Title :
Learning temporal correlations in biologically-inspired aVLSI
Author :
Bofill-i-Petit, Adria ; Murray, Alan F.
Author_Institution :
Dept. of Electron. & Electr. Eng., Edinburgh Univ., UK
Abstract :
Temporally-asymmetric Hebbian learning is a class of algorithms motivated by data from recent neurophysiology experiments. While traditional Hebbian learning rules use mean bring rates to drive learning, this new form of learning involves precise bring times. Hence, such algorithms can capture temporal spike correlations. We present circuits and methods to implement temporally-asymmetric Hebbian learning in analog VLSI. We also describe a small feed-forward 2 layer network that learns spike trains correlations. A chip including a single neuron and a network of adaptive spiking neurons has been fabricated in a CMOS 0.6μ process to validate the ideas presented.
Keywords :
CMOS analogue integrated circuits; Hebbian learning; VLSI; analogue processing circuits; feedforward neural nets; multilayer perceptrons; 0.6 micron; CMOS; adaptive spiking neurons; analog VLSI; biologically-inspired aVLSI; bring times; feed-forward 2 layer network; temporal spike correlations; temporally-asymmetric Hebbian learning; Adaptive systems; CMOS process; Circuits; Feedforward systems; Fires; Hardware; Hebbian theory; Neurons; Neurophysiology; Very large scale integration;
Conference_Titel :
Circuits and Systems, 2003. ISCAS '03. Proceedings of the 2003 International Symposium on
Print_ISBN :
0-7803-7761-3
DOI :
10.1109/ISCAS.2003.1206438
