ShadowSync: Performing Synchronization in the Background for Highly Scalable Distributed Training

Recommendation systems are often trained with a tremendous amount of data, and distributed training is the workhorse to shorten the training time. While the training throughput can be increased by simply adding more workers, it is also increasingly challenging to preserve the model quality. In this...

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Veröffentlicht in:	arXiv.org 2021-02
Hauptverfasser:	Zheng, Qinqing, Su, Bor-Yiing, Yang, Jiyan, Azzolini, Alisson, Wu, Qiang, Ou, Jin, Karandikar, Shri, Lupesko, Hagay, Xiong, Liang, Zhou, Eric
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Sprache:	eng
Schlagworte:	Algorithms Artificial neural networks Mathematical models Parameters Synchronism Training Workers
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creator	Zheng, Qinqing Su, Bor-Yiing Yang, Jiyan Azzolini, Alisson Wu, Qiang Ou, Jin Karandikar, Shri Lupesko, Hagay Xiong, Liang Zhou, Eric
description	Recommendation systems are often trained with a tremendous amount of data, and distributed training is the workhorse to shorten the training time. While the training throughput can be increased by simply adding more workers, it is also increasingly challenging to preserve the model quality. In this paper, we present \shadowsync, a distributed framework specifically tailored to modern scale recommendation system training. In contrast to previous works where synchronization happens as part of the training process, \shadowsync separates the synchronization from training and runs it in the background. Such isolation significantly reduces the synchronization overhead and increases the synchronization frequency, so that we are able to obtain both high throughput and excellent model quality when training at scale. The superiority of our procedure is confirmed by experiments on training deep neural networks for click-through-rate prediction tasks. Our framework is capable to express data parallelism and/or model parallelism, generic to host various types of synchronization algorithms, and readily applicable to large scale problems in other areas.
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subjects	Algorithms Artificial neural networks Mathematical models Parameters Synchronism Training Workers
title	ShadowSync: Performing Synchronization in the Background for Highly Scalable Distributed Training
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