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Polynomial optimization and a Jacobi–Davidson type method for commuting matrices

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Abstract

We introduce a new Jacobi–Davidson type eigenvalue solver for a set of commuting matrices, used for the global optimization of so-called Minkowski-norm dominated polynomials in several variables. The Stetter–Möller matrix method yields such a set of real non-symmetric commuting matrices since it reformulates the optimization problem as an eigenvalue problem. A drawback of this approach is that the matrix most relevant for computing the global optimum of the polynomial under investigation is usually large and only moderately sparse. However, the other matrices are generally much sparser and have the same eigenvectors because of the commutativity. This fact is used to design an efficient method for this problem: the most relevant matrix is used only in the outer loop and the sparser matrices are exploited in the solution of the correction equation in the inner loop to greatly improve the efficiency of the method. Some numerical examples demonstrate that the method proposed in this paper is more efficient than approaches that work on the main matrix, as well as conventional solvers for computing the global optimum, i.e., SOSTOOLS, GloptiPoly, and PHCpack.
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Original languageEnglish
Pages49
Number of pages49
Publication statusPublished - 24 Jun 2013
EventNasca'13: Numerical Analysis and Scientific Computation with Applications : Celebrating the 20th Anniversary of "Université du Littoral Côte d’Opale" (ULCO) - Calais, Calais, France
Duration: 24 Jun 201326 Jun 2013
http://www-lmpa.univ-littoral.fr/NASCA13/

Conference

ConferenceNasca'13: Numerical Analysis and Scientific Computation with Applications
Abbreviated titleNasca'13
CountryFrance
CityCalais
Period24/06/1326/06/13
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