System Synthesis for Optically-Connected, Multiprocessors On-Chip

Abstract

Optical interconnects are being considered as a possible solution to the well known problems of scaling in VLSI interconnects. Along with enabling higher speed interconnects, optics allows the construction of highly connected and irregular networks that are streamlined for particular applications. Using these networks, it is possible to implement application mappings that allow flexible, single-hop communication patterns between processors. This has advantages for reduced system latency and power. Such optically connected multiprocessors are particularly promising for embedded digital signal processing (DSP) applications, which are highly parallel, and typically have tight constraints on latency and power consumption. This paper addresses novel trade-offs involving communication routing flexibility, power consumption, and performance that arise in the context of system synthesis of optically-interconnected multiprocessors. We report on experimental results that expose these trade-offs, and propose systematic techniques to address them efficiently. We demonstrate the performance of these techniques on several benchmark examples.

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Document Details

Document Type
Technical Report
Publication Date
Jan 01, 2006
Accession Number
ADA448087

Entities

People

  • Neal K. Bambha
  • Shuvra S. Bhattacharyya

Organizations

  • University of Maryland

Tags

Communities of Interest

  • Energy and Power Technologies

DTIC Thesaurus Topics

  • Abstracts
  • Algorithms
  • Communication Networks
  • Computers
  • Data Links
  • Digital Communications
  • Digital Signal Processing
  • Energy Consumption
  • Engineering
  • Mesh Networks
  • Multiprocessors
  • Networks
  • Neural Networks
  • Optical Interconnects
  • Scheduling (Production)
  • Signal Processing
  • Topology

Fields of Study

  • Computer science
  • Engineering

Readers

  • Integrated Circuit Design and Technology.
  • Parallel and Distributed Computing.