• DocumentCode
    2322344
  • Title

    Conservative Distributed Discrete Event Simulation on Amazon EC2

  • Author

    Vanmechelen, Kurt ; De Munck, Silas ; Broeckhove, Jan

  • Author_Institution
    Dept. of Math. & Comput. Sci., Univ. of Antwerp, Antwerp, Belgium
  • fYear
    2012
  • fDate
    13-16 May 2012
  • Firstpage
    853
  • Lastpage
    860
  • Abstract
    A discrete-event simulator´s ability to distribute the execution of a simulation model allows one to deal with the memory limitations of a single computational resource, and thereby increase the scale or level of detail at which models can be studied. In addition, distribution has the potential to reduce the round trip time of a simulation by incorporating multiple computational cores into the simulation´s execution. However, such gains can be voided by the overhead that time synchronization protocols introduce. These protocols are required to prevent the occurrence of causality errors during a parallel execution of a simulation. The overhead depends on the protocol, characteristics of the simulation model, and the architecture of the computational resources used. Recently, infrastructure-as-a-service offerings in cloud computing have introduced flexibility in acquiring computational resources on a pay-as-you-go basis. At present, it is unclear to what extent these offerings are suited for the distributed execution of discrete-event simulations, and how the characteristics of different resource types impact the runtime performance of distributed simulations. In this paper we investigate this issue, and assess the performance of different conservative time synchronization protocols on a range of cloud resource types that are currently available on Amazon EC2.
  • Keywords
    cloud computing; discrete event simulation; protocols; resource allocation; synchronisation; Amazon EC2; causality errors; cloud computing; cloud resource; computational resources; conservative distributed discrete event simulation; infrastructure-as-a-service; memory limitations; multiple computational cores; parallel execution; pay-as-you-go basis; round trip time; simulation execution; single computational resource; time synchronization protocols; Cloud computing; Computational modeling; Head; Magnetic heads; Protocols; Servers; Synchronization; EC2; PDES; cloud computing; conservative time synchronization; performance;
  • fLanguage
    English
  • Publisher
    ieee
  • Conference_Titel
    Cluster, Cloud and Grid Computing (CCGrid), 2012 12th IEEE/ACM International Symposium on
  • Conference_Location
    Ottawa, ON
  • Print_ISBN
    978-1-4673-1395-7
  • Type

    conf

  • DOI
    10.1109/CCGrid.2012.73
  • Filename
    6217523