Litcius/Paper detail

Almost-Linear-Time Algorithms for Maximum Flow and Minimum-Cost Flow

Li Chen, Rasmus Kyng, Yang P. Liu, Richard Peng, Maximilian Probst Gutenberg, Sushant Sachdeva

2023Communications of the ACM16 citationsDOI

Abstract

We present an algorithm that computes exact maximum flows and minimum-cost flows on directed graphs with m edges and polynomially bounded integral demands, costs, and capacities in m 1+ o (1) time. Our algorithm builds the flow through a sequence of m 1+ o (1) approximate undirected minimum-ratio cycles, each of which is computed and processed in amortized m o (1) time using a new dynamic graph data structure. Our framework extends to algorithms running in m 1+ o (1) time for computing flows that minimize general edge-separable convex functions to high accuracy. This gives almost-linear time algorithms for several problems including entropy-regularized optimal transport, matrix scaling, p -norm flows, and p -norm isotonic regression on arbitrary directed acyclic graphs.

Topics & Concepts

Minimum-cost flow problemAmortized analysisMathematicsMinimum cutSeparable spaceAlgorithmTime complexityMaximum flow problemBounded functionRegular polygonCombinatoricsDirected graphDiscrete mathematicsMathematical optimizationComputer scienceFlow networkData structureProgramming languageMathematical analysisGeometryOptimization and Search ProblemsMarkov Chains and Monte Carlo MethodsComplexity and Algorithms in Graphs