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UNIREX: A Unified Learning Framework for Language Model Rationale Extraction

Computation and Language 2023-02-28 v3 Artificial Intelligence Machine Learning

Abstract

An extractive rationale explains a language model's (LM's) prediction on a given task instance by highlighting the text inputs that most influenced the prediction. Ideally, rationale extraction should be faithful (reflective of LM's actual behavior) and plausible (convincing to humans), without compromising the LM's (i.e., task model's) task performance. Although attribution algorithms and select-predict pipelines are commonly used in rationale extraction, they both rely on certain heuristics that hinder them from satisfying all three desiderata. In light of this, we propose UNIREX, a flexible learning framework that generalizes rationale extractor optimization as follows: (1) specify architecture for a learned rationale extractor; (2) select explainability objectives (i.e., faithfulness and plausibility criteria); and (3) jointly the train task model and rationale extractor on the task using the selected objectives. UNIREX enables replacing prior works' heuristic design choices with a generic learned rationale extractor in (1) and optimizing it for all three desiderata in (2)-(3). To facilitate comparison between methods with respect to multiple desiderata, we introduce the Normalized Relative Gain (NRG) metric. Across five text classification datasets, our best UNIREX configuration outperforms baselines by an average of 32.9% NRG. Plus, we find that UNIREX-trained rationale extractors can even generalize to unseen datasets and tasks.

Keywords

Cite

@article{arxiv.2112.08802,
  title  = {UNIREX: A Unified Learning Framework for Language Model Rationale Extraction},
  author = {Aaron Chan and Maziar Sanjabi and Lambert Mathias and Liang Tan and Shaoliang Nie and Xiaochang Peng and Xiang Ren and Hamed Firooz},
  journal= {arXiv preprint arXiv:2112.08802},
  year   = {2023}
}

Comments

ICML 2022

R2 v1 2026-06-24T08:20:10.320Z