Realization of reliable and flexible logic gates using noisy nonlinear circuits

Murali, K. ; Rajamohamed, I. ; Sinha, Sudeshna ; Ditto, William L. ; Bulsara, Adi R. (2009) Realization of reliable and flexible logic gates using noisy nonlinear circuits Applied Physics Letters, 95 (19). 194102_1-194102 _3. ISSN 0003-6951

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Official URL: http://apl.aip.org/resource/1/applab/v95/i19/p1941...

Related URL: http://dx.doi.org/10.1063/1.3245318

Abstract

It was shown recently that when one presents two square waves as input to a two-state system, the response of the system can produce a logical output (NOR/OR) with a probability controlled by the interplay between the system noise and the nonlinearity (that characterizes the bistable dynamics). One can switch or "morph" the output into another logic operation (NAND/AND) whose probability displays analogous behavior; the switching is accomplished via a controlled symmetry-breaking dc input. Thus, the interplay of nonlinearity and noise yields flexible and reliable logic behavior, and the natural outcome is, effectively, a logic gate. This "logical stochastic resonance" is demonstrated here via a circuit implementation using a linear resistor, a linear capacitor and four CMOS-transistors with a battery to produce a cubiclike nonlinearity. This circuit is simple, robust, and capable of operating in very high frequency regimes; further, its ease of implementation with integrated circuits and nanoelectronic devices should prove very useful in the context of reliable logic gate implementation in the presence of circuit noise.

Item Type:Article
Source:Copyright of this article belongs to American Institute of Physics.
Keywords:Circuit Noise; Circuit Reliability; Circuit Resonance; Logic Circuits; Logic Gates
ID Code:60939
Deposited On:12 Sep 2011 09:44
Last Modified:18 May 2016 10:52

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