Litcius/Paper detail

A Consensus-Based Global Optimization Method with Adaptive Momentum Estimation

Jingrun Chen, Shi Jin, Liyao Lyu

2022Communications in Computational Physics20 citationsDOI

Abstract

Objective functions in large-scale machine-learning and artificial intelligence applications often live in high dimensions with strong non-convexity and massive local minima. First-order methods, such as the stochastic gradient method and Adam, are often used to find global minima. Recently, the consensus-based optimization (CBO) method has been introduced as one of the gradient-free optimization methods and its convergence is proven with dimension-dependent parameters, which may suffer from the curse of dimensionality. By replacing the isotropic geometric Brownian motion with the component-wise one, the latest improvement of the CBO method is guaranteed to converge to the global minimizer with dimension-independent parameters, although the initial data need to be well-chosen. In this paper, based on the CBO method and Adam, we propose a consensus-based global optimization method with adaptive momentum estimation (Adam-CBO). Advantages of the Adam-CBO method include: (1) capable of finding global minima of non-convex objective functions with high success rates and low costs; (2) can handle non-differentiable activation functions and thus approximate low-regularity functions with better accuracy. The former is verified by approximating the $1000$ dimensional Rastrigin function with $100\%$ success rate at a cost only growing linearly with respect to the dimensionality. The latter is confirmed by solving a machine learning task for partial differential equations with low-regularity solutions where the Adam-CBO method provides better results than the state-of-the-art method Adam. A linear stability analysis is provided to understand the asymptotic behavior of the Adam-CBO method.

Topics & Concepts

Curse of dimensionalityMaxima and minimaGlobal optimizationMathematical optimizationComputer scienceConvergence (economics)Applied mathematicsConvexityRate of convergenceDimension (graph theory)MathematicsArtificial intelligenceMathematical analysisKey (lock)EconomicsEconomic growthComputer securityFinancial economicsPure mathematicsSparse and Compressive Sensing TechniquesStochastic Gradient Optimization TechniquesAdvanced Optimization Algorithms Research
A Consensus-Based Global Optimization Method with Adaptive Momentum Estimation | Litcius