English

A Decentralized Primal-Dual Framework for Non-convex Smooth Consensus Optimization

Optimization and Control 2023-02-07 v3

Abstract

In this work, we introduce ADAPD, A\textbf{A} D\textbf{D}ecentrA\textbf{A}lized P\textbf{P}rimal-D\textbf{D}ual algorithmic framework for solving non-convex and smooth consensus optimization problems over a network of distributed agents. The proposed framework relies on a novel problem formulation that elicits ADMM-type updates, where each agent first inexactly solves a local strongly convex subproblem with any method of its choice and then performs a neighbor communication to update a set of dual variables. We present two variants that allow for a single gradient step for the primal updates or multiple communications for the dual updates, to exploit the tradeoff between the per-iteration cost and the number of iterations. When multiple communications are performed, ADAPD can achieve theoretically optimal communication complexity results for non-convex and smooth consensus problems. Numerical experiments on several applications, including a deep-learning one, demonstrate the superiority of ADAPD over several popularly used decentralized methods.

Keywords

Cite

@article{arxiv.2107.11321,
  title  = {A Decentralized Primal-Dual Framework for Non-convex Smooth Consensus Optimization},
  author = {Gabriel Mancino-Ball and Yangyang Xu and Jie Chen},
  journal= {arXiv preprint arXiv:2107.11321},
  year   = {2023}
}

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R2 v1 2026-06-24T04:28:08.642Z