该设计通用性较好,可以应用于各种数字电路系统设计中。
The generality of this design is good. It can be used into the design of diverse digital circuit systems.
异步设计与同步设计是两种基本的数字电路系统实现方法。
The asynchronous design and synchronous design are the two basic methods in implementing the digit system.
异步设计与同步设计是两种基本的数字电路系统实现方法。
The asynchronous design and synchronous design are the two basic methods in implementing the digital system.
本文首先介绍了利用FPGA设计数字电路系统的流程和雷达数字信号处理的主要内容。
Firstly, the paper introduce the basic flow of Digital Circuit system design based on FPGA and the body content of RDSP (Radar Digital Signal Processing) .
本文介绍了数字电路系统的逻辑设计过程,并且着重阐明异步计数器和译码器的功能,数字钟是这方面应用的一个实例。
This paper introduces the process of logic design of digital circuits, and mainly explains the function of asynchronous counter and decoder. The digital clock is an example of this application.
本文介绍了数字电路系统的逻辑设计过程,并且着重阐明异步计数器和译码器的功能,数字钟是这方面应用的一个实例。
This paper introduces the process of logic design of digital circuits, and mainly explains the function of asynchronous counter and decoder. The digital clock is an example of this application.
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