Presentation	2012-11-28 0.18μm CMOS process dynamic optically reconfigurable gate array VLSI Takayuki KUBOTA, Minoru WATANABE,
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Abstract(in English)	We have been developing Optically Reconfigurable Gate Arrays (ORGAs) to realize a faster dynamic reconfiguration than that of the other reconfigurable devices. An ORGA consists of laser arrays, a holographic memory and gate arrays-VLSI as a three-layer structure. An ORGA can achieve fast reconfiguration by using a two-dimensional optical connection. In addition, the ORGA can have a lot of configuration contexts inside a holographic memory. Therefore, an ORGA can realize a large virtual gate by exploiting a high-speed dynamic reconfiguration. This paper presents evaluation results of a newly fabricated 0.18μm CMOS process dynamic ORGA.
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Keyword(in English)	FPGAs / Optically Reconfigurable Gate Arrays (ORGAs) / Optical bus / Holographic memories
Paper #	RECONF2012-51
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Committee	RECONF
Conference Date	2012/11/20(1days)
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Registration To	Reconfigurable Systems (RECONF)
Language	JPN
Title (in Japanese)	(See Japanese page)
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Title (in English)	0.18μm CMOS process dynamic optically reconfigurable gate array VLSI
Sub Title (in English)
Keyword(1)	FPGAs
Keyword(2)	Optically Reconfigurable Gate Arrays (ORGAs)
Keyword(3)	Optical bus
Keyword(4)	Holographic memories
1st Author's Name	Takayuki KUBOTA
1st Author's Affiliation	Faculty of Engineering, Shizuoka University()
2nd Author's Name	Minoru WATANABE
2nd Author's Affiliation	Faculty of Engineering, Shizuoka University
Date	2012-11-28
Paper #	RECONF2012-51
Volume (vol)	vol.112
Number (no)	325
Page	pp.pp.-
#Pages	5
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