diff options
Diffstat (limited to 'src/mem/protocol/GPU_RfO-TCCdir.sm')
-rw-r--r-- | src/mem/protocol/GPU_RfO-TCCdir.sm | 2672 |
1 files changed, 2672 insertions, 0 deletions
diff --git a/src/mem/protocol/GPU_RfO-TCCdir.sm b/src/mem/protocol/GPU_RfO-TCCdir.sm new file mode 100644 index 000000000..8f58d6ebb --- /dev/null +++ b/src/mem/protocol/GPU_RfO-TCCdir.sm @@ -0,0 +1,2672 @@ +/* + * Copyright (c) 2012-2015 Advanced Micro Devices, Inc. + * All rights reserved. + * + * For use for simulation and test purposes only + * + * Redistribution and use in source and binary forms, with or without + * modification, are permitted provided that the following conditions are met: + * + * 1. Redistributions of source code must retain the above copyright notice, + * this list of conditions and the following disclaimer. + * + * 2. Redistributions in binary form must reproduce the above copyright notice, + * this list of conditions and the following disclaimer in the documentation + * and/or other materials provided with the distribution. + * + * 3. Neither the name of the copyright holder nor the names of its contributors + * may be used to endorse or promote products derived from this software + * without specific prior written permission. + * + * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" + * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE + * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE + * ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE + * LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR + * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF + * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS + * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN + * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) + * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE + * POSSIBILITY OF SUCH DAMAGE. + * + * Author: Mithuna Thottethodi + */ + +machine(MachineType:TCCdir, "AMD read-for-ownership directory for TCC (aka GPU L2)") +: CacheMemory * directory; + // Convention: wire buffers are prefixed with "w_" for clarity + WireBuffer * w_reqToTCCDir; + WireBuffer * w_respToTCCDir; + WireBuffer * w_TCCUnblockToTCCDir; + WireBuffer * w_reqToTCC; + WireBuffer * w_probeToTCC; + WireBuffer * w_respToTCC; + int TCC_select_num_bits; + Cycles response_latency := 5; + Cycles directory_latency := 6; + Cycles issue_latency := 120; + + // From the TCPs or SQCs + MessageBuffer * requestFromTCP, network="From", virtual_network="1", vnet_type="request"; + MessageBuffer * responseFromTCP, network="From", virtual_network="3", vnet_type="response"; + MessageBuffer * unblockFromTCP, network="From", virtual_network="5", vnet_type="unblock"; + + // To the Cores. TCC deals only with TCPs/SQCs. CP cores do not communicate directly with TCC. + MessageBuffer * probeToCore, network="To", virtual_network="1", vnet_type="request"; + MessageBuffer * responseToCore, network="To", virtual_network="3", vnet_type="response"; + + // From the NB + MessageBuffer * probeFromNB, network="From", virtual_network="0", vnet_type="request"; + MessageBuffer * responseFromNB, network="From", virtual_network="2", vnet_type="response"; + // To the NB + MessageBuffer * requestToNB, network="To", virtual_network="0", vnet_type="request"; + MessageBuffer * responseToNB, network="To", virtual_network="2", vnet_type="response"; + MessageBuffer * unblockToNB, network="To", virtual_network="4", vnet_type="unblock"; + + MessageBuffer * triggerQueue, random="false"; +{ + // STATES + state_declaration(State, desc="Directory states", default="TCCdir_State_I") { + // Base states + I, AccessPermission:Invalid, desc="Invalid"; + S, AccessPermission:Invalid, desc="Shared"; + E, AccessPermission:Invalid, desc="Shared"; + O, AccessPermission:Invalid, desc="Owner"; + M, AccessPermission:Invalid, desc="Modified"; + + CP_I, AccessPermission:Invalid, desc="Blocked, must send data after acks are in, going to invalid"; + B_I, AccessPermission:Invalid, desc="Blocked, need not send data after acks are in, going to invalid"; + CP_O, AccessPermission:Invalid, desc="Blocked, must send data after acks are in, going to owned"; + CP_S, AccessPermission:Invalid, desc="Blocked, must send data after acks are in, going to shared"; + CP_OM, AccessPermission:Invalid, desc="Blocked, must send data after acks are in, going to O_M"; + CP_SM, AccessPermission:Invalid, desc="Blocked, must send data after acks are in, going to S_M"; + CP_ISM, AccessPermission:Invalid, desc="Blocked, must send data after acks are in, going to I_M"; + CP_IOM, AccessPermission:Invalid, desc="Blocked, must send data after acks are in, going to I_M"; + CP_OSIW, AccessPermission:Invalid, desc="Blocked, must send data after acks+CancelWB are in, going to I_C"; + + + // Transient states and busy states used for handling side (TCC-facing) interactions + BW_S, AccessPermission:Invalid, desc="Blocked, Awaiting TCC unblock"; + BW_E, AccessPermission:Invalid, desc="Blocked, Awaiting TCC unblock"; + BW_O, AccessPermission:Invalid, desc="Blocked, Awaiting TCC unblock"; + BW_M, AccessPermission:Invalid, desc="Blocked, Awaiting TCC unblock"; + + // Transient states and busy states used for handling upward (TCP-facing) interactions + I_M, AccessPermission:Invalid, desc="Invalid, issued RdBlkM, have not seen response yet"; + I_ES, AccessPermission:Invalid, desc="Invalid, issued RdBlk, have not seen response yet"; + I_S, AccessPermission:Invalid, desc="Invalid, issued RdBlkS, have not seen response yet"; + BBS_S, AccessPermission:Invalid, desc="Blocked, going from S to S"; + BBO_O, AccessPermission:Invalid, desc="Blocked, going from O to O"; + BBM_M, AccessPermission:Invalid, desc="Blocked, going from M to M, waiting for data to forward"; + BBM_O, AccessPermission:Invalid, desc="Blocked, going from M to O, waiting for data to forward"; + BB_M, AccessPermission:Invalid, desc="Blocked, going from M to M, waiting for unblock"; + BB_O, AccessPermission:Invalid, desc="Blocked, going from M to O, waiting for unblock"; + BB_OO, AccessPermission:Invalid, desc="Blocked, going from O to O (adding sharers), waiting for unblock"; + BB_S, AccessPermission:Invalid, desc="Blocked, going to S, waiting for (possible multiple) unblock(s)"; + BBS_M, AccessPermission:Invalid, desc="Blocked, going from S or O to M"; + BBO_M, AccessPermission:Invalid, desc="Blocked, going from S or O to M"; + BBS_UM, AccessPermission:Invalid, desc="Blocked, going from S or O to M via upgrade"; + BBO_UM, AccessPermission:Invalid, desc="Blocked, going from S or O to M via upgrade"; + S_M, AccessPermission:Invalid, desc="Shared, issued CtoD, have not seen response yet"; + O_M, AccessPermission:Invalid, desc="Shared, issued CtoD, have not seen response yet"; + + // + BBB_S, AccessPermission:Invalid, desc="Blocked, going to S after core unblock"; + BBB_M, AccessPermission:Invalid, desc="Blocked, going to M after core unblock"; + BBB_E, AccessPermission:Invalid, desc="Blocked, going to E after core unblock"; + + VES_I, AccessPermission:Invalid, desc="TCC replacement, waiting for clean WB ack"; + VM_I, AccessPermission:Invalid, desc="TCC replacement, waiting for dirty WB ack"; + VO_I, AccessPermission:Invalid, desc="TCC replacement, waiting for dirty WB ack"; + VO_S, AccessPermission:Invalid, desc="TCC owner replacement, waiting for dirty WB ack"; + + ES_I, AccessPermission:Invalid, desc="L1 replacement, waiting for clean WB ack"; + MO_I, AccessPermission:Invalid, desc="L1 replacement, waiting for dirty WB ack"; + + I_C, AccessPermission:Invalid, desc="Invalid, waiting for WBAck from NB for canceled WB"; + I_W, AccessPermission:Invalid, desc="Invalid, waiting for WBAck from NB; canceled WB raced with directory invalidation"; + + // Recall States + BRWD_I, AccessPermission:Invalid, desc="Recalling, waiting for WBAck and Probe Data responses"; + BRW_I, AccessPermission:Read_Write, desc="Recalling, waiting for WBAck"; + BRD_I, AccessPermission:Invalid, desc="Recalling, waiting for Probe Data responses"; + + } + + enumeration(RequestType, desc="To communicate stats from transitions to recordStats") { + DataArrayRead, desc="Read the data array"; + DataArrayWrite, desc="Write the data array"; + TagArrayRead, desc="Read the data array"; + TagArrayWrite, desc="Write the data array"; + } + + + + // EVENTS + enumeration(Event, desc="TCC Directory Events") { + // Upward facing events (TCCdir w.r.t. TCP/SQC and TCC behaves like NBdir behaves with TCP/SQC and L3 + + // Directory Recall + Recall, desc="directory cache is full"; + // CPU requests + CPUWrite, desc="Initial req from core, sent to TCC"; + NoCPUWrite, desc="Initial req from core, but non-exclusive clean data; can be discarded"; + CPUWriteCancel, desc="Initial req from core, sent to TCC"; + + // Requests from the TCPs + RdBlk, desc="RdBlk event"; + RdBlkM, desc="RdBlkM event"; + RdBlkS, desc="RdBlkS event"; + CtoD, desc="Change to Dirty request"; + + // TCC writebacks + VicDirty, desc="..."; + VicDirtyLast, desc="..."; + VicClean, desc="..."; + NoVic, desc="..."; + StaleVic, desc="..."; + CancelWB, desc="TCC got invalidating probe, canceled WB"; + + // Probe Responses from TCP/SQCs + CPUPrbResp, desc="Probe response from TCP/SQC"; + TCCPrbResp, desc="Probe response from TCC"; + + ProbeAcksComplete, desc="All acks received"; + ProbeAcksCompleteReissue, desc="All acks received, changing CtoD to reissue"; + + CoreUnblock, desc="unblock from TCP/SQC"; + LastCoreUnblock, desc="Last unblock from TCP/SQC"; + TCCUnblock, desc="unblock from TCC (current owner)"; + TCCUnblock_Sharer, desc="unblock from TCC (a sharer, not owner)"; + TCCUnblock_NotValid,desc="unblock from TCC (not valid...caused by stale writebacks)"; + + // Downward facing events + + // NB initiated + NB_AckS, desc="NB Ack to TCC Request"; + NB_AckE, desc="NB Ack to TCC Request"; + NB_AckM, desc="NB Ack to TCC Request"; + NB_AckCtoD, desc="NB Ack to TCC Request"; + NB_AckWB, desc="NB Ack for clean WB"; + + + // Incoming Probes from NB + PrbInvData, desc="Invalidating probe, return dirty data"; + PrbInv, desc="Invalidating probe, no need to return data"; + PrbShrData, desc="Downgrading probe, return data"; + } + + + // TYPES + + // Entry for directory + structure(Entry, desc="...", interface='AbstractCacheEntry') { + State CacheState, desc="Cache state (Cache of directory entries)"; + DataBlock DataBlk, desc="data for the block"; + NetDest Sharers, desc="Sharers for this block"; + NetDest Owner, desc="Owner of this block"; + NetDest MergedSharers, desc="Read sharers who are merged on a request"; + int WaitingUnblocks, desc="Number of acks we're waiting for"; + } + + structure(TBE, desc="...") { + State TBEState, desc="Transient state"; + DataBlock DataBlk, desc="DataBlk"; + bool Dirty, desc="Is the data dirty?"; + MachineID Requestor, desc="requestor"; + int NumPendingAcks, desc="num acks expected"; + MachineID OriginalRequestor, desc="Original Requestor"; + MachineID UntransferredOwner, desc = "Untransferred owner for an upgrade transaction"; + bool UntransferredOwnerExists, desc = "1 if Untransferred owner exists for an upgrade transaction"; + bool Cached, desc="data hit in Cache"; + bool Shared, desc="victim hit by shared probe"; + bool Upgrade, desc="An upgrade request in progress"; + bool CtoD, desc="Saved sysack info"; + CoherenceState CohState, desc="Saved sysack info"; + MessageSizeType MessageSize, desc="Saved sysack info"; + MachineID Sender, desc="sender"; + } + + structure(TBETable, external = "yes") { + TBE lookup(Addr); + void allocate(Addr); + void deallocate(Addr); + bool isPresent(Addr); + } + + // ** OBJECTS ** + TBETable TBEs, template="<TCCdir_TBE>", constructor="m_number_of_TBEs"; + int TCC_select_low_bit, default="RubySystem::getBlockSizeBits()"; + NetDest TCC_dir_subtree; + NetDest temp; + + Tick clockEdge(); + Tick cyclesToTicks(Cycles c); + + void set_cache_entry(AbstractCacheEntry b); + void unset_cache_entry(); + void set_tbe(TBE b); + void unset_tbe(); + + + bool presentOrAvail(Addr addr) { + return directory.isTagPresent(addr) || directory.cacheAvail(addr); + } + + Entry getCacheEntry(Addr addr), return_by_pointer="yes" { + return static_cast(Entry, "pointer", directory.lookup(addr)); + } + + DataBlock getDataBlock(Addr addr), return_by_ref="yes" { + TBE tbe := TBEs.lookup(addr); + if(is_valid(tbe)) { + return tbe.DataBlk; + } else { + assert(false); + return getCacheEntry(addr).DataBlk; + } + } + + State getState(TBE tbe, Entry cache_entry, Addr addr) { + if(is_valid(tbe)) { + return tbe.TBEState; + } else if (is_valid(cache_entry)) { + return cache_entry.CacheState; + } + return State:I; + } + + void setAccessPermission(Entry cache_entry, Addr addr, State state) { + if (is_valid(cache_entry)) { + cache_entry.changePermission(TCCdir_State_to_permission(state)); + } + } + + AccessPermission getAccessPermission(Addr addr) { + TBE tbe := TBEs.lookup(addr); + if(is_valid(tbe)) { + return TCCdir_State_to_permission(tbe.TBEState); + } + + Entry cache_entry := getCacheEntry(addr); + if(is_valid(cache_entry)) { + return TCCdir_State_to_permission(cache_entry.CacheState); + } + + return AccessPermission:NotPresent; + } + + void functionalRead(Addr addr, Packet *pkt) { + TBE tbe := TBEs.lookup(addr); + if(is_valid(tbe)) { + testAndRead(addr, tbe.DataBlk, pkt); + } else { + functionalMemoryRead(pkt); + } + } + + int functionalWrite(Addr addr, Packet *pkt) { + int num_functional_writes := 0; + + TBE tbe := TBEs.lookup(addr); + if(is_valid(tbe)) { + num_functional_writes := num_functional_writes + + testAndWrite(addr, tbe.DataBlk, pkt); + } + + num_functional_writes := num_functional_writes + functionalMemoryWrite(pkt); + return num_functional_writes; + } + + void setState(TBE tbe, Entry cache_entry, Addr addr, State state) { + if (is_valid(tbe)) { + tbe.TBEState := state; + } + + if (is_valid(cache_entry)) { + cache_entry.CacheState := state; + + if (state == State:S) { + assert(cache_entry.Owner.count() == 0); + } + + if (state == State:O) { + assert(cache_entry.Owner.count() == 1); + assert(cache_entry.Sharers.isSuperset(cache_entry.Owner) == false); + } + + if (state == State:M) { + assert(cache_entry.Owner.count() == 1); + assert(cache_entry.Sharers.count() == 0); + } + + if (state == State:E) { + assert(cache_entry.Owner.count() == 0); + assert(cache_entry.Sharers.count() == 1); + } + } + } + + + + void recordRequestType(RequestType request_type, Addr addr) { + if (request_type == RequestType:DataArrayRead) { + directory.recordRequestType(CacheRequestType:DataArrayRead, addr); + } else if (request_type == RequestType:DataArrayWrite) { + directory.recordRequestType(CacheRequestType:DataArrayWrite, addr); + } else if (request_type == RequestType:TagArrayRead) { + directory.recordRequestType(CacheRequestType:TagArrayRead, addr); + } else if (request_type == RequestType:TagArrayWrite) { + directory.recordRequestType(CacheRequestType:TagArrayWrite, addr); + } + } + + bool checkResourceAvailable(RequestType request_type, Addr addr) { + if (request_type == RequestType:DataArrayRead) { + return directory.checkResourceAvailable(CacheResourceType:DataArray, addr); + } else if (request_type == RequestType:DataArrayWrite) { + return directory.checkResourceAvailable(CacheResourceType:DataArray, addr); + } else if (request_type == RequestType:TagArrayRead) { + return directory.checkResourceAvailable(CacheResourceType:TagArray, addr); + } else if (request_type == RequestType:TagArrayWrite) { + return directory.checkResourceAvailable(CacheResourceType:TagArray, addr); + } else { + error("Invalid RequestType type in checkResourceAvailable"); + return true; + } + } + + // ** OUT_PORTS ** + + // Three classes of ports + // Class 1: downward facing network links to NB + out_port(requestToNB_out, CPURequestMsg, requestToNB); + out_port(responseToNB_out, ResponseMsg, responseToNB); + out_port(unblockToNB_out, UnblockMsg, unblockToNB); + + + // Class 2: upward facing ports to GPU cores + out_port(probeToCore_out, TDProbeRequestMsg, probeToCore); + out_port(responseToCore_out, ResponseMsg, responseToCore); + + // Class 3: sideward facing ports (on "wirebuffer" links) to TCC + out_port(w_requestTCC_out, CPURequestMsg, w_reqToTCC); + out_port(w_probeTCC_out, NBProbeRequestMsg, w_probeToTCC); + out_port(w_respTCC_out, ResponseMsg, w_respToTCC); + + + // local trigger port + out_port(triggerQueue_out, TriggerMsg, triggerQueue); + + // + // request queue going to NB + // + + // ** IN_PORTS ** + + // Trigger Queue + in_port(triggerQueue_in, TriggerMsg, triggerQueue, rank=8) { + if (triggerQueue_in.isReady(clockEdge())) { + peek(triggerQueue_in, TriggerMsg) { + TBE tbe := TBEs.lookup(in_msg.addr); + assert(is_valid(tbe)); + Entry cache_entry := getCacheEntry(in_msg.addr); + if ((in_msg.Type == TriggerType:AcksComplete) && (tbe.Upgrade == false)) { + trigger(Event:ProbeAcksComplete, in_msg.addr, cache_entry, tbe); + } else if ((in_msg.Type == TriggerType:AcksComplete) && (tbe.Upgrade == true)) { + trigger(Event:ProbeAcksCompleteReissue, in_msg.addr, cache_entry, tbe); + } + } + } + } + + // Unblock Networks (TCCdir can receive unblocks from TCC, TCPs) + // Port on first (of three) wire buffers from TCC + in_port(w_TCCUnblock_in, UnblockMsg, w_TCCUnblockToTCCDir, rank=7) { + if (w_TCCUnblock_in.isReady(clockEdge())) { + peek(w_TCCUnblock_in, UnblockMsg) { + TBE tbe := TBEs.lookup(in_msg.addr); + Entry cache_entry := getCacheEntry(in_msg.addr); + if (in_msg.currentOwner) { + trigger(Event:TCCUnblock, in_msg.addr, cache_entry, tbe); + } else if (in_msg.valid) { + trigger(Event:TCCUnblock_Sharer, in_msg.addr, cache_entry, tbe); + } else { + trigger(Event:TCCUnblock_NotValid, in_msg.addr, cache_entry, tbe); + } + } + } + } + + in_port(unblockNetwork_in, UnblockMsg, unblockFromTCP, rank=6) { + if (unblockNetwork_in.isReady(clockEdge())) { + peek(unblockNetwork_in, UnblockMsg) { + TBE tbe := TBEs.lookup(in_msg.addr); + Entry cache_entry := getCacheEntry(in_msg.addr); + if(cache_entry.WaitingUnblocks == 1) { + trigger(Event:LastCoreUnblock, in_msg.addr, cache_entry, tbe); + } + else { + trigger(Event:CoreUnblock, in_msg.addr, cache_entry, tbe); + } + } + } + } + + + //Responses from TCC, and Cores + // Port on second (of three) wire buffers from TCC + in_port(w_TCCResponse_in, ResponseMsg, w_respToTCCDir, rank=5) { + if (w_TCCResponse_in.isReady(clockEdge())) { + peek(w_TCCResponse_in, ResponseMsg) { + TBE tbe := TBEs.lookup(in_msg.addr); + Entry cache_entry := getCacheEntry(in_msg.addr); + if (in_msg.Type == CoherenceResponseType:CPUPrbResp) { + trigger(Event:TCCPrbResp, in_msg.addr, cache_entry, tbe); + } + } + } + } + + in_port(responseNetwork_in, ResponseMsg, responseFromTCP, rank=4) { + if (responseNetwork_in.isReady(clockEdge())) { + peek(responseNetwork_in, ResponseMsg) { + TBE tbe := TBEs.lookup(in_msg.addr); + Entry cache_entry := getCacheEntry(in_msg.addr); + if (in_msg.Type == CoherenceResponseType:CPUPrbResp) { + trigger(Event:CPUPrbResp, in_msg.addr, cache_entry, tbe); + } + } + } + } + + + // Port on third (of three) wire buffers from TCC + in_port(w_TCCRequest_in, CPURequestMsg, w_reqToTCCDir, rank=3) { + if(w_TCCRequest_in.isReady(clockEdge())) { + peek(w_TCCRequest_in, CPURequestMsg) { + TBE tbe := TBEs.lookup(in_msg.addr); + Entry cache_entry := getCacheEntry(in_msg.addr); + if (in_msg.Type == CoherenceRequestType:WrCancel) { + trigger(Event:CancelWB, in_msg.addr, cache_entry, tbe); + } else if (in_msg.Type == CoherenceRequestType:VicDirty) { + if (is_valid(cache_entry) && cache_entry.Owner.isElement(in_msg.Requestor)) { + // if modified, or owner with no other sharers + if ((cache_entry.CacheState == State:M) || (cache_entry.Sharers.count() == 0)) { + assert(cache_entry.Owner.count()==1); + trigger(Event:VicDirtyLast, in_msg.addr, cache_entry, tbe); + } else { + trigger(Event:VicDirty, in_msg.addr, cache_entry, tbe); + } + } else { + trigger(Event:StaleVic, in_msg.addr, cache_entry, tbe); + } + } else { + if (in_msg.Type == CoherenceRequestType:VicClean) { + if (is_valid(cache_entry) && cache_entry.Sharers.isElement(in_msg.Requestor)) { + if (cache_entry.Sharers.count() == 1) { + // Last copy, victimize to L3 + trigger(Event:VicClean, in_msg.addr, cache_entry, tbe); + } else { + // Either not the last copy or stall. No need to victimmize + // remove sharer from sharer list + assert(cache_entry.Sharers.count() > 1); + trigger(Event:NoVic, in_msg.addr, cache_entry, tbe); + } + } else { + trigger(Event:StaleVic, in_msg.addr, cache_entry, tbe); + } + } + } + } + } + } + + in_port(responseFromNB_in, ResponseMsg, responseFromNB, rank=2) { + if (responseFromNB_in.isReady(clockEdge())) { + peek(responseFromNB_in, ResponseMsg, block_on="addr") { + + TBE tbe := TBEs.lookup(in_msg.addr); + Entry cache_entry := getCacheEntry(in_msg.addr); + if (in_msg.Type == CoherenceResponseType:NBSysResp) { + if (in_msg.State == CoherenceState:Modified) { + if (in_msg.CtoD) { + trigger(Event:NB_AckCtoD, in_msg.addr, cache_entry, tbe); + } else { + trigger(Event:NB_AckM, in_msg.addr, cache_entry, tbe); + } + } else if (in_msg.State == CoherenceState:Shared) { + trigger(Event:NB_AckS, in_msg.addr, cache_entry, tbe); + } else if (in_msg.State == CoherenceState:Exclusive) { + trigger(Event:NB_AckE, in_msg.addr, cache_entry, tbe); + } + } else if (in_msg.Type == CoherenceResponseType:NBSysWBAck) { + trigger(Event:NB_AckWB, in_msg.addr, cache_entry, tbe); + } else { + error("Unexpected Response Message to Core"); + } + } + } + } + + // Finally handling incoming requests (from TCP) and probes (from NB). + + in_port(probeNetwork_in, NBProbeRequestMsg, probeFromNB, rank=1) { + if (probeNetwork_in.isReady(clockEdge())) { + peek(probeNetwork_in, NBProbeRequestMsg) { + DPRINTF(RubySlicc, "%s\n", in_msg); + DPRINTF(RubySlicc, "machineID: %s\n", machineID); + Entry cache_entry := getCacheEntry(in_msg.addr); + TBE tbe := TBEs.lookup(in_msg.addr); + + if (in_msg.Type == ProbeRequestType:PrbInv) { + if (in_msg.ReturnData) { + trigger(Event:PrbInvData, in_msg.addr, cache_entry, tbe); + } else { + trigger(Event:PrbInv, in_msg.addr, cache_entry, tbe); + } + } else if (in_msg.Type == ProbeRequestType:PrbDowngrade) { + assert(in_msg.ReturnData); + trigger(Event:PrbShrData, in_msg.addr, cache_entry, tbe); + } + } + } + } + + + in_port(coreRequestNetwork_in, CPURequestMsg, requestFromTCP, rank=0) { + if (coreRequestNetwork_in.isReady(clockEdge())) { + peek(coreRequestNetwork_in, CPURequestMsg) { + TBE tbe := TBEs.lookup(in_msg.addr); + Entry cache_entry := getCacheEntry(in_msg.addr); + if (presentOrAvail(in_msg.addr)) { + if (in_msg.Type == CoherenceRequestType:VicDirty) { + trigger(Event:CPUWrite, in_msg.addr, cache_entry, tbe); + } else if (in_msg.Type == CoherenceRequestType:VicClean) { + if (is_valid(cache_entry) && cache_entry.Owner.isElement(in_msg.Requestor)) { + trigger(Event:CPUWrite, in_msg.addr, cache_entry, tbe); + } else if(is_valid(cache_entry) && (cache_entry.Sharers.count() + cache_entry.Owner.count() ) >1) { + trigger(Event:NoCPUWrite, in_msg.addr, cache_entry, tbe); + } else { + trigger(Event:CPUWrite, in_msg.addr, cache_entry, tbe); + } + } else if (in_msg.Type == CoherenceRequestType:RdBlk) { + trigger(Event:RdBlk, in_msg.addr, cache_entry, tbe); + } else if (in_msg.Type == CoherenceRequestType:RdBlkS) { + trigger(Event:RdBlkS, in_msg.addr, cache_entry, tbe); + } else if (in_msg.Type == CoherenceRequestType:RdBlkM) { + trigger(Event:RdBlkM, in_msg.addr, cache_entry, tbe); + } else if (in_msg.Type == CoherenceRequestType:WrCancel) { + trigger(Event:CPUWriteCancel, in_msg.addr, cache_entry, tbe); + } + } else { + // All requests require a directory entry + Addr victim := directory.cacheProbe(in_msg.addr); + trigger(Event:Recall, victim, getCacheEntry(victim), TBEs.lookup(victim)); + } + } + } + } + + + + + // Actions + + //Downward facing actions + + action(c_clearOwner, "c", desc="Clear the owner field") { + cache_entry.Owner.clear(); + } + + action(rS_removeRequesterFromSharers, "rS", desc="Remove unblocker from sharer list") { + peek(unblockNetwork_in, UnblockMsg) { + cache_entry.Sharers.remove(in_msg.Sender); + } + } + + action(rT_removeTCCFromSharers, "rT", desc="Remove TCC from sharer list") { + peek(w_TCCRequest_in, CPURequestMsg) { + cache_entry.Sharers.remove(in_msg.Requestor); + } + } + + action(rO_removeOriginalRequestorFromSharers, "rO", desc="Remove replacing core from sharer list") { + peek(coreRequestNetwork_in, CPURequestMsg) { + cache_entry.Sharers.remove(in_msg.Requestor); + } + } + + action(rC_removeCoreFromSharers, "rC", desc="Remove replacing core from sharer list") { + peek(coreRequestNetwork_in, CPURequestMsg) { + cache_entry.Sharers.remove(in_msg.Requestor); + } + } + + action(rCo_removeCoreFromOwner, "rCo", desc="Remove replacing core from sharer list") { + // Note that under some cases this action will try to remove a stale owner + peek(coreRequestNetwork_in, CPURequestMsg) { + cache_entry.Owner.remove(in_msg.Requestor); + } + } + + action(rR_removeResponderFromSharers, "rR", desc="Remove responder from sharer list") { + peek(responseNetwork_in, ResponseMsg) { + cache_entry.Sharers.remove(in_msg.Sender); + } + } + + action(nC_sendNullWBAckToCore, "nC", desc = "send a null WB Ack to release core") { + peek(coreRequestNetwork_in, CPURequestMsg) { + enqueue(responseToCore_out, ResponseMsg, 1) { + out_msg.addr := address; + out_msg.Type := CoherenceResponseType:TDSysWBNack; + out_msg.Sender := machineID; + out_msg.Destination.add(in_msg.Requestor); + out_msg.MessageSize := in_msg.MessageSize; + } + } + } + + action(nT_sendNullWBAckToTCC, "nT", desc = "send a null WB Ack to release TCC") { + peek(w_TCCRequest_in, CPURequestMsg) { + enqueue(w_respTCC_out, ResponseMsg, 1) { + out_msg.addr := address; + out_msg.Type := CoherenceResponseType:TDSysWBAck; + out_msg.Sender := machineID; + out_msg.Destination.add(in_msg.Requestor); + out_msg.MessageSize := in_msg.MessageSize; + } + } + } + + action(eto_moveExSharerToOwner, "eto", desc="move the current exclusive sharer to owner") { + assert(cache_entry.Sharers.count() == 1); + assert(cache_entry.Owner.count() == 0); + cache_entry.Owner := cache_entry.Sharers; + cache_entry.Sharers.clear(); + APPEND_TRANSITION_COMMENT(" new owner "); + APPEND_TRANSITION_COMMENT(cache_entry.Owner); + } + + action(aT_addTCCToSharers, "aT", desc="Add TCC to sharer list") { + peek(w_TCCUnblock_in, UnblockMsg) { + cache_entry.Sharers.add(in_msg.Sender); + } + } + + action(as_addToSharers, "as", desc="Add unblocker to sharer list") { + peek(unblockNetwork_in, UnblockMsg) { + cache_entry.Sharers.add(in_msg.Sender); + } + } + + action(c_moveOwnerToSharer, "cc", desc="Move owner to sharers") { + cache_entry.Sharers.addNetDest(cache_entry.Owner); + cache_entry.Owner.clear(); + } + + action(cc_clearSharers, "\c", desc="Clear the sharers field") { + cache_entry.Sharers.clear(); + } + + action(e_ownerIsUnblocker, "e", desc="The owner is now the unblocker") { + peek(unblockNetwork_in, UnblockMsg) { + cache_entry.Owner.clear(); + cache_entry.Owner.add(in_msg.Sender); + APPEND_TRANSITION_COMMENT(" tcp_ub owner "); + APPEND_TRANSITION_COMMENT(cache_entry.Owner); + } + } + + action(eT_ownerIsUnblocker, "eT", desc="TCC (unblocker) is now owner") { + peek(w_TCCUnblock_in, UnblockMsg) { + cache_entry.Owner.clear(); + cache_entry.Owner.add(in_msg.Sender); + APPEND_TRANSITION_COMMENT(" tcc_ub owner "); + APPEND_TRANSITION_COMMENT(cache_entry.Owner); + } + } + + action(ctr_copyTCCResponseToTBE, "ctr", desc="Copy TCC probe response data to TBE") { + peek(w_TCCResponse_in, ResponseMsg) { + // Overwrite data if tbe does not hold dirty data. Stop once it is dirty. + if(tbe.Dirty == false) { + tbe.DataBlk := in_msg.DataBlk; + tbe.Dirty := in_msg.Dirty; + tbe.Sender := in_msg.Sender; + } + DPRINTF(RubySlicc, "%s\n", (tbe.DataBlk)); + } + } + + action(ccr_copyCoreResponseToTBE, "ccr", desc="Copy core probe response data to TBE") { + peek(responseNetwork_in, ResponseMsg) { + // Overwrite data if tbe does not hold dirty data. Stop once it is dirty. + if(tbe.Dirty == false) { + tbe.DataBlk := in_msg.DataBlk; + tbe.Dirty := in_msg.Dirty; + + if(tbe.Sender == machineID) { + tbe.Sender := in_msg.Sender; + } + } + DPRINTF(RubySlicc, "%s\n", (tbe.DataBlk)); + } + } + + action(cd_clearDirtyBitTBE, "cd", desc="Clear Dirty bit in TBE") { + tbe.Dirty := false; + } + + action(n_issueRdBlk, "n-", desc="Issue RdBlk") { + enqueue(requestToNB_out, CPURequestMsg, issue_latency) { + out_msg.addr := address; + out_msg.Type := CoherenceRequestType:RdBlk; + out_msg.Requestor := machineID; + out_msg.Destination.add(map_Address_to_Directory(address)); + out_msg.MessageSize := MessageSizeType:Request_Control; + } + } + + action(nS_issueRdBlkS, "nS", desc="Issue RdBlkS") { + enqueue(requestToNB_out, CPURequestMsg, issue_latency) { + out_msg.addr := address; + out_msg.Type := CoherenceRequestType:RdBlkS; + out_msg.Requestor := machineID; + out_msg.Destination.add(map_Address_to_Directory(address)); + out_msg.MessageSize := MessageSizeType:Request_Control; + } + } + + action(nM_issueRdBlkM, "nM", desc="Issue RdBlkM") { + enqueue(requestToNB_out, CPURequestMsg, issue_latency) { + out_msg.addr := address; + out_msg.Type := CoherenceRequestType:RdBlkM; + out_msg.Requestor := machineID; + out_msg.Destination.add(map_Address_to_Directory(address)); + out_msg.MessageSize := MessageSizeType:Request_Control; + } + } + + action(rU_rememberUpgrade, "rU", desc="Remember that this was an upgrade") { + tbe.Upgrade := true; + } + + action(ruo_rememberUntransferredOwner, "ruo", desc="Remember the untransferred owner") { + peek(responseNetwork_in, ResponseMsg) { + if(in_msg.UntransferredOwner == true) { + tbe.UntransferredOwner := in_msg.Sender; + tbe.UntransferredOwnerExists := true; + } + DPRINTF(RubySlicc, "%s\n", (in_msg)); + } + } + + action(ruoT_rememberUntransferredOwnerTCC, "ruoT", desc="Remember the untransferred owner") { + peek(w_TCCResponse_in, ResponseMsg) { + if(in_msg.UntransferredOwner == true) { + tbe.UntransferredOwner := in_msg.Sender; + tbe.UntransferredOwnerExists := true; + } + DPRINTF(RubySlicc, "%s\n", (in_msg)); + } + } + + action(vd_victim, "vd", desc="Victimize M/O Data") { + enqueue(requestToNB_out, CPURequestMsg, issue_latency) { + out_msg.addr := address; + out_msg.Requestor := machineID; + out_msg.Destination.add(map_Address_to_Directory(address)); + out_msg.MessageSize := MessageSizeType:Request_Control; + out_msg.Type := CoherenceRequestType:VicDirty; + if (cache_entry.CacheState == State:O) { + out_msg.Shared := true; + } else { + out_msg.Shared := false; + } + out_msg.Dirty := true; + } + } + + action(vc_victim, "vc", desc="Victimize E/S Data") { + enqueue(requestToNB_out, CPURequestMsg, issue_latency) { + out_msg.addr := address; + out_msg.Requestor := machineID; + out_msg.Destination.add(map_Address_to_Directory(address)); + out_msg.MessageSize := MessageSizeType:Request_Control; + out_msg.Type := CoherenceRequestType:VicClean; + if (cache_entry.CacheState == State:S) { + out_msg.Shared := true; + } else { + out_msg.Shared := false; + } + out_msg.Dirty := false; + } + } + + + action(sT_sendRequestToTCC, "sT", desc="send request to TCC") { + peek(coreRequestNetwork_in, CPURequestMsg) { + enqueue(w_requestTCC_out, CPURequestMsg, 1) { + out_msg.addr := address; + out_msg.Type := in_msg.Type; + out_msg.Requestor := in_msg.Requestor; + out_msg.DataBlk := in_msg.DataBlk; + out_msg.Destination.add(mapAddressToRange(address,MachineType:TCC, + TCC_select_low_bit, TCC_select_num_bits)); + out_msg.Shared := in_msg.Shared; + out_msg.MessageSize := in_msg.MessageSize; + } + APPEND_TRANSITION_COMMENT(" requestor "); + APPEND_TRANSITION_COMMENT(in_msg.Requestor); + + } + } + + + action(sc_probeShrCoreData, "sc", desc="probe shared cores, return data") { + MachineID tcc := mapAddressToRange(address,MachineType:TCC, + TCC_select_low_bit, TCC_select_num_bits); + + temp := cache_entry.Sharers; + temp.addNetDest(cache_entry.Owner); + if (temp.isElement(tcc)) { + temp.remove(tcc); + } + if (temp.count() > 0) { + enqueue(probeToCore_out, TDProbeRequestMsg, response_latency) { + out_msg.addr := address; + out_msg.Type := ProbeRequestType:PrbDowngrade; + out_msg.ReturnData := true; + out_msg.MessageSize := MessageSizeType:Control; + out_msg.Destination := temp; + tbe.NumPendingAcks := temp.count(); + if(cache_entry.CacheState == State:M) { + assert(tbe.NumPendingAcks == 1); + } + DPRINTF(RubySlicc, "%s\n", (out_msg)); + } + } + } + + action(ls2_probeShrL2Data, "ls2", desc="local probe downgrade L2, return data") { + MachineID tcc := mapAddressToRange(address,MachineType:TCC, + TCC_select_low_bit, TCC_select_num_bits); + if ((cache_entry.Sharers.isElement(tcc)) || (cache_entry.Owner.isElement(tcc))) { + enqueue(w_probeTCC_out, TDProbeRequestMsg, 1) { + out_msg.addr := address; + out_msg.Type := ProbeRequestType:PrbDowngrade; + out_msg.ReturnData := true; + out_msg.MessageSize := MessageSizeType:Control; + out_msg.Destination.add(tcc); + tbe.NumPendingAcks := tbe.NumPendingAcks + 1; + DPRINTF(RubySlicc, "%s\n", out_msg); + + } + } + } + + action(s2_probeShrL2Data, "s2", desc="probe shared L2, return data") { + MachineID tcc := mapAddressToRange(address,MachineType:TCC, + TCC_select_low_bit, TCC_select_num_bits); + if ((cache_entry.Sharers.isElement(tcc)) || (cache_entry.Owner.isElement(tcc))) { + enqueue(w_probeTCC_out, TDProbeRequestMsg, 1) { + out_msg.addr := address; + out_msg.Type := ProbeRequestType:PrbDowngrade; + out_msg.ReturnData := true; + out_msg.MessageSize := MessageSizeType:Control; + out_msg.Destination.add(tcc); + tbe.NumPendingAcks := tbe.NumPendingAcks + 1; + DPRINTF(RubySlicc, "%s\n", out_msg); + + } + } + } + + action(ldc_probeInvCoreData, "ldc", desc="local probe to inv cores, return data") { + MachineID tcc := mapAddressToRange(address,MachineType:TCC, + TCC_select_low_bit, TCC_select_num_bits); + peek(coreRequestNetwork_in, CPURequestMsg) { + NetDest dest:= cache_entry.Sharers; + dest.addNetDest(cache_entry.Owner); + if(dest.isElement(tcc)){ + dest.remove(tcc); + } + dest.remove(in_msg.Requestor); + tbe.NumPendingAcks := dest.count(); + if (dest.count()>0){ + enqueue(probeToCore_out, TDProbeRequestMsg, response_latency) { + out_msg.addr := address; + out_msg.Type := ProbeRequestType:PrbInv; + out_msg.ReturnData := true; + out_msg.MessageSize := MessageSizeType:Control; + + out_msg.Destination.addNetDest(dest); + if(cache_entry.CacheState == State:M) { + assert(tbe.NumPendingAcks == 1); + } + + DPRINTF(RubySlicc, "%s\n", (out_msg)); + } + } + } + } + + action(ld2_probeInvL2Data, "ld2", desc="local probe inv L2, return data") { + MachineID tcc := mapAddressToRange(address,MachineType:TCC, + TCC_select_low_bit, TCC_select_num_bits); + if ((cache_entry.Sharers.isElement(tcc)) || (cache_entry.Owner.isElement(tcc))) { + enqueue(w_probeTCC_out, TDProbeRequestMsg, 1) { + out_msg.addr := address; + out_msg.Type := ProbeRequestType:PrbInv; + out_msg.ReturnData := true; + out_msg.MessageSize := MessageSizeType:Control; + out_msg.Destination.add(tcc); + tbe.NumPendingAcks := tbe.NumPendingAcks + 1; + DPRINTF(RubySlicc, "%s\n", out_msg); + + } + } + } + + action(dc_probeInvCoreData, "dc", desc="probe inv cores + TCC, return data") { + MachineID tcc := mapAddressToRange(address,MachineType:TCC, + TCC_select_low_bit, TCC_select_num_bits); + enqueue(probeToCore_out, TDProbeRequestMsg, response_latency) { + out_msg.addr := address; + out_msg.Type := ProbeRequestType:PrbInv; + out_msg.ReturnData := true; + out_msg.MessageSize := MessageSizeType:Control; + + out_msg.Destination.addNetDest(cache_entry.Sharers); + out_msg.Destination.addNetDest(cache_entry.Owner); + tbe.NumPendingAcks := cache_entry.Sharers.count() + cache_entry.Owner.count(); + if(cache_entry.CacheState == State:M) { + assert(tbe.NumPendingAcks == 1); + } + if (out_msg.Destination.isElement(tcc)) { + out_msg.Destination.remove(tcc); + tbe.NumPendingAcks := tbe.NumPendingAcks - 1; + } + + DPRINTF(RubySlicc, "%s\n", (out_msg)); + } + } + + action(d2_probeInvL2Data, "d2", desc="probe inv L2, return data") { + MachineID tcc := mapAddressToRange(address,MachineType:TCC, + TCC_select_low_bit, TCC_select_num_bits); + if ((cache_entry.Sharers.isElement(tcc)) || (cache_entry.Owner.isElement(tcc))) { + enqueue(w_probeTCC_out, TDProbeRequestMsg, 1) { + out_msg.addr := address; + out_msg.Type := ProbeRequestType:PrbInv; + out_msg.ReturnData := true; + out_msg.MessageSize := MessageSizeType:Control; + out_msg.Destination.add(tcc); + tbe.NumPendingAcks := tbe.NumPendingAcks + 1; + DPRINTF(RubySlicc, "%s\n", out_msg); + + } + } + } + + action(lpc_probeInvCore, "lpc", desc="local probe inv cores, no data") { + peek(coreRequestNetwork_in, CPURequestMsg) { + TCC_dir_subtree.broadcast(MachineType:TCP); + TCC_dir_subtree.broadcast(MachineType:SQC); + + temp := cache_entry.Sharers; + temp := temp.OR(cache_entry.Owner); + TCC_dir_subtree := TCC_dir_subtree.AND(temp); + tbe.NumPendingAcks := TCC_dir_subtree.count(); + if(cache_entry.CacheState == State:M) { + assert(tbe.NumPendingAcks == 1); + } + if(TCC_dir_subtree.isElement(in_msg.Requestor)) { + TCC_dir_subtree.remove(in_msg.Requestor); + tbe.NumPendingAcks := tbe.NumPendingAcks - 1; + } + + if(TCC_dir_subtree.count() > 0) { + enqueue(probeToCore_out, TDProbeRequestMsg, response_latency) { + out_msg.addr := address; + out_msg.Type := ProbeRequestType:PrbInv; + out_msg.ReturnData := false; + out_msg.MessageSize := MessageSizeType:Control; + out_msg.localCtoD := true; + + out_msg.Destination.addNetDest(TCC_dir_subtree); + + DPRINTF(RubySlicc, "%s\n", (out_msg)); + } + } + } + } + + action(ipc_probeInvCore, "ipc", desc="probe inv cores, no data") { + TCC_dir_subtree.broadcast(MachineType:TCP); + TCC_dir_subtree.broadcast(MachineType:SQC); + + temp := cache_entry.Sharers; + temp := temp.OR(cache_entry.Owner); + TCC_dir_subtree := TCC_dir_subtree.AND(temp); + tbe.NumPendingAcks := TCC_dir_subtree.count(); + if(TCC_dir_subtree.count() > 0) { + + enqueue(probeToCore_out, TDProbeRequestMsg, response_latency) { + out_msg.addr := address; + out_msg.Type := ProbeRequestType:PrbInv; + out_msg.ReturnData := false; + out_msg.MessageSize := MessageSizeType:Control; + + out_msg.Destination.addNetDest(TCC_dir_subtree); + if(cache_entry.CacheState == State:M) { + assert(tbe.NumPendingAcks == 1); + } + + DPRINTF(RubySlicc, "%s\n", (out_msg)); + } + } + } + + action(i2_probeInvL2, "i2", desc="probe inv L2, no data") { + MachineID tcc := mapAddressToRange(address,MachineType:TCC, + TCC_select_low_bit, TCC_select_num_bits); + if ((cache_entry.Sharers.isElement(tcc)) || (cache_entry.Owner.isElement(tcc))) { + enqueue(w_probeTCC_out, TDProbeRequestMsg, 1) { + tbe.NumPendingAcks := tbe.NumPendingAcks + 1; + out_msg.addr := address; + out_msg.Type := ProbeRequestType:PrbInv; + out_msg.ReturnData := false; + out_msg.MessageSize := MessageSizeType:Control; + out_msg.Destination.add(tcc); + DPRINTF(RubySlicc, "%s\n", out_msg); + + } + } + } + + action(pi_sendProbeResponseInv, "pi", desc="send probe ack inv, no data") { + enqueue(responseToNB_out, ResponseMsg, issue_latency) { + out_msg.addr := address; + out_msg.Type := CoherenceResponseType:CPUPrbResp; // TCC, L3 respond in same way to probes + out_msg.Sender := machineID; + out_msg.Destination.add(map_Address_to_Directory(address)); + out_msg.Dirty := false; + out_msg.Hit := false; + out_msg.Ntsl := true; + out_msg.State := CoherenceState:NA; + out_msg.MessageSize := MessageSizeType:Response_Control; + } + } + + action(pim_sendProbeResponseInvMs, "pim", desc="send probe ack inv, no data") { + enqueue(responseToNB_out, ResponseMsg, issue_latency) { + out_msg.addr := address; + out_msg.Type := CoherenceResponseType:CPUPrbResp; // L3 and TCC respond in same way to probes + out_msg.Sender := machineID; + out_msg.Destination.add(map_Address_to_Directory(address)); + out_msg.Dirty := false; + out_msg.Ntsl := true; + out_msg.Hit := false; + out_msg.State := CoherenceState:NA; + out_msg.MessageSize := MessageSizeType:Response_Control; + } + } + + action(prm_sendProbeResponseMiss, "prm", desc="send probe ack PrbShrData, no data") { + enqueue(responseToNB_out, ResponseMsg, issue_latency) { + out_msg.addr := address; + out_msg.Type := CoherenceResponseType:CPUPrbResp; // L3 and TCC respond in same way to probes + out_msg.Sender := machineID; + out_msg.Destination.add(map_Address_to_Directory(address)); + out_msg.Dirty := false; // only true if sending back data i think + out_msg.Hit := false; + out_msg.Ntsl := false; + out_msg.State := CoherenceState:NA; + out_msg.MessageSize := MessageSizeType:Response_Control; + } + } + + + + action(pd_sendProbeResponseData, "pd", desc="send probe ack, with data") { + enqueue(responseToNB_out, ResponseMsg, issue_latency) { + assert(is_valid(cache_entry) || is_valid(tbe)); + out_msg.addr := address; + out_msg.Type := CoherenceResponseType:CPUPrbResp; + out_msg.Sender := machineID; + out_msg.Destination.add(map_Address_to_Directory(address)); + out_msg.DataBlk := getDataBlock(address); + if (is_valid(tbe)) { + out_msg.Dirty := tbe.Dirty; + } + out_msg.Hit := true; + out_msg.State := CoherenceState:NA; + out_msg.MessageSize := MessageSizeType:Response_Data; + } + } + + + action(pdm_sendProbeResponseDataMs, "pdm", desc="send probe ack, with data") { + enqueue(responseToNB_out, ResponseMsg, issue_latency) { + assert(is_valid(cache_entry) || is_valid(tbe)); + assert(is_valid(cache_entry)); + out_msg.addr := address; + out_msg.Type := CoherenceResponseType:CPUPrbResp; + out_msg.Sender := machineID; + out_msg.Destination.add(map_Address_to_Directory(address)); + out_msg.DataBlk := getDataBlock(address); + if (is_valid(tbe)) { + out_msg.Dirty := tbe.Dirty; + } + out_msg.Hit := true; + out_msg.State := CoherenceState:NA; + out_msg.MessageSize := MessageSizeType:Response_Data; + } + } + + action(mc_cancelWB, "mc", desc="send writeback cancel to NB directory") { + enqueue(requestToNB_out, CPURequestMsg, issue_latency) { + out_msg.addr := address; + out_msg.Type := CoherenceRequestType:WrCancel; + out_msg.Destination.add(map_Address_to_Directory(address)); + out_msg.Requestor := machineID; + out_msg.MessageSize := MessageSizeType:Request_Control; + } + } + + action(sCS_sendCollectiveResponseS, "sCS", desc="send shared response to all merged TCP/SQC") { + enqueue(responseToCore_out, ResponseMsg, 1) { + out_msg.addr := address; + out_msg.Type := CoherenceResponseType:TDSysResp; + out_msg.Sender := tbe.Sender; + out_msg.DataBlk := tbe.DataBlk; + out_msg.MessageSize := MessageSizeType:Response_Data; + out_msg.CtoD := false; + out_msg.State := CoherenceState:Shared; + out_msg.Destination.addNetDest(cache_entry.MergedSharers); + out_msg.Shared := tbe.Shared; + out_msg.Dirty := tbe.Dirty; + DPRINTF(RubySlicc, "%s\n", out_msg); + } + } + + action(sS_sendResponseS, "sS", desc="send shared response to TCP/SQC") { + enqueue(responseToCore_out, ResponseMsg, 1) { + out_msg.addr := address; + out_msg.Type := CoherenceResponseType:TDSysResp; + out_msg.Sender := tbe.Sender; + out_msg.DataBlk := tbe.DataBlk; + out_msg.MessageSize := MessageSizeType:Response_Data; + out_msg.CtoD := false; + out_msg.State := CoherenceState:Shared; + out_msg.Destination.add(tbe.OriginalRequestor); + out_msg.Shared := tbe.Shared; + out_msg.Dirty := tbe.Dirty; + DPRINTF(RubySlicc, "%s\n", out_msg); + } + } + + action(sM_sendResponseM, "sM", desc="send response to TCP/SQC") { + enqueue(responseToCore_out, ResponseMsg, 1) { + out_msg.addr := address; + out_msg.Type := CoherenceResponseType:TDSysResp; + out_msg.Sender := tbe.Sender; + out_msg.DataBlk := tbe.DataBlk; + out_msg.MessageSize := MessageSizeType:Response_Data; + out_msg.CtoD := false; + out_msg.State := CoherenceState:Modified; + out_msg.Destination.add(tbe.OriginalRequestor); + out_msg.Shared := tbe.Shared; + out_msg.Dirty := tbe.Dirty; + DPRINTF(RubySlicc, "%s\n", out_msg); + } + } + + + + action(fw2_forwardWBAck, "fw2", desc="forward WBAck to TCC") { + peek(responseFromNB_in, ResponseMsg) { + if(tbe.OriginalRequestor != machineID) { + enqueue(w_respTCC_out, ResponseMsg, 1) { + out_msg.addr := address; + out_msg.Type := CoherenceResponseType:TDSysWBAck; + out_msg.Sender := machineID; + //out_msg.DataBlk := tbe.DataBlk; + out_msg.Destination.add(tbe.OriginalRequestor); + out_msg.MessageSize := in_msg.MessageSize; + } + } + } + } + + action(sa_saveSysAck, "sa", desc="Save SysAck ") { + peek(responseFromNB_in, ResponseMsg) { + tbe.Dirty := in_msg.Dirty; + if (tbe.Dirty == false) { + tbe.DataBlk := in_msg.DataBlk; + } + else { + tbe.DataBlk := tbe.DataBlk; + } + tbe.CtoD := in_msg.CtoD; + tbe.CohState := in_msg.State; + tbe.Shared := in_msg.Shared; + tbe.MessageSize := in_msg.MessageSize; + } + } + + action(fsa_forwardSavedAck, "fsa", desc="forward saved SysAck to TCP or SQC") { + enqueue(responseToCore_out, ResponseMsg, 1) { + out_msg.addr := address; + out_msg.Type := CoherenceResponseType:TDSysResp; + out_msg.Sender := machineID; + if (tbe.Dirty == false) { + out_msg.DataBlk := tbe.DataBlk; + } + else { + out_msg.DataBlk := tbe.DataBlk; + } + out_msg.CtoD := tbe.CtoD; + out_msg.State := tbe.CohState; + out_msg.Destination.add(tbe.OriginalRequestor); + out_msg.Shared := tbe.Shared; + out_msg.MessageSize := tbe.MessageSize; + out_msg.Dirty := tbe.Dirty; + out_msg.Sender := tbe.Sender; + } + } + + action(fa_forwardSysAck, "fa", desc="forward SysAck to TCP or SQC") { + peek(responseFromNB_in, ResponseMsg) { + enqueue(responseToCore_out, ResponseMsg, 1) { + out_msg.addr := address; + out_msg.Type := CoherenceResponseType:TDSysResp; + out_msg.Sender := machineID; + if (tbe.Dirty == false) { + out_msg.DataBlk := in_msg.DataBlk; + tbe.Sender := machineID; + } + else { + out_msg.DataBlk := tbe.DataBlk; + } + out_msg.CtoD := in_msg.CtoD; + out_msg.State := in_msg.State; + out_msg.Destination.add(tbe.OriginalRequestor); + out_msg.Shared := in_msg.Shared; + out_msg.MessageSize := in_msg.MessageSize; + out_msg.Dirty := in_msg.Dirty; + out_msg.Sender := tbe.Sender; + DPRINTF(RubySlicc, "%s\n", (out_msg.DataBlk)); + } + } + } + + action(pso_probeSharedDataOwner, "pso", desc="probe shared data at owner") { + MachineID tcc := mapAddressToRange(address,MachineType:TCC, + TCC_select_low_bit, TCC_select_num_bits); + if (cache_entry.Owner.isElement(tcc)) { + enqueue(w_probeTCC_out, TDProbeRequestMsg, 1) { + out_msg.addr := address; + out_msg.Type := ProbeRequestType:PrbDowngrade; + out_msg.ReturnData := true; + out_msg.MessageSize := MessageSizeType:Control; + out_msg.Destination.add(tcc); + DPRINTF(RubySlicc, "%s\n", out_msg); + } + } + else { // i.e., owner is a core + enqueue(probeToCore_out, TDProbeRequestMsg, response_latency) { + out_msg.addr := address; + out_msg.Type := ProbeRequestType:PrbDowngrade; + out_msg.ReturnData := true; + out_msg.MessageSize := MessageSizeType:Control; + out_msg.Destination.addNetDest(cache_entry.Owner); + DPRINTF(RubySlicc, "%s\n", out_msg); + } + } + tbe.NumPendingAcks := 1; + } + + action(i_popIncomingRequestQueue, "i", desc="Pop incoming request queue") { + coreRequestNetwork_in.dequeue(clockEdge()); + } + + action(j_popIncomingUnblockQueue, "j", desc="Pop incoming unblock queue") { + unblockNetwork_in.dequeue(clockEdge()); + } + + action(pk_popResponseQueue, "pk", desc="Pop response queue") { + responseNetwork_in.dequeue(clockEdge()); + } + + action(pp_popProbeQueue, "pp", desc="Pop incoming probe queue") { + probeNetwork_in.dequeue(clockEdge()); + } + + action(pR_popResponseFromNBQueue, "pR", desc="Pop incoming Response queue From NB") { + responseFromNB_in.dequeue(clockEdge()); + } + + action(pt_popTriggerQueue, "pt", desc="pop trigger queue") { + triggerQueue_in.dequeue(clockEdge()); + } + + action(pl_popTCCRequestQueue, "pl", desc="pop TCC request queue") { + w_TCCRequest_in.dequeue(clockEdge()); + } + + action(plr_popTCCResponseQueue, "plr", desc="pop TCC response queue") { + w_TCCResponse_in.dequeue(clockEdge()); + } + + action(plu_popTCCUnblockQueue, "plu", desc="pop TCC unblock queue") { + w_TCCUnblock_in.dequeue(clockEdge()); + } + + + action(m_addUnlockerToSharers, "m", desc="Add the unlocker to the sharer list") { + peek(unblockNetwork_in, UnblockMsg) { + cache_entry.Sharers.add(in_msg.Sender); + cache_entry.MergedSharers.remove(in_msg.Sender); + assert(cache_entry.WaitingUnblocks >= 0); + cache_entry.WaitingUnblocks := cache_entry.WaitingUnblocks - 1; + } + } + + action(q_addOutstandingMergedSharer, "q", desc="Increment outstanding requests") { + peek(coreRequestNetwork_in, CPURequestMsg) { + cache_entry.MergedSharers.add(in_msg.Requestor); + cache_entry.WaitingUnblocks := cache_entry.WaitingUnblocks + 1; + } + } + + action(uu_sendUnblock, "uu", desc="state changed, unblock") { + enqueue(unblockToNB_out, UnblockMsg, issue_latency) { + out_msg.addr := address; + out_msg.Destination.add(map_Address_to_Directory(address)); + out_msg.MessageSize := MessageSizeType:Unblock_Control; + DPRINTF(RubySlicc, "%s\n", out_msg); + } + } + + action(zz_recycleRequest, "\z", desc="Recycle the request queue") { + coreRequestNetwork_in.recycle(clockEdge(), cyclesToTicks(recycle_latency)); + } + + action(yy_recycleTCCRequestQueue, "yy", desc="recycle yy request queue") { + w_TCCRequest_in.recycle(clockEdge(), cyclesToTicks(recycle_latency)); + } + + action(xz_recycleResponseQueue, "xz", desc="recycle response queue") { + responseNetwork_in.recycle(clockEdge(), cyclesToTicks(recycle_latency)); + } + + action(xx_recycleTCCResponseQueue, "xx", desc="recycle TCC response queue") { + w_TCCResponse_in.recycle(clockEdge(), cyclesToTicks(recycle_latency)); + } + + action(vv_recycleTCCUnblockQueue, "vv", desc="Recycle the probe request queue") { + w_TCCUnblock_in.recycle(clockEdge(), cyclesToTicks(recycle_latency)); + } + + action(xy_recycleUnblockQueue, "xy", desc="Recycle the probe request queue") { + w_TCCUnblock_in.recycle(clockEdge(), cyclesToTicks(recycle_latency)); + } + + action(ww_recycleProbeRequest, "ww", desc="Recycle the probe request queue") { + probeNetwork_in.recycle(clockEdge(), cyclesToTicks(recycle_latency)); + } + + action(x_decrementAcks, "x", desc="decrement Acks pending") { + tbe.NumPendingAcks := tbe.NumPendingAcks - 1; + } + + action(o_checkForAckCompletion, "o", desc="check for ack completion") { + if (tbe.NumPendingAcks == 0) { + enqueue(triggerQueue_out, TriggerMsg, 1) { + out_msg.addr := address; + out_msg.Type := TriggerType:AcksComplete; + } + } + APPEND_TRANSITION_COMMENT(" tbe acks "); + APPEND_TRANSITION_COMMENT(tbe.NumPendingAcks); + } + + action(tp_allocateTBE, "tp", desc="allocate TBE Entry for upward transactions") { + check_allocate(TBEs); + peek(probeNetwork_in, NBProbeRequestMsg) { + TBEs.allocate(address); + set_tbe(TBEs.lookup(address)); + tbe.Dirty := false; + tbe.NumPendingAcks := 0; + tbe.UntransferredOwnerExists := false; + } + } + + action(tv_allocateTBE, "tv", desc="allocate TBE Entry for TCC transactions") { + check_allocate(TBEs); + peek(w_TCCRequest_in, CPURequestMsg) { + TBEs.allocate(address); + set_tbe(TBEs.lookup(address)); + tbe.DataBlk := in_msg.DataBlk; // Data only for WBs + tbe.Dirty := false; + tbe.OriginalRequestor := in_msg.Requestor; + tbe.NumPendingAcks := 0; + tbe.UntransferredOwnerExists := false; + } + } + + action(t_allocateTBE, "t", desc="allocate TBE Entry") { + check_allocate(TBEs);//check whether resources are full + peek(coreRequestNetwork_in, CPURequestMsg) { + TBEs.allocate(address); + set_tbe(TBEs.lookup(address)); + tbe.DataBlk := cache_entry.DataBlk; // Data only for WBs + tbe.Dirty := false; + tbe.Upgrade := false; + tbe.OriginalRequestor := in_msg.Requestor; + tbe.NumPendingAcks := 0; + tbe.UntransferredOwnerExists := false; + tbe.Sender := machineID; + } + } + + action(tr_allocateTBE, "tr", desc="allocate TBE Entry for recall") { + check_allocate(TBEs);//check whether resources are full + TBEs.allocate(address); + set_tbe(TBEs.lookup(address)); + tbe.DataBlk := cache_entry.DataBlk; // Data only for WBs + tbe.Dirty := false; + tbe.Upgrade := false; + tbe.OriginalRequestor := machineID; //Recall request, Self initiated + tbe.NumPendingAcks := 0; + tbe.UntransferredOwnerExists := false; + } + + action(dt_deallocateTBE, "dt", desc="Deallocate TBE entry") { + TBEs.deallocate(address); + unset_tbe(); + } + + + action(d_allocateDir, "d", desc="allocate Directory Cache") { + if (is_invalid(cache_entry)) { + set_cache_entry(directory.allocate(address, new Entry)); + } + } + + action(dd_deallocateDir, "dd", desc="deallocate Directory Cache") { + if (is_valid(cache_entry)) { + directory.deallocate(address); + } + unset_cache_entry(); + } + + action(ss_sendStaleNotification, "ss", desc="stale data; nothing to writeback") { + enqueue(responseToNB_out, ResponseMsg, issue_latency) { + out_msg.addr := address; + out_msg.Type := CoherenceResponseType:StaleNotif; + out_msg.Destination.add(map_Address_to_Directory(address)); + out_msg.Sender := machineID; + out_msg.MessageSize := MessageSizeType:Response_Control; + } + } + + action(wb_data, "wb", desc="write back data") { + enqueue(responseToNB_out, ResponseMsg, issue_latency) { + out_msg.addr := address; + out_msg.Type := CoherenceResponseType:CPUData; + out_msg.Sender := machineID; + out_msg.Destination.add(map_Address_to_Directory(address)); + out_msg.DataBlk := tbe.DataBlk; + out_msg.Dirty := tbe.Dirty; + if (tbe.Shared) { + out_msg.NbReqShared := true; + } else { + out_msg.NbReqShared := false; + } + out_msg.State := CoherenceState:Shared; // faux info + out_msg.MessageSize := MessageSizeType:Writeback_Data; + DPRINTF(RubySlicc, "%s\n", out_msg); + } + } + + action(sf_setSharedFlip, "sf", desc="hit by shared probe, status may be different") { + assert(is_valid(tbe)); + tbe.Shared := true; + } + + action(y_writeDataToTBE, "y", desc="write Probe Data to TBE") { + peek(responseNetwork_in, ResponseMsg) { + if (!tbe.Dirty || in_msg.Dirty) { + tbe.DataBlk := in_msg.DataBlk; + tbe.Dirty := in_msg.Dirty; + } + if (in_msg.Hit) { + tbe.Cached := true; + } + } + } + + action(ty_writeTCCDataToTBE, "ty", desc="write TCC Probe Data to TBE") { + peek(w_TCCResponse_in, ResponseMsg) { + if (!tbe.Dirty || in_msg.Dirty) { + tbe.DataBlk := in_msg.DataBlk; + tbe.Dirty := in_msg.Dirty; + } + if (in_msg.Hit) { + tbe.Cached := true; + } + } + } + + + action(ut_updateTag, "ut", desc="update Tag (i.e. set MRU)") { + directory.setMRU(address); + } + + // TRANSITIONS + + // Handling TCP/SQC requests (similar to how NB dir handles TCC events with some changes to account for stateful directory). + + + // transitions from base + transition(I, RdBlk, I_ES){TagArrayRead} { + d_allocateDir; + t_allocateTBE; + n_issueRdBlk; + i_popIncomingRequestQueue; + } + + transition(I, RdBlkS, I_S){TagArrayRead} { + d_allocateDir; + t_allocateTBE; + nS_issueRdBlkS; + i_popIncomingRequestQueue; + } + + + transition(I_S, NB_AckS, BBB_S) { + fa_forwardSysAck; + pR_popResponseFromNBQueue; + } + + transition(I_ES, NB_AckS, BBB_S) { + fa_forwardSysAck; + pR_popResponseFromNBQueue; + } + + transition(I_ES, NB_AckE, BBB_E) { + fa_forwardSysAck; + pR_popResponseFromNBQueue; + } + + transition({S_M, O_M}, {NB_AckCtoD,NB_AckM}, BBB_M) { + fa_forwardSysAck; + pR_popResponseFromNBQueue; + } + + transition(I_M, NB_AckM, BBB_M) { + fa_forwardSysAck; + pR_popResponseFromNBQueue; + } + + transition(BBB_M, CoreUnblock, M){TagArrayWrite} { + c_clearOwner; + cc_clearSharers; + e_ownerIsUnblocker; + uu_sendUnblock; + dt_deallocateTBE; + j_popIncomingUnblockQueue; + } + + transition(BBB_S, CoreUnblock, S){TagArrayWrite} { + as_addToSharers; + uu_sendUnblock; + dt_deallocateTBE; + j_popIncomingUnblockQueue; + } + + transition(BBB_E, CoreUnblock, E){TagArrayWrite} { + as_addToSharers; + uu_sendUnblock; + dt_deallocateTBE; + j_popIncomingUnblockQueue; + } + + + transition(I, RdBlkM, I_M){TagArrayRead} { + d_allocateDir; + t_allocateTBE; + nM_issueRdBlkM; + i_popIncomingRequestQueue; + } + + // + transition(S, {RdBlk, RdBlkS}, BBS_S){TagArrayRead} { + t_allocateTBE; + sc_probeShrCoreData; + s2_probeShrL2Data; + q_addOutstandingMergedSharer; + i_popIncomingRequestQueue; + } + // Merging of read sharing into a single request + transition(BBS_S, {RdBlk, RdBlkS}) { + q_addOutstandingMergedSharer; + i_popIncomingRequestQueue; + } + // Wait for probe acks to be complete + transition(BBS_S, CPUPrbResp) { + ccr_copyCoreResponseToTBE; + x_decrementAcks; + o_checkForAckCompletion; + pk_popResponseQueue; + } + + transition(BBS_S, TCCPrbResp) { + ctr_copyTCCResponseToTBE; + x_decrementAcks; + o_checkForAckCompletion; + plr_popTCCResponseQueue; + } + + // Window for merging complete with this transition + // Send responses to all outstanding + transition(BBS_S, ProbeAcksComplete, BB_S) { + sCS_sendCollectiveResponseS; + pt_popTriggerQueue; + } + + transition(BB_S, CoreUnblock, BB_S) { + m_addUnlockerToSharers; + j_popIncomingUnblockQueue; + } + + transition(BB_S, LastCoreUnblock, S) { + m_addUnlockerToSharers; + dt_deallocateTBE; + j_popIncomingUnblockQueue; + } + + transition(O, {RdBlk, RdBlkS}, BBO_O){TagArrayRead} { + t_allocateTBE; + pso_probeSharedDataOwner; + q_addOutstandingMergedSharer; + i_popIncomingRequestQueue; + } + // Merging of read sharing into a single request + transition(BBO_O, {RdBlk, RdBlkS}) { + q_addOutstandingMergedSharer; + i_popIncomingRequestQueue; + } + + // Wait for probe acks to be complete + transition(BBO_O, CPUPrbResp) { + ccr_copyCoreResponseToTBE; + x_decrementAcks; + o_checkForAckCompletion; + pk_popResponseQueue; + } + + transition(BBO_O, TCCPrbResp) { + ctr_copyTCCResponseToTBE; + x_decrementAcks; + o_checkForAckCompletion; + plr_popTCCResponseQueue; + } + + // Window for merging complete with this transition + // Send responses to all outstanding + transition(BBO_O, ProbeAcksComplete, BB_OO) { + sCS_sendCollectiveResponseS; + pt_popTriggerQueue; + } + + transition(BB_OO, CoreUnblock) { + m_addUnlockerToSharers; + j_popIncomingUnblockQueue; + } + + transition(BB_OO, LastCoreUnblock, O){TagArrayWrite} { + m_addUnlockerToSharers; + dt_deallocateTBE; + j_popIncomingUnblockQueue; + } + + transition(S, CPUWrite, BW_S){TagArrayRead} { + t_allocateTBE; + rC_removeCoreFromSharers; + sT_sendRequestToTCC; + i_popIncomingRequestQueue; + } + + transition(E, CPUWrite, BW_E){TagArrayRead} { + t_allocateTBE; + rC_removeCoreFromSharers; + sT_sendRequestToTCC; + i_popIncomingRequestQueue; + } + + transition(O, CPUWrite, BW_O){TagArrayRead} { + t_allocateTBE; + rCo_removeCoreFromOwner; + rC_removeCoreFromSharers; + sT_sendRequestToTCC; + i_popIncomingRequestQueue; + } + + transition(M, CPUWrite, BW_M){TagArrayRead} { + t_allocateTBE; + rCo_removeCoreFromOwner; + rC_removeCoreFromSharers; + sT_sendRequestToTCC; + i_popIncomingRequestQueue; + } + + transition(BW_S, TCCUnblock_Sharer, S){TagArrayWrite} { + aT_addTCCToSharers; + dt_deallocateTBE; + plu_popTCCUnblockQueue; + } + + transition(BW_S, TCCUnblock_NotValid, S){TagArrayWrite} { + dt_deallocateTBE; + plu_popTCCUnblockQueue; + } + + transition(BW_E, TCCUnblock, E){TagArrayWrite} { + cc_clearSharers; + aT_addTCCToSharers; + dt_deallocateTBE; + plu_popTCCUnblockQueue; + } + + transition(BW_E, TCCUnblock_NotValid, E) { + dt_deallocateTBE; + plu_popTCCUnblockQueue; + } + + transition(BW_M, TCCUnblock, M) { + c_clearOwner; + cc_clearSharers; + eT_ownerIsUnblocker; + dt_deallocateTBE; + plu_popTCCUnblockQueue; + } + + transition(BW_M, TCCUnblock_NotValid, M) { + // Note this transition should only be executed if we received a stale wb + dt_deallocateTBE; + plu_popTCCUnblockQueue; + } + + transition(BW_O, TCCUnblock, O) { + c_clearOwner; + eT_ownerIsUnblocker; + dt_deallocateTBE; + plu_popTCCUnblockQueue; + } + + transition(BW_O, TCCUnblock_NotValid, O) { + // Note this transition should only be executed if we received a stale wb + dt_deallocateTBE; + plu_popTCCUnblockQueue; + } + + // We lost the owner likely do to an invalidation racing with a 'O' wb + transition(BW_O, TCCUnblock_Sharer, S) { + c_clearOwner; + aT_addTCCToSharers; + dt_deallocateTBE; + plu_popTCCUnblockQueue; + } + + transition({BW_M, BW_S, BW_E, BW_O}, {PrbInv,PrbInvData,PrbShrData}) { + ww_recycleProbeRequest; + } + + transition(BRWD_I, {PrbInvData, PrbInv, PrbShrData}) { + ww_recycleProbeRequest; + } + + // Three step process: locally invalidate others, issue CtoD, wait for NB_AckCtoD + transition(S, CtoD, BBS_UM) {TagArrayRead} { + t_allocateTBE; + lpc_probeInvCore; + i2_probeInvL2; + o_checkForAckCompletion; + i_popIncomingRequestQueue; + } + + transition(BBS_UM, CPUPrbResp, BBS_UM) { + x_decrementAcks; + o_checkForAckCompletion; + pk_popResponseQueue; + } + + transition(BBS_UM, TCCPrbResp) { + x_decrementAcks; + o_checkForAckCompletion; + plr_popTCCResponseQueue; + } + + transition(BBS_UM, ProbeAcksComplete, S_M) { + rU_rememberUpgrade; + nM_issueRdBlkM; + pt_popTriggerQueue; + } + + // Three step process: locally invalidate others, issue CtoD, wait for NB_AckCtoD + transition(O, CtoD, BBO_UM){TagArrayRead} { + t_allocateTBE; + lpc_probeInvCore; + i2_probeInvL2; + o_checkForAckCompletion; + i_popIncomingRequestQueue; + } + + transition(BBO_UM, CPUPrbResp, BBO_UM) { + ruo_rememberUntransferredOwner; + x_decrementAcks; + o_checkForAckCompletion; + pk_popResponseQueue; + } + + transition(BBO_UM, TCCPrbResp) { + ruoT_rememberUntransferredOwnerTCC; + x_decrementAcks; + o_checkForAckCompletion; + plr_popTCCResponseQueue; + } + + transition(BBO_UM, ProbeAcksComplete, O_M) { + rU_rememberUpgrade; + nM_issueRdBlkM; + pt_popTriggerQueue; + } + + transition({S,E}, RdBlkM, BBS_M){TagArrayWrite} { + t_allocateTBE; + ldc_probeInvCoreData; + ld2_probeInvL2Data; + o_checkForAckCompletion; + i_popIncomingRequestQueue; + } + + transition(BBS_M, CPUPrbResp) { + ccr_copyCoreResponseToTBE; + rR_removeResponderFromSharers; + x_decrementAcks; + o_checkForAckCompletion; + pk_popResponseQueue; + } + + transition(BBS_M, TCCPrbResp) { + ctr_copyTCCResponseToTBE; + x_decrementAcks; + o_checkForAckCompletion; + plr_popTCCResponseQueue; + } + + transition(BBS_M, ProbeAcksComplete, S_M) { + nM_issueRdBlkM; + pt_popTriggerQueue; + } + + transition(O, RdBlkM, BBO_M){TagArrayRead} { + t_allocateTBE; + ldc_probeInvCoreData; + ld2_probeInvL2Data; + o_checkForAckCompletion; + i_popIncomingRequestQueue; + } + + transition(BBO_M, CPUPrbResp) { + ccr_copyCoreResponseToTBE; + rR_removeResponderFromSharers; + x_decrementAcks; + o_checkForAckCompletion; + pk_popResponseQueue; + } + + transition(BBO_M, TCCPrbResp) { + ctr_copyTCCResponseToTBE; + x_decrementAcks; + o_checkForAckCompletion; + plr_popTCCResponseQueue; + } + + transition(BBO_M, ProbeAcksComplete, O_M) { + nM_issueRdBlkM; + pt_popTriggerQueue; + } + + // + transition(M, RdBlkM, BBM_M){TagArrayRead} { + t_allocateTBE; + ldc_probeInvCoreData; + ld2_probeInvL2Data; + i_popIncomingRequestQueue; + } + + transition(BBM_M, CPUPrbResp) { + ccr_copyCoreResponseToTBE; + x_decrementAcks; + o_checkForAckCompletion; + pk_popResponseQueue; + } + + // TCP recalled block before receiving probe + transition({BBM_M, BBS_M, BBO_M}, {CPUWrite,NoCPUWrite}) { + zz_recycleRequest; + } + + transition(BBM_M, TCCPrbResp) { + ctr_copyTCCResponseToTBE; + x_decrementAcks; + o_checkForAckCompletion; + plr_popTCCResponseQueue; + } + + transition(BBM_M, ProbeAcksComplete, BB_M) { + sM_sendResponseM; + pt_popTriggerQueue; + } + + transition(BB_M, CoreUnblock, M){TagArrayWrite} { + e_ownerIsUnblocker; + dt_deallocateTBE; + j_popIncomingUnblockQueue; + } + + transition(M, {RdBlkS, RdBlk}, BBM_O){TagArrayRead} { + t_allocateTBE; + sc_probeShrCoreData; + s2_probeShrL2Data; + i_popIncomingRequestQueue; + } + + transition(E, {RdBlkS, RdBlk}, BBM_O){TagArrayRead} { + t_allocateTBE; + eto_moveExSharerToOwner; + sc_probeShrCoreData; + s2_probeShrL2Data; + i_popIncomingRequestQueue; + } + + transition(BBM_O, CPUPrbResp) { + ccr_copyCoreResponseToTBE; + x_decrementAcks; + o_checkForAckCompletion; + pk_popResponseQueue; + } + transition(BBM_O, TCCPrbResp) { + ctr_copyTCCResponseToTBE; + x_decrementAcks; + o_checkForAckCompletion; + plr_popTCCResponseQueue; + } + transition(BBM_O, ProbeAcksComplete, BB_O) { + sS_sendResponseS; + pt_popTriggerQueue; + } + + transition(BB_O, CoreUnblock, O){TagArrayWrite} { + as_addToSharers; + dt_deallocateTBE; + j_popIncomingUnblockQueue; + } + + transition({BBO_O, BBM_M, BBS_S, BBM_O, BB_M, BB_O, BB_S, BBO_UM, BBS_UM, BBS_M, BBO_M, BB_OO}, {PrbInvData, PrbInv,PrbShrData}) { + ww_recycleProbeRequest; + } + + transition({BBM_O, BBS_S, CP_S, CP_O, CP_SM, CP_OM, BBO_O}, {CPUWrite,NoCPUWrite}) { + zz_recycleRequest; + } + + // stale CtoD raced with external invalidation + transition({I, CP_I, B_I, CP_IOM, CP_ISM, CP_OSIW, BRWD_I, BRW_I, BRD_I}, CtoD) { + i_popIncomingRequestQueue; + } + + // stale CtoD raced with internal RdBlkM + transition({BBM_M, BBS_M, BBO_M, BBB_M, BBS_UM, BBO_UM}, CtoD) { + i_popIncomingRequestQueue; + } + + transition({E, M}, CtoD) { + i_popIncomingRequestQueue; + } + + + // TCC-directory has sent out (And potentially received acks for) probes. + // TCP/SQC replacement (known to be stale subsequent) are popped off. + transition({BBO_UM, BBS_UM}, {CPUWrite,NoCPUWrite}) { + nC_sendNullWBAckToCore; + i_popIncomingRequestQueue; + } + + transition(S_M, {NoCPUWrite, CPUWrite}) { + zz_recycleRequest; + } + + transition(O_M, {NoCPUWrite, CPUWrite}) { + zz_recycleRequest; + } + + + transition({BBM_M, BBS_M, BBO_M, BBO_UM, BBS_UM}, {VicDirty, VicClean, VicDirtyLast, NoVic}) { + nT_sendNullWBAckToTCC; + pl_popTCCRequestQueue; + } + + transition({CP_S, CP_O, CP_OM, CP_SM}, {VicDirty, VicClean, VicDirtyLast, CancelWB, NoVic}) { + yy_recycleTCCRequestQueue; + } + + // However, when TCCdir has sent out PrbSharedData, one cannot ignore. + transition({BBS_S, BBO_O, BBM_O, S_M, O_M, BBB_M, BBB_S, BBB_E}, {VicDirty, VicClean, VicDirtyLast,CancelWB}) { + yy_recycleTCCRequestQueue; + } + + transition({BW_S,BW_E,BW_O, BW_M}, {VicDirty, VicClean, VicDirtyLast, NoVic}) { + yy_recycleTCCRequestQueue; + } + + transition({BW_S,BW_E,BW_O, BW_M}, CancelWB) { + nT_sendNullWBAckToTCC; + pl_popTCCRequestQueue; + } + + + /// recycle if waiting for unblocks. + transition({BB_M,BB_O,BB_S,BB_OO}, {VicDirty, VicClean, VicDirtyLast,NoVic,CancelWB}) { + yy_recycleTCCRequestQueue; + } + + transition({BBS_S, BBO_O}, NoVic) { + rT_removeTCCFromSharers; + nT_sendNullWBAckToTCC; + pl_popTCCRequestQueue; + } + + // stale. Pop message and send dummy ack. + transition({I_S, I_ES, I_M}, {VicDirty, VicClean, VicDirtyLast, NoVic}) { + nT_sendNullWBAckToTCC; + pl_popTCCRequestQueue; + } + + transition(M, VicDirtyLast, VM_I){TagArrayRead} { + tv_allocateTBE; + vd_victim; + pl_popTCCRequestQueue; + } + + transition(E, VicDirty, VM_I){TagArrayRead} { + tv_allocateTBE; + vd_victim; + pl_popTCCRequestQueue; + } + + transition(O, VicDirty, VO_S){TagArrayRead} { + tv_allocateTBE; + vd_victim; + pl_popTCCRequestQueue; + } + + transition(O, {VicDirtyLast, VicClean}, VO_I){TagArrayRead} { + tv_allocateTBE; + vd_victim; + pl_popTCCRequestQueue; + } + + transition({E, S}, VicClean, VES_I){TagArrayRead} { + tv_allocateTBE; + vc_victim; + pl_popTCCRequestQueue; + } + + transition({O, S}, NoVic){TagArrayRead} { + rT_removeTCCFromSharers; + nT_sendNullWBAckToTCC; + pl_popTCCRequestQueue; + } + + transition({O,S}, NoCPUWrite){TagArrayRead} { + rC_removeCoreFromSharers; + nC_sendNullWBAckToCore; + i_popIncomingRequestQueue; + } + + transition({M,E}, NoCPUWrite){TagArrayRead} { + rC_removeCoreFromSharers; + nC_sendNullWBAckToCore; + i_popIncomingRequestQueue; + } + + // This can only happen if it is race. (TCCdir sent out probes which caused this cancel in the first place.) + transition({VM_I, VES_I, VO_I}, CancelWB) { + pl_popTCCRequestQueue; + } + + transition({VM_I, VES_I, VO_I}, NB_AckWB, I){TagArrayWrite} { + c_clearOwner; + cc_clearSharers; + wb_data; + fw2_forwardWBAck; + dt_deallocateTBE; + dd_deallocateDir; + pR_popResponseFromNBQueue; + } + + transition(VO_S, NB_AckWB, S){TagArrayWrite} { + c_clearOwner; + wb_data; + fw2_forwardWBAck; + dt_deallocateTBE; + pR_popResponseFromNBQueue; + } + + transition(I_C, NB_AckWB, I){TagArrayWrite} { + c_clearOwner; + cc_clearSharers; + ss_sendStaleNotification; + fw2_forwardWBAck; + dt_deallocateTBE; + dd_deallocateDir; + pR_popResponseFromNBQueue; + } + + transition(I_W, NB_AckWB, I) { + ss_sendStaleNotification; + dt_deallocateTBE; + dd_deallocateDir; + pR_popResponseFromNBQueue; + } + + + + // Do not handle replacements, reads of any kind or writebacks from transients; recycle + transition({I_M, I_ES, I_S, MO_I, ES_I, S_M, O_M, VES_I, VO_I, VO_S, VM_I, I_C, I_W}, {RdBlkS,RdBlkM,RdBlk,CtoD}) { + zz_recycleRequest; + } + + transition( VO_S, NoCPUWrite) { + zz_recycleRequest; + } + + transition({BW_M, BW_S, BW_O, BW_E}, {RdBlkS,RdBlkM,RdBlk,CtoD,NoCPUWrite, CPUWrite}) { + zz_recycleRequest; + } + + transition({BBB_M, BBB_S, BBB_E, BB_O, BB_M, BB_S, BB_OO}, { RdBlk, RdBlkS, RdBlkM, CPUWrite, NoCPUWrite}) { + zz_recycleRequest; + } + + transition({BBB_S, BBB_E, BB_O, BB_S, BB_OO}, { CtoD}) { + zz_recycleRequest; + } + + transition({BBS_UM, BBO_UM, BBM_M, BBM_O, BBS_M, BBO_M}, { RdBlk, RdBlkS, RdBlkM}) { + zz_recycleRequest; + } + + transition(BBM_O, CtoD) { + zz_recycleRequest; + } + + transition({BBS_S, BBO_O}, {RdBlkM, CtoD}) { + zz_recycleRequest; + } + + transition({B_I, CP_I, CP_S, CP_O, CP_OM, CP_SM, CP_IOM, CP_ISM, CP_OSIW, BRWD_I, BRW_I, BRD_I}, {RdBlk, RdBlkS, RdBlkM}) { + zz_recycleRequest; + } + + transition({CP_O, CP_S, CP_OM}, CtoD) { + zz_recycleRequest; + } + + // Ignore replacement related messages after probe got in. + transition({CP_I, B_I, CP_IOM, CP_ISM, CP_OSIW, BRWD_I, BRW_I, BRD_I}, {CPUWrite, NoCPUWrite}) { + zz_recycleRequest; + } + + // Ignore replacement related messages after probes processed + transition({I, I_S, I_ES, I_M, I_C, I_W}, {CPUWrite,NoCPUWrite}) { + nC_sendNullWBAckToCore; + i_popIncomingRequestQueue; + } + // cannot ignore cancel... otherwise TCP/SQC will be stuck in I_C + transition({I, I_S, I_ES, I_M, I_C, I_W, S_M, M, O, E, S}, CPUWriteCancel){TagArrayRead} { + nC_sendNullWBAckToCore; + i_popIncomingRequestQueue; + } + + transition({CP_I, B_I, CP_IOM, CP_ISM, BRWD_I, BRW_I, BRD_I}, {NoVic, VicClean, VicDirty, VicDirtyLast}){ + nT_sendNullWBAckToTCC; + pl_popTCCRequestQueue; + } + + // Handling Probes from NB (General process: (1) propagate up, go to blocking state (2) process acks (3) on last ack downward.) + + // step 1 + transition({M, O, E, S}, PrbInvData, CP_I){TagArrayRead} { + tp_allocateTBE; + dc_probeInvCoreData; + d2_probeInvL2Data; + pp_popProbeQueue; + } + // step 2a + transition(CP_I, CPUPrbResp) { + y_writeDataToTBE; + x_decrementAcks; + o_checkForAckCompletion; + pk_popResponseQueue; + } + // step 2b + transition(CP_I, TCCPrbResp) { + ty_writeTCCDataToTBE; + x_decrementAcks; + o_checkForAckCompletion; + plr_popTCCResponseQueue; + } + // step 3 + transition(CP_I, ProbeAcksComplete, I){TagArrayWrite} { + pd_sendProbeResponseData; + c_clearOwner; + cc_clearSharers; + dt_deallocateTBE; + dd_deallocateDir; + pt_popTriggerQueue; + } + + // step 1 + transition({M, O, E, S}, PrbInv, B_I){TagArrayWrite} { + tp_allocateTBE; + ipc_probeInvCore; + i2_probeInvL2; + pp_popProbeQueue; + } + // step 2 + transition(B_I, CPUPrbResp) { + x_decrementAcks; + o_checkForAckCompletion; + pk_popResponseQueue; + } + // step 2b + transition(B_I, TCCPrbResp) { + x_decrementAcks; + o_checkForAckCompletion; + plr_popTCCResponseQueue; + } + // step 3 + transition(B_I, ProbeAcksComplete, I){TagArrayWrite} { + // send response down to NB + pi_sendProbeResponseInv; + c_clearOwner; + cc_clearSharers; + dt_deallocateTBE; + dd_deallocateDir; + pt_popTriggerQueue; + } + + + // step 1 + transition({M, O}, PrbShrData, CP_O){TagArrayRead} { + tp_allocateTBE; + sc_probeShrCoreData; + s2_probeShrL2Data; + pp_popProbeQueue; + } + + transition(E, PrbShrData, CP_O){TagArrayRead} { + tp_allocateTBE; + eto_moveExSharerToOwner; + sc_probeShrCoreData; + s2_probeShrL2Data; + pp_popProbeQueue; + } + // step 2 + transition(CP_O, CPUPrbResp) { + y_writeDataToTBE; + x_decrementAcks; + o_checkForAckCompletion; + pk_popResponseQueue; + } + // step 2b + transition(CP_O, TCCPrbResp) { + ty_writeTCCDataToTBE; + x_decrementAcks; + o_checkForAckCompletion; + plr_popTCCResponseQueue; + } + // step 3 + transition(CP_O, ProbeAcksComplete, O){TagArrayWrite} { + // send response down to NB + pd_sendProbeResponseData; + dt_deallocateTBE; + pt_popTriggerQueue; + } + + //step 1 + transition(S, PrbShrData, CP_S) { + tp_allocateTBE; + sc_probeShrCoreData; + s2_probeShrL2Data; + pp_popProbeQueue; + } + // step 2 + transition(CP_S, CPUPrbResp) { + y_writeDataToTBE; + x_decrementAcks; + o_checkForAckCompletion; + pk_popResponseQueue; + } + // step 2b + transition(CP_S, TCCPrbResp) { + ty_writeTCCDataToTBE; + x_decrementAcks; + o_checkForAckCompletion; + plr_popTCCResponseQueue; + } + // step 3 + transition(CP_S, ProbeAcksComplete, S) { + // send response down to NB + pd_sendProbeResponseData; + dt_deallocateTBE; + pt_popTriggerQueue; + } + + // step 1 + transition(O_M, PrbInvData, CP_IOM) { + dc_probeInvCoreData; + d2_probeInvL2Data; + pp_popProbeQueue; + } + // step 2a + transition(CP_IOM, CPUPrbResp) { + y_writeDataToTBE; + x_decrementAcks; + o_checkForAckCompletion; + pk_popResponseQueue; + } + // step 2b + transition(CP_IOM, TCCPrbResp) { + ty_writeTCCDataToTBE; + x_decrementAcks; + o_checkForAckCompletion; + plr_popTCCResponseQueue; + } + // step 3 + transition(CP_IOM, ProbeAcksComplete, I_M) { + pdm_sendProbeResponseDataMs; + c_clearOwner; + cc_clearSharers; + cd_clearDirtyBitTBE; + pt_popTriggerQueue; + } + + transition(CP_IOM, ProbeAcksCompleteReissue, I){TagArrayWrite} { + pdm_sendProbeResponseDataMs; + c_clearOwner; + cc_clearSharers; + dt_deallocateTBE; + dd_deallocateDir; + pt_popTriggerQueue; + } + + // step 1 + transition(S_M, PrbInvData, CP_ISM) { + dc_probeInvCoreData; + d2_probeInvL2Data; + o_checkForAckCompletion; + pp_popProbeQueue; + } + // step 2a + transition(CP_ISM, CPUPrbResp) { + y_writeDataToTBE; + x_decrementAcks; + o_checkForAckCompletion; + pk_popResponseQueue; + } + // step 2b + transition(CP_ISM, TCCPrbResp) { + ty_writeTCCDataToTBE; + x_decrementAcks; + o_checkForAckCompletion; + plr_popTCCResponseQueue; + } + // step 3 + transition(CP_ISM, ProbeAcksComplete, I_M) { + pdm_sendProbeResponseDataMs; + c_clearOwner; + cc_clearSharers; + cd_clearDirtyBitTBE; + + //dt_deallocateTBE; + pt_popTriggerQueue; + } + transition(CP_ISM, ProbeAcksCompleteReissue, I){TagArrayWrite} { + pim_sendProbeResponseInvMs; + c_clearOwner; + cc_clearSharers; + dt_deallocateTBE; + dd_deallocateDir; + pt_popTriggerQueue; + } + + // step 1 + transition({S_M, O_M}, {PrbInv}, CP_ISM) { + dc_probeInvCoreData; + d2_probeInvL2Data; + pp_popProbeQueue; + } + // next steps inherited from BS_ISM + + // Simpler cases + + transition({I_C, I_W}, {PrbInvData, PrbInv, PrbShrData}) { + pi_sendProbeResponseInv; + pp_popProbeQueue; + } + + //If the directory is certain that the block is not present, one can send an acknowledgement right away. + // No need for three step process. + transition(I, {PrbInv,PrbShrData,PrbInvData}){TagArrayRead} { + pi_sendProbeResponseInv; + pp_popProbeQueue; + } + + transition({I_M, I_ES, I_S}, {PrbInv, PrbInvData}) { + pi_sendProbeResponseInv; + pp_popProbeQueue; + } + + transition({I_M, I_ES, I_S}, PrbShrData) { + prm_sendProbeResponseMiss; + pp_popProbeQueue; + } + + //step 1 + transition(S_M, PrbShrData, CP_SM) { + sc_probeShrCoreData; + s2_probeShrL2Data; + o_checkForAckCompletion; + pp_popProbeQueue; + } + // step 2 + transition(CP_SM, CPUPrbResp) { + y_writeDataToTBE; + x_decrementAcks; + o_checkForAckCompletion; + pk_popResponseQueue; + } + // step 2b + transition(CP_SM, TCCPrbResp) { + ty_writeTCCDataToTBE; + x_decrementAcks; + o_checkForAckCompletion; + plr_popTCCResponseQueue; + } + // step 3 + transition(CP_SM, {ProbeAcksComplete,ProbeAcksCompleteReissue}, S_M){DataArrayRead} { + // send response down to NB + pd_sendProbeResponseData; + pt_popTriggerQueue; + } + + //step 1 + transition(O_M, PrbShrData, CP_OM) { + sc_probeShrCoreData; + s2_probeShrL2Data; + pp_popProbeQueue; + } + // step 2 + transition(CP_OM, CPUPrbResp) { + y_writeDataToTBE; + x_decrementAcks; + o_checkForAckCompletion; + pk_popResponseQueue; + } + // step 2b + transition(CP_OM, TCCPrbResp) { + ty_writeTCCDataToTBE; + x_decrementAcks; + o_checkForAckCompletion; + plr_popTCCResponseQueue; + } + // step 3 + transition(CP_OM, {ProbeAcksComplete,ProbeAcksCompleteReissue}, O_M) { + // send response down to NB + pd_sendProbeResponseData; + pt_popTriggerQueue; + } + + transition(BRW_I, PrbInvData, I_W) { + pd_sendProbeResponseData; + pp_popProbeQueue; + } + + transition({VM_I,VO_I}, PrbInvData, I_C) { + pd_sendProbeResponseData; + pp_popProbeQueue; + } + + transition(VES_I, {PrbInvData,PrbInv}, I_C) { + pi_sendProbeResponseInv; + pp_popProbeQueue; + } + + transition({VM_I, VO_I, BRW_I}, PrbInv, I_W) { + pi_sendProbeResponseInv; + pp_popProbeQueue; + } + + transition({VM_I, VO_I, VO_S, VES_I, BRW_I}, PrbShrData) { + pd_sendProbeResponseData; + sf_setSharedFlip; + pp_popProbeQueue; + } + + transition(VO_S, PrbInvData, CP_OSIW) { + dc_probeInvCoreData; + d2_probeInvL2Data; + pp_popProbeQueue; + } + + transition(CP_OSIW, TCCPrbResp) { + x_decrementAcks; + o_checkForAckCompletion; + plr_popTCCResponseQueue; + } + transition(CP_OSIW, CPUPrbResp) { + x_decrementAcks; + o_checkForAckCompletion; + pk_popResponseQueue; + } + + transition(CP_OSIW, ProbeAcksComplete, I_C) { + pd_sendProbeResponseData; + cd_clearDirtyBitTBE; + pt_popTriggerQueue; + } + + transition({I, S, E, O, M, CP_O, CP_S, CP_OM, CP_SM, CP_OSIW, BW_S, BW_E, BW_O, BW_M, I_M, I_ES, I_S, BBS_S, BBO_O, BBM_M, BBM_O, BB_M, BB_O, BB_OO, BB_S, BBS_M, BBO_M, BBO_UM, BBS_UM, S_M, O_M, BBB_S, BBB_M, BBB_E, VES_I, VM_I, VO_I, VO_S, ES_I, MO_I, I_C, I_W}, StaleVic) { + nT_sendNullWBAckToTCC; + pl_popTCCRequestQueue; + } + + transition({CP_I, B_I, CP_IOM, CP_ISM, BRWD_I, BRW_I, BRD_I}, StaleVic) { + nT_sendNullWBAckToTCC; + pl_popTCCRequestQueue; + } + + // Recall Transistions + // transient states still require the directory state + transition({M, O}, Recall, BRWD_I) { + tr_allocateTBE; + vd_victim; + dc_probeInvCoreData; + d2_probeInvL2Data; + } + + transition({E, S}, Recall, BRWD_I) { + tr_allocateTBE; + vc_victim; + dc_probeInvCoreData; + d2_probeInvL2Data; + } + + transition(I, Recall) { + dd_deallocateDir; + } + + transition({BRWD_I, BRD_I}, CPUPrbResp) { + y_writeDataToTBE; + x_decrementAcks; + o_checkForAckCompletion; + pk_popResponseQueue; + } + + transition({BRWD_I, BRD_I}, TCCPrbResp) { + ty_writeTCCDataToTBE; + x_decrementAcks; + o_checkForAckCompletion; + plr_popTCCResponseQueue; + } + + transition(BRWD_I, NB_AckWB, BRD_I) { + pR_popResponseFromNBQueue; + } + + transition(BRWD_I, ProbeAcksComplete, BRW_I) { + pt_popTriggerQueue; + } + + transition(BRW_I, NB_AckWB, I) { + wb_data; + dt_deallocateTBE; + dd_deallocateDir; + pR_popResponseFromNBQueue; + } + + transition(BRD_I, ProbeAcksComplete, I) { + wb_data; + dt_deallocateTBE; + dd_deallocateDir; + pt_popTriggerQueue; + } + + // wait for stable state for Recall + transition({BRWD_I,BRD_I,BRW_I,CP_O, CP_S, CP_OM, CP_SM, CP_OSIW, BW_S, BW_E, BW_O, BW_M, I_M, I_ES, I_S, BBS_S, BBO_O, BBM_M, BBM_O, BB_M, BB_O, BB_OO, BB_S, BBS_M, BBO_M, BBO_UM, BBS_UM, S_M, O_M, BBB_S, BBB_M, BBB_E, VES_I, VM_I, VO_I, VO_S, ES_I, MO_I, I_C, I_W, CP_I}, Recall) { + zz_recycleRequest; // stall and wait would be for the wrong address + ut_updateTag; // try to find an easier recall + } + +} |