CubicML：分布式 ML 系统的自动 ML 协同设计与 ML 性能预测

arXiv - CS - Distributed, Parallel, and Cluster Computing Pub Date : 2024-09-06 DOI:arxiv-2409.04585

Wei Wen, Quanyu Zhu, Weiwei Chu, Wen-Yen Chen, Jiyan Yang

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引用次数: 0

摘要

扩展深度学习模型已被证明能有效提高机器学习（ML）模型的智能，特别是对于行业推荐模型和大型语言模型。分布式 ML 系统和算法的协同设计（以最大限度地提高训练性能）对其成功起着关键作用。随着系统规模的扩大，协同设计超参数的数量也在迅速增加，这给找到系统性能最大化的最佳设置带来了挑战。在本文中，我们提出了 CubicML，它使用ML 自动优化分布式 ML 系统的训练性能。在 CubicML 中，我们使用一个 ML 模型作为代理来预测训练性能，以提高搜索效率和性能建模的灵活性。我们证明，CubicML 可以有效优化 Meta 公司内部广告推荐模型和大型语言模型的训练速度。

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CubicML: Automated ML for Distributed ML Systems Co-design with ML Prediction of Performance

Scaling up deep learning models has been proven effective to improve intelligence of machine learning (ML) models, especially for industry recommendation models and large language models. The co-design of distributed ML systems and algorithms (to maximize training performance) plays a pivotal role for its success. As it scales, the number of co-design hyper-parameters grows rapidly which brings challenges to feasibly find the optimal setup for system performance maximization. In this paper, we propose CubicML which uses ML to automatically optimize training performance of distributed ML systems. In CubicML, we use a ML model as a proxy to predict the training performance for search efficiency and performance modeling flexibility. We proved that CubicML can effectively optimize training speed of in-house ads recommendation models and large language models at Meta.

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arXiv - CS - Distributed, Parallel, and Cluster Computing

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