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#ifndef __CPU_OZONE_FRONT_END_HH__
#define __CPU_OZONE_FRONT_END_HH__
#include <deque>
//#include "cpu/ozone/cpu.hh"
#include "cpu/inst_seq.hh"
#include "cpu/o3/bpred_unit.hh"
#include "cpu/ozone/rename_table.hh"
//#include "cpu/ozone/thread_state.hh"
#include "mem/mem_req.hh"
#include "sim/eventq.hh"
#include "sim/stats.hh"
class ExecContext;
class MemInterface;
template <class>
class OzoneThreadState;
class PageTable;
template <class>
class TimeBuffer;
template <class Impl>
class FrontEnd
{
public:
typedef typename Impl::Params Params;
typedef typename Impl::DynInst DynInst;
typedef typename Impl::DynInstPtr DynInstPtr;
typedef typename Impl::FullCPU FullCPU;
typedef typename Impl::BackEnd BackEnd;
typedef typename Impl::FullCPU::OzoneXC OzoneXC;
typedef typename Impl::FullCPU::CommStruct CommStruct;
FrontEnd(Params *params);
std::string name() const;
void setCPU(FullCPU *cpu_ptr)
{ cpu = cpu_ptr; }
void setBackEnd(BackEnd *back_end_ptr)
{ backEnd = back_end_ptr; }
void setCommBuffer(TimeBuffer<CommStruct> *_comm);
void setXC(ExecContext *xc_ptr);
void setThreadState(OzoneThreadState<Impl> *thread_ptr)
{ thread = thread_ptr; }
void regStats();
void tick();
Fault fetchCacheLine();
void processInst(DynInstPtr &inst);
void squash(const InstSeqNum &squash_num, const Addr &next_PC,
const bool is_branch = false, const bool branch_taken = false);
DynInstPtr getInst();
void processCacheCompletion(MemReqPtr &req);
void addFreeRegs(int num_freed);
bool isEmpty() { return instBuffer.empty(); }
void switchOut();
void doSwitchOut();
void takeOverFrom(ExecContext *old_xc = NULL);
bool isSwitchedOut() { return switchedOut; }
bool switchedOut;
private:
bool updateStatus();
void checkBE();
DynInstPtr getInstFromCacheline();
void renameInst(DynInstPtr &inst);
// Returns true if we need to stop the front end this cycle
bool processBarriers(DynInstPtr &inst);
void handleFault(Fault &fault);
public:
Fault getFault() { return fetchFault; }
private:
Fault fetchFault;
// Align an address (typically a PC) to the start of an I-cache block.
// We fold in the PISA 64- to 32-bit conversion here as well.
Addr icacheBlockAlignPC(Addr addr)
{
addr = TheISA::realPCToFetchPC(addr);
return (addr & ~(cacheBlkMask));
}
InstSeqNum getAndIncrementInstSeq()
{ return cpu->globalSeqNum++; }
public:
FullCPU *cpu;
BackEnd *backEnd;
ExecContext *xc;
OzoneThreadState<Impl> *thread;
enum Status {
Running,
Idle,
IcacheMissStall,
IcacheMissComplete,
SerializeBlocked,
SerializeComplete,
RenameBlocked,
QuiescePending,
TrapPending,
BEBlocked
};
Status status;
private:
TimeBuffer<CommStruct> *comm;
typename TimeBuffer<CommStruct>::wire fromCommit;
typedef typename Impl::BranchPred BranchPred;
// Typedef for semi-opaque type that holds any information the branch
// predictor needs to update itself. Only two fields are used outside of
// branch predictor, nextPC and isTaken.
// typedef typename BranchPred::BPredInfo BPredInfo;
BranchPred branchPred;
class ICacheCompletionEvent : public Event
{
private:
MemReqPtr req;
FrontEnd *frontEnd;
public:
ICacheCompletionEvent(MemReqPtr &_req, FrontEnd *_fe);
virtual void process();
virtual const char *description();
};
MemInterface *icacheInterface;
#if !FULL_SYSTEM
PageTable *pTable;
#endif
MemReqPtr memReq;
/** Mask to get a cache block's address. */
Addr cacheBlkMask;
unsigned cacheBlkSize;
Addr cacheBlkPC;
/** The cache line being fetched. */
uint8_t *cacheData;
bool fetchCacheLineNextCycle;
bool cacheBlkValid;
public:
RenameTable<Impl> renameTable;
private:
Addr PC;
Addr nextPC;
public:
void setPC(Addr val) { PC = val; }
void setNextPC(Addr val) { nextPC = val; }
void wakeFromQuiesce();
void dumpInsts();
private:
typedef typename std::deque<DynInstPtr> InstBuff;
typedef typename InstBuff::iterator InstBuffIt;
InstBuff instBuffer;
int instBufferSize;
int maxInstBufferSize;
int width;
int freeRegs;
int numPhysRegs;
bool serializeNext;
DynInstPtr barrierInst;
public:
bool interruptPending;
private:
// number of idle cycles
/*
Stats::Average<> notIdleFraction;
Stats::Formula idleFraction;
*/
// @todo: Consider making these vectors and tracking on a per thread basis.
/** Stat for total number of cycles stalled due to an icache miss. */
Stats::Scalar<> icacheStallCycles;
/** Stat for total number of fetched instructions. */
Stats::Scalar<> fetchedInsts;
Stats::Scalar<> fetchedBranches;
/** Stat for total number of predicted branches. */
Stats::Scalar<> predictedBranches;
/** Stat for total number of cycles spent fetching. */
Stats::Scalar<> fetchCycles;
Stats::Scalar<> fetchIdleCycles;
/** Stat for total number of cycles spent squashing. */
Stats::Scalar<> fetchSquashCycles;
/** Stat for total number of cycles spent blocked due to other stages in
* the pipeline.
*/
Stats::Scalar<> fetchBlockedCycles;
/** Stat for total number of fetched cache lines. */
Stats::Scalar<> fetchedCacheLines;
Stats::Scalar<> fetchIcacheSquashes;
/** Distribution of number of instructions fetched each cycle. */
Stats::Distribution<> fetchNisnDist;
// Stats::Vector<> qfull_iq_occupancy;
// Stats::VectorDistribution<> qfull_iq_occ_dist_;
Stats::Formula idleRate;
Stats::Formula branchRate;
Stats::Formula fetchRate;
Stats::Scalar<> IFQCount; // cumulative IFQ occupancy
Stats::Formula IFQOccupancy;
Stats::Formula IFQLatency;
Stats::Scalar<> IFQFcount; // cumulative IFQ full count
Stats::Formula IFQFullRate;
Stats::Scalar<> dispatchCountStat;
Stats::Scalar<> dispatchedSerializing;
Stats::Scalar<> dispatchedTempSerializing;
Stats::Scalar<> dispatchSerializeStallCycles;
Stats::Formula dispatchRate;
Stats::Formula regIntFull;
Stats::Formula regFpFull;
};
#endif // __CPU_OZONE_FRONT_END_HH__
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