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A Framework for Approximating Qubit Unitaries

Quantum Physics 2015-10-16 v1 Emerging Technologies
Authors: Vadym Kliuchnikov , Alex Bocharov , Martin Roetteler , Jon Yard
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Abstract

We present an algorithm for efficiently approximating of qubit unitaries over gate sets derived from totally definite quaternion algebras. It achieves ε\varepsilon-approximations using circuits of length O(log(1/ε))O(\log(1/\varepsilon)), which is asymptotically optimal. The algorithm achieves the same quality of approximation as previously-known algorithms for Clifford+T [arXiv:1212.6253], V-basis [arXiv:1303.1411] and Clifford+π/12\pi/12 [arXiv:1409.3552], running on average in time polynomial in O(log(1/ε))O(\log(1/\varepsilon)) (conditional on a number-theoretic conjecture). Ours is the first such algorithm that works for a wide range of gate sets and provides insight into what should constitute a "good" gate set for a fault-tolerant quantum computer.

Keywords

quantum circuit compilation quantum gates and qubits quantum search algorithms

Cite

@article{arxiv.1510.03888,
  title  = {A Framework for Approximating Qubit Unitaries},
  author = {Vadym Kliuchnikov and Alex Bocharov and Martin Roetteler and Jon Yard},
  journal= {arXiv preprint arXiv:1510.03888},
  year   = {2015}
}

Comments

60 pages, 16 figures

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