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

Overview of the IBM Blue Gene/P project - References

 by IBM Blue Gene team
References

  1. “Blue Gene,” IBM J. Res & Dev. 49, No. 2/3 (2005), entire issue.
  2. “Applications of Massively Parallel Systems,” IBM J. Res & Dev. 52, No. 1/2 (2008, this issue), entire issue.
  3. F. H. Streitz, J. N. Glosli, M. V. Patel, B. Chan, R. K. Yates, and B. R. de Supinski, “100+ TFlop Solidification Simulations on Blue Gene/L,” Proceedings of the 2005 ACM/IEEE Conference on Supercomputing, November 2005; 2005 Gordon Bell Prize winner; see http://sc05.supercomputing.org/schedule/pdf/pap307.pdf.
  4. F. Gygi, E. W. Draeger, M. Schulz, B. R. de Supinski, J. A. Gunnels, V. Austel, J. C. Sexton, et al., “Large-Scale Electronic Structure Calculations of High-Z Metals on the Blue Gene/L Platform,” Proceedings of the ACM/IEEE 2006 Conference on Supercomputing, November 2006; 2006 Gordon Bell Prize for Peak Performance winner; see http://sc06.supercomputing.org/schedule/pdf/gb104.pdf.
  5. P. Vranas, G. Bhanot, M. Blumrich, D. Chen, A. Gara, P. Heidelberger, V. Salapura, and J. C. Sexton, “The Blue Gene/L Supercomputer and Quantum Chromodynamics,” Proceedings of the ACM/IEEE 2006 Conference on Supercomputing, November 2006; 2006 Gordon Bell Prize finalist; http://sc06.supercomputing.org/schedule/pdf/gb110.pdf.
  6. J. N. Glosli, K. J. Caspersen, J. A. Gunnels, D. F. Richards, R. E. Rudd, and F. H. Streitz, “Extending Stability Beyond CPU Millennium: A Micron-Scale Atomistic Simulation of Kelvin–Helmholtz Instability,” Proceedings of the 2007 ACM/IEEE Conference on Supercomputing, 2007; Gordon Bell Prize Winner; see http://sc07.supercomputing.org/schedule/pdf/gb109.pdf.
  7. TOP500 Supercomputer Sites; see http://www.top500.org.
  8. HPC Challenge Awards Competition; see http://www.hpcchallenge.org/.
  9. The Green500 List; see http://www.green500.org/.
  10. IBM Corporation, “ASICs”; see http://www.ibm.com/technology/ges/semiconductor/asic/.
  11. J. Castanos, G. Chiu, P. Coteus, A. Gara, M. Gupta, and J. Moreira, “Lilliputians of Supercomputing Have Arrived!”, CTWatch Quart. 1, No. 3, 21–26 (2005).
  12. J. E. Moreira, G. Almási, C. Archer, R. Bellofatto, P. Bergner, J. R. Brunheroto, M. Brutman, et al., “Blue Gene/L Programming and Operating Environment,” IBM J. Res. & Dev. 49, No. 2/3, 367–376 (2005).
  13. IBM Corporation, “Exploiting the Dual Floating Point Units in Blue Gene/L,” white paper (2006); see http://www.ibm.com/support/docview.wss?uid=swg27007511.
  14. A. Martin and M. Mendell, “Blue Gene Compilers and Optimization,” paper presented at Third BG/L Systems Software and Applications Workshop, Tokyo, April 19–20, 2006; see http://www.cbrc.jp/symposium/bg2006/PDF/Martin.pdf.
  15. A. E. Eichenberger, P. Wu, and K. O'Brien, “Vectorization for SIMD Architectures with Alignment Constraints,” Proceedings of the ACM SIGPLAN 2004 Conference on Programming Language Design and Implementation, 2004, pp. 82–93; see http://domino.research.ibm.com/comm/research_projects.nsf/pages/cellcompiler.refs.html/$FILE/paper-eichen-pldi04.pdf.
  16. P. Wu, A. E. Eichenberger, A. Wang, and P. Zhao, “An Integrated Simdization Framework Using Virtual Vectors,” Proceedings of the 19th Annual International Conference on Supercomputing, 2005, pp. 179–178; see http://domino.research.ibm.com/comm/research_projects.nsf/pages/cellcompiler.refs.html/$FILE/paper-wu-ics05.pdf.
  17. B. G. Fitch, A. Rayshubskiy, M. Eleftheriou, T. J. C. Ward, M. Giampapa, M. C. Pitman, and R. S. Germain, “Blue Matter: Approaching the Limits Of Concurrency for Classical Molecular Dynamics,” Proceedings of the 2006 ACM/IEEE Conference on Supercomputing, 2006; see http://doi.acm.org/10.1145/1188455.1188547.
  18. MIMD Lattice Computation (MILC) Collaboration; see http://www.physics.indiana.edu/~sg/milc.html.
  19. Los Alamos National Laboratory, Climate, Ocean, and Sea Ice Modeling: POP; see http://climate.lanl.gov/Models/POP/.
  20. Advanced Simulation and Computing; see http://asc.llnl.gov.
  21. CPMD Consortium Page; see http://www.cpmd.org/.
  22. Aeronautical Systems Center/Major Shared Resource Center, CTH; see http://www.asc.hpc.mil/software/info/cth/.
  23. C. Hoke, V. Burnley, and G. Schwabacher, “Aerodynamic Analysis of Complex Missile Configurations Using AVUS (Air Vehicles Unstructured Solver),” 22nd Applied Aerodynamics Conference and Exhibit, August 2004; see http://www.aiaa.org/content.cfm?pageid=406&gTable=Paper&gID=23213.
  24. LAMMPS Molecular Dynamics Simulator; see http://lammps.sandia.gov/.
  25. HYCOM Consortium; see http://hycom.rsmas.miami.edu/.


    About IBM    Privacy    Contact