On Enhancing the Throughput of the Latched Ring Oscillator TRNG on FPGA
Author:
Publisher
Springer Nature Switzerland
Link
https://link.springer.com/content/pdf/10.1007/978-3-031-48121-5_39
Reference19 articles.
1. Wang Y, Liang H, Wang Y, Yao L, Yi M, Huang Z, Lu Y (2022) A reconfigurable PUF structure with dual working modes based on entropy separation model. Microelectron J 124:105445
2. Della Sala R, Bellizia D, Scotti G (2021) A novel ultra-compact FPGA PUF: the DD-PUF. Cryptography 5:23
3. R. Della Sala, Bellizia D, Scotti G (2022) A lightweight FPGA compatible weak-PUF primitive based on XOR gates. IEEE Trans Circuits Syst II: Express Briefs 69:2972–2976
4. Della Sala R, Bellizia D, Centurelli F, Scotti G (2023) A monostable physically unclonable function based on improved RCCMs with 0–1.56% native bit instability at 0.6–1.2 V and 0–75$$^\circ $$ C. Electronics 12:755
5. Della Sala R, Scotti G (2023) A novel FPGA implementation of the NAND-PUF with minimal resource usage and high reliability. Cryptography 7:18
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1. A new entropy source design based on NAND-XOR ring oscillators for resource-efficient and ultra-high throughput TRNG;IEICE Electronics Express;2024-07-25
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