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Related Concept Videos

Atomic Nuclei: Types of Nuclear Relaxation01:28

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Nuclear relaxation restores the equilibrium population imbalance and can occur via spin–lattice or spin–spin mechanisms, which are first-order exponential decay processes.
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Interpretable Thermodynamic Score-based Classification of Relaxation Excursions.

Benjamin Kuznets-Speck1,2,3,4, Jaekwon Jung1,2,3,4,5, Pornchanan Pholraksa1,2,3,4

  • 1Department of Cell & Developmental Biology, Feinberg School of Medicine, Northwestern University, Chicago, IL, USA.

Biorxiv : the Preprint Server for Biology
|December 11, 2025
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Summary
This summary is machine-generated.

We introduce Keeping SCORE, a novel method transforming diffusion models for accurate classification and regression. This approach provides uncertainty estimates and feature attributions for interpretable AI in computational biology.

Keywords:
Artificial intelligenceBayesian inferenceDiffusion modelsDissipationThermodynamic classification

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Area of Science:

  • Computational Biology
  • Artificial Intelligence
  • Statistical Mechanics

Background:

  • Deep learning classifiers offer accurate predictions but lack uncertainty estimates and feature interpretability.
  • Diffusion models excel at data generation but are underutilized for classification and prediction tasks.

Purpose of the Study:

  • To develop a physics-inspired framework, Keeping SCORE, that enhances diffusion models for probabilistic classification and regression.
  • To enable uncertainty quantification and feature attribution in AI predictions without altering existing models.

Main Methods:

  • Transforming diffusion models into probabilistic engines by measuring dissipation along noising trajectories.
  • Calculating exact class likelihoods and quantifying prediction confidence based on physical principles.
  • Generating feature attributions to identify key input variables driving model decisions.

Main Results:

  • Demonstrated accurate probability estimates and confidence quantification across diverse tasks including image recognition, single-cell genomics, and molecular biophysics.
  • Provided interpretable feature attributions linked to physically meaningful coordinates.
  • Showcased the framework's ability to enhance predictions without modifying pre-trained models.

Conclusions:

  • Keeping SCORE bridges non-equilibrium statistical mechanics and AI, creating interpretable, uncertainty-aware predictions.
  • This approach advances biological discovery by providing deeper insights into complex datasets.
  • The framework offers a powerful tool for reliable and explainable AI applications in science.