2017
DOI: 10.1063/1.5000056
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Recommendations and illustrations for the evaluation of photonic random number generators

Abstract: The never-ending quest to improve the security of digital information combined with recent improvements in hardware technology has caused the field of random number generation to undergo a fundamental shift from relying solely on pseudo-random algorithms to employing optical entropy sources. Despite these significant advances on the hardware side, commonly used statistical measures and evaluation practices remain ill-suited to understand or quantify the optical entropy that underlies physical random number gen… Show more

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Cited by 61 publications
(39 citation statements)
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References 73 publications
(142 reference statements)
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“…This extractor is designed to minimise the effect of the classical noise on the output signal. The total bit rate of this construction is given by the product of the sample rate (55MSPS), extracted bits per sample (8), and number of channels (7), and is 3.08 Gbit/s. We sample at least 27.5 MHz of the homodyne detector bandwidth as allowed by the Shannon-Hartley limit [8].…”
Section: Randomnessmentioning
confidence: 99%
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“…This extractor is designed to minimise the effect of the classical noise on the output signal. The total bit rate of this construction is given by the product of the sample rate (55MSPS), extracted bits per sample (8), and number of channels (7), and is 3.08 Gbit/s. We sample at least 27.5 MHz of the homodyne detector bandwidth as allowed by the Shannon-Hartley limit [8].…”
Section: Randomnessmentioning
confidence: 99%
“…The randomness properties of the source have a profound effect on the security of the encryption, with several examples of compromised security from an attack on the random number generator [3][4][5]. In this area, quantum optics has provided advantages over previous methods, enabling random number generation with high speeds and enhanced security [6][7][8].…”
Section: Introductionmentioning
confidence: 99%
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“…A key challenge arises from the difficulty of quantifying physical process randomness from the raw data. To quantify the randomness of laser chaos, entropy in its many forms, such as Shannon entropy [14,15], Kolmogorov-Sinai (KS) entropy [16][17][18][19] and permutation entropy (PE) [20][21][22][23][24][25], provides a way to measure temporal randomness of a physical process. The positivity of the entropy per unit time or entropy rate is an evidence for randomness in time series, which characterizes the production of new and random information of high-dimensional and noisy dynamical systems.…”
mentioning
confidence: 99%
“…Meanwhile, laser chaos rapidly and nonlinearly amplifies the uncertainty of intrinsic quantum noise and the chaotic amplification of the intrinsic noise is completely different from output fluctuation caused by deterministic chaos [8]. It is important to understand the origins of the stochastic properties and assess the randomness of the physical process [14,18,19]. Shot noise is an intrinsic noise of chaotic system and a fundamental quantum noise limit of optical source, which represents quantum vacuum state or zero-point fluctuations allowed by the minimum uncertainty product of quantum mechanics [26][27][28].…”
mentioning
confidence: 99%