The Physical Systems Behind Optimization Algorithms

Lin Yang; Raman Arora; Vladimir braverman; Tuo Zhao

2018 NIPS NeurIPS 2018

The Physical Systems Behind Optimization Algorithms

Abstract

We use differential equations based approaches to provide some {\it \textbf{physics}} insights into analyzing the dynamics of popular optimization algorithms in machine learning. In particular, we study gradient descent, proximal gradient descent, coordinate gradient descent, proximal coordinate gradient, and Newton's methods as well as their Nesterov's accelerated variants in a unified framework motivated by a natural connection of optimization algorithms to physical systems. Our analysis is applicable to more general algorithms and optimization problems {\it \textbf{beyond}} convexity and strong convexity, e.g. Polyak-\L ojasiewicz and error bound conditions (possibly nonconvex).

🌉 Interdisciplinary Bridge — Deep Learning and Machine Learning and Mathematics & Optimization

🧭 Keyword Pioneer — polyak-łojasiewicz condition

🐝 Cross-Pollinator — Artificial Intelligence, Computer Science, Computer Vision, Data Science & Analytics, Deep Learning, Healthcare & Medicine, Interdisciplinary, Knowledge & Reasoning, Machine Learning, Mathematics & Optimization, Natural Language Processing, Reinforcement Learning, Robotics, Security & Privacy, Speech & Audio

Authors

Lin Yang , Raman Arora , Vladimir braverman , Tuo Zhao

Topics

Machine Learning > Optimization & Theory > Optimization Mathematics & Optimization > Optimization > Continuous Optimization Deep Learning > Optimization & Theory > Neural Network Optimization Mathematics & Optimization > Optimization > Convex Optimization

Keywords

non-convex optimization gradient descent newton's method accelerated gradient proximal gradient descent coordinate gradient descent optimization algorithm differential equation newton method polyak-łojasiewicz condition physical system

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