backend/rename/Rename.scala

c6d43980SLemover/***************************************************************************************
c6d43980SLemover* Copyright (c) 2020-2021 Institute of Computing Technology, Chinese Academy of Sciences
*f320e0f0SYinan Xu* Copyright (c) 2020-2021 Peng Cheng Laboratory
c6d43980SLemover*
c6d43980SLemover* XiangShan is licensed under Mulan PSL v2.
c6d43980SLemover* You can use this software according to the terms and conditions of the Mulan PSL v2.
c6d43980SLemover* You may obtain a copy of Mulan PSL v2 at:
c6d43980SLemover*          http://license.coscl.org.cn/MulanPSL2
c6d43980SLemover*
c6d43980SLemover* THIS SOFTWARE IS PROVIDED ON AN "AS IS" BASIS, WITHOUT WARRANTIES OF ANY KIND,
c6d43980SLemover* EITHER EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO NON-INFRINGEMENT,
c6d43980SLemover* MERCHANTABILITY OR FIT FOR A PARTICULAR PURPOSE.
c6d43980SLemover*
c6d43980SLemover* See the Mulan PSL v2 for more details.
c6d43980SLemover***************************************************************************************/
c6d43980SLemover
5844fcf0SLinJiaweipackage xiangshan.backend.rename
5844fcf0SLinJiawei
2225d46eSJiawei Linimport chipsalliance.rocketchip.config.Parameters
5844fcf0SLinJiaweiimport chisel3._
5844fcf0SLinJiaweiimport chisel3.util._
5844fcf0SLinJiaweiimport xiangshan._
7cef916fSYinan Xuimport utils._
588ceab5SYinan Xuimport xiangshan.backend.roq.RoqPtr
049559e7SYinan Xuimport xiangshan.backend.dispatch.PreDispatchInfo
5844fcf0SLinJiawei
2225d46eSJiawei Linclass RenameBypassInfo(implicit p: Parameters) extends XSBundle {
99b8dc2cSYinan Xu  val lsrc1_bypass = MixedVec(List.tabulate(RenameWidth-1)(i => UInt((i+1).W)))
99b8dc2cSYinan Xu  val lsrc2_bypass = MixedVec(List.tabulate(RenameWidth-1)(i => UInt((i+1).W)))
99b8dc2cSYinan Xu  val lsrc3_bypass = MixedVec(List.tabulate(RenameWidth-1)(i => UInt((i+1).W)))
99b8dc2cSYinan Xu  val ldest_bypass = MixedVec(List.tabulate(RenameWidth-1)(i => UInt((i+1).W)))
aac4464eSYinan Xu  val move_eliminated_src1 = Vec(RenameWidth-1, Bool())
aac4464eSYinan Xu  val move_eliminated_src2 = Vec(RenameWidth-1, Bool())
99b8dc2cSYinan Xu}
99b8dc2cSYinan Xu
2225d46eSJiawei Linclass Rename(implicit p: Parameters) extends XSModule with HasCircularQueuePtrHelper {
5844fcf0SLinJiawei  val io = IO(new Bundle() {
5844fcf0SLinJiawei    val redirect = Flipped(ValidIO(new Redirect))
2d7c7105SYinan Xu    val flush = Input(Bool())
21e7a6c5SYinan Xu    val roqCommits = Flipped(new RoqCommitIO)
57c4f8d6SLinJiawei    // from decode buffer
9a2e6b8aSLinJiawei    val in = Vec(RenameWidth, Flipped(DecoupledIO(new CfCtrl)))
57c4f8d6SLinJiawei    // to dispatch1
9a2e6b8aSLinJiawei    val out = Vec(RenameWidth, DecoupledIO(new MicroOp))
99b8dc2cSYinan Xu    val renameBypass = Output(new RenameBypassInfo)
049559e7SYinan Xu    val dispatchInfo = Output(new PreDispatchInfo)
aac4464eSYinan Xu    val csrCtrl = Flipped(new CustomCSRCtrlIO)
2225d46eSJiawei Lin    val debug_int_rat = Vec(32, Output(UInt(PhyRegIdxWidth.W)))
2225d46eSJiawei Lin    val debug_fp_rat = Vec(32, Output(UInt(PhyRegIdxWidth.W)))
5844fcf0SLinJiawei  })
b034d3b9SLinJiawei
2e9d39e0SLinJiawei  def printRenameInfo(in: DecoupledIO[CfCtrl], out: DecoupledIO[MicroOp]) = {
2e9d39e0SLinJiawei    XSInfo(
567096a6Slinjiawei      in.valid && in.ready,
58e06390SLinJiawei      p"pc:${Hexadecimal(in.bits.cf.pc)} in v:${in.valid} in rdy:${in.ready} " +
20e31bd1SYinan Xu        p"lsrc(0):${in.bits.ctrl.lsrc(0)} -> psrc(0):${out.bits.psrc(0)} " +
20e31bd1SYinan Xu        p"lsrc(1):${in.bits.ctrl.lsrc(1)} -> psrc(1):${out.bits.psrc(1)} " +
20e31bd1SYinan Xu        p"lsrc(2):${in.bits.ctrl.lsrc(2)} -> psrc(2):${out.bits.psrc(2)} " +
2e9d39e0SLinJiawei        p"ldest:${in.bits.ctrl.ldest} -> pdest:${out.bits.pdest} " +
c7054babSLinJiawei        p"old_pdest:${out.bits.old_pdest} " +
58e06390SLinJiawei        p"out v:${out.valid} r:${out.ready}\n"
2e9d39e0SLinJiawei    )
2e9d39e0SLinJiawei  }
2e9d39e0SLinJiawei
2e9d39e0SLinJiawei  for((x,y) <- io.in.zip(io.out)){
2e9d39e0SLinJiawei    printRenameInfo(x, y)
2e9d39e0SLinJiawei  }
2e9d39e0SLinJiawei
00ad41d0SYinan Xu  val intFreeList, fpFreeList = Module(new FreeList).io
b034d3b9SLinJiawei  val intRat = Module(new RenameTable(float = false)).io
00ad41d0SYinan Xu  val fpRat = Module(new RenameTable(float = true)).io
00ad41d0SYinan Xu  val allPhyResource = Seq((intRat, intFreeList, false), (fpRat, fpFreeList, true))
2225d46eSJiawei Lin  intRat.debug_rdata <> io.debug_int_rat
2225d46eSJiawei Lin  fpRat.debug_rdata <> io.debug_fp_rat
b034d3b9SLinJiawei
00ad41d0SYinan Xu  allPhyResource.map{ case (rat, freelist, _) =>
8f77f081SYinan Xu    rat.redirect := io.redirect.valid
2d7c7105SYinan Xu    rat.flush := io.flush
00ad41d0SYinan Xu    rat.walkWen := io.roqCommits.isWalk
8f77f081SYinan Xu    freelist.redirect := io.redirect.valid
2d7c7105SYinan Xu    freelist.flush := io.flush
00ad41d0SYinan Xu    freelist.walk.valid := io.roqCommits.isWalk
00ad41d0SYinan Xu  }
588ceab5SYinan Xu  val canOut = io.out(0).ready && fpFreeList.req.canAlloc && intFreeList.req.canAlloc && !io.roqCommits.isWalk
b034d3b9SLinJiawei
b034d3b9SLinJiawei  def needDestReg[T <: CfCtrl](fp: Boolean, x: T): Bool = {
b034d3b9SLinJiawei    {if(fp) x.ctrl.fpWen else x.ctrl.rfWen && (x.ctrl.ldest =/= 0.U)}
b034d3b9SLinJiawei  }
fe6452fcSYinan Xu  def needDestRegCommit[T <: RoqCommitInfo](fp: Boolean, x: T): Bool = {
fe6452fcSYinan Xu    {if(fp) x.fpWen else x.rfWen && (x.ldest =/= 0.U)}
fe6452fcSYinan Xu  }
00ad41d0SYinan Xu  fpFreeList.walk.bits := PopCount(io.roqCommits.valid.zip(io.roqCommits.info).map{case (v, i) => v && needDestRegCommit(true, i)})
00ad41d0SYinan Xu  intFreeList.walk.bits := PopCount(io.roqCommits.valid.zip(io.roqCommits.info).map{case (v, i) => v && needDestRegCommit(false, i)})
c0bcc0d1SYinan Xu  // walk has higher priority than allocation and thus we don't use isWalk here
2438f9ebSYinan Xu  fpFreeList.req.doAlloc := intFreeList.req.canAlloc && io.out(0).ready
2438f9ebSYinan Xu  intFreeList.req.doAlloc := fpFreeList.req.canAlloc && io.out(0).ready
b034d3b9SLinJiawei
588ceab5SYinan Xu  // speculatively assign the instruction with an roqIdx
588ceab5SYinan Xu  val validCount = PopCount(io.in.map(_.valid))
588ceab5SYinan Xu  val roqIdxHead = RegInit(0.U.asTypeOf(new RoqPtr))
8f77f081SYinan Xu  val lastCycleMisprediction = RegNext(io.redirect.valid && !io.redirect.bits.flushItself())
8f77f081SYinan Xu  val roqIdxHeadNext = Mux(io.flush,
8f77f081SYinan Xu    0.U.asTypeOf(new RoqPtr),
8f77f081SYinan Xu    Mux(io.redirect.valid,
8f77f081SYinan Xu      io.redirect.bits.roqIdx,
8f77f081SYinan Xu      Mux(lastCycleMisprediction,
8f77f081SYinan Xu        roqIdxHead + 1.U,
8f77f081SYinan Xu        Mux(canOut, roqIdxHead + validCount, roqIdxHead))
8f77f081SYinan Xu    )
588ceab5SYinan Xu  )
588ceab5SYinan Xu  roqIdxHead := roqIdxHeadNext
588ceab5SYinan Xu
00ad41d0SYinan Xu  /**
00ad41d0SYinan Xu    * Rename: allocate free physical register and update rename table
00ad41d0SYinan Xu    */
b034d3b9SLinJiawei  val uops = Wire(Vec(RenameWidth, new MicroOp))
b034d3b9SLinJiawei
b034d3b9SLinJiawei  uops.foreach( uop => {
0e9eef65SYinan Xu//    uop.brMask := DontCare
0e9eef65SYinan Xu//    uop.brTag := DontCare
20e31bd1SYinan Xu    uop.srcState(0) := DontCare
20e31bd1SYinan Xu    uop.srcState(1) := DontCare
20e31bd1SYinan Xu    uop.srcState(2) := DontCare
b034d3b9SLinJiawei    uop.roqIdx := DontCare
6ae7ac7cSAllen    uop.diffTestDebugLrScValid := DontCare
7cef916fSYinan Xu    uop.debugInfo := DontCare
bc86598fSWilliam Wang    uop.lqIdx := DontCare
bc86598fSWilliam Wang    uop.sqIdx := DontCare
b034d3b9SLinJiawei  })
b034d3b9SLinJiawei
99b8dc2cSYinan Xu  val needFpDest = Wire(Vec(RenameWidth, Bool()))
99b8dc2cSYinan Xu  val needIntDest = Wire(Vec(RenameWidth, Bool()))
b424051cSYinan Xu  val hasValid = Cat(io.in.map(_.valid)).orR
b034d3b9SLinJiawei  for (i <- 0 until RenameWidth) {
b034d3b9SLinJiawei    uops(i).cf := io.in(i).bits.cf
b034d3b9SLinJiawei    uops(i).ctrl := io.in(i).bits.ctrl
b034d3b9SLinJiawei
567096a6Slinjiawei    val inValid = io.in(i).valid
2dcb2daaSLinJiawei
b034d3b9SLinJiawei    // alloc a new phy reg
99b8dc2cSYinan Xu    needFpDest(i) := inValid && needDestReg(fp = true, io.in(i).bits)
99b8dc2cSYinan Xu    needIntDest(i) := inValid && needDestReg(fp = false, io.in(i).bits)
2438f9ebSYinan Xu    fpFreeList.req.allocReqs(i) := needFpDest(i)
2438f9ebSYinan Xu    intFreeList.req.allocReqs(i) := needIntDest(i)
2438f9ebSYinan Xu
b424051cSYinan Xu    io.in(i).ready := !hasValid || canOut
58e06390SLinJiawei
c7054babSLinJiawei    // do checkpoints when a branch inst come
4f787118SYinan Xu    // for(fl <- Seq(fpFreeList, intFreeList)){
4f787118SYinan Xu    //   fl.cpReqs(i).valid := inValid
4f787118SYinan Xu    //   fl.cpReqs(i).bits := io.in(i).bits.brTag
4f787118SYinan Xu    // }
58e06390SLinJiawei
99b8dc2cSYinan Xu    uops(i).pdest := Mux(needIntDest(i),
2438f9ebSYinan Xu      intFreeList.req.pdests(i),
c7054babSLinJiawei      Mux(
c7054babSLinJiawei        uops(i).ctrl.ldest===0.U && uops(i).ctrl.rfWen,
2438f9ebSYinan Xu        0.U, fpFreeList.req.pdests(i)
c7054babSLinJiawei      )
c7054babSLinJiawei    )
b034d3b9SLinJiawei
588ceab5SYinan Xu    uops(i).roqIdx := roqIdxHead + i.U
588ceab5SYinan Xu
c0bcc0d1SYinan Xu    io.out(i).valid := io.in(i).valid && intFreeList.req.canAlloc && fpFreeList.req.canAlloc && !io.roqCommits.isWalk
b034d3b9SLinJiawei    io.out(i).bits := uops(i)
b034d3b9SLinJiawei
00ad41d0SYinan Xu    // write speculative rename table
00ad41d0SYinan Xu    allPhyResource.map{ case (rat, freelist, _) =>
00ad41d0SYinan Xu      val specWen = freelist.req.allocReqs(i) && freelist.req.canAlloc && freelist.req.doAlloc && !io.roqCommits.isWalk
b034d3b9SLinJiawei
00ad41d0SYinan Xu      rat.specWritePorts(i).wen := specWen
00ad41d0SYinan Xu      rat.specWritePorts(i).addr := uops(i).ctrl.ldest
00ad41d0SYinan Xu      rat.specWritePorts(i).wdata := freelist.req.pdests(i)
b034d3b9SLinJiawei
00ad41d0SYinan Xu      freelist.deallocReqs(i) := specWen
b034d3b9SLinJiawei    }
b034d3b9SLinJiawei
b034d3b9SLinJiawei    // read rename table
b034d3b9SLinJiawei    def readRat(lsrcList: List[UInt], ldest: UInt, fp: Boolean) = {
b034d3b9SLinJiawei      val rat = if(fp) fpRat else intRat
b034d3b9SLinJiawei      val srcCnt = lsrcList.size
b034d3b9SLinJiawei      val psrcVec = Wire(Vec(srcCnt, UInt(PhyRegIdxWidth.W)))
b034d3b9SLinJiawei      val old_pdest = Wire(UInt(PhyRegIdxWidth.W))
b034d3b9SLinJiawei      for(k <- 0 until srcCnt+1){
b034d3b9SLinJiawei        val rportIdx = i * (srcCnt+1) + k
b034d3b9SLinJiawei        if(k != srcCnt){
b034d3b9SLinJiawei          rat.readPorts(rportIdx).addr := lsrcList(k)
b034d3b9SLinJiawei          psrcVec(k) := rat.readPorts(rportIdx).rdata
b034d3b9SLinJiawei        } else {
b034d3b9SLinJiawei          rat.readPorts(rportIdx).addr := ldest
b034d3b9SLinJiawei          old_pdest := rat.readPorts(rportIdx).rdata
b034d3b9SLinJiawei        }
b034d3b9SLinJiawei      }
b034d3b9SLinJiawei      (psrcVec, old_pdest)
b034d3b9SLinJiawei    }
20e31bd1SYinan Xu    val lsrcList = List(uops(i).ctrl.lsrc(0), uops(i).ctrl.lsrc(1), uops(i).ctrl.lsrc(2))
b034d3b9SLinJiawei    val ldest = uops(i).ctrl.ldest
b034d3b9SLinJiawei    val (intPhySrcVec, intOldPdest) = readRat(lsrcList.take(2), ldest, fp = false)
b034d3b9SLinJiawei    val (fpPhySrcVec, fpOldPdest) = readRat(lsrcList, ldest, fp = true)
20e31bd1SYinan Xu    uops(i).psrc(0) := Mux(uops(i).ctrl.srcType(0) === SrcType.reg, intPhySrcVec(0), fpPhySrcVec(0))
20e31bd1SYinan Xu    uops(i).psrc(1) := Mux(uops(i).ctrl.srcType(1) === SrcType.reg, intPhySrcVec(1), fpPhySrcVec(1))
20e31bd1SYinan Xu    uops(i).psrc(2) := fpPhySrcVec(2)
b034d3b9SLinJiawei    uops(i).old_pdest := Mux(uops(i).ctrl.rfWen, intOldPdest, fpOldPdest)
b034d3b9SLinJiawei  }
b034d3b9SLinJiawei
99b8dc2cSYinan Xu  // We don't bypass the old_pdest from valid instructions with the same ldest currently in rename stage.
99b8dc2cSYinan Xu  // Instead, we determine whether there're some dependences between the valid instructions.
99b8dc2cSYinan Xu  for (i <- 1 until RenameWidth) {
99b8dc2cSYinan Xu    io.renameBypass.lsrc1_bypass(i-1) := Cat((0 until i).map(j => {
20e31bd1SYinan Xu      val fpMatch  = needFpDest(j) && io.in(i).bits.ctrl.srcType(0) === SrcType.fp
20e31bd1SYinan Xu      val intMatch = needIntDest(j) && io.in(i).bits.ctrl.srcType(0) === SrcType.reg
20e31bd1SYinan Xu      (fpMatch || intMatch) && io.in(j).bits.ctrl.ldest === io.in(i).bits.ctrl.lsrc(0)
99b8dc2cSYinan Xu    }).reverse)
99b8dc2cSYinan Xu    io.renameBypass.lsrc2_bypass(i-1) := Cat((0 until i).map(j => {
20e31bd1SYinan Xu      val fpMatch  = needFpDest(j) && io.in(i).bits.ctrl.srcType(1) === SrcType.fp
20e31bd1SYinan Xu      val intMatch = needIntDest(j) && io.in(i).bits.ctrl.srcType(1) === SrcType.reg
20e31bd1SYinan Xu      (fpMatch || intMatch) && io.in(j).bits.ctrl.ldest === io.in(i).bits.ctrl.lsrc(1)
99b8dc2cSYinan Xu    }).reverse)
99b8dc2cSYinan Xu    io.renameBypass.lsrc3_bypass(i-1) := Cat((0 until i).map(j => {
20e31bd1SYinan Xu      val fpMatch  = needFpDest(j) && io.in(i).bits.ctrl.srcType(2) === SrcType.fp
20e31bd1SYinan Xu      val intMatch = needIntDest(j) && io.in(i).bits.ctrl.srcType(2) === SrcType.reg
20e31bd1SYinan Xu      (fpMatch || intMatch) && io.in(j).bits.ctrl.ldest === io.in(i).bits.ctrl.lsrc(2)
99b8dc2cSYinan Xu    }).reverse)
99b8dc2cSYinan Xu    io.renameBypass.ldest_bypass(i-1) := Cat((0 until i).map(j => {
99b8dc2cSYinan Xu      val fpMatch  = needFpDest(j) && needFpDest(i)
99b8dc2cSYinan Xu      val intMatch = needIntDest(j) && needIntDest(i)
99b8dc2cSYinan Xu      (fpMatch || intMatch) && io.in(j).bits.ctrl.ldest === io.in(i).bits.ctrl.ldest
99b8dc2cSYinan Xu    }).reverse)
aac4464eSYinan Xu    io.renameBypass.move_eliminated_src1(i-1) :=
aac4464eSYinan Xu      // the producer move instruction writes to non-zero register
aac4464eSYinan Xu      io.in(i-1).bits.ctrl.isMove && io.in(i-1).bits.ctrl.ldest =/= 0.U &&
aac4464eSYinan Xu      // the consumer instruction uses the move's destination register
20e31bd1SYinan Xu      io.in(i).bits.ctrl.srcType(0) === SrcType.reg && io.in(i).bits.ctrl.lsrc(0) === io.in(i-1).bits.ctrl.ldest &&
aac4464eSYinan Xu      // CSR control (by srnctl)
aac4464eSYinan Xu      io.csrCtrl.move_elim_enable
aac4464eSYinan Xu    io.renameBypass.move_eliminated_src2(i-1) :=
aac4464eSYinan Xu      // the producer move instruction writes to non-zero register
aac4464eSYinan Xu      io.in(i-1).bits.ctrl.isMove && io.in(i-1).bits.ctrl.ldest =/= 0.U &&
aac4464eSYinan Xu      // the consumer instruction uses the move's destination register
20e31bd1SYinan Xu      io.in(i).bits.ctrl.srcType(1) === SrcType.reg && io.in(i).bits.ctrl.lsrc(1) === io.in(i-1).bits.ctrl.ldest &&
aac4464eSYinan Xu      // CSR control (by srnctl)
aac4464eSYinan Xu      io.csrCtrl.move_elim_enable
b034d3b9SLinJiawei  }
00ad41d0SYinan Xu
049559e7SYinan Xu  val isLs    = VecInit(uops.map(uop => FuType.isLoadStore(uop.ctrl.fuType)))
049559e7SYinan Xu  val isStore = VecInit(uops.map(uop => FuType.isStoreExu(uop.ctrl.fuType)))
049559e7SYinan Xu  val isAMO   = VecInit(uops.map(uop => FuType.isAMO(uop.ctrl.fuType)))
049559e7SYinan Xu  io.dispatchInfo.lsqNeedAlloc := VecInit((0 until RenameWidth).map(i =>
049559e7SYinan Xu    Mux(isLs(i), Mux(isStore(i) && !isAMO(i), 2.U, 1.U), 0.U)))
049559e7SYinan Xu
00ad41d0SYinan Xu  /**
00ad41d0SYinan Xu    * Instructions commit: update freelist and rename table
00ad41d0SYinan Xu    */
00ad41d0SYinan Xu  for (i <- 0 until CommitWidth) {
00ad41d0SYinan Xu    if (i >= RenameWidth) {
00ad41d0SYinan Xu      allPhyResource.map{ case (rat, _, _) =>
00ad41d0SYinan Xu        rat.specWritePorts(i).wen   := false.B
00ad41d0SYinan Xu        rat.specWritePorts(i).addr  := DontCare
00ad41d0SYinan Xu        rat.specWritePorts(i).wdata := DontCare
00ad41d0SYinan Xu      }
00ad41d0SYinan Xu    }
00ad41d0SYinan Xu
00ad41d0SYinan Xu    allPhyResource.map{ case (rat, freelist, fp) =>
00ad41d0SYinan Xu      // walk back write
00ad41d0SYinan Xu      val commitDestValid = io.roqCommits.valid(i) && needDestRegCommit(fp, io.roqCommits.info(i))
00ad41d0SYinan Xu
00ad41d0SYinan Xu      when (commitDestValid && io.roqCommits.isWalk) {
00ad41d0SYinan Xu        rat.specWritePorts(i).wen := true.B
00ad41d0SYinan Xu        rat.specWritePorts(i).addr := io.roqCommits.info(i).ldest
00ad41d0SYinan Xu        rat.specWritePorts(i).wdata := io.roqCommits.info(i).old_pdest
00ad41d0SYinan Xu        XSInfo({if(fp) p"fp" else p"int "} + p"walk: " +
00ad41d0SYinan Xu          p" ldest:${rat.specWritePorts(i).addr} old_pdest:${rat.specWritePorts(i).wdata}\n")
00ad41d0SYinan Xu      }
00ad41d0SYinan Xu
00ad41d0SYinan Xu      rat.archWritePorts(i).wen := commitDestValid && !io.roqCommits.isWalk
00ad41d0SYinan Xu      rat.archWritePorts(i).addr := io.roqCommits.info(i).ldest
00ad41d0SYinan Xu      rat.archWritePorts(i).wdata := io.roqCommits.info(i).pdest
00ad41d0SYinan Xu
00ad41d0SYinan Xu      XSInfo(rat.archWritePorts(i).wen,
00ad41d0SYinan Xu        {if(fp) p"fp" else p"int "} + p" rat arch: ldest:${rat.archWritePorts(i).addr}" +
00ad41d0SYinan Xu          p" pdest:${rat.archWritePorts(i).wdata}\n"
00ad41d0SYinan Xu      )
00ad41d0SYinan Xu
00ad41d0SYinan Xu      freelist.deallocReqs(i) := rat.archWritePorts(i).wen
00ad41d0SYinan Xu      freelist.deallocPregs(i) := io.roqCommits.info(i).old_pdest
00ad41d0SYinan Xu    }
00ad41d0SYinan Xu  }
d479a3a8SYinan Xu
408a32b7SAllen  XSPerfAccumulate("in", Mux(RegNext(io.in(0).ready), PopCount(io.in.map(_.valid)), 0.U))
408a32b7SAllen  XSPerfAccumulate("utilization", PopCount(io.in.map(_.valid)))
408a32b7SAllen  XSPerfAccumulate("waitInstr", PopCount((0 until RenameWidth).map(i => io.in(i).valid && !io.in(i).ready)))
408a32b7SAllen  XSPerfAccumulate("stall_cycle_dispatch", hasValid && !io.out(0).ready && fpFreeList.req.canAlloc && intFreeList.req.canAlloc && !io.roqCommits.isWalk)
408a32b7SAllen  XSPerfAccumulate("stall_cycle_fp", hasValid && io.out(0).ready && !fpFreeList.req.canAlloc && intFreeList.req.canAlloc && !io.roqCommits.isWalk)
408a32b7SAllen  XSPerfAccumulate("stall_cycle_int", hasValid && io.out(0).ready && fpFreeList.req.canAlloc && !intFreeList.req.canAlloc && !io.roqCommits.isWalk)
408a32b7SAllen  XSPerfAccumulate("stall_cycle_walk", hasValid && io.out(0).ready && fpFreeList.req.canAlloc && intFreeList.req.canAlloc && io.roqCommits.isWalk)
d479a3a8SYinan Xu
2225d46eSJiawei Lin
b034d3b9SLinJiawei}