whole thing would be a matrix (py, px) (for each output, px parameters).

I could of course easily iterate over outputs dimensions (for each computing normal single output multivariate input OLS), however that would be inefficient as I will recalculate the pseudo inverse matrix of x.

Is there any efficient implementation out there? Could not find any (neither http://wiki.scipy.org/Cookbook/OLS)

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how does y correlate with x, in a general equation of the form: y = ax + b? –  Saullo Castro Aug 27 '13 at 19:59

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I figured scikit-learn would have done this already, so I looked at the source code and discovered that they use scipy.linalg.lstsq (see line 379).

According to the docs, the scipy version of lstsq does indeed accept a matrix as the b parameter. (Actually the numpy version accepts a matrix value as well.)

Maybe these are what you're looking for ?

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Yeah, I did something similar: used numpy.linalg.lstsq ... The problem is this lacks the computation for p value and likelihood. I guess the wrapper of linear regression in scikit-learn should be updated to support multiple outputs in the future –  Hanan Shteingart Sep 1 '13 at 14:22

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