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Main Authors: Hernandez-Garcia, J. Fernando, Dohare, Shibhansh, Luo, Jun, Sutton, Rich S.
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2508.00212
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author Hernandez-Garcia, J. Fernando
Dohare, Shibhansh
Luo, Jun
Sutton, Rich S.
author_facet Hernandez-Garcia, J. Fernando
Dohare, Shibhansh
Luo, Jun
Sutton, Rich S.
contents Loss of plasticity is a phenomenon in which a neural network loses its ability to learn when trained for an extended time on non-stationary data. It is a crucial problem to overcome when designing systems that learn continually. An effective technique for preventing loss of plasticity is reinitializing parts of the network. In this paper, we compare two different reinitialization schemes: reinitializing units vs reinitializing weights. We propose a new algorithm, which we name \textit{selective weight reinitialization}, for reinitializing the least useful weights in a network. We compare our algorithm to continual backpropagation and ReDo, two previously proposed algorithms that reinitialize units in the network. Through our experiments in continual supervised learning problems, we identify two settings when reinitializing weights is more effective at maintaining plasticity than reinitializing units: (1) when the network has a small number of units and (2) when the network includes layer normalization. Conversely, reinitializing weights and units are equally effective at maintaining plasticity when the network is of sufficient size and does not include layer normalization. We found that reinitializing weights maintains plasticity in a wider variety of settings than reinitializing units.
format Preprint
id arxiv_https___arxiv_org_abs_2508_00212
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Reinitializing weights vs units for maintaining plasticity in neural networks
Hernandez-Garcia, J. Fernando
Dohare, Shibhansh
Luo, Jun
Sutton, Rich S.
Neural and Evolutionary Computing
Artificial Intelligence
Loss of plasticity is a phenomenon in which a neural network loses its ability to learn when trained for an extended time on non-stationary data. It is a crucial problem to overcome when designing systems that learn continually. An effective technique for preventing loss of plasticity is reinitializing parts of the network. In this paper, we compare two different reinitialization schemes: reinitializing units vs reinitializing weights. We propose a new algorithm, which we name \textit{selective weight reinitialization}, for reinitializing the least useful weights in a network. We compare our algorithm to continual backpropagation and ReDo, two previously proposed algorithms that reinitialize units in the network. Through our experiments in continual supervised learning problems, we identify two settings when reinitializing weights is more effective at maintaining plasticity than reinitializing units: (1) when the network has a small number of units and (2) when the network includes layer normalization. Conversely, reinitializing weights and units are equally effective at maintaining plasticity when the network is of sufficient size and does not include layer normalization. We found that reinitializing weights maintains plasticity in a wider variety of settings than reinitializing units.
title Reinitializing weights vs units for maintaining plasticity in neural networks
topic Neural and Evolutionary Computing
Artificial Intelligence
url https://arxiv.org/abs/2508.00212