Finding approximate local minima faster than gradient descent

Proceedings of the 49th Annual ACM SIGACT Symposium on Theory of Computing Pub Date : 2016-11-03 DOI:10.1145/3055399.3055464
Naman Agarwal, Z. Zhu, Brian Bullins, Elad Hazan, Tengyu Ma
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引用次数: 231

Abstract

We design a non-convex second-order optimization algorithm that is guaranteed to return an approximate local minimum in time which scales linearly in the underlying dimension and the number of training examples. The time complexity of our algorithm to find an approximate local minimum is even faster than that of gradient descent to find a critical point. Our algorithm applies to a general class of optimization problems including training a neural network and other non-convex objectives arising in machine learning.
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找到近似的局部最小值比梯度下降更快
我们设计了一个非凸二阶优化算法,保证在时间上返回一个近似的局部最小值,该最小值在底层维数和训练样本数量上呈线性扩展。该算法查找近似局部最小值的时间复杂度甚至比梯度下降法查找临界点的时间复杂度还要快。我们的算法适用于一般类型的优化问题,包括训练神经网络和机器学习中出现的其他非凸目标。
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Proceedings of the 49th Annual ACM SIGACT Symposium on Theory of Computing
Proceedings of the 49th Annual ACM SIGACT Symposium on Theory of Computing
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