Title :
A synthetic neural integrated circuit
Author :
Akers, L.A. ; Walker, M. ; Grondin, R. ; Ferry, D.
Abstract :
Integrated circuits are approaching biological complexity in device count. Biological systems are fault tolerant, adaptive, and trainable, and the possibility exists for similar characteristics in ICs. The authors report a limited-interconnect, highly layered synthetic neural network that implements these ideals. These networks are specifically designed to scale to tens of thousands of processing elements on current production size dies. A compact analog cell, a training algorithm, and a limited-interconnect architecture which has demonstrated neuromorphic behavior are described
Keywords :
VLSI; neural nets; biological complexity; compact analog cell; current production size dies; device count; highly layered synthetic neural network; limited-interconnect architecture; neuromorphic behavior; synthetic neural integrated circuit; tens of thousands of processing elements; training algorithm;
Conference_Titel :
Custom Integrated Circuits Conference, 1989., Proceedings of the IEEE 1989
Conference_Location :
San Diego, CA, USA
DOI :
10.1109/CICC.1989.56743
