English

Generalized quantum asymptotic equipartition

Quantum Physics 2025-06-04 v3 Information Theory math.IT

Abstract

The asymptotic equipartition property (AEP) states that in the limit of a large number of independent and identically distributed (i.i.d.) random experiments, the output sequence is virtually certain to come from the typical set, each member of which is almost equally likely. This property is a form of the law of large numbers and lies at the heart of information theory. In this work, we prove a generalized quantum AEP beyond the i.i.d. framework where the random samples are drawn from two sets of quantum states. In particular, under suitable assumptions on the sets, we prove that all operationally relevant divergences converge to the quantum relative entropy between the sets. More specifically, both the quantum hypothesis testing relative entropy (a smoothed form of the min-relative entropy) and the smoothed max-relative entropy approach the regularized relative entropy between the sets. Notably, the asymptotic limit has explicit convergence guarantees and can be efficiently estimated through convex optimization programs, despite the regularization, provided that the sets have efficient descriptions. The generalized AEP directly implies a new generalized quantum Stein's lemma for conducting quantum hypothesis testing between two sets of quantum states. This addresses open questions raised by Brand\~{a}o et al. [IEEE TIT 66(8):5037-5054 (2020)] and Mosonyi et al. [IEEE TIT 68(2):1032-1067 (2022)], which seek a Stein's lemma with computational efficiency. Moreover, we propose a new framework for quantum resource theory in which state transformations are performed without requiring precise characterization of the states being manipulated, making it more robust to imperfections. We demonstrate the reversibility (also referred to as the second law) of such a theory and identify the regularized relative entropy as the unique measure of the resource in this new framework.

Keywords

Cite

@article{arxiv.2411.04035,
  title  = {Generalized quantum asymptotic equipartition},
  author = {Kun Fang and Hamza Fawzi and Omar Fawzi},
  journal= {arXiv preprint arXiv:2411.04035},
  year   = {2025}
}

Comments

v2: The section "Application 4: efficient bounds for quantum resource theory" moved to a separate paper. Added superadditivity statements for \alpha > 1, various clarifications and references; v3: The sections "Application 2: adversarial quantum channel discrimination" and "Application 3: a relative entropy accumulation theorem" moved to a separate paper

R2 v1 2026-06-28T19:50:21.113Z