本文叙述用微逻辑元件来使计算机达到小型化的途径。用这种方法制成的可靠逻辑部件能在军用环境条件下达到1兆周的操作速度,同时,还可大大减少逻辑部件的制造成本。我们把这种途径命名为微逻辑,因为我们觉得这个名称能比其他名称能更恰当的描绘逻辑系统和逻辑部件小型化技术,而逻辑密度是逻辑系统小型化的中心问题。平面型制造工艺和蒸发线路的接线技术的应用使之有可能制造一系列的可靠的功能块,用功能块来制造逻辑部件比用单独元件更能提高逻辑部件的可靠性,因为这时有可能大大减少内部接线和外引线。研究这种生产技术的目的在于能廉价生产微逻辑元件。此外,采用微逻辑元件的逻辑部件的设计和制造的简化能进一步减少总系统的成本。1兆周的速度特性,逻辑设计的简易性,逻辑部件装配的简易性都有助于微逻辑元件在一般逻辑线路中的应用。 This article describes ways to miniaturize your computer with micro-logic components. The reliable logic made in this way achieves 1 trillion operating cycles in a military environment while significantly reducing the manufacturing costs of logic components. We name this approach micro-logic because we think it can more appropriately depict logical systems and logical component miniaturization than other names, and logical density is central to the miniaturization of logical systems. The use of flat-type manufacturing processes and the wiring of evaporative circuits makes it possible to create a series of reliable functional blocks, which makes it more logical to use functional blocks than to use separate components, since it is possible Greatly reduce the internal wiring and external leads. The purpose of studying this production technique is to produce micro logic elements cheaply. In addition, the simplification of the design and manufacture of logic components employing micro logic elements further reduces the overall system cost. The speed of 1 trillion cycles, the simplicity of logic design, and the ease of assembly of logic components all contribute to the application of micro-logic components in general logic.