A cost-efficient variant of the incremental Newton iteration for the matrix $p$th root

Fuminori Tatsuoka; Shao-Liang Zhang; Tomohiro Sogabe; Yuto Miyatake

arxiv: 1611.02848 · v2 · pith:U2YAB7QYnew · submitted 2016-11-09 · 🧮 math.NA

A cost-efficient variant of the incremental Newton iteration for the matrix pth root

Fuminori Tatsuoka , Tomohiro Sogabe , Yuto Miyatake , Shao-Liang Zhang This is my paper

classification 🧮 math.NA

keywords iterationvariantcomputationalcostcost-efficientflopsincrementalmathcal

0 comments

read the original abstract

Incremental Newton (IN) iteration, proposed by Iannazzo, is stable for computing the matrix $p$th root, and its computational cost is $\mathcal{O}(n^3p)$ flops per iteration. In this paper, a cost-efficient variant of IN iteration is presented. The computational cost of the variant well agrees with $\mathcal{O} (n^3 \log p)$ flops per iteration, if $p$ is up to at least 100.

This paper has not been read by Pith yet.

A cost-efficient variant of the incremental Newton iteration for the matrix pth root

discussion (0)