Journal ArticleDOI
Logical stochastic resonance
Adi R. Bulsara,Anna Dari,William L. Ditto,Krishnamurthy Murali,Sudeshna Sinha +4 more
- Vol. 375, Iss: 2, pp 424-434
TLDR
The concept of "Logical Stochastic Resonance" (LSR) is reviewed and details of an electronic circuit system demonstrating LSR are provided, including CMOS implementations of a simple LSR circuit, and the concatenation of these LSR modules to emulate combinational logic, such as data flip-flop and full adder operations.Abstract:
In a recent publication it was shown that, when one drives a two-state system with two square waves as input, the response of the system mirrors a logical output (NOR/OR). The probability of obtaining the correct logic response is controlled by the interplay between the noise-floor and the nonlinearity. As one increases the noise intensity, the probability of the output reflecting a NOR/OR operation increases to unity and then decreases. Varying the nonlinearity (or the thresholds) of the system allows one to morph the output into another logic operation (NAND/AND) whose probability displays analogous behavior. Thus, the outcome of the interplay of nonlinearity and noise is a flexible logic gate with enhanced performance. Here we review this concept of "Logical Stochastic Resonance" (LSR) and provide details of an electronic circuit system demonstrating LSR. Our proof-of-principle experiment involves a particularly simple realization of a two-state system realized by two adjustable thresholds. We also review CMOS implementations of a simple LSR circuit, and the concatenation of these LSR modules to emulate combinational logic, such as data flip-flop and full adder operations.read more
Citations
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Journal ArticleDOI
Noise-aided computation within a synthetic gene network through morphable and robust logic gates.
TL;DR: A synthetic gene network derived from the bacteriophage λ underpins a reconfigurable logic gate wherein the logic gate can emulate or "morph" the AND and OR operations through varying internal system parameters in a noisy background.
Journal ArticleDOI
Effects of non-Gaussian noise on logical stochastic resonance in a triple-well potential system
TL;DR: In this article, the effects of non-Gaussian noise on logical stochastic resonance have been discussed, and the reliability of the logic operation is dependent on the parameter q that indicates the departure from Gaussianity.
Journal ArticleDOI
Logical stochastic resonance with a coulomb-coupled quantum dot rectifier
TL;DR: In this paper, the authors demonstrate a device that rectifies voltage fluctuations and changes its behavior controllably to act as any of four logic gates, based on the mature GaAs/(Al,Ga)As system.
Journal ArticleDOI
Logical stochastic resonance with correlated internal and external noises in a synthetic biological logic block.
TL;DR: The intriguing results of this study show that it is possible to build a biological logic block that can emulate or switch from the AND to the OR gate functionalities through externally tuning the system parameters, and are underpinned by the presence of an optimal amount of random fluctuations.
Journal ArticleDOI
Logical stochastic resonance in triple-well potential systems driven by colored noise
TL;DR: It is shown that LSR can be successfully induced by additive or multiplicative Gaussian colored noise in some cases and the flexible and reliable logic behavior can be yielded for a = 0 due to the fact that the multiplicativeGaussiancolored noise strongly affects the shape of the potential function.
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