RSFQ-asynchronous timing (RSFQ-AT): a new design methodology for implementation in CAD automation

Gerber H.R.; Fourie C.J.; Perold W.J.

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RSFQ-asynchronous timing (RSFQ-AT): a new design methodology for implementation in CAD automation

机译：RSFQ异步计时（RSFQ-AT）：一种用于CAD自动化的新设计方法

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Asynchronous timing is very important in the design of large-scale ultra-high speed superconducting digital electronic (SDE) circuits. This paper presents an optimized asynchronous self-timing scheme that will simplify and speed up the design of large digital circuits. Rapid Single Flux Quantum Asynchronous Timing (RSFQ-AT) is compared to other timing schemes by implementing, testing and evaluating a variety of circuits. Further it is shown how the design methodology introduced with this asynchronous self-timing scheme can simplify the design of automated CAD tools for RSFQ-AT.

机译：在大规模超高速超导数字电子（SDE）电路的设计中，异步时序非常重要。本文提出了一种优化的异步自定时方案，该方案将简化并加速大型数字电路的设计。通过实现，测试和评估各种电路，将快速单通量量子异步时序（RSFQ-AT）与其他时序方案进行了比较。进一步说明了这种异步自定时方案引入的设计方法如何简化RSFQ-AT的自动化CAD工具的设计。

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《IEEE Transactions on Applied Superconductivity》 |2005年第2期|p.272-275|共4页
作者
Gerber H.R.; Fourie C.J.; Perold W.J.;
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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
原文格式 PDF
正文语种 eng
中图分类超导体、超导体材料;半导体技术;
关键词
asynchronous circuits; integrated circuit design; integrated logic circuits; logic CAD; superconducting logic circuits; very high speed integrated circuits; CAD automation; RSFQ-asynchronous timing; VLSI; asynchronous self-timing scheme; digital circuits; large-sca;

机译：异步电路;集成电路设计;集成逻辑电路;逻辑CAD;超导逻辑电路;超高速集成电路;CAD自动化;RSFQ异步定时;VLSI;异步自定时方案;数字电路;大面积;

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RSFQ-asynchronous timing (RSFQ-AT): a new design methodology for implementation in CAD automation

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