Navigating Scaling Laws: Compute Optimality in Adaptive Model Training
November 06, 2023 ยท Declared Dead ยท ๐ International Conference on Machine Learning
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Authors
Sotiris Anagnostidis, Gregor Bachmann, Imanol Schlag, Thomas Hofmann
arXiv ID
2311.03233
Category
cs.LG: Machine Learning
Cross-listed
cs.CV
Citations
2
Venue
International Conference on Machine Learning
Last Checked
4 months ago
Abstract
In recent years, the state-of-the-art in deep learning has been dominated by very large models that have been pre-trained on vast amounts of data. The paradigm is very simple: investing more computational resources (optimally) leads to better performance, and even predictably so; neural scaling laws have been derived that accurately forecast the performance of a network for a desired level of compute. This leads to the notion of a `compute-optimal' model, i.e. a model that allocates a given level of compute during training optimally to maximize performance. In this work, we extend the concept of optimality by allowing for an `adaptive' model, i.e. a model that can change its shape during training. By doing so, we can design adaptive models that optimally traverse between the underlying scaling laws and outpace their `static' counterparts, leading to a significant reduction in the required compute to reach a given target performance. We show that our approach generalizes across modalities and different shape parameters.
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