Weak Gaussian noise in control fields makes dissipation grow linearly with steps in quantum equilibration, yielding a finite optimal step count and minimal dissipated work derived from quantum thermodynamic length.
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An open quantum system with bosonic modes and reservoirs implements parallel stochastic matrix-vector multiplications whose computation time is independent of input dimension, with results given by stationary energy flows and a direct mapping to electrical crossbar circuits.
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Finite steps optimise dissipation in stochastically controlled quantum systems
Weak Gaussian noise in control fields makes dissipation grow linearly with steps in quantum equilibration, yielding a finite optimal step count and minimal dissipated work derived from quantum thermodynamic length.
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Thermodynamic coprocessor for linear operations with input-size-independent calculation time based on open quantum system
An open quantum system with bosonic modes and reservoirs implements parallel stochastic matrix-vector multiplications whose computation time is independent of input dimension, with results given by stationary energy flows and a direct mapping to electrical crossbar circuits.