Modern Hopfield networks have enjoyed recent interest due to their connection to attention in transformers. Our paper provides a unified framework for sparse Hopfield networks by establishing a link with Fenchel-Young losses. The result is a new family of Hopfield-Fenchel-Young energies whose update rules are end-to-end differentiable sparse transformations. We reveal a connection between loss margins, sparsity, and exact memory retrieval. We further extend this framework to structured Hopfield networks via the SparseMAP transformation, which can retrieve pattern associations instead of a single pattern. Experiments on multiple instance learning and text rationalization demonstrate the usefulness of our approach.
@article{arxiv.2402.13725,
title = {Sparse and Structured Hopfield Networks},
author = {Saul Santos and Vlad Niculae and Daniel McNamee and Andre F. T. Martins},
journal= {arXiv preprint arXiv:2402.13725},
year = {2024}
}