Title :
Neuromorphic, Digital, and Quantum Computation With Memory Circuit Elements
Author :
Pershin, Yuriy V. ; Ventra, Massimiliano Di
Author_Institution :
Dept. of Phys. & Astron., Univ. of South Carolina, Columbia, SC, USA
fDate :
6/1/2012 12:00:00 AM
Abstract :
Memory effects are ubiquitous in nature and the class of memory circuit elements - which includes memristive, memcapacitive, and meminductive systems - shows great potential to understand and simulate the associated physical processes. Here, we show that such elements can also be used in electronic schemes mimicking biologically inspired computer architectures, performing digital logic and arithmetic operations, and can expand the capabilities of certain quantum computation schemes. In particular, we will discuss some examples where the concept of memory elements is relevant to the realization of associative memory in neuronal circuits, spike-timing-dependent plasticity (STDP) of synapses, and digital and field-programmable quantum computing.
Keywords :
memristors; quantum theory; random-access storage; STDP; biologically inspired computer architectures; digital computation; digital quantum computing; field-programmable quantum computing; memcapacitive systems; meminductive systems; memory circuit elements; memristive systems; neuromorphic computation; neuronal circuits; quantum computation schemes; spike-timing-dependent plasticity; Biological neural networks; Biological system modeling; Capacitance; Hysteresis; Neuromorphics; Quantum computing; Threshold voltage; Capacitance; dynamic response; hysteresis; inductance; memory; resistance;
Journal_Title :
Proceedings of the IEEE
DOI :
10.1109/JPROC.2011.2166369
