Chaotic laser based physical random bit streaming system with a computer
  application interface

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Abstract

We demonstrate a random bit streaming system that uses a chaotic laser as its physical entropy source. By performing real-time bit manipulation for bias reduction, we were able to provide the memory of a personal computer with a constant supply of ready-to-use physical random bits at a throughput of up to 4 Gbps. We pay special attention to the end-to-end entropy source model describing how the entropy from physical sources is converted into bit entropy. We confirmed the statistical quality of the generated random bits by revealing the pass rate of the NIST SP800-22 test suite to be 65 % to 75 %, which is commonly considered acceptable for a reliable random bit generator. We also confirmed the stable operation of our random bit steaming system with long-term bias monitoring.

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Most cited references 18

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Fast physical random bit generation with chaotic semiconductor lasers

Atsushi Uchida, Kazuya Amano, Masaki Inoue … (2008)

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An optical ultrafast random bit generator

Ido Kanter, Yaara Aviad, Igor Reidler … (2009)

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Ultrahigh-speed random number generation based on a chaotic semiconductor laser.

I Reidler, Y Aviad, M Rosenbluh … (2009)

The fluctuating intensity of a chaotic semiconductor laser is used for generating random sequences at rates up to 12.5 Gbits/s. The conversion of the fluctuating intensity to a random bit sequence can be implemented in either software or hardware and the overall rate of generation is much faster than any previously reported random number generator based on a physical mechanism. The generator's simplicity, robustness, and insensitivity to control parameters should enable its application to tasks of secure communication and calculation procedures requiring ultrahigh-speed generation of random bit sequences.