Qualcomm Snapdragon - Wikipedia

Snapdragon is a suite of system on a chip (SoC) semiconductor products for mobile devices designed and marketed by Qualcomm Technologies Inc. The ... QualcommSnapdragon FromWikipedia,thefreeencyclopedia Jumptonavigation Jumptosearch Suiteofsystem-on-a-chip(SoC)semiconductorproducts SnapdragonPredecessorScorpionprocessorsFounded2007/1114yearsagoProductsSnapdragon200,400,600,700and800seriesQualcommSnapdragonLTEmodemQualcommSnapdragonProcessorQualcommAdrenoQualcommHexagonQualcommSpectraOwnerQualcommWebsitewww.qualcomm.com/snapdragon Snapdragonisasuiteofsystemonachip(SoC)semiconductorproductsformobiledevicesdesignedandmarketedbyQualcommTechnologiesInc.TheSnapdragon'scentralprocessingunit(CPU)usestheARMarchitecture.AsingleSoCmayincludemultipleCPUcores,anAdrenographicsprocessingunit(GPU),aSnapdragonwirelessmodem,aHexagondigitalsignalprocessor(DSP),aQualcommSpectraimagesignalprocessor(ISP)andothersoftwareandhardwaretosupportasmartphone'sglobalpositioningsystem(GPS),camera,video,audio,gesturerecognitionandAIacceleration.Assuch,QualcommoftenreferstotheSnapdragonasa"mobileplatform"(e.g.Snapdragon8655GMobilePlatform).Snapdragonsemiconductorsareembeddedindevicesofvarioussystems,includingAndroid,WindowsPhoneandnetbooks.[1]Theyarealsousedincars,wearabledevicesandotherdevices.Inadditiontotheprocessors,theSnapdragonlineincludesmodems,Wi-Fichipsandmobilechargingproducts. TheSnapdragonQSD8250wasreleasedinDecember2007.Itincludedthefirst1 GHzprocessorformobilephones.Qualcommintroducedits"Krait"microarchitectureinthesecondgenerationofSnapdragonSoCsin2011,allowingeachprocessorcoretoadjustitsspeedbasedonthedevice'sneeds.Atthe2013ConsumerElectronicsShow,QualcommintroducedthefirstoftheSnapdragon800seriesandrenamedpriormodelsasthe200,400and600series.Severalnewiterationshavebeenintroducedsince,suchastheSnapdragon805,810,615and410.Qualcommre-brandeditsmodemproductsundertheSnapdragonnameinFebruary2015.Asof2018,[update]Asus,HPandLenovohavebegunsellinglaptopswithSnapdragon-basedCPUsrunningWindows10underthename"AlwaysConnectedPCs",markinganentryintothePCmarketforQualcommandtheARMarchitecture.[2][3] Contents 1History 1.1Pre-release 1.2Earlyproducts(2007–2009) 1.3Adoption(2009–2010) 1.432-bitARMera(2010–2015) 1.5Custom64-bitARMera(2016–present) 2Descriptionandcurrentmodels 2.1Benchmarktests 3Seealso 4References 5Furtherreading 6Externallinks History[edit] Pre-release[edit] QualcommannounceditwasdevelopingtheScorpioncentralprocessingunit(CPU)inNovember2007.[4][5]TheSnapdragonsystemonchip(SoC)wasannouncedinNovember2006andincludedtheScorpionprocessor,aswellasothersemiconductors.[5][6]ThisalsoincludedQualcomm'sfirstcustomHexagondigitalsignalprocessor(DSP).[7] AccordingtoaQualcommspokesperson,itwasnamedSnapdragon,because"SnapandDragonsoundedfastandfierce."[8]Thefollowingmonth,QualcommacquiredAirgoNetworksforanundisclosedamount;itsaidAirgo's802.11a/b/gand802.11nWi-FitechnologywouldbeintegratedwiththeSnapdragonproductsuite.[9][10]EarlyversionsofScorpionhadaprocessorcoredesignsimilartotheCortex-A8.[5] Earlyproducts(2007–2009)[edit] QualcommQSD8250 ThefirstSnapdragonshipmentswereoftheQSD8250inNovember2007.[11]AccordingtoCNET,Snapdragonclaimtofamewashavingthefirst1 GHzmobilemadeprocessor.[11][12]Mostsmartphonesatthetimewereusing500 MHzprocessors.[11]ThefirstgenerationofSnapdragonproductssupporteda720presolution,3Dgraphicsanda12-megapixelcamera.[11][13]ByNovember2008,15devicemanufacturersdecidedtoembedSnapdragonsemiconductorsintheirconsumerelectronicsproducts.[14][15][2] InNovember2008,QualcommannounceditwouldalsocompeteagainstIntelinthenetbookprocessormarketwithdual-coreSnapdragonsystem-on-chipsplannedforlate2009.[16]ItdemonstratedaSnapdragonprocessorthatconsumedlesspowerthanIntelchipsannouncedaroundthesametimeandclaimeditwouldalsocostlesswhenreleased.[17][18][19]Thatsamemonth,QualcommintroducedaSnapdragon-basedprototypenetbookcalledKayakthatused1.5 GHzprocessorsandwasintendedfordevelopingmarkets.[15][16][20] InMay2009,JavaSEwasportedandoptimizedforSnapdragon.[21]AttheNovember2009ComputexTaipeishow,QualcommannouncedtheQSD8650AadditiontotheSnapdragonproductsuite,whichwasbasedon45nanometermanufacturingprocesses.Itfeatureda1.2 GHzprocessorandhadlowerpowerconsumptionthanpriormodels.[22][23] Adoption(2009–2010)[edit] Bylate2009,smartphonemanufacturersannouncedtheywouldbeusingSnapdragonSoCsintheAcerLiquidMetal,HTCHD2,ToshibaTG01andtheSonyEricssonXperiaX10.[12][24][25]LenovoannouncedthefirstnetbookproductusingSnapdragonSoCsthatDecember.[26]AccordingtoPCWorld,mobiledevicesusingSnapdragonhadbetterbatterylifeandweresmallerinsizethanthoseusingotherSoCs.[27] ByJune2010,Snapdragonchipswereembeddedin20availableconsumerdevicesandincorporatedinto120productdesignsindevelopment.[28]ApplehadadominantmarketpositionforsmartphonesatthetimeanddidnotincorporateSnapdragonintoanyofitsproducts.ThesuccessofSnapdragonthereforereliedoncompetingAndroidphones,suchasGoogle'sNexusOneandtheHTCIncredible,challengingApple'smarketposition.[28]AndroiddevicesdidenduptakingmarketsharefromtheiPhoneandpredominantlyusedSnapdragon.[29][30][31] Therewasan"unconfirmedbutwidelycirculatedreport"speculatingthatApplewasgoingtostartusingSnapdragonSoCsinVerizon-basediPhones.[29]Asof2012,ApplewasstillusingtheirownAxsemiconductordesigns.[32]SupportfortheWindowsPhone7operatingsystemswasaddedtoSnapdragoninOctober2010.[30] By2011SnapdragonwasembeddedinHewlettPackard'sWebOSdevices[33]andhada50%marketshareofa$7.9billionsmartphoneprocessormarket.[34]By2012,theSnapdragonS4(Kraitcore)hadtakenadominantsharefromotherAndroidsystem-on-chipslikeNvidiaTegraandTexasInstrumentsOMAPwhichcausedthelattertoexitthemarket.[35]AsofJuly2014,themarketshareofAndroidphoneshadgrownto84.6percent,[36]andQualcomm'sSnapdragonchipswereembeddedin41%ofsmartphones.[37]However,theSeptember2013debutofApple's64-bitA7chipintheiPhone5SforcedQualcommtoreleaseacompeting64-bitproduct,despitethecapableperformanceoftheSnapdragon800/801/805,sincetheirexistingKraitcoreswereonly32-bit.[38]Thefirst64-bitSoCs,theSnapdragon808and810,wererushedtomarketusinggenericCortex-A57andCortex-A53coresandsufferedfromoverheatingproblemsandthrottling,particularlythe810,whichledSamsungtostopusingSnapdragonforitsGalaxyS6flagshipphone,andGalaxyNote5phablet.[39][40] SnapdragonchipsarealsousedinmostAndroid-basedsmartwatches.[41]Snapdragonproductshavealsobeenusedinvirtualrealityproducts,invehiclesliketheMaseratiQuattroporteandCadillacXTSandinotherapplications.[42] 32-bitARMera(2010–2015)[edit] SnapdragonS4PlayProcessor-QualcommMSM8225 InJune2010,QualcommbegansamplingthethirdgenerationofSnapdragonproducts;twodual-core1.2 GHzsystemonchips(SoC)calledtheMobileStationModem(MSM)8260and8660.[43]The8260wasforGSM,UMTSandHSPA+networks,whilethe8660wasforCDMA2000andEVDOnetworks.[44]ThatNovemberQualcommannouncedtheMSM8960[45][46]forLTEnetworks.[44] Inearly2011,QualcommannouncedanewprocessorarchitecturecalledKrait,[47]whichusedtheARMv7instructionset,butwasbasedonQualcomm'sownprocessordesign.TheprocessorswerecalledS4andhadafeaturenamedAsynchronousSymmetricalMulti-Processing(aSMP),meaningeachprocessorcoreadjusteditsclockspeedandvoltagebasedonthedevice'sactivityinordertooptimizebatteryusage.[48]PriormodelswererenamedtoS1,S2andS3todistinguisheachgeneration.[49] TheS4-basedgenerationofSnapdragonSoCsbeganshippingtoproductmanufacturerswiththeMSM8960inFebruary2012.[50]InbenchmarktestsbyAnandtech,theMSM8960hadbetterperformancethananyotherprocessortested.Inanoverallsystembenchmark,the8960obtainedascoreof907,comparedto528and658fortheGalaxyNexusandHTCRezoundrespectively.[51]InaQuadrantbenchmarktest,whichassessesrawprocessingpower,adual-coreKraitprocessorhadascoreof4,952,whereasthequad-coreTegra3wasjustunder4,000.[52]Thequad-coreversion,APQ8064,wasmadeavailableinJuly2012.ItwasthefirstSnapdragonSoCtouseQualcomm'sAdreno320graphicsprocessingunit(GPU).[53] AdoptionofSnapdragoncontributedtoQualcomm'stransitionfromawirelessmodemcompanytoonethatalsoproducesawiderrangeofhardwareandsoftwareformobiledevices.[54]InJuly2011QualcommacquiredcertainassetsfromGestureTekinordertoincorporateitsgesturerecognitionintellectualpropertyintoSnapdragonSoCs.[55]Inmid-2012QualcommannouncedtheSnapdragonsoftwaredevelopmentkit(SDK)forAndroiddevicesattheUplinqdeveloperconference.[56]TheSDKincludestoolsforfacialrecognition,gesturerecognition,noisecancellationandaudiorecording.[56]ThatNovemberQualcommacquiredsomeassetsfromEPOSDevelopmentinordertointegrateitsstylusandgesturerecognitiontechnologyintoSnapdragonproducts.[57]ItalsocollaboratedwithMicrosofttooptimizeWindowsPhone8forSnapdragonsemiconductors.[58] By2012,theSnapdragonS4(Kraitcore)hadtakenadominantsharefromotherAndroidsystem-on-chipslikeNvidiaTegraandTexasInstrumentsOMAPwhichcausedthelattertoexitthemarket.[35]AsofJuly2014,themarketshareofAndroidphoneshadgrownto84.6percent,[36]andQualcomm'sSnapdragonchipspowered41%ofsmartphones.[37] However,theSeptember2013debutofApple's64-bitA7chipintheiPhone5SforcedQualcommtorushoutacompeting64-bitsolution,despitethecapableperformanceoftheSnapdragon800/801/805,sincetheirexistingKraitcoreswereonly32-bit.[38]Thefirst64-bitSoCs,theSnapdragon808and810,wererushedtomarketusinggenericCortex-A57andCortex-A53coresandsufferedfromoverheatingproblemsandthrottling,particularlythe810,whichledtoSamsungditchingSnapdragonforitsGalaxyS6flagshipphone.[39][40] Theentry-level200serieswasexpandedwithsixnewprocessorsusing28nanometermanufacturinganddualorquad-coreoptionsinJune2013.[59]Theentry-levelSnapdragon210,intendedforlow-costphones,wasannouncedinSeptember2014.[60] Custom64-bitARMera(2016–present)[edit] After,Qualcomm'sfirstattemptat64-bitsystemonachip,theycreatedanewin-housearchitecture,thatinlatermodelsshowedbetterthermalperformance,especiallywhencomparedtotheSnapdragonmodelslaunchedafter2015,liketheSnapdragon820.[61] Inearly2016,QualcommlaunchedtheSnapdragon820,anARM64-bitquad-coreprocessorusingin-housedesignedKryocores.QualcommlaunchedanupdatedSnapdragon821laterintheyearwithhigherclockspeedsandslightlybetterperformance.TheSnapdragon820familyusesSamsung's14-nanometerFinFETprocess.QualcommalsoreleasedtheQualcommSnapdragonNeuralProcessingEngineSDKwhichwasthefirstAIaccelerationonsmartphones.[62] Qualcommannouncedtheocta-coreSnapdragon835SoCon17November2016.Releasedthefollowingyear,itusesKryo280coresandisbuiltusingSamsung's10-nanometerFinFETprocess.Atinitiallaunch,duetoSamsung'sroleinmanufacturingthechip,itsmobiledivisionalsoacquiredtheinitialinventoryofthechip.ThatmeansthatnootherphonemakerwasabletomanufactureproductscontainingtheSnapdragon835untilSamsungreleaseditsflagshipdeviceoftheyear,theGalaxyS8.[63] AtComputex2017inMay,QualcommandMicrosoftannouncedplanstolaunchSnapdragon-basedlaptopsrunningWindows10.QualcommpartneredwithHP,Lenovo,andAsustoreleaseslimportablesand2-in-1devicespoweredbytheSnapdragon835.[64] InDecember2017,Qualcommannouncedtheocta-coreSnapdragon845.Itusesthesame10-nanometermanufacturingprocessastheearlierSnapdragon835butintroducedanewprocessorarchitecture,Kryo385,[65]designedforbetterbatterylife,photography,andforusewithartificialintelligenceapps.[66][65] Inearly2018,Qualcommintroducedthe7series,whichsitsbetweenthe6and8seriesintermsofpricingandperformance.The700launchedwithocta-coremodelsSnapdragon710and712,usingtheKryo360processorarchitecture,andbuiltona10-nanometermanufacturingprocess.[67][68][69] In2019,Qualcommreleasednewvariantsofitsmobileprocessors,withtheSnapdragon855replacingthe845.TheSnapdragon855competesagainstotherhighendsystem-on-chipsolutionsliketheAppleA12,andKirin980.TheSnapdragon855featuresKryo485cores,builtonTSMC's7-nanometerprocess.[70]TheSnapdragon730and730Greplacedthe710and712.Thenewer730and730GfeatureKryo460cores,builtonSamsung's8-nanometerprocess.[71] InDecember2019,QualcommannouncedtheSnapdragon865andSnapdragon765,whichsucceededtheSnapdragon855/855+andSnapdragon730/730Grespectively.TheSnapdragon765hasintegrated5G,whiletheSnapdragon865isassistedbyaseparateQualcommX555Gmodem.Despitelackingintegrated5G,theSnapdragon865isincompatiblewith4Gphones.[72][73] InMay2020,QualcommannouncedthenewSnapdragon768G5Gprocessor,anupgradedversionofthe765Gprocessor.Themaindifferencebetweenthe765Gand768Gisthatthe768Gwilloffer15percentincreaseinperformanceandhigherclockspeedontheCPU,upto2.8 GHzfrom2.4 GHz.[74] InSeptember2020,QualcommunveiledtheSnapdragon750Gprocessor,thelatestadditiontothe7-series,designedtobring5Gsupportforlow-latencymobilegaming.[75] InDecember2020,QualcommunveiledtheSnapdragon888.Themajordifferencescomparedtothe865/+isanewcore,designedbyARM,theARMCortexX1,supportforLPDDR5-6400andabuiltin5Gmodem,meaningtheX55Modemisnotrequired.The888isbasedonSamsung5nm,withaTDPof5watts,butthiscanbealteredbythemanufacturer.[76] NASA'sIngenuityhelicopter,whichlandedonMars,runsaSnapdragon801processor.[77] Descriptionandcurrentmodels[edit] Mainarticle:ListofQualcommSnapdragonprocessors Snapdragonsystemonchipproductstypicallyincludeagraphicsprocessingunit(GPU),aglobalpositioningsystem(GPS)andacellularmodemintegratedintoasinglepackage.[78]Ithassoftwareincludedthatoperatesgraphics,videoandpicture-taking.[79]Thereare23differentSnapdragonprocessorsunderthe200,400,600,700,andthe800productfamiliesspanningfromlowtohigh-endrespectively,aswellaswi-fiandmobilechargingproducts.[80]SomeoftheircomponentsincludetheAdrenographicsprocessing,theQualcommHexagonDSPandprocessorsusingQualcomm'sS4processorarchitecture.Inadditiontosmartphones,the400seriesisusedinsmartwatches[81]andthe602Aisintendedforelectronicsincars.[82] ThecurrentSnapdragonnamingschemewasimplementedaftertheSnapdragon800familywasannouncedatthe2013ConsumerElectronicsShow;priormodelswererenamedtothe200,400or600series.[83][84]AnewSnapdragon600wasalsoreleased,whichbymid-yearwasembeddedinmostnewAndroiddevices.[85]The400familyisentry-level,the600ismass-marketormid-range,and800familyisforhigh-endorflagshipphones.[86][87] Snapdragon410 Snapdragon600(modelAPQ8064) TheSnapdragon805wasreleasedinNovember2013.[88]The410,whichisintendedforlow-costphonesindevelopingnations,wasannouncedthefollowingmonth.[89]InJanuary2014,QualcommintroducedamodifiedversionoftheSnapdragon600called602A[82]thatisintendedforin-carinfotainmentscreens,backupcameras,andotherdriverassistanceproducts.[90]Thequad-coreSnapdragon610andeight-core615wereannouncedinFebruary2014.[91]TheSnapdragon808and810wereannouncedinApril2014.[92]TheSnapdragon835,announcedinNovember2017,isthefirstQualcommSOCthatisbuiltona10 nmarchitecture.[93]Qualcomm'snewflagshipchipfor2018,the845,wasannouncedinDecember2017.AccordingtoQualcomm,the845is25-30%fasterthanthe835. InFebruary2015,Qualcommre-brandeditsstand-alonemodemproductsundertheSnapdragonname;theyweredistinguishedfromSoCsusingthe"x"designation,suchastheX7orX12modem.[86]ThefirstSnapdragonmodemfor5Gnetworks,theX50,wasannouncedinOctober2016.[94]Thiswasfollowedbythe2GBsX24modemona7nanometermanufacturingprocessthatwasannouncedinFebruary2018.[95] AccordingtoCNET,WindowsphonesweregrowinginUSmarketshareandrankedhighlyinCNETreviewsduetotheirresponsiveness.[96]SnapdragonSoCsarealsousedinmostWindowsphones[58]andmostphonesenteringthemarketinmid-2013.[97]TheLGG2wasthefirstphonetomarketusingtheSnapdragon800inAugust2013.[98] In2017the660and630replacedthe653and626mid-rangemodels[99]andseveralchipsinthe400productfamilywererevved.[100][101]InFebruary2017,QualcommintroducedtheSnapdragonX20,intendedfor5Gcellphonenetworks,[102]andtwonewchipsfor802.11axcommercialwi-finetworks.[103]Thiswasfollowedbytheadditionofthe636tothe600productfamilythatOctober,whichQualcommsaidwouldbe40percentfasterthanthe630.[104] InAugust2018,theSnapdragon632,439and429werereleased.[105]ThenewSoCisaimedatmid-rangedevicessuchastheMotoG6Play,HuaweiHonor7AandNokia5.[106] InDecember2018,Qualcommannouncedthe8cxattheirSnapdragonTechSummit2018.The8cxisQualcomm'sfirstSoCspecificallydesignedforAlwaysConnectedPC(ACPC)platform.UnlikeQualcomm'spastACPCSoCswhichwerejusttheirrespectivemobileSoCsathigherTDP.[107]QualcommalsoshowcasedtheirSnapdragonX505Gmodem,Snapdragon855andQTM052mmWaveAntennaModule. InFebruary2019,QualcommannouncedtheirSnapdragonX555Gmodem,QTM525mmWaveantennamodule,QET6100envelopetrackerandthenewQAT3555antennaimpedancetuner.[108] InJuly2019,QualcommannouncedarefreshoftheSnapdragon855,theSnapdragon855+,whichisessentiallyanoverclockedversionofthe855withbothfasterCPUandGPUperformance. InDecember2019,QualcommannouncedtheSnapdragonX525GmodemalongsidetheSnapdragon765andSnapdragon865. InMay2020,QualcommannouncedtheSnapdragon768GmobileplatformwhichisadirectsuccessortotheSnapdragon765Gandfeaturesthesamearchitecturewithsomemajorperformanceimprovements.[109] Benchmarktests[edit] BenchmarktestsoftheSnapdragon800'sprocessorbyPCMagazinefoundthatitsprocessingpowerwascomparabletosimilarproductsfromNvidia.[110]BenchmarksoftheSnapdragon805foundthattheAdreno420GPUresultedina40percentimprovementingraphicsprocessingovertheAdreno330intheSnapdragon800,thoughtherewereonlyslightdifferencesinprocessorbenchmarks.[111]BenchmarksoftheSnapdragon801insideanHTCOnefounda"bumpallaround"inbenchmarkimprovementsoverthe800.[112]In2015,Samsung'sdecisionnottousetheSnapdragon810initsGalaxyS6[39]hadasignificantdetrimentalimpactonSnapdragon'srevenuesandreputation.[113]BenchmarktestsbyArsTechnicaconfirmedrumorsthatthe810under-performedlower-endmodelsandhadoverheatingissues.[40][114]AQualcommspokespersonsaidthesetestsweredonewithearlyversionsofthe810thatweren'treadyforcommercialuse.[115]Anupdatedversionwasreleasedandwasfoundtomoderatelyimprovethermalthrottling,GPUclockspeeds,memorylatency,andmemorybandwidthwhentestedinacommercialproduct,theXiaomiMiNotePro.[116][117]Additionally,the820/821,835and845performedsubstantiallybetter.[118][119][120]TheSnapdragon865'smemorywasimprovedinalaterupdate.[121]A2019benchmarktestbyPCWorldfoundthatthe865'smulti-coreperformanceonthe"default"settingwas30percenthigherthanthe855andcomparabletothe855Plus.[122]ThebenchmarkscoreforSnapdragon888releasedin2021ishigherthanthatoftheexistingSnapdragon865PlusandAppleA13,buttheheatoutputhasincreasedby60percent.[123] 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Furtherreading[edit] Boxall,Andy(24January2015)."Whencitiesadoptsmartphonechips,trashcanstalkandstreetlampshaveears".DigitalTrends. Externallinks[edit] WikimediaCommonshasmediarelatedtoSnapdragon(microprocessor). Officialwebsite ARM-basedchips vteApplicationARM-basedchips ARMHoldings ARMarchitecture ListofARMmicroarchitectures ListofapplicationsofARMcores ARMCortex-A ARMCortex-R ARMCortex-M ComparisonofARMv7-Acores ComparisonofARMv8-Acores Applicationprocessors(32-bit)Cortex-A5 ActionsATM702x AmlogicM805/S805,T82x AtmelSAMA5D3 InfoTMiMAPx820,iMAPx15 QualcommSnapdragonS4Play,200 RDARDA8810PL TelechipsTCC892x Cortex-A7 AllwinnerA2x,A3x,A83T,H3,H8 NXPi.MX7,QorIQLS10xx,NXPi.MX6UL BroadcomVideoCoreBCM2836,BCM23550 LeadcoreLC1813,LC1860/C,LC1913,LC1960 MarvellArmadaPXA1920,1500miniplus MediaTekMT65xx QualcommSnapdragon200,400 Cortex-A8 AllwinnerA1x AppleA4 Freescalei.MX5 RockchipRK291x SamsungExynos3110(S5PC110),S5PV210 TexasInstrumentsOMAP3 TexasInstrumentsSitaraAM3xxx TexasInstrumentsDM38x ZiiLABSZMS-08 Cortex-A9 ActionsATM702x,ATM703x AlteraCycloneV,ArriaV/10 AmlogicAML8726,MX,M6x,M801,M802/S802,S812,T86x AppleA5,A5X BroadcomVideoCoreBCM21xxx,BCM28xxx Freescalei.MX6 HiSiliconK3V2,910's InfoTMiMAPx912 LeadcoreLC1810,LC1811 MarvellArmada1500mini MediaTekMT65xx NvidiaTegra,2,3,4i NufrontNuSmart2816M,NS115,NS115M RenesasEMMAEV2,R-CarH1,RZ/A RockchipRK292x,RK30xx,RK31xx SamsungExynos4421x,441x ST-EricssonNovaThor TelechipsTCC8803 TexasInstrumentsOMAP4 TexasInstrumentsSitaraAM4xxx VIAWonderMediaWM88x0,89x0 XilinxZynq-7000 ZiiLABSZMS-20,ZMS-40 Cortex-A15 AllwinnerA80 HiSiliconK3V3 MediaTekMT8135/V NvidiaTegra4,K1 RenesasR-CarH2 SamsungExynos552xx,54xx TexasInstrumentsOMAP5,DRA7xx,AM57xx TexasInstrumentsSitaraAM5xxx Cortex-A17 MediaTekMT6595,MT5595 MStar6A928 RockchipRK3288 ARMv7-Acompatible AppleA6,A6X,S1,S1P,S2,S3 BroadcomBrahma-B15 MarvellP4J QualcommSnapdragonS1,S2,S3,S4Plus,S4Pro,600,800(Scorpion,Krait) Others EnhancedCortex-A8 EnhancedCortex-A9 Cortex-A12 Cortex-A32 Applicationprocessors(64-bit)Cortex-A35 NXPi.MX8X MediaTekMT6799,MT8516 RockchipRK3308 Cortex-A53 ActionsGT7,S900,V700 AllwinnerA64,H5,H64,R18 AlteraStratix10 AmlogicS9Family,T96x BroadcomBCM2837 EZchipTILE-Mx100 HiSiliconKirin620,650,655,658,659,930,935 MarvellArmadaPXA1928,MobilePXA1908/PXA1936 MediaTekMT673x,MT675x,MT6761,MT6762,MT6763,MT6765,MT6795,MT8161,MT8163,MT8165,MT8732,MT8735,MT8752 NXPARMS32,QorIQLS1088,LS1043,i.MX8M QualcommSnapdragon215,410,412,415,425,427,430,435,429,439,450,610,615,616,617,625,626,630 RenesasRZ/V2M RockchipRK3328,RK3368 SamsungExynos7570,7578,7580,7870,7880 SpreadtrumSC9860/GV,SC9836 TexasInstrumentsSitaraAM6xxx XilinxZynqMP Cortex-A55 SamsungExynos850 UnisocSC9863A Cortex-A57 AMDOpteronA1100-series NXPQorIQLS20xx NvidiaTegraX1andTegraX2 QualcommSnapdragon808&810 SamsungExynos75433,7420 HiSiliconKirinHi1610andHi1612 Cortex-A72 HiSiliconKirin950,955,Kunpeng916 MediaTekMT6797,MT8173,MT8176,MT8693 MStar6A938 QualcommSnapdragon650,652,653 RockchipRK3399 NXPQorIQLS2088,QorIQLS1046A,QorIQLX2160A,QorIQLS1028A,i.MX8 Cortex-A73 QualcommSnapdragon460,636,660,632,662,665,680,835 SamsungExynos7872,7884,7885,7904,9609,9610,9611 HiSiliconKirin710,960,970 MediaTekMT6771,MT6799,MT8183 AmlogicS922X Cortex-A75 QualcommSnapdragon670,710,712,845,850 SamsungExynos9820,9825 MediaTekMT6768,MT6769,MT6779 UnisocT310,T606,T610,T616,T618,T700,T710,T740 Cortex-A76 GoogleTensor HiSiliconKirin810,820,980,985,990 QualcommSnapdragon480(+),675,678,720G,730(G),732G,765(G),768G,855(+)and860,7c,8cand8cx MicrosoftSQ1andSQ2 MediaTekMT6781,MT6785,Dimensity700,720,800(U),810,820,Kompanio820,900T SamsungExynos990 UnisocT760,T770 Cortex-A77 MediaTekDimensity1000 QualcommSnapdragon690,750G,865(+)and870 HiSiliconKirin9000 SamsungExynos880,980 Cortex-A78 MediaTekDimensity900,920,1100,1200,Kompanio1200,1300T QualcommSnapdragon695,778G(+),780G,888(+) SamsungExynos1080,2100 Cortex-X1 GoogleTensor QualcommSnapdragon888(+) SamsungExynos2100 Cortex-A710 MediaTekDimensity9000 QualcommSnapdragon8Gen1 Cortex-X2 MediaTekDimensity9000 QualcommSnapdragon8Gen1 ARMv8-Acompatible AppleA7,A8,A8X,A9,A9X,A10,A10X,A11,A12,A12X,A12Z,A13,A14,A15,M1,M1Pro/Max AppliedMicroX-Gene CaviumThunderX,ThunderX2 HiSiliconTaiShanv110 NvidiaTegraK1(Denver),TegraX2(Denver2),TegraXavier(Carmel), QualcommKryo,Falkor SamsungMongoose vteEmbeddedARM-basedchips ARMHoldings ARMarchitecture ListofARMcores ARMCortex-A ARMCortex-R ARMCortex-M ListofARMCortex-Mdevelopmenttools EmbeddedmicrocontrollersCortex-M0 CypressPSoC4000,4100,4100M,4200,4200DS,4200L,4200M InfineonXMC1000 NordicnRF51 NXPLPC1100,LPC1200 nuvoTonNuMicro SonixSN32F700 STMicroelectronicsSTM32F0 ToshibaTX00 VoragoVA108x0 Cortex-M0+ CypressPSoC4000S,4100S,4100S+,4100PS,4700S,FM0+ HoltekHT32F52000 Microchip(Atmel)SAMC2,D0,D1,D2,DA,L2,R2,R3 NXPLPC800,LPC11E60,LPC11U60 NXP(Freescale)KinetisE,EA,L,M,V1,W0 RaspberryPiRP2040 RenesasSynergyS1 SiliconLabs(EnergyMicro)EFM32Zero,Happy STMicroelectronicsSTM32L0 Cortex-M1 AlteraFPGAsCyclone-II,Cyclone-III,Stratix-II,Stratix-III Microsemi(Actel)FPGAsFusion,IGLOO/e,ProASIC3L,ProASIC3/E XilinxFPGAsSpartan-3,Virtex-2-3-4 Cortex-M3 ActelSmartFusion,SmartFusion2 AnalogDevicesADuCM300 CypressPSoC5000,5000LP,FM3 FujitsuFM3 HoltekHT32F Microchip(Atmel)SAM3A,3N,3S,3U,3X NXPLPC1300,LPC1700,LPC1800 ONSemiconductorQ32M210 SiliconLabsPrecision32 SiliconLabs(EnergyMicro)EFM32Tiny,Gecko,Leopard,Giant STMicroelectronicsSTM32F1,F2,L1 TexasInstrumentsF28,LM3,TMS470,OMAP4 ToshibaTX03 Cortex-M4 Microchip(Atmel)SAM4L,4N,4S NXP(Freescale)KinetisK,W2 Cortex-M4F Cypress6200,FM4 InfineonXMC4000 Microchip(Atmel)SAM4C,4E,D5,E5,G5 MicrochipCEC1302 NordicnRF52 NXPLPC4000,LPC4300 NXP(Freescale)KinetisK,V3,V4 RenesasSynergyS3,S5,S7 SiliconLabs(EnergyMicro)EFM32Wonder STMicroelectronicsSTM32F3,F4,L4,L4+,WB TexasInstrumentsLM4F/TM4C,MSP432 ToshibaTX04 Cortex-M7F Microchip(Atmel)SAME7,S7,V7 NXP(Freescale)KinetisKV5x STMicroelectronicsSTM32F7,H7 Cortex-M23 Microchip(Atmel)SAML10,L11 Real-timemicrocontrollersCortex-R4F TexasInstrumentsRM4,TMS570 RenesasRZ/T1 Cortex-R5F ScaleoOLEA TexasInstrumentsRM57 XilinxZynqMP vteClassicARM-basedchips ARMHoldings ARMarchitecture ListofARMcores ARMCortex-A ARMCortex-R ARMCortex-M ListofARMCortex-Mdevelopmenttools ClassicprocessorsARM7 AtmelSAM7L,SAM7S,SAM7SE,SAM7X,SAM7XC,AT91CAP7,AT91M,AT91R CirrusLogicPS7xxx,EP7xxx MediatekMT62xx NXPLPC2100,LPC2200,LPC2300,LPC2400,LH7 STMicroelectronicsSTR7 ARM9 AspeedAST2400 AtmelSAM9G,SAM9M,SAM9N,SAM9R,SAM9X,SAM9XE,SAM926x,AT91CAP9 CirrusLogicEP9xxx Freescalei.MX1x,i.MX2x NuvotonNUC900 NXPLPC2900,LPC3000,LH7A RockchipRK27xx,RK28xx SamsungS3C24xx ST-EricssonNomadikSTn881x STMicroelectronicsSTR9 TexasInstrumentsOMAP1,AM1x,DaVinci VIAWonderMediaWM8505/8650 ZiiLABSZMS-05 ARM11 BroadcomBCM2835 CaviumCNS3xxx Freescalei.MX3x InfotmicIMAPX210/220 MindspeedComcerto1000 NvidiaTegraAPX,6xx QualcommMSM7000,SnapdragonS1 SamsungS3C64xx,S5P64xx ST-EricssonNomadikSTn882x TelechipsTCC8902 TexasInstrumentsOMAP2 VIAWonderMediaWM87x0 ARMv2acompatible Amber(openFPGAcore) ARMv4compatible FaradayFA526,FA626 DEC/IntelStrongARM ARMv5TEcompatible Intel/MarvellXScale MarvellSheeva,Feroceon,Jolteon,Mohawk FaradayFA606TE,FA616TE,FA626TE,FA726TE vteSingle-boardcomputerandsingle-boardmicrocontrollerDevices Arduino ArndaleBoard AsusTinkerBoard BananaPi BeagleBoard CottonCandy CHIP Cubieboard Edison Galileo Gumstix Hawkboard IGEPv2 NvidiaDrive NvidiaJetson ODROID OLinuXino PandaBoard Pine64 Parallella Rascal RaspberryPi Snowball UDOO SoCsARM Actions Allwinner Ax AppleM1 Exynos i.MX HiSiliconK3V3 MediaTek Nomadik NovaThor OMAP Rockchip QualcommSnapdragon Tegra WonderMedia MIPS Jz x86/x86-64 Atom Jaguar-based Puma-based Quark Software ApacheHadoop Linaro Retrievedfrom"https://en.wikipedia.org/w/index.php?title=Qualcomm_Snapdragon&oldid=1055804559" 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