迈向量子多方会话类型

Ivan Lanese, Ugo Dal Lago, Vikraman Choudhury
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引用次数: 0

摘要

多方会话类型(MPSTs)为指定通信协议提供了一种结构化的方法,并保证了相关的通信属性,如无死锁。量子多方会话类型(QMPSTs)提供了一种描述量子协议的正式符号,它既可以在全局类型的抽象层面上描述系统中可以进行的通信及其依赖关系,也可以在局部类型和量子过程的具体层面上描述协议中每个参与者的预期行为。类型检查将这两个层次正式联系起来,确保进程的行为符合全局类型的规定。除了通常的通信属性外,QMPST 还允许我们证明量子比特在任何时候都为单个进程所拥有,从而捕捉量子无克隆和无删除定理。我们用我们的方法验证了文献中的四个量子协议,分别是远距传输、秘密共享、比特承诺和密钥分发。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Towards Quantum Multiparty Session Types
Multiparty Session Types (MPSTs) offer a structured way of specifying communication protocols and guarantee relevant communication properties, such as deadlock-freedom. In this paper, we extend a minimal MPST system with quantum data and operations, enabling the specification of quantum protocols. Quantum MPSTs (QMPSTs) provide a formal notation to describe quantum protocols, both at the abstract level of global types, describing which communications can take place in the system and their dependencies, and at the concrete level of local types and quantum processes, describing the expected behavior of each participant in the protocol. Type-checking relates these two levels formally, ensuring that processes behave as prescribed by the global type. Beyond usual communication properties, QMPSTs also allow us to prove that qubits are owned by a single process at any time, capturing the quantum no-cloning and no-deleting theorems. We use our approach to verify four quantum protocols from the literature, respectively Teleportation, Secret Sharing, Bit-Commitment, and Key Distribution.
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