本文论证了三值光学计算机用硬件并行计算一个简单结构量的技术,阐述了形成这种强大计算能力的自然根源——三值光电混合处理器具有数据位数众多、按位可重构和加法器无进位过程等天然优势.讨论了如何利用这些优势将三值光学处理器重构成一个众位数复合处理器,使其包含多个不同功能的计算器,以及如何应用复合处理器,在一条操作指令下用硬件处理具有不同数据类型的多个数据.显然,当这些不同类型的数据组成一个结构型数据时,三值光学计算机就展现出在一条指令下处理一个结构量的能力,因此称这种计算机为结构量计算机,并以此来表征它在应用方面的特征.文中详细介绍了应用三值光学计算机计算一个简单结构量的技术概要,包括SZG文件格式、SZG文件的自动生成方式、对高级程序语言的扩充技术等,还举例计算了具有4个不同数据类型项(分量)的结构量,通过分析对1000组这种结构量的计算过程,展示了三值光学计算机在计算结构量方面的强大并行能力. This paper demonstrates the hardware parallel computing ternary optics using a simple structure of the amount of technology, describes the formation of this powerful computing power of the natural source - ternary hybrid optoelectronic processors with a large number of bits, bit-by-bit reconstruction and addition No-carry process and other natural advantages.This paper discusses how to use these advantages to reconstruct the ternary optical processor into a multi-bit composite processor, it contains multiple calculators with different functions, and how to use the composite processor, in an operation It is clear that when these different types of data form a structural data, the three-valued optical computer exhibits the ability to handle one structure quantity under one instruction, calling it The computer is a structural quantity computer and is used to characterize its application.In this paper, the technical summary of calculating a simple structure quantity by using ternary optical computer is introduced in detail, including SZG file format, automatic generation of SZG files, Advanced programming language expansion technology, but also an example has been calculated with four different data type items (components) By analyzing the calculation of 1000 groups of such structures, this paper shows the powerful parallelism of ternary optical computers in calculating the structural quantities.