Chris Pollett > Students > Yunxuan

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    [Bio]

    [Blog]

    [First Proposal]

    [Final Step of Shor's and Grover's Algorithms]

    [jQuantum QFT]

    [My Quantum Circuits]

    [Three Models]

    [Threshold of Error Correction]

    [jQuantum Manual]

    [Quantum State and LH]

    [QHC Scientists]

    [LH and Tensor Networks]

    [k-LH is QMA-complete]

    [Deutch Josza Algorithm]

    [Semester Report]

    [Second Proposal]

    [SolveQ Algorithm: 2-SAT]

    [Random-kSAT-Generator: Version 1]

    [Freezing Point Experiment]

    [Random-kQSAT-Generator: Version 2]

    [Random-kQSAT-Generator: Version 3]

    [Antiferromagnetic Heisenberg Model]

    [Ising Model]

    [Random-kQSAT-Generator: Version 4]

    [Random-kQSAT-Generator: Version 5]

    [Random-kQSAT-Generator: Version 6]

    [SolveQ Algorithm: 2-QSAT]

    [Thesis]

























This page is about the success probability of Shor's algorithm and the success probability of Grover's algorithm. For the Shor's algorithm the final measurement has to be less than N and a multiple of Q/r. For the Grover's algorithm, the final measurement after t iterations is for certain the state that is being searched for.