In this paper, we present a secure multiparty computation (SMC) protocol for least common multiple (LCM) based on Shor's quantum period-finding algorithm (QPA). Our protocol is based on the following principle: the connection of multiple periodic functions is also a periodic function whose period is exactly the least common multiple of all small periods. Since QPA is a probabilistic algorithm, we also propose a one-vote-down vote protocol based on the existing secure multi-party quantum summation protocol, which is used to verify the results of the proposed LCM protocol. Security analysis shows that under the semi-honest model, the proposed protocol is secure with high probability, while the computational consumption remains at polynomial complexity. The protocol proposed in this paper solves the problem of efficient and secure multiparty computation of LCM, demonstrating quantum computation potential.
翻译:在本文中,我们根据Shor的量子周期调查算法(QPA),为最小常见的多个数(LCM)提出了一个安全的多党计算(SMC)协议。我们的协议基于以下原则:多定期功能的连接也是一个定期功能,其时间是所有小周期中最不常见的多个。由于QPA是一种概率算法,我们还根据现有的安全多党量衡计算协议(LCM协议)提出一个一票减票协议,用于核实拟议的LCM协议的结果。安全分析表明,在半荣誉模式下,拟议的协议是安全的,概率很高,而计算消费仍然是多元复杂。本文中提议的协议解决了高效益和安全多党计算LCM协议(LCM)的问题,显示了量计算潜力。