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/*
* Copyright (c) 2012-2013 ARM Limited
* Copyright (c) 2013 Advanced Micro Devices, Inc.
* All rights reserved
*
* The license below extends only to copyright in the software and shall
* not be construed as granting a license to any other intellectual
* property including but not limited to intellectual property relating
* to a hardware implementation of the functionality of the software
* licensed hereunder. You may use the software subject to the license
* terms below provided that you ensure that this notice is replicated
* unmodified and in its entirety in all distributions of the software,
* modified or unmodified, in source code or in binary form.
*
* Copyright (c) 2007 MIPS Technologies, Inc.
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions are
* met: redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer;
* 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;
* neither the name of the copyright holders 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
* OWNER 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.
*
* Authors: Korey Sewell
*
*/
#ifndef __CPU_INORDER_CPU_HH__
#define __CPU_INORDER_CPU_HH__
#include <iostream>
#include <list>
#include <queue>
#include <set>
#include <vector>
#include "arch/isa_traits.hh"
#include "arch/registers.hh"
#include "arch/types.hh"
#include "base/statistics.hh"
#include "base/types.hh"
#include "config/the_isa.hh"
#include "cpu/inorder/inorder_dyn_inst.hh"
#include "cpu/inorder/pipeline_stage.hh"
#include "cpu/inorder/pipeline_traits.hh"
#include "cpu/inorder/reg_dep_map.hh"
#include "cpu/inorder/thread_state.hh"
#include "cpu/o3/dep_graph.hh"
#include "cpu/o3/rename_map.hh"
#include "cpu/activity.hh"
#include "cpu/base.hh"
#include "cpu/reg_class.hh"
#include "cpu/simple_thread.hh"
#include "cpu/timebuf.hh"
#include "mem/packet.hh"
#include "mem/port.hh"
#include "mem/request.hh"
#include "sim/eventq.hh"
#include "sim/process.hh"
class CacheUnit;
class ThreadContext;
class MemInterface;
class MemObject;
class Process;
class ResourcePool;
class InOrderCPU : public BaseCPU
{
protected:
typedef ThePipeline::Params Params;
typedef InOrderThreadState Thread;
//ISA TypeDefs
typedef TheISA::IntReg IntReg;
typedef TheISA::FloatReg FloatReg;
typedef TheISA::FloatRegBits FloatRegBits;
typedef TheISA::CCReg CCReg;
typedef TheISA::MiscReg MiscReg;
typedef TheISA::RegIndex RegIndex;
//DynInstPtr TypeDefs
typedef ThePipeline::DynInstPtr DynInstPtr;
typedef std::list<DynInstPtr>::iterator ListIt;
//TimeBuffer TypeDefs
typedef TimeBuffer<InterStageStruct> StageQueue;
friend class Resource;
public:
/** Constructs a CPU with the given parameters. */
InOrderCPU(Params *params);
/* Destructor */
~InOrderCPU();
void verifyMemoryMode() const;
/** Return a reference to the data port. */
virtual MasterPort &getDataPort() { return dataPort; }
/** Return a reference to the instruction port. */
virtual MasterPort &getInstPort() { return instPort; }
/** CPU ID */
int cpu_id;
// SE Mode ASIDs
ThreadID asid[ThePipeline::MaxThreads];
/** Type of core that this is */
std::string coreType;
// Only need for SE MODE
enum ThreadModel {
Single,
SMT,
SwitchOnCacheMiss
};
ThreadModel threadModel;
int readCpuId() { return cpu_id; }
void setCpuId(int val) { cpu_id = val; }
Params *cpu_params;
public:
enum Status {
Running,
Idle,
Halted,
Blocked,
SwitchedOut
};
/** Overall CPU status. */
Status _status;
private:
/**
* CachePort class for the in-order CPU, interacting with a
* specific CacheUnit in the pipeline.
*/
class CachePort : public MasterPort
{
private:
/** Pointer to cache unit */
CacheUnit *cacheUnit;
public:
/** Default constructor. */
CachePort(CacheUnit *_cacheUnit, const std::string& name);
protected:
/** Timing version of receive */
bool recvTimingResp(PacketPtr pkt);
/** Handles doing a retry of a failed timing request. */
void recvRetry();
/** Ignoring snoops for now. */
void recvTimingSnoopReq(PacketPtr pkt) { }
};
/** Define TickEvent for the CPU */
class TickEvent : public Event
{
private:
/** Pointer to the CPU. */
InOrderCPU *cpu;
public:
/** Constructs a tick event. */
TickEvent(InOrderCPU *c);
/** Processes a tick event, calling tick() on the CPU. */
void process();
/** Returns the description of the tick event. */
const char *description() const;
};
/** The tick event used for scheduling CPU ticks. */
TickEvent tickEvent;
/** Schedule tick event, regardless of its current state. */
void scheduleTickEvent(Cycles delay)
{
assert(!tickEvent.scheduled() || tickEvent.squashed());
reschedule(&tickEvent, clockEdge(delay), true);
}
/** Unschedule tick event, regardless of its current state. */
void unscheduleTickEvent()
{
if (tickEvent.scheduled())
tickEvent.squash();
}
public:
// List of Events That can be scheduled from
// within the CPU.
// NOTE(1): The Resource Pool also uses this event list
// to schedule events broadcast to all resources interfaces
// NOTE(2): CPU Events usually need to schedule a corresponding resource
// pool event.
enum CPUEventType {
ActivateThread,
ActivateNextReadyThread,
DeactivateThread,
HaltThread,
SuspendThread,
Trap,
Syscall,
SquashFromMemStall,
UpdatePCs,
NumCPUEvents
};
static std::string eventNames[NumCPUEvents];
enum CPUEventPri {
InOrderCPU_Pri = Event::CPU_Tick_Pri,
Syscall_Pri = Event::CPU_Tick_Pri + 9,
ActivateNextReadyThread_Pri = Event::CPU_Tick_Pri + 10
};
/** Define CPU Event */
class CPUEvent : public Event
{
protected:
InOrderCPU *cpu;
public:
CPUEventType cpuEventType;
ThreadID tid;
DynInstPtr inst;
Fault fault;
unsigned vpe;
short syscall_num;
public:
/** Constructs a CPU event. */
CPUEvent(InOrderCPU *_cpu, CPUEventType e_type, Fault fault,
ThreadID _tid, DynInstPtr inst, CPUEventPri event_pri);
/** Set Type of Event To Be Scheduled */
void setEvent(CPUEventType e_type, Fault _fault, ThreadID _tid,
DynInstPtr _inst)
{
fault = _fault;
cpuEventType = e_type;
tid = _tid;
inst = _inst;
vpe = 0;
}
/** Processes a CPU event. */
void process();
/** Returns the description of the CPU event. */
const char *description() const;
/** Schedule Event */
void scheduleEvent(Cycles delay);
/** Unschedule This Event */
void unscheduleEvent();
};
/** Schedule a CPU Event */
void scheduleCpuEvent(CPUEventType cpu_event, Fault fault, ThreadID tid,
DynInstPtr inst, Cycles delay = Cycles(0),
CPUEventPri event_pri = InOrderCPU_Pri);
public:
/** Width (processing bandwidth) of each stage */
int stageWidth;
/** Interface between the CPU and CPU resources. */
ResourcePool *resPool;
/** Instruction used to signify that there is no *real* instruction in
buffer slot */
DynInstPtr dummyInst[ThePipeline::MaxThreads];
DynInstPtr dummyBufferInst;
DynInstPtr dummyReqInst;
DynInstPtr dummyTrapInst[ThePipeline::MaxThreads];
/** Used by resources to signify a denied access to a resource. */
ResourceRequest *dummyReq[ThePipeline::MaxThreads];
/** The Pipeline Stages for the CPU */
PipelineStage *pipelineStage[ThePipeline::NumStages];
/** Program Counters */
TheISA::PCState pc[ThePipeline::MaxThreads];
/** Last Committed PC */
TheISA::PCState lastCommittedPC[ThePipeline::MaxThreads];
/** The Register File for the CPU */
union {
FloatReg f[ThePipeline::MaxThreads][TheISA::NumFloatRegs];
FloatRegBits i[ThePipeline::MaxThreads][TheISA::NumFloatRegs];
} floatRegs;
TheISA::IntReg intRegs[ThePipeline::MaxThreads][TheISA::NumIntRegs];
#ifdef ISA_HAS_CC_REGS
TheISA::CCReg ccRegs[ThePipeline::MaxThreads][TheISA::NumCCRegs];
#endif
/** ISA state */
std::vector<TheISA::ISA *> isa;
/** Dependency Tracker for Integer & Floating Point Regs */
RegDepMap archRegDepMap[ThePipeline::MaxThreads];
/** Global communication structure */
TimeBuffer<TimeStruct> timeBuffer;
/** Communication structure that sits in between pipeline stages */
StageQueue *stageQueue[ThePipeline::NumStages-1];
TheISA::TLB *getITBPtr();
TheISA::TLB *getDTBPtr();
TheISA::Decoder *getDecoderPtr(unsigned tid);
/** Accessor Type for the SkedCache */
typedef uint32_t SkedID;
/** Cache of Instruction Schedule using the instruction's name as a key */
static m5::hash_map<SkedID, ThePipeline::RSkedPtr> skedCache;
typedef m5::hash_map<SkedID, ThePipeline::RSkedPtr>::iterator SkedCacheIt;
/** Initialized to last iterator in map, signifying a invalid entry
on map searches
*/
SkedCacheIt endOfSkedIt;
ThePipeline::RSkedPtr frontEndSked;
ThePipeline::RSkedPtr faultSked;
/** Add a new instruction schedule to the schedule cache */
void addToSkedCache(DynInstPtr inst, ThePipeline::RSkedPtr inst_sked)
{
SkedID sked_id = genSkedID(inst);
assert(skedCache.find(sked_id) == skedCache.end());
skedCache[sked_id] = inst_sked;
}
/** Find a instruction schedule */
ThePipeline::RSkedPtr lookupSked(DynInstPtr inst)
{
SkedID sked_id = genSkedID(inst);
SkedCacheIt lookup_it = skedCache.find(sked_id);
if (lookup_it != endOfSkedIt) {
return (*lookup_it).second;
} else {
return NULL;
}
}
static const uint8_t INST_OPCLASS = 26;
static const uint8_t INST_LOAD = 25;
static const uint8_t INST_STORE = 24;
static const uint8_t INST_CONTROL = 23;
static const uint8_t INST_NONSPEC = 22;
static const uint8_t INST_DEST_REGS = 18;
static const uint8_t INST_SRC_REGS = 14;
static const uint8_t INST_SPLIT_DATA = 13;
inline SkedID genSkedID(DynInstPtr inst)
{
SkedID id = 0;
id = (inst->opClass() << INST_OPCLASS) |
(inst->isLoad() << INST_LOAD) |
(inst->isStore() << INST_STORE) |
(inst->isControl() << INST_CONTROL) |
(inst->isNonSpeculative() << INST_NONSPEC) |
(inst->numDestRegs() << INST_DEST_REGS) |
(inst->numSrcRegs() << INST_SRC_REGS) |
(inst->splitInst << INST_SPLIT_DATA);
return id;
}
ThePipeline::RSkedPtr createFrontEndSked();
ThePipeline::RSkedPtr createFaultSked();
ThePipeline::RSkedPtr createBackEndSked(DynInstPtr inst);
class StageScheduler {
private:
ThePipeline::RSkedPtr rsked;
int stageNum;
int nextTaskPriority;
public:
StageScheduler(ThePipeline::RSkedPtr _rsked, int stage_num)
: rsked(_rsked), stageNum(stage_num),
nextTaskPriority(0)
{ }
void needs(int unit, int request) {
rsked->push(new ScheduleEntry(
stageNum, nextTaskPriority++, unit, request
));
}
void needs(int unit, int request, int param) {
rsked->push(new ScheduleEntry(
stageNum, nextTaskPriority++, unit, request, param
));
}
};
private:
/** Data port. Note that it has to appear after the resPool. */
CachePort dataPort;
/** Instruction port. Note that it has to appear after the resPool. */
CachePort instPort;
public:
/** Registers statistics. */
void regStats();
/** Ticks CPU, calling tick() on each stage, and checking the overall
* activity to see if the CPU should deschedule itself.
*/
void tick();
/** Initialize the CPU */
void init();
/** HW return from error interrupt. */
Fault hwrei(ThreadID tid);
bool simPalCheck(int palFunc, ThreadID tid);
void checkForInterrupts();
/** Returns the Fault for any valid interrupt. */
Fault getInterrupts();
/** Processes any an interrupt fault. */
void processInterrupts(Fault interrupt);
/** Halts the CPU. */
void halt() { panic("Halt not implemented!\n"); }
/** Check if this address is a valid instruction address. */
bool validInstAddr(Addr addr) { return true; }
/** Check if this address is a valid data address. */
bool validDataAddr(Addr addr) { return true; }
/** Schedule a syscall on the CPU */
void syscallContext(Fault fault, ThreadID tid, DynInstPtr inst,
Cycles delay = Cycles(0));
/** Executes a syscall.*/
void syscall(int64_t callnum, ThreadID tid);
/** Schedule a trap on the CPU */
void trapContext(Fault fault, ThreadID tid, DynInstPtr inst,
Cycles delay = Cycles(0));
/** Perform trap to Handle Given Fault */
void trap(Fault fault, ThreadID tid, DynInstPtr inst);
/** Schedule thread activation on the CPU */
void activateContext(ThreadID tid, Cycles delay = Cycles(0));
/** Add Thread to Active Threads List. */
void activateThread(ThreadID tid);
/** Activate Thread In Each Pipeline Stage */
void activateThreadInPipeline(ThreadID tid);
/** Schedule Thread Activation from Ready List */
void activateNextReadyContext(Cycles delay = Cycles(0));
/** Add Thread From Ready List to Active Threads List. */
void activateNextReadyThread();
/** Schedule a thread deactivation on the CPU */
void deactivateContext(ThreadID tid, Cycles delay = Cycles(0));
/** Remove from Active Thread List */
void deactivateThread(ThreadID tid);
/** Schedule a thread suspension on the CPU */
void suspendContext(ThreadID tid);
/** Suspend Thread, Remove from Active Threads List, Add to Suspend List */
void suspendThread(ThreadID tid);
/** Schedule a thread halt on the CPU */
void haltContext(ThreadID tid);
/** Halt Thread, Remove from Active Thread List, Place Thread on Halted
* Threads List
*/
void haltThread(ThreadID tid);
/** squashFromMemStall() - sets up a squash event
* squashDueToMemStall() - squashes pipeline
* @note: maybe squashContext/squashThread would be better?
*/
void squashFromMemStall(DynInstPtr inst, ThreadID tid,
Cycles delay = Cycles(0));
void squashDueToMemStall(int stage_num, InstSeqNum seq_num, ThreadID tid);
void removePipelineStalls(ThreadID tid);
void squashThreadInPipeline(ThreadID tid);
void squashBehindMemStall(int stage_num, InstSeqNum seq_num, ThreadID tid);
PipelineStage* getPipeStage(int stage_num);
int
contextId()
{
hack_once("return a bogus context id");
return 0;
}
/** Update The Order In Which We Process Threads. */
void updateThreadPriority();
/** Switches a Pipeline Stage to Active. (Unused currently) */
void switchToActive(int stage_idx)
{ /*pipelineStage[stage_idx]->switchToActive();*/ }
/** Get the current instruction sequence number, and increment it. */
InstSeqNum getAndIncrementInstSeq(ThreadID tid)
{ return globalSeqNum[tid]++; }
/** Get the current instruction sequence number, and increment it. */
InstSeqNum nextInstSeqNum(ThreadID tid)
{ return globalSeqNum[tid]; }
/** Increment Instruction Sequence Number */
void incrInstSeqNum(ThreadID tid)
{ globalSeqNum[tid]++; }
/** Set Instruction Sequence Number */
void setInstSeqNum(ThreadID tid, InstSeqNum seq_num)
{
globalSeqNum[tid] = seq_num;
}
/** Get & Update Next Event Number */
InstSeqNum getNextEventNum()
{
#ifdef DEBUG
return cpuEventNum++;
#else
return 0;
#endif
}
/** Register file accessors */
uint64_t readIntReg(RegIndex reg_idx, ThreadID tid);
FloatReg readFloatReg(RegIndex reg_idx, ThreadID tid);
FloatRegBits readFloatRegBits(RegIndex reg_idx, ThreadID tid);
CCReg readCCReg(RegIndex reg_idx, ThreadID tid);
void setIntReg(RegIndex reg_idx, uint64_t val, ThreadID tid);
void setFloatReg(RegIndex reg_idx, FloatReg val, ThreadID tid);
void setFloatRegBits(RegIndex reg_idx, FloatRegBits val, ThreadID tid);
void setCCReg(RegIndex reg_idx, CCReg val, ThreadID tid);
RegIndex flattenRegIdx(RegIndex reg_idx, RegClass ®_type, ThreadID tid);
/** Reads a miscellaneous register. */
MiscReg readMiscRegNoEffect(int misc_reg, ThreadID tid = 0);
/** Reads a misc. register, including any side effects the read
* might have as defined by the architecture.
*/
MiscReg readMiscReg(int misc_reg, ThreadID tid = 0);
/** Sets a miscellaneous register. */
void setMiscRegNoEffect(int misc_reg, const MiscReg &val,
ThreadID tid = 0);
/** Sets a misc. register, including any side effects the write
* might have as defined by the architecture.
*/
void setMiscReg(int misc_reg, const MiscReg &val, ThreadID tid = 0);
/** Reads a int/fp/misc reg. from another thread depending on ISA-defined
* target thread
*/
uint64_t readRegOtherThread(unsigned misc_reg,
ThreadID tid = InvalidThreadID);
/** Sets a int/fp/misc reg. from another thread depending on an ISA-defined
* target thread
*/
void setRegOtherThread(unsigned misc_reg, const MiscReg &val,
ThreadID tid);
/** Reads the commit PC of a specific thread. */
TheISA::PCState
pcState(ThreadID tid)
{
return pc[tid];
}
/** Sets the commit PC of a specific thread. */
void
pcState(const TheISA::PCState &newPC, ThreadID tid)
{
pc[tid] = newPC;
}
Addr instAddr(ThreadID tid) { return pc[tid].instAddr(); }
Addr nextInstAddr(ThreadID tid) { return pc[tid].nextInstAddr(); }
MicroPC microPC(ThreadID tid) { return pc[tid].microPC(); }
/** Function to add instruction onto the head of the list of the
* instructions. Used when new instructions are fetched.
*/
ListIt addInst(DynInstPtr inst);
/** Find instruction on instruction list */
ListIt findInst(InstSeqNum seq_num, ThreadID tid);
/** Function to tell the CPU that an instruction has completed. */
void instDone(DynInstPtr inst, ThreadID tid);
/** Add Instructions to the CPU Remove List*/
void addToRemoveList(DynInstPtr inst);
/** Remove an instruction from CPU */
void removeInst(DynInstPtr inst);
/** Remove all instructions younger than the given sequence number. */
void removeInstsUntil(const InstSeqNum &seq_num,ThreadID tid);
/** Removes the instruction pointed to by the iterator. */
inline void squashInstIt(const ListIt inst_it, ThreadID tid);
/** Cleans up all instructions on the instruction remove list. */
void cleanUpRemovedInsts();
/** Cleans up all events on the CPU event remove list. */
void cleanUpRemovedEvents();
/** Debug function to print all instructions on the list. */
void dumpInsts();
/** Forwards an instruction read to the appropriate data
* resource (indexes into Resource Pool thru "dataPortIdx")
*/
Fault read(DynInstPtr inst, Addr addr,
uint8_t *data, unsigned size, unsigned flags);
/** Forwards an instruction write. to the appropriate data
* resource (indexes into Resource Pool thru "dataPortIdx")
*/
Fault write(DynInstPtr inst, uint8_t *data, unsigned size,
Addr addr, unsigned flags, uint64_t *write_res = NULL);
public:
/** Per-Thread List of all the instructions in flight. */
std::list<DynInstPtr> instList[ThePipeline::MaxThreads];
/** List of all the instructions that will be removed at the end of this
* cycle.
*/
std::queue<ListIt> removeList;
bool trapPending[ThePipeline::MaxThreads];
/** List of all the cpu event requests that will be removed at the end of
* the current cycle.
*/
std::queue<Event*> cpuEventRemoveList;
/** Records if instructions need to be removed this cycle due to
* being retired or squashed.
*/
bool removeInstsThisCycle;
/** True if there is non-speculative Inst Active In Pipeline. Lets any
* execution unit know, NOT to execute while the instruction is active.
*/
bool nonSpecInstActive[ThePipeline::MaxThreads];
/** Instruction Seq. Num of current non-speculative instruction. */
InstSeqNum nonSpecSeqNum[ThePipeline::MaxThreads];
/** Instruction Seq. Num of last instruction squashed in pipeline */
InstSeqNum squashSeqNum[ThePipeline::MaxThreads];
/** Last Cycle that the CPU squashed instruction end. */
Tick lastSquashCycle[ThePipeline::MaxThreads];
std::list<ThreadID> fetchPriorityList;
protected:
/** Active Threads List */
std::list<ThreadID> activeThreads;
/** Ready Threads List */
std::list<ThreadID> readyThreads;
/** Suspended Threads List */
std::list<ThreadID> suspendedThreads;
/** Halted Threads List */
std::list<ThreadID> haltedThreads;
/** Thread Status Functions */
bool isThreadActive(ThreadID tid);
bool isThreadReady(ThreadID tid);
bool isThreadSuspended(ThreadID tid);
private:
/** The activity recorder; used to tell if the CPU has any
* activity remaining or if it can go to idle and deschedule
* itself.
*/
ActivityRecorder activityRec;
public:
/** Number of Active Threads in the CPU */
ThreadID numActiveThreads() { return activeThreads.size(); }
/** Thread id of active thread
* Only used for SwitchOnCacheMiss model.
* Assumes only 1 thread active
*/
ThreadID activeThreadId()
{
if (numActiveThreads() > 0)
return activeThreads.front();
else
return InvalidThreadID;
}
/** Records that there was time buffer activity this cycle. */
void activityThisCycle() { activityRec.activity(); }
/** Changes a stage's status to active within the activity recorder. */
void activateStage(const int idx)
{ activityRec.activateStage(idx); }
/** Changes a stage's status to inactive within the activity recorder. */
void deactivateStage(const int idx)
{ activityRec.deactivateStage(idx); }
/** Wakes the CPU, rescheduling the CPU if it's not already active. */
void wakeCPU();
virtual void wakeup();
/* LL/SC debug functionality
unsigned stCondFails;
unsigned readStCondFailures()
{ return stCondFails; }
unsigned setStCondFailures(unsigned st_fails)
{ return stCondFails = st_fails; }
*/
/** Returns a pointer to a thread context. */
ThreadContext *tcBase(ThreadID tid = 0)
{
return thread[tid]->getTC();
}
/** Count the Total Instructions Committed in the CPU. */
virtual Counter totalInsts() const
{
Counter total(0);
for (ThreadID tid = 0; tid < (ThreadID)thread.size(); tid++)
total += thread[tid]->numInst;
return total;
}
/** Count the Total Ops Committed in the CPU. */
virtual Counter totalOps() const
{
Counter total(0);
for (ThreadID tid = 0; tid < (ThreadID)thread.size(); tid++)
total += thread[tid]->numOp;
return total;
}
/** Pointer to the system. */
System *system;
/** The global sequence number counter. */
InstSeqNum globalSeqNum[ThePipeline::MaxThreads];
#ifdef DEBUG
/** The global event number counter. */
InstSeqNum cpuEventNum;
/** Number of resource requests active in CPU **/
unsigned resReqCount;
#endif
Addr lockAddr;
/** Temporary fix for the lock flag, works in the UP case. */
bool lockFlag;
/** Counter of how many stages have completed draining */
int drainCount;
/** Pointers to all of the threads in the CPU. */
std::vector<Thread *> thread;
/** Per-Stage Instruction Tracing */
bool stageTracing;
/** The cycle that the CPU was last running, used for statistics. */
Tick lastRunningCycle;
void updateContextSwitchStats();
unsigned instsPerSwitch;
Stats::Average instsPerCtxtSwitch;
Stats::Scalar numCtxtSwitches;
/** Resumes execution after a drain. */
void drainResume();
/** Switches out this CPU. */
virtual void switchOut();
/** Takes over from another CPU. */
virtual void takeOverFrom(BaseCPU *oldCPU);
/** Update Thread , used for statistic purposes*/
inline void tickThreadStats();
/** Per-Thread Tick */
Stats::Vector threadCycles;
/** Tick for SMT */
Stats::Scalar smtCycles;
/** Stat for total number of times the CPU is descheduled. */
Stats::Scalar timesIdled;
/** Stat for total number of cycles the CPU spends descheduled or no
* stages active.
*/
Stats::Scalar idleCycles;
/** Stat for total number of cycles the CPU is active. */
Stats::Scalar runCycles;
/** Percentage of cycles a stage was active */
Stats::Formula activity;
/** Instruction Mix Stats */
Stats::Scalar comLoads;
Stats::Scalar comStores;
Stats::Scalar comBranches;
Stats::Scalar comNops;
Stats::Scalar comNonSpec;
Stats::Scalar comInts;
Stats::Scalar comFloats;
/** Stat for the number of committed instructions per thread. */
Stats::Vector committedInsts;
/** Stat for the number of committed ops per thread. */
Stats::Vector committedOps;
/** Stat for the number of committed instructions per thread. */
Stats::Vector smtCommittedInsts;
/** Stat for the total number of committed instructions. */
Stats::Scalar totalCommittedInsts;
/** Stat for the CPI per thread. */
Stats::Formula cpi;
/** Stat for the SMT-CPI per thread. */
Stats::Formula smtCpi;
/** Stat for the total CPI. */
Stats::Formula totalCpi;
/** Stat for the IPC per thread. */
Stats::Formula ipc;
/** Stat for the total IPC. */
Stats::Formula smtIpc;
/** Stat for the total IPC. */
Stats::Formula totalIpc;
};
#endif // __CPU_O3_CPU_HH__
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