Scaling Equilibrium Propagation to Deeper Neural Network Architectures

September 30, 2025 ยท Declared Dead ยท ๐Ÿ› arXiv.org

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Authors Sankar Vinayak Elayedam, Gopalakrishnan Srinivasan arXiv ID 2509.26003 Category cs.NE: Neural & Evolutionary Cross-listed cs.LG Citations 0 Venue arXiv.org Last Checked 4 months ago
Abstract
Equilibrium propagation has been proposed as a biologically plausible alternative to the backpropagation algorithm. The local nature of gradient computations, combined with the use of convergent RNNs to reach equilibrium states, make this approach well-suited for implementation on neuromorphic hardware. However, previous studies on equilibrium propagation have been restricted to networks containing only dense layers or relatively small architectures with a few convolutional layers followed by a final dense layer. These networks have a significant gap in accuracy compared to similarly sized feedforward networks trained with backpropagation. In this work, we introduce the Hopfield-Resnet architecture, which incorporates residual (or skip) connections in Hopfield networks with clipped $\mathrm{ReLU}$ as the activation function. The proposed architectural enhancements enable the training of networks with nearly twice the number of layers reported in prior works. For example, Hopfield-Resnet13 achieves 93.92\% accuracy on CIFAR-10, which is $\approx$3.5\% higher than the previous best result and comparable to that provided by Resnet13 trained using backpropagation.
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