Enumerating vertices of the balanced minimum evolution polytope

Daniele Catanzaro; Raffaele Pesenti

doi:10.1016/j.cor.2019.05.001

Enumerating vertices of the balanced minimum evolution polytope

Daniele Catanzaro, Raffaele Pesenti

Résultats de recherche: Contribution à un journal › Article › Revue par des pairs

Résumé

Recent advances on the polyhedral combinatorics of the Balanced Minimum Evolution Problem (BMEP) enabled the identification of fundamental characteristics of the convex hull of the BMEP (or BMEP polytope) as well as the description of some of its facets. These results have been possible thanks to the assistance of general purpose softwares for polyhedral analyses, such as Polymake, whose running times however become quickly unpractical. In this article, we address the problem of designing tailored algorithms for the study of the BMEP polytope, with special focus on the problem of enumerating its vertices. To this end, by exploiting some results from the polyhedral combinatorics of the BMEP and a particular encoding scheme based on Prüfer coding, we present an iterative enumeration algorithm that is markedly faster than current general purpose softwares and that can be natively massively parallelized.

langue originale	Anglais
Pages (de - à)	209-217
Nombre de pages	9
journal	Computers and Operations Research
Volume	109
Les DOIs	https://doi.org/10.1016/j.cor.2019.05.001
état	Publié - 1 sept. 2019

Accès au document

10.1016/j.cor.2019.05.001

Autres fichiers et liens

https://www.mendeley.com/catalogue/a9df0606-117f-3d0b-a8b5-05e3451f62f1/

Contient cette citation

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title = "Enumerating vertices of the balanced minimum evolution polytope",

abstract = "Recent advances on the polyhedral combinatorics of the Balanced Minimum Evolution Problem (BMEP) enabled the identification of fundamental characteristics of the convex hull of the BMEP (or BMEP polytope) as well as the description of some of its facets. These results have been possible thanks to the assistance of general purpose softwares for polyhedral analyses, such as Polymake, whose running times however become quickly unpractical. In this article, we address the problem of designing tailored algorithms for the study of the BMEP polytope, with special focus on the problem of enumerating its vertices. To this end, by exploiting some results from the polyhedral combinatorics of the BMEP and a particular encoding scheme based on Pr{\"u}fer coding, we present an iterative enumeration algorithm that is markedly faster than current general purpose softwares and that can be natively massively parallelized.",

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TY - JOUR

T1 - Enumerating vertices of the balanced minimum evolution polytope

AU - Catanzaro, Daniele

AU - Pesenti, Raffaele

PY - 2019/9/1

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N2 - Recent advances on the polyhedral combinatorics of the Balanced Minimum Evolution Problem (BMEP) enabled the identification of fundamental characteristics of the convex hull of the BMEP (or BMEP polytope) as well as the description of some of its facets. These results have been possible thanks to the assistance of general purpose softwares for polyhedral analyses, such as Polymake, whose running times however become quickly unpractical. In this article, we address the problem of designing tailored algorithms for the study of the BMEP polytope, with special focus on the problem of enumerating its vertices. To this end, by exploiting some results from the polyhedral combinatorics of the BMEP and a particular encoding scheme based on Prüfer coding, we present an iterative enumeration algorithm that is markedly faster than current general purpose softwares and that can be natively massively parallelized.

AB - Recent advances on the polyhedral combinatorics of the Balanced Minimum Evolution Problem (BMEP) enabled the identification of fundamental characteristics of the convex hull of the BMEP (or BMEP polytope) as well as the description of some of its facets. These results have been possible thanks to the assistance of general purpose softwares for polyhedral analyses, such as Polymake, whose running times however become quickly unpractical. In this article, we address the problem of designing tailored algorithms for the study of the BMEP polytope, with special focus on the problem of enumerating its vertices. To this end, by exploiting some results from the polyhedral combinatorics of the BMEP and a particular encoding scheme based on Prüfer coding, we present an iterative enumeration algorithm that is markedly faster than current general purpose softwares and that can be natively massively parallelized.

KW - Balanced minimum evolution polytope

KW - Parallel enumeration

KW - Phylogenetics

KW - Prüfer coding

KW - Tree codes

KW - Unrooted binary tree enumeration

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