English

Towards Extremely Fast Bilevel Optimization with Self-governed Convergence Guarantees

Optimization and Control 2022-05-23 v1 Machine Learning

Abstract

Gradient methods have become mainstream techniques for Bi-Level Optimization (BLO) in learning and vision fields. The validity of existing works heavily relies on solving a series of approximation subproblems with extraordinarily high accuracy. Unfortunately, to achieve the approximation accuracy requires executing a large quantity of time-consuming iterations and computational burden is naturally caused. This paper is thus devoted to address this critical computational issue. In particular, we propose a single-level formulation to uniformly understand existing explicit and implicit Gradient-based BLOs (GBLOs). This together with our designed counter-example can clearly illustrate the fundamental numerical and theoretical issues of GBLOs and their naive accelerations. By introducing the dual multipliers as a new variable, we then establish Bilevel Alternating Gradient with Dual Correction (BAGDC), a general framework, which significantly accelerates different categories of existing methods by taking specific settings. A striking feature of our convergence result is that, compared to those original unaccelerated GBLO versions, the fast BAGDC admits a unified non-asymptotic convergence theory towards stationarity. A variety of numerical experiments have also been conducted to demonstrate the superiority of the proposed algorithmic framework.

Keywords

Cite

@article{arxiv.2205.10054,
  title  = {Towards Extremely Fast Bilevel Optimization with Self-governed Convergence Guarantees},
  author = {Risheng Liu and Xuan Liu and Wei Yao and Shangzhi Zeng and Jin Zhang},
  journal= {arXiv preprint arXiv:2205.10054},
  year   = {2022}
}

Comments

11 pages

R2 v1 2026-06-24T11:23:15.814Z