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Nonequilibrium thermodynamics of erasure with superconducting flux logic

Saira, OP, Matheny, MH, Katti, R, Fon, W, Wimsatt, G, Crutchfield, JP, Han, S, Roukes, ML

2020eScholarship (California Digital Library)29 citations

Abstract

We implement a thermal-fluctuation-driven logical bit reset on a superconducting flux logic cell. We show that the logical state of the system can be continuously monitored with only a small perturbation to the thermally activated dynamics at 500 mK. We use the trajectory information to derive a single-shot estimate of the work performed on the system per logical cycle. We acquire a sample of 105 erasure trajectories per protocol and show that the work histograms agree with both microscopic theory and global fluctuation theorems. The results demonstrate how to design and diagnose complex, high-speed, and thermodynamically efficient computing using superconducting technology.

Topics & Concepts

ToolboxNon-equilibrium thermodynamicsSuperconductivityFluctuation theoremWork (physics)ErasureStatistical physicsEntropy (arrow of time)Computer scienceReset (finance)Second law of thermodynamicsPhysicsThermodynamicsQuantum mechanicsProgramming languageFinancial economicsEconomicsAdvanced Thermodynamics and Statistical MechanicsHeat Transfer and OptimizationQuantum many-body systems
Nonequilibrium thermodynamics of erasure with superconducting flux logic | Litcius