DIRECTORY Core, CoreClasses, CoreCreate, CoreFlat, CoreOps, Ports, Rosemary, RosemaryUser, Rope, SCLogic, SCParms; SCArrayImpl: CEDAR PROGRAM IMPORTS CoreClasses, CoreCreate, CoreFlat, CoreOps, Ports, Rosemary, Rope, SCParms EXPORTS SCLogic ~ BEGIN OPEN SCLogic; ClockEvalEnabled: BOOL = TRUE; MySCName: ROPE = Rosemary.Register[roseClassName: "SCArray", init: Init, evalSimple: Simple, scheduleIfClockEval: ClockEvalEnabled]; NumMemLines: NAT = 2*SCParms.numMemLines; NumIOLines: NAT = 2*3; NumBytesPerWord: NAT = SCParms.numBytesPerWord; NumBitsPerByte: NAT = SCParms.numBitsPerByte; NumBitsPerWord: NAT = SCParms.numBitsPerWord; NumWordsPerLine: NAT = SCParms.numWordsPerLine; NumBitsPerLine: NAT = SCParms.numBitsPerLine; LogNumWordsPerLine: NAT = SCParms.logNumWordsPerLine; NumAddressBits: NAT = NumBitsPerWord+1; --Includes IO/Mem Bit-- NumPageBits: NAT = SCParms.numPageBits+1; --Includes IO/Mem Bit-- NumBlockBits: NAT = SCParms.numBlockBits; NumPageAndBlockBits: NAT = NumPageBits+NumBlockBits; NumDevIdBits: NAT = SCParms.numDevIdBits; IOVCamLine: ARRAY [0..NumIOLines) OF Rope.ROPE = [ Rope.Cat[SCParms.vPagePattern, SCParms.vBlock0Pattern], Rope.Cat[SCParms.vPagePattern, SCParms.vBlock1Pattern], Rope.Cat[SCParms.vPagePattern, SCParms.vBlock2Pattern], Rope.Cat[SCParms.vPagePattern, SCParms.vBlock3Pattern], Rope.Cat[SCParms.vPagePattern, SCParms.vBlock4Pattern], Rope.Cat[SCParms.vPagePattern, SCParms.vBlock5Pattern]]; IORCamLine: ARRAY[0..NumIOLines) OF Rope.ROPE = [ Rope.Cat[SCParms.rPagePattern, SCParms.rBlock0Pattern], Rope.Cat[SCParms.rPagePattern, SCParms.rBlock1Pattern], Rope.Cat[SCParms.rPagePattern, SCParms.rBlock2Pattern], Rope.Cat[SCParms.rPagePattern, SCParms.rBlock3Pattern], Rope.Cat[SCParms.rPagePattern, SCParms.rBlock4Pattern], Rope.Cat[SCParms.rPagePattern, SCParms.rBlock5Pattern]]; IOFlagsLine: ARRAY[0..NumIOLines) OF Rope.ROPE = ["111", "001", "001", "001", "001", "001"]; Match: TYPE = REF MatchRec; MatchRec: TYPE = RECORD [ ARRAY Index OF LevelSequence ]; IOMatch: TYPE = REF IOMatchRec; IOMatchRec: TYPE = RECORD [ ARRAY Index[LRM..GND] OF LevelSequence ]; Array: TYPE = REF ArrayRec; ArrayRec: TYPE = RECORD [ SEQUENCE size: NAT OF LevelSequence ]; Flags: TYPE = REF FlagsRec; FlagsRec: TYPE = RECORD [ SEQUENCE size: NAT OF ARRAY [0..2] OF Level ]; KindOfMatch: TYPE = {Virtual, Real}; Index: TYPE = {Victim, RamSel, LRM, LVM, RML2, RML3, RML4, GND}; CacheState: TYPE = REF CacheStateRec; CacheStateRec: TYPE = RECORD [ prevClk: Level, match: Match _ NIL, -- contains mem array ctl bits (see def) iomatch: ARRAY Index[LRM..GND] OF ARRAY [0..NumIOLines) OF Level, csMuxSR: ARRAY [0..1] OF Level, -- two flops in CSMuxInterface rsCmdLatch : ARRAY[0..1] OF Level, -- latch in RSMuxInterface csOut, rsOut, iorsOut: Index, -- to implement csmux, rsmux, iorsmux bCycle: ARRAY [3..5] OF Level, -- delay stages in RML234 lduse: Level, -- ldUse in VictimInterface victimIndex: INT, -- line pointed to by victim use: LevelSequence _ NIL, -- use bits in array soSR: ARRAY [0..1] OF Level, -- delay stages in SOInterface sh, ow: LevelSequence _ NIL, -- sh ow bits in array shBit, owBit: Level, -- sh and ow bits in SORdLatch pWtInProgB: Level, -- output of SOInterface ldSORdLatch: Level, -- input to SOInterface ramWtSR, ramRdSR: ARRAY [0..1] OF Level, -- 2 flops each in RamInterfaceCtl ramrd, ramwt: Level, -- 2 flops to generate ramClock ramRdLatch: LevelSequence _ NIL, -- ramRdLatch in RamInterface ram: Array _ NIL, -- ram bits ioRam: RECORD [cWSOld, cWSNew, aID, faultCode, intStatus, intMask, modes, lFCode1, lFCode3, lFCode5, lFCode7: LevelSequence _ NIL], -- ioram bits pRamClock, ramClock: Level, -- previous and current ramClocks wdAdrs: LevelSequence _ NIL, -- input to RamInterfaceCtl byteSel: LevelSequence _ NIL, -- input to RamInterfaceCtl wdSel: Level, -- input to RamInterfaceCtl vCamCSCmd1, rCamCSCmd1: Level, -- latches in RCam and VCam Interfaces rCam, vCam: Array _ NIL, -- rcam and vcam bits arm, avm: Level, -- values of arm and avm ioRCam, ioVCam: ARRAY [0..NumIOLines) OF LevelSequence, -- iorcam and iovcam bits flags: Flags _ NIL, -- flags array ioFlags: ARRAY [0..NumIOLines) OF ARRAY [0..2] OF Level, -- ioflags array rCamRdLatch, rCamWtReg, vCamRdLatch, vCamWtReg: LevelSequence, flagsRdLatch, flagsWtReg: ARRAY [0..2] OF Level, vCamPartMch, rCamPartMch: Level, -- flops to delay PartMch vCamRdSR, vCamWtSR, rCamRdSR, rCamWtSR: ARRAY [0..2] OF Level, -- flops in CamInterfaceCtl; odd indeces correspond to flops clocked by nClock, even to those clocked by Clock vCamSel: Index, -- source of input for vcam select line aVct: Level, -- arrayVictim deMapRply1: Level, -- flop in VCamInterface resetDone: BOOLEAN, -- used to suppress error due to X's before Reset has been done tmpRAdrsIn, tmpVAdrsInOut: LevelSequence _ NIL, tmpFlagsIn: ARRAY [0..2] OF Level, tmpxEnCamSel, tmpBCycle2, tmpxWtRam, tmpxRdRam, tmpxWtMchVCam, tmpxRdVCam, tmpxRdRCam, tmpVPValidIn, tmpRPValidIn, tmpxPartRMch, tmpPCtlPartVMch, tmpPWtInProg, tmpxDrRCamBL, tmpDeMapRply1, tmpxLdRCamWR: Level ]; Reset, PCtlDrABusVB, PCtlDrABusVP, PCtlPartVMch, xRdVCam, xWtMchVCam, DeMapRply1, VAdrsInOut, VPValidIn, PCtlDrABusRB, PCtlDrABusRP, xRdRCam, xPartRMch, xDrRCamBL, xLdRCamWR, xEnCamSelExt, BCycle2, RAdrsIn, RPValidIn, FlagsIn, nPMFlags, xEnCamSel, PCtlShftVictim4, PCtlFrzVictim, xCSCmd, nEnRS, xRSCmd, PWtInProg, BCtlSetOw, BCtlClrOw, SetSh, ClrSh, xRdRam, xWtRam, xSelWdData, xByteSel, xWdAdrs,WdWtData, BlkWtData, RAdrsOut, FlagsOut, BlkRdData, WdRdData, SetReschedule, ASh, AOw, ARM, AVM, Clock, nClock: NAT; SCArray: PUBLIC PROC [] RETURNS [ct: CellType] = BEGIN public: Wire _ CoreCreate.WireList[LIST[ "Reset", "PCtlDrABusVB", "PCtlDrABusVP", "PCtlPartVMch", "xRdVCam", "xWtMchVCam", "DeMapRply1", CoreCreate.Seq["VAdrsInOut", NumAddressBits], "VPValidIn", "PCtlDrABusRB", "PCtlDrABusRP", "xRdRCam", "xPartRMch", "xDrRCamBL", "xLdRCamWR", "xEnCamSelExt", "BCycle2", CoreCreate.Seq["RAdrsIn", NumAddressBits], "RPValidIn", CoreCreate.Seq["FlagsIn",3], CoreCreate.Seq["nPMFlags", 3], "xEnCamSel", "PCtlShftVictim4", "PCtlFrzVictim", CoreCreate.Seq["xCSCmd", 2], "nEnRS", CoreCreate.Seq["xRSCmd",2], "PWtInProg", "BCtlSetOw", "BCtlClrOw", "SetSh", "ClrSh", "xRdRam", "xWtRam", "xSelWdData", CoreCreate.Seq["xByteSel", NumBytesPerWord], CoreCreate.Seq["xWdAdrs", LogNumWordsPerLine], CoreCreate.Seq["WdWtData", NumBitsPerWord], CoreCreate.Seq["BlkWtData", NumBitsPerLine], CoreCreate.Seq["RAdrsOut", NumAddressBits], CoreCreate.Seq["FlagsOut", 3], CoreCreate.Seq["BlkRdData", NumBitsPerLine], CoreCreate.Seq["WdRdData", NumBitsPerWord], "SetReschedule", "ASh", "AOw", "ARM", "AVM", "Clock", "nClock"]]; ct _ CoreClasses.CreateUnspecified[public: public]; [] _ Rosemary.BindCellType[cellType: ct, roseClassName: MySCName]; [] _ CoreFlat.CellTypeCutLabels[ct, "Logic"]; [] _ Ports.InitPort[public[CoreOps.GetWireIndex[public, "VAdrsInOut"]], ls, separate, none, NEW [Ports.DriveSequenceRec[NumAddressBits]]]; Ports.InitPorts[ct, ls, none, "RAdrsIn"]; [] _ Ports.InitPort[public[CoreOps.GetWireIndex[public, "RAdrsOut"]], ls, separate, none, NEW [Ports.DriveSequenceRec[NumAddressBits]]]; Ports.InitPorts[ct, ls, none, "FlagsIn"]; Ports.InitPorts[ct, ls, none, "nPMFlags"]; Ports.InitPorts[ct, ls, none, "xCSCmd"]; Ports.InitPorts[ct, ls, none, "xRSCmd"]; Ports.InitPorts[ct, ls, none, "xByteSel"]; Ports.InitPorts[ct, ls, none, "xWdAdrs"]; Ports.InitPorts[ct, ls, none, "WdWtData"]; Ports.InitPorts[ct, ls, none, "BlkWtData"]; [] _ Ports.InitPort[public[CoreOps.GetWireIndex[public, "FlagsOut"]], ls, separate, none, NEW [Ports.DriveSequenceRec[3]]]; Ports.InitPorts[ct, ls, drive, "BlkRdData"]; Ports.InitPorts[ct, ls, drive, "WdRdData"]; Ports.InitPorts[ct, l, none, "Reset", "PCtlDrABusVB", "PCtlDrABusVP", "PCtlPartVMch", "xRdVCam", "xWtMchVCam", "DeMapRply1"]; Ports.InitPorts[ct, l, none, "Clock", "nClock", "VPValidIn", "PCtlDrABusRB", "PCtlDrABusRP", "xRdRCam", "xPartRMch", "xDrRCamBL", "xLdRCamWR", "xEnCamSelExt", "BCycle2"]; Ports.InitPorts[ct, l, none, "xEnCamSel", "PCtlShftVictim4", "PCtlFrzVictim", "nEnRS"]; Ports.InitPorts[ct, l, none, "PWtInProg", "BCtlSetOw", "BCtlClrOw", "SetSh", "ClrSh", "xRdRam", "xWtRam", "xSelWdData", "RPValidIn"]; Ports.InitPorts[ct, l, drive, "SetReschedule", "ASh", "AOw", "ARM", "AVM"] END; Init: Rosemary.InitProc = BEGIN i, j: INT; k: Index; cs: CacheState; IF oldStateAny=NIL THEN { cs _ NEW [CacheStateRec]; cs.match _ NEW[MatchRec]; FOR k: Index IN Index DO cs.match[k] _ NEW [LevelSequenceRec[NumMemLines]] ENDLOOP; cs.use _ NEW [LevelSequenceRec[NumMemLines]]; cs.sh _ NEW [LevelSequenceRec[NumMemLines]]; cs.ow _ NEW [LevelSequenceRec[NumMemLines]]; cs.ramRdLatch _ NEW [LevelSequenceRec[NumBitsPerLine]]; cs.ram _ NEW [ArrayRec[NumMemLines]]; FOR i: NAT IN [0..NumMemLines) DO cs.ram[i] _ NEW [LevelSequenceRec[NumBitsPerLine]]; ENDLOOP; cs.ioRam.cWSOld _ NEW [LevelSequenceRec[NumBitsPerWord]]; cs.ioRam.cWSNew _ NEW [LevelSequenceRec[NumBitsPerWord]]; cs.ioRam.aID _ NEW [LevelSequenceRec[NumBitsPerWord]]; cs.ioRam.faultCode _ NEW [LevelSequenceRec[NumBitsPerWord]]; cs.ioRam.intStatus _ NEW [LevelSequenceRec[NumBitsPerWord]]; cs.ioRam.intMask _ NEW [LevelSequenceRec[NumBitsPerWord]]; cs.ioRam.modes _ NEW [LevelSequenceRec[NumBitsPerWord]]; cs.ioRam.lFCode1 _ NEW [LevelSequenceRec[NumBitsPerWord]]; cs.ioRam.lFCode3 _ NEW [LevelSequenceRec[NumBitsPerWord]]; cs.ioRam.lFCode5 _ NEW [LevelSequenceRec[NumBitsPerWord]]; cs.ioRam.lFCode7 _ NEW [LevelSequenceRec[NumBitsPerWord]]; cs.wdAdrs _ NEW [LevelSequenceRec[LogNumWordsPerLine]]; cs.byteSel _ NEW [LevelSequenceRec[NumBytesPerWord]]; cs.rCam _ NEW [ArrayRec[NumMemLines]]; FOR i: NAT IN [0..NumMemLines) DO cs.rCam[i] _ NEW [LevelSequenceRec[NumAddressBits]]; ENDLOOP; cs.vCam _ NEW [ArrayRec[NumMemLines]]; FOR i: NAT IN [0..NumMemLines) DO cs.vCam[i] _ NEW [LevelSequenceRec[NumAddressBits]]; ENDLOOP; cs.arm _ X; cs.avm _ X; FOR i: NAT IN [0..NumIOLines) DO cs.ioRCam[i] _ NEW [LevelSequenceRec[NumAddressBits]]; ENDLOOP; FOR i: NAT IN [0..NumIOLines) DO cs.ioVCam[i] _ NEW [LevelSequenceRec[NumAddressBits]]; ENDLOOP; cs.flags _ NEW [FlagsRec[NumMemLines]]; cs.rCamRdLatch _ NEW [LevelSequenceRec[NumAddressBits]]; cs.rCamWtReg _ NEW [LevelSequenceRec[NumAddressBits]]; cs.vCamRdLatch _ NEW [LevelSequenceRec[NumAddressBits]]; cs.vCamWtReg _ NEW [LevelSequenceRec[NumAddressBits]]; cs.tmpRAdrsIn _ NEW [LevelSequenceRec[NumAddressBits]]; cs.tmpVAdrsInOut _ NEW [LevelSequenceRec[NumAddressBits]]; } ELSE cs _ NARROW[oldStateAny, CacheState]; cs.prevClk _ X; cs.lduse _ X; cs.vCamCSCmd1 _ X; cs.rCamCSCmd1 _ X; cs.aVct _ X; cs.vCamPartMch _ X; cs.rCamPartMch _ X; cs.wdSel _ X; cs.pRamClock _ X; cs.ramClock _ X; cs.ramrd _ X; cs.ramwt _ X; cs.pWtInProgB _ X; cs.ldSORdLatch _ X; cs.deMapRply1 _ X; FOR i IN [0..NumAddressBits) DO cs.vCamRdLatch[i] _ X; cs.vCamWtReg[i] _ X; cs.rCamRdLatch[i] _ X; cs.rCamWtReg[i] _ X; ENDLOOP; FOR i IN [0..2] DO cs.flagsRdLatch[i] _ X; cs.flagsWtReg[i] _ X; ENDLOOP; FOR i IN [0..NumBitsPerLine) DO cs.ramRdLatch[i] _ X; ENDLOOP; FOR i IN [0..NumMemLines) DO cs.vCam[i][0] _ L; cs.vCam[i][NumAddressBits-1] _ X; cs.rCam[i][0] _ L; cs.rCam[i][NumAddressBits-1] _ X; FOR j IN [NumPageAndBlockBits..NumPageAndBlockBits+LogNumWordsPerLine-2] DO cs.vCam[i][j] _ L; cs.rCam[i][j] _ L; ENDLOOP; FOR j IN [1..NumPageAndBlockBits) DO cs.vCam[i][j] _ X; cs.rCam[i][j] _ X; ENDLOOP; FOR j IN [0..2] DO cs.flags[i][j] _ X; ENDLOOP; FOR j IN [0..NumBitsPerLine) DO cs.ram[i][j] _ X; ENDLOOP; cs.use[i] _ X; cs.sh[i] _ X; cs.ow[i] _ X; FOR k IN [Victim..RML4] DO cs.match[k][i] _ X; ENDLOOP; cs.match[GND][i] _ L; ENDLOOP; cs.shBit _ X; cs.owBit _ X; FOR i IN [0..1] DO cs.csMuxSR[i] _ X; cs.rsCmdLatch[i] _ X; cs.ramWtSR[i] _ X; cs.ramRdSR[i] _ X; cs.soSR[i] _ X; ENDLOOP; FOR i IN [3..5] DO cs.bCycle[i] _ X; ENDLOOP; FOR i IN [0..NumBytesPerWord) DO cs.byteSel[i] _ X; ENDLOOP; FOR i IN [0..LogNumWordsPerLine) DO cs.wdAdrs[i] _ X; ENDLOOP; FOR i IN [0..2] DO cs.vCamRdSR[i] _ X; cs.vCamWtSR[i] _ X; cs.rCamRdSR[i] _ X; cs.rCamWtSR[i] _ X; ENDLOOP; cs.tmpxEnCamSel _ X; FOR i IN [0..NumAddressBits) DO cs.tmpRAdrsIn[i] _ X; cs.tmpVAdrsInOut[i] _ X; ENDLOOP; FOR i IN [0..2] DO cs.tmpFlagsIn[i] _ X; ENDLOOP; cs.tmpBCycle2 _ X; cs.tmpxWtRam _ X; cs.tmpxRdRam _ X; cs.tmpxWtMchVCam _ X; cs.tmpxRdVCam _ p[xRdVCam].l; cs.tmpxRdRCam _ X; cs.tmpVPValidIn _ X; cs.tmpRPValidIn _ X; cs.tmpxPartRMch _ X; cs.tmpPCtlPartVMch _ X; cs.tmpPWtInProg _ X; cs.tmpxDrRCamBL _ X; cs.tmpxLdRCamWR _ X; cs.tmpDeMapRply1 _ X; FOR i IN [0..NumIOLines) DO FOR j IN [NumPageAndBlockBits..NumPageAndBlockBits+LogNumWordsPerLine-2] DO cs.ioVCam[i][j] _ L; cs.ioRCam[i][j] _ L; ENDLOOP; cs.ioVCam[i][NumAddressBits-1] _ H; cs.ioRCam[i][NumAddressBits-1] _ H; ENDLOOP; FOR i IN [0..NumIOLines) DO FOR j IN [0..2] DO cs.ioFlags[i][j] _ IF Rope.Fetch[IOFlagsLine[i], j] = '1 THEN H ELSE L; ENDLOOP; FOR j IN [0..NumPageAndBlockBits) DO cs.ioVCam[i][j] _ IF Rope.Fetch[IOVCamLine[i], j] = '1 THEN H ELSE L; cs.ioRCam[i][j] _ IF Rope.Fetch[IORCamLine[i], j] = '1 THEN H ELSE L; ENDLOOP; ENDLOOP; FOR i IN [0..NumBitsPerWord) DO cs.ioRam.cWSOld[i] _ X; cs.ioRam.cWSNew[i] _ X; cs.ioRam.aID[i] _ X; cs.ioRam.faultCode[i] _ X; cs.ioRam.intStatus[i] _ X; cs.ioRam.intMask[i] _ X; cs.ioRam.modes[i] _ X; cs.ioRam.lFCode1[i] _ H; cs.ioRam.lFCode3[i] _ H; cs.ioRam.lFCode5[i] _ H; cs.ioRam.lFCode7[i] _ H; ENDLOOP; FOR i IN [0..NumIOLines) DO FOR k IN [LRM..RML4] DO cs.iomatch[k][i] _ X; ENDLOOP; cs.iomatch[GND][i] _ L; ENDLOOP; cs.resetDone _ FALSE; [Reset, PCtlDrABusVB, PCtlDrABusVP, PCtlPartVMch, xRdVCam, xWtMchVCam, DeMapRply1, VAdrsInOut, VPValidIn] _ Ports.PortIndexes[cellType.public, "Reset", "PCtlDrABusVB", "PCtlDrABusVP", "PCtlPartVMch", "xRdVCam", "xWtMchVCam", "DeMapRply1", "VAdrsInOut", "VPValidIn"]; [PCtlDrABusRB, PCtlDrABusRP, xRdRCam, xPartRMch, xDrRCamBL, xLdRCamWR, xEnCamSelExt, BCycle2, RAdrsIn, FlagsIn] _ Ports.PortIndexes[cellType.public, "PCtlDrABusRB", "PCtlDrABusRP", "xRdRCam", "xPartRMch", "xDrRCamBL", "xLdRCamWR", "xEnCamSelExt", "BCycle2", "RAdrsIn", "FlagsIn"]; [nPMFlags, xEnCamSel, PCtlShftVictim4, PCtlFrzVictim, xCSCmd, nEnRS, xRSCmd, PWtInProg, BCtlSetOw, BCtlClrOw] _ Ports.PortIndexes[cellType.public, "nPMFlags", "xEnCamSel", "PCtlShftVictim4", "PCtlFrzVictim", "xCSCmd", "nEnRS", "xRSCmd", "PWtInProg", "BCtlSetOw", "BCtlClrOw"]; [SetSh, ClrSh, xRdRam, xWtRam, xSelWdData, xByteSel, xWdAdrs,WdWtData, BlkWtData, RAdrsOut] _ Ports.PortIndexes[cellType.public, "SetSh", "ClrSh", "xRdRam", "xWtRam", "xSelWdData", "xByteSel", "xWdAdrs", "WdWtData", "BlkWtData", "RAdrsOut"]; [FlagsOut, BlkRdData, WdRdData, SetReschedule, ASh, AOw] _ Ports.PortIndexes[cellType.public, "FlagsOut", "BlkRdData", "WdRdData", "SetReschedule", "ASh", "AOw"]; [ARM, AVM, Clock, nClock, RPValidIn] _ Ports.PortIndexes[cellType.public, "ARM", "AVM", "Clock", "nClock", "RPValidIn"]; stateAny _ cs; END; Simple: Rosemary.EvalProc = BEGIN cs: CacheState _ NARROW[stateAny]; IF p[Reset].l = H THEN cs.resetDone _ TRUE; IF ClockL[p, cs, clockEval] THEN Capture[p, cs]; CSMux[p, cs, clockEval]; RSMux[p, cs]; RML234[p, cs, clockEval]; Victim[p, cs, clockEval]; VCamRCamAndFlags[p, cs, clockEval]; SOAndRam[p, cs, clockEval]; IF (NOT ClockEvalEnabled) OR (NOT clockEval) THEN cs.prevClk _ p[Clock].l; END; ClockLToH: PROC[p: Ports.Port, cs: CacheState, clockEval: BOOL] RETURNS[BOOL] = { IF ClockEvalEnabled THEN RETURN[NOT clockEval AND cs.prevClk=L AND p[Clock].l=H] ELSE RETURN[cs.prevClk=L AND p[Clock].l=H] }; ClockHToL: PROC[p: Ports.Port, cs: CacheState, clockEval: BOOL] RETURNS[BOOL] = { IF ClockEvalEnabled THEN RETURN[NOT clockEval AND cs.prevClk=H AND p[Clock].l=L] ELSE RETURN[cs.prevClk=H AND p[Clock].l=L] }; ClockL: PROC[p: Ports.Port, cs: CacheState, clockEval: BOOL] RETURNS[BOOL] = { IF ClockEvalEnabled THEN RETURN[NOT clockEval AND p[Clock].l=L] ELSE RETURN[p[Clock].l=L] }; ClockH: PROC[p: Ports.Port, cs: CacheState, clockEval: BOOL] RETURNS[BOOL] = { IF ClockEvalEnabled THEN RETURN[NOT clockEval AND p[Clock].l=H] ELSE RETURN[p[Clock].l=H] }; Capture: PROC[p: Ports.Port, cs: CacheState] = BEGIN i: INT; cs.tmpxEnCamSel _ p[xEnCamSel].l; FOR i IN [0..NumAddressBits) DO cs.tmpRAdrsIn[i] _ p[RAdrsIn].ls[i]; cs.tmpVAdrsInOut[i] _ p[VAdrsInOut].ls[i]; ENDLOOP; FOR i IN [0..2] DO cs.tmpFlagsIn[i] _ p[FlagsIn].ls[i]; ENDLOOP; cs.tmpBCycle2 _ p[BCycle2].l; cs.tmpxWtRam _ p[xWtRam].l; cs.tmpxRdRam _ p[xRdRam].l; cs.tmpxWtMchVCam _ p[xWtMchVCam].l; cs.tmpxRdVCam _ p[xRdVCam].l; cs.tmpxRdRCam _ p[xRdRCam].l; cs.tmpVPValidIn _ p[VPValidIn].l; cs.tmpRPValidIn _ p[RPValidIn].l; cs.tmpxPartRMch _ p[xPartRMch].l; cs.tmpPCtlPartVMch _ p[PCtlPartVMch].l; cs.tmpPWtInProg _ p[PWtInProg].l; cs.tmpxDrRCamBL _ p[xDrRCamBL].l; cs.tmpxLdRCamWR _ p[xLdRCamWR].l; cs.tmpDeMapRply1 _ p[DeMapRply1].l; END; CSMux: PROC[p: Ports.Port, cs: CacheState, clockEval: BOOL] = BEGIN i: INT; IF ClockLToH[p, cs, clockEval] THEN cs.csMuxSR[0] _ cs.tmpxEnCamSel; IF ClockHToL[p, cs, clockEval] THEN cs.csMuxSR[1] _ cs.csMuxSR[0]; IF cs.csMuxSR[1] = L THEN cs.csOut _ GND; IF cs.csMuxSR[1] = H THEN { IF p[xCSCmd].ls[0] = H THEN i _ 2 ELSE i _ 0; IF p[xCSCmd].ls[1] = H THEN i _ i + 1; IF i = 0 THEN cs.csOut _ GND ELSE IF i = 1 THEN cs.csOut _ RML3 ELSE IF i = 2 THEN cs.csOut _ LVM ELSE IF i = 3 THEN cs.csOut _ Victim; }; END; RSMux: PROC[p: Ports.Port, cs: CacheState] = BEGIN i: INT; IF p[nEnRS].l=H THEN { FOR i IN [0..1] DO cs.rsCmdLatch[i] _ p[xRSCmd].ls[i]; ENDLOOP; }; IF cs.rsCmdLatch[0] = H THEN i _ 2 ELSE i _ 0; IF cs.rsCmdLatch[1] = H THEN i _ i + 1; IF i = 0 THEN { cs.rsOut _ GND; cs.iorsOut _ GND; } ELSE IF i = 1 THEN { cs.rsOut _ RML4; cs.iorsOut _ RML4; } ELSE IF i = 2 THEN { cs.rsOut _ LVM; cs.iorsOut _ LVM; } ELSE IF i = 3 THEN { cs.rsOut _ Victim; cs.iorsOut _ GND; }; END; RML234: PROC[p: Ports.Port, cs: CacheState, clockEval: BOOL] = BEGIN IF ClockLToH[p, cs, clockEval] THEN { cs.bCycle[5] _ cs.bCycle[4]; cs.bCycle[4] _ cs.bCycle[3]; cs.bCycle[3] _ cs.tmpBCycle2; }; IF ClockL[p, cs, clockEval] THEN { IF cs.bCycle[3] = H THEN { cs.match[RML2] _ cs.match[LRM]; cs.iomatch[RML2] _ cs.iomatch[LRM]; }; IF cs.bCycle[4] = H THEN { cs.match[RML3] _ cs.match[RML2]; cs.iomatch[RML3] _ cs.iomatch[RML2]; }; IF cs.bCycle[5] = H THEN { cs.match[RML4] _ cs.match[RML3]; cs.iomatch[RML4] _ cs.iomatch[RML3]; }; }; END; Victim: PROC[p: Ports.Port, cs: CacheState, clockEval: BOOL] = BEGIN i: INT; DecMod: PROC[n: INT] RETURNS [INT] = BEGIN RETURN[IF n=0 THEN NumMemLines-1 ELSE n-1] END; IF ClockLToH[p, cs, clockEval] THEN { IF p[PCtlFrzVictim].l = H THEN cs.use[cs.victimIndex] _ L; IF p[PCtlShftVictim4].l = H THEN { IF cs.use[cs.victimIndex] = H THEN { cs.match[Victim][cs.victimIndex] _ L; cs.victimIndex _ DecMod[cs.victimIndex]; cs.match[Victim][cs.victimIndex] _ H } ELSE cs.use[cs.victimIndex] _ H; } ELSE { IF cs.use[cs.victimIndex] = H THEN { cs.use[cs.victimIndex] _ L; cs.match[Victim][cs.victimIndex] _ L; cs.victimIndex _ DecMod[cs.victimIndex]; cs.match[Victim][cs.victimIndex] _ H; }; }; IF cs.lduse = H THEN { FOR i IN [0..NumMemLines) DO IF cs.match[LVM][i] = H THEN cs.use[i] _ H ; ENDLOOP; }; IF cs.tmpxEnCamSel = L AND cs.tmpxWtMchVCam = H AND cs.tmpPCtlPartVMch = L THEN cs.lduse _ H ELSE cs.lduse _ L; }; IF p[Reset].l = H THEN { FOR i IN [0..NumMemLines) DO cs.use[i] _ L; cs.match[Victim][i] _ L; ENDLOOP; cs.match[Victim][NumMemLines-1] _ H; cs.victimIndex _ NumMemLines-1; cs.aVct _ H; }; END; SOAndRam: PROC[p: Ports.Port, cs: CacheState, clockEval: BOOL] = BEGIN i, j, k, RamIndex, -- index of ramselect line that is high (if only one is high) IORamIndex, -- index of ioramselect line that is high (if only one is high) numH, -- number of ramSelectOut lines high (total of ram and ioram) numX: INT; -- number of ramSelectOut lines that are x (total of ram and ioram) IF ClockLToH[p, cs, clockEval] THEN cs.soSR[0] _ cs.tmpPWtInProg; IF ClockHToL[p, cs, clockEval] THEN cs.soSR[1] _ cs.soSR[0]; IF cs.soSR[0] = H OR cs.soSR[1] = H THEN cs.pWtInProgB _ H ELSE cs.pWtInProgB _ L; FOR i IN [0..NumMemLines) DO IF cs.match[cs.rsOut][i]=H THEN { IF p[BCtlClrOw].l=H AND p[BCtlSetOw].l=H THEN cs.ow[i] _ X ELSE { IF p[BCtlSetOw].l=H THEN cs.ow[i] _ H ELSE IF p[BCtlClrOw].l=H THEN cs.ow[i] _ L; }; IF p[ClrSh].l=H AND p[SetSh].l=H THEN cs.sh[i] _ X ELSE { IF p[SetSh].l=H THEN cs.sh[i] _ H ELSE IF p[ClrSh].l = H THEN cs.sh[i] _ L; } } ELSE { IF cs.match[cs.rsOut][i]=X THEN { IF (p[BCtlSetOw].l=H AND cs.ow[i]#H) OR (p[BCtlClrOw].l=H AND cs.ow[i]#L) OR (p[BCtlClrOw].l=H AND p[BCtlSetOw].l=H) THEN cs.ow[i] _ X; IF (p[SetSh].l=H AND cs.sh[i]#H) OR (p[ClrSh].l=H AND cs.sh[i]#L) OR (p[ClrSh].l=H AND p[SetSh].l=H) THEN cs.sh[i] _ X; }; }; ENDLOOP; numH _ 0; numX _ 0; RamIndex _ -1; IORamIndex _ -1; FOR i IN [0..NumMemLines) DO IF p[nEnRS].l=L AND ((cs.pWtInProgB=L) OR (cs.pWtInProgB=H AND cs.sh[i]=L)) THEN cs.match[RamSel][i] _ cs.match[cs.rsOut][i] ELSE IF p[nEnRS].l=L AND cs.pWtInProgB=H AND ((cs.match[cs.rsOut][i]=H AND cs.sh[i]=X) OR (cs.match[cs.rsOut][i]=X AND cs.sh[i]=X) OR (cs.match[cs.rsOut][i]=X AND cs.sh[i]=L)) THEN cs.match[RamSel][i] _ X ELSE cs.match[RamSel][i] _ L; IF cs.match[RamSel][i] = H THEN {numH _ numH + 1; RamIndex _ i} ELSE {IF cs.match[RamSel][i] = X THEN numX _ numX + 1}; IF p[nEnRS].l=L AND cs.pWtInProgB=H AND cs.match[cs.rsOut][i]=H THEN { IF cs.sh[i]=L THEN {cs.ow[i] _ IF p[BCtlClrOw].l=L THEN H ELSE X} ELSE IF cs.sh[i]=X AND p[BCtlClrOw].l=H THEN cs.ow[i] _ X ELSE IF cs.sh[i]=X AND p[BCtlSetOw].l=L AND p[BCtlClrOw].l=L AND cs.ow[i]#H THEN cs.ow[i] _ X } ELSE { IF p[nEnRS].l=L AND cs.pWtInProgB=H AND cs.match[cs.rsOut][i]=X THEN { IF cs.sh[i]#H AND p[BCtlClrOw].l=H THEN cs.ow[i] _ X ELSE IF cs.sh[i]#H AND p[BCtlClrOw].l=L AND p[BCtlSetOw].l=L AND cs.ow[i]#H THEN cs.ow[i] _ X; } } ENDLOOP; IF p[nEnRS].l=H THEN cs.iorsOut _ GND ELSE FOR i IN [0..NumIOLines) DO IF cs.iomatch[cs.iorsOut][i] = H THEN {numH _ numH + 1; IORamIndex _ i} ELSE {IF cs.iomatch[cs.iorsOut][i] = X THEN numX _ numX + 1}; ENDLOOP; IF (numH > 1 OR numX > 0) AND cs.resetDone THEN ERROR; IF ClockLToH[p, cs, clockEval] THEN { cs.ramWtSR[0] _ cs.tmpxWtRam; cs.ramRdSR[0] _ cs.tmpxRdRam; }; IF ClockHToL[p, cs, clockEval] THEN { IF cs.ramRdSR[0] = H THEN { IF RamIndex >= 0 THEN FOR i IN [0..NumBitsPerLine) DO cs.ramRdLatch[i] _ cs.ram[RamIndex][i]; ENDLOOP ELSE IORam[p, cs, IORamIndex]; }; IF cs.ramWtSR[0] = H THEN { IF RamIndex >= 0 THEN { IF cs.wdSel = L THEN FOR i IN [0..NumBitsPerLine) DO cs.ram[RamIndex][i] _ p[BlkWtData].ls[i]; ENDLOOP ELSE { j _ DecodeAdrs[cs]; FOR i IN [0..NumBitsPerWord) DO k _ i/NumBitsPerByte; IF cs.byteSel[k] = H THEN cs.ram[RamIndex][j] _ p[WdWtData].ls[i]; j_ j+NumBitsPerWord; ENDLOOP; }; } ELSE IORam[p, cs, IORamIndex]; }; cs.ramWtSR[1] _ cs.ramWtSR[0]; cs.ramRdSR[1] _ cs.ramRdSR[0]; cs.ramrd _ cs.tmpxRdRam; cs.ramwt _ cs.tmpxWtRam; }; cs.pRamClock _ cs.ramClock; IF ((cs.ramrd=H AND cs.tmpxRdRam=H) OR (cs.ramwt=H AND cs.tmpxWtRam=H)) AND p[nEnRS].l=H THEN cs.ramClock _ H ELSE cs.ramClock _ L; IF cs.pRamClock = L AND cs.ramClock = H THEN { FOR i IN [0..NumBytesPerWord) DO cs.byteSel[i] _ p[xByteSel].ls[i]; ENDLOOP; FOR i IN [0..LogNumWordsPerLine) DO cs.wdAdrs[i] _ p[xWdAdrs].ls[i]; ENDLOOP; cs.wdSel _ p[xSelWdData].l }; Ports.CopyLS[cs.ramRdLatch, p[BlkRdData].ls]; IF cs.wdSel = H THEN { adrs: NAT _ DecodeAdrs[cs]; FOR i: NAT IN [0..NumBitsPerWord) DO p[WdRdData].ls[i] _ cs.ramRdLatch[adrs]; adrs _ adrs+NumBitsPerWord; ENDLOOP }; p[SetReschedule].l _ L; numX _ 0; FOR i IN [0..NumBitsPerWord) DO IF cs.ioRam.intStatus[i]=H AND cs.ioRam.intMask[i]=H THEN p[SetReschedule].l _ H ELSE IF cs.ioRam.intStatus[i]#L AND cs.ioRam.intMask[i]#L THEN numX _ numX+1; ENDLOOP; IF p[SetReschedule].l = L AND numX > 0 THEN p[SetReschedule].l _ X; IF cs.ramWtSR[0] = H OR cs.ramWtSR[1] = H OR cs.ramRdSR[0] = H OR cs.ramRdSR[1] = H THEN cs.ldSORdLatch _ H ELSE cs.ldSORdLatch _ L; IF cs.ldSORdLatch = H THEN BEGIN numShHH: INT _ 0; numShHL: INT _ 0; numShHX: INT _ 0; numShXH: INT _ 0; numShXL: INT _ 0; numShXX: INT _ 0; numOwHH: INT _ 0; numOwHL: INT _ 0; numOwHX: INT _ 0; numOwXH: INT _ 0; numOwXL: INT _ 0; numOwXX: INT _ 0; FOR i IN [0..NumMemLines) DO IF cs.match[cs.rsOut][i]=H THEN { IF cs.sh[i]=H THEN numShHH _ numShHH+1 ELSE IF cs.sh[i] = L THEN numShHL _ numShHL+1 ELSE numShHX _ numShHX+1; IF cs.ow[i]=H THEN numOwHH _ numOwHH + 1 ELSE IF cs.ow[i] = L THEN numOwHL _ numOwHL+1 ELSE numOwHX _ numOwHX+1; } ELSE { IF cs.match[cs.rsOut][i]=X THEN { IF cs.sh[i] = H THEN numShXH _ numShXH+1 ELSE IF cs.sh[i]=L THEN numShXL _ numShXL+1 ELSE numShXX _ numShXX+1; IF cs.ow[i] = H THEN numOwXH _ numOwXH+1 ELSE IF cs.ow[i] = L THEN numOwXL _ numOwXL+1 ELSE numOwXX _ numOwXX+1; } } ENDLOOP; FOR i IN [0..NumIOLines) DO IF cs.iomatch[cs.iorsOut][i] = H THEN numOwHH _ numOwHH + 1 ELSE IF cs.iomatch[cs.iorsOut][i] = X THEN numOwXH _ numOwXH + 1; ENDLOOP; IF numShHH+numShHL+numShHX+numShXH+numShXL+numShXX = 0 THEN cs.shBit _ L ELSE IF numShHH>0 AND numShHL+numShXL+numShXX+numShHX = 0 THEN cs.shBit _ H ELSE IF numShHL>0 AND numShHH+numShHX+numShXX+numShXH = 0 THEN cs.shBit _ L ELSE cs.shBit _ X; IF numOwHH+numOwHL+numOwHX+numOwXH+numOwXL+numOwXX = 0 THEN cs.owBit _ L ELSE IF numOwHH>0 AND numOwHL+numOwXL+numOwXX+numOwHX = 0 THEN cs.owBit _ H ELSE IF numOwHL>0 AND numOwHH+numOwHX+numOwXX+numOwXH = 0 THEN cs.owBit _ L ELSE cs.owBit _ X; END; p[ASh].l _ cs.shBit; p[AOw].l _ cs.owBit; IF p[Reset].l = H THEN {cs.shBit _ L; cs.owBit _ L}; END; IORam: PROC[p:Ports.Port, cs:CacheState, ioRamIndex:INT] = BEGIN j, k, l: INT; j _ DecodeAdrs[cs]; l _ j; IF cs.ramRdSR[0] = H THEN { FOR k IN [0..NumBitsPerLine) DO cs.ramRdLatch[k] _ H; -- Precharge value ENDLOOP; IF cs.wdSel = H THEN { IF ioRamIndex = 0 AND j = 1 THEN FOR k IN [0..NumBitsPerWord) DO cs.ramRdLatch[j] _ cs.ioRam.cWSOld[k]; j _ j+NumBitsPerWord; ENDLOOP ELSE IF ioRamIndex = 0 AND j = 3 THEN FOR k IN [0..NumBitsPerWord) DO cs.ramRdLatch[j] _ cs.ioRam.cWSNew[k]; j _ j+NumBitsPerWord; ENDLOOP ELSE IF ioRamIndex = 1 AND j = 1 THEN FOR k IN [0..NumBitsPerWord) DO cs.ramRdLatch[j] _ cs.ioRam.aID[k]; j _ j+NumBitsPerWord; ENDLOOP ELSE IF ioRamIndex = 1 AND j = 3 THEN FOR k IN [0..NumBitsPerWord) DO cs.ramRdLatch[j] _ cs.ioRam.faultCode[k]; j _ j+NumBitsPerWord; ENDLOOP ELSE IF ioRamIndex = 1 AND j = 5 THEN FOR k IN [0..NumBitsPerWord) DO cs.ramRdLatch[j] _ cs.ioRam.intStatus[k]; j _ j+NumBitsPerWord; ENDLOOP ELSE IF ioRamIndex = 1 AND j = 7 THEN FOR k IN [0..NumBitsPerWord) DO cs.ramRdLatch[j] _ cs.ioRam.intMask[k]; j _ j+NumBitsPerWord; ENDLOOP ELSE IF ioRamIndex = 4 AND j = 5 THEN FOR k IN [0..NumBitsPerWord) DO cs.ramRdLatch[j] _ cs.ioRam.modes[k]; j _ j+NumBitsPerWord; ENDLOOP ELSE IF ioRamIndex = 5 AND j = 1 THEN FOR k IN [0..NumBitsPerWord) DO cs.ramRdLatch[j] _ cs.ioRam.lFCode1[k]; j _ j+NumBitsPerWord; ENDLOOP ELSE IF ioRamIndex = 5 AND j = 3 THEN FOR k IN [0..NumBitsPerWord) DO cs.ramRdLatch[j] _ cs.ioRam.lFCode3[k]; j _ j+NumBitsPerWord; ENDLOOP ELSE IF ioRamIndex = 5 AND j = 5 THEN FOR k IN [0..NumBitsPerWord) DO cs.ramRdLatch[j] _ cs.ioRam.lFCode5[k]; j _ j+NumBitsPerWord; ENDLOOP ELSE IF ioRamIndex = 5 AND j = 7 THEN FOR k IN [0..NumBitsPerWord) DO cs.ramRdLatch[j] _ cs.ioRam.lFCode7[k]; j _ j+NumBitsPerWord; ENDLOOP; }; }; IF cs.ramWtSR[0] = H THEN { IF cs.wdSel = H THEN { IF ioRamIndex = 0 AND j = 1 THEN FOR k IN [0..NumBitsPerWord) DO l _ k/NumBitsPerByte; IF cs.byteSel[l] = H THEN cs.ioRam.cWSOld[k] _ p[WdWtData].ls[k]; ENDLOOP ELSE IF ioRamIndex = 0 AND j = 3 THEN FOR k IN [0..NumBitsPerWord) DO l _ k/NumBitsPerByte; IF cs.byteSel[l] = H THEN cs.ioRam.cWSNew[k] _ p[WdWtData].ls[k]; ENDLOOP ELSE IF ioRamIndex = 1 AND j = 1 THEN FOR k IN [0..NumBitsPerWord) DO l _ k/NumBitsPerByte; IF cs.byteSel[l] = H THEN cs.ioRam.aID[k] _ p[WdWtData].ls[k]; ENDLOOP ELSE IF ioRamIndex = 1 AND j = 3 THEN FOR k IN [0..NumBitsPerWord) DO l _ k/NumBitsPerByte; IF cs.byteSel[l] = H THEN cs.ioRam.faultCode[k] _ p[WdWtData].ls[k]; ENDLOOP ELSE IF ioRamIndex = 1 AND j = 5 THEN FOR k IN [0..NumBitsPerWord) DO l _ k/NumBitsPerByte; IF cs.byteSel[l] = H THEN cs.ioRam.intStatus[k] _ p[WdWtData].ls[k]; ENDLOOP ELSE IF ioRamIndex = 1 AND j = 7 THEN FOR k IN [0..NumBitsPerWord) DO l _ k/NumBitsPerByte; IF cs.byteSel[l] = H THEN cs.ioRam.intMask[k] _ p[WdWtData].ls[k]; ENDLOOP ELSE IF ioRamIndex = 4 AND j = 5 THEN FOR k IN [0..NumBitsPerWord) DO l _ k/NumBitsPerByte; IF cs.byteSel[l] = H THEN cs.ioRam.modes[k] _ p[WdWtData].ls[k]; ENDLOOP ELSE IF ioRamIndex = 2 AND j = 5 THEN FOR k IN[0..NumBitsPerWord) DO IF p[WdWtData].ls[k] = H THEN cs.ioRam.intStatus[k] _ L ELSE IF p[WdWtData].ls[k] = X AND cs.ioRam.intStatus[k] # L THEN cs.ioRam.intStatus[k] _ X; ENDLOOP ELSE IF ioRamIndex = 3 AND j = 5 THEN FOR k IN [0..NumBitsPerWord) DO IF p[WdWtData].ls[k] = H THEN cs.ioRam.intStatus[k] _ H ELSE IF p[WdWtData].ls[k] = X AND cs.ioRam.intStatus[k] # H THEN cs.ioRam.intStatus[k] _ X; ENDLOOP; }; }; END; DecodeAdrs: PROC[cs: CacheState] RETURNS[i: INT] = BEGIN k: INT _ NumWordsPerLine; i _ 0; FOR j: INT IN [0..LogNumWordsPerLine) DO k _ k/2; IF cs.wdAdrs[j] = H THEN i _ i + k; ENDLOOP; END; VCamRCamAndFlags: PROC[p: Ports.Port, cs: CacheState, clockEval: BOOL] = BEGIN i, j, vCamIndex, -- index of vCamSelect line that is high (if only one) rCamIndex, -- index of rCamSelect line that is high (if only one) numX, numH: INT; -- number of rCamSelect lines that are X (H) CRdVCam: PROC[p: Ports.Port, cs: CacheState ] RETURNS [ b: BOOLEAN] = BEGIN IF (p[PCtlDrABusVB].l = H OR p[PCtlDrABusVP].l = H) AND ((cs.vCamCSCmd1 = H AND cs.aVct = H) OR (cs.vCamCSCmd1 = L AND cs.avm = H)) THEN b _ TRUE ELSE b _ FALSE END; CRdRCam: PROC[p: Ports.Port, cs: CacheState ] RETURNS [ b: BOOLEAN] = BEGIN IF (p[PCtlDrABusRB].l = H OR p[PCtlDrABusRP].l = H) AND ((cs.rCamCSCmd1 = H AND cs.aVct = H) OR (cs.rCamCSCmd1 = L AND cs.avm = H)) THEN b _ TRUE ELSE b _ FALSE; END; cs.vCamSel _ IF p[xEnCamSelExt].l = H THEN cs.csOut ELSE GND; vCamIndex _ -1; rCamIndex _ -1; numX _ 0; numH _ 0; FOR i IN [0..NumMemLines) DO IF cs.match[cs.csOut][i] = H THEN {numH _ numH + 1; rCamIndex _ i} ELSE IF cs.match[cs.csOut][i] = X THEN numX _ numX+1; IF cs.match[cs.vCamSel][i] = H THEN vCamIndex _ i; ENDLOOP; IF numX > 0 AND cs.resetDone THEN ERROR; IF numH > 1 AND p[xEnCamSelExt].l = H AND cs.resetDone THEN ERROR; IF ClockHToL[p, cs, clockEval] THEN { cs.vCamRdSR[1] _ cs.vCamRdSR[0]; cs.rCamRdSR[1] _ cs.rCamRdSR[0]; }; IF cs.vCamRdSR[1] = H THEN cs.vCamCSCmd1 _ p[xCSCmd].ls[1]; IF cs.rCamRdSR[1] = H THEN cs.rCamCSCmd1 _ p[xCSCmd].ls[1]; IF ClockLToH[p, cs, clockEval] THEN { cs.vCamRdSR[2] _ cs.vCamRdSR[1]; cs.vCamRdSR[0] _ cs.tmpxRdVCam; cs.rCamRdSR[2] _ cs.rCamRdSR[1]; cs.rCamRdSR[0] _ cs.tmpxRdRCam; cs.deMapRply1 _ cs.tmpDeMapRply1; IF cs.vCamRdSR[0] = H AND cs.vCamRdSR[2] = H THEN FOR j IN [0..NumAddressBits) DO cs.vCamRdLatch[j] _ IF vCamIndex >= 0 THEN cs.vCam[vCamIndex][j] ELSE H; ENDLOOP; IF cs.rCamRdSR[0] = H AND cs.rCamRdSR[2] = H THEN { FOR j IN [0..NumAddressBits) DO cs.rCamRdLatch[j] _ IF rCamIndex >= 0 THEN cs.rCam[rCamIndex][j] ELSE H; ENDLOOP; FOR j IN [0..2] DO cs.flagsRdLatch[j] _ IF rCamIndex >= 0 THEN cs.flags[rCamIndex][j] ELSE H; ENDLOOP; }; cs.vCamWtSR[2] _ cs.vCamWtSR[0]; cs.rCamWtSR[2] _ cs.rCamWtSR[0]; cs.vCamWtSR[0] _ cs.tmpxWtMchVCam; cs.rCamWtSR[0] _ cs.tmpxDrRCamBL; IF cs.tmpxWtMchVCam = H THEN { FOR i IN [0..NumPageAndBlockBits) DO cs.vCamWtReg[i] _ cs.tmpVAdrsInOut[i]; ENDLOOP; cs.vCamWtReg[NumAddressBits-1] _ cs.tmpVPValidIn; FOR i IN [0..2] DO cs.flagsWtReg[i] _ cs.tmpFlagsIn[i]; ENDLOOP; }; IF cs.tmpxLdRCamWR = H THEN { FOR i IN [0..NumPageAndBlockBits) DO cs.rCamWtReg[i] _ cs.tmpRAdrsIn[i]; ENDLOOP; cs.rCamWtReg[NumAddressBits-1] _ cs.tmpRPValidIn; }; IF cs.vCamWtSR[2] = H THEN { IF cs.vCamRdSR[2] = H THEN { FOR j IN [0..NumPageAndBlockBits) DO cs.vCamRdLatch[j] _ cs.vCamWtReg[j]; ENDLOOP; cs.vCamRdLatch[NumAddressBits-1] _ cs.tmpVPValidIn; }; IF vCamIndex < 0 THEN ComputeMatch[p, cs, Virtual] ELSE { FOR j IN [1..NumPageAndBlockBits) DO cs.vCam[vCamIndex][j] _ cs.vCamWtReg[j]; ENDLOOP; cs.vCam[vCamIndex][NumAddressBits-1] _ cs.tmpVPValidIn; FOR j IN [0..2] DO IF p[nPMFlags].ls[j] = H THEN cs.flags[vCamIndex][j] _ cs.flagsWtReg[j] ELSE cs.flags[vCamIndex][j] _ L; ENDLOOP; }; }; IF cs.rCamWtSR[2] = H THEN { IF cs.rCamRdSR[2] = H THEN { FOR j IN [0..NumPageAndBlockBits) DO cs.rCamRdLatch[j] _ cs.rCamWtReg[j]; ENDLOOP; cs.rCamRdLatch[NumAddressBits-1] _ cs.tmpRPValidIn; }; IF rCamIndex < 0 THEN ComputeMatch[p, cs, Real] ELSE { FOR j IN [1..NumPageAndBlockBits) DO cs.rCam[rCamIndex][j] _ cs.rCamWtReg[j]; ENDLOOP; cs.rCam[rCamIndex][NumAddressBits-1] _ cs.tmpRPValidIn; }; }; cs.vCamPartMch _ cs.tmpPCtlPartVMch; cs.rCamPartMch _ cs.tmpxPartRMch; }; p[AVM].l _ cs.avm; p[ARM].l _ cs.arm; IF CRdVCam[p, cs] THEN { IF p[PCtlDrABusVP].l = H THEN { FOR i IN [0..NumPageBits) DO p[VAdrsInOut].ds[i] _ drive; p[VAdrsInOut].ls[i] _ cs.vCamRdLatch[i] ; ENDLOOP; FOR i IN [NumPageAndBlockBits..NumAddressBits-1) DO p[VAdrsInOut].ds[i] _ drive; p[VAdrsInOut].ls[i] _ L; ENDLOOP; } ELSE { FOR i IN [0..NumPageBits) DO p[VAdrsInOut].ds[i] _ none; ENDLOOP; FOR i IN [NumPageAndBlockBits..NumAddressBits-1) DO p[VAdrsInOut].ds[i] _ none; ENDLOOP; }; IF p[PCtlDrABusVB].l = H THEN FOR i IN [NumPageBits..NumPageAndBlockBits) DO p[VAdrsInOut].ds[i] _ drive; p[VAdrsInOut].ls[i] _ cs.vCamRdLatch[i] ; ENDLOOP ELSE FOR i IN [NumPageBits..NumPageAndBlockBits) DO p[VAdrsInOut].ds[i] _ none; ENDLOOP; } ELSE FOR i: NAT IN [0..NumAddressBits) DO p[VAdrsInOut].ds[i] _ none; ENDLOOP; IF CRdRCam[p, cs] THEN { IF p[PCtlDrABusRP].l = H THEN { FOR i: NAT IN [0..NumPageBits) DO p[RAdrsOut].ds[i] _ drive; p[RAdrsOut].ls[i] _ cs.rCamRdLatch[i]; ENDLOOP; FOR i: NAT IN [0..2] DO p[FlagsOut].ds[i] _ drive; p[FlagsOut].ls[i] _ cs.flagsRdLatch[i]; ENDLOOP; } ELSE { FOR i: NAT IN [0..NumPageBits) DO p[RAdrsOut].ds[i] _ none; ENDLOOP; FOR i: NAT IN [0..2] DO p[FlagsOut].ds[i] _ none; ENDLOOP; }; IF p[PCtlDrABusRB].l = H THEN { FOR i: NAT IN [NumPageBits..NumAddressBits) DO p[RAdrsOut].ds[i] _ drive; p[RAdrsOut].ls[i] _ cs.rCamRdLatch[i]; ENDLOOP; FOR i: NAT IN [NumPageAndBlockBits..NumAddressBits-1) DO p[RAdrsOut].ds[i] _ drive; p[RAdrsOut].ls[i] _ L; ENDLOOP; } ELSE FOR i: NAT IN [NumPageBits..NumAddressBits) DO p[RAdrsOut].ds[i] _ none; ENDLOOP; } ELSE FOR i: NAT IN [0..NumAddressBits) DO p[RAdrsOut].ds[i] _ none; ENDLOOP; IF cs.deMapRply1 = H OR p[DeMapRply1].l = H THEN { FOR i IN [0..NumMemLines) DO IF cs.match[LRM][i] = H THEN cs.vCam[i][NumAddressBits - 1] _ L; ENDLOOP; }; IF p[Reset].l = H THEN { FOR i IN [0..NumMemLines) DO cs.vCam[i][NumAddressBits-1] _ L; cs.rCam[i][NumAddressBits-1] _ L; cs.match[LVM][i] _ L; cs.match[LRM][i] _ L; ENDLOOP; FOR i IN [0..NumIOLines) DO cs.iomatch[LVM][i] _ L; cs.iomatch[LRM][i] _ L; ENDLOOP; cs.avm _ L; cs.arm _ L; }; END; ComputeMatch: PROC[p: Ports.Port, cs: CacheState, matchType: KindOfMatch] = BEGIN i, j, XCount, -- number of bit positions in a line that compute X for their match contribution finish: INT; -- gives index of bit position up to which a match is done (handles part match) existsMatchL, existsMatchH, existsMatchX: BOOLEAN; Equal: PROC[a, b: Level] RETURNS [c: BOOLEAN] = BEGIN IF (a = H AND b = H) OR (a = L AND b = L) THEN c _ TRUE ELSE c _ FALSE; END; UnEqual: PROC[a, b: Level] RETURNS [c: BOOLEAN] = BEGIN IF (a = H AND b = L) OR (a = L AND b = H) THEN c _ TRUE ELSE c _ FALSE; END; existsMatchX _ FALSE; existsMatchL _ FALSE; existsMatchH _ FALSE; IF matchType = Virtual THEN { cs.avm _ L; IF cs.vCamPartMch = H THEN finish _ NumPageBits-1 ELSE finish _ NumPageAndBlockBits-1; {FOR i IN [0..NumMemLines) DO cs.match[LVM][i] _ H; XCount _ 0; j _ 0; WHILE j <= finish AND cs.match[LVM][i] = H DO IF UnEqual[cs.vCamWtReg[j], cs.vCam[i][j]] THEN cs.match[LVM][i] _ L; IF cs.vCamWtReg[j] = X OR cs.vCam[i][j] = X THEN XCount _ XCount + 1; j _ j + 1; ENDLOOP; IF Equal[cs.vCamWtReg[NumAddressBits-1], cs.vCam[i][NumAddressBits-1]] THEN cs.match[LVM][i] _ L; IF cs.vCamWtReg[NumAddressBits-1] = X OR cs.vCam[i][NumAddressBits-1] = X THEN XCount _ XCount + 1; IF cs.vCamPartMch = L AND cs.match[LVM][i] = H THEN { FOR j IN [0..2] DO IF p[nPMFlags].ls[j] = H AND UnEqual[cs.flagsWtReg[j], cs.flags[i][j]] THEN cs.match[LVM][i] _ L; IF cs.flags[i][j] = X OR cs.flagsWtReg[j] = X THEN XCount _ XCount + 1; ENDLOOP; }; IF cs.match[LVM][i] = H AND XCount > 0 THEN cs.match[LVM][i] _ X; IF cs.match[LVM][i] = H THEN existsMatchH _ TRUE ELSE IF cs.match[LVM][i] = L THEN existsMatchL _ TRUE ELSE existsMatchX _ TRUE; ENDLOOP; IF existsMatchH THEN cs.avm _ H ELSE IF existsMatchX THEN cs.avm _ X; IF cs.avm = H THEN FOR i IN [0..NumIOLines) DO cs.iomatch[LVM][i] _ L; ENDLOOP ELSE { FOR i IN [0..NumIOLines) DO cs.iomatch[LVM][i] _ H; XCount _ 0; j _ 0; WHILE j <= finish AND cs.iomatch[LVM][i] = H DO IF UnEqual[cs.vCamWtReg[j], cs.ioVCam[i][j]] THEN cs.iomatch[LVM][i] _ L; IF cs.vCamWtReg[j] = X OR cs.ioVCam[i][j] = X THEN XCount _ XCount + 1; j _ j + 1; ENDLOOP; IF Equal[cs.vCamWtReg[NumAddressBits-1], cs.ioVCam[i][NumAddressBits-1]] THEN cs.iomatch[LVM][i] _ L; IF cs.vCamWtReg[NumAddressBits-1] = X OR cs.ioVCam[i][NumAddressBits-1] = X THEN XCount _ XCount + 1; IF cs.vCamPartMch = L AND cs.iomatch[LVM][i] = H THEN { FOR j IN [0..2] DO IF p[nPMFlags].ls[j] = H AND UnEqual[cs.flagsWtReg[j], cs.ioFlags[i][j]] THEN cs.iomatch[LVM][i] _ L; IF cs.ioFlags[i][j] = X OR cs.flagsWtReg[j] = X THEN XCount _ XCount + 1; ENDLOOP; }; IF cs.iomatch[LVM][i] = H AND XCount > 0 THEN cs.iomatch[LVM][i] _ X; IF cs.iomatch[LVM][i] = H THEN existsMatchH _ TRUE ELSE IF cs.iomatch[LVM][i] = L THEN existsMatchL _ TRUE ELSE existsMatchX _ TRUE; ENDLOOP; IF existsMatchH THEN cs.avm _ H ELSE IF existsMatchX THEN cs.avm _ X; }; }; }; IF matchType=Real AND cs.bCycle[3]=H THEN { cs.arm _ L; IF cs.rCamPartMch = H THEN finish _ NumPageBits-1 ELSE finish _ NumPageAndBlockBits-1; {FOR i IN [0..NumMemLines) DO cs.match[LRM][i] _ H; XCount _ 0; j _ 0; WHILE j <= finish AND cs.match[LRM][i] = H DO IF UnEqual[cs.rCamWtReg[j], cs.rCam[i][j]] THEN cs.match[LRM][i] _ L; IF cs.rCamWtReg[j] = X OR cs.rCam[i][j] = X THEN XCount _ XCount + 1; j _ j + 1; ENDLOOP; IF Equal[cs.rCamWtReg[NumAddressBits-1], cs.rCam[i][NumAddressBits-1]] THEN cs.match[LRM][i] _ L; IF cs.rCamWtReg[NumAddressBits-1] = X OR cs.rCam[i][NumAddressBits-1] = X THEN XCount _ XCount + 1; IF cs.match[LRM][i] = H AND XCount > 0 THEN cs.match[LRM][i] _ X; IF cs.match[LRM][i] = H THEN existsMatchH _ TRUE ELSE IF cs.match[LRM][i] = L THEN existsMatchL _ TRUE ELSE existsMatchX _ TRUE; ENDLOOP; IF existsMatchH THEN cs.arm _ H ELSE IF existsMatchX THEN cs.arm _ X; IF cs.arm = H THEN FOR i IN [0..NumIOLines) DO cs.iomatch[LRM][i] _ L; ENDLOOP ELSE { FOR i IN [0..NumIOLines) DO cs.iomatch[LRM][i] _ H; XCount _ 0; j _ 0; WHILE j <= NumPageBits-NumDevIdBits-1 AND cs.iomatch[LRM][i] = H DO IF UnEqual[cs.rCamWtReg[j], cs.ioRCam[i][j]] THEN cs.iomatch[LRM][i] _ L; IF cs.rCamWtReg[j] = X OR cs.ioRCam[i][j] = X THEN XCount _ XCount + 1; j _ j + 1; ENDLOOP; IF cs.rCamPartMch = L THEN { j _ NumPageBits; WHILE j <= NumPageAndBlockBits-1 AND cs.iomatch[LRM][i] = H DO IF UnEqual[cs.rCamWtReg[j], cs.ioRCam[i][j]] THEN cs.iomatch[LRM][i] _ L; IF cs.rCamWtReg[j] = X OR cs.ioRCam[i][j] = X THEN XCount _ XCount + 1; j _ j + 1; ENDLOOP; }; IF Equal[cs.rCamWtReg[NumAddressBits-1], cs.ioRCam[i][NumAddressBits-1]] THEN cs.iomatch[LRM][i] _ L; IF cs.rCamWtReg[NumAddressBits-1] = X OR cs.ioRCam[i][NumAddressBits-1] = X THEN XCount _ XCount + 1; IF cs.iomatch[LRM][i] = H AND XCount > 0 THEN cs.iomatch[LRM][i] _ X; IF cs.iomatch[LRM][i] = H THEN existsMatchH _ TRUE ELSE IF cs.iomatch[LRM][i] = L THEN existsMatchL _ TRUE ELSE existsMatchX _ TRUE; ENDLOOP; IF existsMatchH THEN cs.arm _ H ELSE IF existsMatchX THEN cs.arm _ X; }; }; }; END; END. VSCArrayImpl.mesa Created: Paraminder Sahai September 1, 1987 6:55:41 am PDT Paraminder Sahai September 27, 1987 0:53:06 am PDT Pradeep Sindhu October 23, 1987 7:19:42 pm PDT Constants and Type Defs Two-D array containing Victim, RamSel, LRM, LVM, RML2, RML3, RML4, and GND The following are used to capture input signals that go to flops Signal Defs Public Procs Internal Procs Create the state if it doesn't already exist First the state changes Then the combinatorial part First the state change to the latch Then the combinatorial part On clock rising edge change the state for flops in the interface Note that the array latches are enabled only during half cycles where Clock is low Rising edge of clock On Reset we set all the use bits to 0, and set victim to point to some location Do the computation for the PWtInProg path in SOInterface Compute the values of Sh and Ow bits in array (Ow computation is completed below) Compute RamSelectOut, numH, numX and complete computation of Ow Compute outputs of IOSharedOwnerCell's, and complete computation of numH and numX Sanity check on numH and numX Change the state of flops in RamInterfaceCtl triggered by Clock Do a Ram Read/Write and change the state of flops in RamInterfaceCtl triggered by nClock Handle reads Handle writes Cycle ram clock Compute new value for ramClock Change state as a result of ramClock positive edge Assert the block and word values onto the ports from the RamRdLatch Compute SetReschedule Compute ldSORdLatch in RamInterfaceCtl Compute composite values on lines going in to SOInterface from array and load SORdlatch In numShAB, A is the value of the enable on the tristates, and B the value in storage Assert shared and owner onto their ports Clear shared and owner latches in interface Handle Read Handle Write Check if either set of tristates on VCamInterface are on Check if either set of tristates on RCamInterface are on Handle the effect of xEnCamSelExt Compute vCamIndex, rCamIndex, numX, and numH Change the 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