Scipy and Numpy have between them three different functions for finding eigenvectors for a given square matrix, these are:
Focusing specifically on the situation that all the optional arguments I've left off the last two are left at their defaults and that
A is real-valued, I am curious about the differences among these three which are ambiguous from the documentation - especially:
- Why does (3) have a note that it can't find all eigenvectors?
- Why must the other two compute all solutions - why don't they take a
- (1) has a note saying that the eigenvalues are returned in no particular order; (3) has an optional argument to control the order. Does (2) make any guarantees about this?
- Does (3) assume that
Ais sparse? (mathematically speaking, rather than being represented as a scipy sparse matrix) Can it be inefficient, or even give wrong results, if this assumption doesn't hold?
- Are there other factors I should consider when choosing among these?