CMOS integrated nanophotonics - enabling technology for exascale computing systems

Solomon Assefa; William M.J. Green; Alexander Rylyakov; Clint Schow; Folkert Horst; Yurii A. Vlasov

doi:10.1364/ofc.2011.omm6

CMOS integrated nanophotonics - enabling technology for exascale computing systems

Solomon Assefa, William M.J. Green, Alexander Rylyakov, Clint Schow, Folkert Horst, Yurii A. Vlasov

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

Abstract

CMOS Integrated Nanophotonics allows ultra-dense monolithic single-chip integration of optical and electrical functions. This technology can enable future Exaflops supercomputers by connecting racks, modules, and chips together with ultra-low power massively parallel optical interconnects.

Original language	English (US)
Title of host publication	Optical Fiber Communication Conference, OFC 2011
Publisher	Optical Society of America (OSA)
ISBN (Print)	9781557529060
DOIs	https://doi.org/10.1364/ofc.2011.omm6
State	Published - 2011
Externally published	Yes
Event	Optical Fiber Communication Conference, OFC 2011 - Los Angeles, CA, United States Duration: Mar 6 2011 → Mar 10 2011

Publication series

Name	Optics InfoBase Conference Papers
ISSN (Electronic)	2162-2701

Other

Other	Optical Fiber Communication Conference, OFC 2011
Country/Territory	United States
City	Los Angeles, CA
Period	3/6/11 → 3/10/11

ASJC Scopus subject areas

Instrumentation
Atomic and Molecular Physics, and Optics

Online availability

10.1364/ofc.2011.omm6

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Assefa, S, Green, WMJ, Rylyakov, A, Schow, C, Horst, F & Vlasov, YA 2011, CMOS integrated nanophotonics - enabling technology for exascale computing systems. in Optical Fiber Communication Conference, OFC 2011. Optics InfoBase Conference Papers, Optical Society of America (OSA), Optical Fiber Communication Conference, OFC 2011, Los Angeles, CA, United States, 3/6/11. https://doi.org/10.1364/ofc.2011.omm6

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abstract = "CMOS Integrated Nanophotonics allows ultra-dense monolithic single-chip integration of optical and electrical functions. This technology can enable future Exaflops supercomputers by connecting racks, modules, and chips together with ultra-low power massively parallel optical interconnects.",

author = "Solomon Assefa and Green, {William M.J.} and Alexander Rylyakov and Clint Schow and Folkert Horst and Vlasov, {Yurii A.}",

year = "2011",

doi = "10.1364/ofc.2011.omm6",

language = "English (US)",

isbn = "9781557529060",

series = "Optics InfoBase Conference Papers",

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AU - Assefa, Solomon

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AU - Schow, Clint

AU - Horst, Folkert

AU - Vlasov, Yurii A.

PY - 2011

Y1 - 2011

N2 - CMOS Integrated Nanophotonics allows ultra-dense monolithic single-chip integration of optical and electrical functions. This technology can enable future Exaflops supercomputers by connecting racks, modules, and chips together with ultra-low power massively parallel optical interconnects.

AB - CMOS Integrated Nanophotonics allows ultra-dense monolithic single-chip integration of optical and electrical functions. This technology can enable future Exaflops supercomputers by connecting racks, modules, and chips together with ultra-low power massively parallel optical interconnects.

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AN - SCOPUS:85088724367

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BT - Optical Fiber Communication Conference, OFC 2011

PB - Optical Society of America (OSA)

T2 - Optical Fiber Communication Conference, OFC 2011

Y2 - 6 March 2011 through 10 March 2011

ER -

CMOS integrated nanophotonics - enabling technology for exascale computing systems

Abstract

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ASJC Scopus subject areas

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