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Compact domain-specific co-processor for accelerating module lattice-based KEM

Jose Maria Bermudo Mera, Furkan Turan, Angshuman Karmakar, Sujoy Sinha Roy, Ingrid Verbauwhede

202032 citationsDOIOpen Access PDF

Abstract

We present a domain-specific co-processor to speed up Saber, a post-quantum key encapsulation mechanism competing on the NIST Post-Quantum Cryptography standardization process. Contrary to most lattice-based schemes, Saber doesn’t use NTT-based polynomial multiplication. We follow a hardware-software co-design approach: the execution is performed on an ARM core and only the most computationally expensive operation, i.e., the polynomial multiplication, is offloaded to the co-processor to obtain a compact design. We exploit the idea of distributed computing at micro-architectural level together with novel algorithmic optimizations to achieve approximately a 6 times speedup with respect to optimized software at a small area cost, which we demonstrate on a Zynq-7000 ARM/FPGA SoC.

Topics & Concepts

Computer scienceSpeedupField-programmable gate arrayParallel computingNISTCryptographyExploitSoftware portabilityLattice-based cryptographySoftwareQuantum computerMultiplication (music)Post-quantum cryptographyLattice (music)Embedded systemQuantumPublic-key cryptographyEncryptionAlgorithmOperating systemQuantum cryptographyMathematicsQuantum informationPhysicsNatural language processingAcousticsComputer securityCombinatoricsQuantum mechanicsCryptography and Data SecurityQuantum Computing Algorithms and ArchitectureCryptography and Residue Arithmetic
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