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A 168 nW to 44.3 Mb/s Adaptable TRNG With 400 mV Attack-Resilient Hybrid RO Core

A 168 nW to 44.3 Mb/s Adaptable TRNG With 400 mV Attack-Resilient Hybrid RO Core 150 150
Author(s): Berkay Özbek, Timothy G. Constandinou

Abstract:

This letter presents an adaptable ring oscillator (RO)-true random number generator (TRNG) that removes the fixed power–throughput tradeoff by selecting delay-cell physics at run time. A hybrid core uses a current-starved inverter in low-power (LP) mode to amplify slew-limited jitter for high bit-efficiency at low frequency, and a …

Published in: IEEE Solid-State Circuits Letters
Page(s): 325 – 328
Year of Publication: 2025
Electronic ISSN: 2573-9603
DOI: 10.1109/LSSC.2025.3621413
Publisher: IEEE

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High-Entropy Analog-Based Strong Physical Unclonable Function With Area-to-Entropy-ratio of 166 F2/bit

High-Entropy Analog-Based Strong Physical Unclonable Function With Area-to-Entropy-ratio of 166 F2/bit 150 150
Author(s): Alessandro Catania, Sebastiano Strangio, Maksym Paliy, Christian Sbrana, Michele Bertozzi, Giuseppe Iannaccone

Abstract:

In this letter, we present a high-entropy strong physically unclonable function (PUF) utilizing weak-inversion current mirrors implemented in a standard 65-nm CMOS technology. Each response bit of the proposed PUF relies on the threshold voltage differences of minimum-sized transistors arranged in a $32\times 32$ matrix. The analog operating principle enables encoding …

Published in: IEEE Solid-State Circuits Letters
Page(s): 309 – 312
Year of Publication: 2025
Electronic ISSN: 2573-9603
DOI: 10.1109/LSSC.2025.3616263
Publisher: IEEE

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