508 lines
17 KiB
C++
508 lines
17 KiB
C++
/*
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* Copyright (c) 2004-2006 The Regents of The University of Michigan
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* All rights reserved.
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*
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* Redistribution and use in source and binary forms, with or without
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* modification, are permitted provided that the following conditions are
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* met: redistributions of source code must retain the above copyright
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* notice, this list of conditions and the following disclaimer;
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* redistributions in binary form must reproduce the above copyright
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* notice, this list of conditions and the following disclaimer in the
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* documentation and/or other materials provided with the distribution;
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* neither the name of the copyright holders nor the names of its
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* contributors may be used to endorse or promote products derived from
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* this software without specific prior written permission.
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*
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* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
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* "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
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* LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
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* A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
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* OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
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* SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
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* LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
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* DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
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* THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
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* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
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* OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
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*
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* Authors: Kevin Lim
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*/
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#ifndef __CPU_OZONE_INST_QUEUE_HH__
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#define __CPU_OZONE_INST_QUEUE_HH__
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#include <list>
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#include <map>
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#include <queue>
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#include <vector>
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#include "base/statistics.hh"
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#include "base/types.hh"
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#include "cpu/inst_seq.hh"
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#include "cpu/timebuf.hh"
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class FUPool;
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class MemInterface;
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/**
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* A standard instruction queue class. It holds ready instructions, in
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* order, in seperate priority queues to facilitate the scheduling of
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* instructions. The IQ uses a separate linked list to track dependencies.
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* Similar to the rename map and the free list, it expects that
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* floating point registers have their indices start after the integer
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* registers (ie with 96 int and 96 fp registers, regs 0-95 are integer
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* and 96-191 are fp). This remains true even for both logical and
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* physical register indices. The IQ depends on the memory dependence unit to
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* track when memory operations are ready in terms of ordering; register
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* dependencies are tracked normally. Right now the IQ also handles the
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* execution timing; this is mainly to allow back-to-back scheduling without
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* requiring IEW to be able to peek into the IQ. At the end of the execution
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* latency, the instruction is put into the queue to execute, where it will
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* have the execute() function called on it.
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* @todo: Make IQ able to handle multiple FU pools.
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*/
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template <class Impl>
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class InstQueue
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{
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public:
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//Typedefs from the Impl.
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typedef typename Impl::FullCPU FullCPU;
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typedef typename Impl::DynInstPtr DynInstPtr;
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typedef typename Impl::Params Params;
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typedef typename Impl::IssueStruct IssueStruct;
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/*
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typedef typename Impl::CPUPol::IEW IEW;
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typedef typename Impl::CPUPol::MemDepUnit MemDepUnit;
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typedef typename Impl::CPUPol::IssueStruct IssueStruct;
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typedef typename Impl::CPUPol::TimeStruct TimeStruct;
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*/
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// Typedef of iterator through the list of instructions.
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typedef typename std::list<DynInstPtr>::iterator ListIt;
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friend class Impl::FullCPU;
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#if 0
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/** FU completion event class. */
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class FUCompletion : public Event {
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private:
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/** Executing instruction. */
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DynInstPtr inst;
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/** Index of the FU used for executing. */
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int fuIdx;
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/** Pointer back to the instruction queue. */
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InstQueue<Impl> *iqPtr;
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public:
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/** Construct a FU completion event. */
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FUCompletion(DynInstPtr &_inst, int fu_idx,
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InstQueue<Impl> *iq_ptr);
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virtual void process();
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virtual const char *description() const;
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};
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#endif
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/** Constructs an IQ. */
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InstQueue(Params *params);
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/** Destructs the IQ. */
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~InstQueue();
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/** Returns the name of the IQ. */
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std::string name() const;
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/** Registers statistics. */
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void regStats();
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/** Sets CPU pointer. */
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void setCPU(FullCPU *_cpu) { cpu = _cpu; }
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#if 0
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/** Sets active threads list. */
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void setActiveThreads(list<unsigned> *at_ptr);
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/** Sets the IEW pointer. */
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void setIEW(IEW *iew_ptr) { iewStage = iew_ptr; }
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#endif
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/** Sets the timer buffer between issue and execute. */
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void setIssueToExecuteQueue(TimeBuffer<IssueStruct> *i2eQueue);
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#if 0
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/** Sets the global time buffer. */
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void setTimeBuffer(TimeBuffer<TimeStruct> *tb_ptr);
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/** Number of entries needed for given amount of threads. */
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int entryAmount(ThreadID num_threads);
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/** Resets max entries for all threads. */
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void resetEntries();
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#endif
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/** Returns total number of free entries. */
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unsigned numFreeEntries();
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/** Returns number of free entries for a thread. */
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unsigned numFreeEntries(ThreadID tid);
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/** Returns whether or not the IQ is full. */
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bool isFull();
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/** Returns whether or not the IQ is full for a specific thread. */
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bool isFull(ThreadID tid);
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/** Returns if there are any ready instructions in the IQ. */
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bool hasReadyInsts();
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/** Inserts a new instruction into the IQ. */
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void insert(DynInstPtr &new_inst);
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/** Inserts a new, non-speculative instruction into the IQ. */
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void insertNonSpec(DynInstPtr &new_inst);
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#if 0
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/**
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* Advances the tail of the IQ, used if an instruction is not added to the
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* IQ for scheduling.
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* @todo: Rename this function.
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*/
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void advanceTail(DynInstPtr &inst);
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/** Process FU completion event. */
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void processFUCompletion(DynInstPtr &inst, int fu_idx);
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#endif
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/**
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* Schedules ready instructions, adding the ready ones (oldest first) to
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* the queue to execute.
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*/
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void scheduleReadyInsts();
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/** Schedules a single specific non-speculative instruction. */
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void scheduleNonSpec(const InstSeqNum &inst);
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/**
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* Commits all instructions up to and including the given sequence number,
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* for a specific thread.
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*/
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void commit(const InstSeqNum &inst, ThreadID tid = 0);
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/** Wakes all dependents of a completed instruction. */
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void wakeDependents(DynInstPtr &completed_inst);
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/** Adds a ready memory instruction to the ready list. */
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void addReadyMemInst(DynInstPtr &ready_inst);
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#if 0
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/**
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* Reschedules a memory instruction. It will be ready to issue once
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* replayMemInst() is called.
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*/
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void rescheduleMemInst(DynInstPtr &resched_inst);
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/** Replays a memory instruction. It must be rescheduled first. */
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void replayMemInst(DynInstPtr &replay_inst);
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#endif
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/** Completes a memory operation. */
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void completeMemInst(DynInstPtr &completed_inst);
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#if 0
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/** Indicates an ordering violation between a store and a load. */
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void violation(DynInstPtr &store, DynInstPtr &faulting_load);
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#endif
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/**
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* Squashes instructions for a thread. Squashing information is obtained
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* from the time buffer.
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*/
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void squash(ThreadID tid); // Probably want the ISN
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/** Returns the number of used entries for a thread. */
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unsigned getCount(ThreadID tid) { return count[tid]; };
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/** Updates the number of free entries. */
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void updateFreeEntries(int num) { freeEntries += num; }
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/** Debug function to print all instructions. */
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void printInsts();
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private:
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/** Does the actual squashing. */
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void doSquash(ThreadID tid);
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/////////////////////////
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// Various pointers
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/////////////////////////
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/** Pointer to the CPU. */
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FullCPU *cpu;
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/** Cache interface. */
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MemInterface *dcacheInterface;
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#if 0
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/** Pointer to IEW stage. */
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IEW *iewStage;
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/** The memory dependence unit, which tracks/predicts memory dependences
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* between instructions.
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*/
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MemDepUnit memDepUnit[Impl::MaxThreads];
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#endif
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/** The queue to the execute stage. Issued instructions will be written
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* into it.
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*/
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TimeBuffer<IssueStruct> *issueToExecuteQueue;
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#if 0
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/** The backwards time buffer. */
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TimeBuffer<TimeStruct> *timeBuffer;
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/** Wire to read information from timebuffer. */
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typename TimeBuffer<TimeStruct>::wire fromCommit;
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/** Function unit pool. */
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FUPool *fuPool;
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#endif
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//////////////////////////////////////
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// Instruction lists, ready queues, and ordering
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//////////////////////////////////////
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/** List of all the instructions in the IQ (some of which may be issued). */
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std::list<DynInstPtr> instList[Impl::MaxThreads];
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/**
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* Struct for comparing entries to be added to the priority queue. This
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* gives reverse ordering to the instructions in terms of sequence
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* numbers: the instructions with smaller sequence numbers (and hence
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* are older) will be at the top of the priority queue.
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*/
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struct pqCompare {
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bool operator() (const DynInstPtr &lhs, const DynInstPtr &rhs) const
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{
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return lhs->seqNum > rhs->seqNum;
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}
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};
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/**
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* Struct for an IQ entry. It includes the instruction and an iterator
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* to the instruction's spot in the IQ.
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*/
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struct IQEntry {
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DynInstPtr inst;
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ListIt iqIt;
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};
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typedef std::priority_queue<DynInstPtr, std::vector<DynInstPtr>, pqCompare>
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ReadyInstQueue;
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typedef std::map<DynInstPtr, pqCompare> ReadyInstMap;
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typedef typename std::map<DynInstPtr, pqCompare>::iterator ReadyMapIt;
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/** List of ready instructions.
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*/
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ReadyInstQueue readyInsts;
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/** List of non-speculative instructions that will be scheduled
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* once the IQ gets a signal from commit. While it's redundant to
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* have the key be a part of the value (the sequence number is stored
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* inside of DynInst), when these instructions are woken up only
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* the sequence number will be available. Thus it is most efficient to be
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* able to search by the sequence number alone.
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*/
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std::map<InstSeqNum, DynInstPtr> nonSpecInsts;
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typedef typename std::map<InstSeqNum, DynInstPtr>::iterator NonSpecMapIt;
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#if 0
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/** Entry for the list age ordering by op class. */
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struct ListOrderEntry {
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OpClass queueType;
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InstSeqNum oldestInst;
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};
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/** List that contains the age order of the oldest instruction of each
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* ready queue. Used to select the oldest instruction available
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* among op classes.
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*/
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std::list<ListOrderEntry> listOrder;
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typedef typename std::list<ListOrderEntry>::iterator ListOrderIt;
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/** Tracks if each ready queue is on the age order list. */
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bool queueOnList[Num_OpClasses];
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/** Iterators of each ready queue. Points to their spot in the age order
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* list.
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*/
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ListOrderIt readyIt[Num_OpClasses];
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/** Add an op class to the age order list. */
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void addToOrderList(OpClass op_class);
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/**
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* Called when the oldest instruction has been removed from a ready queue;
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* this places that ready queue into the proper spot in the age order list.
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*/
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void moveToYoungerInst(ListOrderIt age_order_it);
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#endif
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//////////////////////////////////////
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// Various parameters
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//////////////////////////////////////
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#if 0
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/** IQ Resource Sharing Policy */
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enum IQPolicy {
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Dynamic,
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Partitioned,
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Threshold
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};
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/** IQ sharing policy for SMT. */
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IQPolicy iqPolicy;
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#endif
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/** Number of Total Threads*/
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unsigned numThreads;
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#if 0
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/** Pointer to list of active threads. */
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list<unsigned> *activeThreads;
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#endif
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/** Per Thread IQ count */
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unsigned count[Impl::MaxThreads];
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/** Max IQ Entries Per Thread */
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unsigned maxEntries[Impl::MaxThreads];
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/** Number of free IQ entries left. */
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unsigned freeEntries;
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/** The number of entries in the instruction queue. */
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unsigned numEntries;
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/** The total number of instructions that can be issued in one cycle. */
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unsigned totalWidth;
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#if 0
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/** The number of physical registers in the CPU. */
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unsigned numPhysRegs;
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/** The number of physical integer registers in the CPU. */
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unsigned numPhysIntRegs;
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/** The number of floating point registers in the CPU. */
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unsigned numPhysFloatRegs;
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#endif
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/** Delay between commit stage and the IQ.
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* @todo: Make there be a distinction between the delays within IEW.
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*/
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unsigned commitToIEWDelay;
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//////////////////////////////////
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// Variables needed for squashing
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//////////////////////////////////
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/** The sequence number of the squashed instruction. */
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InstSeqNum squashedSeqNum[Impl::MaxThreads];
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/** Iterator that points to the last instruction that has been squashed.
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* This will not be valid unless the IQ is in the process of squashing.
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*/
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ListIt squashIt[Impl::MaxThreads];
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#if 0
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///////////////////////////////////
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// Dependency graph stuff
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///////////////////////////////////
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class DependencyEntry
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{
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public:
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DependencyEntry()
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: inst(NULL), next(NULL)
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{ }
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DynInstPtr inst;
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//Might want to include data about what arch. register the
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//dependence is waiting on.
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DependencyEntry *next;
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//This function, and perhaps this whole class, stand out a little
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//bit as they don't fit a classification well. I want access
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//to the underlying structure of the linked list, yet at
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//the same time it feels like this should be something abstracted
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//away. So for now it will sit here, within the IQ, until
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//a better implementation is decided upon.
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// This function probably shouldn't be within the entry...
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void insert(DynInstPtr &new_inst);
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void remove(DynInstPtr &inst_to_remove);
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// Debug variable, remove when done testing.
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static unsigned mem_alloc_counter;
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};
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/** Array of linked lists. Each linked list is a list of all the
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* instructions that depend upon a given register. The actual
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* register's index is used to index into the graph; ie all
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* instructions in flight that are dependent upon r34 will be
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* in the linked list of dependGraph[34].
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*/
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DependencyEntry *dependGraph;
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/** A cache of the recently woken registers. It is 1 if the register
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* has been woken up recently, and 0 if the register has been added
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* to the dependency graph and has not yet received its value. It
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* is basically a secondary scoreboard, and should pretty much mirror
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* the scoreboard that exists in the rename map.
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*/
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vector<bool> regScoreboard;
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/** Adds an instruction to the dependency graph, as a producer. */
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bool addToDependents(DynInstPtr &new_inst);
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/** Adds an instruction to the dependency graph, as a consumer. */
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void createDependency(DynInstPtr &new_inst);
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#endif
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/** Moves an instruction to the ready queue if it is ready. */
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void addIfReady(DynInstPtr &inst);
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/** Debugging function to count how many entries are in the IQ. It does
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* a linear walk through the instructions, so do not call this function
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* during normal execution.
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*/
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int countInsts();
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#if 0
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/** Debugging function to dump out the dependency graph.
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*/
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void dumpDependGraph();
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#endif
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/** Debugging function to dump all the list sizes, as well as print
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* out the list of nonspeculative instructions. Should not be used
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* in any other capacity, but it has no harmful sideaffects.
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*/
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void dumpLists();
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/** Debugging function to dump out all instructions that are in the
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* IQ.
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*/
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void dumpInsts();
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/** Stat for number of instructions added. */
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Stats::Scalar iqInstsAdded;
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/** Stat for number of non-speculative instructions added. */
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Stats::Scalar iqNonSpecInstsAdded;
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// Stats::Scalar iqIntInstsAdded;
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/** Stat for number of integer instructions issued. */
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Stats::Scalar iqIntInstsIssued;
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// Stats::Scalar iqFloatInstsAdded;
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/** Stat for number of floating point instructions issued. */
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Stats::Scalar iqFloatInstsIssued;
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// Stats::Scalar iqBranchInstsAdded;
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/** Stat for number of branch instructions issued. */
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Stats::Scalar iqBranchInstsIssued;
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// Stats::Scalar iqMemInstsAdded;
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/** Stat for number of memory instructions issued. */
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Stats::Scalar iqMemInstsIssued;
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// Stats::Scalar iqMiscInstsAdded;
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/** Stat for number of miscellaneous instructions issued. */
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Stats::Scalar iqMiscInstsIssued;
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/** Stat for number of squashed instructions that were ready to issue. */
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Stats::Scalar iqSquashedInstsIssued;
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/** Stat for number of squashed instructions examined when squashing. */
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Stats::Scalar iqSquashedInstsExamined;
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/** Stat for number of squashed instruction operands examined when
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* squashing.
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*/
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Stats::Scalar iqSquashedOperandsExamined;
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/** Stat for number of non-speculative instructions removed due to a squash.
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*/
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Stats::Scalar iqSquashedNonSpecRemoved;
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};
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#endif //__CPU_OZONE_INST_QUEUE_HH__
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