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I've been reading a paper on Sparse PCA, which is: http://stats.stanford.edu/~imj/WEBLIST/AsYetUnpub/sparse.pdf

And it states that, if you have n data points, each represented with p features, then, the complexity of PCA is O(min(p^3,n^3)).

Can someone please explain how/why?

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up vote 2 down vote accepted

Covariance matrix computation is O(p2n); its eigen-value decomposition is O(p3). So, the complexity of PCA is O(p2n+p3).

O(min(p3,n3)) would imply that you could analyze a two-dimensional dataset of any size in fixed time, which is patently false.

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Thanks Don...... –  GrowinMan Dec 11 '13 at 0:11
It's odd how the paper phrases this vaguely as "involves a search for directions." It does not outright say that this is the algorithm's complexity, just strongly implies it. –  Don Reba Dec 11 '13 at 0:14
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