arXiv:2209.08096 Abstract | arXiv Analytics

arXiv:2209.08096 [cond-mat.stat-mech]Abstract References Reviews Resources

Theoretical bound of the efficiency of learning

Shanhe Su, Jingyi Chen, Youlin Wang, Jincan Chen, Chikako Uchiyama

Published 2022-09-16Version 1

A unified thermodynamic formalism describing the efficiency of learning is proposed. First, we derive an inequality, which is more strength than Clausius's inequality, revealing the lower bound of the entropy-production rate of a subsystem. Second, the inequality is transformed to determine the general upper limit for the efficiency of learning. In particular, we exemplify the bound of the efficiency in nonequilibrium quantum-dot systems and networks of living cells. The framework provides a fundamental trade-off relationship between energy and information inheriting in stochastic thermodynamic processes.

Categories: cond-mat.stat-mech, quant-ph

Keywords: efficiency, theoretical bound, general upper limit, nonequilibrium quantum-dot systems, fundamental trade-off relationship

Related articles: Most relevant | Search more

arXiv:2305.18848 [cond-mat.stat-mech] (Published 2023-05-30)

Theoretical bound of the efficiency of learning with coarse-graining

Minghao Li, Shihao Xia, Youlin Wang, Minglong Lv, Shanhe Su

arXiv:0801.3743 [cond-mat.stat-mech] (Published 2008-01-24, updated 2008-07-23)

Efficiency of molecular motors at maximum power

Tim Schmiedl, Udo Seifert

arXiv:1307.1988 [cond-mat.stat-mech] (Published 2013-07-08, updated 2014-10-03)

Energetics and efficiency of a molecular motor model

Hans C. Fogedby, Axel Svane