Information Geometry of Exponentiated Gradient: Convergence beyond L-Smoothness

Abstract

We study the minimization of smooth, possibly nonconvex functions over the positive orthant, a key setting in Poisson inverse problems, using the exponentiated gradient (EG) method. Interpreting EG as Riemannian gradient descent (RGD) with the e-Exp map from information geometry as a retraction, we prove global convergence under weak assumptions -- without the need for L-smoothness -- and finite termination of Riemannian Armijo line search. Numerical experiments, including an accelerated variant, highlight EG's practical advantages, such as faster convergence compared to RGD based on interior-point geometry.

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