A 62.5 ns holographic reconfiguration of an optically differential reconfigurable gate array

Mao Nakajima; Minoru Watanabe

doi:10.1109/FPT.2007.4439270

A 62.5 ns holographic reconfiguration of an optically differential reconfigurable gate array

Mao Nakajima, Minoru Watanabe

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

1 Citation (Scopus)

Abstract

To date, holographic configuration speeds have remained limited to 16 us because of issues related to the architecture of optically reconfigurable gate array VLSIs (ORGA-VLSIs). Therefore, to improve the issue, optically differential reconfigurable gate array VLSIs (ODRGA-VLSIs) have been developed and have achieved zero-overhead and nanosecond optical reconfiguration. Moreover; the architecture of an ODRGA-VLSI has the advantage of accelerating the reconfiguration speed compared to that of other ORGAs. However; nanosecond holographic configurations and, in particular; rapid holographic reconfiguration exploiting the advantages of ODRGAVLSIs have not been reported. Therefore, this paper presents results of the world's fastest 62.5 ns holographic reconfiguration, exploiting advantages of the ODRGA-VLSI.

Original language	English
Title of host publication	ICFPT 2007 - International Conference on Field Programmable Technology
Pages	297-300
Number of pages	4
DOIs	https://doi.org/10.1109/FPT.2007.4439270
Publication status	Published - 2007
Externally published	Yes
Event	International Conference on Field Programmable Technology, ICFPT 2007 - Kitakyushu, Japan Duration: Dec 12 2007 → Dec 14 2007

Publication series

Name	ICFPT 2007 - International Conference on Field Programmable Technology

Conference

Conference	International Conference on Field Programmable Technology, ICFPT 2007
Country/Territory	Japan
City	Kitakyushu
Period	12/12/07 → 12/14/07

ASJC Scopus subject areas

Hardware and Architecture
Electrical and Electronic Engineering

Access to Document

10.1109/FPT.2007.4439270

Cite this

A 62.5 ns holographic reconfiguration of an optically differential reconfigurable gate array. / Nakajima, Mao; Watanabe, Minoru.
ICFPT 2007 - International Conference on Field Programmable Technology. 2007. p. 297-300 4439270 (ICFPT 2007 - International Conference on Field Programmable Technology).

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

Nakajima, M & Watanabe, M 2007, A 62.5 ns holographic reconfiguration of an optically differential reconfigurable gate array. in ICFPT 2007 - International Conference on Field Programmable Technology., 4439270, ICFPT 2007 - International Conference on Field Programmable Technology, pp. 297-300, International Conference on Field Programmable Technology, ICFPT 2007, Kitakyushu, Japan, 12/12/07. https://doi.org/10.1109/FPT.2007.4439270

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abstract = "To date, holographic configuration speeds have remained limited to 16 us because of issues related to the architecture of optically reconfigurable gate array VLSIs (ORGA-VLSIs). Therefore, to improve the issue, optically differential reconfigurable gate array VLSIs (ODRGA-VLSIs) have been developed and have achieved zero-overhead and nanosecond optical reconfiguration. Moreover; the architecture of an ODRGA-VLSI has the advantage of accelerating the reconfiguration speed compared to that of other ORGAs. However; nanosecond holographic configurations and, in particular; rapid holographic reconfiguration exploiting the advantages of ODRGAVLSIs have not been reported. Therefore, this paper presents results of the world's fastest 62.5 ns holographic reconfiguration, exploiting advantages of the ODRGA-VLSI.",

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AB - To date, holographic configuration speeds have remained limited to 16 us because of issues related to the architecture of optically reconfigurable gate array VLSIs (ORGA-VLSIs). Therefore, to improve the issue, optically differential reconfigurable gate array VLSIs (ODRGA-VLSIs) have been developed and have achieved zero-overhead and nanosecond optical reconfiguration. Moreover; the architecture of an ODRGA-VLSI has the advantage of accelerating the reconfiguration speed compared to that of other ORGAs. However; nanosecond holographic configurations and, in particular; rapid holographic reconfiguration exploiting the advantages of ODRGAVLSIs have not been reported. Therefore, this paper presents results of the world's fastest 62.5 ns holographic reconfiguration, exploiting advantages of the ODRGA-VLSI.

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A 62.5 ns holographic reconfiguration of an optically differential reconfigurable gate array

Abstract

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ASJC Scopus subject areas

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