2
$\begingroup$

I am working on an eigensolver in PLAPACK, which has built-in functionality to find the QR decomposition of a general matrix of double precision floating point numbers. I am familiar with the concept of iterating QR to find the eigenvalues of a matrix $A$, and at every iteration, I will have access to the contents of $A$, $Q_i$, and $R_i$ for $i\geq 1$.

I was wondering if there's a convenient way to find the eigenvectors, rather than solving $(A-\lambda_i I)v = 0$ for each $\lambda_i$?

  • 0
    Try posti$n$g this o$n$ [SciComp](http://www.scicomp.stackexchange.com)2012-03-12

0 Answers 0