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Fixed elaboration errors in LockingArbiter and BoradcastHub. Fixed ioDecoupled direction error in XactTracker

This commit is contained in:
Henry Cook 2012-03-01 18:23:46 -08:00
parent 2152b0283d
commit de73eef409

View File

@ -163,13 +163,12 @@ trait FourStateCoherence extends CoherencePolicy {
def needsSecondaryXact (cmd: Bits, outstanding: TransactionInit): Bool
def getMetaUpdateOnProbe (incoming: ProbeRequest): Bits = {
val state = UFix(0)
switch(incoming.p_type) {
is(probeInvalidate) { state := tileInvalid }
is(probeDowngrade) { state := tileShared }
}
state.toBits
def newStateOnProbe (incoming: ProbeRequest, state: UFix): Bits = {
MuxLookup(incoming.p_type, state, Array(
probeInvalidate -> tileInvalid,
probeDowngrade -> tileShared,
probeCopy -> state
))
}
def replyTypeHasData (reply: TransactionReply): Bool = {
@ -187,9 +186,10 @@ class XactTracker(id: Int) extends Component with CoherencePolicy {
val p_req_cnt_inc = Bits(NTILES, INPUT)
val p_rep_data = (new ioDecoupled) { new ProbeReplyData() }
val x_init_data = (new ioDecoupled) { new TransactionInitData() }
val sent_x_rep_ack = Bool(INPUT)
val mem_req_cmd = (new ioDecoupled) { new MemReqCmd() }
val mem_req_data = (new ioDecoupled) { new MemData() }
val mem_req_cmd = (new ioDecoupled) { new MemReqCmd() }.flip
val mem_req_data = (new ioDecoupled) { new MemData() }.flip
val mem_req_lock = Bool(OUTPUT)
val probe_req = (new ioDecoupled) { new ProbeRequest() }.flip
val busy = Bool(OUTPUT)
@ -222,7 +222,7 @@ class XactTracker(id: Int) extends Component with CoherencePolicy {
(t_type === X_WRITE_UNCACHED)
}
val s_idle :: s_mem :: s_probe :: s_busy :: Nil = Enum(4){ UFix() }
val s_idle :: s_ack :: s_mem :: s_probe :: s_busy :: Nil = Enum(5){ UFix() }
val state = Reg(resetVal = s_idle)
val addr_ = Reg{ UFix() }
val t_type_ = Reg{ Bits() }
@ -241,7 +241,10 @@ class XactTracker(id: Int) extends Component with CoherencePolicy {
def doMemReqWrite(req_cmd: ioDecoupled[MemReqCmd], req_data: ioDecoupled[MemData], lock: Bool, data: ioDecoupled[MemData], trigger: Bool, pop: Bool) {
req_cmd.valid := mem_cmd_sent
req_cmd.bits.rw := Bool(true)
req_data <> data
//TODO: why does req_data <> data segfault?
req_data.valid := data.valid
req_data.bits.data := data.bits.data
data.ready := req_data.ready
lock := Bool(true)
when(req_cmd.ready && req_cmd.valid) {
mem_cmd_sent := Bool(false)
@ -270,7 +273,7 @@ class XactTracker(id: Int) extends Component with CoherencePolicy {
io.sharer_count := UFix(NTILES) // TODO: Broadcast only
io.t_type := t_type_
io.mem_req_cmd.valid := Bool(false)
io.mem_req_cmd.valid := Bool(false)
io.mem_req_cmd.bits.rw := Bool(false)
io.mem_req_cmd.bits.addr := addr_
io.mem_req_cmd.bits.tag := UFix(id)
@ -279,7 +282,7 @@ class XactTracker(id: Int) extends Component with CoherencePolicy {
io.mem_req_lock := Bool(false)
io.probe_req.valid := Bool(false)
io.probe_req.bits.p_type := sendProbeReqType(t_type_, UFix(0))
io.probe_req.bits.global_xact_id := UFix(id)
io.probe_req.bits.global_xact_id := UFix(id)
io.probe_req.bits.address := addr_
io.push_p_req := Bits(0, width = NTILES)
io.pop_p_rep := Bits(0, width = NTILES)
@ -287,6 +290,8 @@ class XactTracker(id: Int) extends Component with CoherencePolicy {
io.pop_x_init := Bool(false)
io.pop_x_init_data := Bool(false)
io.send_x_rep_ack := Bool(false)
io.x_init_data.ready := Bool(false) // don't care
io.p_rep_data.ready := Bool(false) // don't care
switch (state) {
is(s_idle) {
@ -336,20 +341,19 @@ class XactTracker(id: Int) extends Component with CoherencePolicy {
} . elsewhen (x_needs_read) {
doMemReqRead(io.mem_req_cmd, x_needs_read)
} . otherwise {
io.send_x_rep_ack := needsAckRep(t_type_, UFix(0))
state := s_busy
state := Mux(needsAckRep(t_type_, UFix(0)), s_ack, s_busy)
}
}
is(s_ack) {
io.send_x_rep_ack := Bool(true)
when(io.sent_x_rep_ack) { state := s_busy }
}
is(s_busy) { // Nothing left to do but wait for transaction to complete
when (io.xact_finish) {
state := s_idle
}
}
}
//TODO: Decrement the probe count when final data piece is written
// Connent io.mem.ready sig to correct pop* outputs
// P_rep and x_init must be popped on same cycle of receipt
}
abstract class CoherenceHub extends Component with CoherencePolicy {
@ -385,19 +389,16 @@ class CoherenceHubBroadcast extends CoherenceHub {
addr1(PADDR_BITS-1, OFFSET_BITS) === addr2(PADDR_BITS-1, OFFSET_BITS)
}
def getTransactionReplyType(t_type: UFix, count: UFix): Bits = {
val ret = Wire() { Bits(width = TTYPE_BITS) }
switch (t_type) {
is(X_READ_SHARED) { ret := Mux(count > UFix(0), X_READ_SHARED, X_READ_EXCLUSIVE) }
is(X_READ_EXCLUSIVE) { ret := X_READ_EXCLUSIVE }
is(X_READ_UNCACHED) { ret := X_READ_UNCACHED }
is(X_WRITE_UNCACHED) { ret := X_WRITE_UNCACHED }
}
ret
MuxLookup(t_type, X_READ_UNCACHED, Array(
X_READ_SHARED -> Mux(count > UFix(0), X_READ_SHARED, X_READ_EXCLUSIVE),
X_READ_EXCLUSIVE -> X_READ_EXCLUSIVE,
X_READ_UNCACHED -> X_READ_UNCACHED,
X_WRITE_UNCACHED -> X_WRITE_UNCACHED
))
}
val trackerList = (0 until NGLOBAL_XACTS).map(new XactTracker(_))
/*
val busy_arr = Vec(NGLOBAL_XACTS){ Wire(){Bool()} }
val addr_arr = Vec(NGLOBAL_XACTS){ Wire(){Bits(width=PADDR_BITS)} }
val init_tile_id_arr = Vec(NGLOBAL_XACTS){ Wire(){Bits(width=TILE_ID_BITS)} }
@ -409,39 +410,60 @@ class CoherenceHubBroadcast extends CoherenceHub {
val do_free_arr = Vec(NGLOBAL_XACTS){ Wire(){Bool()} }
val p_rep_cnt_dec_arr = Vec(NGLOBAL_XACTS){ Wire(){Bits(width=NTILES)} }
val p_req_cnt_inc_arr = Vec(NGLOBAL_XACTS){ Wire(){Bits(width=NTILES)} }
val sent_x_rep_ack_arr = Vec(NGLOBAL_XACTS){ Wire(){Bool()} }
for( i <- 0 until NGLOBAL_XACTS) {
busy_arr.write( UFix(i), trackerList(i).io.busy)
addr_arr.write( UFix(i), trackerList(i).io.addr)
init_tile_id_arr.write( UFix(i), trackerList(i).io.init_tile_id)
tile_xact_id_arr.write( UFix(i), trackerList(i).io.tile_xact_id)
t_type_arr.write( UFix(i), trackerList(i).io.t_type)
sh_count_arr.write( UFix(i), trackerList(i).io.sharer_count)
send_x_rep_ack_arr.write(UFix(i), trackerList(i).io.send_x_rep_ack)
trackerList(i).io.xact_finish := do_free_arr.read(UFix(i))
trackerList(i).io.p_rep_cnt_dec := p_rep_cnt_dec_arr.read(UFix(i))
trackerList(i).io.p_req_cnt_inc := p_req_cnt_inc_arr.read(UFix(i))
val t = trackerList(i).io
busy_arr(i) := t.busy
addr_arr(i) := t.addr
init_tile_id_arr(i) := t.init_tile_id
tile_xact_id_arr(i) := t.tile_xact_id
t_type_arr(i) := t.t_type
sh_count_arr(i) := t.sharer_count
send_x_rep_ack_arr(i) := t.send_x_rep_ack
do_free_arr(i) := Bool(false)
p_rep_cnt_dec_arr(i) := Bits(0)
p_req_cnt_inc_arr(i) := Bits(0)
sent_x_rep_ack_arr(i) := Bool(false)
t.xact_finish := do_free_arr(i)
t.p_rep_cnt_dec := p_rep_cnt_dec_arr(i)
t.p_req_cnt_inc := p_req_cnt_inc_arr(i)
t.sent_x_rep_ack := sent_x_rep_ack_arr(i)
}
// Free finished transactions
for( j <- 0 until NTILES ) {
val finish = io.tiles(j).xact_finish
do_free_arr.write(finish.bits.global_xact_id, finish.valid)
do_free_arr(finish.bits.global_xact_id) := finish.valid
finish.ready := Bool(true)
}
// Reply to initial requestor
// Forward memory responses from mem to tile
val idx = io.mem.resp.bits.tag
// Forward memory responses from mem to tile or arbitrate to ack
val mem_idx = io.mem.resp.bits.tag
val ack_idx = PriorityEncoder(send_x_rep_ack_arr.toBits, NGLOBAL_XACTS)
for( j <- 0 until NTILES ) {
io.tiles(j).xact_rep.bits.t_type := getTransactionReplyType(t_type_arr.read(idx), sh_count_arr.read(idx))
io.tiles(j).xact_rep.bits.tile_xact_id := tile_xact_id_arr.read(idx)
io.tiles(j).xact_rep.bits.global_xact_id := idx
val rep = io.tiles(j).xact_rep
rep.bits.t_type := UFix(0)
rep.bits.tile_xact_id := UFix(0)
rep.bits.global_xact_id := UFix(0)
rep.valid := Bool(false)
when(io.mem.resp.valid) {
rep.bits.t_type := getTransactionReplyType(t_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 := (UFix(j) === init_tile_id_arr(mem_idx))
} . otherwise {
rep.bits.t_type := getTransactionReplyType(t_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
rep.valid := (UFix(j) === init_tile_id_arr(ack_idx)) && send_x_rep_ack_arr(ack_idx)
}
io.tiles(j).xact_rep.bits.data := io.mem.resp.bits.data
io.tiles(j).xact_rep.valid := (UFix(j) === init_tile_id_arr.read(idx)) && (io.mem.resp.valid || send_x_rep_ack_arr.read(idx))
}
sent_x_rep_ack_arr(ack_idx) := !io.mem.resp.valid && send_x_rep_ack_arr(ack_idx)
// If there were a ready signal due to e.g. intervening network use:
//io.mem.resp.ready := io.tiles(init_tile_id_arr.read(idx)).xact_rep.ready
//io.mem.resp.ready := io.tiles(init_tile_id_arr.read(mem_idx)).xact_rep.ready
// Create an arbiter for the one memory port
// We have to arbitrate between the different trackers' memory requests
@ -466,7 +488,8 @@ class CoherenceHubBroadcast extends CoherenceHub {
p_rep_data.ready := foldR(trackerList.map(_.io.pop_p_rep_data(j)))(_ || _)
}
for( i <- 0 until NGLOBAL_XACTS ) {
trackerList(i).io.p_rep_data <> io.tiles(trackerList(i).io.p_rep_tile_id).probe_rep_data
trackerList(i).io.p_rep_data.valid := io.tiles(trackerList(i).io.p_rep_tile_id).probe_rep_data.valid
trackerList(i).io.p_rep_data.bits := io.tiles(trackerList(i).io.p_rep_tile_id).probe_rep_data.bits
for( j <- 0 until NTILES) {
val p_rep = io.tiles(j).probe_rep
val dec = p_rep.valid && (p_rep.bits.global_xact_id === UFix(i))
@ -475,14 +498,14 @@ class CoherenceHubBroadcast extends CoherenceHub {
}
// Nack conflicting transaction init attempts
val aborting = Wire() { Bits(width = NTILES) }
val aborting = Bits(0, width = NTILES)
for( j <- 0 until NTILES ) {
val x_init = io.tiles(j).xact_init
val x_abort = io.tiles(j).xact_abort
val conflicts = Bits(width = NGLOBAL_XACTS)
for( i <- 0 until NGLOBAL_XACTS) {
val t = trackerList(i).io
conflicts(UFix(i), t.busy(i) && coherenceConflict(t.addr, x_init.bits.address) &&
conflicts(UFix(i), t.busy && coherenceConflict(t.addr, x_init.bits.address) &&
!(x_init.bits.has_data && (UFix(j) === t.init_tile_id)))
// Don't abort writebacks stalled on mem.
// TODO: This assumes overlapped writeback init reqs to
@ -505,9 +528,9 @@ class CoherenceHubBroadcast extends CoherenceHub {
trackerList(i).io.alloc_req.bits <> init_arb.io.out.bits
trackerList(i).io.alloc_req.valid := init_arb.io.out.valid
trackerList(i).io.x_init_data <> io.tiles(trackerList(i).io.init_tile_id).xact_init_data
trackerList(i).io.x_init_data.bits := io.tiles(trackerList(i).io.init_tile_id).xact_init_data.bits
trackerList(i).io.x_init_data.valid := io.tiles(trackerList(i).io.init_tile_id).xact_init_data.valid
}
for( j <- 0 until NTILES ) {
val x_init = io.tiles(j).xact_init
val x_init_data = io.tiles(j).xact_init_data
@ -522,7 +545,6 @@ class CoherenceHubBroadcast extends CoherenceHub {
alloc_arb.io.out.ready := init_arb.io.out.valid && !busy_arr.toBits.andR &&
!foldR(trackerList.map(t => t.io.busy && coherenceConflict(t.io.addr, init_arb.io.out.bits.xact_init.address)))(_||_)
// Handle probe request generation
// Must arbitrate for each request port
val p_req_arb_arr = List.fill(NTILES)((new Arbiter(NGLOBAL_XACTS)) { new ProbeRequest() })
@ -535,5 +557,5 @@ class CoherenceHubBroadcast extends CoherenceHub {
}
p_req_arb_arr(j).io.out <> io.tiles(j).probe_req
}
*/
}