Implementation of 140 Gb/s true random bit generator based on a chaotic photonic integrated circuit

Argyris, Apostolos; Deligiannidis, Stavros; Pikasis, Evangelos; Bogris, Adonis; Syvridis, Dimitris

doi:10.1364/oe.18.018763

Cited by 188 publications

(97 citation statements)

References 16 publications

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“…42, the idea behind the laser-based implementations is to digitize a chaotic analog signal Uchida et al, 2008;, taking advantage of the inherent noise in combination with chaos-induced decorrelation of the trajectory as the basis for the generation of independent bits (Mikami et al, 2012). Semiconductor lasers subject to delayed optical feedback can produce strongly diverging chaotic trajectories, thus making high bit rates possible (Argyris, Deligiannidis et al, 2010;Hirano et al, 2010;Oliver et al, 2011). The chaotic signals typically consist of irregular picosecond pulses (Fischer, van Tartwijk et al, 1996).…”

Section: Random Bit Sequence Generationmentioning

confidence: 99%

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Complex photonics: Dynamics and applications of delay-coupled semiconductors lasers

et al. 2013

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Complex phenomena in photonics, in particular, dynamical properties of semiconductor lasers due to delayed coupling, are reviewed. Although considered a nuisance for a long time, these phenomena now open interesting perspectives. Semiconductor laser systems represent excellent test beds for the study of nonlinear delay-coupled systems, which are of fundamental relevance in various areas. At the same time delay-coupled lasers provide opportunities for photonic applications. In this review an introduction into the properties of single and two delay-coupled lasers is followed by an extension to network motifs and small networks. A particular emphasis is put on emerging complex behavior, deterministic chaos, synchronization phenomena, and application of these properties that range from encrypted communication and fast random bit sequence generators to bioinspired information processing.

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Section: Random Bit Sequence Generationmentioning

confidence: 99%

“…A systematic study of the influence of the underlying dynamics in the generation of random bits was performed (Oliver et al, 2011). In addition, an integrated compact real-time random bit generator was reported with a rate of 140 Gb=s (Argyris, Deligiannidis et al, 2010).…”

Section: Random Bit Sequence Generationmentioning

confidence: 99%

Complex photonics: Dynamics and applications of delay-coupled semiconductors lasers

et al. 2013

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“…The fact that the numerical bit-streams generated from noiseless simulations passed all tests suggests at least two conclusions: First, successful multi-bit extraction using ADCs shows that the chaotic waveforms are sufficient to random bit generation. Second, this also evidences that by employing post-processing methods such as derivative [11] or ADC [8,10] methods, chaos with relative low bandwidth can effectively lead to ultra-fast random numbers generation, even without any additional non-deterministic entropy source (noise).…”

Section: Discussionmentioning

confidence: 79%

“…Continuous streams of random bit sequences have been generated at fast rates of up to several Gbit/s in real time by directly sampling the output of two chaotic semiconductor lasers with one-bit analog-digital converters (ADCs) [6][7][8]. Subsequently, the efforts to further increase the bit rate [12] or/and to implement more simplified architectures [9][10][11][12][13] have been reported, by using 8-bit ADCs to sample the chaotic signal and to extract multi-bits in order to form the single random sequence.…”

Section: Introductionmentioning

confidence: 99%

Fast random bits generation based on a single chaotic semiconductor ring laser

Nguimdo¹,

Verschaffelt²,

Danckaert³

et al. 2012

Opt. Express

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“…Several methods to realize high-speed random number generations have been proposed (Reidler et al 2009;Argyris et al 2010b;Hirano et al 2010 andKanter et al 2010). Since typical chaotic oscillations in semiconductor laser is related to the relaxation oscillation frequency, the use of a laser which has a fast relaxation oscillation frequency is essential.…”

Section: Fast Chaotic Random Number Generatorsmentioning

confidence: 99%

Physical Random Number Generations and Photonic Integrated Circuits for Chaotic Generators

Ohtsubo

2012

Springer Series in Optical Sciences

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The strong demands for increased security in data exchange and communications in optical networks have directed a considerable part of research to physical layer data encryption techniques and, for such purpose, higher bit rates of random number generations have been expected. One of the methods based on the dynamics in semiconductor lasers is the use of chaotic times series to generate ultrafast random bit streams as a physical layer. Optical techniques are not only suitable for high-speed random number generations but also for having the good conformity for data transmission in existing optical channels. In this chapter, the principle and practice of physical random number generations based on chaotic dynamics in semiconductor lasers are discussed. The subjects related to the generations of high quality random bit sequences are also presented. For the implementation of the techniques in real systems, the miniaturization and integration of light sources as chaotic generators are essential to perform stable generations of random number bit sequences. Such systems are also expected as light sources in chaotic secure communications discussed in the preceding chapter. For this aim, deigns, and applications of all optical photonic integrated circuits for chaotic generators are presented. Finally, an application of the systems to random key distributions in quantum cryptographic systems is demonstrated.

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Implementation of 140 Gb/s true random bit generator based on a chaotic photonic integrated circuit

Cited by 188 publications

References 16 publications

Complex photonics: Dynamics and applications of delay-coupled semiconductors lasers

Complex photonics: Dynamics and applications of delay-coupled semiconductors lasers

Fast random bits generation based on a single chaotic semiconductor ring laser

Physical Random Number Generations and Photonic Integrated Circuits for Chaotic Generators

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