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Article Dans Une Revue IEEE Transactions on Automatic Control Année : 2017

Decentralized Frank–Wolfe Algorithm for Convex and Nonconvex Problems

Résumé

Decentralized optimization algorithms have received much attention due to the recent advances in network information processing. However, conventional decentralized algorithms based on projected gradient descent are incapable of handling high-dimensional constrained problems, as the projection step becomes computationally prohibitive. To address this problem, this paper adopts a projection-free optimization approach, a.k.a. the Frank-Wolfe (FW) or conditional gradient algorithm. We first develop a decentralized FW (DeFW) algorithm from the classical FW algorithm. The convergence of the proposed algorithm is studied by viewing the decentralized algorithm as an inexact FW algorithm. Using a diminishing step size rule and letting t be the iteration number, we show that the DeFW algorithm's convergence rate is O(1/t) for convex objectives; is O(1/t2) for strongly convex objectives with the optimal solution in the interior of the constraint set; and is O(1/√t) toward a stationary point for smooth but nonconvex objectives. We then show that a consensus-based DeFW algorithm meets the above guarantees with two communication rounds per iteration. We demonstrate the advantages of the proposed DeFW algorithm on low-complexity robust matrix completion and communication efficient sparse learning. Numerical results on synthetic and real data are presented to support our findings.

Dates et versions

hal-01668247 , version 1 (19-12-2017)

Identifiants

Citer

Hoi-To Wai, Jean Lafond, Anna Scaglione, Éric Moulines. Decentralized Frank–Wolfe Algorithm for Convex and Nonconvex Problems. IEEE Transactions on Automatic Control, 2017, 62 (11), pp.5522 - 5537. ⟨10.1109/TAC.2017.2685559⟩. ⟨hal-01668247⟩
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