A CMOS Reaction-Diffusion Circuit Based on Cellular-Automaton Processing Emulating the Belousov-Zhabotinsky Reaction(<Special Section>Nonlinear Theory and Its Applications)
スポンサーリンク
概要
- 論文の詳細を見る
The Belousov-Zhabotinsky (BZ) reaction provides us important clues in controlling 2D phase-lagged stable synchronous patterns in an excitable medium. Because of the difficulty in computing reaction-diffusion systems in large systems using conventional digital processors, we here propose a cellular-automaton (CA) circuit that emulates the BZ reaction. In the circuit, a two-dimensional array of parallel processing cells is responsible for fast emulation, and its operation rate is independent of the system size. The operations of the proposed CA circuit were demonstrated by using a simulation program with integrated circuit emphasis (SPICE).
- 社団法人電子情報通信学会の論文
- 2002-09-01
著者
-
Amemiya Yoshihito
Faculty Of Engineering Hokkaido University
-
Asai Tetsuya
Department Of Electrical And Electronic Engineering Toyohashi University Of Technology:(present Addr
-
Amemiya Yoshihito
The Department Of Electrical Engineering Hokkaido University
-
Asai Tetsuya
The Department Of Electrical Engineering Hokkaido University
-
NISHIMIYA Yuusaku
The Department of Electrical Engineering, Hokkaido University
-
Nishimiya Yuusaku
The Department Of Electrical Engineering Hokkaido University
関連論文
- A νMOS Vision Chip Based on Cellular-Automaton Processing
- A υMOS Vision Chip Based on the Cellular-Automaton Processing
- Cellular vMOS Circuits Performing Edge Detection with Difference-of-Gaussian Filters
- Analog Metal-Oxide-Silicon IC Implementation of Motion-Detection Network Based on a Biological Correlation Model
- Analog MOS Circuits for Motion Detection Based on Correlation Neural Networks
- An Analog Integrated Circuit for Motion Detection Based on Biological Correlation Model
- Growth of YBa_2Cu_3O_ Superconducting Thin Films on [111] Oriented Ag Films
- A CMOS Reaction-Diffusion Circuit Based on Cellular-Automaton Processing Emulating the Belousov-Zhabotinsky Reaction(Nonlinear Theory and Its Applications)
- Reaction-Diffusion Devices Using Minority-Carrier Transport in Semiconductors
- Analog Computation Using Coupled-Quantum-Dot Spin Glass (Special Issue on Integrated Electronics and New System Paradigms)
- Method for Determining Weight Coefficients for Quantum Boltzmann Machine Neuron Devices
- Analog Computation Using Quantum-Dot Spin Glass
- Deterministic Boltzmann Machine Learning Improved for Analog LSI Implementation (Special Issue on New Architecture LSIs)
- Quantum-Boltzmann-Machine Neuron Device
- Directional Single-Electron-Tunneling Junction
- Very-High-Speed Analog Neural Network LSI Using Super Self-Aligned Si Bipolar Process Technology
- Simulation of Visible Light Induced Effects in a Tunnel Junction Array for Photonic Device Applications
- Photoirradiation Effects in a Single-Electron Tunnel Junction Array (Special Issue on Technology Challenges for Single Electron Devices)
- Photo-Irradiation Effects in Single-Electron Tunnel Junction Arrays
- Simulations of Relaxation Processes for Non-Equilibrium Electron Distributions in Two-Dimensional Tunnel Junction Arrays ( Quantum Dot Structures)
- Eliciting the Potential Functions of Single-Electron Circuits (Special Issue on New Concept Device and Novel Architecture LSIs)
- Single-Electron Logic Systems Based on the Binary Decision Diagram (Special Issue on Technology Challenges for Single Electron Devices)