Spiking and Bursting Firing Patterns of a Compact VLSI Cortical Neuron Circuit

Author

Wijekoon, Jayawan H B ; Dudek, Piotr

Author_Institution

Univ. of Manchester, Manchester

fYear

2007

fDate

12-17 Aug. 2007

Firstpage

1332

Lastpage

1337

Abstract

The paper presents a silicon neuron circuit that mimics the behaviour of known classes of biological neurons. The circuit has been designed in a 0.35 mum CMOS technology. The firing patterns of basic cell classes: regular spiking (RS), fast spiking (FS), chattering (CH) and intrinsic bursting (IB) are obtained with a simple adjustment of two biasing voltages. The simulations reveal the potential of the circuit to provide a wide variety of cell behaviours with required accommodation and firing frequency of a given cell type. The neuron consumes only 14 MOSFETs enabling the integration of many neurons in a small silicon area. Hence, the circuit provides a foundation for designing massively parallel analogue neuromorphic networks that closely resemble the circuits of the cortex.

Keywords

CMOS integrated circuits; MOSFET; VLSI; neural chips; CMOS technology; MOSFET; VLSI cortical neuron circuit; biological neurons; bursting firing patterns; chattering; parallel analogue neuromorphic networks; silicon neuron circuit; spiking firing patterns; Biological system modeling; CMOS technology; Circuit simulation; Frequency; MOSFETs; Neuromorphics; Neurons; Silicon; Very large scale integration; Voltage;

fLanguage

English

Publisher

ieee

Conference_Titel

Neural Networks, 2007. IJCNN 2007. International Joint Conference on

Conference_Location

Orlando, FL

ISSN

1098-7576

Print_ISBN

978-1-4244-1379-9

Electronic_ISBN

1098-7576

Type

conf

DOI

10.1109/IJCNN.2007.4371151

Filename

4371151