Title :
Design and analysis of neuromemristive echo state networks with limited-precision synapses
Author :
Donahue, Colin ; Merkel, Cory ; Saleh, Qutaiba ; Dolgovs, Levs ; Yu Kee Ooi ; Kudithipudi, Dhireesha ; Wysocki, Bryant
Author_Institution :
Dept. of Comput. Eng., Rochester Inst. of Technol., Rochester, NY, USA
Abstract :
Echo state networks (ESNs) are gaining popularity as a method for recognizing patterns in time series data. ESNs are random, recurrent neural network topologies that are able to integrate temporal data over short time windows by operating on the edge of chaos. In this paper, we explore the design of a hardware ESN with bi-stable memristor-based synapses. Hybrid CMOS/memristor hardware implementations of ESNs are able to exploit non-linear device physics, improving power consumption, and boosting performance over software approaches. However, the digital nature of most experimental memristors places a limit on the precision of weight states in the ESN´s readout layer. In spite of this, we show that ESNs with only 5 different readout layer weight states can acheive 67% accuracy in spoken digit recognition tasks.
Keywords :
CMOS integrated circuits; chaos; memristors; network topology; neurophysiology; pattern recognition; power aware computing; recurrent neural nets; time series; ESN readout layer; bistable memristor-based synapses; hardware ESN; hybrid CMOS-memristor hardware implementations; limited-precision synapsis; neuromemristive echo state network analysis; neuromemristive echo state network design; nonlinear device physics; power consumption; recurrent neural network topologies; spoken digit recognition tasks; time series data; Accuracy; Hardware; Memristors; Neurons; Reservoirs; Topology; Training;
Conference_Titel :
Computational Intelligence for Security and Defense Applications (CISDA), 2015 IEEE Symposium on
Conference_Location :
Verona, NY
Print_ISBN :
978-1-4673-7556-6
DOI :
10.1109/CISDA.2015.7208623
