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Paper detail

Where Knowledge Collides: A Mechanistic Study of Intra-Memory Knowledge Conflict in Language Models

In language models (LMs), intra-memory knowledge conflict largely arises when inconsistent information about the same event is encoded within the model's parametric knowledge. While prior work has primarily focused on resolving conflicts between a model's internal knowledge and external resources through approaches such as fine-tuning or knowledge editing, the problem of localizing conflicts that originate during pre-training within the model's internal representations remain unexplored. In this work, we design a framework based on mechanistic interpretability methods to identify where and how conflicting knowledge from the pre-training data is encoded within LMs. Our findings contribute to a growing body of evidence that specific internal components of a language model are responsible for encoding conflicting knowledge from pre-training, and we demonstrate how mechanistic interpretability methods can be leveraged to causally intervene in and control conflicting knowledge at inference time.

preprint2026arXivOpen access
Minh Vu PhamHsuvas BorkakotyYufang Hou
Computation and LanguageArtificial Intelligence
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Minh Vu PhamHsuvas BorkakotyYufang Hou

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