PAQR: Pivoting Avoiding QR factorization

Abstract

The solution of linear least-squares problems is at the heart of many scientific and engineering applications. While any method able to minimize the backward error of such problems is considered numerically stable, the theory states that the forward error depends on the condition number of the matrix in the system of equations. On the one hand, the QR factorization is an efficient method to solve such problems, but the solutions it produces may have large forward errors when the matrix is rank deficient. On the other hand, rank-revealing QR (RRQR) is able to produce smaller forward errors on rank deficient matrices, but its cost is prohibitive compared to QR due to memory-inefficient operations. The aim of this paper is to propose PAQR for the solution of rank-deficient linear least-squares problems as an alternative solution method. It has the same (or smaller) cost as QR and is as accurate as QR with column pivoting in many practical cases. In addition to presenting the algorithm and its implementations on different hardware architectures, we compare its accuracy and performance results on a variety of application-derived problems.