Scalable image sensor/processor architecture with frame memory buffer and 2-D cellular neural network

Kwang Bo Cho; Bing J. Sheu; Wayne C. Young

Scalable image sensor/processor architecture with frame memory buffer and 2-D cellular neural network

Kwang Bo Cho^*, Bing J. Sheu, Wayne C. Young

^*Corresponding author for this work

University of Southern California

Research output: Contribution to journal › Conference article › peer-review

Abstract

The compact, high computing power systems become feasible with significant progress in the research and development of advanced computing architecture and array processing. Scalable image sensor array processor with frame memory buffer and cellular neural network (CNN) for nearest neighbor interaction has been developed in a 0.5 μm HP CMOS technology. The CNN with analog programmable weights was constructed with compact mixed-signal VLSI circuit components in the current-mode techniques. The low voltage, low power operation is supported with the current mode scheme which scales well with the supply voltage. VLSI design of a variable gain neuron circuit can be incorporated into the prototype to realize the optimal solution capability using hardware annealing.

Original language	English
Pages (from-to)	73-76
Number of pages	4
Journal	Proceedings - IEEE International Symposium on Circuits and Systems
Volume	4
State	Published - 1998
Externally published	Yes
Event	Proceedings of the 1998 IEEE International Symposium on Circuits and Systems, ISCAS. Part 5 (of 6) - Monterey, CA, USA Duration: 31 05 1998 → 03 06 1998

Cite this

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title = "Scalable image sensor/processor architecture with frame memory buffer and 2-D cellular neural network",

abstract = "The compact, high computing power systems become feasible with significant progress in the research and development of advanced computing architecture and array processing. Scalable image sensor array processor with frame memory buffer and cellular neural network (CNN) for nearest neighbor interaction has been developed in a 0.5 μm HP CMOS technology. The CNN with analog programmable weights was constructed with compact mixed-signal VLSI circuit components in the current-mode techniques. The low voltage, low power operation is supported with the current mode scheme which scales well with the supply voltage. VLSI design of a variable gain neuron circuit can be incorporated into the prototype to realize the optimal solution capability using hardware annealing.",

author = "Cho, {Kwang Bo} and Sheu, {Bing J.} and Young, {Wayne C.}",

year = "1998",

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AU - Sheu, Bing J.

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N2 - The compact, high computing power systems become feasible with significant progress in the research and development of advanced computing architecture and array processing. Scalable image sensor array processor with frame memory buffer and cellular neural network (CNN) for nearest neighbor interaction has been developed in a 0.5 μm HP CMOS technology. The CNN with analog programmable weights was constructed with compact mixed-signal VLSI circuit components in the current-mode techniques. The low voltage, low power operation is supported with the current mode scheme which scales well with the supply voltage. VLSI design of a variable gain neuron circuit can be incorporated into the prototype to realize the optimal solution capability using hardware annealing.

AB - The compact, high computing power systems become feasible with significant progress in the research and development of advanced computing architecture and array processing. Scalable image sensor array processor with frame memory buffer and cellular neural network (CNN) for nearest neighbor interaction has been developed in a 0.5 μm HP CMOS technology. The CNN with analog programmable weights was constructed with compact mixed-signal VLSI circuit components in the current-mode techniques. The low voltage, low power operation is supported with the current mode scheme which scales well with the supply voltage. VLSI design of a variable gain neuron circuit can be incorporated into the prototype to realize the optimal solution capability using hardware annealing.

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M3 - 会议文章

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JF - Proceedings - IEEE International Symposium on Circuits and Systems

T2 - Proceedings of the 1998 IEEE International Symposium on Circuits and Systems, ISCAS. Part 5 (of 6)

Y2 - 31 May 1998 through 3 June 1998

ER -

Scalable image sensor/processor architecture with frame memory buffer and 2-D cellular neural network

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