G
Gregory D. Peterson
Researcher at University of Tennessee
Publications - 120
Citations - 5443
Gregory D. Peterson is an academic researcher from University of Tennessee. The author has contributed to research in topics: Reconfigurable computing & Speedup. The author has an hindex of 24, co-authored 120 publications receiving 4717 citations. Previous affiliations of Gregory D. Peterson include University of Washington & University of Cincinnati.
Papers
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Journal ArticleDOI
XSEDE: Accelerating Scientific Discovery
John Towns,Timothy M. Cockerill,Maytal Dahan,Ian Foster,Kelly Gaither,Andrew S. Grimshaw,Victor Hazlewood,Scott Lathrop,David Lifka,Gregory D. Peterson,Ralph Roskies,J. Ray Scott,Nancy Wilkins-Diehr +12 more
TL;DR: XSEDE's integrated, comprehensive suite of advanced digital services federates with other high-end facilities and with campus-based resources, serving as the foundation for a national e-science infrastructure ecosystem.
Journal ArticleDOI
From CUDA to OpenCL: Towards a performance-portable solution for multi-platform GPU programming
TL;DR: This work evaluates OpenCL as a programming tool for developing performance-portable applications for GPGPU, and proposes the use of auto-tuning to better explore these kernels' parameter space using search harness.
Book
The System Designer's Guide to VHDL-AMS: Analog, Mixed-Signal, and Mixed-Technology Modeling
TL;DR: This comprehensive tutorial and reference provides detailed descriptions of both the syntax and semantics of the language and of successful modeling techniques of VHDL-AMS, a unified design language for modeling digital, analog, mixed-signal, and mixed-technology systems.
Journal ArticleDOI
The sorting direct method for stochastic simulation of biochemical systems with varying reaction execution behavior
TL;DR: This work examines the performance of different versions of Gillespie's stochastic simulation algorithm when applied to several biochemical models and proposes a new algorithm called the sorting direct method that maintains a loosely sorted order of the reactions as the simulation executes.