On Nonconvex Optimization for Machine Learning

Chi Jin, Praneeth Netrapalli, Rong Ge, S. Kakade, Michael I. Jordan
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引用次数: 17

Abstract

Gradient descent (GD) and stochastic gradient descent (SGD) are the workhorses of large-scale machine learning. While classical theory focused on analyzing the performance of these methods in convex optimization problems, the most notable successes in machine learning have involved nonconvex optimization, and a gap has arisen between theory and practice. Indeed, traditional analyses of GD and SGD show that both algorithms converge to stationary points efficiently. But these analyses do not take into account the possibility of converging to saddle points. More recent theory has shown that GD and SGD can avoid saddle points, but the dependence on dimension in these analyses is polynomial. For modern machine learning, where the dimension can be in the millions, such dependence would be catastrophic. We analyze perturbed versions of GD and SGD and show that they are truly efficient—their dimension dependence is only polylogarithmic. Indeed, these algorithms converge to second-order stationary points in essentially the same time as they take to converge to classical first-order stationary points.
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机器学习中的非凸优化
梯度下降(GD)和随机梯度下降(SGD)是大规模机器学习的核心。虽然经典理论侧重于分析这些方法在凸优化问题中的性能,但机器学习中最显著的成功涉及非凸优化,并且理论与实践之间出现了差距。事实上,传统的GD和SGD分析表明,这两种算法都能有效地收敛到平稳点。但是这些分析没有考虑到收敛到鞍点的可能性。最近的理论表明,GD和SGD可以避免鞍点,但在这些分析中对维数的依赖是多项式的。对于现代机器学习来说,维度可以达到数百万,这种依赖将是灾难性的。我们分析了GD和SGD的扰动版本,并表明它们是真正有效的——它们的维数依赖只是多对数的。实际上,这些算法收敛到二阶不动点的时间与收敛到经典一阶不动点的时间基本相同。
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