Add to ORKGThe thermodynamics of computation assumes that computational processes at the molecular level can be brought arbitrarily close to thermodynamical reversibility; and that thermodynamic entropy creation is unavoidable only in data erasure or the merging of computational paths, in accord with Landauer’s principle. The no go result shows that fluctuations preclude completion of thermodynamically reversible processes. Completion can be achieved only by irreversible processes that create thermodynamic entropy in excess of the Landauer limit
Brownian computers are supposed to illustrate how logically reversible mathematical operations can b...
Landauer’s (1961) “Irreversibility and Heat Generation in the Computing Process” speculated that the...
Landauer's principle, often regarded as the foundation of the thermodynamics of information processi...
The thermodynamics of computation assumes that computational processes at the molecular level can be...
The thermodynamics of computation assumes that computational processes at the molecular level can be...
Landauer's Principle asserts that there is an unavoidable cost in thermodynamic entropy creation whe...
Landauer's Principle asserts that there is an unavoidable cost in thermodynamic entropy creation whe...
Landauer's Principle asserts that there is an unavoidable cost in thermodynamic entropy creation whe...
Landauer's Principle asserts that there is an unavoidable cost in thermodynamic entropy creation whe...
Landauer's Principle asserts that there is an unavoidable cost in thermodynamic entropy creation whe...
Landauer's principle says that, in principle, a computation can be performed without consumption of ...
Landauer's principle says that, in principle, a computation can be performed without consumption of ...
Brownian computers are supposed to illustrate how logically reversible mathematical operations can b...
Brownian computers are supposed to illustrate how logically reversible mathematical operations can b...
Abstract. We review and investigate the general theory of thermodynamics of computation, and derive ...
Brownian computers are supposed to illustrate how logically reversible mathematical operations can b...
Landauer’s (1961) “Irreversibility and Heat Generation in the Computing Process” speculated that the...
Landauer's principle, often regarded as the foundation of the thermodynamics of information processi...
The thermodynamics of computation assumes that computational processes at the molecular level can be...
The thermodynamics of computation assumes that computational processes at the molecular level can be...
Landauer's Principle asserts that there is an unavoidable cost in thermodynamic entropy creation whe...
Landauer's Principle asserts that there is an unavoidable cost in thermodynamic entropy creation whe...
Landauer's Principle asserts that there is an unavoidable cost in thermodynamic entropy creation whe...
Landauer's Principle asserts that there is an unavoidable cost in thermodynamic entropy creation whe...
Landauer's Principle asserts that there is an unavoidable cost in thermodynamic entropy creation whe...
Landauer's principle says that, in principle, a computation can be performed without consumption of ...
Landauer's principle says that, in principle, a computation can be performed without consumption of ...
Brownian computers are supposed to illustrate how logically reversible mathematical operations can b...
Brownian computers are supposed to illustrate how logically reversible mathematical operations can b...
Abstract. We review and investigate the general theory of thermodynamics of computation, and derive ...
Brownian computers are supposed to illustrate how logically reversible mathematical operations can b...
Landauer’s (1961) “Irreversibility and Heat Generation in the Computing Process” speculated that the...
Landauer's principle, often regarded as the foundation of the thermodynamics of information processi...