This paper shows how to construct quantum entanglement states of n qubits based on a self-stabilizing token ring algorithm. The entangled states can be applied to the fields of the quantum network, quantum Internet, distributed quantum computing, and quantum cloud. To the best of our knowledge, this is the first attempt to construct quantum entanglement based on the self-stabilizing algorithm. By the quantum circuit implementation based on the IBM Quantum Experience platform, it is demonstrated that the construction indeed can achieve specific n qubit entangled states, which in turn can be used to circulate a token in a quantum network or quantum Internet for building a distributed quantum computing system (DQCS). The built DQCS is fault-tolerant in the sense that it can tolerate transient faults such as occasional errors of entangled quantum states.

翻译：本文展示了如何在自稳定符号环算法的基础上构建 n qubit 的量子缠绕状态。 被缠绕状态可以应用到量子网络、 量子互联网、 分布量子计算和量子云的各个领域。 据我们所知, 这是根据自稳定算法构建量子缠绕状态的第一次尝试。 通过基于 IBM 量子体验平台的量子路实施, 能够证明构建确实可以实现特定的 qubit 缠绕状态, 而这反过来可以用来在量子网络或量子互联网上传播一个符号, 用于构建分布量子计算系统( DQCS ) 。 构建的 DQCS 能够容忍误差, 因为它可以容忍诸如偶而缠绕的量子状态的误差。