1package xiangshan.backend.issue 2 3import org.chipsalliance.cde.config.Parameters 4import chisel3._ 5import chisel3.util._ 6import utility.HasCircularQueuePtrHelper 7import utils.{MathUtils, OptionWrapper} 8import xiangshan._ 9import xiangshan.backend.Bundles._ 10import xiangshan.backend.fu.FuType 11import xiangshan.backend.datapath.DataSource 12import xiangshan.backend.rob.RobPtr 13import xiangshan.mem.{MemWaitUpdateReq, SqPtr, LqPtr} 14 15 16class OthersEntryIO(implicit p: Parameters, params: IssueBlockParams) extends XSBundle { 17 //input 18 val enq = Flipped(ValidIO(new EntryBundle)) 19 val flush = Flipped(ValidIO(new Redirect)) 20 val wakeUpFromWB: MixedVec[ValidIO[IssueQueueWBWakeUpBundle]] = Flipped(params.genWBWakeUpSinkValidBundle) 21 val wakeUpFromIQ: MixedVec[ValidIO[IssueQueueIQWakeUpBundle]] = Flipped(params.genIQWakeUpSinkValidBundle) 22 val og0Cancel = Input(ExuOH(backendParams.numExu)) 23 val og1Cancel = Input(ExuOH(backendParams.numExu)) 24 val ldCancel = Vec(backendParams.LduCnt + backendParams.HyuCnt, Flipped(new LoadCancelIO)) 25 val deqSel = Input(Bool()) 26 val transSel = Input(Bool()) 27 val issueResp = Flipped(ValidIO(new EntryDeqRespBundle)) 28 val deqPortIdxWrite = Input(UInt(1.W)) 29 //output 30 val valid = Output(Bool()) 31 val canIssue = Output(Bool()) 32 val clear = Output(Bool()) 33 val fuType = Output(FuType()) 34 val dataSource = Output(Vec(params.numRegSrc, DataSource())) 35 val srcWakeUpL1ExuOH = OptionWrapper(params.hasIQWakeUp, Output(Vec(params.numRegSrc, ExuOH()))) 36 val srcTimer = OptionWrapper(params.hasIQWakeUp, Output(Vec(params.numRegSrc, UInt(3.W)))) 37 val isFirstIssue = Output(Bool()) 38 val entry = ValidIO(new EntryBundle) 39 val robIdx = Output(new RobPtr) 40 val uopIdx = OptionWrapper(params.isVecMemIQ, Output(UopIdx())) 41 val deqPortIdxRead = Output(UInt(1.W)) 42 val issueTimerRead = Output(UInt(2.W)) 43 // mem only 44 val fromMem = if(params.isMemAddrIQ) Some(new Bundle { 45 val stIssuePtr = Input(new SqPtr) 46 val memWaitUpdateReq = Flipped(new MemWaitUpdateReq) 47 }) else None 48 // vector mem only 49 val fromLsq = OptionWrapper(params.isVecMemIQ, new Bundle { 50 val sqDeqPtr = Input(new SqPtr) 51 val lqDeqPtr = Input(new LqPtr) 52 }) 53 // debug 54 val cancel = OptionWrapper(params.hasIQWakeUp, Output(Bool())) 55 56 def wakeup = wakeUpFromWB ++ wakeUpFromIQ 57} 58 59class OthersEntry(implicit p: Parameters, params: IssueBlockParams) extends XSModule { 60 val io = IO(new OthersEntryIO) 61 62 val validReg = RegInit(false.B) 63 val entryReg = Reg(new EntryBundle) 64 65 val validRegNext = Wire(Bool()) 66 val entryRegNext = Wire(new EntryBundle) 67 val flushed = Wire(Bool()) 68 val clear = Wire(Bool()) 69 val deqSuccess = Wire(Bool()) 70 val srcWakeUp = Wire(Vec(params.numRegSrc, Bool())) 71 val srcWakeUpByWB = Wire(Vec(params.numRegSrc, Bool())) 72 val srcCancelVec = OptionWrapper(params.hasIQWakeUp, Wire(Vec(params.numRegSrc, Bool()))) 73 val srcLoadCancelVec = OptionWrapper(params.hasIQWakeUp, Wire(Vec(params.numRegSrc, Bool()))) 74 val srcWakeUpByIQVec = Wire(Vec(params.numRegSrc, Vec(params.numWakeupFromIQ, Bool()))) 75 val srcWakeUpByIQWithoutCancel = Wire(Vec(params.numRegSrc, Vec(params.numWakeupFromIQ, Bool()))) 76 val srcWakeUpL1ExuOHOut = OptionWrapper(params.hasIQWakeUp, Wire(Vec(params.numRegSrc, ExuOH()))) 77 val srcLoadDependencyOut = OptionWrapper(params.hasIQWakeUp, Wire(Vec(params.numRegSrc, Vec(LoadPipelineWidth, UInt(3.W))))) 78 val srcWakeUpButCancel = Wire(Vec(params.numRegSrc, Vec(params.numWakeupFromIQ, Bool()))) 79 val wakeupLoadDependencyByIQVec = Wire(Vec(params.numWakeupFromIQ, Vec(LoadPipelineWidth, UInt(3.W)))) 80 val shiftedWakeupLoadDependencyByIQVec = Wire(Vec(params.numWakeupFromIQ, Vec(LoadPipelineWidth, UInt(3.W)))) 81 val shiftedWakeupLoadDependencyByIQBypassVec = Wire(Vec(params.numWakeupFromIQ, Vec(LoadPipelineWidth, UInt(3.W)))) 82 val cancelVec = OptionWrapper(params.hasIQWakeUp, Wire(Vec(params.numRegSrc, Bool()))) 83 84 //Reg 85 validReg := validRegNext 86 entryReg := entryRegNext 87 88 //Wire 89 flushed := entryReg.status.robIdx.needFlush(io.flush) 90 clear := flushed || deqSuccess 91 deqSuccess := io.issueResp.valid && io.issueResp.bits.respType === RSFeedbackType.fuIdle && !srcLoadCancelVec.map(_.reduce(_ || _)).getOrElse(false.B) 92 srcWakeUpByWB := io.wakeUpFromWB.map(bundle => bundle.bits.wakeUp(entryReg.status.psrc zip entryReg.status.srcType, bundle.valid)).transpose.map(x => VecInit(x.toSeq).asUInt.orR).toSeq 93 srcWakeUp := srcWakeUpByWB.zip(srcWakeUpByIQVec).map { case (x, y) => x || y.asUInt.orR } 94 95 shiftedWakeupLoadDependencyByIQVec 96 .zip(wakeupLoadDependencyByIQVec) 97 .zip(params.wakeUpInExuSources.map(_.name)).foreach { 98 case ((deps, originalDeps), name) => deps.zip(originalDeps).zipWithIndex.foreach { 99 case ((dep, originalDep), deqPortIdx) => 100 if (params.backendParam.getLdExuIdx(params.backendParam.allExuParams.find(_.name == name).get) == deqPortIdx) 101 dep := (originalDep << 2).asUInt | 2.U 102 else 103 dep := originalDep << 1 104 } 105 } 106 shiftedWakeupLoadDependencyByIQBypassVec 107 .zip(wakeupLoadDependencyByIQVec) 108 .zip(params.wakeUpInExuSources.map(_.name)).foreach { 109 case ((deps, originalDeps), name) => deps.zip(originalDeps).zipWithIndex.foreach { 110 case ((dep, originalDep), deqPortIdx) => 111 if (params.backendParam.getLdExuIdx(params.backendParam.allExuParams.find(_.name == name).get) == deqPortIdx) 112 dep := (originalDep << 2).asUInt | 2.U 113 else 114 dep := originalDep << 1 115 } 116 } 117 118 when(io.enq.valid && io.transSel) { 119 validRegNext := true.B 120 }.elsewhen(clear) { 121 validRegNext := false.B 122 }.otherwise { 123 validRegNext := validReg 124 } 125 126 if (params.hasIQWakeUp) { 127 srcCancelVec.get.zip(srcLoadCancelVec.get).zip(srcWakeUpByIQVec).zipWithIndex.foreach { case (((srcCancel, srcLoadCancel), wakeUpByIQVec), srcIdx) => 128 val ldTransCancel = Mux1H(wakeUpByIQVec, wakeupLoadDependencyByIQVec.map(dep => LoadShouldCancel(Some(dep), io.ldCancel))) 129 srcLoadCancel := LoadShouldCancel(entryReg.status.srcLoadDependency.map(_(srcIdx)), io.ldCancel) 130 srcCancel := srcLoadCancel || ldTransCancel 131 } 132 cancelVec.get.foreach(_ := false.B) 133 } 134 135 if (io.wakeUpFromIQ.isEmpty) { 136 srcWakeUpByIQVec := 0.U.asTypeOf(srcWakeUpByIQVec) 137 wakeupLoadDependencyByIQVec := 0.U.asTypeOf(wakeupLoadDependencyByIQVec) 138 } else { 139 val wakeupVec: Seq[Seq[Bool]] = io.wakeUpFromIQ.map((bundle: ValidIO[IssueQueueIQWakeUpBundle]) => 140 bundle.bits.wakeUp(entryReg.status.psrc zip entryReg.status.srcType, bundle.valid) 141 ).toSeq.transpose 142 val cancelSel = io.wakeUpFromIQ.map(x => x.bits.exuIdx).map(x => io.og0Cancel(x)) 143 srcWakeUpByIQVec := wakeupVec.map(x => VecInit(x.zip(cancelSel).map { case (wakeup, cancel) => wakeup && !cancel })) 144 srcWakeUpButCancel := wakeupVec.map(x => VecInit(x.zip(cancelSel).map { case (wakeup, cancel) => wakeup && cancel })) 145 srcWakeUpByIQWithoutCancel := wakeupVec.map(x => VecInit(x)) 146 wakeupLoadDependencyByIQVec := io.wakeUpFromIQ.map(_.bits.loadDependency).toSeq 147 } 148 149 when(io.enq.valid && io.transSel) { 150 entryRegNext := io.enq.bits 151 }.otherwise { 152 //update status 153 entryRegNext.status.srcState.zip(entryReg.status.srcState).zip(srcWakeUp).zipWithIndex.foreach { case (((stateNext, state), wakeup), srcIdx) => 154 val cancel = srcCancelVec.map(_ (srcIdx)).getOrElse(false.B) 155 stateNext := Mux(cancel, false.B, wakeup | state) 156 if (params.hasIQWakeUp) { 157 cancelVec.get(srcIdx) := cancel 158 } 159 } 160 entryRegNext.status.dataSources.zip(entryReg.status.dataSources).zip(srcWakeUpByIQVec).foreach { 161 case ((dataSourceNext: DataSource, dataSource: DataSource), wakeUpByIQOH: Vec[Bool]) => 162 when(wakeUpByIQOH.asUInt.orR) { 163 dataSourceNext.value := DataSource.bypass 164 }.otherwise { 165 dataSourceNext.value := DataSource.reg 166 } 167 } 168 if (params.hasIQWakeUp) { 169 entryRegNext.status.srcWakeUpL1ExuOH.get.zip(srcWakeUpByIQVec).zip(srcWakeUp).zipWithIndex.foreach { 170 case (((exuOH: UInt, wakeUpByIQOH: Vec[Bool]), wakeUp: Bool), srcIdx) => 171 when(wakeUpByIQOH.asUInt.orR) { 172 exuOH := Mux1H(wakeUpByIQOH, io.wakeUpFromIQ.toSeq.map(x => MathUtils.IntToOH(x.bits.exuIdx).U(backendParams.numExu.W))) 173 }.elsewhen(wakeUp) { 174 exuOH := 0.U.asTypeOf(exuOH) 175 }.otherwise { 176 exuOH := entryReg.status.srcWakeUpL1ExuOH.get(srcIdx) 177 } 178 } 179 entryRegNext.status.srcTimer.get.zip(entryReg.status.srcTimer.get).zip(srcWakeUpByIQVec).zipWithIndex.foreach { 180 case (((srcIssuedTimerNext, srcIssuedTimer), wakeUpByIQOH: Vec[Bool]), srcIdx) => 181 srcIssuedTimerNext := MuxCase(3.U, Seq( 182 // T0: waked up by IQ, T1: reset timer as 1 183 wakeUpByIQOH.asUInt.orR -> 2.U, 184 // do not overflow 185 srcIssuedTimer.andR -> srcIssuedTimer, 186 // T2+: increase if the entry is valid, the src is ready, and the src is woken up by iq 187 (validReg && SrcState.isReady(entryReg.status.srcState(srcIdx)) && entryReg.status.srcWakeUpL1ExuOH.get.asUInt.orR) -> (srcIssuedTimer + 1.U) 188 )) 189 } 190 entryRegNext.status.srcLoadDependency.get.zip(entryReg.status.srcLoadDependency.get).zip(srcWakeUpByIQVec).zip(srcWakeUp).foreach { 191 case (((loadDependencyNext, loadDependency), wakeUpByIQVec), wakeup) => 192 loadDependencyNext := 193 Mux(wakeup, 194 Mux1H(wakeUpByIQVec, shiftedWakeupLoadDependencyByIQVec), 195 Mux(validReg && loadDependency.asUInt.orR, VecInit(loadDependency.map(i => i(i.getWidth - 2, 0) << 1)), loadDependency) 196 ) 197 } 198 } 199 entryRegNext.status.issueTimer := "b10".U //otherwise 200 entryRegNext.status.deqPortIdx := 0.U //otherwise 201 when(io.deqSel){ 202 entryRegNext.status.issueTimer := 0.U 203 entryRegNext.status.deqPortIdx := io.deqPortIdxWrite 204 }.elsewhen(entryReg.status.issued){ 205 entryRegNext.status.issueTimer := entryReg.status.issueTimer + 1.U 206 entryRegNext.status.deqPortIdx := entryReg.status.deqPortIdx 207 }.otherwise { 208 entryRegNext.status.issueTimer := "b10".U 209 entryRegNext.status.deqPortIdx := 0.U 210 } 211 entryRegNext.status.psrc := entryReg.status.psrc 212 entryRegNext.status.srcType := entryReg.status.srcType 213 entryRegNext.status.fuType := entryReg.status.fuType 214 entryRegNext.status.robIdx := entryReg.status.robIdx 215 entryRegNext.status.uopIdx.foreach(_ := entryReg.status.uopIdx.get) 216 when(srcLoadCancelVec.map(_.reduce(_ || _)).getOrElse(false.B) || srcWakeUpButCancel.map(_.fold(false.B)(_ || _)).fold(false.B)(_ || _)) { 217 entryRegNext.status.issued := false.B 218 }.elsewhen(io.deqSel) { 219 entryRegNext.status.issued := true.B 220 }.elsewhen(io.issueResp.valid && RSFeedbackType.isBlocked(io.issueResp.bits.respType)) { 221 entryRegNext.status.issued := false.B 222 }.elsewhen(!entryReg.status.srcReady) { 223 entryRegNext.status.issued := false.B 224 }.otherwise { 225 entryRegNext.status.issued := entryReg.status.issued 226 } 227 entryRegNext.status.firstIssue := io.deqSel || entryReg.status.firstIssue 228 entryRegNext.status.blocked := false.B //todo 229 //remain imm and payload 230 entryRegNext.imm := entryReg.imm 231 entryRegNext.payload := entryReg.payload 232 if (params.needPc) { 233 entryRegNext.status.pc.get := entryReg.status.pc.get 234 } 235 } 236 237 //output 238 val canIssue = entryReg.status.canIssue && validReg && !srcCancelVec.getOrElse(false.B).asUInt.orR 239 val canIssueBypass = validReg && !entryReg.status.issued && !entryReg.status.blocked && 240 VecInit(entryReg.status.srcState.zip(srcWakeUpByIQWithoutCancel).zipWithIndex.map { case ((state, wakeupVec), srcIdx) => 241 val cancel = srcCancelVec.map(_ (srcIdx)).getOrElse(false.B) 242 Mux(cancel, false.B, wakeupVec.asUInt.orR | state) 243 }).asUInt.andR 244 io.dataSource.zip(entryReg.status.dataSources).zip(srcWakeUpByIQVec).zip(srcWakeUp).foreach { 245 case (((dataSourceOut: DataSource, dataSource: DataSource), wakeUpByIQOH: Vec[Bool]), wakeUpAll) => 246 when(wakeUpByIQOH.asUInt.orR) { 247 dataSourceOut.value := DataSource.forward 248 }.elsewhen(wakeUpAll) { 249 dataSourceOut.value := DataSource.reg 250 }.otherwise { 251 dataSourceOut.value := dataSource.value 252 } 253 } 254 if (params.hasIQWakeUp) { 255 srcWakeUpL1ExuOHOut.get.zip(srcWakeUpByIQWithoutCancel).zip(srcWakeUp).zipWithIndex.foreach { 256 case (((exuOH: UInt, wakeUpByIQOH: Vec[Bool]), wakeUp: Bool), srcIdx) => 257 when(wakeUpByIQOH.asUInt.orR) { 258 exuOH := Mux1H(wakeUpByIQOH, io.wakeUpFromIQ.map(x => MathUtils.IntToOH(x.bits.exuIdx).U(backendParams.numExu.W)).toSeq) 259 }.elsewhen(wakeUp) { 260 exuOH := 0.U.asTypeOf(exuOH) 261 }.otherwise { 262 exuOH := entryReg.status.srcWakeUpL1ExuOH.get(srcIdx) 263 } 264 } 265 srcLoadDependencyOut.get.zip(entryReg.status.srcLoadDependency.get).zip(srcWakeUpByIQVec).zip(srcWakeUp).foreach { 266 case (((loadDependencyOut, loadDependency), wakeUpByIQVec), wakeup) => 267 loadDependencyOut := 268 Mux(wakeup, 269 Mux1H(wakeUpByIQVec, shiftedWakeupLoadDependencyByIQBypassVec), 270 loadDependency 271 ) 272 } 273 io.srcTimer.get.zip(entryReg.status.srcTimer.get).zip(srcWakeUpByIQWithoutCancel).zip(srcWakeUp).foreach { 274 case (((srcTimerOut, srcTimer), wakeUpByIQOH: Vec[Bool]), wakeUpAll) => 275 when(wakeUpByIQOH.asUInt.orR) { 276 srcTimerOut := 1.U 277 }.otherwise { 278 srcTimerOut := srcTimer 279 } 280 } 281 io.srcWakeUpL1ExuOH.get := Mux(canIssueBypass && !canIssue, srcWakeUpL1ExuOHOut.get, entryReg.status.srcWakeUpL1ExuOH.get) 282 } 283 io.canIssue := (canIssue || canIssueBypass) && !flushed 284 io.clear := clear 285 io.fuType := entryReg.status.fuType 286 io.valid := validReg 287 io.isFirstIssue := !entryReg.status.firstIssue 288 io.entry.valid := validReg 289 io.entry.bits := entryReg 290 io.entry.bits.status.srcLoadDependency.foreach(_ := Mux(canIssueBypass && !canIssue, srcLoadDependencyOut.get, entryReg.status.srcLoadDependency.get)) 291 io.robIdx := entryReg.status.robIdx 292 io.uopIdx.foreach(_ := entryReg.status.uopIdx.get) 293 io.issueTimerRead := entryReg.status.issueTimer 294 io.deqPortIdxRead := entryReg.status.deqPortIdx 295 io.cancel.foreach(_ := cancelVec.get.asUInt.orR) 296} 297 298class OthersEntryMem()(implicit p: Parameters, params: IssueBlockParams) extends OthersEntry 299 with HasCircularQueuePtrHelper { 300 301 val fromMem = io.fromMem.get 302 303 val memStatus = entryReg.status.mem.get 304 val memStatusNext = entryRegNext.status.mem.get 305 // load cannot be issued before older store, unless meet some condition 306 val blockedByOlderStore = isAfter(memStatusNext.sqIdx, fromMem.stIssuePtr) 307 308 val deqFailedForStdInvalid = io.issueResp.valid && io.issueResp.bits.respType === RSFeedbackType.dataInvalid 309 310 val staWaitedReleased = Cat( 311 fromMem.memWaitUpdateReq.robIdx.map(x => x.valid && x.bits.value === memStatusNext.waitForRobIdx.value) 312 ).orR 313 val stdWaitedReleased = Cat( 314 fromMem.memWaitUpdateReq.sqIdx.map(x => x.valid && x.bits.value === memStatusNext.waitForSqIdx.value) 315 ).orR 316 val olderStaNotViolate = staWaitedReleased && !memStatusNext.strictWait 317 val olderStdReady = stdWaitedReleased && memStatusNext.waitForStd 318 val waitStd = !olderStdReady 319 val waitSta = !olderStaNotViolate 320 321 when(io.enq.valid && io.transSel) { 322 memStatusNext.waitForSqIdx := io.enq.bits.status.mem.get.waitForSqIdx 323 // update by lfst at dispatch stage 324 memStatusNext.waitForRobIdx := io.enq.bits.status.mem.get.waitForRobIdx 325 // new load inst don't known if it is blocked by store data ahead of it 326 memStatusNext.waitForStd := false.B 327 // update by ssit at rename stage 328 memStatusNext.strictWait := io.enq.bits.status.mem.get.strictWait 329 memStatusNext.sqIdx := io.enq.bits.status.mem.get.sqIdx 330 }.elsewhen(deqFailedForStdInvalid) { 331 // Todo: check if need assign statusNext.block 332 memStatusNext.waitForSqIdx := io.issueResp.bits.dataInvalidSqIdx 333 memStatusNext.waitForRobIdx := memStatus.waitForRobIdx 334 memStatusNext.waitForStd := true.B 335 memStatusNext.strictWait := memStatus.strictWait 336 memStatusNext.sqIdx := memStatus.sqIdx 337 }.otherwise { 338 memStatusNext := memStatus 339 } 340 341 val shouldBlock = Mux(io.enq.valid && io.transSel, io.enq.bits.status.blocked, entryReg.status.blocked) 342 val blockNotReleased = waitStd || waitSta 343 val respBlock = deqFailedForStdInvalid 344 entryRegNext.status.blocked := shouldBlock && blockNotReleased && blockedByOlderStore || respBlock 345} 346 347class OthersEntryVecMemAddr()(implicit p: Parameters, params: IssueBlockParams) extends OthersEntryMem { 348 349 require(params.isVecMemAddrIQ, "OthersEntryVecMemAddr can only be instance of VecMemAddr IQ") 350 351 val vecMemStatus = entryReg.status.vecMem.get 352 val vecMemStatusNext = entryRegNext.status.vecMem.get 353 val fromLsq = io.fromLsq.get 354 355 when(io.enq.valid && io.transSel) { 356 vecMemStatusNext.sqIdx := io.enq.bits.status.vecMem.get.sqIdx 357 vecMemStatusNext.lqIdx := io.enq.bits.status.vecMem.get.lqIdx 358 }.otherwise { 359 vecMemStatusNext := vecMemStatus 360 } 361 362 val isLsqHead = { 363 // if (params.isVecLdAddrIQ) 364 entryRegNext.status.vecMem.get.lqIdx <= fromLsq.lqDeqPtr && 365 // else 366 entryRegNext.status.vecMem.get.sqIdx <= fromLsq.sqDeqPtr 367 } 368 dontTouch(shouldBlock) 369 dontTouch(blockNotReleased) 370 dontTouch(blockedByOlderStore) 371 dontTouch(respBlock) 372 dontTouch(isLsqHead) 373 dontTouch(waitStd) 374 dontTouch(waitSta) 375 dontTouch(memStatusNext) 376 dontTouch(fromMem) 377 dontTouch(io.issueResp) 378 dontTouch(isLsqHead) 379 380 entryRegNext.status.blocked := shouldBlock && blockNotReleased && blockedByOlderStore || respBlock || !isLsqHead 381} 382 383class OthersEntryVecMemData()(implicit p: Parameters, params: IssueBlockParams) extends OthersEntry 384 with HasCircularQueuePtrHelper { 385 386 require(params.isVecStDataIQ, "OthersEntryVecMemData can only be instance of VecMemData IQ") 387 388 val vecMemStatus = entryReg.status.vecMem.get 389 val vecMemStatusNext = entryRegNext.status.vecMem.get 390 val fromLsq = io.fromLsq.get 391 392 when(io.enq.valid && io.transSel) { 393 vecMemStatusNext.sqIdx := io.enq.bits.status.vecMem.get.sqIdx 394 vecMemStatusNext.lqIdx := io.enq.bits.status.vecMem.get.lqIdx 395 }.otherwise { 396 vecMemStatusNext := vecMemStatus 397 } 398 399 val isLsqHead = entryRegNext.status.vecMem.get.sqIdx.value === fromLsq.sqDeqPtr.value 400 401 entryRegNext.status.blocked := !isLsqHead 402} 403 404object OthersEntry { 405 def apply(implicit p: Parameters, iqParams: IssueBlockParams): OthersEntry = { 406 iqParams.schdType match { 407 case IntScheduler() => new OthersEntry() 408 case MemScheduler() => 409 if (iqParams.isLdAddrIQ || iqParams.isStAddrIQ || iqParams.isHyAddrIQ) new OthersEntryMem() 410 else if (iqParams.isVecMemAddrIQ) new OthersEntryVecMemAddr() 411 else if (iqParams.isVecStDataIQ) new OthersEntryVecMemData() 412 else new OthersEntry() 413 case VfScheduler() => new OthersEntry() 414 case _ => null 415 } 416 } 417}