Global Convergence of Gradient Descent for Deep Linear Residual Networks

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Authors Lei Wu, Qingcan Wang, Chao Ma arXiv ID 1911.00645 Category cs.LG: Machine Learning Cross-listed stat.ML Citations 25 Venue Neural Information Processing Systems Last Checked 3 months ago
Abstract
We analyze the global convergence of gradient descent for deep linear residual networks by proposing a new initialization: zero-asymmetric (ZAS) initialization. It is motivated by avoiding stable manifolds of saddle points. We prove that under the ZAS initialization, for an arbitrary target matrix, gradient descent converges to an $\varepsilon$-optimal point in $O(L^3 \log(1/\varepsilon))$ iterations, which scales polynomially with the network depth $L$. Our result and the $\exp(ฮฉ(L))$ convergence time for the standard initialization (Xavier or near-identity) [Shamir, 2018] together demonstrate the importance of the residual structure and the initialization in the optimization for deep linear neural networks, especially when $L$ is large.
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