axi4: add a minLatency parameter
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@ -6,7 +6,7 @@ import Chisel._
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import chisel3.internal.sourceinfo.SourceInfo
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import config._
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import diplomacy._
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import scala.math.max
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import scala.math.{min,max}
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// pipe is only used if a queue has depth = 1
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class AXI4Buffer(aw: Int = 2, w: Int = 2, b: Int = 2, ar: Int = 2, r: Int = 2, pipe: Boolean = true)(implicit p: Parameters) extends LazyModule
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@ -17,7 +17,9 @@ class AXI4Buffer(aw: Int = 2, w: Int = 2, b: Int = 2, ar: Int = 2, r: Int = 2, p
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require (ar >= 0)
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require (r >= 0)
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val node = AXI4IdentityNode()
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val node = AXI4AdapterNode(
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masterFn = { case Seq(p) => p },
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slaveFn = { case Seq(p) => p.copy(minLatency = p.minLatency + min(1,min(aw,ar)) + min(1,min(r,b))) })
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lazy val module = new LazyModuleImp(this) {
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val io = new Bundle {
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@ -30,7 +30,8 @@ case class AXI4SlaveParameters(
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case class AXI4SlavePortParameters(
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slaves: Seq[AXI4SlaveParameters],
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beatBytes: Int)
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beatBytes: Int,
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minLatency: Int = 1)
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{
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require (!slaves.isEmpty)
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require (isPow2(beatBytes))
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@ -16,7 +16,8 @@ class AXI4RegisterNode(address: AddressSet, concurrency: Int = 0, beatBytes: Int
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supportsWrite = TransferSizes(1, beatBytes),
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supportsRead = TransferSizes(1, beatBytes),
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interleavedId = Some(0))),
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beatBytes = beatBytes))
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beatBytes = beatBytes,
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minLatency = min(concurrency, 1))) // the Queue adds at most one cycle
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{
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require (address.contiguous)
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@ -16,7 +16,8 @@ class AXI4RAM(address: AddressSet, executable: Boolean = true, beatBytes: Int =
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supportsRead = TransferSizes(1, beatBytes),
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supportsWrite = TransferSizes(1, beatBytes),
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interleavedId = Some(0))),
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beatBytes = beatBytes))
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beatBytes = beatBytes,
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minLatency = 0)) // B responds on same cycle
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// We require the address range to include an entire beat (for the write mask)
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require ((address.mask & (beatBytes-1)) == beatBytes-1)
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@ -16,8 +16,8 @@ case class AXI4ToTLNode() extends MixedNode(AXI4Imp, TLImp)(
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nodePath = m.nodePath)
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}))
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},
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uFn = { case (1, Seq(TLManagerPortParameters(managers, beatBytes, _, _))) =>
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Seq(AXI4SlavePortParameters(beatBytes = beatBytes, slaves = managers.map { m =>
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uFn = { case (1, Seq(mp)) => Seq(AXI4SlavePortParameters(
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slaves = mp.managers.map { m =>
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AXI4SlaveParameters(
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address = m.address,
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regionType = m.regionType,
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@ -25,8 +25,9 @@ case class AXI4ToTLNode() extends MixedNode(AXI4Imp, TLImp)(
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nodePath = m.nodePath,
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supportsWrite = m.supportsPutPartial,
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supportsRead = m.supportsGet,
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interleavedId = Some(0)) // TL2 never interleaves D beats
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}))
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interleavedId = Some(0))}, // TL2 never interleaves D beats
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beatBytes = mp.beatBytes,
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minLatency = mp.minLatency))
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},
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numPO = 1 to 1,
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numPI = 1 to 1)
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@ -18,8 +18,8 @@ class TLBuffer(a: Int = 2, b: Int = 2, c: Int = 2, d: Int = 2, e: Int = 2, pipe:
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require (e >= 0)
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val node = TLAdapterNode(
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clientFn = { seq => seq(0).copy(minLatency = seq(0).minLatency + min(1,b) + min(1,c)) },
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managerFn = { seq => seq(0).copy(minLatency = seq(0).minLatency + min(1,a) + min(1,d)) })
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clientFn = { case Seq(p) => p.copy(minLatency = p.minLatency + min(1,b) + min(1,c)) },
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managerFn = { case Seq(p) => p.copy(minLatency = p.minLatency + min(1,a) + min(1,d)) })
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lazy val module = new LazyModuleImp(this) {
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val io = new Bundle {
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@ -10,7 +10,7 @@ import util._
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class TLAsyncCrossingSource(sync: Int = 3)(implicit p: Parameters) extends LazyModule
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{
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val node = TLAsyncSourceNode()
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val node = TLAsyncSourceNode(sync)
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lazy val module = new LazyModuleImp(this) {
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val io = new Bundle {
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@ -44,7 +44,7 @@ class TLAsyncCrossingSource(sync: Int = 3)(implicit p: Parameters) extends LazyM
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class TLAsyncCrossingSink(depth: Int = 8, sync: Int = 3)(implicit p: Parameters) extends LazyModule
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{
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val node = TLAsyncSinkNode(depth)
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val node = TLAsyncSinkNode(depth, sync)
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lazy val module = new LazyModuleImp(this) {
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val io = new Bundle {
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@ -169,14 +169,14 @@ case class TLAsyncIdentityNode() extends IdentityNode(TLAsyncImp)
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case class TLAsyncOutputNode() extends OutputNode(TLAsyncImp)
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case class TLAsyncInputNode() extends InputNode(TLAsyncImp)
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case class TLAsyncSourceNode() extends MixedNode(TLImp, TLAsyncImp)(
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dFn = { case (1, s) => s.map(TLAsyncClientPortParameters(_)) },
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uFn = { case (1, s) => s.map(_.base) },
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case class TLAsyncSourceNode(sync: Int) extends MixedNode(TLImp, TLAsyncImp)(
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dFn = { case (1, Seq(p)) => Seq(TLAsyncClientPortParameters(p)) },
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uFn = { case (1, Seq(p)) => Seq(p.base.copy(minLatency = sync+1)) }, // discard cycles in other clock domain
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numPO = 1 to 1,
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numPI = 1 to 1)
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case class TLAsyncSinkNode(depth: Int) extends MixedNode(TLAsyncImp, TLImp)(
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dFn = { case (1, s) => s.map(_.base) },
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uFn = { case (1, s) => s.map(TLAsyncManagerPortParameters(depth, _)) },
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case class TLAsyncSinkNode(depth: Int, sync: Int) extends MixedNode(TLAsyncImp, TLImp)(
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dFn = { case (1, Seq(p)) => Seq(p.base.copy(minLatency = sync+1)) },
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uFn = { case (1, Seq(p)) => Seq(TLAsyncManagerPortParameters(depth, p)) },
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numPO = 1 to 1,
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numPI = 1 to 1)
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@ -18,7 +18,7 @@ class TLRegisterNode(address: AddressSet, concurrency: Int = 0, beatBytes: Int =
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supportsPutFull = TransferSizes(1, beatBytes),
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fifoId = Some(0))), // requests are handled in order
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beatBytes = beatBytes,
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minLatency = min(concurrency, 1))) // the Queue adds at least one cycle
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minLatency = min(concurrency, 1))) // the Queue adds at most one cycle
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{
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require (address.contiguous)
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@ -19,8 +19,8 @@ case class TLToAXI4Node(idBits: Int) extends MixedNode(TLImp, AXI4Imp)(
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aligned = true))
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Seq(AXI4MasterPortParameters(masters))
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},
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uFn = { case (1, Seq(AXI4SlavePortParameters(slaves, beatBytes))) =>
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val managers = slaves.map { case s =>
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uFn = { case (1, Seq(p)) => Seq(TLManagerPortParameters(
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managers = p.slaves.map { case s =>
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TLManagerParameters(
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address = s.address,
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regionType = s.regionType,
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@ -28,10 +28,10 @@ case class TLToAXI4Node(idBits: Int) extends MixedNode(TLImp, AXI4Imp)(
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nodePath = s.nodePath,
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supportsGet = s.supportsRead,
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supportsPutFull = s.supportsWrite,
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supportsPutPartial = s.supportsWrite)
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supportsPutPartial = s.supportsWrite)},
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// AXI4 is NEVER fifo in TL sense (R+W are independent)
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}
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Seq(TLManagerPortParameters(managers, beatBytes, 1, 0))
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beatBytes = p.beatBytes,
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minLatency = p.minLatency))
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},
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numPO = 1 to 1,
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numPI = 1 to 1)
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