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Post-Quantum Secure Boot

Vinay Kumar, Naina Gupta, Anupam Chattopadhyay, Michael Kasper, Christoph Kraus, Ruben Niederhagen

202037 citationsDOI

Abstract

A secure boot protocol is fundamental to ensuring the integrity of the trusted computing base of a secure system. The use of digital signature algorithms (DSAs) based on traditional asymmetric cryptography, particularly for secure boot, leaves such systems vulnerable to the threat of quantum computers. This paper presents the first post-quantum secure boot solution, implemented fully as hardware for reasons of security and performance. In particular, this work uses the eXtended Merkle Signature Scheme (XMSS), a hash-based scheme that has been specified as an IETF RFC. The solution has been integrated into a secure SoC platform around RISC-V cores and evaluated on an FPGA and is shown to be orders of magnitude faster compared to corresponding hardware/software implementations and to compare competitively with a fully hardware elliptic curve DSA based solution.

Topics & Concepts

Trusted computing baseComputer scienceHash functionDigital signatureTrusted ComputingCryptographyField-programmable gate arrayMerkle treeProtocol (science)Merkle signature schemeEmbedded systemCryptographic hash functionComputer securityOperating systemBlind signatureCloud computingAlternative medicineMedicinePathologyCloud computing securityCryptography and Data SecuritySecurity and Verification in ComputingAdvanced Data Storage Technologies
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