Validating Mechanistic Interpretations: An Axiomatic Approach
Abstract
Mechanistic interpretability aims to reverse engineer the computation performed by a neural network in terms of its internal components. Although there is a growing body of research on mechanistic interpretation of neural networks, the notion of a mechanistic interpretation itself is often ad-hoc. Inspired by the notion of abstract interpretation from the program analysis literature that aims to develop approximate semantics for programs, we give a set of axioms that formally characterize a mechanistic interpretation as a description that approximately captures the semantics of the neural network under analysis in a compositional manner. We demonstrate the applicability of these axioms for validating mechanistic interpretations on an existing, well-known interpretability study as well as on a new case study involving a Transformer-based model trained to solve the well-known 2-SAT problem.
Cite
@article{arxiv.2407.13594,
title = {Validating Mechanistic Interpretations: An Axiomatic Approach},
author = {Nils Palumbo and Ravi Mangal and Zifan Wang and Saranya Vijayakumar and Corina S. Pasareanu and Somesh Jha},
journal= {arXiv preprint arXiv:2407.13594},
year = {2025}
}
Comments
Accepted to ICML 2025