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Science / Molecular modelling / Molecular dynamics / Computational physics / Anton / N-body simulation / Particle / Physics / Chemistry / Computational chemistry


Document Date: 2008-02-27 22:44:01

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Company

IBM / RTL / Amdahl / /

Currency

USD / /

/

Facility

Columbia University / /

IndustryTerm

chemical system size / finiband network / law bottlenecks / chemical systems / hardware systems / nm technology / particle distribution network / highperformance general-purpose processor / direct product / typical programmable processor / chemical system / particle-particle energy / force reduction network / larger chemical systems / systolic force reduction network / force reduction networks / programmable systems / parallelization algorithm / programmable general-purpose processor / software package / identical processing nodes / plate distribution network / then computing interactions / larger systems / energy / interactions/µs/chip / /

Organization

ASIC / Center for Computational Biology and Bioinformatics / Columbia University / New York / /

Person

Richard H. Larson / John K. Salmon / J.P. Grossman / Martin M. Deneroff / Cliff Young / David E. Shaw / Ron O. Dror / Yibing Shan / John L. Klepeis / /

Position

Representative / head / /

ProgrammingLanguage

L / /

ProvinceOrState

Maryland / New York / /

Technology

RAM / Bioinformatics / ASIC / typical programmable processor / 90 nm technology / recently developed parallelization algorithm / same technology / 3.0 GHz processor / Simulation / 2.4 GHz Opteron processors / /

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