1/*************************************************************************************** 2* Copyright (c) 2020-2021 Institute of Computing Technology, Chinese Academy of Sciences 3* Copyright (c) 2020-2021 Peng Cheng Laboratory 4* 5* XiangShan is licensed under Mulan PSL v2. 6* You can use this software according to the terms and conditions of the Mulan PSL v2. 7* You may obtain a copy of Mulan PSL v2 at: 8* http://license.coscl.org.cn/MulanPSL2 9* 10* THIS SOFTWARE IS PROVIDED ON AN "AS IS" BASIS, WITHOUT WARRANTIES OF ANY KIND, 11* EITHER EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO NON-INFRINGEMENT, 12* MERCHANTABILITY OR FIT FOR A PARTICULAR PURPOSE. 13* 14* See the Mulan PSL v2 for more details. 15***************************************************************************************/ 16 17package xiangshan.mem 18 19import org.chipsalliance.cde.config.Parameters 20import chisel3._ 21import chisel3.util._ 22import utils._ 23import utility._ 24import xiangshan.ExceptionNO._ 25import xiangshan._ 26import xiangshan.backend.Bundles.{DynInst, MemExuInput, MemExuOutput} 27import xiangshan.backend.fu.PMPRespBundle 28import xiangshan.backend.fu.FuConfig._ 29import xiangshan.backend.fu.FuType 30import xiangshan.backend.ctrlblock.{DebugLsInfoBundle, LsTopdownInfo} 31import xiangshan.backend.rob.RobPtr 32import xiangshan.backend.ctrlblock.DebugLsInfoBundle 33import xiangshan.backend.fu.NewCSR._ 34import xiangshan.backend.fu.util.SdtrigExt 35import xiangshan.cache._ 36import xiangshan.cache.wpu.ReplayCarry 37import xiangshan.cache.mmu._ 38import xiangshan.mem.mdp._ 39 40class LoadToLsqReplayIO(implicit p: Parameters) extends XSBundle 41 with HasDCacheParameters 42 with HasTlbConst 43{ 44 // mshr refill index 45 val mshr_id = UInt(log2Up(cfg.nMissEntries).W) 46 // get full data from store queue and sbuffer 47 val full_fwd = Bool() 48 // wait for data from store inst's store queue index 49 val data_inv_sq_idx = new SqPtr 50 // wait for address from store queue index 51 val addr_inv_sq_idx = new SqPtr 52 // replay carry 53 val rep_carry = new ReplayCarry(nWays) 54 // data in last beat 55 val last_beat = Bool() 56 // replay cause 57 val cause = Vec(LoadReplayCauses.allCauses, Bool()) 58 // performance debug information 59 val debug = new PerfDebugInfo 60 // tlb hint 61 val tlb_id = UInt(log2Up(loadfiltersize).W) 62 val tlb_full = Bool() 63 64 // alias 65 def mem_amb = cause(LoadReplayCauses.C_MA) 66 def tlb_miss = cause(LoadReplayCauses.C_TM) 67 def fwd_fail = cause(LoadReplayCauses.C_FF) 68 def dcache_rep = cause(LoadReplayCauses.C_DR) 69 def dcache_miss = cause(LoadReplayCauses.C_DM) 70 def wpu_fail = cause(LoadReplayCauses.C_WF) 71 def bank_conflict = cause(LoadReplayCauses.C_BC) 72 def rar_nack = cause(LoadReplayCauses.C_RAR) 73 def raw_nack = cause(LoadReplayCauses.C_RAW) 74 def nuke = cause(LoadReplayCauses.C_NK) 75 def need_rep = cause.asUInt.orR 76} 77 78 79class LoadToLsqIO(implicit p: Parameters) extends XSBundle { 80 val ldin = DecoupledIO(new LqWriteBundle) 81 // uncache-mmio 82 val uncache = Flipped(DecoupledIO(new MemExuOutput)) 83 val ld_raw_data = Input(new LoadDataFromLQBundle) 84 // uncache-nc 85 // TODO lyq: use .data(VLEN.W) to transfer nc data is to big, it only needs 64 bits. Refactor? 86 val nc_ldin = Flipped(DecoupledIO(new LsPipelineBundle)) 87 val forward = new PipeLoadForwardQueryIO 88 val stld_nuke_query = new LoadNukeQueryIO 89 val ldld_nuke_query = new LoadNukeQueryIO 90} 91 92class LoadToLoadIO(implicit p: Parameters) extends XSBundle { 93 val valid = Bool() 94 val data = UInt(XLEN.W) // load to load fast path is limited to ld (64 bit) used as vaddr src1 only 95 val dly_ld_err = Bool() 96} 97 98class LoadUnitTriggerIO(implicit p: Parameters) extends XSBundle { 99 val tdata2 = Input(UInt(64.W)) 100 val matchType = Input(UInt(2.W)) 101 val tEnable = Input(Bool()) // timing is calculated before this 102 val addrHit = Output(Bool()) 103} 104 105class LoadUnit(implicit p: Parameters) extends XSModule 106 with HasLoadHelper 107 with HasPerfEvents 108 with HasDCacheParameters 109 with HasCircularQueuePtrHelper 110 with HasVLSUParameters 111 with SdtrigExt 112{ 113 val io = IO(new Bundle() { 114 // control 115 val redirect = Flipped(ValidIO(new Redirect)) 116 val csrCtrl = Flipped(new CustomCSRCtrlIO) 117 118 // int issue path 119 val ldin = Flipped(Decoupled(new MemExuInput)) 120 val ldout = Decoupled(new MemExuOutput) 121 122 // vec issue path 123 val vecldin = Flipped(Decoupled(new VecPipeBundle)) 124 val vecldout = Decoupled(new VecPipelineFeedbackIO(isVStore = false)) 125 126 // misalignBuffer issue path 127 val misalign_ldin = Flipped(Decoupled(new LsPipelineBundle)) 128 val misalign_ldout = Valid(new LqWriteBundle) 129 130 // data path 131 val tlb = new TlbRequestIO(2) 132 val pmp = Flipped(new PMPRespBundle()) // arrive same to tlb now 133 val dcache = new DCacheLoadIO 134 val sbuffer = new LoadForwardQueryIO 135 val ubuffer = new LoadForwardQueryIO 136 val lsq = new LoadToLsqIO 137 val tl_d_channel = Input(new DcacheToLduForwardIO) 138 val forward_mshr = Flipped(new LduToMissqueueForwardIO) 139 // val refill = Flipped(ValidIO(new Refill)) 140 val l2_hint = Input(Valid(new L2ToL1Hint)) 141 val tlb_hint = Flipped(new TlbHintReq) 142 // fast wakeup 143 // TODO: implement vector fast wakeup 144 val fast_uop = ValidIO(new DynInst) // early wakeup signal generated in load_s1, send to RS in load_s2 145 146 // trigger 147 val fromCsrTrigger = Input(new CsrTriggerBundle) 148 149 // prefetch 150 val prefetch_train = ValidIO(new LdPrefetchTrainBundle()) // provide prefetch info to sms 151 val prefetch_train_l1 = ValidIO(new LdPrefetchTrainBundle()) // provide prefetch info to stream & stride 152 // speculative for gated control 153 val s1_prefetch_spec = Output(Bool()) 154 val s2_prefetch_spec = Output(Bool()) 155 156 val prefetch_req = Flipped(ValidIO(new L1PrefetchReq)) // hardware prefetch to l1 cache req 157 val canAcceptLowConfPrefetch = Output(Bool()) 158 val canAcceptHighConfPrefetch = Output(Bool()) 159 160 // ifetchPrefetch 161 val ifetchPrefetch = ValidIO(new SoftIfetchPrefetchBundle) 162 163 // load to load fast path 164 val l2l_fwd_in = Input(new LoadToLoadIO) 165 val l2l_fwd_out = Output(new LoadToLoadIO) 166 167 val ld_fast_match = Input(Bool()) 168 val ld_fast_fuOpType = Input(UInt()) 169 val ld_fast_imm = Input(UInt(12.W)) 170 171 // rs feedback 172 val wakeup = ValidIO(new DynInst) 173 val feedback_fast = ValidIO(new RSFeedback) // stage 2 174 val feedback_slow = ValidIO(new RSFeedback) // stage 3 175 val ldCancel = Output(new LoadCancelIO()) // use to cancel the uops waked by this load, and cancel load 176 177 // load ecc error 178 val s3_dly_ld_err = Output(Bool()) // Note that io.s3_dly_ld_err and io.lsq.s3_dly_ld_err is different 179 180 // schedule error query 181 val stld_nuke_query = Flipped(Vec(StorePipelineWidth, Valid(new StoreNukeQueryIO))) 182 183 // queue-based replay 184 val replay = Flipped(Decoupled(new LsPipelineBundle)) 185 val lq_rep_full = Input(Bool()) 186 187 // misc 188 val s2_ptr_chasing = Output(Bool()) // provide right pc for hw prefetch 189 190 // Load fast replay path 191 val fast_rep_in = Flipped(Decoupled(new LqWriteBundle)) 192 val fast_rep_out = Decoupled(new LqWriteBundle) 193 194 // to misalign buffer 195 val misalign_buf = Valid(new LqWriteBundle) 196 197 // Load RAR rollback 198 val rollback = Valid(new Redirect) 199 200 // perf 201 val debug_ls = Output(new DebugLsInfoBundle) 202 val lsTopdownInfo = Output(new LsTopdownInfo) 203 val correctMissTrain = Input(Bool()) 204 }) 205 206 val s1_ready, s2_ready, s3_ready = WireInit(false.B) 207 208 // Pipeline 209 // -------------------------------------------------------------------------------- 210 // stage 0 211 // -------------------------------------------------------------------------------- 212 // generate addr, use addr to query DCache and DTLB 213 val s0_valid = Wire(Bool()) 214 val s0_mmio_select = Wire(Bool()) 215 val s0_nc_select = Wire(Bool()) 216 val s0_kill = Wire(Bool()) 217 val s0_can_go = s1_ready 218 val s0_fire = s0_valid && s0_can_go 219 val s0_mmio_fire = s0_mmio_select && s0_can_go 220 val s0_nc_fire = s0_nc_select && s0_can_go 221 val s0_out = Wire(new LqWriteBundle) 222 val s0_tlb_valid = Wire(Bool()) 223 val s0_tlb_hlv = Wire(Bool()) 224 val s0_tlb_hlvx = Wire(Bool()) 225 val s0_tlb_vaddr = Wire(UInt(VAddrBits.W)) 226 val s0_tlb_fullva = Wire(UInt(XLEN.W)) 227 val s0_dcache_vaddr = Wire(UInt(VAddrBits.W)) 228 229 // flow source bundle 230 class FlowSource extends Bundle { 231 val vaddr = UInt(VAddrBits.W) 232 val mask = UInt((VLEN/8).W) 233 val uop = new DynInst 234 val try_l2l = Bool() 235 val has_rob_entry = Bool() 236 val rep_carry = new ReplayCarry(nWays) 237 val mshrid = UInt(log2Up(cfg.nMissEntries).W) 238 val isFirstIssue = Bool() 239 val fast_rep = Bool() 240 val ld_rep = Bool() 241 val l2l_fwd = Bool() 242 val prf = Bool() 243 val prf_rd = Bool() 244 val prf_wr = Bool() 245 val prf_i = Bool() 246 val sched_idx = UInt(log2Up(LoadQueueReplaySize+1).W) 247 // Record the issue port idx of load issue queue. This signal is used by load cancel. 248 val deqPortIdx = UInt(log2Ceil(LoadPipelineWidth).W) 249 val frm_mabuf = Bool() 250 // vec only 251 val isvec = Bool() 252 val is128bit = Bool() 253 val uop_unit_stride_fof = Bool() 254 val reg_offset = UInt(vOffsetBits.W) 255 val vecActive = Bool() // 1: vector active element or scala mem operation, 0: vector not active element 256 val is_first_ele = Bool() 257 // val flowPtr = new VlflowPtr 258 val usSecondInv = Bool() 259 val mbIndex = UInt(vlmBindexBits.W) 260 val elemIdx = UInt(elemIdxBits.W) 261 val elemIdxInsideVd = UInt(elemIdxBits.W) 262 val alignedType = UInt(alignTypeBits.W) 263 val vecBaseVaddr = UInt(VAddrBits.W) 264 //for Svpbmt NC 265 val isnc = Bool() 266 val paddr = UInt(PAddrBits.W) 267 val data = UInt((VLEN+1).W) 268 } 269 val s0_sel_src = Wire(new FlowSource) 270 271 // load flow select/gen 272 // src 0: misalignBuffer load (io.misalign_ldin) 273 // src 1: super load replayed by LSQ (cache miss replay) (io.replay) 274 // src 2: fast load replay (io.fast_rep_in) 275 // src 3: mmio (io.lsq.uncache) 276 // src 4: nc (io.lsq.nc_ldin) 277 // src 5: load replayed by LSQ (io.replay) 278 // src 6: hardware prefetch from prefetchor (high confidence) (io.prefetch) 279 // NOTE: Now vec/int loads are sent from same RS 280 // A vec load will be splited into multiple uops, 281 // so as long as one uop is issued, 282 // the other uops should have higher priority 283 // src 7: vec read from RS (io.vecldin) 284 // src 8: int read / software prefetch first issue from RS (io.in) 285 // src 9: load try pointchaising when no issued or replayed load (io.fastpath) 286 // src10: hardware prefetch from prefetchor (high confidence) (io.prefetch) 287 // priority: high to low 288 val s0_rep_stall = io.ldin.valid && isAfter(io.replay.bits.uop.robIdx, io.ldin.bits.uop.robIdx) 289 private val SRC_NUM = 11 290 private val Seq( 291 mab_idx, super_rep_idx, fast_rep_idx, mmio_idx, nc_idx, lsq_rep_idx, 292 high_pf_idx, vec_iss_idx, int_iss_idx, l2l_fwd_idx, low_pf_idx 293 ) = (0 until SRC_NUM).toSeq 294 // load flow source valid 295 val s0_src_valid_vec = WireInit(VecInit(Seq( 296 io.misalign_ldin.valid, 297 io.replay.valid && io.replay.bits.forward_tlDchannel, 298 io.fast_rep_in.valid, 299 io.lsq.uncache.valid, 300 io.lsq.nc_ldin.valid, 301 io.replay.valid && !io.replay.bits.forward_tlDchannel && !s0_rep_stall, 302 io.prefetch_req.valid && io.prefetch_req.bits.confidence > 0.U, 303 io.vecldin.valid, 304 io.ldin.valid, // int flow first issue or software prefetch 305 io.l2l_fwd_in.valid, 306 io.prefetch_req.valid && io.prefetch_req.bits.confidence === 0.U, 307 ))) 308 // load flow source ready 309 val s0_src_ready_vec = Wire(Vec(SRC_NUM, Bool())) 310 s0_src_ready_vec(0) := true.B 311 for(i <- 1 until SRC_NUM){ 312 s0_src_ready_vec(i) := !s0_src_valid_vec.take(i).reduce(_ || _) 313 } 314 // load flow source select (OH) 315 val s0_src_select_vec = WireInit(VecInit((0 until SRC_NUM).map{i => s0_src_valid_vec(i) && s0_src_ready_vec(i)})) 316 val s0_hw_prf_select = s0_src_select_vec(high_pf_idx) || s0_src_select_vec(low_pf_idx) 317 318 if (backendParams.debugEn){ 319 dontTouch(s0_src_valid_vec) 320 dontTouch(s0_src_ready_vec) 321 dontTouch(s0_src_select_vec) 322 } 323 324 val s0_tlb_no_query = s0_hw_prf_select || s0_sel_src.prf_i || 325 s0_src_select_vec(fast_rep_idx) || s0_src_select_vec(mmio_idx) || 326 s0_src_select_vec(nc_idx) 327 s0_valid := !s0_kill && (s0_src_select_vec(nc_idx) || (( 328 s0_src_valid_vec(mab_idx) || 329 s0_src_valid_vec(super_rep_idx) || 330 s0_src_valid_vec(fast_rep_idx) || 331 s0_src_valid_vec(lsq_rep_idx) || 332 s0_src_valid_vec(high_pf_idx) || 333 s0_src_valid_vec(vec_iss_idx) || 334 s0_src_valid_vec(int_iss_idx) || 335 s0_src_valid_vec(l2l_fwd_idx) || 336 s0_src_valid_vec(low_pf_idx) 337 ) && !s0_src_select_vec(mmio_idx) && io.dcache.req.ready)) 338 339 s0_mmio_select := s0_src_select_vec(mmio_idx) && !s0_kill 340 s0_nc_select := s0_src_select_vec(nc_idx) && !s0_kill 341 //judgment: is NC with data or not. 342 //If true, it's from `io.lsq.nc_ldin` or `io.fast_rep_in` 343 val s0_nc_with_data = s0_sel_src.isnc && !s0_kill 344 345 // if is hardware prefetch or fast replay, don't send valid to tlb 346 s0_tlb_valid := ( 347 s0_src_valid_vec(mab_idx) || 348 s0_src_valid_vec(super_rep_idx) || 349 s0_src_valid_vec(lsq_rep_idx) || 350 s0_src_valid_vec(vec_iss_idx) || 351 s0_src_valid_vec(int_iss_idx) || 352 s0_src_valid_vec(l2l_fwd_idx) 353 ) && io.dcache.req.ready 354 355 // which is S0's out is ready and dcache is ready 356 val s0_try_ptr_chasing = s0_src_select_vec(l2l_fwd_idx) 357 val s0_do_try_ptr_chasing = s0_try_ptr_chasing && s0_can_go && io.dcache.req.ready 358 val s0_ptr_chasing_vaddr = io.l2l_fwd_in.data(5, 0) +& io.ld_fast_imm(5, 0) 359 val s0_ptr_chasing_canceled = WireInit(false.B) 360 s0_kill := s0_ptr_chasing_canceled 361 362 // prefetch related ctrl signal 363 io.canAcceptLowConfPrefetch := s0_src_ready_vec(low_pf_idx) && io.dcache.req.ready 364 io.canAcceptHighConfPrefetch := s0_src_ready_vec(high_pf_idx) && io.dcache.req.ready 365 366 // query DTLB 367 io.tlb.req.valid := s0_tlb_valid 368 io.tlb.req.bits.cmd := Mux(s0_sel_src.prf, 369 Mux(s0_sel_src.prf_wr, TlbCmd.write, TlbCmd.read), 370 TlbCmd.read 371 ) 372 io.tlb.req.bits.isPrefetch := s0_sel_src.prf 373 io.tlb.req.bits.vaddr := s0_tlb_vaddr 374 io.tlb.req.bits.fullva := s0_tlb_fullva 375 io.tlb.req.bits.checkfullva := s0_src_select_vec(vec_iss_idx) || s0_src_select_vec(int_iss_idx) 376 io.tlb.req.bits.hyperinst := s0_tlb_hlv 377 io.tlb.req.bits.hlvx := s0_tlb_hlvx 378 io.tlb.req.bits.size := Mux(s0_sel_src.isvec, s0_sel_src.alignedType(2,0), LSUOpType.size(s0_sel_src.uop.fuOpType)) 379 io.tlb.req.bits.kill := s0_kill || s0_tlb_no_query // if does not need to be translated, kill it 380 io.tlb.req.bits.memidx.is_ld := true.B 381 io.tlb.req.bits.memidx.is_st := false.B 382 io.tlb.req.bits.memidx.idx := s0_sel_src.uop.lqIdx.value 383 io.tlb.req.bits.debug.robIdx := s0_sel_src.uop.robIdx 384 io.tlb.req.bits.no_translate := s0_tlb_no_query // hardware prefetch and fast replay does not need to be translated, need this signal for pmp check 385 io.tlb.req.bits.debug.pc := s0_sel_src.uop.pc 386 io.tlb.req.bits.debug.isFirstIssue := s0_sel_src.isFirstIssue 387 388 // query DCache 389 io.dcache.req.valid := s0_valid && !s0_sel_src.prf_i && !s0_nc_with_data 390 io.dcache.req.bits.cmd := Mux(s0_sel_src.prf_rd, 391 MemoryOpConstants.M_PFR, 392 Mux(s0_sel_src.prf_wr, MemoryOpConstants.M_PFW, MemoryOpConstants.M_XRD) 393 ) 394 io.dcache.req.bits.vaddr := s0_dcache_vaddr 395 io.dcache.req.bits.mask := s0_sel_src.mask 396 io.dcache.req.bits.data := DontCare 397 io.dcache.req.bits.isFirstIssue := s0_sel_src.isFirstIssue 398 io.dcache.req.bits.instrtype := Mux(s0_sel_src.prf, DCACHE_PREFETCH_SOURCE.U, LOAD_SOURCE.U) 399 io.dcache.req.bits.debug_robIdx := s0_sel_src.uop.robIdx.value 400 io.dcache.req.bits.replayCarry := s0_sel_src.rep_carry 401 io.dcache.req.bits.id := DontCare // TODO: update cache meta 402 io.dcache.req.bits.lqIdx := s0_sel_src.uop.lqIdx 403 io.dcache.pf_source := Mux(s0_hw_prf_select, io.prefetch_req.bits.pf_source.value, L1_HW_PREFETCH_NULL) 404 io.dcache.is128Req := s0_sel_src.is128bit 405 406 // load flow priority mux 407 def fromNullSource(): FlowSource = { 408 val out = WireInit(0.U.asTypeOf(new FlowSource)) 409 out 410 } 411 412 def fromMisAlignBufferSource(src: LsPipelineBundle): FlowSource = { 413 val out = WireInit(0.U.asTypeOf(new FlowSource)) 414 out.vaddr := src.vaddr 415 out.mask := src.mask 416 out.uop := src.uop 417 out.try_l2l := false.B 418 out.has_rob_entry := false.B 419 out.rep_carry := src.replayCarry 420 out.mshrid := src.mshrid 421 out.frm_mabuf := true.B 422 out.isFirstIssue := false.B 423 out.fast_rep := false.B 424 out.ld_rep := false.B 425 out.l2l_fwd := false.B 426 out.prf := false.B 427 out.prf_rd := false.B 428 out.prf_wr := false.B 429 out.sched_idx := src.schedIndex 430 out.isvec := false.B 431 out.is128bit := src.is128bit 432 out.vecActive := true.B 433 out 434 } 435 436 def fromFastReplaySource(src: LqWriteBundle): FlowSource = { 437 val out = WireInit(0.U.asTypeOf(new FlowSource)) 438 out.vaddr := src.vaddr 439 out.paddr := src.paddr 440 out.mask := src.mask 441 out.uop := src.uop 442 out.try_l2l := false.B 443 out.has_rob_entry := src.hasROBEntry 444 out.rep_carry := src.rep_info.rep_carry 445 out.mshrid := src.rep_info.mshr_id 446 out.frm_mabuf := src.isFrmMisAlignBuf 447 out.isFirstIssue := false.B 448 out.fast_rep := true.B 449 out.ld_rep := src.isLoadReplay 450 out.l2l_fwd := false.B 451 out.prf := LSUOpType.isPrefetch(src.uop.fuOpType) && !src.isvec 452 out.prf_rd := src.uop.fuOpType === LSUOpType.prefetch_r 453 out.prf_wr := src.uop.fuOpType === LSUOpType.prefetch_w 454 out.prf_i := false.B 455 out.sched_idx := src.schedIndex 456 out.isvec := src.isvec 457 out.is128bit := src.is128bit 458 out.uop_unit_stride_fof := src.uop_unit_stride_fof 459 out.reg_offset := src.reg_offset 460 out.vecActive := src.vecActive 461 out.is_first_ele := src.is_first_ele 462 out.usSecondInv := src.usSecondInv 463 out.mbIndex := src.mbIndex 464 out.elemIdx := src.elemIdx 465 out.elemIdxInsideVd := src.elemIdxInsideVd 466 out.alignedType := src.alignedType 467 out.isnc := src.nc 468 out.data := src.data 469 out 470 } 471 472 // TODO: implement vector mmio 473 def fromMmioSource(src: MemExuOutput) = { 474 val out = WireInit(0.U.asTypeOf(new FlowSource)) 475 out.mask := 0.U 476 out.uop := src.uop 477 out.try_l2l := false.B 478 out.has_rob_entry := false.B 479 out.rep_carry := 0.U.asTypeOf(out.rep_carry) 480 out.mshrid := 0.U 481 out.frm_mabuf := false.B 482 out.isFirstIssue := false.B 483 out.fast_rep := false.B 484 out.ld_rep := false.B 485 out.l2l_fwd := false.B 486 out.prf := false.B 487 out.prf_rd := false.B 488 out.prf_wr := false.B 489 out.prf_i := false.B 490 out.sched_idx := 0.U 491 out.vecActive := true.B 492 out 493 } 494 495 def fromNcSource(src: LsPipelineBundle): FlowSource = { 496 val out = WireInit(0.U.asTypeOf(new FlowSource)) 497 out.vaddr := src.vaddr 498 out.paddr := src.paddr 499 out.mask := genVWmask(src.vaddr, src.uop.fuOpType(1,0)) 500 out.uop := src.uop 501 out.has_rob_entry := true.B 502 out.sched_idx := src.schedIndex 503 out.isvec := src.isvec 504 out.is128bit := src.is128bit 505 out.vecActive := src.vecActive 506 out.isnc := true.B 507 out.data := src.data 508 out 509 } 510 511 def fromNormalReplaySource(src: LsPipelineBundle): FlowSource = { 512 val out = WireInit(0.U.asTypeOf(new FlowSource)) 513 out.mask := Mux(src.isvec, src.mask, genVWmask(src.vaddr, src.uop.fuOpType(1, 0))) 514 out.uop := src.uop 515 out.try_l2l := false.B 516 out.has_rob_entry := true.B 517 out.rep_carry := src.replayCarry 518 out.mshrid := src.mshrid 519 out.frm_mabuf := false.B 520 out.isFirstIssue := false.B 521 out.fast_rep := false.B 522 out.ld_rep := true.B 523 out.l2l_fwd := false.B 524 out.prf := LSUOpType.isPrefetch(src.uop.fuOpType) && !src.isvec 525 out.prf_rd := src.uop.fuOpType === LSUOpType.prefetch_r 526 out.prf_wr := src.uop.fuOpType === LSUOpType.prefetch_w 527 out.prf_i := false.B 528 out.sched_idx := src.schedIndex 529 out.isvec := src.isvec 530 out.is128bit := src.is128bit 531 out.uop_unit_stride_fof := src.uop_unit_stride_fof 532 out.reg_offset := src.reg_offset 533 out.vecActive := src.vecActive 534 out.is_first_ele := src.is_first_ele 535 out.usSecondInv := src.usSecondInv 536 out.mbIndex := src.mbIndex 537 out.elemIdx := src.elemIdx 538 out.elemIdxInsideVd := src.elemIdxInsideVd 539 out.alignedType := src.alignedType 540 out 541 } 542 543 // TODO: implement vector prefetch 544 def fromPrefetchSource(src: L1PrefetchReq): FlowSource = { 545 val out = WireInit(0.U.asTypeOf(new FlowSource)) 546 out.mask := 0.U 547 out.uop := DontCare 548 out.try_l2l := false.B 549 out.has_rob_entry := false.B 550 out.rep_carry := 0.U.asTypeOf(out.rep_carry) 551 out.mshrid := 0.U 552 out.frm_mabuf := false.B 553 out.isFirstIssue := false.B 554 out.fast_rep := false.B 555 out.ld_rep := false.B 556 out.l2l_fwd := false.B 557 out.prf := true.B 558 out.prf_rd := !src.is_store 559 out.prf_wr := src.is_store 560 out.prf_i := false.B 561 out.sched_idx := 0.U 562 out 563 } 564 565 def fromVecIssueSource(src: VecPipeBundle): FlowSource = { 566 val out = WireInit(0.U.asTypeOf(new FlowSource)) 567 out.mask := src.mask 568 out.uop := src.uop 569 out.try_l2l := false.B 570 out.has_rob_entry := true.B 571 // TODO: VLSU, implement replay carry 572 out.rep_carry := 0.U.asTypeOf(out.rep_carry) 573 out.mshrid := 0.U 574 out.frm_mabuf := false.B 575 // TODO: VLSU, implement first issue 576// out.isFirstIssue := src.isFirstIssue 577 out.fast_rep := false.B 578 out.ld_rep := false.B 579 out.l2l_fwd := false.B 580 out.prf := false.B 581 out.prf_rd := false.B 582 out.prf_wr := false.B 583 out.prf_i := false.B 584 out.sched_idx := 0.U 585 // Vector load interface 586 out.isvec := true.B 587 // vector loads only access a single element at a time, so 128-bit path is not used for now 588 out.is128bit := is128Bit(src.alignedType) 589 out.uop_unit_stride_fof := src.uop_unit_stride_fof 590 // out.rob_idx_valid := src.rob_idx_valid 591 // out.inner_idx := src.inner_idx 592 // out.rob_idx := src.rob_idx 593 out.reg_offset := src.reg_offset 594 // out.offset := src.offset 595 out.vecActive := src.vecActive 596 out.is_first_ele := src.is_first_ele 597 // out.flowPtr := src.flowPtr 598 out.usSecondInv := src.usSecondInv 599 out.mbIndex := src.mBIndex 600 out.elemIdx := src.elemIdx 601 out.elemIdxInsideVd := src.elemIdxInsideVd 602 out.vecBaseVaddr := src.basevaddr 603 out.alignedType := src.alignedType 604 out 605 } 606 607 def fromIntIssueSource(src: MemExuInput): FlowSource = { 608 val out = WireInit(0.U.asTypeOf(new FlowSource)) 609 val addr = io.ldin.bits.src(0) + SignExt(io.ldin.bits.uop.imm(11, 0), VAddrBits) 610 out.mask := genVWmask(addr, src.uop.fuOpType(1,0)) 611 out.uop := src.uop 612 out.try_l2l := false.B 613 out.has_rob_entry := true.B 614 out.rep_carry := 0.U.asTypeOf(out.rep_carry) 615 out.mshrid := 0.U 616 out.frm_mabuf := false.B 617 out.isFirstIssue := true.B 618 out.fast_rep := false.B 619 out.ld_rep := false.B 620 out.l2l_fwd := false.B 621 out.prf := LSUOpType.isPrefetch(src.uop.fuOpType) 622 out.prf_rd := src.uop.fuOpType === LSUOpType.prefetch_r 623 out.prf_wr := src.uop.fuOpType === LSUOpType.prefetch_w 624 out.prf_i := src.uop.fuOpType === LSUOpType.prefetch_i 625 out.sched_idx := 0.U 626 out.vecActive := true.B // true for scala load 627 out 628 } 629 630 // TODO: implement vector l2l 631 def fromLoadToLoadSource(src: LoadToLoadIO): FlowSource = { 632 val out = WireInit(0.U.asTypeOf(new FlowSource)) 633 out.mask := genVWmask(0.U, LSUOpType.ld) 634 // When there's no valid instruction from RS and LSQ, we try the load-to-load forwarding. 635 // Assume the pointer chasing is always ld. 636 out.uop.fuOpType := LSUOpType.ld 637 out.try_l2l := true.B 638 // we dont care out.isFirstIssue and out.rsIdx and s0_sqIdx in S0 when trying pointchasing 639 // because these signals will be updated in S1 640 out.has_rob_entry := false.B 641 out.mshrid := 0.U 642 out.frm_mabuf := false.B 643 out.rep_carry := 0.U.asTypeOf(out.rep_carry) 644 out.isFirstIssue := true.B 645 out.fast_rep := false.B 646 out.ld_rep := false.B 647 out.l2l_fwd := true.B 648 out.prf := false.B 649 out.prf_rd := false.B 650 out.prf_wr := false.B 651 out.prf_i := false.B 652 out.sched_idx := 0.U 653 out 654 } 655 656 // set default 657 val s0_src_selector = WireInit(s0_src_valid_vec) 658 if (!EnableLoadToLoadForward) { s0_src_selector(l2l_fwd_idx) := false.B } 659 val s0_src_format = Seq( 660 fromMisAlignBufferSource(io.misalign_ldin.bits), 661 fromNormalReplaySource(io.replay.bits), 662 fromFastReplaySource(io.fast_rep_in.bits), 663 fromMmioSource(io.lsq.uncache.bits), 664 fromNcSource(io.lsq.nc_ldin.bits), 665 fromNormalReplaySource(io.replay.bits), 666 fromPrefetchSource(io.prefetch_req.bits), 667 fromVecIssueSource(io.vecldin.bits), 668 fromIntIssueSource(io.ldin.bits), 669 (if (EnableLoadToLoadForward) fromLoadToLoadSource(io.l2l_fwd_in) else fromNullSource()), 670 fromPrefetchSource(io.prefetch_req.bits) 671 ) 672 s0_sel_src := ParallelPriorityMux(s0_src_selector, s0_src_format) 673 674 // fast replay and hardware prefetch don't need to query tlb 675 val int_issue_vaddr = io.ldin.bits.src(0) + SignExt(io.ldin.bits.uop.imm(11, 0), VAddrBits) 676 val int_vec_vaddr = Mux(s0_src_valid_vec(vec_iss_idx), io.vecldin.bits.vaddr(VAddrBits - 1, 0), int_issue_vaddr) 677 s0_tlb_vaddr := Mux( 678 s0_src_valid_vec(mab_idx), 679 io.misalign_ldin.bits.vaddr, 680 Mux( 681 s0_src_valid_vec(super_rep_idx) || s0_src_valid_vec(lsq_rep_idx), 682 io.replay.bits.vaddr, 683 int_vec_vaddr 684 ) 685 ) 686 687 // only first issue of int / vec load intructions need to check full vaddr 688 s0_tlb_fullva := Mux(s0_src_valid_vec(mab_idx), 689 io.misalign_ldin.bits.fullva, 690 Mux(s0_src_select_vec(vec_iss_idx), 691 io.vecldin.bits.vaddr, 692 Mux( 693 s0_src_select_vec(int_iss_idx), 694 io.ldin.bits.src(0) + SignExt(io.ldin.bits.uop.imm(11, 0), XLEN), 695 s0_dcache_vaddr 696 ) 697 ) 698 ) 699 700 s0_dcache_vaddr := 701 Mux(s0_src_select_vec(fast_rep_idx), io.fast_rep_in.bits.vaddr, 702 Mux(s0_hw_prf_select, io.prefetch_req.bits.getVaddr(), 703 Mux(s0_src_select_vec(nc_idx), io.lsq.nc_ldin.bits.vaddr, // not for dcache access, but for address alignment check 704 s0_tlb_vaddr))) 705 706 s0_tlb_hlv := Mux( 707 s0_src_valid_vec(mab_idx), 708 LSUOpType.isHlv(io.misalign_ldin.bits.uop.fuOpType), 709 Mux( 710 s0_src_valid_vec(super_rep_idx) || s0_src_valid_vec(lsq_rep_idx), 711 LSUOpType.isHlv(io.replay.bits.uop.fuOpType), 712 Mux( 713 s0_src_valid_vec(int_iss_idx), 714 LSUOpType.isHlv(io.ldin.bits.uop.fuOpType), 715 false.B 716 ) 717 ) 718 ) 719 s0_tlb_hlvx := Mux( 720 s0_src_valid_vec(mab_idx), 721 LSUOpType.isHlvx(io.misalign_ldin.bits.uop.fuOpType), 722 Mux( 723 s0_src_valid_vec(super_rep_idx) || s0_src_valid_vec(lsq_rep_idx), 724 LSUOpType.isHlvx(io.replay.bits.uop.fuOpType), 725 Mux( 726 s0_src_valid_vec(int_iss_idx), 727 LSUOpType.isHlvx(io.ldin.bits.uop.fuOpType), 728 false.B 729 ) 730 ) 731 ) 732 733 // address align check 734 val s0_addr_aligned = LookupTree(Mux(s0_sel_src.isvec, s0_sel_src.alignedType(1,0), s0_sel_src.uop.fuOpType(1, 0)), List( 735 "b00".U -> true.B, //b 736 "b01".U -> (s0_dcache_vaddr(0) === 0.U), //h 737 "b10".U -> (s0_dcache_vaddr(1, 0) === 0.U), //w 738 "b11".U -> (s0_dcache_vaddr(2, 0) === 0.U) //d 739 )) 740 XSError(s0_sel_src.isvec && s0_dcache_vaddr(3, 0) =/= 0.U && s0_sel_src.alignedType(2), "unit-stride 128 bit element is not aligned!") 741 XSError(s0_sel_src.isnc && s0_dcache_vaddr(3, 0) =/= 0.U && s0_sel_src.alignedType(2), "nc element is not aligned!") 742 743 // accept load flow if dcache ready (tlb is always ready) 744 // TODO: prefetch need writeback to loadQueueFlag 745 s0_out := DontCare 746 s0_out.vaddr := Mux(s0_nc_with_data, s0_sel_src.vaddr, s0_dcache_vaddr) 747 s0_out.fullva := s0_tlb_fullva 748 s0_out.mask := s0_sel_src.mask 749 s0_out.uop := s0_sel_src.uop 750 s0_out.isFirstIssue := s0_sel_src.isFirstIssue 751 s0_out.hasROBEntry := s0_sel_src.has_rob_entry 752 s0_out.isPrefetch := s0_sel_src.prf 753 s0_out.isHWPrefetch := s0_hw_prf_select 754 s0_out.isFastReplay := s0_sel_src.fast_rep 755 s0_out.isLoadReplay := s0_sel_src.ld_rep 756 s0_out.isFastPath := s0_sel_src.l2l_fwd 757 s0_out.mshrid := s0_sel_src.mshrid 758 s0_out.isvec := s0_sel_src.isvec 759 s0_out.is128bit := s0_sel_src.is128bit 760 s0_out.isFrmMisAlignBuf := s0_sel_src.frm_mabuf 761 s0_out.uop_unit_stride_fof := s0_sel_src.uop_unit_stride_fof 762 s0_out.paddr := 763 Mux(s0_src_valid_vec(nc_idx), io.lsq.nc_ldin.bits.paddr, 764 Mux(s0_src_valid_vec(fast_rep_idx), io.fast_rep_in.bits.paddr, 765 Mux(s0_src_select_vec(int_iss_idx) && s0_sel_src.prf_i, 0.U, 766 io.prefetch_req.bits.paddr))) // only for nc, fast_rep, prefetch 767 s0_out.tlbNoQuery := s0_tlb_no_query 768 // s0_out.rob_idx_valid := s0_rob_idx_valid 769 // s0_out.inner_idx := s0_inner_idx 770 // s0_out.rob_idx := s0_rob_idx 771 s0_out.reg_offset := s0_sel_src.reg_offset 772 // s0_out.offset := s0_offset 773 s0_out.vecActive := s0_sel_src.vecActive 774 s0_out.usSecondInv := s0_sel_src.usSecondInv 775 s0_out.is_first_ele := s0_sel_src.is_first_ele 776 s0_out.elemIdx := s0_sel_src.elemIdx 777 s0_out.elemIdxInsideVd := s0_sel_src.elemIdxInsideVd 778 s0_out.alignedType := s0_sel_src.alignedType 779 s0_out.mbIndex := s0_sel_src.mbIndex 780 s0_out.vecBaseVaddr := s0_sel_src.vecBaseVaddr 781 // s0_out.flowPtr := s0_sel_src.flowPtr 782 s0_out.uop.exceptionVec(loadAddrMisaligned) := (!s0_addr_aligned || s0_sel_src.uop.exceptionVec(loadAddrMisaligned)) && s0_sel_src.vecActive 783 s0_out.forward_tlDchannel := s0_src_select_vec(super_rep_idx) 784 when(io.tlb.req.valid && s0_sel_src.isFirstIssue) { 785 s0_out.uop.debugInfo.tlbFirstReqTime := GTimer() 786 }.otherwise{ 787 s0_out.uop.debugInfo.tlbFirstReqTime := s0_sel_src.uop.debugInfo.tlbFirstReqTime 788 } 789 s0_out.schedIndex := s0_sel_src.sched_idx 790 //for Svpbmt Nc 791 s0_out.nc := s0_sel_src.isnc 792 s0_out.data := s0_sel_src.data 793 794 // load fast replay 795 io.fast_rep_in.ready := (s0_can_go && io.dcache.req.ready && s0_src_ready_vec(fast_rep_idx)) 796 797 // mmio 798 io.lsq.uncache.ready := s0_mmio_fire 799 io.lsq.nc_ldin.ready := s0_src_ready_vec(nc_idx) && s0_can_go 800 801 // load flow source ready 802 // cache missed load has highest priority 803 // always accept cache missed load flow from load replay queue 804 io.replay.ready := (s0_can_go && io.dcache.req.ready && (s0_src_ready_vec(lsq_rep_idx) && !s0_rep_stall || s0_src_select_vec(super_rep_idx))) 805 806 // accept load flow from rs when: 807 // 1) there is no lsq-replayed load 808 // 2) there is no fast replayed load 809 // 3) there is no high confidence prefetch request 810 io.vecldin.ready := s0_can_go && io.dcache.req.ready && s0_src_ready_vec(vec_iss_idx) 811 io.ldin.ready := s0_can_go && io.dcache.req.ready && s0_src_ready_vec(int_iss_idx) 812 io.misalign_ldin.ready := s0_can_go && io.dcache.req.ready && s0_src_ready_vec(mab_idx) 813 814 // for hw prefetch load flow feedback, to be added later 815 // io.prefetch_in.ready := s0_hw_prf_select 816 817 // dcache replacement extra info 818 // TODO: should prefetch load update replacement? 819 io.dcache.replacementUpdated := Mux(s0_src_select_vec(lsq_rep_idx) || s0_src_select_vec(super_rep_idx), io.replay.bits.replacementUpdated, false.B) 820 821 // load wakeup 822 // TODO: vector load wakeup? frm_mabuf wakeup? 823 val s0_wakeup_selector = Seq( 824 s0_src_valid_vec(super_rep_idx), 825 s0_src_valid_vec(fast_rep_idx), 826 s0_mmio_fire, 827 s0_nc_fire, 828 s0_src_valid_vec(lsq_rep_idx), 829 s0_src_valid_vec(int_iss_idx) 830 ) 831 val s0_wakeup_format = Seq( 832 io.replay.bits.uop, 833 io.fast_rep_in.bits.uop, 834 io.lsq.uncache.bits.uop, 835 io.lsq.nc_ldin.bits.uop, 836 io.replay.bits.uop, 837 io.ldin.bits.uop, 838 ) 839 val s0_wakeup_uop = ParallelPriorityMux(s0_wakeup_selector, s0_wakeup_format) 840 io.wakeup.valid := s0_fire && !s0_sel_src.isvec && !s0_sel_src.frm_mabuf && ( 841 s0_src_valid_vec(super_rep_idx) || 842 s0_src_valid_vec(fast_rep_idx) || 843 s0_src_valid_vec(lsq_rep_idx) || 844 (s0_src_valid_vec(int_iss_idx) && !s0_sel_src.prf && 845 !s0_src_valid_vec(vec_iss_idx) && !s0_src_valid_vec(high_pf_idx)) 846 ) || s0_mmio_fire || s0_nc_fire 847 io.wakeup.bits := s0_wakeup_uop 848 849 // prefetch.i(Zicbop) 850 io.ifetchPrefetch.valid := RegNext(s0_src_select_vec(int_iss_idx) && s0_sel_src.prf_i) 851 io.ifetchPrefetch.bits.vaddr := RegEnable(s0_out.vaddr, 0.U, s0_src_select_vec(int_iss_idx) && s0_sel_src.prf_i) 852 853 XSDebug(io.dcache.req.fire, 854 p"[DCACHE LOAD REQ] pc ${Hexadecimal(s0_sel_src.uop.pc)}, vaddr ${Hexadecimal(s0_dcache_vaddr)}\n" 855 ) 856 XSDebug(s0_valid, 857 p"S0: pc ${Hexadecimal(s0_out.uop.pc)}, lId ${Hexadecimal(s0_out.uop.lqIdx.asUInt)}, " + 858 p"vaddr ${Hexadecimal(s0_out.vaddr)}, mask ${Hexadecimal(s0_out.mask)}\n") 859 860 // Pipeline 861 // -------------------------------------------------------------------------------- 862 // stage 1 863 // -------------------------------------------------------------------------------- 864 // TLB resp (send paddr to dcache) 865 val s1_valid = RegInit(false.B) 866 val s1_in = Wire(new LqWriteBundle) 867 val s1_out = Wire(new LqWriteBundle) 868 val s1_kill = Wire(Bool()) 869 val s1_can_go = s2_ready 870 val s1_fire = s1_valid && !s1_kill && s1_can_go 871 val s1_vecActive = RegEnable(s0_out.vecActive, true.B, s0_fire) 872 val s1_nc_with_data = RegNext(s0_nc_with_data) 873 874 s1_ready := !s1_valid || s1_kill || s2_ready 875 when (s0_fire) { s1_valid := true.B } 876 .elsewhen (s1_fire) { s1_valid := false.B } 877 .elsewhen (s1_kill) { s1_valid := false.B } 878 s1_in := RegEnable(s0_out, s0_fire) 879 880 val s1_fast_rep_dly_kill = RegEnable(io.fast_rep_in.bits.lateKill, io.fast_rep_in.valid) && s1_in.isFastReplay 881 val s1_fast_rep_dly_err = RegEnable(io.fast_rep_in.bits.delayedLoadError, io.fast_rep_in.valid) && s1_in.isFastReplay 882 val s1_l2l_fwd_dly_err = RegEnable(io.l2l_fwd_in.dly_ld_err, io.l2l_fwd_in.valid) && s1_in.isFastPath 883 val s1_dly_err = s1_fast_rep_dly_err || s1_l2l_fwd_dly_err 884 val s1_vaddr_hi = Wire(UInt()) 885 val s1_vaddr_lo = Wire(UInt()) 886 val s1_vaddr = Wire(UInt()) 887 val s1_paddr_dup_lsu = Wire(UInt()) 888 val s1_gpaddr_dup_lsu = Wire(UInt()) 889 val s1_paddr_dup_dcache = Wire(UInt()) 890 val s1_exception = ExceptionNO.selectByFu(s1_out.uop.exceptionVec, LduCfg).asUInt.orR // af & pf exception were modified below. 891 val s1_tlb_miss = io.tlb.resp.bits.miss && io.tlb.resp.valid && s1_valid 892 val s1_tlb_fast_miss = io.tlb.resp.bits.fastMiss && io.tlb.resp.valid && s1_valid 893 val s1_pbmt = Mux(!s1_tlb_miss, io.tlb.resp.bits.pbmt.head, 0.U(Pbmt.width.W)) 894 val s1_nc = s1_in.nc 895 val s1_prf = s1_in.isPrefetch 896 val s1_hw_prf = s1_in.isHWPrefetch 897 val s1_sw_prf = s1_prf && !s1_hw_prf 898 val s1_tlb_memidx = io.tlb.resp.bits.memidx 899 900 s1_vaddr_hi := s1_in.vaddr(VAddrBits - 1, 6) 901 s1_vaddr_lo := s1_in.vaddr(5, 0) 902 s1_vaddr := Cat(s1_vaddr_hi, s1_vaddr_lo) 903 s1_paddr_dup_lsu := Mux(s1_in.tlbNoQuery, s1_in.paddr, io.tlb.resp.bits.paddr(0)) 904 s1_paddr_dup_dcache := Mux(s1_in.tlbNoQuery, s1_in.paddr, io.tlb.resp.bits.paddr(1)) 905 s1_gpaddr_dup_lsu := Mux(s1_in.isFastReplay, s1_in.paddr, io.tlb.resp.bits.gpaddr(0)) 906 907 when (s1_tlb_memidx.is_ld && io.tlb.resp.valid && !s1_tlb_miss && s1_tlb_memidx.idx === s1_in.uop.lqIdx.value) { 908 // printf("load idx = %d\n", s1_tlb_memidx.idx) 909 s1_out.uop.debugInfo.tlbRespTime := GTimer() 910 } 911 912 io.tlb.req_kill := s1_kill || s1_dly_err 913 io.tlb.req.bits.pmp_addr := s1_in.paddr 914 io.tlb.resp.ready := true.B 915 916 io.dcache.s1_paddr_dup_lsu <> s1_paddr_dup_lsu 917 io.dcache.s1_paddr_dup_dcache <> s1_paddr_dup_dcache 918 io.dcache.s1_kill := s1_kill || s1_dly_err || s1_tlb_miss || s1_exception 919 io.dcache.s1_kill_data_read := s1_kill || s1_dly_err || s1_tlb_fast_miss 920 921 // store to load forwarding 922 io.sbuffer.valid := s1_valid && !(s1_exception || s1_tlb_miss || s1_kill || s1_dly_err || s1_prf) 923 io.sbuffer.vaddr := s1_vaddr 924 io.sbuffer.paddr := s1_paddr_dup_lsu 925 io.sbuffer.uop := s1_in.uop 926 io.sbuffer.sqIdx := s1_in.uop.sqIdx 927 io.sbuffer.mask := s1_in.mask 928 io.sbuffer.pc := s1_in.uop.pc // FIXME: remove it 929 930 io.ubuffer.valid := s1_valid && s1_nc_with_data && !(s1_exception || s1_tlb_miss || s1_kill || s1_dly_err || s1_prf) 931 io.ubuffer.vaddr := s1_vaddr 932 io.ubuffer.paddr := s1_paddr_dup_lsu 933 io.ubuffer.uop := s1_in.uop 934 io.ubuffer.sqIdx := s1_in.uop.sqIdx 935 io.ubuffer.mask := s1_in.mask 936 io.ubuffer.pc := s1_in.uop.pc // FIXME: remove it 937 938 io.lsq.forward.valid := s1_valid && !(s1_exception || s1_tlb_miss || s1_kill || s1_dly_err || s1_prf) 939 io.lsq.forward.vaddr := s1_vaddr 940 io.lsq.forward.paddr := s1_paddr_dup_lsu 941 io.lsq.forward.uop := s1_in.uop 942 io.lsq.forward.sqIdx := s1_in.uop.sqIdx 943 io.lsq.forward.sqIdxMask := 0.U 944 io.lsq.forward.mask := s1_in.mask 945 io.lsq.forward.pc := s1_in.uop.pc // FIXME: remove it 946 947 // st-ld violation query 948 // if store unit is 128-bits memory access, need match 128-bit 949 private val s1_isMatch128 = io.stld_nuke_query.map(x => (x.bits.matchLine || (s1_in.isvec && s1_in.is128bit))) 950 val s1_nuke_paddr_match = VecInit((0 until StorePipelineWidth).zip(s1_isMatch128).map{case (w, s) => {Mux(s, 951 s1_paddr_dup_lsu(PAddrBits-1, 4) === io.stld_nuke_query(w).bits.paddr(PAddrBits-1, 4), 952 s1_paddr_dup_lsu(PAddrBits-1, 3) === io.stld_nuke_query(w).bits.paddr(PAddrBits-1, 3))}}) 953 val s1_nuke = VecInit((0 until StorePipelineWidth).map(w => { 954 io.stld_nuke_query(w).valid && // query valid 955 isAfter(s1_in.uop.robIdx, io.stld_nuke_query(w).bits.robIdx) && // older store 956 s1_nuke_paddr_match(w) && // paddr match 957 (s1_in.mask & io.stld_nuke_query(w).bits.mask).orR // data mask contain 958 })).asUInt.orR && !s1_tlb_miss 959 960 s1_out := s1_in 961 s1_out.vaddr := s1_vaddr 962 s1_out.vaNeedExt := io.tlb.resp.bits.excp(0).vaNeedExt 963 s1_out.isHyper := io.tlb.resp.bits.excp(0).isHyper 964 s1_out.paddr := s1_paddr_dup_lsu 965 s1_out.gpaddr := s1_gpaddr_dup_lsu 966 s1_out.isForVSnonLeafPTE := io.tlb.resp.bits.isForVSnonLeafPTE 967 s1_out.tlbMiss := s1_tlb_miss 968 s1_out.ptwBack := io.tlb.resp.bits.ptwBack 969 s1_out.rep_info.debug := s1_in.uop.debugInfo 970 s1_out.rep_info.nuke := s1_nuke && !s1_sw_prf 971 s1_out.delayedLoadError := s1_dly_err 972 s1_out.nc := s1_nc || Pbmt.isNC(s1_pbmt) 973 s1_out.mmio := Pbmt.isIO(s1_pbmt) 974 975 when (!s1_dly_err) { 976 // current ori test will cause the case of ldest == 0, below will be modifeid in the future. 977 // af & pf exception were modified 978 // if is tlbNoQuery request, don't trigger exception from tlb resp 979 s1_out.uop.exceptionVec(loadPageFault) := io.tlb.resp.bits.excp(0).pf.ld && s1_vecActive && !s1_tlb_miss && !s1_in.tlbNoQuery 980 s1_out.uop.exceptionVec(loadGuestPageFault) := io.tlb.resp.bits.excp(0).gpf.ld && !s1_tlb_miss && !s1_in.tlbNoQuery 981 s1_out.uop.exceptionVec(loadAccessFault) := io.tlb.resp.bits.excp(0).af.ld && s1_vecActive && !s1_tlb_miss && !s1_in.tlbNoQuery 982 when (!s1_out.isvec && RegNext(io.tlb.req.bits.checkfullva) && 983 (s1_out.uop.exceptionVec(loadPageFault) || 984 s1_out.uop.exceptionVec(loadGuestPageFault) || 985 s1_out.uop.exceptionVec(loadAccessFault))) { 986 s1_out.uop.exceptionVec(loadAddrMisaligned) := false.B 987 } 988 } .otherwise { 989 s1_out.uop.exceptionVec(loadPageFault) := false.B 990 s1_out.uop.exceptionVec(loadGuestPageFault) := false.B 991 s1_out.uop.exceptionVec(loadAddrMisaligned) := false.B 992 s1_out.uop.exceptionVec(loadAccessFault) := s1_dly_err && s1_vecActive 993 } 994 995 // pointer chasing 996 val s1_try_ptr_chasing = GatedValidRegNext(s0_do_try_ptr_chasing, false.B) 997 val s1_ptr_chasing_vaddr = RegEnable(s0_ptr_chasing_vaddr, s0_do_try_ptr_chasing) 998 val s1_fu_op_type_not_ld = WireInit(false.B) 999 val s1_not_fast_match = WireInit(false.B) 1000 val s1_addr_mismatch = WireInit(false.B) 1001 val s1_addr_misaligned = WireInit(false.B) 1002 val s1_fast_mismatch = WireInit(false.B) 1003 val s1_ptr_chasing_canceled = WireInit(false.B) 1004 val s1_cancel_ptr_chasing = WireInit(false.B) 1005 1006 val s1_redirect_reg = Wire(Valid(new Redirect)) 1007 s1_redirect_reg.bits := RegEnable(io.redirect.bits, io.redirect.valid) 1008 s1_redirect_reg.valid := GatedValidRegNext(io.redirect.valid) 1009 1010 s1_kill := s1_fast_rep_dly_kill || 1011 s1_cancel_ptr_chasing || 1012 s1_in.uop.robIdx.needFlush(io.redirect) || 1013 (s1_in.uop.robIdx.needFlush(s1_redirect_reg) && !GatedValidRegNext(s0_try_ptr_chasing)) || 1014 RegEnable(s0_kill, false.B, io.ldin.valid || 1015 io.vecldin.valid || io.replay.valid || 1016 io.l2l_fwd_in.valid || io.fast_rep_in.valid || 1017 io.misalign_ldin.valid || io.lsq.nc_ldin.valid 1018 ) 1019 1020 if (EnableLoadToLoadForward) { 1021 // Sometimes, we need to cancel the load-load forwarding. 1022 // These can be put at S0 if timing is bad at S1. 1023 // Case 0: CACHE_SET(base + offset) != CACHE_SET(base) (lowest 6-bit addition has an overflow) 1024 s1_addr_mismatch := s1_ptr_chasing_vaddr(6) || 1025 RegEnable(io.ld_fast_imm(11, 6).orR, s0_do_try_ptr_chasing) 1026 // Case 1: the address is not 64-bit aligned or the fuOpType is not LD 1027 s1_addr_misaligned := s1_ptr_chasing_vaddr(2, 0).orR 1028 s1_fu_op_type_not_ld := io.ldin.bits.uop.fuOpType =/= LSUOpType.ld 1029 // Case 2: this load-load uop is cancelled 1030 s1_ptr_chasing_canceled := !io.ldin.valid 1031 // Case 3: fast mismatch 1032 s1_fast_mismatch := RegEnable(!io.ld_fast_match, s0_do_try_ptr_chasing) 1033 1034 when (s1_try_ptr_chasing) { 1035 s1_cancel_ptr_chasing := s1_addr_mismatch || 1036 s1_addr_misaligned || 1037 s1_fu_op_type_not_ld || 1038 s1_ptr_chasing_canceled || 1039 s1_fast_mismatch 1040 1041 s1_in.uop := io.ldin.bits.uop 1042 s1_in.isFirstIssue := io.ldin.bits.isFirstIssue 1043 s1_vaddr_lo := s1_ptr_chasing_vaddr(5, 0) 1044 s1_paddr_dup_lsu := Cat(io.tlb.resp.bits.paddr(0)(PAddrBits - 1, 6), s1_vaddr_lo) 1045 s1_paddr_dup_dcache := Cat(io.tlb.resp.bits.paddr(0)(PAddrBits - 1, 6), s1_vaddr_lo) 1046 1047 // recored tlb time when get the data to ensure the correctness of the latency calculation (although it should not record in here, because it does not use tlb) 1048 s1_in.uop.debugInfo.tlbFirstReqTime := GTimer() 1049 s1_in.uop.debugInfo.tlbRespTime := GTimer() 1050 } 1051 when (!s1_cancel_ptr_chasing) { 1052 s0_ptr_chasing_canceled := s1_try_ptr_chasing && 1053 !io.replay.fire && !io.fast_rep_in.fire && 1054 !(s0_src_valid_vec(high_pf_idx) && io.canAcceptHighConfPrefetch) && 1055 !io.misalign_ldin.fire && 1056 !io.lsq.nc_ldin.valid 1057 when (s1_try_ptr_chasing) { 1058 io.ldin.ready := true.B 1059 } 1060 } 1061 } 1062 1063 // pre-calcuate sqIdx mask in s0, then send it to lsq in s1 for forwarding 1064 val s1_sqIdx_mask = RegEnable(UIntToMask(s0_out.uop.sqIdx.value, StoreQueueSize), s0_fire) 1065 // to enable load-load, sqIdxMask must be calculated based on ldin.uop 1066 // If the timing here is not OK, load-load forwarding has to be disabled. 1067 // Or we calculate sqIdxMask at RS?? 1068 io.lsq.forward.sqIdxMask := s1_sqIdx_mask 1069 if (EnableLoadToLoadForward) { 1070 when (s1_try_ptr_chasing) { 1071 io.lsq.forward.sqIdxMask := UIntToMask(io.ldin.bits.uop.sqIdx.value, StoreQueueSize) 1072 } 1073 } 1074 1075 io.forward_mshr.valid := s1_valid && s1_out.forward_tlDchannel 1076 io.forward_mshr.mshrid := s1_out.mshrid 1077 io.forward_mshr.paddr := s1_out.paddr 1078 1079 val loadTrigger = Module(new MemTrigger(MemType.LOAD)) 1080 loadTrigger.io.fromCsrTrigger.tdataVec := io.fromCsrTrigger.tdataVec 1081 loadTrigger.io.fromCsrTrigger.tEnableVec := io.fromCsrTrigger.tEnableVec 1082 loadTrigger.io.fromCsrTrigger.triggerCanRaiseBpExp := io.fromCsrTrigger.triggerCanRaiseBpExp 1083 loadTrigger.io.fromCsrTrigger.debugMode := io.fromCsrTrigger.debugMode 1084 loadTrigger.io.fromLoadStore.vaddr := s1_vaddr 1085 loadTrigger.io.fromLoadStore.isVectorUnitStride := s1_in.isvec && s1_in.is128bit 1086 loadTrigger.io.fromLoadStore.mask := s1_in.mask 1087 1088 val s1_trigger_action = loadTrigger.io.toLoadStore.triggerAction 1089 val s1_trigger_debug_mode = TriggerAction.isDmode(s1_trigger_action) 1090 val s1_trigger_breakpoint = TriggerAction.isExp(s1_trigger_action) 1091 s1_out.uop.trigger := s1_trigger_action 1092 s1_out.uop.exceptionVec(breakPoint) := s1_trigger_breakpoint 1093 s1_out.vecVaddrOffset := Mux( 1094 s1_trigger_debug_mode || s1_trigger_breakpoint, 1095 loadTrigger.io.toLoadStore.triggerVaddr - s1_in.vecBaseVaddr, 1096 s1_in.vaddr + genVFirstUnmask(s1_in.mask).asUInt - s1_in.vecBaseVaddr 1097 ) 1098 s1_out.vecTriggerMask := Mux(s1_trigger_debug_mode || s1_trigger_breakpoint, loadTrigger.io.toLoadStore.triggerMask, 0.U) 1099 1100 XSDebug(s1_valid, 1101 p"S1: pc ${Hexadecimal(s1_out.uop.pc)}, lId ${Hexadecimal(s1_out.uop.lqIdx.asUInt)}, tlb_miss ${io.tlb.resp.bits.miss}, " + 1102 p"paddr ${Hexadecimal(s1_out.paddr)}, mmio ${s1_out.mmio}\n") 1103 1104 // Pipeline 1105 // -------------------------------------------------------------------------------- 1106 // stage 2 1107 // -------------------------------------------------------------------------------- 1108 // s2: DCache resp 1109 val s2_valid = RegInit(false.B) 1110 val s2_in = Wire(new LqWriteBundle) 1111 val s2_out = Wire(new LqWriteBundle) 1112 val s2_kill = Wire(Bool()) 1113 val s2_can_go = s3_ready 1114 val s2_fire = s2_valid && !s2_kill && s2_can_go 1115 val s2_vecActive = RegEnable(s1_out.vecActive, true.B, s1_fire) 1116 val s2_isvec = RegEnable(s1_out.isvec, false.B, s1_fire) 1117 val s2_data_select = genRdataOH(s2_out.uop) 1118 val s2_data_select_by_offset = genDataSelectByOffset(s2_out.paddr(2, 0)) 1119 val s2_frm_mabuf = s2_in.isFrmMisAlignBuf 1120 val s2_pbmt = RegEnable(s1_pbmt, s1_fire) 1121 val s2_trigger_debug_mode = RegEnable(s1_trigger_debug_mode, false.B, s1_fire) 1122 val s2_nc_with_data = RegNext(s1_nc_with_data) 1123 1124 s2_kill := s2_in.uop.robIdx.needFlush(io.redirect) 1125 s2_ready := !s2_valid || s2_kill || s3_ready 1126 when (s1_fire) { s2_valid := true.B } 1127 .elsewhen (s2_fire) { s2_valid := false.B } 1128 .elsewhen (s2_kill) { s2_valid := false.B } 1129 s2_in := RegEnable(s1_out, s1_fire) 1130 1131 val s2_pmp = WireInit(io.pmp) 1132 1133 val s2_prf = s2_in.isPrefetch 1134 val s2_hw_prf = s2_in.isHWPrefetch 1135 1136 // exception that may cause load addr to be invalid / illegal 1137 // if such exception happen, that inst and its exception info 1138 // will be force writebacked to rob 1139 val s2_exception_vec = WireInit(s2_in.uop.exceptionVec) 1140 val s2_actually_uncache = Pbmt.isPMA(s2_pbmt) && s2_pmp.mmio || s2_in.nc || s2_in.mmio 1141 when (!s2_in.delayedLoadError) { 1142 s2_exception_vec(loadAccessFault) := s2_vecActive && ( 1143 s2_in.uop.exceptionVec(loadAccessFault) || 1144 s2_pmp.ld || 1145 s2_isvec && s2_actually_uncache && !s2_prf && !s2_in.tlbMiss || 1146 io.dcache.resp.bits.tag_error && GatedValidRegNext(io.csrCtrl.cache_error_enable) 1147 ) 1148 } 1149 1150 // soft prefetch will not trigger any exception (but ecc error interrupt may 1151 // be triggered) 1152 val s2_tlb_unrelated_exceps = s2_in.uop.exceptionVec(loadAddrMisaligned) || 1153 s2_in.uop.exceptionVec(breakPoint) 1154 when (!s2_in.delayedLoadError && (s2_prf || s2_in.tlbMiss && !s2_tlb_unrelated_exceps)) { 1155 s2_exception_vec := 0.U.asTypeOf(s2_exception_vec.cloneType) 1156 } 1157 val s2_exception = s2_vecActive && 1158 (s2_trigger_debug_mode || ExceptionNO.selectByFu(s2_exception_vec, LduCfg).asUInt.orR) 1159 val s2_mis_align = s2_valid && GatedValidRegNext(io.csrCtrl.hd_misalign_ld_enable) && !s2_in.isvec && 1160 s2_exception_vec(loadAddrMisaligned) && !s2_exception_vec(breakPoint) && !s2_trigger_debug_mode 1161 val (s2_fwd_frm_d_chan, s2_fwd_data_frm_d_chan) = io.tl_d_channel.forward(s1_valid && s1_out.forward_tlDchannel, s1_out.mshrid, s1_out.paddr) 1162 val (s2_fwd_data_valid, s2_fwd_frm_mshr, s2_fwd_data_frm_mshr) = io.forward_mshr.forward() 1163 val s2_fwd_frm_d_chan_or_mshr = s2_fwd_data_valid && (s2_fwd_frm_d_chan || s2_fwd_frm_mshr) 1164 1165 // writeback access fault caused by ecc error / bus error 1166 // * ecc data error is slow to generate, so we will not use it until load stage 3 1167 // * in load stage 3, an extra signal io.load_error will be used to 1168 // * if pbmt =/= 0, mmio is up to pbmt; otherwise, it's up to pmp 1169 val s2_mmio = !s2_prf && 1170 !s2_exception && !s2_in.tlbMiss && 1171 Mux(Pbmt.isUncache(s2_pbmt), s2_in.mmio, s2_pmp.mmio) 1172 val s2_uncache = !s2_prf && !s2_exception && !s2_in.tlbMiss && s2_actually_uncache 1173 1174 val s2_full_fwd = Wire(Bool()) 1175 val s2_mem_amb = s2_in.uop.storeSetHit && 1176 io.lsq.forward.addrInvalid && RegNext(io.lsq.forward.valid) 1177 1178 val s2_tlb_miss = s2_in.tlbMiss 1179 val s2_fwd_fail = io.lsq.forward.dataInvalid && RegNext(io.lsq.forward.valid) 1180 val s2_dcache_miss = io.dcache.resp.bits.miss && 1181 !s2_fwd_frm_d_chan_or_mshr && 1182 !s2_full_fwd && !s2_in.nc 1183 1184 val s2_mq_nack = io.dcache.s2_mq_nack && 1185 !s2_fwd_frm_d_chan_or_mshr && 1186 !s2_full_fwd && !s2_in.nc 1187 1188 val s2_bank_conflict = io.dcache.s2_bank_conflict && 1189 !s2_fwd_frm_d_chan_or_mshr && 1190 !s2_full_fwd && !s2_in.nc 1191 1192 val s2_wpu_pred_fail = io.dcache.s2_wpu_pred_fail && 1193 !s2_fwd_frm_d_chan_or_mshr && 1194 !s2_full_fwd && !s2_in.nc 1195 1196 val s2_rar_nack = io.lsq.ldld_nuke_query.req.valid && 1197 !io.lsq.ldld_nuke_query.req.ready 1198 1199 val s2_raw_nack = io.lsq.stld_nuke_query.req.valid && 1200 !io.lsq.stld_nuke_query.req.ready 1201 // st-ld violation query 1202 // NeedFastRecovery Valid when 1203 // 1. Fast recovery query request Valid. 1204 // 2. Load instruction is younger than requestors(store instructions). 1205 // 3. Physical address match. 1206 // 4. Data contains. 1207 private val s2_isMatch128 = io.stld_nuke_query.map(x => (x.bits.matchLine || (s2_in.isvec && s2_in.is128bit))) 1208 val s2_nuke_paddr_match = VecInit((0 until StorePipelineWidth).zip(s2_isMatch128).map{case (w, s) => {Mux(s, 1209 s2_in.paddr(PAddrBits-1, 4) === io.stld_nuke_query(w).bits.paddr(PAddrBits-1, 4), 1210 s2_in.paddr(PAddrBits-1, 3) === io.stld_nuke_query(w).bits.paddr(PAddrBits-1, 3))}}) 1211 val s2_nuke = VecInit((0 until StorePipelineWidth).map(w => { 1212 io.stld_nuke_query(w).valid && // query valid 1213 isAfter(s2_in.uop.robIdx, io.stld_nuke_query(w).bits.robIdx) && // older store 1214 s2_nuke_paddr_match(w) && // paddr match 1215 (s2_in.mask & io.stld_nuke_query(w).bits.mask).orR // data mask contain 1216 })).asUInt.orR && !s2_tlb_miss || s2_in.rep_info.nuke 1217 1218 val s2_cache_handled = io.dcache.resp.bits.handled 1219 1220 //if it is NC with data, it should handle the replayed situation. 1221 //else s2_uncache will enter uncache buffer. 1222 val s2_troublem = !s2_exception && 1223 (!s2_uncache || s2_nc_with_data) && 1224 !s2_prf && 1225 !s2_in.delayedLoadError 1226 1227 io.dcache.resp.ready := true.B 1228 val s2_dcache_should_resp = !(s2_in.tlbMiss || s2_exception || s2_in.delayedLoadError || s2_uncache || s2_prf) 1229 assert(!(s2_valid && (s2_dcache_should_resp && !io.dcache.resp.valid)), "DCache response got lost") 1230 1231 // fast replay require 1232 val s2_dcache_fast_rep = (s2_mq_nack || !s2_dcache_miss && (s2_bank_conflict || s2_wpu_pred_fail)) 1233 val s2_nuke_fast_rep = !s2_mq_nack && 1234 !s2_dcache_miss && 1235 !s2_bank_conflict && 1236 !s2_wpu_pred_fail && 1237 !s2_rar_nack && 1238 !s2_raw_nack && 1239 s2_nuke 1240 1241 val s2_fast_rep = !s2_mem_amb && 1242 !s2_tlb_miss && 1243 !s2_fwd_fail && 1244 (s2_dcache_fast_rep || s2_nuke_fast_rep) && 1245 s2_troublem 1246 1247 // need allocate new entry 1248 val s2_can_query = !s2_mem_amb && 1249 !s2_tlb_miss && 1250 !s2_fwd_fail && 1251 !s2_frm_mabuf && 1252 s2_troublem 1253 1254 val s2_data_fwded = s2_dcache_miss && s2_full_fwd 1255 1256 val s2_fwd_vp_match_invalid = io.lsq.forward.matchInvalid || io.sbuffer.matchInvalid || io.ubuffer.matchInvalid 1257 val s2_vp_match_fail = s2_fwd_vp_match_invalid && s2_troublem 1258 val s2_safe_wakeup = !s2_out.rep_info.need_rep && !s2_mmio && (!s2_in.nc || s2_nc_with_data) && !s2_mis_align && !s2_exception // don't need to replay and is not a mmio\misalign no data 1259 val s2_safe_writeback = s2_exception || s2_safe_wakeup || s2_vp_match_fail 1260 1261 // ld-ld violation require 1262 io.lsq.ldld_nuke_query.req.valid := s2_valid && s2_can_query 1263 io.lsq.ldld_nuke_query.req.bits.uop := s2_in.uop 1264 io.lsq.ldld_nuke_query.req.bits.mask := s2_in.mask 1265 io.lsq.ldld_nuke_query.req.bits.paddr := s2_in.paddr 1266 io.lsq.ldld_nuke_query.req.bits.data_valid := Mux(s2_full_fwd || s2_fwd_data_valid || s2_nc_with_data, true.B, !s2_dcache_miss) 1267 io.lsq.ldld_nuke_query.req.bits.is_nc := s2_nc_with_data 1268 1269 // st-ld violation require 1270 io.lsq.stld_nuke_query.req.valid := s2_valid && s2_can_query 1271 io.lsq.stld_nuke_query.req.bits.uop := s2_in.uop 1272 io.lsq.stld_nuke_query.req.bits.mask := s2_in.mask 1273 io.lsq.stld_nuke_query.req.bits.paddr := s2_in.paddr 1274 io.lsq.stld_nuke_query.req.bits.data_valid := Mux(s2_full_fwd || s2_fwd_data_valid || s2_nc_with_data, true.B, !s2_dcache_miss) 1275 io.lsq.stld_nuke_query.req.bits.is_nc := s2_nc_with_data 1276 1277 // merge forward result 1278 // lsq has higher priority than sbuffer 1279 val s2_fwd_mask = Wire(Vec((VLEN/8), Bool())) 1280 val s2_fwd_data = Wire(Vec((VLEN/8), UInt(8.W))) 1281 s2_full_fwd := ((~s2_fwd_mask.asUInt).asUInt & s2_in.mask) === 0.U && !io.lsq.forward.dataInvalid 1282 // generate XLEN/8 Muxs 1283 for (i <- 0 until VLEN / 8) { 1284 s2_fwd_mask(i) := io.lsq.forward.forwardMask(i) || io.sbuffer.forwardMask(i) || io.ubuffer.forwardMask(i) 1285 s2_fwd_data(i) := 1286 Mux(io.lsq.forward.forwardMask(i), io.lsq.forward.forwardData(i), 1287 Mux(s2_nc_with_data, io.ubuffer.forwardData(i), 1288 io.sbuffer.forwardData(i))) 1289 } 1290 1291 XSDebug(s2_fire, "[FWD LOAD RESP] pc %x fwd %x(%b) + %x(%b)\n", 1292 s2_in.uop.pc, 1293 io.lsq.forward.forwardData.asUInt, io.lsq.forward.forwardMask.asUInt, 1294 s2_in.forwardData.asUInt, s2_in.forwardMask.asUInt 1295 ) 1296 1297 // 1298 s2_out := s2_in 1299 s2_out.uop.fpWen := s2_in.uop.fpWen 1300 s2_out.nc := s2_in.nc 1301 s2_out.mmio := s2_mmio 1302 s2_out.uop.flushPipe := false.B 1303 s2_out.uop.exceptionVec := s2_exception_vec 1304 s2_out.forwardMask := s2_fwd_mask 1305 s2_out.forwardData := s2_fwd_data 1306 s2_out.handledByMSHR := s2_cache_handled 1307 s2_out.miss := s2_dcache_miss && s2_troublem 1308 s2_out.feedbacked := io.feedback_fast.valid 1309 s2_out.uop.vpu.vstart := Mux(s2_in.isLoadReplay || s2_in.isFastReplay, s2_in.uop.vpu.vstart, s2_in.vecVaddrOffset >> s2_in.uop.vpu.veew) 1310 1311 // Generate replay signal caused by: 1312 // * st-ld violation check 1313 // * tlb miss 1314 // * dcache replay 1315 // * forward data invalid 1316 // * dcache miss 1317 s2_out.rep_info.mem_amb := s2_mem_amb && s2_troublem 1318 s2_out.rep_info.tlb_miss := s2_tlb_miss && s2_troublem 1319 s2_out.rep_info.fwd_fail := s2_fwd_fail && s2_troublem 1320 s2_out.rep_info.dcache_rep := s2_mq_nack && s2_troublem 1321 s2_out.rep_info.dcache_miss := s2_dcache_miss && s2_troublem 1322 s2_out.rep_info.bank_conflict := s2_bank_conflict && s2_troublem 1323 s2_out.rep_info.wpu_fail := s2_wpu_pred_fail && s2_troublem 1324 s2_out.rep_info.rar_nack := s2_rar_nack && s2_troublem 1325 s2_out.rep_info.raw_nack := s2_raw_nack && s2_troublem 1326 s2_out.rep_info.nuke := s2_nuke && s2_troublem 1327 s2_out.rep_info.full_fwd := s2_data_fwded 1328 s2_out.rep_info.data_inv_sq_idx := io.lsq.forward.dataInvalidSqIdx 1329 s2_out.rep_info.addr_inv_sq_idx := io.lsq.forward.addrInvalidSqIdx 1330 s2_out.rep_info.rep_carry := io.dcache.resp.bits.replayCarry 1331 s2_out.rep_info.mshr_id := io.dcache.resp.bits.mshr_id 1332 s2_out.rep_info.last_beat := s2_in.paddr(log2Up(refillBytes)) 1333 s2_out.rep_info.debug := s2_in.uop.debugInfo 1334 s2_out.rep_info.tlb_id := io.tlb_hint.id 1335 s2_out.rep_info.tlb_full := io.tlb_hint.full 1336 1337 // if forward fail, replay this inst from fetch 1338 val debug_fwd_fail_rep = s2_fwd_fail && !s2_troublem && !s2_in.tlbMiss 1339 // if ld-ld violation is detected, replay from this inst from fetch 1340 val debug_ldld_nuke_rep = false.B // s2_ldld_violation && !s2_mmio && !s2_is_prefetch && !s2_in.tlbMiss 1341 1342 // to be removed 1343 io.feedback_fast.valid := false.B 1344 io.feedback_fast.bits.hit := false.B 1345 io.feedback_fast.bits.flushState := s2_in.ptwBack 1346 io.feedback_fast.bits.robIdx := s2_in.uop.robIdx 1347 io.feedback_fast.bits.sqIdx := s2_in.uop.sqIdx 1348 io.feedback_fast.bits.lqIdx := s2_in.uop.lqIdx 1349 io.feedback_fast.bits.sourceType := RSFeedbackType.lrqFull 1350 io.feedback_fast.bits.dataInvalidSqIdx := DontCare 1351 1352 io.ldCancel.ld1Cancel := false.B 1353 1354 // fast wakeup 1355 val s1_fast_uop_valid = WireInit(false.B) 1356 s1_fast_uop_valid := 1357 !io.dcache.s1_disable_fast_wakeup && 1358 s1_valid && 1359 !s1_kill && 1360 !io.tlb.resp.bits.miss && 1361 !io.lsq.forward.dataInvalidFast 1362 io.fast_uop.valid := GatedValidRegNext(s1_fast_uop_valid) && (s2_valid && !s2_out.rep_info.need_rep && !s2_uncache && !(s2_prf && !s2_hw_prf)) && !s2_isvec && !s2_frm_mabuf 1363 io.fast_uop.bits := RegEnable(s1_out.uop, s1_fast_uop_valid) 1364 1365 // 1366 io.s2_ptr_chasing := RegEnable(s1_try_ptr_chasing && !s1_cancel_ptr_chasing, false.B, s1_fire) 1367 1368 // RegNext prefetch train for better timing 1369 // ** Now, prefetch train is valid at load s3 ** 1370 val s2_prefetch_train_valid = WireInit(false.B) 1371 s2_prefetch_train_valid := s2_valid && !s2_actually_uncache && (!s2_in.tlbMiss || s2_hw_prf) 1372 io.prefetch_train.valid := GatedValidRegNext(s2_prefetch_train_valid) 1373 io.prefetch_train.bits.fromLsPipelineBundle(s2_in, latch = true, enable = s2_prefetch_train_valid) 1374 io.prefetch_train.bits.miss := RegEnable(io.dcache.resp.bits.miss, s2_prefetch_train_valid) // TODO: use trace with bank conflict? 1375 io.prefetch_train.bits.meta_prefetch := RegEnable(io.dcache.resp.bits.meta_prefetch, s2_prefetch_train_valid) 1376 io.prefetch_train.bits.meta_access := RegEnable(io.dcache.resp.bits.meta_access, s2_prefetch_train_valid) 1377 io.s1_prefetch_spec := s1_fire 1378 io.s2_prefetch_spec := s2_prefetch_train_valid 1379 1380 val s2_prefetch_train_l1_valid = WireInit(false.B) 1381 s2_prefetch_train_l1_valid := s2_valid && !s2_actually_uncache 1382 io.prefetch_train_l1.valid := GatedValidRegNext(s2_prefetch_train_l1_valid) 1383 io.prefetch_train_l1.bits.fromLsPipelineBundle(s2_in, latch = true, enable = s2_prefetch_train_l1_valid) 1384 io.prefetch_train_l1.bits.miss := RegEnable(io.dcache.resp.bits.miss, s2_prefetch_train_l1_valid) 1385 io.prefetch_train_l1.bits.meta_prefetch := RegEnable(io.dcache.resp.bits.meta_prefetch, s2_prefetch_train_l1_valid) 1386 io.prefetch_train_l1.bits.meta_access := RegEnable(io.dcache.resp.bits.meta_access, s2_prefetch_train_l1_valid) 1387 if (env.FPGAPlatform){ 1388 io.dcache.s0_pc := DontCare 1389 io.dcache.s1_pc := DontCare 1390 io.dcache.s2_pc := DontCare 1391 }else{ 1392 io.dcache.s0_pc := s0_out.uop.pc 1393 io.dcache.s1_pc := s1_out.uop.pc 1394 io.dcache.s2_pc := s2_out.uop.pc 1395 } 1396 io.dcache.s2_kill := s2_pmp.ld || s2_actually_uncache || s2_kill 1397 1398 val s1_ld_left_fire = s1_valid && !s1_kill && s2_ready 1399 val s2_ld_valid_dup = RegInit(0.U(6.W)) 1400 s2_ld_valid_dup := 0x0.U(6.W) 1401 when (s1_ld_left_fire && !s1_out.isHWPrefetch) { s2_ld_valid_dup := 0x3f.U(6.W) } 1402 when (s1_kill || s1_out.isHWPrefetch) { s2_ld_valid_dup := 0x0.U(6.W) } 1403 assert(RegNext((s2_valid === s2_ld_valid_dup(0)) || RegNext(s1_out.isHWPrefetch))) 1404 1405 // Pipeline 1406 // -------------------------------------------------------------------------------- 1407 // stage 3 1408 // -------------------------------------------------------------------------------- 1409 // writeback and update load queue 1410 val s3_valid = GatedValidRegNext(s2_valid && !s2_out.isHWPrefetch && !s2_out.uop.robIdx.needFlush(io.redirect)) 1411 val s3_in = RegEnable(s2_out, s2_fire) 1412 val s3_out = Wire(Valid(new MemExuOutput)) 1413 val s3_dcache_rep = RegEnable(s2_dcache_fast_rep && s2_troublem, false.B, s2_fire) 1414 val s3_ld_valid_dup = RegEnable(s2_ld_valid_dup, s2_fire) 1415 val s3_fast_rep = Wire(Bool()) 1416 val s3_nc_with_data = RegNext(s2_nc_with_data) 1417 val s3_troublem = GatedValidRegNext(s2_troublem) 1418 val s3_kill = s3_in.uop.robIdx.needFlush(io.redirect) 1419 val s3_vecout = Wire(new OnlyVecExuOutput) 1420 val s3_vecActive = RegEnable(s2_out.vecActive, true.B, s2_fire) 1421 val s3_isvec = RegEnable(s2_out.isvec, false.B, s2_fire) 1422 val s3_vec_alignedType = RegEnable(s2_out.alignedType, s2_fire) 1423 val s3_vec_mBIndex = RegEnable(s2_out.mbIndex, s2_fire) 1424 val s3_frm_mabuf = s3_in.isFrmMisAlignBuf 1425 val s3_mmio = Wire(Valid(new MemExuOutput)) 1426 val s3_data_select = RegEnable(s2_data_select, 0.U(s2_data_select.getWidth.W), s2_fire) 1427 val s3_data_select_by_offset = RegEnable(s2_data_select_by_offset, 0.U.asTypeOf(s2_data_select_by_offset), s2_fire) 1428 val s3_dly_ld_err = 1429 if (EnableAccurateLoadError) { 1430 io.dcache.resp.bits.error_delayed && GatedValidRegNext(io.csrCtrl.cache_error_enable) && s3_troublem 1431 } else { 1432 WireInit(false.B) 1433 } 1434 val s3_safe_wakeup = RegEnable(s2_safe_wakeup, s2_fire) 1435 val s3_safe_writeback = RegEnable(s2_safe_writeback, s2_fire) || s3_dly_ld_err 1436 val s3_exception = RegEnable(s2_exception, s2_fire) 1437 val s3_mis_align = RegEnable(s2_mis_align, s2_fire) 1438 val s3_trigger_debug_mode = RegEnable(s2_trigger_debug_mode, false.B, s2_fire) 1439 // TODO: Fix vector load merge buffer nack 1440 val s3_vec_mb_nack = Wire(Bool()) 1441 s3_vec_mb_nack := false.B 1442 XSError(s3_valid && s3_vec_mb_nack, "Merge buffer should always accept vector loads!") 1443 1444 s3_ready := !s3_valid || s3_kill || io.ldout.ready 1445 s3_mmio.valid := RegNextN(io.lsq.uncache.fire, 3, Some(false.B)) 1446 s3_mmio.bits := RegNextN(io.lsq.uncache.bits, 3) 1447 1448 // forwrad last beat 1449 val s3_fast_rep_canceled = io.replay.valid && io.replay.bits.forward_tlDchannel || io.misalign_ldin.valid || !io.dcache.req.ready 1450 1451 // s3 load fast replay 1452 io.fast_rep_out.valid := s3_valid && s3_fast_rep && !s3_in.uop.robIdx.needFlush(io.redirect) 1453 io.fast_rep_out.bits := s3_in 1454 1455 io.lsq.ldin.valid := s3_valid && (!s3_fast_rep || s3_fast_rep_canceled) && !s3_in.feedbacked && !s3_frm_mabuf && !s3_nc_with_data 1456 // TODO: check this --by hx 1457 // io.lsq.ldin.valid := s3_valid && (!s3_fast_rep || !io.fast_rep_out.ready) && !s3_in.feedbacked && !s3_in.lateKill 1458 io.lsq.ldin.bits := s3_in 1459 io.lsq.ldin.bits.miss := s3_in.miss 1460 1461 // connect to misalignBuffer 1462 io.misalign_buf.valid := io.lsq.ldin.valid && GatedValidRegNext(io.csrCtrl.hd_misalign_ld_enable) && !io.lsq.ldin.bits.isvec 1463 io.misalign_buf.bits := s3_in 1464 1465 /* <------- DANGEROUS: Don't change sequence here ! -------> */ 1466 io.lsq.ldin.bits.data_wen_dup := s3_ld_valid_dup.asBools 1467 io.lsq.ldin.bits.replacementUpdated := io.dcache.resp.bits.replacementUpdated 1468 io.lsq.ldin.bits.missDbUpdated := GatedValidRegNext(s2_fire && s2_in.hasROBEntry && !s2_in.tlbMiss && !s2_in.missDbUpdated) 1469 1470 io.s3_dly_ld_err := false.B // s3_dly_ld_err && s3_valid 1471 io.lsq.ldin.bits.dcacheRequireReplay := s3_dcache_rep 1472 io.fast_rep_out.bits.delayedLoadError := s3_dly_ld_err 1473 1474 val s3_vp_match_fail = GatedValidRegNext(s2_fwd_vp_match_invalid) && s3_troublem 1475 val s3_rep_frm_fetch = s3_vp_match_fail 1476 val s3_ldld_rep_inst = 1477 io.lsq.ldld_nuke_query.resp.valid && 1478 io.lsq.ldld_nuke_query.resp.bits.rep_frm_fetch && 1479 GatedValidRegNext(io.csrCtrl.ldld_vio_check_enable) 1480 val s3_flushPipe = s3_ldld_rep_inst 1481 1482 val s3_rep_info = WireInit(s3_in.rep_info) 1483 val s3_sel_rep_cause = PriorityEncoderOH(s3_rep_info.cause.asUInt) 1484 1485 when (s3_exception || s3_dly_ld_err || s3_rep_frm_fetch) { 1486 io.lsq.ldin.bits.rep_info.cause := 0.U.asTypeOf(s3_rep_info.cause.cloneType) 1487 } .otherwise { 1488 io.lsq.ldin.bits.rep_info.cause := VecInit(s3_sel_rep_cause.asBools) 1489 } 1490 1491 // Int load, if hit, will be writebacked at s3 1492 s3_out.valid := s3_valid && s3_safe_writeback 1493 s3_out.bits.uop := s3_in.uop 1494 s3_out.bits.uop.fpWen := s3_in.uop.fpWen 1495 s3_out.bits.uop.exceptionVec(loadAccessFault) := (s3_dly_ld_err || s3_in.uop.exceptionVec(loadAccessFault)) && s3_vecActive 1496 s3_out.bits.uop.flushPipe := false.B 1497 s3_out.bits.uop.replayInst := false.B 1498 s3_out.bits.data := s3_in.data 1499 s3_out.bits.isFromLoadUnit := true.B 1500 s3_out.bits.debug.isMMIO := s3_in.mmio 1501 s3_out.bits.debug.isNC := s3_in.nc 1502 s3_out.bits.debug.isPerfCnt := false.B 1503 s3_out.bits.debug.paddr := s3_in.paddr 1504 s3_out.bits.debug.vaddr := s3_in.vaddr 1505 1506 // Vector load, writeback to merge buffer 1507 // TODO: Add assertion in merge buffer, merge buffer must accept vec load writeback 1508 s3_vecout.isvec := s3_isvec 1509 s3_vecout.vecdata := 0.U // Data will be assigned later 1510 s3_vecout.mask := s3_in.mask 1511 // s3_vecout.rob_idx_valid := s3_in.rob_idx_valid 1512 // s3_vecout.inner_idx := s3_in.inner_idx 1513 // s3_vecout.rob_idx := s3_in.rob_idx 1514 // s3_vecout.offset := s3_in.offset 1515 s3_vecout.reg_offset := s3_in.reg_offset 1516 s3_vecout.vecActive := s3_vecActive 1517 s3_vecout.is_first_ele := s3_in.is_first_ele 1518 // s3_vecout.uopQueuePtr := DontCare // uopQueuePtr is already saved in flow queue 1519 // s3_vecout.flowPtr := s3_in.flowPtr 1520 s3_vecout.elemIdx := s3_in.elemIdx // elemIdx is already saved in flow queue // TODO: 1521 s3_vecout.elemIdxInsideVd := s3_in.elemIdxInsideVd 1522 s3_vecout.trigger := s3_in.uop.trigger 1523 s3_vecout.vstart := s3_in.uop.vpu.vstart 1524 s3_vecout.vecTriggerMask := s3_in.vecTriggerMask 1525 val s3_usSecondInv = s3_in.usSecondInv 1526 1527 io.rollback.valid := s3_valid && (s3_rep_frm_fetch || s3_flushPipe) && !s3_exception 1528 io.rollback.bits := DontCare 1529 io.rollback.bits.isRVC := s3_out.bits.uop.preDecodeInfo.isRVC 1530 io.rollback.bits.robIdx := s3_out.bits.uop.robIdx 1531 io.rollback.bits.ftqIdx := s3_out.bits.uop.ftqPtr 1532 io.rollback.bits.ftqOffset := s3_out.bits.uop.ftqOffset 1533 io.rollback.bits.level := Mux(s3_rep_frm_fetch, RedirectLevel.flush, RedirectLevel.flushAfter) 1534 io.rollback.bits.cfiUpdate.target := s3_out.bits.uop.pc 1535 io.rollback.bits.debug_runahead_checkpoint_id := s3_out.bits.uop.debugInfo.runahead_checkpoint_id 1536 /* <------- DANGEROUS: Don't change sequence here ! -------> */ 1537 1538 io.lsq.ldin.bits.uop := s3_out.bits.uop 1539 1540 val s3_revoke = s3_exception || io.lsq.ldin.bits.rep_info.need_rep 1541 io.lsq.ldld_nuke_query.revoke := s3_revoke 1542 io.lsq.stld_nuke_query.revoke := s3_revoke 1543 1544 // feedback slow 1545 s3_fast_rep := RegNext(s2_fast_rep) 1546 1547 val s3_fb_no_waiting = !s3_in.isLoadReplay && 1548 (!(s3_fast_rep && !s3_fast_rep_canceled)) && 1549 !s3_in.feedbacked 1550 1551 // feedback: scalar load will send feedback to RS 1552 // vector load will send signal to VL Merge Buffer, then send feedback at granularity of uops 1553 io.feedback_slow.valid := s3_valid && s3_fb_no_waiting && !s3_isvec && !s3_frm_mabuf 1554 io.feedback_slow.bits.hit := !s3_rep_info.need_rep || io.lsq.ldin.ready 1555 io.feedback_slow.bits.flushState := s3_in.ptwBack 1556 io.feedback_slow.bits.robIdx := s3_in.uop.robIdx 1557 io.feedback_slow.bits.sqIdx := s3_in.uop.sqIdx 1558 io.feedback_slow.bits.lqIdx := s3_in.uop.lqIdx 1559 io.feedback_slow.bits.sourceType := RSFeedbackType.lrqFull 1560 io.feedback_slow.bits.dataInvalidSqIdx := DontCare 1561 1562 // TODO: vector wakeup? 1563 io.ldCancel.ld2Cancel := s3_valid && !s3_safe_wakeup && !s3_isvec && !s3_frm_mabuf 1564 1565 val s3_ld_wb_meta = Mux(s3_valid, s3_out.bits, s3_mmio.bits) 1566 1567 // data from load queue refill 1568 val s3_ld_raw_data_frm_mmio = RegNextN(io.lsq.ld_raw_data, 3) 1569 val s3_merged_data_frm_mmio = s3_ld_raw_data_frm_mmio.mergedData() 1570 val s3_picked_data_frm_mmio = LookupTree(s3_ld_raw_data_frm_mmio.addrOffset, List( 1571 "b000".U -> s3_merged_data_frm_mmio(63, 0), 1572 "b001".U -> s3_merged_data_frm_mmio(63, 8), 1573 "b010".U -> s3_merged_data_frm_mmio(63, 16), 1574 "b011".U -> s3_merged_data_frm_mmio(63, 24), 1575 "b100".U -> s3_merged_data_frm_mmio(63, 32), 1576 "b101".U -> s3_merged_data_frm_mmio(63, 40), 1577 "b110".U -> s3_merged_data_frm_mmio(63, 48), 1578 "b111".U -> s3_merged_data_frm_mmio(63, 56) 1579 )) 1580 val s3_ld_data_frm_mmio = rdataHelper(s3_ld_raw_data_frm_mmio.uop, s3_picked_data_frm_mmio) 1581 1582 /* data from pipe, which forward from respectively 1583 * dcache hit: [D channel, mshr, sbuffer, sq] 1584 * nc_with_data: [sq] 1585 */ 1586 // bug lyq: why not s3_fwd_frm_d_chan? 1587 1588 // it's ugly, but useful 1589 val s2_ld_data_frm_nc = Mux(s2_out.paddr(3), s2_out.data << 64, s2_out.data) 1590 1591 val s3_ld_raw_data_frm_pipe = Wire(new LoadDataFromDcacheBundle) 1592 s3_ld_raw_data_frm_pipe.respDcacheData := Mux(s2_nc_with_data, s2_ld_data_frm_nc, io.dcache.resp.bits.data) 1593 s3_ld_raw_data_frm_pipe.forward_D := s2_fwd_frm_d_chan && !s2_nc_with_data 1594 s3_ld_raw_data_frm_pipe.forwardData_D := s2_fwd_data_frm_d_chan 1595 s3_ld_raw_data_frm_pipe.forward_mshr := s2_fwd_frm_mshr && !s2_nc_with_data 1596 s3_ld_raw_data_frm_pipe.forwardData_mshr := s2_fwd_data_frm_mshr 1597 s3_ld_raw_data_frm_pipe.forward_result_valid := s2_fwd_data_valid 1598 1599 s3_ld_raw_data_frm_pipe.forwardMask := RegEnable(s2_fwd_mask, s2_valid) 1600 s3_ld_raw_data_frm_pipe.forwardData := RegEnable(s2_fwd_data, s2_valid) 1601 s3_ld_raw_data_frm_pipe.uop := RegEnable(s2_out.uop, s2_valid) 1602 s3_ld_raw_data_frm_pipe.addrOffset := RegEnable(s2_out.paddr(3, 0), s2_valid) 1603 1604 val s3_merged_data_frm_tlD = RegEnable(s3_ld_raw_data_frm_pipe.mergeTLData(), s2_valid) 1605 val s3_merged_data_frm_pipe = s3_ld_raw_data_frm_pipe.mergeLsqFwdData(s3_merged_data_frm_tlD) 1606 1607 // duplicate reg for ldout and vecldout 1608 private val LdDataDup = 3 1609 require(LdDataDup >= 2) 1610 // truncate forward data and cache data to XLEN width to writeback 1611 val s3_fwd_mask_clip = VecInit(List.fill(LdDataDup)( 1612 RegEnable(Mux( 1613 s2_out.paddr(3), 1614 (s2_fwd_mask.asUInt)(VLEN / 8 - 1, 8), 1615 (s2_fwd_mask.asUInt)(7, 0) 1616 ).asTypeOf(Vec(XLEN / 8, Bool())), s2_valid) 1617 )) 1618 val s3_fwd_data_clip = VecInit(List.fill(LdDataDup)( 1619 RegEnable(Mux( 1620 s2_out.paddr(3), 1621 (s2_fwd_data.asUInt)(VLEN - 1, 64), 1622 (s2_fwd_data.asUInt)(63, 0) 1623 ).asTypeOf(Vec(XLEN / 8, UInt(8.W))), s2_valid) 1624 )) 1625 val s3_merged_data_frm_tld_clip = VecInit(List.fill(LdDataDup)( 1626 RegEnable(Mux( 1627 s2_out.paddr(3), 1628 s3_ld_raw_data_frm_pipe.mergeTLData()(VLEN - 1, 64), 1629 s3_ld_raw_data_frm_pipe.mergeTLData()(63, 0) 1630 ).asTypeOf(Vec(XLEN / 8, UInt(8.W))), s2_valid) 1631 )) 1632 val s3_merged_data_frm_pipe_clip = VecInit((0 until LdDataDup).map(i => { 1633 VecInit((0 until XLEN / 8).map(j => 1634 Mux(s3_fwd_mask_clip(i)(j), s3_fwd_data_clip(i)(j), s3_merged_data_frm_tld_clip(i)(j)) 1635 )).asUInt 1636 })) 1637 1638 val s3_data_frm_pipe = VecInit((0 until LdDataDup).map(i => { 1639 VecInit(Seq( 1640 s3_merged_data_frm_pipe_clip(i)(63, 0), 1641 s3_merged_data_frm_pipe_clip(i)(63, 8), 1642 s3_merged_data_frm_pipe_clip(i)(63, 16), 1643 s3_merged_data_frm_pipe_clip(i)(63, 24), 1644 s3_merged_data_frm_pipe_clip(i)(63, 32), 1645 s3_merged_data_frm_pipe_clip(i)(63, 40), 1646 s3_merged_data_frm_pipe_clip(i)(63, 48), 1647 s3_merged_data_frm_pipe_clip(i)(63, 56), 1648 )) 1649 })) 1650 val s3_picked_data_frm_pipe = VecInit((0 until LdDataDup).map(i => { 1651 Mux1H(s3_data_select_by_offset, s3_data_frm_pipe(i)) 1652 })) 1653 val s3_ld_data_frm_pipe = newRdataHelper(s3_data_select, s3_picked_data_frm_pipe(0)) 1654 1655 // FIXME: add 1 cycle delay ? 1656 // io.lsq.uncache.ready := !s3_valid 1657 val s3_outexception = ExceptionNO.selectByFu(s3_out.bits.uop.exceptionVec, LduCfg).asUInt.orR && s3_vecActive 1658 io.ldout.bits := s3_ld_wb_meta 1659 io.ldout.bits.data := Mux(s3_valid, s3_ld_data_frm_pipe, s3_ld_data_frm_mmio) 1660 1661 io.ldout.valid := (s3_mmio.valid || 1662 (s3_out.valid && !s3_vecout.isvec && !s3_mis_align && !s3_frm_mabuf)) 1663 io.ldout.bits.uop.exceptionVec := ExceptionNO.selectByFu(s3_ld_wb_meta.uop.exceptionVec, LduCfg) 1664 io.ldout.bits.isFromLoadUnit := true.B 1665 io.ldout.bits.uop.fuType := Mux( 1666 s3_valid && s3_isvec, 1667 FuType.vldu.U, 1668 FuType.ldu.U 1669 ) 1670 1671 // TODO: check this --hx 1672 // io.ldout.valid := s3_out.valid && !s3_out.bits.uop.robIdx.needFlush(io.redirect) && !s3_vecout.isvec || 1673 // io.lsq.uncache.valid && !io.lsq.uncache.bits.uop.robIdx.needFlush(io.redirect) && !s3_out.valid && !io.lsq.uncache.bits.isVls 1674 // io.ldout.bits.data := Mux(s3_out.valid, s3_ld_data_frm_pipe, s3_ld_data_frm_mmio) 1675 // io.ldout.valid := s3_out.valid && !s3_out.bits.uop.robIdx.needFlush(io.redirect) || 1676 // s3_mmio.valid && !s3_mmio.bits.uop.robIdx.needFlush(io.redirect) && !s3_out.valid 1677 1678 // s3 load fast replay 1679 io.fast_rep_out.valid := s3_valid && s3_fast_rep 1680 io.fast_rep_out.bits := s3_in 1681 io.fast_rep_out.bits.lateKill := s3_rep_frm_fetch 1682 1683 val vecFeedback = s3_valid && s3_fb_no_waiting && s3_rep_info.need_rep && !io.lsq.ldin.ready && s3_isvec 1684 1685 // vector output 1686 io.vecldout.bits.alignedType := s3_vec_alignedType 1687 // vec feedback 1688 io.vecldout.bits.vecFeedback := vecFeedback 1689 // TODO: VLSU, uncache data logic 1690 val vecdata = rdataVecHelper(s3_vec_alignedType(1,0), s3_picked_data_frm_pipe(1)) 1691 io.vecldout.bits.vecdata.get := Mux(s3_in.is128bit, s3_merged_data_frm_pipe, vecdata) 1692 io.vecldout.bits.isvec := s3_vecout.isvec 1693 io.vecldout.bits.elemIdx := s3_vecout.elemIdx 1694 io.vecldout.bits.elemIdxInsideVd.get := s3_vecout.elemIdxInsideVd 1695 io.vecldout.bits.mask := s3_vecout.mask 1696 io.vecldout.bits.reg_offset.get := s3_vecout.reg_offset 1697 io.vecldout.bits.usSecondInv := s3_usSecondInv 1698 io.vecldout.bits.mBIndex := s3_vec_mBIndex 1699 io.vecldout.bits.hit := !s3_rep_info.need_rep || io.lsq.ldin.ready 1700 io.vecldout.bits.sourceType := RSFeedbackType.lrqFull 1701 io.vecldout.bits.trigger := s3_vecout.trigger 1702 io.vecldout.bits.flushState := DontCare 1703 io.vecldout.bits.exceptionVec := ExceptionNO.selectByFu(s3_out.bits.uop.exceptionVec, VlduCfg) 1704 io.vecldout.bits.vaddr := s3_in.fullva 1705 io.vecldout.bits.vaNeedExt := s3_in.vaNeedExt 1706 io.vecldout.bits.gpaddr := s3_in.gpaddr 1707 io.vecldout.bits.isForVSnonLeafPTE := s3_in.isForVSnonLeafPTE 1708 io.vecldout.bits.mmio := DontCare 1709 io.vecldout.bits.vstart := s3_vecout.vstart 1710 io.vecldout.bits.vecTriggerMask := s3_vecout.vecTriggerMask 1711 io.vecldout.bits.nc := DontCare 1712 1713 io.vecldout.valid := s3_out.valid && !s3_out.bits.uop.robIdx.needFlush(io.redirect) && s3_vecout.isvec //|| 1714 // TODO: check this, why !io.lsq.uncache.bits.isVls before? 1715 // Now vector instruction don't support mmio. 1716 // io.lsq.uncache.valid && !io.lsq.uncache.bits.uop.robIdx.needFlush(io.redirect) && !s3_out.valid && io.lsq.uncache.bits.isVls 1717 //io.lsq.uncache.valid && !io.lsq.uncache.bits.uop.robIdx.needFlush(io.redirect) && !s3_out.valid && !io.lsq.uncache.bits.isVls 1718 1719 io.misalign_ldout.valid := s3_valid && (!s3_fast_rep || s3_fast_rep_canceled) && s3_frm_mabuf 1720 io.misalign_ldout.bits := io.lsq.ldin.bits 1721 io.misalign_ldout.bits.data := Mux(s3_in.is128bit, s3_merged_data_frm_pipe, s3_picked_data_frm_pipe(2)) 1722 1723 // fast load to load forward 1724 if (EnableLoadToLoadForward) { 1725 io.l2l_fwd_out.valid := s3_valid && !s3_in.mmio && !s3_in.nc && !s3_rep_info.need_rep 1726 io.l2l_fwd_out.data := Mux(s3_in.vaddr(3), s3_merged_data_frm_pipe(127, 64), s3_merged_data_frm_pipe(63, 0)) 1727 io.l2l_fwd_out.dly_ld_err := s3_dly_ld_err || // ecc delayed error 1728 s3_ldld_rep_inst || 1729 s3_rep_frm_fetch 1730 } else { 1731 io.l2l_fwd_out.valid := false.B 1732 io.l2l_fwd_out.data := DontCare 1733 io.l2l_fwd_out.dly_ld_err := DontCare 1734 } 1735 1736 // s1 1737 io.debug_ls.s1_robIdx := s1_in.uop.robIdx.value 1738 io.debug_ls.s1_isLoadToLoadForward := s1_fire && s1_try_ptr_chasing && !s1_ptr_chasing_canceled 1739 io.debug_ls.s1_isTlbFirstMiss := s1_fire && s1_tlb_miss && s1_in.isFirstIssue 1740 // s2 1741 io.debug_ls.s2_robIdx := s2_in.uop.robIdx.value 1742 io.debug_ls.s2_isBankConflict := s2_fire && (!s2_kill && s2_bank_conflict) 1743 io.debug_ls.s2_isDcacheFirstMiss := s2_fire && io.dcache.resp.bits.miss && s2_in.isFirstIssue 1744 io.debug_ls.s2_isForwardFail := s2_fire && s2_fwd_fail 1745 // s3 1746 io.debug_ls.s3_robIdx := s3_in.uop.robIdx.value 1747 io.debug_ls.s3_isReplayFast := s3_valid && s3_fast_rep && !s3_fast_rep_canceled 1748 io.debug_ls.s3_isReplayRS := RegNext(io.feedback_fast.valid && !io.feedback_fast.bits.hit) || (io.feedback_slow.valid && !io.feedback_slow.bits.hit) 1749 io.debug_ls.s3_isReplaySlow := io.lsq.ldin.valid && io.lsq.ldin.bits.rep_info.need_rep 1750 io.debug_ls.s3_isReplay := s3_valid && s3_rep_info.need_rep // include fast+slow+rs replay 1751 io.debug_ls.replayCause := s3_rep_info.cause 1752 io.debug_ls.replayCnt := 1.U 1753 1754 // Topdown 1755 io.lsTopdownInfo.s1.robIdx := s1_in.uop.robIdx.value 1756 io.lsTopdownInfo.s1.vaddr_valid := s1_valid && s1_in.hasROBEntry 1757 io.lsTopdownInfo.s1.vaddr_bits := s1_vaddr 1758 io.lsTopdownInfo.s2.robIdx := s2_in.uop.robIdx.value 1759 io.lsTopdownInfo.s2.paddr_valid := s2_fire && s2_in.hasROBEntry && !s2_in.tlbMiss 1760 io.lsTopdownInfo.s2.paddr_bits := s2_in.paddr 1761 io.lsTopdownInfo.s2.first_real_miss := io.dcache.resp.bits.real_miss 1762 io.lsTopdownInfo.s2.cache_miss_en := s2_fire && s2_in.hasROBEntry && !s2_in.tlbMiss && !s2_in.missDbUpdated 1763 1764 // perf cnt 1765 XSPerfAccumulate("s0_in_valid", io.ldin.valid) 1766 XSPerfAccumulate("s0_in_block", io.ldin.valid && !io.ldin.fire) 1767 XSPerfAccumulate("s0_vecin_valid", io.vecldin.valid) 1768 XSPerfAccumulate("s0_vecin_block", io.vecldin.valid && !io.vecldin.fire) 1769 XSPerfAccumulate("s0_in_fire_first_issue", s0_valid && s0_sel_src.isFirstIssue) 1770 XSPerfAccumulate("s0_lsq_replay_issue", io.replay.fire) 1771 XSPerfAccumulate("s0_lsq_replay_vecissue", io.replay.fire && io.replay.bits.isvec) 1772 XSPerfAccumulate("s0_ldu_fire_first_issue", io.ldin.fire && s0_sel_src.isFirstIssue) 1773 XSPerfAccumulate("s0_fast_replay_issue", io.fast_rep_in.fire) 1774 XSPerfAccumulate("s0_fast_replay_vecissue", io.fast_rep_in.fire && io.fast_rep_in.bits.isvec) 1775 XSPerfAccumulate("s0_stall_out", s0_valid && !s0_can_go) 1776 XSPerfAccumulate("s0_stall_dcache", s0_valid && !io.dcache.req.ready) 1777 XSPerfAccumulate("s0_addr_spec_success", s0_fire && s0_dcache_vaddr(VAddrBits-1, 12) === io.ldin.bits.src(0)(VAddrBits-1, 12)) 1778 XSPerfAccumulate("s0_addr_spec_failed", s0_fire && s0_dcache_vaddr(VAddrBits-1, 12) =/= io.ldin.bits.src(0)(VAddrBits-1, 12)) 1779 XSPerfAccumulate("s0_addr_spec_success_once", s0_fire && s0_dcache_vaddr(VAddrBits-1, 12) === io.ldin.bits.src(0)(VAddrBits-1, 12) && s0_sel_src.isFirstIssue) 1780 XSPerfAccumulate("s0_addr_spec_failed_once", s0_fire && s0_dcache_vaddr(VAddrBits-1, 12) =/= io.ldin.bits.src(0)(VAddrBits-1, 12) && s0_sel_src.isFirstIssue) 1781 XSPerfAccumulate("s0_vec_addr_vlen_aligned", s0_fire && s0_sel_src.isvec && s0_dcache_vaddr(3, 0) === 0.U) 1782 XSPerfAccumulate("s0_vec_addr_vlen_unaligned", s0_fire && s0_sel_src.isvec && s0_dcache_vaddr(3, 0) =/= 0.U) 1783 XSPerfAccumulate("s0_forward_tl_d_channel", s0_out.forward_tlDchannel) 1784 XSPerfAccumulate("s0_hardware_prefetch_fire", s0_fire && s0_hw_prf_select) 1785 XSPerfAccumulate("s0_software_prefetch_fire", s0_fire && s0_sel_src.prf && s0_src_select_vec(int_iss_idx)) 1786 XSPerfAccumulate("s0_hardware_prefetch_blocked", io.prefetch_req.valid && !s0_hw_prf_select) 1787 XSPerfAccumulate("s0_hardware_prefetch_total", io.prefetch_req.valid) 1788 1789 XSPerfAccumulate("s1_in_valid", s1_valid) 1790 XSPerfAccumulate("s1_in_fire", s1_fire) 1791 XSPerfAccumulate("s1_in_fire_first_issue", s1_fire && s1_in.isFirstIssue) 1792 XSPerfAccumulate("s1_tlb_miss", s1_fire && s1_tlb_miss) 1793 XSPerfAccumulate("s1_tlb_miss_first_issue", s1_fire && s1_tlb_miss && s1_in.isFirstIssue) 1794 XSPerfAccumulate("s1_stall_out", s1_valid && !s1_can_go) 1795 XSPerfAccumulate("s1_dly_err", s1_valid && s1_fast_rep_dly_err) 1796 1797 XSPerfAccumulate("s2_in_valid", s2_valid) 1798 XSPerfAccumulate("s2_in_fire", s2_fire) 1799 XSPerfAccumulate("s2_in_fire_first_issue", s2_fire && s2_in.isFirstIssue) 1800 XSPerfAccumulate("s2_dcache_miss", s2_fire && io.dcache.resp.bits.miss) 1801 XSPerfAccumulate("s2_dcache_miss_first_issue", s2_fire && io.dcache.resp.bits.miss && s2_in.isFirstIssue) 1802 XSPerfAccumulate("s2_dcache_real_miss_first_issue", s2_fire && io.dcache.resp.bits.miss && s2_in.isFirstIssue) 1803 XSPerfAccumulate("s2_full_forward", s2_fire && s2_full_fwd) 1804 XSPerfAccumulate("s2_dcache_miss_full_forward", s2_fire && s2_dcache_miss) 1805 XSPerfAccumulate("s2_fwd_frm_d_can", s2_valid && s2_fwd_frm_d_chan) 1806 XSPerfAccumulate("s2_fwd_frm_d_chan_or_mshr", s2_valid && s2_fwd_frm_d_chan_or_mshr) 1807 XSPerfAccumulate("s2_stall_out", s2_fire && !s2_can_go) 1808 XSPerfAccumulate("s2_prefetch", s2_fire && s2_prf) 1809 XSPerfAccumulate("s2_prefetch_ignored", s2_fire && s2_prf && io.dcache.s2_mq_nack) // ignore prefetch for mshr full / miss req port conflict 1810 XSPerfAccumulate("s2_prefetch_miss", s2_fire && s2_prf && io.dcache.resp.bits.miss) // prefetch req miss in l1 1811 XSPerfAccumulate("s2_prefetch_hit", s2_fire && s2_prf && !io.dcache.resp.bits.miss) // prefetch req hit in l1 1812 XSPerfAccumulate("s2_prefetch_accept", s2_fire && s2_prf && io.dcache.resp.bits.miss && !io.dcache.s2_mq_nack) // prefetch a missed line in l1, and l1 accepted it 1813 XSPerfAccumulate("s2_forward_req", s2_fire && s2_in.forward_tlDchannel) 1814 XSPerfAccumulate("s2_successfully_forward_channel_D", s2_fire && s2_fwd_frm_d_chan && s2_fwd_data_valid) 1815 XSPerfAccumulate("s2_successfully_forward_mshr", s2_fire && s2_fwd_frm_mshr && s2_fwd_data_valid) 1816 1817 XSPerfAccumulate("load_to_load_forward", s1_try_ptr_chasing && !s1_ptr_chasing_canceled) 1818 XSPerfAccumulate("load_to_load_forward_try", s1_try_ptr_chasing) 1819 XSPerfAccumulate("load_to_load_forward_fail", s1_cancel_ptr_chasing) 1820 XSPerfAccumulate("load_to_load_forward_fail_cancelled", s1_cancel_ptr_chasing && s1_ptr_chasing_canceled) 1821 XSPerfAccumulate("load_to_load_forward_fail_wakeup_mismatch", s1_cancel_ptr_chasing && !s1_ptr_chasing_canceled && s1_not_fast_match) 1822 XSPerfAccumulate("load_to_load_forward_fail_op_not_ld", s1_cancel_ptr_chasing && !s1_ptr_chasing_canceled && !s1_not_fast_match && s1_fu_op_type_not_ld) 1823 XSPerfAccumulate("load_to_load_forward_fail_addr_align", s1_cancel_ptr_chasing && !s1_ptr_chasing_canceled && !s1_not_fast_match && !s1_fu_op_type_not_ld && s1_addr_misaligned) 1824 XSPerfAccumulate("load_to_load_forward_fail_set_mismatch", s1_cancel_ptr_chasing && !s1_ptr_chasing_canceled && !s1_not_fast_match && !s1_fu_op_type_not_ld && !s1_addr_misaligned && s1_addr_mismatch) 1825 1826 XSPerfAccumulate("nc_ld_writeback", io.ldout.valid && s3_nc_with_data) 1827 XSPerfAccumulate("nc_ld_exception", s3_valid && s3_nc_with_data && s3_in.uop.exceptionVec.reduce(_ || _)) 1828 XSPerfAccumulate("nc_ldld_vio", s3_valid && s3_nc_with_data && s3_ldld_rep_inst) 1829 XSPerfAccumulate("nc_stld_vio", s3_valid && s3_nc_with_data && s3_in.rep_info.nuke) 1830 XSPerfAccumulate("nc_ldld_vioNack", s3_valid && s3_nc_with_data && s3_in.rep_info.rar_nack) 1831 XSPerfAccumulate("nc_stld_vioNack", s3_valid && s3_nc_with_data && s3_in.rep_info.raw_nack) 1832 XSPerfAccumulate("nc_stld_fwd", s3_valid && s3_nc_with_data && RegNext(s2_full_fwd)) 1833 XSPerfAccumulate("nc_stld_fwdNotReady", s3_valid && s3_nc_with_data && RegNext(s2_mem_amb || s2_fwd_fail)) 1834 XSPerfAccumulate("nc_stld_fwdAddrMismatch", s3_valid && s3_nc_with_data && s3_vp_match_fail) 1835 1836 // bug lyq: some signals in perfEvents are no longer suitable for the current MemBlock design 1837 // hardware performance counter 1838 val perfEvents = Seq( 1839 ("load_s0_in_fire ", s0_fire ), 1840 ("load_to_load_forward ", s1_fire && s1_try_ptr_chasing && !s1_ptr_chasing_canceled ), 1841 ("stall_dcache ", s0_valid && s0_can_go && !io.dcache.req.ready ), 1842 ("load_s1_in_fire ", s0_fire ), 1843 ("load_s1_tlb_miss ", s1_fire && io.tlb.resp.bits.miss ), 1844 ("load_s2_in_fire ", s1_fire ), 1845 ("load_s2_dcache_miss ", s2_fire && io.dcache.resp.bits.miss ), 1846 ) 1847 generatePerfEvent() 1848 1849 when(io.ldout.fire){ 1850 XSDebug("ldout %x\n", io.ldout.bits.uop.pc) 1851 } 1852 // end 1853} 1854