Multi-mode Operations of a Holographic Memory using Orthogonal Phase Codes,

Abstract

Holographic memories offer the advantages of high storage density, distributed storage, and fast parallel access. These characteristics can be important for parallel opto-electronic computers such as neural networks. The memory can be used to hold a training set which is repetitively displayed during learning. In addition, if partitioning is used to solve problems requiring more neurons than the actual number of processors, the memory can also be used to hold connection eight and threshold information. In this paper, we present results from a photorefractive memory using incremental recording scheduling and binary orthogonal phase codes image addressing. We show how this approach allows modification of the content and diffraction efficiency of the stored images, and how multiple images can be combined by complex amplitude addition and subtraction during reconstruction.

Document Details

Document Type
Technical Report
Publication Date
May 22, 1992
Accession Number
ADP006725

Entities

People

  • Hironori Sasaki
  • Jian Ma
  • Joseph Ford
  • Yeshaiahu Fainman
  • Yoshinao Taketomi

Organizations

  • University of California, San Diego

Tags

Communities of Interest

  • Advanced Electronics

DTIC Thesaurus Topics

  • Addressing
  • Amplitude
  • Artificial Intelligence Computing
  • Artificial Intelligence Software
  • Computer Programs
  • Computers
  • Diffraction
  • Efficiency
  • Learning
  • Massachusetts
  • Materials
  • Neural Networks
  • Photorefractive Materials
  • Scheduling (Production)
  • Training

Fields of Study

  • Engineering

Readers

  • Computer Vision.
  • Optical Physics and Photonics.
  • Parallel and Distributed Computing.

Technology Areas

  • AI & ML
  • Microelectronics