The asynchronous circuits have the particular advantages in speed, power, noise, modularity and so on.
异步电路在速度、功耗、噪声、模块化等方面具有其独特的优势。
In this dissertation, some beneficial researches on test pattern generation for asynchronous circuits are taken.
本文还针对异步时序电路测试生成问题进行了有益的研究。
However, an efficient and effective production test technique is the final hurdle of the mass application of the asynchronous circuits.
然而,高效的产品测试技术依然是异步时序电路大规模应用的一个很大的障碍。
The experimental results on a set of benchmark circuits show that this algorithm can improve the average delay of asynchronous circuits by 6~25%.
在标准测试电路上的测试结果表明引进延时再优化能给异步电路的平均延时带来6~25%的改进。
The design of asynchronous circuits is widely used in modern VLSI design, which is able to resolve the problems of power dissipation, system speed, clock skew, etc.
异步电路的设计能够解决功耗、系统速度、时钟偏移等问题,成为当前VLSI研究的热点。
In design of pulsed asynchronous sequential circuits, it will solve for equations of clock and equations of state, on a symbolic Karnaugh map.
在异步时序电路设计中,它将时钟方程和状态方程的求解归在统一的符号卡诺图上进行。
A method of designing asynchronous sequential circuits is presented.
本文提出异步时序电路的设计方法。
By applying equivalent circuits, this paper has analyzed three-phase asynchronous motor property and the harm to generator under asymmetrical voltage.
利用等效电路,分析了三相异步电动机在不对称电压下的性能和对电机的危害。
The optimization and asynchronous design of sequencing circuits and high level circuit design and optimizing techniques are described in particular.
重点介绍了时序电路的优化、异步设计、高层次电路设计和优化技术。
It is rather difficult to analyze and make use of asynchronous sequential circuits, so the application of asynchronous sequential circuits is much narrower than synchronous ones.
对异步时序电路的分析和使用是一个比较困难的问题,所以,异步时序电路的实际应用范围远不如同步时序电路。
According to different sensitive transitions of flip-flops used in sequential circuits, design and analysis methods for asynchronous sequential circuits are proposed by using the combinatorial clock.
本文根据电路中采用的触发器的不同敏感沿,提出采用组合时钟的异步时序电路的设计和分析方法。
The three phases voltage regulator circuits and three phases asynchronous motor soft starter method based on three phases voltage regulator circuits is analyzed at first.
论文首先对三相交流调压电路及基于三相调压电路的三相交流异步电动机的软起动方法进行了分析。
The circuits of asynchronous adder unit, asynchronous comparator unit, and asynchronous selector unit are proposed.
给出了一种异步实现结构的异步加法单元、异步比较单元和异步选择单元电路。
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。
The characteristics of circuits concerning speed and power are compared between the synchronous divider and the asynchronous divider.
比较了同步分频器和异步分频器,表明了异步分频器在高频应用中的特点。
The main work is listed below:· A method of synchronizing asynchronous logic for TFT-LCD controller driver logic circuits is proposed.
论文的主要工作如下:·针对TFT-LCD驱动控制芯片的异步接口和控制逻辑采用了一种异步逻辑同步化的处理方法。
With a very small extra number of circuits, the testability problem was removed which is caused by the asynchronous clocks and embedded memories.
通过增加少许电路结构,解决了由于内部多时钟以及多个嵌入式存储器模块的结构带来的影响可测性要求的问题。
With a very small extra number of circuits, the testability problem was removed which is caused by the asynchronous clocks and embedded memories.
通过增加少许电路结构,解决了由于内部多时钟以及多个嵌入式存储器模块的结构带来的影响可测性要求的问题。
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