Keywords: Brainscores, Large Language Models, Artificial General Intelligence, NeuroImaging, fMRI, Topological Data Analysis, Persistent Homology, q-Wasserstein Distance, Regression Analysis, Interpretable Machine Learning
TL;DR: Our study interprets the existing brainscores by constructing features topologically from both human fMRI data and LLMs.
Abstract: With the rise of Large Language Models (LLMs), the novel metric "Brainscore" emerged as a means to evaluate the functional similarity between LLMs and human brain/neural systems. Our efforts were dedicated to mining the meaning of the novel score by constructing topological features derived from both human fMRI data involving 190 subjects, and 39 LLMs plus their untrained counterparts. Subsequently, we trained 36 Linear Regression Models and conducted thorough statistical analyses to discern reliable and valid features from our constructed ones. Our findings reveal distinctive feature combinations conducive to interpreting existing brainscores across various brain regions of interest (ROIs) and hemispheres, thereby significantly contributing to advancing interpretable machine learning (iML) studies. The study is enriched by our further discussions and analyses concerning existing brainscores. To our knowledge, this study represents the first attempt to comprehend the novel metric brainscore within this interdisciplinary domain.
Submission Number: 16
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