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.backend.rename 18 19import chipsalliance.rocketchip.config.Parameters 20import chisel3._ 21import chisel3.util._ 22import utility.ParallelPriorityMux 23import utils.XSError 24import xiangshan._ 25 26class RatReadPort(implicit p: Parameters) extends XSBundle { 27 val hold = Input(Bool()) 28 val addr = Input(UInt(5.W)) 29 val data = Output(UInt(PhyRegIdxWidth.W)) 30} 31 32class RatWritePort(implicit p: Parameters) extends XSBundle { 33 val wen = Bool() 34 val addr = UInt(5.W) 35 val data = UInt(PhyRegIdxWidth.W) 36} 37 38class RenameTable(float: Boolean)(implicit p: Parameters) extends XSModule { 39 val io = IO(new Bundle { 40 val redirect = Input(Bool()) 41 val readPorts = Vec({if(float) 4 else 3} * RenameWidth, new RatReadPort) 42 val specWritePorts = Vec(CommitWidth, Input(new RatWritePort)) 43 val archWritePorts = Vec(CommitWidth, Input(new RatWritePort)) 44 val debug_rdata = Vec(32, Output(UInt(PhyRegIdxWidth.W))) 45 }) 46 47 // speculative rename table 48 val rename_table_init = VecInit.tabulate(32)(i => (if (float) i else 0).U(PhyRegIdxWidth.W)) 49 val spec_table = RegInit(rename_table_init) 50 val spec_table_next = WireInit(spec_table) 51 // arch state rename table 52 val arch_table = RegInit(rename_table_init) 53 val arch_table_next = WireDefault(arch_table) 54 55 // For better timing, we optimize reading and writing to RenameTable as follows: 56 // (1) Writing at T0 will be actually processed at T1. 57 // (2) Reading is synchronous now. 58 // (3) RAddr at T0 will be used to access the table and get data at T0. 59 // (4) WData at T0 is bypassed to RData at T1. 60 val t1_redirect = RegNext(io.redirect, false.B) 61 val t1_rdata = io.readPorts.map(p => RegNext(Mux(p.hold, p.data, spec_table_next(p.addr)))) 62 val t1_raddr = io.readPorts.map(p => RegEnable(p.addr, !p.hold)) 63 val t1_wSpec = RegNext(Mux(io.redirect, 0.U.asTypeOf(io.specWritePorts), io.specWritePorts)) 64 65 // WRITE: when instruction commits or walking 66 val t1_wSpec_addr = t1_wSpec.map(w => Mux(w.wen, UIntToOH(w.addr), 0.U)) 67 for ((next, i) <- spec_table_next.zipWithIndex) { 68 val matchVec = t1_wSpec_addr.map(w => w(i)) 69 val wMatch = ParallelPriorityMux(matchVec.reverse, t1_wSpec.map(_.data).reverse) 70 // When there's a flush, we use arch_table to update spec_table. 71 next := Mux(t1_redirect, arch_table(i), Mux(VecInit(matchVec).asUInt.orR, wMatch, spec_table(i))) 72 } 73 spec_table := spec_table_next 74 75 // READ: decode-rename stage 76 for ((r, i) <- io.readPorts.zipWithIndex) { 77 // We use two comparisons here because r.hold has bad timing but addrs have better timing. 78 val t0_bypass = io.specWritePorts.map(w => w.wen && Mux(r.hold, w.addr === t1_raddr(i), w.addr === r.addr)) 79 val t1_bypass = RegNext(Mux(io.redirect, 0.U.asTypeOf(VecInit(t0_bypass)), VecInit(t0_bypass))) 80 val bypass_data = ParallelPriorityMux(t1_bypass.reverse, t1_wSpec.map(_.data).reverse) 81 r.data := Mux(t1_bypass.asUInt.orR, bypass_data, t1_rdata(i)) 82 } 83 84 for (w <- io.archWritePorts) { 85 when (w.wen) { 86 arch_table_next(w.addr) := w.data 87 } 88 } 89 arch_table := arch_table_next 90 91 io.debug_rdata := arch_table 92} 93 94class RenameTableWrapper(implicit p: Parameters) extends XSModule { 95 val io = IO(new Bundle() { 96 val redirect = Input(Bool()) 97 val robCommits = Input(new RobCommitIO) 98 val intReadPorts = Vec(RenameWidth, Vec(3, new RatReadPort)) 99 val intRenamePorts = Vec(RenameWidth, Input(new RatWritePort)) 100 val fpReadPorts = Vec(RenameWidth, Vec(4, new RatReadPort)) 101 val fpRenamePorts = Vec(RenameWidth, Input(new RatWritePort)) 102 // for debug printing 103 val debug_int_rat = Vec(32, Output(UInt(PhyRegIdxWidth.W))) 104 val debug_fp_rat = Vec(32, Output(UInt(PhyRegIdxWidth.W))) 105 }) 106 107 val intRat = Module(new RenameTable(float = false)) 108 val fpRat = Module(new RenameTable(float = true)) 109 110 intRat.io.debug_rdata <> io.debug_int_rat 111 intRat.io.readPorts <> io.intReadPorts.flatten 112 intRat.io.redirect := io.redirect 113 fpRat.io.redirect := io.redirect 114 val intDestValid = io.robCommits.info.map(_.rfWen) 115 for ((arch, i) <- intRat.io.archWritePorts.zipWithIndex) { 116 arch.wen := io.robCommits.isCommit && io.robCommits.commitValid(i) && intDestValid(i) 117 arch.addr := io.robCommits.info(i).ldest 118 arch.data := io.robCommits.info(i).pdest 119 XSError(arch.wen && arch.addr === 0.U && arch.data =/= 0.U, "pdest for $0 should be 0\n") 120 } 121 for ((spec, i) <- intRat.io.specWritePorts.zipWithIndex) { 122 spec.wen := io.robCommits.isWalk && io.robCommits.walkValid(i) && intDestValid(i) 123 spec.addr := io.robCommits.info(i).ldest 124 spec.data := io.robCommits.info(i).pdest 125 XSError(spec.wen && spec.addr === 0.U && spec.data =/= 0.U, "pdest for $0 should be 0\n") 126 } 127 for ((spec, rename) <- intRat.io.specWritePorts.zip(io.intRenamePorts)) { 128 when (rename.wen) { 129 spec.wen := true.B 130 spec.addr := rename.addr 131 spec.data := rename.data 132 } 133 } 134 135 // debug read ports for difftest 136 fpRat.io.debug_rdata <> io.debug_fp_rat 137 fpRat.io.readPorts <> io.fpReadPorts.flatten 138 for ((arch, i) <- fpRat.io.archWritePorts.zipWithIndex) { 139 arch.wen := io.robCommits.isCommit && io.robCommits.commitValid(i) && io.robCommits.info(i).fpWen 140 arch.addr := io.robCommits.info(i).ldest 141 arch.data := io.robCommits.info(i).pdest 142 } 143 for ((spec, i) <- fpRat.io.specWritePorts.zipWithIndex) { 144 spec.wen := io.robCommits.isWalk && io.robCommits.walkValid(i) && io.robCommits.info(i).fpWen 145 spec.addr := io.robCommits.info(i).ldest 146 spec.data := io.robCommits.info(i).pdest 147 } 148 for ((spec, rename) <- fpRat.io.specWritePorts.zip(io.fpRenamePorts)) { 149 when (rename.wen) { 150 spec.wen := true.B 151 spec.addr := rename.addr 152 spec.data := rename.data 153 } 154 } 155 156} 157