基于现场可编程门阵列的不同数据路径架构ANU轻量级密码的设计与实现.pptx

基于现场可编程门阵列的不同数据路径架构ANU轻量级密码的设计与实现汇报人：2024-01-21

introductionOverviewofFieldProgrammableGateArrayTechnologyThePrincipleandCharacteristicsofANULightweightCryptographyAlgorithm

DesignofANULightweightPasswordBasedonFPGAExperimentalresultsandanalysisSummaryandOutlook

01introduction

ResearchbackgroundandsignificanceWiththerapiddevelopmentoftechnologiessuchastheInternetofThingsandcloudcomputing,lightweightcryptographicalgorithmsareplayinganincreasinglyimportantroleinensuringinformationsecurity.FieldProgrammableGateArray(FPGA),asaprogrammablelogicdevice,hasadvantagessuchashighperformance,lowpowerconsumption,andreconfigurability,makingitsuitablefortheimplementationoflightweightcryptographicalgorithms.ThedifferentdatapatharchitecturesbasedonFPGAhaveasignificantimpactontheperformanceandpowerconsumptionoflightweightcryptographicalgorithms.Therefore,studyingthedesignandimplementationofANUlightweightcryptographicalgorithmsunderdifferentdatapatharchitecturesisofgreatsignificance.

Atpresent,domesticandforeignscholarshaveconductedin-depthresearchonvariouslightweightcryptographicalgorithmsandproposedmanyoptimizationandimprovementmethods.IntermsofFPGAimplementation,somestudieshaveexploredtheimpactofdifferentdatapatharchitecturesontheperformanceoflightweightcryptographicalgorithms,butthereisrelativelylittleresearchonANUlightweightcryptographicalgorithms.Inthefuture,withthecontinuousdevelopmentofFPGAtechnologyandthecontinuousexpansionofapplicationscenarios,theimplementationoflightweightcryptographicalgorithmsbasedonFPGAwillpaymoreattentiontooptimizationinperformance,powerconsumption,andsecurity.ResearchStatusandDevelopmentTrendsatHomeandAbroad

Researchcontent,objectives,andmethodsResearchcontent:Thisarticlewillinvestigatetheimpactofdifferentdatapath