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/*
* Copyright (c) 2010 ARM Limited
* 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) 2004-2006 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.
*
* Authors: Kevin Lim
*/
#ifndef __CPU_O3_IEW_HH__
#define __CPU_O3_IEW_HH__
#include <queue>
#include <set>
#include "base/statistics.hh"
#include "config/full_system.hh"
#include "cpu/o3/comm.hh"
#include "cpu/o3/lsq.hh"
#include "cpu/o3/scoreboard.hh"
#include "cpu/timebuf.hh"
#include "debug/IEW.hh"
class DerivO3CPUParams;
class FUPool;
/**
* DefaultIEW handles both single threaded and SMT IEW
* (issue/execute/writeback). It handles the dispatching of
* instructions to the LSQ/IQ as part of the issue stage, and has the
* IQ try to issue instructions each cycle. The execute latency is
* actually tied into the issue latency to allow the IQ to be able to
* do back-to-back scheduling without having to speculatively schedule
* instructions. This happens by having the IQ have access to the
* functional units, and the IQ gets the execution latencies from the
* FUs when it issues instructions. Instructions reach the execute
* stage on the last cycle of their execution, which is when the IQ
* knows to wake up any dependent instructions, allowing back to back
* scheduling. The execute portion of IEW separates memory
* instructions from non-memory instructions, either telling the LSQ
* to execute the instruction, or executing the instruction directly.
* The writeback portion of IEW completes the instructions by waking
* up any dependents, and marking the register ready on the
* scoreboard.
*/
template<class Impl>
class DefaultIEW
{
private:
//Typedefs from Impl
typedef typename Impl::CPUPol CPUPol;
typedef typename Impl::DynInstPtr DynInstPtr;
typedef typename Impl::O3CPU O3CPU;
typedef typename CPUPol::IQ IQ;
typedef typename CPUPol::RenameMap RenameMap;
typedef typename CPUPol::LSQ LSQ;
typedef typename CPUPol::TimeStruct TimeStruct;
typedef typename CPUPol::IEWStruct IEWStruct;
typedef typename CPUPol::RenameStruct RenameStruct;
typedef typename CPUPol::IssueStruct IssueStruct;
friend class Impl::O3CPU;
friend class CPUPol::IQ;
public:
/** Overall IEW stage status. Used to determine if the CPU can
* deschedule itself due to a lack of activity.
*/
enum Status {
Active,
Inactive
};
/** Status for Issue, Execute, and Writeback stages. */
enum StageStatus {
Running,
Blocked,
Idle,
StartSquash,
Squashing,
Unblocking
};
private:
/** Overall stage status. */
Status _status;
/** Dispatch status. */
StageStatus dispatchStatus[Impl::MaxThreads];
/** Execute status. */
StageStatus exeStatus;
/** Writeback status. */
StageStatus wbStatus;
public:
/** Constructs a DefaultIEW with the given parameters. */
DefaultIEW(O3CPU *_cpu, DerivO3CPUParams *params);
/** Returns the name of the DefaultIEW stage. */
std::string name() const;
/** Registers statistics. */
void regStats();
/** Initializes stage; sends back the number of free IQ and LSQ entries. */
void initStage();
/** Returns the dcache port. */
Port *getDcachePort() { return ldstQueue.getDcachePort(); }
/** Sets main time buffer used for backwards communication. */
void setTimeBuffer(TimeBuffer<TimeStruct> *tb_ptr);
/** Sets time buffer for getting instructions coming from rename. */
void setRenameQueue(TimeBuffer<RenameStruct> *rq_ptr);
/** Sets time buffer to pass on instructions to commit. */
void setIEWQueue(TimeBuffer<IEWStruct> *iq_ptr);
/** Sets pointer to list of active threads. */
void setActiveThreads(std::list<ThreadID> *at_ptr);
/** Sets pointer to the scoreboard. */
void setScoreboard(Scoreboard *sb_ptr);
/** Drains IEW stage. */
bool drain();
/** Resumes execution after a drain. */
void resume();
/** Completes switch out of IEW stage. */
void switchOut();
/** Takes over from another CPU's thread. */
void takeOverFrom();
/** Returns if IEW is switched out. */
bool isSwitchedOut() { return switchedOut; }
/** Squashes instructions in IEW for a specific thread. */
void squash(ThreadID tid);
/** Wakes all dependents of a completed instruction. */
void wakeDependents(DynInstPtr &inst);
/** 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);
/** Sends an instruction to commit through the time buffer. */
void instToCommit(DynInstPtr &inst);
/** Inserts unused instructions of a thread into the skid buffer. */
void skidInsert(ThreadID tid);
/** Returns the max of the number of entries in all of the skid buffers. */
int skidCount();
/** Returns if all of the skid buffers are empty. */
bool skidsEmpty();
/** Updates overall IEW status based on all of the stages' statuses. */
void updateStatus();
/** Resets entries of the IQ and the LSQ. */
void resetEntries();
/** Tells the CPU to wakeup if it has descheduled itself due to no
* activity. Used mainly by the LdWritebackEvent.
*/
void wakeCPU();
/** Reports to the CPU that there is activity this cycle. */
void activityThisCycle();
/** Tells CPU that the IEW stage is active and running. */
inline void activateStage();
/** Tells CPU that the IEW stage is inactive and idle. */
inline void deactivateStage();
/** Returns if the LSQ has any stores to writeback. */
bool hasStoresToWB() { return ldstQueue.hasStoresToWB(); }
/** Returns if the LSQ has any stores to writeback. */
bool hasStoresToWB(ThreadID tid) { return ldstQueue.hasStoresToWB(tid); }
void incrWb(InstSeqNum &sn)
{
if (++wbOutstanding == wbMax)
ableToIssue = false;
DPRINTF(IEW, "wbOutstanding: %i [sn:%lli]\n", wbOutstanding, sn);
assert(wbOutstanding <= wbMax);
#ifdef DEBUG
wbList.insert(sn);
#endif
}
void decrWb(InstSeqNum &sn)
{
if (wbOutstanding-- == wbMax)
ableToIssue = true;
DPRINTF(IEW, "wbOutstanding: %i [sn:%lli]\n", wbOutstanding, sn);
assert(wbOutstanding >= 0);
#ifdef DEBUG
assert(wbList.find(sn) != wbList.end());
wbList.erase(sn);
#endif
}
#ifdef DEBUG
std::set<InstSeqNum> wbList;
void dumpWb()
{
std::set<InstSeqNum>::iterator wb_it = wbList.begin();
while (wb_it != wbList.end()) {
cprintf("[sn:%lli]\n",
(*wb_it));
wb_it++;
}
}
#endif
bool canIssue() { return ableToIssue; }
bool ableToIssue;
/** Check misprediction */
void checkMisprediction(DynInstPtr &inst);
private:
/** Sends commit proper information for a squash due to a branch
* mispredict.
*/
void squashDueToBranch(DynInstPtr &inst, ThreadID tid);
/** Sends commit proper information for a squash due to a memory order
* violation.
*/
void squashDueToMemOrder(DynInstPtr &inst, ThreadID tid);
/** Sends commit proper information for a squash due to memory becoming
* blocked (younger issued instructions must be retried).
*/
void squashDueToMemBlocked(DynInstPtr &inst, ThreadID tid);
/** Sets Dispatch to blocked, and signals back to other stages to block. */
void block(ThreadID tid);
/** Unblocks Dispatch if the skid buffer is empty, and signals back to
* other stages to unblock.
*/
void unblock(ThreadID tid);
/** Determines proper actions to take given Dispatch's status. */
void dispatch(ThreadID tid);
/** Dispatches instructions to IQ and LSQ. */
void dispatchInsts(ThreadID tid);
/** Executes instructions. In the case of memory operations, it informs the
* LSQ to execute the instructions. Also handles any redirects that occur
* due to the executed instructions.
*/
void executeInsts();
/** Writebacks instructions. In our model, the instruction's execute()
* function atomically reads registers, executes, and writes registers.
* Thus this writeback only wakes up dependent instructions, and informs
* the scoreboard of registers becoming ready.
*/
void writebackInsts();
/** Returns the number of valid, non-squashed instructions coming from
* rename to dispatch.
*/
unsigned validInstsFromRename();
/** Reads the stall signals. */
void readStallSignals(ThreadID tid);
/** Checks if any of the stall conditions are currently true. */
bool checkStall(ThreadID tid);
/** Processes inputs and changes state accordingly. */
void checkSignalsAndUpdate(ThreadID tid);
/** Removes instructions from rename from a thread's instruction list. */
void emptyRenameInsts(ThreadID tid);
/** Sorts instructions coming from rename into lists separated by thread. */
void sortInsts();
public:
/** Ticks IEW stage, causing Dispatch, the IQ, the LSQ, Execute, and
* Writeback to run for one cycle.
*/
void tick();
private:
/** Updates execution stats based on the instruction. */
void updateExeInstStats(DynInstPtr &inst);
/** Pointer to main time buffer used for backwards communication. */
TimeBuffer<TimeStruct> *timeBuffer;
/** Wire to write information heading to previous stages. */
typename TimeBuffer<TimeStruct>::wire toFetch;
/** Wire to get commit's output from backwards time buffer. */
typename TimeBuffer<TimeStruct>::wire fromCommit;
/** Wire to write information heading to previous stages. */
typename TimeBuffer<TimeStruct>::wire toRename;
/** Rename instruction queue interface. */
TimeBuffer<RenameStruct> *renameQueue;
/** Wire to get rename's output from rename queue. */
typename TimeBuffer<RenameStruct>::wire fromRename;
/** Issue stage queue. */
TimeBuffer<IssueStruct> issueToExecQueue;
/** Wire to read information from the issue stage time queue. */
typename TimeBuffer<IssueStruct>::wire fromIssue;
/**
* IEW stage time buffer. Holds ROB indices of instructions that
* can be marked as completed.
*/
TimeBuffer<IEWStruct> *iewQueue;
/** Wire to write infromation heading to commit. */
typename TimeBuffer<IEWStruct>::wire toCommit;
/** Queue of all instructions coming from rename this cycle. */
std::queue<DynInstPtr> insts[Impl::MaxThreads];
/** Skid buffer between rename and IEW. */
std::queue<DynInstPtr> skidBuffer[Impl::MaxThreads];
/** Scoreboard pointer. */
Scoreboard* scoreboard;
private:
/** CPU pointer. */
O3CPU *cpu;
/** Records if IEW has written to the time buffer this cycle, so that the
* CPU can deschedule itself if there is no activity.
*/
bool wroteToTimeBuffer;
/** Source of possible stalls. */
struct Stalls {
bool commit;
};
/** Stages that are telling IEW to stall. */
Stalls stalls[Impl::MaxThreads];
/** Debug function to print instructions that are issued this cycle. */
void printAvailableInsts();
public:
/** Instruction queue. */
IQ instQueue;
/** Load / store queue. */
LSQ ldstQueue;
/** Pointer to the functional unit pool. */
FUPool *fuPool;
/** Records if the LSQ needs to be updated on the next cycle, so that
* IEW knows if there will be activity on the next cycle.
*/
bool updateLSQNextCycle;
private:
/** Records if there is a fetch redirect on this cycle for each thread. */
bool fetchRedirect[Impl::MaxThreads];
/** Records if the queues have been changed (inserted or issued insts),
* so that IEW knows to broadcast the updated amount of free entries.
*/
bool updatedQueues;
/** Commit to IEW delay, in ticks. */
unsigned commitToIEWDelay;
/** Rename to IEW delay, in ticks. */
unsigned renameToIEWDelay;
/**
* Issue to execute delay, in ticks. What this actually represents is
* the amount of time it takes for an instruction to wake up, be
* scheduled, and sent to a FU for execution.
*/
unsigned issueToExecuteDelay;
/** Width of dispatch, in instructions. */
unsigned dispatchWidth;
/** Width of issue, in instructions. */
unsigned issueWidth;
/** 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;
/** Number of instructions in flight that will writeback. */
/** Number of instructions in flight that will writeback. */
int wbOutstanding;
/** Writeback width. */
unsigned wbWidth;
/** Writeback width * writeback depth, where writeback depth is
* the number of cycles of writing back instructions that can be
* buffered. */
unsigned wbMax;
/** Number of active threads. */
ThreadID numThreads;
/** Pointer to list of active threads. */
std::list<ThreadID> *activeThreads;
/** Maximum size of the skid buffer. */
unsigned skidBufferMax;
/** Is this stage switched out. */
bool switchedOut;
/** Stat for total number of idle cycles. */
Stats::Scalar iewIdleCycles;
/** Stat for total number of squashing cycles. */
Stats::Scalar iewSquashCycles;
/** Stat for total number of blocking cycles. */
Stats::Scalar iewBlockCycles;
/** Stat for total number of unblocking cycles. */
Stats::Scalar iewUnblockCycles;
/** Stat for total number of instructions dispatched. */
Stats::Scalar iewDispatchedInsts;
/** Stat for total number of squashed instructions dispatch skips. */
Stats::Scalar iewDispSquashedInsts;
/** Stat for total number of dispatched load instructions. */
Stats::Scalar iewDispLoadInsts;
/** Stat for total number of dispatched store instructions. */
Stats::Scalar iewDispStoreInsts;
/** Stat for total number of dispatched non speculative instructions. */
Stats::Scalar iewDispNonSpecInsts;
/** Stat for number of times the IQ becomes full. */
Stats::Scalar iewIQFullEvents;
/** Stat for number of times the LSQ becomes full. */
Stats::Scalar iewLSQFullEvents;
/** Stat for total number of memory ordering violation events. */
Stats::Scalar memOrderViolationEvents;
/** Stat for total number of incorrect predicted taken branches. */
Stats::Scalar predictedTakenIncorrect;
/** Stat for total number of incorrect predicted not taken branches. */
Stats::Scalar predictedNotTakenIncorrect;
/** Stat for total number of mispredicted branches detected at execute. */
Stats::Formula branchMispredicts;
/** Stat for total number of executed instructions. */
Stats::Scalar iewExecutedInsts;
/** Stat for total number of executed load instructions. */
Stats::Vector iewExecLoadInsts;
/** Stat for total number of executed store instructions. */
// Stats::Scalar iewExecStoreInsts;
/** Stat for total number of squashed instructions skipped at execute. */
Stats::Scalar iewExecSquashedInsts;
/** Number of executed software prefetches. */
Stats::Vector iewExecutedSwp;
/** Number of executed nops. */
Stats::Vector iewExecutedNop;
/** Number of executed meomory references. */
Stats::Vector iewExecutedRefs;
/** Number of executed branches. */
Stats::Vector iewExecutedBranches;
/** Number of executed store instructions. */
Stats::Formula iewExecStoreInsts;
/** Number of instructions executed per cycle. */
Stats::Formula iewExecRate;
/** Number of instructions sent to commit. */
Stats::Vector iewInstsToCommit;
/** Number of instructions that writeback. */
Stats::Vector writebackCount;
/** Number of instructions that wake consumers. */
Stats::Vector producerInst;
/** Number of instructions that wake up from producers. */
Stats::Vector consumerInst;
/** Number of instructions that were delayed in writing back due
* to resource contention.
*/
Stats::Vector wbPenalized;
/** Number of instructions per cycle written back. */
Stats::Formula wbRate;
/** Average number of woken instructions per writeback. */
Stats::Formula wbFanout;
/** Number of instructions per cycle delayed in writing back . */
Stats::Formula wbPenalizedRate;
};
#endif // __CPU_O3_IEW_HH__
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