Title :
Implementation of a programmable artificial neuron using discrete logic
Author :
Kwon, Taek M. ; Valdez, Michael E.
Author_Institution :
Dept. of Comput. Eng., Minnesota Univ., Duluth, MN, USA
Abstract :
The authors present a digital neural model that permits high-density implementation of an integrated circuit with completely programmable weights. The digital model is derived from general analog neural models by analyzing their logical characteristics. After digitizing the analog neuron, the weights are expressed using logical values without losing the capabilities of the analog neurons. This permits the weights to be used as inputs; consequently, the logical values of the weights can be dynamically changed and also can be implemented with common discrete logics. To utilize the capability of dynamically variable weights, a learning algorithm was implemented in a network of digital neurons. The learning algorithm and simulation studies are briefly discussed
Keywords :
integrated logic circuits; neural nets; completely programmable weights; digital neurons; discrete logic; dynamically variable weights; high-density implementation; integrated circuit; learning algorithm; logical values; programmable artificial neuron; simulation studies; Application software; Circuit simulation; Computational modeling; Computer simulation; Digital integrated circuits; Integrated circuit modeling; Logic circuits; Neural networks; Neurons; Resistors;
Conference_Titel :
Southeastcon '89. Proceedings. Energy and Information Technologies in the Southeast., IEEE
Conference_Location :
Columbia, SC
DOI :
10.1109/SECON.1989.132355
