Publication
PUFs based on Coupled Oscillators Static Entropy
| Summary: | We live in a digital era, this led to a shift from traditional industry to a society focused on information and communication technologies. The amount of shared information is exponen- tially growing every year. Protecting all this shared information is keeping everyone’s privacy, is making sure the information is authentic, is keeping everyone safe. The solution for such problems is cryptography using hardware-based, System on Chip, SoC solutions such as Random Number Generators, RNGs, and Physical Unclonable Functions, PUFs. RNGs generate random keys from random processes that occurs inside the system. PUFs generate fixed random keys using random processes that originated in the fabrication process of the chip. The objective of this work is to study and compare a static entropy source based on coupled relaxation oscillators against a state-of-the-art architecture like the static entropy source based on ring oscillators, in advanced 130nm technology. The characteristic studied were, area, power consumption, entropy, resistance to temperature, and supply voltage varia- tions. Compared to the ring oscillator implementation, the static entropy source designed showed promising results as a static entropy source, however, it revealed poor results in terms of area, power consumption, and entropy. Such results mean, the coupled relaxation oscillator may not be good at generating random numbers, however, it may be good at keeping its state when under temperature and supply voltage variations. |
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| Main Authors: | Cabacinho, João Pereira |
| Subject: | Cryptography Random Entropy Key Oscillator Coupled |
| Year: | 2022 |
| Country: | Portugal |
| Document type: | master thesis |
| Access type: | open access |
| Associated institution: | Universidade Nova de Lisboa |
| Language: | English |
| Origin: | Repositório Institucional da UNL |
| Summary: | We live in a digital era, this led to a shift from traditional industry to a society focused on information and communication technologies. The amount of shared information is exponen- tially growing every year. Protecting all this shared information is keeping everyone’s privacy, is making sure the information is authentic, is keeping everyone safe. The solution for such problems is cryptography using hardware-based, System on Chip, SoC solutions such as Random Number Generators, RNGs, and Physical Unclonable Functions, PUFs. RNGs generate random keys from random processes that occurs inside the system. PUFs generate fixed random keys using random processes that originated in the fabrication process of the chip. The objective of this work is to study and compare a static entropy source based on coupled relaxation oscillators against a state-of-the-art architecture like the static entropy source based on ring oscillators, in advanced 130nm technology. The characteristic studied were, area, power consumption, entropy, resistance to temperature, and supply voltage varia- tions. Compared to the ring oscillator implementation, the static entropy source designed showed promising results as a static entropy source, however, it revealed poor results in terms of area, power consumption, and entropy. Such results mean, the coupled relaxation oscillator may not be good at generating random numbers, however, it may be good at keeping its state when under temperature and supply voltage variations. |
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