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Fine-grained MoE Load Balancing with Linear Programming

Mixture-of-Experts (MoE) has emerged as a promising approach to scale up deep learning models due to its significant reduction in computational resources. However, the dynamic nature of MoE leads to load imbalance among experts, severely impacting training efficiency. While previous research has attempted to address the load balancing challenge, existing solutions either compromise model accuracy or introduce additional system overhead. As a result, they fail to achieve fine-grained load balancing, which is crucial to optimizing training efficiency. We propose a novel parallelization strategy to achieve fine-grained load balancing in MoE systems. Our system is capable of achieving optimal load balancing in every micro-batch through efficient token scheduling across GPUs. Our experimental results demonstrate that MicroMoE improves the end-to-end training throughput by up to 47.6% compared with the state-of-the-art system, and almost consistently achieves optimal load balance among GPUs.

preprint2026arXivOpen access
Chenqi ZhaoWenfei WuLinhai SongYuchen XuYitao Yuan
Distributed, Parallel, and Cluster Computing
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Chenqi ZhaoWenfei WuLinhai SongYuchen XuYitao Yuan

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