1*730cfbc0SXuan Hupackage xiangshan.backend.issue 2*730cfbc0SXuan Hu 3*730cfbc0SXuan Huimport chipsalliance.rocketchip.config.Parameters 4*730cfbc0SXuan Huimport chisel3._ 5*730cfbc0SXuan Huimport chisel3.util._ 6*730cfbc0SXuan Huimport freechips.rocketchip.diplomacy.{LazyModule, LazyModuleImp} 7*730cfbc0SXuan Huimport xiangshan._ 8*730cfbc0SXuan Huimport xiangshan.backend.Bundles 9*730cfbc0SXuan Huimport xiangshan.backend.datapath.DataConfig.VAddrData 10*730cfbc0SXuan Huimport xiangshan.backend.regfile.RfWritePortWithConfig 11*730cfbc0SXuan Huimport xiangshan.backend.rename.BusyTable 12*730cfbc0SXuan Huimport xiangshan.mem.{LsqEnqCtrl, LsqEnqIO, MemWaitUpdateReq, SqPtr} 13*730cfbc0SXuan Huimport xiangshan.backend.Bundles.{DynInst, IssueQueueWakeUpBundle} 14*730cfbc0SXuan Hu 15*730cfbc0SXuan Husealed trait SchedulerType 16*730cfbc0SXuan Hu 17*730cfbc0SXuan Hucase class IntScheduler() extends SchedulerType 18*730cfbc0SXuan Hucase class MemScheduler() extends SchedulerType 19*730cfbc0SXuan Hucase class VfScheduler() extends SchedulerType 20*730cfbc0SXuan Hucase class NoScheduler() extends SchedulerType 21*730cfbc0SXuan Hu 22*730cfbc0SXuan Huclass Scheduler(val params: SchdBlockParams)(implicit p: Parameters) extends LazyModule with HasXSParameter { 23*730cfbc0SXuan Hu val numIntStateWrite = backendParams.numIntWb 24*730cfbc0SXuan Hu val numVfStateWrite = backendParams.numVfWb 25*730cfbc0SXuan Hu 26*730cfbc0SXuan Hu val dispatch2Iq = LazyModule(new Dispatch2Iq(params)) 27*730cfbc0SXuan Hu val issueQueue = params.issueBlockParams.map(x => LazyModule(new IssueQueue(x).suggestName(x.getIQName))) 28*730cfbc0SXuan Hu 29*730cfbc0SXuan Hu lazy val module = params.schdType match { 30*730cfbc0SXuan Hu case IntScheduler() => new SchedulerArithImp(this)(params, p) 31*730cfbc0SXuan Hu case MemScheduler() => new SchedulerMemImp(this)(params, p) 32*730cfbc0SXuan Hu case VfScheduler() => new SchedulerArithImp(this)(params, p) 33*730cfbc0SXuan Hu case _ => null 34*730cfbc0SXuan Hu } 35*730cfbc0SXuan Hu} 36*730cfbc0SXuan Hu 37*730cfbc0SXuan Huclass SchedulerIO()(implicit params: SchdBlockParams, p: Parameters) extends XSBundle { 38*730cfbc0SXuan Hu val fromTop = new Bundle { 39*730cfbc0SXuan Hu val hartId = Input(UInt(8.W)) 40*730cfbc0SXuan Hu } 41*730cfbc0SXuan Hu val fromCtrlBlock = new Bundle { 42*730cfbc0SXuan Hu val pcVec = Input(Vec(params.numPcReadPort, UInt(VAddrData().dataWidth.W))) 43*730cfbc0SXuan Hu val targetVec = Input(Vec(params.numPcReadPort, UInt(VAddrData().dataWidth.W))) 44*730cfbc0SXuan Hu val flush = Flipped(ValidIO(new Redirect)) 45*730cfbc0SXuan Hu } 46*730cfbc0SXuan Hu val fromDispatch = new Bundle { 47*730cfbc0SXuan Hu val allocPregs = Vec(RenameWidth, Input(new ResetPregStateReq)) 48*730cfbc0SXuan Hu val uops = Vec(params.numUopIn, Flipped(DecoupledIO(new DynInst))) 49*730cfbc0SXuan Hu } 50*730cfbc0SXuan Hu val intWriteBack = MixedVec(Vec(backendParams.intPregParams.numWrite, 51*730cfbc0SXuan Hu new RfWritePortWithConfig(backendParams.intPregParams.dataCfg, backendParams.intPregParams.addrWidth))) 52*730cfbc0SXuan Hu val vfWriteBack = MixedVec(Vec(backendParams.vfPregParams.numWrite, 53*730cfbc0SXuan Hu new RfWritePortWithConfig(backendParams.vfPregParams.dataCfg, backendParams.vfPregParams.addrWidth))) 54*730cfbc0SXuan Hu val toDataPath: MixedVec[MixedVec[DecoupledIO[Bundles.IssueQueueIssueBundle]]] = MixedVec(params.issueBlockParams.map(_.genIssueDecoupledBundle)) 55*730cfbc0SXuan Hu val fromDataPath: MixedVec[MixedVec[Bundles.OGRespBundle]] = MixedVec(params.issueBlockParams.map(x => Flipped(x.genOGRespBundle))) 56*730cfbc0SXuan Hu 57*730cfbc0SXuan Hu val memIO = if (params.isMemSchd) Some(new Bundle { 58*730cfbc0SXuan Hu val feedbackIO = Flipped(Vec(params.StaCnt, new MemRSFeedbackIO)) 59*730cfbc0SXuan Hu val lsqEnqIO = Flipped(new LsqEnqIO) 60*730cfbc0SXuan Hu }) else None 61*730cfbc0SXuan Hu val fromMem = if (params.isMemSchd) Some(new Bundle { 62*730cfbc0SXuan Hu val stIssuePtr = Input(new SqPtr()) 63*730cfbc0SXuan Hu val lcommit = Input(UInt(log2Up(CommitWidth + 1).W)) 64*730cfbc0SXuan Hu val scommit = Input(UInt(log2Ceil(EnsbufferWidth + 1).W)) // connected to `memBlock.io.sqDeq` instead of ROB 65*730cfbc0SXuan Hu // from lsq 66*730cfbc0SXuan Hu val lqCancelCnt = Input(UInt(log2Up(LoadQueueSize + 1).W)) 67*730cfbc0SXuan Hu val sqCancelCnt = Input(UInt(log2Up(StoreQueueSize + 1).W)) 68*730cfbc0SXuan Hu val memWaitUpdateReq = Flipped(new MemWaitUpdateReq) 69*730cfbc0SXuan Hu }) else None 70*730cfbc0SXuan Hu val toMem = if (params.isMemSchd) Some(new Bundle { 71*730cfbc0SXuan Hu val loadFastMatch = Output(Vec(params.LduCnt, new IssueQueueLoadBundle)) 72*730cfbc0SXuan Hu }) else None 73*730cfbc0SXuan Hu} 74*730cfbc0SXuan Hu 75*730cfbc0SXuan Huabstract class SchedulerImpBase(wrapper: Scheduler)(implicit params: SchdBlockParams, p: Parameters) 76*730cfbc0SXuan Hu extends LazyModuleImp(wrapper) 77*730cfbc0SXuan Hu with HasXSParameter 78*730cfbc0SXuan Hu{ 79*730cfbc0SXuan Hu val io = IO(new SchedulerIO()) 80*730cfbc0SXuan Hu 81*730cfbc0SXuan Hu // alias 82*730cfbc0SXuan Hu private val schdType = params.schdType 83*730cfbc0SXuan Hu private val (numRfRead, numRfWrite) = params.numRfReadWrite.getOrElse((0, 0)) 84*730cfbc0SXuan Hu private val numPregs = params.numPregs 85*730cfbc0SXuan Hu 86*730cfbc0SXuan Hu // Modules 87*730cfbc0SXuan Hu val dispatch2Iq: Dispatch2IqImp = wrapper.dispatch2Iq.module 88*730cfbc0SXuan Hu val issueQueues: Seq[IssueQueueImp] = wrapper.issueQueue.map(_.module) 89*730cfbc0SXuan Hu 90*730cfbc0SXuan Hu // BusyTable Modules 91*730cfbc0SXuan Hu val intBusyTable = schdType match { 92*730cfbc0SXuan Hu case IntScheduler() | MemScheduler() => Some(Module(new BusyTable(dispatch2Iq.numIntStateRead, wrapper.numIntStateWrite))) 93*730cfbc0SXuan Hu case _ => None 94*730cfbc0SXuan Hu } 95*730cfbc0SXuan Hu 96*730cfbc0SXuan Hu val vfBusyTable = schdType match { 97*730cfbc0SXuan Hu case VfScheduler() | MemScheduler() => Some(Module(new BusyTable(dispatch2Iq.numVfStateRead, wrapper.numVfStateWrite))) 98*730cfbc0SXuan Hu case _ => None 99*730cfbc0SXuan Hu } 100*730cfbc0SXuan Hu 101*730cfbc0SXuan Hu dispatch2Iq.io match { case dp2iq => 102*730cfbc0SXuan Hu dp2iq.redirect <> io.fromCtrlBlock.flush 103*730cfbc0SXuan Hu dp2iq.in <> io.fromDispatch.uops 104*730cfbc0SXuan Hu dp2iq.readIntState.foreach(_ <> intBusyTable.get.io.read) 105*730cfbc0SXuan Hu dp2iq.readVfState.foreach(_ <> vfBusyTable.get.io.read) 106*730cfbc0SXuan Hu } 107*730cfbc0SXuan Hu 108*730cfbc0SXuan Hu intBusyTable match { 109*730cfbc0SXuan Hu case Some(bt) => 110*730cfbc0SXuan Hu bt.io.allocPregs.zip(io.fromDispatch.allocPregs).foreach { case (btAllocPregs, dpAllocPregs) => 111*730cfbc0SXuan Hu btAllocPregs.valid := dpAllocPregs.isInt 112*730cfbc0SXuan Hu btAllocPregs.bits := dpAllocPregs.preg 113*730cfbc0SXuan Hu } 114*730cfbc0SXuan Hu bt.io.wbPregs.zipWithIndex.foreach { case (wb, i) => 115*730cfbc0SXuan Hu wb.valid := io.intWriteBack(i).wen && io.intWriteBack(i).intWen 116*730cfbc0SXuan Hu wb.bits := io.intWriteBack(i).addr 117*730cfbc0SXuan Hu } 118*730cfbc0SXuan Hu case None => 119*730cfbc0SXuan Hu } 120*730cfbc0SXuan Hu 121*730cfbc0SXuan Hu vfBusyTable match { 122*730cfbc0SXuan Hu case Some(bt) => 123*730cfbc0SXuan Hu bt.io.allocPregs.zip(io.fromDispatch.allocPregs).foreach { case (btAllocPregs, dpAllocPregs) => 124*730cfbc0SXuan Hu btAllocPregs.valid := dpAllocPregs.isFp 125*730cfbc0SXuan Hu btAllocPregs.bits := dpAllocPregs.preg 126*730cfbc0SXuan Hu } 127*730cfbc0SXuan Hu bt.io.wbPregs.zipWithIndex.foreach { case (wb, i) => 128*730cfbc0SXuan Hu wb.valid := io.vfWriteBack(i).wen && (io.vfWriteBack(i).fpWen || io.vfWriteBack(i).vecWen) 129*730cfbc0SXuan Hu wb.bits := io.vfWriteBack(i).addr 130*730cfbc0SXuan Hu } 131*730cfbc0SXuan Hu case None => 132*730cfbc0SXuan Hu } 133*730cfbc0SXuan Hu 134*730cfbc0SXuan Hu val wakeupFromWBVec = Wire(Vec(params.numWakeupFromWB, ValidIO(new IssueQueueWakeUpBundle(params.pregIdxWidth)))) 135*730cfbc0SXuan Hu val writeback = params.schdType match { 136*730cfbc0SXuan Hu case IntScheduler() => io.intWriteBack 137*730cfbc0SXuan Hu case MemScheduler() => io.intWriteBack ++ io.vfWriteBack 138*730cfbc0SXuan Hu case VfScheduler() => io.vfWriteBack 139*730cfbc0SXuan Hu case _ => Seq() 140*730cfbc0SXuan Hu } 141*730cfbc0SXuan Hu wakeupFromWBVec.zip(writeback).foreach { case (sink, source) => 142*730cfbc0SXuan Hu sink.valid := source.wen 143*730cfbc0SXuan Hu sink.bits.rfWen := source.intWen 144*730cfbc0SXuan Hu sink.bits.fpWen := source.fpWen 145*730cfbc0SXuan Hu sink.bits.vecWen := source.vecWen 146*730cfbc0SXuan Hu sink.bits.pdest := source.addr 147*730cfbc0SXuan Hu } 148*730cfbc0SXuan Hu 149*730cfbc0SXuan Hu io.toDataPath.zipWithIndex.foreach { case (toDp, i) => 150*730cfbc0SXuan Hu toDp <> issueQueues(i).io.deq 151*730cfbc0SXuan Hu } 152*730cfbc0SXuan Hu} 153*730cfbc0SXuan Hu 154*730cfbc0SXuan Huclass SchedulerArithImp(override val wrapper: Scheduler)(implicit params: SchdBlockParams, p: Parameters) 155*730cfbc0SXuan Hu extends SchedulerImpBase(wrapper) 156*730cfbc0SXuan Hu with HasXSParameter 157*730cfbc0SXuan Hu{ 158*730cfbc0SXuan Hu println(s"[SchedulerArithImp] " + 159*730cfbc0SXuan Hu s"has intBusyTable: ${intBusyTable.nonEmpty}, " + 160*730cfbc0SXuan Hu s"has vfBusyTable: ${vfBusyTable.nonEmpty}") 161*730cfbc0SXuan Hu 162*730cfbc0SXuan Hu issueQueues.zipWithIndex.foreach { case (iq, i) => 163*730cfbc0SXuan Hu iq.io.flush <> io.fromCtrlBlock.flush 164*730cfbc0SXuan Hu iq.io.enq <> dispatch2Iq.io.out(i) 165*730cfbc0SXuan Hu iq.io.wakeup := wakeupFromWBVec 166*730cfbc0SXuan Hu iq.io.deqResp.zipWithIndex.foreach { case (deqResp, j) => 167*730cfbc0SXuan Hu deqResp.valid := iq.io.deq(j).valid 168*730cfbc0SXuan Hu deqResp.bits.success := false.B 169*730cfbc0SXuan Hu deqResp.bits.respType := Mux(io.toDataPath(i)(j).ready, RSFeedbackType.issueSuccess, RSFeedbackType.fuBusy) 170*730cfbc0SXuan Hu deqResp.bits.addrOH := iq.io.deq(j).bits.addrOH 171*730cfbc0SXuan Hu } 172*730cfbc0SXuan Hu iq.io.og0Resp.zipWithIndex.foreach { case (og0Resp, j) => 173*730cfbc0SXuan Hu og0Resp.valid := io.fromDataPath(i)(j).og0resp.valid 174*730cfbc0SXuan Hu og0Resp.bits.success := false.B // Todo: remove it 175*730cfbc0SXuan Hu og0Resp.bits.respType := io.fromDataPath(i)(j).og0resp.bits.respType 176*730cfbc0SXuan Hu og0Resp.bits.addrOH := io.fromDataPath(i)(j).og0resp.bits.addrOH 177*730cfbc0SXuan Hu } 178*730cfbc0SXuan Hu iq.io.og1Resp.zipWithIndex.foreach { case (og1Resp, j) => 179*730cfbc0SXuan Hu og1Resp.valid := io.fromDataPath(i)(j).og1resp.valid 180*730cfbc0SXuan Hu og1Resp.bits.success := false.B 181*730cfbc0SXuan Hu og1Resp.bits.respType := io.fromDataPath(i)(j).og1resp.bits.respType 182*730cfbc0SXuan Hu og1Resp.bits.addrOH := io.fromDataPath(i)(j).og1resp.bits.addrOH 183*730cfbc0SXuan Hu } 184*730cfbc0SXuan Hu } 185*730cfbc0SXuan Hu 186*730cfbc0SXuan Hu val iqJumpBundleVec: Seq[IssueQueueJumpBundle] = issueQueues.map { 187*730cfbc0SXuan Hu case imp: IssueQueueIntImp => imp.io.enqJmp 188*730cfbc0SXuan Hu case _ => None 189*730cfbc0SXuan Hu }.filter(_.nonEmpty).flatMap(_.get) 190*730cfbc0SXuan Hu println(s"[Scheduler] iqJumpBundleVec: ${iqJumpBundleVec}") 191*730cfbc0SXuan Hu 192*730cfbc0SXuan Hu iqJumpBundleVec.zip(io.fromCtrlBlock.pcVec zip io.fromCtrlBlock.targetVec).foreach { case (iqJmp, (pc, target)) => 193*730cfbc0SXuan Hu iqJmp.pc := pc 194*730cfbc0SXuan Hu iqJmp.target := target 195*730cfbc0SXuan Hu } 196*730cfbc0SXuan Hu} 197*730cfbc0SXuan Hu 198*730cfbc0SXuan Huclass SchedulerMemImp(override val wrapper: Scheduler)(implicit params: SchdBlockParams, p: Parameters) 199*730cfbc0SXuan Hu extends SchedulerImpBase(wrapper) 200*730cfbc0SXuan Hu with HasXSParameter 201*730cfbc0SXuan Hu{ 202*730cfbc0SXuan Hu println(s"[SchedulerMemImp] " + 203*730cfbc0SXuan Hu s"has intBusyTable: ${intBusyTable.nonEmpty}, " + 204*730cfbc0SXuan Hu s"has vfBusyTable: ${vfBusyTable.nonEmpty}") 205*730cfbc0SXuan Hu 206*730cfbc0SXuan Hu val memAddrIQs = issueQueues.filter(iq => iq.params.StdCnt == 0) 207*730cfbc0SXuan Hu val stAddrIQs = issueQueues.filter(iq => iq.params.StaCnt > 0) // included in memAddrIQs 208*730cfbc0SXuan Hu val stDataIQs = issueQueues.filter(iq => iq.params.StdCnt > 0) 209*730cfbc0SXuan Hu require(memAddrIQs.nonEmpty && stDataIQs.nonEmpty) 210*730cfbc0SXuan Hu 211*730cfbc0SXuan Hu issueQueues.zipWithIndex.foreach { case (iq, i) => 212*730cfbc0SXuan Hu iq.io.deqResp.zipWithIndex.foreach { case (deqResp, j) => 213*730cfbc0SXuan Hu deqResp.valid := iq.io.deq(j).valid 214*730cfbc0SXuan Hu deqResp.bits.success := false.B 215*730cfbc0SXuan Hu deqResp.bits.respType := Mux(io.toDataPath(i)(j).ready, RSFeedbackType.issueSuccess, 0.U) 216*730cfbc0SXuan Hu deqResp.bits.addrOH := iq.io.deq(j).bits.addrOH 217*730cfbc0SXuan Hu } 218*730cfbc0SXuan Hu iq.io.og0Resp.zipWithIndex.foreach { case (og0Resp, j) => 219*730cfbc0SXuan Hu og0Resp.valid := io.fromDataPath(i)(j).og0resp.valid 220*730cfbc0SXuan Hu og0Resp.bits.success := false.B // Todo: remove it 221*730cfbc0SXuan Hu og0Resp.bits.respType := io.fromDataPath(i)(j).og0resp.bits.respType 222*730cfbc0SXuan Hu og0Resp.bits.addrOH := io.fromDataPath(i)(j).og0resp.bits.addrOH 223*730cfbc0SXuan Hu } 224*730cfbc0SXuan Hu iq.io.og1Resp.zipWithIndex.foreach { case (og1Resp, j) => 225*730cfbc0SXuan Hu og1Resp.valid := io.fromDataPath(i)(j).og1resp.valid 226*730cfbc0SXuan Hu og1Resp.bits.success := false.B 227*730cfbc0SXuan Hu og1Resp.bits.respType := io.fromDataPath(i)(j).og1resp.bits.respType 228*730cfbc0SXuan Hu og1Resp.bits.addrOH := io.fromDataPath(i)(j).og1resp.bits.addrOH 229*730cfbc0SXuan Hu } 230*730cfbc0SXuan Hu } 231*730cfbc0SXuan Hu 232*730cfbc0SXuan Hu memAddrIQs.zipWithIndex.foreach { case (iq, i) => 233*730cfbc0SXuan Hu iq.io.flush <> io.fromCtrlBlock.flush 234*730cfbc0SXuan Hu iq.io.enq <> dispatch2Iq.io.out(i) 235*730cfbc0SXuan Hu iq.io.wakeup := wakeupFromWBVec 236*730cfbc0SXuan Hu } 237*730cfbc0SXuan Hu 238*730cfbc0SXuan Hu 239*730cfbc0SXuan Hu dispatch2Iq.io.out(1).zip(stAddrIQs(0).io.enq).zip(stDataIQs(0).io.enq).foreach{ case((di, staIQ), stdIQ) => 240*730cfbc0SXuan Hu val isAllReady = staIQ.ready && stdIQ.ready 241*730cfbc0SXuan Hu di.ready := isAllReady 242*730cfbc0SXuan Hu staIQ.valid := di.valid && isAllReady 243*730cfbc0SXuan Hu stdIQ.valid := di.valid && isAllReady 244*730cfbc0SXuan Hu } 245*730cfbc0SXuan Hu 246*730cfbc0SXuan Hu require(stAddrIQs.size == stDataIQs.size, s"number of store address IQs(${stAddrIQs.size}) " + 247*730cfbc0SXuan Hu s"should be equal to number of data IQs(${stDataIQs})") 248*730cfbc0SXuan Hu stDataIQs.zip(stAddrIQs).zipWithIndex.foreach { case ((stdIQ, staIQ), i) => 249*730cfbc0SXuan Hu stdIQ.io.flush <> io.fromCtrlBlock.flush 250*730cfbc0SXuan Hu 251*730cfbc0SXuan Hu stdIQ.io.enq.zip(staIQ.io.enq).foreach { case (stdIQEnq, staIQEnq) => 252*730cfbc0SXuan Hu stdIQEnq.bits := staIQEnq.bits 253*730cfbc0SXuan Hu // Store data reuses store addr src(1) in dispatch2iq 254*730cfbc0SXuan Hu // [dispatch2iq] --src*------src*(0)--> [staIQ] 255*730cfbc0SXuan Hu // \ 256*730cfbc0SXuan Hu // ---src*(1)--> [stdIQ] 257*730cfbc0SXuan Hu // Since the src(1) of sta is easier to get, stdIQEnq.bits.src*(0) is assigned to staIQEnq.bits.src*(1) 258*730cfbc0SXuan Hu // instead of dispatch2Iq.io.out(x).bits.src*(1) 259*730cfbc0SXuan Hu stdIQEnq.bits.srcState(0) := staIQEnq.bits.srcState(1) 260*730cfbc0SXuan Hu stdIQEnq.bits.srcType(0) := staIQEnq.bits.srcType(1) 261*730cfbc0SXuan Hu stdIQEnq.bits.psrc(0) := staIQEnq.bits.psrc(1) 262*730cfbc0SXuan Hu stdIQEnq.bits.sqIdx := staIQEnq.bits.sqIdx 263*730cfbc0SXuan Hu } 264*730cfbc0SXuan Hu stdIQ.io.wakeup := wakeupFromWBVec 265*730cfbc0SXuan Hu } 266*730cfbc0SXuan Hu 267*730cfbc0SXuan Hu val iqMemBundleVec = stAddrIQs.map { 268*730cfbc0SXuan Hu case imp: IssueQueueMemAddrImp => imp.io.memIO 269*730cfbc0SXuan Hu case _ => None 270*730cfbc0SXuan Hu }.filter(_.nonEmpty).map(_.get) 271*730cfbc0SXuan Hu println(s"[Scheduler] iqMemBundleVec: ${iqMemBundleVec}") 272*730cfbc0SXuan Hu 273*730cfbc0SXuan Hu val lsqEnqCtrl = Module(new LsqEnqCtrl) 274*730cfbc0SXuan Hu 275*730cfbc0SXuan Hu lsqEnqCtrl.io.redirect <> io.fromCtrlBlock.flush 276*730cfbc0SXuan Hu lsqEnqCtrl.io.enq <> dispatch2Iq.io.enqLsqIO.get 277*730cfbc0SXuan Hu lsqEnqCtrl.io.lcommit := io.fromMem.get.lcommit 278*730cfbc0SXuan Hu lsqEnqCtrl.io.scommit := io.fromMem.get.scommit 279*730cfbc0SXuan Hu lsqEnqCtrl.io.lqCancelCnt := io.fromMem.get.lqCancelCnt 280*730cfbc0SXuan Hu lsqEnqCtrl.io.sqCancelCnt := io.fromMem.get.sqCancelCnt 281*730cfbc0SXuan Hu io.memIO.get.lsqEnqIO <> lsqEnqCtrl.io.enqLsq 282*730cfbc0SXuan Hu require(io.memIO.get.feedbackIO.size == iqMemBundleVec.map(_.feedbackIO.size).sum, 283*730cfbc0SXuan Hu s"[SchedulerMemImp] io.memIO.feedbackIO.size(${io.memIO.get.feedbackIO.size}) " + 284*730cfbc0SXuan Hu s"should be equal to sum of memIQ.io.feedbackIO.size(${iqMemBundleVec.map(_.feedbackIO.size).sum})") 285*730cfbc0SXuan Hu 286*730cfbc0SXuan Hu val memIQFeedbackIO: Seq[MemRSFeedbackIO] = iqMemBundleVec.flatMap(_.feedbackIO) 287*730cfbc0SXuan Hu io.memIO.get.feedbackIO <> memIQFeedbackIO 288*730cfbc0SXuan Hu} 289