Title :
Design and implementation of stochastic neurosystem using SFQ logic circuits
Author :
Kondo, Taizo ; Kobori, Masayuki ; Onomi, Takeshi ; Nakajima, Koji
Author_Institution :
Intelligent Nano-Integration Syst. Lab. for Brainware Syst., Tohoku Univ., Sendai, Japan
fDate :
6/1/2005 12:00:00 AM
Abstract :
We propose a stochastic neurosystem using SFQ logic circuits and design the main components with the following functions: carrying out the multiplication of an input to a neuron on a synaptic weight value, integrating pulses to generate a membrane potential, and generating the output of a neuron. We simulate some circuits by JSIM and confirm their correct operation. We compare two methods of multipliers: using a comparator and using a divider. The multiplication using the divider is effective with respect to integration, and reduces the accumulation time Na required for higher precision operations. We designed a 4-bit up/down counter assuming the NEC 2.5 kA/cm2 Nb/AlOX/Nb standard process. We show that it is possible to compose the activation function circuit using a comparator.
Keywords :
circuit simulation; integrated logic circuits; logic design; logic simulation; multiplying circuits; neural chips; superconducting logic circuits; 4 bit; JSIM; Nb-AlO-Nb; SFQ logic circuits; activation function circuit; comparator; membrane potential; neural network; neuron output; single flux quantum; stochastic logic; stochastic neurosystem; synaptic weight value; Biomembranes; Circuit simulation; Counting circuits; Logic circuits; National electric code; Neurons; Niobium; Pulse circuits; Pulse generation; Stochastic processes; Neural network; single flux quantum; stochastic logic; up/down counter;
Journal_Title :
Applied Superconductivity, IEEE Transactions on
DOI :
10.1109/TASC.2005.849818
