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Exponential Convergence of Sinkhorn Under Regularization Scheduling

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arxiv 2207.00736 v2 pith:B7CMY7Y4 submitted 2022-07-02 cs.DS

Exponential Convergence of Sinkhorn Under Regularization Scheduling

classification cs.DS
keywords sinkhornconvergenceoptimalregularizationtransportvarepsilonalgorithmcut13
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In 2013, Cuturi [Cut13] introduced the Sinkhorn algorithm for matrix scaling as a method to compute solutions to regularized optimal transport problems. In this paper, aiming at a better convergence rate for a high accuracy solution, we work on understanding the Sinkhorn algorithm under regularization scheduling, and thus modify it with a mechanism that adaptively doubles the regularization parameter $\eta$ periodically. We prove that such modified version of Sinkhorn has an exponential convergence rate as iteration complexity depending on $\log(1/\varepsilon)$ instead of $\varepsilon^{-O(1)}$ from previous analyses [Cut13][ANWR17] in the optimal transport problems with integral supply and demand. Furthermore, with cost and capacity scaling procedures, the general optimal transport problem can be solved with a logarithmic dependence on $1/\varepsilon$ as well.

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