Go to ACL ARR 2026 January homepageIs Grokking Worthwhile? Functional Analysis and Transferability of Generalization Circuits in Transformers
Keywords: Grokking, Post-Training, Generalization Circuits
Abstract: While Large Language Models (LLMs) excel at factual retrieval, they often struggle with the "curse of two-hop reasoning" in compositional tasks. Recent research suggests that parameter-sharing transformers can bridge this gap by forming a "Generalization Circuit" during a prolonged "grokking" phase. A fundamental question arises: Is a grokked model truly superior to its non-grokked counterparts? Furthermore, is the extensive computational cost of waiting for the grokking phase worthwhile? In this work, we conduct a mechanistic study to evaluate the Generalization Circuit's role in knowledge assimilation and transfer. We demonstrate that: (i) The inference paths established by non-grokked and grokked models for in-distribution compositional queries are identical. This suggests that the "Generalization Circuit" does not represent the sudden acquisition of a new reasoning paradigm. Instead, we argue that grokking is the process of integrating memorized atomic facts into an easy-acquire, naturally established reasoning path. (ii) Achieving high accuracy on unseen cases after prolonged training and the formation of a certain reasoning path are not bound; they can occur independently under specific data regimes. (iii) Even a mature circuit exhibits limited transferability when integrating new knowledge, suggesting that "grokked" Transformers do not achieve a full mastery of compositional logic.
Paper Type: Short
Research Area: Interpretability and Analysis of Models for NLP
Research Area Keywords: Interpretability and Analysis of Models for NLP
Contribution Types: Model analysis & interpretability
Languages Studied: English
Submission Number: 9890
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