Proteus: A reconfigurable computational network for computer vision

Robert M. Haralick; Arun K. Somani; Craig Wittenbrink; Robert Johnson; Kenneth Cooper; Linda G. Shapiro; Ihsin T. Phillips; Jenq Neng Hwang; William Cheung; Yung Hsi Yao; Chung Ho Chen; Larry Yang; Brian Daugherty; Bob Lorbeski; Kent Loving; Tom Miller; Larye Parkins; Steve Soos

doi:10.1109/ICPR.1992.202128

Proteus: A reconfigurable computational network for computer vision

Robert M. Haralick
, Arun K. Somani
, Craig Wittenbrink
, Robert Johnson
, Kenneth Cooper
, Linda G. Shapiro
, Ihsin T. Phillips
, Jenq Neng Hwang
, William Cheung
, Yung Hsi Yao
, Chung Ho Chen
, Larry Yang
, Brian Daugherty
, Bob Lorbeski
, Kent Loving
, Tom Miller
, Larye Parkins
, Steve Soos

Department of Electrical Engineering

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

5 Citations (Scopus)

Abstract

THE Proteus architecture is a highly parallel MIMD, multiple instruction, multiple-data machine, optimized for large granularity tasks such as machine vision and image processing. The system can achieve 20 Giga-flops (80 Giga-flops peak). It accepts data via multiple serial links at a rate of up to 640 megabytes/second. The system employs a hierarchical reconfigurable interconnection network with the highest level being a circuit switched 'Enhanced Hypercube serial interconnection network for internal data transfers. The system is designed to use 256 to 1,024 RISC processors. The processors use one megabyte external Read/Write Allocating Caches for reduced multiprocessor contention. The system detects, locates, and replaces faulty subsystems using redundant hardware to facilitate fault tolerance. The parallelism is directly controllable through an advanced software system for partitioning, scheduling, and development. System software includes a translator for the INSIGHT language, a parallel debugger, low and high level simulators, and a message passing system for all control needs. Image processing application software includes a variety of point operators, neighborhood operators, convolution, and the mathematical morphology operations of binary and gray scale dilation, erosion, opening, and closing.

Original language	English
Title of host publication	Conference D
Subtitle of host publication	Architectures for Vision and Pattern Recognition
Publisher	Institute of Electrical and Electronics Engineers Inc.
Pages	43-57
Number of pages	15
ISBN (Print)	0818629258
DOIs	https://doi.org/10.1109/ICPR.1992.202128
Publication status	Published - 1992
Event	11th IAPR International Conference on Pattern Recognition, IAPR 1992 - The Hague, Netherlands Duration: 1992 Aug 30 → 1992 Sept 3

Publication series

Name	Proceedings - International Conference on Pattern Recognition
Volume	4
ISSN (Print)	1051-4651

Other

Other	11th IAPR International Conference on Pattern Recognition, IAPR 1992
Country/Territory	Netherlands
City	The Hague
Period	92-08-30 → 92-09-03

All Science Journal Classification (ASJC) codes

Computer Vision and Pattern Recognition

Access to Document

10.1109/ICPR.1992.202128

Cite this

Haralick, R. M., Somani, A. K., Wittenbrink, C., Johnson, R., Cooper, K., Shapiro, L. G., Phillips, I. T., Hwang, J. N., Cheung, W., Yao, Y. H., Chen, C. H., Yang, L., Daugherty, B., Lorbeski, B., Loving, K., Miller, T., Parkins, L., & Soos, S. (1992). Proteus: A reconfigurable computational network for computer vision. In Conference D: Architectures for Vision and Pattern Recognition (pp. 43-57). Article 202128 (Proceedings - International Conference on Pattern Recognition; Vol. 4). Institute of Electrical and Electronics Engineers Inc.. https://doi.org/10.1109/ICPR.1992.202128

@inproceedings{e63c755792f1447a94831158711b300e,

title = "Proteus: A reconfigurable computational network for computer vision",

abstract = "THE Proteus architecture is a highly parallel MIMD, multiple instruction, multiple-data machine, optimized for large granularity tasks such as machine vision and image processing. The system can achieve 20 Giga-flops (80 Giga-flops peak). It accepts data via multiple serial links at a rate of up to 640 megabytes/second. The system employs a hierarchical reconfigurable interconnection network with the highest level being a circuit switched 'Enhanced Hypercube serial interconnection network for internal data transfers. The system is designed to use 256 to 1,024 RISC processors. The processors use one megabyte external Read/Write Allocating Caches for reduced multiprocessor contention. The system detects, locates, and replaces faulty subsystems using redundant hardware to facilitate fault tolerance. The parallelism is directly controllable through an advanced software system for partitioning, scheduling, and development. System software includes a translator for the INSIGHT language, a parallel debugger, low and high level simulators, and a message passing system for all control needs. Image processing application software includes a variety of point operators, neighborhood operators, convolution, and the mathematical morphology operations of binary and gray scale dilation, erosion, opening, and closing.",

author = "Haralick, \{Robert M.\} and Somani, \{Arun K.\} and Craig Wittenbrink and Robert Johnson and Kenneth Cooper and Shapiro, \{Linda G.\} and Phillips, \{Ihsin T.\} and Hwang, \{Jenq Neng\} and William Cheung and Yao, \{Yung Hsi\} and Chen, \{Chung Ho\} and Larry Yang and Brian Daugherty and Bob Lorbeski and Kent Loving and Tom Miller and Larye Parkins and Steve Soos",

note = "Publisher Copyright: {\textcopyright} 1992 IEEE.; 11th IAPR International Conference on Pattern Recognition, IAPR 1992 ; Conference date: 30-08-1992 Through 03-09-1992",

year = "1992",

doi = "10.1109/ICPR.1992.202128",

language = "English",

isbn = "0818629258",

series = "Proceedings - International Conference on Pattern Recognition",

publisher = "Institute of Electrical and Electronics Engineers Inc.",

pages = "43--57",

booktitle = "Conference D",

address = "United States",

}

Haralick, RM, Somani, AK, Wittenbrink, C, Johnson, R, Cooper, K, Shapiro, LG, Phillips, IT, Hwang, JN, Cheung, W, Yao, YH, Chen, CH, Yang, L, Daugherty, B, Lorbeski, B, Loving, K, Miller, T, Parkins, L & Soos, S 1992, Proteus: A reconfigurable computational network for computer vision. in Conference D: Architectures for Vision and Pattern Recognition., 202128, Proceedings - International Conference on Pattern Recognition, vol. 4, Institute of Electrical and Electronics Engineers Inc., pp. 43-57, 11th IAPR International Conference on Pattern Recognition, IAPR 1992, The Hague, Netherlands, 92-08-30. https://doi.org/10.1109/ICPR.1992.202128

Proteus: A reconfigurable computational network for computer vision. / Haralick, Robert M.; Somani, Arun K.; Wittenbrink, Craig et al.
Conference D: Architectures for Vision and Pattern Recognition. Institute of Electrical and Electronics Engineers Inc., 1992. p. 43-57 202128 (Proceedings - International Conference on Pattern Recognition; Vol. 4).

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

TY - GEN

T1 - Proteus

T2 - 11th IAPR International Conference on Pattern Recognition, IAPR 1992

AU - Haralick, Robert M.

AU - Somani, Arun K.

AU - Wittenbrink, Craig

AU - Johnson, Robert

AU - Cooper, Kenneth

AU - Shapiro, Linda G.

AU - Phillips, Ihsin T.

AU - Hwang, Jenq Neng

AU - Cheung, William

AU - Yao, Yung Hsi

AU - Chen, Chung Ho

AU - Yang, Larry

AU - Daugherty, Brian

AU - Lorbeski, Bob

AU - Loving, Kent

AU - Miller, Tom

AU - Parkins, Larye

AU - Soos, Steve

PY - 1992

Y1 - 1992

N2 - THE Proteus architecture is a highly parallel MIMD, multiple instruction, multiple-data machine, optimized for large granularity tasks such as machine vision and image processing. The system can achieve 20 Giga-flops (80 Giga-flops peak). It accepts data via multiple serial links at a rate of up to 640 megabytes/second. The system employs a hierarchical reconfigurable interconnection network with the highest level being a circuit switched 'Enhanced Hypercube serial interconnection network for internal data transfers. The system is designed to use 256 to 1,024 RISC processors. The processors use one megabyte external Read/Write Allocating Caches for reduced multiprocessor contention. The system detects, locates, and replaces faulty subsystems using redundant hardware to facilitate fault tolerance. The parallelism is directly controllable through an advanced software system for partitioning, scheduling, and development. System software includes a translator for the INSIGHT language, a parallel debugger, low and high level simulators, and a message passing system for all control needs. Image processing application software includes a variety of point operators, neighborhood operators, convolution, and the mathematical morphology operations of binary and gray scale dilation, erosion, opening, and closing.

AB - THE Proteus architecture is a highly parallel MIMD, multiple instruction, multiple-data machine, optimized for large granularity tasks such as machine vision and image processing. The system can achieve 20 Giga-flops (80 Giga-flops peak). It accepts data via multiple serial links at a rate of up to 640 megabytes/second. The system employs a hierarchical reconfigurable interconnection network with the highest level being a circuit switched 'Enhanced Hypercube serial interconnection network for internal data transfers. The system is designed to use 256 to 1,024 RISC processors. The processors use one megabyte external Read/Write Allocating Caches for reduced multiprocessor contention. The system detects, locates, and replaces faulty subsystems using redundant hardware to facilitate fault tolerance. The parallelism is directly controllable through an advanced software system for partitioning, scheduling, and development. System software includes a translator for the INSIGHT language, a parallel debugger, low and high level simulators, and a message passing system for all control needs. Image processing application software includes a variety of point operators, neighborhood operators, convolution, and the mathematical morphology operations of binary and gray scale dilation, erosion, opening, and closing.

UR - https://www.scopus.com/pages/publications/85027637748

UR - https://www.scopus.com/pages/publications/85027637748#tab=citedBy

U2 - 10.1109/ICPR.1992.202128

DO - 10.1109/ICPR.1992.202128

M3 - Conference contribution

AN - SCOPUS:85027637748

SN - 0818629258

T3 - Proceedings - International Conference on Pattern Recognition

SP - 43

EP - 57

BT - Conference D

PB - Institute of Electrical and Electronics Engineers Inc.

Y2 - 30 August 1992 through 3 September 1992

ER -

Haralick RM, Somani AK, Wittenbrink C, Johnson R, Cooper K, Shapiro LG et al. Proteus: A reconfigurable computational network for computer vision. In Conference D: Architectures for Vision and Pattern Recognition. Institute of Electrical and Electronics Engineers Inc. 1992. p. 43-57. 202128. (Proceedings - International Conference on Pattern Recognition). doi: 10.1109/ICPR.1992.202128

Proteus: A reconfigurable computational network for computer vision

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