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36-Context dynamic optically reconfigurable gate array

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2 Author(s)

Nakajima, M. ; Electr. & Electron. Eng., Shizuoka Univ., Hamamatsu, Japan ; Watanabe, M.

Optically reconfigurable gate arrays (ORGAs) have been developed for the purposes of realizing large virtual gates and increasing a gate array's performance by combining a holographic memory with a programmable gate array. In addition, dynamic optically reconfigurable gate arrays (DORGAs) using a photodiode memory architecture have been developed to realize a high-density VLSI. We have already demonstrated a 16-context DORGA architecture with a nanosecond-order reconfiguration capability. This paper presents a more advanced 36-context DORGA with performance that exceeds that of current dynamic reconfigurable devices.

Published in:
System Integration, 2009. SII 2009. IEEE/SICE International Symposium on

Date of Conference: 29-29 Jan. 2009

Page(s):: 19 - 23
Print ISBN:: 978-1-4244-5908-7
INSPEC Accession Number:: 11227303

Conference Location :: Tokyo
Digital Object Identifier :: 10.1109/SI.2009.5384563
Product Type:: Conference Publications

Author(s)

Nakajima, M.
Electr. & Electron. Eng., Shizuoka Univ., Hamamatsu, Japan
Watanabe, M.

INSPEC: CONTROLLED INDEXING

field programmable gate arrays

holographic storage

photodiodes

reconfigurable architectures

INSPEC: NON CONTROLLED INDEXING

36-context DORGA

dynamic optically reconfigurable gate array

high-density VLSI

holographic memory

nanosecond-order reconfiguration

photodiode memory architecture

programmable gate array

AUTHOR KEYWORDS

Dynamic reconfiguration

FPGAs

ORGAs

Optical reconfiguration

IEEE TERMS

Field programmable gate arrays

Holographic optical components

Holography

Intelligent robots

Memory architecture

Microprocessors

Optical arrays

Photodiodes

Vehicle dynamics

Very large scale integration

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