Quantum algorithm: Difference between revisions

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}}</ref> which as far as we know, is hard to compute classically in the worst-case scenario.{{citation needed|date=December 2014}}
 
==Hybrid Quantum/Classical Algorithms==
[[Hybrid Quantum/Classical Algorithms]] combine quantum state preparation and measurement with classical optimization. These algorithms generally aim to determine the ground state eigenvector and eigenvalue of a Hermitian Operator.
 
===Quantum simulation===
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|doi=10.1103/PhysRevA.82.040302
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==Hybrid Quantum/Classical Algorithms==
[[Hybrid Quantum/Classical Algorithms]] combine quantum state preparation and measurement with classical optimization. These algorithms generally aim to determine the ground state eigenvector and eigenvalue of a Hermitian Operator.
 
==See also==