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1. On FGLM Algorithms with Tropical Gröbner bases

Author

Yuki Ishihara, Kazuhiro Yokoyama, Tristan Vaccon, Department of Mathematics [Rikkyo], Rikkyo University [Tokyo], XLIM (XLIM), and Université de Limoges (UNILIM)-Centre National de la Recherche Scientifique (CNRS)

Subjects

Computer Science - Symbolic Computation, Monomial, Polynomial ring, [MATH.MATH-AC]Mathematics [math]/Commutative Algebra [math.AC], Stability (learning theory), p-adic precision, 010103 numerical & computational mathematics, 01 natural sciences, Gröbner basis, CCS CONCEPTS • Computing methodologies → Algebraic algorithms KEYWORDS Algorithms, Tropical Geometry, ComputingMethodologies_SYMBOLICANDALGEBRAICMANIPULATION, Tropical geometry, 0101 mathematics, Physics::Atmospheric and Oceanic Physics, Mathematics, [INFO.INFO-SC]Computer Science [cs]/Symbolic Computation [cs.SC], Mathematics::Commutative Algebra, Basis (linear algebra), FGLM algorithm, Mathematics - Commutative Algebra, 010101 applied mathematics, ComputingMethodologies_PATTERNRECOGNITION, Linear algebra, Gröbner bases, Change of basis, Algorithm

Abstract

Let K be a field equipped with a valuation. Tropical varieties over K can be defined with a theory of Gr{\"o}bner bases taking into account the valuation of K. Because of the use of the valuation, the theory of tropical Gr{\"o}bner bases has proved to provide settings for computations over polynomial rings over a p-adic field that are more stable than that of classical Gr{\"o}bner bases. In this article, we investigate how the FGLM change of ordering algorithm can be adapted to the tropical setting. As the valuations of the polynomial coefficients are taken into account, the classical FGLM algorithm's incremental way, monomo-mial by monomial, to compute the multiplication matrices and the change of basis matrix can not be transposed at all to the tropical setting. We mitigate this issue by developing new linear algebra algorithms and apply them to our new tropical FGLM algorithms. Motivations are twofold. Firstly, to compute tropical varieties, one usually goes through the computation of many tropical Gr{\"o}bner bases defined for varying weights (and then varying term orders). For an ideal of dimension 0, the tropical FGLM algorithm provides an efficient way to go from a tropical Gr{\"o}bner basis from one weight to one for another weight. Secondly, the FGLM strategy can be applied to go from a tropical Gr{\"o}bner basis to a classical Gr{\"o}bner basis. We provide tools to chain the stable computation of a tropical Gr{\"o}bner basis (for weight [0,. .. , 0]) with the p-adic stabilized variants of FGLM of [RV16] to compute a lexicographical or shape position basis. All our algorithms have been implemented into SageMath. We provide numerical examples to illustrate time-complexity. We then illustrate the superiority of our strategy regarding to the stability of p-adic numerical computations.

Published

2020