• DocumentCode
    2047571
  • Title

    Explaining the gap between ASIC and custom power: a custom perspective

  • Author

    Chang, Andrew ; Dally, William J.

  • Author_Institution
    Cadence Design Syst., San Jose, CA, USA
  • fYear
    2005
  • fDate
    13-17 June 2005
  • Firstpage
    281
  • Lastpage
    284
  • Abstract
    Power dissipation is now both a key constraint and an application driver in VLSI systems. For a specific application, the energy efficiency of different implementations can differ by multiple orders of magnitude. This work surveys a range of techniques available to improve energy efficiency and highlights their cumulative benefit. Understanding, adopting and adapting selected techniques from full-custom solutions can help bridge the efficiency gap for the ASIC designs. Architecture and micro-architecture choices yield multiple-order of magnitude improvements in power dissipation by matching the structure of the design to the structure of the application and by providing multiple operating and power-down modes. The combination of methodology and full-custom circuit techniques and libraries provide benefits primarily due to reduced parasitic loading enabling the improved performance to be translated into the potential for factor-of-3 to factor-of-10 improvements in power.
  • Keywords
    VLSI; application specific integrated circuits; integrated circuit design; low-power electronics; ASIC designs; VLSI systems; application specific integrated circuits; circuit libraries; energy efficiency; full-custom circuit techniques; parasitic loading; power dissipation; Application specific integrated circuits; Application specific processors; Bridge circuits; Electronic design automation and methodology; Energy efficiency; Flexible printed circuits; Libraries; Permission; Power dissipation; Very large scale integration;
  • fLanguage
    English
  • Publisher
    ieee
  • Conference_Titel
    Design Automation Conference, 2005. Proceedings. 42nd
  • Print_ISBN
    1-59593-058-2
  • Type

    conf

  • DOI
    10.1109/DAC.2005.193817
  • Filename
    1510336