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A Hybrid Tensor-Expert-Data Parallelism Approach to Optimize Mixture-of-Experts Training

Siddharth Singh, Olatunji Ruwase, Ammar Ahmad Awan, Samyam Rajbhandari, Yuxiong He, Abhinav Bhatelé

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Abstract

Mixture-of-Experts (MoE) is a neural network architecture that adds sparsely activated expert blocks to a base model, increasing the number of parameters without impacting computational costs. However, current distributed deep learning frameworks are limited in their ability to train high-quality MoE models with large base models. In this work, we present DeepSpeed-TED, a novel, three-dimensional, hybrid parallel algorithm that combines data, tensor, and expert parallelism to enable the training of MoE models with 4--8× larger base models than the current state-of-the-art. We also describe memory optimizations in the optimizer step, and communication optimizations that eliminate unnecessary data movement. We implement our approach in DeepSpeed and achieve speedups of 26% over a baseline (i.e. without our communication optimizations) when training a 40 billion parameter MoE model (6.7 billion base model with 16 experts) on 128 V100 GPUs.

Topics & Concepts

Computer scienceParallelism (grammar)Data parallelismBaseline (sea)Artificial neural networkBase (topology)Artificial intelligenceParallel computingTraining (meteorology)Machine learningMeteorologyPhysicsMathematicsOceanographyGeologyMathematical analysisTensor decomposition and applicationsAdvanced Bandit Algorithms ResearchAdvanced Neural Network Applications
A Hybrid Tensor-Expert-Data Parallelism Approach to Optimize Mixture-of-Experts Training | Litcius