Practical 1Introduction to lab hardwaresoftware.docx
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Practical 1Introduction to lab hardwaresoftware.docx
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Practical1Introductiontolabhardwaresoftware
Practical1:
IntroductiontoLabHardwareandSoftware
Introduction
ThisPracticalconsistsofanintroductiontocreatingsimplecircuitsonanFPGAusingVHDLandXilinxISE.FirstlyyouwillcreateanewprojectusingthewizardofXilinxISE.ThisPracticalconsistsofseveralstepsbrokendownoverthisdocument.
InthisPracticalexercise,wewillfirstlearnhowtocreateasimpleVHDLprojectofa2-to-1multiplexer(MUX)usingXilinxISE.Afterthedesignisfullyverified,wewilluseXilinxISEtosynthesizethedesignintoaSpartan3FPGAconfigurationdatafilewhichwillthenbedownloadedontoaSpartan3printedcircuitboard(PCB)wheretheimplementeddesignwillbeverified.YouwillsecondlylearnhowtodesignandimplementafewbasiclogicfunctionssoastobefamiliarwiththeXilinxISEdesigntoolandbasicVHDL.
Task1:
2-to-1multiplexer
The2-to-1multiplexerhasthreeinputs(twodatainputsandoneselectinput)andonedataoutputasbelow:
∙DataInputs:
Din0,Din1
∙SelectInput:
Sel
∙DataOutput:
Dout
ItsLogicFunctionis:
whenSel=0,Dout=Din0;whenSel=1,Dout=Din1.ItsBooleanLogicEquationis:
Dout=Din0*Sel+Din1*/Sel.Followthenextstepstocreate,designandimplementtheabove2-to-1multiplexer.
DesignSteps
Step1:
CreateanewprojectusingISE:
Clickthestartmenu,andtypeinProject.Thenlookfor"64-bitProjectNavigator"andclickonit.YoumayuseotherwayslaunchXilinxISE.
AfterISEislaunched,wewillcreateanewprojectinFile->NewProject…
Createanewprojectunderthedirectory“C:
\Tem"oranotherdirectoryofyourchoice,andgivetheprojectadescriptivenamesuchas\Lab0VHDL".Westronglyreckonyousaveallyourprojects.Alsosetthe“Top-levelsourcetype:
"to“HDL".Click“Next".
TheSpartan3StarterKitPCBboardusesaXilinxSpartan3XC3S200FPGAchipwhichispackagedinaflatthin256-pin(FT256)BallGridArray,somakethefollowingchanges.Click“Next"whenyouaredone.
Thenextpagedisplaysasummaryofthenewproject.Click“Finish"whenyou'redonetoexit.
Step2:
CreatecircuitusingVHDLfile
ClickonProject->NewSource...
SelectVHDLmoduleandgivethefileanameandclick“Next”.
Addtheportnamesanddirectionsasshown.
Click“Finish"toexitthewizard.
Addthefollowinglineofcode:
Dout<=(Din0andnotSel)or(Din1andSel);
SavethefileandproceedtoSynthesize.
Selectthefiletobesynthesizedanddouble-clickon“Synthesize".Youcanalsoright-clickon“Synthesize"andselectRun.
Step3:
InputandOutputPinPlanning
Weneedaconstraintsfiletoensurethatinputsandoutputsgotothedesiredpins.
SelectProject->NewSource...
Click"ImplementationConstraintsFile"intheleftframeandtypeinthenamefortheconstraintsfile,forexample"mux21".Thenclick"Next"and"Finish".
Doubleclickonthe"I/OPinPlanning(PlanAhead)-Post-Synthesis"under"UnderConstraints"tolaunchPlanAhead.
Step4:
ImplementDesign
Doubleclickon“ImplementDesign”touseyourconstraint
Double-clickon“GenerateProgrammingFile"togenerateFPGAconfigurationdatafilesuchas“21MUX.bit”.
Step5:
ProgramFPGA
Connectthe5VDCpowercabletothepowerinputonthedemoboard(J4).
ConnectthedownloadJTAG-USBcablebetweenthePCparallelportandthedemoboard(J7).Carefullynotethepositionofthelabelonthecable.
Start“Adept”Software,whichcandownloadthebitfileontotheFPGAthroughJTAG-USBcable.
YoucaneitherchoosetoprogramFPGAforPROM.
VerifyyourimplementationandshowyourresulttotheTutorformarkingwhenyouareready.
Task2:
Implementthenextbasiclogicfunctionsfollowingthesamestepsabove.Youneedtodefineindependentprojectforeachofthefunctionsbelow:
∙ANDGate
∙ORGate
∙NANDGate
∙Exclusive-NORGate
Task3:
Implementthenext74XX30chip:
Task4:
UsetheK-MAPtosimplifytheBooleanfunctioninproductofsums,andimplementthesimplifiedlogic,andverifyitbycomparingwiththeTruthTable.
F(A,B,C,D)=
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