These parameters satisfy the analog of lo- cal detailed balance, known as Haldane relation [47], Vf Kβ/(VrKα) =K eq, whereK eq is the equilibrium con- stant of the reaction

Enzymatic transport A simple, well-studied model of reversible enzyme kinetics is the Michaelis–Menten mechanism [47], which expresses the reaction flux fromαtoβas Iαβ(cα,cβ) =

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Thermodynamic Networks: Harnessing Non-Equilibrium Steady States for Computation

quant-ph · 2026-05-15 · unverdicted · novelty 6.0

Thermodynamic networks using non-equilibrium steady states achieve universal function approximation when engineered with negative differential conductance, as shown in quantum dot and enzymatic examples for sine fitting and MNIST classification.

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Thermodynamic Networks: Harnessing Non-Equilibrium Steady States for Computation quant-ph · 2026-05-15 · unverdicted · none · ref 9
Thermodynamic networks using non-equilibrium steady states achieve universal function approximation when engineered with negative differential conductance, as shown in quantum dot and enzymatic examples for sine fitting and MNIST classification.

These parameters satisfy the analog of lo- cal detailed balance, known as Haldane relation [47], Vf Kβ/(VrKα) =K eq, whereK eq is the equilibrium con- stant of the reaction

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