Performance Analysis of TLS for Quantum Robust Cryptography on a Constrained Device
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Advances in quantum computing make Shor's algorithm for factorising numbers ever more tractable. This threatens the security of any cryptographic system which often relies on the difficulty of factorisation. It also threatens methods based on discrete logarithms, such as with the Diffie-Hellman key exchange method. For a cryptographic system to remain secure against a quantum adversary, we need to build methods based on a hard mathematical problem, which are not susceptible to Shor's algorithm and which create Post Quantum Cryptography (PQC). While high-powered computing devices may be able to run these new methods, we need to investigate how well these methods run on limited powered devices. This paper outlines an evaluation framework for PQC within constrained devices, and contributes to the area by providing benchmarks of the front-running algorithms on a popular single-board low-power device.
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Cited by 1 Pith paper
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Network Impact of Post-Quantum Certificate Chain sizes on Time to First Byte in TLS Deployments
Post-quantum certificate chains cause discrete jumps in TTFB once they exceed transport flight limits, with Merkle Tree Certificates supporting 2-3x larger chains than current CDN optimizations.
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