NeurIPS Practical Structured Riemannian Optimization with Momentum by using Generalized Normal Coordinates

Poster
in
Workshop: Symmetry and Geometry in Neural Representations (NeurReps)

Practical Structured Riemannian Optimization with Momentum by using Generalized Normal Coordinates

Wu Lin · Valentin Duruisseaux · Melvin Leok · Frank Nielsen · Mohammad Emtiyaz Khan · Mark Schmidt

Keywords: [ Numerical Optimization ] [ Matrix Lie Groups ] [ Riemannian Manifolds ]

[ Abstract ] [ Project Page ]

[ Poster] [ OpenReview]

Abstract:

Adding momentum into Riemannian optimization is computationally challenging due to the intractable ODEs needed to define the exponential and parallel transport maps. We address these issues for Gaussian Fisher-Rao manifolds by proposing new local coordinates to exploit sparse structures and efficiently approximate the ODEs, which results in a numerically stable update scheme. Our approach extends the structured natural-gradient descent method of Lin et al. (2021a) by incorporating momentum into it and scaling the method for large-scale applications arising in numerical optimization and deep learning

Chat is not available.

Poster in Workshop: Symmetry and Geometry in Neural Representations (NeurReps)

Practical Structured Riemannian Optimization with Momentum by using Generalized Normal Coordinates

Wu Lin · Valentin Duruisseaux · Melvin Leok · Frank Nielsen · Mohammad Emtiyaz Khan · Mark Schmidt

Poster
in
Workshop: Symmetry and Geometry in Neural Representations (NeurReps)