Parallel Computing Using Optical Interconnections

Parallel Computing Using Optical Interconnections

Advances in optical technologies have made it possible to implement optical interconnections in future massively parallel processing systems. Photons are non-charged particles, and do not naturally interact. Consequently, there are many desirable characteristics of optical interconnects, e.g. high s...

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Bibliographic Details
Corporate Author: SpringerLink (Online service)
Other Authors: Li, Keqin (Editor), Pan, Yi (Editor), Zheng, Si Qing (Editor)
Format: Electronic eBook
Language:English
Published: Boston, MA : Springer US, 1998.
Series:The Springer International Series in Engineering and Computer Science, 468
Subjects:
Computer science.
Microprocessors.
Computer communication systems.
Architecture, Computer.
Electrical engineering.
Electronic circuits.
Computer Science.
Computer System Implementation.
Circuits and Systems.
Processor Architectures.
Computer Communication Networks.
Electrical Engineering.
Computer Science, general.
Online Access:Full Text via HEAL-Link
Table of Contents:
  • Optical Interconnection Networks and System Architectures
  • Lightning Network and Systems Architecture
  • Parallel Computing with “Intelligent Optical Networks”
  • Scalable Optical Interconnection Networks for Large-Scale Parallel Computers
  • The Communication Capabilities of Partitioned Optical Passive Stars Networks
  • Otis Optoelectronic Computers
  • On Wavelength Assignment in WDM Optical Networks
  • Models and Algorithms for Optical Interconnections
  • An Abstract Model for Optical Interconnection Networks
  • A Unique Design of Fiber-Optic Interconnection Networks and Algorithms
  • Fundamental Algorithms for the Array with Reconfigurable Optical Buses
  • Computing the Hough Transform on Arrays with Reconfigurable Optical Buses
  • Basic Data Movement Operations on the LARPBS Model
  • Fast Matrix Multiplication and Related Operations Using Reconfigurable Optical Buses.

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