1c6d43980SLemover/*************************************************************************************** 2c6d43980SLemover* Copyright (c) 2020-2021 Institute of Computing Technology, Chinese Academy of Sciences 3f320e0f0SYinan Xu* Copyright (c) 2020-2021 Peng Cheng Laboratory 4c6d43980SLemover* 5c6d43980SLemover* XiangShan is licensed under Mulan PSL v2. 6c6d43980SLemover* You can use this software according to the terms and conditions of the Mulan PSL v2. 7c6d43980SLemover* You may obtain a copy of Mulan PSL v2 at: 8c6d43980SLemover* http://license.coscl.org.cn/MulanPSL2 9c6d43980SLemover* 10c6d43980SLemover* THIS SOFTWARE IS PROVIDED ON AN "AS IS" BASIS, WITHOUT WARRANTIES OF ANY KIND, 11c6d43980SLemover* EITHER EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO NON-INFRINGEMENT, 12c6d43980SLemover* MERCHANTABILITY OR FIT FOR A PARTICULAR PURPOSE. 13c6d43980SLemover* 14c6d43980SLemover* See the Mulan PSL v2 for more details. 15c6d43980SLemover***************************************************************************************/ 16c6d43980SLemover 175844fcf0SLinJiaweipackage xiangshan.backend.rename 185844fcf0SLinJiawei 192225d46eSJiawei Linimport chipsalliance.rocketchip.config.Parameters 205844fcf0SLinJiaweiimport chisel3._ 215844fcf0SLinJiaweiimport chisel3.util._ 225844fcf0SLinJiaweiimport xiangshan._ 237cef916fSYinan Xuimport utils._ 249aca92b9SYinan Xuimport xiangshan.backend.rob.RobPtr 2570224bf6SYinan Xuimport xiangshan.backend.rename.freelist._ 2699b8dc2cSYinan Xu 2739d3280eSYikeZhouclass Rename(implicit p: Parameters) extends XSModule { 285844fcf0SLinJiawei val io = IO(new Bundle() { 295844fcf0SLinJiawei val redirect = Flipped(ValidIO(new Redirect)) 309aca92b9SYinan Xu val robCommits = Flipped(new RobCommitIO) 317fa2c198SYinan Xu // from decode 329a2e6b8aSLinJiawei val in = Vec(RenameWidth, Flipped(DecoupledIO(new CfCtrl))) 337fa2c198SYinan Xu // to rename table 347fa2c198SYinan Xu val intReadPorts = Vec(RenameWidth, Vec(3, Input(UInt(PhyRegIdxWidth.W)))) 357fa2c198SYinan Xu val fpReadPorts = Vec(RenameWidth, Vec(4, Input(UInt(PhyRegIdxWidth.W)))) 367fa2c198SYinan Xu val intRenamePorts = Vec(RenameWidth, Output(new RatWritePort)) 377fa2c198SYinan Xu val fpRenamePorts = Vec(RenameWidth, Output(new RatWritePort)) 3857c4f8d6SLinJiawei // to dispatch1 399a2e6b8aSLinJiawei val out = Vec(RenameWidth, DecoupledIO(new MicroOp)) 405844fcf0SLinJiawei }) 41b034d3b9SLinJiawei 428b8e745dSYikeZhou // create free list and rat 4370224bf6SYinan Xu val intFreeList = Module(new MEFreeList(MEFreeListSize)) 4470224bf6SYinan Xu val intRefCounter = Module(new RefCounter(MEFreeListSize)) 4570224bf6SYinan Xu val fpFreeList = Module(new StdFreeList(StdFreeListSize)) 468b8e745dSYikeZhou 479aca92b9SYinan Xu // decide if given instruction needs allocating a new physical register (CfCtrl: from decode; RobCommitInfo: from rob) 48b034d3b9SLinJiawei def needDestReg[T <: CfCtrl](fp: Boolean, x: T): Bool = { 49b034d3b9SLinJiawei {if(fp) x.ctrl.fpWen else x.ctrl.rfWen && (x.ctrl.ldest =/= 0.U)} 50b034d3b9SLinJiawei } 519aca92b9SYinan Xu def needDestRegCommit[T <: RobCommitInfo](fp: Boolean, x: T): Bool = { 52c3abb8b6SYinan Xu if(fp) x.fpWen else x.rfWen 53fe6452fcSYinan Xu } 548b8e745dSYikeZhou 55f4b2089aSYinan Xu // connect [redirect + walk] ports for __float point__ & __integer__ free list 565eb4af5bSYikeZhou Seq((fpFreeList, true), (intFreeList, false)).foreach{ case (fl, isFp) => 5770224bf6SYinan Xu fl.io.redirect := io.redirect.valid 5870224bf6SYinan Xu fl.io.walk := io.robCommits.isWalk 595eb4af5bSYikeZhou // when isWalk, use stepBack to restore head pointer of free list 605eb4af5bSYikeZhou // (if ME enabled, stepBack of intFreeList should be useless thus optimized out) 6170224bf6SYinan Xu fl.io.stepBack := PopCount(io.robCommits.valid.zip(io.robCommits.info).map{case (v, i) => v && needDestRegCommit(isFp, i)}) 624efb89cbSYikeZhou } 635eb4af5bSYikeZhou // walk has higher priority than allocation and thus we don't use isWalk here 645eb4af5bSYikeZhou // only when both fp and int free list and dispatch1 has enough space can we do allocation 6570224bf6SYinan Xu intFreeList.io.doAllocate := fpFreeList.io.canAllocate && io.out(0).ready 6670224bf6SYinan Xu fpFreeList.io.doAllocate := intFreeList.io.canAllocate && io.out(0).ready 675eb4af5bSYikeZhou 685eb4af5bSYikeZhou // dispatch1 ready ++ float point free list ready ++ int free list ready ++ not walk 6970224bf6SYinan Xu val canOut = io.out(0).ready && fpFreeList.io.canAllocate && intFreeList.io.canAllocate && !io.robCommits.isWalk 705eb4af5bSYikeZhou 71b034d3b9SLinJiawei 729aca92b9SYinan Xu // speculatively assign the instruction with an robIdx 739aca92b9SYinan Xu val validCount = PopCount(io.in.map(_.valid)) // number of instructions waiting to enter rob (from decode) 749aca92b9SYinan Xu val robIdxHead = RegInit(0.U.asTypeOf(new RobPtr)) 758f77f081SYinan Xu val lastCycleMisprediction = RegNext(io.redirect.valid && !io.redirect.bits.flushItself()) 76f4b2089aSYinan Xu val robIdxHeadNext = Mux(io.redirect.valid, io.redirect.bits.robIdx, // redirect: move ptr to given rob index 779aca92b9SYinan Xu Mux(lastCycleMisprediction, robIdxHead + 1.U, // mis-predict: not flush robIdx itself 789aca92b9SYinan Xu Mux(canOut, robIdxHead + validCount, // instructions successfully entered next stage: increase robIdx 79f4b2089aSYinan Xu /* default */ robIdxHead))) // no instructions passed by this cycle: stick to old value 809aca92b9SYinan Xu robIdxHead := robIdxHeadNext 81588ceab5SYinan Xu 8200ad41d0SYinan Xu /** 8300ad41d0SYinan Xu * Rename: allocate free physical register and update rename table 8400ad41d0SYinan Xu */ 85b034d3b9SLinJiawei val uops = Wire(Vec(RenameWidth, new MicroOp)) 86b034d3b9SLinJiawei uops.foreach( uop => { 8720e31bd1SYinan Xu uop.srcState(0) := DontCare 8820e31bd1SYinan Xu uop.srcState(1) := DontCare 8920e31bd1SYinan Xu uop.srcState(2) := DontCare 909aca92b9SYinan Xu uop.robIdx := DontCare 916ae7ac7cSAllen uop.diffTestDebugLrScValid := DontCare 927cef916fSYinan Xu uop.debugInfo := DontCare 93bc86598fSWilliam Wang uop.lqIdx := DontCare 94bc86598fSWilliam Wang uop.sqIdx := DontCare 95b034d3b9SLinJiawei }) 96b034d3b9SLinJiawei 9799b8dc2cSYinan Xu val needFpDest = Wire(Vec(RenameWidth, Bool())) 9899b8dc2cSYinan Xu val needIntDest = Wire(Vec(RenameWidth, Bool())) 99b424051cSYinan Xu val hasValid = Cat(io.in.map(_.valid)).orR 1008b8e745dSYikeZhou 1018b8e745dSYikeZhou val isMove = io.in.map(_.bits.ctrl.isMove) 1020153cd55SYikeZhou val intPsrc = Wire(Vec(RenameWidth, UInt())) 1038b8e745dSYikeZhou 1048b8e745dSYikeZhou val intSpecWen = Wire(Vec(RenameWidth, Bool())) 1058b8e745dSYikeZhou val fpSpecWen = Wire(Vec(RenameWidth, Bool())) 1068b8e745dSYikeZhou 1078b8e745dSYikeZhou // uop calculation 108b034d3b9SLinJiawei for (i <- 0 until RenameWidth) { 109b034d3b9SLinJiawei uops(i).cf := io.in(i).bits.cf 110b034d3b9SLinJiawei uops(i).ctrl := io.in(i).bits.ctrl 111b034d3b9SLinJiawei 112567096a6Slinjiawei val inValid = io.in(i).valid 1132dcb2daaSLinJiawei 114b034d3b9SLinJiawei // alloc a new phy reg 11599b8dc2cSYinan Xu needFpDest(i) := inValid && needDestReg(fp = true, io.in(i).bits) 11699b8dc2cSYinan Xu needIntDest(i) := inValid && needDestReg(fp = false, io.in(i).bits) 11770224bf6SYinan Xu fpFreeList.io.allocateReq(i) := needFpDest(i) 11870224bf6SYinan Xu intFreeList.io.allocateReq(i) := needIntDest(i) && !isMove(i) 1192438f9ebSYinan Xu 1208b8e745dSYikeZhou // no valid instruction from decode stage || all resources (dispatch1 + both free lists) ready 121b424051cSYinan Xu io.in(i).ready := !hasValid || canOut 12258e06390SLinJiawei 1239aca92b9SYinan Xu uops(i).robIdx := robIdxHead + PopCount(io.in.take(i).map(_.valid)) 124588ceab5SYinan Xu 1257fa2c198SYinan Xu val intPhySrcVec = io.intReadPorts(i).take(2) 1267fa2c198SYinan Xu val intOldPdest = io.intReadPorts(i).last 1270153cd55SYikeZhou intPsrc(i) := intPhySrcVec(0) 1287fa2c198SYinan Xu val fpPhySrcVec = io.fpReadPorts(i).take(3) 1297fa2c198SYinan Xu val fpOldPdest = io.fpReadPorts(i).last 13020e31bd1SYinan Xu uops(i).psrc(0) := Mux(uops(i).ctrl.srcType(0) === SrcType.reg, intPhySrcVec(0), fpPhySrcVec(0)) 13120e31bd1SYinan Xu uops(i).psrc(1) := Mux(uops(i).ctrl.srcType(1) === SrcType.reg, intPhySrcVec(1), fpPhySrcVec(1)) 13220e31bd1SYinan Xu uops(i).psrc(2) := fpPhySrcVec(2) 133b034d3b9SLinJiawei uops(i).old_pdest := Mux(uops(i).ctrl.rfWen, intOldPdest, fpOldPdest) 13470224bf6SYinan Xu uops(i).eliminatedMove := isMove(i) 1358b8e745dSYikeZhou 1368b8e745dSYikeZhou // update pdest 13770224bf6SYinan Xu uops(i).pdest := Mux(needIntDest(i), intFreeList.io.allocatePhyReg(i), // normal int inst 13870224bf6SYinan Xu // normal fp inst 13970224bf6SYinan Xu Mux(needFpDest(i), fpFreeList.io.allocatePhyReg(i), 14070224bf6SYinan Xu /* default */0.U)) 1418b8e745dSYikeZhou 142ebb8ebf8SYinan Xu // Assign performance counters 143ebb8ebf8SYinan Xu uops(i).debugInfo.renameTime := GTimer() 144ebb8ebf8SYinan Xu 14570224bf6SYinan Xu io.out(i).valid := io.in(i).valid && intFreeList.io.canAllocate && fpFreeList.io.canAllocate && !io.robCommits.isWalk 146ebb8ebf8SYinan Xu io.out(i).bits := uops(i) 147a020ce37SYinan Xu when (io.out(i).bits.ctrl.fuType === FuType.fence) { 148a020ce37SYinan Xu io.out(i).bits.ctrl.imm := Cat(io.in(i).bits.ctrl.lsrc(1), io.in(i).bits.ctrl.lsrc(0)) 149a020ce37SYinan Xu } 150ebb8ebf8SYinan Xu 1518b8e745dSYikeZhou // write speculative rename table 15239d3280eSYikeZhou // we update rat later inside commit code 15370224bf6SYinan Xu intSpecWen(i) := needIntDest(i) && intFreeList.io.canAllocate && intFreeList.io.doAllocate && !io.robCommits.isWalk && !io.redirect.valid 15470224bf6SYinan Xu fpSpecWen(i) := needFpDest(i) && fpFreeList.io.canAllocate && fpFreeList.io.doAllocate && !io.robCommits.isWalk && !io.redirect.valid 15570224bf6SYinan Xu 15670224bf6SYinan Xu intRefCounter.io.allocate(i).valid := intSpecWen(i) 15770224bf6SYinan Xu intRefCounter.io.allocate(i).bits := io.out(i).bits.pdest 158b034d3b9SLinJiawei } 159b034d3b9SLinJiawei 16070224bf6SYinan Xu /** 16170224bf6SYinan Xu * How to set psrc: 16270224bf6SYinan Xu * - bypass the pdest to psrc if previous instructions write to the same ldest as lsrc 16370224bf6SYinan Xu * - default: psrc from RAT 16470224bf6SYinan Xu * How to set pdest: 16570224bf6SYinan Xu * - Mux(isMove, psrc, pdest_from_freelist). 16670224bf6SYinan Xu * 16770224bf6SYinan Xu * The critical path of rename lies here: 16870224bf6SYinan Xu * When move elimination is enabled, we need to update the rat with psrc. 16970224bf6SYinan Xu * However, psrc maybe comes from previous instructions' pdest, which comes from freelist. 17070224bf6SYinan Xu * 17170224bf6SYinan Xu * If we expand these logic for pdest(N): 17270224bf6SYinan Xu * pdest(N) = Mux(isMove(N), psrc(N), freelist_out(N)) 17370224bf6SYinan Xu * = Mux(isMove(N), Mux(bypass(N, N - 1), pdest(N - 1), 17470224bf6SYinan Xu * Mux(bypass(N, N - 2), pdest(N - 2), 17570224bf6SYinan Xu * ... 17670224bf6SYinan Xu * Mux(bypass(N, 0), pdest(0), 17770224bf6SYinan Xu * rat_out(N))...)), 17870224bf6SYinan Xu * freelist_out(N)) 17970224bf6SYinan Xu */ 18070224bf6SYinan Xu // a simple functional model for now 18170224bf6SYinan Xu io.out(0).bits.pdest := Mux(isMove(0), uops(0).psrc.head, uops(0).pdest) 18270224bf6SYinan Xu val bypassCond = Wire(Vec(4, MixedVec(List.tabulate(RenameWidth-1)(i => UInt((i+1).W))))) 18399b8dc2cSYinan Xu for (i <- 1 until RenameWidth) { 18470224bf6SYinan Xu val fpCond = io.in(i).bits.ctrl.srcType.map(_ === SrcType.fp) :+ needFpDest(i) 18570224bf6SYinan Xu val intCond = io.in(i).bits.ctrl.srcType.map(_ === SrcType.reg) :+ needIntDest(i) 18670224bf6SYinan Xu val target = io.in(i).bits.ctrl.lsrc :+ io.in(i).bits.ctrl.ldest 18770224bf6SYinan Xu for ((((cond1, cond2), t), j) <- fpCond.zip(intCond).zip(target).zipWithIndex) { 18870224bf6SYinan Xu val destToSrc = io.in.take(i).zipWithIndex.map { case (in, j) => 18970224bf6SYinan Xu val indexMatch = in.bits.ctrl.ldest === t 19070224bf6SYinan Xu val writeMatch = cond2 && needIntDest(j) || cond1 && needFpDest(j) 19170224bf6SYinan Xu indexMatch && writeMatch 19270224bf6SYinan Xu } 19370224bf6SYinan Xu bypassCond(j)(i - 1) := VecInit(destToSrc).asUInt 19470224bf6SYinan Xu } 19570224bf6SYinan Xu io.out(i).bits.psrc(0) := io.out.take(i).map(_.bits.pdest).zip(bypassCond(0)(i-1).asBools).foldLeft(uops(i).psrc(0)) { 19670224bf6SYinan Xu (z, next) => Mux(next._2, next._1, z) 19770224bf6SYinan Xu } 19870224bf6SYinan Xu io.out(i).bits.psrc(1) := io.out.take(i).map(_.bits.pdest).zip(bypassCond(1)(i-1).asBools).foldLeft(uops(i).psrc(1)) { 19970224bf6SYinan Xu (z, next) => Mux(next._2, next._1, z) 20070224bf6SYinan Xu } 20170224bf6SYinan Xu io.out(i).bits.psrc(2) := io.out.take(i).map(_.bits.pdest).zip(bypassCond(2)(i-1).asBools).foldLeft(uops(i).psrc(2)) { 20270224bf6SYinan Xu (z, next) => Mux(next._2, next._1, z) 20370224bf6SYinan Xu } 20470224bf6SYinan Xu io.out(i).bits.old_pdest := io.out.take(i).map(_.bits.pdest).zip(bypassCond(3)(i-1).asBools).foldLeft(uops(i).old_pdest) { 20570224bf6SYinan Xu (z, next) => Mux(next._2, next._1, z) 20670224bf6SYinan Xu } 20770224bf6SYinan Xu io.out(i).bits.pdest := Mux(isMove(i), io.out(i).bits.psrc(0), uops(i).pdest) 208b034d3b9SLinJiawei } 20900ad41d0SYinan Xu 21000ad41d0SYinan Xu /** 21100ad41d0SYinan Xu * Instructions commit: update freelist and rename table 21200ad41d0SYinan Xu */ 21300ad41d0SYinan Xu for (i <- 0 until CommitWidth) { 21400ad41d0SYinan Xu 2157fa2c198SYinan Xu Seq((io.intRenamePorts, false), (io.fpRenamePorts, true)) foreach { case (rat, fp) => 2168b8e745dSYikeZhou // is valid commit req and given instruction has destination register 2179aca92b9SYinan Xu val commitDestValid = io.robCommits.valid(i) && needDestRegCommit(fp, io.robCommits.info(i)) 2189aca92b9SYinan Xu XSDebug(p"isFp[${fp}]index[$i]-commitDestValid:$commitDestValid,isWalk:${io.robCommits.isWalk}\n") 2198b8e745dSYikeZhou 2208b8e745dSYikeZhou /* 2218b8e745dSYikeZhou I. RAT Update 2228b8e745dSYikeZhou */ 2238b8e745dSYikeZhou 2248b8e745dSYikeZhou // walk back write - restore spec state : ldest => old_pdest 2258b8e745dSYikeZhou if (fp && i < RenameWidth) { 2267fa2c198SYinan Xu // When redirect happens (mis-prediction), don't update the rename table 22770224bf6SYinan Xu rat(i).wen := fpSpecWen(i) 2287fa2c198SYinan Xu rat(i).addr := uops(i).ctrl.ldest 22970224bf6SYinan Xu rat(i).data := fpFreeList.io.allocatePhyReg(i) 2308b8e745dSYikeZhou } else if (!fp && i < RenameWidth) { 23170224bf6SYinan Xu rat(i).wen := intSpecWen(i) 2327fa2c198SYinan Xu rat(i).addr := uops(i).ctrl.ldest 23370224bf6SYinan Xu rat(i).data := io.out(i).bits.pdest 23439d3280eSYikeZhou } 2358b8e745dSYikeZhou 2368b8e745dSYikeZhou /* 2378b8e745dSYikeZhou II. Free List Update 2388b8e745dSYikeZhou */ 2398b8e745dSYikeZhou if (fp) { // Float Point free list 24070224bf6SYinan Xu fpFreeList.io.freeReq(i) := commitDestValid && !io.robCommits.isWalk 24170224bf6SYinan Xu fpFreeList.io.freePhyReg(i) := io.robCommits.info(i).old_pdest 2427fa2c198SYinan Xu } else { // Integer free list 24370224bf6SYinan Xu intFreeList.io.freeReq(i) := intRefCounter.io.freeRegs(i).valid 24470224bf6SYinan Xu intFreeList.io.freePhyReg(i) := intRefCounter.io.freeRegs(i).bits 24500ad41d0SYinan Xu } 24600ad41d0SYinan Xu } 24770224bf6SYinan Xu intRefCounter.io.deallocate(i).valid := io.robCommits.valid(i) && needDestRegCommit(false, io.robCommits.info(i)) 24870224bf6SYinan Xu intRefCounter.io.deallocate(i).bits := Mux(io.robCommits.isWalk, io.robCommits.info(i).pdest, io.robCommits.info(i).old_pdest) 2498b8e745dSYikeZhou } 2508b8e745dSYikeZhou 2518b8e745dSYikeZhou /* 25270224bf6SYinan Xu Debug and performance counters 2538b8e745dSYikeZhou */ 2548b8e745dSYikeZhou def printRenameInfo(in: DecoupledIO[CfCtrl], out: DecoupledIO[MicroOp]) = { 25570224bf6SYinan Xu XSInfo(out.fire, p"pc:${Hexadecimal(in.bits.cf.pc)} in(${in.valid},${in.ready}) " + 2568b8e745dSYikeZhou p"lsrc(0):${in.bits.ctrl.lsrc(0)} -> psrc(0):${out.bits.psrc(0)} " + 2578b8e745dSYikeZhou p"lsrc(1):${in.bits.ctrl.lsrc(1)} -> psrc(1):${out.bits.psrc(1)} " + 2588b8e745dSYikeZhou p"lsrc(2):${in.bits.ctrl.lsrc(2)} -> psrc(2):${out.bits.psrc(2)} " + 2598b8e745dSYikeZhou p"ldest:${in.bits.ctrl.ldest} -> pdest:${out.bits.pdest} " + 26070224bf6SYinan Xu p"old_pdest:${out.bits.old_pdest}\n" 2618b8e745dSYikeZhou ) 2628b8e745dSYikeZhou } 2638b8e745dSYikeZhou 2648b8e745dSYikeZhou for((x,y) <- io.in.zip(io.out)){ 2658b8e745dSYikeZhou printRenameInfo(x, y) 2668b8e745dSYikeZhou } 2678b8e745dSYikeZhou 2689aca92b9SYinan Xu XSDebug(io.robCommits.isWalk, p"Walk Recovery Enabled\n") 2699aca92b9SYinan Xu XSDebug(io.robCommits.isWalk, p"validVec:${Binary(io.robCommits.valid.asUInt)}\n") 2708b8e745dSYikeZhou for (i <- 0 until CommitWidth) { 2719aca92b9SYinan Xu val info = io.robCommits.info(i) 2729aca92b9SYinan Xu XSDebug(io.robCommits.isWalk && io.robCommits.valid(i), p"[#$i walk info] pc:${Hexadecimal(info.pc)} " + 273*cbe9a847SYinan Xu p"ldest:${info.ldest} rfWen:${info.rfWen} fpWen:${info.fpWen} " + 2748b8e745dSYikeZhou p"pdest:${info.pdest} old_pdest:${info.old_pdest}\n") 2758b8e745dSYikeZhou } 2768b8e745dSYikeZhou 2778b8e745dSYikeZhou XSDebug(p"inValidVec: ${Binary(Cat(io.in.map(_.valid)))}\n") 2788b8e745dSYikeZhou 279408a32b7SAllen XSPerfAccumulate("in", Mux(RegNext(io.in(0).ready), PopCount(io.in.map(_.valid)), 0.U)) 280408a32b7SAllen XSPerfAccumulate("utilization", PopCount(io.in.map(_.valid))) 281408a32b7SAllen XSPerfAccumulate("waitInstr", PopCount((0 until RenameWidth).map(i => io.in(i).valid && !io.in(i).ready))) 28270224bf6SYinan Xu XSPerfAccumulate("stall_cycle_dispatch", hasValid && !io.out(0).ready && fpFreeList.io.canAllocate && intFreeList.io.canAllocate && !io.robCommits.isWalk) 28370224bf6SYinan Xu XSPerfAccumulate("stall_cycle_fp", hasValid && io.out(0).ready && !fpFreeList.io.canAllocate && intFreeList.io.canAllocate && !io.robCommits.isWalk) 28470224bf6SYinan Xu XSPerfAccumulate("stall_cycle_int", hasValid && io.out(0).ready && fpFreeList.io.canAllocate && !intFreeList.io.canAllocate && !io.robCommits.isWalk) 28570224bf6SYinan Xu XSPerfAccumulate("stall_cycle_walk", hasValid && io.out(0).ready && fpFreeList.io.canAllocate && intFreeList.io.canAllocate && io.robCommits.isWalk) 2865eb4af5bSYikeZhou 28770224bf6SYinan Xu XSPerfAccumulate("move_instr_count", PopCount(io.out.map(out => out.fire() && out.bits.ctrl.isMove))) 288cd365d4cSrvcoresjw 289cd365d4cSrvcoresjw 290cd365d4cSrvcoresjw val intfl_perf = intFreeList.perfEvents.map(_._1).zip(intFreeList.perfinfo.perfEvents.perf_events) 291cd365d4cSrvcoresjw val fpfl_perf = fpFreeList.perfEvents.map(_._1).zip(fpFreeList.perfinfo.perfEvents.perf_events) 292cd365d4cSrvcoresjw val perf_list = Wire(new PerfEventsBundle(6)) 293cd365d4cSrvcoresjw val perf_seq = Seq( 294cd365d4cSrvcoresjw ("rename_in ", PopCount(io.in.map(_.valid & io.in(0).ready )) ), 295cd365d4cSrvcoresjw ("rename_waitinstr ", PopCount((0 until RenameWidth).map(i => io.in(i).valid && !io.in(i).ready)) ), 296cd365d4cSrvcoresjw ("rename_stall_cycle_dispatch ", hasValid && !io.out(0).ready && fpFreeList.io.canAllocate && intFreeList.io.canAllocate && !io.robCommits.isWalk ), 297cd365d4cSrvcoresjw ("rename_stall_cycle_fp ", hasValid && io.out(0).ready && !fpFreeList.io.canAllocate && intFreeList.io.canAllocate && !io.robCommits.isWalk ), 298cd365d4cSrvcoresjw ("rename_stall_cycle_int ", hasValid && io.out(0).ready && fpFreeList.io.canAllocate && !intFreeList.io.canAllocate && !io.robCommits.isWalk ), 299cd365d4cSrvcoresjw ("rename_stall_cycle_walk ", hasValid && io.out(0).ready && fpFreeList.io.canAllocate && intFreeList.io.canAllocate && io.robCommits.isWalk ), 300cd365d4cSrvcoresjw ) 301cd365d4cSrvcoresjw for (((perf_out,(perf_name,perf)),i) <- perf_list.perf_events.zip(perf_seq).zipWithIndex) { 302cd365d4cSrvcoresjw perf_out.incr_step := RegNext(perf) 303cd365d4cSrvcoresjw } 304cd365d4cSrvcoresjw 305cd365d4cSrvcoresjw val perfEvents_list = perf_list.perf_events ++ 306cd365d4cSrvcoresjw intFreeList.asInstanceOf[freelist.MEFreeList].perfinfo.perfEvents.perf_events ++ 307cd365d4cSrvcoresjw fpFreeList.perfinfo.perfEvents.perf_events 308cd365d4cSrvcoresjw 309cd365d4cSrvcoresjw val perfEvents = perf_seq ++ intfl_perf ++ fpfl_perf 310cd365d4cSrvcoresjw val perfinfo = IO(new Bundle(){ 311cd365d4cSrvcoresjw val perfEvents = Output(new PerfEventsBundle(perfEvents_list.length)) 312cd365d4cSrvcoresjw }) 313cd365d4cSrvcoresjw perfinfo.perfEvents.perf_events := perfEvents_list 3145eb4af5bSYikeZhou} 315