Bugra Can scite author profile

Momentum methods such as Polyak's heavy ball (HB) method, Nesterov's accelerated gradient (AG) as well as accelerated projected gradient (APG) method have been commonly used in machine learning practice, but their performance is quite sensitive to noise in the gradients. We study these methods under a first-order stochastic oracle model where noisy estimates of the gradients are available. For strongly convex problems, we show that the distribution of the iterates of AG converges with the accelerated O( √ κ log(1/ε)) linear rate to a ball of radius ε centered at a unique invariant distribution in the 1-Wasserstein metric where κ is the condition number as long as the noise variance is smaller than an explicit upper bound we can provide. Our analysis also certifies linear convergence rates as a function of the stepsize, momentum parameter and the noise variance; recovering the accelerated rates in the noiseless case and quantifying the level of noise that can be tolerated to achieve a given performance. To the best of our knowledge, these are the first linear convergence results for stochastic momentum methods under the stochastic oracle model. We also develop finer results for the special case of quadratic objectives, extend our results to the APG method and weakly convex functions showing accelerated rates when the noise magnitude is sufficiently small.

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L-DQN: An Asynchronous Limited-Memory Distributed Quasi-Newton Method

Can

Soori

Dehnavi

et al. 2021

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HyLo: A Hybrid Low-Rank Natural Gradient Descent Method

Soori

Can

et al. 2022

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TENGraD: Time-Efficient Natural Gradient Descent with Exact Fisher-Block Inversion

Soori¹,

Can²,

Baourun³

et al. 2021

Preprint

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Bugra Can

ASYNC: A Cloud Engine with Asynchrony and History for Distributed Machine Learning

Accelerated Linear Convergence of Stochastic Momentum Methods in Wasserstein Distances

L-DQN: An Asynchronous Limited-Memory Distributed Quasi-Newton Method

HyLo: A Hybrid Low-Rank Natural Gradient Descent Method

TENGraD: Time-Efficient Natural Gradient Descent with Exact Fisher-Block Inversion

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