Scholarly
    Communications Project


Document Type:Master's Thesis
Name:Steven Matthew Wise
Email address:stwise@seneca.cs.vt.edu
URN:1998/00963
Title:POLSYS_PLP: A Partitioned Linear Product Homotopy Code for Solving Polynomial Systems of Equations
Degree:Master of Science
Department:Mathematics
Committee Chair: Layne T. Watson
Chair's email:ltw@vt.edu
Committee Members:Christopher Beattie
John Rossi
Keywords:Numerical Analysis, Homotopy Methods, Polynomial Systems of Equations, Zeros.
Date of defense:August 20, 1998
Availability:Release the entire work immediately worldwide.

Abstract:

Globally convergent, probability-one homotopy methods have proven to be very effective for finding all the isolated solutions to polynomial systems of equations. After many years of development, homotopy path trackers based on probability-one homotopy methods are reliable and fast. Now, theoretical advances reducing the number of homotopy paths that must be tracked, and in the handling of singular solutions, have made probability-one homotopy methods even more practical. This thesis describes the theory behind and performance of the new code POLSYS_PLP, which consists of Fortran 90 modules for finding all isolated solutions of a complex coefficient polynomial system of equations by a probability-one homotopy method. The package is intended to be used in conjunction with HOMPACK90, and makes extensive use of Fortran 90 derived data types to support a partitioned linear product (PLP) polynomial system structure. PLP structure is a generalization of m-homogeneous structure, whereby each component of the system can have a different m-homogeneous structure. POLSYS_PLP employs a sophisticated power series end game for handling singular solutions, and provides support for problem definition both at a high level and via hand-crafted code. Different PLP structures and their corresponding Bezout numbers can be systematically explored before committing to root finding.

List of Attached Files

thesis.pdf


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