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Outlier-efficient Hopfield Layers For Large Transformer-based Models

Hu Jerry Yao-chieh, Chang Pei-hsuan, Luo Robin, Chen Hong-yu, Li Weijian, Wang Wei-po, Liu Han. Arxiv 2024

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Attention Mechanism BERT Efficiency And Optimization Has Code Model Architecture Pretraining Methods Quantization RAG Training Techniques Transformer

We introduce an Outlier-Efficient Modern Hopfield Model (termed \(\mathrm{OutEffHop}\)) and use it to address the outlier inefficiency problem of {training} gigantic transformer-based models. Our main contribution is a novel associative memory model facilitating \textit{outlier-efficient} associative memory retrievals. Interestingly, this memory model manifests a model-based interpretation of an outlier-efficient attention mechanism (\({\rm Softmax}_1\)): it is an approximation of the memory retrieval process of \(\mathrm{OutEffHop}\). Methodologically, this allows us to introduce novel outlier-efficient Hopfield layers as powerful alternatives to traditional attention mechanisms, with superior post-quantization performance. Theoretically, the Outlier-Efficient Modern Hopfield Model retains and improves the desirable properties of standard modern Hopfield models, including fixed point convergence and exponential storage capacity. Empirically, we demonstrate the efficacy of the proposed model across large-scale transformer-based and Hopfield-based models (including BERT, OPT, ViT, and STanHop-Net), benchmarking against state-of-the-art methods like \(\mathtt{Clipped_Softmax}\) and \(\mathtt{Gated_Attention}\). Notably, \(\mathrm{OutEffHop}\) achieves an average reduction of 22+% in average kurtosis and 26+% in the maximum infinity norm of model outputs across four models. Code is available at \href{https://github.com/MAGICS-LAB/OutEffHop}{GitHub}; models are on \href{https://huggingface.co/collections/magicslabnu/outeffhop-6610fcede8d2cda23009a98f}{Hugging Face Hub}; future updates are on \href{https://arxiv.org/abs/2404.03828}{arXiv}.

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