Title :
A limited-interconnect synthetic neural IC
Author :
Akers, L.A. ; Walker, M.R.
Author_Institution :
Center for Solid State Electron. Res., Arizona State Univ., Tempe, AZ, USA
Abstract :
A report is presented of the first design and simulation of a limited-interconnect, multilayered perceptron-like network. The network is isomorphic to fully connected layered architectures, but satisfies the interconnection length and density constraints imposed by VLSI technology. The authors show simulations that illustrate the ability of the architecture to generalize and tolerate faults. A very compact analog neural cell is described that can be fabricated on a production DRAM line. This chip architecture allows dynamic storage of weights, shunting inhibition, and pipelined behavior, and it readily scales to very large numbers of processing elements. A 512-element, feedforward neural chip is described.<>
Keywords :
VLSI; computer architecture; integrated circuit technology; neural nets; pipeline processing; 512-element chip; VLSI technology; analog neural cell; dynamic storage; fault generalization; fault tolerance; feedforward neural chip; fully connected layered architectures; interconnection density constraints; interconnection length constraints; limited-interconnect synthetic neural IC; multilayered perceptron-like network; pipelined behavior; shunting inhibition; weights; Computer architecture; Integrated circuit fabrication; Neural networks; Pipeline processing; Very-large-scale integration;
Conference_Titel :
Neural Networks, 1988., IEEE International Conference on
Conference_Location :
San Diego, CA, USA
DOI :
10.1109/ICNN.1988.23923
