• DocumentCode
    1591082
  • Title

    Delay hazards in complex gate based speed independent VLSI circuits

  • Author

    Tabrizi, Nozar ; Liebelt, Michael J. ; Eshraghian, Kamran

  • Author_Institution
    Dept. of Electr. & Electron. Eng., Adelaide Univ., SA, Australia
  • fYear
    1996
  • Firstpage
    266
  • Lastpage
    271
  • Abstract
    Although speed independent VLSI circuit design is supported by rich theory at higher levels, it suffers from the lack of an area efficient robust transistor level implementation technique. In this paper we introduce safe cells based on which well-formed STGs can be implemented free of (delay) hazards with no unrealistic assumptions about physical gates. Although this technique still compromises chip area for the sake of preventing hazards, we show that it may achieve a significant area gain in comparison with the two-phase RS-implementation method, which is one of the few true speed independent implementation techniques that we are aware of so far. Delay hazards are then analysed in complex gate based speed independent circuits and hence theorems are developed to identify a subclass of delay hazards
  • Keywords
    VLSI; asynchronous circuits; delays; hazards and race conditions; integrated circuit interconnections; logic design; signal flow graphs; STGs; area efficient robust transistor level implementation; area gain; asynchronous circuits; chip area; delay hazards; gate based speed independent VLSI circuits; signal transition graphs; speed independent implementation techniques; Asynchronous circuits; Circuit synthesis; Circuit theory; Delay effects; Design engineering; Design methodology; Hazards; Robustness; Silicon carbide; Very large scale integration;
  • fLanguage
    English
  • Publisher
    ieee
  • Conference_Titel
    VLSI, 1996. Proceedings., Sixth Great Lakes Symposium on
  • Conference_Location
    Ames, IA
  • ISSN
    1066-1395
  • Print_ISBN
    0-8186-7502-0
  • Type

    conf

  • DOI
    10.1109/GLSV.1996.497631
  • Filename
    497631