English

AGGLIO: Global Optimization for Locally Convex Functions

Optimization and Control 2021-11-09 v1 Machine Learning Machine Learning

Abstract

This paper presents AGGLIO (Accelerated Graduated Generalized LInear-model Optimization), a stage-wise, graduated optimization technique that offers global convergence guarantees for non-convex optimization problems whose objectives offer only local convexity and may fail to be even quasi-convex at a global scale. In particular, this includes learning problems that utilize popular activation functions such as sigmoid, softplus and SiLU that yield non-convex training objectives. AGGLIO can be readily implemented using point as well as mini-batch SGD updates and offers provable convergence to the global optimum in general conditions. In experiments, AGGLIO outperformed several recently proposed optimization techniques for non-convex and locally convex objectives in terms of convergence rate as well as convergent accuracy. AGGLIO relies on a graduation technique for generalized linear models, as well as a novel proof strategy, both of which may be of independent interest.

Keywords

Cite

@article{arxiv.2111.03932,
  title  = {AGGLIO: Global Optimization for Locally Convex Functions},
  author = {Debojyoti Dey and Bhaskar Mukhoty and Purushottam Kar},
  journal= {arXiv preprint arXiv:2111.03932},
  year   = {2021}
}

Comments

33 pages, 7 figures, to appear at 9th ACM IKDD Conference on Data Science (CODS) 2022. Code for AGGLIO is available at https://github.com/purushottamkar/agglio/

R2 v1 2026-06-24T07:28:59.370Z