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Acoustic and Elastic Full Waveform Tomography

In: High Performance Computing in Science and Engineering ‘13

Author

Listed:
  • A. Kurzmann

    (Karlsruhe Institute of Technology)

  • S. Butzer

    (Karlsruhe Institute of Technology)

  • S. Jetschny

    (Petroleum Geo-Services ASA)

  • A. Przebindowska

    (Baker Hughes INTEQ GmbH)

  • L. Groos

    (Karlsruhe Institute of Technology)

  • M. Schäfer

    (Karlsruhe Institute of Technology)

  • S. Heider

    (Karlsruhe Institute of Technology)

  • T. Bohlen

    (Karlsruhe Institute of Technology)

Abstract

For a better estimation of subsurface parameters we develop imaging methods that can exploit the richness of full seismic waveforms. Full waveform tomography (FWT) is a powerful imaging method and emerges as an important procedure in hydrocarbon exploration and underground construction. It is able to recover high-resolution subsurface images from recorded seismic data. In this work, we demonstrate the performance of our parallel time-domain implementations applied to 2D and 3D problems. The results of synthetic feasibility studies—representing applications with a realistic background—illustrate the ability of FWT to reconstruct structures at small scale lengths. We also show first results of an FWT application to real seismic data recorded by a marine survey. Optimal parallelization strategies, such as domain decomposition and shot parallelization, are used in seismic modeling to exploit the possibilities of the high-performance computer HERMIT and to allow efficient FWT computations. FWT implementations show a convincing scaling behaviour. However, a competing benchmark of seismic modeling exhibits some performance drawbacks. Further software improvements of the modeling implementations might be necessary.

Suggested Citation

  • A. Kurzmann & S. Butzer & S. Jetschny & A. Przebindowska & L. Groos & M. Schäfer & S. Heider & T. Bohlen, 2013. "Acoustic and Elastic Full Waveform Tomography," Springer Books, in: Wolfgang E. Nagel & Dietmar H. Kröner & Michael M. Resch (ed.), High Performance Computing in Science and Engineering ‘13, edition 127, pages 105-122, Springer.
    • Handle: RePEc:spr:sprchp:978-3-319-02165-2_9
    DOI: 10.1007/978-3-319-02165-2_9
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