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Von Neumann Normalisation of a Quantum Random Number Generator

Article type: Research Article

Authors: Abbott, Alastair A.; | Calude, Cristian S.;

Affiliations: Department of Computer Science, University of Auckland, Auckland, New Zealand | Department of Computer Science, University of Auckland, Private Bag 92019, Auckland, New Zealand

Note: [] AA was in part supported by the CDMTCS and FP7 Grant PIRSES-2010-269151-RANPHYS.

Note: [] www.cs.auckland.ac.nz/~{aabb009,cristian}

Note: [] CC was in part supported by the CDMTCS, UoA R&SL grant and FP7 Grant PIRSES-2010-269151-RANPHYS.

Keywords: quantum random number generator, von Neumann normalisation, un-biasing

DOI: 10.3233/COM-2012-001

Journal: Computability, vol. 1, no. 1, pp. 59-83, 2012

Published: 2012
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Abstract

In this paper we study von Neumann un-biasing normalisation for ideal and real quantum random number generators, operating on finite strings or infinite bit sequences. In the ideal cases one can obtain the desired un-biasing. This relies critically on the independence of the source, a notion we rigorously define for our model. In real cases, affected by imperfections in measurement and hardware, one cannot achieve a true un-biasing, but, if the bias “drifts sufficiently slowly”, the result can be arbitrarily close to un-biasing. For infinite sequences, normalisation can both increase or decrease the (algorithmic) randomness of the generated sequences.

A successful application of von Neumann normalisation—in fact, any un-biasing transformation—does exactly what it promises, un-biasing, one (among infinitely many) symptoms of randomness; it will not produce “true” randomness.

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