inst_queue.hh revision 5999
11689SN/A/* 22326SN/A * Copyright (c) 2004-2006 The Regents of The University of Michigan 31689SN/A * All rights reserved. 41689SN/A * 51689SN/A * Redistribution and use in source and binary forms, with or without 61689SN/A * modification, are permitted provided that the following conditions are 71689SN/A * met: redistributions of source code must retain the above copyright 81689SN/A * notice, this list of conditions and the following disclaimer; 91689SN/A * redistributions in binary form must reproduce the above copyright 101689SN/A * notice, this list of conditions and the following disclaimer in the 111689SN/A * documentation and/or other materials provided with the distribution; 121689SN/A * neither the name of the copyright holders nor the names of its 131689SN/A * contributors may be used to endorse or promote products derived from 141689SN/A * this software without specific prior written permission. 151689SN/A * 161689SN/A * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS 171689SN/A * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT 181689SN/A * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR 191689SN/A * A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT 201689SN/A * OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, 211689SN/A * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT 221689SN/A * LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, 231689SN/A * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY 241689SN/A * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT 251689SN/A * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE 261689SN/A * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. 272665Ssaidi@eecs.umich.edu * 282665Ssaidi@eecs.umich.edu * Authors: Kevin Lim 291689SN/A */ 301689SN/A 312292SN/A#ifndef __CPU_O3_INST_QUEUE_HH__ 322292SN/A#define __CPU_O3_INST_QUEUE_HH__ 331060SN/A 341060SN/A#include <list> 351061SN/A#include <map> 361060SN/A#include <queue> 371061SN/A#include <vector> 381060SN/A 391062SN/A#include "base/statistics.hh" 401060SN/A#include "base/timebuf.hh" 411061SN/A#include "cpu/inst_seq.hh" 422326SN/A#include "cpu/o3/dep_graph.hh" 432669Sktlim@umich.edu#include "cpu/op_class.hh" 445529Snate@binkert.org#include "sim/eventq.hh" 451710SN/A#include "sim/host.hh" 461060SN/A 475529Snate@binkert.orgclass DerivO3CPUParams; 482292SN/Aclass FUPool; 492292SN/Aclass MemInterface; 502292SN/A 511060SN/A/** 521689SN/A * A standard instruction queue class. It holds ready instructions, in 531689SN/A * order, in seperate priority queues to facilitate the scheduling of 541689SN/A * instructions. The IQ uses a separate linked list to track dependencies. 551689SN/A * Similar to the rename map and the free list, it expects that 561060SN/A * floating point registers have their indices start after the integer 571060SN/A * registers (ie with 96 int and 96 fp registers, regs 0-95 are integer 581060SN/A * and 96-191 are fp). This remains true even for both logical and 592292SN/A * physical register indices. The IQ depends on the memory dependence unit to 602292SN/A * track when memory operations are ready in terms of ordering; register 612292SN/A * dependencies are tracked normally. Right now the IQ also handles the 622292SN/A * execution timing; this is mainly to allow back-to-back scheduling without 632292SN/A * requiring IEW to be able to peek into the IQ. At the end of the execution 642292SN/A * latency, the instruction is put into the queue to execute, where it will 652292SN/A * have the execute() function called on it. 662292SN/A * @todo: Make IQ able to handle multiple FU pools. 671060SN/A */ 681061SN/Atemplate <class Impl> 691060SN/Aclass InstructionQueue 701060SN/A{ 711060SN/A public: 721060SN/A //Typedefs from the Impl. 732733Sktlim@umich.edu typedef typename Impl::O3CPU O3CPU; 741061SN/A typedef typename Impl::DynInstPtr DynInstPtr; 751060SN/A 762292SN/A typedef typename Impl::CPUPol::IEW IEW; 771061SN/A typedef typename Impl::CPUPol::MemDepUnit MemDepUnit; 781061SN/A typedef typename Impl::CPUPol::IssueStruct IssueStruct; 791061SN/A typedef typename Impl::CPUPol::TimeStruct TimeStruct; 801060SN/A 812292SN/A // Typedef of iterator through the list of instructions. 821061SN/A typedef typename std::list<DynInstPtr>::iterator ListIt; 831060SN/A 842733Sktlim@umich.edu friend class Impl::O3CPU; 852292SN/A 862292SN/A /** FU completion event class. */ 872292SN/A class FUCompletion : public Event { 882292SN/A private: 892292SN/A /** Executing instruction. */ 902292SN/A DynInstPtr inst; 912292SN/A 922292SN/A /** Index of the FU used for executing. */ 932292SN/A int fuIdx; 942292SN/A 952292SN/A /** Pointer back to the instruction queue. */ 962292SN/A InstructionQueue<Impl> *iqPtr; 972292SN/A 982348SN/A /** Should the FU be added to the list to be freed upon 992348SN/A * completing this event. 1002348SN/A */ 1012326SN/A bool freeFU; 1022326SN/A 1032292SN/A public: 1042292SN/A /** Construct a FU completion event. */ 1052292SN/A FUCompletion(DynInstPtr &_inst, int fu_idx, 1062292SN/A InstructionQueue<Impl> *iq_ptr); 1072292SN/A 1082292SN/A virtual void process(); 1095336Shines@cs.fsu.edu virtual const char *description() const; 1102326SN/A void setFreeFU() { freeFU = true; } 1111060SN/A }; 1121060SN/A 1132292SN/A /** Constructs an IQ. */ 1145529Snate@binkert.org InstructionQueue(O3CPU *cpu_ptr, IEW *iew_ptr, DerivO3CPUParams *params); 1151061SN/A 1162292SN/A /** Destructs the IQ. */ 1172292SN/A ~InstructionQueue(); 1181061SN/A 1192292SN/A /** Returns the name of the IQ. */ 1202292SN/A std::string name() const; 1211060SN/A 1222292SN/A /** Registers statistics. */ 1231062SN/A void regStats(); 1241062SN/A 1252348SN/A /** Resets all instruction queue state. */ 1262307SN/A void resetState(); 1271060SN/A 1282292SN/A /** Sets active threads list. */ 1292292SN/A void setActiveThreads(std::list<unsigned> *at_ptr); 1302292SN/A 1312292SN/A /** Sets the timer buffer between issue and execute. */ 1321060SN/A void setIssueToExecuteQueue(TimeBuffer<IssueStruct> *i2eQueue); 1331060SN/A 1342292SN/A /** Sets the global time buffer. */ 1351060SN/A void setTimeBuffer(TimeBuffer<TimeStruct> *tb_ptr); 1361060SN/A 1372348SN/A /** Switches out the instruction queue. */ 1382307SN/A void switchOut(); 1392307SN/A 1402348SN/A /** Takes over execution from another CPU's thread. */ 1412307SN/A void takeOverFrom(); 1422307SN/A 1432348SN/A /** Returns if the IQ is switched out. */ 1442307SN/A bool isSwitchedOut() { return switchedOut; } 1452307SN/A 1462292SN/A /** Number of entries needed for given amount of threads. */ 1472292SN/A int entryAmount(int num_threads); 1482292SN/A 1492292SN/A /** Resets max entries for all threads. */ 1502292SN/A void resetEntries(); 1512292SN/A 1522292SN/A /** Returns total number of free entries. */ 1531060SN/A unsigned numFreeEntries(); 1541060SN/A 1552292SN/A /** Returns number of free entries for a thread. */ 1562292SN/A unsigned numFreeEntries(unsigned tid); 1572292SN/A 1582292SN/A /** Returns whether or not the IQ is full. */ 1591060SN/A bool isFull(); 1601060SN/A 1612292SN/A /** Returns whether or not the IQ is full for a specific thread. */ 1622292SN/A bool isFull(unsigned tid); 1632292SN/A 1642292SN/A /** Returns if there are any ready instructions in the IQ. */ 1652292SN/A bool hasReadyInsts(); 1662292SN/A 1672292SN/A /** Inserts a new instruction into the IQ. */ 1681061SN/A void insert(DynInstPtr &new_inst); 1691060SN/A 1702292SN/A /** Inserts a new, non-speculative instruction into the IQ. */ 1711061SN/A void insertNonSpec(DynInstPtr &new_inst); 1721061SN/A 1732292SN/A /** Inserts a memory or write barrier into the IQ to make sure 1742292SN/A * loads and stores are ordered properly. 1752292SN/A */ 1762292SN/A void insertBarrier(DynInstPtr &barr_inst); 1771060SN/A 1782348SN/A /** Returns the oldest scheduled instruction, and removes it from 1792348SN/A * the list of instructions waiting to execute. 1802348SN/A */ 1812333SN/A DynInstPtr getInstToExecute(); 1822333SN/A 1832292SN/A /** 1842326SN/A * Records the instruction as the producer of a register without 1852326SN/A * adding it to the rest of the IQ. 1862292SN/A */ 1872326SN/A void recordProducer(DynInstPtr &inst) 1882326SN/A { addToProducers(inst); } 1891755SN/A 1902292SN/A /** Process FU completion event. */ 1912292SN/A void processFUCompletion(DynInstPtr &inst, int fu_idx); 1922292SN/A 1932292SN/A /** 1942292SN/A * Schedules ready instructions, adding the ready ones (oldest first) to 1952292SN/A * the queue to execute. 1962292SN/A */ 1971060SN/A void scheduleReadyInsts(); 1981060SN/A 1992292SN/A /** Schedules a single specific non-speculative instruction. */ 2001061SN/A void scheduleNonSpec(const InstSeqNum &inst); 2011061SN/A 2022292SN/A /** 2032292SN/A * Commits all instructions up to and including the given sequence number, 2042292SN/A * for a specific thread. 2052292SN/A */ 2062292SN/A void commit(const InstSeqNum &inst, unsigned tid = 0); 2071061SN/A 2082292SN/A /** Wakes all dependents of a completed instruction. */ 2092301SN/A int wakeDependents(DynInstPtr &completed_inst); 2101755SN/A 2112292SN/A /** Adds a ready memory instruction to the ready list. */ 2122292SN/A void addReadyMemInst(DynInstPtr &ready_inst); 2132292SN/A 2142292SN/A /** 2152292SN/A * Reschedules a memory instruction. It will be ready to issue once 2162292SN/A * replayMemInst() is called. 2172292SN/A */ 2182292SN/A void rescheduleMemInst(DynInstPtr &resched_inst); 2192292SN/A 2202292SN/A /** Replays a memory instruction. It must be rescheduled first. */ 2212292SN/A void replayMemInst(DynInstPtr &replay_inst); 2222292SN/A 2232292SN/A /** Completes a memory operation. */ 2242292SN/A void completeMemInst(DynInstPtr &completed_inst); 2252292SN/A 2262292SN/A /** Indicates an ordering violation between a store and a load. */ 2271061SN/A void violation(DynInstPtr &store, DynInstPtr &faulting_load); 2281061SN/A 2292292SN/A /** 2302292SN/A * Squashes instructions for a thread. Squashing information is obtained 2312292SN/A * from the time buffer. 2322292SN/A */ 2332292SN/A void squash(unsigned tid); 2341060SN/A 2352292SN/A /** Returns the number of used entries for a thread. */ 2362292SN/A unsigned getCount(unsigned tid) { return count[tid]; }; 2371060SN/A 2382292SN/A /** Debug function to print all instructions. */ 2392292SN/A void printInsts(); 2401060SN/A 2411060SN/A private: 2422292SN/A /** Does the actual squashing. */ 2432292SN/A void doSquash(unsigned tid); 2442292SN/A 2452292SN/A ///////////////////////// 2462292SN/A // Various pointers 2472292SN/A ///////////////////////// 2482292SN/A 2491060SN/A /** Pointer to the CPU. */ 2502733Sktlim@umich.edu O3CPU *cpu; 2511060SN/A 2522292SN/A /** Cache interface. */ 2532292SN/A MemInterface *dcacheInterface; 2542292SN/A 2552292SN/A /** Pointer to IEW stage. */ 2562292SN/A IEW *iewStage; 2572292SN/A 2581061SN/A /** The memory dependence unit, which tracks/predicts memory dependences 2591061SN/A * between instructions. 2601061SN/A */ 2612292SN/A MemDepUnit memDepUnit[Impl::MaxThreads]; 2621061SN/A 2631060SN/A /** The queue to the execute stage. Issued instructions will be written 2641060SN/A * into it. 2651060SN/A */ 2661060SN/A TimeBuffer<IssueStruct> *issueToExecuteQueue; 2671060SN/A 2681060SN/A /** The backwards time buffer. */ 2691060SN/A TimeBuffer<TimeStruct> *timeBuffer; 2701060SN/A 2711060SN/A /** Wire to read information from timebuffer. */ 2721060SN/A typename TimeBuffer<TimeStruct>::wire fromCommit; 2731060SN/A 2742292SN/A /** Function unit pool. */ 2752292SN/A FUPool *fuPool; 2762292SN/A 2772292SN/A ////////////////////////////////////// 2782292SN/A // Instruction lists, ready queues, and ordering 2792292SN/A ////////////////////////////////////// 2802292SN/A 2812292SN/A /** List of all the instructions in the IQ (some of which may be issued). */ 2822292SN/A std::list<DynInstPtr> instList[Impl::MaxThreads]; 2832292SN/A 2842348SN/A /** List of instructions that are ready to be executed. */ 2852333SN/A std::list<DynInstPtr> instsToExecute; 2862333SN/A 2872292SN/A /** 2882348SN/A * Struct for comparing entries to be added to the priority queue. 2892348SN/A * This gives reverse ordering to the instructions in terms of 2902348SN/A * sequence numbers: the instructions with smaller sequence 2912348SN/A * numbers (and hence are older) will be at the top of the 2922348SN/A * priority queue. 2932292SN/A */ 2942292SN/A struct pqCompare { 2952292SN/A bool operator() (const DynInstPtr &lhs, const DynInstPtr &rhs) const 2962292SN/A { 2972292SN/A return lhs->seqNum > rhs->seqNum; 2982292SN/A } 2991060SN/A }; 3001060SN/A 3012292SN/A typedef std::priority_queue<DynInstPtr, std::vector<DynInstPtr>, pqCompare> 3022292SN/A ReadyInstQueue; 3031755SN/A 3042292SN/A /** List of ready instructions, per op class. They are separated by op 3052292SN/A * class to allow for easy mapping to FUs. 3061061SN/A */ 3072292SN/A ReadyInstQueue readyInsts[Num_OpClasses]; 3081061SN/A 3091061SN/A /** List of non-speculative instructions that will be scheduled 3101061SN/A * once the IQ gets a signal from commit. While it's redundant to 3111061SN/A * have the key be a part of the value (the sequence number is stored 3121061SN/A * inside of DynInst), when these instructions are woken up only 3131681SN/A * the sequence number will be available. Thus it is most efficient to be 3141061SN/A * able to search by the sequence number alone. 3151061SN/A */ 3161061SN/A std::map<InstSeqNum, DynInstPtr> nonSpecInsts; 3171061SN/A 3182292SN/A typedef typename std::map<InstSeqNum, DynInstPtr>::iterator NonSpecMapIt; 3192292SN/A 3202292SN/A /** Entry for the list age ordering by op class. */ 3212292SN/A struct ListOrderEntry { 3222292SN/A OpClass queueType; 3232292SN/A InstSeqNum oldestInst; 3242292SN/A }; 3252292SN/A 3262292SN/A /** List that contains the age order of the oldest instruction of each 3272292SN/A * ready queue. Used to select the oldest instruction available 3282292SN/A * among op classes. 3292326SN/A * @todo: Might be better to just move these entries around instead 3302326SN/A * of creating new ones every time the position changes due to an 3312326SN/A * instruction issuing. Not sure std::list supports this. 3322292SN/A */ 3332292SN/A std::list<ListOrderEntry> listOrder; 3342292SN/A 3352292SN/A typedef typename std::list<ListOrderEntry>::iterator ListOrderIt; 3362292SN/A 3372292SN/A /** Tracks if each ready queue is on the age order list. */ 3382292SN/A bool queueOnList[Num_OpClasses]; 3392292SN/A 3402292SN/A /** Iterators of each ready queue. Points to their spot in the age order 3412292SN/A * list. 3422292SN/A */ 3432292SN/A ListOrderIt readyIt[Num_OpClasses]; 3442292SN/A 3452292SN/A /** Add an op class to the age order list. */ 3462292SN/A void addToOrderList(OpClass op_class); 3472292SN/A 3482292SN/A /** 3492292SN/A * Called when the oldest instruction has been removed from a ready queue; 3502292SN/A * this places that ready queue into the proper spot in the age order list. 3512292SN/A */ 3522292SN/A void moveToYoungerInst(ListOrderIt age_order_it); 3532292SN/A 3542326SN/A DependencyGraph<DynInstPtr> dependGraph; 3552326SN/A 3562292SN/A ////////////////////////////////////// 3572292SN/A // Various parameters 3582292SN/A ////////////////////////////////////// 3592292SN/A 3602292SN/A /** IQ Resource Sharing Policy */ 3612292SN/A enum IQPolicy { 3622292SN/A Dynamic, 3632292SN/A Partitioned, 3642292SN/A Threshold 3652292SN/A }; 3662292SN/A 3672292SN/A /** IQ sharing policy for SMT. */ 3682292SN/A IQPolicy iqPolicy; 3692292SN/A 3702292SN/A /** Number of Total Threads*/ 3712292SN/A unsigned numThreads; 3722292SN/A 3732292SN/A /** Pointer to list of active threads. */ 3742292SN/A std::list<unsigned> *activeThreads; 3752292SN/A 3762292SN/A /** Per Thread IQ count */ 3772292SN/A unsigned count[Impl::MaxThreads]; 3782292SN/A 3792292SN/A /** Max IQ Entries Per Thread */ 3802292SN/A unsigned maxEntries[Impl::MaxThreads]; 3811060SN/A 3821060SN/A /** Number of free IQ entries left. */ 3831060SN/A unsigned freeEntries; 3841060SN/A 3851060SN/A /** The number of entries in the instruction queue. */ 3861060SN/A unsigned numEntries; 3871060SN/A 3881060SN/A /** The total number of instructions that can be issued in one cycle. */ 3891060SN/A unsigned totalWidth; 3901060SN/A 3912292SN/A /** The number of physical registers in the CPU. */ 3921060SN/A unsigned numPhysRegs; 3931060SN/A 3941060SN/A /** The number of physical integer registers in the CPU. */ 3951060SN/A unsigned numPhysIntRegs; 3961060SN/A 3971060SN/A /** The number of floating point registers in the CPU. */ 3981060SN/A unsigned numPhysFloatRegs; 3991060SN/A 4001060SN/A /** Delay between commit stage and the IQ. 4011060SN/A * @todo: Make there be a distinction between the delays within IEW. 4021060SN/A */ 4031060SN/A unsigned commitToIEWDelay; 4041060SN/A 4052348SN/A /** Is the IQ switched out. */ 4062307SN/A bool switchedOut; 4071060SN/A 4081060SN/A /** The sequence number of the squashed instruction. */ 4092292SN/A InstSeqNum squashedSeqNum[Impl::MaxThreads]; 4101060SN/A 4111060SN/A /** A cache of the recently woken registers. It is 1 if the register 4121060SN/A * has been woken up recently, and 0 if the register has been added 4131060SN/A * to the dependency graph and has not yet received its value. It 4141060SN/A * is basically a secondary scoreboard, and should pretty much mirror 4151060SN/A * the scoreboard that exists in the rename map. 4161060SN/A */ 4172292SN/A std::vector<bool> regScoreboard; 4181060SN/A 4192326SN/A /** Adds an instruction to the dependency graph, as a consumer. */ 4201061SN/A bool addToDependents(DynInstPtr &new_inst); 4211684SN/A 4222326SN/A /** Adds an instruction to the dependency graph, as a producer. */ 4232326SN/A void addToProducers(DynInstPtr &new_inst); 4241755SN/A 4252292SN/A /** Moves an instruction to the ready queue if it is ready. */ 4261684SN/A void addIfReady(DynInstPtr &inst); 4271684SN/A 4281684SN/A /** Debugging function to count how many entries are in the IQ. It does 4291684SN/A * a linear walk through the instructions, so do not call this function 4301684SN/A * during normal execution. 4311684SN/A */ 4321684SN/A int countInsts(); 4331684SN/A 4341684SN/A /** Debugging function to dump all the list sizes, as well as print 4351684SN/A * out the list of nonspeculative instructions. Should not be used 4361684SN/A * in any other capacity, but it has no harmful sideaffects. 4371684SN/A */ 4381684SN/A void dumpLists(); 4391062SN/A 4402292SN/A /** Debugging function to dump out all instructions that are in the 4412292SN/A * IQ. 4422292SN/A */ 4432292SN/A void dumpInsts(); 4442292SN/A 4452292SN/A /** Stat for number of instructions added. */ 4465999Snate@binkert.org Stats::Scalar iqInstsAdded; 4472292SN/A /** Stat for number of non-speculative instructions added. */ 4485999Snate@binkert.org Stats::Scalar iqNonSpecInstsAdded; 4492326SN/A 4505999Snate@binkert.org Stats::Scalar iqInstsIssued; 4512292SN/A /** Stat for number of integer instructions issued. */ 4525999Snate@binkert.org Stats::Scalar iqIntInstsIssued; 4532292SN/A /** Stat for number of floating point instructions issued. */ 4545999Snate@binkert.org Stats::Scalar iqFloatInstsIssued; 4552292SN/A /** Stat for number of branch instructions issued. */ 4565999Snate@binkert.org Stats::Scalar iqBranchInstsIssued; 4572292SN/A /** Stat for number of memory instructions issued. */ 4585999Snate@binkert.org Stats::Scalar iqMemInstsIssued; 4592292SN/A /** Stat for number of miscellaneous instructions issued. */ 4605999Snate@binkert.org Stats::Scalar iqMiscInstsIssued; 4612292SN/A /** Stat for number of squashed instructions that were ready to issue. */ 4625999Snate@binkert.org Stats::Scalar iqSquashedInstsIssued; 4632292SN/A /** Stat for number of squashed instructions examined when squashing. */ 4645999Snate@binkert.org Stats::Scalar iqSquashedInstsExamined; 4652292SN/A /** Stat for number of squashed instruction operands examined when 4662292SN/A * squashing. 4672292SN/A */ 4685999Snate@binkert.org Stats::Scalar iqSquashedOperandsExamined; 4692292SN/A /** Stat for number of non-speculative instructions removed due to a squash. 4702292SN/A */ 4715999Snate@binkert.org Stats::Scalar iqSquashedNonSpecRemoved; 4722727Sktlim@umich.edu // Also include number of instructions rescheduled and replayed. 4731062SN/A 4742727Sktlim@umich.edu /** Distribution of number of instructions in the queue. 4752727Sktlim@umich.edu * @todo: Need to create struct to track the entry time for each 4762727Sktlim@umich.edu * instruction. */ 4775999Snate@binkert.org// Stats::VectorDistribution queueResDist; 4782348SN/A /** Distribution of the number of instructions issued. */ 4795999Snate@binkert.org Stats::Distribution numIssuedDist; 4802727Sktlim@umich.edu /** Distribution of the cycles it takes to issue an instruction. 4812727Sktlim@umich.edu * @todo: Need to create struct to track the ready time for each 4822727Sktlim@umich.edu * instruction. */ 4835999Snate@binkert.org// Stats::VectorDistribution issueDelayDist; 4842301SN/A 4852348SN/A /** Number of times an instruction could not be issued because a 4862348SN/A * FU was busy. 4872348SN/A */ 4885999Snate@binkert.org Stats::Vector statFuBusy; 4895999Snate@binkert.org// Stats::Vector dist_unissued; 4902348SN/A /** Stat for total number issued for each instruction type. */ 4915999Snate@binkert.org Stats::Vector2d statIssuedInstType; 4922301SN/A 4932348SN/A /** Number of instructions issued per cycle. */ 4942326SN/A Stats::Formula issueRate; 4952727Sktlim@umich.edu 4962348SN/A /** Number of times the FU was busy. */ 4975999Snate@binkert.org Stats::Vector fuBusy; 4982348SN/A /** Number of times the FU was busy per instruction issued. */ 4992326SN/A Stats::Formula fuBusyRate; 5001060SN/A}; 5011060SN/A 5022292SN/A#endif //__CPU_O3_INST_QUEUE_HH__ 503