QIP2021 | Optimal universal programming of unitary gates (Yuxiang Yang)

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Authors: Yuxiang Yang, Renato Renner and Giulio Chiribella
Affiliations: Institute for Theoretical Physics, ETH Zurich | Institute for Theoretical Physics, ETH Zurich | The University of Hong Kong

Abstract
A universal quantum processor is a device that takes as input a (quantum) program, containing an encoding of an arbitrary unitary gate, and a (quantum) data register, on which the encoded gate is applied. While no perfect universal quantum processor can exist, approximate processors have been proposed in the past two decades. A fundamental open question is how the size of the smallest quantum program scales with the approximation error. Here we answer the question, by proving a bound on the size of the program and designing a concrete protocol that attains the bound in the asymptotic limit. Our result is based on a connection between optimal programming and the Heisenberg limit of quantum metrology, and establishes an asymptotic equivalence between the tasks of programming, learning, and estimating unitary gates.

  1. Munich Center for Quantum Science & Technology
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