Initial version of phys/log network compiles
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@ -8,6 +8,128 @@ import ReferenceChipBackend._
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import scala.collection.mutable.ArrayBuffer
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import scala.collection.mutable.HashMap
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object TileToCrossbarShim {
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def apply[T <: Data](logIO: TileIO[T])(implicit lconf: LogicalNetworkConfiguration, pconf: PhysicalNetworkConfiguration) = {
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val shim = (new TileToCrossbarShim) { logIO.bits.clone }
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shim.io.in <> logIO
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shim.io.out
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}
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}
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class TileToCrossbarShim[T <: Data]()(data: => T)(implicit lconf: LogicalNetworkConfiguration, pconf: PhysicalNetworkConfiguration) extends Component {
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val io = new Bundle {
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val in = (new TileIO){ data }.flip
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val out = (new BasicCrossbarIO){ data }
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}
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io.out.header.src := io.in.header.src + UFix(lconf.nHubs)
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io.out.header.dst := io.in.header.dst
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io.out.bits := io.in.bits
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io.out.valid := io.in.valid
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io.in.ready := io.out.ready
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}
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object HubToCrossbarShim {
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def apply[T <: Data](logIO: HubIO[T])(implicit lconf: LogicalNetworkConfiguration, pconf: PhysicalNetworkConfiguration) = {
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val shim = (new HubToCrossbarShim) { logIO.bits.clone }
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shim.io.in <> logIO
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shim.io.out
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}
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}
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class HubToCrossbarShim[T <: Data]()(data: => T)(implicit lconf: LogicalNetworkConfiguration, pconf: PhysicalNetworkConfiguration) extends Component {
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val io = new Bundle {
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val in = (new HubIO){ data }
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val out = (new BasicCrossbarIO){ data }
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}
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io.out.header.src := io.in.header.src
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io.out.header.dst := io.in.header.dst + UFix(lconf.nHubs)
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io.out.bits := io.in.bits
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io.out.valid := io.in.valid
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io.in.ready := io.out.ready
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}
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object CrossbarToTileShim {
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def apply[T <: Data](physIO: BasicCrossbarIO[T])(implicit lconf: LogicalNetworkConfiguration, pconf: PhysicalNetworkConfiguration) = {
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val shim = (new CrossbarToTileShim) { physIO.bits.clone }
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shim.io.in <> physIO
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shim.io.out
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}
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}
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class CrossbarToTileShim[T <: Data]()(data: => T)(implicit lconf: LogicalNetworkConfiguration, pconf: PhysicalNetworkConfiguration) extends Component {
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val io = new Bundle {
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val in = (new BasicCrossbarIO){ data }.flip
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val out = (new TileIO){ data }
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}
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io.out.header.src := io.in.header.src
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io.out.header.dst := io.in.header.dst - UFix(lconf.nHubs)
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io.out.bits := io.in.bits
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io.out.valid := io.in.valid
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io.in.ready := io.out.ready
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}
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object CrossbarToHubShim {
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def apply[T <: Data](physIO: BasicCrossbarIO[T])(implicit lconf: LogicalNetworkConfiguration, pconf: PhysicalNetworkConfiguration) = {
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val shim = (new CrossbarToHubShim) { physIO.bits.clone }
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shim.io.in <> physIO
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shim.io.out
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}
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}
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class CrossbarToHubShim[T <: Data]()(data: => T)(implicit lconf: LogicalNetworkConfiguration, pconf: PhysicalNetworkConfiguration) extends Component {
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val io = new Bundle {
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val in = (new BasicCrossbarIO){ data }.flip
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val out = (new HubIO){ data }.flip
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}
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io.out.header.src := io.in.header.src - UFix(lconf.nHubs)
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io.out.header.dst := io.in.header.dst
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io.out.bits := io.in.bits
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io.out.valid := io.in.valid
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io.in.ready := io.out.ready
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}
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class ReferenceChipCrossbarNetwork(endpoints: Seq[Component])(implicit conf: LogicalNetworkConfiguration) extends LogicalNetwork[TileLink](endpoints)(conf) {
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type TileLinkType = TileLink
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val io = Vec(endpoints.map(_ match { case t:Tile => {(new TileLinkType).flip}; case h:CoherenceHub => {new TileLinkType}})){ new TileLinkType }
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//If we allow all physical networks to be identical, we can use
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//reflection to automatically create enough for any given bundle containing LogicalNetworkIOs
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val tl = new TileLinkType
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//val dataTypesPassedThroughEachPhysicalNetwork = tl.getClass.getMethods.filter( x =>
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// classOf[LogicalNetworkIO[Data]].isAssignableFrom(x.getReturnType)).map(
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// _.invoke(tl).asInstanceOf[LogicalNetworkIO[Data]].m.erasure)
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val payloadBitsForEachPhysicalNetwork = tl.getClass.getMethods.filter( x =>
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classOf[LogicalNetworkIO[Data]].isAssignableFrom(x.getReturnType)).map(
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_.invoke(tl).asInstanceOf[LogicalNetworkIO[Data]].bits)
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implicit val pconf = new PhysicalNetworkConfiguration(conf.nEndpoints, conf.idBits)//same config for all networks
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val physicalNetworks: Seq[BasicCrossbar[Data]] = payloadBitsForEachPhysicalNetwork.map(d => (new BasicCrossbar){d.clone})
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//Use reflection to get the subset of each node's TileLink
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//corresponding to each direction of dataflow and connect each sub-bundle
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//to the appropriate port of the physical crossbar network, converting the
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//headers in the process.
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//TODO: Introduce SerDes and flit/phit partitoning here
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endpoints.zip(io).zipWithIndex.map{ case ((end, io), id) => {
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val tileProducedSubBundles = io.getClass.getMethods.zipWithIndex.filter( x =>
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classOf[TileIO[Data]].isAssignableFrom(x._1.getReturnType)).map{ case (m,i) =>
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(m.invoke(io).asInstanceOf[TileIO[Data]],i) }
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val hubProducedSubBundles = io.getClass.getMethods.zipWithIndex.filter( x =>
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classOf[HubIO[Data]].isAssignableFrom(x._1.getReturnType)).map{ case (m,i) =>
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(m.invoke(io).asInstanceOf[HubIO[Data]],i) }
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end match {
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case x:Tile => {
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tileProducedSubBundles.foreach{ case (sl,i) =>
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physicalNetworks(i).io.in(id) <> TileToCrossbarShim(sl) }
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hubProducedSubBundles.foreach{ case (sl,i) =>
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sl <> CrossbarToHubShim(physicalNetworks(i).io.out(id)) }
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}
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case y:CoherenceHub => {
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hubProducedSubBundles.foreach{ case (sl,i) =>
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physicalNetworks(i).io.in(id) <> HubToCrossbarShim(sl)}
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tileProducedSubBundles.foreach{ case (sl,i) =>
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sl <> CrossbarToTileShim(physicalNetworks(i).io.out(id))}
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}
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}
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}}
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}
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object ReferenceChipBackend {
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val initMap = new HashMap[Component, Bool]()
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}
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@ -84,6 +206,14 @@ class OuterMemorySystem(htif_width: Int)(implicit conf: UncoreConfiguration) ext
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val llc = new DRAMSideLLC(512, 8, 4, llc_tag_leaf, llc_data_leaf)
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val mem_serdes = new MemSerdes(htif_width)
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val ic = ICacheConfig(128, 2, conf.co.asInstanceOf[CoherencePolicyWithUncached], ntlb = 8, nbtb = 16)
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val dc = DCacheConfig(128, 4, conf.co.asInstanceOf[CoherencePolicyWithUncached], ntlb = 8,
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nmshr = 2, nrpq = 16, nsdq = 17)
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val rc = RocketConfiguration(2, conf.co.asInstanceOf[CoherencePolicyWithUncached], ic, dc,
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fpu = true, vec = true)
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implicit val logNetConf = new LogicalNetworkConfiguration(3, 4, 1, 2)
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val testNet = new ReferenceChipCrossbarNetwork(List(hub,new Tile()(rc),new Tile()(rc)))
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for (i <- 0 until conf.ntiles) {
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hub.io.tiles(i) <> io.tiles(i)
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}
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@ -169,10 +299,10 @@ class ioTop(htif_width: Int) extends Bundle {
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val in_mem_valid = Bool(INPUT)
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val out_mem_ready = Bool(INPUT)
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val out_mem_valid = Bool(OUTPUT)
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val mem = new uncore.ioMem
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val mem = new ioMem
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}
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object DummyTopLevelConstants extends uncore.constants.CoherenceConfigConstants {
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object DummyTopLevelConstants extends _root_.uncore.constants.CoherenceConfigConstants {
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val NTILES = 1
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val HTIF_WIDTH = 16
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val ENABLE_SHARING = true
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2
uncore
2
uncore
@ -1 +1 @@
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Subproject commit bbe2066a56cac3400611ba86f1cd4395e900c278
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Subproject commit 2a1bf09c4839680b25a0a8a910750a519ad3f2a4
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