G
Garrett S. Rose
Researcher at University of Tennessee
Publications - 186
Citations - 5044
Garrett S. Rose is an academic researcher from University of Tennessee. The author has contributed to research in topics: Neuromorphic engineering & Memristor. The author has an hindex of 32, co-authored 164 publications receiving 4031 citations. Previous affiliations of Garrett S. Rose include Florida Polytechnic University & Mitre Corporation.
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A Survey of Neuromorphic Computing and Neural Networks in Hardware.
Catherine D. Schuman,Thomas E. Potok,Robert M. Patton,J. Douglas Birdwell,Mark Edward Dean,Garrett S. Rose,James S. Plank +6 more
TL;DR: An exhaustive review of the research conducted in neuromorphic computing since the inception of the term is provided to motivate further work by illuminating gaps in the field where new research is needed.
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Fault Analysis-Based Logic Encryption
Jeyavijayan Rajendran,Huan Zhang,Chi Zhang,Garrett S. Rose,Youngok Pino,Ozgur Sinanoglu,Ramesh Karri +6 more
TL;DR: This work relates logic encryption to fault propagation analysis in IC testing and develop a fault analysis-based logic encryption technique that enables a designer to controllably corrupt the outputs.
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Memristor Crossbar-Based Neuromorphic Computing System: A Case Study
TL;DR: The results show that the hardware-based training scheme proposed in the paper can alleviate and even cancel out the majority of the noise issue and apply it to brain-state-in-a-box (BSB) neural networks.
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Entanglement in a Quantum Annealing Processor
Trevor Lanting,A. J. Przybysz,A. Yu. Smirnov,Federico M. Spedalieri,Mohammad H. Amin,Andrew J. Berkley,Richard Harris,Fabio Altomare,Sergio Boixo,Paul I. Bunyk,Neil G. Dickson,C. Enderud,Jeremy P. Hilton,E. Hoskinson,Mark W. Johnson,E. Ladizinsky,N. Ladizinsky,R. Neufeld,T. Oh,I. Perminov,Christopher B. Rich,Murray C. Thom,Elena G. Tolkacheva,Sergey Uchaikin,A. B. Wilson,Garrett S. Rose +25 more
TL;DR: In this article, a series of architecturally scalable quantum annealing (QA) processors consisting of networks of manufactured interacting spins (qubits) were built and the energy eigen spectrum of two-and eight-qubit systems within one such processor was measured.
Journal ArticleDOI
Entanglement in a quantum annealing processor
Trevor Lanting,A. J. Przybysz,A. Yu. Smirnov,Federico M. Spedalieri,Mohammad H. Amin,Andrew J. Berkley,Richard Harris,Fabio Altomare,Sergio Boixo,Paul I. Bunyk,Neil G. Dickson,C. Enderud,Jeremy P. Hilton,E. Hoskinson,Mark W. Johnson,E. Ladizinsky,N. Ladizinsky,R. Neufeld,T. Oh,I. Perminov,Christopher B. Rich,Murray C. Thom,Elena G. Tolkacheva,Sergey Uchaikin,A. B. Wilson,Garrett S. Rose +25 more
TL;DR: In this paper, a series of scalable quantum annealing (QA) processors consisting of networks of manufactured interacting spins (qubits) were built and the authors used qubit tunneling spectroscopy to measure the energy eigenspectrum of two and eight qubit systems.