感知转换的全局信令(TAGS)

Himanshu Kaul, D. Sylvester
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引用次数: 10

摘要

我们提出了一种新的接收器,以减少在全球布线中使用的中继器的数量。接收器在静默时存储线路的下一个状态。在检测到行尾的转换后,输出暂时由存储的下一个状态驱动。接收器输出端的转换比线路末端的转换快得多,因为它们是在本地生成的。使用TAGS接收器,我们可以在没有中继器的情况下运行800 MHz的15 mm线路(180 nm节点)。同样的线路需要三个中继器和一个传统的接收器,并且消耗更多的功率和面积。在70纳米技术节点上,TAGS接收器的性能也优于标准逆变器。两个技术节点的噪声分析表明,接收机保持了良好的功能性抗噪声能力。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Transition aware global signaling (TAGS)
We propose a new receiver to reduce the number of repeaters used in global wiring. The receiver stores the next state of the line while quiet. Upon detection of a transition at the end of the line the output is temporarily driven by the stored next state. Transitions at the output of the receiver are much faster than at the end of the line since they are generated locally. Using the TAGS receiver we can run a 15 mm line (180 nm node) at 800 MHz with no repeaters. The same line requires three repeaters with a traditional receiver and consumed more power and area. The TAGS receiver also outperforms a standard inverter at the 70 nm technology node. A noise analysis at the two technology nodes shows that the receiver maintains good functional noise immunity.
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