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Tight Complexity Bounds for Optimizing Composite Objectives

Optimization and Control 2019-04-05 v3 Machine Learning Machine Learning
Authors: Blake Woodworth , Nathan Srebro
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Abstract

We provide tight upper and lower bounds on the complexity of minimizing the average of mm convex functions using gradient and prox oracles of the component functions. We show a significant gap between the complexity of deterministic vs randomized optimization. For smooth functions, we show that accelerated gradient descent (AGD) and an accelerated variant of SVRG are optimal in the deterministic and randomized settings respectively, and that a gradient oracle is sufficient for the optimal rate. For non-smooth functions, having access to prox oracles reduces the complexity and we present optimal methods based on smoothing that improve over methods using just gradient accesses.

Keywords

gradient descent optimization proximal optimization accelerated gradient methods

Cite

@article{arxiv.1605.08003,
  title  = {Tight Complexity Bounds for Optimizing Composite Objectives},
  author = {Blake Woodworth and Nathan Srebro},
  journal= {arXiv preprint arXiv:1605.08003},
  year   = {2019}
}

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