Oral Poster
Learning to grok: Emergence of in-context learning and skill composition in modular arithmetic tasks
Tianyu He · Darshil Doshi · Aritra Das · Andrey Gromov
East Exhibit Hall A-C #3200
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Abstract
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Oral
presentation:
Oral Session 1A: Neuroscience and Intepretability
Wed 11 Dec 10 a.m. PST — 11 a.m. PST
Wed 11 Dec 11 a.m. PST
— 2 p.m. PST
Wed 11 Dec 10 a.m. PST — 11 a.m. PST
Abstract:
Large language models can solve tasks that were not present in the training set. This capability is believed to be due to in-context learning and skill composition. In this work, we study the emergence of in-context learning and skill composition in a collection of modular arithmetic tasks. Specifically, we consider a finite collection of linear modular functions $z = a x + b y \text{ mod } p$ labeled by the vector $(a, b) \in \mathbb{Z}_p^2$. We use some of these tasks for pre-training and the rest for out-of-distribution testing. We empirically show that a GPT-style transformer exhibits a transition from in-distribution to out-of-distribution generalization as the number of pre-training tasks increases. We find that the smallest model capable of out-of-distribution generalization requires two transformer blocks, while for deeper models, the out-of-distribution generalization phase is *transient*, necessitating early stopping. Finally, we perform an interpretability study of the pre-trained models, revealing the highly structured representations in both phases; and discuss the learnt algorithm.
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