How large a system is it reasonable to attempt to do a linear regression on?
Specifically: I have a system with ~300K sample points and ~1200 linear terms. Is this computationally feasible?
How large a system is it reasonable to attempt to do a linear regression on? Specifically: I have a system with ~300K sample points and ~1200 linear terms. Is this computationally feasible? 


You can express this as a matrix equation: where the matrix is 300K rows and 1200 columns, the coefficient vector is 1200x1, and the RHS vector is 1200x1. If you multiply both sides by the transpose of the matrix , you have a system of equations for the unknowns that's 1200x1200. You can use LU decomposition or any other algorithm you like to solve for the coefficients. (This is what least squares is doing.) So the BigO behavior is something like O(m*m*n), where m = 300K and n = 1200. You'd account for the transpose, the matrix multiplication, the LU decomposition, and the forwardback substitution to get the coefficients. 


The linear regression is computed as (X'X)^1 X'Y. If X is an (n x k) matrix:
So the BigO running time is O(k^2*(n + k)). See also: http://en.wikipedia.org/wiki/Computational_complexity_of_mathematical_operations#Matrix_algebra If you get fancy it looks like you can get the time down to O(k^2*(n+k^0.376)) with the Coppersmith–Winograd algorithm. 

