Litcius/Paper detail

Performance and Applicability of Post-Quantum Digital Signature Algorithms in Resource-Constrained Environments

Marin Vidaković, Kruno Miličević

2023Algorithms31 citationsDOIOpen Access PDF

Abstract

The continuous development of quantum computing necessitates the development of quantum-resistant cryptographic algorithms. In response to this demand, the National Institute of Standards and Technology selected standardized algorithms including Crystals-Dilithium, Falcon, and Sphincs+ for digital signatures. This paper provides a comparative evaluation of these algorithms across key metrics. The results indicate varying strengths and weaknesses for each algorithm, underscoring the importance of context-specific deployments. Our findings indicate that Dilithium offers advantages in low-power scenarios, Falcon excels in signature verification speed, and Sphincs+ provides robust security at the cost of computational efficiency. These results underscore the importance of context-specific deployments in specific and resource-constrained technological applications, like IoT, smart cards, blockchain, and vehicle-to-vehicle communication.

Topics & Concepts

Computer scienceContext (archaeology)Digital signatureCryptographyKey (lock)AlgorithmStrengths and weaknessesDilithiumResource (disambiguation)Digital Signature AlgorithmQuantum computerComputer engineeringDistributed computingComputer securityQuantumComputer networkHash functionPhilosophyPaleontologyEpistemologyBiologyPhysicsDeprotonationIonQuantum mechanicsCryptography and Data SecurityBlockchain Technology Applications and SecurityCloud Data Security Solutions