Title :
Novel heterostructure device for electronic pulse-mode neural circuits
Author :
Song, C. ; Roenker, K.P.
Author_Institution :
Dept. of Electr. & Comput. Eng., Cincinnati Univ., OH, USA
fDate :
7/1/1994 12:00:00 AM
Abstract :
A new approach to the hardware implementation of artificial, electronic pulse-mode neural circuits is proposed and demonstrated based on the use of a novel heterostructure device that exhibits an S-type current-voltage characteristic. The new device consists of a multi-period quantum well structure with heavily doped n+ GaAs quantum wells and undoped AlGaAs barriers between an n+ GaAs cathode and p+ GaAs anode. When operated with an RC load, the device switches periodically between a low-conductance off state and a high-conductance on state generating a pulse-mode output. The operation is analogous to that of the axon hillock or trigger zone of the neuron, exhibiting a threshold behavior and a nonlinear dependence of the pulse frequency on the input voltage (mean membrane potential). Low-voltage and room-temperature operation are shown to be feasible
Keywords :
III-V semiconductors; gallium arsenide; neural chips; p-i-n diodes; semiconductor quantum wells; semiconductor switches; trigger circuits; GaAs-AlGaAs; RC load; S-type current-voltage characteristic; axon hillock zone; doped n+ GaAs quantum wells; heterostructure device; n+ GaAs cathode; neuron; p+ GaAs anode; pulse-mode neural circuits; threshold behavior; trigger zone; undoped AlGaAs barriers; Anodes; Cathodes; Current-voltage characteristics; Gallium arsenide; Hardware; Nerve fibers; Neurons; Pulse circuits; Pulse generation; Switches;
Journal_Title :
Neural Networks, IEEE Transactions on
