A Stable Variant of the Secant Method for Solving Nonlinear Equations.
Abstract
The usual successive secant method for solving systems of nonlinear equations suffers from two kinds of instabilities. First the formulas used to update the current approximation to the inverse Jacobian are numerically unstable. Second, the directions of search for a solution may collapse into a proper affine subspace, resulting at best in slowed convergence and at worst in complete failure of the algorithm. In this report it is shown how the numerical instabilities can be avoided by working with factorizations of matrices appearing in the algorithm. Moreover, these factorizations can be used to detect and remedy degeneracies among the directions. A second part of this report documents and lists a program implementing the algorithm described in the first part. (Author)
Document Details
- Document Type
- Technical Report
- Publication Date
- Apr 01, 1974
- Accession Number
- AD0787588
Entities
People
- G. W. Stewart
- W. B. Gragg
Organizations
- Carnegie Mellon University