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arxiv: 1910.07056 · v1 · pith:I7XD3JVM · submitted 2019-10-15 · math.OC · cs.LG· stat.ML

Variable Metric Proximal Gradient Method with Diagonal Barzilai-Borwein Stepsize

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classification math.OC cs.LGstat.ML
keywords metricstepsizediagonalbarzilai-borweinselectionvm-pgconvergencegradient
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Variable metric proximal gradient (VM-PG) is a widely used class of convex optimization method. Lately, there has been a lot of research on the theoretical guarantees of VM-PG with different metric selections. However, most such metric selections are dependent on (an expensive) Hessian, or limited to scalar stepsizes like the Barzilai-Borwein (BB) stepsize with lots of safeguarding. Instead, in this paper we propose an adaptive metric selection strategy called the diagonal Barzilai-Borwein (BB) stepsize. The proposed diagonal selection better captures the local geometry of the problem while keeping per-step computation cost similar to the scalar BB stepsize i.e. $O(n)$. Under this metric selection for VM-PG, the theoretical convergence is analyzed. Our empirical studies illustrate the improved convergence results under the proposed diagonal BB stepsize, specifically for ill-conditioned machine learning problems for both synthetic and real-world datasets.

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