No self-concordant barrier interior point method is strongly polynomial

January 06, 2022 Β· Declared Dead Β· πŸ› Symposium on the Theory of Computing

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Authors Xavier Allamigeon, StΓ©phane Gaubert, Nicolas Vandame arXiv ID 2201.02186 Category math.OC: Optimization & Control Cross-listed cs.DS, math.CO Citations 12 Venue Symposium on the Theory of Computing Last Checked 4 months ago
Abstract
It is an open question to determine if the theory of self-concordant barriers can provide an interior point method with strongly polynomial complexity in linear programming. In the special case of the logarithmic barrier, it was shown in [Allamigeon, Benchimol, Gaubert and Joswig, SIAM J. on Applied Algebra and Geometry, 2018] that the answer is negative. In this paper, we show that none of the self-concordant barrier interior point methods is strongly polynomial. This result is obtained by establishing that, on parametric families of convex optimization problems, the log-limit of the central path degenerates to a piecewise linear curve, independently of the choice of the barrier function. We provide an explicit linear program that falls in the same class as the Klee-Minty counterexample, i.e., in dimension $n$ with $2n$ constraints, in which the number of iterations is $Ξ©(2^n)$.
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