Chaotic systems can yield a wide variety of patterns. Here we use this feature to generate all possible fundamental logic gate functions. This forms the basis of the design of a dynamical computing device, a chaogate, that can be rapidly morphed to become any desired logic gate. Here we review the basic concepts underlying this and present an extension of the formalism to include asymmetric logic functions
We first review ideas of harnessing chaotic attractors to implement robust and flexible logic gates,...
We report the experimental realization of a simple threshold controller, which clips chaotic dynamic...
Binary logic gates are building blocks of computing machines, in particular, electronic computers. O...
To investigate morphable chaotic logic we have constructed, out of discrete circuitry, a chaotic log...
This paper introduces a new scheme to achieve a dynamic logic gate which can be adjusted flexibly to...
Basic principles of implementing the most fundamental computing functions by chaotic elements are de...
We demonstrate the basic principles for the direct and flexible implementation of all basic logical ...
We report the experimental verification of a simple threshold controller, which clips the chaos to p...
This paper addresses and reports the construction of a reconfigurable logic block that can morph bet...
In this paper, we implement the first realization of a reconfigurable chaotic based logic block that...
Many shortcomings of chaos-based applications stem from the weak dynamic properties of the chaotic m...
We propose and characterize an iterated map whose nonlinearity has a simple (i.e., minimal) electron...
There has been interest in so called alternative or unconventional computing paradigms that differ f...
"We report experimental results obtained with a circuit possessing dynamic logic architecture based ...
Certain nonlinear systems can switch between dynamical attractors occupying different regions of pha...
We first review ideas of harnessing chaotic attractors to implement robust and flexible logic gates,...
We report the experimental realization of a simple threshold controller, which clips chaotic dynamic...
Binary logic gates are building blocks of computing machines, in particular, electronic computers. O...
To investigate morphable chaotic logic we have constructed, out of discrete circuitry, a chaotic log...
This paper introduces a new scheme to achieve a dynamic logic gate which can be adjusted flexibly to...
Basic principles of implementing the most fundamental computing functions by chaotic elements are de...
We demonstrate the basic principles for the direct and flexible implementation of all basic logical ...
We report the experimental verification of a simple threshold controller, which clips the chaos to p...
This paper addresses and reports the construction of a reconfigurable logic block that can morph bet...
In this paper, we implement the first realization of a reconfigurable chaotic based logic block that...
Many shortcomings of chaos-based applications stem from the weak dynamic properties of the chaotic m...
We propose and characterize an iterated map whose nonlinearity has a simple (i.e., minimal) electron...
There has been interest in so called alternative or unconventional computing paradigms that differ f...
"We report experimental results obtained with a circuit possessing dynamic logic architecture based ...
Certain nonlinear systems can switch between dynamical attractors occupying different regions of pha...
We first review ideas of harnessing chaotic attractors to implement robust and flexible logic gates,...
We report the experimental realization of a simple threshold controller, which clips chaotic dynamic...
Binary logic gates are building blocks of computing machines, in particular, electronic computers. O...