From my understanding, a decomposition/factorization (LU, QR, Cholesky, etc.) is required, followed by matrix inverse calculation based on the factorization. Are there any other ways of getting around it (I'm trying to figure out whether I can stick with the 6 functions given for free in the tryout version of CULAtools)? Thanks in advance for the comments.

Sure, find the Adjugate matrix; that's a simple way of inverting small matricies. The adjugate matrix is just the transpose of the matrix of cofactors, and the inverse of a square matrix is just the adjugate divided by the (scalar) determinant. Look up these terms on Wikipedia if they aren't familiar. If you are working w/ large matrices, I'd buy the package. Paul 


The LAPACK routines that calculate the matrix inverse are 

