Rethinking GSPO: The Perplexity-Entropy Equivalence

Abstract

We provide a new perspective on GSPO's length-normalized importance ratios by establishing their connection to information-theoretic quantities. We show that GSPO's sequence-level weight s(θ) = (πθ/πθold)1/|y| can be equivalently expressed as the inverse perplexity ratio PPLθold/PPLθ and as the exponential cross-entropy change ( H). While the perplexity-entropy relationship follows from standard definitions, this observation provides a useful lens for understanding GSPO: the algorithm weights policy gradient updates by perplexity ratios, offering an information-theoretic interpretation of the importance weights. This perspective helps explain GSPO's empirical properties, including log-domain variance reduction through geometric averaging and stability in training mixture-of-experts models. We validate the mathematical equivalences and variance predictions through controlled experiments on mathematical reasoning tasks.

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