Title :
A 200µv resolution and high speed VLSI Winner-take-all circuit for self-organising neural network
Author :
Baishnab, K.L. ; Rahaman, Mustafijur ; Talukdar, Fazal A.
Author_Institution :
Dept. of Electron. & Commun. Eng., Nat. Inst. of Technol., Silchar, India
Abstract :
The design and simulation of a novel CMOS voltage mode parallel circuit is described. The circuit employs additional inhibitory and local excitory feedback based on a common voltage computation and this improves both speed and precision drastically. As a result, a single stage cell provides better resolution and speed in comparison to previous works. where cascading is necessary in to improve resolution. However in our previous work we observed resolution is 0.5mv and the circuit was functioning only for two cells, and also low dynamic range. Whereas the circuit described here is tested with 3 (three) contending cells and was giving better dynamic range and resolution. Simulations in Cadence show that a single cell can resolve voltage differences as small as 0.2mV in around 60-80ns in comparison to 100mV in and 0.5mV in. Detailed simulation results along with appropriate mathematical relations have been provided. This circuit is a fundamental building block in the competitive layer of self organizing neural networks, non linear filters, fuzzy and neuromorphic systems.
Keywords :
CMOS analogue integrated circuits; VLSI; integrated circuit design; neural nets; CMOS voltage mode parallel circuit; VLSI; complementary metal-oxide-semiconductor; fuzzy system; local excitory feedback; neuromorphic system; nonlinear filters; self-organising neural network; very large scale integration; voltage 0.5 mV; voltage 100 mV; voltage 200 muV; voltage computation; winner-take-all circuit; Circuit simulation; Circuit testing; Computational modeling; Dynamic range; Feedback circuits; Neural networks; Neurofeedback; Organizing; Very large scale integration; Voltage; Analog CMOS circuits; Neuromorphic circuits; Winnerr-take-all(WTA); voltage mode;
Conference_Titel :
Methods and Models in Computer Science, 2009. ICM2CS 2009. Proceeding of International Conference on
Conference_Location :
Delhi
Print_ISBN :
978-1-4244-5051-0
DOI :
10.1109/ICM2CS.2009.5397942