1package xiangshan.frontend 2 3import chisel3._ 4import chisel3.util._ 5import utils._ 6import xiangshan._ 7import xiangshan.backend.ALUOpType 8import xiangshan.backend.JumpOpType 9 10class TableAddr(val idxBits: Int, val banks: Int) extends XSBundle { 11 def tagBits = VAddrBits - idxBits - 1 12 13 val tag = UInt(tagBits.W) 14 val idx = UInt(idxBits.W) 15 val offset = UInt(1.W) 16 17 def fromUInt(x: UInt) = x.asTypeOf(UInt(VAddrBits.W)).asTypeOf(this) 18 def getTag(x: UInt) = fromUInt(x).tag 19 def getIdx(x: UInt) = fromUInt(x).idx 20 def getBank(x: UInt) = getIdx(x)(log2Up(banks) - 1, 0) 21 def getBankIdx(x: UInt) = getIdx(x)(idxBits - 1, log2Up(banks)) 22} 23 24class PredictorResponse extends XSBundle { 25 class UbtbResp extends XSBundle { 26 // the valid bits indicates whether a target is hit 27 val targets = Vec(PredictWidth, UInt(VAddrBits.W)) 28 val hits = Vec(PredictWidth, Bool()) 29 val takens = Vec(PredictWidth, Bool()) 30 val notTakens = Vec(PredictWidth, Bool()) 31 val is_RVC = Vec(PredictWidth, Bool()) 32 } 33 class BtbResp extends XSBundle { 34 // the valid bits indicates whether a target is hit 35 val targets = Vec(PredictWidth, UInt(VAddrBits.W)) 36 val hits = Vec(PredictWidth, Bool()) 37 val types = Vec(PredictWidth, UInt(2.W)) 38 val isRVC = Vec(PredictWidth, Bool()) 39 } 40 class BimResp extends XSBundle { 41 val ctrs = Vec(PredictWidth, UInt(2.W)) 42 } 43 class TageResp extends XSBundle { 44 // the valid bits indicates whether a prediction is hit 45 val takens = Vec(PredictWidth, Bool()) 46 val hits = Vec(PredictWidth, Bool()) 47 } 48 49 val ubtb = new UbtbResp 50 val btb = new BtbResp 51 val bim = new BimResp 52 val tage = new TageResp 53} 54 55abstract class BasePredictor extends XSModule { 56 val metaLen = 0 57 58 // An implementation MUST extend the IO bundle with a response 59 // and the special input from other predictors, as well as 60 // the metas to store in BRQ 61 abstract class Resp extends XSBundle {} 62 abstract class FromOthers extends XSBundle {} 63 abstract class Meta extends XSBundle {} 64 65 class DefaultBasePredictorIO extends XSBundle { 66 val flush = Input(Bool()) 67 val pc = Flipped(ValidIO(UInt(VAddrBits.W))) 68 val hist = Input(UInt(HistoryLength.W)) 69 val inMask = Input(UInt(PredictWidth.W)) 70 val update = Flipped(ValidIO(new BranchUpdateInfoWithHist)) 71 } 72 73 val io = new DefaultBasePredictorIO 74 75 // circular shifting 76 def circularShiftLeft(source: UInt, len: Int, shamt: UInt): UInt = { 77 val res = Wire(UInt(len.W)) 78 val higher = source << shamt 79 val lower = source >> (len.U - shamt) 80 res := higher | lower 81 res 82 } 83 84 def circularShiftRight(source: UInt, len: Int, shamt: UInt): UInt = { 85 val res = Wire(UInt(len.W)) 86 val higher = source << (len.U - shamt) 87 val lower = source >> shamt 88 res := higher | lower 89 res 90 } 91} 92 93class BPUStageIO extends XSBundle { 94 val pc = UInt(VAddrBits.W) 95 val mask = UInt(PredictWidth.W) 96 val resp = new PredictorResponse 97 val target = UInt(VAddrBits.W) 98 val brInfo = Vec(PredictWidth, new BranchInfo) 99} 100 101 102class BPUStage extends XSModule { 103 class DefaultIO extends XSBundle { 104 val flush = Input(Bool()) 105 val in = Flipped(Decoupled(new BPUStageIO)) 106 val pred = Decoupled(new BranchPrediction) 107 val out = Decoupled(new BPUStageIO) 108 val predecode = Flipped(ValidIO(new Predecode)) 109 } 110 val io = IO(new DefaultIO) 111 112 val predValid = RegInit(false.B) 113 114 io.in.ready := !predValid || io.out.fire() && io.pred.fire() 115 116 def npc(pc: UInt, instCount: UInt) = pc + (instCount << 1.U) 117 118 val inFire = io.in.fire() 119 val inLatch = RegEnable(io.in.bits, inFire) 120 121 val outFire = io.out.fire() 122 123 // Each stage has its own logic to decide 124 // takens, notTakens and target 125 126 val takens = VecInit((0 until PredictWidth).map(_ => false.B)) 127 val notTakens = VecInit((0 until PredictWidth).map(_ => false.B)) 128 val jmpIdx = PriorityEncoder(takens) 129 val hasNTBr = (0 until PredictWidth).map(i => i.U <= jmpIdx && notTakens(i)).reduce(_||_) 130 val taken = takens.reduce(_||_) 131 // get the last valid inst 132 // val lastValidPos = MuxCase(0.U, (PredictWidth-1 to 0).map(i => (inLatch.mask(i), i.U))) 133 val lastValidPos = PriorityMux(Reverse(inLatch.mask), (PredictWidth-1 to 0 by -1).map(i => i.U)) 134 val lastHit = WireInit(false.B) 135 val lastIsRVC = WireInit(false.B) 136 // val lastValidPos = WireInit(0.U(log2Up(PredictWidth).W)) 137 // for (i <- 0 until PredictWidth) { 138 // when (inLatch.mask(i)) { lastValidPos := i.U } 139 // } 140 val targetSrc = VecInit((0 until PredictWidth).map(i => 0.U(VAddrBits.W))) 141 val target = Mux(taken, targetSrc(jmpIdx), npc(inLatch.pc, PopCount(inLatch.mask))) 142 143 io.pred.bits <> DontCare 144 io.pred.bits.redirect := target =/= inLatch.target 145 io.pred.bits.taken := taken 146 io.pred.bits.jmpIdx := jmpIdx 147 io.pred.bits.hasNotTakenBrs := hasNTBr 148 io.pred.bits.target := target 149 io.pred.bits.saveHalfRVI := ((lastValidPos === jmpIdx && taken) || !taken ) && !lastIsRVC && lastHit 150 151 io.out.bits <> DontCare 152 io.out.bits.pc := inLatch.pc 153 io.out.bits.mask := inLatch.mask 154 io.out.bits.target := target 155 io.out.bits.resp <> inLatch.resp 156 io.out.bits.brInfo := inLatch.brInfo 157 158 // Default logic 159 // pred.ready not taken into consideration 160 // could be broken 161 when (io.flush) { predValid := false.B } 162 .elsewhen (inFire) { predValid := true.B } 163 .elsewhen (outFire) { predValid := false.B } 164 .otherwise { predValid := predValid } 165 166 io.out.valid := predValid && !io.flush 167 io.pred.valid := predValid && !io.flush 168 169 XSDebug(io.in.fire(), "in:(%d %d) pc=%x, mask=%b, target=%x\n", 170 io.in.valid, io.in.ready, io.in.bits.pc, io.in.bits.mask, io.in.bits.target) 171 XSDebug(io.out.fire(), "out:(%d %d) pc=%x, mask=%b, target=%x\n", 172 io.out.valid, io.out.ready, io.out.bits.pc, io.out.bits.mask, io.out.bits.target) 173 XSDebug("flush=%d\n", io.flush) 174 XSDebug("taken=%d, takens=%b, notTakens=%b, jmpIdx=%d, hasNTBr=%d, lastValidPos=%d, target=%x\n", 175 taken, takens.asUInt, notTakens.asUInt, jmpIdx, hasNTBr, lastValidPos, target) 176 val p = io.pred.bits 177 XSDebug(io.pred.fire(), "outPred: redirect=%d, taken=%d, jmpIdx=%d, hasNTBrs=%d, target=%x, saveHalfRVI=%d\n", 178 p.redirect, p.taken, p.jmpIdx, p.hasNotTakenBrs, p.target, p.saveHalfRVI) 179 XSDebug(io.pred.fire() && p.taken, "outPredTaken: fetchPC:%x, jmpPC:%x\n", 180 inLatch.pc, inLatch.pc + (jmpIdx << 1.U)) 181 XSDebug(io.pred.fire() && p.redirect, "outPred: previous target:%x redirected to %x \n", 182 inLatch.target, p.target) 183} 184 185class BPUStage1 extends BPUStage { 186 187 // 'overrides' default logic 188 // when flush, the prediction should also starts 189 when (io.flush || inFire) { predValid := true.B } 190 .elsewhen(outFire) { predValid := false.B } 191 .otherwise { predValid := predValid } 192 io.in.ready := !predValid || io.out.fire() && io.pred.fire() || io.flush 193 // io.out.valid := predValid 194 195 // ubtb is accessed with inLatch pc in s1, 196 // so we use io.in instead of inLatch 197 val ubtbResp = io.in.bits.resp.ubtb 198 // the read operation is already masked, so we do not need to mask here 199 takens := VecInit((0 until PredictWidth).map(i => ubtbResp.hits(i) && ubtbResp.takens(i))) 200 notTakens := VecInit((0 until PredictWidth).map(i => ubtbResp.hits(i) && ubtbResp.notTakens(i))) 201 targetSrc := ubtbResp.targets 202 203 lastIsRVC := ubtbResp.is_RVC(lastValidPos) 204 lastHit := ubtbResp.hits(lastValidPos) 205 206 // resp and brInfo are from the components, 207 // so it does not need to be latched 208 io.out.bits.resp <> io.in.bits.resp 209 io.out.bits.brInfo := io.in.bits.brInfo 210} 211 212class BPUStage2 extends BPUStage { 213 214 // Use latched response from s1 215 val btbResp = inLatch.resp.btb 216 val bimResp = inLatch.resp.bim 217 takens := VecInit((0 until PredictWidth).map(i => btbResp.hits(i) && (btbResp.types(i) === BrType.branch && bimResp.ctrs(i)(1) || btbResp.types(i) === BrType.jal))) 218 notTakens := VecInit((0 until PredictWidth).map(i => btbResp.hits(i) && btbResp.types(i) === BrType.branch && !bimResp.ctrs(i)(1))) 219 targetSrc := btbResp.targets 220 221 lastIsRVC := btbResp.isRVC(lastValidPos) 222 lastHit := btbResp.hits(lastValidPos) 223} 224 225class BPUStage3 extends BPUStage { 226 227 io.out.valid := predValid && io.predecode.valid && !io.flush 228 229 // TAGE has its own pipelines and the 230 // response comes directly from s3, 231 // so we do not use those from inLatch 232 val tageResp = io.in.bits.resp.tage 233 val tageValidTakens = VecInit((0 until PredictWidth).map( i => tageResp.takens(i) && tageResp.hits(i))) 234 235 val pdMask = io.predecode.bits.mask 236 val pds = io.predecode.bits.pd 237 238 val btbHits = inLatch.resp.btb.hits.asUInt 239 val bimTakens = VecInit(inLatch.resp.bim.ctrs.map(_(1))) 240 241 val brs = pdMask & Reverse(Cat(pds.map(_.isBr))) 242 val jals = pdMask & Reverse(Cat(pds.map(_.isJal))) 243 val jalrs = pdMask & Reverse(Cat(pds.map(_.isJalr))) 244 // val calls = pdMask & Reverse(Cat(pds.map(_.isCall))) 245 // val rets = pdMask & Reverse(Cat(pds.map(_.isRet))) 246 247 // val callIdx = PriorityEncoder(calls) 248 // val retIdx = PriorityEncoder(rets) 249 250 val brTakens = 251 if (EnableBPD) { 252 brs & Reverse(Cat((0 until PredictWidth).map(i => tageValidTakens(i)))) 253 } else { 254 brs & Reverse(Cat((0 until PredictWidth).map(i => bimTakens(i)))) 255 } 256 257 // predict taken only if btb has a target 258 takens := VecInit((0 until PredictWidth).map(i => (brTakens(i) || jals(i) || jalrs(i)) && btbHits(i))) 259 // Whether should we count in branches that are not recorded in btb? 260 // PS: Currently counted in. Whenever tage does not provide a valid 261 // taken prediction, the branch is counted as a not taken branch 262 notTakens := (if (EnableBPD) { VecInit((0 until PredictWidth).map(i => brs(i) && !tageValidTakens(i)))} 263 else { VecInit((0 until PredictWidth).map(i => brs(i) && !bimTakens(i)))}) 264 targetSrc := inLatch.resp.btb.targets 265 266 lastIsRVC := pds(lastValidPos).isRVC 267 lastHit := pdMask(lastValidPos) 268 269 // Wrap tage resp and tage meta in 270 // This is ugly 271 io.out.bits.resp.tage <> io.in.bits.resp.tage 272 for (i <- 0 until PredictWidth) { 273 io.out.bits.brInfo(i).tageMeta := io.in.bits.brInfo(i).tageMeta 274 } 275 276 XSDebug(io.predecode.valid, "predecode: pc:%x, mask:%b\n", inLatch.pc, io.predecode.bits.mask) 277 for (i <- 0 until PredictWidth) { 278 val p = io.predecode.bits.pd(i) 279 XSDebug(io.predecode.valid && io.predecode.bits.mask(i), "predecode(%d): brType:%d, br:%d, jal:%d, jalr:%d, call:%d, ret:%d, RVC:%d, excType:%d\n", 280 i.U, p.brType, p.isBr, p.isJal, p.isJalr, p.isCall, p.isRet, p.isRVC, p.excType) 281 } 282} 283 284trait BranchPredictorComponents extends HasXSParameter { 285 val ubtb = Module(new MicroBTB) 286 val btb = Module(new BTB) 287 val bim = Module(new BIM) 288 val tage = (if(EnableBPD) { Module(new Tage) } 289 else { Module(new FakeTage) }) 290 val preds = Seq(ubtb, btb, bim, tage) 291 preds.map(_.io := DontCare) 292} 293 294class BPUReq extends XSBundle { 295 val pc = UInt(VAddrBits.W) 296 val hist = UInt(HistoryLength.W) 297 val inMask = UInt(PredictWidth.W) 298} 299 300class BranchUpdateInfoWithHist extends XSBundle { 301 val ui = new BranchUpdateInfo 302 val hist = UInt(HistoryLength.W) 303} 304 305object BranchUpdateInfoWithHist { 306 def apply (brInfo: BranchUpdateInfo, hist: UInt) = { 307 val b = Wire(new BranchUpdateInfoWithHist) 308 b.ui <> brInfo 309 b.hist := hist 310 b 311 } 312} 313 314abstract class BaseBPU extends XSModule with BranchPredictorComponents{ 315 val io = IO(new Bundle() { 316 // from backend 317 val inOrderBrInfo = Flipped(ValidIO(new BranchUpdateInfoWithHist)) 318 // from ifu, frontend redirect 319 val flush = Input(Vec(3, Bool())) 320 // from if1 321 val in = Flipped(ValidIO(new BPUReq)) 322 // to if2/if3/if4 323 val out = Vec(3, Decoupled(new BranchPrediction)) 324 // from if4 325 val predecode = Flipped(ValidIO(new Predecode)) 326 // to if4, some bpu info used for updating 327 val branchInfo = Decoupled(Vec(PredictWidth, new BranchInfo)) 328 }) 329 330 def npc(pc: UInt, instCount: UInt) = pc + (instCount << 1.U) 331 332 preds.map(_.io.update <> io.inOrderBrInfo) 333 334 val s1 = Module(new BPUStage1) 335 val s2 = Module(new BPUStage2) 336 val s3 = Module(new BPUStage3) 337 338 s1.io.flush := io.flush(0) 339 s2.io.flush := io.flush(1) 340 s3.io.flush := io.flush(2) 341 342 s1.io.in <> DontCare 343 s2.io.in <> s1.io.out 344 s3.io.in <> s2.io.out 345 346 io.out(0) <> s1.io.pred 347 io.out(1) <> s2.io.pred 348 io.out(2) <> s3.io.pred 349 350 s1.io.predecode <> DontCare 351 s2.io.predecode <> DontCare 352 s3.io.predecode <> io.predecode 353 354 io.branchInfo.valid := s3.io.out.valid 355 io.branchInfo.bits := s3.io.out.bits.brInfo 356 s3.io.out.ready := io.branchInfo.ready 357 358 XSDebug(io.branchInfo.fire(), "branchInfo sent!\n") 359 for (i <- 0 until PredictWidth) { 360 val b = io.branchInfo.bits(i) 361 XSDebug(io.branchInfo.fire(), "brInfo(%d): ubtbWrWay:%d, ubtbHit:%d, btbWrWay:%d, bimCtr:%d\n", 362 i.U, b.ubtbWriteWay, b.ubtbHits, b.btbWriteWay, b.bimCtr) 363 val t = b.tageMeta 364 XSDebug(io.branchInfo.fire(), " tageMeta: pvder(%d):%d, altDiffers:%d, pvderU:%d, pvderCtr:%d, allocate(%d):%d\n", 365 t.provider.valid, t.provider.bits, t.altDiffers, t.providerU, t.providerCtr, t.allocate.valid, t.allocate.bits) 366 } 367} 368 369 370class FakeBPU extends BaseBPU { 371 io.out.foreach(i => { 372 // Provide not takens 373 i.valid := true.B 374 i.bits <> DontCare 375 i.bits.redirect := false.B 376 }) 377 io.branchInfo <> DontCare 378} 379 380class BPU extends BaseBPU { 381 382 //**********************Stage 1****************************// 383 val s1_fire = s1.io.in.fire() 384 val s1_resp_in = Wire(new PredictorResponse) 385 val s1_brInfo_in = Wire(Vec(PredictWidth, new BranchInfo)) 386 387 s1_resp_in := DontCare 388 s1_brInfo_in := DontCare 389 390 val s1_inLatch = RegEnable(io.in, s1_fire) 391 ubtb.io.flush := io.flush(0) // TODO: fix this 392 ubtb.io.pc.valid := s1_inLatch.valid 393 ubtb.io.pc.bits := s1_inLatch.bits.pc 394 ubtb.io.inMask := s1_inLatch.bits.inMask 395 396 // Wrap ubtb response into resp_in and brInfo_in 397 s1_resp_in.ubtb <> ubtb.io.out 398 for (i <- 0 until PredictWidth) { 399 s1_brInfo_in(i).ubtbWriteWay := ubtb.io.uBTBBranchInfo.writeWay(i) 400 s1_brInfo_in(i).ubtbHits := ubtb.io.uBTBBranchInfo.hits(i) 401 } 402 403 btb.io.flush := io.flush(0) // TODO: fix this 404 btb.io.pc.valid := io.in.valid 405 btb.io.pc.bits := io.in.bits.pc 406 btb.io.inMask := io.in.bits.inMask 407 408 // Wrap btb response into resp_in and brInfo_in 409 s1_resp_in.btb <> btb.io.resp 410 for (i <- 0 until PredictWidth) { 411 s1_brInfo_in(i).btbWriteWay := btb.io.meta.writeWay(i) 412 } 413 414 bim.io.flush := io.flush(0) // TODO: fix this 415 bim.io.pc.valid := io.in.valid 416 bim.io.pc.bits := io.in.bits.pc 417 bim.io.inMask := io.in.bits.inMask 418 419 // Wrap bim response into resp_in and brInfo_in 420 s1_resp_in.bim <> bim.io.resp 421 for (i <- 0 until PredictWidth) { 422 s1_brInfo_in(i).bimCtr := bim.io.meta.ctrs(i) 423 } 424 425 426 s1.io.in.valid := io.in.valid 427 s1.io.in.bits.pc := io.in.bits.pc 428 s1.io.in.bits.mask := io.in.bits.inMask 429 s1.io.in.bits.target := npc(io.in.bits.pc, PopCount(io.in.bits.inMask)) // Deault target npc 430 s1.io.in.bits.resp := s1_resp_in 431 s1.io.in.bits.brInfo <> s1_brInfo_in 432 433 //**********************Stage 2****************************// 434 tage.io.flush := io.flush(1) // TODO: fix this 435 tage.io.pc.valid := s1.io.out.fire() 436 tage.io.pc.bits := s1.io.out.bits.pc // PC from s1 437 tage.io.hist := io.in.bits.hist // The inst is from s1 438 tage.io.inMask := s1.io.out.bits.mask 439 tage.io.s3Fire := s3.io.in.fire() // Tell tage to march 1 stage 440 tage.io.bim <> s1.io.out.bits.resp.bim // Use bim results from s1 441 442 //**********************Stage 3****************************// 443 // Wrap tage response and meta into s3.io.in.bits 444 // This is ugly 445 446 s3.io.in.bits.resp.tage <> tage.io.resp 447 for (i <- 0 until PredictWidth) { 448 s3.io.in.bits.brInfo(i).tageMeta := tage.io.meta(i) 449 } 450 451} 452