• DocumentCode
    1960863
  • Title

    Visualization of large time-varying vector data

  • Author

    Ali, Akram Syed ; Hussien, Ashraf S. ; Tolba, Mohamed F. ; Youssef, Ahmed H.

  • Author_Institution
    Fac. of Comput. & Inf. Sci., Ain Shams Univ., Cairo, Egypt
  • Volume
    4
  • fYear
    2010
  • fDate
    9-11 July 2010
  • Firstpage
    210
  • Lastpage
    215
  • Abstract
    In computation flow visualization, integration based geometric flow visualization is often used to explore the flow field structure. A typical time-varying dataset from a Computational Fluid Dynamics (CFD) simulation can easily require hundreds of gigabytes to even terabytes of storage space, which creates challenges for the consequent data-analysis tasks. This paper presents a new technique for path-lines visualization of extremely large time varying vector data using high performance computing. The high level requirements that guided the formulation of the new technique are (a) support for large dataset sizes, (b) support for temporal coherence of the vector data, (c) support for distributed memory high performance computing and (d) optimum utilization of the computing nodes with multi-cores (multi-core processors). The challenge is to design and implement a technique that meets these complex requirements and balances the conflicts between them. The fundamental innovation in this work is developing efficient distributed path-lines visualization for large time varying vector data. The maximum performance was reached through the parallelization of multiple processes on the multi-cores of each computing node. Accuracy of the proposed technique was confirmed compared to the results of the Visualization Tool Kit (VTK). In addition, the proposed technique exhibited acceptable scalability for different data sizes with better scalability for the larger ones. Finally, the utilization of the computing nodes was satisfactory for the considered test cases.
  • Keywords
    computational fluid dynamics; data analysis; data visualisation; flow visualisation; time-varying systems; CFD simulation; VTK; computation flow visualization; computational fluid dynamics; computing nodes utilization; data analysis; distributed memory; flow field structure; integration based geometric flow visualization; multicore processors; path lines visualization; storage space; time-varying vector data visualization; visualization tool kit; Hardware; Memory management; Multicore processing; Program processors; Rendering (computer graphics); Visualization; large scale data; pathlines; stream-lines; vector data; visualization;
  • fLanguage
    English
  • Publisher
    ieee
  • Conference_Titel
    Computer Science and Information Technology (ICCSIT), 2010 3rd IEEE International Conference on
  • Conference_Location
    Chengdu
  • Print_ISBN
    978-1-4244-5537-9
  • Type

    conf

  • DOI
    10.1109/ICCSIT.2010.5565176
  • Filename
    5565176