IBM®
Skip to main content
    Country/region [change]    Terms of use
 
 
 
    Home    Products    Services & solutions    Support & downloads    My account    

IBM Journal of Research and Development
Applications of Massively Parallel Systems   Volume 52, Number 1/2, 2008
Table of contents: HTMLPDF This article: HTMLPDF   Copyright info

Terascale turbulence computation using the FLASH3 application framework on the IBM Blue Gene/L system - References

 by R. T. Fisher,
L. P. Kadanoff,
D. Q. Lamb,
A. Dubey,
T. Plewa,
A. Calder,
F. Cattaneo,
P. Constantin,
I. Foster,
M. E. Papka,
S. I. Abarzhi,
S. M. Asida,
P. M. Rich,
C. C. Glendenin,
K. Antypas,
D. J. Sheeler,
L. B. Reid,
B. Gallagher,
and S. G. Needham
References

  1. L. Biferale, G. Boffetta, A. Celani, B. J. Devenish, A. Lanotte, and F. Toschi, “Multiparticle Dispersion in Fully-Developed Turbulence,” Physics of Fluids 17, No. 11, 111701–111704 (2005).
  2. T. Gotoh, D. Fukayama, and T. Nakano, “Velocity Field Statistics in Homogeneous Steady Turbulence Obtained Using a High-Resolution Direction Numerical Simulation,” Physics of Fluids 14, No. 3, 1065–1081 (2002).
  3. Y. Kaneda, T. Ishihara, M. Yokokawa, K. Itakura, and A. Uno, “Energy Dissipation Rate and Energy Spectrum in High Resolution Direct Numerical Simulations of Turbulence in a Periodic Box,” Physics of Fluids 15, No. 2, L21–L24 (2003).
  4. B. Fryxell, K. Olson, P. Ricker, F. Timmees, M. Zingale, D. Lamb, P. MacNeice, R. Rosner, J. Truran, and H. Tufo, “FLASH: An Adaptive Mesh Hydrodynamics Code for Modeling Astrophysical Thermonuclear Flashes,” Astrophys. J. Suppl. 131, No. 1, 273–334 (2000).
  5. P. MacNeice, K. Olson, C. Mobarry, R. de Fainchtein, and C. Packer, “PARAMESH: A Parallel Adaptive Mesh Refinement Community Toolkit,” Computer Physics Comm. 126, No. 3, 330–354 (2000).
  6. F. Timmes and D. Arnett, “The Accuracy, Consistency, and Speed of Five Equations of State for Stellar Hydrodynamics,” Astrophys. J. Suppl. 125, No. 1, 277–294 (1999).
  7. P. Colella and P. Woodward, “The Piecewise Parabolic Method (PPM) for Gas-Dynamical Simulations,” J. Computational Physics 54, 174–201 (1984).
  8. V. Eswaran and S. Pope, “An Examination of Forcing in Direct Numerical Simulations of Turbulence,” Computers and Fluids 16, No. 3, 257–278 (1988).
  9. A. Kritsuk, M. Norman, and P. Padoan, “Adaptive Mesh Refinement for Supersonic Molecular Cloud Turbulence,” Astrophys. J. 638, No. 1, L25–L28 (2006).
  10. A. Kolmogorov, “The Local Structure of Turbulence in Incompressible Viscous Fluid for Very Large Reynolds Numbers,” R. Soc. London Proc. Series A 434, No. 1890, 9–13 (1991).
  11. U. Frisch, The Legacy of A. N. Kolmogorov, Cambridge University Press, Cambridge, UK, 1995.
  12. Z. She and E. Leveque, “Universal Scaling Laws in Fully Developed Turbulence,” Physic. Rev. Lett. 72, No. 3, 336–339 (1994).
  13. R. Benzi, S. Ciliberto, R. Tripiccione, C. Baudet, F. Massaioli, and S. Succi, “Extended Self-Similarity in Turbulent Flows,” Phys. Rev. 48, No. 1, R29–R32 (1993).
  14. E. Raymond, The Cathedral and the Bazaar: Musings on Linux and Open Source by an Accidental Revolutionary, O'Reilly Media, Sebastopol, CA, 2001.


    About IBM    Privacy    Contact