arXiv:2504.14107v1 Announce Type: new
Abstract: Modern AI models are increasingly being used as theoretical tools to study human cognition. One dominant approach is to evaluate whether human-derived measures (such as offline judgments or real-time processing) are predicted by a model’s output: that is, the end-product of forward pass(es) through the network. At the same time, recent advances in mechanistic interpretability have begun to reveal the internal processes that give rise to model outputs, raising the question of whether models and humans might arrive at outputs using similar “processing strategies”. Here, we investigate the link between real-time processing in humans and “layer-time” dynamics in Transformer models. Across five studies spanning domains and modalities, we test whether the dynamics of computation in a single forward pass of pre-trained Transformers predict signatures of processing in humans, above and beyond properties of the model’s output probability distribution. We consistently find that layer-time dynamics provide additional predictive power on top of output measures. Our results suggest that Transformer processing and human processing may be facilitated or impeded by similar properties of an input stimulus, and this similarity has emerged through general-purpose objectives such as next-token prediction or image recognition. Our work suggests a new way of using AI models to study human cognition: not just as a black box mapping stimuli to responses, but potentially also as explicit processing models.
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Linking forward-pass dynamics in Transformers and real-time human processing
