根据目前MOS中规模集成工艺的能力提出了有效的划分方案,在这种划分方案中,为实现计算机的数字结构,规定了四种功能构块。这方案使用了位片的概念来规定寄存器和一般二变数或三变数逻辑的通用逻辑门。快速运算器“看前”进位和控制部分的重缓冲“或”门结构,配全了划分元件。指令译码的微时序是用寄存器功能构块触发器的状态图完成的。以功能构块应用的详细例子,简要地描述了用功能构块装成的存储程序的空间计算机。同时也讨论了基本功能构块的电路结构和定时技术。 According to the current capacity of MOS in the scale of integrated technology proposed an effective division scheme, in this division scheme, in order to achieve the digital structure of the computer, provides four functional blocks. This scheme uses the concept of a bit slice to specify the general purpose logic gates of registers and general two- or three-argument logic. Fast calculator “look before ” Carry and control part of the heavy buffer “or ” door structure, with the full division of components. The micro-timing of instruction decoding is done using the state diagram of the register function block flip-flop. A detailed example of a functional building block application is briefly described as a space computer stored in a functional building block. Also discussed the basic functional blocks of the circuit structure and timing techniques.