Merge branch 'master' into vectored-stvec
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3a9bbd7e58
@ -38,8 +38,8 @@ class AXI4Deinterleaver(maxReadBytes: Int)(implicit p: Parameters) extends LazyM
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out.w <> in.w
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in.b <> out.b
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if (queues == 1) {
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// Gracefully do nothing
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if (beats <= 1) {
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// Nothing to do if only single-beat R
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in.r <> out.r
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} else {
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// Buffer R response
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@ -48,7 +48,7 @@ class AXI4Deinterleaver(maxReadBytes: Int)(implicit p: Parameters) extends LazyM
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// Which ID is being enqueued and dequeued?
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val locked = RegInit(Bool(false))
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val deq_id = Reg(UInt(width=log2Ceil(queues)))
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val deq_id = Reg(UInt(width=log2Up(queues)))
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val enq_id = out.r.bits.id
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val deq_OH = UIntToOH(deq_id, queues)
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val enq_OH = UIntToOH(enq_id, queues)
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@ -34,9 +34,7 @@ class AXI4IdIndexer(idBits: Int)(implicit p: Parameters) extends LazyModule
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userBits = mp.userBits + max(0, log2Ceil(mp.endId) - idBits),
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masters = masters)
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},
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slaveFn = { sp => sp.copy(
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slaves = sp.slaves.map(s => s.copy(
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interleavedId = if (idBits == 0) Some(0) else s.interleavedId)))
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slaveFn = { sp => sp
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})
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lazy val module = new LazyModuleImp(this) {
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@ -56,16 +54,26 @@ class AXI4IdIndexer(idBits: Int)(implicit p: Parameters) extends LazyModule
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val bits = log2Ceil(edgeIn.master.endId) - idBits
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if (bits > 0) {
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// (in.aX.bits.id >> idBits).width = bits > 0
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out.ar.bits.user.get := Cat(in.ar.bits.user.toList ++ Seq(in.ar.bits.id >> idBits))
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out.aw.bits.user.get := Cat(in.aw.bits.user.toList ++ Seq(in.aw.bits.id >> idBits))
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// user.isDefined => width > 0
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in.r.bits.user.foreach { _ := out.r.bits.user.get >> bits }
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in.b.bits.user.foreach { _ := out.b.bits.user.get >> bits }
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// Special care is needed in case of 0 idBits, b/c .id has width 1 still
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if (idBits == 0) {
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out.ar.bits.id := UInt(0)
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out.aw.bits.id := UInt(0)
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in.r.bits.id := out.r.bits.user.get
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in.b.bits.id := out.b.bits.user.get
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} else {
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in.r.bits.id := Cat(out.r.bits.user.get, out.r.bits.id)
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in.b.bits.id := Cat(out.b.bits.user.get, out.b.bits.id)
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}
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}
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}
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}
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}
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object AXI4IdIndexer
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{
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@ -15,7 +15,7 @@ case class AXI4SlaveParameters(
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nodePath: Seq[BaseNode] = Seq(),
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supportsWrite: TransferSizes = TransferSizes.none,
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supportsRead: TransferSizes = TransferSizes.none,
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interleavedId: Option[Int] = None) // The device will not interleave read responses
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interleavedId: Option[Int] = None) // The device will not interleave responses (R+B)
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{
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address.foreach { a => require (a.finite) }
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address.combinations(2).foreach { case Seq(x,y) => require (!x.overlaps(y), s"$x and $y overlap") }
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@ -40,7 +40,7 @@ class AXI4RAM(address: AddressSet, executable: Boolean = true, beatBytes: Int =
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val w_full = RegInit(Bool(false))
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val w_id = Reg(UInt())
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val w_user = Reg(UInt())
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val w_user = Reg(UInt(width = 1 max in.params.userBits))
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when (in. b.fire()) { w_full := Bool(false) }
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when (in.aw.fire()) { w_full := Bool(true) }
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@ -65,7 +65,7 @@ class AXI4RAM(address: AddressSet, executable: Boolean = true, beatBytes: Int =
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val r_full = RegInit(Bool(false))
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val r_id = Reg(UInt())
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val r_user = Reg(UInt())
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val r_user = Reg(UInt(width = 1 max in.params.userBits))
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when (in. r.fire()) { r_full := Bool(false) }
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when (in.ar.fire()) { r_full := Bool(true) }
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@ -26,8 +26,8 @@ class AXI4LiteFuzzRAM()(implicit p: Parameters) extends LazyModule
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model.node := fuzz.node
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xbar.node := TLDelayer(0.1)(TLBuffer(BufferParams.flow)(TLDelayer(0.2)(model.node)))
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ram.node := AXI4Fragmenter()(AXI4Deinterleaver(16)(TLToAXI4(4, true )(xbar.node)))
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gpio.node := AXI4Fragmenter()(AXI4Deinterleaver(16)(TLToAXI4(4, false)(xbar.node)))
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ram.node := AXI4UserYanker()(AXI4IdIndexer(0)(TLToAXI4(4, true )(TLFragmenter(4, 16)(xbar.node))))
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gpio.node := AXI4UserYanker()(AXI4IdIndexer(0)(TLToAXI4(4, false)(TLFragmenter(4, 16)(xbar.node))))
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lazy val module = new LazyModuleImp(this) with HasUnitTestIO {
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io.finished := fuzz.module.io.finished
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@ -37,11 +37,13 @@ class TLFragmenter(val minSize: Int, val maxSize: Int, val alwaysMin: Boolean =
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supportsPutFull = expandTransfer(m.supportsPutFull),
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supportsPutPartial = expandTransfer(m.supportsPutPartial),
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supportsHint = expandTransfer(m.supportsHint))
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def mapClient(c: TLClientParameters) = c.copy(
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sourceId = IdRange(c.sourceId.start << fragmentBits, c.sourceId.end << fragmentBits))
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val node = TLAdapterNode(
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clientFn = { c => c.copy(clients = c.clients.map(mapClient)) },
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// We require that all the responses are mutually FIFO
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// Thus we need to compact all of the masters into one big master
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clientFn = { c => c.copy(clients = Seq(TLClientParameters(
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sourceId = IdRange(0, c.endSourceId << fragmentBits),
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requestFifo = true))) },
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managerFn = { m => m.copy(managers = m.managers.map(mapManager)) })
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lazy val module = new LazyModuleImp(this) {
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@ -175,16 +175,13 @@ class TLToAXI4(beatBytes: Int, combinational: Boolean = true)(implicit p: Parame
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val a_sel = UIntToOH(arw.id, edgeOut.master.endId).toBools
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val d_sel = UIntToOH(Mux(r_wins, out.r.bits.id, out.b.bits.id), edgeOut.master.endId).toBools
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val d_last = Mux(r_wins, out.r.bits.last, Bool(true))
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val d_first = RegInit(Bool(true))
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when (in.d.fire()) { d_first := d_last }
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val stalls = ((a_sel zip d_sel) zip idCount) filter { case (_, n) => n > 1 } map { case ((as, ds), n) =>
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val count = RegInit(UInt(0, width = log2Ceil(n + 1)))
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val write = Reg(Bool())
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val idle = count === UInt(0)
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// Once we start getting the response, it's safe to already switch R/W
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val inc = as && out_arw.fire()
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val dec = ds && d_first && in.d.fire()
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val dec = ds && d_last && in.d.fire()
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count := count + inc.asUInt - dec.asUInt
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assert (!dec || count =/= UInt(0)) // underflow
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