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TimingAnalysis&
SignalSimulation
onPCSystemsByPierreLeeatARIMA4/16/2002HoldCommonClockDataTransferD0D1D2D0D1D2ClockDriverDrivingReceivingTcoFlightTimeSetup1234DefiningTcoDinClockOutput
BufferInternal
LogicRL=50WClockrisest=0VmeasTcoLoadforTcomeasurement(fromdatabook)Tco=timefromclockrisetoVmeasintotestloadComponentsofTcoDinClockOutput
BufferInternal
LogicRL=50WClockrisest=0VmeasTcoInternaldelay=fromclock
risetothepointwheretheoutputbeginstoswitchExternal(buffer)delay=how
longthebuffertakestodrivethe
referenceloadtoVmeasForSignalIntegrityPurposes...Output
BufferInternal
LogicnotmodeledRL=50WBufferswitchesatt=0VmeasBufferDelayLoadforTcomeasurement(fromdatabook)It’sallintheMath...DrivingReceivingTcoFlightTime1234???t=0ClockJitterClockDriverCycle1Cycle2ClockJitteroccurswhentheclockperiodvariesfromoneperiodtothenextUsuallycausedbyPLLinstabilityintheclockdriverJitterincreases/decreasestheclockperiod,decreasingtheeffectiveclockcycleClockSkewD0D1D2ClockDriverD0D1D2t=0t=1t=2OccurswhendifferentdevicesseetheclocktransitionatdifferenttimesIncreases/decreasestheapparentclockcycle.Dependingonwhichdevicesaredriving/receivingReducestheeffectiveclockcycleBusClockCycleBudgetingForeachDriverReceiverpath:Tflightmax<ClockPeriod-Driver(Tcomax)-Skew-Jitter-Crosstalk-Receiver(Setup)Tflightmin>Receiver(Hold)-Driver(Tcomin)+Skew+CrosstalkDriver(Tcomax)Tflightmax+/-Jitter+/-SkewReceiver(Setup)<ClockPeriodDriver(Tcomin)Tflightmin+/-Skew>Receiver(Hold)+/-Crosstalk+/-CrosstalkCommonClockBusExampleIntelPentium-ProreferencedesignProcessor/ChipsetBus
(GTL+,66MHz)IntelGTL+DesignGuidelinesDefiningDeviceTimingTimingstakenfrom“AC(dynamic)Specifications”sectionsofInteldatasheetsMostdatasheetsavailableviaWWWImportantparametersClockDataValid
forGTL+BusSetup/Holdrequirements
forGTL+signalsPLLJitter(ifspec’d)PentiumPro440FX(timingsfrom440LX)DeterminingFlightTimesTflightmax=4.50nsTflightmin=0.45nsSignalWavePropagationFlighttimet1=L/cc6.5in/nsTflightmax=4.50ns
Tflightmin=0.45ns29in>L>3inRiskOhm’slaw?i=(va-vb)/Rtracei→∞when
Rtrace→0ModeloftransmissionlineSignalWavePropagationFlighttimet1=L/cv1=VoltagePartitionforR0&z0
R0z0
v1v2v2=VoltagePartitionforR0&RL
RLImpedanceChangeLayerchangeReferenceplanecrossingTracesplittingSeriescomponentConnectorPullhigh&pulldownImpedanceChangeLayerchangeReferenceplanecrossingTracesplittingSeriescomponentConnectorPullhighSchematicsvs.LayoutVccMicrostripSectionhtwerZo=f(w,h,t,er)Zo=Characteristicimpedance(W)w =Widthoftrace(mils)t =Thicknessoftrace(mils)h=Thicknessofdielectriclayer(mils)er
=Dielectricconstantofthedielectriclayer
DesignedbyBoardDesignerOnlyfewoptionsavailableofferedbyPCBvendorImpedanceVerificationbyTDRImpedanceVerificationbyTDRImpedanceMeasuredbyHP54754AFlip-ChipPackageIBISModel
I/OBufferInformationSpec.Output
BufferInternal
LogicnotmodeledSimulationby3comLowVoltageCMOSUn-terminatedTerminatedLowVoltageCMOSUn-terminatedTerminatedClockgen.WaveformIDEWaveformCrosstalkWhentracesareclosetogether,achangeincurrentflowinonetracewillcausecurrenttoflowinanadjacenttraceAggressortracesinducecurrentsinadjacentvictimtracesChangesincurrentflowonlyoccurduringtheaggressor’srisingandfallingedgesCrosstalkNoCrosstalkImpactsofCrosstalkCrosstalkcausesswitchingnoisetoappearonvictimtracesthatwouldotherwisebequietCrosstalkdegradesthesystemnoisebudgetwhenitoccursbetweensignalsthatarenotpartofthesamesignalgroupSincecrosstalkonlyoccurswhendriversareswitching,themagnitudeofcrosstalkbetweenbusbitsisusuallynotimportantAggressorVictimCrosstalk-inducednoiseElectricalModelforCrosstalkCrosstalk-ImpactonBusTimingCrosstalkbetweenadjacentbusbitsaffectsedgespeed(andthereforeflighttime)Denserroutingmakesbetteruseofboardspace,butattheexpenseoflargervariationsinflighttimePre-layoutcrosstalkanalysishelpsthedesignermakethebesttradeoffbetweenroutingdensityandsignalintegrityEvenModeReferenceOddModeD0D1D2D0D1D2D0D1D2D0D1D2ExampleofCrosstalkRiskinmassproductionPCB’sstatisticalqualityDrivingstrengthvariationinchipsetPassivecomponent’squalityTemperaturevariationMonteCarloAnalysisAriskanalysisinsteadofanalyticalmethodUsedincomplicatesystemsortoomanyparametersSuitableformassproductionmodelsExampleofMonteCarloMonteCarloforClockSignalC
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