Cache utility traits. Completely compiles, asm tests hang.
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ca5f38ff26
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2de268b3b1
@ -5,13 +5,18 @@ import Util._
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import Node._
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import uncore._
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case object Entries extends Field[Int]
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case object BTBEntries extends Field[Int]
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case object NRAS extends Field[Int]
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case object MatchBits extends Field[Int]
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case object Pages0 extends Field[Int]
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case object Pages extends Field[Int]
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case object OpaqueBits extends Field[Int]
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case object NBHT extends Field[Int]
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abstract trait BTBParameters extends UsesParameters {
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val vaddrBits = params(VAddrBits)
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val matchBits = params(PgIdxBits)
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val entries = params(BTBEntries)
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val nRAS = params(NRAS)
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val nPages = ((1 max(log2Up(entries)))+1)/2*2 // control logic assumes 2 divides pages
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val opaqueBits = log2Up(entries)
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val nBHT = 1 << log2Up(entries*2)
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}
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class RAS(nras: Int) {
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def push(addr: UInt): Unit = {
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@ -33,8 +38,8 @@ class RAS(nras: Int) {
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private val stack = Vec.fill(nras){Reg(UInt())}
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}
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class BHTResp extends Bundle {
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val index = UInt(width = log2Up(params(NBHT)).max(1))
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class BHTResp extends Bundle with BTBParameters {
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val index = UInt(width = log2Up(nBHT).max(1))
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val value = UInt(width = 2)
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}
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@ -55,11 +60,11 @@ class BHT(nbht: Int) {
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val history = Reg(UInt(width = nbhtbits))
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}
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class BTBUpdate extends Bundle {
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class BTBUpdate extends Bundle with BTBParameters {
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val prediction = Valid(new BTBResp)
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val pc = UInt(width = params(VAddrBits))
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val target = UInt(width = params(VAddrBits))
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val returnAddr = UInt(width = params(VAddrBits))
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val pc = UInt(width = vaddrBits)
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val target = UInt(width = vaddrBits)
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val returnAddr = UInt(width = vaddrBits)
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val taken = Bool()
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val isJump = Bool()
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val isCall = Bool()
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@ -67,42 +72,42 @@ class BTBUpdate extends Bundle {
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val incorrectTarget = Bool()
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}
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class BTBResp extends Bundle {
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class BTBResp extends Bundle with BTBParameters {
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val taken = Bool()
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val target = UInt(width = params(VAddrBits))
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val entry = UInt(width = params(OpaqueBits))
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val target = UInt(width = vaddrBits)
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val entry = UInt(width = opaqueBits)
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val bht = new BHTResp
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}
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// fully-associative branch target buffer
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class BTB extends Module {
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class BTB extends Module with BTBParameters {
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val io = new Bundle {
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val req = UInt(INPUT, params(VAddrBits))
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val req = UInt(INPUT, vaddrBits)
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val resp = Valid(new BTBResp)
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val update = Valid(new BTBUpdate).flip
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val invalidate = Bool(INPUT)
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}
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val idxValid = Reg(init=UInt(0, params(Entries)))
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val idxs = Mem(UInt(width=params(MatchBits)), params(Entries))
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val idxPages = Mem(UInt(width=log2Up(params(Pages))), params(Entries))
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val tgts = Mem(UInt(width=params(MatchBits)), params(Entries))
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val tgtPages = Mem(UInt(width=log2Up(params(Pages))), params(Entries))
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val pages = Mem(UInt(width=params(VAddrBits)-params(MatchBits)), params(Pages))
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val pageValid = Reg(init=UInt(0, params(Pages)))
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val idxPagesOH = idxPages.map(UIntToOH(_)(params(Pages)-1,0))
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val tgtPagesOH = tgtPages.map(UIntToOH(_)(params(Pages)-1,0))
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val idxValid = Reg(init=UInt(0, entries))
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val idxs = Mem(UInt(width=matchBits), entries)
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val idxPages = Mem(UInt(width=log2Up(nPages)), entries)
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val tgts = Mem(UInt(width=matchBits), entries)
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val tgtPages = Mem(UInt(width=log2Up(nPages)), entries)
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val pages = Mem(UInt(width=vaddrBits-matchBits), nPages)
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val pageValid = Reg(init=UInt(0, nPages))
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val idxPagesOH = idxPages.map(UIntToOH(_)(nPages-1,0))
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val tgtPagesOH = tgtPages.map(UIntToOH(_)(nPages-1,0))
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val useRAS = Reg(UInt(width = params(Entries)))
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val isJump = Reg(UInt(width = params(Entries)))
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val useRAS = Reg(UInt(width = entries))
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val isJump = Reg(UInt(width = entries))
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private def page(addr: UInt) = addr >> params(MatchBits)
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private def page(addr: UInt) = addr >> matchBits
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private def pageMatch(addr: UInt) = {
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val p = page(addr)
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Vec(pages.map(_ === p)).toBits & pageValid
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}
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private def tagMatch(addr: UInt, pgMatch: UInt): UInt = {
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val idx = addr(params(MatchBits)-1,0)
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val idx = addr(matchBits-1,0)
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val idxMatch = idxs.map(_ === idx).toBits
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val idxPageMatch = idxPagesOH.map(_ & pgMatch).map(_.orR).toBits
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idxValid & idxMatch & idxPageMatch
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@ -123,7 +128,7 @@ class BTB extends Module {
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}
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val updateHit = update.bits.prediction.valid
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val updateValid = update.bits.incorrectTarget || updateHit && Bool(params(NBHT) > 0)
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val updateValid = update.bits.incorrectTarget || updateHit && Bool(nBHT > 0)
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val updateTarget = updateValid && update.bits.incorrectTarget
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val useUpdatePageHit = updatePageHit.orR
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@ -136,20 +141,20 @@ class BTB extends Module {
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val samePage = page(update.bits.pc) === page(update_target)
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val usePageHit = (pageHit & ~idxPageReplEn).orR
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val doTgtPageRepl = updateTarget && !samePage && !usePageHit
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val tgtPageRepl = Mux(samePage, idxPageUpdateOH, idxPageUpdateOH(params(Pages)-2,0) << 1 | idxPageUpdateOH(params(Pages)-1))
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val tgtPageRepl = Mux(samePage, idxPageUpdateOH, idxPageUpdateOH(nPages-2,0) << 1 | idxPageUpdateOH(nPages-1))
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val tgtPageUpdate = OHToUInt(Mux(usePageHit, pageHit, tgtPageRepl))
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val tgtPageReplEn = Mux(doTgtPageRepl, tgtPageRepl, UInt(0))
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val doPageRepl = doIdxPageRepl || doTgtPageRepl
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val pageReplEn = idxPageReplEn | tgtPageReplEn
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idxPageRepl := UIntToOH(Counter(update.valid && doPageRepl, params(Pages))._1)
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idxPageRepl := UIntToOH(Counter(update.valid && doPageRepl, nPages)._1)
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when (update.valid && !(updateValid && !updateTarget)) {
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val nextRepl = Counter(!updateHit && updateValid, params(Entries))._1
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val nextRepl = Counter(!updateHit && updateValid, entries)._1
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val waddr = Mux(updateHit, update.bits.prediction.bits.entry, nextRepl)
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// invalidate entries if we stomp on pages they depend upon
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idxValid := idxValid & ~Vec.tabulate(params(Entries))(i => (pageReplEn & (idxPagesOH(i) | tgtPagesOH(i))).orR).toBits
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idxValid := idxValid & ~Vec.tabulate(entries)(i => (pageReplEn & (idxPagesOH(i) | tgtPagesOH(i))).orR).toBits
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idxValid(waddr) := updateValid
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when (updateTarget) {
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@ -162,11 +167,11 @@ class BTB extends Module {
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isJump(waddr) := update.bits.isJump
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}
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require(params(Pages) % 2 == 0)
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val idxWritesEven = (idxPageUpdateOH & Fill(params(Pages)/2, UInt(1,2))).orR
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require(nPages % 2 == 0)
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val idxWritesEven = (idxPageUpdateOH & Fill(nPages/2, UInt(1,2))).orR
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def writeBank(i: Int, mod: Int, en: Bool, data: UInt) =
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for (i <- i until params(Pages) by mod)
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for (i <- i until nPages by mod)
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when (en && pageReplEn(i)) { pages(i) := data }
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writeBank(0, 2, Mux(idxWritesEven, doIdxPageRepl, doTgtPageRepl),
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@ -187,16 +192,16 @@ class BTB extends Module {
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io.resp.bits.target := Cat(Mux1H(Mux1H(hits, tgtPagesOH), pages), Mux1H(hits, tgts))
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io.resp.bits.entry := OHToUInt(hits)
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if (params(NBHT) > 0) {
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val bht = new BHT(params(NBHT))
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if (nBHT > 0) {
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val bht = new BHT(nBHT)
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val res = bht.get(io.req)
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when (update.valid && updateHit && !update.bits.isJump) { bht.update(update.bits.prediction.bits.bht, update.bits.taken) }
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when (!res.value(0) && !Mux1H(hits, isJump)) { io.resp.bits.taken := false }
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io.resp.bits.bht := res
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}
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if (params(NRAS) > 0) {
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val ras = new RAS(params(NRAS))
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if (nRAS > 0) {
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val ras = new RAS(nRAS)
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val doPeek = Mux1H(hits, useRAS)
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when (!ras.isEmpty && doPeek) {
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io.resp.bits.target := ras.peek
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@ -24,7 +24,8 @@ class Core extends Module
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val dpath = Module(new Datapath)
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if (!params(BuildFPU).isEmpty) {
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val fpu = Module(params(BuildFPU).get(),params(FPUParams))
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val p = Some(params.alter(params(FPUParams)))
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val fpu = Module(params(BuildFPU).get())(p)
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dpath.io.fpu <> fpu.io.dpath
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ctrl.io.fpu <> fpu.io.ctrl
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}
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@ -160,7 +160,7 @@ class CSRFile extends Module
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when (host_pcr_req_fire && !host_pcr_bits.rw && decoded_addr(CSRs.tohost)) { reg_tohost := UInt(0) }
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val read_impl = Bits(2)
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val read_ptbr = reg_ptbr(params(PAddrBits)-1, params(PgIdxBits)) << params(PgIdxBits)
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val read_ptbr = reg_ptbr(params(PAddrBits)-1, params(PgIdxBits)) << UInt(params(PgIdxBits))
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val read_mapping = collection.mutable.LinkedHashMap[Int,Bits](
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CSRs.fflags -> (if (!params(BuildFPU).isEmpty) reg_fflags else UInt(0)),
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@ -43,7 +43,7 @@ class CtrlDpathIO extends Bundle
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// exception handling
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val retire = Bool(OUTPUT)
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val exception = Bool(OUTPUT)
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val cause = UInt(OUTPUT, params[Int]("xprlen"))
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val cause = UInt(OUTPUT, params(XprLen))
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val badvaddr_wen = Bool(OUTPUT) // high for a load/store access fault
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// inputs from datapath
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val inst = Bits(INPUT, 32)
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@ -401,7 +401,7 @@ class Control extends Module
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val id_reg_fence = Reg(init=Bool(false))
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val sr = io.dpath.status
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var id_interrupts = (0 until sr.ip.getWidth).map(i => (sr.im(i) && sr.ip(i), UInt(BigInt(1) << (params[Int]("xprlen")-1) | i)))
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var id_interrupts = (0 until sr.ip.getWidth).map(i => (sr.im(i) && sr.ip(i), UInt(BigInt(1) << (params(XprLen)-1) | i)))
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val (id_interrupt_unmasked, id_interrupt_cause) = checkExceptions(id_interrupts)
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val id_interrupt = io.dpath.status.ei && id_interrupt_unmasked
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@ -437,7 +437,7 @@ class Control extends Module
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val id_amo_rl = io.dpath.inst(25)
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val id_fence_next = id_fence || id_amo && id_amo_rl
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val id_mem_busy = !io.dmem.ordered || ex_reg_mem_val
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val id_rocc_busy = Bool(params[Boolean]("HasRoCC")) &&
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val id_rocc_busy = Bool(!params(BuildRoCC).isEmpty) &&
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(io.rocc.busy || ex_reg_rocc_val || mem_reg_rocc_val || wb_reg_rocc_val)
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id_reg_fence := id_fence_next || id_reg_fence && id_mem_busy
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val id_do_fence = id_rocc_busy && id_fence ||
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@ -690,7 +690,7 @@ class Control extends Module
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// stall for RAW/WAW hazards on PCRs, LB/LH, and mul/div in memory stage.
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val mem_mem_cmd_bh =
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if (params[Boolean]("fastLoadWord")) Bool(!params[Boolean]("fastLoadByte")) && mem_reg_slow_bypass
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if (params(FastLoadWord)) Bool(!params(FastLoadByte)) && mem_reg_slow_bypass
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else Bool(true)
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val data_hazard_mem = mem_reg_wen &&
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(id_renx1_not0 && id_raddr1 === io.dpath.mem_waddr ||
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@ -7,19 +7,27 @@ import Util._
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case object InstBytes extends Field[Int]
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case object CoreBTBParams extends Field[PF]
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class FrontendReq extends Bundle {
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val pc = UInt(width = params(VAddrBits)+1)
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abstract trait FrontendParameters extends CacheParameters {
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val instBytes = params(InstBytes)
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val co = params(TLCoherence)
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val code = params(ECCCode)
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}
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class FrontendResp extends Bundle {
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val pc = UInt(width = params(VAddrBits)+1) // ID stage PC
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val data = Bits(width = params(InstBytes)*8)
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abstract class FrontendBundle extends Bundle with FrontendParameters
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abstract class FrontendModule extends Module with FrontendParameters
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class FrontendReq extends FrontendBundle {
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val pc = UInt(width = vaddrBits+1)
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}
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class FrontendResp extends FrontendBundle {
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val pc = UInt(width = vaddrBits+1) // ID stage PC
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val data = Bits(width = instBytes*8)
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val xcpt_ma = Bool()
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val xcpt_if = Bool()
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}
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class CPUFrontendIO extends Bundle {
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params.alter(params(CoreBTBParams))
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class CPUFrontendIO extends FrontendBundle {
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val req = Valid(new FrontendReq)
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val resp = Decoupled(new FrontendResp).flip
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val btb_resp = Valid(new BTBResp).flip
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@ -28,14 +36,14 @@ class CPUFrontendIO extends Bundle {
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val invalidate = Bool(OUTPUT)
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}
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class Frontend extends Module
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class Frontend extends FrontendModule
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{
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val io = new Bundle {
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val cpu = new CPUFrontendIO().flip
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val mem = new UncachedTileLinkIO
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}
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val btb = Module(new BTB, params(CoreBTBParams))
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val btb = Module(new BTB)
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val icache = Module(new ICache)
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val tlb = Module(new TLB(params(NTLBEntries)))
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@ -48,14 +56,14 @@ class Frontend extends Module
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val s2_btb_resp_bits = Reg(btb.io.resp.bits.clone)
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val s2_xcpt_if = Reg(init=Bool(false))
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val msb = params(VAddrBits)-1
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val msb = vaddrBits-1
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val btbTarget = Cat(btb.io.resp.bits.target(msb), btb.io.resp.bits.target)
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val pcp4_0 = s1_pc + UInt(params(InstBytes))
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val pcp4_0 = s1_pc + UInt(instBytes)
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val pcp4 = Cat(s1_pc(msb) & pcp4_0(msb), pcp4_0(msb,0))
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val icmiss = s2_valid && !icache.io.resp.valid
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val predicted_npc = Mux(btb.io.resp.bits.taken, btbTarget, pcp4)
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val npc = Mux(icmiss, s2_pc, predicted_npc).toUInt
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val s0_same_block = !icmiss && !io.cpu.req.valid && !btb.io.resp.bits.taken && ((pcp4 & params(RowBytes)) === (s1_pc & params(RowBytes)))
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val s0_same_block = !icmiss && !io.cpu.req.valid && !btb.io.resp.bits.taken && ((pcp4 & rowBytes) === (s1_pc & rowBytes))
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val stall = io.cpu.resp.valid && !io.cpu.resp.ready
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when (!stall) {
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@ -75,13 +83,13 @@ class Frontend extends Module
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s2_valid := Bool(false)
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}
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btb.io.req := s1_pc & SInt(-params(InstBytes))
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btb.io.req := s1_pc & SInt(-instBytes)
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btb.io.update := io.cpu.btb_update
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btb.io.invalidate := io.cpu.invalidate || io.cpu.ptw.invalidate
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tlb.io.ptw <> io.cpu.ptw
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tlb.io.req.valid := !stall && !icmiss
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tlb.io.req.bits.vpn := s1_pc >> UInt(params(PgIdxBits))
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tlb.io.req.bits.vpn := s1_pc >> UInt(pgIdxBits)
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tlb.io.req.bits.asid := UInt(0)
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tlb.io.req.bits.passthrough := Bool(false)
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tlb.io.req.bits.instruction := Bool(true)
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@ -95,29 +103,28 @@ class Frontend extends Module
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icache.io.resp.ready := !stall && !s1_same_block
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io.cpu.resp.valid := s2_valid && (s2_xcpt_if || icache.io.resp.valid)
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io.cpu.resp.bits.pc := s2_pc & SInt(-params(InstBytes)) // discard PC LSBs
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io.cpu.resp.bits.data := icache.io.resp.bits.datablock >> (s2_pc(log2Up(params(RowBytes))-1,log2Up(params(InstBytes))) << log2Up(params(InstBytes)*8))
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io.cpu.resp.bits.xcpt_ma := s2_pc(log2Up(params(InstBytes))-1,0) != UInt(0)
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io.cpu.resp.bits.pc := s2_pc & SInt(-instBytes) // discard PC LSBs
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io.cpu.resp.bits.data := icache.io.resp.bits.datablock >> (s2_pc(log2Up(rowBytes)-1,log2Up(instBytes)) << log2Up(instBytes*8))
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io.cpu.resp.bits.xcpt_ma := s2_pc(log2Up(instBytes)-1,0) != UInt(0)
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io.cpu.resp.bits.xcpt_if := s2_xcpt_if
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io.cpu.btb_resp.valid := s2_btb_resp_valid
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io.cpu.btb_resp.bits := s2_btb_resp_bits
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}
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class ICacheReq extends Bundle {
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val idx = UInt(width = params(PgIdxBits))
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class ICacheReq extends FrontendBundle {
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val idx = UInt(width = pgIdxBits)
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val ppn = UInt(width = params(PPNBits)) // delayed one cycle
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val kill = Bool() // delayed one cycle
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}
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class ICacheResp extends Bundle {
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val data = Bits(width = params(InstBytes)*8)
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val datablock = Bits(width = params(RowBits))
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class ICacheResp extends FrontendBundle {
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val data = Bits(width = instBytes*8)
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val datablock = Bits(width = rowBits)
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}
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class ICache extends Module
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class ICache extends FrontendModule
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{
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val (nSets, nWays, co, ecc) = (params(NSets), params(NWays), params(TLCoherence), params(ECCCode))
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val io = new Bundle {
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val req = Valid(new ICacheReq).flip
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val resp = Decoupled(new ICacheResp)
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||||
@ -125,8 +132,8 @@ class ICache extends Module
|
||||
val mem = new UncachedTileLinkIO
|
||||
}
|
||||
require(isPow2(nSets) && isPow2(nWays))
|
||||
require(isPow2(params(InstBytes)))
|
||||
require(params(PgIdxBits) >= params(UntagBits))
|
||||
require(isPow2(instBytes))
|
||||
require(pgIdxBits >= untagBits)
|
||||
|
||||
val s_ready :: s_request :: s_refill_wait :: s_refill :: Nil = Enum(UInt(), 4)
|
||||
val state = Reg(init=s_ready)
|
||||
@ -135,13 +142,13 @@ class ICache extends Module
|
||||
val rdy = Bool()
|
||||
|
||||
val s2_valid = Reg(init=Bool(false))
|
||||
val s2_addr = Reg(UInt(width = params(PAddrBits)))
|
||||
val s2_addr = Reg(UInt(width = paddrBits))
|
||||
val s2_any_tag_hit = Bool()
|
||||
|
||||
val s1_valid = Reg(init=Bool(false))
|
||||
val s1_pgoff = Reg(UInt(width = params(PgIdxBits)))
|
||||
val s1_pgoff = Reg(UInt(width = pgIdxBits))
|
||||
val s1_addr = Cat(io.req.bits.ppn, s1_pgoff).toUInt
|
||||
val s1_tag = s1_addr(params(TagBits)+params(UntagBits)-1,params(UntagBits))
|
||||
val s1_tag = s1_addr(tagBits+untagBits-1,untagBits)
|
||||
|
||||
val s0_valid = io.req.valid || s1_valid && stall
|
||||
val s0_pgoff = Mux(s1_valid && stall, s1_pgoff, io.req.bits.idx)
|
||||
@ -156,9 +163,9 @@ class ICache extends Module
|
||||
s2_addr := s1_addr
|
||||
}
|
||||
|
||||
val s2_tag = s2_addr(params(TagBits)+params(UntagBits)-1,params(UntagBits))
|
||||
val s2_idx = s2_addr(params(UntagBits)-1,params(OffBits))
|
||||
val s2_offset = s2_addr(params(OffBits)-1,0)
|
||||
val s2_tag = s2_addr(tagBits+untagBits-1,untagBits)
|
||||
val s2_idx = s2_addr(untagBits-1,blockOffBits)
|
||||
val s2_offset = s2_addr(blockOffBits-1,0)
|
||||
val s2_hit = s2_valid && s2_any_tag_hit
|
||||
val s2_miss = s2_valid && !s2_any_tag_hit
|
||||
rdy := state === s_ready && !s2_miss
|
||||
@ -168,8 +175,8 @@ class ICache extends Module
|
||||
var refill_valid = io.mem.grant.valid
|
||||
var refill_bits = io.mem.grant.bits
|
||||
def doRefill(g: Grant): Bool = Bool(true)
|
||||
if(params(RefillCycles) > 1) {
|
||||
val ser = Module(new FlowThroughSerializer(io.mem.grant.bits, params(RefillCycles), doRefill))
|
||||
if(refillCycles > 1) {
|
||||
val ser = Module(new FlowThroughSerializer(io.mem.grant.bits, refillCycles, doRefill))
|
||||
ser.io.in <> io.mem.grant
|
||||
refill_cnt = ser.io.cnt
|
||||
refill_done = ser.io.done
|
||||
@ -181,18 +188,18 @@ class ICache extends Module
|
||||
}
|
||||
//assert(!c.tlco.isVoluntary(refill_bits.payload) || !refill_valid, "UncachedRequestors shouldn't get voluntary grants.")
|
||||
|
||||
val repl_way = if (params(IsDM)) UInt(0) else LFSR16(s2_miss)(log2Up(nWays)-1,0)
|
||||
val entagbits = ecc.width(params(TagBits))
|
||||
val repl_way = if (isDM) UInt(0) else LFSR16(s2_miss)(log2Up(nWays)-1,0)
|
||||
val entagbits = code.width(tagBits)
|
||||
val tag_array = Mem(Bits(width = entagbits*nWays), nSets, seqRead = true)
|
||||
val tag_raddr = Reg(UInt())
|
||||
when (refill_done) {
|
||||
val wmask = FillInterleaved(entagbits, if (params(IsDM)) Bits(1) else UIntToOH(repl_way))
|
||||
val tag = ecc.encode(s2_tag).toUInt
|
||||
val wmask = FillInterleaved(entagbits, if (isDM) Bits(1) else UIntToOH(repl_way))
|
||||
val tag = code.encode(s2_tag).toUInt
|
||||
tag_array.write(s2_idx, Fill(nWays, tag), wmask)
|
||||
}
|
||||
// /*.else*/when (s0_valid) { // uncomment ".else" to infer 6T SRAM
|
||||
.elsewhen (s0_valid) {
|
||||
tag_raddr := s0_pgoff(params(UntagBits)-1,params(OffBits))
|
||||
tag_raddr := s0_pgoff(untagBits-1,blockOffBits)
|
||||
}
|
||||
|
||||
val vb_array = Reg(init=Bits(0, nSets*nWays))
|
||||
@ -212,38 +219,38 @@ class ICache extends Module
|
||||
val s2_dout = Vec.fill(nWays){Reg(Bits())}
|
||||
|
||||
for (i <- 0 until nWays) {
|
||||
val s1_vb = vb_array(Cat(UInt(i), s1_pgoff(params(UntagBits)-1,params(OffBits)))).toBool
|
||||
val s1_vb = vb_array(Cat(UInt(i), s1_pgoff(untagBits-1,blockOffBits))).toBool
|
||||
val s2_vb = Reg(Bool())
|
||||
val s2_tag_disparity = Reg(Bool())
|
||||
val s2_tag_match = Reg(Bool())
|
||||
val tag_out = tag_array(tag_raddr)(entagbits*(i+1)-1, entagbits*i)
|
||||
when (s1_valid && rdy && !stall) {
|
||||
s2_vb := s1_vb
|
||||
s2_tag_disparity := ecc.decode(tag_out).error
|
||||
s2_tag_disparity := code.decode(tag_out).error
|
||||
s2_tag_match := s1_tag_match(i)
|
||||
}
|
||||
s1_tag_match(i) := tag_out(params(TagBits)-1,0) === s1_tag
|
||||
s1_tag_match(i) := tag_out(tagBits-1,0) === s1_tag
|
||||
s2_tag_hit(i) := s2_vb && s2_tag_match
|
||||
s2_disparity(i) := s2_vb && (s2_tag_disparity || ecc.decode(s2_dout(i)).error)
|
||||
s2_disparity(i) := s2_vb && (s2_tag_disparity || code.decode(s2_dout(i)).error)
|
||||
}
|
||||
s2_any_tag_hit := s2_tag_hit.reduceLeft(_||_) && !s2_disparity.reduceLeft(_||_)
|
||||
|
||||
for (i <- 0 until nWays) {
|
||||
val data_array = Mem(Bits(width = ecc.width(params(RowBits))), nSets*params(RefillCycles), seqRead = true)
|
||||
val data_array = Mem(Bits(width = code.width(rowBits)), nSets*refillCycles, seqRead = true)
|
||||
val s1_raddr = Reg(UInt())
|
||||
when (refill_valid && repl_way === UInt(i)) {
|
||||
val e_d = ecc.encode(refill_bits.payload.data)
|
||||
if(params(RefillCycles) > 1) data_array(Cat(s2_idx,refill_cnt)) := e_d
|
||||
val e_d = code.encode(refill_bits.payload.data)
|
||||
if(refillCycles > 1) data_array(Cat(s2_idx,refill_cnt)) := e_d
|
||||
else data_array(s2_idx) := e_d
|
||||
}
|
||||
// /*.else*/when (s0_valid) { // uncomment ".else" to infer 6T SRAM
|
||||
.elsewhen (s0_valid) {
|
||||
s1_raddr := s0_pgoff(params(UntagBits)-1,params(OffBits)-(if(params(RefillCycles) > 1) refill_cnt.getWidth else 0))
|
||||
s1_raddr := s0_pgoff(untagBits-1,blockOffBits-(if(refillCycles > 1) refill_cnt.getWidth else 0))
|
||||
}
|
||||
// if s1_tag_match is critical, replace with partial tag check
|
||||
when (s1_valid && rdy && !stall && (Bool(params(IsDM)) || s1_tag_match(i))) { s2_dout(i) := data_array(s1_raddr) }
|
||||
when (s1_valid && rdy && !stall && (Bool(isDM) || s1_tag_match(i))) { s2_dout(i) := data_array(s1_raddr) }
|
||||
}
|
||||
val s2_dout_word = s2_dout.map(x => (x >> (s2_offset(log2Up(params(RowBytes))-1,log2Up(params(InstBytes))) << log2Up(params(InstBytes)*8)))(params(InstBytes)*8-1,0))
|
||||
val s2_dout_word = s2_dout.map(x => (x >> (s2_offset(log2Up(rowBytes)-1,log2Up(instBytes)) << log2Up(instBytes*8)))(instBytes*8-1,0))
|
||||
io.resp.bits.data := Mux1H(s2_tag_hit, s2_dout_word)
|
||||
io.resp.bits.datablock := Mux1H(s2_tag_hit, s2_dout)
|
||||
|
||||
@ -255,7 +262,7 @@ class ICache extends Module
|
||||
// output signals
|
||||
io.resp.valid := s2_hit
|
||||
io.mem.acquire.valid := (state === s_request) && ack_q.io.enq.ready
|
||||
io.mem.acquire.bits.payload := Acquire(co.getUncachedReadAcquireType, s2_addr >> UInt(params(OffBits)), UInt(0))
|
||||
io.mem.acquire.bits.payload := Acquire(co.getUncachedReadAcquireType, s2_addr >> UInt(blockOffBits), UInt(0))
|
||||
io.mem.finish <> ack_q.io.deq
|
||||
|
||||
// control state machine
|
||||
|
@ -4,26 +4,35 @@ import Chisel._
|
||||
import uncore._
|
||||
import Util._
|
||||
|
||||
//Knobs
|
||||
case object StoreDataQueueDepth extends Field[Int]
|
||||
case object ReplayQueueDepth extends Field[Int]
|
||||
case object NMSHRs extends Field[Int]
|
||||
case object NTLBEntries extends Field[Int]
|
||||
case object CoreReqTagBits extends Field[Int]
|
||||
case object CoreDataBits extends Field[Int]
|
||||
case object RowWords extends Field[Int]
|
||||
case object ECCCode extends Field[Code]
|
||||
//Derived
|
||||
case object MaxAddrBits extends Field[Int]
|
||||
case object CoreDataBytes extends Field[Int]
|
||||
case object WordOffBits extends Field[Int]
|
||||
case object RowBytes extends Field[Int]
|
||||
case object RowOffBits extends Field[Int]
|
||||
case object DoNarrowRead extends Field[Int]
|
||||
case object EncDataBits extends Field[Int]
|
||||
case object EncRowBits extends Field[Int]
|
||||
case object LRSCCycles extends Field[Int]
|
||||
|
||||
abstract trait L1HellaCacheParameters extends CacheParameters {
|
||||
val indexmsb = untagBits-1
|
||||
val indexlsb = blockOffBits
|
||||
val offsetmsb = indexlsb-1
|
||||
val offsetlsb = wordOffBits
|
||||
|
||||
val co = params(TLCoherence)
|
||||
val code = params(ECCCode)
|
||||
val coreReqTagBits = params(CoreReqTagBits)
|
||||
val coreDataBits = params(CoreDataBits)
|
||||
val maxAddrBits = math.max(params(PPNBits),params(VPNBits)+1) + params(PgIdxBits)
|
||||
val coreDataBytes = coreDataBits/8
|
||||
val doNarrowRead = coreDataBits * nWays % rowBits == 0
|
||||
val encDataBits = code.width(coreDataBits)
|
||||
val encRowBits = encDataBits*rowWords
|
||||
}
|
||||
|
||||
abstract class L1HellaCacheBundle extends Bundle with L1HellaCacheParameters
|
||||
abstract class L1HellaCacheModule extends Module with L1HellaCacheParameters
|
||||
|
||||
class StoreGen(typ: Bits, addr: Bits, dat: Bits)
|
||||
{
|
||||
val byte = typ === MT_B || typ === MT_BU
|
||||
@ -56,28 +65,71 @@ class LoadGen(typ: Bits, addr: Bits, dat: Bits, zero: Bool)
|
||||
val byte = Cat(Mux(zero || t.byte, Fill(56, sign && byteShift(7)), half(63,8)), byteShift)
|
||||
}
|
||||
|
||||
class HellaCacheReq extends L1HellaCacheBundle {
|
||||
val kill = Bool()
|
||||
val typ = Bits(width = MT_SZ)
|
||||
val phys = Bool()
|
||||
val addr = UInt(width = maxAddrBits)
|
||||
val data = Bits(width = coreDataBits)
|
||||
val tag = Bits(width = coreReqTagBits)
|
||||
val cmd = Bits(width = M_SZ)
|
||||
}
|
||||
|
||||
class HellaCacheResp extends L1HellaCacheBundle {
|
||||
val nack = Bool() // comes 2 cycles after req.fire
|
||||
val replay = Bool()
|
||||
val typ = Bits(width = 3)
|
||||
val has_data = Bool()
|
||||
val data = Bits(width = coreDataBits)
|
||||
val data_subword = Bits(width = coreDataBits)
|
||||
val tag = Bits(width = coreReqTagBits)
|
||||
val cmd = Bits(width = 4)
|
||||
val addr = UInt(width = maxAddrBits)
|
||||
val store_data = Bits(width = coreDataBits)
|
||||
}
|
||||
|
||||
class AlignmentExceptions extends Bundle {
|
||||
val ld = Bool()
|
||||
val st = Bool()
|
||||
}
|
||||
|
||||
class HellaCacheExceptions extends Bundle {
|
||||
val ma = new AlignmentExceptions
|
||||
val pf = new AlignmentExceptions
|
||||
}
|
||||
|
||||
// interface between D$ and processor/DTLB
|
||||
class HellaCacheIO extends L1HellaCacheBundle {
|
||||
val req = Decoupled(new HellaCacheReq)
|
||||
val resp = Valid(new HellaCacheResp).flip
|
||||
val replay_next = Valid(Bits(width = coreReqTagBits)).flip
|
||||
val xcpt = (new HellaCacheExceptions).asInput
|
||||
val ptw = new TLBPTWIO().flip
|
||||
val ordered = Bool(INPUT)
|
||||
}
|
||||
|
||||
class MSHRReq extends HellaCacheReq {
|
||||
val tag_match = Bool()
|
||||
val old_meta = new L1Metadata
|
||||
val way_en = Bits(width = params(NWays))
|
||||
val way_en = Bits(width = nWays)
|
||||
}
|
||||
|
||||
class Replay extends HellaCacheReq {
|
||||
val sdq_id = UInt(width = log2Up(params(StoreDataQueueDepth)))
|
||||
}
|
||||
|
||||
class DataReadReq extends Bundle {
|
||||
val way_en = Bits(width = params(NWays))
|
||||
val addr = Bits(width = params(UntagBits))
|
||||
class DataReadReq extends L1HellaCacheBundle {
|
||||
val way_en = Bits(width = nWays)
|
||||
val addr = Bits(width = untagBits)
|
||||
}
|
||||
|
||||
class DataWriteReq extends DataReadReq {
|
||||
val wmask = Bits(width = params(RowWords))
|
||||
val data = Bits(width = params(EncRowBits))
|
||||
val wmask = Bits(width = rowWords)
|
||||
val data = Bits(width = encRowBits)
|
||||
}
|
||||
|
||||
class L1MetaReadReq extends MetaReadReq {
|
||||
val tag = Bits(width = params(TagBits))
|
||||
val tag = Bits(width = tagBits)
|
||||
}
|
||||
|
||||
class L1MetaWriteReq extends
|
||||
@ -91,23 +143,22 @@ object L1Metadata {
|
||||
meta
|
||||
}
|
||||
}
|
||||
class L1Metadata extends Metadata {
|
||||
val coh = params(TLCoherence).clientMetadataOnFlush.clone
|
||||
class L1Metadata extends Metadata with L1HellaCacheParameters {
|
||||
val coh = co.clientMetadataOnFlush.clone
|
||||
}
|
||||
|
||||
class InternalProbe extends Probe with HasClientTransactionId
|
||||
|
||||
class WritebackReq extends Bundle {
|
||||
val tag = Bits(width = params(TagBits))
|
||||
val idx = Bits(width = params(IdxBits))
|
||||
val way_en = Bits(width = params(NWays))
|
||||
class WritebackReq extends L1HellaCacheBundle {
|
||||
val tag = Bits(width = tagBits)
|
||||
val idx = Bits(width = idxBits)
|
||||
val way_en = Bits(width = nWays)
|
||||
val client_xact_id = Bits(width = params(TLClientXactIdBits))
|
||||
val master_xact_id = Bits(width = params(TLMasterXactIdBits))
|
||||
val r_type = UInt(width = params(TLCoherence).releaseTypeWidth)
|
||||
val r_type = UInt(width = co.releaseTypeWidth)
|
||||
}
|
||||
|
||||
class MSHR(id: Int) extends Module {
|
||||
val co = params(TLCoherence)
|
||||
class MSHR(id: Int) extends L1HellaCacheModule {
|
||||
val io = new Bundle {
|
||||
val req_pri_val = Bool(INPUT)
|
||||
val req_pri_rdy = Bool(OUTPUT)
|
||||
@ -117,7 +168,7 @@ class MSHR(id: Int) extends Module {
|
||||
val req_sdq_id = UInt(INPUT, log2Up(params(StoreDataQueueDepth)))
|
||||
|
||||
val idx_match = Bool(OUTPUT)
|
||||
val tag = Bits(OUTPUT, params(TagBits))
|
||||
val tag = Bits(OUTPUT, tagBits)
|
||||
|
||||
val mem_req = Decoupled(new Acquire)
|
||||
val mem_resp = new DataWriteReq().asOutput
|
||||
@ -136,17 +187,17 @@ class MSHR(id: Int) extends Module {
|
||||
val acquire_type = Reg(UInt())
|
||||
val release_type = Reg(UInt())
|
||||
val line_state = Reg(new ClientMetadata()(co))
|
||||
val refill_count = Reg(UInt(width = log2Up(params(RefillCycles)))) // TODO: zero-width wire
|
||||
val refill_count = Reg(UInt(width = log2Up(refillCycles))) // TODO: zero-width wire
|
||||
val req = Reg(new MSHRReq())
|
||||
|
||||
val req_cmd = io.req_bits.cmd
|
||||
val req_idx = req.addr(params(UntagBits)-1,params(OffBits))
|
||||
val idx_match = req_idx === io.req_bits.addr(params(UntagBits)-1,params(OffBits))
|
||||
val req_idx = req.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))
|
||||
|
||||
require(isPow2(params(RefillCycles)))
|
||||
require(isPow2(refillCycles))
|
||||
val reply = io.mem_grant.valid && io.mem_grant.bits.payload.client_xact_id === UInt(id)
|
||||
val refill_done = reply && (if(params(RefillCycles) > 1) refill_count.andR else Bool(true))
|
||||
val refill_done = reply && (if(refillCycles > 1) refill_count.andR else Bool(true))
|
||||
val wb_done = reply && (state === s_wb_resp)
|
||||
|
||||
val meta_on_flush = co.clientMetadataOnFlush
|
||||
@ -172,7 +223,7 @@ class MSHR(id: Int) extends Module {
|
||||
when (state === s_refill_resp) {
|
||||
when (refill_done) { state := s_meta_write_req }
|
||||
when (reply) {
|
||||
if(params(RefillCycles) > 1) refill_count := refill_count + UInt(1)
|
||||
if(refillCycles > 1) refill_count := refill_count + UInt(1)
|
||||
line_state := meta_on_grant
|
||||
}
|
||||
}
|
||||
@ -222,8 +273,8 @@ class MSHR(id: Int) extends Module {
|
||||
|
||||
io.idx_match := (state != s_invalid) && idx_match
|
||||
io.mem_resp := req
|
||||
io.mem_resp.addr := (if(params(RefillCycles) > 1) Cat(req_idx, refill_count) else req_idx) << params(RowOffBits)
|
||||
io.tag := req.addr >> params(UntagBits)
|
||||
io.mem_resp.addr := (if(refillCycles > 1) Cat(req_idx, refill_count) else req_idx) << rowOffBits
|
||||
io.tag := req.addr >> untagBits
|
||||
io.req_pri_rdy := state === s_invalid
|
||||
io.req_sec_rdy := sec_rdy && rpq.io.enq.ready
|
||||
|
||||
@ -259,7 +310,7 @@ class MSHR(id: Int) extends Module {
|
||||
io.replay.valid := state === s_drain_rpq && rpq.io.deq.valid
|
||||
io.replay.bits := rpq.io.deq.bits
|
||||
io.replay.bits.phys := Bool(true)
|
||||
io.replay.bits.addr := Cat(io.tag, req_idx, rpq.io.deq.bits.addr(params(OffBits)-1,0)).toUInt
|
||||
io.replay.bits.addr := Cat(io.tag, req_idx, rpq.io.deq.bits.addr(blockOffBits-1,0)).toUInt
|
||||
|
||||
when (!io.meta_read.ready) {
|
||||
rpq.io.deq.ready := Bool(false)
|
||||
@ -267,7 +318,7 @@ class MSHR(id: Int) extends Module {
|
||||
}
|
||||
}
|
||||
|
||||
class MSHRFile extends Module {
|
||||
class MSHRFile extends L1HellaCacheModule {
|
||||
val io = new Bundle {
|
||||
val req = Decoupled(new MSHRReq).flip
|
||||
val secondary_miss = Bool(OUTPUT)
|
||||
@ -294,7 +345,7 @@ class MSHRFile extends Module {
|
||||
|
||||
val idxMatch = Vec.fill(params(NMSHRs)){Bool()}
|
||||
val tagList = Vec.fill(params(NMSHRs)){Bits()}
|
||||
val tag_match = Mux1H(idxMatch, tagList) === io.req.bits.addr >> params(UntagBits)
|
||||
val tag_match = Mux1H(idxMatch, tagList) === io.req.bits.addr >> untagBits
|
||||
|
||||
val wbTagList = Vec.fill(params(NMSHRs)){Bits()}
|
||||
val memRespMux = Vec.fill(params(NMSHRs)){new DataWriteReq}
|
||||
@ -367,20 +418,19 @@ class MSHRFile extends Module {
|
||||
}
|
||||
}
|
||||
|
||||
|
||||
class WritebackUnit extends Module {
|
||||
class WritebackUnit extends L1HellaCacheModule {
|
||||
val io = new Bundle {
|
||||
val req = Decoupled(new WritebackReq()).flip
|
||||
val meta_read = Decoupled(new L1MetaReadReq)
|
||||
val data_req = Decoupled(new DataReadReq())
|
||||
val data_resp = Bits(INPUT, params(EncRowBits))
|
||||
val data_resp = Bits(INPUT, encRowBits)
|
||||
val release = Decoupled(new Release)
|
||||
}
|
||||
|
||||
val active = Reg(init=Bool(false))
|
||||
val r1_data_req_fired = Reg(init=Bool(false))
|
||||
val r2_data_req_fired = Reg(init=Bool(false))
|
||||
val cnt = Reg(init = UInt(0, width = log2Up(params(RefillCycles)+1)))
|
||||
val cnt = Reg(init = UInt(0, width = log2Up(refillCycles+1)))
|
||||
val req = Reg(new WritebackReq)
|
||||
|
||||
io.release.valid := false
|
||||
@ -391,8 +441,8 @@ class WritebackUnit extends Module {
|
||||
r1_data_req_fired := true
|
||||
cnt := cnt + 1
|
||||
}
|
||||
if(params(RefillCycles) > 1) { // Coalescing buffer inserted
|
||||
when (!r1_data_req_fired && !r2_data_req_fired && cnt === params(RefillCycles)) {
|
||||
if(refillCycles > 1) { // Coalescing buffer inserted
|
||||
when (!r1_data_req_fired && !r2_data_req_fired && cnt === refillCycles) {
|
||||
io.release.valid := true
|
||||
active := !io.release.ready
|
||||
}
|
||||
@ -415,7 +465,7 @@ class WritebackUnit extends Module {
|
||||
req := io.req.bits
|
||||
}
|
||||
|
||||
val fire = active && cnt < UInt(params(RefillCycles))
|
||||
val fire = active && cnt < UInt(refillCycles)
|
||||
io.req.ready := !active
|
||||
|
||||
// We reissue the meta read as it sets up the muxing for s2_data_muxed
|
||||
@ -425,20 +475,20 @@ class WritebackUnit extends Module {
|
||||
|
||||
io.data_req.valid := fire
|
||||
io.data_req.bits.way_en := req.way_en
|
||||
if(params(RefillCycles) > 1) {
|
||||
io.data_req.bits.addr := Cat(req.idx, cnt(log2Up(params(RefillCycles))-1,0)) << params(RowOffBits)
|
||||
if(refillCycles > 1) {
|
||||
io.data_req.bits.addr := Cat(req.idx, cnt(log2Up(refillCycles)-1,0)) << rowOffBits
|
||||
} else {
|
||||
io.data_req.bits.addr := req.idx << params(RowOffBits)
|
||||
io.data_req.bits.addr := req.idx << rowOffBits
|
||||
}
|
||||
|
||||
io.release.bits.r_type := req.r_type
|
||||
io.release.bits.addr := Cat(req.tag, req.idx).toUInt
|
||||
io.release.bits.client_xact_id := req.client_xact_id
|
||||
io.release.bits.master_xact_id := req.master_xact_id
|
||||
if(params(RefillCycles) > 1) {
|
||||
if(refillCycles > 1) {
|
||||
val data_buf = Reg(Bits())
|
||||
when(active && r2_data_req_fired) {
|
||||
data_buf := Cat(io.data_resp, data_buf(params(RefillCycles)*params(EncRowBits)-1, params(EncRowBits)))
|
||||
data_buf := Cat(io.data_resp, data_buf(refillCycles*encRowBits-1, encRowBits))
|
||||
}
|
||||
io.release.bits.data := data_buf
|
||||
} else {
|
||||
@ -447,15 +497,14 @@ class WritebackUnit extends Module {
|
||||
|
||||
}
|
||||
|
||||
class ProbeUnit extends Module {
|
||||
val co = params(TLCoherence)
|
||||
class ProbeUnit extends L1HellaCacheModule {
|
||||
val io = new Bundle {
|
||||
val req = Decoupled(new InternalProbe).flip
|
||||
val rep = Decoupled(new Release)
|
||||
val meta_read = Decoupled(new L1MetaReadReq)
|
||||
val meta_write = Decoupled(new L1MetaWriteReq)
|
||||
val wb_req = Decoupled(new WritebackReq)
|
||||
val way_en = Bits(INPUT, params(NWays))
|
||||
val way_en = Bits(INPUT, nWays)
|
||||
val mshr_rdy = Bool(INPUT)
|
||||
val line_state = new ClientMetadata()(co).asInput
|
||||
}
|
||||
@ -508,60 +557,60 @@ class ProbeUnit extends Module {
|
||||
|
||||
io.meta_read.valid := state === s_meta_read
|
||||
io.meta_read.bits.idx := req.addr
|
||||
io.meta_read.bits.tag := req.addr >> params(IdxBits)
|
||||
io.meta_read.bits.tag := req.addr >> idxBits
|
||||
|
||||
io.meta_write.valid := state === s_meta_write
|
||||
io.meta_write.bits.way_en := way_en
|
||||
io.meta_write.bits.idx := req.addr
|
||||
io.meta_write.bits.data.coh := co.clientMetadataOnProbe(req, line_state)
|
||||
io.meta_write.bits.data.tag := req.addr >> UInt(params(IdxBits))
|
||||
io.meta_write.bits.data.tag := req.addr >> UInt(idxBits)
|
||||
|
||||
io.wb_req.valid := state === s_writeback_req
|
||||
io.wb_req.bits.way_en := way_en
|
||||
io.wb_req.bits.idx := req.addr
|
||||
io.wb_req.bits.tag := req.addr >> UInt(params(IdxBits))
|
||||
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
|
||||
io.wb_req.bits.master_xact_id := req.master_xact_id
|
||||
}
|
||||
|
||||
class DataArray extends Module {
|
||||
class DataArray extends L1HellaCacheModule {
|
||||
val io = new Bundle {
|
||||
val read = Decoupled(new DataReadReq).flip
|
||||
val write = Decoupled(new DataWriteReq).flip
|
||||
val resp = Vec.fill(params(NWays)){Bits(OUTPUT, params(EncRowBits))}
|
||||
val resp = Vec.fill(nWays){Bits(OUTPUT, encRowBits)}
|
||||
}
|
||||
|
||||
val waddr = io.write.bits.addr >> params(RowOffBits)
|
||||
val raddr = io.read.bits.addr >> params(RowOffBits)
|
||||
val waddr = io.write.bits.addr >> rowOffBits
|
||||
val raddr = io.read.bits.addr >> rowOffBits
|
||||
|
||||
if (params(DoNarrowRead)) {
|
||||
for (w <- 0 until params(NWays) by params(RowWords)) {
|
||||
val wway_en = io.write.bits.way_en(w+params(RowWords)-1,w)
|
||||
val rway_en = io.read.bits.way_en(w+params(RowWords)-1,w)
|
||||
val resp = Vec.fill(params(RowWords)){Bits(width = params(EncRowBits))}
|
||||
if (doNarrowRead) {
|
||||
for (w <- 0 until nWays by rowWords) {
|
||||
val wway_en = io.write.bits.way_en(w+rowWords-1,w)
|
||||
val rway_en = io.read.bits.way_en(w+rowWords-1,w)
|
||||
val resp = Vec.fill(rowWords){Bits(width = encRowBits)}
|
||||
val r_raddr = RegEnable(io.read.bits.addr, io.read.valid)
|
||||
for (p <- 0 until resp.size) {
|
||||
val array = Mem(Bits(width=params(EncRowBits)), params(NSets)*params(RefillCycles), seqRead = true)
|
||||
val array = Mem(Bits(width=encRowBits), nSets*refillCycles, seqRead = true)
|
||||
when (wway_en.orR && io.write.valid && io.write.bits.wmask(p)) {
|
||||
val data = Fill(params(RowWords), io.write.bits.data(params(EncDataBits)*(p+1)-1,params(EncDataBits)*p))
|
||||
val mask = FillInterleaved(params(EncDataBits), wway_en)
|
||||
val data = Fill(rowWords, io.write.bits.data(encDataBits*(p+1)-1,encDataBits*p))
|
||||
val mask = FillInterleaved(encDataBits, wway_en)
|
||||
array.write(waddr, data, mask)
|
||||
}
|
||||
resp(p) := array(RegEnable(raddr, rway_en.orR && io.read.valid))
|
||||
}
|
||||
for (dw <- 0 until params(RowWords)) {
|
||||
val r = Vec(resp.map(_(params(EncDataBits)*(dw+1)-1,params(EncDataBits)*dw)))
|
||||
for (dw <- 0 until rowWords) {
|
||||
val r = Vec(resp.map(_(encDataBits*(dw+1)-1,encDataBits*dw)))
|
||||
val resp_mux =
|
||||
if (r.size == 1) r
|
||||
else Vec(r(r_raddr(params(RowOffBits)-1,params(WordOffBits))), r.tail:_*)
|
||||
else Vec(r(r_raddr(rowOffBits-1,wordOffBits)), r.tail:_*)
|
||||
io.resp(w+dw) := resp_mux.toBits
|
||||
}
|
||||
}
|
||||
} else {
|
||||
val wmask = FillInterleaved(params(EncDataBits), io.write.bits.wmask)
|
||||
for (w <- 0 until params(NWays)) {
|
||||
val array = Mem(Bits(width=params(EncRowBits)), params(NSets)*params(RefillCycles), seqRead = true)
|
||||
val wmask = FillInterleaved(encDataBits, io.write.bits.wmask)
|
||||
for (w <- 0 until nWays) {
|
||||
val array = Mem(Bits(width=encRowBits), nSets*refillCycles, seqRead = true)
|
||||
when (io.write.bits.way_en(w) && io.write.valid) {
|
||||
array.write(waddr, io.write.bits.data, wmask)
|
||||
}
|
||||
@ -573,17 +622,17 @@ class DataArray extends Module {
|
||||
io.write.ready := Bool(true)
|
||||
}
|
||||
|
||||
class AMOALU extends Module {
|
||||
class AMOALU extends L1HellaCacheModule {
|
||||
val io = new Bundle {
|
||||
val addr = Bits(INPUT, params(OffBits))
|
||||
val addr = Bits(INPUT, blockOffBits)
|
||||
val cmd = Bits(INPUT, 4)
|
||||
val typ = Bits(INPUT, 3)
|
||||
val lhs = Bits(INPUT, params(CoreDataBits))
|
||||
val rhs = Bits(INPUT, params(CoreDataBits))
|
||||
val out = Bits(OUTPUT, params(CoreDataBits))
|
||||
val lhs = Bits(INPUT, coreDataBits)
|
||||
val rhs = Bits(INPUT, coreDataBits)
|
||||
val out = Bits(OUTPUT, coreDataBits)
|
||||
}
|
||||
|
||||
require(params(CoreDataBits) == 64)
|
||||
require(coreDataBits == 64)
|
||||
val storegen = new StoreGen(io.typ, io.addr, io.rhs)
|
||||
val rhs = storegen.wordData
|
||||
|
||||
@ -614,67 +663,18 @@ class AMOALU extends Module {
|
||||
io.out := wmask & out | ~wmask & io.lhs
|
||||
}
|
||||
|
||||
class HellaCacheReq extends Bundle {
|
||||
val kill = Bool()
|
||||
val typ = Bits(width = MT_SZ)
|
||||
val phys = Bool()
|
||||
val addr = UInt(width = params(MaxAddrBits))
|
||||
val data = Bits(width = params(CoreDataBits))
|
||||
val tag = Bits(width = params(CoreReqTagBits))
|
||||
val cmd = Bits(width = M_SZ)
|
||||
}
|
||||
|
||||
class HellaCacheResp extends Bundle {
|
||||
val nack = Bool() // comes 2 cycles after req.fire
|
||||
val replay = Bool()
|
||||
val typ = Bits(width = 3)
|
||||
val has_data = Bool()
|
||||
val data = Bits(width = params(CoreDataBits))
|
||||
val data_subword = Bits(width = params(CoreDataBits))
|
||||
val tag = Bits(width = params(CoreReqTagBits))
|
||||
val cmd = Bits(width = 4)
|
||||
val addr = UInt(width = params(MaxAddrBits))
|
||||
val store_data = Bits(width = params(CoreDataBits))
|
||||
}
|
||||
|
||||
class AlignmentExceptions extends Bundle {
|
||||
val ld = Bool()
|
||||
val st = Bool()
|
||||
}
|
||||
|
||||
class HellaCacheExceptions extends Bundle {
|
||||
val ma = new AlignmentExceptions
|
||||
val pf = new AlignmentExceptions
|
||||
}
|
||||
|
||||
// interface between D$ and processor/DTLB
|
||||
class HellaCacheIO extends Bundle {
|
||||
val req = Decoupled(new HellaCacheReq)
|
||||
val resp = Valid(new HellaCacheResp).flip
|
||||
val replay_next = Valid(Bits(width = params(CoreReqTagBits))).flip
|
||||
val xcpt = (new HellaCacheExceptions).asInput
|
||||
val ptw = new TLBPTWIO().flip
|
||||
val ordered = Bool(INPUT)
|
||||
}
|
||||
|
||||
class HellaCache extends Module {
|
||||
val co = params(TLCoherence)
|
||||
class HellaCache extends L1HellaCacheModule {
|
||||
val io = new Bundle {
|
||||
val cpu = (new HellaCacheIO).flip
|
||||
val mem = new TileLinkIO
|
||||
}
|
||||
|
||||
require(params(LRSCCycles) >= 32) // ISA requires 16-insn LRSC sequences to succeed
|
||||
require(isPow2(params(NSets)))
|
||||
require(isPow2(params(NWays))) // TODO: relax this
|
||||
require(isPow2(nSets))
|
||||
require(isPow2(nWays)) // TODO: relax this
|
||||
require(params(RowBits) <= params(TLDataBits))
|
||||
require(params(PAddrBits)-params(OffBits) == params(TLAddrBits) )
|
||||
require(params(UntagBits) <= params(PgIdxBits))
|
||||
|
||||
val indexmsb = params(UntagBits)-1
|
||||
val indexlsb = params(OffBits)
|
||||
val offsetmsb = indexlsb-1
|
||||
val offsetlsb = params(WordOffBits)
|
||||
require(paddrBits-blockOffBits == params(TLAddrBits) )
|
||||
require(untagBits <= pgIdxBits)
|
||||
|
||||
val wb = Module(new WritebackUnit)
|
||||
val prober = Module(new ProbeUnit)
|
||||
@ -708,7 +708,7 @@ class HellaCache extends Module {
|
||||
dtlb.io.req.valid := s1_valid_masked && s1_readwrite && !s1_req.phys
|
||||
dtlb.io.req.bits.passthrough := s1_req.phys
|
||||
dtlb.io.req.bits.asid := UInt(0)
|
||||
dtlb.io.req.bits.vpn := s1_req.addr >> params(PgIdxBits)
|
||||
dtlb.io.req.bits.vpn := s1_req.addr >> pgIdxBits
|
||||
dtlb.io.req.bits.instruction := Bool(false)
|
||||
when (!dtlb.io.req.ready && !io.cpu.req.bits.phys) { io.cpu.req.ready := Bool(false) }
|
||||
|
||||
@ -716,11 +716,11 @@ class HellaCache extends Module {
|
||||
s1_req := io.cpu.req.bits
|
||||
}
|
||||
when (wb.io.meta_read.valid) {
|
||||
s1_req.addr := Cat(wb.io.meta_read.bits.tag, wb.io.meta_read.bits.idx) << params(OffBits)
|
||||
s1_req.addr := Cat(wb.io.meta_read.bits.tag, wb.io.meta_read.bits.idx) << blockOffBits
|
||||
s1_req.phys := Bool(true)
|
||||
}
|
||||
when (prober.io.meta_read.valid) {
|
||||
s1_req.addr := Cat(prober.io.meta_read.bits.tag, prober.io.meta_read.bits.idx) << params(OffBits)
|
||||
s1_req.addr := Cat(prober.io.meta_read.bits.tag, prober.io.meta_read.bits.idx) << blockOffBits
|
||||
s1_req.phys := Bool(true)
|
||||
}
|
||||
when (mshrs.io.replay.valid) {
|
||||
@ -729,7 +729,7 @@ class HellaCache extends Module {
|
||||
when (s2_recycle) {
|
||||
s1_req := s2_req
|
||||
}
|
||||
val s1_addr = Cat(dtlb.io.resp.ppn, s1_req.addr(params(PgIdxBits)-1,0))
|
||||
val s1_addr = Cat(dtlb.io.resp.ppn, s1_req.addr(pgIdxBits-1,0))
|
||||
|
||||
when (s1_clk_en) {
|
||||
s2_req.kill := s1_req.kill
|
||||
@ -769,12 +769,12 @@ class HellaCache extends Module {
|
||||
data.io.write.valid := writeArb.io.out.valid
|
||||
writeArb.io.out.ready := data.io.write.ready
|
||||
data.io.write.bits := writeArb.io.out.bits
|
||||
val wdata_encoded = (0 until params(RowWords)).map(i => params(ECCCode).encode(writeArb.io.out.bits.data(params(CoreDataBits)*(i+1)-1,params(CoreDataBits)*i)))
|
||||
val wdata_encoded = (0 until rowWords).map(i => code.encode(writeArb.io.out.bits.data(coreDataBits*(i+1)-1,coreDataBits*i)))
|
||||
data.io.write.bits.data := Vec(wdata_encoded).toBits
|
||||
|
||||
// tag read for new requests
|
||||
metaReadArb.io.in(4).valid := io.cpu.req.valid
|
||||
metaReadArb.io.in(4).bits.idx := io.cpu.req.bits.addr >> params(OffBits)
|
||||
metaReadArb.io.in(4).bits.idx := io.cpu.req.bits.addr >> blockOffBits
|
||||
when (!metaReadArb.io.in(4).ready) { io.cpu.req.ready := Bool(false) }
|
||||
|
||||
// data read for new requests
|
||||
@ -785,14 +785,14 @@ class HellaCache extends Module {
|
||||
|
||||
// recycled requests
|
||||
metaReadArb.io.in(0).valid := s2_recycle
|
||||
metaReadArb.io.in(0).bits.idx := s2_req.addr >> params(OffBits)
|
||||
metaReadArb.io.in(0).bits.idx := s2_req.addr >> blockOffBits
|
||||
readArb.io.in(0).valid := s2_recycle
|
||||
readArb.io.in(0).bits.addr := s2_req.addr
|
||||
readArb.io.in(0).bits.way_en := SInt(-1)
|
||||
|
||||
// tag check and way muxing
|
||||
def wayMap[T <: Data](f: Int => T) = Vec((0 until params(NWays)).map(f))
|
||||
val s1_tag_eq_way = wayMap((w: Int) => meta.io.resp(w).tag === (s1_addr >> params(UntagBits))).toBits
|
||||
def wayMap[T <: Data](f: Int => T) = Vec((0 until nWays).map(f))
|
||||
val s1_tag_eq_way = wayMap((w: Int) => meta.io.resp(w).tag === (s1_addr >> untagBits)).toBits
|
||||
val s1_tag_match_way = wayMap((w: Int) => s1_tag_eq_way(w) && co.isValid(meta.io.resp(w).coh)).toBits
|
||||
s1_clk_en := metaReadArb.io.out.valid //TODO: should be metaReadArb.io.out.fire(), but triggers Verilog backend bug
|
||||
val s1_writeback = s1_clk_en && !s1_valid && !s1_replay
|
||||
@ -806,13 +806,13 @@ class HellaCache extends Module {
|
||||
val lrsc_valid = lrsc_count.orR
|
||||
val lrsc_addr = Reg(UInt())
|
||||
val (s2_lr, s2_sc) = (s2_req.cmd === M_XLR, s2_req.cmd === M_XSC)
|
||||
val s2_lrsc_addr_match = lrsc_valid && lrsc_addr === (s2_req.addr >> params(OffBits))
|
||||
val s2_lrsc_addr_match = lrsc_valid && lrsc_addr === (s2_req.addr >> blockOffBits)
|
||||
val s2_sc_fail = s2_sc && !s2_lrsc_addr_match
|
||||
when (lrsc_valid) { lrsc_count := lrsc_count - 1 }
|
||||
when (s2_valid_masked && s2_hit || s2_replay) {
|
||||
when (s2_lr) {
|
||||
when (!lrsc_valid) { lrsc_count := params(LRSCCycles)-1 }
|
||||
lrsc_addr := s2_req.addr >> params(OffBits)
|
||||
lrsc_addr := s2_req.addr >> blockOffBits
|
||||
}
|
||||
when (s2_sc) {
|
||||
lrsc_count := 0
|
||||
@ -820,21 +820,21 @@ class HellaCache extends Module {
|
||||
}
|
||||
when (io.cpu.ptw.sret) { lrsc_count := 0 }
|
||||
|
||||
val s2_data = Vec.fill(params(NWays)){Bits(width = params(EncRowBits))}
|
||||
for (w <- 0 until params(NWays)) {
|
||||
val regs = Vec.fill(params(RowWords)){Reg(Bits(width = params(EncDataBits)))}
|
||||
val s2_data = Vec.fill(nWays){Bits(width = encRowBits)}
|
||||
for (w <- 0 until nWays) {
|
||||
val regs = Vec.fill(rowWords){Reg(Bits(width = encDataBits))}
|
||||
val en1 = s1_clk_en && s1_tag_eq_way(w)
|
||||
for (i <- 0 until regs.size) {
|
||||
val en = en1 && ((Bool(i == 0) || !params(DoNarrowRead)) || s1_writeback)
|
||||
when (en) { regs(i) := data.io.resp(w) >> params(EncDataBits)*i }
|
||||
val en = en1 && (Bool(i == 0 || !doNarrowRead) || s1_writeback)
|
||||
when (en) { regs(i) := data.io.resp(w) >> encDataBits*i }
|
||||
}
|
||||
s2_data(w) := regs.toBits
|
||||
}
|
||||
val s2_data_muxed = Mux1H(s2_tag_match_way, s2_data)
|
||||
val s2_data_decoded = (0 until params(RowWords)).map(i => params(ECCCode).decode(s2_data_muxed(params(EncDataBits)*(i+1)-1,params(EncDataBits)*i)))
|
||||
val s2_data_decoded = (0 until rowWords).map(i => code.decode(s2_data_muxed(encDataBits*(i+1)-1,encDataBits*i)))
|
||||
val s2_data_corrected = Vec(s2_data_decoded.map(_.corrected)).toBits
|
||||
val s2_data_uncorrected = Vec(s2_data_decoded.map(_.uncorrected)).toBits
|
||||
val s2_word_idx = if (params(DoNarrowRead)) UInt(0) else s2_req.addr(log2Up(params(RowWords)*params(CoreDataBytes))-1,3)
|
||||
val s2_word_idx = if(doNarrowRead) UInt(0) else s2_req.addr(log2Up(rowWords*coreDataBytes)-1,3)
|
||||
val s2_data_correctable = Vec(s2_data_decoded.map(_.correctable)).toBits()(s2_word_idx)
|
||||
|
||||
// store/amo hits
|
||||
@ -847,10 +847,10 @@ class HellaCache extends Module {
|
||||
}
|
||||
|
||||
writeArb.io.in(0).bits.addr := s3_req.addr
|
||||
writeArb.io.in(0).bits.wmask := UInt(1) << (if(params(RowOffBits) > offsetlsb)
|
||||
s3_req.addr(params(RowOffBits)-1,offsetlsb).toUInt
|
||||
writeArb.io.in(0).bits.wmask := UInt(1) << (if(rowOffBits > offsetlsb)
|
||||
s3_req.addr(rowOffBits-1,offsetlsb).toUInt
|
||||
else UInt(0))
|
||||
writeArb.io.in(0).bits.data := Fill(params(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).bits.way_en := s3_way
|
||||
|
||||
@ -897,8 +897,8 @@ class HellaCache extends Module {
|
||||
|
||||
// refills
|
||||
def doRefill(g: Grant): Bool = co.messageUpdatesDataArray(g)
|
||||
val refill = if(params(RefillCycles) > 1) {
|
||||
val ser = Module(new FlowThroughSerializer(io.mem.grant.bits, params(RefillCycles), doRefill))
|
||||
val refill = if(refillCycles > 1) {
|
||||
val ser = Module(new FlowThroughSerializer(io.mem.grant.bits, refillCycles, doRefill))
|
||||
ser.io.in <> io.mem.grant
|
||||
ser.io.out
|
||||
} else io.mem.grant
|
||||
@ -908,7 +908,7 @@ class HellaCache extends Module {
|
||||
writeArb.io.in(1).valid := refill.valid && doRefill(refill.bits.payload)
|
||||
writeArb.io.in(1).bits := mshrs.io.mem_resp
|
||||
writeArb.io.in(1).bits.wmask := SInt(-1)
|
||||
writeArb.io.in(1).bits.data := refill.bits.payload.data(params(EncRowBits)-1,0)
|
||||
writeArb.io.in(1).bits.data := refill.bits.payload.data(encRowBits-1,0)
|
||||
readArb.io.out.ready := !refill.valid || refill.ready // insert bubble if refill gets blocked
|
||||
readArb.io.out <> data.io.read
|
||||
|
||||
@ -929,8 +929,8 @@ class HellaCache extends Module {
|
||||
((s2_valid_masked || s2_replay) && !s2_sc_fail, s2_req, amoalu.io.out),
|
||||
(s3_valid, s3_req, s3_req.data),
|
||||
(s4_valid, s4_req, s4_req.data)
|
||||
).map(r => (r._1 && (s1_addr >> params(WordOffBits) === r._2.addr >> params(WordOffBits)) && isWrite(r._2.cmd), r._3))
|
||||
val s2_store_bypass_data = Reg(Bits(width = params(CoreDataBits)))
|
||||
).map(r => (r._1 && (s1_addr >> wordOffBits === r._2.addr >> wordOffBits) && isWrite(r._2.cmd), r._3))
|
||||
val s2_store_bypass_data = Reg(Bits(width = coreDataBits))
|
||||
val s2_store_bypass = Reg(Bool())
|
||||
when (s1_clk_en) {
|
||||
s2_store_bypass := false
|
||||
@ -941,7 +941,7 @@ class HellaCache extends Module {
|
||||
}
|
||||
|
||||
// load data subword mux/sign extension
|
||||
val s2_data_word_prebypass = s2_data_uncorrected >> Cat(s2_word_idx, Bits(0,log2Up(params(CoreDataBits))))
|
||||
val s2_data_word_prebypass = s2_data_uncorrected >> Cat(s2_word_idx, Bits(0,log2Up(coreDataBits)))
|
||||
val s2_data_word = Mux(s2_store_bypass, s2_store_bypass_data, s2_data_word_prebypass)
|
||||
val loadgen = new LoadGen(s2_req.typ, s2_req.addr, s2_data_word, s2_sc)
|
||||
|
||||
|
@ -71,7 +71,7 @@ class PTW(n: Int) extends Module
|
||||
val resp_val = state === s_done || state === s_error
|
||||
val resp_err = state === s_error || state === s_wait
|
||||
|
||||
val r_resp_ppn = io.mem.req.bits.addr >> params(PgIdxBits)
|
||||
val r_resp_ppn = io.mem.req.bits.addr >> UInt(params(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)
|
||||
|
||||
for (i <- 0 until io.requestor.size) {
|
||||
|
@ -32,15 +32,16 @@ class Tile(resetSignal: Bool = null) extends Module(_reset = resetSignal) {
|
||||
|
||||
val optionalRoCC = params(BuildRoCC)
|
||||
|
||||
val p = params.alter(params(CoreBTBParams)).alter(params(RocketFrontendParams)) // Used in icache, Core
|
||||
val p = params.alter(params(RocketFrontendParams)) // Used in icache, Core
|
||||
val icache = Module(new Frontend)(p) //TODO PARAMS: best way to alter both?
|
||||
params.alter(params(RocketDCacheParams)) // Used in dcache, PTW, RoCCm Core
|
||||
val dcache = Module(new HellaCache)
|
||||
val ptw = Module(new PTW(if(optionalRoCC.isEmpty) 2 else 5))
|
||||
val p2 = params.alter(params(RocketDCacheParams)) // Used in dcache, PTW, RoCCm Core
|
||||
val dcache = Module(new HellaCache)(p2)
|
||||
val ptw = Module(new PTW(if(optionalRoCC.isEmpty) 2 else 5))(p2)
|
||||
// 2 ports, 1 from I$, 1 from D$, maybe 3 from RoCC
|
||||
val core = Module(new Core)
|
||||
val p3 = params.alter(params(RocketFrontendParams)).alter(params(RocketDCacheParams))
|
||||
val core = Module(new Core)(p3)
|
||||
|
||||
val dcArb = Module(new HellaCacheArbiter(params(NDCachePorts)))
|
||||
val dcArb = Module(new HellaCacheArbiter(params(NDCachePorts)))(p2)
|
||||
dcArb.io.requestor(0) <> ptw.io.mem
|
||||
dcArb.io.requestor(1) <> core.io.dmem
|
||||
dcArb.io.mem <> dcache.io.cpu
|
||||
|
Loading…
Reference in New Issue
Block a user