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IBM Journal of Research and Development
Applications of Massively Parallel Systems   Volume 52, Number 1/2, 2008
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Massively parallel electrical-conductivity imaging of hydrocarbons using the IBM Blue Gene/L supercomputer - References

 by M. Commer,
G. A. Newman,
J. J. Carazzone,
T. A. Dickens,
K. E. Green,
L. A. Wahrmund,
D. E. Willen,
and J. Shiu
References

  1. T. Eidesmo, S. Ellingsgrud, L. M. Macgregor, S. Constable, M. C. Sinha, S. Johansen, F. N. Kong, and H. Westerdahl, “Sea Bed Logging (SBL), A New Method for Remote and Direct Identification of Hydrocarbon Filled Layers in Deepwater,” First Break 20, No. 3, 144–152 (2002).
  2. S. Ellingsrud, T. Eidesmo, S. Johansen, M. C. Sinha, L. M. Macgregor, and S. Constable, “Remote Sensing of Hydrocarbon Layers by Seabed Logging (SBL): Results from a Cruise Offshore Angola,” The Leading Edge 21, No. 10, 972–982 (2002).
  3. L. M. Macgregor and M. C. Sinha, “Use of Marine Controlled Source Electromagnetic Sounding for Sub-Basalt Exploration,” Geophysical Prospecting 48, No. 6, 1091–1106 (2000).
  4. L. J. Srnka, J. J. Carazzone, M. S. Ephron, and E. A. Eriksen, “Remote Reservoir Resistivity Mapping,” The Leading Edge 25, No. 8, 972–975 (2006).
  5. S. Constable, “Marine Electromagnetic Methods—A New Tool for Offshore Exploration,” The Leading Edge 25, No. 4, 438–444 (2006).
  6. D. L. Alumbaugh, G. A. Newman, L. Prevost, and J. Shadid, “Three-Dimensional, Wideband Electromagnetic Modeling on Massively Parallel Computers,” Radio Science 31, No. 1, 1–23 (1996).
  7. G. A. Newman and P. T. Boggs, “Solution Accelerators for Large-Scale Three-Dimensional Electromagnetic Inverse Problems,” Inverse Problems 20, No. 6, S151–S170 (2004).
  8. M. Commer and G. A. Newman, “Large Scale 3D EM Inversion Using Optimized Simulation Grids Nonconformal to the Model Space,” Exp. Abstr. Soc. Expl. Geophys. 25, 760–764 (2006).
  9. G. A. Newman and D. L. Alumbaugh, “Three-Dimensional Massively Parallel Electromagnetic Inversion—Part I. Theory,” Geophys. J. Int. 128, No. 2, 345–354 (1997).
  10. S. Moskow, V. Druskin, T. Habashy, P. Lee, and S. Davdychewa, “A Finite Difference Scheme for Elliptic Equations with Rough Coefficients Using a Cartesian Grid Nonconforming to Interfaces,” SIAM J. Number. Anal. 36, No. 2, 442–464 (1999).
  11. J. J. Carazzone, O. M. Burtz, K. E. Green, and D. A. Pavlov, “Three Dimensional Imaging of Marine CSEM Data,” Exp. Abstr. Soc. Expl. Geophys. 24, 575–578 (2005).
  12. K. E. Green, O. M. Burtz, L. A. Wahrmund, T. Clee, I. Gallegos, C. Xia, G. Zelewski, et al., “R3M Case Studies: Detecting Reservoir Resistivity in Complex Settings,” Exp. Abstr. Soc. Expl. Geophys. 24, 572–574 (2005).
  13. J. D. Klein, P. R. Martin, and D. F. Allen, “The Petrophysics of Electrically Anisotropic Reservoirs,” Trans. Soc. Petrol. Well-Log Analysts (SPWLA); 36th Annual Logging Symposium (1995).
  14. J. Zhao, D. Zhou, X. Li, R. Chen, and C. Yang, “Laboratory Measurements and Applications of Anisotropy Parameters of Rocks,” Trans. Soc. Petrol. Well-Log Analysts (SPWLA); 35th Annual Logging Symposium (1994).
  15. G. M. Hoversten, G. A. Newman, N. Geier, and G. Flanagan, “3D Modeling of a Deepwater EM Exploration Survey,” Geophysics 71, No. 5, G239–G248 (2006).


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