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Research PaperResearchia:202606.30006

Optimization Dynamics Imprint Semantic Specificity in Contrastive Embedding Norms

Ziwei Su

Abstract

Contrastive embedding models trained with scale-invariant losses are typically paired with distance metrics like cosine similarity, effectively ignoring embedding magnitudes. However, surprisingly, empirical studies reveal that despite this, these "discarded" norms seem to correlate with semantic properties such as concept specificity, token frequency, and human uncertainty. In this work, we provide a formal theoretical framework explaining this phenomenon. By analyzing the optimization dynamics...

Submitted: June 30, 2026Subjects: Machine Learning; Data Science

Description / Details

Contrastive embedding models trained with scale-invariant losses are typically paired with distance metrics like cosine similarity, effectively ignoring embedding magnitudes. However, surprisingly, empirical studies reveal that despite this, these "discarded" norms seem to correlate with semantic properties such as concept specificity, token frequency, and human uncertainty. In this work, we provide a formal theoretical framework explaining this phenomenon. By analyzing the optimization dynamics, we derive an analytic formula demonstrating that embedding length naturally encodes this information as a byproduct of the training process. We also show how this gives rise to signals that can serve as "free" calibration tools in specific models and retrieval tasks, providing a grounded explanation for a previously heuristic observation.


Source: arXiv:2606.30625v1 - http://arxiv.org/abs/2606.30625v1 PDF: https://arxiv.org/pdf/2606.30625v1 Original Link: http://arxiv.org/abs/2606.30625v1

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Date:
Jun 30, 2026
Topic:
Data Science
Area:
Machine Learning
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