Log-Barrier Interior Point Methods Are Not Strongly Polynomial

Xavier Allamigeon; Pascal Benchimol; Stéphane Gaubert; Michael Joswig

doi:10.1137/17M1142132

Log-Barrier Interior Point Methods Are Not Strongly Polynomial

Xavier Allamigeon
, Pascal Benchimol
, Stéphane Gaubert
, Michael Joswig

Research output: Contribution to journal › Article › peer-review

Abstract

We prove that primal-dual log-barrier interior point methods are not strongly polynomial, by constructing a family of linear programs with 3r + 1 inequalities in dimension 2r for which the number of iterations performed is in \Omega (2^r). The total curvature of the central path of these linear programs is also exponential in r, disproving a continuous analogue of the Hirsch conjecture proposed by Deza, Terlaky, and Zinchenko. Our method is to tropicalize the central path in linear programming. The tropical central path is the piecewise linear limit of the central paths of parameterized families of classical linear programs viewed through ``logarithmic glasses."" This allows us to provide combinatorial lower bounds for the number of iterations and the total curvature, in a general setting.

Original language	English
Pages (from-to)	140-178
Number of pages	39
Journal	SIAM Journal on Applied Algebra and Geometry
Volume	2
Issue number	1
DOIs	https://doi.org/10.1137/17M1142132
Publication status	Published - 1 Jan 2018
Externally published	Yes

Keywords

Central path
Continuous analogue of the Hirsch conjecture
Linear programming
Tropical geometry

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10.1137/17M1142132

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title = "Log-Barrier Interior Point Methods Are Not Strongly Polynomial",

abstract = "We prove that primal-dual log-barrier interior point methods are not strongly polynomial, by constructing a family of linear programs with 3r + 1 inequalities in dimension 2r for which the number of iterations performed is in \textbackslash{}Omega (2r). The total curvature of the central path of these linear programs is also exponential in r, disproving a continuous analogue of the Hirsch conjecture proposed by Deza, Terlaky, and Zinchenko. Our method is to tropicalize the central path in linear programming. The tropical central path is the piecewise linear limit of the central paths of parameterized families of classical linear programs viewed through ``logarithmic glasses.{"}{"} This allows us to provide combinatorial lower bounds for the number of iterations and the total curvature, in a general setting.",

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author = "Xavier Allamigeon and Pascal Benchimol and St{\'e}phane Gaubert and Michael Joswig",

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year = "2018",

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doi = "10.1137/17M1142132",

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T1 - Log-Barrier Interior Point Methods Are Not Strongly Polynomial

AU - Allamigeon, Xavier

AU - Benchimol, Pascal

AU - Gaubert, Stéphane

AU - Joswig, Michael

PY - 2018/1/1

Y1 - 2018/1/1

N2 - We prove that primal-dual log-barrier interior point methods are not strongly polynomial, by constructing a family of linear programs with 3r + 1 inequalities in dimension 2r for which the number of iterations performed is in \Omega (2r). The total curvature of the central path of these linear programs is also exponential in r, disproving a continuous analogue of the Hirsch conjecture proposed by Deza, Terlaky, and Zinchenko. Our method is to tropicalize the central path in linear programming. The tropical central path is the piecewise linear limit of the central paths of parameterized families of classical linear programs viewed through ``logarithmic glasses."" This allows us to provide combinatorial lower bounds for the number of iterations and the total curvature, in a general setting.

AB - We prove that primal-dual log-barrier interior point methods are not strongly polynomial, by constructing a family of linear programs with 3r + 1 inequalities in dimension 2r for which the number of iterations performed is in \Omega (2r). The total curvature of the central path of these linear programs is also exponential in r, disproving a continuous analogue of the Hirsch conjecture proposed by Deza, Terlaky, and Zinchenko. Our method is to tropicalize the central path in linear programming. The tropical central path is the piecewise linear limit of the central paths of parameterized families of classical linear programs viewed through ``logarithmic glasses."" This allows us to provide combinatorial lower bounds for the number of iterations and the total curvature, in a general setting.

KW - Central path

KW - Continuous analogue of the Hirsch conjecture

KW - Linear programming

KW - Tropical geometry

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DO - 10.1137/17M1142132

M3 - Article

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SN - 2470-6566

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EP - 178

JO - SIAM Journal on Applied Algebra and Geometry

JF - SIAM Journal on Applied Algebra and Geometry

IS - 1

ER -

Log-Barrier Interior Point Methods Are Not Strongly Polynomial

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