Leading Computational Methods on Scalar and Vector HEC Platforms

@article{Oliker2005LeadingCM,
  title={Leading Computational Methods on Scalar and Vector HEC Platforms},
  author={Leonid Oliker and Jonathan Carter and Michael F. Wehner and Andrew Canning and St{\'e}phane Ethier and Arthur A. Mirin and David Parks and Patrick H. Worley and Shigemune Kitawaki and Yoshinori Tsuda},
  journal={ACM/IEEE SC 2005 Conference (SC'05)},
  year={2005},
  pages={62-62}
}
The last decade has witnessed a rapid proliferation of superscalar cache-based microprocessors to build high-end computing (HEC) platforms, primarily because of their generality, scalability, and cost effectiveness. However, the growing gap between sustained and peak performance for full-scale scientific applications on conventional supercomputers has become a major concern in high performance computing, requiring significantly larger systems and application scalability than implied by peak… CONTINUE READING
Highly Cited
This paper has 35 citations. REVIEW CITATIONS

Citations

Publications citing this paper.
Showing 1-10 of 24 extracted citations

References

Publications referenced by this paper.
Showing 1-10 of 21 references

Lattice kinetic schemes for magnetohydrodynamics

  • P. J. Dellar
  • J Comput. Phys. ,
  • 2002
Highly Influential
16 Excerpts

Lattice boltzmann model for dissipative incompressible MHD

  • A. Macnab, G. Vahala, P. Pavlo, L. Vahala, M. Soe
  • In Proc. 28th EPS Conference on Controlled Fusion…
  • 2001
Highly Influential
16 Excerpts

Integrated Performance Monitoring: A portable profiling infrastructure for parallel applications

  • D. Skinner
  • In Proc. ISC2005: International Supercomputing…
  • 2005
1 Excerpt

Performance evaluation of the SX6 vector architecture for scientific computations

  • W. M. Putman, S. J. Lin, B. Shen
  • Concurrency and Computation ; Practice and…
  • 2005

Similar Papers

Loading similar papers…