Kurt W. Pinnow

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of message-passing services for the Blue Gene/L supercomputer G. Almási C. Archer J. G. Castaños J. A. Gunnels C. C. Erway P. Heidelberger X. Martorell J. E. Moreira K. Pinnow J. Ratterman B. D. Steinmacher-Burow W. Gropp B. Toonen The Blue Genet/L (BG/L) supercomputer, with 65,536 dualprocessor compute nodes, was designed from the ground up to support(More)
The BlueGene/L supercomputer will consist of 65,536 dual-processor compute nodes interconnected by two high-speed networks: a three-dimensional torus network and a tree topology network. Each compute node can only address its own local memory, making message passing the natural programming model for BlueGene/L. In this paper we present our implementation of(More)
IBM Blue Gene/L system: Accelerating the transfer of drug discoveries from laboratory to patient Y.-P. Pang T. J. Mullins B. A. Swartz J. S. McAllister B. E. Smith C. J. Archer R. G. Musselman A. E. Peters B. P. Wallenfelt K. W. Pinnow EUDOCe is a molecular docking program that has successfully helped to identify new drug leads. This virtual screening (VS)(More)
The BlueGene/L supercoputer, with 65,536 dual-processor compute nodes, was designed from the group up to support ef£ceint execution of massively parallel message passing programs. Part of this support is an optimized implementation of MPI that leverages the hardware features of BlueGene/L. MPI for BlueGene/L is implemented on top of a more basic(More)
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