• DocumentCode
    3061342
  • Title

    Dynamic relationships and the persistence of pairings

  • Author

    Amer, Ahmed ; Long, Darrell D E

  • Author_Institution
    Jack Baskin Sch. of Eng., California Univ., Santa Cruz, CA, USA
  • fYear
    2001
  • fDate
    36982
  • Firstpage
    502
  • Lastpage
    507
  • Abstract
    The ability to automatically hoard data on a computer´s local store would go a long way towards freeing the mobile user from dependence on the network and potentially unbounded latencies. An important step in developing a fully automated file hoarding algorithm is the ability to automatically identify strong relationships between files. We present a mechanism for visualizing the degree of long-term relationships inherent in a file access stream. We do this by comparing the performance of static and dynamic relationship predictors. We demonstrate that even the simplest associations (from a static/first-successor predictor) maintain relatively high accuracy over extended periods of time, closely tracking the performance of an equivalent dynamic (last-successor) predictor. We then introduce rank-difference plots, a visualization technique which allows us to demonstrate how this behavior is caused by stable static pairings of files that are lost by the adaptation of the dynamic predictor for a substantial subset of frequently accessed files. We conclude by demonstrating how a third pairing mechanism can make use of these observations to outperform both the dynamic and static predictors
  • Keywords
    data visualisation; file organisation; mobile computing; dynamic predictor; dynamic predictors; dynamic relationship predictors; dynamic relationships; file access stream; frequently accessed files; fully automated file hoarding algorithm; last-successor predictor; local store; long-term relationships; mobile user; pairing persistence; potentially unbounded latencies; rank-difference plots; stable static pairings; static predictors; static/first-successor predictor; strong relationships; third pairing mechanism; visualization technique; Bandwidth; Computer networks; Data engineering; Delay; Lifting equipment; Memory; Mobile computing; Throughput; Visualization; Wireless communication;
  • fLanguage
    English
  • Publisher
    ieee
  • Conference_Titel
    Distributed Computing Systems Workshop, 2001 International Conference on
  • Conference_Location
    Mesa, AZ
  • Print_ISBN
    0-7695-1080-9
  • Type

    conf

  • DOI
    10.1109/CDCS.2001.918751
  • Filename
    918751