A Method for the Design of Stable Lateral Inhibition Networks That is Robust in the Presence of Circuit Parasitics,

Abstract

In the analog VLSI implementation of neural systems, it is sometimes convenient to build lateral inhibition networks by using a locally connected on-chip resistive grid. A serious problem of unwanted spontaneous oscillation often arises with these circuits and renders them unusable in practice. This paper reports a design approach that guarantees such a system will be stable, even though the values of designed elements and parasitics elements in the resistive grid may be unknown. The method is based on a rigorous, somewhat novel mathematical analysis using Tellegens theorem and the idea of Popov multipliers from control theory. It is thoroughly practical because the criteria are local in the sense that no overall analysis of the interconnected system is required, empirical in the sense that they involve only measurable frequency response data on the individual cells, and robust in the sense that unmodelled parasitic resistances and capacitances in the interconnection network cannot affect the analysis.

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Document Details

Document Type
Technical Report
Publication Date
Jan 01, 1988
Accession Number
ADA195181

Entities

People

  • D. L. Standley
  • J. L. Wyatt Jr.

Organizations

  • Massachusetts Institute of Technology

Tags

Communities of Interest

  • Air Platforms
  • Energy and Power Technologies

DTIC Thesaurus Topics

  • Amplifiers
  • Applied Computer Science
  • Capacitance
  • Capacitors
  • Complex Variables
  • Computer Science
  • Contracts
  • Electrical Engineering
  • Feedback
  • Frequency
  • Frequency Response
  • Impedance
  • Language
  • Mathematical Analysis
  • Measuring Instruments
  • Military Research
  • Resonant Frequency

Readers

  • Adaptive Control and Estimation with Uncertainty in Dynamic Systems.
  • Control Systems Engineering.
  • Integrated Circuit Design and Technology.