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fix more Chisel3 deprecations

This commit is contained in:
Howard Mao 2016-01-14 13:47:47 -08:00
parent 0b90b8fe5f
commit 4ff1aea288
10 changed files with 47 additions and 47 deletions

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@ -48,7 +48,7 @@ class L2BroadcastHub(implicit p: Parameters) extends ManagerCoherenceAgent()(p)
trackerList.map(_.io.incoherent := io.incoherent)
// Queue to store impending Put data
val sdq = Reg(Vec(io.iacq().data, sdqDepth))
val sdq = Reg(Vec(sdqDepth, io.iacq().data))
val sdq_val = Reg(init=Bits(0, sdqDepth))
val sdq_alloc_id = PriorityEncoder(~sdq_val)
val sdq_rdy = !sdq_val.andR
@ -77,7 +77,7 @@ class L2BroadcastHub(implicit p: Parameters) extends ManagerCoherenceAgent()(p)
val voluntary = io.irel().isVoluntary()
val vwbdq_enq = io.inner.release.fire() && voluntary && io.irel().hasData()
val (rel_data_cnt, rel_data_done) = Counter(vwbdq_enq, innerDataBeats) //TODO Zero width
val vwbdq = Reg(Vec(io.irel().data, innerDataBeats)) //TODO Assumes nReleaseTransactors == 1
val vwbdq = Reg(Vec(innerDataBeats, io.irel().data)) //TODO Assumes nReleaseTransactors == 1
when(vwbdq_enq) { vwbdq(rel_data_cnt) := io.irel().data }
// Handle releases, which might be voluntary and might have data
@ -218,7 +218,7 @@ class BroadcastAcquireTracker(trackerId: Int)
val xact = Reg(new BufferedAcquireFromSrc()(p.alterPartial({ case TLId => innerTLId })))
val coh = ManagerMetadata.onReset
assert(!(state != s_idle && xact.isBuiltInType() &&
assert(!(state =/= s_idle && xact.isBuiltInType() &&
Vec(Acquire.putAtomicType, Acquire.getPrefetchType, Acquire.putPrefetchType).contains(xact.a_type)),
"Broadcast Hub does not support PutAtomics or prefetches") // TODO
@ -243,7 +243,7 @@ class BroadcastAcquireTracker(trackerId: Int)
val subblock_type = xact.isSubBlockType()
io.has_acquire_conflict := xact.conflicts(io.iacq()) &&
(state != s_idle) &&
(state =/= s_idle) &&
!collect_iacq_data
io.has_acquire_match := xact.conflicts(io.iacq()) &&
collect_iacq_data
@ -302,16 +302,16 @@ class BroadcastAcquireTracker(trackerId: Int)
io.inner.release.ready := Bool(false)
io.inner.finish.ready := Bool(false)
assert(!(state != s_idle && collect_iacq_data && io.inner.acquire.fire() &&
io.iacq().client_id != xact.client_id),
assert(!(state =/= s_idle && collect_iacq_data && io.inner.acquire.fire() &&
io.iacq().client_id =/= xact.client_id),
"AcquireTracker accepted data beat from different network source than initial request.")
assert(!(state != s_idle && collect_iacq_data && io.inner.acquire.fire() &&
io.iacq().client_xact_id != xact.client_xact_id),
assert(!(state =/= s_idle && collect_iacq_data && io.inner.acquire.fire() &&
io.iacq().client_xact_id =/= xact.client_xact_id),
"AcquireTracker accepted data beat from different client transaction than initial request.")
assert(!(state === s_idle && io.inner.acquire.fire() &&
io.iacq().hasMultibeatData() && io.iacq().addr_beat != UInt(0)),
io.iacq().hasMultibeatData() && io.iacq().addr_beat =/= UInt(0)),
"AcquireTracker initialized with a tail data beat.")
when(collect_iacq_data) {

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@ -102,7 +102,7 @@ class PseudoLRU(n: Int)
}
class SeqPLRU(n_sets: Int, n_ways: Int) extends SeqReplacementPolicy {
val state = SeqMem(Bits(width = n_ways-1), n_sets)
val state = SeqMem(n_sets, Bits(width = n_ways-1))
val logic = new PseudoLRU(n_ways)
val current_state = Wire(Bits())
val plru_way = logic.get_replace_way(current_state)
@ -141,7 +141,7 @@ class MetadataArray[T <: Metadata](onReset: () => T)(implicit p: Parameters) ext
val io = new Bundle {
val read = Decoupled(new MetaReadReq).flip
val write = Decoupled(new MetaWriteReq(rstVal)).flip
val resp = Vec(rstVal.cloneType, nWays).asOutput
val resp = Vec(nWays, rstVal.cloneType).asOutput
}
val rst_cnt = Reg(init=UInt(0, log2Up(nSets+1)))
val rst = rst_cnt < UInt(nSets)
@ -151,7 +151,7 @@ class MetadataArray[T <: Metadata](onReset: () => T)(implicit p: Parameters) ext
when (rst) { rst_cnt := rst_cnt+UInt(1) }
val metabits = rstVal.getWidth
val tag_arr = SeqMem(Vec(UInt(width = metabits), nWays), nSets)
val tag_arr = SeqMem(nSets, Vec(nWays, UInt(width = metabits)))
when (rst || io.write.valid) {
tag_arr.write(waddr, Vec.fill(nWays)(wdata), wmask)
}
@ -333,7 +333,7 @@ class L2DataRWIO(implicit p: Parameters) extends L2HellaCacheBundle()(p)
class L2DataArray(delay: Int)(implicit p: Parameters) extends L2HellaCacheModule()(p) {
val io = new L2DataRWIO().flip
val array = SeqMem(Vec(Bits(width=8), rowBits/8), nWays*nSets*refillCycles)
val array = SeqMem(nWays*nSets*refillCycles, Vec(rowBits/8, Bits(width=8)))
val ren = !io.write.valid && io.read.valid
val raddr = Cat(OHToUInt(io.read.bits.way_en), io.read.bits.addr_idx, io.read.bits.addr_beat)
val waddr = Cat(OHToUInt(io.write.bits.way_en), io.write.bits.addr_idx, io.write.bits.addr_beat)
@ -449,9 +449,9 @@ abstract class L2XactTracker(implicit p: Parameters) extends XactTracker()(p)
class CacheBlockBuffer { // TODO
val buffer = Reg(Bits(width = p(CacheBlockBytes)*8))
def internal = Vec(Bits(width = rowBits), internalDataBeats).fromBits(buffer)
def inner = Vec(Bits(width = innerDataBits), innerDataBeats).fromBits(buffer)
def outer = Vec(Bits(width = outerDataBits), outerDataBeats).fromBits(buffer)
def internal = Vec(internalDataBeats, Bits(width = rowBits)).fromBits(buffer)
def inner = Vec(innerDataBeats, Bits(width = innerDataBits)).fromBits(buffer)
def outer = Vec(outerDataBeats, Bits(width = outerDataBits)).fromBits(buffer)
}
def connectDataBeatCounter[S <: L2HellaCacheBundle](inc: Bool, data: S, beat: UInt, full_block: Bool) = {
@ -684,7 +684,7 @@ class L2AcquireTracker(trackerId: Int)(implicit p: Parameters) extends L2XactTra
// Utility function for updating the metadata that will be kept in this cache
def updatePendingCohWhen(flag: Bool, next: HierarchicalMetadata) {
when(flag && pending_coh != next) {
when(flag && pending_coh =/= next) {
pending_meta_write := Bool(true)
pending_coh := next
}
@ -982,7 +982,7 @@ class L2AcquireTracker(trackerId: Int)(implicit p: Parameters) extends L2XactTra
coh.inner.requiresProbesOnVoluntaryWriteback())
val needs_inner_probes = tag_match && coh.inner.requiresProbes(xact)
val should_update_meta = !tag_match && xact_allocate ||
is_hit && pending_coh_on_hit != coh
is_hit && pending_coh_on_hit =/= coh
// Determine any changes to the coherence metadata
when (should_update_meta) { pending_meta_write := Bool(true) }
pending_coh := Mux(is_hit, pending_coh_on_hit, Mux(tag_match, coh, pending_coh_on_miss))

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@ -139,7 +139,7 @@ class MICoherence(dir: DirectoryRepresentation) extends CoherencePolicy(dir) {
def clientStatesWithWritePermission = Vec(clientValid)
def clientStatesWithDirtyData = Vec(clientValid)
def isValid (meta: ClientMetadata): Bool = meta.state != clientInvalid
def isValid (meta: ClientMetadata): Bool = meta.state =/= clientInvalid
def getAcquireType(cmd: UInt, meta: ClientMetadata): UInt = acquireExclusive
@ -230,7 +230,7 @@ class MEICoherence(dir: DirectoryRepresentation) extends CoherencePolicy(dir) {
def clientStatesWithWritePermission = Vec(clientExclusiveClean, clientExclusiveDirty)
def clientStatesWithDirtyData = Vec(clientExclusiveDirty)
def isValid (meta: ClientMetadata) = meta.state != clientInvalid
def isValid (meta: ClientMetadata) = meta.state =/= clientInvalid
def getAcquireType(cmd: UInt, meta: ClientMetadata): UInt =
Mux(isWriteIntent(cmd), acquireExclusiveDirty, acquireExclusiveClean)
@ -332,7 +332,7 @@ class MSICoherence(dir: DirectoryRepresentation) extends CoherencePolicy(dir) {
def clientStatesWithWritePermission = Vec(clientExclusiveDirty)
def clientStatesWithDirtyData = Vec(clientExclusiveDirty)
def isValid(meta: ClientMetadata): Bool = meta.state != clientInvalid
def isValid(meta: ClientMetadata): Bool = meta.state =/= clientInvalid
def getAcquireType(cmd: UInt, meta: ClientMetadata): UInt =
Mux(isWriteIntent(cmd), acquireExclusive, acquireShared)
@ -385,7 +385,7 @@ class MSICoherence(dir: DirectoryRepresentation) extends CoherencePolicy(dir) {
def requiresProbes(a: HasAcquireType, meta: ManagerMetadata) =
Mux(dir.none(meta.sharers), Bool(false),
Mux(dir.one(meta.sharers), Bool(true), //TODO: for now we assume it's Exclusive
Mux(a.isBuiltInType(), a.hasData(), a.a_type != acquireShared)))
Mux(a.isBuiltInType(), a.hasData(), a.a_type =/= acquireShared)))
def requiresProbes(cmd: UInt, meta: ManagerMetadata) = !dir.none(meta.sharers)
@ -450,7 +450,7 @@ class MESICoherence(dir: DirectoryRepresentation) extends CoherencePolicy(dir) {
def clientStatesWithWritePermission = Vec(clientExclusiveClean, clientExclusiveDirty)
def clientStatesWithDirtyData = Vec(clientExclusiveDirty)
def isValid(meta: ClientMetadata): Bool = meta.state != clientInvalid
def isValid(meta: ClientMetadata): Bool = meta.state =/= clientInvalid
def getAcquireType(cmd: UInt, meta: ClientMetadata): UInt =
Mux(isWriteIntent(cmd), acquireExclusive, acquireShared)
@ -505,7 +505,7 @@ class MESICoherence(dir: DirectoryRepresentation) extends CoherencePolicy(dir) {
def requiresProbes(a: HasAcquireType, meta: ManagerMetadata) =
Mux(dir.none(meta.sharers), Bool(false),
Mux(dir.one(meta.sharers), Bool(true), //TODO: for now we assume it's Exclusive
Mux(a.isBuiltInType(), a.hasData(), a.a_type != acquireShared)))
Mux(a.isBuiltInType(), a.hasData(), a.a_type =/= acquireShared)))
def requiresProbes(cmd: UInt, meta: ManagerMetadata) = !dir.none(meta.sharers)
@ -566,7 +566,7 @@ class MigratoryCoherence(dir: DirectoryRepresentation) extends CoherencePolicy(d
def clientStatesWithWritePermission = Vec(clientExclusiveClean, clientExclusiveDirty, clientMigratoryClean, clientMigratoryDirty)
def clientStatesWithDirtyData = Vec(clientExclusiveDirty, clientMigratoryDirty)
def isValid (meta: ClientMetadata): Bool = meta.state != clientInvalid
def isValid (meta: ClientMetadata): Bool = meta.state =/= clientInvalid
def getAcquireType(cmd: UInt, meta: ClientMetadata): UInt =
Mux(isWriteIntent(cmd),
@ -594,7 +594,7 @@ class MigratoryCoherence(dir: DirectoryRepresentation) extends CoherencePolicy(d
releaseInvalidateAckMigratory, releaseInvalidateAck),
probeInvalidateOthers -> Mux(clientSharedByTwo === meta.state,
releaseInvalidateAckMigratory, releaseInvalidateAck),
probeDowngrade -> Mux(meta.state != clientInvalid,
probeDowngrade -> Mux(meta.state =/= clientInvalid,
releaseDowngradeAckHasCopy, releaseDowngradeAck),
probeCopy -> releaseCopyAck))
Mux(dirty, with_data, without_data)
@ -646,7 +646,7 @@ class MigratoryCoherence(dir: DirectoryRepresentation) extends CoherencePolicy(d
def requiresProbes(a: HasAcquireType, meta: ManagerMetadata) =
Mux(dir.none(meta.sharers), Bool(false),
Mux(dir.one(meta.sharers), Bool(true), //TODO: for now we assume it's Exclusive
Mux(a.isBuiltInType(), a.hasData(), a.a_type != acquireShared)))
Mux(a.isBuiltInType(), a.hasData(), a.a_type =/= acquireShared)))
def requiresProbes(cmd: UInt, meta: ManagerMetadata) = !dir.none(meta.sharers)

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@ -49,7 +49,7 @@ class HtifIO(implicit p: Parameters) extends HtifBundle()(p) {
class Htif(csr_RESET: Int)(implicit val p: Parameters) extends Module with HasHtifParameters {
val io = new Bundle {
val host = new HostIO(w)
val cpu = Vec(new HtifIO, nCores).flip
val cpu = Vec(nCores, new HtifIO).flip
val mem = new ClientUncachedTileLinkIO
val scr = new SmiIO(scrDataBits, scrAddrBits)
}
@ -99,7 +99,7 @@ class Htif(csr_RESET: Int)(implicit val p: Parameters) extends Module with HasHt
val bad_mem_packet = size(offsetBits-1-3,0).orR || addr(offsetBits-1-3,0).orR
val nack = Mux(cmd === cmd_readmem || cmd === cmd_writemem, bad_mem_packet,
Mux(cmd === cmd_readcr || cmd === cmd_writecr, size != UInt(1),
Mux(cmd === cmd_readcr || cmd === cmd_writecr, size =/= UInt(1),
Bool(true)))
val tx_count = Reg(init=UInt(0, rx_count_w))
@ -110,7 +110,7 @@ class Htif(csr_RESET: Int)(implicit val p: Parameters) extends Module with HasHt
tx_count := tx_count + UInt(1)
}
val rx_done = rx_word_done && Mux(rx_word_count === UInt(0), next_cmd != cmd_writemem && next_cmd != cmd_writecr, rx_word_count === size || rx_word_count(log2Up(packet_ram_depth)-1,0) === UInt(0))
val rx_done = rx_word_done && Mux(rx_word_count === UInt(0), next_cmd =/= cmd_writemem && next_cmd =/= cmd_writecr, rx_word_count === size || rx_word_count(log2Up(packet_ram_depth)-1,0) === UInt(0))
val tx_size = Mux(!nack && (cmd === cmd_readmem || cmd === cmd_readcr || cmd === cmd_writecr), size, UInt(0))
val tx_done = io.host.out.ready && tx_subword_count.andR && (tx_word_count === tx_size || tx_word_count > UInt(0) && packet_ram_raddr.andR)
@ -147,7 +147,7 @@ class Htif(csr_RESET: Int)(implicit val p: Parameters) extends Module with HasHt
rx_count := UInt(0)
tx_count := UInt(0)
}
state := Mux(cmd === cmd_readmem && pos != UInt(0), state_mem_rreq, state_rx)
state := Mux(cmd === cmd_readmem && pos =/= UInt(0), state_mem_rreq, state_rx)
}
val n = dataBits/short_request_bits
@ -177,7 +177,7 @@ class Htif(csr_RESET: Int)(implicit val p: Parameters) extends Module with HasHt
val cpu = io.cpu(i)
val me = csr_coreid === UInt(i)
cpu.csr.req.valid := state === state_csr_req && me && csr_addr != UInt(csr_RESET)
cpu.csr.req.valid := state === state_csr_req && me && csr_addr =/= UInt(csr_RESET)
cpu.csr.req.bits.rw := cmd === cmd_writecr
cpu.csr.req.bits.addr := csr_addr
cpu.csr.req.bits.data := csr_wdata

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@ -20,7 +20,7 @@ class ClientMetadata(implicit p: Parameters) extends CoherenceMetadata()(p) {
/** Metadata equality */
def ===(rhs: ClientMetadata): Bool = this.state === rhs.state
def !=(rhs: ClientMetadata): Bool = !this.===(rhs)
def =/=(rhs: ClientMetadata): Bool = !this.===(rhs)
/** Is the block's data present in this cache */
def isValid(dummy: Int = 0): Bool = co.isValid(this)
@ -168,7 +168,7 @@ class ManagerMetadata(implicit p: Parameters) extends CoherenceMetadata()(p) {
/** Metadata equality */
def ===(rhs: ManagerMetadata): Bool = //this.state === rhs.state && TODO: Fix 0-width wires in Chisel
this.sharers === rhs.sharers
def !=(rhs: ManagerMetadata): Bool = !this.===(rhs)
def =/=(rhs: ManagerMetadata): Bool = !this.===(rhs)
/** Converts the directory info into an N-hot sharer bitvector (i.e. full representation) */
def full(dummy: Int = 0): UInt = co.dir.full(this.sharers)
@ -319,7 +319,7 @@ class HierarchicalMetadata(implicit p: Parameters) extends CoherenceMetadata()(p
val outer: ClientMetadata = new ClientMetadata()(p.alterPartial({case TLId => p(OuterTLId)}))
def ===(rhs: HierarchicalMetadata): Bool =
this.inner === rhs.inner && this.outer === rhs.outer
def !=(rhs: HierarchicalMetadata): Bool = !this.===(rhs)
def =/=(rhs: HierarchicalMetadata): Bool = !this.===(rhs)
}
/** Factories for HierarchicalMetadata, including on reset */

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@ -19,8 +19,8 @@ class PhysicalNetworkIO[T <: Data](n: Int, dType: T) extends Bundle {
}
class BasicCrossbarIO[T <: Data](n: Int, dType: T) extends Bundle {
val in = Vec(Decoupled(new PhysicalNetworkIO(n,dType)), n).flip
val out = Vec(Decoupled(new PhysicalNetworkIO(n,dType)), n)
val in = Vec(n, Decoupled(new PhysicalNetworkIO(n,dType))).flip
val out = Vec(n, Decoupled(new PhysicalNetworkIO(n,dType)))
}
abstract class PhysicalNetwork extends Module

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@ -5,7 +5,7 @@ import junctions.{SmiIO, MMIOBase}
import cde.Parameters
class SCRIO(implicit p: Parameters) extends HtifBundle()(p) {
val rdata = Vec(Bits(INPUT, scrDataBits), nSCR)
val rdata = Vec(nSCR, Bits(INPUT, scrDataBits))
val wen = Bool(OUTPUT)
val waddr = UInt(OUTPUT, log2Up(nSCR))
val wdata = Bits(OUTPUT, scrDataBits)
@ -17,7 +17,7 @@ class SCRFile(implicit p: Parameters) extends HtifModule()(p) {
val scr = new SCRIO
}
val scr_rdata = Wire(Vec(Bits(width=scrDataBits), io.scr.rdata.size))
val scr_rdata = Wire(Vec(io.scr.rdata.size, Bits(width=scrDataBits)))
for (i <- 0 until scr_rdata.size)
scr_rdata(i) := io.scr.rdata(i)
scr_rdata(0) := UInt(nCores)

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@ -1058,7 +1058,7 @@ trait TileLinkArbiterLike extends HasTileLinkParameters {
abstract class UncachedTileLinkIOArbiter(val arbN: Int)(implicit val p: Parameters) extends Module
with TileLinkArbiterLike {
val io = new Bundle {
val in = Vec(new UncachedTileLinkIO, arbN).flip
val in = Vec(arbN, new UncachedTileLinkIO).flip
val out = new UncachedTileLinkIO
}
hookupClientSource(io.in.map(_.acquire), io.out.acquire)
@ -1070,7 +1070,7 @@ abstract class UncachedTileLinkIOArbiter(val arbN: Int)(implicit val p: Paramete
abstract class TileLinkIOArbiter(val arbN: Int)(implicit val p: Parameters) extends Module
with TileLinkArbiterLike {
val io = new Bundle {
val in = Vec(new TileLinkIO, arbN).flip
val in = Vec(arbN, new TileLinkIO).flip
val out = new TileLinkIO
}
hookupClientSource(io.in.map(_.acquire), io.out.acquire)
@ -1114,7 +1114,7 @@ class TileLinkIOArbiterThatUsesNewId(val n: Int)(implicit p: Parameters) extends
/** Concrete uncached client-side arbiter that appends the arbiter's port id to client_xact_id */
class ClientUncachedTileLinkIOArbiter(val arbN: Int)(implicit val p: Parameters) extends Module with TileLinkArbiterLike with AppendsArbiterId {
val io = new Bundle {
val in = Vec(new ClientUncachedTileLinkIO, arbN).flip
val in = Vec(arbN, new ClientUncachedTileLinkIO).flip
val out = new ClientUncachedTileLinkIO
}
hookupClientSourceHeaderless(io.in.map(_.acquire), io.out.acquire)
@ -1124,7 +1124,7 @@ class ClientUncachedTileLinkIOArbiter(val arbN: Int)(implicit val p: Parameters)
/** Concrete client-side arbiter that appends the arbiter's port id to client_xact_id */
class ClientTileLinkIOArbiter(val arbN: Int)(implicit val p: Parameters) extends Module with TileLinkArbiterLike with AppendsArbiterId {
val io = new Bundle {
val in = Vec(new ClientTileLinkIO, arbN).flip
val in = Vec(arbN, new ClientTileLinkIO).flip
val out = new ClientTileLinkIO
}
hookupClientSourceHeaderless(io.in.map(_.acquire), io.out.acquire)

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@ -62,7 +62,7 @@ trait HasCoherenceAgentWiringHelpers {
trait HasInnerTLIO extends HasCoherenceAgentParameters {
val inner = new ManagerTileLinkIO()(p.alterPartial({case TLId => p(InnerTLId)}))
val incoherent = Vec(Bool(), inner.tlNCachingClients).asInput
val incoherent = Vec(inner.tlNCachingClients, Bool()).asInput
def iacq(dummy: Int = 0) = inner.acquire.bits
def iprb(dummy: Int = 0) = inner.probe.bits
def irel(dummy: Int = 0) = inner.release.bits

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@ -75,7 +75,7 @@ class FlowThroughSerializer[T <: Bundle with HasTileLinkData](gen: T, n: Int) ex
val rbits = Reg{io.in.bits}
val active = Reg(init=Bool(false))
val shifter = Vec(Bits(width = narrowWidth), n)
val shifter = Vec(n, Bits(width = narrowWidth))
(0 until n).foreach {
i => shifter(i) := rbits.data((i+1)*narrowWidth-1,i*narrowWidth)
}
@ -138,8 +138,8 @@ class ReorderQueue[T <: Data](dType: T, tagWidth: Int, size: Int)
}
}
val roq_data = Reg(Vec(dType.cloneType, size))
val roq_tags = Reg(Vec(UInt(width = tagWidth), size))
val roq_data = Reg(Vec(size, dType.cloneType))
val roq_tags = Reg(Vec(size, UInt(width = tagWidth)))
val roq_free = Reg(init = Vec.fill(size)(Bool(true)))
val roq_enq_addr = PriorityEncoder(roq_free)