本文研究了在三值光学计算机的解码结果发送部件和解码结果接收部件之间建立通信子系统的问题。在本项研究中建立了数据重发机制和通信系统重启机制，用这两个机制来分别提高对通信系统本身的偶发瞬态故障和对周边器件的偶发瞬态故障的容忍能力，还利用附加的标示信息实现了对数据线路发生永久性故障的判定能力。将这些技术结合到 IIC通信方式，完成了一个用于三值光学计算机解码器的实用通信系统，并对这个系统的整体性能进行了详细测试。文中仔细讨论了对所完成系统的实验研究，包括实验内容的选取、实验软件的设计、测试用例的设置和实验过程等。大量实验的结果证明了该通信子系统的科学性和可靠性。 This paper investigates the issue of establishing a communication subsystem between the decoding result sending part and the decoding result receiving part of a ternary optical computer. In this study, a data retransmission mechanism and a communication system restart mechanism are established. These two mechanisms are respectively used to increase the tolerance to accidental transient faults of the communication system itself and to occasional transient faults of peripheral devices, respectively. In addition, Of the labeled information to achieve a permanent failure of the data lines determine the ability to determine. Combining these techniques with IIC communications, a practical communications system for a ternary optical computer decoder was completed and the overall performance of the system was tested in detail. The paper carefully discusses the experimental system of the completed research, including the selection of experimental content, experimental software design, test case settings and experimental process. The results of a large number of experiments demonstrate the scientific and reliability of the communication subsystem.