论文信息 - An information-theoretic measure for the computational fidelity of physical processes

An information-theoretic measure for the computational fidelity of physical processes

An information-theoretic measure is proposed for the fidelity of classical information processing operations implemented in quantum mechanical hardware. This fidelity measure quantifies the degree to which a specified logic operation - a mapping from logical inputs to logical outputs - is mirrored in the mapping of initial states into distinguishable final states of a quantum system by a physical process. We formally define the computational fidelity, discuss its characteristics, illustrate its application, and comment on its connection to fundamental limits on the physical cost of information processing.

Neal G. Anderson | N. Anderson

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