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Recorded: 2023/05/10 Released: 2023/07/09
Jim talks with David Wolpert about the stochastic thermodynamics of compuation. The discussion focuses on recent developments in the relationship between non-equilibrium processes and information processing, having deep implications on how we view the world and how we apply statistical physics to biological, computational, and other systems.
------------------------------------------- Notes:
1. The articles that we discussed in this program:
- Tasmin, F., N. Fuentes, and D. Wolpert, "The Fundamental Thermodynamic Costs of Communications." (2023) [arXiv]
- Wolpert, D., "Minimal Entropy Production of Interacting Systems." New Journal of Physics 22 113013 (2020) [arXiv]
- Wolpert, D., "The Stochastic Thermodynamcis of Computation." J. Phys. A: Math. Theor. 52 193001 (2019). [arXiv] (Review Article)
- Landauer, R., "Irreversibility and the Heat Generation in the Computing Process" (IEEE Reprint). IBM J. Res. Dev. 5 283 (1961).[Free] [see 4]
- Bennett, C.H., "Logical Reversibility of Computation." IBM J. Res. Dev. 17 525 (1973). [Free] [see 4]
- Sagawa, T., "Thermodynamic and Logical Reversibilities Revisited." J. Stat. Mech. 2014 P03025 (2014).[arXiv]
- Parrondo, J.M.R/, J. M. Horowitz, and T. Sagawa, "Thermodynamics of Information." Nature Physics 11, 131 (2015). 3. Related Episodes of Physics Frontiers:
- Physics Frontiers 68: Quantum Resource Theories
- Physics Frontiers 16: Stochastic Resonance Energy Harvesting
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