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.regfile 185844fcf0SLinJiawei 192225d46eSJiawei Linimport chipsalliance.rocketchip.config.Parameters 205844fcf0SLinJiaweiimport chisel3._ 215844fcf0SLinJiaweiimport chisel3.util._ 225844fcf0SLinJiaweiimport xiangshan._ 23730cfbc0SXuan Huimport xiangshan.backend.datapath.DataConfig.{DataConfig, FpData, IntData, VecData} 24730cfbc0SXuan Huimport xiangshan.backend.Bundles.IssueQueueWakeUpBundle 255844fcf0SLinJiawei 26027c9765SXuan Huclass RfReadPort(dataWidth: Int, addrWidth: Int) extends Bundle { 279ab1568eSczw val addr = Input(UInt(addrWidth.W)) 289ab1568eSczw val data = Output(UInt(dataWidth.W)) 295844fcf0SLinJiawei} 305844fcf0SLinJiawei 31027c9765SXuan Huclass RfWritePort(dataWidth: Int, addrWidth: Int) extends Bundle { 325844fcf0SLinJiawei val wen = Input(Bool()) 339ab1568eSczw val addr = Input(UInt(addrWidth.W)) 349ab1568eSczw val data = Input(UInt(dataWidth.W)) 355844fcf0SLinJiawei} 365844fcf0SLinJiawei 37730cfbc0SXuan Huclass RfReadPortWithConfig(val rfReadDataCfg: DataConfig, addrWidth: Int) extends Bundle { 38730cfbc0SXuan Hu val addr: UInt = Input(UInt(addrWidth.W)) 39730cfbc0SXuan Hu val data: UInt = Output(UInt(rfReadDataCfg.dataWidth.W)) 40730cfbc0SXuan Hu val srcType: UInt = Input(UInt(3.W)) 41730cfbc0SXuan Hu 42730cfbc0SXuan Hu def readInt: Boolean = rfReadDataCfg.isInstanceOf[IntData] 43730cfbc0SXuan Hu def readFp : Boolean = rfReadDataCfg.isInstanceOf[FpData] 44730cfbc0SXuan Hu def readVec: Boolean = rfReadDataCfg.isInstanceOf[VecData] 45730cfbc0SXuan Hu} 46730cfbc0SXuan Hu 47730cfbc0SXuan Huclass RfWritePortWithConfig(val rfWriteDataCfg: DataConfig, addrWidth: Int) extends Bundle { 48730cfbc0SXuan Hu val wen = Input(Bool()) 49730cfbc0SXuan Hu val addr = Input(UInt(addrWidth.W)) 50730cfbc0SXuan Hu val data = Input(UInt(rfWriteDataCfg.dataWidth.W)) 51730cfbc0SXuan Hu val intWen = Input(Bool()) 52730cfbc0SXuan Hu val fpWen = Input(Bool()) 53730cfbc0SXuan Hu val vecWen = Input(Bool()) 54730cfbc0SXuan Hu def writeInt: Boolean = rfWriteDataCfg.isInstanceOf[IntData] 55730cfbc0SXuan Hu def writeFp : Boolean = rfWriteDataCfg.isInstanceOf[FpData] 56730cfbc0SXuan Hu def writeVec: Boolean = rfWriteDataCfg.isInstanceOf[VecData] 57730cfbc0SXuan Hu 58730cfbc0SXuan Hu def toWakeUpBundle: ValidIO[IssueQueueWakeUpBundle] = { 59730cfbc0SXuan Hu val wakeup = Wire(ValidIO(new IssueQueueWakeUpBundle(addrWidth))) 60730cfbc0SXuan Hu wakeup.bits.pdest := this.addr 61730cfbc0SXuan Hu wakeup.bits.rfWen := this.intWen && this.wen 62730cfbc0SXuan Hu wakeup.bits.fpWen := this.fpWen && this.wen 63730cfbc0SXuan Hu wakeup.bits.vecWen := this.vecWen && this.wen 64730cfbc0SXuan Hu wakeup.valid := this.wen 65730cfbc0SXuan Hu wakeup 66730cfbc0SXuan Hu } 67730cfbc0SXuan Hu} 68730cfbc0SXuan Hu 695844fcf0SLinJiaweiclass Regfile 705844fcf0SLinJiawei( 71a1ca6e15SZhangZifei name: String, 72027c9765SXuan Hu numPregs: Int, 735844fcf0SLinJiawei numReadPorts: Int, 7493b61a80SYinan Xu numWritePorts: Int, 759684eb4fSLinJiawei hasZero: Boolean, 7673faecdcSXuan Hu len: Int, 7773faecdcSXuan Hu width: Int, 78027c9765SXuan Hu) extends Module { 795844fcf0SLinJiawei val io = IO(new Bundle() { 8073faecdcSXuan Hu val readPorts = Vec(numReadPorts, new RfReadPort(len, width)) 8173faecdcSXuan Hu val writePorts = Vec(numWritePorts, new RfWritePort(len, width)) 82*a8db15d8Sfdy val debug_rports = Vec(65, new RfReadPort(len, width)) 835844fcf0SLinJiawei }) 840c701001SLinJiawei 85027c9765SXuan Hu println(name + ": size:" + numPregs + " read: " + numReadPorts + " write: " + numWritePorts) 8605f23f57SWilliam Wang 87027c9765SXuan Hu val mem = Reg(Vec(numPregs, UInt(len.W))) 880c701001SLinJiawei for (r <- io.readPorts) { 89b441ea13SYikeZhou val rdata = if (hasZero) Mux(r.addr === 0.U, 0.U, mem(r.addr)) else mem(r.addr) 903dca89ecSXuan Hu r.data := RegNext(rdata) 910c701001SLinJiawei } 920c701001SLinJiawei for (w <- io.writePorts) { 930c701001SLinJiawei when(w.wen) { 940c701001SLinJiawei mem(w.addr) := w.data 950c701001SLinJiawei } 960c701001SLinJiawei } 976624015fSLinJiawei 982225d46eSJiawei Lin for (rport <- io.debug_rports) { 992225d46eSJiawei Lin val zero_rdata = Mux(rport.addr === 0.U, 0.U, mem(rport.addr)) 1002225d46eSJiawei Lin rport.data := (if (hasZero) zero_rdata else mem(rport.addr)) 101adb5df20SYinan Xu } 1025844fcf0SLinJiawei} 10344dead2fSZhangZifei 10493b61a80SYinan Xuobject Regfile { 105730cfbc0SXuan Hu // non-return version 10693b61a80SYinan Xu def apply( 107a1ca6e15SZhangZifei name : String, 10893b61a80SYinan Xu numEntries : Int, 10993b61a80SYinan Xu raddr : Seq[UInt], 110730cfbc0SXuan Hu rdata : Vec[UInt], 11193b61a80SYinan Xu wen : Seq[Bool], 11293b61a80SYinan Xu waddr : Seq[UInt], 11393b61a80SYinan Xu wdata : Seq[UInt], 11493b61a80SYinan Xu hasZero : Boolean, 1157154d65eSYinan Xu withReset : Boolean = false, 116730cfbc0SXuan Hu debugReadAddr: Option[Seq[UInt]], 117730cfbc0SXuan Hu debugReadData: Option[Vec[UInt]], 118730cfbc0SXuan Hu )(implicit p: Parameters): Unit = { 11993b61a80SYinan Xu val numReadPorts = raddr.length 12093b61a80SYinan Xu val numWritePorts = wen.length 12193b61a80SYinan Xu require(wen.length == waddr.length) 12293b61a80SYinan Xu require(wen.length == wdata.length) 12393b61a80SYinan Xu val dataBits = wdata.map(_.getWidth).min 12493b61a80SYinan Xu require(wdata.map(_.getWidth).min == wdata.map(_.getWidth).max, s"dataBits != $dataBits") 12573faecdcSXuan Hu val addrBits = waddr.map(_.getWidth).min 12673faecdcSXuan Hu require(waddr.map(_.getWidth).min == waddr.map(_.getWidth).max, s"addrBits != $addrBits") 12773faecdcSXuan Hu 128027c9765SXuan Hu val regfile = Module(new Regfile(name, numEntries, numReadPorts, numWritePorts, hasZero, dataBits, addrBits)) 129730cfbc0SXuan Hu rdata := regfile.io.readPorts.zip(raddr).map { case (rport, addr) => 13093b61a80SYinan Xu rport.addr := addr 13193b61a80SYinan Xu rport.data 13244dead2fSZhangZifei } 13373faecdcSXuan Hu 13493b61a80SYinan Xu regfile.io.writePorts.zip(wen).zip(waddr).zip(wdata).foreach{ case (((wport, en), addr), data) => 13593b61a80SYinan Xu wport.wen := en 13693b61a80SYinan Xu wport.addr := addr 13793b61a80SYinan Xu wport.data := data 138067dba72SLinJiawei } 13993b61a80SYinan Xu if (withReset) { 14093b61a80SYinan Xu val numResetCycles = math.ceil(numEntries / numWritePorts).toInt 14193b61a80SYinan Xu val resetCounter = RegInit(numResetCycles.U) 14293b61a80SYinan Xu val resetWaddr = RegInit(VecInit((0 until numWritePorts).map(_.U(log2Up(numEntries + 1).W)))) 14393b61a80SYinan Xu val inReset = resetCounter =/= 0.U 14493b61a80SYinan Xu when (inReset) { 14593b61a80SYinan Xu resetCounter := resetCounter - 1.U 14693b61a80SYinan Xu resetWaddr := VecInit(resetWaddr.map(_ + numWritePorts.U)) 14793b61a80SYinan Xu } 14893b61a80SYinan Xu when (!inReset) { 14993b61a80SYinan Xu resetWaddr.map(_ := 0.U) 15093b61a80SYinan Xu } 15193b61a80SYinan Xu for ((wport, i) <- regfile.io.writePorts.zipWithIndex) { 15293b61a80SYinan Xu wport.wen := inReset || wen(i) 15393b61a80SYinan Xu wport.addr := Mux(inReset, resetWaddr(i), waddr(i)) 15493b61a80SYinan Xu wport.data := wdata(i) 15593b61a80SYinan Xu } 15693b61a80SYinan Xu } 157730cfbc0SXuan Hu 158730cfbc0SXuan Hu require(debugReadAddr.nonEmpty == debugReadData.nonEmpty, "Both debug addr and data bundles should be empty or not") 15993b61a80SYinan Xu regfile.io.debug_rports := DontCare 160730cfbc0SXuan Hu if (debugReadAddr.nonEmpty && debugReadData.nonEmpty) { 161730cfbc0SXuan Hu debugReadData.get := VecInit(regfile.io.debug_rports.zip(debugReadAddr.get).map { case (rport, addr) => 16293b61a80SYinan Xu rport.addr := addr 16393b61a80SYinan Xu rport.data 164730cfbc0SXuan Hu }) 16593b61a80SYinan Xu } 16693b61a80SYinan Xu } 16793b61a80SYinan Xu} 16873faecdcSXuan Hu 16973faecdcSXuan Huobject IntRegFile { 170730cfbc0SXuan Hu // non-return version 17173faecdcSXuan Hu def apply( 172a1ca6e15SZhangZifei name : String, 17373faecdcSXuan Hu numEntries : Int, 17473faecdcSXuan Hu raddr : Seq[UInt], 175730cfbc0SXuan Hu rdata : Vec[UInt], 17673faecdcSXuan Hu wen : Seq[Bool], 17773faecdcSXuan Hu waddr : Seq[UInt], 17873faecdcSXuan Hu wdata : Seq[UInt], 179730cfbc0SXuan Hu debugReadAddr: Option[Seq[UInt]], 180730cfbc0SXuan Hu debugReadData: Option[Vec[UInt]], 18173faecdcSXuan Hu withReset : Boolean = false, 182730cfbc0SXuan Hu )(implicit p: Parameters): Unit = { 18373faecdcSXuan Hu Regfile( 184730cfbc0SXuan Hu name, numEntries, raddr, rdata, wen, waddr, wdata, 185730cfbc0SXuan Hu hasZero = true, withReset, debugReadAddr, debugReadData) 18673faecdcSXuan Hu } 18773faecdcSXuan Hu} 18873faecdcSXuan Hu 18973faecdcSXuan Huobject VfRegFile { 190730cfbc0SXuan Hu // non-return version 19173faecdcSXuan Hu def apply( 192a1ca6e15SZhangZifei name : String, 19373faecdcSXuan Hu numEntries : Int, 19473faecdcSXuan Hu splitNum : Int, 19573faecdcSXuan Hu raddr : Seq[UInt], 196730cfbc0SXuan Hu rdata : Vec[UInt], 19773faecdcSXuan Hu wen : Seq[Seq[Bool]], 19873faecdcSXuan Hu waddr : Seq[UInt], 19973faecdcSXuan Hu wdata : Seq[UInt], 200730cfbc0SXuan Hu debugReadAddr: Option[Seq[UInt]], 201730cfbc0SXuan Hu debugReadData: Option[Vec[UInt]], 20273faecdcSXuan Hu withReset : Boolean = false, 203730cfbc0SXuan Hu )(implicit p: Parameters): Unit = { 20473faecdcSXuan Hu require(splitNum >= 1, "splitNum should be no less than 1") 20573faecdcSXuan Hu require(splitNum == wen.length, "splitNum should be equal to length of wen vec") 20673faecdcSXuan Hu if (splitNum == 1) { 207730cfbc0SXuan Hu Regfile( 208730cfbc0SXuan Hu name, numEntries, raddr, rdata, wen.head, waddr, wdata, 209730cfbc0SXuan Hu hasZero = false, withReset, debugReadAddr, debugReadData) 210761d728dSZhangZifei } else { 21173faecdcSXuan Hu val dataWidth = 64 212730cfbc0SXuan Hu val numReadPorts = raddr.length 21373faecdcSXuan Hu require(splitNum > 1 && wdata.head.getWidth == dataWidth * splitNum) 21473faecdcSXuan Hu val wdataVec = Wire(Vec(splitNum, Vec(wdata.length, UInt(dataWidth.W)))) 215730cfbc0SXuan Hu val rdataVec = Wire(Vec(splitNum, Vec(raddr.length, UInt(dataWidth.W)))) 216730cfbc0SXuan Hu val debugRDataVec: Option[Vec[Vec[UInt]]] = debugReadData.map(x => Wire(Vec(splitNum, Vec(x.length, UInt(dataWidth.W))))) 21773faecdcSXuan Hu for (i <- 0 until splitNum) { 21873faecdcSXuan Hu wdataVec(i) := wdata.map(_ ((i + 1) * dataWidth - 1, i * dataWidth)) 219730cfbc0SXuan Hu Regfile( 220730cfbc0SXuan Hu name + s"Part${i}", numEntries, raddr, rdataVec(i), wen(i), waddr, wdataVec(i), 221730cfbc0SXuan Hu hasZero = false, withReset, debugReadAddr, debugRDataVec.map(_(i)) 222730cfbc0SXuan Hu ) 22373faecdcSXuan Hu } 22473faecdcSXuan Hu for (i <- 0 until rdata.length) { 225761d728dSZhangZifei rdata(i) := Cat(rdataVec.map(_ (i)).reverse) 22673faecdcSXuan Hu } 227730cfbc0SXuan Hu if (debugReadData.nonEmpty) { 228730cfbc0SXuan Hu for (i <- 0 until debugReadData.get.length) { 229730cfbc0SXuan Hu debugReadData.get(i) := Cat(debugRDataVec.get.map(_ (i)).reverse) 230730cfbc0SXuan Hu } 231730cfbc0SXuan Hu } 23273faecdcSXuan Hu } 233761d728dSZhangZifei } 23473faecdcSXuan Hu}