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Refactored packet headers/payloads

This commit is contained in:
Henry Cook 2013-01-15 15:57:06 -08:00
parent a922b60152
commit e33648532b
4 changed files with 100 additions and 75 deletions

@ -1 +1 @@
Subproject commit f6548d6cb5ff1b62077e8fd52ab9834fdabd8037 Subproject commit 2dda8064a3e102e364f337b56eb98bf93a0c67bb

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@ -10,82 +10,82 @@ import scala.collection.mutable.HashMap
object TileToCrossbarShim { object TileToCrossbarShim {
def apply[T <: Data](logIO: TileIO[T])(implicit lconf: LogicalNetworkConfiguration, pconf: PhysicalNetworkConfiguration) = { def apply[T <: Data](logIO: ClientSourcedIO[LogicalNetworkIO[T]])(implicit lconf: LogicalNetworkConfiguration, pconf: PhysicalNetworkConfiguration) = {
val shim = (new TileToCrossbarShim) { logIO.bits.clone } val shim = (new TileToCrossbarShim) { logIO.bits.payload.clone }
shim.io.in <> logIO shim.io.in <> logIO
shim.io.out shim.io.out
} }
} }
class TileToCrossbarShim[T <: Data]()(data: => T)(implicit lconf: LogicalNetworkConfiguration, pconf: PhysicalNetworkConfiguration) extends Component { class TileToCrossbarShim[T <: Data]()(data: => T)(implicit lconf: LogicalNetworkConfiguration, pconf: PhysicalNetworkConfiguration) extends Component {
val io = new Bundle { val io = new Bundle {
val in = (new TileIO){ data }.flip val in = (new ClientSourcedIO){(new LogicalNetworkIO){ data }}.flip
val out = (new BasicCrossbarIO){ data } val out = (new FIFOIO){(new BasicCrossbarIO){ data }}
} }
io.out.header.src := io.in.header.src + UFix(lconf.nHubs) io.out.bits.header.src := io.in.bits.header.src + UFix(lconf.nHubs)
io.out.header.dst := io.in.header.dst io.out.bits.header.dst := io.in.bits.header.dst
io.out.bits := io.in.bits io.out.bits.payload := io.in.bits.payload
io.out.valid := io.in.valid io.out.valid := io.in.valid
io.in.ready := io.out.ready io.in.ready := io.out.ready
} }
object HubToCrossbarShim { object HubToCrossbarShim {
def apply[T <: Data](logIO: HubIO[T])(implicit lconf: LogicalNetworkConfiguration, pconf: PhysicalNetworkConfiguration) = { def apply[T <: Data](logIO: MasterSourcedIO[LogicalNetworkIO[T]])(implicit lconf: LogicalNetworkConfiguration, pconf: PhysicalNetworkConfiguration) = {
val shim = (new HubToCrossbarShim) { logIO.bits.clone } val shim = (new HubToCrossbarShim) { logIO.bits.payload.clone }
shim.io.in <> logIO shim.io.in <> logIO
shim.io.out shim.io.out
} }
} }
class HubToCrossbarShim[T <: Data]()(data: => T)(implicit lconf: LogicalNetworkConfiguration, pconf: PhysicalNetworkConfiguration) extends Component { class HubToCrossbarShim[T <: Data]()(data: => T)(implicit lconf: LogicalNetworkConfiguration, pconf: PhysicalNetworkConfiguration) extends Component {
val io = new Bundle { val io = new Bundle {
val in = (new HubIO){ data } val in = (new MasterSourcedIO){(new LogicalNetworkIO){ data }}
val out = (new BasicCrossbarIO){ data } val out = (new FIFOIO){(new BasicCrossbarIO){ data }}
} }
io.out.header.src := io.in.header.src io.out.bits.header.src := io.in.bits.header.src
io.out.header.dst := io.in.header.dst + UFix(lconf.nHubs) io.out.bits.header.dst := io.in.bits.header.dst + UFix(lconf.nHubs)
io.out.bits := io.in.bits io.out.bits.payload := io.in.bits.payload
io.out.valid := io.in.valid io.out.valid := io.in.valid
io.in.ready := io.out.ready io.in.ready := io.out.ready
} }
object CrossbarToTileShim { object CrossbarToTileShim {
def apply[T <: Data](physIO: BasicCrossbarIO[T])(implicit lconf: LogicalNetworkConfiguration, pconf: PhysicalNetworkConfiguration) = { def apply[T <: Data](physIO: FIFOIO[BasicCrossbarIO[T]])(implicit lconf: LogicalNetworkConfiguration, pconf: PhysicalNetworkConfiguration) = {
val shim = (new CrossbarToTileShim) { physIO.bits.clone } val shim = (new CrossbarToTileShim) { physIO.bits.payload.clone }
shim.io.in <> physIO shim.io.in <> physIO
shim.io.out shim.io.out
} }
} }
class CrossbarToTileShim[T <: Data]()(data: => T)(implicit lconf: LogicalNetworkConfiguration, pconf: PhysicalNetworkConfiguration) extends Component { class CrossbarToTileShim[T <: Data]()(data: => T)(implicit lconf: LogicalNetworkConfiguration, pconf: PhysicalNetworkConfiguration) extends Component {
val io = new Bundle { val io = new Bundle {
val in = (new BasicCrossbarIO){ data }.flip val in = (new FIFOIO){(new BasicCrossbarIO){ data }}.flip
val out = (new TileIO){ data } val out = (new ClientSourcedIO){(new LogicalNetworkIO){ data }}
} }
io.out.header.src := io.in.header.src io.out.bits.header.src := io.in.bits.header.src
io.out.header.dst := io.in.header.dst - UFix(lconf.nHubs) io.out.bits.header.dst := io.in.bits.header.dst - UFix(lconf.nHubs)
io.out.bits := io.in.bits io.out.bits.payload := io.in.bits.payload
io.out.valid := io.in.valid io.out.valid := io.in.valid
io.in.ready := io.out.ready io.in.ready := io.out.ready
} }
object CrossbarToHubShim { object CrossbarToHubShim {
def apply[T <: Data](physIO: BasicCrossbarIO[T])(implicit lconf: LogicalNetworkConfiguration, pconf: PhysicalNetworkConfiguration) = { def apply[T <: Data](physIO: FIFOIO[BasicCrossbarIO[T]])(implicit lconf: LogicalNetworkConfiguration, pconf: PhysicalNetworkConfiguration) = {
val shim = (new CrossbarToHubShim) { physIO.bits.clone } val shim = (new CrossbarToHubShim) { physIO.bits.payload.clone }
shim.io.in <> physIO shim.io.in <> physIO
shim.io.out shim.io.out
} }
} }
class CrossbarToHubShim[T <: Data]()(data: => T)(implicit lconf: LogicalNetworkConfiguration, pconf: PhysicalNetworkConfiguration) extends Component { class CrossbarToHubShim[T <: Data]()(data: => T)(implicit lconf: LogicalNetworkConfiguration, pconf: PhysicalNetworkConfiguration) extends Component {
val io = new Bundle { val io = new Bundle {
val in = (new BasicCrossbarIO){ data }.flip val in = (new FIFOIO){(new BasicCrossbarIO){ data }}.flip
val out = (new HubIO){ data }.flip val out = (new MasterSourcedIO){(new LogicalNetworkIO){ data }}.flip
} }
io.out.header.src := io.in.header.src - UFix(lconf.nHubs) io.out.bits.header.src := io.in.bits.header.src - UFix(lconf.nHubs)
io.out.header.dst := io.in.header.dst io.out.bits.header.dst := io.in.bits.header.dst
io.out.bits := io.in.bits io.out.bits.payload := io.in.bits.payload
io.out.valid := io.in.valid io.out.valid := io.in.valid
io.in.ready := io.out.ready io.in.ready := io.out.ready
} }
class ReferenceChipCrossbarNetwork(endpoints: Seq[CoherenceAgent])(implicit conf: LogicalNetworkConfiguration) extends LogicalNetwork[TileLinkIO](endpoints)(conf) { class ReferenceChipCrossbarNetwork(endpoints: Seq[CoherenceAgentRole])(implicit conf: LogicalNetworkConfiguration) extends LogicalNetwork[TileLinkIO](endpoints)(conf) {
type TileLinkType = TileLinkIO type TileLinkType = TileLinkIO
val io = Vec(endpoints.map(_ match { case t:ClientCoherenceAgent => {(new TileLinkType).flip}; case h:MasterCoherenceAgent => {new TileLinkType}})){ new TileLinkType } val io = Vec(endpoints.map(_ match { case t:ClientCoherenceAgent => {(new TileLinkType).flip}; case h:MasterCoherenceAgent => {new TileLinkType}})){ new TileLinkType }
@ -94,8 +94,8 @@ class ReferenceChipCrossbarNetwork(endpoints: Seq[CoherenceAgent])(implicit conf
//bundle containing LogicalNetworkIOs //bundle containing LogicalNetworkIOs
val tl = new TileLinkType val tl = new TileLinkType
val payloadBitsForEachPhysicalNetwork = tl.getClass.getMethods.filter( x => val payloadBitsForEachPhysicalNetwork = tl.getClass.getMethods.filter( x =>
classOf[LogicalNetworkIO[Data]].isAssignableFrom(x.getReturnType)).map( classOf[DirectionalFIFOIO[Data]].isAssignableFrom(x.getReturnType)).map(
_.invoke(tl).asInstanceOf[LogicalNetworkIO[Data]].bits) _.invoke(tl).asInstanceOf[DirectionalFIFOIO[LogicalNetworkIO[Data]]].bits.payload)
implicit val pconf = new PhysicalNetworkConfiguration(conf.nEndpoints, conf.idBits)//same config for all networks implicit val pconf = new PhysicalNetworkConfiguration(conf.nEndpoints, conf.idBits)//same config for all networks
val physicalNetworks: Seq[BasicCrossbar[Data]] = payloadBitsForEachPhysicalNetwork.map(d => (new BasicCrossbar){d.clone}) val physicalNetworks: Seq[BasicCrossbar[Data]] = payloadBitsForEachPhysicalNetwork.map(d => (new BasicCrossbar){d.clone})
@ -105,13 +105,13 @@ class ReferenceChipCrossbarNetwork(endpoints: Seq[CoherenceAgent])(implicit conf
//shims to convert headers and process flits in the process. //shims to convert headers and process flits in the process.
endpoints.zip(io).zipWithIndex.map{ case ((end, io), id) => { endpoints.zip(io).zipWithIndex.map{ case ((end, io), id) => {
val logNetIOSubBundles = io.getClass.getMethods.filter( x => val logNetIOSubBundles = io.getClass.getMethods.filter( x =>
classOf[LogicalNetworkIO[Data]].isAssignableFrom(x.getReturnType)).zipWithIndex classOf[DirectionalFIFOIO[Data]].isAssignableFrom(x.getReturnType)).zipWithIndex
val tileProducedSubBundles = logNetIOSubBundles.filter( x => // filter -> parition? val tileProducedSubBundles = logNetIOSubBundles.filter( x =>
classOf[TileIO[Data]].isAssignableFrom(x._1.getReturnType)).map{ case (m,i) => classOf[ClientSourcedIO[Data]].isAssignableFrom(x._1.getReturnType)).map{ case (m,i) =>
(m.invoke(io).asInstanceOf[TileIO[Data]],i) } (m.invoke(io).asInstanceOf[ClientSourcedIO[LogicalNetworkIO[Data]]],i) }
val hubProducedSubBundles = logNetIOSubBundles.filter( x => val hubProducedSubBundles = logNetIOSubBundles.filter( x =>
classOf[HubIO[Data]].isAssignableFrom(x._1.getReturnType)).map{ case (m,i) => classOf[MasterSourcedIO[Data]].isAssignableFrom(x._1.getReturnType)).map{ case (m,i) =>
(m.invoke(io).asInstanceOf[HubIO[Data]],i) } (m.invoke(io).asInstanceOf[MasterSourcedIO[LogicalNetworkIO[Data]]],i) }
end match { end match {
case x:ClientCoherenceAgent => { case x:ClientCoherenceAgent => {
tileProducedSubBundles.foreach{ case (sl,i) => { tileProducedSubBundles.foreach{ case (sl,i) => {
@ -376,28 +376,42 @@ class Top extends Component {
tile.io.host.ipi_rep <> Queue(hl.ipi_rep) tile.io.host.ipi_rep <> Queue(hl.ipi_rep)
error_mode = error_mode || Reg(tile.io.host.debug.error_mode) error_mode = error_mode || Reg(tile.io.host.debug.error_mode)
tl.xact_init <> Queue(tile.io.tilelink.xact_init) val x_init_q = Queue(tile.io.tilelink.xact_init)
tl.xact_init_data <> Queue(tile.io.tilelink.xact_init_data) tl.xact_init.valid := x_init_q.valid
tl.xact_init.bits.payload := x_init_q.bits.payload
tl.xact_init.bits.header.src := UFix(i)
tl.xact_init.bits.header.dst := UFix(0)
x_init_q.ready := tl.xact_init.ready
val x_init_data_q = Queue(tile.io.tilelink.xact_init_data)
tl.xact_init_data.valid := x_init_data_q.valid
tl.xact_init_data.bits.payload := x_init_data_q.bits.payload
tl.xact_init_data.bits.header.src := UFix(i)
tl.xact_init_data.bits.header.dst := UFix(0)
x_init_data_q.ready := tl.xact_init_data.ready
val x_finish_q = Queue(tile.io.tilelink.xact_finish)
tl.xact_finish.valid := x_finish_q.valid
tl.xact_finish.bits.payload := x_finish_q.bits.payload
tl.xact_finish.bits.header.src := UFix(i)
tl.xact_finish.bits.header.dst := UFix(0)
x_finish_q.ready := tl.xact_finish.ready
val p_rep_q = Queue(tile.io.tilelink.probe_rep, 1)
tl.probe_rep.valid := p_rep_q.valid
tl.probe_rep.bits.payload := p_rep_q.bits.payload
tl.probe_rep.bits.header.src := UFix(i)
tl.probe_rep.bits.header.dst := UFix(0)
p_rep_q.ready := tl.probe_rep.ready
val p_rep_data_q = Queue(tile.io.tilelink.probe_rep_data)
tl.probe_rep_data.valid := p_rep_data_q.valid
tl.probe_rep_data.bits.payload := p_rep_data_q.bits.payload
tl.probe_rep_data.bits.header.src := UFix(i)
tl.probe_rep_data.bits.header.dst := UFix(0)
p_rep_data_q.ready := tl.probe_rep_data.ready
tile.io.tilelink.xact_abort <> Queue(tl.xact_abort) tile.io.tilelink.xact_abort <> Queue(tl.xact_abort)
tile.io.tilelink.xact_rep <> Queue(tl.xact_rep, 1, pipe = true) tile.io.tilelink.xact_rep <> Queue(tl.xact_rep, 1, pipe = true)
tl.xact_finish <> Queue(tile.io.tilelink.xact_finish)
tile.io.tilelink.probe_req <> Queue(tl.probe_req) tile.io.tilelink.probe_req <> Queue(tl.probe_req)
tl.probe_rep <> Queue(tile.io.tilelink.probe_rep, 1)
tl.probe_rep_data <> Queue(tile.io.tilelink.probe_rep_data)
il := hl.reset il := hl.reset
tl.xact_init.header.src := UFix(i)
tl.xact_init.header.dst := UFix(0)
tl.xact_init_data.header.src := UFix(i)
tl.xact_init_data.header.dst := UFix(0)
tl.probe_rep.header.src := UFix(i)
tl.probe_rep.header.dst := UFix(0)
tl.probe_rep_data.header.src := UFix(i)
tl.probe_rep_data.header.dst := UFix(0)
tl.xact_finish.header.src := UFix(i)
tl.xact_finish.header.dst := UFix(0)
//TODO: What about incoming headers?
} }
io.host <> uncore.io.host io.host <> uncore.io.host

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@ -6,23 +6,26 @@ import uncore._
import rocket._ import rocket._
import rocket.Constants._ import rocket.Constants._
class FPGAUncore(htif_width: Int)(implicit conf: UncoreConfiguration) extends Component class FPGAUncore(htif_width: Int)(implicit conf: CoherenceHubConfiguration) extends Component
{ {
val io = new Bundle { val io = new Bundle {
val host = new ioHost(htif_width) val host = new HostIO(htif_width)
val mem = new ioMem val mem = new ioMem
val tiles = Vec(conf.ntiles) { new ioTileLink() }.flip val tiles = Vec(conf.ln.nTiles) { new TileLinkIO()(conf.ln) }.flip
val htif = Vec(conf.ntiles) { new ioHTIF(conf.ntiles) }.flip val htif = Vec(conf.ln.nTiles) { new HTIFIO(conf.ln.nTiles) }.flip
val incoherent = Vec(conf.ln.nTiles) { Bool() }.asInput
} }
val htif = new rocketHTIF(htif_width) val htif = new rocketHTIF(htif_width)
htif.io.cpu <> io.htif htif.io.cpu <> io.htif
io.host <> htif.io.host io.host <> htif.io.host
val hub = new CoherenceHubBroadcast()(conf.copy(ntiles = conf.ntiles+1)) val lnWithHtif = conf.ln.copy(nEndpoints = conf.ln.nEndpoints+1, nTiles = conf.ln.nTiles+1)
for (i <- 0 until conf.ntiles) val hub = new CoherenceHubBroadcast()(conf.copy(ln = lnWithHtif))
for (i <- 0 until conf.ln.nTiles)
hub.io.tiles(i) <> io.tiles(i) hub.io.tiles(i) <> io.tiles(i)
hub.io.tiles(conf.ntiles) <> htif.io.mem hub.io.tiles(conf.ln.nTiles) <> htif.io.mem
hub.io.incoherent <> io.incoherent
io.mem.req_cmd <> Queue(hub.io.mem.req_cmd) io.mem.req_cmd <> Queue(hub.io.mem.req_cmd)
io.mem.req_data <> Queue(hub.io.mem.req_data, REFILL_CYCLES*2) io.mem.req_data <> Queue(hub.io.mem.req_data, REFILL_CYCLES*2)
@ -32,30 +35,37 @@ class FPGAUncore(htif_width: Int)(implicit conf: UncoreConfiguration) extends Co
class FPGATop extends Component { class FPGATop extends Component {
val htif_width = 16 val htif_width = 16
val io = new Bundle { val io = new Bundle {
val debug = new ioDebug val debug = new DebugIO
val host = new ioHost(htif_width) val host = new HostIO(htif_width)
val mem = new ioMem val mem = new ioMem
} }
val co = new MESICoherence val co = new MESICoherence
implicit val uconf = UncoreConfiguration(3, 3, co) implicit val lnConf = LogicalNetworkConfiguration(4, 3, 1, 3)
implicit val uconf = CoherenceHubConfiguration(co, lnConf)
val uncore = new FPGAUncore(htif_width = htif_width) val uncore = new FPGAUncore(htif_width = htif_width)
io.debug.error_mode := Bool(false) val resetSigs = Vec(uconf.ln.nTiles){ Bool() }
for (i <- 0 until uconf.ntiles) {
val hl = uncore.io.htif(i)
val tl = uncore.io.tiles(i)
val ic = ICacheConfig(64, 1, co, ntlb = 4, nbtb = 4) val ic = ICacheConfig(64, 1, co, ntlb = 4, nbtb = 4)
val dc = DCacheConfig(64, 1, co, ntlb = 4, val dc = DCacheConfig(64, 1, co, ntlb = 4,
nmshr = 2, nrpq = 16, nsdq = 17) nmshr = 2, nrpq = 16, nsdq = 17)
val rc = RocketConfiguration(uconf.ntiles, co, ic, dc, val rc = RocketConfiguration(uconf.ln, co, ic, dc,
fastMulDiv = false, fastMulDiv = false,
fpu = false, vec = false) fpu = false, vec = false)
val tile = new Tile(resetSignal = hl.reset)(rc) val tileList = (0 until uconf.ln.nTiles).map(r => new Tile(resetSignal = resetSigs(r))(rc))
io.debug.error_mode := Bool(false)
for (i <- 0 until uconf.ln.nTiles) {
val hl = uncore.io.htif(i)
val tl = uncore.io.tiles(i)
val il = uncore.io.incoherent(i)
resetSigs(i) := hl.reset
val tile = tileList(i)
tile.io.host <> hl tile.io.host <> hl
when (tile.io.host.debug.error_mode) { io.debug.error_mode := Bool(true) } when (tile.io.host.debug.error_mode) { io.debug.error_mode := Bool(true) }
tl.incoherent := hl.reset il := hl.reset
tl.xact_init <> Queue(tile.io.tilelink.xact_init) tl.xact_init <> Queue(tile.io.tilelink.xact_init)
tl.xact_init_data <> Queue(tile.io.tilelink.xact_init_data) tl.xact_init_data <> Queue(tile.io.tilelink.xact_init_data)
tile.io.tilelink.xact_abort <> Queue(tl.xact_abort) tile.io.tilelink.xact_abort <> Queue(tl.xact_abort)
@ -64,6 +74,7 @@ class FPGATop extends Component {
tile.io.tilelink.probe_req <> Queue(tl.probe_req) tile.io.tilelink.probe_req <> Queue(tl.probe_req)
tl.probe_rep <> Queue(tile.io.tilelink.probe_rep) tl.probe_rep <> Queue(tile.io.tilelink.probe_rep)
tl.probe_rep_data <> Queue(tile.io.tilelink.probe_rep_data) tl.probe_rep_data <> Queue(tile.io.tilelink.probe_rep_data)
//TODO: Set logcal network headers here
} }
io.host <> uncore.io.host io.host <> uncore.io.host

2
uncore

@ -1 +1 @@
Subproject commit c781a3152a34071f7f18afccddf59b0c16c3acee Subproject commit 167f2675a6ef64a6c749e7b6023e10f596a6b1df