/*
- * Copyright (c) 1999-2008 Mark D. Hill and David A. Wood
+ * Copyright (c) 1999-2013 Mark D. Hill and David A. Wood
* Copyright (c) 2009 Advanced Micro Devices, Inc.
* All rights reserved.
*
* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
* OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*
- * AMD's contributions to the MOESI hammer protocol do not constitute an
+ * AMD's contributions to the MOESI hammer protocol do not constitute an
* endorsement of its similarity to any AMD products.
*
* Authors: Milo Martin
* Brad Beckmann
*/
-machine(L1Cache, "AMD Hammer-like protocol")
-: Sequencer * sequencer,
- CacheMemory * L1IcacheMemory,
- CacheMemory * L1DcacheMemory,
- CacheMemory * L2cacheMemory,
- int cache_response_latency = 10,
- int issue_latency = 2,
- int l2_cache_hit_latency = 10,
- bool no_mig_atomic = true
+machine({L1Cache, L2Cache}, "AMD Hammer-like protocol")
+ : Sequencer * sequencer;
+ CacheMemory * L1Icache;
+ CacheMemory * L1Dcache;
+ CacheMemory * L2cache;
+ Cycles cache_response_latency := 10;
+ Cycles issue_latency := 2;
+ Cycles l2_cache_hit_latency := 10;
+ bool no_mig_atomic := "True";
+ bool send_evictions;
+
+ // NETWORK BUFFERS
+ MessageBuffer * requestFromCache, network="To", virtual_network="2",
+ ordered="false", vnet_type="request";
+ MessageBuffer * responseFromCache, network="To", virtual_network="4",
+ ordered="false", vnet_type="response";
+ MessageBuffer * unblockFromCache, network="To", virtual_network="5",
+ ordered="false", vnet_type="unblock";
+
+ MessageBuffer * forwardToCache, network="From", virtual_network="3",
+ ordered="false", vnet_type="forward";
+ MessageBuffer * responseToCache, network="From", virtual_network="4",
+ ordered="false", vnet_type="response";
{
-
- // NETWORK BUFFERS
- MessageBuffer requestFromCache, network="To", virtual_network="2", ordered="false";
- MessageBuffer responseFromCache, network="To", virtual_network="4", ordered="false";
- MessageBuffer unblockFromCache, network="To", virtual_network="5", ordered="false";
-
- MessageBuffer forwardToCache, network="From", virtual_network="3", ordered="false";
- MessageBuffer responseToCache, network="From", virtual_network="4", ordered="false";
-
-
// STATES
- enumeration(State, desc="Cache states", default="L1Cache_State_I") {
+ state_declaration(State, desc="Cache states", default="L1Cache_State_I") {
// Base states
- I, desc="Idle";
- S, desc="Shared";
- O, desc="Owned";
- M, desc="Modified (dirty)";
- MM, desc="Modified (dirty and locally modified)";
+ I, AccessPermission:Invalid, desc="Idle";
+ S, AccessPermission:Read_Only, desc="Shared";
+ O, AccessPermission:Read_Only, desc="Owned";
+ M, AccessPermission:Read_Only, desc="Modified (dirty)";
+ MM, AccessPermission:Read_Write, desc="Modified (dirty and locally modified)";
+
+ // Base states, locked and ready to service the mandatory queue
+ IR, AccessPermission:Invalid, desc="Idle";
+ SR, AccessPermission:Read_Only, desc="Shared";
+ OR, AccessPermission:Read_Only, desc="Owned";
+ MR, AccessPermission:Read_Only, desc="Modified (dirty)";
+ MMR, AccessPermission:Read_Write, desc="Modified (dirty and locally modified)";
// Transient States
- IM, "IM", desc="Issued GetX";
- SM, "SM", desc="Issued GetX, we still have an old copy of the line";
- OM, "OM", desc="Issued GetX, received data";
- ISM, "ISM", desc="Issued GetX, received data, waiting for all acks";
- M_W, "M^W", desc="Issued GetS, received exclusive data";
- MM_W, "MM^W", desc="Issued GetX, received exclusive data";
- IS, "IS", desc="Issued GetS";
- SS, "SS", desc="Issued GetS, received data, waiting for all acks";
- OI, "OI", desc="Issued PutO, waiting for ack";
- MI, "MI", desc="Issued PutX, waiting for ack";
- II, "II", desc="Issued PutX/O, saw Other_GETS or Other_GETX, waiting for ack";
- IT, "IT", desc="Invalid block transferring to L1";
- ST, "ST", desc="S block transferring to L1";
- OT, "OT", desc="O block transferring to L1";
- MT, "MT", desc="M block transferring to L1";
- MMT, "MMT", desc="MM block transferring to L1";
+ IM, AccessPermission:Busy, "IM", desc="Issued GetX";
+ SM, AccessPermission:Read_Only, "SM", desc="Issued GetX, we still have a valid copy of the line";
+ OM, AccessPermission:Read_Only, "OM", desc="Issued GetX, received data";
+ ISM, AccessPermission:Read_Only, "ISM", desc="Issued GetX, received valid data, waiting for all acks";
+ M_W, AccessPermission:Read_Only, "M^W", desc="Issued GetS, received exclusive data";
+ MM_W, AccessPermission:Read_Write, "MM^W", desc="Issued GetX, received exclusive data";
+ IS, AccessPermission:Busy, "IS", desc="Issued GetS";
+ SS, AccessPermission:Read_Only, "SS", desc="Issued GetS, received data, waiting for all acks";
+ OI, AccessPermission:Busy, "OI", desc="Issued PutO, waiting for ack";
+ MI, AccessPermission:Busy, "MI", desc="Issued PutX, waiting for ack";
+ II, AccessPermission:Busy, "II", desc="Issued PutX/O, saw Other_GETS or Other_GETX, waiting for ack";
+ IT, AccessPermission:Busy, "IT", desc="Invalid block transferring to L1";
+ ST, AccessPermission:Busy, "ST", desc="S block transferring to L1";
+ OT, AccessPermission:Busy, "OT", desc="O block transferring to L1";
+ MT, AccessPermission:Busy, "MT", desc="M block transferring to L1";
+ MMT, AccessPermission:Busy, "MMT", desc="MM block transferring to L0";
+
+ //Transition States Related to Flushing
+ MI_F, AccessPermission:Busy, "MI_F", desc="Issued PutX due to a Flush, waiting for ack";
+ MM_F, AccessPermission:Busy, "MM_F", desc="Issued GETF due to a Flush, waiting for ack";
+ IM_F, AccessPermission:Busy, "IM_F", desc="Issued GetX due to a Flush";
+ ISM_F, AccessPermission:Read_Only, "ISM_F", desc="Issued GetX, received data, waiting for all acks";
+ SM_F, AccessPermission:Read_Only, "SM_F", desc="Issued GetX, we still have an old copy of the line";
+ OM_F, AccessPermission:Read_Only, "OM_F", desc="Issued GetX, received data";
+ MM_WF, AccessPermission:Busy, "MM_WF", desc="Issued GetX, received exclusive data";
}
// EVENTS
// Requests
Other_GETX, desc="A GetX from another processor";
Other_GETS, desc="A GetS from another processor";
+ Merged_GETS, desc="A Merged GetS from another processor";
Other_GETS_No_Mig, desc="A GetS from another processor";
+ NC_DMA_GETS, desc="special GetS when only DMA exists";
+ Invalidate, desc="Invalidate block";
// Responses
Ack, desc="Received an ack message";
// Triggers
All_acks, desc="Received all required data and message acks";
All_acks_no_sharers, desc="Received all acks and no other processor has a shared copy";
+
+ // For Flush
+ Flush_line, desc="flush the cache line from all caches";
+ Block_Ack, desc="the directory is blocked and ready for the flush";
}
// TYPES
bool Dirty, desc="Is the data dirty (different than memory)?";
int NumPendingMsgs, desc="Number of acks/data messages that this processor is waiting for";
bool Sharers, desc="On a GetS, did we find any other sharers in the system";
+ bool AppliedSilentAcks, default="false", desc="for full-bit dir, does the pending msg count reflect the silent acks";
MachineID LastResponder, desc="last machine to send a response for this request";
+ MachineID CurOwner, desc="current owner of the block, used for UnblockS responses";
+
+ Cycles InitialRequestTime, default="Cycles(0)",
+ desc="time the initial requests was sent from the L1Cache";
+ Cycles ForwardRequestTime, default="Cycles(0)",
+ desc="time the dir forwarded the request";
+ Cycles FirstResponseTime, default="Cycles(0)",
+ desc="the time the first response was received";
}
- external_type(TBETable) {
+ structure(TBETable, external="yes") {
TBE lookup(Address);
void allocate(Address);
void deallocate(Address);
bool isPresent(Address);
}
- TBETable TBEs, template_hack="<L1Cache_TBE>";
+ TBETable TBEs, template="<L1Cache_TBE>", constructor="m_number_of_TBEs";
- Entry getCacheEntry(Address addr), return_by_ref="yes" {
- if (L2cacheMemory.isTagPresent(addr)) {
- return static_cast(Entry, L2cacheMemory[addr]);
- } else if (L1DcacheMemory.isTagPresent(addr)) {
- return static_cast(Entry, L1DcacheMemory[addr]);
- } else {
- return static_cast(Entry, L1IcacheMemory[addr]);
+ void set_cache_entry(AbstractCacheEntry b);
+ void unset_cache_entry();
+ void set_tbe(TBE b);
+ void unset_tbe();
+ void wakeUpAllBuffers();
+ void wakeUpBuffers(Address a);
+ Cycles curCycle();
+
+ Entry getCacheEntry(Address address), return_by_pointer="yes" {
+ Entry L2cache_entry := static_cast(Entry, "pointer", L2cache.lookup(address));
+ if(is_valid(L2cache_entry)) {
+ return L2cache_entry;
}
+
+ Entry L1Dcache_entry := static_cast(Entry, "pointer", L1Dcache.lookup(address));
+ if(is_valid(L1Dcache_entry)) {
+ return L1Dcache_entry;
+ }
+
+ Entry L1Icache_entry := static_cast(Entry, "pointer", L1Icache.lookup(address));
+ return L1Icache_entry;
}
- void changePermission(Address addr, AccessPermission permission) {
- if (L2cacheMemory.isTagPresent(addr)) {
- return L2cacheMemory.changePermission(addr, permission);
- } else if (L1DcacheMemory.isTagPresent(addr)) {
- return L1DcacheMemory.changePermission(addr, permission);
- } else {
- return L1IcacheMemory.changePermission(addr, permission);
+ DataBlock getDataBlock(Address addr), return_by_ref="yes" {
+ Entry cache_entry := getCacheEntry(addr);
+ if(is_valid(cache_entry)) {
+ return cache_entry.DataBlk;
}
+
+ TBE tbe := TBEs[addr];
+ if(is_valid(tbe)) {
+ return tbe.DataBlk;
+ }
+
+ error("Missing data block");
}
- bool isCacheTagPresent(Address addr) {
- return (L2cacheMemory.isTagPresent(addr) || L1DcacheMemory.isTagPresent(addr) || L1IcacheMemory.isTagPresent(addr));
+ Entry getL2CacheEntry(Address address), return_by_pointer="yes" {
+ Entry L2cache_entry := static_cast(Entry, "pointer", L2cache.lookup(address));
+ return L2cache_entry;
}
- State getState(Address addr) {
- assert((L1DcacheMemory.isTagPresent(addr) && L1IcacheMemory.isTagPresent(addr)) == false);
- assert((L1IcacheMemory.isTagPresent(addr) && L2cacheMemory.isTagPresent(addr)) == false);
- assert((L1DcacheMemory.isTagPresent(addr) && L2cacheMemory.isTagPresent(addr)) == false);
+ Entry getL1DCacheEntry(Address address), return_by_pointer="yes" {
+ Entry L1Dcache_entry := static_cast(Entry, "pointer", L1Dcache.lookup(address));
+ return L1Dcache_entry;
+ }
+
+ Entry getL1ICacheEntry(Address address), return_by_pointer="yes" {
+ Entry L1Icache_entry := static_cast(Entry, "pointer", L1Icache.lookup(address));
+ return L1Icache_entry;
+ }
- if(TBEs.isPresent(addr)) {
- return TBEs[addr].TBEState;
- } else if (isCacheTagPresent(addr)) {
- return getCacheEntry(addr).CacheState;
+ State getState(TBE tbe, Entry cache_entry, Address addr) {
+ if(is_valid(tbe)) {
+ return tbe.TBEState;
+ } else if (is_valid(cache_entry)) {
+ return cache_entry.CacheState;
}
return State:I;
}
- void setState(Address addr, State state) {
- assert((L1DcacheMemory.isTagPresent(addr) && L1IcacheMemory.isTagPresent(addr)) == false);
- assert((L1IcacheMemory.isTagPresent(addr) && L2cacheMemory.isTagPresent(addr)) == false);
- assert((L1DcacheMemory.isTagPresent(addr) && L2cacheMemory.isTagPresent(addr)) == false);
+ void setState(TBE tbe, Entry cache_entry, Address addr, State state) {
+ assert((L1Dcache.isTagPresent(addr) && L1Icache.isTagPresent(addr)) == false);
+ assert((L1Icache.isTagPresent(addr) && L2cache.isTagPresent(addr)) == false);
+ assert((L1Dcache.isTagPresent(addr) && L2cache.isTagPresent(addr)) == false);
- if (TBEs.isPresent(addr)) {
- TBEs[addr].TBEState := state;
+ if (is_valid(tbe)) {
+ tbe.TBEState := state;
}
- if (isCacheTagPresent(addr)) {
- getCacheEntry(addr).CacheState := state;
-
- // Set permission
- if ((state == State:MM) ||
- (state == State:MM_W)) {
- changePermission(addr, AccessPermission:Read_Write);
- } else if (state == State:S ||
- state == State:O ||
- state == State:M ||
- state == State:M_W ||
- state == State:SM ||
- state == State:ISM ||
- state == State:OM ||
- state == State:SS) {
- changePermission(addr, AccessPermission:Read_Only);
- } else {
- changePermission(addr, AccessPermission:Invalid);
- }
+ if (is_valid(cache_entry)) {
+ cache_entry.CacheState := state;
+ }
+ }
+
+ AccessPermission getAccessPermission(Address addr) {
+ TBE tbe := TBEs[addr];
+ if(is_valid(tbe)) {
+ return L1Cache_State_to_permission(tbe.TBEState);
+ }
+
+ Entry cache_entry := getCacheEntry(addr);
+ if(is_valid(cache_entry)) {
+ return L1Cache_State_to_permission(cache_entry.CacheState);
+ }
+
+ return AccessPermission:NotPresent;
+ }
+
+ void setAccessPermission(Entry cache_entry, Address addr, State state) {
+ if (is_valid(cache_entry)) {
+ cache_entry.changePermission(L1Cache_State_to_permission(state));
}
}
- Event mandatory_request_type_to_event(CacheRequestType type) {
- if (type == CacheRequestType:LD) {
+ Event mandatory_request_type_to_event(RubyRequestType type) {
+ if (type == RubyRequestType:LD) {
return Event:Load;
- } else if (type == CacheRequestType:IFETCH) {
+ } else if (type == RubyRequestType:IFETCH) {
return Event:Ifetch;
- } else if ((type == CacheRequestType:ST) || (type == CacheRequestType:ATOMIC)) {
+ } else if ((type == RubyRequestType:ST) || (type == RubyRequestType:ATOMIC)) {
return Event:Store;
+ } else if ((type == RubyRequestType:FLUSH)) {
+ return Event:Flush_line;
} else {
- error("Invalid CacheRequestType");
+ error("Invalid RubyRequestType");
}
}
- GenericMachineType getNondirectHitMachType(Address addr, MachineID sender) {
- if (machineIDToMachineType(sender) == MachineType:L1Cache) {
- //
- // NOTE direct local hits should not call this
- //
- return GenericMachineType:L1Cache_wCC;
- } else {
- return ConvertMachToGenericMach(machineIDToMachineType(sender));
+ MachineType testAndClearLocalHit(Entry cache_entry) {
+ if (is_valid(cache_entry) && cache_entry.FromL2) {
+ cache_entry.FromL2 := false;
+ return MachineType:L2Cache;
}
+ return MachineType:L1Cache;
}
- GenericMachineType testAndClearLocalHit(Address addr) {
- if (getCacheEntry(addr).FromL2) {
- getCacheEntry(addr).FromL2 := false;
- return GenericMachineType:L2Cache;
- } else {
- return GenericMachineType:L1Cache;
- }
+ bool IsAtomicAccessed(Entry cache_entry) {
+ assert(is_valid(cache_entry));
+ return cache_entry.AtomicAccessed;
}
- MessageBuffer triggerQueue, ordered="true";
+ MessageBuffer triggerQueue, ordered="false";
// ** OUT_PORTS **
// ** IN_PORTS **
// Trigger Queue
- in_port(triggerQueue_in, TriggerMsg, triggerQueue) {
+ in_port(triggerQueue_in, TriggerMsg, triggerQueue, rank=3) {
if (triggerQueue_in.isReady()) {
peek(triggerQueue_in, TriggerMsg) {
+
+ Entry cache_entry := getCacheEntry(in_msg.Addr);
+ TBE tbe := TBEs[in_msg.Addr];
+
if (in_msg.Type == TriggerType:L2_to_L1) {
- trigger(Event:Complete_L2_to_L1, in_msg.Address);
+ trigger(Event:Complete_L2_to_L1, in_msg.Addr, cache_entry, tbe);
} else if (in_msg.Type == TriggerType:ALL_ACKS) {
- trigger(Event:All_acks, in_msg.Address);
+ trigger(Event:All_acks, in_msg.Addr, cache_entry, tbe);
} else if (in_msg.Type == TriggerType:ALL_ACKS_NO_SHARERS) {
- trigger(Event:All_acks_no_sharers, in_msg.Address);
+ trigger(Event:All_acks_no_sharers, in_msg.Addr, cache_entry, tbe);
} else {
error("Unexpected message");
}
}
}
- // Nothing from the request network
+ // Nothing from the unblock network
+
+ // Response Network
+ in_port(responseToCache_in, ResponseMsg, responseToCache, rank=2) {
+ if (responseToCache_in.isReady()) {
+ peek(responseToCache_in, ResponseMsg, block_on="Addr") {
+
+ Entry cache_entry := getCacheEntry(in_msg.Addr);
+ TBE tbe := TBEs[in_msg.Addr];
+
+ if (in_msg.Type == CoherenceResponseType:ACK) {
+ trigger(Event:Ack, in_msg.Addr, cache_entry, tbe);
+ } else if (in_msg.Type == CoherenceResponseType:ACK_SHARED) {
+ trigger(Event:Shared_Ack, in_msg.Addr, cache_entry, tbe);
+ } else if (in_msg.Type == CoherenceResponseType:DATA) {
+ trigger(Event:Data, in_msg.Addr, cache_entry, tbe);
+ } else if (in_msg.Type == CoherenceResponseType:DATA_SHARED) {
+ trigger(Event:Shared_Data, in_msg.Addr, cache_entry, tbe);
+ } else if (in_msg.Type == CoherenceResponseType:DATA_EXCLUSIVE) {
+ trigger(Event:Exclusive_Data, in_msg.Addr, cache_entry, tbe);
+ } else {
+ error("Unexpected message");
+ }
+ }
+ }
+ }
// Forward Network
- in_port(forwardToCache_in, RequestMsg, forwardToCache) {
+ in_port(forwardToCache_in, RequestMsg, forwardToCache, rank=1) {
if (forwardToCache_in.isReady()) {
- peek(forwardToCache_in, RequestMsg, block_on="Address") {
- if (in_msg.Type == CoherenceRequestType:GETX) {
- trigger(Event:Other_GETX, in_msg.Address);
+ peek(forwardToCache_in, RequestMsg, block_on="Addr") {
+
+ Entry cache_entry := getCacheEntry(in_msg.Addr);
+ TBE tbe := TBEs[in_msg.Addr];
+
+ if ((in_msg.Type == CoherenceRequestType:GETX) ||
+ (in_msg.Type == CoherenceRequestType:GETF)) {
+ trigger(Event:Other_GETX, in_msg.Addr, cache_entry, tbe);
+ } else if (in_msg.Type == CoherenceRequestType:MERGED_GETS) {
+ trigger(Event:Merged_GETS, in_msg.Addr, cache_entry, tbe);
} else if (in_msg.Type == CoherenceRequestType:GETS) {
- if (isCacheTagPresent(in_msg.Address)) {
- if (getCacheEntry(in_msg.Address).AtomicAccessed && no_mig_atomic) {
- trigger(Event:Other_GETS_No_Mig, in_msg.Address);
+ if (machineCount(MachineType:L1Cache) > 1) {
+ if (is_valid(cache_entry)) {
+ if (IsAtomicAccessed(cache_entry) && no_mig_atomic) {
+ trigger(Event:Other_GETS_No_Mig, in_msg.Addr, cache_entry, tbe);
+ } else {
+ trigger(Event:Other_GETS, in_msg.Addr, cache_entry, tbe);
+ }
} else {
- trigger(Event:Other_GETS, in_msg.Address);
+ trigger(Event:Other_GETS, in_msg.Addr, cache_entry, tbe);
}
} else {
- trigger(Event:Other_GETS, in_msg.Address);
+ trigger(Event:NC_DMA_GETS, in_msg.Addr, cache_entry, tbe);
}
+ } else if (in_msg.Type == CoherenceRequestType:INV) {
+ trigger(Event:Invalidate, in_msg.Addr, cache_entry, tbe);
} else if (in_msg.Type == CoherenceRequestType:WB_ACK) {
- trigger(Event:Writeback_Ack, in_msg.Address);
+ trigger(Event:Writeback_Ack, in_msg.Addr, cache_entry, tbe);
} else if (in_msg.Type == CoherenceRequestType:WB_NACK) {
- trigger(Event:Writeback_Nack, in_msg.Address);
+ trigger(Event:Writeback_Nack, in_msg.Addr, cache_entry, tbe);
+ } else if (in_msg.Type == CoherenceRequestType:BLOCK_ACK) {
+ trigger(Event:Block_Ack, in_msg.Addr, cache_entry, tbe);
} else {
error("Unexpected message");
}
}
}
- // Response Network
- in_port(responseToCache_in, ResponseMsg, responseToCache) {
- if (responseToCache_in.isReady()) {
- peek(responseToCache_in, ResponseMsg, block_on="Address") {
- if (in_msg.Type == CoherenceResponseType:ACK) {
- trigger(Event:Ack, in_msg.Address);
- } else if (in_msg.Type == CoherenceResponseType:ACK_SHARED) {
- trigger(Event:Shared_Ack, in_msg.Address);
- } else if (in_msg.Type == CoherenceResponseType:DATA) {
- trigger(Event:Data, in_msg.Address);
- } else if (in_msg.Type == CoherenceResponseType:DATA_SHARED) {
- trigger(Event:Shared_Data, in_msg.Address);
- } else if (in_msg.Type == CoherenceResponseType:DATA_EXCLUSIVE) {
- trigger(Event:Exclusive_Data, in_msg.Address);
- } else {
- error("Unexpected message");
- }
- }
- }
- }
-
- // Nothing from the unblock network
+ // Nothing from the request network
// Mandatory Queue
- in_port(mandatoryQueue_in, CacheMsg, mandatoryQueue, desc="...") {
+ in_port(mandatoryQueue_in, RubyRequest, mandatoryQueue, desc="...", rank=0) {
if (mandatoryQueue_in.isReady()) {
- peek(mandatoryQueue_in, CacheMsg, block_on="LineAddress") {
+ peek(mandatoryQueue_in, RubyRequest, block_on="LineAddress") {
// Check for data access to blocks in I-cache and ifetchs to blocks in D-cache
+ TBE tbe := TBEs[in_msg.LineAddress];
- if (in_msg.Type == CacheRequestType:IFETCH) {
+ if (in_msg.Type == RubyRequestType:IFETCH) {
// ** INSTRUCTION ACCESS ***
- // Check to see if it is in the OTHER L1
- if (L1DcacheMemory.isTagPresent(in_msg.LineAddress)) {
- // The block is in the wrong L1, try to write it to the L2
- if (L2cacheMemory.cacheAvail(in_msg.LineAddress)) {
- trigger(Event:L1_to_L2, in_msg.LineAddress);
- } else {
- trigger(Event:L2_Replacement, L2cacheMemory.cacheProbe(in_msg.LineAddress));
+ Entry L1Icache_entry := getL1ICacheEntry(in_msg.LineAddress);
+ if (is_valid(L1Icache_entry)) {
+ // The tag matches for the L1, so the L1 fetches the line.
+ // We know it can't be in the L2 due to exclusion
+ trigger(mandatory_request_type_to_event(in_msg.Type),
+ in_msg.LineAddress, L1Icache_entry, tbe);
+ } else {
+ // Check to see if it is in the OTHER L1
+ Entry L1Dcache_entry := getL1DCacheEntry(in_msg.LineAddress);
+ if (is_valid(L1Dcache_entry)) {
+ // The block is in the wrong L1, try to write it to the L2
+ if (L2cache.cacheAvail(in_msg.LineAddress)) {
+ trigger(Event:L1_to_L2, in_msg.LineAddress, L1Dcache_entry, tbe);
+ } else {
+ Address l2_victim_addr := L2cache.cacheProbe(in_msg.LineAddress);
+ trigger(Event:L2_Replacement,
+ l2_victim_addr,
+ getL2CacheEntry(l2_victim_addr),
+ TBEs[l2_victim_addr]);
+ }
}
- }
- if (L1IcacheMemory.isTagPresent(in_msg.LineAddress)) {
- // The tag matches for the L1, so the L1 fetches the line. We know it can't be in the L2 due to exclusion
- trigger(mandatory_request_type_to_event(in_msg.Type), in_msg.LineAddress);
- } else {
- if (L1IcacheMemory.cacheAvail(in_msg.LineAddress)) {
+ if (L1Icache.cacheAvail(in_msg.LineAddress)) {
// L1 does't have the line, but we have space for it in the L1
- if (L2cacheMemory.isTagPresent(in_msg.LineAddress)) {
+
+ Entry L2cache_entry := getL2CacheEntry(in_msg.LineAddress);
+ if (is_valid(L2cache_entry)) {
// L2 has it (maybe not with the right permissions)
- trigger(Event:Trigger_L2_to_L1I, in_msg.LineAddress);
+ trigger(Event:Trigger_L2_to_L1I, in_msg.LineAddress,
+ L2cache_entry, tbe);
} else {
// We have room, the L2 doesn't have it, so the L1 fetches the line
- trigger(mandatory_request_type_to_event(in_msg.Type), in_msg.LineAddress);
+ trigger(mandatory_request_type_to_event(in_msg.Type),
+ in_msg.LineAddress, L1Icache_entry, tbe);
}
} else {
// No room in the L1, so we need to make room
- if (L2cacheMemory.cacheAvail(L1IcacheMemory.cacheProbe(in_msg.LineAddress))) {
+ Address l1i_victim_addr := L1Icache.cacheProbe(in_msg.LineAddress);
+ if (L2cache.cacheAvail(l1i_victim_addr)) {
// The L2 has room, so we move the line from the L1 to the L2
- trigger(Event:L1_to_L2, L1IcacheMemory.cacheProbe(in_msg.LineAddress));
+ trigger(Event:L1_to_L2,
+ l1i_victim_addr,
+ getL1ICacheEntry(l1i_victim_addr),
+ TBEs[l1i_victim_addr]);
} else {
+ Address l2_victim_addr := L2cache.cacheProbe(l1i_victim_addr);
// The L2 does not have room, so we replace a line from the L2
- trigger(Event:L2_Replacement, L2cacheMemory.cacheProbe(L1IcacheMemory.cacheProbe(in_msg.LineAddress)));
+ trigger(Event:L2_Replacement,
+ l2_victim_addr,
+ getL2CacheEntry(l2_victim_addr),
+ TBEs[l2_victim_addr]);
}
}
}
} else {
// *** DATA ACCESS ***
- // Check to see if it is in the OTHER L1
- if (L1IcacheMemory.isTagPresent(in_msg.LineAddress)) {
- // The block is in the wrong L1, try to write it to the L2
- if (L2cacheMemory.cacheAvail(in_msg.LineAddress)) {
- trigger(Event:L1_to_L2, in_msg.LineAddress);
- } else {
- trigger(Event:L2_Replacement, L2cacheMemory.cacheProbe(in_msg.LineAddress));
+ Entry L1Dcache_entry := getL1DCacheEntry(in_msg.LineAddress);
+ if (is_valid(L1Dcache_entry)) {
+ // The tag matches for the L1, so the L1 fetches the line.
+ // We know it can't be in the L2 due to exclusion
+ trigger(mandatory_request_type_to_event(in_msg.Type),
+ in_msg.LineAddress, L1Dcache_entry, tbe);
+ } else {
+
+ // Check to see if it is in the OTHER L1
+ Entry L1Icache_entry := getL1ICacheEntry(in_msg.LineAddress);
+ if (is_valid(L1Icache_entry)) {
+ // The block is in the wrong L1, try to write it to the L2
+ if (L2cache.cacheAvail(in_msg.LineAddress)) {
+ trigger(Event:L1_to_L2, in_msg.LineAddress, L1Icache_entry, tbe);
+ } else {
+ Address l2_victim_addr := L2cache.cacheProbe(in_msg.LineAddress);
+ trigger(Event:L2_Replacement,
+ l2_victim_addr,
+ getL2CacheEntry(l2_victim_addr),
+ TBEs[l2_victim_addr]);
+ }
}
- }
- if (L1DcacheMemory.isTagPresent(in_msg.LineAddress)) {
- // The tag matches for the L1, so the L1 fetches the line. We know it can't be in the L2 due to exclusion
- trigger(mandatory_request_type_to_event(in_msg.Type), in_msg.LineAddress);
- } else {
- if (L1DcacheMemory.cacheAvail(in_msg.LineAddress)) {
+ if (L1Dcache.cacheAvail(in_msg.LineAddress)) {
// L1 does't have the line, but we have space for it in the L1
- if (L2cacheMemory.isTagPresent(in_msg.LineAddress)) {
+ Entry L2cache_entry := getL2CacheEntry(in_msg.LineAddress);
+ if (is_valid(L2cache_entry)) {
// L2 has it (maybe not with the right permissions)
- trigger(Event:Trigger_L2_to_L1D, in_msg.LineAddress);
+ trigger(Event:Trigger_L2_to_L1D, in_msg.LineAddress,
+ L2cache_entry, tbe);
} else {
// We have room, the L2 doesn't have it, so the L1 fetches the line
- trigger(mandatory_request_type_to_event(in_msg.Type), in_msg.LineAddress);
+ trigger(mandatory_request_type_to_event(in_msg.Type),
+ in_msg.LineAddress, L1Dcache_entry, tbe);
}
} else {
// No room in the L1, so we need to make room
- if (L2cacheMemory.cacheAvail(L1DcacheMemory.cacheProbe(in_msg.LineAddress))) {
+ Address l1d_victim_addr := L1Dcache.cacheProbe(in_msg.LineAddress);
+ if (L2cache.cacheAvail(l1d_victim_addr)) {
// The L2 has room, so we move the line from the L1 to the L2
- trigger(Event:L1_to_L2, L1DcacheMemory.cacheProbe(in_msg.LineAddress));
+ trigger(Event:L1_to_L2,
+ l1d_victim_addr,
+ getL1DCacheEntry(l1d_victim_addr),
+ TBEs[l1d_victim_addr]);
} else {
+ Address l2_victim_addr := L2cache.cacheProbe(l1d_victim_addr);
// The L2 does not have room, so we replace a line from the L2
- trigger(Event:L2_Replacement, L2cacheMemory.cacheProbe(L1DcacheMemory.cacheProbe(in_msg.LineAddress)));
+ trigger(Event:L2_Replacement,
+ l2_victim_addr,
+ getL2CacheEntry(l2_victim_addr),
+ TBEs[l2_victim_addr]);
}
}
}
}
}
}
-
+
// ACTIONS
action(a_issueGETS, "a", desc="Issue GETS") {
- enqueue(requestNetwork_out, RequestMsg, latency=issue_latency) {
- out_msg.Address := address;
+ enqueue(requestNetwork_out, RequestMsg, issue_latency) {
+ assert(is_valid(tbe));
+ out_msg.Addr := address;
out_msg.Type := CoherenceRequestType:GETS;
out_msg.Requestor := machineID;
out_msg.Destination.add(map_Address_to_Directory(address));
out_msg.MessageSize := MessageSizeType:Request_Control;
- TBEs[address].NumPendingMsgs := machineCount(MachineType:L1Cache); // One from each other cache (n-1) plus the memory (+1)
+ out_msg.InitialRequestTime := curCycle();
+
+ // One from each other cache (n-1) plus the memory (+1)
+ tbe.NumPendingMsgs := machineCount(MachineType:L1Cache);
}
}
action(b_issueGETX, "b", desc="Issue GETX") {
- enqueue(requestNetwork_out, RequestMsg, latency=issue_latency) {
- out_msg.Address := address;
+ enqueue(requestNetwork_out, RequestMsg, issue_latency) {
+ assert(is_valid(tbe));
+ out_msg.Addr := address;
out_msg.Type := CoherenceRequestType:GETX;
out_msg.Requestor := machineID;
out_msg.Destination.add(map_Address_to_Directory(address));
out_msg.MessageSize := MessageSizeType:Request_Control;
- TBEs[address].NumPendingMsgs := machineCount(MachineType:L1Cache); // One from each other cache (n-1) plus the memory (+1)
+ out_msg.InitialRequestTime := curCycle();
+
+ // One from each other cache (n-1) plus the memory (+1)
+ tbe.NumPendingMsgs := machineCount(MachineType:L1Cache);
+ }
+ }
+
+ action(b_issueGETXIfMoreThanOne, "bo", desc="Issue GETX") {
+ if (machineCount(MachineType:L1Cache) > 1) {
+ enqueue(requestNetwork_out, RequestMsg, issue_latency) {
+ assert(is_valid(tbe));
+ out_msg.Addr := address;
+ out_msg.Type := CoherenceRequestType:GETX;
+ out_msg.Requestor := machineID;
+ out_msg.Destination.add(map_Address_to_Directory(address));
+ out_msg.MessageSize := MessageSizeType:Request_Control;
+ out_msg.InitialRequestTime := curCycle();
+ }
+ }
+
+ // One from each other cache (n-1) plus the memory (+1)
+ tbe.NumPendingMsgs := machineCount(MachineType:L1Cache);
+ }
+
+ action(bf_issueGETF, "bf", desc="Issue GETF") {
+ enqueue(requestNetwork_out, RequestMsg, issue_latency) {
+ assert(is_valid(tbe));
+ out_msg.Addr := address;
+ out_msg.Type := CoherenceRequestType:GETF;
+ out_msg.Requestor := machineID;
+ out_msg.Destination.add(map_Address_to_Directory(address));
+ out_msg.MessageSize := MessageSizeType:Request_Control;
+ out_msg.InitialRequestTime := curCycle();
+
+ // One from each other cache (n-1) plus the memory (+1)
+ tbe.NumPendingMsgs := machineCount(MachineType:L1Cache);
}
}
action(c_sendExclusiveData, "c", desc="Send exclusive data from cache to requestor") {
peek(forwardToCache_in, RequestMsg) {
- enqueue(responseNetwork_out, ResponseMsg, latency=cache_response_latency) {
- out_msg.Address := address;
+ enqueue(responseNetwork_out, ResponseMsg, cache_response_latency) {
+ assert(is_valid(cache_entry));
+ out_msg.Addr := address;
out_msg.Type := CoherenceResponseType:DATA_EXCLUSIVE;
out_msg.Sender := machineID;
out_msg.Destination.add(in_msg.Requestor);
- out_msg.DataBlk := getCacheEntry(address).DataBlk;
- out_msg.Dirty := getCacheEntry(address).Dirty;
- out_msg.Acks := 2;
+ out_msg.DataBlk := cache_entry.DataBlk;
+ out_msg.Dirty := cache_entry.Dirty;
+ if (in_msg.DirectedProbe) {
+ out_msg.Acks := machineCount(MachineType:L1Cache);
+ } else {
+ out_msg.Acks := 2;
+ }
+ out_msg.SilentAcks := in_msg.SilentAcks;
out_msg.MessageSize := MessageSizeType:Response_Data;
+ out_msg.InitialRequestTime := in_msg.InitialRequestTime;
+ out_msg.ForwardRequestTime := in_msg.ForwardRequestTime;
+ }
+ }
+ }
+
+ action(ct_sendExclusiveDataFromTBE, "ct", desc="Send exclusive data from tbe to requestor") {
+ peek(forwardToCache_in, RequestMsg) {
+ enqueue(responseNetwork_out, ResponseMsg, cache_response_latency) {
+ assert(is_valid(tbe));
+ out_msg.Addr := address;
+ out_msg.Type := CoherenceResponseType:DATA_EXCLUSIVE;
+ out_msg.Sender := machineID;
+ out_msg.Destination.add(in_msg.Requestor);
+ out_msg.DataBlk := tbe.DataBlk;
+ out_msg.Dirty := tbe.Dirty;
+ if (in_msg.DirectedProbe) {
+ out_msg.Acks := machineCount(MachineType:L1Cache);
+ } else {
+ out_msg.Acks := 2;
+ }
+ out_msg.SilentAcks := in_msg.SilentAcks;
+ out_msg.MessageSize := MessageSizeType:Response_Data;
+ out_msg.InitialRequestTime := in_msg.InitialRequestTime;
+ out_msg.ForwardRequestTime := in_msg.ForwardRequestTime;
}
}
}
action(d_issuePUT, "d", desc="Issue PUT") {
- enqueue(requestNetwork_out, RequestMsg, latency=issue_latency) {
- out_msg.Address := address;
+ enqueue(requestNetwork_out, RequestMsg, issue_latency) {
+ out_msg.Addr := address;
out_msg.Type := CoherenceRequestType:PUT;
out_msg.Requestor := machineID;
out_msg.Destination.add(map_Address_to_Directory(address));
}
}
+ action(df_issuePUTF, "df", desc="Issue PUTF") {
+ enqueue(requestNetwork_out, RequestMsg, issue_latency) {
+ out_msg.Addr := address;
+ out_msg.Type := CoherenceRequestType:PUTF;
+ out_msg.Requestor := machineID;
+ out_msg.Destination.add(map_Address_to_Directory(address));
+ out_msg.MessageSize := MessageSizeType:Writeback_Control;
+ }
+ }
+
action(e_sendData, "e", desc="Send data from cache to requestor") {
peek(forwardToCache_in, RequestMsg) {
- enqueue(responseNetwork_out, ResponseMsg, latency=cache_response_latency) {
- out_msg.Address := address;
+ enqueue(responseNetwork_out, ResponseMsg, cache_response_latency) {
+ assert(is_valid(cache_entry));
+ out_msg.Addr := address;
out_msg.Type := CoherenceResponseType:DATA;
out_msg.Sender := machineID;
out_msg.Destination.add(in_msg.Requestor);
- out_msg.DataBlk := getCacheEntry(address).DataBlk;
- out_msg.Dirty := getCacheEntry(address).Dirty;
- out_msg.Acks := 2;
+ out_msg.DataBlk := cache_entry.DataBlk;
+ out_msg.Dirty := cache_entry.Dirty;
+ if (in_msg.DirectedProbe) {
+ out_msg.Acks := machineCount(MachineType:L1Cache);
+ } else {
+ out_msg.Acks := 2;
+ }
+ out_msg.SilentAcks := in_msg.SilentAcks;
+ out_msg.MessageSize := MessageSizeType:Response_Data;
+ out_msg.InitialRequestTime := in_msg.InitialRequestTime;
+ out_msg.ForwardRequestTime := in_msg.ForwardRequestTime;
+ }
+ }
+ }
+
+ action(ee_sendDataShared, "\e", desc="Send data from cache to requestor, remaining the owner") {
+ peek(forwardToCache_in, RequestMsg) {
+ enqueue(responseNetwork_out, ResponseMsg, cache_response_latency) {
+ assert(is_valid(cache_entry));
+ out_msg.Addr := address;
+ out_msg.Type := CoherenceResponseType:DATA_SHARED;
+ out_msg.Sender := machineID;
+ out_msg.Destination.add(in_msg.Requestor);
+ out_msg.DataBlk := cache_entry.DataBlk;
+ out_msg.Dirty := cache_entry.Dirty;
+ DPRINTF(RubySlicc, "%s\n", out_msg.DataBlk);
+ if (in_msg.DirectedProbe) {
+ out_msg.Acks := machineCount(MachineType:L1Cache);
+ } else {
+ out_msg.Acks := 2;
+ }
+ out_msg.SilentAcks := in_msg.SilentAcks;
out_msg.MessageSize := MessageSizeType:Response_Data;
+ out_msg.InitialRequestTime := in_msg.InitialRequestTime;
+ out_msg.ForwardRequestTime := in_msg.ForwardRequestTime;
}
}
}
- action(ee_sendDataShared, "\e", desc="Send data from cache to requestor, keep a shared copy") {
+ action(et_sendDataSharedFromTBE, "\et", desc="Send data from TBE to requestor, keep a shared copy") {
peek(forwardToCache_in, RequestMsg) {
- enqueue(responseNetwork_out, ResponseMsg, latency=cache_response_latency) {
- out_msg.Address := address;
+ enqueue(responseNetwork_out, ResponseMsg, cache_response_latency) {
+ assert(is_valid(tbe));
+ out_msg.Addr := address;
out_msg.Type := CoherenceResponseType:DATA_SHARED;
out_msg.Sender := machineID;
out_msg.Destination.add(in_msg.Requestor);
- out_msg.DataBlk := getCacheEntry(address).DataBlk;
- out_msg.Dirty := getCacheEntry(address).Dirty;
- out_msg.Acks := 2;
+ out_msg.DataBlk := tbe.DataBlk;
+ out_msg.Dirty := tbe.Dirty;
+ DPRINTF(RubySlicc, "%s\n", out_msg.DataBlk);
+ if (in_msg.DirectedProbe) {
+ out_msg.Acks := machineCount(MachineType:L1Cache);
+ } else {
+ out_msg.Acks := 2;
+ }
+ out_msg.SilentAcks := in_msg.SilentAcks;
+ out_msg.MessageSize := MessageSizeType:Response_Data;
+ out_msg.InitialRequestTime := in_msg.InitialRequestTime;
+ out_msg.ForwardRequestTime := in_msg.ForwardRequestTime;
+ }
+ }
+ }
+
+ action(em_sendDataSharedMultiple, "em", desc="Send data from cache to all requestors, still the owner") {
+ peek(forwardToCache_in, RequestMsg) {
+ enqueue(responseNetwork_out, ResponseMsg, cache_response_latency) {
+ assert(is_valid(cache_entry));
+ out_msg.Addr := address;
+ out_msg.Type := CoherenceResponseType:DATA_SHARED;
+ out_msg.Sender := machineID;
+ out_msg.Destination := in_msg.MergedRequestors;
+ out_msg.DataBlk := cache_entry.DataBlk;
+ out_msg.Dirty := cache_entry.Dirty;
+ DPRINTF(RubySlicc, "%s\n", out_msg.DataBlk);
+ out_msg.Acks := machineCount(MachineType:L1Cache);
+ out_msg.SilentAcks := in_msg.SilentAcks;
+ out_msg.MessageSize := MessageSizeType:Response_Data;
+ out_msg.InitialRequestTime := in_msg.InitialRequestTime;
+ out_msg.ForwardRequestTime := in_msg.ForwardRequestTime;
+ }
+ }
+ }
+
+ action(emt_sendDataSharedMultipleFromTBE, "emt", desc="Send data from tbe to all requestors") {
+ peek(forwardToCache_in, RequestMsg) {
+ enqueue(responseNetwork_out, ResponseMsg, cache_response_latency) {
+ assert(is_valid(tbe));
+ out_msg.Addr := address;
+ out_msg.Type := CoherenceResponseType:DATA_SHARED;
+ out_msg.Sender := machineID;
+ out_msg.Destination := in_msg.MergedRequestors;
+ out_msg.DataBlk := tbe.DataBlk;
+ out_msg.Dirty := tbe.Dirty;
+ DPRINTF(RubySlicc, "%s\n", out_msg.DataBlk);
+ out_msg.Acks := machineCount(MachineType:L1Cache);
+ out_msg.SilentAcks := in_msg.SilentAcks;
out_msg.MessageSize := MessageSizeType:Response_Data;
+ out_msg.InitialRequestTime := in_msg.InitialRequestTime;
+ out_msg.ForwardRequestTime := in_msg.ForwardRequestTime;
}
}
}
-
+
action(f_sendAck, "f", desc="Send ack from cache to requestor") {
peek(forwardToCache_in, RequestMsg) {
- enqueue(responseNetwork_out, ResponseMsg, latency=cache_response_latency) {
- out_msg.Address := address;
+ enqueue(responseNetwork_out, ResponseMsg, cache_response_latency) {
+ out_msg.Addr := address;
out_msg.Type := CoherenceResponseType:ACK;
out_msg.Sender := machineID;
out_msg.Destination.add(in_msg.Requestor);
out_msg.Acks := 1;
+ out_msg.SilentAcks := in_msg.SilentAcks;
+ assert(in_msg.DirectedProbe == false);
out_msg.MessageSize := MessageSizeType:Response_Control;
+ out_msg.InitialRequestTime := in_msg.InitialRequestTime;
+ out_msg.ForwardRequestTime := in_msg.ForwardRequestTime;
}
}
}
action(ff_sendAckShared, "\f", desc="Send shared ack from cache to requestor") {
peek(forwardToCache_in, RequestMsg) {
- enqueue(responseNetwork_out, ResponseMsg, latency=cache_response_latency) {
- out_msg.Address := address;
+ enqueue(responseNetwork_out, ResponseMsg, cache_response_latency) {
+ out_msg.Addr := address;
out_msg.Type := CoherenceResponseType:ACK_SHARED;
out_msg.Sender := machineID;
out_msg.Destination.add(in_msg.Requestor);
out_msg.Acks := 1;
+ out_msg.SilentAcks := in_msg.SilentAcks;
+ assert(in_msg.DirectedProbe == false);
out_msg.MessageSize := MessageSizeType:Response_Control;
+ out_msg.InitialRequestTime := in_msg.InitialRequestTime;
+ out_msg.ForwardRequestTime := in_msg.ForwardRequestTime;
}
}
}
action(g_sendUnblock, "g", desc="Send unblock to memory") {
- enqueue(unblockNetwork_out, ResponseMsg, latency=cache_response_latency) {
- out_msg.Address := address;
+ enqueue(unblockNetwork_out, ResponseMsg, cache_response_latency) {
+ out_msg.Addr := address;
out_msg.Type := CoherenceResponseType:UNBLOCK;
out_msg.Sender := machineID;
out_msg.Destination.add(map_Address_to_Directory(address));
}
}
- action(h_load_hit, "h", desc="Notify sequencer the load completed.") {
- DEBUG_EXPR(getCacheEntry(address).DataBlk);
+ action(gm_sendUnblockM, "gm", desc="Send unblock to memory and indicate M/O/E state") {
+ enqueue(unblockNetwork_out, ResponseMsg, cache_response_latency) {
+ out_msg.Addr := address;
+ out_msg.Type := CoherenceResponseType:UNBLOCKM;
+ out_msg.Sender := machineID;
+ out_msg.Destination.add(map_Address_to_Directory(address));
+ out_msg.MessageSize := MessageSizeType:Unblock_Control;
+ }
+ }
- sequencer.readCallback(address,
- testAndClearLocalHit(address),
- getCacheEntry(address).DataBlk);
+ action(gs_sendUnblockS, "gs", desc="Send unblock to memory and indicate S state") {
+ enqueue(unblockNetwork_out, ResponseMsg, cache_response_latency) {
+ assert(is_valid(tbe));
+ out_msg.Addr := address;
+ out_msg.Type := CoherenceResponseType:UNBLOCKS;
+ out_msg.Sender := machineID;
+ out_msg.CurOwner := tbe.CurOwner;
+ out_msg.Destination.add(map_Address_to_Directory(address));
+ out_msg.MessageSize := MessageSizeType:Unblock_Control;
+ }
+ }
+ action(h_load_hit, "h", desc="Notify sequencer the load completed.") {
+ assert(is_valid(cache_entry));
+ DPRINTF(RubySlicc, "%s\n", cache_entry.DataBlk);
+ sequencer.readCallback(address, cache_entry.DataBlk, false,
+ testAndClearLocalHit(cache_entry));
}
action(hx_external_load_hit, "hx", desc="load required external msgs") {
- DEBUG_EXPR(getCacheEntry(address).DataBlk);
+ assert(is_valid(cache_entry));
+ assert(is_valid(tbe));
+ DPRINTF(RubySlicc, "%s\n", cache_entry.DataBlk);
peek(responseToCache_in, ResponseMsg) {
- sequencer.readCallback(address,
- getNondirectHitMachType(in_msg.Address, in_msg.Sender),
- getCacheEntry(address).DataBlk);
-
+ sequencer.readCallback(address, cache_entry.DataBlk, true,
+ machineIDToMachineType(in_msg.Sender), tbe.InitialRequestTime,
+ tbe.ForwardRequestTime, tbe.FirstResponseTime);
}
}
action(hh_store_hit, "\h", desc="Notify sequencer that store completed.") {
- DEBUG_EXPR(getCacheEntry(address).DataBlk);
- peek(mandatoryQueue_in, CacheMsg) {
- sequencer.writeCallback(address,
- testAndClearLocalHit(address),
- getCacheEntry(address).DataBlk);
-
- getCacheEntry(address).Dirty := true;
- if (in_msg.Type == CacheRequestType:ATOMIC) {
- getCacheEntry(address).AtomicAccessed := true;
+ assert(is_valid(cache_entry));
+ DPRINTF(RubySlicc, "%s\n", cache_entry.DataBlk);
+ peek(mandatoryQueue_in, RubyRequest) {
+ sequencer.writeCallback(address, cache_entry.DataBlk, false,
+ testAndClearLocalHit(cache_entry));
+
+ cache_entry.Dirty := true;
+ if (in_msg.Type == RubyRequestType:ATOMIC) {
+ cache_entry.AtomicAccessed := true;
}
}
}
+ action(hh_flush_hit, "\hf", desc="Notify sequencer that flush completed.") {
+ assert(is_valid(tbe));
+ DPRINTF(RubySlicc, "%s\n", tbe.DataBlk);
+ sequencer.writeCallback(address, tbe.DataBlk, false, MachineType:L1Cache);
+ }
+
action(sx_external_store_hit, "sx", desc="store required external msgs.") {
- DEBUG_EXPR(getCacheEntry(address).DataBlk);
+ assert(is_valid(cache_entry));
+ assert(is_valid(tbe));
+ DPRINTF(RubySlicc, "%s\n", cache_entry.DataBlk);
peek(responseToCache_in, ResponseMsg) {
- sequencer.writeCallback(address,
- getNondirectHitMachType(address, in_msg.Sender),
- getCacheEntry(address).DataBlk);
-
+ sequencer.writeCallback(address, cache_entry.DataBlk, true,
+ machineIDToMachineType(in_msg.Sender), tbe.InitialRequestTime,
+ tbe.ForwardRequestTime, tbe.FirstResponseTime);
}
- getCacheEntry(address).Dirty := true;
+ DPRINTF(RubySlicc, "%s\n", cache_entry.DataBlk);
+ cache_entry.Dirty := true;
}
action(sxt_trig_ext_store_hit, "sxt", desc="store required external msgs.") {
- DEBUG_EXPR(getCacheEntry(address).DataBlk);
+ assert(is_valid(cache_entry));
+ assert(is_valid(tbe));
+ DPRINTF(RubySlicc, "%s\n", cache_entry.DataBlk);
- sequencer.writeCallback(address,
- getNondirectHitMachType(address,
- TBEs[address].LastResponder),
- getCacheEntry(address).DataBlk);
+ sequencer.writeCallback(address, cache_entry.DataBlk, true,
+ machineIDToMachineType(tbe.LastResponder), tbe.InitialRequestTime,
+ tbe.ForwardRequestTime, tbe.FirstResponseTime);
- getCacheEntry(address).Dirty := true;
+ cache_entry.Dirty := true;
}
action(i_allocateTBE, "i", desc="Allocate TBE") {
+ check_allocate(TBEs);
+ assert(is_valid(cache_entry));
+ TBEs.allocate(address);
+ set_tbe(TBEs[address]);
+ tbe.DataBlk := cache_entry.DataBlk; // Data only used for writebacks
+ tbe.Dirty := cache_entry.Dirty;
+ tbe.Sharers := false;
+ }
+
+ action(it_allocateTBE, "it", desc="Allocate TBE") {
check_allocate(TBEs);
TBEs.allocate(address);
- TBEs[address].DataBlk := getCacheEntry(address).DataBlk; // Data only used for writebacks
- TBEs[address].Dirty := getCacheEntry(address).Dirty;
- TBEs[address].Sharers := false;
+ set_tbe(TBEs[address]);
+ tbe.Dirty := false;
+ tbe.Sharers := false;
}
action(j_popTriggerQueue, "j", desc="Pop trigger queue.") {
action(k_popMandatoryQueue, "k", desc="Pop mandatory queue.") {
mandatoryQueue_in.dequeue();
}
-
+
action(l_popForwardQueue, "l", desc="Pop forwareded request queue.") {
forwardToCache_in.dequeue();
}
+ action(hp_copyFromTBEToL2, "li", desc="Copy data from TBE to L2 cache entry.") {
+ assert(is_valid(cache_entry));
+ assert(is_valid(tbe));
+ cache_entry.Dirty := tbe.Dirty;
+ cache_entry.DataBlk := tbe.DataBlk;
+ }
+
+ action(nb_copyFromTBEToL1, "fu", desc="Copy data from TBE to L1 cache entry.") {
+ assert(is_valid(cache_entry));
+ assert(is_valid(tbe));
+ cache_entry.Dirty := tbe.Dirty;
+ cache_entry.DataBlk := tbe.DataBlk;
+ cache_entry.FromL2 := true;
+ }
+
action(m_decrementNumberOfMessages, "m", desc="Decrement the number of messages for which we're waiting") {
peek(responseToCache_in, ResponseMsg) {
- assert(in_msg.Acks > 0);
- DEBUG_EXPR(TBEs[address].NumPendingMsgs);
- TBEs[address].NumPendingMsgs := TBEs[address].NumPendingMsgs - in_msg.Acks;
- DEBUG_EXPR(TBEs[address].NumPendingMsgs);
- TBEs[address].LastResponder := in_msg.Sender;
+ assert(in_msg.Acks >= 0);
+ assert(is_valid(tbe));
+ DPRINTF(RubySlicc, "Sender = %s\n", in_msg.Sender);
+ DPRINTF(RubySlicc, "SilentAcks = %d\n", in_msg.SilentAcks);
+ if (tbe.AppliedSilentAcks == false) {
+ tbe.NumPendingMsgs := tbe.NumPendingMsgs - in_msg.SilentAcks;
+ tbe.AppliedSilentAcks := true;
+ }
+ DPRINTF(RubySlicc, "%d\n", tbe.NumPendingMsgs);
+ tbe.NumPendingMsgs := tbe.NumPendingMsgs - in_msg.Acks;
+ DPRINTF(RubySlicc, "%d\n", tbe.NumPendingMsgs);
+ APPEND_TRANSITION_COMMENT(tbe.NumPendingMsgs);
+ APPEND_TRANSITION_COMMENT(in_msg.Sender);
+ tbe.LastResponder := in_msg.Sender;
+ if (tbe.InitialRequestTime != zero_time() && in_msg.InitialRequestTime != zero_time()) {
+ assert(tbe.InitialRequestTime == in_msg.InitialRequestTime);
+ }
+ if (in_msg.InitialRequestTime != zero_time()) {
+ tbe.InitialRequestTime := in_msg.InitialRequestTime;
+ }
+ if (tbe.ForwardRequestTime != zero_time() && in_msg.ForwardRequestTime != zero_time()) {
+ assert(tbe.ForwardRequestTime == in_msg.ForwardRequestTime);
+ }
+ if (in_msg.ForwardRequestTime != zero_time()) {
+ tbe.ForwardRequestTime := in_msg.ForwardRequestTime;
+ }
+ if (tbe.FirstResponseTime == zero_time()) {
+ tbe.FirstResponseTime := curCycle();
+ }
+ }
+ }
+ action(uo_updateCurrentOwner, "uo", desc="When moving SS state, update current owner.") {
+ peek(responseToCache_in, ResponseMsg) {
+ assert(is_valid(tbe));
+ tbe.CurOwner := in_msg.Sender;
}
}
}
action(ll_L2toL1Transfer, "ll", desc="") {
- enqueue(triggerQueue_out, TriggerMsg, latency=l2_cache_hit_latency) {
- out_msg.Address := address;
+ enqueue(triggerQueue_out, TriggerMsg, l2_cache_hit_latency) {
+ out_msg.Addr := address;
out_msg.Type := TriggerType:L2_to_L1;
}
}
action(o_checkForCompletion, "o", desc="Check if we have received all the messages required for completion") {
- if (TBEs[address].NumPendingMsgs == 0) {
+ assert(is_valid(tbe));
+ if (tbe.NumPendingMsgs == 0) {
enqueue(triggerQueue_out, TriggerMsg) {
- out_msg.Address := address;
- if (TBEs[address].Sharers) {
+ out_msg.Addr := address;
+ if (tbe.Sharers) {
out_msg.Type := TriggerType:ALL_ACKS;
} else {
out_msg.Type := TriggerType:ALL_ACKS_NO_SHARERS;
}
action(p_decrementNumberOfMessagesByOne, "p", desc="Decrement the number of messages for which we're waiting by one") {
- TBEs[address].NumPendingMsgs := TBEs[address].NumPendingMsgs - 1;
+ assert(is_valid(tbe));
+ tbe.NumPendingMsgs := tbe.NumPendingMsgs - 1;
}
action(pp_incrementNumberOfMessagesByOne, "\p", desc="Increment the number of messages for which we're waiting by one") {
- TBEs[address].NumPendingMsgs := TBEs[address].NumPendingMsgs + 1;
+ assert(is_valid(tbe));
+ tbe.NumPendingMsgs := tbe.NumPendingMsgs + 1;
}
action(q_sendDataFromTBEToCache, "q", desc="Send data from TBE to cache") {
peek(forwardToCache_in, RequestMsg) {
- enqueue(responseNetwork_out, ResponseMsg, latency=cache_response_latency) {
- out_msg.Address := address;
+ assert(in_msg.Requestor != machineID);
+ enqueue(responseNetwork_out, ResponseMsg, cache_response_latency) {
+ assert(is_valid(tbe));
+ out_msg.Addr := address;
out_msg.Type := CoherenceResponseType:DATA;
out_msg.Sender := machineID;
out_msg.Destination.add(in_msg.Requestor);
- out_msg.DataBlk := TBEs[address].DataBlk;
- out_msg.Dirty := TBEs[address].Dirty;
- out_msg.Acks := 2;
+ DPRINTF(RubySlicc, "%s\n", out_msg.Destination);
+ out_msg.DataBlk := tbe.DataBlk;
+ out_msg.Dirty := tbe.Dirty;
+ if (in_msg.DirectedProbe) {
+ out_msg.Acks := machineCount(MachineType:L1Cache);
+ } else {
+ out_msg.Acks := 2;
+ }
+ out_msg.SilentAcks := in_msg.SilentAcks;
+ out_msg.MessageSize := MessageSizeType:Response_Data;
+ out_msg.InitialRequestTime := in_msg.InitialRequestTime;
+ out_msg.ForwardRequestTime := in_msg.ForwardRequestTime;
+ }
+ }
+ }
+
+ action(sq_sendSharedDataFromTBEToCache, "sq", desc="Send shared data from TBE to cache, still the owner") {
+ peek(forwardToCache_in, RequestMsg) {
+ assert(in_msg.Requestor != machineID);
+ enqueue(responseNetwork_out, ResponseMsg, cache_response_latency) {
+ assert(is_valid(tbe));
+ out_msg.Addr := address;
+ out_msg.Type := CoherenceResponseType:DATA_SHARED;
+ out_msg.Sender := machineID;
+ out_msg.Destination.add(in_msg.Requestor);
+ DPRINTF(RubySlicc, "%s\n", out_msg.Destination);
+ out_msg.DataBlk := tbe.DataBlk;
+ out_msg.Dirty := tbe.Dirty;
+ if (in_msg.DirectedProbe) {
+ out_msg.Acks := machineCount(MachineType:L1Cache);
+ } else {
+ out_msg.Acks := 2;
+ }
+ out_msg.SilentAcks := in_msg.SilentAcks;
+ out_msg.MessageSize := MessageSizeType:Response_Data;
+ out_msg.InitialRequestTime := in_msg.InitialRequestTime;
+ out_msg.ForwardRequestTime := in_msg.ForwardRequestTime;
+ }
+ }
+ }
+
+ action(qm_sendDataFromTBEToCache, "qm", desc="Send data from TBE to cache, multiple sharers, still the owner") {
+ peek(forwardToCache_in, RequestMsg) {
+ enqueue(responseNetwork_out, ResponseMsg, cache_response_latency) {
+ assert(is_valid(tbe));
+ out_msg.Addr := address;
+ out_msg.Type := CoherenceResponseType:DATA_SHARED;
+ out_msg.Sender := machineID;
+ out_msg.Destination := in_msg.MergedRequestors;
+ DPRINTF(RubySlicc, "%s\n", out_msg.Destination);
+ out_msg.DataBlk := tbe.DataBlk;
+ out_msg.Dirty := tbe.Dirty;
+ out_msg.Acks := machineCount(MachineType:L1Cache);
+ out_msg.SilentAcks := in_msg.SilentAcks;
out_msg.MessageSize := MessageSizeType:Response_Data;
+ out_msg.InitialRequestTime := in_msg.InitialRequestTime;
+ out_msg.ForwardRequestTime := in_msg.ForwardRequestTime;
}
}
}
action(qq_sendDataFromTBEToMemory, "\q", desc="Send data from TBE to memory") {
- enqueue(unblockNetwork_out, ResponseMsg, latency=cache_response_latency) {
- out_msg.Address := address;
+ enqueue(unblockNetwork_out, ResponseMsg, cache_response_latency) {
+ assert(is_valid(tbe));
+ out_msg.Addr := address;
out_msg.Sender := machineID;
out_msg.Destination.add(map_Address_to_Directory(address));
- out_msg.Dirty := TBEs[address].Dirty;
- if (TBEs[address].Dirty) {
+ out_msg.Dirty := tbe.Dirty;
+ if (tbe.Dirty) {
out_msg.Type := CoherenceResponseType:WB_DIRTY;
- out_msg.DataBlk := TBEs[address].DataBlk;
+ out_msg.DataBlk := tbe.DataBlk;
out_msg.MessageSize := MessageSizeType:Writeback_Data;
} else {
out_msg.Type := CoherenceResponseType:WB_CLEAN;
// NOTE: in a real system this would not send data. We send
// data here only so we can check it at the memory
- out_msg.DataBlk := TBEs[address].DataBlk;
+ out_msg.DataBlk := tbe.DataBlk;
out_msg.MessageSize := MessageSizeType:Writeback_Control;
}
}
}
action(r_setSharerBit, "r", desc="We saw other sharers") {
- TBEs[address].Sharers := true;
+ assert(is_valid(tbe));
+ tbe.Sharers := true;
}
action(s_deallocateTBE, "s", desc="Deallocate TBE") {
TBEs.deallocate(address);
+ unset_tbe();
}
action(t_sendExclusiveDataFromTBEToMemory, "t", desc="Send exclusive data from TBE to memory") {
- enqueue(unblockNetwork_out, ResponseMsg, latency=cache_response_latency) {
- out_msg.Address := address;
+ enqueue(unblockNetwork_out, ResponseMsg, cache_response_latency) {
+ assert(is_valid(tbe));
+ out_msg.Addr := address;
out_msg.Sender := machineID;
out_msg.Destination.add(map_Address_to_Directory(address));
- out_msg.DataBlk := TBEs[address].DataBlk;
- out_msg.Dirty := TBEs[address].Dirty;
- if (TBEs[address].Dirty) {
+ out_msg.DataBlk := tbe.DataBlk;
+ out_msg.Dirty := tbe.Dirty;
+ if (tbe.Dirty) {
out_msg.Type := CoherenceResponseType:WB_EXCLUSIVE_DIRTY;
- out_msg.DataBlk := TBEs[address].DataBlk;
+ out_msg.DataBlk := tbe.DataBlk;
out_msg.MessageSize := MessageSizeType:Writeback_Data;
} else {
out_msg.Type := CoherenceResponseType:WB_EXCLUSIVE_CLEAN;
// NOTE: in a real system this would not send data. We send
// data here only so we can check it at the memory
- out_msg.DataBlk := TBEs[address].DataBlk;
+ out_msg.DataBlk := tbe.DataBlk;
out_msg.MessageSize := MessageSizeType:Writeback_Control;
}
}
action(u_writeDataToCache, "u", desc="Write data to cache") {
peek(responseToCache_in, ResponseMsg) {
- getCacheEntry(address).DataBlk := in_msg.DataBlk;
- getCacheEntry(address).Dirty := in_msg.Dirty;
+ assert(is_valid(cache_entry));
+ cache_entry.DataBlk := in_msg.DataBlk;
+ cache_entry.Dirty := in_msg.Dirty;
+ }
+ }
+
+ action(uf_writeDataToCacheTBE, "uf", desc="Write data to TBE") {
+ peek(responseToCache_in, ResponseMsg) {
+ assert(is_valid(tbe));
+ tbe.DataBlk := in_msg.DataBlk;
+ tbe.Dirty := in_msg.Dirty;
}
}
action(v_writeDataToCacheVerify, "v", desc="Write data to cache, assert it was same as before") {
peek(responseToCache_in, ResponseMsg) {
- assert(getCacheEntry(address).DataBlk == in_msg.DataBlk);
- getCacheEntry(address).DataBlk := in_msg.DataBlk;
- getCacheEntry(address).Dirty := in_msg.Dirty;
+ assert(is_valid(cache_entry));
+ DPRINTF(RubySlicc, "Cached Data Block: %s, Msg Data Block: %s\n",
+ cache_entry.DataBlk, in_msg.DataBlk);
+ assert(cache_entry.DataBlk == in_msg.DataBlk);
+ cache_entry.DataBlk := in_msg.DataBlk;
+ cache_entry.Dirty := in_msg.Dirty || cache_entry.Dirty;
}
}
-
+
+ action(vt_writeDataToTBEVerify, "vt", desc="Write data to TBE, assert it was same as before") {
+ peek(responseToCache_in, ResponseMsg) {
+ assert(is_valid(tbe));
+ DPRINTF(RubySlicc, "Cached Data Block: %s, Msg Data Block: %s\n",
+ tbe.DataBlk, in_msg.DataBlk);
+ assert(tbe.DataBlk == in_msg.DataBlk);
+ tbe.DataBlk := in_msg.DataBlk;
+ tbe.Dirty := in_msg.Dirty || tbe.Dirty;
+ }
+ }
+
action(gg_deallocateL1CacheBlock, "\g", desc="Deallocate cache block. Sets the cache to invalid, allowing a replacement in parallel with a fetch.") {
- if (L1DcacheMemory.isTagPresent(address)) {
- L1DcacheMemory.deallocate(address);
+ if (L1Dcache.isTagPresent(address)) {
+ L1Dcache.deallocate(address);
} else {
- L1IcacheMemory.deallocate(address);
+ L1Icache.deallocate(address);
}
+ unset_cache_entry();
}
-
+
action(ii_allocateL1DCacheBlock, "\i", desc="Set L1 D-cache tag equal to tag of block B.") {
- if (L1DcacheMemory.isTagPresent(address) == false) {
- L1DcacheMemory.allocate(address, new Entry);
+ if (is_invalid(cache_entry)) {
+ set_cache_entry(L1Dcache.allocate(address, new Entry));
}
}
action(jj_allocateL1ICacheBlock, "\j", desc="Set L1 I-cache tag equal to tag of block B.") {
- if (L1IcacheMemory.isTagPresent(address) == false) {
- L1IcacheMemory.allocate(address, new Entry);
+ if (is_invalid(cache_entry)) {
+ set_cache_entry(L1Icache.allocate(address, new Entry));
}
}
action(vv_allocateL2CacheBlock, "\v", desc="Set L2 cache tag equal to tag of block B.") {
- L2cacheMemory.allocate(address, new Entry);
+ set_cache_entry(L2cache.allocate(address, new Entry));
}
action(rr_deallocateL2CacheBlock, "\r", desc="Deallocate L2 cache block. Sets the cache to not present, allowing a replacement in parallel with a fetch.") {
- L2cacheMemory.deallocate(address);
+ L2cache.deallocate(address);
+ unset_cache_entry();
}
- action(ss_copyFromL1toL2, "\s", desc="Copy data block from L1 (I or D) to L2") {
- if (L1DcacheMemory.isTagPresent(address)) {
- static_cast(Entry, L2cacheMemory[address]).Dirty := static_cast(Entry, L1DcacheMemory[address]).Dirty;
- static_cast(Entry, L2cacheMemory[address]).DataBlk := static_cast(Entry, L1DcacheMemory[address]).DataBlk;
- } else {
- static_cast(Entry, L2cacheMemory[address]).Dirty := static_cast(Entry, L1IcacheMemory[address]).Dirty;
- static_cast(Entry, L2cacheMemory[address]).DataBlk := static_cast(Entry, L1IcacheMemory[address]).DataBlk;
+ action(forward_eviction_to_cpu, "\cc", desc="sends eviction information to the processor") {
+ if (send_evictions) {
+ DPRINTF(RubySlicc, "Sending invalidation for %s to the CPU\n", address);
+ sequencer.evictionCallback(address);
}
}
-
- action(tt_copyFromL2toL1, "\t", desc="Copy data block from L2 to L1 (I or D)") {
- if (L1DcacheMemory.isTagPresent(address)) {
- static_cast(Entry, L1DcacheMemory[address]).Dirty := static_cast(Entry, L2cacheMemory[address]).Dirty;
- static_cast(Entry, L1DcacheMemory[address]).DataBlk := static_cast(Entry, L2cacheMemory[address]).DataBlk;
- static_cast(Entry, L1DcacheMemory[address]).FromL2 := true;
- } else {
- static_cast(Entry, L1IcacheMemory[address]).Dirty := static_cast(Entry, L2cacheMemory[address]).Dirty;
- static_cast(Entry, L1IcacheMemory[address]).DataBlk := static_cast(Entry, L2cacheMemory[address]).DataBlk;
- static_cast(Entry, L1IcacheMemory[address]).FromL2 := true;
- }
+
+ action(uu_profileL1DataMiss, "\udm", desc="Profile the demand miss") {
+ ++L1Dcache.demand_misses;
}
- action(uu_profileMiss, "\u", desc="Profile the demand miss") {
- peek(mandatoryQueue_in, CacheMsg) {
- if (L1IcacheMemory.isTagPresent(address)) {
- L1IcacheMemory.profileMiss(in_msg);
- } else if (L1DcacheMemory.isTagPresent(address)) {
- L1DcacheMemory.profileMiss(in_msg);
- }
- if (L2cacheMemory.isTagPresent(address) == false) {
- L2cacheMemory.profileMiss(in_msg);
- }
- }
+ action(uu_profileL1DataHit, "\udh", desc="Profile the demand hits") {
+ ++L1Dcache.demand_hits;
+ }
+
+ action(uu_profileL1InstMiss, "\uim", desc="Profile the demand miss") {
+ ++L1Icache.demand_misses;
+ }
+
+ action(uu_profileL1InstHit, "\uih", desc="Profile the demand hits") {
+ ++L1Icache.demand_hits;
+ }
+
+ action(uu_profileL2Miss, "\um", desc="Profile the demand miss") {
+ ++L2cache.demand_misses;
+ }
+
+ action(uu_profileL2Hit, "\uh", desc="Profile the demand hits ") {
+ ++L2cache.demand_hits;
}
- action(zz_recycleMandatoryQueue, "\z", desc="Send the head of the mandatory queue to the back of the queue.") {
- mandatoryQueue_in.recycle();
+ action(zz_stallAndWaitMandatoryQueue, "\z", desc="Send the head of the mandatory queue to the back of the queue.") {
+ stall_and_wait(mandatoryQueue_in, address);
+ }
+
+ action(z_stall, "z", desc="stall") {
+ // do nothing and the special z_stall action will return a protocol stall
+ // so that the next port is checked
+ }
+
+ action(kd_wakeUpDependents, "kd", desc="wake-up dependents") {
+ wakeUpBuffers(address);
+ }
+
+ action(ka_wakeUpAllDependents, "ka", desc="wake-up all dependents") {
+ wakeUpAllBuffers();
}
//*****************************************************
//*****************************************************
// Transitions for Load/Store/L2_Replacement from transient states
- transition({IM, SM, ISM, OM, IS, SS, OI, MI, II, IT, ST, OT, MT, MMT}, {Store, L2_Replacement}) {
- zz_recycleMandatoryQueue;
+ transition({IM, IM_F, MM_WF, SM, SM_F, ISM, ISM_F, OM, OM_F, IS, SS, OI, MI, II, IT, ST, OT, MT, MMT}, {Store, L2_Replacement}) {
+ zz_stallAndWaitMandatoryQueue;
+ }
+
+ transition({IM, IM_F, MM_WF, SM, SM_F, ISM, ISM_F, OM, OM_F, IS, SS, OI, MI, II}, {Flush_line}) {
+ zz_stallAndWaitMandatoryQueue;
}
- transition({M_W, MM_W}, {L2_Replacement}) {
- zz_recycleMandatoryQueue;
+ transition({M_W, MM_W}, {L2_Replacement, Flush_line}) {
+ zz_stallAndWaitMandatoryQueue;
}
- transition({IM, IS, OI, MI, II, IT, ST, OT, MT, MMT}, {Load, Ifetch}) {
- zz_recycleMandatoryQueue;
+ transition({IM, IS, OI, MI, II, IT, ST, OT, MT, MMT, MI_F, MM_F, OM_F, IM_F, ISM_F, SM_F, MM_WF}, {Load, Ifetch}) {
+ zz_stallAndWaitMandatoryQueue;
}
- transition({IM, SM, ISM, OM, IS, SS, MM_W, M_W, OI, MI, II, IT, ST, OT, MT, MMT}, L1_to_L2) {
- zz_recycleMandatoryQueue;
+ transition({IM, SM, ISM, OM, IS, SS, MM_W, M_W, OI, MI, II, IT, ST, OT, MT, MMT, IM_F, SM_F, ISM_F, OM_F, MM_WF, MI_F, MM_F, IR, SR, OR, MR, MMR}, L1_to_L2) {
+ zz_stallAndWaitMandatoryQueue;
}
- transition({IT, ST, OT, MT, MMT}, {Other_GETX, Other_GETS, Other_GETS_No_Mig}) {
- // stall
+ transition({MI_F, MM_F}, {Store}) {
+ zz_stallAndWaitMandatoryQueue;
+ }
+
+ transition({MM_F, MI_F}, {Flush_line}) {
+ zz_stallAndWaitMandatoryQueue;
+ }
+
+ transition({IT, ST, OT, MT, MMT}, {Other_GETX, NC_DMA_GETS, Other_GETS, Merged_GETS, Other_GETS_No_Mig, Invalidate, Flush_line}) {
+ z_stall;
+ }
+
+ transition({IR, SR, OR, MR, MMR}, {Other_GETX, NC_DMA_GETS, Other_GETS, Merged_GETS, Other_GETS_No_Mig, Invalidate}) {
+ z_stall;
}
// Transitions moving data between the L1 and L2 caches
transition({I, S, O, M, MM}, L1_to_L2) {
- vv_allocateL2CacheBlock;
- ss_copyFromL1toL2; // Not really needed for state I
+ i_allocateTBE;
gg_deallocateL1CacheBlock;
+ vv_allocateL2CacheBlock;
+ hp_copyFromTBEToL2;
+ s_deallocateTBE;
}
-
+
transition(I, Trigger_L2_to_L1D, IT) {
- ii_allocateL1DCacheBlock;
- tt_copyFromL2toL1; // Not really needed for state I
- uu_profileMiss;
+ i_allocateTBE;
rr_deallocateL2CacheBlock;
- zz_recycleMandatoryQueue;
+ ii_allocateL1DCacheBlock;
+ nb_copyFromTBEToL1; // Not really needed for state I
+ s_deallocateTBE;
+ zz_stallAndWaitMandatoryQueue;
ll_L2toL1Transfer;
}
transition(S, Trigger_L2_to_L1D, ST) {
- ii_allocateL1DCacheBlock;
- tt_copyFromL2toL1;
- uu_profileMiss;
+ i_allocateTBE;
rr_deallocateL2CacheBlock;
- zz_recycleMandatoryQueue;
+ ii_allocateL1DCacheBlock;
+ nb_copyFromTBEToL1;
+ s_deallocateTBE;
+ zz_stallAndWaitMandatoryQueue;
ll_L2toL1Transfer;
}
transition(O, Trigger_L2_to_L1D, OT) {
- ii_allocateL1DCacheBlock;
- tt_copyFromL2toL1;
- uu_profileMiss;
+ i_allocateTBE;
rr_deallocateL2CacheBlock;
- zz_recycleMandatoryQueue;
+ ii_allocateL1DCacheBlock;
+ nb_copyFromTBEToL1;
+ s_deallocateTBE;
+ zz_stallAndWaitMandatoryQueue;
ll_L2toL1Transfer;
}
transition(M, Trigger_L2_to_L1D, MT) {
- ii_allocateL1DCacheBlock;
- tt_copyFromL2toL1;
- uu_profileMiss;
+ i_allocateTBE;
rr_deallocateL2CacheBlock;
- zz_recycleMandatoryQueue;
+ ii_allocateL1DCacheBlock;
+ nb_copyFromTBEToL1;
+ s_deallocateTBE;
+ zz_stallAndWaitMandatoryQueue;
ll_L2toL1Transfer;
}
transition(MM, Trigger_L2_to_L1D, MMT) {
- ii_allocateL1DCacheBlock;
- tt_copyFromL2toL1;
- uu_profileMiss;
+ i_allocateTBE;
rr_deallocateL2CacheBlock;
- zz_recycleMandatoryQueue;
+ ii_allocateL1DCacheBlock;
+ nb_copyFromTBEToL1;
+ s_deallocateTBE;
+ zz_stallAndWaitMandatoryQueue;
ll_L2toL1Transfer;
}
transition(I, Trigger_L2_to_L1I, IT) {
- jj_allocateL1ICacheBlock;
- tt_copyFromL2toL1; // Not really needed for state I
- uu_profileMiss;
+ i_allocateTBE;
rr_deallocateL2CacheBlock;
- zz_recycleMandatoryQueue;
+ jj_allocateL1ICacheBlock;
+ nb_copyFromTBEToL1;
+ s_deallocateTBE;
+ zz_stallAndWaitMandatoryQueue;
ll_L2toL1Transfer;
}
transition(S, Trigger_L2_to_L1I, ST) {
- jj_allocateL1ICacheBlock;
- tt_copyFromL2toL1;
- uu_profileMiss;
+ i_allocateTBE;
rr_deallocateL2CacheBlock;
- zz_recycleMandatoryQueue;
+ jj_allocateL1ICacheBlock;
+ nb_copyFromTBEToL1;
+ s_deallocateTBE;
+ zz_stallAndWaitMandatoryQueue;
ll_L2toL1Transfer;
}
transition(O, Trigger_L2_to_L1I, OT) {
- jj_allocateL1ICacheBlock;
- tt_copyFromL2toL1;
- uu_profileMiss;
+ i_allocateTBE;
rr_deallocateL2CacheBlock;
- zz_recycleMandatoryQueue;
+ jj_allocateL1ICacheBlock;
+ nb_copyFromTBEToL1;
+ s_deallocateTBE;
+ zz_stallAndWaitMandatoryQueue;
ll_L2toL1Transfer;
}
transition(M, Trigger_L2_to_L1I, MT) {
- jj_allocateL1ICacheBlock;
- tt_copyFromL2toL1;
- uu_profileMiss;
+ i_allocateTBE;
rr_deallocateL2CacheBlock;
- zz_recycleMandatoryQueue;
+ jj_allocateL1ICacheBlock;
+ nb_copyFromTBEToL1;
+ s_deallocateTBE;
+ zz_stallAndWaitMandatoryQueue;
ll_L2toL1Transfer;
}
transition(MM, Trigger_L2_to_L1I, MMT) {
- jj_allocateL1ICacheBlock;
- tt_copyFromL2toL1;
- uu_profileMiss;
+ i_allocateTBE;
rr_deallocateL2CacheBlock;
- zz_recycleMandatoryQueue;
+ jj_allocateL1ICacheBlock;
+ nb_copyFromTBEToL1;
+ s_deallocateTBE;
+ zz_stallAndWaitMandatoryQueue;
ll_L2toL1Transfer;
}
- transition(IT, Complete_L2_to_L1, I) {
+ transition(IT, Complete_L2_to_L1, IR) {
j_popTriggerQueue;
+ kd_wakeUpDependents;
}
- transition(ST, Complete_L2_to_L1, S) {
+ transition(ST, Complete_L2_to_L1, SR) {
j_popTriggerQueue;
+ kd_wakeUpDependents;
}
- transition(OT, Complete_L2_to_L1, O) {
+ transition(OT, Complete_L2_to_L1, OR) {
j_popTriggerQueue;
+ kd_wakeUpDependents;
}
- transition(MT, Complete_L2_to_L1, M) {
+ transition(MT, Complete_L2_to_L1, MR) {
j_popTriggerQueue;
+ kd_wakeUpDependents;
}
- transition(MMT, Complete_L2_to_L1, MM) {
+ transition(MMT, Complete_L2_to_L1, MMR) {
j_popTriggerQueue;
+ kd_wakeUpDependents;
}
// Transitions from Idle
- transition(I, Load, IS) {
+ transition({I,IR}, Load, IS) {
ii_allocateL1DCacheBlock;
i_allocateTBE;
a_issueGETS;
- uu_profileMiss;
+ uu_profileL1DataMiss;
+ uu_profileL2Miss;
k_popMandatoryQueue;
}
- transition(I, Ifetch, IS) {
+ transition({I,IR}, Ifetch, IS) {
jj_allocateL1ICacheBlock;
i_allocateTBE;
a_issueGETS;
- uu_profileMiss;
+ uu_profileL1InstMiss;
+ uu_profileL2Miss;
k_popMandatoryQueue;
}
- transition(I, Store, IM) {
+ transition({I,IR}, Store, IM) {
ii_allocateL1DCacheBlock;
i_allocateTBE;
b_issueGETX;
- uu_profileMiss;
+ uu_profileL1DataMiss;
+ uu_profileL2Miss;
+ k_popMandatoryQueue;
+ }
+
+ transition({I, IR}, Flush_line, IM_F) {
+ it_allocateTBE;
+ bf_issueGETF;
k_popMandatoryQueue;
}
transition(I, L2_Replacement) {
rr_deallocateL2CacheBlock;
+ ka_wakeUpAllDependents;
}
- transition(I, {Other_GETX, Other_GETS, Other_GETS_No_Mig}) {
+ transition(I, {Other_GETX, NC_DMA_GETS, Other_GETS, Other_GETS_No_Mig, Invalidate}) {
f_sendAck;
l_popForwardQueue;
}
// Transitions from Shared
- transition({S, SM, ISM}, {Load, Ifetch}) {
+ transition({S, SM, ISM}, Load) {
+ h_load_hit;
+ uu_profileL1DataHit;
+ k_popMandatoryQueue;
+ }
+
+ transition({S, SM, ISM}, Ifetch) {
+ h_load_hit;
+ uu_profileL1InstHit;
+ k_popMandatoryQueue;
+ }
+
+ transition(SR, Load, S) {
+ h_load_hit;
+ uu_profileL1DataMiss;
+ uu_profileL2Hit;
+ k_popMandatoryQueue;
+ ka_wakeUpAllDependents;
+ }
+
+ transition(SR, Ifetch, S) {
h_load_hit;
+ uu_profileL1InstMiss;
+ uu_profileL2Hit;
k_popMandatoryQueue;
+ ka_wakeUpAllDependents;
}
- transition(S, Store, SM) {
+ transition({S,SR}, Store, SM) {
i_allocateTBE;
b_issueGETX;
- uu_profileMiss;
+ uu_profileL1DataMiss;
+ uu_profileL2Miss;
+ k_popMandatoryQueue;
+ }
+
+ transition({S, SR}, Flush_line, SM_F) {
+ i_allocateTBE;
+ bf_issueGETF;
+ forward_eviction_to_cpu;
+ gg_deallocateL1CacheBlock;
k_popMandatoryQueue;
}
transition(S, L2_Replacement, I) {
+ forward_eviction_to_cpu;
rr_deallocateL2CacheBlock;
+ ka_wakeUpAllDependents;
}
- transition(S, Other_GETX, I) {
+ transition(S, {Other_GETX, Invalidate}, I) {
f_sendAck;
+ forward_eviction_to_cpu;
l_popForwardQueue;
}
- transition(S, {Other_GETS, Other_GETS_No_Mig}) {
+ transition(S, {NC_DMA_GETS, Other_GETS, Other_GETS_No_Mig}) {
ff_sendAckShared;
l_popForwardQueue;
}
// Transitions from Owned
- transition({O, OM, SS, MM_W, M_W}, {Load, Ifetch}) {
+ transition({O, OM, SS, MM_W, M_W}, {Load}) {
+ h_load_hit;
+ uu_profileL1DataHit;
+ k_popMandatoryQueue;
+ }
+
+ transition({O, OM, SS, MM_W, M_W}, {Ifetch}) {
+ h_load_hit;
+ uu_profileL1InstHit;
+ k_popMandatoryQueue;
+ }
+
+ transition(OR, Load, O) {
h_load_hit;
+ uu_profileL1DataMiss;
+ uu_profileL2Hit;
k_popMandatoryQueue;
+ ka_wakeUpAllDependents;
}
- transition(O, Store, OM) {
+ transition(OR, Ifetch, O) {
+ h_load_hit;
+ uu_profileL1InstMiss;
+ uu_profileL2Hit;
+ k_popMandatoryQueue;
+ ka_wakeUpAllDependents;
+ }
+
+ transition({O,OR}, Store, OM) {
i_allocateTBE;
b_issueGETX;
p_decrementNumberOfMessagesByOne;
- uu_profileMiss;
+ uu_profileL1DataMiss;
+ uu_profileL2Miss;
+ k_popMandatoryQueue;
+ }
+
+ transition({O, OR}, Flush_line, OM_F) {
+ i_allocateTBE;
+ bf_issueGETF;
+ p_decrementNumberOfMessagesByOne;
+ forward_eviction_to_cpu;
+ gg_deallocateL1CacheBlock;
k_popMandatoryQueue;
}
transition(O, L2_Replacement, OI) {
i_allocateTBE;
d_issuePUT;
+ forward_eviction_to_cpu;
rr_deallocateL2CacheBlock;
+ ka_wakeUpAllDependents;
}
- transition(O, Other_GETX, I) {
+ transition(O, {Other_GETX, Invalidate}, I) {
e_sendData;
+ forward_eviction_to_cpu;
l_popForwardQueue;
}
- transition(O, {Other_GETS, Other_GETS_No_Mig}) {
+ transition(O, {NC_DMA_GETS, Other_GETS, Other_GETS_No_Mig}) {
ee_sendDataShared;
l_popForwardQueue;
}
+ transition(O, Merged_GETS) {
+ em_sendDataSharedMultiple;
+ l_popForwardQueue;
+ }
+
// Transitions from Modified
- transition(MM, {Load, Ifetch}) {
+ transition({MM, M}, {Ifetch}) {
h_load_hit;
+ uu_profileL1InstHit;
+ k_popMandatoryQueue;
+ }
+
+ transition({MM, M}, {Load}) {
+ h_load_hit;
+ uu_profileL1DataHit;
k_popMandatoryQueue;
}
transition(MM, Store) {
hh_store_hit;
+ uu_profileL1DataHit;
k_popMandatoryQueue;
}
+ transition(MMR, Load, MM) {
+ h_load_hit;
+ uu_profileL1DataMiss;
+ uu_profileL2Hit;
+ k_popMandatoryQueue;
+ ka_wakeUpAllDependents;
+ }
+
+ transition(MMR, Ifetch, MM) {
+ h_load_hit;
+ uu_profileL1InstMiss;
+ uu_profileL2Hit;
+ k_popMandatoryQueue;
+ ka_wakeUpAllDependents;
+ }
+
+ transition(MMR, Store, MM) {
+ hh_store_hit;
+ uu_profileL1DataMiss;
+ uu_profileL2Hit;
+ k_popMandatoryQueue;
+ ka_wakeUpAllDependents;
+ }
+
+ transition({MM, M, MMR, MR}, Flush_line, MM_F) {
+ i_allocateTBE;
+ bf_issueGETF;
+ p_decrementNumberOfMessagesByOne;
+ forward_eviction_to_cpu;
+ gg_deallocateL1CacheBlock;
+ k_popMandatoryQueue;
+ }
+
+ transition(MM_F, Block_Ack, MI_F) {
+ df_issuePUTF;
+ l_popForwardQueue;
+ kd_wakeUpDependents;
+ }
+
transition(MM, L2_Replacement, MI) {
i_allocateTBE;
d_issuePUT;
+ forward_eviction_to_cpu;
rr_deallocateL2CacheBlock;
+ ka_wakeUpAllDependents;
}
- transition(MM, Other_GETX, I) {
+ transition(MM, {Other_GETX, Invalidate}, I) {
c_sendExclusiveData;
+ forward_eviction_to_cpu;
l_popForwardQueue;
}
transition(MM, Other_GETS, I) {
c_sendExclusiveData;
+ forward_eviction_to_cpu;
+ l_popForwardQueue;
+ }
+
+ transition(MM, NC_DMA_GETS, O) {
+ ee_sendDataShared;
l_popForwardQueue;
}
-
+
transition(MM, Other_GETS_No_Mig, O) {
ee_sendDataShared;
l_popForwardQueue;
}
-
+
+ transition(MM, Merged_GETS, O) {
+ em_sendDataSharedMultiple;
+ l_popForwardQueue;
+ }
+
// Transitions from Dirty Exclusive
- transition(M, {Load, Ifetch}) {
+ transition(M, Store, MM) {
+ hh_store_hit;
+ uu_profileL1DataHit;
+ k_popMandatoryQueue;
+ }
+
+ transition(MR, Load, M) {
h_load_hit;
+ uu_profileL1DataMiss;
+ uu_profileL2Hit;
k_popMandatoryQueue;
+ ka_wakeUpAllDependents;
}
- transition(M, Store, MM) {
+ transition(MR, Ifetch, M) {
+ h_load_hit;
+ uu_profileL1InstMiss;
+ uu_profileL2Hit;
+ k_popMandatoryQueue;
+ ka_wakeUpAllDependents;
+ }
+
+ transition(MR, Store, MM) {
hh_store_hit;
+ uu_profileL1DataMiss;
+ uu_profileL2Hit;
k_popMandatoryQueue;
+ ka_wakeUpAllDependents;
}
transition(M, L2_Replacement, MI) {
i_allocateTBE;
d_issuePUT;
+ forward_eviction_to_cpu;
rr_deallocateL2CacheBlock;
+ ka_wakeUpAllDependents;
}
- transition(M, Other_GETX, I) {
+ transition(M, {Other_GETX, Invalidate}, I) {
c_sendExclusiveData;
+ forward_eviction_to_cpu;
l_popForwardQueue;
}
l_popForwardQueue;
}
+ transition(M, NC_DMA_GETS, O) {
+ ee_sendDataShared;
+ l_popForwardQueue;
+ }
+
+ transition(M, Merged_GETS, O) {
+ em_sendDataSharedMultiple;
+ l_popForwardQueue;
+ }
+
// Transitions from IM
- transition(IM, {Other_GETX, Other_GETS, Other_GETS_No_Mig}) {
+ transition({IM, IM_F}, {Other_GETX, NC_DMA_GETS, Other_GETS, Other_GETS_No_Mig, Invalidate}) {
f_sendAck;
l_popForwardQueue;
}
- transition(IM, Ack) {
+ transition({IM, IM_F, MM_F}, Ack) {
m_decrementNumberOfMessages;
o_checkForCompletion;
n_popResponseQueue;
transition(IM, Data, ISM) {
u_writeDataToCache;
- m_decrementNumberOfMessages;
+ m_decrementNumberOfMessages;
o_checkForCompletion;
n_popResponseQueue;
}
+ transition(IM_F, Data, ISM_F) {
+ uf_writeDataToCacheTBE;
+ m_decrementNumberOfMessages;
+ o_checkForCompletion;
+ n_popResponseQueue;
+ }
+
transition(IM, Exclusive_Data, MM_W) {
u_writeDataToCache;
- m_decrementNumberOfMessages;
+ m_decrementNumberOfMessages;
o_checkForCompletion;
sx_external_store_hit;
n_popResponseQueue;
+ kd_wakeUpDependents;
+ }
+
+ transition(IM_F, Exclusive_Data, MM_WF) {
+ uf_writeDataToCacheTBE;
+ m_decrementNumberOfMessages;
+ o_checkForCompletion;
+ n_popResponseQueue;
}
// Transitions from SM
- transition(SM, {Other_GETS, Other_GETS_No_Mig}) {
+ transition({SM, SM_F}, {NC_DMA_GETS, Other_GETS, Other_GETS_No_Mig}) {
ff_sendAckShared;
l_popForwardQueue;
}
- transition(SM, Other_GETX, IM) {
+ transition(SM, {Other_GETX, Invalidate}, IM) {
f_sendAck;
+ forward_eviction_to_cpu;
l_popForwardQueue;
}
- transition(SM, Ack) {
+ transition(SM_F, {Other_GETX, Invalidate}, IM_F) {
+ f_sendAck;
+ forward_eviction_to_cpu;
+ l_popForwardQueue;
+ }
+
+ transition({SM, SM_F}, Ack) {
m_decrementNumberOfMessages;
o_checkForCompletion;
n_popResponseQueue;
}
- transition(SM, Data, ISM) {
+ transition(SM, {Data, Exclusive_Data}, ISM) {
v_writeDataToCacheVerify;
- m_decrementNumberOfMessages;
+ m_decrementNumberOfMessages;
+ o_checkForCompletion;
+ n_popResponseQueue;
+ }
+
+ transition(SM_F, {Data, Exclusive_Data}, ISM_F) {
+ vt_writeDataToTBEVerify;
+ m_decrementNumberOfMessages;
o_checkForCompletion;
n_popResponseQueue;
}
// Transitions from ISM
- transition(ISM, Ack) {
+ transition({ISM, ISM_F}, Ack) {
m_decrementNumberOfMessages;
o_checkForCompletion;
n_popResponseQueue;
transition(ISM, All_acks_no_sharers, MM) {
sxt_trig_ext_store_hit;
- g_sendUnblock;
+ gm_sendUnblockM;
s_deallocateTBE;
j_popTriggerQueue;
+ kd_wakeUpDependents;
+ }
+
+ transition(ISM_F, All_acks_no_sharers, MI_F) {
+ df_issuePUTF;
+ j_popTriggerQueue;
+ kd_wakeUpDependents;
}
// Transitions from OM
- transition(OM, Other_GETX, IM) {
+ transition(OM, {Other_GETX, Invalidate}, IM) {
e_sendData;
pp_incrementNumberOfMessagesByOne;
+ forward_eviction_to_cpu;
+ l_popForwardQueue;
+ }
+
+ transition(OM_F, {Other_GETX, Invalidate}, IM_F) {
+ q_sendDataFromTBEToCache;
+ pp_incrementNumberOfMessagesByOne;
+ forward_eviction_to_cpu;
l_popForwardQueue;
}
- transition(OM, {Other_GETS, Other_GETS_No_Mig}) {
+ transition(OM, {NC_DMA_GETS, Other_GETS, Other_GETS_No_Mig}) {
ee_sendDataShared;
l_popForwardQueue;
}
- transition(OM, Ack) {
+ transition(OM, Merged_GETS) {
+ em_sendDataSharedMultiple;
+ l_popForwardQueue;
+ }
+
+ transition(OM_F, {NC_DMA_GETS, Other_GETS, Other_GETS_No_Mig}) {
+ et_sendDataSharedFromTBE;
+ l_popForwardQueue;
+ }
+
+ transition(OM_F, Merged_GETS) {
+ emt_sendDataSharedMultipleFromTBE;
+ l_popForwardQueue;
+ }
+
+ transition({OM, OM_F}, Ack) {
m_decrementNumberOfMessages;
o_checkForCompletion;
n_popResponseQueue;
transition(OM, {All_acks, All_acks_no_sharers}, MM) {
sxt_trig_ext_store_hit;
- g_sendUnblock;
+ gm_sendUnblockM;
s_deallocateTBE;
j_popTriggerQueue;
+ kd_wakeUpDependents;
}
+ transition({MM_F, OM_F}, {All_acks, All_acks_no_sharers}, MI_F) {
+ df_issuePUTF;
+ j_popTriggerQueue;
+ kd_wakeUpDependents;
+ }
// Transitions from IS
- transition(IS, {Other_GETX, Other_GETS, Other_GETS_No_Mig}) {
+ transition(IS, {Other_GETX, NC_DMA_GETS, Other_GETS, Other_GETS_No_Mig, Invalidate}) {
f_sendAck;
l_popForwardQueue;
}
- transition(IS, Ack) {
+ transition(IS, Ack) {
m_decrementNumberOfMessages;
o_checkForCompletion;
n_popResponseQueue;
}
- transition(IS, Shared_Ack) {
+ transition(IS, Shared_Ack) {
m_decrementNumberOfMessages;
r_setSharerBit;
o_checkForCompletion;
m_decrementNumberOfMessages;
o_checkForCompletion;
hx_external_load_hit;
+ uo_updateCurrentOwner;
n_popResponseQueue;
+ kd_wakeUpDependents;
}
transition(IS, Exclusive_Data, M_W) {
o_checkForCompletion;
hx_external_load_hit;
n_popResponseQueue;
+ kd_wakeUpDependents;
}
transition(IS, Shared_Data, SS) {
m_decrementNumberOfMessages;
o_checkForCompletion;
hx_external_load_hit;
+ uo_updateCurrentOwner;
n_popResponseQueue;
+ kd_wakeUpDependents;
}
// Transitions from SS
- transition(SS, Ack) {
+ transition(SS, Ack) {
m_decrementNumberOfMessages;
o_checkForCompletion;
n_popResponseQueue;
}
- transition(SS, Shared_Ack) {
+ transition(SS, Shared_Ack) {
m_decrementNumberOfMessages;
r_setSharerBit;
o_checkForCompletion;
}
transition(SS, All_acks, S) {
- g_sendUnblock;
+ gs_sendUnblockS;
s_deallocateTBE;
j_popTriggerQueue;
+ kd_wakeUpDependents;
}
transition(SS, All_acks_no_sharers, S) {
// Note: The directory might still be the owner, so that is why we go to S
- g_sendUnblock;
+ gs_sendUnblockS;
s_deallocateTBE;
j_popTriggerQueue;
+ kd_wakeUpDependents;
}
// Transitions from MM_W
transition(MM_W, Store) {
hh_store_hit;
+ uu_profileL1DataHit;
k_popMandatoryQueue;
}
- transition(MM_W, Ack) {
+ transition({MM_W, MM_WF}, Ack) {
m_decrementNumberOfMessages;
o_checkForCompletion;
n_popResponseQueue;
}
transition(MM_W, All_acks_no_sharers, MM) {
- g_sendUnblock;
+ gm_sendUnblockM;
s_deallocateTBE;
j_popTriggerQueue;
+ kd_wakeUpDependents;
}
+ transition(MM_WF, All_acks_no_sharers, MI_F) {
+ df_issuePUTF;
+ j_popTriggerQueue;
+ kd_wakeUpDependents;
+ }
// Transitions from M_W
transition(M_W, Store, MM_W) {
hh_store_hit;
+ uu_profileL1DataHit;
k_popMandatoryQueue;
}
- transition(M_W, Ack) {
+ transition(M_W, Ack) {
m_decrementNumberOfMessages;
o_checkForCompletion;
n_popResponseQueue;
}
transition(M_W, All_acks_no_sharers, M) {
- g_sendUnblock;
+ gm_sendUnblockM;
s_deallocateTBE;
j_popTriggerQueue;
+ kd_wakeUpDependents;
}
// Transitions from OI/MI
- transition({OI, MI}, Other_GETX, II) {
+ transition({OI, MI}, {Other_GETX, Invalidate}, II) {
q_sendDataFromTBEToCache;
l_popForwardQueue;
}
- transition({OI, MI}, {Other_GETS, Other_GETS_No_Mig}, OI) {
- q_sendDataFromTBEToCache;
+ transition({OI, MI}, {NC_DMA_GETS, Other_GETS, Other_GETS_No_Mig}, OI) {
+ sq_sendSharedDataFromTBEToCache;
+ l_popForwardQueue;
+ }
+
+ transition({OI, MI}, Merged_GETS, OI) {
+ qm_sendDataFromTBEToCache;
l_popForwardQueue;
}
t_sendExclusiveDataFromTBEToMemory;
s_deallocateTBE;
l_popForwardQueue;
+ kd_wakeUpDependents;
+ }
+
+ transition(MI_F, Writeback_Ack, I) {
+ hh_flush_hit;
+ t_sendExclusiveDataFromTBEToMemory;
+ s_deallocateTBE;
+ l_popForwardQueue;
+ kd_wakeUpDependents;
}
transition(OI, Writeback_Ack, I) {
qq_sendDataFromTBEToMemory;
s_deallocateTBE;
l_popForwardQueue;
+ kd_wakeUpDependents;
}
// Transitions from II
- transition(II, {Other_GETS, Other_GETS_No_Mig, Other_GETX}, II) {
+ transition(II, {NC_DMA_GETS, Other_GETS, Other_GETS_No_Mig, Other_GETX, Invalidate}, II) {
f_sendAck;
l_popForwardQueue;
}
g_sendUnblock;
s_deallocateTBE;
l_popForwardQueue;
+ kd_wakeUpDependents;
}
transition(II, Writeback_Nack, I) {
s_deallocateTBE;
l_popForwardQueue;
+ kd_wakeUpDependents;
+ }
+
+ transition(MM_F, {Other_GETX, Invalidate}, IM_F) {
+ ct_sendExclusiveDataFromTBE;
+ pp_incrementNumberOfMessagesByOne;
+ l_popForwardQueue;
+ }
+
+ transition(MM_F, Other_GETS, IM_F) {
+ ct_sendExclusiveDataFromTBE;
+ pp_incrementNumberOfMessagesByOne;
+ l_popForwardQueue;
+ }
+
+ transition(MM_F, NC_DMA_GETS, OM_F) {
+ sq_sendSharedDataFromTBEToCache;
+ l_popForwardQueue;
+ }
+
+ transition(MM_F, Other_GETS_No_Mig, OM_F) {
+ et_sendDataSharedFromTBE;
+ l_popForwardQueue;
}
-}
+ transition(MM_F, Merged_GETS, OM_F) {
+ emt_sendDataSharedMultipleFromTBE;
+ l_popForwardQueue;
+ }
+}