Dissecting Recall of Factual Associations in Auto-Regressive Language Models
Transformer-based language models (LMs) are known to capture factual
knowledge in their parameters. While previous work looked into where factual
associations are stored, only little is known about how they are retrieved
internally during inference. We investigate this question through the lens of
information flow. Given a subject-relation query, we study how the model
aggregates information about the subject and relation to predict the correct
attribute. With interventions on attention edges, we first identify two
critical points where information propagates to the prediction: one from the
relation positions followed by another from the subject positions. Next, by
analyzing the information at these points, we unveil a three-step internal
mechanism for attribute extraction. First, the representation at the
last-subject position goes through an enrichment process, driven by the early
MLP sublayers, to encode many subject-related attributes. Second, information
from the relation propagates to the prediction. Third, the prediction
representation "queries" the enriched subject to extract the attribute. Perhaps
surprisingly, this extraction is typically done via attention heads, which
often encode subject-attribute mappings in their parameters. Overall, our
findings introduce a comprehensive view of how factual associations are stored
and extracted internally in LMs, facilitating future research on knowledge
localization and editing.