Go to ICML 2025 Workshop HiLD homepageProbing Geometry of Next Token Prediction Using Cumulant Expansion of the Softmax Entropy
Keywords: Next Token Prediction, Large Language Models, Information Geometry, Cumulants, Entropy, Internal Representations
TL;DR: A cumulant-expansion framework to understand how large language models internalize higher-order statistical structure during next-token prediction
Abstract: We introduce a cumulant-expansion framework for quantifying how large language models (LLMs) internalize higher-order statistical structure during next-token prediction. By treating the softmax entropy of each layer’s logit distribution as a perturbation around its “center” distribution, we derive closed-form cumulant observables that isolate successively higher-order correlations. Empirically, we track these cumulants in GPT-2 and Pythia models on Pile-10K prompts. (i) Structured prompts exhibit a characteristic rise–and–plateau profile across layers, whereas token-shuffled prompts remain flat, revealing the dependence of the cumulant profile on meaningful context. (ii) During training, all cumulants increase monotonically before saturating, directly visualizing the model’s progression from capturing variance to learning skew, kurtosis, and higher-order statistical structures. (iii) Mathematical prompts show distinct cumulant signatures compared to general text, quantifying how models employ fundamentally different processing mechanisms for mathematical versus linguistic content. Together, these results establish cumulant analysis as a lightweight, mathematically grounded probe of feature-learning dynamics in high-dimensional neural networks.
Student Paper: Yes
Submission Number: 46
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