@inbook {762, title = {Keeneland: Computational Science Using Heterogeneous GPU Computing}, booktitle = {Contemporary High Performance Computing: From Petascale Toward Exascale}, series = {CRC Computational Science Series}, year = {2013}, publisher = {Taylor and Francis}, organization = {Taylor and Francis}, chapter = {7}, address = {Boca Raton, FL}, abstract = {The Keeneland Project is a five year Track 2D grant awarded by the National Science Foundation (NSF) under solicitation NSF 08-573 in August 2009 for the development and deployment of an innovative high performance computing system. The Keeneland project is led by the Georgia Institute of Technology (Georgia Tech) in collaboration with the University of Tennessee at Knoxville, National Institute of Computational Sciences, and Oak Ridge National Laboratory.}, author = {Jeffrey Vetter and Richard Glassbrook and Karsten Schwan and Sudha Yalamanchili and Mitch Horton and Ada Gavrilovska and Magda Slawinska and Jack Dongarra and Jeremy Meredith and Philip Roth and Kyle Spafford and Stanimire Tomov and John Wynkoop} } @article {, title = {Keeneland: Bringing Heterogeneous GPU Computing to the Computational Science Community}, journal = {IEEE Computing in Science \& Engineering}, volume = {13}, year = {2011}, month = {2011-08}, pages = {90-95}, abstract = {The Keeneland project{\textquoteright}s goal is to develop and deploy an innovative, GPU-based high-performance computing system for the NSF computational science community.}, keywords = {Benchmark testing, Computational modeling, Computer architecture, Graphics processing unit, Hardware, Random access memory, Scientific computing}, doi = {https://doi.org/10.1109/MCSE.2011.83}, author = {Jeffrey Vetter and Richard Glassbrook and Jack Dongarra and Karsten Schwan and Bruce Loftis and Stephen McNally and Jeremy Meredith and James Rogers and Philip Roth and Kyle Spafford and Sudhakar Yalamanchili} }