The key highlights and insights from the content are:
Mixture-of-Experts (MoE) models are known for their dynamic allocation of computational resources based on input, but face challenges in terms of memory requirements, especially for very large models.
The authors propose SEER-MoE, a two-stage framework to address this issue:
The authors provide an in-depth analysis of the parameter count and FLOPs scaling for MoE Transformer models, highlighting the potential for reducing both compute and memory requirements.
Extensive experiments on the Mixtral 8x7b MoE model demonstrate the effectiveness of SEER-MoE, achieving significant reductions in memory usage and FLOPs with minimal accuracy trade-offs compared to baseline approaches.
The authors explore different variants of heavy-hitters counting (actual vs. soft) and expert pruning (layer-wise vs. global) strategies, as well as various fine-tuning techniques (Top-K adaptation, entropy-based gating regularization) to optimize the efficiency of the sparse MoE model.
The results show that SEER-MoE can reduce the number of experts by 25% and the number of activated experts to 1, leading to a 25% reduction in model parameters and 27% reduction in FLOPs, while maintaining competitive performance on the evaluated tasks.
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by Alexandre Mu... lúc arxiv.org 04-09-2024
https://arxiv.org/pdf/2404.05089.pdfYêu cầu sâu hơn