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Learning with Errors: A Lattice-Based Keystone of Post-Quantum Cryptography

Maria Sabani, Ilias Κ. Savvas, Georgia Garani

2024Signals23 citationsDOIOpen Access PDF

Abstract

The swift advancement of quantum computing devices holds the potential to create robust machines that can tackle an extensive array of issues beyond the scope of conventional computers. Consequently, quantum computing machines create new risks at a velocity and scale never seen before, especially with regard to encryption. Lattice-based cryptography is regarded as post-quantum cryptography’s future and a competitor to a quantum computer attack. Thus, there are several advantages to lattice-based cryptographic protocols, including security, effectiveness, reduced energy usage and speed. In this work, we study the learning with errors (LWE) problem and the cryptosystems that are based on the LWE problem and, in addition, we present a new efficient variant of LWE cryptographic scheme.

Topics & Concepts

Lattice-based cryptographyLearning with errorsCryptosystemCryptographyComputer scienceQuantum computerQuantum cryptographyEncryptionPost-quantum cryptographyTheoretical computer scienceComputer engineeringQuantumComputer securityQuantum informationPublic-key cryptographyPhysicsQuantum mechanicsCryptography and Data SecurityQuantum Computing Algorithms and ArchitectureComplexity and Algorithms in Graphs
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