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Harnessing microcomb-based parallel chaos for random number generation and optical decision making
Optical chaos is vital for various applications such as private communication, encryption, anti-
interference sensing, and reinforcement learning. Chaotic microcombs have emerged as …
interference sensing, and reinforcement learning. Chaotic microcombs have emerged as …
[HTML][HTML] Secure quantum communication technologies and systems: From labs to markets
F Cavaliere, E Prati, L Poti, I Muhammad, T Catuogno - Quantum Reports, 2020 - mdpi.com
We provide a broad overview of current quantum communication by analyzing the recent
discoveries on the topic and by identifying the potential bottlenecks requiring further …
discoveries on the topic and by identifying the potential bottlenecks requiring further …
Generating randomness: making the most out of disordering a false order into a real one
Y Ilan - Journal of Translational Medicine, 2019 - Springer
Randomness is far from a disturbing disorder in nature. Rather, it underlies many processes
and functions. Randomness can be used to improve the efficacy of development and of …
and functions. Randomness can be used to improve the efficacy of development and of …
Compact reservoir computing with a photonic integrated circuit
K Takano, C Sugano, M Inubushi, K Yoshimura… - Optics express, 2018 - opg.optica.org
Photonic reservoir computing is a new paradigm for performing high-speed prediction and
classification tasks in an efficient manner. The major challenge for the miniaturization of …
classification tasks in an efficient manner. The major challenge for the miniaturization of …
Massively parallel ultrafast random bit generation with a chip-scale laser
Random numbers are widely used for information security, cryptography, stochastic
modeling, and quantum simulations. Key technical challenges for physical random number …
modeling, and quantum simulations. Key technical challenges for physical random number …
QUAC-TRNG: High-throughput true random number generation using quadruple row activation in commodity DRAM chips
A Olgun, M Patel, AG Yağlıkçı, H Luo… - 2021 ACM/IEEE 48th …, 2021 - ieeexplore.ieee.org
True random number generators (TRNG) sample random physical processes to create large
amounts of random numbers for various use cases, including security-critical cryptographic …
amounts of random numbers for various use cases, including security-critical cryptographic …
Reservoir computing using multiple lasers with feedback on a photonic integrated circuit
C Sugano, K Kanno, A Uchida - IEEE Journal of Selected …, 2019 - ieeexplore.ieee.org
We propose a scheme for reservoir computing using multiple semiconductor lasers with
optical feedback arranged in parallel on a photonic integrated circuit, and we investigate the …
optical feedback arranged in parallel on a photonic integrated circuit, and we investigate the …
Ultrafast photonic reinforcement learning based on laser chaos
Reinforcement learning involves decision making in dynamic and uncertain environments
and constitutes an important element of artificial intelligence (AI). In this work, we …
and constitutes an important element of artificial intelligence (AI). In this work, we …
[HTML][HTML] Ultrafast and real-time physical random bit extraction with all-optical quantization
Y Guo, Q Cai, P Li, R Zhang, B Xu… - Advanced …, 2022 - spiedigitallibrary.org
Optical chaos generated by perturbing semiconductor lasers has been viewed, over recent
decades, as an excellent entropy source for fast physical random bit generation (RBG) …
decades, as an excellent entropy source for fast physical random bit generation (RBG) …
Tbps parallel random number generation based on a single quarter-wavelength-shifted DFB laser
We propose and experimentally demonstrate a parallel physical random number generator
(Ph-RNG) based on a single quarter-wavelength-shifted distributed feedback laser (QWS …
(Ph-RNG) based on a single quarter-wavelength-shifted distributed feedback laser (QWS …