• DocumentCode
    2231752
  • Title

    CCNoC: Specializing On-Chip Interconnects for Energy Efficiency in Cache-Coherent Servers

  • Author

    Volos, Stavros ; Seiculescu, Ciprian ; Grot, Boris ; Pour, Naser Khosro ; Falsafi, Babak ; De Micheli, Giovanni

  • fYear
    2012
  • fDate
    9-11 May 2012
  • Firstpage
    67
  • Lastpage
    74
  • Abstract
    Many core chips are emerging as the architecture of choice to provide power efficiency and improve performance, while riding Moore´s Law. In these architectures, on-chip inter-connects play a pivotal role in ensuring power and performance scalability. As supply voltages begin to level off in future technologies, chip designs in general and interconnects in particular will require specialization to meet power and performance objectives. In this work, we make the observation that cache-coherent many core server chips exhibit a duality in on-chip network traffic. Request traffic largely consists of simple control messages, while response traffic often carries cache-block-sized payloads. We present Cache-Coherence Network-on-Chip (CCNoC), a design that specializes the NoC to fit the demands of server workloads via a pair of asymmetric networks tuned to the type of traffic traversing them. The networks differ in their data path width, router micro architecture, flow control strategy, and delay. The resulting heterogeneous CCNoC architecture enables significant gains in power efficiency over conventional NoC designs at similar performance levels. Our evaluation reveals that a 4×4 mesh-based chip multiprocessor with the proposed CCNoC organization running commercial server workloads is 15-28% more energy efficient than various state-of-the-art single- and dual-network organizations.
  • Keywords
    integrated circuit interconnections; multiprocessor interconnection networks; network-on-chip; Moore´s Law; asymmetric networks; cache-coherence network-on-chip; cache-coherent servers; dual-network organizations; energy efficiency; mesh-based chip multiprocessor; on-chip interconnects; on-chip network traffic; router micro architecture; server workloads; single-network organizations; Coherence; Network topology; Organizations; Routing protocols; Servers; System recovery;
  • fLanguage
    English
  • Publisher
    ieee
  • Conference_Titel
    Networks on Chip (NoCS), 2012 Sixth IEEE/ACM International Symposium on
  • Conference_Location
    Copenhagen
  • Print_ISBN
    978-1-4673-0973-8
  • Type

    conf

  • DOI
    10.1109/NOCS.2012.15
  • Filename
    6209264