Speeding up Linear Programming using Randomized Linear Algebra
March 18, 2020 Β· Declared Dead Β· π arXiv.org
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Authors
Agniva Chowdhury, Palma London, Haim Avron, Petros Drineas
arXiv ID
2003.08072
Category
cs.DS: Data Structures & Algorithms
Cross-listed
math.OC
Citations
5
Venue
arXiv.org
Last Checked
4 months ago
Abstract
Linear programming (LP) is an extremely useful tool and has been successfully applied to solve various problems in a wide range of areas, including operations research, engineering, economics, or even more abstract mathematical areas such as combinatorics. It is also used in many machine learning applications, such as $\ell_1$-regularized SVMs, basis pursuit, nonnegative matrix factorization, etc. Interior Point Methods (IPMs) are one of the most popular methods to solve LPs both in theory and in practice. Their underlying complexity is dominated by the cost of solving a system of linear equations at each iteration. In this paper, we consider \emph{infeasible} IPMs for the special case where the number of variables is much larger than the number of constraints. Using tools from Randomized Linear Algebra, we present a preconditioning technique that, when combined with the Conjugate Gradient iterative solver, provably guarantees that infeasible IPM algorithms (suitably modified to account for the error incurred by the approximate solver), converge to a feasible, approximately optimal solution, without increasing their iteration complexity. Our empirical evaluations verify our theoretical results on both real-world and synthetic data.
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