Chaogates: Morphing logic gates that exploit dynamical patterns
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.
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.
Chaogates: Morphing logic gates that exploit dynamical patterns
S Sinha - 2010 - 210.212.36.82
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.
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.
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