Monday, April 29, 2013

1304.7072 (Chang Jin Wan et al.)

Learning and Spatiotemporally Correlated Functions Mimicked in
Oxide-Based Artificial Synaptic Transistors
   [PDF]

Chang Jin Wan, Li Qiang Zhu, Yi Shi, Qing Wan
Learning and logic are fundamental brain functions that make the individual to adapt to the environment, and such functions are established in human brain by modulating ionic fluxes in synapses. Nanoscale ionic/electronic devices with inherent synaptic functions are considered to be essential building blocks for artificial neural networks. Here, Multi-terminal IZO-based artificial synaptic transistors gated by fast proton-conducting phosphosilicate electrolytes are fabricated on glass substrates. Proton in the SiO2 electrolyte and IZO channel conductance are regarded as the neurotransmitter and synaptic weight, respectively. Spike-timing dependent plasticity, short-term memory and long-term memory were successfully mimicked in such protonic/electronic hybrid artificial synapses. And most importantly, spatiotemporally correlated logic functions are also mimicked in a simple artificial neural network without any intentional hard-wire connections due to the naturally proton-related coupling effect. The oxide-based protonic/electronic hybrid artificial synaptic transistors reported here are potential building blocks for artificial neural networks.
View original: http://arxiv.org/abs/1304.7072

No comments:

Post a Comment