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gem5/cpu/ozone/lw_back_end.hh
Kevin Lim 6c386396fa Code cleanup. 
cpu/base_dyn_inst.hh:
    Code cleanup

--HG--
extra : convert_revision : 501c03f8e4346ffbcb545ddeee30c1f8ded9baa7
2006-05-23 16:57:14 -04:00

474 lines
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/*
* Copyright (c) 2006 The Regents of The University of Michigan
* 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.
*/
#ifndef __CPU_OZONE_LW_BACK_END_HH__
#define __CPU_OZONE_LW_BACK_END_HH__
#include <list>
#include <queue>
#include <set>
#include <string>
#include "arch/faults.hh"
#include "base/timebuf.hh"
#include "cpu/inst_seq.hh"
#include "cpu/ozone/rename_table.hh"
#include "cpu/ozone/thread_state.hh"
#include "mem/functional/functional.hh"
#include "mem/mem_interface.hh"
#include "mem/mem_req.hh"
#include "sim/eventq.hh"
template <class>
class Checker;
class ExecContext;
template <class Impl>
class OzoneThreadState;
template <class Impl>
class LWBackEnd
{
public:
typedef OzoneThreadState<Impl> Thread;
typedef typename Impl::Params Params;
typedef typename Impl::DynInst DynInst;
typedef typename Impl::DynInstPtr DynInstPtr;
typedef typename Impl::FullCPU FullCPU;
typedef typename Impl::FrontEnd FrontEnd;
typedef typename Impl::FullCPU::CommStruct CommStruct;
struct SizeStruct {
int size;
};
typedef SizeStruct DispatchToIssue;
typedef SizeStruct IssueToExec;
typedef SizeStruct ExecToCommit;
typedef SizeStruct Writeback;
TimeBuffer<DispatchToIssue> d2i;
typename TimeBuffer<DispatchToIssue>::wire instsToDispatch;
TimeBuffer<IssueToExec> i2e;
typename TimeBuffer<IssueToExec>::wire instsToExecute;
TimeBuffer<ExecToCommit> e2c;
TimeBuffer<Writeback> numInstsToWB;
TimeBuffer<CommStruct> *comm;
typename TimeBuffer<CommStruct>::wire toIEW;
typename TimeBuffer<CommStruct>::wire fromCommit;
class TrapEvent : public Event {
private:
LWBackEnd<Impl> *be;
public:
TrapEvent(LWBackEnd<Impl> *_be);
void process();
const char *description();
};
/** LdWriteback event for a load completion. */
class LdWritebackEvent : public Event {
private:
/** Instruction that is writing back data to the register file. */
DynInstPtr inst;
/** Pointer to IEW stage. */
LWBackEnd *be;
bool dcacheMiss;
public:
/** Constructs a load writeback event. */
LdWritebackEvent(DynInstPtr &_inst, LWBackEnd *be);
/** Processes writeback event. */
virtual void process();
/** Returns the description of the writeback event. */
virtual const char *description();
void setDcacheMiss() { dcacheMiss = true; be->addDcacheMiss(inst); }
};
LWBackEnd(Params *params);
std::string name() const;
void regStats();
void setCPU(FullCPU *cpu_ptr);
void setFrontEnd(FrontEnd *front_end_ptr)
{ frontEnd = front_end_ptr; }
void setXC(ExecContext *xc_ptr)
{ xc = xc_ptr; }
void setThreadState(Thread *thread_ptr)
{ thread = thread_ptr; }
void setCommBuffer(TimeBuffer<CommStruct> *_comm);
void tick();
void squash();
void generateXCEvent() { xcSquash = true; }
void squashFromXC();
void squashFromTrap();
void checkInterrupts();
bool trapSquash;
bool xcSquash;
template <class T>
Fault read(MemReqPtr &req, T &data, int load_idx);
template <class T>
Fault write(MemReqPtr &req, T &data, int store_idx);
Addr readCommitPC() { return commitPC; }
Addr commitPC;
Tick lastCommitCycle;
bool robEmpty() { return instList.empty(); }
bool isFull() { return numInsts >= numROBEntries; }
bool isBlocked() { return status == Blocked || dispatchStatus == Blocked; }
void fetchFault(Fault &fault);
int wakeDependents(DynInstPtr &inst, bool memory_deps = false);
/** Tells memory dependence unit that a memory instruction needs to be
* rescheduled. It will re-execute once replayMemInst() is called.
*/
void rescheduleMemInst(DynInstPtr &inst);
/** Re-executes all rescheduled memory instructions. */
void replayMemInst(DynInstPtr &inst);
/** Completes memory instruction. */
void completeMemInst(DynInstPtr &inst) { }
void addDcacheMiss(DynInstPtr &inst)
{
waitingMemOps.insert(inst->seqNum);
numWaitingMemOps++;
DPRINTF(BE, "Adding a Dcache miss mem op [sn:%lli], total %i\n",
inst->seqNum, numWaitingMemOps);
}
void removeDcacheMiss(DynInstPtr &inst)
{
assert(waitingMemOps.find(inst->seqNum) != waitingMemOps.end());
waitingMemOps.erase(inst->seqNum);
numWaitingMemOps--;
DPRINTF(BE, "Removing a Dcache miss mem op [sn:%lli], total %i\n",
inst->seqNum, numWaitingMemOps);
}
void addWaitingMemOp(DynInstPtr &inst)
{
waitingMemOps.insert(inst->seqNum);
numWaitingMemOps++;
DPRINTF(BE, "Adding a waiting mem op [sn:%lli], total %i\n",
inst->seqNum, numWaitingMemOps);
}
void removeWaitingMemOp(DynInstPtr &inst)
{
assert(waitingMemOps.find(inst->seqNum) != waitingMemOps.end());
waitingMemOps.erase(inst->seqNum);
numWaitingMemOps--;
DPRINTF(BE, "Removing a waiting mem op [sn:%lli], total %i\n",
inst->seqNum, numWaitingMemOps);
}
void instToCommit(DynInstPtr &inst);
void switchOut();
void doSwitchOut();
void takeOverFrom(ExecContext *old_xc = NULL);
bool isSwitchedOut() { return switchedOut; }
private:
void generateTrapEvent(Tick latency = 0);
void handleFault(Fault &fault, Tick latency = 0);
void updateStructures();
void dispatchInsts();
void dispatchStall();
void checkDispatchStatus();
void executeInsts();
void commitInsts();
void addToLSQ(DynInstPtr &inst);
void writebackInsts();
bool commitInst(int inst_num);
void squash(const InstSeqNum &sn);
void squashDueToBranch(DynInstPtr &inst);
void squashDueToMemViolation(DynInstPtr &inst);
void squashDueToMemBlocked(DynInstPtr &inst);
void updateExeInstStats(DynInstPtr &inst);
void updateComInstStats(DynInstPtr &inst);
public:
FullCPU *cpu;
FrontEnd *frontEnd;
ExecContext *xc;
Thread *thread;
enum Status {
Running,
Idle,
DcacheMissStall,
DcacheMissComplete,
Blocked,
TrapPending
};
Status status;
Status dispatchStatus;
Status commitStatus;
Counter funcExeInst;
private:
typedef typename Impl::LdstQueue LdstQueue;
LdstQueue LSQ;
public:
RenameTable<Impl> commitRenameTable;
RenameTable<Impl> renameTable;
private:
class DCacheCompletionEvent : public Event
{
private:
LWBackEnd *be;
public:
DCacheCompletionEvent(LWBackEnd *_be);
virtual void process();
virtual const char *description();
};
friend class DCacheCompletionEvent;
DCacheCompletionEvent cacheCompletionEvent;
MemInterface *dcacheInterface;
MemReqPtr memReq;
// General back end width. Used if the more specific isn't given.
int width;
// Dispatch width.
int dispatchWidth;
int numDispatchEntries;
int dispatchSize;
int waitingInsts;
int issueWidth;
// Writeback width
int wbWidth;
// Commit width
int commitWidth;
/** Index into queue of instructions being written back. */
unsigned wbNumInst;
/** Cycle number within the queue of instructions being written
* back. Used in case there are too many instructions writing
* back at the current cycle and writesbacks need to be scheduled
* for the future. See comments in instToCommit().
*/
unsigned wbCycle;
int numROBEntries;
int numInsts;
std::set<InstSeqNum> waitingMemOps;
typedef std::set<InstSeqNum>::iterator MemIt;
int numWaitingMemOps;
unsigned maxOutstandingMemOps;
bool squashPending;
InstSeqNum squashSeqNum;
Addr squashNextPC;
Fault faultFromFetch;
bool fetchHasFault;
bool switchedOut;
bool switchPending;
DynInstPtr memBarrier;
private:
struct pqCompare {
bool operator() (const DynInstPtr &lhs, const DynInstPtr &rhs) const
{
return lhs->seqNum > rhs->seqNum;
}
};
typedef typename std::priority_queue<DynInstPtr, std::vector<DynInstPtr>, pqCompare> ReadyInstQueue;
ReadyInstQueue exeList;
typedef typename std::list<DynInstPtr>::iterator InstListIt;
std::list<DynInstPtr> instList;
std::list<DynInstPtr> waitingList;
std::list<DynInstPtr> replayList;
std::list<DynInstPtr> writeback;
int latency;
int squashLatency;
bool exactFullStall;
// number of cycles stalled for D-cache misses
/* Stats::Scalar<> dcacheStallCycles;
Counter lastDcacheStall;
*/
Stats::Vector<> rob_cap_events;
Stats::Vector<> rob_cap_inst_count;
Stats::Vector<> iq_cap_events;
Stats::Vector<> iq_cap_inst_count;
// total number of instructions executed
Stats::Vector<> exe_inst;
Stats::Vector<> exe_swp;
Stats::Vector<> exe_nop;
Stats::Vector<> exe_refs;
Stats::Vector<> exe_loads;
Stats::Vector<> exe_branches;
Stats::Vector<> issued_ops;
// total number of loads forwaded from LSQ stores
Stats::Vector<> lsq_forw_loads;
// total number of loads ignored due to invalid addresses
Stats::Vector<> inv_addr_loads;
// total number of software prefetches ignored due to invalid addresses
Stats::Vector<> inv_addr_swpfs;
// ready loads blocked due to memory disambiguation
Stats::Vector<> lsq_blocked_loads;
Stats::Scalar<> lsqInversion;
Stats::Vector<> n_issued_dist;
Stats::VectorDistribution<> issue_delay_dist;
Stats::VectorDistribution<> queue_res_dist;
/*
Stats::Vector<> stat_fu_busy;
Stats::Vector2d<> stat_fuBusy;
Stats::Vector<> dist_unissued;
Stats::Vector2d<> stat_issued_inst_type;
Stats::Formula misspec_cnt;
Stats::Formula misspec_ipc;
Stats::Formula issue_rate;
Stats::Formula issue_stores;
Stats::Formula issue_op_rate;
Stats::Formula fu_busy_rate;
Stats::Formula commit_stores;
Stats::Formula commit_ipc;
Stats::Formula commit_ipb;
Stats::Formula lsq_inv_rate;
*/
Stats::Vector<> writeback_count;
Stats::Vector<> producer_inst;
Stats::Vector<> consumer_inst;
Stats::Vector<> wb_penalized;
Stats::Formula wb_rate;
Stats::Formula wb_fanout;
Stats::Formula wb_penalized_rate;
// total number of instructions committed
Stats::Vector<> stat_com_inst;
Stats::Vector<> stat_com_swp;
Stats::Vector<> stat_com_refs;
Stats::Vector<> stat_com_loads;
Stats::Vector<> stat_com_membars;
Stats::Vector<> stat_com_branches;
Stats::Distribution<> n_committed_dist;
Stats::Scalar<> commit_eligible_samples;
Stats::Vector<> commit_eligible;
Stats::Vector<> squashedInsts;
Stats::Vector<> ROBSquashedInsts;
Stats::Scalar<> ROB_fcount;
Stats::Formula ROB_full_rate;
Stats::Vector<> ROB_count; // cumulative ROB occupancy
Stats::Formula ROB_occ_rate;
Stats::VectorDistribution<> ROB_occ_dist;
public:
void dumpInsts();
Checker<DynInstPtr> *checker;
};
template <class Impl>
template <class T>
Fault
LWBackEnd<Impl>::read(MemReqPtr &req, T &data, int load_idx)
{
return LSQ.read(req, data, load_idx);
}
template <class Impl>
template <class T>
Fault
LWBackEnd<Impl>::write(MemReqPtr &req, T &data, int store_idx)
{
return LSQ.write(req, data, store_idx);
}
#endif // __CPU_OZONE_LW_BACK_END_HH__
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