A central result of stochastic thermodynamics is that irreversible state transitions of Markovian systems entail a cost in terms of an infinite entropy production. A corollary of this is that strictly deterministic computation is not possible. Using a thermodynamically consistent model, we show that quasideterministic computation can be achieved at finite, and indeed modest cost with accuracies that are indistinguishable from deterministic behavior for all practical purposes. Concretely, we consider the entropy production of stochastic (Markovian) systems that behave like and and a not gates. Combinations of these gates can implement any logical function. We require that these gates return the correct result with a probability that is very ...
A definition of entropy via the Kolmogorov algorithmic complexity is discussed. As examples, we show...
Algorithmic entropy can be viewed as a special case of the entropy studied in statistical mechanics....
The thermodynamics of computation assumes that computational processes at the molecular level can be...
Real-world computers have operational constraints that cause nonzero entropy production (EP). In par...
We introduce a framework designed to analyze the thermodynamics of an abstractly defined logical com...
Finite state machines (FSMs) are a theoretically and practically important model of computation. We ...
Landauer's Principle states that the energy cost of information processing must exceed the product o...
Practical, useful computations are instantiated via physical processes. Information must be stored a...
Turing Machines (TMs) are the canonical model of computation in computer science and physics. We com...
Landauer's principle says that, in principle, a computation can be performed without consumption of ...
Practical, useful computations are instantiated via physical processes. Information must be stored a...
We introduce a thermodynamically consistent, minimal stochastic model for complementary logic gates ...
Landauer's Principle states that the energy cost of information processing must exceed the product o...
The minimum heat cost of computation is subject to bounds arising from Landauer's principle. Here, I...
Irreversible information processing cannot be carried out without some inevitable thermodynamical wo...
A definition of entropy via the Kolmogorov algorithmic complexity is discussed. As examples, we show...
Algorithmic entropy can be viewed as a special case of the entropy studied in statistical mechanics....
The thermodynamics of computation assumes that computational processes at the molecular level can be...
Real-world computers have operational constraints that cause nonzero entropy production (EP). In par...
We introduce a framework designed to analyze the thermodynamics of an abstractly defined logical com...
Finite state machines (FSMs) are a theoretically and practically important model of computation. We ...
Landauer's Principle states that the energy cost of information processing must exceed the product o...
Practical, useful computations are instantiated via physical processes. Information must be stored a...
Turing Machines (TMs) are the canonical model of computation in computer science and physics. We com...
Landauer's principle says that, in principle, a computation can be performed without consumption of ...
Practical, useful computations are instantiated via physical processes. Information must be stored a...
We introduce a thermodynamically consistent, minimal stochastic model for complementary logic gates ...
Landauer's Principle states that the energy cost of information processing must exceed the product o...
The minimum heat cost of computation is subject to bounds arising from Landauer's principle. Here, I...
Irreversible information processing cannot be carried out without some inevitable thermodynamical wo...
A definition of entropy via the Kolmogorov algorithmic complexity is discussed. As examples, we show...
Algorithmic entropy can be viewed as a special case of the entropy studied in statistical mechanics....
The thermodynamics of computation assumes that computational processes at the molecular level can be...