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Application of Large-Scale Phase-Field Simulations in the Context of High-Performance Computing

In: High Performance Computing in Science and Engineering ’15

Author

Listed:
  • Johannes Hötzer

    (Reliability of Components and Systems (IAM-ZBS), Institute of Applied Materials
    Institute of Technology (KIT)
    Hochschule Karlsruhe Technik und Wirtschaft, Institute of Materials and Processes)

  • Marcus Jainta

    (Reliability of Components and Systems (IAM-ZBS), Institute of Applied Materials
    Institute of Technology (KIT)
    Hochschule Karlsruhe Technik und Wirtschaft, Institute of Materials and Processes)

  • Marouen Ben Said

    (Reliability of Components and Systems (IAM-ZBS), Institute of Applied Materials
    Institute of Technology (KIT)
    Hochschule Karlsruhe Technik und Wirtschaft, Institute of Materials and Processes)

  • Philipp Steinmetz

    (Reliability of Components and Systems (IAM-ZBS), Institute of Applied Materials
    Institute of Technology (KIT)
    Hochschule Karlsruhe Technik und Wirtschaft, Institute of Materials and Processes)

  • Marco Berghoff

    (Reliability of Components and Systems (IAM-ZBS), Institute of Applied Materials
    Institute of Technology (KIT)
    Hochschule Karlsruhe Technik und Wirtschaft, Institute of Materials and Processes)

  • Britta Nestler

    (Reliability of Components and Systems (IAM-ZBS), Institute of Applied Materials
    Institute of Technology (KIT)
    Hochschule Karlsruhe Technik und Wirtschaft, Institute of Materials and Processes)

Abstract

In material science, simulations became a common tool for the understanding of the underlying behaviour of different classes of materials. Due to the growing complexity of problems at hand, the simulation domains, and therefore the computational effort is steadily increasing. We presents various application of the phase-field method; ranging from the solidification of ternary eutectics and pure ice systems to the interaction of multiple liquid phases on fibers. All these topics have in common, that they need a large number of cores to investigate the decisive physical effects in adequate time. We show an overview of the results for this wide range of applications and the scaling behaviour of the used software frameworks.

Suggested Citation

  • Johannes Hötzer & Marcus Jainta & Marouen Ben Said & Philipp Steinmetz & Marco Berghoff & Britta Nestler, 2016. "Application of Large-Scale Phase-Field Simulations in the Context of High-Performance Computing," Springer Books, in: Wolfgang E. Nagel & Dietmar H. Kröner & Michael M. Resch (ed.), High Performance Computing in Science and Engineering ’15, edition 1, pages 659-674, Springer.
    • Handle: RePEc:spr:sprchp:978-3-319-24633-8_42
    DOI: 10.1007/978-3-319-24633-8_42
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