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tilelink2 Nodes: generalize a node into inner and outer halves

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This lets us create nodes which transform from one bus to another.
This commit is contained in:
Wesley W. Terpstra 2016-09-29 14:30:19 -07:00
parent ceb9c53c7d
commit f2e438833c
4 changed files with 128 additions and 82 deletions
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19
src/main/scala/uncore/tilelink2/IntNodes.scala
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@ -23,13 +23,13 @@ object IntRange
case class IntSourceParameters(
range: IntRange,
nodePath: Seq[IntBaseNode] = Seq())
nodePath: Seq[RootNode] = Seq())
{
val name = nodePath.lastOption.map(_.lazyModule.name).getOrElse("disconnected")
}
case class IntSinkParameters(
nodePath: Seq[IntBaseNode] = Seq())
nodePath: Seq[RootNode] = Seq())
{
val name = nodePath.lastOption.map(_.lazyModule.name).getOrElse("disconnected")
}
@ -49,8 +49,8 @@ case class IntEdge(source: IntSourcePortParameters, sink: IntSinkPortParameters)
object IntImp extends NodeImp[IntSourcePortParameters, IntSinkPortParameters, IntEdge, IntEdge, Vec[Bool]]
{
def edgeO(po: IntSourcePortParameters, pi: IntSinkPortParameters): IntEdge = IntEdge(po, pi)
def edgeI(po: IntSourcePortParameters, pi: IntSinkPortParameters): IntEdge = IntEdge(po, pi)
def edgeO(pd: IntSourcePortParameters, pu: IntSinkPortParameters): IntEdge = IntEdge(pd, pu)
def edgeI(pd: IntSourcePortParameters, pu: IntSinkPortParameters): IntEdge = IntEdge(pd, pu)
def bundleO(eo: Seq[IntEdge]): Vec[Vec[Bool]] = {
if (eo.isEmpty) Vec(0, Vec(0, Bool())) else
Vec(eo.size, Vec(eo.map(_.source.num).max, Bool()))
@ -60,18 +60,17 @@ object IntImp extends NodeImp[IntSourcePortParameters, IntSinkPortParameters, In
Vec(ei.size, Vec(ei.map(_.source.num).max, Bool())).flip
}
def connect(bo: => Vec[Bool], eo: => IntEdge, bi: => Vec[Bool], ei: => IntEdge)(implicit sourceInfo: SourceInfo): (Option[LazyModule], () => Unit) = {
def connect(bo: => Vec[Bool], bi: => Vec[Bool], ei: => IntEdge)(implicit sourceInfo: SourceInfo): (Option[LazyModule], () => Unit) = {
(None, () => {
require (eo == ei)
// Cannot use bulk connect, because the widths could differ
(bo zip bi) foreach { case (o, i) => i := o }
})
}
override def mixO(po: IntSourcePortParameters, node: IntBaseNode): IntSourcePortParameters =
po.copy(sources = po.sources.map { s => s.copy (nodePath = node +: s.nodePath) })
override def mixI(pi: IntSinkPortParameters, node: IntBaseNode): IntSinkPortParameters =
pi.copy(sinks = pi.sinks.map { s => s.copy (nodePath = node +: s.nodePath) })
override def mixO(pd: IntSourcePortParameters, node: OutwardNode[IntSourcePortParameters, IntSinkPortParameters, Vec[Bool]]): IntSourcePortParameters =
pd.copy(sources = pd.sources.map { s => s.copy (nodePath = node +: s.nodePath) })
override def mixI(pu: IntSinkPortParameters, node: InwardNode[IntSourcePortParameters, IntSinkPortParameters, Vec[Bool]]): IntSinkPortParameters =
pu.copy(sinks = pu.sinks.map { s => s.copy (nodePath = node +: s.nodePath) })
}
case class IntIdentityNode() extends IdentityNode(IntImp)

162
src/main/scala/uncore/tilelink2/Nodes.scala
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@ -6,22 +6,32 @@ import Chisel._
import scala.collection.mutable.ListBuffer
import chisel3.internal.sourceinfo.SourceInfo
// PI = PortInputParameters
// PO = PortOutputParameters
// EI = EdgeInput
// EO = EdgeOutput
abstract class NodeImp[PO, PI, EO, EI, B <: Data]
// DI = Downwards flowing Parameters received on the inner side of the node
// UI = Upwards flowing Parameters generated by the inner side of the node
// EI = Edge Parameters describing a connection on the inner side of the node
// BI = Bundle type used when connecting to the inner side of the node
trait InwardNodeImp[DI, UI, EI, BI <: Data]
{
def edgeO(po: PO, pi: PI): EO
def edgeI(po: PO, pi: PI): EI
def bundleO(eo: Seq[EO]): Vec[B]
def bundleI(ei: Seq[EI]): Vec[B]
def connect(bo: => B, eo: => EO, bi: => B, ei: => EI)(implicit sourceInfo: SourceInfo): (Option[LazyModule], () => Unit)
// If you want to track parameters as they flow through nodes, overload these:
def mixO(po: PO, node: BaseNode[PO, PI, EO, EI, B]): PO = po
def mixI(pi: PI, node: BaseNode[PO, PI, EO, EI, B]): PI = pi
def edgeI(pd: DI, pu: UI): EI
def bundleI(ei: Seq[EI]): Vec[BI]
def mixI(pu: UI, node: InwardNode[DI, UI, BI]): UI = pu
def connect(bo: => BI, bi: => BI, e: => EI)(implicit sourceInfo: SourceInfo): (Option[LazyModule], () => Unit)
}
// DO = Downwards flowing Parameters generated by the outner side of the node
// UO = Upwards flowing Parameters received on the outner side of the node
// EO = Edge Parameters describing a connection on the outer side of the node
// BO = Bundle type used when connecting to the outer side of the node
trait OutwardNodeImp[DO, UO, EO, BO <: Data]
{
def edgeO(pd: DO, pu: UO): EO
def bundleO(eo: Seq[EO]): Vec[BO]
def mixO(pd: DO, node: OutwardNode[DO, UO, BO]): DO = pd
}
abstract class NodeImp[D, U, EO, EI, B <: Data]
extends Object with InwardNodeImp[D, U, EI, B] with OutwardNodeImp[D, U, EO, B]
abstract class RootNode
{
// You cannot create a Node outside a LazyModule!
@ -39,87 +49,125 @@ abstract class RootNode
protected[tilelink2] def inputs: Seq[RootNode]
}
class BaseNode[PO, PI, EO, EI, B <: Data](imp: NodeImp[PO, PI, EO, EI, B])(
private val oFn: (Int, Seq[PO]) => Seq[PO],
private val iFn: (Int, Seq[PI]) => Seq[PI],
private val numPO: Range.Inclusive,
private val numPI: Range.Inclusive) extends RootNode
trait InwardNode[DI, UI, BI <: Data] extends RootNode
{
// At least 0 ports must be supported
require (!numPO.isEmpty, s"No number of outputs would be acceptable to ${name}${lazyModule.line}")
protected[tilelink2] val numPI: Range.Inclusive
require (!numPI.isEmpty, s"No number of inputs would be acceptable to ${name}${lazyModule.line}")
require (numPO.start >= 0, s"${name} accepts a negative number of outputs${lazyModule.line}")
require (numPI.start >= 0, s"${name} accepts a negative number of inputs${lazyModule.line}")
val noOs = numPO.size == 1 && numPO.contains(0)
val noIs = numPI.size == 1 && numPI.contains(0)
private val accPO = ListBuffer[(Int, BaseNode[PO, PI, EO, EI, B])]()
private val accPI = ListBuffer[(Int, BaseNode[PO, PI, EO, EI, B])]()
private var oRealized = false
private val accPI = ListBuffer[(Int, OutwardNode[DI, UI, BI])]()
private var iRealized = false
private def reqO() = require(numPO.contains(accPO.size), s"${name} has ${accPO.size} outputs, expected ${numPO}${lazyModule.line}")
protected[tilelink2] def iPushed = accPI.size
protected[tilelink2] def iPush(index: Int, node: OutwardNode[DI, UI, BI])(implicit sourceInfo: SourceInfo) {
val info = sourceLine(sourceInfo, " at ", "")
val noIs = numPI.size == 1 && numPI.contains(0)
require (!noIs, s"${name}${lazyModule.line} was incorrectly connected as a sink" + info)
require (!iRealized, s"${name}${lazyModule.line} was incorrectly connected as a sink after it's .module was used" + info)
accPI += ((index, node))
}
private def reqI() = require(numPI.contains(accPI.size), s"${name} has ${accPI.size} inputs, expected ${numPI}${lazyModule.line}")
protected def reqE(o: Int, i: Int) = require(i == o, s"${name} has ${i} inputs and ${o} outputs; they must match${lazyModule.line}")
protected[tilelink2] lazy val iPorts = { iRealized = true; reqI(); accPI.result() }
private lazy val oPorts = { oRealized = true; reqO(); accPO.result() }
private lazy val iPorts = { iRealized = true; reqI(); accPI.result() }
protected[tilelink2] val iParams: Seq[UI]
protected[tilelink2] def iConnect: Vec[BI]
}
trait OutwardNode[DO, UO, BO <: Data] extends RootNode
{
protected[tilelink2] val numPO: Range.Inclusive
require (!numPO.isEmpty, s"No number of outputs would be acceptable to ${name}${lazyModule.line}")
require (numPO.start >= 0, s"${name} accepts a negative number of outputs${lazyModule.line}")
private val accPO = ListBuffer[(Int, InwardNode [DO, UO, BO])]()
private var oRealized = false
protected[tilelink2] def oPushed = accPO.size
protected[tilelink2] def oPush(index: Int, node: InwardNode [DO, UO, BO])(implicit sourceInfo: SourceInfo) {
val info = sourceLine(sourceInfo, " at ", "")
val noOs = numPO.size == 1 && numPO.contains(0)
require (!noOs, s"${name}${lazyModule.line} was incorrectly connected as a source" + info)
require (!oRealized, s"${name}${lazyModule.line} was incorrectly connected as a source after it's .module was used" + info)
accPO += ((index, node))
}
private def reqO() = require(numPO.contains(accPO.size), s"${name} has ${accPO.size} outputs, expected ${numPO}${lazyModule.line}")
protected[tilelink2] lazy val oPorts = { oRealized = true; reqO(); accPO.result() }
protected[tilelink2] val oParams: Seq[DO]
protected[tilelink2] def oConnect: Vec[BO]
}
class MixedNode[DI, UI, EI, BI <: Data, DO, UO, EO, BO <: Data](
inner: InwardNodeImp [DI, UI, EI, BI],
outer: OutwardNodeImp[DO, UO, EO, BO])(
private val dFn: (Int, Seq[DI]) => Seq[DO],
private val uFn: (Int, Seq[UO]) => Seq[UI],
protected[tilelink2] val numPO: Range.Inclusive,
protected[tilelink2] val numPI: Range.Inclusive)
extends RootNode with InwardNode[DI, UI, BI] with OutwardNode[DO, UO, BO]
{
// meta-data for printing the node graph
protected[tilelink2] def outputs = oPorts.map(_._2)
protected[tilelink2] def inputs = iPorts.map(_._2)
private lazy val oParams : Seq[PO] = {
val o = oFn(oPorts.size, iPorts.map{ case (i, n) => n.oParams(i) })
private def reqE(o: Int, i: Int) = require(i == o, s"${name} has ${i} inputs and ${o} outputs; they must match${lazyModule.line}")
protected[tilelink2] lazy val oParams: Seq[DO] = {
val o = dFn(oPorts.size, iPorts.map { case (i, n) => n.oParams(i) })
reqE(oPorts.size, o.size)
o.map(imp.mixO(_, this))
o.map(outer.mixO(_, this))
}
private lazy val iParams : Seq[PI] = {
val i = iFn(iPorts.size, oPorts.map{ case (o, n) => n.iParams(o) })
protected[tilelink2] lazy val iParams: Seq[UI] = {
val i = uFn(iPorts.size, oPorts.map { case (o, n) => n.iParams(o) })
reqE(i.size, iPorts.size)
i.map(imp.mixI(_, this))
i.map(inner.mixI(_, this))
}
lazy val edgesOut = (oPorts zip oParams).map { case ((i, n), o) => imp.edgeO(o, n.iParams(i)) }
lazy val edgesIn = (iPorts zip iParams).map { case ((o, n), i) => imp.edgeI(n.oParams(o), i) }
lazy val edgesOut = (oPorts zip oParams).map { case ((i, n), o) => outer.edgeO(o, n.iParams(i)) }
lazy val edgesIn = (iPorts zip iParams).map { case ((o, n), i) => inner.edgeI(n.oParams(o), i) }
lazy val bundleOut = imp.bundleO(edgesOut)
lazy val bundleIn = imp.bundleI(edgesIn)
lazy val bundleOut = outer.bundleO(edgesOut)
lazy val bundleIn = inner.bundleI(edgesIn)
def connectOut = bundleOut
def connectIn = bundleIn
def oConnect = bundleOut
def iConnect = bundleIn
def := (y: BaseNode[PO, PI, EO, EI, B])(implicit sourceInfo: SourceInfo): Option[LazyModule] = {
// connects the outward part of a node with the inward part of this node
def := (y: OutwardNode[DI, UI, BI])(implicit sourceInfo: SourceInfo): Option[LazyModule] = {
val x = this // x := y
val info = sourceLine(sourceInfo, " at ", "")
require (!LazyModule.stack.isEmpty, s"${y.name} cannot be connected to ${x.name} outside of LazyModule scope" + info)
require (!y.noOs, s"${y.name}${y.lazyModule.line} was incorrectly connected as a source" + info)
require (!y.oRealized, s"${y.name}${y.lazyModule.line} was incorrectly connected as a source after it's .module was used" + info)
require (!x.noIs, s"${x.name}${x.lazyModule.line} was incorrectly connected as a sink" + info)
require (!x.iRealized, s"${x.name}${x.lazyModule.line} was incorrectly connected as a sink after it's .module was used" + info)
val i = x.accPI.size
val o = y.accPO.size
y.accPO += ((i, x))
x.accPI += ((o, y))
val (out, binding) = imp.connect(y.connectOut(o), y.edgesOut(o), x.connectIn(i), x.edgesIn(i))
val i = x.iPushed
val o = y.oPushed
y.oPush(i, x)
x.iPush(o, y)
val (out, binding) = inner.connect(y.oConnect(o), x.iConnect(i), x.edgesIn(i))
LazyModule.stack.head.bindings = binding :: LazyModule.stack.head.bindings
out
}
}
class BaseNode[D, U, EO, EI, B <: Data](imp: NodeImp[D, U, EO, EI, B])(
oFn: (Int, Seq[D]) => Seq[D],
iFn: (Int, Seq[U]) => Seq[U],
numPO: Range.Inclusive,
numPI: Range.Inclusive)
extends MixedNode[D, U, EI, B, D, U, EO, B](imp, imp)(oFn, iFn, numPO, numPI)
class IdentityNode[PO, PI, EO, EI, B <: Data](imp: NodeImp[PO, PI, EO, EI, B])
extends BaseNode(imp)({case (_, s) => s}, {case (_, s) => s}, 0 to 999, 0 to 999)
class OutputNode[PO, PI, EO, EI, B <: Data](imp: NodeImp[PO, PI, EO, EI, B]) extends IdentityNode(imp)
{
override def connectOut = bundleOut
override def connectIn = bundleOut
override def oConnect = bundleOut
override def iConnect = bundleOut
}
class InputNode[PO, PI, EO, EI, B <: Data](imp: NodeImp[PO, PI, EO, EI, B]) extends IdentityNode(imp)
{
override def connectOut = bundleIn
override def connectIn = bundleIn
override def oConnect = bundleIn
override def iConnect = bundleIn
}
class SourceNode[PO, PI, EO, EI, B <: Data](imp: NodeImp[PO, PI, EO, EI, B])(po: PO, num: Range.Inclusive = 1 to 1)

4
src/main/scala/uncore/tilelink2/Parameters.scala
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@ -149,7 +149,7 @@ case class TLManagerParameters(
sinkId: IdRange = IdRange(0, 1),
regionType: RegionType.T = RegionType.GET_EFFECTS,
executable: Boolean = false, // processor can execute from this memory
nodePath: Seq[TLBaseNode] = Seq(),
nodePath: Seq[RootNode] = Seq(),
// Supports both Acquire+Release+Finish of these sizes
supportsAcquire: TransferSizes = TransferSizes.none,
supportsArithmetic: TransferSizes = TransferSizes.none,
@ -293,7 +293,7 @@ case class TLManagerPortParameters(
case class TLClientParameters(
sourceId: IdRange = IdRange(0,1),
nodePath: Seq[TLBaseNode] = Seq(),
nodePath: Seq[RootNode] = Seq(),
// Supports both Probe+Grant of these sizes
supportsProbe: TransferSizes = TransferSizes.none,
supportsArithmetic: TransferSizes = TransferSizes.none,

17
src/main/scala/uncore/tilelink2/TLNodes.scala
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@ -8,8 +8,8 @@ import chisel3.internal.sourceinfo.SourceInfo
object TLImp extends NodeImp[TLClientPortParameters, TLManagerPortParameters, TLEdgeOut, TLEdgeIn, TLBundle]
{
def edgeO(po: TLClientPortParameters, pi: TLManagerPortParameters): TLEdgeOut = new TLEdgeOut(po, pi)
def edgeI(po: TLClientPortParameters, pi: TLManagerPortParameters): TLEdgeIn = new TLEdgeIn(po, pi)
def edgeO(pd: TLClientPortParameters, pu: TLManagerPortParameters): TLEdgeOut = new TLEdgeOut(pd, pu)
def edgeI(pd: TLClientPortParameters, pu: TLManagerPortParameters): TLEdgeIn = new TLEdgeIn(pd, pu)
def bundleO(eo: Seq[TLEdgeOut]): Vec[TLBundle] = {
require (!eo.isEmpty)
Vec(eo.size, TLBundle(eo.map(_.bundle).reduce(_.union(_))))
@ -19,19 +19,18 @@ object TLImp extends NodeImp[TLClientPortParameters, TLManagerPortParameters, TL
Vec(ei.size, TLBundle(ei.map(_.bundle).reduce(_.union(_)))).flip
}
def connect(bo: => TLBundle, eo: => TLEdgeOut, bi: => TLBundle, ei: => TLEdgeIn)(implicit sourceInfo: SourceInfo): (Option[LazyModule], () => Unit) = {
val monitor = LazyModule(new TLMonitor(() => new TLBundleSnoop(bo.params), () => eo, sourceInfo))
def connect(bo: => TLBundle, bi: => TLBundle, ei: => TLEdgeIn)(implicit sourceInfo: SourceInfo): (Option[LazyModule], () => Unit) = {
val monitor = LazyModule(new TLMonitor(() => new TLBundleSnoop(bo.params), () => ei, sourceInfo))
(Some(monitor), () => {
require (eo.asInstanceOf[TLEdgeParameters] == ei.asInstanceOf[TLEdgeParameters])
bi <> bo
monitor.module.io.in := TLBundleSnoop(bo)
})
}
override def mixO(po: TLClientPortParameters, node: TLBaseNode): TLClientPortParameters =
po.copy(clients = po.clients.map { c => c.copy (nodePath = node +: c.nodePath) })
override def mixI(pi: TLManagerPortParameters, node: TLBaseNode): TLManagerPortParameters =
pi.copy(managers = pi.managers.map { m => m.copy (nodePath = node +: m.nodePath) })
override def mixO(pd: TLClientPortParameters, node: OutwardNode[TLClientPortParameters, TLManagerPortParameters, TLBundle]): TLClientPortParameters =
pd.copy(clients = pd.clients.map { c => c.copy (nodePath = node +: c.nodePath) })
override def mixI(pu: TLManagerPortParameters, node: InwardNode[TLClientPortParameters, TLManagerPortParameters, TLBundle]): TLManagerPortParameters =
pu.copy(managers = pu.managers.map { m => m.copy (nodePath = node +: m.nodePath) })
}
case class TLIdentityNode() extends IdentityNode(TLImp)