TY - RPRT
T1 - On an Inexpensive Triangular Approximation to the Singular Value Decomposition
Y1 - 1998
A1 - Stewart, G.W.
KW - Technical Report
AB - In this paper we introduce a new decomposition called the pivotedQLP~decomposition. It is computed by applying pivoted orthogonal triangularization to the columns of the matrix $X$ in question to get an upper triangular factor $R$ and then applying the same procedure to the rows of $R$ to get a lower triangular matrix $L$. The diagonal elements of $R$ are called the R-values of $X$; those of $L$ are called the L-values. Numerical examples show that the L-values track the singular values of $X$ with considerable fidelity\,---\,far better than the R-values. At a gap in the L-values the decomposition provides orthonormal bases of analogues of row, column, and null spaces provided of $X$. The decomposition requires no more than twice the work required for a pivoted QR~decomposition. The computation of $R$ and $L$ can be interleaved, so that the computation can be the rows of $R$ to get a lower triangular matrix $L$. The diagonal elements of $R$ are called the R-values of $X$; those of $L$ are called the L-values. Numerical examples show that the L-values track the singular values of $X$ with considerable fidelity\,---\,far better than the R-values. At a gap in the L-values the decomposition provides orthonormal bases of analogues of row, column, and null spaces provided of $X$. The decomposition requires no more than twice the work required for a pivoted QR~decomposition. The computation of $R$ and $L$ can be interleaved, so that the computation can be terminated at any suitable point, which makes the decomposition especially suitable for low-rank determination problems. The interleaved algorithm also suggests a new, efficient 2-norm estimator. (Also cross-referenced as UMIACS-TR-97-75)
PB - Instititue for Advanced Computer Studies, Univ of Maryland, College Park
VL - UMIACS-TR-97-75
UR - http://drum.lib.umd.edu/handle/1903/920
ER -