2017-01-27 00:15:48 +01:00
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// See LICENSE.SiFive for license details.
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2017-01-27 06:27:34 +01:00
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// If you know two clocks are related with a N:1 or 1:N relationship, you
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// can cross the clock domains with lower latency than an AsyncQueue.
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// This clock crossing behaves almost identically to a TLBuffer(2):
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// - It adds one cycle latency to each clock domain.
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// - All outputs of TLRational are registers (bits, valid, and ready).
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// - It costs 3*bits registers as opposed to 2*bits in a TLBuffer(2)
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2017-01-27 00:15:48 +01:00
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package uncore.tilelink2
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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 util._
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class TLRationalCrossingSource(implicit p: Parameters) extends LazyModule
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{
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val node = TLRationalSourceNode()
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lazy val module = new LazyModuleImp(this) {
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val io = new Bundle {
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val in = node.bundleIn
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val out = node.bundleOut
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}
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((io.in zip io.out) zip (node.edgesIn zip node.edgesOut)) foreach { case ((in, out), (edgeIn, edgeOut)) =>
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val bce = edgeIn.manager.anySupportAcquireB && edgeIn.client.anySupportProbe
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2017-02-17 04:19:00 +01:00
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val direction = edgeOut.manager.direction
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2017-01-27 00:15:48 +01:00
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2017-02-17 04:19:00 +01:00
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out.a <> ToRational(in.a, direction)
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in.d <> FromRational(out.d, direction.flip)
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2017-01-27 00:15:48 +01:00
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if (bce) {
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in.b <> FromRational(out.b, direction.flip)
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out.c <> ToRational(in.c, direction)
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out.e <> ToRational(in.e, direction)
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2017-01-27 00:15:48 +01:00
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} else {
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in.b.valid := Bool(false)
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in.c.ready := Bool(true)
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in.e.ready := Bool(true)
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out.b.ready := Bool(true)
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out.c.valid := Bool(false)
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out.e.valid := Bool(false)
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out.b.sink := UInt(0)
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out.c.source := UInt(0)
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out.e.source := UInt(0)
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}
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}
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}
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}
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2017-02-17 04:19:00 +01:00
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class TLRationalCrossingSink(direction: RationalDirection = Symmetric)(implicit p: Parameters) extends LazyModule
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2017-01-27 00:15:48 +01:00
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{
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val node = TLRationalSinkNode(direction)
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2017-01-27 00:15:48 +01:00
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lazy val module = new LazyModuleImp(this) {
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val io = new Bundle {
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val in = node.bundleIn
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val out = node.bundleOut
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}
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((io.in zip io.out) zip (node.edgesIn zip node.edgesOut)) foreach { case ((in, out), (edgeIn, edgeOut)) =>
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val bce = edgeOut.manager.anySupportAcquireB && edgeOut.client.anySupportProbe
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2017-02-17 04:19:00 +01:00
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val direction = edgeIn.manager.direction
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2017-01-27 00:15:48 +01:00
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2017-02-17 04:19:00 +01:00
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out.a <> FromRational(in.a, direction)
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in.d <> ToRational(out.d, direction.flip)
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2017-01-27 00:15:48 +01:00
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if (bce) {
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2017-02-17 04:19:00 +01:00
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in.b <> ToRational(out.b, direction.flip)
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out.c <> FromRational(in.c, direction)
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out.e <> FromRational(in.e, direction)
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2017-01-27 00:15:48 +01:00
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} else {
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out.b.ready := Bool(true)
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out.c.valid := Bool(false)
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out.e.valid := Bool(false)
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in.b.valid := Bool(false)
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in.c.ready := Bool(true)
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in.e.ready := Bool(true)
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in.b.source := UInt(0)
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in.c.sink := UInt(0)
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in.e.sink := UInt(0)
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}
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}
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}
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}
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object TLRationalCrossingSource
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{
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// applied to the TL source node; y.node := TLRationalCrossingSource()(x.node)
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def apply()(x: TLOutwardNode)(implicit p: Parameters, sourceInfo: SourceInfo): TLRationalOutwardNode = {
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val source = LazyModule(new TLRationalCrossingSource)
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source.node := x
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source.node
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}
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}
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object TLRationalCrossingSink
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{
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// applied to the TL source node; y.node := TLRationalCrossingSink()(x.node)
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def apply(direction: RationalDirection = Symmetric)(x: TLRationalOutwardNode)(implicit p: Parameters, sourceInfo: SourceInfo): TLOutwardNode = {
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val sink = LazyModule(new TLRationalCrossingSink(direction))
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sink.node := x
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sink.node
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}
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}
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2017-02-17 04:19:00 +01:00
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class TLRationalCrossing(direction: RationalDirection = Symmetric)(implicit p: Parameters) extends LazyModule
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{
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val nodeIn = TLInputNode()
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val nodeOut = TLOutputNode()
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val node = NodeHandle(nodeIn, nodeOut)
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val source = LazyModule(new TLRationalCrossingSource)
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val sink = LazyModule(new TLRationalCrossingSink(direction))
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2017-01-27 00:15:48 +01:00
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val _ = (sink.node := source.node) // no monitor
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val in = (source.node := nodeIn)
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val out = (nodeOut := sink.node)
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lazy val module = new LazyModuleImp(this) {
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val io = new Bundle {
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val in = nodeIn.bundleIn
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val in_clock = Clock(INPUT)
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val in_reset = Bool(INPUT)
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val out = nodeOut.bundleOut
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val out_clock = Clock(INPUT)
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val out_reset = Bool(INPUT)
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}
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source.module.clock := io.in_clock
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source.module.reset := io.in_reset
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in.foreach { lm =>
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lm.module.clock := io.in_clock
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lm.module.reset := io.in_reset
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}
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sink.module.clock := io.out_clock
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sink.module.reset := io.out_reset
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out.foreach { lm =>
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lm.module.clock := io.out_clock
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lm.module.reset := io.out_reset
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}
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}
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}
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/** Synthesizeable unit tests */
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import unittest._
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2017-02-17 14:16:45 +01:00
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class TLRAMRationalCrossingSource(implicit p: Parameters) extends LazyModule {
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val node = TLRationalOutputNode()
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val fuzz = LazyModule(new TLFuzzer(5000))
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val model = LazyModule(new TLRAMModel)
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model.node := fuzz.node
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node := TLRationalCrossingSource()(TLDelayer(0.25)(model.node))
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2017-01-27 00:15:48 +01:00
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2017-02-17 14:16:45 +01:00
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lazy val module = new LazyModuleImp(this) {
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val io = new Bundle {
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val finished = Bool(OUTPUT)
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val out = node.bundleOut
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}
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2017-01-27 00:15:48 +01:00
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io.finished := fuzz.module.io.finished
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}
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}
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class TLRAMRationalCrossingSink(direction: RationalDirection)(implicit p: Parameters) extends LazyModule {
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val node = TLRationalInputNode()
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val ram = LazyModule(new TLRAM(AddressSet(0x0, 0x3ff)))
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ram.node := TLFragmenter(4, 256)(TLDelayer(0.25)(TLRationalCrossingSink(direction)(node)))
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2017-01-27 00:15:48 +01:00
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2017-02-17 14:16:45 +01:00
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lazy val module = new LazyModuleImp(this) {
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val io = new Bundle {
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val in = node.bundleIn
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}
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}
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}
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2017-01-27 00:15:48 +01:00
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2017-02-17 14:16:45 +01:00
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class TLRAMRationalCrossing(implicit p: Parameters) extends LazyModule {
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val sym_fast_source = LazyModule(new TLRAMRationalCrossingSource)
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val sym_slow_sink = LazyModule(new TLRAMRationalCrossingSink(Symmetric))
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sym_slow_sink.node := sym_fast_source.node
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val sym_slow_source = LazyModule(new TLRAMRationalCrossingSource)
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val sym_fast_sink = LazyModule(new TLRAMRationalCrossingSink(Symmetric))
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sym_fast_sink.node := sym_slow_source.node
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val fix_fast_source = LazyModule(new TLRAMRationalCrossingSource)
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val fix_slow_sink = LazyModule(new TLRAMRationalCrossingSink(FastToSlow))
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fix_slow_sink.node := fix_fast_source.node
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val fix_slow_source = LazyModule(new TLRAMRationalCrossingSource)
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val fix_fast_sink = LazyModule(new TLRAMRationalCrossingSink(SlowToFast))
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fix_fast_sink.node := fix_slow_source.node
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lazy val module = new LazyModuleImp(this) with HasUnitTestIO {
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io.finished :=
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sym_fast_source.module.io.finished &&
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sym_slow_source.module.io.finished &&
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fix_fast_source.module.io.finished &&
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fix_slow_source.module.io.finished
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// Generate faster clock (still divided so verilator approves)
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val fast = Module(new util.Pow2ClockDivider(1))
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sym_fast_source.module.clock := fast.io.clock_out
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sym_fast_sink .module.clock := fast.io.clock_out
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fix_fast_source.module.clock := fast.io.clock_out
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fix_fast_sink .module.clock := fast.io.clock_out
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// Generate slower clock
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val slow = Module(new util.Pow2ClockDivider(2))
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sym_slow_source.module.clock := slow.io.clock_out
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sym_slow_sink .module.clock := slow.io.clock_out
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fix_slow_source.module.clock := slow.io.clock_out
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fix_slow_sink .module.clock := slow.io.clock_out
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2017-01-27 00:15:48 +01:00
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}
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}
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class TLRAMRationalCrossingTest(implicit p: Parameters) extends UnitTest(timeout = 500000) {
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io.finished := Module(LazyModule(new TLRAMRationalCrossing).module).io.finished
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}
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