Delve into the mathematical transition from classical computation to quantum mechanics, where probability gives way to quantum postulates. Key algorithms alongside Shannonâ s theory adapted to quantum settings are rigorously examined, while representation theory reveals the origins of entropy inequalities.
Delve into the mathematical transition from classical computation to quantum mechanics, where probability gives way to quantum postulates. Key algorithms alongside Shannonâ s theory adapted to quantum settings are rigorously examined, while representation theory reveals the origins of entropy inequalities.
J. M. Landsberg, Texas A&M University, College Station, TX.
Inhaltsangabe
Classical and probabilistic computation Quantum mechanics for quantum computation Algorithms Classical information theory Language and background material for quantum information theory Quantum information Representation theory and quantum information Algebra and linear algebra Probability Hints and answers to selected exercises Bibliography Index
Classical and probabilistic computation Quantum mechanics for quantum computation Algorithms Classical information theory Language and background material for quantum information theory Quantum information Representation theory and quantum information Algebra and linear algebra Probability Hints and answers to selected exercises Bibliography Index
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