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計算機(jī)組成原理軟件學(xué)院毛克明了解并掌握計算機(jī)硬件的基本知識;在此基礎(chǔ)上著重講述計算機(jī)中“數(shù)”的運(yùn)算存儲計算機(jī)(CPU)的設(shè)計和工作原理以及輸入輸出系統(tǒng)。課程目的和安排主要教學(xué)目標(biāo):在軟件(包括系統(tǒng)軟件和應(yīng)用軟件)設(shè)計過程中必須要了解到的計算機(jī)系統(tǒng)的組成與結(jié)構(gòu)。通過本課程學(xué)習(xí),能夠比較全面地掌握計算機(jī)系統(tǒng)的基本概念、基本原理、基本結(jié)構(gòu)和基本分析方法,并建立起計算機(jī)系統(tǒng)的完整概念。學(xué)會計算機(jī)系統(tǒng)各個主要組成部分的基本原理,常用的性能評價方法,分析方法、計算方法等。課程目的和安排內(nèi)容安排:課堂授課32學(xué)時實(shí)驗(yàn)8學(xué)時緒論(2學(xué)時)計算機(jī)中的信息表示(4學(xué)時)組合線路的邏輯設(shè)計(2學(xué)時)時序線路的邏輯設(shè)計(2學(xué)時)算術(shù)邏輯單元(2學(xué)時)復(fù)雜算術(shù)操作(4學(xué)時)指令系統(tǒng)結(jié)構(gòu)(2學(xué)時)中央處理器(2學(xué)時)控制器(4學(xué)時)存儲器(6學(xué)時)輸入輸出(2學(xué)時)考核方式及成績評定總分100分三部分組成平時成績:20%(出勤率,作業(yè))實(shí)驗(yàn)成績:10%(共兩次實(shí)驗(yàn))期末試卷成績:70%期末考試方式:閉卷教材及參考書教材:LanJin,BoHatfield.ComputerOrganizationPrinciples,Analysis,andDesign清華大學(xué)出版社參考書:《計算機(jī)組成原理》白中英第四版《計算機(jī)組成與結(jié)構(gòu)》王愛英清華大學(xué)《計算機(jī)系統(tǒng)結(jié)構(gòu):一種定量的方法》JohnL.Hennessy,David,A.Patterson著ComputerOrganizationChapter1IntroductionChapter1Introduction1.1TheScopeofComputerArchitectureandOrganization1.2ModelingComputerOrganization1.3AHistoricalSketchofComputerEvolution1.4RepresentativeComputerFamilies1.5PerspectivesoftheComputerEvolution1.6Summary1.1TheScopeofComputerA&OMulti-layeredstructureofacomputersystemApplicationSoftwareUserinterfacesSystemSoftwareSysteminterfacesOSDataabstract:servicesusersthroughsystemlibraries;Resourceabstract:supervisehardwarethroughsystemcall;SoftwareHardwareHardwareSystemC,M,C,I,O,CommI/O
Comm.Inter.HardwareDeviceInstructionsetarchitecture;Computerorganization;ImplementationFig1.1Multi-layeredstructureofacomputersystemI,O,Comm.Exceptionhandlingmechanism1.1TheScopeofComputerA&OHardwaresystemLayerInstructionsetarchitectureInstructionsetdesignComputerorganizationfunctionunitsandtheirinterrelationshipControlunitforinstructionsetimplementationinstructionsetimplementationlogicallyImplementationDesignlogicalcircuitandfunctionbyIntegratedcircuitandotherhardwarePhysicallyimplementation1.2ModelingComputerOrganizationThelayeredstructureofcomputerdesignprocessInstructionSetArchitectureLevelInstructionsetdesignLogicalSystemDesignLevelDatapathDesignControlSequenceDesignLevelControlunitdesignDigitalLogicalDesignLevelImplementationofsystemdesignFig1.2Themulti-layeredstructureofthecomputerdesignprocess1.2ModelingComputerOrganizationTheRTLModelofComputerOrganization (Register-TransferLevel)Graphicalform:usediagramstodescribethelogicstructuresofthedatapathTextualform:useaRTLlanguagetodescribethecontrolprocess1.2ModelingComputerOrganizationRTLmodelofacentralprocessingunitControlSectionIRPCMARMBRALUMemorybusGPRTempCPUregistersControlregistersMemoryregistersexample1.2ModelingComputerOrganizationIR:InstructorRegister指令寄存器ALU:ArithmeticLogicUnit算術(shù)邏輯單元GPR:General-PurposeRegister通用寄存器Temp:存儲器PC:ProgramCounter程序計數(shù)器MAR:MemoryAddressRegister記憶體地址寄存器MBR:MemoryBufferRegister記憶體緩沖暫存器1.2ModelingComputerOrganizationControlsequenceofinstructionfetchSendtheaddressoftheinstructiontobefetchedfromtheprogramcounter(PC)tothememoryaddressregister(MAR)Asserta“readmemory”commandtothememorymoduleandwaituntiltheinstructionisavailableinthememorybufferregister(MBR)ThecontentofthePCisincrementedby1sothatitwillpointtotheaddressofthenextinstructionLoadthenewinstructionfromthememorybufferregister(MBR)totheinstructionregister(IR)Deasertthe“readmemory”commandexample1.2ModelingComputerOrganizationInstructionfetch,writteninRTLlanguage:MARPC;memory_read1PCPC
+1Waituntilready=1IRMBRmemory_read0example1.2ModelingComputerOrganizationWeassumethecontrolcyclesforaninstructionfetcharesynchronizedwiththecentralclock,sothewaitcommandintheabovesequenceisomittedMAR(PC);ReadM
;impliesReadM1
;effectiveonlyinonecycle,soReadM0isunnecessaryPC(PC)+1IRMBRexample1.2ModelingComputerOrganizationTheperformancemodelofacomputersystemMultilayeredstructure.Evaluatetheperformanceofthesystemiscomplex.performanceofhardwarefixedparameterseasytotestperformanceofprogramtestforstandardprogramhowtochoosetestedprogram1.2ModelingComputerOrganizationTheperformancemodelofacomputersystemtwoperformancemeasuresMIPSorMFLOPS(每秒百萬條指令或每秒百萬次浮點(diǎn)操作)T(CPUexecutiontime):quantifytheeffectivespeedofthecombinedhardware/softwaresystem. MIPS=f(MHz)/CPIave T(sec)=IC×CPIave/f(Hz)AssumethatweknowtheaveragenumberofcyclesperinstructionCPIavewherefistheclockfrequencyandICistheinstructioncount,i.e.,thetotalnumberofinstructionsintherunningprogram1.2ModelingComputerOrganizationCalculationoftheoriginalperformanceofacomputerSupposeacomputerwithaclockfrequencyof100MHzasfourtypesofinstructions,andthefrequencyofusageandtheCPIforeachofthemaregivenintable.FindtheMIPSofthecomputerandtheCPUtimerequiredtorunaprogramof107instructions.ex1.11.2ModelingComputerOrganizationFindtheaverageCPIave:CPIave=0.4*2+0.3*4+0.08*2.5+0.22*3 =0.8+1.2+0.2+0.66=2.86MIPS=100/2.86=35T=107*2.86/(100*106)
=0.286s
MIPS=f(MHz)/CPIaveT(sec)=IC×CPIave/f(Hz)ex1.11.2ModelingComputerOrganizationCalculationoftheupdatedperformanceofacomputerCombiningcomparingandbranchinstructionstogethersothatcompareinstructionscanbereplacedandremoved.Supposeeachcompareinstructionwasoriginallyusedwithonebranchinstruction,andnoweachbranchinstructionischangedtoacompare&branchinstruction.Alsosupposethatthenewproposalwoulddecreasetheclockfrequencyby5%,becausethenowcompare&branchinstructionneedsmoretimetoexecute.FindthenewCPIave,MIPS,andT.CPIave=(0.4*2+0.3*4+0.08*2.5+0.22*3)/0.92 =2.66/0.92=2.9MIPS=(100*95%)/2.9=32.76T=(0.92*107)
*2.9/(0.95*100*106)
=0.28sex1.21.2ModelingComputerOrganizationComparingtheresultsofEX1.1andEx1.2,weseethatthenewproposallowerstheMIPSrate,butdecreasestheexecutiontimeoftheprogram.Thenewproposalisasoftwaremeansthatimprovesthesoftwarecode,butworsensthehardware.Onlytheprogramexecutiontimereflectsthetrueperformanceofthecomputer.Theperformancemodelcanbeappliedtosuperscalar(超標(biāo)量)andpipelined(流水線)processorsaswell.Speedup(加速比)canbeusedtodescribetheirperformances.Sk=kd (kinstructionpipelines,eachwithdepthd)1.3AHistoricalSketchofComputerEvolutionThefirstGeneration:1946-1957,VacuumTubes(真空管)ThesecondGeneration:1958-1964,Transistors
(晶體管)ThethirdGeneration:1965-1971Smallscaleintegration,Upto100devicesonachipMediumscaleintegration,100-3,000devicesonachipThefourthGeneration:1972-1977Largescaleintegration(LSI),3,000-100,000devicesonachipThefifthGeneration:1978todateVerylargescaleintegration(VLSI),100,000-100,000,000devicesonachipUltralargescaleintegration,Over100,000,000devicesonachip1.3AHistoricalSketchofComputerEvolutionTheFirstGenerationENIAC(EckertandMauchly??颂?4,莫奇利36
)EDVAC(vonNeumann)IAS (PrincetonInstituteforAdvancedStudies
)UNIVAC(CommercialComputers)1.3AHistoricalSketchofComputerEvolutionTheFirstGenerationENIAC(EckertandMauchly??颂?4,莫奇利36
)VacuumTubesENIAC-photo1.3AHistoricalSketchofComputerEvolutionTheFirstGenerationENIAC:
backgroundElectronicNumericalIntegratorAndComputer(電子數(shù)字積分器和計算器)EckertandMauchly(埃克特24,莫奇利36)UniversityofPennsylvania(賓夕法尼亞大學(xué))Trajectorytablesforweapons
(計算新武器的射程及彈道表)Started1943,Finished1946ToolateforwareffortUseduntil19551.3AHistoricalSketchofComputerEvolutionTheFirstGenerationENIAC:
detailsDecimal(notbinary)20accumulators(累加器)of10digitsProgrammedmanuallybyswitches&cables18,000vacuumtubes30tons15,000squarefeet140kWpowerconsumption5,000additionspersecond1.3AHistoricalSketchofComputerEvolutionTheFirstGenerationEDVACElectronicDiscreteVariableComputer(電子離散變量計算機(jī))1945vonNeumannTuring1.3AHistoricalSketchofComputerEvolutionTheFirstGenerationvonNeumann/Turing
StoredProgramconcept(1945)Programcouldberepresentedinaformsuitableforstoringinmemory,andaprogramcouldbesetoralteredbysettingthevaluesofaportionofmemory1.3AHistoricalSketchofComputerEvolutionTheFirstGenerationStructureofvonNuemannmachineMainMemoryArithmeticandLogicUnitProgramControlUnitInputOutputEquipment1.3AHistoricalSketchofComputerEvolutionTheFirstGenerationIASComputer
:
(1946)PrincetonInstituteforAdvancedStudies(普林斯頓高級研究院)Completed1952Prototypeofallsubsequentgeneral-purposecomputers(后來通用計算機(jī)的原型)1.3AHistoricalSketchofComputerEvolutionTheFirstGenerationIAS:details1000x40bitwords(memory)(1000個存儲單元)Binarynumber(數(shù)據(jù)和指令都以2進(jìn)制存儲)2x20bitinstructions(一個字包含2個指令)NumberWord1+39InstructionWordOpcode8Address12Opcode操作碼Address符號數(shù)值1.3AHistoricalSketchofComputerEvolutionTheFirstGenerationIAS:detailsSetofregisters(storageinCPU)MemoryBufferRegister(MBR)
存儲緩沖寄存器MemoryAddressRegister(MAR)
存儲地址寄存器InstructionRegister(IR)
指令寄存器InstructionBufferRegister(IBR)
指令緩沖寄存器ProgramCounter(PC)
程序計數(shù)器Accumulator(AC)
累加器MultiplierQuotient(MQ)
乘商寄存器StructureofIAS–
detailALUACControlunitdecoderIRPCARCLAInstructionflow1CPUcycle1234DR562CPUcycle789ALUACControlunitdecoderIRPCARDRADDInstructionflow2CPUCycle1234453CPUcycleALUACcontroldecoderIRPCARDRSTAinstructionflow2CPUcycle231453CPUcycleALUACcontroldecoderIRPCARDRNOP指令流程第1個CPU周期第2個CPU周期JMPInstructionflow1CPUcycle2CPUcycle1.3AHistoricalSketchofComputerEvolutionTheFirstGenerationTuringMachine1.3AHistoricalSketchofComputerEvolutionCommercialComputers
:
Eckert-Mauchly
1947-ComputerCorporationUNIVACI(UniversalAutomaticComputer)(通用自動化計算機(jī))USBureauofCensus1950calculations(美國統(tǒng)計局委托制造用于1950年的計算)BecamepartofSperry-RandCorporationLate1950s-UNIVACIIFasterMorememory1.3AHistoricalSketchofComputerEvolutionCommercialComputers
:IBMPunched-cardprocessingequipment1953-the701IBM’sfirststoredprogramcomputerScientificcalculations1955-the702BusinessapplicationsLeadto700/7000series1.3AHistoricalSketchofComputerEvolutionTheSecondGenerationTransistors(晶體管)1.3AHistoricalSketchofComputerEvolutionTheSecondGenerationReplacedvacuumtubesSmallerCheaperLessheatdissipationSolidStatedevice(固態(tài)器件)MadefromSilicon(Sand)(由硅片制成)Invented1947atBellLabsWilliamShockleyetal.1.3AHistoricalSketchofComputerEvolutionTheSecondGenerationSecondgenerationmachinesNCR&RCAproducedsmalltransistormachinesIBM7000DEC-1957ProducedPDP-11.3AHistoricalSketchofComputerEvolutionTheSecondGenerationSecondgenerationmachines1.3AHistoricalSketchofComputerEvolutionTheThirdGeneration
Microelectronics
(微電子學(xué))Literally-“smallelectronics”Acomputerismadeupofgates,memorycellsandinterconnectionsThesecanbemanufacturedonasemiconductor(半導(dǎo)體)e.g.siliconwafer(硅晶片)1.3AHistoricalSketchofComputerEvolutionMoore’sLaw
(1965)IncreaseddensityofcomponentsonchipGordonMoore-cofounderofIntelNumberoftransistorsonachipwilldoubleeveryyear(芯片上的晶體管數(shù)量每年翻一翻)1.3AHistoricalSketchofComputerEvolutionMoore’sLaw
(1965)
GrowthinCPUTransistorCount
1.3AHistoricalSketchofComputerEvolutionMoore’sLaw
(1965)Since1970’sdevelopmenthasslowedalittleNumberoftransistorsdoublesevery18monthsCostofachiphasremainedalmostunchangedHigherpackingdensitymeansshorterelectricalpaths,givinghigherperformanceSmallersizegivesincreasedflexibilityReducedpowerandcoolingrequirementsFewerinterconnectionsincreasesreliability1.3AHistoricalSketchofComputerEvolutionIBM360series1964Replaced(¬compatiblewith)7000seriesFirstplanned“family”ofcomputersSimilaroridenticalinstructionsetsSimilaroridenticalO/SIncreasingspeedIncreasingnumberofI/Oports(i.e.moreterminals)IncreasedmemorysizeIncreasedcostMultiplexedswitchstructure1.3AHistoricalSketchofComputerEvolutionDECPDP-8
1964Firstminicomputer(afterminiskirt!)DidnotneedairconditionedroomSmallenoughtositonalabbenchEmbeddedapplications&OEMBUSSTRUCTURE1.3AHistoricalSketchofComputerEvolutionDECPDP-8
:BusStructureOMNIBUSConsoleControllerCPUMainMemoryI/OModuleI/OModule1.3AHistoricalSketchofComputerEvolutionSemiconductorMemory1970Fairchild(仙童)Sizeofasinglecorei.e.1bitofmagneticcorestorageHolds256bitsNon-destructivereadMuchfasterthancoreCapacityapproximatelydoubleseachyear1.3AHistoricalSketchofComputerEvolutionMicroprocessors
(微處理器):40041971FirstmicroprocessorAllCPUcomponentsonasinglechip4bit1.3AHistoricalSketchofComputerEvolutionMicroprocessors
(微處理器):4004Firstmicroprocessorin1971:Intel4004108kHz,0.06MIPS2300transistors
(10microns)Buswidth:4bitsMemory:640bytes1.3Evolution(計算機(jī)發(fā)展)
TheFourthGenerationTheFourthGeneration
Followedin1972by80088bitBothdesignedforspecificapplications1974-8080Intel’sfirstgeneralpurposemicroprocessor1.3Evolution(計算機(jī)發(fā)展)
TheFourthGenerationMicrocomputer:
AppleII1977
SteveJobs,SteveWozniak1.3Evolution(計算機(jī)發(fā)展)
TheFourthGenerationMicrocomputer:IBMPC1981
Intel8088,4.77MHz1.3Evolution(計算機(jī)發(fā)展)
TheFourthGenerationMicrocomputer:IBMPCOthers1.3Evolution(計算機(jī)發(fā)展)
TheFourthGenerationSpeedingitupPipelining
(流水線)OnboardcacheOnboardL1&L2cacheBranchpredictionDataflowanalysisSpeculativeexecution(預(yù)測執(zhí)行)1.4RepresentativeComputerFamiliesPentiumSPARCPowerPC1.4RepresentativeComputerFamiliesPentium4004(1971,4bits,0.108MHz,2300transistorsonachip,640Bmemory)8008(1972,8bits,0.108MHz,3500transistorsonachip,16KBmemory)8080(1974,8bits,2MHz,6000transistorsonachip,64KBmemory)8086(1978,16bits,5~10MHz,29000transistorsonachip,1MBmemory)8088(1979,aslowerandcheaperversionof8086,withsameparameters)80286(1982,16bits,8~12MHz,134000transistorsonachip,16MBmemory)80386(1985,32bits,16~33MHz,275000transistorsonachip,4GBmemory)80486(1989,32bit,25~100MHz,1.2Mtransistors)1.4RepresentativeComputerFamiliesPentiumPentium(1993,32bitsdatapath,64-bitbus,60~233MHz,3.1Mtransistors,2-issuesuperscalarofpipelinedepth=5)Pentiumpro(1995,64bitsdatapath,64-bitbus,150~200MHz,5.5Mtransistors,2-issuesuperscalarofpipelinedepth=12)PentiumⅡ
(1997,32bits,230~400MHz,7.5Mtransistors,PentiumⅡplusMMXinstructions)PentiumⅢ
(1999,64bit1-Gbpssystembus,500~1000MHz,95Mtransistors,SSEinstructions,superscalarprocessorpipelinedepth=10)PentiumⅣ
(2000,64bit32-Gbpssystembus,1.3~1.8GHz,42Mtransistors,MMXandSSEinstructions,superscalarpipelinedepth>=20)ItaniumⅣ(IA-64architecture,6-wide10-stagedeeppipeline)安騰1.4RepresentativeComputerFamiliesSPARCFamilyOriginatedfromSunMicrosystemsCorporationin1987.(工作站)Designedtobemorepowerfulthanordinarypersonalcomputers.Aimingathigh-endapplicationsSUN-1,SUN-2,SUN-31987ScalableProcessorARChitecure(可伸縮體系結(jié)構(gòu))32-bits,36MHzRISCmachine1995UltraSPARC,64-bitsmachinewith23newinstructionscalledtheVIS(可視信號系統(tǒng)).1.4RepresentativeComputerFamiliesUltraSPARCUltraSPARC-Ⅰ:0.5umCMOS,167MHzUltraSPARC-Ⅱ:0.25um,250~480MHz,apipelineof9stages.UltraSPARC-Ⅲ:0.18um,750~900MHz,apipelineof14stages,4integerexecutionunitsandthreefloating-pointunits,offeringsuper-scalarperformance(超標(biāo)量性能).1.4RepresentativeComputerFamiliesPowerPCFamily1990’s,manufacturedbyIBM,MotorolaandAppleFirstusedinIBMRISCSystemRS/6000PowerPC601:1993,32-bitprocessor,50~100MHz,2.8Mtransistors,3independentexecutionunits(integer,floating-point,andbranchprocessing),for3-issuesuperscalaroperationwithpipelinedepthsequalto4forintegerinstructionsand6forfloating-pointinstruction.PowerPC603:1994,32-bitprocessor,100~300MHz,1.6~2.6Mtransistors,5independentexecutionunits,lowpowerdesign.PowerPC604:1994,32-bitprocessor,166~350MHz,3.6M~5.1Mtransistors,6independentexecutionunits,3integerunits,afloating-pointunit,amemoryload/storeunit,andabranchprocessingunit-for4-issuesuperscalaroperation1.4RepresentativeComputerFamiliesPowerPCFamilyPowerPC620:64-bitprocessor,superscalararchitecturelikethePowerPC604,outoforderexecutionofinstructionsanddynamicbranchprediction,targetedforhigh-endsystems.MPC740/750(G3):1997,64-bitprocessor,200~366MHz,6.35Mtransistors,integrating2*32KBlevel-1cacheand256KB~1MBlevel-2cacheinthemainprocessorchip.MPC7450(G4):1999,64-bitprocessor,733MHz,11executionunits-aload/storeunit,abranchunit,4integerunits,afloating-pointunit,and4vectoredoperationunits-for4-issuesuperscalaroperatingwithpipelinedepthequalto7.1.5PerspectivesoftheComputerEvolut
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