Qubits and quantum computers
... computational complexity. It is computationally hard to learn functions of even low level computational-complexity class. • 2) Heavy computations can occur for a model representing a physical process that depends on much more parameters than represented by the input size. ...
... computational complexity. It is computationally hard to learn functions of even low level computational-complexity class. • 2) Heavy computations can occur for a model representing a physical process that depends on much more parameters than represented by the input size. ...
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... future domain of dependence D+ (Σ), i.e. every past-inextendible causal curve through p intersects Σ; or p lies in the past domain of dependence D− (Σ), in the corresponding sense that every future-inextendible causal curve through p intersects Σ. If a spacetime is globally hyperbolic, then it is al ...
... future domain of dependence D+ (Σ), i.e. every past-inextendible causal curve through p intersects Σ; or p lies in the past domain of dependence D− (Σ), in the corresponding sense that every future-inextendible causal curve through p intersects Σ. If a spacetime is globally hyperbolic, then it is al ...
The Transactional Interpretation of Quantum Mechanics http://www
... The Role of the Observer in the Transactional Interpretation • In the Copenhagen interpretation, observers have a special role as the collapsers of wave functions. This leads to problems, e.g., in quantum cosmology where no observers are present. • In the transactional interpretation, transactions ...
... The Role of the Observer in the Transactional Interpretation • In the Copenhagen interpretation, observers have a special role as the collapsers of wave functions. This leads to problems, e.g., in quantum cosmology where no observers are present. • In the transactional interpretation, transactions ...
