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基于去同步技术的异步8051设计与实现 被引量:1

Design and implementation of asynchronous 8051 based on desynchronization technique
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摘要 随着半导体工艺的发展,同步电路面临的时钟偏差、功耗等问题日益突出,异步设计方法得到广泛研究和关注。去同步技术可以方便地实现从同步向异步的转化,成为很有前途的异步电路设计方法。基于去同步技术设计实现了一款异步8051微控制器,着重介绍了基于去同步技术的设计流程与异步控制器设计方法。分析表明,在相同的电压、温度条件下,该异步8051性能与同步8051相当,而功耗约为1/2。 With the rapid development of semiconductor process,synchronous circuit designers have to deal with severe problems related to the clock skew,power-consumption,etc.Asynchronous design methodology is paid more and more attentions.Desynchronization technique is becoming a promising asynchronous design method since it could easily implement asynchronous circuit from synchronous circuit.This paper designs and implements an asynchronous 8051 microcontroller based on desynchronization technique.We address on the design flow and asynchronous controller design based on desynchronization technique.The analysis results show that in the same voltage and temperature condition,the performance of the asynchronous 8051 is almost the same as the corresponding synchronous 8051, while the power consumption is only half of the synchronous one.
作者 郭阳 肖嵘
出处 《计算机工程与应用》 CSCD 北大核心 2008年第4期94-96,共3页 Computer Engineering and Applications
基金 国家自然科学基金(the National Natural Science Foundation of China under Grant No.60573173)
关键词 异步电路 微控制器 去同步 握手协议 asynchronous circuit microcontroller desynchronization handshake protocols
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参考文献6

  • 1郭阳.异步微处理器设计方法研究[J].计算机工程与应用,2007,43(14):17-20. 被引量:1
  • 2Blunno I,Cortadella J,Kondratyev A,et al.Handshake protocols for desynchronization[C].Proe Int Syrup Advanced Research Asynchronous Circuits Systems, Greece, 2004:149-158.
  • 3Cortadella J,Kondratyev A,Lavagno L,et al.From synchronous to asynchronous :an automatic approach[C].Proc DATE, Paris, France, 2004,2: 1368-1369.
  • 4Davare A,Lwin K,Kondratyev A,et al.The best of both worlds:the efficient asynchronous implementation of synchronous specifications[C].Proc IEEE Design Automation Conf, San Diego,CA,2004: 588-591.
  • 5Cortadella J,Kondratyev A,Lavagno L,et al.Desynchronization:synthesis of asynchronous circuits from synchronous specifications[J]. IEEE Trans on CAD of Integrated Circuits and Systems,2006,25 (10) : 1904-1921.
  • 6Furber S B,Day P.Four-phase micropipeline latch control circuits[J]. IEEE Trans Very Large Scale Integr(VLSI) Syst,1996,4(2):247- 253.

二级参考文献18

  • 1Werner T,Akella V.Asynchronous processor:survey[J].IEEE Computer,1997,30 (11):67-76.
  • 2Yun K Y.Recent advances in asynchronous design methodologies[C]//Proceedings of the ASP-DAC'99,1999:253-259.
  • 3Stevens K,Rotem S,Burns S M.CAD directions for high performance asynchronous circuits[C]//Proceedings of 36th Design Automation Conference,1999:116-121.
  • 4Gupta N,Edwards D A.Synthesis of asynchronous circuits using early data validity[C]//18th International Conference on VLSI Design,2005:799-803.
  • 5Martin A J.Compiling communicating processes into delay-insensitive VLSI circuits[J]Distributed Computing,1986,1(4):226-234.
  • 6Chu T A.Synthesis of self-timed VLSI circuits from graph-theoretic specifcations[D].MIT Laboratory for Computer Science,1987.
  • 7Khomenko V,Koutny M,Yakovlev A.Logic synthesis for asynchronous circuits based on Petri net unfoldings and incremental SAT[C]//Proceedings of Application of Concurrency to System Design,2004:16-25.
  • 8Beerel P A.CAD Tools for the synthesis,verification,and testability of robust asynchronous circuits[D]Stanford University,1994.
  • 9Zhang Q,Theodoropoulos G.Modelling SAMIPS:a synthesisable asynchronous MIPS processor[C]//Proceedings of Simulation Symposium,2004:205-212.
  • 10Christensen K T,Jensen P,Korger P,et al.The design of an asynchronous TinyRISCTM TR4101 microprocessor core[C]//Proceedings of Advanced Research in Asynchronous Circuits and Systems,1998:108-119.

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