Abstract
A popular approach to unveiling the black box of neural NLP models is to leverage saliency methods, which assign scalar importance scores to each input component. A common practice for evaluating whether an interpretability method is \textit{faithful} and \textit{plausible} has been to use evaluation-by-agreement -- multiple methods agreeing on an explanation increases its credibility. However, recent work has found that even saliency methods have weak rank correlations and advocated for the use of alternative diagnostic methods. In our work, we demonstrate that rank correlation is not a good fit for evaluating agreement and argue that Pearson-$r$ is a better suited alternative. We show that regularization techniques that increase faithfulness of attention explanations also increase agreement between saliency methods. Through connecting our findings to instance categories based on training dynamics we show that, surprisingly, easy-to-learn instances exhibit low agreement in saliency method explanations.
Abstract (translated)
URL
https://arxiv.org/abs/2211.08369
