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Autore principale: Whitelam, Stephen
Natura: Preprint
Pubblicazione: 2026
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Accesso online:https://arxiv.org/abs/2602.13410
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author Whitelam, Stephen
author_facet Whitelam, Stephen
contents Landauer's principle bounds the heat generated by logical operations, but in practice the thermodynamic cost of computation is dominated by the control systems that implement logic. CMOS gates dissipate energy far above the Landauer bound, while laboratory demonstrations of near-Landauer erasure rely on external measurement or feedback systems whose energy costs exceed that of the logic operation by many orders of magnitude. Here we use simulations to show that a genetic algorithm can program a thermodynamic computer to implement logic operations in which the total heat emitted by the control system is of a similar order of magnitude to that of the information-bearing degrees of freedom. Moreover, the computer can be programmed so that heat is drawn away from the information-bearing degrees of freedom and dissipated within the control unit, suggesting the possibility of computing architectures in which heat management is an integral part of the program design.
format Preprint
id arxiv_https___arxiv_org_abs_2602_13410
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Evolutionary design of thermodynamic logic gates and their heat emission
Whitelam, Stephen
Statistical Mechanics
Neural and Evolutionary Computing
Landauer's principle bounds the heat generated by logical operations, but in practice the thermodynamic cost of computation is dominated by the control systems that implement logic. CMOS gates dissipate energy far above the Landauer bound, while laboratory demonstrations of near-Landauer erasure rely on external measurement or feedback systems whose energy costs exceed that of the logic operation by many orders of magnitude. Here we use simulations to show that a genetic algorithm can program a thermodynamic computer to implement logic operations in which the total heat emitted by the control system is of a similar order of magnitude to that of the information-bearing degrees of freedom. Moreover, the computer can be programmed so that heat is drawn away from the information-bearing degrees of freedom and dissipated within the control unit, suggesting the possibility of computing architectures in which heat management is an integral part of the program design.
title Evolutionary design of thermodynamic logic gates and their heat emission
topic Statistical Mechanics
Neural and Evolutionary Computing
url https://arxiv.org/abs/2602.13410