frontend/icache/ICache.scala

1d8f4dcbSJay/***************************************************************************************
e3da8badSTang Haojin* Copyright (c) 2024 Beijing Institute of Open Source Chip (BOSC)
e3da8badSTang Haojin* Copyright (c) 2020-2024 Institute of Computing Technology, Chinese Academy of Sciences
1d8f4dcbSJay* Copyright (c) 2020-2021 Peng Cheng Laboratory
1d8f4dcbSJay*
1d8f4dcbSJay* XiangShan is licensed under Mulan PSL v2.
1d8f4dcbSJay* You can use this software according to the terms and conditions of the Mulan PSL v2.
1d8f4dcbSJay* You may obtain a copy of Mulan PSL v2 at:
1d8f4dcbSJay*          http://license.coscl.org.cn/MulanPSL2
1d8f4dcbSJay*
1d8f4dcbSJay* THIS SOFTWARE IS PROVIDED ON AN "AS IS" BASIS, WITHOUT WARRANTIES OF ANY KIND,
1d8f4dcbSJay* EITHER EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO NON-INFRINGEMENT,
1d8f4dcbSJay* MERCHANTABILITY OR FIT FOR A PARTICULAR PURPOSE.
1d8f4dcbSJay*
1d8f4dcbSJay* See the Mulan PSL v2 for more details.
c49ebec8SHaoyuan Feng*
c49ebec8SHaoyuan Feng*
c49ebec8SHaoyuan Feng* Acknowledgement
c49ebec8SHaoyuan Feng*
c49ebec8SHaoyuan Feng* This implementation is inspired by several key papers:
c49ebec8SHaoyuan Feng* [1] Glenn Reinman, Brad Calder, and Todd Austin. "[Fetch directed instruction prefetching.]
c49ebec8SHaoyuan Feng* (https://doi.org/10.1109/MICRO.1999.809439)" 32nd Annual ACM/IEEE International Symposium on Microarchitecture
c49ebec8SHaoyuan Feng* (MICRO). 1999.
1d8f4dcbSJay***************************************************************************************/
1d8f4dcbSJay
1d8f4dcbSJaypackage xiangshan.frontend.icache
1d8f4dcbSJay
1d8f4dcbSJayimport chisel3._
7f37d55fSTang Haojinimport chisel3.util._
cf7d6b7aSMuziimport freechips.rocketchip.diplomacy.IdRange
cf7d6b7aSMuziimport freechips.rocketchip.diplomacy.LazyModule
cf7d6b7aSMuziimport freechips.rocketchip.diplomacy.LazyModuleImp
1d8f4dcbSJayimport freechips.rocketchip.tilelink._
1d8f4dcbSJayimport freechips.rocketchip.util.BundleFieldBase
cf7d6b7aSMuziimport huancun.AliasField
cf7d6b7aSMuziimport huancun.PrefetchField
7f37d55fSTang Haojinimport org.chipsalliance.cde.config.Parameters
3c02ee8fSwakafaimport utility._
7f37d55fSTang Haojinimport xiangshan._
7f37d55fSTang Haojinimport xiangshan.cache._
7f37d55fSTang Haojinimport xiangshan.cache.mmu.TlbRequestIO
7f37d55fSTang Haojinimport xiangshan.frontend._
1d8f4dcbSJay
1d8f4dcbSJaycase class ICacheParameters(
1d8f4dcbSJay    nSets:               Int = 256,
76b0dfefSGuokai Chen    nWays:               Int = 4,
1d8f4dcbSJay    rowBits:             Int = 64,
1d8f4dcbSJay    nTLBEntries:         Int = 32,
1d8f4dcbSJay    tagECC:              Option[String] = None,
1d8f4dcbSJay    dataECC:             Option[String] = None,
1d8f4dcbSJay    replacer:            Option[String] = Some("random"),
b92f8445Sssszwic    PortNumber:          Int = 2,
b92f8445Sssszwic    nFetchMshr:          Int = 4,
b92f8445Sssszwic    nPrefetchMshr:       Int = 10,
b92f8445Sssszwic    nWayLookupSize:      Int = 32,
b92f8445Sssszwic    DataCodeUnit:        Int = 64,
b92f8445Sssszwic    ICacheDataBanks:     Int = 8,
b92f8445Sssszwic    ICacheDataSRAMWidth: Int = 66,
b92f8445Sssszwic    // TODO: hard code, need delete
b92f8445Sssszwic    partWayNum: Int = 4,
1d8f4dcbSJay    nMMIOs:     Int = 1,
1d8f4dcbSJay    blockBytes: Int = 64
1d8f4dcbSJay) extends L1CacheParameters {
1d8f4dcbSJay
*415fcbe2Sxu_zh  val setBytes:     Int         = nSets * blockBytes
*415fcbe2Sxu_zh  val aliasBitsOpt: Option[Int] = Option.when(setBytes > pageSize)(log2Ceil(setBytes / pageSize))
1d8f4dcbSJay  val reqFields: Seq[BundleFieldBase] = Seq(
d2b20d1aSTang Haojin    PrefetchField(),
d2b20d1aSTang Haojin    ReqSourceField()
1d8f4dcbSJay  ) ++ aliasBitsOpt.map(AliasField)
15ee59e4Swakafa  val echoFields: Seq[BundleFieldBase] = Nil
1d8f4dcbSJay  def tagCode:    Code                 = Code.fromString(tagECC)
1d8f4dcbSJay  def dataCode:   Code                 = Code.fromString(dataECC)
1d8f4dcbSJay  def replacement = ReplacementPolicy.fromString(replacer, nWays, nSets)
1d8f4dcbSJay}
1d8f4dcbSJay
1d8f4dcbSJaytrait HasICacheParameters extends HasL1CacheParameters with HasInstrMMIOConst with HasIFUConst {
*415fcbe2Sxu_zh  val cacheParams: ICacheParameters = icacheParameters
1d8f4dcbSJay
*415fcbe2Sxu_zh  def ICacheSets:          Int = cacheParams.nSets
*415fcbe2Sxu_zh  def ICacheWays:          Int = cacheParams.nWays
*415fcbe2Sxu_zh  def PortNumber:          Int = cacheParams.PortNumber
*415fcbe2Sxu_zh  def nFetchMshr:          Int = cacheParams.nFetchMshr
*415fcbe2Sxu_zh  def nPrefetchMshr:       Int = cacheParams.nPrefetchMshr
*415fcbe2Sxu_zh  def nWayLookupSize:      Int = cacheParams.nWayLookupSize
*415fcbe2Sxu_zh  def DataCodeUnit:        Int = cacheParams.DataCodeUnit
*415fcbe2Sxu_zh  def ICacheDataBanks:     Int = cacheParams.ICacheDataBanks
*415fcbe2Sxu_zh  def ICacheDataSRAMWidth: Int = cacheParams.ICacheDataSRAMWidth
*415fcbe2Sxu_zh  def partWayNum:          Int = cacheParams.partWayNum
b92f8445Sssszwic
*415fcbe2Sxu_zh  def ICacheMetaBits:      Int = tagBits // FIXME: unportable: maybe use somemethod to get width
*415fcbe2Sxu_zh  def ICacheMetaCodeBits:  Int = 1       // FIXME: unportable: maybe use cacheParams.tagCode.somemethod to get width
*415fcbe2Sxu_zh  def ICacheMetaEntryBits: Int = ICacheMetaBits + ICacheMetaCodeBits
8966a895Sxu_zh
*415fcbe2Sxu_zh  def ICacheDataBits: Int = blockBits / ICacheDataBanks
*415fcbe2Sxu_zh  def ICacheDataCodeSegs: Int =
*415fcbe2Sxu_zh    math.ceil(ICacheDataBits / DataCodeUnit).toInt // split data to segments for ECC checking
*415fcbe2Sxu_zh  def ICacheDataCodeBits: Int =
cf7d6b7aSMuzi    ICacheDataCodeSegs * 1 // FIXME: unportable: maybe use cacheParams.dataCode.somemethod to get width
*415fcbe2Sxu_zh  def ICacheDataEntryBits: Int = ICacheDataBits + ICacheDataCodeBits
*415fcbe2Sxu_zh  def ICacheBankVisitNum:  Int = 32 * 8 / ICacheDataBits + 1
*415fcbe2Sxu_zh  def highestIdxBit:       Int = log2Ceil(nSets) - 1
1d8f4dcbSJay
b92f8445Sssszwic  require((ICacheDataBanks >= 2) && isPow2(ICacheDataBanks))
8966a895Sxu_zh  require(ICacheDataSRAMWidth >= ICacheDataEntryBits)
b92f8445Sssszwic  require(isPow2(ICacheSets), s"nSets($ICacheSets) must be pow2")
b92f8445Sssszwic  require(isPow2(ICacheWays), s"nWays($ICacheWays) must be pow2")
1d8f4dcbSJay
2a25dbb4SJay  def generatePipeControl(lastFire: Bool, thisFire: Bool, thisFlush: Bool, lastFlush: Bool): Bool = {
2a25dbb4SJay    val valid = RegInit(false.B)
cf7d6b7aSMuzi    when(thisFlush)(valid := false.B)
cf7d6b7aSMuzi      .elsewhen(lastFire && !lastFlush)(valid := true.B)
cf7d6b7aSMuzi      .elsewhen(thisFire)(valid := false.B)
2a25dbb4SJay    valid
2a25dbb4SJay  }
2a25dbb4SJay
cf7d6b7aSMuzi  def ResultHoldBypass[T <: Data](data: T, valid: Bool): T =
2a25dbb4SJay    Mux(valid, data, RegEnable(data, valid))
2a25dbb4SJay
cf7d6b7aSMuzi  def ResultHoldBypass[T <: Data](data: T, init: T, valid: Bool): T =
b92f8445Sssszwic    Mux(valid, data, RegEnable(data, init, valid))
b92f8445Sssszwic
b1ded4e8Sguohongyu  def holdReleaseLatch(valid: Bool, release: Bool, flush: Bool): Bool = {
b1ded4e8Sguohongyu    val bit = RegInit(false.B)
cf7d6b7aSMuzi    when(flush)(bit := false.B)
cf7d6b7aSMuzi      .elsewhen(valid && !release)(bit := true.B)
cf7d6b7aSMuzi      .elsewhen(release)(bit := false.B)
b1ded4e8Sguohongyu    bit || valid
b1ded4e8Sguohongyu  }
b1ded4e8Sguohongyu
5470b21eSguohongyu  def blockCounter(block: Bool, flush: Bool, threshold: Int): Bool = {
5470b21eSguohongyu    val counter = RegInit(0.U(log2Up(threshold + 1).W))
cf7d6b7aSMuzi    when(block)(counter := counter + 1.U)
cf7d6b7aSMuzi    when(flush)(counter := 0.U)
5470b21eSguohongyu    counter > threshold.U
5470b21eSguohongyu  }
5470b21eSguohongyu
cf7d6b7aSMuzi  def InitQueue[T <: Data](entry: T, size: Int): Vec[T] =
*415fcbe2Sxu_zh    RegInit(VecInit(Seq.fill(size)(0.U.asTypeOf(entry.cloneType))))
58c354d0Sssszwic
8966a895Sxu_zh  def encodeMetaECC(meta: UInt): UInt = {
8966a895Sxu_zh    require(meta.getWidth == ICacheMetaBits)
8966a895Sxu_zh    val code = cacheParams.tagCode.encode(meta) >> ICacheMetaBits
8966a895Sxu_zh    code.asTypeOf(UInt(ICacheMetaCodeBits.W))
8966a895Sxu_zh  }
8966a895Sxu_zh
8966a895Sxu_zh  def encodeDataECC(data: UInt): UInt = {
8966a895Sxu_zh    require(data.getWidth == ICacheDataBits)
8966a895Sxu_zh    val datas = data.asTypeOf(Vec(ICacheDataCodeSegs, UInt((ICacheDataBits / ICacheDataCodeSegs).W)))
8966a895Sxu_zh    val codes = VecInit(datas.map(cacheParams.dataCode.encode(_) >> (ICacheDataBits / ICacheDataCodeSegs)))
8966a895Sxu_zh    codes.asTypeOf(UInt(ICacheDataCodeBits.W))
b92f8445Sssszwic  }
58c354d0Sssszwic
b92f8445Sssszwic  def getBankSel(blkOffset: UInt, valid: Bool = true.B): Vec[UInt] = {
*415fcbe2Sxu_zh    val bankIdxLow  = (Cat(0.U(1.W), blkOffset) >> log2Ceil(blockBytes / ICacheDataBanks)).asUInt
*415fcbe2Sxu_zh    val bankIdxHigh = ((Cat(0.U(1.W), blkOffset) + 32.U) >> log2Ceil(blockBytes / ICacheDataBanks)).asUInt
b92f8445Sssszwic    val bankSel     = VecInit((0 until ICacheDataBanks * 2).map(i => (i.U >= bankIdxLow) && (i.U <= bankIdxHigh)))
cf7d6b7aSMuzi    assert(
cf7d6b7aSMuzi      !valid || PopCount(bankSel) === ICacheBankVisitNum.U,
cf7d6b7aSMuzi      "The number of bank visits must be %d, but bankSel=0x%x",
cf7d6b7aSMuzi      ICacheBankVisitNum.U,
cf7d6b7aSMuzi      bankSel.asUInt
cf7d6b7aSMuzi    )
b92f8445Sssszwic    bankSel.asTypeOf(UInt((ICacheDataBanks * 2).W)).asTypeOf(Vec(2, UInt(ICacheDataBanks.W)))
b92f8445Sssszwic  }
b92f8445Sssszwic
*415fcbe2Sxu_zh  def getLineSel(blkOffset: UInt): Vec[Bool] = {
*415fcbe2Sxu_zh    val bankIdxLow = (blkOffset >> log2Ceil(blockBytes / ICacheDataBanks)).asUInt
b92f8445Sssszwic    val lineSel    = VecInit((0 until ICacheDataBanks).map(i => i.U < bankIdxLow))
b92f8445Sssszwic    lineSel
b92f8445Sssszwic  }
b92f8445Sssszwic
*415fcbe2Sxu_zh  def getBlkAddr(addr:        UInt): UInt = (addr >> blockOffBits).asUInt
*415fcbe2Sxu_zh  def getPhyTagFromBlk(addr:  UInt): UInt = (addr >> (pgUntagBits - blockOffBits)).asUInt
*415fcbe2Sxu_zh  def getIdxFromBlk(addr:     UInt): UInt = addr(idxBits - 1, 0)
*415fcbe2Sxu_zh  def getPaddrFromPtag(vaddr: UInt, ptag: UInt): UInt = Cat(ptag, vaddr(pgUntagBits - 1, 0))
*415fcbe2Sxu_zh  def getPaddrFromPtag(vaddrVec: Vec[UInt], ptagVec: Vec[UInt]): Vec[UInt] =
*415fcbe2Sxu_zh    VecInit((vaddrVec zip ptagVec).map { case (vaddr, ptag) => getPaddrFromPtag(vaddr, ptag) })
1d8f4dcbSJay}
1d8f4dcbSJay
1d8f4dcbSJayabstract class ICacheBundle(implicit p: Parameters) extends XSBundle
1d8f4dcbSJay    with HasICacheParameters
1d8f4dcbSJay
1d8f4dcbSJayabstract class ICacheModule(implicit p: Parameters) extends XSModule
1d8f4dcbSJay    with HasICacheParameters
1d8f4dcbSJay
1d8f4dcbSJayabstract class ICacheArray(implicit p: Parameters) extends XSModule
1d8f4dcbSJay    with HasICacheParameters
1d8f4dcbSJay
1d8f4dcbSJayclass ICacheMetadata(implicit p: Parameters) extends ICacheBundle {
*415fcbe2Sxu_zh  val tag: UInt = UInt(tagBits.W)
1d8f4dcbSJay}
1d8f4dcbSJay
1d8f4dcbSJayobject ICacheMetadata {
*415fcbe2Sxu_zh  def apply(tag: Bits)(implicit p: Parameters): ICacheMetadata = {
9442775eSguohongyu    val meta = Wire(new ICacheMetadata)
1d8f4dcbSJay    meta.tag := tag
1d8f4dcbSJay    meta
1d8f4dcbSJay  }
1d8f4dcbSJay}
1d8f4dcbSJay
*415fcbe2Sxu_zhclass ICacheMetaArrayIO(implicit p: Parameters) extends ICacheBundle {
*415fcbe2Sxu_zh  val write:    DecoupledIO[ICacheMetaWriteBundle] = Flipped(DecoupledIO(new ICacheMetaWriteBundle))
*415fcbe2Sxu_zh  val read:     DecoupledIO[ICacheReadBundle]      = Flipped(DecoupledIO(new ICacheReadBundle))
*415fcbe2Sxu_zh  val readResp: ICacheMetaRespBundle               = Output(new ICacheMetaRespBundle)
*415fcbe2Sxu_zh  val flush:    Vec[Valid[ICacheMetaFlushBundle]]  = Vec(PortNumber, Flipped(ValidIO(new ICacheMetaFlushBundle)))
*415fcbe2Sxu_zh  val flushAll: Bool                               = Input(Bool())
*415fcbe2Sxu_zh}
*415fcbe2Sxu_zh
*415fcbe2Sxu_zhclass ICacheMetaArray(implicit p: Parameters) extends ICacheArray {
8966a895Sxu_zh  class ICacheMetaEntry(implicit p: Parameters) extends ICacheBundle {
8966a895Sxu_zh    val meta: ICacheMetadata = new ICacheMetadata
8966a895Sxu_zh    val code: UInt           = UInt(ICacheMetaCodeBits.W)
8966a895Sxu_zh  }
1d8f4dcbSJay
8966a895Sxu_zh  private object ICacheMetaEntry {
8966a895Sxu_zh    def apply(meta: ICacheMetadata)(implicit p: Parameters): ICacheMetaEntry = {
8966a895Sxu_zh      val entry = Wire(new ICacheMetaEntry)
8966a895Sxu_zh      entry.meta := meta
8966a895Sxu_zh      entry.code := encodeMetaECC(meta.asUInt)
8966a895Sxu_zh      entry
8966a895Sxu_zh    }
8966a895Sxu_zh  }
8966a895Sxu_zh
8966a895Sxu_zh  // sanity check
8966a895Sxu_zh  require(ICacheMetaEntryBits == (new ICacheMetaEntry).getWidth)
8966a895Sxu_zh
*415fcbe2Sxu_zh  val io: ICacheMetaArrayIO = IO(new ICacheMetaArrayIO)
afed18b5SJenius
*415fcbe2Sxu_zh  private val port_0_read_0 = io.read.valid && !io.read.bits.vSetIdx(0)(0)
*415fcbe2Sxu_zh  private val port_0_read_1 = io.read.valid && io.read.bits.vSetIdx(0)(0)
*415fcbe2Sxu_zh  private val port_1_read_1 = io.read.valid && io.read.bits.vSetIdx(1)(0) && io.read.bits.isDoubleLine
*415fcbe2Sxu_zh  private val port_1_read_0 = io.read.valid && !io.read.bits.vSetIdx(1)(0) && io.read.bits.isDoubleLine
afed18b5SJenius
*415fcbe2Sxu_zh  private val port_0_read_0_reg = RegEnable(port_0_read_0, 0.U.asTypeOf(port_0_read_0), io.read.fire)
*415fcbe2Sxu_zh  private val port_0_read_1_reg = RegEnable(port_0_read_1, 0.U.asTypeOf(port_0_read_1), io.read.fire)
*415fcbe2Sxu_zh  private val port_1_read_1_reg = RegEnable(port_1_read_1, 0.U.asTypeOf(port_1_read_1), io.read.fire)
*415fcbe2Sxu_zh  private val port_1_read_0_reg = RegEnable(port_1_read_0, 0.U.asTypeOf(port_1_read_0), io.read.fire)
afed18b5SJenius
*415fcbe2Sxu_zh  private val bank_0_idx = Mux(port_0_read_0, io.read.bits.vSetIdx(0), io.read.bits.vSetIdx(1))
*415fcbe2Sxu_zh  private val bank_1_idx = Mux(port_0_read_1, io.read.bits.vSetIdx(0), io.read.bits.vSetIdx(1))
afed18b5SJenius
*415fcbe2Sxu_zh  private val write_bank_0 = io.write.valid && !io.write.bits.bankIdx
*415fcbe2Sxu_zh  private val write_bank_1 = io.write.valid && io.write.bits.bankIdx
1d8f4dcbSJay
*415fcbe2Sxu_zh  private val write_meta_bits = ICacheMetaEntry(meta =
cf7d6b7aSMuzi    ICacheMetadata(
8966a895Sxu_zh      tag = io.write.bits.phyTag
cf7d6b7aSMuzi    )
cf7d6b7aSMuzi  )
1d8f4dcbSJay
*415fcbe2Sxu_zh  private val tagArrays = (0 until PortNumber) map { bank =>
afed18b5SJenius    val tagArray = Module(new SRAMTemplate(
8966a895Sxu_zh      new ICacheMetaEntry(),
*415fcbe2Sxu_zh      set = nSets / PortNumber,
afed18b5SJenius      way = nWays,
afed18b5SJenius      shouldReset = true,
afed18b5SJenius      holdRead = true,
39d55402Spengxiao      singlePort = true,
39d55402Spengxiao      withClockGate = true
1d8f4dcbSJay    ))
1d8f4dcbSJay
afed18b5SJenius    // meta connection
afed18b5SJenius    if (bank == 0) {
afed18b5SJenius      tagArray.io.r.req.valid := port_0_read_0 || port_1_read_0
afed18b5SJenius      tagArray.io.r.req.bits.apply(setIdx = bank_0_idx(highestIdxBit, 1))
afed18b5SJenius      tagArray.io.w.req.valid := write_bank_0
cf7d6b7aSMuzi      tagArray.io.w.req.bits.apply(
cf7d6b7aSMuzi        data = write_meta_bits,
cf7d6b7aSMuzi        setIdx = io.write.bits.virIdx(highestIdxBit, 1),
cf7d6b7aSMuzi        waymask = io.write.bits.waymask
cf7d6b7aSMuzi      )
cf7d6b7aSMuzi    } else {
afed18b5SJenius      tagArray.io.r.req.valid := port_0_read_1 || port_1_read_1
afed18b5SJenius      tagArray.io.r.req.bits.apply(setIdx = bank_1_idx(highestIdxBit, 1))
afed18b5SJenius      tagArray.io.w.req.valid := write_bank_1
cf7d6b7aSMuzi      tagArray.io.w.req.bits.apply(
cf7d6b7aSMuzi        data = write_meta_bits,
cf7d6b7aSMuzi        setIdx = io.write.bits.virIdx(highestIdxBit, 1),
cf7d6b7aSMuzi        waymask = io.write.bits.waymask
cf7d6b7aSMuzi      )
afed18b5SJenius    }
1d8f4dcbSJay
1d8f4dcbSJay    tagArray
1d8f4dcbSJay  }
b37bce8eSJinYue
*415fcbe2Sxu_zh  private val read_set_idx_next = RegEnable(io.read.bits.vSetIdx, 0.U.asTypeOf(io.read.bits.vSetIdx), io.read.fire)
*415fcbe2Sxu_zh  private val valid_array       = RegInit(VecInit(Seq.fill(nWays)(0.U(nSets.W))))
*415fcbe2Sxu_zh  private val valid_metas       = Wire(Vec(PortNumber, Vec(nWays, Bool())))
60672d5eSguohongyu  // valid read
60672d5eSguohongyu  (0 until PortNumber).foreach(i =>
60672d5eSguohongyu    (0 until nWays).foreach(way =>
60672d5eSguohongyu      valid_metas(i)(way) := valid_array(way)(read_set_idx_next(i))
cf7d6b7aSMuzi    )
cf7d6b7aSMuzi  )
60672d5eSguohongyu  io.readResp.entryValid := valid_metas
60672d5eSguohongyu
e39d6828Sxu_zh  io.read.ready := !io.write.valid && !io.flush.map(_.valid).reduce(_ || _) && !io.flushAll &&
e39d6828Sxu_zh    tagArrays.map(_.io.r.req.ready).reduce(_ && _)
afed18b5SJenius
60672d5eSguohongyu  // valid write
*415fcbe2Sxu_zh  private val way_num = OHToUInt(io.write.bits.waymask)
60672d5eSguohongyu  when(io.write.valid) {
9442775eSguohongyu    valid_array(way_num) := valid_array(way_num).bitSet(io.write.bits.virIdx, true.B)
60672d5eSguohongyu  }
1d8f4dcbSJay
9442775eSguohongyu  XSPerfAccumulate("meta_refill_num", io.write.valid)
9442775eSguohongyu
8966a895Sxu_zh  io.readResp.metas <> DontCare
8966a895Sxu_zh  io.readResp.codes <> DontCare
*415fcbe2Sxu_zh  private val readMetaEntries = tagArrays.map(port => port.io.r.resp.asTypeOf(Vec(nWays, new ICacheMetaEntry())))
*415fcbe2Sxu_zh  private val readMetas       = readMetaEntries.map(_.map(_.meta))
*415fcbe2Sxu_zh  private val readCodes       = readMetaEntries.map(_.map(_.code))
8966a895Sxu_zh
8966a895Sxu_zh  // TEST: force ECC to fail by setting readCodes to 0
8966a895Sxu_zh  if (ICacheForceMetaECCError) {
8966a895Sxu_zh    readCodes.foreach(_.foreach(_ := 0.U))
8966a895Sxu_zh  }
8966a895Sxu_zh
1d8f4dcbSJay  when(port_0_read_0_reg) {
8966a895Sxu_zh    io.readResp.metas(0) := readMetas(0)
8966a895Sxu_zh    io.readResp.codes(0) := readCodes(0)
1d8f4dcbSJay  }.elsewhen(port_0_read_1_reg) {
8966a895Sxu_zh    io.readResp.metas(0) := readMetas(1)
8966a895Sxu_zh    io.readResp.codes(0) := readCodes(1)
1d8f4dcbSJay  }
1d8f4dcbSJay
1d8f4dcbSJay  when(port_1_read_0_reg) {
8966a895Sxu_zh    io.readResp.metas(1) := readMetas(0)
8966a895Sxu_zh    io.readResp.codes(1) := readCodes(0)
1d8f4dcbSJay  }.elsewhen(port_1_read_1_reg) {
8966a895Sxu_zh    io.readResp.metas(1) := readMetas(1)
8966a895Sxu_zh    io.readResp.codes(1) := readCodes(1)
1d8f4dcbSJay  }
1d8f4dcbSJay
0c26d810Sguohongyu  io.write.ready := true.B // TODO : has bug ? should be !io.cacheOp.req.valid
2a6078bfSguohongyu
e39d6828Sxu_zh  /*
e39d6828Sxu_zh   * flush logic
e39d6828Sxu_zh   */
e39d6828Sxu_zh  // flush standalone set (e.g. flushed by mainPipe before doing re-fetch)
e39d6828Sxu_zh  when(io.flush.map(_.valid).reduce(_ || _)) {
e39d6828Sxu_zh    (0 until nWays).foreach { w =>
e39d6828Sxu_zh      valid_array(w) := (0 until PortNumber).map { i =>
e39d6828Sxu_zh        Mux(
e39d6828Sxu_zh          // check if set `virIdx` in way `w` is requested to be flushed by port `i`
e39d6828Sxu_zh          io.flush(i).valid && io.flush(i).bits.waymask(w),
e39d6828Sxu_zh          valid_array(w).bitSet(io.flush(i).bits.virIdx, false.B),
e39d6828Sxu_zh          valid_array(w)
2a6078bfSguohongyu        )
e39d6828Sxu_zh      }.reduce(_ & _)
2a6078bfSguohongyu    }
1d8f4dcbSJay  }
1d8f4dcbSJay
e39d6828Sxu_zh  // flush all (e.g. fence.i)
e39d6828Sxu_zh  when(io.flushAll) {
e39d6828Sxu_zh    (0 until nWays).foreach(w => valid_array(w) := 0.U)
e39d6828Sxu_zh  }
e39d6828Sxu_zh
e39d6828Sxu_zh  // PERF: flush counter
e39d6828Sxu_zh  XSPerfAccumulate("flush", io.flush.map(_.valid).reduce(_ || _))
e39d6828Sxu_zh  XSPerfAccumulate("flush_all", io.flushAll)
e39d6828Sxu_zh}
e39d6828Sxu_zh
*415fcbe2Sxu_zhclass ICacheDataArrayIO(implicit p: Parameters) extends ICacheBundle {
*415fcbe2Sxu_zh  val write:    DecoupledIO[ICacheDataWriteBundle] = Flipped(DecoupledIO(new ICacheDataWriteBundle))
*415fcbe2Sxu_zh  val read:     Vec[DecoupledIO[ICacheReadBundle]] = Flipped(Vec(partWayNum, DecoupledIO(new ICacheReadBundle)))
*415fcbe2Sxu_zh  val readResp: ICacheDataRespBundle               = Output(new ICacheDataRespBundle)
e5f1252bSGuokai Chen}
b37bce8eSJinYue
*415fcbe2Sxu_zhclass ICacheDataArray(implicit p: Parameters) extends ICacheArray {
*415fcbe2Sxu_zh  class ICacheDataEntry(implicit p: Parameters) extends ICacheBundle {
*415fcbe2Sxu_zh    val data: UInt = UInt(ICacheDataBits.W)
*415fcbe2Sxu_zh    val code: UInt = UInt(ICacheDataCodeBits.W)
*415fcbe2Sxu_zh  }
*415fcbe2Sxu_zh
*415fcbe2Sxu_zh  private object ICacheDataEntry {
*415fcbe2Sxu_zh    def apply(data: UInt)(implicit p: Parameters): ICacheDataEntry = {
b92f8445Sssszwic      val entry = Wire(new ICacheDataEntry)
b92f8445Sssszwic      entry.data := data
8966a895Sxu_zh      entry.code := encodeDataECC(data)
b92f8445Sssszwic      entry
b37bce8eSJinYue    }
b92f8445Sssszwic  }
a61a35e0Sssszwic
*415fcbe2Sxu_zh  val io: ICacheDataArrayIO = IO(new ICacheDataArrayIO)
b92f8445Sssszwic
a61a35e0Sssszwic  /**
a61a35e0Sssszwic    ******************************************************************************
a61a35e0Sssszwic    * data array
a61a35e0Sssszwic    ******************************************************************************
a61a35e0Sssszwic    */
*415fcbe2Sxu_zh  private val writeDatas   = io.write.bits.data.asTypeOf(Vec(ICacheDataBanks, UInt(ICacheDataBits.W)))
*415fcbe2Sxu_zh  private val writeEntries = writeDatas.map(ICacheDataEntry(_).asUInt)
b92f8445Sssszwic
*415fcbe2Sxu_zh  // io.read() are copies to control fan-out, we can simply use .head here
*415fcbe2Sxu_zh  private val bankSel  = getBankSel(io.read.head.bits.blkOffset, io.read.head.valid)
*415fcbe2Sxu_zh  private val lineSel  = getLineSel(io.read.head.bits.blkOffset)
*415fcbe2Sxu_zh  private val waymasks = io.read.head.bits.waymask
*415fcbe2Sxu_zh  private val masks    = Wire(Vec(nWays, Vec(ICacheDataBanks, Bool())))
b92f8445Sssszwic  (0 until nWays).foreach { way =>
b92f8445Sssszwic    (0 until ICacheDataBanks).foreach { bank =>
cf7d6b7aSMuzi      masks(way)(bank) := Mux(
cf7d6b7aSMuzi        lineSel(bank),
cf7d6b7aSMuzi        waymasks(1)(way) && bankSel(1)(bank).asBool,
cf7d6b7aSMuzi        waymasks(0)(way) && bankSel(0)(bank).asBool
cf7d6b7aSMuzi      )
b92f8445Sssszwic    }
b92f8445Sssszwic  }
b92f8445Sssszwic
*415fcbe2Sxu_zh  private val dataArrays = (0 until nWays).map { way =>
b92f8445Sssszwic    (0 until ICacheDataBanks).map { bank =>
b92f8445Sssszwic      val sramBank = Module(new SRAMTemplateWithFixedWidth(
8966a895Sxu_zh        UInt(ICacheDataEntryBits.W),
a61a35e0Sssszwic        set = nSets,
b92f8445Sssszwic        width = ICacheDataSRAMWidth,
a61a35e0Sssszwic        shouldReset = true,
a61a35e0Sssszwic        holdRead = true,
39d55402Spengxiao        singlePort = true,
39d55402Spengxiao        withClockGate = true
1d8f4dcbSJay      ))
1d8f4dcbSJay
b92f8445Sssszwic      // read
b92f8445Sssszwic      sramBank.io.r.req.valid := io.read(bank % 4).valid && masks(way)(bank)
cf7d6b7aSMuzi      sramBank.io.r.req.bits.apply(setIdx =
cf7d6b7aSMuzi        Mux(lineSel(bank), io.read(bank % 4).bits.vSetIdx(1), io.read(bank % 4).bits.vSetIdx(0))
cf7d6b7aSMuzi      )
b92f8445Sssszwic      // write
b92f8445Sssszwic      sramBank.io.w.req.valid := io.write.valid && io.write.bits.waymask(way).asBool
a61a35e0Sssszwic      sramBank.io.w.req.bits.apply(
b92f8445Sssszwic        data = writeEntries(bank),
a61a35e0Sssszwic        setIdx = io.write.bits.virIdx,
b92f8445Sssszwic        // waymask is invalid when way of SRAMTemplate <= 1
b92f8445Sssszwic        waymask = 0.U
a61a35e0Sssszwic      )
a61a35e0Sssszwic      sramBank
adc7b752SJenius    }
adc7b752SJenius  }
adc7b752SJenius
a61a35e0Sssszwic  /**
a61a35e0Sssszwic    ******************************************************************************
a61a35e0Sssszwic    * read logic
a61a35e0Sssszwic    ******************************************************************************
a61a35e0Sssszwic    */
*415fcbe2Sxu_zh  private val masksReg = RegEnable(masks, 0.U.asTypeOf(masks), io.read(0).valid)
*415fcbe2Sxu_zh  private val readDataWithCode = (0 until ICacheDataBanks).map { bank =>
cf7d6b7aSMuzi    Mux1H(VecInit(masksReg.map(_(bank))).asTypeOf(UInt(nWays.W)), dataArrays.map(_(bank).io.r.resp.asUInt))
*415fcbe2Sxu_zh  }
*415fcbe2Sxu_zh  private val readEntries = readDataWithCode.map(_.asTypeOf(new ICacheDataEntry()))
*415fcbe2Sxu_zh  private val readDatas   = VecInit(readEntries.map(_.data))
*415fcbe2Sxu_zh  private val readCodes   = VecInit(readEntries.map(_.code))
19d62fa1SJenius
b92f8445Sssszwic  // TEST: force ECC to fail by setting readCodes to 0
b92f8445Sssszwic  if (ICacheForceDataECCError) {
b92f8445Sssszwic    readCodes.foreach(_ := 0.U)
c157cf71SGuokai Chen  }
c157cf71SGuokai Chen
a61a35e0Sssszwic  /**
a61a35e0Sssszwic    ******************************************************************************
a61a35e0Sssszwic    * IO
a61a35e0Sssszwic    ******************************************************************************
a61a35e0Sssszwic    */
b92f8445Sssszwic  io.readResp.datas := readDatas
b92f8445Sssszwic  io.readResp.codes := readCodes
1d8f4dcbSJay  io.write.ready    := true.B
b92f8445Sssszwic  io.read.foreach(_.ready := !io.write.valid)
1d8f4dcbSJay}
1d8f4dcbSJay
*415fcbe2Sxu_zhclass ICacheReplacerIO(implicit p: Parameters) extends ICacheBundle {
*415fcbe2Sxu_zh  val touch:  Vec[Valid[ReplacerTouch]] = Vec(PortNumber, Flipped(ValidIO(new ReplacerTouch)))
*415fcbe2Sxu_zh  val victim: ReplacerVictim            = Flipped(new ReplacerVictim)
*415fcbe2Sxu_zh}
b92f8445Sssszwic
*415fcbe2Sxu_zhclass ICacheReplacer(implicit p: Parameters) extends ICacheModule {
*415fcbe2Sxu_zh  val io: ICacheReplacerIO = IO(new ICacheReplacerIO)
*415fcbe2Sxu_zh
*415fcbe2Sxu_zh  private val replacers =
*415fcbe2Sxu_zh    Seq.fill(PortNumber)(ReplacementPolicy.fromString(cacheParams.replacer, nWays, nSets / PortNumber))
b92f8445Sssszwic
b92f8445Sssszwic  // touch
*415fcbe2Sxu_zh  private val touch_sets = Seq.fill(PortNumber)(Wire(Vec(PortNumber, UInt(log2Ceil(nSets / PortNumber).W))))
*415fcbe2Sxu_zh  private val touch_ways = Seq.fill(PortNumber)(Wire(Vec(PortNumber, Valid(UInt(wayBits.W)))))
b92f8445Sssszwic  (0 until PortNumber).foreach { i =>
cf7d6b7aSMuzi    touch_sets(i)(0) := Mux(
cf7d6b7aSMuzi      io.touch(i).bits.vSetIdx(0),
cf7d6b7aSMuzi      io.touch(1).bits.vSetIdx(highestIdxBit, 1),
cf7d6b7aSMuzi      io.touch(0).bits.vSetIdx(highestIdxBit, 1)
cf7d6b7aSMuzi    )
b92f8445Sssszwic    touch_ways(i)(0).bits  := Mux(io.touch(i).bits.vSetIdx(0), io.touch(1).bits.way, io.touch(0).bits.way)
b92f8445Sssszwic    touch_ways(i)(0).valid := Mux(io.touch(i).bits.vSetIdx(0), io.touch(1).valid, io.touch(0).valid)
b92f8445Sssszwic  }
b92f8445Sssszwic
b92f8445Sssszwic  // victim
cf7d6b7aSMuzi  io.victim.way := Mux(
cf7d6b7aSMuzi    io.victim.vSetIdx.bits(0),
b92f8445Sssszwic    replacers(1).way(io.victim.vSetIdx.bits(highestIdxBit, 1)),
cf7d6b7aSMuzi    replacers(0).way(io.victim.vSetIdx.bits(highestIdxBit, 1))
cf7d6b7aSMuzi  )
b92f8445Sssszwic
b92f8445Sssszwic  // touch the victim in next cycle
*415fcbe2Sxu_zh  private val victim_vSetIdx_reg =
cf7d6b7aSMuzi    RegEnable(io.victim.vSetIdx.bits, 0.U.asTypeOf(io.victim.vSetIdx.bits), io.victim.vSetIdx.valid)
*415fcbe2Sxu_zh  private val victim_way_reg = RegEnable(io.victim.way, 0.U.asTypeOf(io.victim.way), io.victim.vSetIdx.valid)
b92f8445Sssszwic  (0 until PortNumber).foreach { i =>
b92f8445Sssszwic    touch_sets(i)(1)       := victim_vSetIdx_reg(highestIdxBit, 1)
b92f8445Sssszwic    touch_ways(i)(1).bits  := victim_way_reg
b92f8445Sssszwic    touch_ways(i)(1).valid := RegNext(io.victim.vSetIdx.valid) && (victim_vSetIdx_reg(0) === i.U)
b92f8445Sssszwic  }
b92f8445Sssszwic
*415fcbe2Sxu_zh  ((replacers zip touch_sets) zip touch_ways).foreach { case ((r, s), w) => r.access(s, w) }
b92f8445Sssszwic}
b92f8445Sssszwic
cf7d6b7aSMuziclass ICacheIO(implicit p: Parameters) extends ICacheBundle {
*415fcbe2Sxu_zh  val hartId: UInt = Input(UInt(hartIdLen.W))
*415fcbe2Sxu_zh  // FTQ
*415fcbe2Sxu_zh  val fetch:       ICacheMainPipeBundle = new ICacheMainPipeBundle
*415fcbe2Sxu_zh  val ftqPrefetch: FtqToPrefetchIO      = Flipped(new FtqToPrefetchIO)
*415fcbe2Sxu_zh  // memblock
*415fcbe2Sxu_zh  val softPrefetch: Vec[Valid[SoftIfetchPrefetchBundle]] =
*415fcbe2Sxu_zh    Vec(backendParams.LduCnt, Flipped(Valid(new SoftIfetchPrefetchBundle)))
*415fcbe2Sxu_zh  // IFU
*415fcbe2Sxu_zh  val stop:  Bool = Input(Bool())
*415fcbe2Sxu_zh  val toIFU: Bool = Output(Bool())
*415fcbe2Sxu_zh  // PMP: mainPipe & prefetchPipe need PortNumber each
*415fcbe2Sxu_zh  val pmp: Vec[ICachePMPBundle] = Vec(2 * PortNumber, new ICachePMPBundle)
*415fcbe2Sxu_zh  // iTLB
*415fcbe2Sxu_zh  val itlb: Vec[TlbRequestIO] = Vec(PortNumber, new TlbRequestIO)
*415fcbe2Sxu_zh  // backend/BEU
*415fcbe2Sxu_zh  val error: Valid[L1CacheErrorInfo] = ValidIO(new L1CacheErrorInfo)
*415fcbe2Sxu_zh  // backend/CSR
*415fcbe2Sxu_zh  val csr_pf_enable:     Bool = Input(Bool())
*415fcbe2Sxu_zh  val csr_parity_enable: Bool = Input(Bool())
*415fcbe2Sxu_zh  // flush
*415fcbe2Sxu_zh  val fencei: Bool = Input(Bool())
*415fcbe2Sxu_zh  val flush:  Bool = Input(Bool())
*415fcbe2Sxu_zh
*415fcbe2Sxu_zh  // perf
*415fcbe2Sxu_zh  val perfInfo: ICachePerfInfo = Output(new ICachePerfInfo)
1d8f4dcbSJay}
1d8f4dcbSJay
1d8f4dcbSJayclass ICache()(implicit p: Parameters) extends LazyModule with HasICacheParameters {
95e60e55STang Haojin  override def shouldBeInlined: Boolean = false
1d8f4dcbSJay
*415fcbe2Sxu_zh  val clientParameters: TLMasterPortParameters = TLMasterPortParameters.v1(
1d8f4dcbSJay    Seq(TLMasterParameters.v1(
1d8f4dcbSJay      name = "icache",
cf7d6b7aSMuzi      sourceId = IdRange(0, cacheParams.nFetchMshr + cacheParams.nPrefetchMshr + 1)
1d8f4dcbSJay    )),
1d8f4dcbSJay    requestFields = cacheParams.reqFields,
1d8f4dcbSJay    echoFields = cacheParams.echoFields
1d8f4dcbSJay  )
1d8f4dcbSJay
*415fcbe2Sxu_zh  val clientNode: TLClientNode = TLClientNode(Seq(clientParameters))
1d8f4dcbSJay
*415fcbe2Sxu_zh  lazy val module: ICacheImp = new ICacheImp(this)
1d8f4dcbSJay}
1d8f4dcbSJay
1ca0e4f3SYinan Xuclass ICacheImp(outer: ICache) extends LazyModuleImp(outer) with HasICacheParameters with HasPerfEvents {
*415fcbe2Sxu_zh  val io: ICacheIO = IO(new ICacheIO)
1d8f4dcbSJay
7052722fSJay  println("ICache:")
b92f8445Sssszwic  println("  TagECC: " + cacheParams.tagECC)
b92f8445Sssszwic  println("  DataECC: " + cacheParams.dataECC)
7052722fSJay  println("  ICacheSets: " + cacheParams.nSets)
7052722fSJay  println("  ICacheWays: " + cacheParams.nWays)
b92f8445Sssszwic  println("  PortNumber: " + cacheParams.PortNumber)
b92f8445Sssszwic  println("  nFetchMshr: " + cacheParams.nFetchMshr)
b92f8445Sssszwic  println("  nPrefetchMshr: " + cacheParams.nPrefetchMshr)
b92f8445Sssszwic  println("  nWayLookupSize: " + cacheParams.nWayLookupSize)
b92f8445Sssszwic  println("  DataCodeUnit: " + cacheParams.DataCodeUnit)
b92f8445Sssszwic  println("  ICacheDataBanks: " + cacheParams.ICacheDataBanks)
b92f8445Sssszwic  println("  ICacheDataSRAMWidth: " + cacheParams.ICacheDataSRAMWidth)
7052722fSJay
1d8f4dcbSJay  val (bus, edge) = outer.clientNode.out.head
1d8f4dcbSJay
*415fcbe2Sxu_zh  private val metaArray  = Module(new ICacheMetaArray)
*415fcbe2Sxu_zh  private val dataArray  = Module(new ICacheDataArray)
*415fcbe2Sxu_zh  private val mainPipe   = Module(new ICacheMainPipe)
*415fcbe2Sxu_zh  private val missUnit   = Module(new ICacheMissUnit(edge))
*415fcbe2Sxu_zh  private val replacer   = Module(new ICacheReplacer)
*415fcbe2Sxu_zh  private val prefetcher = Module(new IPrefetchPipe)
*415fcbe2Sxu_zh  private val wayLookup  = Module(new WayLookup)
1d8f4dcbSJay
b92f8445Sssszwic  dataArray.io.write <> missUnit.io.data_write
b92f8445Sssszwic  dataArray.io.read <> mainPipe.io.dataArray.toIData
b92f8445Sssszwic  dataArray.io.readResp <> mainPipe.io.dataArray.fromIData
cb6e5d3cSssszwic
e39d6828Sxu_zh  metaArray.io.flushAll := io.fencei
e39d6828Sxu_zh  metaArray.io.flush <> mainPipe.io.metaArrayFlush
b92f8445Sssszwic  metaArray.io.write <> missUnit.io.meta_write
b92f8445Sssszwic  metaArray.io.read <> prefetcher.io.metaRead.toIMeta
b92f8445Sssszwic  metaArray.io.readResp <> prefetcher.io.metaRead.fromIMeta
cb6e5d3cSssszwic
b92f8445Sssszwic  prefetcher.io.flush             := io.flush
b92f8445Sssszwic  prefetcher.io.csr_pf_enable     := io.csr_pf_enable
f80535c3Sxu_zh  prefetcher.io.csr_parity_enable := io.csr_parity_enable
b92f8445Sssszwic  prefetcher.io.MSHRResp          := missUnit.io.fetch_resp
2c9f4a9fSxu_zh  prefetcher.io.flushFromBpu      := io.ftqPrefetch.flushFromBpu
2c9f4a9fSxu_zh  // cache softPrefetch
2c9f4a9fSxu_zh  private val softPrefetchValid = RegInit(false.B)
2c9f4a9fSxu_zh  private val softPrefetch      = RegInit(0.U.asTypeOf(new IPrefetchReq))
2c9f4a9fSxu_zh  /* FIXME:
2c9f4a9fSxu_zh   * If there is already a pending softPrefetch request, it will be overwritten.
2c9f4a9fSxu_zh   * Also, if there are multiple softPrefetch requests in the same cycle, only the first one will be accepted.
2c9f4a9fSxu_zh   * We should implement a softPrefetchQueue (like ibuffer, multi-in, single-out) to solve this.
2c9f4a9fSxu_zh   * However, the impact on performance still needs to be assessed.
2c9f4a9fSxu_zh   * Considering that the frequency of prefetch.i may not be high, let's start with a temporary dummy solution.
2c9f4a9fSxu_zh   */
2c9f4a9fSxu_zh  when(io.softPrefetch.map(_.valid).reduce(_ || _)) {
2c9f4a9fSxu_zh    softPrefetchValid := true.B
2c9f4a9fSxu_zh    softPrefetch.fromSoftPrefetch(MuxCase(
2c9f4a9fSxu_zh      0.U.asTypeOf(new SoftIfetchPrefetchBundle),
cf7d6b7aSMuzi      io.softPrefetch.map(req => req.valid -> req.bits)
2c9f4a9fSxu_zh    ))
2c9f4a9fSxu_zh  }.elsewhen(prefetcher.io.req.fire) {
2c9f4a9fSxu_zh    softPrefetchValid := false.B
2c9f4a9fSxu_zh  }
2c9f4a9fSxu_zh  // pass ftqPrefetch
2c9f4a9fSxu_zh  private val ftqPrefetch = WireInit(0.U.asTypeOf(new IPrefetchReq))
2c9f4a9fSxu_zh  ftqPrefetch.fromFtqICacheInfo(io.ftqPrefetch.req.bits)
2c9f4a9fSxu_zh  // software prefetch has higher priority
2c9f4a9fSxu_zh  prefetcher.io.req.valid                 := softPrefetchValid || io.ftqPrefetch.req.valid
2c9f4a9fSxu_zh  prefetcher.io.req.bits                  := Mux(softPrefetchValid, softPrefetch, ftqPrefetch)
fbdb359dSMuzi  prefetcher.io.req.bits.backendException := io.ftqPrefetch.backendException
2c9f4a9fSxu_zh  io.ftqPrefetch.req.ready                := prefetcher.io.req.ready && !softPrefetchValid
fd16c454SJenius
b92f8445Sssszwic  missUnit.io.hartId := io.hartId
b92f8445Sssszwic  missUnit.io.fencei := io.fencei
b92f8445Sssszwic  missUnit.io.flush  := io.flush
b92f8445Sssszwic  missUnit.io.fetch_req <> mainPipe.io.mshr.req
b92f8445Sssszwic  missUnit.io.prefetch_req <> prefetcher.io.MSHRReq
b92f8445Sssszwic  missUnit.io.mem_grant.valid := false.B
b92f8445Sssszwic  missUnit.io.mem_grant.bits  := DontCare
b92f8445Sssszwic  missUnit.io.mem_grant <> bus.d
b92f8445Sssszwic
b92f8445Sssszwic  mainPipe.io.flush             := io.flush
cb6e5d3cSssszwic  mainPipe.io.respStall         := io.stop
ecccf78fSJay  mainPipe.io.csr_parity_enable := io.csr_parity_enable
cb6e5d3cSssszwic  mainPipe.io.hartId            := io.hartId
b92f8445Sssszwic  mainPipe.io.mshr.resp         := missUnit.io.fetch_resp
b92f8445Sssszwic  mainPipe.io.fetch.req <> io.fetch.req
b92f8445Sssszwic  mainPipe.io.wayLookupRead <> wayLookup.io.read
b92f8445Sssszwic
b92f8445Sssszwic  wayLookup.io.flush := io.flush
b92f8445Sssszwic  wayLookup.io.write <> prefetcher.io.wayLookupWrite
b92f8445Sssszwic  wayLookup.io.update := missUnit.io.fetch_resp
b92f8445Sssszwic
b92f8445Sssszwic  replacer.io.touch <> mainPipe.io.touch
b92f8445Sssszwic  replacer.io.victim <> missUnit.io.victim
7052722fSJay
61e1db30SJay  io.pmp(0) <> mainPipe.io.pmp(0)
61e1db30SJay  io.pmp(1) <> mainPipe.io.pmp(1)
b92f8445Sssszwic  io.pmp(2) <> prefetcher.io.pmp(0)
b92f8445Sssszwic  io.pmp(3) <> prefetcher.io.pmp(1)
7052722fSJay
b92f8445Sssszwic  io.itlb(0) <> prefetcher.io.itlb(0)
b92f8445Sssszwic  io.itlb(1) <> prefetcher.io.itlb(1)
7052722fSJay
cb6e5d3cSssszwic  // notify IFU that Icache pipeline is available
cb6e5d3cSssszwic  io.toIFU    := mainPipe.io.fetch.req.ready
cb6e5d3cSssszwic  io.perfInfo := mainPipe.io.perfInfo
1d8f4dcbSJay
c5c5edaeSJenius  io.fetch.resp <> mainPipe.io.fetch.resp
d2b20d1aSTang Haojin  io.fetch.topdownIcacheMiss := mainPipe.io.fetch.topdownIcacheMiss
d2b20d1aSTang Haojin  io.fetch.topdownItlbMiss   := mainPipe.io.fetch.topdownItlbMiss
c5c5edaeSJenius
1d8f4dcbSJay  bus.b.ready := false.B
1d8f4dcbSJay  bus.c.valid := false.B
1d8f4dcbSJay  bus.c.bits  := DontCare
1d8f4dcbSJay  bus.e.valid := false.B
1d8f4dcbSJay  bus.e.bits  := DontCare
1d8f4dcbSJay
1d8f4dcbSJay  bus.a <> missUnit.io.mem_acquire
1d8f4dcbSJay
58dbdfc2SJay  // Parity error port
*415fcbe2Sxu_zh  private val errors       = mainPipe.io.errors
*415fcbe2Sxu_zh  private val errors_valid = errors.map(e => e.valid).reduce(_ | _)
b3c35820Sxu_zh  io.error.bits <> RegEnable(
b3c35820Sxu_zh    PriorityMux(errors.map(e => e.valid -> e.bits)),
b3c35820Sxu_zh    0.U.asTypeOf(errors(0).bits),
b3c35820Sxu_zh    errors_valid
b3c35820Sxu_zh  )
b92f8445Sssszwic  io.error.valid := RegNext(errors_valid, false.B)
2a6078bfSguohongyu
cf7d6b7aSMuzi  XSPerfAccumulate(
cf7d6b7aSMuzi    "softPrefetch_drop_not_ready",
cf7d6b7aSMuzi    io.softPrefetch.map(_.valid).reduce(_ || _) && softPrefetchValid && !prefetcher.io.req.fire
cf7d6b7aSMuzi  )
2c9f4a9fSxu_zh  XSPerfAccumulate("softPrefetch_drop_multi_req", PopCount(io.softPrefetch.map(_.valid)) > 1.U)
2c9f4a9fSxu_zh  XSPerfAccumulate("softPrefetch_block_ftq", softPrefetchValid && io.ftqPrefetch.req.valid)
2c9f4a9fSxu_zh
*415fcbe2Sxu_zh  val perfEvents: Seq[(String, Bool)] = Seq(
1d8f4dcbSJay    ("icache_miss_cnt  ", false.B),
cf7d6b7aSMuzi    ("icache_miss_penalty", BoolStopWatch(start = false.B, stop = false.B || false.B, startHighPriority = true))
1d8f4dcbSJay  )
1ca0e4f3SYinan Xu  generatePerfEvent()
adc7b752SJenius}
adc7b752SJenius
*415fcbe2Sxu_zh//class ICachePartWayReadBundle[T <: Data](gen: T, pWay: Int)(implicit p: Parameters)
*415fcbe2Sxu_zh//    extends ICacheBundle {
*415fcbe2Sxu_zh//  val req = Flipped(Vec(
*415fcbe2Sxu_zh//    PortNumber,
*415fcbe2Sxu_zh//    Decoupled(new Bundle {
*415fcbe2Sxu_zh//      val ridx = UInt((log2Ceil(nSets) - 1).W)
*415fcbe2Sxu_zh//    })
*415fcbe2Sxu_zh//  ))
*415fcbe2Sxu_zh//  val resp = Output(new Bundle {
*415fcbe2Sxu_zh//    val rdata = Vec(PortNumber, Vec(pWay, gen))
*415fcbe2Sxu_zh//  })
*415fcbe2Sxu_zh//}
adc7b752SJenius
*415fcbe2Sxu_zh//class ICacheWriteBundle[T <: Data](gen: T, pWay: Int)(implicit p: Parameters)
*415fcbe2Sxu_zh//    extends ICacheBundle {
*415fcbe2Sxu_zh//  val wdata    = gen
*415fcbe2Sxu_zh//  val widx     = UInt((log2Ceil(nSets) - 1).W)
*415fcbe2Sxu_zh//  val wbankidx = Bool()
*415fcbe2Sxu_zh//  val wmask    = Vec(pWay, Bool())
*415fcbe2Sxu_zh//}
adc7b752SJenius
*415fcbe2Sxu_zh//class ICachePartWayArray[T <: Data](gen: T, pWay: Int)(implicit p: Parameters) extends ICacheArray {
*415fcbe2Sxu_zh//
*415fcbe2Sxu_zh//  // including part way data
*415fcbe2Sxu_zh//  val io = IO {
*415fcbe2Sxu_zh//    new Bundle {
*415fcbe2Sxu_zh//      val read  = new ICachePartWayReadBundle(gen, pWay)
*415fcbe2Sxu_zh//      val write = Flipped(ValidIO(new ICacheWriteBundle(gen, pWay)))
*415fcbe2Sxu_zh//    }
*415fcbe2Sxu_zh//  }
*415fcbe2Sxu_zh//
*415fcbe2Sxu_zh//  io.read.req.map(_.ready := !io.write.valid)
*415fcbe2Sxu_zh//
*415fcbe2Sxu_zh//  val srams = (0 until PortNumber) map { bank =>
*415fcbe2Sxu_zh//    val sramBank = Module(new SRAMTemplate(
*415fcbe2Sxu_zh//      gen,
*415fcbe2Sxu_zh//      set = nSets / 2,
*415fcbe2Sxu_zh//      way = pWay,
*415fcbe2Sxu_zh//      shouldReset = true,
*415fcbe2Sxu_zh//      holdRead = true,
*415fcbe2Sxu_zh//      singlePort = true,
*415fcbe2Sxu_zh//      withClockGate = true
*415fcbe2Sxu_zh//    ))
*415fcbe2Sxu_zh//
*415fcbe2Sxu_zh//    sramBank.io.r.req.valid := io.read.req(bank).valid
*415fcbe2Sxu_zh//    sramBank.io.r.req.bits.apply(setIdx = io.read.req(bank).bits.ridx)
*415fcbe2Sxu_zh//
*415fcbe2Sxu_zh//    if (bank == 0) sramBank.io.w.req.valid := io.write.valid && !io.write.bits.wbankidx
*415fcbe2Sxu_zh//    else sramBank.io.w.req.valid           := io.write.valid && io.write.bits.wbankidx
*415fcbe2Sxu_zh//    sramBank.io.w.req.bits.apply(
*415fcbe2Sxu_zh//      data = io.write.bits.wdata,
*415fcbe2Sxu_zh//      setIdx = io.write.bits.widx,
*415fcbe2Sxu_zh//      waymask = io.write.bits.wmask.asUInt
*415fcbe2Sxu_zh//    )
*415fcbe2Sxu_zh//
*415fcbe2Sxu_zh//    sramBank
*415fcbe2Sxu_zh//  }
*415fcbe2Sxu_zh//
*415fcbe2Sxu_zh//  io.read.req.map(_.ready := !io.write.valid && srams.map(_.io.r.req.ready).reduce(_ && _))
*415fcbe2Sxu_zh//
*415fcbe2Sxu_zh//  io.read.resp.rdata := VecInit(srams.map(bank => bank.io.r.resp.asTypeOf(Vec(pWay, gen))))
*415fcbe2Sxu_zh//
*415fcbe2Sxu_zh//}
adc7b752SJenius
*415fcbe2Sxu_zhclass SRAMTemplateWithFixedWidthIO[T <: Data](gen: T, set: Int, way: Int) extends Bundle {
*415fcbe2Sxu_zh  val r: SRAMReadBus[T]  = Flipped(new SRAMReadBus(gen, set, way))
*415fcbe2Sxu_zh  val w: SRAMWriteBus[T] = Flipped(new SRAMWriteBus(gen, set, way))
1d8f4dcbSJay}
b92f8445Sssszwic
b92f8445Sssszwic// Automatically partition the SRAM based on the width of the data and the desired width.
b92f8445Sssszwic// final SRAM width = width * way
cf7d6b7aSMuziclass SRAMTemplateWithFixedWidth[T <: Data](
cf7d6b7aSMuzi    gen:           T,
cf7d6b7aSMuzi    set:           Int,
cf7d6b7aSMuzi    width:         Int,
cf7d6b7aSMuzi    way:           Int = 1,
cf7d6b7aSMuzi    shouldReset:   Boolean = false,
cf7d6b7aSMuzi    holdRead:      Boolean = false,
cf7d6b7aSMuzi    singlePort:    Boolean = false,
39d55402Spengxiao    bypassWrite:   Boolean = false,
39d55402Spengxiao    withClockGate: Boolean = false
b92f8445Sssszwic) extends Module {
b92f8445Sssszwic
*415fcbe2Sxu_zh  private val dataBits  = gen.getWidth
*415fcbe2Sxu_zh  private val bankNum   = math.ceil(dataBits.toDouble / width.toDouble).toInt
*415fcbe2Sxu_zh  private val totalBits = bankNum * width
b92f8445Sssszwic
*415fcbe2Sxu_zh  val io: SRAMTemplateWithFixedWidthIO[T] = IO(new SRAMTemplateWithFixedWidthIO(gen, set, way))
b92f8445Sssszwic
*415fcbe2Sxu_zh  private val wordType = UInt(width.W)
*415fcbe2Sxu_zh  private val writeDatas = (0 until bankNum).map { bank =>
*415fcbe2Sxu_zh    VecInit((0 until way).map { i =>
b92f8445Sssszwic      io.w.req.bits.data(i).asTypeOf(UInt(totalBits.W)).asTypeOf(Vec(bankNum, wordType))(bank)
*415fcbe2Sxu_zh    })
*415fcbe2Sxu_zh  }
b92f8445Sssszwic
*415fcbe2Sxu_zh  private val srams = (0 until bankNum) map { bank =>
b92f8445Sssszwic    val sramBank = Module(new SRAMTemplate(
b92f8445Sssszwic      wordType,
b92f8445Sssszwic      set = set,
b92f8445Sssszwic      way = way,
b92f8445Sssszwic      shouldReset = shouldReset,
b92f8445Sssszwic      holdRead = holdRead,
b92f8445Sssszwic      singlePort = singlePort,
39d55402Spengxiao      bypassWrite = bypassWrite,
39d55402Spengxiao      withClockGate = withClockGate
b92f8445Sssszwic    ))
b92f8445Sssszwic    // read req
b92f8445Sssszwic    sramBank.io.r.req.valid       := io.r.req.valid
b92f8445Sssszwic    sramBank.io.r.req.bits.setIdx := io.r.req.bits.setIdx
b92f8445Sssszwic
b92f8445Sssszwic    // write req
b92f8445Sssszwic    sramBank.io.w.req.valid       := io.w.req.valid
b92f8445Sssszwic    sramBank.io.w.req.bits.setIdx := io.w.req.bits.setIdx
b92f8445Sssszwic    sramBank.io.w.req.bits.data   := writeDatas(bank)
*415fcbe2Sxu_zh    sramBank.io.w.req.bits.waymask.foreach(_ := io.w.req.bits.waymask.get)
b92f8445Sssszwic
b92f8445Sssszwic    sramBank
b92f8445Sssszwic  }
b92f8445Sssszwic
b92f8445Sssszwic  io.r.req.ready := !io.w.req.valid
b92f8445Sssszwic  (0 until way).foreach { i =>
b92f8445Sssszwic    io.r.resp.data(i) := VecInit((0 until bankNum).map(bank =>
b92f8445Sssszwic      srams(bank).io.r.resp.data(i)
b92f8445Sssszwic    )).asTypeOf(UInt(totalBits.W))(dataBits - 1, 0).asTypeOf(gen.cloneType)
b92f8445Sssszwic  }
b92f8445Sssszwic
b92f8445Sssszwic  io.r.req.ready := srams.head.io.r.req.ready
b92f8445Sssszwic  io.w.req.ready := srams.head.io.w.req.ready
b92f8445Sssszwic}