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Paper detail

MemFine: Memory-Aware Fine-Grained Scheduling for MoE Training

The training of large-scale Mixture of Experts (MoE) models faces a critical memory bottleneck due to severe load imbalance caused by dynamic token routing. This imbalance leads to memory overflow on GPUs with limited capacity, constraining model scalability. Existing load balancing methods, which cap expert capacity, compromise model accuracy and fail on memory-constrained hardware. To address this, we propose MemFine, a memory-aware fine-grained scheduling framework for MoE training. MemFine decomposes the token distribution and expert computation into manageable chunks and employs a chunked recomputation strategy, dynamically optimized through a theoretical memory model to balance memory efficiency and throughput. Experiments demonstrate that MemFine reduces activation memory by 48.03% and improves throughput by 4.42% compared to full recomputation-based baselines, enabling stable large-scale MoE training on memory-limited GPUs.

preprint2026arXivOpen access
Lu ZhaoRong ShiShaoqing ZhangYueqiang ChenBaoguo HeHongfeng SunZiqing YinShangchao SuZhiyan CuiLiang DongXiyuan LiLingbin WangJianwei HeJiesong MaWeikang HuangJianglei TongDongdong GaoJian ZhangHong TianHui ShenZongtai LuoZhaoqun SunHongxing NiuYue Sun
Distributed, Parallel, and Cluster Computing
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Lu ZhaoRong ShiShaoqing ZhangYueqiang ChenBaoguo HeHongfeng SunZiqing YinShangchao SuZhiyan CuiLiang DongXiyuan LiLingbin WangJianwei HeJiesong MaWeikang HuangJianglei TongDongdong GaoJian ZhangHong TianHui ShenZongtai LuoZhaoqun SunHongxing NiuYue Sun

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