What question did this study set out to answer?

The research aims to develop a classification framework for identifying correlation structures in random mixed quantum states.

April 1, 2026Open Access

A quantum-inspired classification for random mixed states

Key Points

The research aims to develop a classification framework for identifying correlation structures in random mixed quantum states.
Developed a quantum-inspired classification method for mixed states.
Extended the Pretty-Good-Measurement classifier from pure to mixed states.
Applied the classifier to ensembles of two- and three-qubit mixed states.
Successfully identified product, separable, and entangled structures in mixed states.
Demonstrated competitive performance with previous pure-state classifiers.
Showed that quantum state discrimination methods are scalable for mixed-state analysis.

Abstract

We present a quantum-inspired classification framework designed to identify correlation structures: product, separable, and entangled, in random mixed quantum states. Building on previous work where the Pretty-Good-Measurement (PGM) classifier demonstrated a competitive performance on pure-state ensembles, we extend this method to the more challenging domain of mixed states. We apply our quantum-inspired classifier to randomly generated ensembles of two- and three-qubit mixed states, encompassing all possible varieties of subsystem correlations while ensuring statistical neutrality. The results indicate that learning architectures inspired by quantum state discrimination can offer scalable and physically grounded tools for the characterization of entanglement and separability even in the mixed-state regime.

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