Uniform Memory Retrieval with Larger Capacity for Modern Hopfield Models

TL;DR

This paper introduces $ ext{U-Hop}$, a two-stage memory retrieval method for modern Hopfield models that significantly increases memory capacity and retrieval accuracy by transforming energy functions into kernel space with a learnable feature map.

Contribution

The paper presents a novel learnable feature map and a two-stage retrieval process that enhances memory capacity and reduces metastable states in modern Hopfield models.

Findings

Outperforms existing Hopfield models on real-world datasets

Achieves higher accuracy in associative memory retrieval

Reduces metastable states to improve memory capacity

Abstract

We propose a two-stage memory retrieval dynamics for modern Hopfield models, termed $\mathtt{U\text{-}Hop}$, with enhanced memory capacity. Our key contribution is a learnable feature map $\Phi$ which transforms the Hopfield energy function into kernel space. This transformation ensures convergence between the local minima of energy and the fixed points of retrieval dynamics within the kernel space. Consequently, the kernel norm induced by $\Phi$ serves as a novel similarity measure. It utilizes the stored memory patterns as learning data to enhance memory capacity across all modern Hopfield models. Specifically, we accomplish this by constructing a separation loss $\mathcal{L}_\Phi$ that separates the local minima of kernelized energy by separating stored memory patterns in kernel space. Methodologically, $\mathtt{U\text{-}Hop}$ memory retrieval process consists of: (Stage I) minimizing separation loss for a more uniform memory (local minimum) distribution, followed by (Stage II) standard Hopfield energy minimization for memory retrieval. This results in a significant reduction of possible metastable states in the Hopfield energy function, thus enhancing memory capacity by preventing memory confusion. Empirically, with real-world datasets, we demonstrate that $\mathtt{U\text{-}Hop}$ outperforms all existing modern Hopfield models and state-of-the-art similarity measures, achieving substantial improvements in both associative memory retrieval and deep learning tasks. Code is available at https://github.com/MAGICS-LAB/UHop ; future updates are on arXiv:2404.03827