On the Analysis of a Multipartite Entanglement Distribution Switch

Abstracts of the 2020 SIGMETRICS/Performance Joint International Conference on Measurement and Modeling of Computer Systems Pub Date : 2020-06-08 DOI:10.1145/3393691.3394203

P. Nain, Gayane Vardoyan, S. Guha, D. Towsley

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引用次数: 24

Abstract

We study a quantum switch that distributes maximally entangled multipartite states to sets of users. The entanglement switching process requires two steps: first, each user attempts to generate bipartite entanglement between itself and the switch; and second, the switch performs local operations and a measurement to create multipartite entanglement for a set of users. In this work, we study a simple variant of this system, wherein the switch has infinite memory and the links that connect the users to the switch are identical. Further, we assume that all quantum states, if generated successfully, have perfect fidelity and that decoherence is negligible. This problem formulation is of interest to several distributed quantum applications, while the technical aspects of this work result in new contributions within queueing theory. Via extensive use of Lyapunov functions, we derive necessary and sufficient conditions for the stability of the system and closed-form expressions for the switch capacity and the expected number of qubits in memory.

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多部缠结配电开关的分析

研究了一种将最大纠缠态分配给用户集的量子交换机。纠缠切换过程需要两步:首先，每个用户尝试在自身与开关之间产生二部纠缠;其次，交换机执行本地操作和测量，为一组用户创建多方纠缠。在这项工作中，我们研究了该系统的一个简单变体，其中交换机具有无限内存，连接用户到交换机的链路是相同的。此外，我们假设所有的量子态，如果成功生成，具有完美的保真度，退相干可以忽略不计。这个问题的表述对几个分布式量子应用很感兴趣，而这项工作的技术方面在排队理论中产生了新的贡献。通过广泛使用Lyapunov函数，我们导出了系统稳定性的充分必要条件，以及开关容量和内存中期望量子比特数的封闭形式表达式。

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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Abstracts of the 2020 SIGMETRICS/Performance Joint International Conference on Measurement and Modeling of Computer Systems

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