A Geometric Structure of Acceleration and Its Role in Making Gradients Small Fast
Abstract
Since Nesterov's seminal 1983 work, many accelerated first-order optimization methods have been proposed, but their analyses lacks a common unifying structure. In this work, we identify a geometric structure satisfied by a wide range of first-order accelerated methods. Using this geometric insight, we present several novel generalizations of accelerated methods. Most interesting among them is a method that reduces the squared gradient norm with O(1/K4) rate in the prox-grad setup, faster than the O(1/K3) rates of Nesterov's FGM or Kim and Fessler's FPGM-m.
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