SONIA: A Symmetric Blockwise Truncated Optimization Algorithm

06/06/2020

∙

This work presents a new algorithm for empirical risk minimization. The algorithm bridges the gap between first- and second-order methods by computing a search direction that uses a second-order-type update in one subspace, coupled with a scaled steepest descent step in the orthogonal complement. To this end, partial curvature information is incorporated to help with ill-conditioning, while simultaneously allowing the algorithm to scale to the large problem dimensions often encountered in machine learning applications. Theoretical results are presented to confirm that the algorithm converges to a stationary point in both the strongly convex and nonconvex cases. A stochastic variant of the algorithm is also presented, along with corresponding theoretical guarantees. Numerical results confirm the strengths of the new approach on standard machine learning problems.

READ FULL TEXT

SONIA: A Symmetric Blockwise Truncated Optimization Algorithm

Doubly Adaptive Scaled Algorithm for Machine Learning Using Second-Order Information

Accelerating Inexact HyperGradient Descent for Bilevel Optimization

On the Second-order Convergence Properties of Random Search Methods

Efficiently Escaping Saddle Points in Bilevel Optimization

Stochastic Gradient Methods with Preconditioned Updates

When Are Nonconvex Problems Not Scary?

Learning to be Global Optimizer

SONIA: A Symmetric Blockwise Truncated Optimization Algorithm

Related Research

Doubly Adaptive Scaled Algorithm for Machine Learning Using Second-Order Information

Accelerating Inexact HyperGradient Descent for Bilevel Optimization

On the Second-order Convergence Properties of Random Search Methods

Efficiently Escaping Saddle Points in Bilevel Optimization

Stochastic Gradient Methods with Preconditioned Updates

When Are Nonconvex Problems Not Scary?

Learning to be Global Optimizer