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Refactored coherence as member rather than trait. MI and MEI protocols.

This commit is contained in:
Henry Cook 2012-04-10 00:09:58 -07:00
parent e71e3ce38f
commit b22d7f8192
2 changed files with 289 additions and 31 deletions

View File

@ -50,7 +50,7 @@ object cpuCmdToRW {
}
}
trait CoherencePolicy {
abstract class CoherencePolicy {
def isHit (cmd: Bits, state: UFix): Bool
def isValid (state: UFix): Bool
@ -72,9 +72,10 @@ trait CoherencePolicy {
def newProbeReply (incoming: ProbeRequest, state: UFix): ProbeReply
def hasData (reply: ProbeReply): Bool
def hasData (init: TransactionInit): Bool
def hasData (reply: TransactionReply): Bool
def messageHasData (reply: ProbeReply): Bool
def messageHasData (init: TransactionInit): Bool
def messageHasData (reply: TransactionReply): Bool
def messageUpdatesDataArray (reply: TransactionReply): Bool
def isCoherenceConflict(addr1: Bits, addr2: Bits): Bool
def getTransactionReplyType(x_type: UFix, count: UFix): Bits
@ -84,7 +85,14 @@ trait CoherencePolicy {
def needsAckReply(x_type: UFix, global_state: UFix): Bool
}
trait IncoherentPolicy extends CoherencePolicy {
trait UncachedTransactions {
def getTransactionInitTypeOnUncachedRead(): UFix
def getTransactionInitTypeOnUncachedWrite(): UFix
}
abstract class CoherencePolicyWithUncached extends CoherencePolicy with UncachedTransactions
abstract class IncoherentPolicy extends CoherencePolicy {
// UNIMPLEMENTED
def newStateOnProbeRequest(incoming: ProbeRequest, state: UFix): Bits = state
def newProbeReply (incoming: ProbeRequest, state: UFix): ProbeReply = {
@ -93,7 +101,7 @@ trait IncoherentPolicy extends CoherencePolicy {
reply.global_xact_id := UFix(0)
reply
}
def hasData (reply: ProbeReply) = Bool(false)
def messageHasData (reply: ProbeReply) = Bool(false)
def isCoherenceConflict(addr1: Bits, addr2: Bits): Bool = Bool(false)
def getTransactionReplyType(x_type: UFix, count: UFix): Bits = Bits(0)
def getProbeRequestType(x_type: UFix, global_state: UFix): UFix = UFix(0)
@ -102,7 +110,7 @@ trait IncoherentPolicy extends CoherencePolicy {
def needsAckReply(x_type: UFix, global_state: UFix): Bool = Bool(false)
}
trait ThreeStateIncoherence extends IncoherentPolicy {
class ThreeStateIncoherence extends IncoherentPolicy {
val tileInvalid :: tileClean :: tileDirty :: Nil = Enum(3){ UFix() }
val xactInitReadClean :: xactInitReadDirty :: xactInitWriteback :: Nil = Enum(3){ UFix() }
val xactReplyData :: xactReplyAck :: Nil = Enum(2){ UFix() }
@ -141,11 +149,256 @@ trait ThreeStateIncoherence extends IncoherentPolicy {
def getTransactionInitTypeOnCacheControl(cmd: Bits): Bits = xactInitWriteback //TODO
def getTransactionInitTypeOnWriteback(): Bits = xactInitWriteback
def hasData (init: TransactionInit): Bool = (init.x_type === xactInitWriteback)
def hasData (reply: TransactionReply) = (reply.x_type === xactReplyData)
def messageHasData (init: TransactionInit): Bool = (init.x_type === xactInitWriteback)
def messageHasData (reply: TransactionReply) = (reply.x_type === xactReplyData)
def messageUpdatesDataArray (reply: TransactionReply) = (reply.x_type === xactReplyData)
}
trait FourStateCoherence extends CoherencePolicy {
class TwoStateCoherence extends CoherencePolicyWithUncached {
val tileInvalid :: tileValid :: Nil = Enum(2){ UFix() }
val globalInvalid :: globalValid :: Nil = Enum(2){ UFix() }
val xactInitReadExclusive :: xactInitReadUncached :: xactInitWriteUncached :: Nil = Enum(3){ UFix() }
val xactReplyReadExclusive :: xactReplyReadUncached :: xactReplyWriteUncached :: Nil = Enum(3){ UFix() }
val probeReqInvalidate :: probeReqCopy :: Nil = Enum(2){ UFix() }
val probeRepInvalidateData :: probeRepCopyData :: probeRepInvalidateAck :: probeRepCopyAck :: Nil = Enum(4){ UFix() }
def isHit (cmd: Bits, state: UFix): Bool = state != tileInvalid
def isValid (state: UFix): Bool = state != tileInvalid
def needsTransactionOnSecondaryMiss(cmd: Bits, outstanding: TransactionInit): Bool = (outstanding.x_type != xactInitReadExclusive)
def needsTransactionOnCacheControl(cmd: Bits, state: UFix): Bool = {
MuxLookup(cmd, (state === tileValid), Array(
M_INV -> (state === tileValid),
M_CLN -> (state === tileValid)
))
}
def needsWriteback (state: UFix): Bool = {
needsTransactionOnCacheControl(M_INV, state)
}
def newStateOnHit(cmd: Bits, state: UFix): UFix = state
def newStateOnCacheControl(cmd: Bits) = {
MuxLookup(cmd, tileInvalid, Array(
M_INV -> tileInvalid,
M_CLN -> tileValid
))
}
def newStateOnWriteback() = newStateOnCacheControl(M_INV)
def newStateOnFlush() = newStateOnCacheControl(M_INV)
def newStateOnTransactionReply(incoming: TransactionReply, outstanding: TransactionInit): UFix = {
MuxLookup(incoming.x_type, tileInvalid, Array(
xactReplyReadExclusive -> tileValid,
xactReplyReadUncached -> tileInvalid,
xactReplyWriteUncached -> tileInvalid
))
}
def newStateOnProbeRequest(incoming: ProbeRequest, state: UFix): Bits = {
MuxLookup(incoming.p_type, state, Array(
probeReqInvalidate -> tileInvalid,
probeReqCopy -> state
))
}
def getTransactionInitTypeOnUncachedRead() = xactInitReadUncached
def getTransactionInitTypeOnUncachedWrite() = xactInitWriteUncached
def getTransactionInitTypeOnPrimaryMiss(cmd: Bits, state: UFix): UFix = xactInitReadExclusive
def getTransactionInitTypeOnSecondaryMiss(cmd: Bits, state: UFix, outstanding: TransactionInit): UFix = xactInitReadExclusive
def getTransactionInitTypeOnCacheControl(cmd: Bits): Bits = xactInitWriteUncached
def getTransactionInitTypeOnWriteback(): Bits = getTransactionInitTypeOnCacheControl(M_INV)
def newProbeReply (incoming: ProbeRequest, state: UFix): ProbeReply = {
val reply = Wire() { new ProbeReply() }
val with_data = MuxLookup(incoming.p_type, probeRepInvalidateData, Array(
probeReqInvalidate -> probeRepInvalidateData,
probeReqCopy -> probeRepCopyData
))
val without_data = MuxLookup(incoming.p_type, probeRepInvalidateAck, Array(
probeReqInvalidate -> probeRepInvalidateAck,
probeReqCopy -> probeRepCopyAck
))
reply.p_type := Mux(needsWriteback(state), with_data, without_data)
reply.global_xact_id := incoming.global_xact_id
reply
}
def messageHasData (reply: ProbeReply): Bool = {
(reply.p_type === probeRepInvalidateData ||
reply.p_type === probeRepCopyData)
}
def messageHasData (init: TransactionInit): Bool = {
(init.x_type === xactInitWriteUncached)
}
def messageHasData (reply: TransactionReply): Bool = {
(reply.x_type != xactReplyWriteUncached)
}
def messageUpdatesDataArray (reply: TransactionReply): Bool = {
(reply.x_type === xactReplyReadExclusive)
}
def isCoherenceConflict(addr1: Bits, addr2: Bits): Bool = (addr1 === addr2)
def getTransactionReplyType(x_type: UFix, count: UFix): Bits = {
MuxLookup(x_type, xactReplyReadUncached, Array(
xactInitReadExclusive -> xactReplyReadExclusive,
xactInitReadUncached -> xactReplyReadUncached,
xactInitWriteUncached -> xactReplyWriteUncached
))
}
def getProbeRequestType(x_type: UFix, global_state: UFix): UFix = {
MuxLookup(x_type, probeReqCopy, Array(
xactInitReadExclusive -> probeReqInvalidate,
xactInitReadUncached -> probeReqCopy,
xactInitWriteUncached -> probeReqInvalidate
))
}
def needsMemRead(x_type: UFix, global_state: UFix): Bool = {
(x_type != xactInitWriteUncached)
}
def needsMemWrite(x_type: UFix, global_state: UFix): Bool = {
(x_type === xactInitWriteUncached)
}
def needsAckReply(x_type: UFix, global_state: UFix): Bool = {
(x_type === xactInitWriteUncached)
}
}
class ThreeStateCoherence extends CoherencePolicyWithUncached { //MEI
val tileInvalid :: tileExclusiveClean :: tileExclusiveDirty :: Nil = Enum(3){ UFix() }
val globalInvalid :: globalExclusiveClean :: Nil = Enum(2){ UFix() }
val xactInitReadExclusiveClean :: xactInitReadExclusiveDirty :: xactInitReadUncached :: xactInitWriteUncached :: Nil = Enum(4){ UFix() }
val xactReplyReadExclusive :: xactReplyReadUncached :: xactReplyWriteUncached :: xactReplyReadExclusiveAck :: Nil = Enum(4){ UFix() }
val probeReqInvalidate :: probeReqDowngrade :: probeReqCopy :: Nil = Enum(3){ UFix() }
val probeRepInvalidateData :: probeRepDowngradeData :: probeRepCopyData :: probeRepInvalidateAck :: probeRepDowngradeAck :: probeRepCopyAck :: Nil = Enum(6){ UFix() }
def isHit (cmd: Bits, state: UFix): Bool = state != tileInvalid
def isValid (state: UFix): Bool = state != tileInvalid
def needsTransactionOnSecondaryMiss(cmd: Bits, outstanding: TransactionInit): Bool = {
val (read, write) = cpuCmdToRW(cmd)
(read && (outstanding.x_type === xactInitReadUncached || outstanding.x_type === xactInitWriteUncached)) ||
(write && (outstanding.x_type != xactInitReadExclusiveDirty))
}
def needsTransactionOnCacheControl(cmd: Bits, state: UFix): Bool = {
MuxLookup(cmd, (state === tileExclusiveDirty), Array(
M_INV -> (state === tileExclusiveDirty),
M_CLN -> (state === tileExclusiveDirty)
))
}
def needsWriteback (state: UFix): Bool = {
needsTransactionOnCacheControl(M_INV, state)
}
def newStateOnHit(cmd: Bits, state: UFix): UFix = {
val (read, write) = cpuCmdToRW(cmd)
Mux(write, tileExclusiveDirty, state)
}
def newStateOnCacheControl(cmd: Bits) = {
MuxLookup(cmd, tileInvalid, Array(
M_INV -> tileInvalid,
M_CLN -> tileExclusiveClean
))
}
def newStateOnWriteback() = newStateOnCacheControl(M_INV)
def newStateOnFlush() = newStateOnCacheControl(M_INV)
def newStateOnTransactionReply(incoming: TransactionReply, outstanding: TransactionInit): UFix = {
MuxLookup(incoming.x_type, tileInvalid, Array(
xactReplyReadExclusive -> Mux(outstanding.x_type === xactInitReadExclusiveDirty, tileExclusiveDirty, tileExclusiveClean),
xactReplyReadExclusiveAck -> tileExclusiveDirty,
xactReplyReadUncached -> tileInvalid,
xactReplyWriteUncached -> tileInvalid
))
}
def newStateOnProbeRequest(incoming: ProbeRequest, state: UFix): Bits = {
MuxLookup(incoming.p_type, state, Array(
probeReqInvalidate -> tileInvalid,
probeReqDowngrade -> tileExclusiveClean,
probeReqCopy -> state
))
}
def getTransactionInitTypeOnUncachedRead() = xactInitReadUncached
def getTransactionInitTypeOnUncachedWrite() = xactInitWriteUncached
def getTransactionInitTypeOnPrimaryMiss(cmd: Bits, state: UFix): UFix = {
val (read, write) = cpuCmdToRW(cmd)
Mux(write, xactInitReadExclusiveDirty, xactInitReadExclusiveClean)
}
def getTransactionInitTypeOnSecondaryMiss(cmd: Bits, state: UFix, outstanding: TransactionInit): UFix = {
val (read, write) = cpuCmdToRW(cmd)
Mux(write, xactInitReadExclusiveDirty, outstanding.x_type)
}
def getTransactionInitTypeOnCacheControl(cmd: Bits): Bits = xactInitWriteUncached
def getTransactionInitTypeOnWriteback(): Bits = getTransactionInitTypeOnCacheControl(M_INV)
def newProbeReply (incoming: ProbeRequest, state: UFix): ProbeReply = {
val reply = Wire() { new ProbeReply() }
val with_data = MuxLookup(incoming.p_type, probeRepInvalidateData, Array(
probeReqInvalidate -> probeRepInvalidateData,
probeReqDowngrade -> probeRepDowngradeData,
probeReqCopy -> probeRepCopyData
))
val without_data = MuxLookup(incoming.p_type, probeRepInvalidateAck, Array(
probeReqInvalidate -> probeRepInvalidateAck,
probeReqDowngrade -> probeRepDowngradeAck,
probeReqCopy -> probeRepCopyAck
))
reply.p_type := Mux(needsWriteback(state), with_data, without_data)
reply.global_xact_id := incoming.global_xact_id
reply
}
def messageHasData (reply: ProbeReply): Bool = {
(reply.p_type === probeRepInvalidateData ||
reply.p_type === probeRepDowngradeData ||
reply.p_type === probeRepCopyData)
}
def messageHasData (init: TransactionInit): Bool = {
(init.x_type === xactInitWriteUncached)
}
def messageHasData (reply: TransactionReply): Bool = {
(reply.x_type != xactReplyWriteUncached && reply.x_type != xactReplyReadExclusiveAck)
}
def messageUpdatesDataArray (reply: TransactionReply): Bool = {
(reply.x_type === xactReplyReadExclusive)
}
def isCoherenceConflict(addr1: Bits, addr2: Bits): Bool = (addr1 === addr2)
def getTransactionReplyType(x_type: UFix, count: UFix): Bits = {
MuxLookup(x_type, xactReplyReadUncached, Array(
xactInitReadExclusiveClean -> xactReplyReadExclusive,
xactInitReadExclusiveDirty -> xactReplyReadExclusive,
xactInitReadUncached -> xactReplyReadUncached,
xactInitWriteUncached -> xactReplyWriteUncached
))
}
def getProbeRequestType(x_type: UFix, global_state: UFix): UFix = {
MuxLookup(x_type, probeReqCopy, Array(
xactInitReadExclusiveClean -> probeReqInvalidate,
xactInitReadExclusiveDirty -> probeReqInvalidate,
xactInitReadUncached -> probeReqCopy,
xactInitWriteUncached -> probeReqInvalidate
))
}
def needsMemRead(x_type: UFix, global_state: UFix): Bool = {
(x_type != xactInitWriteUncached)
}
def needsMemWrite(x_type: UFix, global_state: UFix): Bool = {
(x_type === xactInitWriteUncached)
}
def needsAckReply(x_type: UFix, global_state: UFix): Bool = {
(x_type === xactInitWriteUncached)
}
}
class FourStateCoherence extends CoherencePolicyWithUncached {
val tileInvalid :: tileShared :: tileExclusiveClean :: tileExclusiveDirty :: Nil = Enum(4){ UFix() }
val globalInvalid :: globalShared :: globalExclusiveClean :: Nil = Enum(3){ UFix() }
@ -208,6 +461,8 @@ trait FourStateCoherence extends CoherencePolicy {
))
}
def getTransactionInitTypeOnUncachedRead() = xactInitReadUncached
def getTransactionInitTypeOnUncachedWrite() = xactInitWriteUncached
def getTransactionInitTypeOnPrimaryMiss(cmd: Bits, state: UFix): UFix = {
val (read, write) = cpuCmdToRW(cmd)
Mux(write || cmd === M_PFW, xactInitReadExclusive, xactInitReadShared)
@ -236,17 +491,20 @@ trait FourStateCoherence extends CoherencePolicy {
reply
}
def hasData (reply: ProbeReply): Bool = {
def messageHasData (reply: ProbeReply): Bool = {
(reply.p_type === probeRepInvalidateData ||
reply.p_type === probeRepDowngradeData ||
reply.p_type === probeRepCopyData)
}
def hasData (init: TransactionInit): Bool = {
def messageHasData (init: TransactionInit): Bool = {
(init.x_type === xactInitWriteUncached)
}
def hasData (reply: TransactionReply): Bool = {
def messageHasData (reply: TransactionReply): Bool = {
(reply.x_type != xactReplyWriteUncached && reply.x_type != xactReplyReadExclusiveAck)
}
def messageUpdatesDataArray (reply: TransactionReply): Bool = {
(reply.x_type === xactReplyReadShared || reply.x_type === xactReplyReadExclusive)
}
def isCoherenceConflict(addr1: Bits, addr2: Bits): Bool = (addr1 === addr2)

View File

@ -50,7 +50,7 @@ class ioTileLink extends Bundle {
val xact_finish = (new ioDecoupled) { new TransactionFinish }
}
class XactTracker(ntiles: Int, id: Int) extends Component with FourStateCoherence {
class XactTracker(ntiles: Int, id: Int, co: CoherencePolicy) extends Component {
val io = new Bundle {
val alloc_req = (new ioDecoupled) { new TrackerAllocReq }.flip
val p_data = (new ioPipe) { new TrackerProbeData }.flip
@ -148,7 +148,7 @@ class XactTracker(ntiles: Int, id: Int) extends Component with FourStateCoherenc
io.mem_req_data.bits.data := UFix(0)
io.mem_req_lock := Bool(false)
io.probe_req.valid := Bool(false)
io.probe_req.bits.p_type := getProbeRequestType(x_type_, UFix(0))
io.probe_req.bits.p_type := co.getProbeRequestType(x_type_, UFix(0))
io.probe_req.bits.global_xact_id := UFix(id)
io.probe_req.bits.address := addr_
io.push_p_req := Bits(0, width = ntiles)
@ -167,8 +167,8 @@ class XactTracker(ntiles: Int, id: Int) extends Component with FourStateCoherenc
x_type_ := io.alloc_req.bits.xact_init.x_type
init_tile_id_ := io.alloc_req.bits.tile_id
tile_xact_id_ := io.alloc_req.bits.xact_init.tile_xact_id
x_init_data_needs_write := hasData(io.alloc_req.bits.xact_init)
x_needs_read := needsMemRead(io.alloc_req.bits.xact_init.x_type, UFix(0))
x_init_data_needs_write := co.messageHasData(io.alloc_req.bits.xact_init)
x_needs_read := co.needsMemRead(io.alloc_req.bits.xact_init.x_type, UFix(0))
if(ntiles > 1) p_rep_count := UFix(ntiles-1)
val p_req_initial_flags = ~( UFix(1) << io.alloc_req.bits.tile_id ) //TODO: Broadcast only
p_req_flags := p_req_initial_flags
@ -226,7 +226,7 @@ class XactTracker(ntiles: Int, id: Int) extends Component with FourStateCoherenc
} . elsewhen (x_needs_read) {
doMemReqRead(io.mem_req_cmd, x_needs_read)
} . otherwise {
state := Mux(needsAckReply(x_type_, UFix(0)), s_ack, s_busy)
state := Mux(co.needsAckReply(x_type_, UFix(0)), s_ack, s_busy)
}
}
is(s_ack) {
@ -241,17 +241,17 @@ class XactTracker(ntiles: Int, id: Int) extends Component with FourStateCoherenc
}
}
abstract class CoherenceHub(ntiles: Int) extends Component with CoherencePolicy {
abstract class CoherenceHub(ntiles: Int, co: CoherencePolicy) extends Component {
val io = new Bundle {
val tiles = Vec(ntiles) { new ioTileLink() }.flip
val mem = new ioMem
}
}
class CoherenceHubNull extends CoherenceHub(1) with ThreeStateIncoherence
class CoherenceHubNull(co: ThreeStateIncoherence) extends CoherenceHub(1, co)
{
val x_init = io.tiles(0).xact_init
val is_write = x_init.bits.x_type === xactInitWriteback
val is_write = x_init.bits.x_type === co.xactInitWriteback
x_init.ready := io.mem.req_cmd.ready && !(is_write && io.mem.resp.valid) //stall write req/resp to handle previous read resp
io.mem.req_cmd.valid := x_init.valid && !(is_write && io.mem.resp.valid)
io.mem.req_cmd.bits.rw := is_write
@ -260,7 +260,7 @@ class CoherenceHubNull extends CoherenceHub(1) with ThreeStateIncoherence
io.mem.req_data <> io.tiles(0).xact_init_data
val x_rep = io.tiles(0).xact_rep
x_rep.bits.x_type := Mux(io.mem.resp.valid, xactReplyData, xactReplyAck)
x_rep.bits.x_type := Mux(io.mem.resp.valid, co.xactReplyData, co.xactReplyAck)
x_rep.bits.tile_xact_id := Mux(io.mem.resp.valid, io.mem.resp.bits.tag, x_init.bits.tile_xact_id)
x_rep.bits.global_xact_id := UFix(0) // don't care
x_rep.bits.data := io.mem.resp.bits.data
@ -275,9 +275,9 @@ class CoherenceHubNull extends CoherenceHub(1) with ThreeStateIncoherence
}
class CoherenceHubBroadcast(ntiles: Int) extends CoherenceHub(ntiles) with FourStateCoherence
class CoherenceHubBroadcast(ntiles: Int, co: CoherencePolicy) extends CoherenceHub(ntiles, co)
{
val trackerList = (0 until NGLOBAL_XACTS).map(new XactTracker(ntiles, _))
val trackerList = (0 until NGLOBAL_XACTS).map(new XactTracker(ntiles, _, co))
val busy_arr = Vec(NGLOBAL_XACTS){ Wire(){Bool()} }
val addr_arr = Vec(NGLOBAL_XACTS){ Wire(){Bits(width=PADDR_BITS-OFFSET_BITS)} }
@ -344,12 +344,12 @@ class CoherenceHubBroadcast(ntiles: Int) extends CoherenceHub(ntiles) with FourS
rep.bits.require_ack := Bool(true)
rep.valid := Bool(false)
when(io.mem.resp.valid && (UFix(j) === init_tile_id_arr(mem_idx))) {
rep.bits.x_type := getTransactionReplyType(x_type_arr(mem_idx), sh_count_arr(mem_idx))
rep.bits.x_type := co.getTransactionReplyType(x_type_arr(mem_idx), sh_count_arr(mem_idx))
rep.bits.tile_xact_id := tile_xact_id_arr(mem_idx)
rep.bits.global_xact_id := mem_idx
rep.valid := Bool(true)
} . otherwise {
rep.bits.x_type := getTransactionReplyType(x_type_arr(ack_idx), sh_count_arr(ack_idx))
rep.bits.x_type := co.getTransactionReplyType(x_type_arr(ack_idx), sh_count_arr(ack_idx))
rep.bits.tile_xact_id := tile_xact_id_arr(ack_idx)
rep.bits.global_xact_id := ack_idx
when (UFix(j) === init_tile_id_arr(ack_idx)) {
@ -417,16 +417,16 @@ class CoherenceHubBroadcast(ntiles: Int) extends CoherenceHub(ntiles) with FourS
val conflicts = Vec(NGLOBAL_XACTS) { Wire() { Bool() } }
for( i <- 0 until NGLOBAL_XACTS) {
val t = trackerList(i).io
conflicts(i) := t.busy && x_init.valid && isCoherenceConflict(t.addr, x_init.bits.address)
conflicts(i) := t.busy && x_init.valid && co.isCoherenceConflict(t.addr, x_init.bits.address)
}
x_abort.bits.tile_xact_id := x_init.bits.tile_xact_id
want_to_abort_arr(j) := x_init.valid && (conflicts.toBits.orR || busy_arr.toBits.andR || (!x_init_data_dep_list(j).io.enq.ready && hasData(x_init.bits)))
want_to_abort_arr(j) := x_init.valid && (conflicts.toBits.orR || busy_arr.toBits.andR || (!x_init_data_dep_list(j).io.enq.ready && co.messageHasData(x_init.bits)))
x_abort.valid := Bool(false)
switch(abort_state_arr(j)) {
is(s_idle) {
when(want_to_abort_arr(j)) {
when(hasData(x_init.bits)) {
when(co.messageHasData(x_init.bits)) {
abort_state_arr(j) := s_abort_drain
} . otherwise {
abort_state_arr(j) := s_abort_send
@ -478,7 +478,7 @@ class CoherenceHubBroadcast(ntiles: Int) extends CoherenceHub(ntiles) with FourS
init_arb.io.in(j).bits.tile_id := UFix(j)
val pop_x_inits = trackerList.map(_.io.pop_x_init(j).toBool)
val do_pop = foldR(pop_x_inits)(_||_)
x_init_data_dep_list(j).io.enq.valid := do_pop && hasData(x_init.bits) && (abort_state_arr(j) === s_idle)
x_init_data_dep_list(j).io.enq.valid := do_pop && co.messageHasData(x_init.bits) && (abort_state_arr(j) === s_idle)
x_init_data_dep_list(j).io.enq.bits.global_xact_id := OHToUFix(pop_x_inits)
x_init.ready := (abort_state_arr(j) === s_abort_complete) || do_pop
x_init_data.ready := (abort_state_arr(j) === s_abort_drain) || foldR(trackerList.map(_.io.pop_x_init_data(j).toBool))(_||_)