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Rename some params, use refactored TileLink

This commit is contained in:
Henry Cook 2015-02-01 20:04:13 -08:00
parent 00e074cdd9
commit 741e6b77ad
12 changed files with 248 additions and 300 deletions

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@ -10,8 +10,7 @@ import uncore._
case object NBTBEntries extends Field[Int] case object NBTBEntries extends Field[Int]
case object NRAS extends Field[Int] case object NRAS extends Field[Int]
abstract trait BTBParameters extends UsesParameters { abstract trait BTBParameters extends CoreParameters {
val vaddrBits = params(VAddrBits)
val matchBits = params(PgIdxBits) val matchBits = params(PgIdxBits)
val entries = params(NBTBEntries) val entries = params(NBTBEntries)
val nRAS = params(NRAS) val nRAS = params(NRAS)

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@ -7,7 +7,7 @@ import Util._
import uncore._ import uncore._
case object BuildFPU extends Field[Option[() => FPU]] case object BuildFPU extends Field[Option[() => FPU]]
case object XprLen extends Field[Int] case object XLen extends Field[Int]
case object NMultXpr extends Field[Int] case object NMultXpr extends Field[Int]
case object FetchWidth extends Field[Int] case object FetchWidth extends Field[Int]
case object RetireWidth extends Field[Int] case object RetireWidth extends Field[Int]
@ -20,14 +20,23 @@ case object CoreDataBits extends Field[Int]
case object CoreDCacheReqTagBits extends Field[Int] case object CoreDCacheReqTagBits extends Field[Int]
abstract trait CoreParameters extends UsesParameters { abstract trait CoreParameters extends UsesParameters {
val xprLen = params(XprLen) val xLen = params(XLen)
val paddrBits = params(PAddrBits)
val vaddrBits = params(VAddrBits)
val pgIdxBits = params(PgIdxBits)
val ppnBits = params(PPNBits)
val vpnBits = params(VPNBits)
val permBits = params(PermBits)
val asIdBits = params(ASIdBits)
val retireWidth = params(RetireWidth)
val coreFetchWidth = params(FetchWidth) val coreFetchWidth = params(FetchWidth)
val coreInstBits = params(CoreInstBits) val coreInstBits = params(CoreInstBits)
val coreInstBytes = coreInstBits/8 val coreInstBytes = coreInstBits/8
val coreDataBits = xprLen val coreDataBits = xLen
val coreDataBytes = coreDataBits/8 val coreDataBytes = coreDataBits/8
val coreDCacheReqTagBits = params(CoreDCacheReqTagBits) val coreDCacheReqTagBits = params(CoreDCacheReqTagBits)
val coreMaxAddrBits = math.max(params(PPNBits),params(VPNBits)+1) + params(PgIdxBits) val coreMaxAddrBits = math.max(ppnBits,vpnBits+1) + pgIdxBits
if(params(FastLoadByte)) require(params(FastLoadWord)) if(params(FastLoadByte)) require(params(FastLoadWord))
} }

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@ -34,52 +34,52 @@ object CSR
val C = Bits(3,2) val C = Bits(3,2)
} }
class CSRFileIO extends Bundle { class CSRFileIO extends CoreBundle {
val host = new HTIFIO val host = new HTIFIO
val rw = new Bundle { val rw = new Bundle {
val addr = UInt(INPUT, 12) val addr = UInt(INPUT, 12)
val cmd = Bits(INPUT, CSR.SZ) val cmd = Bits(INPUT, CSR.SZ)
val rdata = Bits(OUTPUT, params(XprLen)) val rdata = Bits(OUTPUT, xLen)
val wdata = Bits(INPUT, params(XprLen)) val wdata = Bits(INPUT, xLen)
} }
val status = new Status().asOutput val status = new Status().asOutput
val ptbr = UInt(OUTPUT, params(PAddrBits)) val ptbr = UInt(OUTPUT, paddrBits)
val evec = UInt(OUTPUT, params(VAddrBits)+1) val evec = UInt(OUTPUT, vaddrBits+1)
val exception = Bool(INPUT) val exception = Bool(INPUT)
val retire = UInt(INPUT, log2Up(1+params(RetireWidth))) val retire = UInt(INPUT, log2Up(1+retireWidth))
val uarch_counters = Vec.fill(16)(UInt(INPUT, log2Up(1+params(RetireWidth)))) val uarch_counters = Vec.fill(16)(UInt(INPUT, log2Up(1+retireWidth)))
val cause = UInt(INPUT, params(XprLen)) val cause = UInt(INPUT, xLen)
val badvaddr_wen = Bool(INPUT) val badvaddr_wen = Bool(INPUT)
val pc = UInt(INPUT, params(VAddrBits)+1) val pc = UInt(INPUT, vaddrBits+1)
val sret = Bool(INPUT) val sret = Bool(INPUT)
val fatc = Bool(OUTPUT) val fatc = Bool(OUTPUT)
val replay = Bool(OUTPUT) val replay = Bool(OUTPUT)
val time = UInt(OUTPUT, params(XprLen)) val time = UInt(OUTPUT, xLen)
val fcsr_rm = Bits(OUTPUT, FPConstants.RM_SZ) val fcsr_rm = Bits(OUTPUT, FPConstants.RM_SZ)
val fcsr_flags = Valid(Bits(width = FPConstants.FLAGS_SZ)).flip val fcsr_flags = Valid(Bits(width = FPConstants.FLAGS_SZ)).flip
val rocc = new RoCCInterface().flip val rocc = new RoCCInterface().flip
} }
class CSRFile extends Module class CSRFile extends CoreModule
{ {
val io = new CSRFileIO val io = new CSRFileIO
val reg_epc = Reg(Bits(width = params(VAddrBits)+1)) val reg_epc = Reg(Bits(width = vaddrBits+1))
val reg_badvaddr = Reg(Bits(width = params(VAddrBits))) val reg_badvaddr = Reg(Bits(width = vaddrBits))
val reg_evec = Reg(Bits(width = params(VAddrBits))) val reg_evec = Reg(Bits(width = vaddrBits))
val reg_compare = Reg(Bits(width = 32)) val reg_compare = Reg(Bits(width = 32))
val reg_cause = Reg(Bits(width = params(XprLen))) val reg_cause = Reg(Bits(width = xLen))
val reg_tohost = Reg(init=Bits(0, params(XprLen))) val reg_tohost = Reg(init=Bits(0, xLen))
val reg_fromhost = Reg(init=Bits(0, params(XprLen))) val reg_fromhost = Reg(init=Bits(0, xLen))
val reg_sup0 = Reg(Bits(width = params(XprLen))) val reg_sup0 = Reg(Bits(width = xLen))
val reg_sup1 = Reg(Bits(width = params(XprLen))) val reg_sup1 = Reg(Bits(width = xLen))
val reg_ptbr = Reg(UInt(width = params(PAddrBits))) val reg_ptbr = Reg(UInt(width = paddrBits))
val reg_stats = Reg(init=Bool(false)) val reg_stats = Reg(init=Bool(false))
val reg_status = Reg(new Status) // reset down below val reg_status = Reg(new Status) // reset down below
val reg_time = WideCounter(params(XprLen)) val reg_time = WideCounter(xLen)
val reg_instret = WideCounter(params(XprLen), io.retire) val reg_instret = WideCounter(xLen, io.retire)
val reg_uarch_counters = io.uarch_counters.map(WideCounter(params(XprLen), _)) val reg_uarch_counters = io.uarch_counters.map(WideCounter(xLen, _))
val reg_fflags = Reg(UInt(width = 5)) val reg_fflags = Reg(UInt(width = 5))
val reg_frm = Reg(UInt(width = 3)) val reg_frm = Reg(UInt(width = 3))
@ -128,7 +128,7 @@ class CSRFile extends Module
when (io.badvaddr_wen) { when (io.badvaddr_wen) {
val wdata = io.rw.wdata val wdata = io.rw.wdata
val (upper, lower) = Split(wdata, params(VAddrBits)) val (upper, lower) = Split(wdata, vaddrBits)
val sign = Mux(lower.toSInt < SInt(0), upper.andR, upper.orR) val sign = Mux(lower.toSInt < SInt(0), upper.andR, upper.orR)
reg_badvaddr := Cat(sign, lower).toSInt reg_badvaddr := Cat(sign, lower).toSInt
} }
@ -159,7 +159,7 @@ class CSRFile extends Module
when (host_pcr_req_fire && !host_pcr_bits.rw && decoded_addr(CSRs.tohost)) { reg_tohost := UInt(0) } when (host_pcr_req_fire && !host_pcr_bits.rw && decoded_addr(CSRs.tohost)) { reg_tohost := UInt(0) }
val read_impl = Bits(2) val read_impl = Bits(2)
val read_ptbr = reg_ptbr(params(PAddrBits)-1, params(PgIdxBits)) << UInt(params(PgIdxBits)) val read_ptbr = reg_ptbr(paddrBits-1, pgIdxBits) << UInt(pgIdxBits)
val read_mapping = collection.mutable.LinkedHashMap[Int,Bits]( val read_mapping = collection.mutable.LinkedHashMap[Int,Bits](
CSRs.fflags -> (if (!params(BuildFPU).isEmpty) reg_fflags else UInt(0)), CSRs.fflags -> (if (!params(BuildFPU).isEmpty) reg_fflags else UInt(0)),
@ -211,8 +211,8 @@ class CSRFile extends Module
when (decoded_addr(CSRs.fflags)) { reg_fflags := wdata } when (decoded_addr(CSRs.fflags)) { reg_fflags := wdata }
when (decoded_addr(CSRs.frm)) { reg_frm := wdata } when (decoded_addr(CSRs.frm)) { reg_frm := wdata }
when (decoded_addr(CSRs.fcsr)) { reg_fflags := wdata; reg_frm := wdata >> reg_fflags.getWidth } when (decoded_addr(CSRs.fcsr)) { reg_fflags := wdata; reg_frm := wdata >> reg_fflags.getWidth }
when (decoded_addr(CSRs.epc)) { reg_epc := wdata(params(VAddrBits),0).toSInt } when (decoded_addr(CSRs.epc)) { reg_epc := wdata(vaddrBits,0).toSInt }
when (decoded_addr(CSRs.evec)) { reg_evec := wdata(params(VAddrBits)-1,0).toSInt } when (decoded_addr(CSRs.evec)) { reg_evec := wdata(vaddrBits-1,0).toSInt }
when (decoded_addr(CSRs.count)) { reg_time := wdata.toUInt } when (decoded_addr(CSRs.count)) { reg_time := wdata.toUInt }
when (decoded_addr(CSRs.compare)) { reg_compare := wdata(31,0).toUInt; r_irq_timer := Bool(false) } when (decoded_addr(CSRs.compare)) { reg_compare := wdata(31,0).toUInt; r_irq_timer := Bool(false) }
when (decoded_addr(CSRs.fromhost)) { when (reg_fromhost === UInt(0) || !host_pcr_req_fire) { reg_fromhost := wdata } } when (decoded_addr(CSRs.fromhost)) { when (reg_fromhost === UInt(0) || !host_pcr_req_fire) { reg_fromhost := wdata } }
@ -220,7 +220,7 @@ class CSRFile extends Module
when (decoded_addr(CSRs.clear_ipi)){ r_irq_ipi := wdata(0) } when (decoded_addr(CSRs.clear_ipi)){ r_irq_ipi := wdata(0) }
when (decoded_addr(CSRs.sup0)) { reg_sup0 := wdata } when (decoded_addr(CSRs.sup0)) { reg_sup0 := wdata }
when (decoded_addr(CSRs.sup1)) { reg_sup1 := wdata } when (decoded_addr(CSRs.sup1)) { reg_sup1 := wdata }
when (decoded_addr(CSRs.ptbr)) { reg_ptbr := Cat(wdata(params(PAddrBits)-1, params(PgIdxBits)), Bits(0, params(PgIdxBits))).toUInt } when (decoded_addr(CSRs.ptbr)) { reg_ptbr := Cat(wdata(paddrBits-1, pgIdxBits), Bits(0, pgIdxBits)).toUInt }
when (decoded_addr(CSRs.stats)) { reg_stats := wdata(0) } when (decoded_addr(CSRs.stats)) { reg_stats := wdata(0) }
} }

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@ -8,7 +8,7 @@ import uncore.constants.MemoryOpConstants._
import ALU._ import ALU._
import Util._ import Util._
class CtrlDpathIO extends Bundle class CtrlDpathIO extends CoreBundle
{ {
// outputs to datapath // outputs to datapath
val sel_pc = UInt(OUTPUT, 3) val sel_pc = UInt(OUTPUT, 3)
@ -27,7 +27,7 @@ class CtrlDpathIO extends Bundle
// exception handling // exception handling
val retire = Bool(OUTPUT) val retire = Bool(OUTPUT)
val exception = Bool(OUTPUT) val exception = Bool(OUTPUT)
val cause = UInt(OUTPUT, params(XprLen)) val cause = UInt(OUTPUT, xLen)
val badvaddr_wen = Bool(OUTPUT) // high for a load/store access fault val badvaddr_wen = Bool(OUTPUT) // high for a load/store access fault
// inputs from datapath // inputs from datapath
val inst = Bits(INPUT, 32) val inst = Bits(INPUT, 32)
@ -328,7 +328,7 @@ object RoCCDecode extends DecodeConstants
CUSTOM3_RD_RS1_RS2->List(Y, N,Y,N,N,N,Y,Y,A2_ZERO,A1_RS1, IMM_X, DW_XPR,FN_ADD, N,M_X, MT_X, N,N,N,N,N,Y,CSR.N,N,N,N,N,N)) CUSTOM3_RD_RS1_RS2->List(Y, N,Y,N,N,N,Y,Y,A2_ZERO,A1_RS1, IMM_X, DW_XPR,FN_ADD, N,M_X, MT_X, N,N,N,N,N,Y,CSR.N,N,N,N,N,N))
} }
class Control extends Module class Control extends CoreModule
{ {
val io = new Bundle { val io = new Bundle {
val dpath = new CtrlDpathIO val dpath = new CtrlDpathIO
@ -388,7 +388,7 @@ class Control extends Module
val id_reg_fence = Reg(init=Bool(false)) val id_reg_fence = Reg(init=Bool(false))
val sr = io.dpath.status val sr = io.dpath.status
var id_interrupts = (0 until sr.ip.getWidth).map(i => (sr.im(i) && sr.ip(i), UInt(BigInt(1) << (params(XprLen)-1) | i))) var id_interrupts = (0 until sr.ip.getWidth).map(i => (sr.im(i) && sr.ip(i), UInt(BigInt(1) << (xLen-1) | i)))
val (id_interrupt_unmasked, id_interrupt_cause) = checkExceptions(id_interrupts) val (id_interrupt_unmasked, id_interrupt_cause) = checkExceptions(id_interrupts)
val id_interrupt = io.dpath.status.ei && id_interrupt_unmasked val id_interrupt = io.dpath.status.ei && id_interrupt_unmasked

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@ -7,7 +7,7 @@ import Instructions._
import Util._ import Util._
import uncore._ import uncore._
class Datapath extends Module class Datapath extends CoreModule
{ {
val io = new Bundle { val io = new Bundle {
val host = new HTIFIO val host = new HTIFIO
@ -149,10 +149,10 @@ class Datapath extends Module
io.fpu.fromint_data := ex_rs(0) io.fpu.fromint_data := ex_rs(0)
def vaSign(a0: UInt, ea: Bits) = { def vaSign(a0: UInt, ea: Bits) = {
// efficient means to compress 64-bit VA into params(VAddrBits)+1 bits // efficient means to compress 64-bit VA into vaddrBits+1 bits
// (VA is bad if VA(params(VAddrBits)) != VA(params(VAddrBits)-1)) // (VA is bad if VA(vaddrBits) != VA(vaddrBits-1))
val a = a0 >> params(VAddrBits)-1 val a = a0 >> vaddrBits-1
val e = ea(params(VAddrBits),params(VAddrBits)-1) val e = ea(vaddrBits,vaddrBits-1)
Mux(a === UInt(0) || a === UInt(1), e != UInt(0), Mux(a === UInt(0) || a === UInt(1), e != UInt(0),
Mux(a === SInt(-1) || a === SInt(-2), e === SInt(-1), Mux(a === SInt(-1) || a === SInt(-2), e === SInt(-1),
e(0))) e(0)))
@ -160,7 +160,7 @@ class Datapath extends Module
// D$ request interface (registered inside D$ module) // D$ request interface (registered inside D$ module)
// other signals (req_val, req_rdy) connect to control module // other signals (req_val, req_rdy) connect to control module
io.dmem.req.bits.addr := Cat(vaSign(ex_rs(0), alu.io.adder_out), alu.io.adder_out(params(VAddrBits)-1,0)).toUInt io.dmem.req.bits.addr := Cat(vaSign(ex_rs(0), alu.io.adder_out), alu.io.adder_out(vaddrBits-1,0)).toUInt
io.dmem.req.bits.tag := Cat(io.ctrl.ex_waddr, io.ctrl.ex_ctrl.fp) io.dmem.req.bits.tag := Cat(io.ctrl.ex_waddr, io.ctrl.ex_ctrl.fp)
require(io.dmem.req.bits.tag.getWidth >= 6) require(io.dmem.req.bits.tag.getWidth >= 6)
require(params(CoreDCacheReqTagBits) >= 6) require(params(CoreDCacheReqTagBits) >= 6)
@ -231,7 +231,7 @@ class Datapath extends Module
val mem_br_target = mem_reg_pc + val mem_br_target = mem_reg_pc +
Mux(io.ctrl.mem_ctrl.branch && io.ctrl.mem_br_taken, imm(IMM_SB, mem_reg_inst), Mux(io.ctrl.mem_ctrl.branch && io.ctrl.mem_br_taken, imm(IMM_SB, mem_reg_inst),
Mux(io.ctrl.mem_ctrl.jal, imm(IMM_UJ, mem_reg_inst), SInt(4))) Mux(io.ctrl.mem_ctrl.jal, imm(IMM_UJ, mem_reg_inst), SInt(4)))
val mem_npc = Mux(io.ctrl.mem_ctrl.jalr, Cat(vaSign(mem_reg_wdata, mem_reg_wdata), mem_reg_wdata(params(VAddrBits)-1,0)), mem_br_target) val mem_npc = Mux(io.ctrl.mem_ctrl.jalr, Cat(vaSign(mem_reg_wdata, mem_reg_wdata), mem_reg_wdata(vaddrBits-1,0)), mem_br_target)
io.ctrl.mem_misprediction := mem_npc != ex_reg_pc || !io.ctrl.ex_valid io.ctrl.mem_misprediction := mem_npc != ex_reg_pc || !io.ctrl.ex_valid
io.ctrl.mem_rs1_ra := mem_reg_inst(19,15) === 1 io.ctrl.mem_rs1_ra := mem_reg_inst(19,15) === 1
val mem_int_wdata = Mux(io.ctrl.mem_ctrl.jalr, mem_br_target, mem_reg_wdata) val mem_int_wdata = Mux(io.ctrl.mem_ctrl.jalr, mem_br_target, mem_reg_wdata)

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@ -43,13 +43,13 @@ object ALU
} }
import ALU._ import ALU._
class ALUIO extends Bundle { class ALUIO extends CoreBundle {
val dw = Bits(INPUT, SZ_DW) val dw = Bits(INPUT, SZ_DW)
val fn = Bits(INPUT, SZ_ALU_FN) val fn = Bits(INPUT, SZ_ALU_FN)
val in2 = UInt(INPUT, params(XprLen)) val in2 = UInt(INPUT, xLen)
val in1 = UInt(INPUT, params(XprLen)) val in1 = UInt(INPUT, xLen)
val out = UInt(OUTPUT, params(XprLen)) val out = UInt(OUTPUT, xLen)
val adder_out = UInt(OUTPUT, params(XprLen)) val adder_out = UInt(OUTPUT, xLen)
} }
class ALU extends Module class ALU extends Module

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@ -4,7 +4,6 @@ import Chisel._
import uncore._ import uncore._
import Util._ import Util._
case object NITLBEntries extends Field[Int]
case object ECCCode extends Field[Option[Code]] case object ECCCode extends Field[Option[Code]]
abstract trait L1CacheParameters extends CacheParameters with CoreParameters { abstract trait L1CacheParameters extends CacheParameters with CoreParameters {
@ -20,18 +19,18 @@ abstract class FrontendBundle extends Bundle with FrontendParameters
abstract class FrontendModule extends Module with FrontendParameters abstract class FrontendModule extends Module with FrontendParameters
class FrontendReq extends CoreBundle { class FrontendReq extends CoreBundle {
val pc = UInt(width = params(VAddrBits)+1) val pc = UInt(width = vaddrBits+1)
} }
class FrontendResp extends CoreBundle { class FrontendResp extends CoreBundle {
val pc = UInt(width = params(VAddrBits)+1) // ID stage PC val pc = UInt(width = vaddrBits+1) // ID stage PC
val data = Vec.fill(coreFetchWidth) (Bits(width = coreInstBits)) val data = Vec.fill(coreFetchWidth) (Bits(width = coreInstBits))
val mask = Bits(width = coreFetchWidth) val mask = Bits(width = coreFetchWidth)
val xcpt_ma = Bool() val xcpt_ma = Bool()
val xcpt_if = Bool() val xcpt_if = Bool()
} }
class CPUFrontendIO extends CoreBundle { class CPUFrontendIO extends Bundle {
val req = Valid(new FrontendReq) val req = Valid(new FrontendReq)
val resp = Decoupled(new FrontendResp).flip val resp = Decoupled(new FrontendResp).flip
val btb_resp = Valid(new BTBResp).flip val btb_resp = Valid(new BTBResp).flip
@ -51,7 +50,7 @@ class Frontend(btb_updates_out_of_order: Boolean = false) extends FrontendModule
val btb = Module(new BTB(btb_updates_out_of_order)) val btb = Module(new BTB(btb_updates_out_of_order))
val icache = Module(new ICache) val icache = Module(new ICache)
val tlb = Module(new TLB(params(NITLBEntries))) val tlb = Module(new TLB)
val s1_pc_ = Reg(UInt()) val s1_pc_ = Reg(UInt())
val s1_pc = s1_pc_ & SInt(-2) // discard LSB of PC (throughout the pipeline) val s1_pc = s1_pc_ & SInt(-2) // discard LSB of PC (throughout the pipeline)
@ -134,7 +133,7 @@ class Frontend(btb_updates_out_of_order: Boolean = false) extends FrontendModule
class ICacheReq extends FrontendBundle { class ICacheReq extends FrontendBundle {
val idx = UInt(width = pgIdxBits) val idx = UInt(width = pgIdxBits)
val ppn = UInt(width = params(PPNBits)) // delayed one cycle val ppn = UInt(width = ppnBits) // delayed one cycle
val kill = Bool() // delayed one cycle val kill = Bool() // delayed one cycle
} }
@ -190,14 +189,15 @@ class ICache extends FrontendModule
val s2_miss = s2_valid && !s2_any_tag_hit val s2_miss = s2_valid && !s2_any_tag_hit
rdy := state === s_ready && !s2_miss rdy := state === s_ready && !s2_miss
val ser = Module(new FlowThroughSerializer(io.mem.grant.bits, refillCyclesPerBeat, (g: Grant) => co.messageUpdatesDataArray(g))) val ser = Module(new FlowThroughSerializer(
io.mem.grant.bits,
refillCyclesPerBeat))
ser.io.in <> io.mem.grant ser.io.in <> io.mem.grant
val (refill_cnt, refill_wrap) = Counter(ser.io.out.fire(), refillCycles) //TODO Zero width wire val (refill_cnt, refill_wrap) = Counter(ser.io.out.fire(), refillCycles) //TODO Zero width wire
val refill_done = state === s_refill && refill_wrap val refill_done = state === s_refill && refill_wrap
val refill_valid = ser.io.out.valid val refill_valid = ser.io.out.valid
val refill_bits = ser.io.out.bits val refill_bits = ser.io.out.bits
ser.io.out.ready := Bool(true) ser.io.out.ready := Bool(true)
//assert(!c.tlco.isVoluntary(refill_bits.payload) || !refill_valid, "UncachedRequestors shouldn't get voluntary grants.")
val repl_way = if (isDM) UInt(0) else LFSR16(s2_miss)(log2Up(nWays)-1,0) val repl_way = if (isDM) UInt(0) else LFSR16(s2_miss)(log2Up(nWays)-1,0)
val entagbits = code.width(tagBits) val entagbits = code.width(tagBits)
@ -251,7 +251,7 @@ class ICache extends FrontendModule
val s1_raddr = Reg(UInt()) val s1_raddr = Reg(UInt())
when (refill_valid && repl_way === UInt(i)) { when (refill_valid && repl_way === UInt(i)) {
val e_d = code.encode(refill_bits.payload.data) val e_d = code.encode(refill_bits.payload.data)
if(refillCycles > 1) data_array(Cat(s2_idx, refill_cnt)) := e_d if(refillCycles > 1) data_array(Cat(s2_idx, refill_bits.payload.addr_beat)) := e_d
else data_array(s2_idx) := e_d else data_array(s2_idx) := e_d
} }
// /*.else*/when (s0_valid) { // uncomment ".else" to infer 6T SRAM // /*.else*/when (s0_valid) { // uncomment ".else" to infer 6T SRAM
@ -266,14 +266,14 @@ class ICache extends FrontendModule
io.resp.bits.datablock := Mux1H(s2_tag_hit, s2_dout) io.resp.bits.datablock := Mux1H(s2_tag_hit, s2_dout)
val ack_q = Module(new Queue(new LogicalNetworkIO(new Finish), 1)) val ack_q = Module(new Queue(new LogicalNetworkIO(new Finish), 1))
ack_q.io.enq.valid := refill_done && co.requiresAckForGrant(refill_bits.payload) ack_q.io.enq.valid := refill_done && refill_bits.payload.requiresAck()
ack_q.io.enq.bits.payload.manager_xact_id := refill_bits.payload.manager_xact_id ack_q.io.enq.bits.payload := refill_bits.payload.makeFinish()
ack_q.io.enq.bits.header.dst := refill_bits.header.src ack_q.io.enq.bits.header.dst := refill_bits.header.src
// output signals // output signals
io.resp.valid := s2_hit io.resp.valid := s2_hit
io.mem.acquire.valid := (state === s_request) && ack_q.io.enq.ready io.mem.acquire.valid := (state === s_request) && ack_q.io.enq.ready
io.mem.acquire.bits.payload := UncachedRead(s2_addr >> UInt(blockOffBits)) io.mem.acquire.bits.payload := UncachedReadBlock(addr_block = s2_addr >> UInt(blockOffBits))
io.mem.finish <> ack_q.io.deq io.mem.finish <> ack_q.io.deq
// control state machine // control state machine

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@ -6,16 +6,16 @@ import Chisel._
import ALU._ import ALU._
import Util._ import Util._
class MultiplierReq extends Bundle { class MultiplierReq extends CoreBundle {
val fn = Bits(width = SZ_ALU_FN) val fn = Bits(width = SZ_ALU_FN)
val dw = Bits(width = SZ_DW) val dw = Bits(width = SZ_DW)
val in1 = Bits(width = params(XprLen)) val in1 = Bits(width = xLen)
val in2 = Bits(width = params(XprLen)) val in2 = Bits(width = xLen)
val tag = UInt(width = log2Up(params(NMultXpr))) val tag = UInt(width = log2Up(params(NMultXpr)))
} }
class MultiplierResp extends Bundle { class MultiplierResp extends CoreBundle {
val data = Bits(width = params(XprLen)) val data = Bits(width = xLen)
val tag = UInt(width = log2Up(params(NMultXpr))) val tag = UInt(width = log2Up(params(NMultXpr)))
} }

View File

@ -6,17 +6,21 @@ import Chisel._
import uncore._ import uncore._
import Util._ import Util._
case object WordBits extends Field[Int]
case object StoreDataQueueDepth extends Field[Int] case object StoreDataQueueDepth extends Field[Int]
case object ReplayQueueDepth extends Field[Int] case object ReplayQueueDepth extends Field[Int]
case object NMSHRs extends Field[Int] case object NMSHRs extends Field[Int]
case object LRSCCycles extends Field[Int] case object LRSCCycles extends Field[Int]
case object NDTLBEntries extends Field[Int]
abstract trait L1HellaCacheParameters extends L1CacheParameters { abstract trait L1HellaCacheParameters extends L1CacheParameters {
val wordBits = params(WordBits)
val wordBytes = wordBits/8
val wordOffBits = log2Up(wordBytes)
val idxMSB = untagBits-1 val idxMSB = untagBits-1
val idxLSB = blockOffBits val idxLSB = blockOffBits
val offsetmsb = idxLSB-1 val offsetmsb = idxLSB-1
val offsetlsb = wordOffBits val offsetlsb = wordOffBits
val rowWords = rowBits/wordBits
val doNarrowRead = coreDataBits * nWays % rowBits == 0 val doNarrowRead = coreDataBits * nWays % rowBits == 0
val encDataBits = code.width(coreDataBits) val encDataBits = code.width(coreDataBits)
val encRowBits = encDataBits*rowWords val encRowBits = encDataBits*rowWords
@ -27,64 +31,39 @@ abstract trait L1HellaCacheParameters extends L1CacheParameters {
abstract class L1HellaCacheBundle extends Bundle with L1HellaCacheParameters abstract class L1HellaCacheBundle extends Bundle with L1HellaCacheParameters
abstract class L1HellaCacheModule extends Module with L1HellaCacheParameters abstract class L1HellaCacheModule extends Module with L1HellaCacheParameters
class StoreGen(typ: Bits, addr: Bits, dat: Bits) trait HasCoreMemOp extends CoreBundle {
{ val addr = UInt(width = coreMaxAddrBits)
val byte = typ === MT_B || typ === MT_BU val tag = Bits(width = coreDCacheReqTagBits)
val half = typ === MT_H || typ === MT_HU val cmd = Bits(width = M_SZ)
val word = typ === MT_W || typ === MT_WU val typ = Bits(width = MT_SZ)
def mask =
Mux(byte, Bits( 1) << addr(2,0),
Mux(half, Bits( 3) << Cat(addr(2,1), Bits(0,1)),
Mux(word, Bits( 15) << Cat(addr(2), Bits(0,2)),
Bits(255))))
def data =
Mux(byte, Fill(8, dat( 7,0)),
Mux(half, Fill(4, dat(15,0)),
wordData))
lazy val wordData =
Mux(word, Fill(2, dat(31,0)),
dat)
}
class LoadGen(typ: Bits, addr: Bits, dat: Bits, zero: Bool)
{
val t = new StoreGen(typ, addr, dat)
val sign = typ === MT_B || typ === MT_H || typ === MT_W || typ === MT_D
val wordShift = Mux(addr(2), dat(63,32), dat(31,0))
val word = Cat(Mux(t.word, Fill(32, sign && wordShift(31)), dat(63,32)), wordShift)
val halfShift = Mux(addr(1), word(31,16), word(15,0))
val half = Cat(Mux(t.half, Fill(48, sign && halfShift(15)), word(63,16)), halfShift)
val byteShift = Mux(zero, UInt(0), Mux(addr(0), half(15,8), half(7,0)))
val byte = Cat(Mux(zero || t.byte, Fill(56, sign && byteShift(7)), half(63,8)), byteShift)
} }
trait HasCoreData extends CoreBundle { trait HasCoreData extends CoreBundle {
val data = Bits(width = coreDataBits) val data = Bits(width = coreDataBits)
} }
class HellaCacheReqInternal extends CoreBundle { trait HasSDQId extends CoreBundle with L1HellaCacheParameters {
val kill = Bool() val sdq_id = UInt(width = log2Up(sdqDepth))
val typ = Bits(width = MT_SZ)
val phys = Bool()
val addr = UInt(width = coreMaxAddrBits)
val tag = Bits(width = coreDCacheReqTagBits)
val cmd = Bits(width = M_SZ)
} }
class HellaCacheReq extends HellaCacheReqInternal trait HasMissInfo extends CoreBundle with L1HellaCacheParameters {
with HasCoreData val tag_match = Bool()
val old_meta = new L1Metadata
val way_en = Bits(width = nWays)
}
class HellaCacheResp extends CoreBundle class HellaCacheReqInternal extends HasCoreMemOp {
with HasCoreData { val kill = Bool()
val phys = Bool()
}
class HellaCacheReq extends HellaCacheReqInternal with HasCoreData
class HellaCacheResp extends HasCoreMemOp with HasCoreData {
val nack = Bool() // comes 2 cycles after req.fire val nack = Bool() // comes 2 cycles after req.fire
val replay = Bool() val replay = Bool()
val typ = Bits(width = 3)
val has_data = Bool() val has_data = Bool()
val data_subword = Bits(width = coreDataBits) val data_subword = Bits(width = coreDataBits)
val tag = Bits(width = coreDCacheReqTagBits)
val cmd = Bits(width = 4)
val addr = UInt(width = coreMaxAddrBits)
val store_data = Bits(width = coreDataBits) val store_data = Bits(width = coreDataBits)
} }
@ -108,27 +87,12 @@ class HellaCacheIO extends CoreBundle {
val ordered = Bool(INPUT) val ordered = Bool(INPUT)
} }
trait HasSDQId extends CoreBundle with L1HellaCacheParameters { class L1DataReadReq extends L1HellaCacheBundle {
val sdq_id = UInt(width = log2Up(sdqDepth))
}
trait HasMissInfo extends CoreBundle with L1HellaCacheParameters {
val tag_match = Bool()
val old_meta = new L1Metadata
val way_en = Bits(width = nWays)
}
class Replay extends HellaCacheReqInternal with HasCoreData
class ReplayInternal extends HellaCacheReqInternal with HasSDQId
class MSHRReq extends Replay with HasMissInfo
class MSHRReqInternal extends ReplayInternal with HasMissInfo
class DataReadReq extends L1HellaCacheBundle {
val way_en = Bits(width = nWays) val way_en = Bits(width = nWays)
val addr = Bits(width = untagBits) val addr = Bits(width = untagBits)
} }
class DataWriteReq extends DataReadReq { class L1DataWriteReq extends L1DataReadReq {
val wmask = Bits(width = rowWords) val wmask = Bits(width = rowWords)
val data = Bits(width = encRowBits) val data = Bits(width = encRowBits)
} }
@ -152,14 +116,16 @@ class L1Metadata extends Metadata with L1HellaCacheParameters {
val coh = co.clientMetadataOnFlush.clone val coh = co.clientMetadataOnFlush.clone
} }
class InternalProbe extends Probe with HasClientTransactionId class Replay extends HellaCacheReqInternal with HasCoreData
class ReplayInternal extends HellaCacheReqInternal with HasSDQId
class WritebackReq extends L1HellaCacheBundle { class MSHRReq extends Replay with HasMissInfo
val tag = Bits(width = tagBits) class MSHRReqInternal extends ReplayInternal with HasMissInfo
val idx = Bits(width = idxBits)
class ProbeInternal extends Probe with HasClientTransactionId
class WritebackReq extends Release with CacheParameters {
val way_en = Bits(width = nWays) val way_en = Bits(width = nWays)
val client_xact_id = Bits(width = params(TLClientXactIdBits))
val r_type = UInt(width = co.releaseTypeWidth)
} }
class MSHR(id: Int) extends L1HellaCacheModule { class MSHR(id: Int) extends L1HellaCacheModule {
@ -174,7 +140,7 @@ class MSHR(id: Int) extends L1HellaCacheModule {
val tag = Bits(OUTPUT, tagBits) val tag = Bits(OUTPUT, tagBits)
val mem_req = Decoupled(new Acquire) val mem_req = Decoupled(new Acquire)
val mem_resp = new DataWriteReq().asOutput val mem_resp = new L1DataWriteReq().asOutput
val meta_read = Decoupled(new L1MetaReadReq) val meta_read = Decoupled(new L1MetaReadReq)
val meta_write = Decoupled(new L1MetaWriteReq) val meta_write = Decoupled(new L1MetaWriteReq)
val replay = Decoupled(new ReplayInternal) val replay = Decoupled(new ReplayInternal)
@ -188,17 +154,19 @@ class MSHR(id: Int) extends L1HellaCacheModule {
val state = Reg(init=s_invalid) val state = Reg(init=s_invalid)
val acquire_type = Reg(UInt()) val acquire_type = Reg(UInt())
val release_type = Reg(UInt())
val line_state = Reg(new ClientMetadata) val line_state = Reg(new ClientMetadata)
val req = Reg(new MSHRReqInternal()) val req = Reg(new MSHRReqInternal())
val req_cmd = io.req_bits.cmd val req_cmd = io.req_bits.cmd
val req_idx = req.addr(untagBits-1,blockOffBits) val req_idx = req.addr(untagBits-1,blockOffBits)
val idx_match = req_idx === io.req_bits.addr(untagBits-1,blockOffBits) val idx_match = req_idx === io.req_bits.addr(untagBits-1,blockOffBits)
val sec_rdy = idx_match && (state === s_wb_req || state === s_wb_resp || state === s_meta_clear || (state === s_refill_req || state === s_refill_resp) && !co.needsTransactionOnSecondaryMiss(req_cmd, io.mem_req.bits)) val sec_rdy = idx_match && !co.needsTransactionOnSecondaryMiss(req_cmd, io.mem_req.bits) &&
Vec(s_wb_req, s_wb_resp, s_meta_clear, s_refill_req, s_refill_resp).contains(state)
val reply = io.mem_grant.valid && io.mem_grant.bits.payload.client_xact_id === UInt(id) val reply = io.mem_grant.valid && io.mem_grant.bits.payload.client_xact_id === UInt(id)
val (refill_cnt, refill_done) = Counter(reply && co.messageUpdatesDataArray(io.mem_grant.bits.payload), refillCycles) // TODO: Zero width? val gnt_multi_data = io.mem_grant.bits.payload.hasMultibeatData()
val (refill_cnt, refill_count_done) = Counter(reply && gnt_multi_data, refillCycles) // TODO: Zero width?
val refill_done = reply && (!gnt_multi_data || refill_count_done)
val wb_done = reply && (state === s_wb_resp) val wb_done = reply && (state === s_wb_resp)
val meta_on_flush = co.clientMetadataOnFlush val meta_on_flush = co.clientMetadataOnFlush
@ -234,16 +202,14 @@ class MSHR(id: Int) extends L1HellaCacheModule {
state := s_meta_clear state := s_meta_clear
} }
when (io.wb_req.fire()) { // s_wb_req when (io.wb_req.fire()) { // s_wb_req
state := s_wb_resp state := Mux(io.wb_req.bits.requiresAck(), s_wb_resp, s_meta_clear)
} }
when (io.req_sec_val && io.req_sec_rdy) { // s_wb_req, s_wb_resp, s_refill_req when (io.req_sec_val && io.req_sec_rdy) { // s_wb_req, s_wb_resp, s_refill_req
acquire_type := co.getAcquireTypeOnSecondaryMiss(req_cmd, meta_on_flush, io.mem_req.bits) acquire_type := co.getAcquireTypeOnSecondaryMiss(req_cmd, meta_on_flush, io.mem_req.bits)
} }
when (io.req_pri_val && io.req_pri_rdy) { when (io.req_pri_val && io.req_pri_rdy) {
line_state := meta_on_flush line_state := meta_on_flush
refill_cnt := UInt(0)
acquire_type := co.getAcquireTypeOnPrimaryMiss(req_cmd, meta_on_flush) acquire_type := co.getAcquireTypeOnPrimaryMiss(req_cmd, meta_on_flush)
release_type := co.getReleaseTypeOnVoluntaryWriteback() //TODO downgrades etc
req := io.req_bits req := io.req_bits
when (io.req_bits.tag_match) { when (io.req_bits.tag_match) {
@ -259,8 +225,8 @@ class MSHR(id: Int) extends L1HellaCacheModule {
} }
val ackq = Module(new Queue(new LogicalNetworkIO(new Finish), 1)) val ackq = Module(new Queue(new LogicalNetworkIO(new Finish), 1))
ackq.io.enq.valid := (wb_done || refill_done) && co.requiresAckForGrant(io.mem_grant.bits.payload) ackq.io.enq.valid := (wb_done || refill_done) && io.mem_grant.bits.payload.requiresAck()
ackq.io.enq.bits.payload.manager_xact_id := io.mem_grant.bits.payload.manager_xact_id ackq.io.enq.bits.payload := io.mem_grant.bits.payload.makeFinish()
ackq.io.enq.bits.header.dst := io.mem_grant.bits.header.src ackq.io.enq.bits.header.dst := io.mem_grant.bits.header.src
val can_finish = state === s_invalid || state === s_refill_req || state === s_refill_resp val can_finish = state === s_invalid || state === s_refill_req || state === s_refill_resp
io.mem_finish.valid := ackq.io.deq.valid && can_finish io.mem_finish.valid := ackq.io.deq.valid && can_finish
@ -286,14 +252,17 @@ class MSHR(id: Int) extends L1HellaCacheModule {
io.meta_write.bits.way_en := req.way_en io.meta_write.bits.way_en := req.way_en
io.wb_req.valid := state === s_wb_req && ackq.io.enq.ready io.wb_req.valid := state === s_wb_req && ackq.io.enq.ready
io.wb_req.bits.tag := req.old_meta.tag io.wb_req.bits := Release.makeVoluntaryWriteback(
io.wb_req.bits.idx := req_idx meta = req.old_meta.coh,
client_xact_id = UInt(id),
addr_block = Cat(req.old_meta.tag, req_idx))
io.wb_req.bits.way_en := req.way_en io.wb_req.bits.way_en := req.way_en
io.wb_req.bits.client_xact_id := Bits(id)
io.wb_req.bits.r_type := co.getReleaseTypeOnVoluntaryWriteback()
io.mem_req.valid := state === s_refill_req && ackq.io.enq.ready io.mem_req.valid := state === s_refill_req && ackq.io.enq.ready
io.mem_req.bits := Acquire(acquire_type, Cat(io.tag, req_idx).toUInt, Bits(id)) io.mem_req.bits := Acquire(
a_type = acquire_type,
addr_block = Cat(io.tag, req_idx).toUInt,
client_xact_id = Bits(id))
io.mem_finish <> ackq.io.deq io.mem_finish <> ackq.io.deq
io.meta_read.valid := state === s_drain_rpq io.meta_read.valid := state === s_drain_rpq
@ -317,7 +286,7 @@ class MSHRFile extends L1HellaCacheModule {
val secondary_miss = Bool(OUTPUT) val secondary_miss = Bool(OUTPUT)
val mem_req = Decoupled(new Acquire) val mem_req = Decoupled(new Acquire)
val mem_resp = new DataWriteReq().asOutput val mem_resp = new L1DataWriteReq().asOutput
val meta_read = Decoupled(new L1MetaReadReq) val meta_read = Decoupled(new L1MetaReadReq)
val meta_write = Decoupled(new L1MetaWriteReq) val meta_write = Decoupled(new L1MetaWriteReq)
val replay = Decoupled(new Replay) val replay = Decoupled(new Replay)
@ -341,10 +310,14 @@ class MSHRFile extends L1HellaCacheModule {
val tag_match = Mux1H(idxMatch, tagList) === io.req.bits.addr >> untagBits val tag_match = Mux1H(idxMatch, tagList) === io.req.bits.addr >> untagBits
val wbTagList = Vec.fill(nMSHRs){Bits()} val wbTagList = Vec.fill(nMSHRs){Bits()}
val memRespMux = Vec.fill(nMSHRs){new DataWriteReq} val memRespMux = Vec.fill(nMSHRs){new L1DataWriteReq}
val meta_read_arb = Module(new Arbiter(new L1MetaReadReq, nMSHRs)) val meta_read_arb = Module(new Arbiter(new L1MetaReadReq, nMSHRs))
val meta_write_arb = Module(new Arbiter(new L1MetaWriteReq, nMSHRs)) val meta_write_arb = Module(new Arbiter(new L1MetaWriteReq, nMSHRs))
val mem_req_arb = Module(new LockingArbiter(new Acquire, nMSHRs, outerDataBeats, co.messageHasData _)) val mem_req_arb = Module(new LockingArbiter(
new Acquire,
nMSHRs,
outerDataBeats,
(a: Acquire) => a.hasMultibeatData()))
val mem_finish_arb = Module(new Arbiter(new LogicalNetworkIO(new Finish), nMSHRs)) val mem_finish_arb = Module(new Arbiter(new LogicalNetworkIO(new Finish), nMSHRs))
val wb_req_arb = Module(new Arbiter(new WritebackReq, nMSHRs)) val wb_req_arb = Module(new Arbiter(new WritebackReq, nMSHRs))
val replay_arb = Module(new Arbiter(new ReplayInternal, nMSHRs)) val replay_arb = Module(new Arbiter(new ReplayInternal, nMSHRs))
@ -362,7 +335,7 @@ class MSHRFile extends L1HellaCacheModule {
idxMatch(i) := mshr.io.idx_match idxMatch(i) := mshr.io.idx_match
tagList(i) := mshr.io.tag tagList(i) := mshr.io.tag
wbTagList(i) := mshr.io.wb_req.bits.tag wbTagList(i) := mshr.io.wb_req.bits.addr_block >> UInt(idxBits)
alloc_arb.io.in(i).valid := mshr.io.req_pri_rdy alloc_arb.io.in(i).valid := mshr.io.req_pri_rdy
mshr.io.req_pri_val := alloc_arb.io.in(i).ready mshr.io.req_pri_val := alloc_arb.io.in(i).ready
@ -413,9 +386,9 @@ class MSHRFile extends L1HellaCacheModule {
class WritebackUnit extends L1HellaCacheModule { class WritebackUnit extends L1HellaCacheModule {
val io = new Bundle { val io = new Bundle {
val req = Decoupled(new WritebackReq()).flip val req = Decoupled(new WritebackReq).flip
val meta_read = Decoupled(new L1MetaReadReq) val meta_read = Decoupled(new L1MetaReadReq)
val data_req = Decoupled(new DataReadReq()) val data_req = Decoupled(new L1DataReadReq)
val data_resp = Bits(INPUT, encRowBits) val data_resp = Bits(INPUT, encRowBits)
val release = Decoupled(new Release) val release = Decoupled(new Release)
} }
@ -423,9 +396,10 @@ class WritebackUnit extends L1HellaCacheModule {
val active = Reg(init=Bool(false)) val active = Reg(init=Bool(false))
val r1_data_req_fired = Reg(init=Bool(false)) val r1_data_req_fired = Reg(init=Bool(false))
val r2_data_req_fired = Reg(init=Bool(false)) val r2_data_req_fired = Reg(init=Bool(false))
val cnt = Reg(init = UInt(0, width = log2Up(refillCycles+1))) //TODO Zero width val data_req_cnt = Reg(init = UInt(0, width = log2Up(refillCycles+1))) //TODO Zero width
val buf_v = (if(refillCyclesPerBeat > 1) Reg(init=Bits(0, width = refillCyclesPerBeat-1)) else Bits(1)) val buf_v = (if(refillCyclesPerBeat > 1) Reg(init=Bits(0, width = refillCyclesPerBeat-1)) else Bits(1))
val beat_done = buf_v.andR val beat_done = buf_v.andR
val (beat_cnt, all_beats_done) = Counter(io.release.fire(), outerDataBeats)
val req = Reg(new WritebackReq) val req = Reg(new WritebackReq)
io.release.valid := false io.release.valid := false
@ -434,45 +408,48 @@ class WritebackUnit extends L1HellaCacheModule {
r2_data_req_fired := r1_data_req_fired r2_data_req_fired := r1_data_req_fired
when (io.data_req.fire() && io.meta_read.fire()) { when (io.data_req.fire() && io.meta_read.fire()) {
r1_data_req_fired := true r1_data_req_fired := true
cnt := cnt + 1 data_req_cnt := data_req_cnt + 1
} }
when (r2_data_req_fired) { when (r2_data_req_fired) {
io.release.valid := beat_done io.release.valid := beat_done
when(!io.release.ready) { when(!io.release.ready) {
r1_data_req_fired := false r1_data_req_fired := false
r2_data_req_fired := false r2_data_req_fired := false
cnt := cnt - Mux[UInt](Bool(refillCycles > 1) && r1_data_req_fired, 2, 1) data_req_cnt := data_req_cnt - Mux[UInt](Bool(refillCycles > 1) && r1_data_req_fired, 2, 1)
} .elsewhen(beat_done) { if(refillCyclesPerBeat > 1) buf_v := 0 } } .elsewhen(beat_done) { if(refillCyclesPerBeat > 1) buf_v := 0 }
when(!r1_data_req_fired) { when(!r1_data_req_fired) {
active := cnt < UInt(refillCycles) active := data_req_cnt < UInt(refillCycles)
} }
} }
} }
when (io.req.fire()) { when (io.req.fire()) {
active := true active := true
cnt := 0 data_req_cnt := 0
if(refillCyclesPerBeat > 1) buf_v := 0 if(refillCyclesPerBeat > 1) buf_v := 0
req := io.req.bits req := io.req.bits
} }
val fire = active && cnt < UInt(refillCycles)
io.req.ready := !active io.req.ready := !active
// We reissue the meta read as it sets up the muxing for s2_data_muxed val req_idx = req.addr_block(idxBits-1, 0)
val fire = active && data_req_cnt < UInt(refillCycles)
// We reissue the meta read as it sets up the mux ctrl for s2_data_muxed
io.meta_read.valid := fire io.meta_read.valid := fire
io.meta_read.bits.idx := req.idx io.meta_read.bits.idx := req_idx
io.meta_read.bits.tag := req.tag io.meta_read.bits.tag := req.addr_block >> UInt(idxBits)
io.data_req.valid := fire io.data_req.valid := fire
io.data_req.bits.way_en := req.way_en io.data_req.bits.way_en := req.way_en
io.data_req.bits.addr := (if(refillCycles > 1) Cat(req.idx, cnt(log2Up(refillCycles)-1,0)) io.data_req.bits.addr := (if(refillCycles > 1)
else req.idx) << rowOffBits Cat(req_idx, data_req_cnt(log2Up(refillCycles)-1,0))
else req_idx) << rowOffBits
io.release.bits.r_type := req.r_type io.release.bits := req
io.release.bits.addr := Cat(req.tag, req.idx).toUInt io.release.bits.addr_beat := beat_cnt
io.release.bits.client_xact_id := req.client_xact_id io.release.bits.data := (if(refillCyclesPerBeat > 1) {
io.release.bits.data := // If the cache rows are narrower than a TLDataBeat,
(if(refillCyclesPerBeat > 1) { // then buffer enough data_resps to make a whole beat
val data_buf = Reg(Bits()) val data_buf = Reg(Bits())
when(active && r2_data_req_fired && !beat_done) { when(active && r2_data_req_fired && !beat_done) {
data_buf := Cat(io.data_resp, data_buf((refillCyclesPerBeat-1)*encRowBits-1, encRowBits)) data_buf := Cat(io.data_resp, data_buf((refillCyclesPerBeat-1)*encRowBits-1, encRowBits))
@ -486,7 +463,7 @@ class WritebackUnit extends L1HellaCacheModule {
class ProbeUnit extends L1HellaCacheModule { class ProbeUnit extends L1HellaCacheModule {
val io = new Bundle { val io = new Bundle {
val req = Decoupled(new InternalProbe).flip val req = Decoupled(new ProbeInternal).flip
val rep = Decoupled(new Release) val rep = Decoupled(new Release)
val meta_read = Decoupled(new L1MetaReadReq) val meta_read = Decoupled(new L1MetaReadReq)
val meta_write = Decoupled(new L1MetaWriteReq) val meta_write = Decoupled(new L1MetaWriteReq)
@ -500,7 +477,7 @@ class ProbeUnit extends L1HellaCacheModule {
val state = Reg(init=s_invalid) val state = Reg(init=s_invalid)
val line_state = Reg(co.clientMetadataOnFlush.clone) val line_state = Reg(co.clientMetadataOnFlush.clone)
val way_en = Reg(Bits()) val way_en = Reg(Bits())
val req = Reg(new InternalProbe) val req = Reg(new ProbeInternal)
val hit = way_en.orR val hit = way_en.orR
when (state === s_meta_write && io.meta_write.ready) { when (state === s_meta_write && io.meta_write.ready) {
@ -538,36 +515,32 @@ class ProbeUnit extends L1HellaCacheModule {
state := s_invalid state := s_invalid
} }
val reply = Mux(hit, req.makeRelease(req.client_xact_id, line_state),
req.makeRelease(req.client_xact_id))
io.req.ready := state === s_invalid io.req.ready := state === s_invalid
io.rep.valid := state === s_release && io.rep.valid := state === s_release &&
!(hit && co.needsWriteback(line_state)) // Otherwise WBU will issue release !(hit && co.needsWriteback(line_state)) // Otherwise WBU will issue release
io.rep.bits := Release(co.getReleaseTypeOnProbe(req, io.rep.bits := reply
Mux(hit, line_state, co.clientMetadataOnFlush)),
req.addr,
req.client_xact_id)
io.meta_read.valid := state === s_meta_read io.meta_read.valid := state === s_meta_read
io.meta_read.bits.idx := req.addr io.meta_read.bits.idx := req.addr_block
io.meta_read.bits.tag := req.addr >> idxBits io.meta_read.bits.tag := req.addr_block >> idxBits
io.meta_write.valid := state === s_meta_write io.meta_write.valid := state === s_meta_write
io.meta_write.bits.way_en := way_en io.meta_write.bits.way_en := way_en
io.meta_write.bits.idx := req.addr io.meta_write.bits.idx := req.addr_block
io.meta_write.bits.data.tag := req.addr_block >> idxBits
io.meta_write.bits.data.coh := co.clientMetadataOnProbe(req, line_state) io.meta_write.bits.data.coh := co.clientMetadataOnProbe(req, line_state)
io.meta_write.bits.data.tag := req.addr >> UInt(idxBits)
io.wb_req.valid := state === s_writeback_req io.wb_req.valid := state === s_writeback_req
io.wb_req.bits := reply
io.wb_req.bits.way_en := way_en io.wb_req.bits.way_en := way_en
io.wb_req.bits.idx := req.addr
io.wb_req.bits.tag := req.addr >> UInt(idxBits)
io.wb_req.bits.r_type := co.getReleaseTypeOnProbe(req, Mux(hit, line_state, co.clientMetadataOnFlush))
io.wb_req.bits.client_xact_id := req.client_xact_id
} }
class DataArray extends L1HellaCacheModule { class DataArray extends L1HellaCacheModule {
val io = new Bundle { val io = new Bundle {
val read = Decoupled(new DataReadReq).flip val read = Decoupled(new L1DataReadReq).flip
val write = Decoupled(new DataWriteReq).flip val write = Decoupled(new L1DataWriteReq).flip
val resp = Vec.fill(nWays){Bits(OUTPUT, encRowBits)} val resp = Vec.fill(nWays){Bits(OUTPUT, encRowBits)}
} }
@ -612,47 +585,6 @@ class DataArray extends L1HellaCacheModule {
io.write.ready := Bool(true) io.write.ready := Bool(true)
} }
class AMOALU extends L1HellaCacheModule {
val io = new Bundle {
val addr = Bits(INPUT, blockOffBits)
val cmd = Bits(INPUT, 4)
val typ = Bits(INPUT, 3)
val lhs = Bits(INPUT, coreDataBits)
val rhs = Bits(INPUT, coreDataBits)
val out = Bits(OUTPUT, coreDataBits)
}
require(coreDataBits == 64)
val storegen = new StoreGen(io.typ, io.addr, io.rhs)
val rhs = storegen.wordData
val sgned = io.cmd === M_XA_MIN || io.cmd === M_XA_MAX
val max = io.cmd === M_XA_MAX || io.cmd === M_XA_MAXU
val min = io.cmd === M_XA_MIN || io.cmd === M_XA_MINU
val word = io.typ === MT_W || io.typ === MT_WU || io.typ === MT_B || io.typ === MT_BU
val mask = SInt(-1,64) ^ (io.addr(2) << 31)
val adder_out = (io.lhs & mask).toUInt + (rhs & mask)
val cmp_lhs = Mux(word && !io.addr(2), io.lhs(31), io.lhs(63))
val cmp_rhs = Mux(word && !io.addr(2), rhs(31), rhs(63))
val lt_lo = io.lhs(31,0) < rhs(31,0)
val lt_hi = io.lhs(63,32) < rhs(63,32)
val eq_hi = io.lhs(63,32) === rhs(63,32)
val lt = Mux(word, Mux(io.addr(2), lt_hi, lt_lo), lt_hi || eq_hi && lt_lo)
val less = Mux(cmp_lhs === cmp_rhs, lt, Mux(sgned, cmp_lhs, cmp_rhs))
val out = Mux(io.cmd === M_XA_ADD, adder_out,
Mux(io.cmd === M_XA_AND, io.lhs & rhs,
Mux(io.cmd === M_XA_OR, io.lhs | rhs,
Mux(io.cmd === M_XA_XOR, io.lhs ^ rhs,
Mux(Mux(less, min, max), io.lhs,
storegen.data)))))
val wmask = FillInterleaved(8, storegen.mask)
io.out := wmask & out | ~wmask & io.lhs
}
class HellaCache extends L1HellaCacheModule { class HellaCache extends L1HellaCacheModule {
val io = new Bundle { val io = new Bundle {
val cpu = (new HellaCacheIO).flip val cpu = (new HellaCacheIO).flip
@ -693,7 +625,7 @@ class HellaCache extends L1HellaCacheModule {
val s1_sc = s1_req.cmd === M_XSC val s1_sc = s1_req.cmd === M_XSC
val s1_readwrite = s1_read || s1_write || isPrefetch(s1_req.cmd) val s1_readwrite = s1_read || s1_write || isPrefetch(s1_req.cmd)
val dtlb = Module(new TLB(params(NDTLBEntries))) val dtlb = Module(new TLB)
dtlb.io.ptw <> io.cpu.ptw dtlb.io.ptw <> io.cpu.ptw
dtlb.io.req.valid := s1_valid_masked && s1_readwrite && !s1_req.phys dtlb.io.req.valid := s1_valid_masked && s1_readwrite && !s1_req.phys
dtlb.io.req.bits.passthrough := s1_req.phys dtlb.io.req.bits.passthrough := s1_req.phys
@ -754,8 +686,8 @@ class HellaCache extends L1HellaCacheModule {
// data // data
val data = Module(new DataArray) val data = Module(new DataArray)
val readArb = Module(new Arbiter(new DataReadReq, 4)) val readArb = Module(new Arbiter(new L1DataReadReq, 4))
val writeArb = Module(new Arbiter(new DataWriteReq, 2)) val writeArb = Module(new Arbiter(new L1DataWriteReq, 2))
data.io.write.valid := writeArb.io.out.valid data.io.write.valid := writeArb.io.out.valid
writeArb.io.out.ready := data.io.write.ready writeArb.io.out.ready := data.io.write.ready
data.io.write.bits := writeArb.io.out.bits data.io.write.bits := writeArb.io.out.bits
@ -837,9 +769,9 @@ class HellaCache extends L1HellaCacheModule {
} }
writeArb.io.in(0).bits.addr := s3_req.addr writeArb.io.in(0).bits.addr := s3_req.addr
writeArb.io.in(0).bits.wmask := UInt(1) << (if(rowOffBits > offsetlsb) val rowIdx = s3_req.addr(rowOffBits-1,offsetlsb).toUInt
s3_req.addr(rowOffBits-1,offsetlsb).toUInt val rowWMask = UInt(1) << (if(rowOffBits > offsetlsb) rowIdx else UInt(0))
else UInt(0)) writeArb.io.in(0).bits.wmask := rowWMask
writeArb.io.in(0).bits.data := Fill(rowWords, s3_req.data) writeArb.io.in(0).bits.data := Fill(rowWords, s3_req.data)
writeArb.io.in(0).valid := s3_valid writeArb.io.in(0).valid := s3_valid
writeArb.io.in(0).bits.way_en := s3_way writeArb.io.in(0).bits.way_en := s3_way
@ -871,7 +803,7 @@ class HellaCache extends L1HellaCacheModule {
metaWriteArb.io.in(0) <> mshrs.io.meta_write metaWriteArb.io.in(0) <> mshrs.io.meta_write
// probes and releases // probes and releases
val releaseArb = Module(new LockingArbiter(new Release, 2, outerDataBeats, co.messageHasData _)) val releaseArb = Module(new LockingArbiter(new Release, 2, outerDataBeats, (r: Release) => r.hasMultibeatData()))
DecoupledLogicalNetworkIOWrapper(releaseArb.io.out) <> io.mem.release DecoupledLogicalNetworkIOWrapper(releaseArb.io.out) <> io.mem.release
val probe = DecoupledLogicalNetworkIOUnwrapper(io.mem.probe) val probe = DecoupledLogicalNetworkIOUnwrapper(io.mem.probe)
@ -886,14 +818,15 @@ class HellaCache extends L1HellaCacheModule {
prober.io.mshr_rdy := mshrs.io.probe_rdy prober.io.mshr_rdy := mshrs.io.probe_rdy
// refills // refills
def doRefill(g: Grant): Bool = co.messageUpdatesDataArray(g) val ser = Module(new FlowThroughSerializer(
val ser = Module(new FlowThroughSerializer(io.mem.grant.bits, refillCyclesPerBeat, doRefill)) io.mem.grant.bits,
refillCyclesPerBeat))
ser.io.in <> io.mem.grant ser.io.in <> io.mem.grant
val refill = ser.io.out val refill = ser.io.out
mshrs.io.mem_grant.valid := refill.fire() mshrs.io.mem_grant.valid := refill.fire()
mshrs.io.mem_grant.bits := refill.bits mshrs.io.mem_grant.bits := refill.bits
refill.ready := writeArb.io.in(1).ready || !doRefill(refill.bits.payload) refill.ready := writeArb.io.in(1).ready || !refill.bits.payload.hasData()
writeArb.io.in(1).valid := refill.valid && doRefill(refill.bits.payload) writeArb.io.in(1).valid := refill.valid && refill.bits.payload.hasData()
writeArb.io.in(1).bits := mshrs.io.mem_resp writeArb.io.in(1).bits := mshrs.io.mem_resp
writeArb.io.in(1).bits.wmask := SInt(-1) writeArb.io.in(1).bits.wmask := SInt(-1)
writeArb.io.in(1).bits.data := refill.bits.payload.data(encRowBits-1,0) writeArb.io.in(1).bits.data := refill.bits.payload.data(encRowBits-1,0)
@ -1008,15 +941,15 @@ class SimpleHellaCacheIF extends Module
io.cache.req.bits.data := RegEnable(req_arb.io.out.bits.data, s0_req_fire) io.cache.req.bits.data := RegEnable(req_arb.io.out.bits.data, s0_req_fire)
io.cache.req <> req_arb.io.out io.cache.req <> req_arb.io.out
// replay queues /* replay queues:
// replayq1 holds the older request replayq1 holds the older request.
// replayq2 holds the newer request (for the first nack) replayq2 holds the newer request (for the first nack).
// we need to split the queues like this for the case where the older request We need to split the queues like this for the case where the older request
// goes through but gets nacked, while the newer request stalls goes through but gets nacked, while the newer request stalls.
// if this happens, the newer request will go through before the older If this happens, the newer request will go through before the older one.
// request We don't need to check replayq1.io.enq.ready and replayq2.io.enq.ready as
// we don't need to check replayq1.io.enq.ready and replayq2.io.enq.ready as there will only be two requests going through at most.
// there will only be two requests going through at most */
// stash d$ request in stage 2 if nacked (older request) // stash d$ request in stage 2 if nacked (older request)
replayq1.io.enq.valid := Bool(false) replayq1.io.enq.valid := Bool(false)

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@ -6,28 +6,28 @@ import Chisel._
import uncore._ import uncore._
import Util._ import Util._
class PTWResp extends Bundle { class PTWResp extends CoreBundle {
val error = Bool() val error = Bool()
val ppn = UInt(width = params(PPNBits)) val ppn = UInt(width = ppnBits)
val perm = Bits(width = params(PermBits)) val perm = Bits(width = permBits)
} }
class TLBPTWIO extends Bundle { class TLBPTWIO extends CoreBundle {
val req = Decoupled(UInt(width = params(VPNBits))) val req = Decoupled(UInt(width = vpnBits))
val resp = Valid(new PTWResp).flip val resp = Valid(new PTWResp).flip
val status = new Status().asInput val status = new Status().asInput
val invalidate = Bool(INPUT) val invalidate = Bool(INPUT)
val sret = Bool(INPUT) val sret = Bool(INPUT)
} }
class DatapathPTWIO extends Bundle { class DatapathPTWIO extends CoreBundle {
val ptbr = UInt(INPUT, params(PAddrBits)) val ptbr = UInt(INPUT, paddrBits)
val invalidate = Bool(INPUT) val invalidate = Bool(INPUT)
val sret = Bool(INPUT) val sret = Bool(INPUT)
val status = new Status().asInput val status = new Status().asInput
} }
class PTW(n: Int) extends Module class PTW(n: Int) extends CoreModule
{ {
val io = new Bundle { val io = new Bundle {
val requestor = Vec.fill(n){new TLBPTWIO}.flip val requestor = Vec.fill(n){new TLBPTWIO}.flip
@ -36,8 +36,8 @@ class PTW(n: Int) extends Module
} }
val levels = 3 val levels = 3
val bitsPerLevel = params(VPNBits)/levels val bitsPerLevel = vpnBits/levels
require(params(VPNBits) == levels * bitsPerLevel) require(vpnBits == levels * bitsPerLevel)
val s_ready :: s_req :: s_wait :: s_done :: s_error :: Nil = Enum(UInt(), 5) val s_ready :: s_req :: s_wait :: s_done :: s_error :: Nil = Enum(UInt(), 5)
val state = Reg(init=s_ready) val state = Reg(init=s_ready)
@ -49,14 +49,14 @@ class PTW(n: Int) extends Module
val vpn_idx = Vec((0 until levels).map(i => (r_req_vpn >> (levels-i-1)*bitsPerLevel)(bitsPerLevel-1,0)))(count) val vpn_idx = Vec((0 until levels).map(i => (r_req_vpn >> (levels-i-1)*bitsPerLevel)(bitsPerLevel-1,0)))(count)
val arb = Module(new RRArbiter(UInt(width = params(VPNBits)), n)) val arb = Module(new RRArbiter(UInt(width = vpnBits), n))
arb.io.in <> io.requestor.map(_.req) arb.io.in <> io.requestor.map(_.req)
arb.io.out.ready := state === s_ready arb.io.out.ready := state === s_ready
when (arb.io.out.fire()) { when (arb.io.out.fire()) {
r_req_vpn := arb.io.out.bits r_req_vpn := arb.io.out.bits
r_req_dest := arb.io.chosen r_req_dest := arb.io.chosen
r_pte := Cat(io.dpath.ptbr(params(PAddrBits)-1,params(PgIdxBits)), io.mem.resp.bits.data(params(PgIdxBits)-1,0)) r_pte := Cat(io.dpath.ptbr(paddrBits-1,pgIdxBits), io.mem.resp.bits.data(pgIdxBits-1,0))
} }
when (io.mem.resp.valid) { when (io.mem.resp.valid) {
@ -67,13 +67,13 @@ class PTW(n: Int) extends Module
io.mem.req.bits.phys := Bool(true) io.mem.req.bits.phys := Bool(true)
io.mem.req.bits.cmd := M_XRD io.mem.req.bits.cmd := M_XRD
io.mem.req.bits.typ := MT_D io.mem.req.bits.typ := MT_D
io.mem.req.bits.addr := Cat(r_pte(params(PAddrBits)-1,params(PgIdxBits)), vpn_idx).toUInt << log2Up(params(XprLen)/8) io.mem.req.bits.addr := Cat(r_pte(paddrBits-1,pgIdxBits), vpn_idx).toUInt << log2Up(xLen/8)
io.mem.req.bits.kill := Bool(false) io.mem.req.bits.kill := Bool(false)
val resp_val = state === s_done || state === s_error val resp_val = state === s_done || state === s_error
val resp_err = state === s_error || state === s_wait val resp_err = state === s_error || state === s_wait
val r_resp_ppn = io.mem.req.bits.addr >> UInt(params(PgIdxBits)) val r_resp_ppn = io.mem.req.bits.addr >> UInt(pgIdxBits)
val resp_ppn = Vec((0 until levels-1).map(i => Cat(r_resp_ppn >> bitsPerLevel*(levels-i-1), r_req_vpn(bitsPerLevel*(levels-i-1)-1,0))) :+ r_resp_ppn)(count) val resp_ppn = Vec((0 until levels-1).map(i => Cat(r_resp_ppn >> bitsPerLevel*(levels-i-1), r_req_vpn(bitsPerLevel*(levels-i-1)-1,0))) :+ r_resp_ppn)(count)
for (i <- 0 until io.requestor.size) { for (i <- 0 until io.requestor.size) {

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@ -19,17 +19,17 @@ class RoCCInstruction extends Bundle
val opcode = Bits(width = 7) val opcode = Bits(width = 7)
} }
class RoCCCommand extends Bundle class RoCCCommand extends CoreBundle
{ {
val inst = new RoCCInstruction val inst = new RoCCInstruction
val rs1 = Bits(width = params(XprLen)) val rs1 = Bits(width = xLen)
val rs2 = Bits(width = params(XprLen)) val rs2 = Bits(width = xLen)
} }
class RoCCResponse extends Bundle class RoCCResponse extends CoreBundle
{ {
val rd = Bits(width = 5) val rd = Bits(width = 5)
val data = Bits(width = params(XprLen)) val data = Bits(width = xLen)
} }
class RoCCInterface extends Bundle class RoCCInterface extends Bundle
@ -50,7 +50,7 @@ class RoCCInterface extends Bundle
val exception = Bool(INPUT) val exception = Bool(INPUT)
} }
abstract class RoCC extends Module abstract class RoCC extends CoreModule
{ {
val io = new RoCCInterface val io = new RoCCInterface
io.mem.req.bits.phys := Bool(true) // don't perform address translation io.mem.req.bits.phys := Bool(true) // don't perform address translation
@ -59,7 +59,7 @@ abstract class RoCC extends Module
class AccumulatorExample extends RoCC class AccumulatorExample extends RoCC
{ {
val n = 4 val n = 4
val regfile = Mem(UInt(width = params(XprLen)), n) val regfile = Mem(UInt(width = xLen), n)
val busy = Vec.fill(n){Reg(init=Bool(false))} val busy = Vec.fill(n){Reg(init=Bool(false))}
val cmd = Queue(io.cmd) val cmd = Queue(io.cmd)

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@ -6,23 +6,33 @@ import Chisel._
import uncore._ import uncore._
import scala.math._ import scala.math._
class CAMIO(entries: Int, addr_bits: Int, tag_bits: Int) extends Bundle { case object NTLBEntries extends Field[Int]
abstract trait TLBParameters extends CoreParameters {
val entries = params(NTLBEntries)
val camAddrBits = ceil(log(entries)/log(2)).toInt
val camTagBits = asIdBits + vpnBits
}
abstract class TLBBundle extends Bundle with TLBParameters
abstract class TLBModule extends Module with TLBParameters
class CAMIO extends TLBBundle {
val clear = Bool(INPUT) val clear = Bool(INPUT)
val clear_hit = Bool(INPUT) val clear_hit = Bool(INPUT)
val tag = Bits(INPUT, tag_bits) val tag = Bits(INPUT, camTagBits)
val hit = Bool(OUTPUT) val hit = Bool(OUTPUT)
val hits = UInt(OUTPUT, entries) val hits = UInt(OUTPUT, entries)
val valid_bits = Bits(OUTPUT, entries) val valid_bits = Bits(OUTPUT, entries)
val write = Bool(INPUT) val write = Bool(INPUT)
val write_tag = Bits(INPUT, tag_bits) val write_tag = Bits(INPUT, camTagBits)
val write_addr = UInt(INPUT, addr_bits) val write_addr = UInt(INPUT, camAddrBits)
} }
class RocketCAM(entries: Int, tag_bits: Int) extends Module { class RocketCAM extends TLBModule {
val addr_bits = ceil(log(entries)/log(2)).toInt val io = new CAMIO
val io = new CAMIO(entries, addr_bits, tag_bits) val cam_tags = Mem(Bits(width = camTagBits), entries)
val cam_tags = Mem(Bits(width = tag_bits), entries)
val vb_array = Reg(init=Bits(0, entries)) val vb_array = Reg(init=Bits(0, entries))
when (io.write) { when (io.write) {
@ -66,30 +76,27 @@ class PseudoLRU(n: Int)
} }
} }
class TLBReq extends Bundle class TLBReq extends TLBBundle {
{ val asid = UInt(width = asIdBits)
val asid = UInt(width = params(ASIdBits)) val vpn = UInt(width = vpnBits+1)
val vpn = UInt(width = params(VPNBits)+1)
val passthrough = Bool() val passthrough = Bool()
val instruction = Bool() val instruction = Bool()
} }
class TLBResp(entries: Int) extends Bundle class TLBResp(cnt: Option[Int] = None) extends TLBBundle {
{
// lookup responses // lookup responses
val miss = Bool(OUTPUT) val miss = Bool(OUTPUT)
val hit_idx = UInt(OUTPUT, entries) val hit_idx = UInt(OUTPUT, cnt.getOrElse(entries))
val ppn = UInt(OUTPUT, params(PPNBits)) val ppn = UInt(OUTPUT, ppnBits)
val xcpt_ld = Bool(OUTPUT) val xcpt_ld = Bool(OUTPUT)
val xcpt_st = Bool(OUTPUT) val xcpt_st = Bool(OUTPUT)
val xcpt_if = Bool(OUTPUT) val xcpt_if = Bool(OUTPUT)
} }
class TLB(entries: Int) extends Module class TLB extends TLBModule {
{
val io = new Bundle { val io = new Bundle {
val req = Decoupled(new TLBReq).flip val req = Decoupled(new TLBReq).flip
val resp = new TLBResp(entries) val resp = new TLBResp
val ptw = new TLBPTWIO val ptw = new TLBPTWIO
} }
@ -98,7 +105,7 @@ class TLB(entries: Int) extends Module
val r_refill_tag = Reg(UInt()) val r_refill_tag = Reg(UInt())
val r_refill_waddr = Reg(UInt()) val r_refill_waddr = Reg(UInt())
val tag_cam = Module(new RocketCAM(entries, params(ASIdBits)+params(VPNBits))) val tag_cam = Module(new RocketCAM)
val tag_ram = Mem(io.ptw.resp.bits.ppn.clone, entries) val tag_ram = Mem(io.ptw.resp.bits.ppn.clone, entries)
val lookup_tag = Cat(io.req.bits.asid, io.req.bits.vpn).toUInt val lookup_tag = Cat(io.req.bits.asid, io.req.bits.vpn).toUInt
@ -135,7 +142,7 @@ class TLB(entries: Int) extends Module
val plru = new PseudoLRU(entries) val plru = new PseudoLRU(entries)
val repl_waddr = Mux(has_invalid_entry, invalid_entry, plru.replace) val repl_waddr = Mux(has_invalid_entry, invalid_entry, plru.replace)
val bad_va = io.req.bits.vpn(params(VPNBits)) != io.req.bits.vpn(params(VPNBits)-1) val bad_va = io.req.bits.vpn(vpnBits) != io.req.bits.vpn(vpnBits-1)
val tlb_hit = io.ptw.status.vm && tag_hit val tlb_hit = io.ptw.status.vm && tag_hit
val tlb_miss = io.ptw.status.vm && !tag_hit && !bad_va val tlb_miss = io.ptw.status.vm && !tag_hit && !bad_va