量子双相似性是物理可容许调度器下的一种一致性

arXiv - CS - Logic in Computer Science Pub Date : 2024-08-27 DOI:arxiv-2408.15087

Lorenzo Ceragioli, Fabio Gadducci, Giuseppe Lomurno, Gabriele Tedeschi

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引用次数: 0

摘要

量子算法和协议的发展需要适当的建模和验证技术，这就要求抽象和关注量子并发系统的基本特征，就像 CCS 和 CSP 对经典并发系统所做的那样。迄今为止，我们还缺少一种等价关系，它既是并行合成的一致性，又符合量子理论所隐含的有限辨别力。事实上，为具有量子能力的并发系统定义适当的二相似性证明是一项艰巨的任务，因为无约束的非决定论会虚假地区分不可区分的量子系统。我们用简单的物理可容许尺度丰富了 CCS 的线性量子扩展，从而研究了这个问题。我们的研究结果表明，我们的方法足以推导出一种满足上述要求的良好的相似性（well-behavedbisimilarity）。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Quantum Bisimilarity is a Congruence under Physically Admissible Schedulers

The development of quantum algorithms and protocols calls for adequate modelling and verification techniques, which requires abstracting and focusing on the basic features of quantum concurrent systems, like CCS and CSP have done for their classical counterparts. So far, an equivalence relation is still missing that is a congruence for parallel composition and adheres to the limited discriminating power implied by quantum theory. In fact, defining an adequate bisimilarity for quantum-capable, concurrent systems proved a difficult task, because unconstrained non-determinism allows to spuriously discriminate indistinguishable quantum systems. We investigate this problem by enriching a linear quantum extension of CCS with simple physically admissible schedulers. We show that our approach suffices for deriving a well-behaved bisimilarity that satisfies the aforementioned desiderata.

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arXiv - CS - Logic in Computer Science

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