Abstract
In this paper, a novel technology for processing simple data via the hardware of a ternary optical (TOC) is investigated, and the natural sources of this powerful processing ability-massive quantity of data bits of the ternary photo-electronic processor, reconstruction bit by bit, and carry-free adder-are described. It is also discussed that how to use these characteristics to reconstruct a ternary optical processor into a composite one with many data bits and several different functions. Furthermore, this paper details how to apply this kind of composite processor to process vast amounts of different types of data in the hardware within one operation instruction. Apparently, when a TOC is applied to process data, which is composed of different types of simple data, only one instruction is needed. Thus, its overwhelming superiority is revealed. We call this kind of a structured data computer for its application features. At the beginning of this paper, a technique outline applying a TOC to process simple data is detailed, which includes the SZG file format, a method for generating the SZG file automatically, and the extension for advanced programming languages. Next, an example is given of processing data with four components of different types through the data computer. In conclusion, the strong capacity of the TOC for processing data is exhibited by analyzing the computational process of 1000 pairs of data.
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