We propose a direct and flexible implementation of logic operations using the dynamical evolution of a nonlinear system. The concept involves the observation of the state of the system at different times to obtain different logic outputs. We explicitly implement the basic NAND, AND, NOR, OR and XOR logic gates, as well as multiple-input XOR and XNOR logic gates. Further we demonstrate how the single dynamical system can do more complex operations such as bit-by-bit addition in just a few iterations
This paper introduces a new scheme to achieve a dynamic logic gate which can be adjusted flexibly to...
We first review ideas of harnessing chaotic attractors to implement robust and flexible logic gates,...
International audienceLearning from interpretation transition (LFIT) automatically constructs a mode...
It is shown how to implement by a mixed-signal circuit a continuous-time dynamical system. The chose...
"We report experimental results obtained with a circuit possessing dynamic logic architecture based ...
International audienceBoolean dynamical systems (BDSs) represent the evolutionof interactions inside...
We propose and characterize an iterated map whose nonlinearity has a simple (i.e., minimal) electron...
Dynamical systems are mathematical models of change or motion over time. They are ubiqui...
Certain nonlinear systems can switch between dynamical attractors occupying different regions of pha...
International audienceLearning from interpretation transition (LFIT) automatically constructs a mode...
International audienceBoolean Dynamical Systems (BDS) are systems of entities described by Boolean v...
We report on the spontaneous emergence of computation from adaptive synchronization of networked dyn...
Logic output from attractor hopping: Panels (a) and (b) show a stream of inputs I1 and I2. Panel (c)...
Second-harmonic generation and parametric down-conversion processes have been studied as the basis o...
Chaotic systems can yield a wide variety of patterns. Here we use this feature to generate all possi...
This paper introduces a new scheme to achieve a dynamic logic gate which can be adjusted flexibly to...
We first review ideas of harnessing chaotic attractors to implement robust and flexible logic gates,...
International audienceLearning from interpretation transition (LFIT) automatically constructs a mode...
It is shown how to implement by a mixed-signal circuit a continuous-time dynamical system. The chose...
"We report experimental results obtained with a circuit possessing dynamic logic architecture based ...
International audienceBoolean dynamical systems (BDSs) represent the evolutionof interactions inside...
We propose and characterize an iterated map whose nonlinearity has a simple (i.e., minimal) electron...
Dynamical systems are mathematical models of change or motion over time. They are ubiqui...
Certain nonlinear systems can switch between dynamical attractors occupying different regions of pha...
International audienceLearning from interpretation transition (LFIT) automatically constructs a mode...
International audienceBoolean Dynamical Systems (BDS) are systems of entities described by Boolean v...
We report on the spontaneous emergence of computation from adaptive synchronization of networked dyn...
Logic output from attractor hopping: Panels (a) and (b) show a stream of inputs I1 and I2. Panel (c)...
Second-harmonic generation and parametric down-conversion processes have been studied as the basis o...
Chaotic systems can yield a wide variety of patterns. Here we use this feature to generate all possi...
This paper introduces a new scheme to achieve a dynamic logic gate which can be adjusted flexibly to...
We first review ideas of harnessing chaotic attractors to implement robust and flexible logic gates,...
International audienceLearning from interpretation transition (LFIT) automatically constructs a mode...