1package xiangshan.backend.issue 2 3import org.chipsalliance.cde.config.Parameters 4import chisel3._ 5import chisel3.util._ 6import freechips.rocketchip.diplomacy.{LazyModule, LazyModuleImp} 7import utility.{GTimer, HasCircularQueuePtrHelper, SelectOne} 8import utils._ 9import xiangshan._ 10import xiangshan.backend.Bundles._ 11import xiangshan.backend.decode.{ImmUnion, Imm_LUI_LOAD} 12import xiangshan.backend.datapath.DataConfig._ 13import xiangshan.backend.datapath.DataSource 14import xiangshan.backend.fu.{FuConfig, FuType} 15import xiangshan.mem.{MemWaitUpdateReq, SqPtr, LqPtr} 16import xiangshan.backend.rob.RobPtr 17import xiangshan.backend.datapath.NewPipelineConnect 18 19class IssueQueue(params: IssueBlockParams)(implicit p: Parameters) extends LazyModule with HasXSParameter { 20 override def shouldBeInlined: Boolean = false 21 22 implicit val iqParams = params 23 lazy val module: IssueQueueImp = iqParams.schdType match { 24 case IntScheduler() => new IssueQueueIntImp(this) 25 case VfScheduler() => new IssueQueueVfImp(this) 26 case MemScheduler() => 27 if (iqParams.StdCnt == 0 && !iqParams.isVecMemIQ) new IssueQueueMemAddrImp(this) 28 else if (iqParams.isVecMemIQ) new IssueQueueVecMemImp(this) 29 else new IssueQueueIntImp(this) 30 case _ => null 31 } 32} 33 34class IssueQueueStatusBundle(numEnq: Int, numEntries: Int) extends Bundle { 35 val empty = Output(Bool()) 36 val full = Output(Bool()) 37 val validCnt = Output(UInt(log2Ceil(numEntries).W)) 38 val leftVec = Output(Vec(numEnq + 1, Bool())) 39} 40 41class IssueQueueDeqRespBundle(implicit p:Parameters, params: IssueBlockParams) extends EntryDeqRespBundle 42 43class IssueQueueIO()(implicit p: Parameters, params: IssueBlockParams) extends XSBundle { 44 // Inputs 45 val flush = Flipped(ValidIO(new Redirect)) 46 val enq = Vec(params.numEnq, Flipped(DecoupledIO(new DynInst))) 47 48 val og0Resp = Vec(params.numDeq, Flipped(ValidIO(new IssueQueueDeqRespBundle))) 49 val og1Resp = Vec(params.numDeq, Flipped(ValidIO(new IssueQueueDeqRespBundle))) 50 val finalIssueResp = OptionWrapper(params.LdExuCnt > 0, Vec(params.LdExuCnt, Flipped(ValidIO(new IssueQueueDeqRespBundle)))) 51 val memAddrIssueResp = OptionWrapper(params.LdExuCnt > 0, Vec(params.LdExuCnt, Flipped(ValidIO(new IssueQueueDeqRespBundle)))) 52 val wbBusyTableRead = Input(params.genWbFuBusyTableReadBundle()) 53 val wbBusyTableWrite = Output(params.genWbFuBusyTableWriteBundle()) 54 val wakeupFromWB: MixedVec[ValidIO[IssueQueueWBWakeUpBundle]] = Flipped(params.genWBWakeUpSinkValidBundle) 55 val wakeupFromIQ: MixedVec[ValidIO[IssueQueueIQWakeUpBundle]] = Flipped(params.genIQWakeUpSinkValidBundle) 56 val og0Cancel = Input(ExuOH(backendParams.numExu)) 57 val og1Cancel = Input(ExuOH(backendParams.numExu)) 58 val ldCancel = Vec(backendParams.LduCnt + backendParams.HyuCnt, Flipped(new LoadCancelIO)) 59 val finalBlock = Vec(params.numExu, Input(Bool())) 60 61 // Outputs 62 val wakeupToIQ: MixedVec[ValidIO[IssueQueueIQWakeUpBundle]] = params.genIQWakeUpSourceValidBundle 63 val status = Output(new IssueQueueStatusBundle(params.numEnq, params.numEntries)) 64 // val statusNext = Output(new IssueQueueStatusBundle(params.numEnq)) 65 66 val deqDelay: MixedVec[DecoupledIO[IssueQueueIssueBundle]] = params.genIssueDecoupledBundle// = deq.cloneType 67 def allWakeUp = wakeupFromWB ++ wakeupFromIQ 68} 69 70class IssueQueueImp(override val wrapper: IssueQueue)(implicit p: Parameters, val params: IssueBlockParams) 71 extends LazyModuleImp(wrapper) 72 with HasXSParameter { 73 74 override def desiredName: String = s"${params.getIQName}" 75 76 println(s"[IssueQueueImp] ${params.getIQName} wakeupFromWB(${io.wakeupFromWB.size}), " + 77 s"wakeup exu in(${params.wakeUpInExuSources.size}): ${params.wakeUpInExuSources.map(_.name).mkString("{",",","}")}, " + 78 s"wakeup exu out(${params.wakeUpOutExuSources.size}): ${params.wakeUpOutExuSources.map(_.name).mkString("{",",","}")}, " + 79 s"numEntries: ${params.numEntries}, numRegSrc: ${params.numRegSrc}") 80 81 require(params.numExu <= 2, "IssueQueue has not supported more than 2 deq ports") 82 val deqFuCfgs : Seq[Seq[FuConfig]] = params.exuBlockParams.map(_.fuConfigs) 83 val allDeqFuCfgs : Seq[FuConfig] = params.exuBlockParams.flatMap(_.fuConfigs) 84 val fuCfgsCnt : Map[FuConfig, Int] = allDeqFuCfgs.groupBy(x => x).map { case (cfg, cfgSeq) => (cfg, cfgSeq.length) } 85 val commonFuCfgs : Seq[FuConfig] = fuCfgsCnt.filter(_._2 > 1).keys.toSeq 86 val fuLatencyMaps : Seq[Map[FuType.OHType, Int]] = params.exuBlockParams.map(x => x.fuLatencyMap) 87 88 println(s"[IssueQueueImp] ${params.getIQName} fuLatencyMaps: ${fuLatencyMaps}") 89 println(s"[IssueQueueImp] ${params.getIQName} commonFuCfgs: ${commonFuCfgs.map(_.name)}") 90 lazy val io = IO(new IssueQueueIO()) 91 // Modules 92 93 val entries = Module(new Entries) 94 val fuBusyTableWrite = params.exuBlockParams.map { case x => OptionWrapper(x.latencyValMax > 0, Module(new FuBusyTableWrite(x.fuLatencyMap))) } 95 val fuBusyTableRead = params.exuBlockParams.map { case x => OptionWrapper(x.latencyValMax > 0, Module(new FuBusyTableRead(x.fuLatencyMap))) } 96 val intWbBusyTableWrite = params.exuBlockParams.map { case x => OptionWrapper(x.intLatencyCertain, Module(new FuBusyTableWrite(x.intFuLatencyMap))) } 97 val intWbBusyTableRead = params.exuBlockParams.map { case x => OptionWrapper(x.intLatencyCertain, Module(new FuBusyTableRead(x.intFuLatencyMap))) } 98 val vfWbBusyTableWrite = params.exuBlockParams.map { case x => OptionWrapper(x.vfLatencyCertain, Module(new FuBusyTableWrite(x.vfFuLatencyMap))) } 99 val vfWbBusyTableRead = params.exuBlockParams.map { case x => OptionWrapper(x.vfLatencyCertain, Module(new FuBusyTableRead(x.vfFuLatencyMap))) } 100 101 class WakeupQueueFlush extends Bundle { 102 val redirect = ValidIO(new Redirect) 103 val ldCancel = Vec(backendParams.LduCnt + backendParams.HyuCnt, new LoadCancelIO) 104 val og0Fail = Output(Bool()) 105 val og1Fail = Output(Bool()) 106 val finalFail = Output(Bool()) 107 } 108 109 private def flushFunc(exuInput: ExuInput, flush: WakeupQueueFlush, stage: Int): Bool = { 110 val redirectFlush = exuInput.robIdx.needFlush(flush.redirect) 111 val loadDependencyFlush = LoadShouldCancel(exuInput.loadDependency, flush.ldCancel) 112 val ogFailFlush = stage match { 113 case 1 => flush.og0Fail 114 case 2 => flush.og1Fail 115 case 3 => flush.finalFail 116 case _ => false.B 117 } 118 redirectFlush || loadDependencyFlush || ogFailFlush 119 } 120 121 private def modificationFunc(exuInput: ExuInput): ExuInput = { 122 val newExuInput = WireDefault(exuInput) 123 newExuInput.loadDependency match { 124 case Some(deps) => deps.zip(exuInput.loadDependency.get).foreach(x => x._1 := x._2 << 1) 125 case None => 126 } 127 newExuInput 128 } 129 130 private def lastConnectFunc(exuInput: ExuInput, newInput: ExuInput): ExuInput = { 131 val lastExuInput = WireDefault(exuInput) 132 val newExuInput = WireDefault(newInput) 133 newExuInput.elements.foreach { case (name, data) => 134 if (lastExuInput.elements.contains(name)) { 135 data := lastExuInput.elements(name) 136 } 137 } 138 if (newExuInput.pdestCopy.nonEmpty && !lastExuInput.pdestCopy.nonEmpty) { 139 newExuInput.pdestCopy.get.foreach(_ := lastExuInput.pdest) 140 } 141 if (newExuInput.rfWenCopy.nonEmpty && !lastExuInput.rfWenCopy.nonEmpty) { 142 newExuInput.rfWenCopy.get.foreach(_ := lastExuInput.rfWen.get) 143 } 144 if (newExuInput.fpWenCopy.nonEmpty && !lastExuInput.fpWenCopy.nonEmpty) { 145 newExuInput.fpWenCopy.get.foreach(_ := lastExuInput.fpWen.get) 146 } 147 if (newExuInput.vecWenCopy.nonEmpty && !lastExuInput.vecWenCopy.nonEmpty) { 148 newExuInput.vecWenCopy.get.foreach(_ := lastExuInput.rfWen.get) 149 } 150 if (newExuInput.loadDependencyCopy.nonEmpty && !lastExuInput.loadDependencyCopy.nonEmpty) { 151 newExuInput.loadDependencyCopy.get.foreach(_ := lastExuInput.loadDependency.get) 152 } 153 newExuInput 154 } 155 156 val wakeUpQueues: Seq[Option[MultiWakeupQueue[ExuInput, WakeupQueueFlush]]] = params.exuBlockParams.map { x => OptionWrapper(x.isIQWakeUpSource, Module( 157 new MultiWakeupQueue(new ExuInput(x), new ExuInput(x, x.copyWakeupOut, x.copyNum), new WakeupQueueFlush, x.fuLatancySet, flushFunc, modificationFunc, lastConnectFunc) 158 ))} 159 val deqBeforeDly = Wire(params.genIssueDecoupledBundle) 160 161 val intWbBusyTableIn = io.wbBusyTableRead.map(_.intWbBusyTable) 162 val vfWbBusyTableIn = io.wbBusyTableRead.map(_.vfWbBusyTable) 163 val intWbBusyTableOut = io.wbBusyTableWrite.map(_.intWbBusyTable) 164 val vfWbBusyTableOut = io.wbBusyTableWrite.map(_.vfWbBusyTable) 165 val intDeqRespSetOut = io.wbBusyTableWrite.map(_.intDeqRespSet) 166 val vfDeqRespSetOut = io.wbBusyTableWrite.map(_.vfDeqRespSet) 167 val fuBusyTableMask = Wire(Vec(params.numDeq, UInt(params.numEntries.W))) 168 val intWbBusyTableMask = Wire(Vec(params.numDeq, UInt(params.numEntries.W))) 169 val vfWbBusyTableMask = Wire(Vec(params.numDeq, UInt(params.numEntries.W))) 170 val s0_enqValidVec = io.enq.map(_.valid) 171 val s0_enqSelValidVec = Wire(Vec(params.numEnq, Bool())) 172 val s0_enqNotFlush = !io.flush.valid 173 val s0_enqBits = WireInit(VecInit(io.enq.map(_.bits))) 174 val s0_doEnqSelValidVec = s0_enqSelValidVec.map(_ && s0_enqNotFlush) //enqValid && notFlush && enqReady 175 176 177 val finalDeqSelValidVec = Wire(Vec(params.numDeq, Bool())) 178 val finalDeqSelOHVec = Wire(Vec(params.numDeq, UInt(params.numEntries.W))) 179 180 val validVec = VecInit(entries.io.valid.asBools) 181 val canIssueVec = VecInit(entries.io.canIssue.asBools) 182 val clearVec = VecInit(entries.io.clear.asBools) 183 val deqFirstIssueVec = VecInit(entries.io.deq.map(_.isFirstIssue)) 184 185 val dataSources: Vec[Vec[DataSource]] = entries.io.dataSources 186 val finalDataSources: Vec[Vec[DataSource]] = VecInit(finalDeqSelOHVec.map(oh => Mux1H(oh, dataSources))) 187 // (entryIdx)(srcIdx)(exuIdx) 188 val wakeUpL1ExuOH: Option[Vec[Vec[UInt]]] = entries.io.srcWakeUpL1ExuOH 189 val srcTimer: Option[Vec[Vec[UInt]]] = entries.io.srcTimer 190 191 // (deqIdx)(srcIdx)(exuIdx) 192 val finalWakeUpL1ExuOH: Option[Vec[Vec[UInt]]] = wakeUpL1ExuOH.map(x => VecInit(finalDeqSelOHVec.map(oh => Mux1H(oh, x)))) 193 val finalSrcTimer = srcTimer.map(x => VecInit(finalDeqSelOHVec.map(oh => Mux1H(oh, x)))) 194 195 val fuTypeVec = Wire(Vec(params.numEntries, FuType())) 196 val transEntryDeqVec = Wire(Vec(params.numEnq, ValidIO(new EntryBundle))) 197 val deqEntryVec = Wire(Vec(params.numDeq, ValidIO(new EntryBundle))) 198 val transSelVec = Wire(Vec(params.numEnq, UInt((params.numEntries-params.numEnq).W))) 199 val canIssueMergeAllBusy = Wire(Vec(params.numDeq, UInt(params.numEntries.W))) 200 val deqCanIssue = Wire(Vec(params.numDeq, UInt(params.numEntries.W))) 201 202 val enqEntryOldestSel = Wire(Vec(params.numDeq, ValidIO(UInt(params.numEnq.W)))) 203 val othersEntryOldestSel = Wire(Vec(params.numDeq, ValidIO(UInt((params.numEntries - params.numEnq).W)))) 204 val deqSelValidVec = Wire(Vec(params.numDeq, Bool())) 205 val deqSelOHVec = Wire(Vec(params.numDeq, UInt(params.numEntries.W))) 206 val cancelDeqVec = Wire(Vec(params.numDeq, Bool())) 207 208 val subDeqSelValidVec = OptionWrapper(params.deqFuSame, Wire(Vec(params.numDeq, Bool()))) 209 val subDeqSelOHVec = OptionWrapper(params.deqFuSame, Wire(Vec(params.numDeq, UInt(params.numEntries.W)))) 210 val subDeqRequest = OptionWrapper(params.deqFuSame, Wire(UInt(params.numEntries.W))) 211 212 /** 213 * Connection of [[entries]] 214 */ 215 entries.io match { case entriesIO: EntriesIO => 216 entriesIO.flush <> io.flush 217 entriesIO.wakeUpFromWB := io.wakeupFromWB 218 entriesIO.wakeUpFromIQ := io.wakeupFromIQ 219 entriesIO.og0Cancel := io.og0Cancel 220 entriesIO.og1Cancel := io.og1Cancel 221 entriesIO.ldCancel := io.ldCancel 222 entriesIO.enq.zipWithIndex.foreach { case (enq: ValidIO[EntryBundle], i) => 223 enq.valid := s0_doEnqSelValidVec(i) 224 val numLsrc = s0_enqBits(i).srcType.size.min(enq.bits.status.srcType.size) 225 for (j <- 0 until numLsrc) { 226 enq.bits.status.srcState(j) := s0_enqBits(i).srcState(j) & !LoadShouldCancel(Some(s0_enqBits(i).srcLoadDependency(j)), io.ldCancel) 227 enq.bits.status.psrc(j) := s0_enqBits(i).psrc(j) 228 enq.bits.status.srcType(j) := s0_enqBits(i).srcType(j) 229 enq.bits.status.dataSources(j).value := DataSource.reg 230 enq.bits.payload.debugInfo.enqRsTime := GTimer() 231 } 232 enq.bits.status.fuType := IQFuType.readFuType(VecInit(s0_enqBits(i).fuType.asBools), params.getFuCfgs.map(_.fuType)) 233 enq.bits.status.robIdx := s0_enqBits(i).robIdx 234 enq.bits.status.uopIdx.foreach(_ := s0_enqBits(i).uopIdx) 235 enq.bits.status.issueTimer := "b10".U 236 enq.bits.status.deqPortIdx := 0.U 237 enq.bits.status.issued := false.B 238 enq.bits.status.firstIssue := false.B 239 enq.bits.status.blocked := false.B 240 241 if (params.hasIQWakeUp) { 242 enq.bits.status.srcWakeUpL1ExuOH.get := 0.U.asTypeOf(enq.bits.status.srcWakeUpL1ExuOH.get) 243 enq.bits.status.srcTimer.get := 0.U.asTypeOf(enq.bits.status.srcTimer.get) 244 enq.bits.status.srcLoadDependency.foreach(_.zipWithIndex.foreach { 245 case (dep, srcIdx) => 246 dep := VecInit(s0_enqBits(i).srcLoadDependency(srcIdx).map(x => x(x.getWidth - 2, 0) << 1)) 247 }) 248 } 249 if (params.inIntSchd && params.AluCnt > 0) { 250 // dirty code for lui+addi(w) fusion 251 val isLuiAddiFusion = s0_enqBits(i).isLUI32 252 val luiImm = Cat(s0_enqBits(i).lsrc(1), s0_enqBits(i).lsrc(0), s0_enqBits(i).imm(ImmUnion.maxLen - 1, 0)) 253 enq.bits.imm.foreach(_ := Mux(isLuiAddiFusion, ImmUnion.LUI32.toImm32(luiImm), s0_enqBits(i).imm)) 254 } 255 else if (params.inMemSchd && params.LduCnt > 0) { 256 // dirty code for fused_lui_load 257 val isLuiLoadFusion = SrcType.isNotReg(s0_enqBits(i).srcType(0)) && FuType.isLoad(s0_enqBits(i).fuType) 258 enq.bits.imm.foreach(_ := Mux(isLuiLoadFusion, Imm_LUI_LOAD().getLuiImm(s0_enqBits(i)), s0_enqBits(i).imm)) 259 } 260 else { 261 enq.bits.imm.foreach(_ := s0_enqBits(i).imm) 262 } 263 enq.bits.payload := s0_enqBits(i) 264 } 265 entriesIO.deq.zipWithIndex.foreach { case (deq, i) => 266 deq.enqEntryOldestSel := enqEntryOldestSel(i) 267 deq.othersEntryOldestSel := othersEntryOldestSel(i) 268 deq.subDeqRequest.foreach(_ := subDeqRequest.get) 269 deq.subDeqSelOH.foreach(_ := subDeqSelOHVec.get(i)) 270 deq.deqReady := deqBeforeDly(i).ready 271 deq.deqSelOH.valid := deqSelValidVec(i) 272 deq.deqSelOH.bits := deqSelOHVec(i) 273 } 274 entriesIO.og0Resp.zipWithIndex.foreach { case (og0Resp, i) => 275 og0Resp.valid := io.og0Resp(i).valid 276 og0Resp.bits.robIdx := io.og0Resp(i).bits.robIdx 277 og0Resp.bits.uopIdx := io.og0Resp(i).bits.uopIdx 278 og0Resp.bits.dataInvalidSqIdx := io.og0Resp(i).bits.dataInvalidSqIdx 279 og0Resp.bits.respType := io.og0Resp(i).bits.respType 280 og0Resp.bits.rfWen := io.og0Resp(i).bits.rfWen 281 og0Resp.bits.fuType := io.og0Resp(i).bits.fuType 282 } 283 entriesIO.og1Resp.zipWithIndex.foreach { case (og1Resp, i) => 284 og1Resp.valid := io.og1Resp(i).valid 285 og1Resp.bits.robIdx := io.og1Resp(i).bits.robIdx 286 og1Resp.bits.uopIdx := io.og1Resp(i).bits.uopIdx 287 og1Resp.bits.dataInvalidSqIdx := io.og1Resp(i).bits.dataInvalidSqIdx 288 og1Resp.bits.respType := io.og1Resp(i).bits.respType 289 og1Resp.bits.rfWen := io.og1Resp(i).bits.rfWen 290 og1Resp.bits.fuType := io.og1Resp(i).bits.fuType 291 } 292 entriesIO.finalIssueResp.foreach(_.zipWithIndex.foreach { case (finalIssueResp, i) => 293 finalIssueResp := io.finalIssueResp.get(i) 294 }) 295 entriesIO.memAddrIssueResp.foreach(_.zipWithIndex.foreach { case (memAddrIssueResp, i) => 296 memAddrIssueResp := io.memAddrIssueResp.get(i) 297 }) 298 transEntryDeqVec := entriesIO.transEntryDeqVec 299 deqEntryVec := entriesIO.deq.map(_.deqEntry) 300 fuTypeVec := entriesIO.fuType 301 cancelDeqVec := entriesIO.cancelDeqVec 302 transSelVec := entriesIO.transSelVec 303 } 304 305 306 s0_enqSelValidVec := s0_enqValidVec.zip(io.enq).map{ case (enqValid, enq) => enqValid && enq.ready} 307 308 protected val commonAccept: UInt = Cat(fuTypeVec.map(fuType => 309 FuType.FuTypeOrR(fuType, commonFuCfgs.map(_.fuType)) 310 ).reverse) 311 312 // if deq port can accept the uop 313 protected val canAcceptVec: Seq[UInt] = deqFuCfgs.map { fuCfgs: Seq[FuConfig] => 314 Cat(fuTypeVec.map(fuType => 315 FuType.FuTypeOrR(fuType, fuCfgs.map(_.fuType)) 316 ).reverse) 317 } 318 319 protected val deqCanAcceptVec: Seq[IndexedSeq[Bool]] = deqFuCfgs.map { fuCfgs: Seq[FuConfig] => 320 fuTypeVec.map(fuType => 321 FuType.FuTypeOrR(fuType, fuCfgs.map(_.fuType))) 322 } 323 324 canIssueMergeAllBusy.zipWithIndex.foreach { case (merge, i) => 325 val mergeFuBusy = { 326 if (fuBusyTableWrite(i).nonEmpty) canIssueVec.asUInt & (~fuBusyTableMask(i)) 327 else canIssueVec.asUInt 328 } 329 val mergeIntWbBusy = { 330 if (intWbBusyTableRead(i).nonEmpty) mergeFuBusy & (~intWbBusyTableMask(i)) 331 else mergeFuBusy 332 } 333 val mergeVfWbBusy = { 334 if (vfWbBusyTableRead(i).nonEmpty) mergeIntWbBusy & (~vfWbBusyTableMask(i)) 335 else mergeIntWbBusy 336 } 337 merge := mergeVfWbBusy 338 } 339 340 deqCanIssue.zipWithIndex.foreach { case (req, i) => 341 req := canIssueMergeAllBusy(i) & VecInit(deqCanAcceptVec(i)).asUInt 342 } 343 344 if (params.numDeq == 2) { 345 require(params.deqFuSame || params.deqFuDiff, "The 2 deq ports need to be identical or completely different") 346 } 347 348 if (params.numDeq == 2 && params.deqFuSame) { 349 enqEntryOldestSel := DontCare 350 351 othersEntryOldestSel(0) := AgeDetector(numEntries = params.numEntries - params.numEnq, 352 enq = VecInit(transEntryDeqVec.zip(transSelVec).map{ case (transEntry, transSel) => Fill(params.numEntries-params.numEnq, transEntry.valid) & transSel }), 353 canIssue = canIssueVec.asUInt(params.numEntries-1, params.numEnq) 354 ) 355 othersEntryOldestSel(1) := DontCare 356 357 subDeqRequest.get := canIssueVec.asUInt & ~Cat(othersEntryOldestSel(0).bits, 0.U((params.numEnq).W)) 358 359 val subDeqPolicy = Module(new DeqPolicy()) 360 subDeqPolicy.io.request := subDeqRequest.get 361 subDeqSelValidVec.get := subDeqPolicy.io.deqSelOHVec.map(oh => oh.valid) 362 subDeqSelOHVec.get := subDeqPolicy.io.deqSelOHVec.map(oh => oh.bits) 363 364 deqSelValidVec(0) := othersEntryOldestSel(0).valid || subDeqSelValidVec.get(1) 365 deqSelValidVec(1) := subDeqSelValidVec.get(0) 366 deqSelOHVec(0) := Mux(othersEntryOldestSel(0).valid, 367 Cat(othersEntryOldestSel(0).bits, 0.U((params.numEnq).W)), 368 subDeqSelOHVec.get(1)) & canIssueMergeAllBusy(0) 369 deqSelOHVec(1) := subDeqSelOHVec.get(0) & canIssueMergeAllBusy(1) 370 371 finalDeqSelValidVec.zip(finalDeqSelOHVec).zip(deqSelValidVec).zip(deqSelOHVec).zipWithIndex.foreach { case ((((selValid, selOH), deqValid), deqOH), i) => 372 selValid := deqValid && deqOH.orR && deqBeforeDly(i).ready 373 selOH := deqOH 374 } 375 } 376 else { 377 enqEntryOldestSel := NewAgeDetector(numEntries = params.numEnq, 378 enq = VecInit(s0_doEnqSelValidVec), 379 canIssue = VecInit(deqCanIssue.map(_(params.numEnq-1, 0))) 380 ) 381 382 othersEntryOldestSel := AgeDetector(numEntries = params.numEntries - params.numEnq, 383 enq = VecInit(transEntryDeqVec.zip(transSelVec).map{ case (transEntry, transSel) => Fill(params.numEntries-params.numEnq, transEntry.valid) & transSel }), 384 canIssue = VecInit(deqCanIssue.map(_(params.numEntries-1, params.numEnq))) 385 ) 386 387 deqSelValidVec.zip(deqSelOHVec).zipWithIndex.foreach { case ((selValid, selOH), i) => 388 if (params.exuBlockParams(i).fuConfigs.contains(FuConfig.FakeHystaCfg)) { 389 selValid := false.B 390 selOH := 0.U.asTypeOf(selOH) 391 } else { 392 selValid := othersEntryOldestSel(i).valid || enqEntryOldestSel(i).valid 393 selOH := Cat(othersEntryOldestSel(i).bits, Fill(params.numEnq, enqEntryOldestSel(i).valid && !othersEntryOldestSel(i).valid) & enqEntryOldestSel(i).bits) 394 } 395 } 396 397 finalDeqSelValidVec.zip(finalDeqSelOHVec).zip(deqSelValidVec).zip(deqSelOHVec).zipWithIndex.foreach { case ((((selValid, selOH), deqValid), deqOH), i) => 398 selValid := deqValid && deqBeforeDly(i).ready 399 selOH := deqOH 400 } 401 } 402 403 val toBusyTableDeqResp = Wire(Vec(params.numDeq, ValidIO(new IssueQueueDeqRespBundle))) 404 405 toBusyTableDeqResp.zipWithIndex.foreach { case (deqResp, i) => 406 deqResp.valid := finalDeqSelValidVec(i) 407 deqResp.bits.respType := RSFeedbackType.issueSuccess 408 deqResp.bits.robIdx := DontCare 409 deqResp.bits.dataInvalidSqIdx := DontCare 410 deqResp.bits.rfWen := DontCare 411 deqResp.bits.fuType := deqBeforeDly(i).bits.common.fuType 412 deqResp.bits.uopIdx := DontCare 413 } 414 415 //fuBusyTable 416 fuBusyTableWrite.zip(fuBusyTableRead).zipWithIndex.foreach { case ((busyTableWrite: Option[FuBusyTableWrite], busyTableRead: Option[FuBusyTableRead]), i) => 417 if(busyTableWrite.nonEmpty) { 418 val btwr = busyTableWrite.get 419 val btrd = busyTableRead.get 420 btwr.io.in.deqResp := toBusyTableDeqResp(i) 421 btwr.io.in.og0Resp := io.og0Resp(i) 422 btwr.io.in.og1Resp := io.og1Resp(i) 423 btrd.io.in.fuBusyTable := btwr.io.out.fuBusyTable 424 btrd.io.in.fuTypeRegVec := fuTypeVec 425 fuBusyTableMask(i) := btrd.io.out.fuBusyTableMask 426 } 427 else { 428 fuBusyTableMask(i) := 0.U(params.numEntries.W) 429 } 430 } 431 432 //wbfuBusyTable write 433 intWbBusyTableWrite.zip(intWbBusyTableOut).zip(intDeqRespSetOut).zipWithIndex.foreach { case (((busyTableWrite: Option[FuBusyTableWrite], busyTable: Option[UInt]), deqResp), i) => 434 if(busyTableWrite.nonEmpty) { 435 val btwr = busyTableWrite.get 436 val bt = busyTable.get 437 val dq = deqResp.get 438 btwr.io.in.deqResp := toBusyTableDeqResp(i) 439 btwr.io.in.og0Resp := io.og0Resp(i) 440 btwr.io.in.og1Resp := io.og1Resp(i) 441 bt := btwr.io.out.fuBusyTable 442 dq := btwr.io.out.deqRespSet 443 } 444 } 445 446 vfWbBusyTableWrite.zip(vfWbBusyTableOut).zip(vfDeqRespSetOut).zipWithIndex.foreach { case (((busyTableWrite: Option[FuBusyTableWrite], busyTable: Option[UInt]), deqResp), i) => 447 if (busyTableWrite.nonEmpty) { 448 val btwr = busyTableWrite.get 449 val bt = busyTable.get 450 val dq = deqResp.get 451 btwr.io.in.deqResp := toBusyTableDeqResp(i) 452 btwr.io.in.og0Resp := io.og0Resp(i) 453 btwr.io.in.og1Resp := io.og1Resp(i) 454 bt := btwr.io.out.fuBusyTable 455 dq := btwr.io.out.deqRespSet 456 } 457 } 458 459 //wbfuBusyTable read 460 intWbBusyTableRead.zip(intWbBusyTableIn).zipWithIndex.foreach { case ((busyTableRead: Option[FuBusyTableRead], busyTable: Option[UInt]), i) => 461 if(busyTableRead.nonEmpty) { 462 val btrd = busyTableRead.get 463 val bt = busyTable.get 464 btrd.io.in.fuBusyTable := bt 465 btrd.io.in.fuTypeRegVec := fuTypeVec 466 intWbBusyTableMask(i) := btrd.io.out.fuBusyTableMask 467 } 468 else { 469 intWbBusyTableMask(i) := 0.U(params.numEntries.W) 470 } 471 } 472 vfWbBusyTableRead.zip(vfWbBusyTableIn).zipWithIndex.foreach { case ((busyTableRead: Option[FuBusyTableRead], busyTable: Option[UInt]), i) => 473 if (busyTableRead.nonEmpty) { 474 val btrd = busyTableRead.get 475 val bt = busyTable.get 476 btrd.io.in.fuBusyTable := bt 477 btrd.io.in.fuTypeRegVec := fuTypeVec 478 vfWbBusyTableMask(i) := btrd.io.out.fuBusyTableMask 479 } 480 else { 481 vfWbBusyTableMask(i) := 0.U(params.numEntries.W) 482 } 483 } 484 485 wakeUpQueues.zipWithIndex.foreach { case (wakeUpQueueOption, i) => 486 wakeUpQueueOption.foreach { 487 wakeUpQueue => 488 val flush = Wire(new WakeupQueueFlush) 489 flush.redirect := io.flush 490 flush.ldCancel := io.ldCancel 491 flush.og0Fail := io.og0Resp(i).valid && RSFeedbackType.isBlocked(io.og0Resp(i).bits.respType) 492 flush.og1Fail := io.og1Resp(i).valid && RSFeedbackType.isBlocked(io.og1Resp(i).bits.respType) 493 flush.finalFail := io.finalBlock(i) 494 wakeUpQueue.io.flush := flush 495 wakeUpQueue.io.enq.valid := deqBeforeDly(i).fire 496 wakeUpQueue.io.enq.bits.uop :<= deqBeforeDly(i).bits.common 497 wakeUpQueue.io.enq.bits.uop.pdestCopy.foreach(_ := 0.U) 498 wakeUpQueue.io.enq.bits.lat := getDeqLat(i, deqBeforeDly(i).bits.common.fuType) 499 } 500 } 501 502 deqBeforeDly.zipWithIndex.foreach { case (deq, i) => 503 deq.valid := finalDeqSelValidVec(i) && !cancelDeqVec(i) 504 deq.bits.addrOH := finalDeqSelOHVec(i) 505 deq.bits.common.isFirstIssue := deqFirstIssueVec(i) 506 deq.bits.common.iqIdx := OHToUInt(finalDeqSelOHVec(i)) 507 deq.bits.common.fuType := IQFuType.readFuType(deqEntryVec(i).bits.status.fuType, params.getFuCfgs.map(_.fuType)).asUInt 508 deq.bits.common.fuOpType := deqEntryVec(i).bits.payload.fuOpType 509 deq.bits.common.rfWen.foreach(_ := deqEntryVec(i).bits.payload.rfWen) 510 deq.bits.common.fpWen.foreach(_ := deqEntryVec(i).bits.payload.fpWen) 511 deq.bits.common.vecWen.foreach(_ := deqEntryVec(i).bits.payload.vecWen) 512 deq.bits.common.flushPipe.foreach(_ := deqEntryVec(i).bits.payload.flushPipe) 513 deq.bits.common.pdest := deqEntryVec(i).bits.payload.pdest 514 deq.bits.common.robIdx := deqEntryVec(i).bits.status.robIdx 515 516 require(deq.bits.common.dataSources.size <= finalDataSources(i).size) 517 deq.bits.common.dataSources.zip(finalDataSources(i)).foreach { case (sink, source) => sink := source} 518 deq.bits.common.l1ExuOH.foreach(_ := finalWakeUpL1ExuOH.get(i)) 519 deq.bits.common.srcTimer.foreach(_ := finalSrcTimer.get(i)) 520 deq.bits.common.loadDependency.foreach(_ := deqEntryVec(i).bits.status.mergedLoadDependency.get) 521 deq.bits.common.deqLdExuIdx.foreach(_ := params.backendParam.getLdExuIdx(deq.bits.exuParams).U) 522 deq.bits.common.src := DontCare 523 deq.bits.common.preDecode.foreach(_ := deqEntryVec(i).bits.payload.preDecodeInfo) 524 525 deq.bits.rf.zip(deqEntryVec(i).bits.status.psrc).zip(deqEntryVec(i).bits.status.srcType).foreach { case ((rf, psrc), srcType) => 526 // psrc in status array can be pregIdx of IntRegFile or VfRegFile 527 rf.foreach(_.addr := psrc) 528 rf.foreach(_.srcType := srcType) 529 } 530 deq.bits.srcType.zip(deqEntryVec(i).bits.status.srcType).foreach { case (sink, source) => 531 sink := source 532 } 533 deq.bits.immType := deqEntryVec(i).bits.payload.selImm 534 deq.bits.common.imm := deqEntryVec(i).bits.imm.getOrElse(0.U) 535 536 deq.bits.common.perfDebugInfo := deqEntryVec(i).bits.payload.debugInfo 537 deq.bits.common.perfDebugInfo.selectTime := GTimer() 538 deq.bits.common.perfDebugInfo.issueTime := GTimer() + 1.U 539 } 540 541 private val deqShift = WireDefault(deqBeforeDly) 542 deqShift.zip(deqBeforeDly).foreach { 543 case (shifted, original) => 544 original.ready := shifted.ready // this will not cause combinational loop 545 shifted.bits.common.loadDependency.foreach( 546 _ := original.bits.common.loadDependency.get.map(_ << 1) 547 ) 548 } 549 io.deqDelay.zip(deqShift).foreach { case (deqDly, deq) => 550 NewPipelineConnect( 551 deq, deqDly, deqDly.valid, 552 false.B, 553 Option("Scheduler2DataPathPipe") 554 ) 555 } 556 if(backendParams.debugEn) { 557 dontTouch(io.deqDelay) 558 } 559 io.wakeupToIQ.zipWithIndex.foreach { case (wakeup, i) => 560 if (wakeUpQueues(i).nonEmpty && finalWakeUpL1ExuOH.nonEmpty) { 561 wakeup.valid := wakeUpQueues(i).get.io.deq.valid 562 wakeup.bits.fromExuInput(wakeUpQueues(i).get.io.deq.bits, finalWakeUpL1ExuOH.get(i)) 563 wakeup.bits.loadDependency := wakeUpQueues(i).get.io.deq.bits.loadDependency.getOrElse(0.U.asTypeOf(wakeup.bits.loadDependency)) 564 wakeup.bits.is0Lat := getDeqLat(i, wakeUpQueues(i).get.io.deq.bits.fuType) === 0.U 565 } else if (wakeUpQueues(i).nonEmpty) { 566 wakeup.valid := wakeUpQueues(i).get.io.deq.valid 567 wakeup.bits.fromExuInput(wakeUpQueues(i).get.io.deq.bits) 568 wakeup.bits.loadDependency := wakeUpQueues(i).get.io.deq.bits.loadDependency.getOrElse(0.U.asTypeOf(wakeup.bits.loadDependency)) 569 wakeup.bits.is0Lat := getDeqLat(i, wakeUpQueues(i).get.io.deq.bits.fuType) === 0.U 570 } else { 571 wakeup.valid := false.B 572 wakeup.bits := 0.U.asTypeOf(wakeup.bits) 573 wakeup.bits.is0Lat := 0.U 574 } 575 if (wakeUpQueues(i).nonEmpty) { 576 wakeup.bits.rfWen := (if (wakeUpQueues(i).get.io.deq.bits.rfWen .nonEmpty) wakeUpQueues(i).get.io.deq.valid && wakeUpQueues(i).get.io.deq.bits.rfWen .get else false.B) 577 wakeup.bits.fpWen := (if (wakeUpQueues(i).get.io.deq.bits.fpWen .nonEmpty) wakeUpQueues(i).get.io.deq.valid && wakeUpQueues(i).get.io.deq.bits.fpWen .get else false.B) 578 wakeup.bits.vecWen := (if (wakeUpQueues(i).get.io.deq.bits.vecWen.nonEmpty) wakeUpQueues(i).get.io.deq.valid && wakeUpQueues(i).get.io.deq.bits.vecWen.get else false.B) 579 } 580 581 if(wakeUpQueues(i).nonEmpty && wakeup.bits.pdestCopy.nonEmpty){ 582 wakeup.bits.pdestCopy.get := wakeUpQueues(i).get.io.deq.bits.pdestCopy.get 583 } 584 if (wakeUpQueues(i).nonEmpty && wakeup.bits.rfWenCopy.nonEmpty) { 585 wakeup.bits.rfWenCopy.get := wakeUpQueues(i).get.io.deq.bits.rfWenCopy.get 586 } 587 if (wakeUpQueues(i).nonEmpty && wakeup.bits.fpWenCopy.nonEmpty) { 588 wakeup.bits.fpWenCopy.get := wakeUpQueues(i).get.io.deq.bits.fpWenCopy.get 589 } 590 if (wakeUpQueues(i).nonEmpty && wakeup.bits.vecWenCopy.nonEmpty) { 591 wakeup.bits.vecWenCopy.get := wakeUpQueues(i).get.io.deq.bits.vecWenCopy.get 592 } 593 if (wakeUpQueues(i).nonEmpty && wakeup.bits.loadDependencyCopy.nonEmpty) { 594 wakeup.bits.loadDependencyCopy.get := wakeUpQueues(i).get.io.deq.bits.loadDependencyCopy.get 595 } 596 } 597 598 // Todo: better counter implementation 599 private val enqHasValid = validVec.take(params.numEnq).reduce(_ | _) 600 private val enqEntryValidCnt = PopCount(validVec.take(params.numEnq)) 601 private val othersValidCnt = PopCount(validVec.drop(params.numEnq)) 602 io.status.leftVec(0) := validVec.drop(params.numEnq).reduce(_ & _) 603 for (i <- 0 until params.numEnq) { 604 io.status.leftVec(i + 1) := othersValidCnt === (params.numEntries - params.numEnq - (i + 1)).U 605 } 606 private val othersLeftOneCaseVec = Wire(Vec(params.numEntries - params.numEnq, UInt((params.numEntries - params.numEnq).W))) 607 othersLeftOneCaseVec.zipWithIndex.foreach { case (leftone, i) => 608 leftone := ~(1.U((params.numEntries - params.numEnq).W) << i) 609 } 610 private val othersLeftOne = othersLeftOneCaseVec.map(_ === VecInit(validVec.drop(params.numEnq)).asUInt).reduce(_ | _) 611 private val othersCanotIn = othersLeftOne || validVec.drop(params.numEnq).reduce(_ & _) 612 613 io.enq.foreach(_.ready := !othersCanotIn || !enqHasValid) 614 io.status.empty := !Cat(validVec).orR 615 io.status.full := othersCanotIn 616 io.status.validCnt := PopCount(validVec) 617 618 protected def getDeqLat(deqPortIdx: Int, fuType: UInt) : UInt = { 619 Mux1H(fuLatencyMaps(deqPortIdx) map { case (k, v) => (fuType(k.id), v.U) }) 620 } 621 622 // issue perf counter 623 // enq count 624 XSPerfAccumulate("enq_valid_cnt", PopCount(io.enq.map(_.fire))) 625 XSPerfAccumulate("enq_fire_cnt", PopCount(io.enq.map(_.fire))) 626 // valid count 627 XSPerfHistogram("enq_entry_valid_cnt", enqEntryValidCnt, true.B, 0, params.numEnq + 1) 628 XSPerfHistogram("other_entry_valid_cnt", othersValidCnt, true.B, 0, params.numEntries - params.numEnq + 1) 629 XSPerfHistogram("valid_cnt", PopCount(validVec), true.B, 0, params.numEntries + 1) 630 // only split when more than 1 func type 631 if (params.getFuCfgs.size > 0) { 632 for (t <- FuType.functionNameMap.keys) { 633 val fuName = FuType.functionNameMap(t) 634 if (params.getFuCfgs.map(_.fuType == t).reduce(_ | _)) { 635 XSPerfHistogram(s"valid_cnt_hist_futype_${fuName}", PopCount(validVec.zip(fuTypeVec).map { case (v, fu) => v && fu === t.U }), true.B, 0, params.numEntries, 1) 636 } 637 } 638 } 639 // ready instr count 640 private val readyEntriesCnt = PopCount(validVec.zip(canIssueVec).map(x => x._1 && x._2)) 641 XSPerfHistogram("ready_cnt", readyEntriesCnt, true.B, 0, params.numEntries + 1) 642 // only split when more than 1 func type 643 if (params.getFuCfgs.size > 0) { 644 for (t <- FuType.functionNameMap.keys) { 645 val fuName = FuType.functionNameMap(t) 646 if (params.getFuCfgs.map(_.fuType == t).reduce(_ | _)) { 647 XSPerfHistogram(s"ready_cnt_hist_futype_${fuName}", PopCount(validVec.zip(canIssueVec).zip(fuTypeVec).map { case ((v, c), fu) => v && c && fu === t.U }), true.B, 0, params.numEntries, 1) 648 } 649 } 650 } 651 652 // deq instr count 653 XSPerfAccumulate("issue_instr_pre_count", PopCount(deqBeforeDly.map(_.valid))) 654 XSPerfHistogram("issue_instr_pre_count_hist", PopCount(deqBeforeDly.map(_.valid)), true.B, 0, params.numDeq + 1, 1) 655 XSPerfAccumulate("issue_instr_count", PopCount(io.deqDelay.map(_.valid))) 656 XSPerfHistogram("issue_instr_count_hist", PopCount(io.deqDelay.map(_.valid)), true.B, 0, params.numDeq + 1, 1) 657 658 // deq instr data source count 659 XSPerfAccumulate("issue_datasource_reg", deqBeforeDly.map{ deq => 660 PopCount(deq.bits.common.dataSources.zipWithIndex.map{ case (ds, j) => deq.valid && ds.value === DataSource.reg && !SrcType.isNotReg(deq.bits.srcType(j)) }) 661 }.reduce(_ +& _)) 662 XSPerfAccumulate("issue_datasource_bypass", deqBeforeDly.map{ deq => 663 PopCount(deq.bits.common.dataSources.zipWithIndex.map{ case (ds, j) => deq.valid && ds.value === DataSource.bypass && !SrcType.isNotReg(deq.bits.srcType(j)) }) 664 }.reduce(_ +& _)) 665 XSPerfAccumulate("issue_datasource_forward", deqBeforeDly.map{ deq => 666 PopCount(deq.bits.common.dataSources.zipWithIndex.map{ case (ds, j) => deq.valid && ds.value === DataSource.forward && !SrcType.isNotReg(deq.bits.srcType(j)) }) 667 }.reduce(_ +& _)) 668 XSPerfAccumulate("issue_datasource_noreg", deqBeforeDly.map{ deq => 669 PopCount(deq.bits.common.dataSources.zipWithIndex.map{ case (ds, j) => deq.valid && SrcType.isNotReg(deq.bits.srcType(j)) }) 670 }.reduce(_ +& _)) 671 672 XSPerfHistogram("issue_datasource_reg_hist", deqBeforeDly.map{ deq => 673 PopCount(deq.bits.common.dataSources.zipWithIndex.map{ case (ds, j) => deq.valid && ds.value === DataSource.reg && !SrcType.isNotReg(deq.bits.srcType(j)) }) 674 }.reduce(_ +& _), true.B, 0, params.numDeq * params.numRegSrc + 1, 1) 675 XSPerfHistogram("issue_datasource_bypass_hist", deqBeforeDly.map{ deq => 676 PopCount(deq.bits.common.dataSources.zipWithIndex.map{ case (ds, j) => deq.valid && ds.value === DataSource.bypass && !SrcType.isNotReg(deq.bits.srcType(j)) }) 677 }.reduce(_ +& _), true.B, 0, params.numDeq * params.numRegSrc + 1, 1) 678 XSPerfHistogram("issue_datasource_forward_hist", deqBeforeDly.map{ deq => 679 PopCount(deq.bits.common.dataSources.zipWithIndex.map{ case (ds, j) => deq.valid && ds.value === DataSource.forward && !SrcType.isNotReg(deq.bits.srcType(j)) }) 680 }.reduce(_ +& _), true.B, 0, params.numDeq * params.numRegSrc + 1, 1) 681 XSPerfHistogram("issue_datasource_noreg_hist", deqBeforeDly.map{ deq => 682 PopCount(deq.bits.common.dataSources.zipWithIndex.map{ case (ds, j) => deq.valid && SrcType.isNotReg(deq.bits.srcType(j)) }) 683 }.reduce(_ +& _), true.B, 0, params.numDeq * params.numRegSrc + 1, 1) 684 685 // deq instr data source count for each futype 686 for (t <- FuType.functionNameMap.keys) { 687 val fuName = FuType.functionNameMap(t) 688 if (params.getFuCfgs.map(_.fuType == t).reduce(_ | _)) { 689 XSPerfAccumulate(s"issue_datasource_reg_futype_${fuName}", deqBeforeDly.map{ deq => 690 PopCount(deq.bits.common.dataSources.zipWithIndex.map{ case (ds, j) => deq.valid && ds.value === DataSource.reg && !SrcType.isNotReg(deq.bits.srcType(j)) && deq.bits.common.fuType === t.U }) 691 }.reduce(_ +& _)) 692 XSPerfAccumulate(s"issue_datasource_bypass_futype_${fuName}", deqBeforeDly.map{ deq => 693 PopCount(deq.bits.common.dataSources.zipWithIndex.map{ case (ds, j) => deq.valid && ds.value === DataSource.bypass && !SrcType.isNotReg(deq.bits.srcType(j)) && deq.bits.common.fuType === t.U }) 694 }.reduce(_ +& _)) 695 XSPerfAccumulate(s"issue_datasource_forward_futype_${fuName}", deqBeforeDly.map{ deq => 696 PopCount(deq.bits.common.dataSources.zipWithIndex.map{ case (ds, j) => deq.valid && ds.value === DataSource.forward && !SrcType.isNotReg(deq.bits.srcType(j)) && deq.bits.common.fuType === t.U }) 697 }.reduce(_ +& _)) 698 XSPerfAccumulate(s"issue_datasource_noreg_futype_${fuName}", deqBeforeDly.map{ deq => 699 PopCount(deq.bits.common.dataSources.zipWithIndex.map{ case (ds, j) => deq.valid && SrcType.isNotReg(deq.bits.srcType(j)) && deq.bits.common.fuType === t.U }) 700 }.reduce(_ +& _)) 701 702 XSPerfHistogram(s"issue_datasource_reg_hist_futype_${fuName}", deqBeforeDly.map{ deq => 703 PopCount(deq.bits.common.dataSources.zipWithIndex.map{ case (ds, j) => deq.valid && ds.value === DataSource.reg && !SrcType.isNotReg(deq.bits.srcType(j)) && deq.bits.common.fuType === t.U }) 704 }.reduce(_ +& _), true.B, 0, params.numDeq * params.numRegSrc + 1, 1) 705 XSPerfHistogram(s"issue_datasource_bypass_hist_futype_${fuName}", deqBeforeDly.map{ deq => 706 PopCount(deq.bits.common.dataSources.zipWithIndex.map{ case (ds, j) => deq.valid && ds.value === DataSource.bypass && !SrcType.isNotReg(deq.bits.srcType(j)) && deq.bits.common.fuType === t.U }) 707 }.reduce(_ +& _), true.B, 0, params.numDeq * params.numRegSrc + 1, 1) 708 XSPerfHistogram(s"issue_datasource_forward_hist_futype_${fuName}", deqBeforeDly.map{ deq => 709 PopCount(deq.bits.common.dataSources.zipWithIndex.map{ case (ds, j) => deq.valid && ds.value === DataSource.forward && !SrcType.isNotReg(deq.bits.srcType(j)) && deq.bits.common.fuType === t.U }) 710 }.reduce(_ +& _), true.B, 0, params.numDeq * params.numRegSrc + 1, 1) 711 XSPerfHistogram(s"issue_datasource_noreg_hist_futype_${fuName}", deqBeforeDly.map{ deq => 712 PopCount(deq.bits.common.dataSources.zipWithIndex.map{ case (ds, j) => deq.valid && SrcType.isNotReg(deq.bits.srcType(j)) && deq.bits.common.fuType === t.U }) 713 }.reduce(_ +& _), true.B, 0, params.numDeq * params.numRegSrc + 1, 1) 714 } 715 } 716 717 // cancel instr count 718 if (params.hasIQWakeUp) { 719 val cancelVec: Vec[Bool] = entries.io.cancel.get 720 XSPerfAccumulate("cancel_instr_count", PopCount(validVec.zip(cancelVec).map(x => x._1 & x._2))) 721 XSPerfHistogram("cancel_instr_hist", PopCount(validVec.zip(cancelVec).map(x => x._1 & x._2)), true.B, 0, params.numEntries, 1) 722 for (t <- FuType.functionNameMap.keys) { 723 val fuName = FuType.functionNameMap(t) 724 if (params.getFuCfgs.map(_.fuType == t).reduce(_ | _)) { 725 XSPerfAccumulate(s"cancel_instr_count_futype_${fuName}", PopCount(validVec.zip(cancelVec).zip(fuTypeVec).map{ case ((x, y), fu) => x & y & fu === t.U })) 726 XSPerfHistogram(s"cancel_instr_hist_futype_${fuName}", PopCount(validVec.zip(cancelVec).zip(fuTypeVec).map{ case ((x, y), fu) => x & y & fu === t.U }), true.B, 0, params.numEntries, 1) 727 } 728 } 729 } 730} 731 732class IssueQueueJumpBundle extends Bundle { 733 val pc = UInt(VAddrData().dataWidth.W) 734} 735 736class IssueQueueLoadBundle(implicit p: Parameters) extends XSBundle { 737 val fastMatch = UInt(backendParams.LduCnt.W) 738 val fastImm = UInt(12.W) 739} 740 741class IssueQueueIntIO()(implicit p: Parameters, params: IssueBlockParams) extends IssueQueueIO 742 743class IssueQueueIntImp(override val wrapper: IssueQueue)(implicit p: Parameters, iqParams: IssueBlockParams) 744 extends IssueQueueImp(wrapper) 745{ 746 io.suggestName("none") 747 override lazy val io = IO(new IssueQueueIntIO).suggestName("io") 748 749 deqBeforeDly.zipWithIndex.foreach{ case (deq, i) => { 750 deq.bits.common.pc.foreach(_ := deqEntryVec(i).bits.payload.pc) 751 deq.bits.common.preDecode.foreach(_ := deqEntryVec(i).bits.payload.preDecodeInfo) 752 deq.bits.common.ftqIdx.foreach(_ := deqEntryVec(i).bits.payload.ftqPtr) 753 deq.bits.common.ftqOffset.foreach(_ := deqEntryVec(i).bits.payload.ftqOffset) 754 deq.bits.common.predictInfo.foreach(x => { 755 x.target := DontCare 756 x.taken := deqEntryVec(i).bits.payload.pred_taken 757 }) 758 // for std 759 deq.bits.common.sqIdx.foreach(_ := deqEntryVec(i).bits.payload.sqIdx) 760 // for i2f 761 deq.bits.common.fpu.foreach(_ := deqEntryVec(i).bits.payload.fpu) 762 }} 763} 764 765class IssueQueueVfImp(override val wrapper: IssueQueue)(implicit p: Parameters, iqParams: IssueBlockParams) 766 extends IssueQueueImp(wrapper) 767{ 768 s0_enqBits.foreach{ x => 769 x.srcType(3) := SrcType.vp // v0: mask src 770 x.srcType(4) := SrcType.vp // vl&vtype 771 } 772 deqBeforeDly.zipWithIndex.foreach{ case (deq, i) => { 773 deq.bits.common.fpu.foreach(_ := deqEntryVec(i).bits.payload.fpu) 774 deq.bits.common.vpu.foreach(_ := deqEntryVec(i).bits.payload.vpu) 775 deq.bits.common.vpu.foreach(_.vuopIdx := deqEntryVec(i).bits.payload.uopIdx) 776 deq.bits.common.vpu.foreach(_.lastUop := deqEntryVec(i).bits.payload.lastUop) 777 }} 778} 779 780class IssueQueueMemBundle(implicit p: Parameters, params: IssueBlockParams) extends Bundle { 781 val feedbackIO = Flipped(Vec(params.numDeq, new MemRSFeedbackIO)) 782 val checkWait = new Bundle { 783 val stIssuePtr = Input(new SqPtr) 784 val memWaitUpdateReq = Flipped(new MemWaitUpdateReq) 785 } 786 val loadFastMatch = Output(Vec(params.LduCnt, new IssueQueueLoadBundle)) 787 788 // vector 789 val sqDeqPtr = OptionWrapper(params.isVecMemIQ, Input(new SqPtr)) 790 val lqDeqPtr = OptionWrapper(params.isVecMemIQ, Input(new LqPtr)) 791} 792 793class IssueQueueMemIO(implicit p: Parameters, params: IssueBlockParams) extends IssueQueueIO { 794 val memIO = Some(new IssueQueueMemBundle) 795} 796 797class IssueQueueMemAddrImp(override val wrapper: IssueQueue)(implicit p: Parameters, params: IssueBlockParams) 798 extends IssueQueueImp(wrapper) with HasCircularQueuePtrHelper { 799 800 require(params.StdCnt == 0 && (params.LduCnt + params.StaCnt + params.HyuCnt + params.VlduCnt) > 0, "IssueQueueMemAddrImp can only be instance of MemAddr IQ, " + 801 s"StdCnt: ${params.StdCnt}, LduCnt: ${params.LduCnt}, StaCnt: ${params.StaCnt}, HyuCnt: ${params.HyuCnt}") 802 println(s"[IssueQueueMemAddrImp] StdCnt: ${params.StdCnt}, LduCnt: ${params.LduCnt}, StaCnt: ${params.StaCnt}, HyuCnt: ${params.HyuCnt}") 803 804 io.suggestName("none") 805 override lazy val io = IO(new IssueQueueMemIO).suggestName("io") 806 private val memIO = io.memIO.get 807 808 memIO.loadFastMatch := 0.U.asTypeOf(memIO.loadFastMatch) // TODO: is still needed? 809 810 for (i <- io.enq.indices) { 811 val blockNotReleased = isAfter(io.enq(i).bits.sqIdx, memIO.checkWait.stIssuePtr) 812 val storeAddrWaitForIsIssuing = VecInit((0 until StorePipelineWidth).map(i => { 813 memIO.checkWait.memWaitUpdateReq.robIdx(i).valid && 814 memIO.checkWait.memWaitUpdateReq.robIdx(i).bits.value === io.enq(i).bits.waitForRobIdx.value 815 })).asUInt.orR && !io.enq(i).bits.loadWaitStrict // is waiting for store addr ready 816 s0_enqBits(i).loadWaitBit := io.enq(i).bits.loadWaitBit && !storeAddrWaitForIsIssuing && blockNotReleased 817 // when have vpu 818 if (params.VlduCnt > 0 || params.VstuCnt > 0) { 819 s0_enqBits(i).srcType(3) := SrcType.vp // v0: mask src 820 s0_enqBits(i).srcType(4) := SrcType.vp // vl&vtype 821 } 822 } 823 824 for (i <- entries.io.enq.indices) { 825 entries.io.enq(i).bits.status match { case enqData => 826 enqData.blocked := false.B // s0_enqBits(i).loadWaitBit 827 enqData.mem.get.strictWait := s0_enqBits(i).loadWaitStrict 828 enqData.mem.get.waitForStd := false.B 829 enqData.mem.get.waitForRobIdx := s0_enqBits(i).waitForRobIdx 830 enqData.mem.get.waitForSqIdx := 0.U.asTypeOf(enqData.mem.get.waitForSqIdx) // generated by sq, will be updated later 831 enqData.mem.get.sqIdx := s0_enqBits(i).sqIdx 832 } 833 834 entries.io.fromMem.get.slowResp.zipWithIndex.foreach { case (slowResp, i) => 835 slowResp.valid := memIO.feedbackIO(i).feedbackSlow.valid 836 slowResp.bits.robIdx := memIO.feedbackIO(i).feedbackSlow.bits.robIdx 837 slowResp.bits.uopIdx := DontCare 838 slowResp.bits.respType := Mux(memIO.feedbackIO(i).feedbackSlow.bits.hit, RSFeedbackType.fuIdle, RSFeedbackType.feedbackInvalid) 839 slowResp.bits.dataInvalidSqIdx := memIO.feedbackIO(i).feedbackSlow.bits.dataInvalidSqIdx 840 slowResp.bits.rfWen := DontCare 841 slowResp.bits.fuType := DontCare 842 } 843 844 entries.io.fromMem.get.fastResp.zipWithIndex.foreach { case (fastResp, i) => 845 fastResp.valid := memIO.feedbackIO(i).feedbackFast.valid 846 fastResp.bits.robIdx := memIO.feedbackIO(i).feedbackFast.bits.robIdx 847 fastResp.bits.uopIdx := DontCare 848 fastResp.bits.respType := Mux(memIO.feedbackIO(i).feedbackFast.bits.hit, RSFeedbackType.fuIdle, memIO.feedbackIO(i).feedbackFast.bits.sourceType) 849 fastResp.bits.dataInvalidSqIdx := 0.U.asTypeOf(fastResp.bits.dataInvalidSqIdx) 850 fastResp.bits.rfWen := DontCare 851 fastResp.bits.fuType := DontCare 852 } 853 854 entries.io.fromMem.get.memWaitUpdateReq := memIO.checkWait.memWaitUpdateReq 855 entries.io.fromMem.get.stIssuePtr := memIO.checkWait.stIssuePtr 856 } 857 858 deqBeforeDly.zipWithIndex.foreach { case (deq, i) => 859 deq.bits.common.loadWaitBit.foreach(_ := deqEntryVec(i).bits.payload.loadWaitBit) 860 deq.bits.common.waitForRobIdx.foreach(_ := deqEntryVec(i).bits.payload.waitForRobIdx) 861 deq.bits.common.storeSetHit.foreach(_ := deqEntryVec(i).bits.payload.storeSetHit) 862 deq.bits.common.loadWaitStrict.foreach(_ := deqEntryVec(i).bits.payload.loadWaitStrict) 863 deq.bits.common.ssid.foreach(_ := deqEntryVec(i).bits.payload.ssid) 864 deq.bits.common.sqIdx.get := deqEntryVec(i).bits.payload.sqIdx 865 deq.bits.common.lqIdx.get := deqEntryVec(i).bits.payload.lqIdx 866 deq.bits.common.ftqIdx.foreach(_ := deqEntryVec(i).bits.payload.ftqPtr) 867 deq.bits.common.ftqOffset.foreach(_ := deqEntryVec(i).bits.payload.ftqOffset) 868 // when have vpu 869 if (params.VlduCnt > 0 || params.VstuCnt > 0) { 870 deq.bits.common.vpu.foreach(_ := deqEntryVec(i).bits.payload.vpu) 871 deq.bits.common.vpu.foreach(_.vuopIdx := deqEntryVec(i).bits.payload.uopIdx) 872 } 873 } 874} 875 876class IssueQueueVecMemImp(override val wrapper: IssueQueue)(implicit p: Parameters, params: IssueBlockParams) 877 extends IssueQueueImp(wrapper) with HasCircularQueuePtrHelper { 878 879 require((params.VstdCnt + params.VlduCnt + params.VstaCnt) > 0, "IssueQueueVecMemImp can only be instance of VecMem IQ") 880 881 io.suggestName("none") 882 override lazy val io = IO(new IssueQueueMemIO).suggestName("io") 883 private val memIO = io.memIO.get 884 885 def selectOldUop(robIdx: Seq[RobPtr], uopIdx: Seq[UInt], valid: Seq[Bool]): Vec[Bool] = { 886 val compareVec = (0 until robIdx.length).map(i => (0 until i).map(j => isAfter(robIdx(j), robIdx(i)) || (robIdx(j).value === robIdx(i).value && uopIdx(i) < uopIdx(j)))) 887 val resultOnehot = VecInit((0 until robIdx.length).map(i => Cat((0 until robIdx.length).map(j => 888 (if (j < i) !valid(j) || compareVec(i)(j) 889 else if (j == i) valid(i) 890 else !valid(j) || !compareVec(j)(i)) 891 )).andR)) 892 resultOnehot 893 } 894 895 val robIdxVec = entries.io.robIdx.get 896 val uopIdxVec = entries.io.uopIdx.get 897 val allEntryOldestOH = selectOldUop(robIdxVec, uopIdxVec, validVec) 898 899 finalDeqSelValidVec.head := (allEntryOldestOH.asUInt & canIssueVec.asUInt).orR 900 finalDeqSelOHVec.head := allEntryOldestOH.asUInt & canIssueVec.asUInt 901 902 if (params.isVecMemAddrIQ) { 903 s0_enqBits.foreach{ x => 904 x.srcType(3) := SrcType.vp // v0: mask src 905 x.srcType(4) := SrcType.vp // vl&vtype 906 } 907 908 for (i <- io.enq.indices) { 909 s0_enqBits(i).loadWaitBit := false.B 910 } 911 912 for (i <- entries.io.enq.indices) { 913 entries.io.enq(i).bits.status match { case enqData => 914 enqData.blocked := false.B // s0_enqBits(i).loadWaitBit 915 enqData.mem.get.strictWait := s0_enqBits(i).loadWaitStrict 916 enqData.mem.get.waitForStd := false.B 917 enqData.mem.get.waitForRobIdx := s0_enqBits(i).waitForRobIdx 918 enqData.mem.get.waitForSqIdx := 0.U.asTypeOf(enqData.mem.get.waitForSqIdx) // generated by sq, will be updated later 919 enqData.mem.get.sqIdx := s0_enqBits(i).sqIdx 920 } 921 922 entries.io.fromMem.get.slowResp.zipWithIndex.foreach { case (slowResp, i) => 923 slowResp.valid := memIO.feedbackIO(i).feedbackSlow.valid 924 slowResp.bits.robIdx := memIO.feedbackIO(i).feedbackSlow.bits.robIdx 925 slowResp.bits.uopIdx := DontCare 926 slowResp.bits.respType := Mux(memIO.feedbackIO(i).feedbackSlow.bits.hit, RSFeedbackType.fuIdle, RSFeedbackType.feedbackInvalid) 927 slowResp.bits.dataInvalidSqIdx := memIO.feedbackIO(i).feedbackSlow.bits.dataInvalidSqIdx 928 slowResp.bits.rfWen := DontCare 929 slowResp.bits.fuType := DontCare 930 } 931 932 entries.io.fromMem.get.fastResp.zipWithIndex.foreach { case (fastResp, i) => 933 fastResp.valid := memIO.feedbackIO(i).feedbackFast.valid 934 fastResp.bits.robIdx := memIO.feedbackIO(i).feedbackFast.bits.robIdx 935 fastResp.bits.uopIdx := DontCare 936 fastResp.bits.respType := memIO.feedbackIO(i).feedbackFast.bits.sourceType 937 fastResp.bits.dataInvalidSqIdx := 0.U.asTypeOf(fastResp.bits.dataInvalidSqIdx) 938 fastResp.bits.rfWen := DontCare 939 fastResp.bits.fuType := DontCare 940 } 941 942 entries.io.fromMem.get.memWaitUpdateReq := memIO.checkWait.memWaitUpdateReq 943 entries.io.fromMem.get.stIssuePtr := memIO.checkWait.stIssuePtr 944 } 945 } 946 947 for (i <- entries.io.enq.indices) { 948 entries.io.enq(i).bits.status match { case enqData => 949 enqData.vecMem.get.sqIdx := s0_enqBits(i).sqIdx 950 enqData.vecMem.get.lqIdx := s0_enqBits(i).lqIdx 951 } 952 } 953 954 entries.io.fromLsq.get.sqDeqPtr := memIO.sqDeqPtr.get 955 entries.io.fromLsq.get.lqDeqPtr := memIO.lqDeqPtr.get 956 957 deqBeforeDly.zipWithIndex.foreach { case (deq, i) => 958 deq.bits.common.sqIdx.foreach(_ := deqEntryVec(i).bits.payload.sqIdx) 959 deq.bits.common.lqIdx.foreach(_ := deqEntryVec(i).bits.payload.lqIdx) 960 if (params.isVecLdAddrIQ) { 961 deq.bits.common.ftqIdx.get := deqEntryVec(i).bits.payload.ftqPtr 962 deq.bits.common.ftqOffset.get := deqEntryVec(i).bits.payload.ftqOffset 963 } 964 deq.bits.common.fpu.foreach(_ := deqEntryVec(i).bits.payload.fpu) 965 deq.bits.common.vpu.foreach(_ := deqEntryVec(i).bits.payload.vpu) 966 deq.bits.common.vpu.foreach(_.vuopIdx := deqEntryVec(i).bits.payload.uopIdx) 967 deq.bits.common.vpu.foreach(_.lastUop := deqEntryVec(i).bits.payload.lastUop) 968 } 969} 970