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tilelink2: make sink ids optional (#607)

* tilelink2: make sink ids optional

* CacheCork: add a special-case for 1 sink id
This commit is contained in:
Wesley W. Terpstra 2017-03-23 18:19:04 -07:00 committed by GitHub
parent 19eb9b6906
commit bd08f10816
4 changed files with 20 additions and 16 deletions

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@ -16,10 +16,12 @@ class TLCacheCork(unsafe: Boolean = false)(implicit p: Parameters) extends LazyM
cp.copy(clients = cp.clients.map { c => c.copy( cp.copy(clients = cp.clients.map { c => c.copy(
sourceId = IdRange(c.sourceId.start*2, c.sourceId.end*2))})}, sourceId = IdRange(c.sourceId.start*2, c.sourceId.end*2))})},
managerFn = { case mp => managerFn = { case mp =>
mp.copy(managers = mp.managers.map { m => m.copy( mp.copy(
regionType = if (m.regionType == RegionType.UNCACHED) RegionType.TRACKED else m.regionType, endSinkId = 1,
supportsAcquireB = m.supportsGet, managers = mp.managers.map { m => m.copy(
supportsAcquireT = m.supportsPutFull)})}) regionType = if (m.regionType == RegionType.UNCACHED) RegionType.TRACKED else m.regionType,
supportsAcquireB = m.supportsGet,
supportsAcquireT = m.supportsPutFull)})})
lazy val module = new LazyModuleImp(this) { lazy val module = new LazyModuleImp(this) {
val io = new Bundle { val io = new Bundle {

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@ -232,7 +232,7 @@ class TLMonitor(args: TLMonitorArgs) extends TLMonitorBase(args)
val source_ok = edge.client.contains(bundle.source) val source_ok = edge.client.contains(bundle.source)
val is_aligned = edge.isAligned(bundle.addr_lo, bundle.size) val is_aligned = edge.isAligned(bundle.addr_lo, bundle.size)
val sink_ok = bundle.sink < UInt(edge.manager.endSinkId) val sink_ok = Bool(edge.manager.endSinkId == 0) || bundle.sink < UInt(edge.manager.endSinkId)
when (bundle.opcode === TLMessages.ReleaseAck) { when (bundle.opcode === TLMessages.ReleaseAck) {
assert (source_ok, "'D' channel ReleaseAck carries invalid source ID" + extra) assert (source_ok, "'D' channel ReleaseAck carries invalid source ID" + extra)
@ -286,7 +286,7 @@ class TLMonitor(args: TLMonitorArgs) extends TLMonitorBase(args)
} }
def legalizeFormatE(bundle: TLBundleE, edge: TLEdge)(implicit sourceInfo: SourceInfo) { def legalizeFormatE(bundle: TLBundleE, edge: TLEdge)(implicit sourceInfo: SourceInfo) {
val sink_ok = bundle.sink < UInt(edge.manager.endSinkId) val sink_ok = Bool(edge.manager.endSinkId == 0) || bundle.sink < UInt(edge.manager.endSinkId)
assert (sink_ok, "'E' channels carries invalid sink ID" + extra) assert (sink_ok, "'E' channels carries invalid sink ID" + extra)
} }
@ -461,7 +461,7 @@ class TLMonitor(args: TLMonitorArgs) extends TLMonitorBase(args)
legalizeADSource(bundle, edge) legalizeADSource(bundle, edge)
if (edge.client.anySupportProbe && edge.manager.anySupportAcquireB) { if (edge.client.anySupportProbe && edge.manager.anySupportAcquireB) {
// legalizeBCSourceAddress(bundle, edge) // too much state needed to synthesize... // legalizeBCSourceAddress(bundle, edge) // too much state needed to synthesize...
legalizeDESink(bundle, edge) if (edge.manager.endSinkId > 1) legalizeDESink(bundle, edge)
} }
} }

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@ -69,12 +69,12 @@ case class TLManagerParameters(
case class TLManagerPortParameters( case class TLManagerPortParameters(
managers: Seq[TLManagerParameters], managers: Seq[TLManagerParameters],
beatBytes: Int, beatBytes: Int,
endSinkId: Int = 1, endSinkId: Int = 0, // 0 = no sink ids, 1 = a reusable sink id, >1 = unique sink ids
minLatency: Int = 0) minLatency: Int = 0)
{ {
require (!managers.isEmpty) require (!managers.isEmpty)
require (isPow2(beatBytes)) require (isPow2(beatBytes))
require (endSinkId > 0) require (endSinkId >= 0)
require (minLatency >= 0) require (minLatency >= 0)
def requireFifo() = managers.foreach { m =>require (m.fifoId == Some(0)) } def requireFifo() = managers.foreach { m =>require (m.fifoId == Some(0)) }

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@ -8,14 +8,16 @@ import diplomacy._
class TLXbar(policy: TLArbiter.Policy = TLArbiter.lowestIndexFirst)(implicit p: Parameters) extends LazyModule class TLXbar(policy: TLArbiter.Policy = TLArbiter.lowestIndexFirst)(implicit p: Parameters) extends LazyModule
{ {
def mapInputIds (ports: Seq[TLClientPortParameters ]) = assignRanges(ports.map(_.endSourceId)) def mapInputIds (ports: Seq[TLClientPortParameters ]) = assignRanges(ports.map(_.endSourceId)).map(_.get)
def mapOutputIds(ports: Seq[TLManagerPortParameters]) = assignRanges(ports.map(_.endSinkId)) def mapOutputIds(ports: Seq[TLManagerPortParameters]) = assignRanges(ports.map(_.endSinkId))
def assignRanges(sizes: Seq[Int]) = { def assignRanges(sizes: Seq[Int]) = {
val pow2Sizes = sizes.map(1 << log2Ceil(_)) val pow2Sizes = sizes.map { z => if (z == 0) 0 else 1 << log2Ceil(z) }
val tuples = pow2Sizes.zipWithIndex.sortBy(_._1) // record old index, then sort by increasing size val tuples = pow2Sizes.zipWithIndex.sortBy(_._1) // record old index, then sort by increasing size
val starts = tuples.scanRight(0)(_._1 + _).tail // suffix-sum of the sizes = the start positions val starts = tuples.scanRight(0)(_._1 + _).tail // suffix-sum of the sizes = the start positions
val ranges = (tuples zip starts) map { case ((sz, i), st) => (IdRange(st, st+sz), i) } val ranges = (tuples zip starts) map { case ((sz, i), st) =>
(if (sz == 0) None else Some(IdRange(st, st+sz)), i)
}
ranges.sortBy(_._2).map(_._1) // Restore orignal order ranges.sortBy(_._2).map(_._1) // Restore orignal order
} }
@ -54,7 +56,7 @@ class TLXbar(policy: TLArbiter.Policy = TLArbiter.lowestIndexFirst)(implicit p:
val outputIdRanges = mapOutputIds(seq) val outputIdRanges = mapOutputIds(seq)
seq(0).copy( seq(0).copy(
minLatency = seq.map(_.minLatency).min, minLatency = seq.map(_.minLatency).min,
endSinkId = outputIdRanges.map(_.end).max, endSinkId = outputIdRanges.map(_.map(_.end).getOrElse(0)).max,
managers = ManagerUnification(seq.flatMap { port => managers = ManagerUnification(seq.flatMap { port =>
// println(s"${port.managers.map(_.name)} ${port.beatBytes} vs ${seq(0).managers.map(_.name)} ${seq(0).beatBytes}") // println(s"${port.managers.map(_.name)} ${port.beatBytes} vs ${seq(0).managers.map(_.name)} ${seq(0).beatBytes}")
require (port.beatBytes == seq(0).beatBytes) require (port.beatBytes == seq(0).beatBytes)
@ -132,13 +134,13 @@ class TLXbar(policy: TLArbiter.Policy = TLArbiter.lowestIndexFirst)(implicit p:
io.out(i).a <> out(i).a io.out(i).a <> out(i).a
out(i).d <> io.out(i).d out(i).d <> io.out(i).d
out(i).d.bits.sink := io.out(i).d.bits.sink | UInt(r.start) out(i).d.bits.sink := io.out(i).d.bits.sink | UInt(r.map(_.start).getOrElse(0))
if (node.edgesOut(i).manager.anySupportAcquireB && node.edgesIn.exists(_.client.anySupportProbe)) { if (node.edgesOut(i).manager.anySupportAcquireB && node.edgesIn.exists(_.client.anySupportProbe)) {
io.out(i).c <> out(i).c io.out(i).c <> out(i).c
io.out(i).e <> out(i).e io.out(i).e <> out(i).e
out(i).b <> io.out(i).b out(i).b <> io.out(i).b
io.out(i).e.bits.sink := trim(out(i).e.bits.sink, r.size) io.out(i).e.bits.sink := trim(out(i).e.bits.sink, r.map(_.size).getOrElse(0))
} else { } else {
out(i).c.ready := Bool(false) out(i).c.ready := Bool(false)
out(i).e.ready := Bool(false) out(i).e.ready := Bool(false)
@ -156,7 +158,7 @@ class TLXbar(policy: TLArbiter.Policy = TLArbiter.lowestIndexFirst)(implicit p:
val requestCIO = Vec(addressC.map { i => Vec(outputPorts.map { o => o(i) }) }) val requestCIO = Vec(addressC.map { i => Vec(outputPorts.map { o => o(i) }) })
val requestBOI = Vec(out.map { o => Vec(inputIdRanges.map { i => i.contains(o.b.bits.source) }) }) val requestBOI = Vec(out.map { o => Vec(inputIdRanges.map { i => i.contains(o.b.bits.source) }) })
val requestDOI = Vec(out.map { o => Vec(inputIdRanges.map { i => i.contains(o.d.bits.source) }) }) val requestDOI = Vec(out.map { o => Vec(inputIdRanges.map { i => i.contains(o.d.bits.source) }) })
val requestEIO = Vec(in.map { i => Vec(outputIdRanges.map { o => o.contains(i.e.bits.sink) }) }) val requestEIO = Vec(in.map { i => Vec(outputIdRanges.map { o => o.map(_.contains(i.e.bits.sink)).getOrElse(Bool(false)) }) })
val beatsAI = Vec((in zip node.edgesIn) map { case (i, e) => e.numBeats1(i.a.bits) }) val beatsAI = Vec((in zip node.edgesIn) map { case (i, e) => e.numBeats1(i.a.bits) })
val beatsBO = Vec((out zip node.edgesOut) map { case (o, e) => e.numBeats1(o.b.bits) }) val beatsBO = Vec((out zip node.edgesOut) map { case (o, e) => e.numBeats1(o.b.bits) })