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Autori principali: Skean, Oscar, Dhakal, Aayush, Jacobs, Nathan, Giraldo, Luis Gonzalo Sanchez
Natura: Preprint
Pubblicazione: 2023
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Accesso online:https://arxiv.org/abs/2310.02903
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author Skean, Oscar
Dhakal, Aayush
Jacobs, Nathan
Giraldo, Luis Gonzalo Sanchez
author_facet Skean, Oscar
Dhakal, Aayush
Jacobs, Nathan
Giraldo, Luis Gonzalo Sanchez
contents Self-supervised learning (SSL) is a popular paradigm for representation learning. Recent multiview methods can be classified as sample-contrastive, dimension-contrastive, or asymmetric network-based, with each family having its own approach to avoiding informational collapse. While these families converge to solutions of similar quality, it can be empirically shown that some methods are epoch-inefficient and require longer training to reach a target performance. Two main approaches to improving efficiency are covariance eigenvalue regularization and using more views. However, these two approaches are difficult to combine due to the computational complexity of computing eigenvalues. We present the objective function FroSSL which reconciles both approaches while avoiding eigendecomposition entirely. FroSSL works by minimizing covariance Frobenius norms to avoid collapse and minimizing mean-squared error to achieve augmentation invariance. We show that FroSSL reaches competitive accuracies more quickly than any other SSL method and provide theoretical and empirical support that this faster convergence is due to how FroSSL affects the eigenvalues of the embedding covariance matrices. We also show that FroSSL learns competitive representations on linear probe evaluation when used to train a ResNet-18 on several datasets, including STL-10, Tiny ImageNet, and ImageNet-100.
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publishDate 2023
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spellingShingle FroSSL: Frobenius Norm Minimization for Efficient Multiview Self-Supervised Learning
Skean, Oscar
Dhakal, Aayush
Jacobs, Nathan
Giraldo, Luis Gonzalo Sanchez
Machine Learning
Self-supervised learning (SSL) is a popular paradigm for representation learning. Recent multiview methods can be classified as sample-contrastive, dimension-contrastive, or asymmetric network-based, with each family having its own approach to avoiding informational collapse. While these families converge to solutions of similar quality, it can be empirically shown that some methods are epoch-inefficient and require longer training to reach a target performance. Two main approaches to improving efficiency are covariance eigenvalue regularization and using more views. However, these two approaches are difficult to combine due to the computational complexity of computing eigenvalues. We present the objective function FroSSL which reconciles both approaches while avoiding eigendecomposition entirely. FroSSL works by minimizing covariance Frobenius norms to avoid collapse and minimizing mean-squared error to achieve augmentation invariance. We show that FroSSL reaches competitive accuracies more quickly than any other SSL method and provide theoretical and empirical support that this faster convergence is due to how FroSSL affects the eigenvalues of the embedding covariance matrices. We also show that FroSSL learns competitive representations on linear probe evaluation when used to train a ResNet-18 on several datasets, including STL-10, Tiny ImageNet, and ImageNet-100.
title FroSSL: Frobenius Norm Minimization for Efficient Multiview Self-Supervised Learning
topic Machine Learning
url https://arxiv.org/abs/2310.02903