N
Nathan Binkert
Researcher at Hewlett-Packard
Publications - 77
Citations - 8562
Nathan Binkert is an academic researcher from Hewlett-Packard. The author has contributed to research in topics: Node (networking) & Optical switch. The author has an hindex of 32, co-authored 76 publications receiving 7796 citations. Previous affiliations of Nathan Binkert include Amazon.com & Lynn University.
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Journal ArticleDOI
The gem5 simulator
Nathan Binkert,Bradford M. Beckmann,Gabriel Black,Steven K. Reinhardt,Ali G. Saidi,Arkaprava Basu,Joel Hestness,Derek R. Hower,Tushar Krishna,Somayeh Sardashti,Rathijit Sen,Korey Sewell,Muhammad Shoaib,Nilay Vaish,Mark D. Hill,Darien Wood +15 more
TL;DR: The high level of collaboration on the gem5 project, combined with the previous success of the component parts and a liberal BSD-like license, make gem5 a valuable full-system simulation tool.
Journal ArticleDOI
The M5 Simulator: Modeling Networked Systems
TL;DR: The M5 simulator provides features necessary for simulating networked hosts, including full-system capability, a detailed I/O subsystem, and the ability to simulate multiple networked systems deterministically.
Journal ArticleDOI
Corona: System Implications of Emerging Nanophotonic Technology
Dana M. Vantrease,Robert Schreiber,Matteo Monchiero,Moray McLaren,Norman P. Jouppi,Marco Fiorentino,Al Davis,Nathan Binkert,Raymond G. Beausoleil,Jung Ho Ahn +9 more
TL;DR: This work believes that in comparison with an electrically-connected many-core alternative that uses the same on-stack interconnect power, Corona can provide 2 to 6 times more performance on many memory intensive workloads, while simultaneously reducing power.
Proceedings ArticleDOI
HyperX: topology, routing, and packaging of efficient large-scale networks
TL;DR: This work considers an extension of the hypercube and flattened butterfly topologies, the HyperX, and gives an adaptive routing algorithm, DAL, to take advantage of high-radix switch components that integrated photonics will make available.
Proceedings ArticleDOI
PicoServer: using 3D stacking technology to enable a compact energy efficient chip multiprocessor
Taeho Kgil,Shaun C. D'Souza,Ali G. Saidi,Nathan Binkert,Ronald G. Dreslinski,Trevor Mudge,Steven K. Reinhardt,Krisztian Flautner +7 more
TL;DR: It is shown how 3D stacking technology can be used to implement a simple, low-power, high-performance chip multiprocessor suitable for throughput processing and that a PicoServer performs comparably to a Pentium 4-like class machine while consuming only about 1/10 of the power.