• DocumentCode
    1409602
  • Title

    Uniform repeater insertion in RC trees

  • Author

    Adler, Victor ; Friedman, Eby G.

  • Author_Institution
    Sun Microsyst., Palo Alto, CA, USA
  • Volume
    47
  • Issue
    10
  • fYear
    2000
  • fDate
    10/1/2000 12:00:00 AM
  • Firstpage
    1515
  • Lastpage
    1523
  • Abstract
    Repeater insertion can be used to overcome the quadratic increase in the time required for a signal to propagate through an RC interconnect. A new timing model, based on short-channel I-V equations, has been developed to characterize the signal delay through a resistive line. These analytical expressions provide the foundation for algorithms used to insert uniform repeaters into RC tree structures. Both local and global optimization algorithms for repeater insertion are presented. While the local optimization algorithm provides a computationally fast solution to the repeater insertion problem, the resulting circuit implementation is less power, area, and speed efficient than applying global optimization techniques. The global optimization algorithm for repeater insertion is achieved through the downhill simplex method. The circuit equations, algorithms, and software implementation of this repeater insertion system are presented in this paper. Results from these insertion methodologies improve delay from 25% to 60% versus typical cascaded buffer methodologies. Global repeater insertion further decreases delay times by up to 22% over the local repeater insertion method. The accuracy of the timing model characterizing the repeater insertion process as compared to SPICE simulations is generally within 10%. Applications of these algorithms for minimizing the signal delay through an RC tree, such as in data paths, and targeting signal delays through an RC tree, such as in clock distribution networks, are also discussed.
  • Keywords
    RC circuits; SPICE; buffer circuits; circuit optimisation; delays; integrated circuit interconnections; integrated circuit modelling; repeaters; timing; trees (mathematics); RC tree; SPICE simulation; cascaded buffer; clock distribution network; data path; downhill simplex method; global optimization algorithm; integrated circuit interconnect; local optimization algorithm; repeater insertion; resistive line; short-channel I-V equation; signal delay; timing model; Accuracy; Algorithm design and analysis; Delay; Equations; Integrated circuit interconnections; Optimization methods; Repeaters; Software algorithms; Timing; Tree data structures;
  • fLanguage
    English
  • Journal_Title
    Circuits and Systems I: Fundamental Theory and Applications, IEEE Transactions on
  • Publisher
    ieee
  • ISSN
    1057-7122
  • Type

    jour

  • DOI
    10.1109/81.886981
  • Filename
    886981