decode_impl.hh revision 10172
1/*
2 * Copyright (c) 2012 ARM Limited
3 * All rights reserved
4 *
5 * The license below extends only to copyright in the software and shall
6 * not be construed as granting a license to any other intellectual
7 * property including but not limited to intellectual property relating
8 * to a hardware implementation of the functionality of the software
9 * licensed hereunder.  You may use the software subject to the license
10 * terms below provided that you ensure that this notice is replicated
11 * unmodified and in its entirety in all distributions of the software,
12 * modified or unmodified, in source code or in binary form.
13 *
14 * Copyright (c) 2004-2006 The Regents of The University of Michigan
15 * All rights reserved.
16 *
17 * Redistribution and use in source and binary forms, with or without
18 * modification, are permitted provided that the following conditions are
19 * met: redistributions of source code must retain the above copyright
20 * notice, this list of conditions and the following disclaimer;
21 * redistributions in binary form must reproduce the above copyright
22 * notice, this list of conditions and the following disclaimer in the
23 * documentation and/or other materials provided with the distribution;
24 * neither the name of the copyright holders nor the names of its
25 * contributors may be used to endorse or promote products derived from
26 * this software without specific prior written permission.
27 *
28 * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
29 * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
30 * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
31 * A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
32 * OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
33 * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
34 * LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
35 * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
36 * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
37 * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
38 * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
39 *
40 * Authors: Kevin Lim
41 */
42
43#ifndef __CPU_O3_DECODE_IMPL_HH__
44#define __CPU_O3_DECODE_IMPL_HH__
45
46#include "arch/types.hh"
47#include "base/trace.hh"
48#include "config/the_isa.hh"
49#include "cpu/o3/decode.hh"
50#include "cpu/inst_seq.hh"
51#include "debug/Activity.hh"
52#include "debug/Decode.hh"
53#include "debug/O3PipeView.hh"
54#include "params/DerivO3CPU.hh"
55#include "sim/full_system.hh"
56
57// clang complains about std::set being overloaded with Packet::set if
58// we open up the entire namespace std
59using std::list;
60
61template<class Impl>
62DefaultDecode<Impl>::DefaultDecode(O3CPU *_cpu, DerivO3CPUParams *params)
63    : cpu(_cpu),
64      renameToDecodeDelay(params->renameToDecodeDelay),
65      iewToDecodeDelay(params->iewToDecodeDelay),
66      commitToDecodeDelay(params->commitToDecodeDelay),
67      fetchToDecodeDelay(params->fetchToDecodeDelay),
68      decodeWidth(params->decodeWidth),
69      numThreads(params->numThreads)
70{
71    if (decodeWidth > Impl::MaxWidth)
72        fatal("decodeWidth (%d) is larger than compiled limit (%d),\n"
73             "\tincrease MaxWidth in src/cpu/o3/impl.hh\n",
74             decodeWidth, static_cast<int>(Impl::MaxWidth));
75
76    // @todo: Make into a parameter
77    skidBufferMax = (fetchToDecodeDelay + 1) *  params->fetchWidth;
78}
79
80template<class Impl>
81void
82DefaultDecode<Impl>::startupStage()
83{
84    resetStage();
85}
86
87template<class Impl>
88void
89DefaultDecode<Impl>::resetStage()
90{
91    _status = Inactive;
92
93    // Setup status, make sure stall signals are clear.
94    for (ThreadID tid = 0; tid < numThreads; ++tid) {
95        decodeStatus[tid] = Idle;
96
97        stalls[tid].rename = false;
98        stalls[tid].iew = false;
99        stalls[tid].commit = false;
100    }
101}
102
103template <class Impl>
104std::string
105DefaultDecode<Impl>::name() const
106{
107    return cpu->name() + ".decode";
108}
109
110template <class Impl>
111void
112DefaultDecode<Impl>::regStats()
113{
114    decodeIdleCycles
115        .name(name() + ".IdleCycles")
116        .desc("Number of cycles decode is idle")
117        .prereq(decodeIdleCycles);
118    decodeBlockedCycles
119        .name(name() + ".BlockedCycles")
120        .desc("Number of cycles decode is blocked")
121        .prereq(decodeBlockedCycles);
122    decodeRunCycles
123        .name(name() + ".RunCycles")
124        .desc("Number of cycles decode is running")
125        .prereq(decodeRunCycles);
126    decodeUnblockCycles
127        .name(name() + ".UnblockCycles")
128        .desc("Number of cycles decode is unblocking")
129        .prereq(decodeUnblockCycles);
130    decodeSquashCycles
131        .name(name() + ".SquashCycles")
132        .desc("Number of cycles decode is squashing")
133        .prereq(decodeSquashCycles);
134    decodeBranchResolved
135        .name(name() + ".BranchResolved")
136        .desc("Number of times decode resolved a branch")
137        .prereq(decodeBranchResolved);
138    decodeBranchMispred
139        .name(name() + ".BranchMispred")
140        .desc("Number of times decode detected a branch misprediction")
141        .prereq(decodeBranchMispred);
142    decodeControlMispred
143        .name(name() + ".ControlMispred")
144        .desc("Number of times decode detected an instruction incorrectly"
145              " predicted as a control")
146        .prereq(decodeControlMispred);
147    decodeDecodedInsts
148        .name(name() + ".DecodedInsts")
149        .desc("Number of instructions handled by decode")
150        .prereq(decodeDecodedInsts);
151    decodeSquashedInsts
152        .name(name() + ".SquashedInsts")
153        .desc("Number of squashed instructions handled by decode")
154        .prereq(decodeSquashedInsts);
155}
156
157template<class Impl>
158void
159DefaultDecode<Impl>::setTimeBuffer(TimeBuffer<TimeStruct> *tb_ptr)
160{
161    timeBuffer = tb_ptr;
162
163    // Setup wire to write information back to fetch.
164    toFetch = timeBuffer->getWire(0);
165
166    // Create wires to get information from proper places in time buffer.
167    fromRename = timeBuffer->getWire(-renameToDecodeDelay);
168    fromIEW = timeBuffer->getWire(-iewToDecodeDelay);
169    fromCommit = timeBuffer->getWire(-commitToDecodeDelay);
170}
171
172template<class Impl>
173void
174DefaultDecode<Impl>::setDecodeQueue(TimeBuffer<DecodeStruct> *dq_ptr)
175{
176    decodeQueue = dq_ptr;
177
178    // Setup wire to write information to proper place in decode queue.
179    toRename = decodeQueue->getWire(0);
180}
181
182template<class Impl>
183void
184DefaultDecode<Impl>::setFetchQueue(TimeBuffer<FetchStruct> *fq_ptr)
185{
186    fetchQueue = fq_ptr;
187
188    // Setup wire to read information from fetch queue.
189    fromFetch = fetchQueue->getWire(-fetchToDecodeDelay);
190}
191
192template<class Impl>
193void
194DefaultDecode<Impl>::setActiveThreads(std::list<ThreadID> *at_ptr)
195{
196    activeThreads = at_ptr;
197}
198
199template <class Impl>
200void
201DefaultDecode<Impl>::drainSanityCheck() const
202{
203    for (ThreadID tid = 0; tid < numThreads; ++tid) {
204        assert(insts[tid].empty());
205        assert(skidBuffer[tid].empty());
206    }
207}
208
209template<class Impl>
210bool
211DefaultDecode<Impl>::checkStall(ThreadID tid) const
212{
213    bool ret_val = false;
214
215    if (stalls[tid].rename) {
216        DPRINTF(Decode,"[tid:%i]: Stall fom Rename stage detected.\n", tid);
217        ret_val = true;
218    } else if (stalls[tid].iew) {
219        DPRINTF(Decode,"[tid:%i]: Stall fom IEW stage detected.\n", tid);
220        ret_val = true;
221    } else if (stalls[tid].commit) {
222        DPRINTF(Decode,"[tid:%i]: Stall fom Commit stage detected.\n", tid);
223        ret_val = true;
224    }
225
226    return ret_val;
227}
228
229template<class Impl>
230inline bool
231DefaultDecode<Impl>::fetchInstsValid()
232{
233    return fromFetch->size > 0;
234}
235
236template<class Impl>
237bool
238DefaultDecode<Impl>::block(ThreadID tid)
239{
240    DPRINTF(Decode, "[tid:%u]: Blocking.\n", tid);
241
242    // Add the current inputs to the skid buffer so they can be
243    // reprocessed when this stage unblocks.
244    skidInsert(tid);
245
246    // If the decode status is blocked or unblocking then decode has not yet
247    // signalled fetch to unblock. In that case, there is no need to tell
248    // fetch to block.
249    if (decodeStatus[tid] != Blocked) {
250        // Set the status to Blocked.
251        decodeStatus[tid] = Blocked;
252
253        if (toFetch->decodeUnblock[tid]) {
254            toFetch->decodeUnblock[tid] = false;
255        } else {
256            toFetch->decodeBlock[tid] = true;
257            wroteToTimeBuffer = true;
258        }
259
260        return true;
261    }
262
263    return false;
264}
265
266template<class Impl>
267bool
268DefaultDecode<Impl>::unblock(ThreadID tid)
269{
270    // Decode is done unblocking only if the skid buffer is empty.
271    if (skidBuffer[tid].empty()) {
272        DPRINTF(Decode, "[tid:%u]: Done unblocking.\n", tid);
273        toFetch->decodeUnblock[tid] = true;
274        wroteToTimeBuffer = true;
275
276        decodeStatus[tid] = Running;
277        return true;
278    }
279
280    DPRINTF(Decode, "[tid:%u]: Currently unblocking.\n", tid);
281
282    return false;
283}
284
285template<class Impl>
286void
287DefaultDecode<Impl>::squash(DynInstPtr &inst, ThreadID tid)
288{
289    DPRINTF(Decode, "[tid:%i]: [sn:%i] Squashing due to incorrect branch "
290            "prediction detected at decode.\n", tid, inst->seqNum);
291
292    // Send back mispredict information.
293    toFetch->decodeInfo[tid].branchMispredict = true;
294    toFetch->decodeInfo[tid].predIncorrect = true;
295    toFetch->decodeInfo[tid].mispredictInst = inst;
296    toFetch->decodeInfo[tid].squash = true;
297    toFetch->decodeInfo[tid].doneSeqNum = inst->seqNum;
298    toFetch->decodeInfo[tid].nextPC = inst->branchTarget();
299    toFetch->decodeInfo[tid].branchTaken = inst->pcState().branching();
300    toFetch->decodeInfo[tid].squashInst = inst;
301    if (toFetch->decodeInfo[tid].mispredictInst->isUncondCtrl()) {
302            toFetch->decodeInfo[tid].branchTaken = true;
303    }
304
305    InstSeqNum squash_seq_num = inst->seqNum;
306
307    // Might have to tell fetch to unblock.
308    if (decodeStatus[tid] == Blocked ||
309        decodeStatus[tid] == Unblocking) {
310        toFetch->decodeUnblock[tid] = 1;
311    }
312
313    // Set status to squashing.
314    decodeStatus[tid] = Squashing;
315
316    for (int i=0; i<fromFetch->size; i++) {
317        if (fromFetch->insts[i]->threadNumber == tid &&
318            fromFetch->insts[i]->seqNum > squash_seq_num) {
319            fromFetch->insts[i]->setSquashed();
320        }
321    }
322
323    // Clear the instruction list and skid buffer in case they have any
324    // insts in them.
325    while (!insts[tid].empty()) {
326        insts[tid].pop();
327    }
328
329    while (!skidBuffer[tid].empty()) {
330        skidBuffer[tid].pop();
331    }
332
333    // Squash instructions up until this one
334    cpu->removeInstsUntil(squash_seq_num, tid);
335}
336
337template<class Impl>
338unsigned
339DefaultDecode<Impl>::squash(ThreadID tid)
340{
341    DPRINTF(Decode, "[tid:%i]: Squashing.\n",tid);
342
343    if (decodeStatus[tid] == Blocked ||
344        decodeStatus[tid] == Unblocking) {
345        if (FullSystem) {
346            toFetch->decodeUnblock[tid] = 1;
347        } else {
348            // In syscall emulation, we can have both a block and a squash due
349            // to a syscall in the same cycle.  This would cause both signals
350            // to be high.  This shouldn't happen in full system.
351            // @todo: Determine if this still happens.
352            if (toFetch->decodeBlock[tid])
353                toFetch->decodeBlock[tid] = 0;
354            else
355                toFetch->decodeUnblock[tid] = 1;
356        }
357    }
358
359    // Set status to squashing.
360    decodeStatus[tid] = Squashing;
361
362    // Go through incoming instructions from fetch and squash them.
363    unsigned squash_count = 0;
364
365    for (int i=0; i<fromFetch->size; i++) {
366        if (fromFetch->insts[i]->threadNumber == tid) {
367            fromFetch->insts[i]->setSquashed();
368            squash_count++;
369        }
370    }
371
372    // Clear the instruction list and skid buffer in case they have any
373    // insts in them.
374    while (!insts[tid].empty()) {
375        insts[tid].pop();
376    }
377
378    while (!skidBuffer[tid].empty()) {
379        skidBuffer[tid].pop();
380    }
381
382    return squash_count;
383}
384
385template<class Impl>
386void
387DefaultDecode<Impl>::skidInsert(ThreadID tid)
388{
389    DynInstPtr inst = NULL;
390
391    while (!insts[tid].empty()) {
392        inst = insts[tid].front();
393
394        insts[tid].pop();
395
396        assert(tid == inst->threadNumber);
397
398        DPRINTF(Decode,"Inserting [sn:%lli] PC: %s into decode skidBuffer %i\n",
399                inst->seqNum, inst->pcState(), inst->threadNumber);
400
401        skidBuffer[tid].push(inst);
402    }
403
404    // @todo: Eventually need to enforce this by not letting a thread
405    // fetch past its skidbuffer
406    assert(skidBuffer[tid].size() <= skidBufferMax);
407}
408
409template<class Impl>
410bool
411DefaultDecode<Impl>::skidsEmpty()
412{
413    list<ThreadID>::iterator threads = activeThreads->begin();
414    list<ThreadID>::iterator end = activeThreads->end();
415
416    while (threads != end) {
417        ThreadID tid = *threads++;
418        if (!skidBuffer[tid].empty())
419            return false;
420    }
421
422    return true;
423}
424
425template<class Impl>
426void
427DefaultDecode<Impl>::updateStatus()
428{
429    bool any_unblocking = false;
430
431    list<ThreadID>::iterator threads = activeThreads->begin();
432    list<ThreadID>::iterator end = activeThreads->end();
433
434    while (threads != end) {
435        ThreadID tid = *threads++;
436
437        if (decodeStatus[tid] == Unblocking) {
438            any_unblocking = true;
439            break;
440        }
441    }
442
443    // Decode will have activity if it's unblocking.
444    if (any_unblocking) {
445        if (_status == Inactive) {
446            _status = Active;
447
448            DPRINTF(Activity, "Activating stage.\n");
449
450            cpu->activateStage(O3CPU::DecodeIdx);
451        }
452    } else {
453        // If it's not unblocking, then decode will not have any internal
454        // activity.  Switch it to inactive.
455        if (_status == Active) {
456            _status = Inactive;
457            DPRINTF(Activity, "Deactivating stage.\n");
458
459            cpu->deactivateStage(O3CPU::DecodeIdx);
460        }
461    }
462}
463
464template <class Impl>
465void
466DefaultDecode<Impl>::sortInsts()
467{
468    int insts_from_fetch = fromFetch->size;
469    for (int i = 0; i < insts_from_fetch; ++i) {
470        insts[fromFetch->insts[i]->threadNumber].push(fromFetch->insts[i]);
471    }
472}
473
474template<class Impl>
475void
476DefaultDecode<Impl>::readStallSignals(ThreadID tid)
477{
478    if (fromRename->renameBlock[tid]) {
479        stalls[tid].rename = true;
480    }
481
482    if (fromRename->renameUnblock[tid]) {
483        assert(stalls[tid].rename);
484        stalls[tid].rename = false;
485    }
486
487    if (fromIEW->iewBlock[tid]) {
488        stalls[tid].iew = true;
489    }
490
491    if (fromIEW->iewUnblock[tid]) {
492        assert(stalls[tid].iew);
493        stalls[tid].iew = false;
494    }
495
496    if (fromCommit->commitBlock[tid]) {
497        stalls[tid].commit = true;
498    }
499
500    if (fromCommit->commitUnblock[tid]) {
501        assert(stalls[tid].commit);
502        stalls[tid].commit = false;
503    }
504}
505
506template <class Impl>
507bool
508DefaultDecode<Impl>::checkSignalsAndUpdate(ThreadID tid)
509{
510    // Check if there's a squash signal, squash if there is.
511    // Check stall signals, block if necessary.
512    // If status was blocked
513    //     Check if stall conditions have passed
514    //         if so then go to unblocking
515    // If status was Squashing
516    //     check if squashing is not high.  Switch to running this cycle.
517
518    // Update the per thread stall statuses.
519    readStallSignals(tid);
520
521    // Check squash signals from commit.
522    if (fromCommit->commitInfo[tid].squash) {
523
524        DPRINTF(Decode, "[tid:%u]: Squashing instructions due to squash "
525                "from commit.\n", tid);
526
527        squash(tid);
528
529        return true;
530    }
531
532    // Check ROB squash signals from commit.
533    if (fromCommit->commitInfo[tid].robSquashing) {
534        DPRINTF(Decode, "[tid:%u]: ROB is still squashing.\n", tid);
535
536        // Continue to squash.
537        decodeStatus[tid] = Squashing;
538
539        return true;
540    }
541
542    if (checkStall(tid)) {
543        return block(tid);
544    }
545
546    if (decodeStatus[tid] == Blocked) {
547        DPRINTF(Decode, "[tid:%u]: Done blocking, switching to unblocking.\n",
548                tid);
549
550        decodeStatus[tid] = Unblocking;
551
552        unblock(tid);
553
554        return true;
555    }
556
557    if (decodeStatus[tid] == Squashing) {
558        // Switch status to running if decode isn't being told to block or
559        // squash this cycle.
560        DPRINTF(Decode, "[tid:%u]: Done squashing, switching to running.\n",
561                tid);
562
563        decodeStatus[tid] = Running;
564
565        return false;
566    }
567
568    // If we've reached this point, we have not gotten any signals that
569    // cause decode to change its status.  Decode remains the same as before.
570    return false;
571}
572
573template<class Impl>
574void
575DefaultDecode<Impl>::tick()
576{
577    wroteToTimeBuffer = false;
578
579    bool status_change = false;
580
581    toRenameIndex = 0;
582
583    list<ThreadID>::iterator threads = activeThreads->begin();
584    list<ThreadID>::iterator end = activeThreads->end();
585
586    sortInsts();
587
588    //Check stall and squash signals.
589    while (threads != end) {
590        ThreadID tid = *threads++;
591
592        DPRINTF(Decode,"Processing [tid:%i]\n",tid);
593        status_change =  checkSignalsAndUpdate(tid) || status_change;
594
595        decode(status_change, tid);
596    }
597
598    if (status_change) {
599        updateStatus();
600    }
601
602    if (wroteToTimeBuffer) {
603        DPRINTF(Activity, "Activity this cycle.\n");
604
605        cpu->activityThisCycle();
606    }
607}
608
609template<class Impl>
610void
611DefaultDecode<Impl>::decode(bool &status_change, ThreadID tid)
612{
613    // If status is Running or idle,
614    //     call decodeInsts()
615    // If status is Unblocking,
616    //     buffer any instructions coming from fetch
617    //     continue trying to empty skid buffer
618    //     check if stall conditions have passed
619
620    if (decodeStatus[tid] == Blocked) {
621        ++decodeBlockedCycles;
622    } else if (decodeStatus[tid] == Squashing) {
623        ++decodeSquashCycles;
624    }
625
626    // Decode should try to decode as many instructions as its bandwidth
627    // will allow, as long as it is not currently blocked.
628    if (decodeStatus[tid] == Running ||
629        decodeStatus[tid] == Idle) {
630        DPRINTF(Decode, "[tid:%u]: Not blocked, so attempting to run "
631                "stage.\n",tid);
632
633        decodeInsts(tid);
634    } else if (decodeStatus[tid] == Unblocking) {
635        // Make sure that the skid buffer has something in it if the
636        // status is unblocking.
637        assert(!skidsEmpty());
638
639        // If the status was unblocking, then instructions from the skid
640        // buffer were used.  Remove those instructions and handle
641        // the rest of unblocking.
642        decodeInsts(tid);
643
644        if (fetchInstsValid()) {
645            // Add the current inputs to the skid buffer so they can be
646            // reprocessed when this stage unblocks.
647            skidInsert(tid);
648        }
649
650        status_change = unblock(tid) || status_change;
651    }
652}
653
654template <class Impl>
655void
656DefaultDecode<Impl>::decodeInsts(ThreadID tid)
657{
658    // Instructions can come either from the skid buffer or the list of
659    // instructions coming from fetch, depending on decode's status.
660    int insts_available = decodeStatus[tid] == Unblocking ?
661        skidBuffer[tid].size() : insts[tid].size();
662
663    if (insts_available == 0) {
664        DPRINTF(Decode, "[tid:%u] Nothing to do, breaking out"
665                " early.\n",tid);
666        // Should I change the status to idle?
667        ++decodeIdleCycles;
668        return;
669    } else if (decodeStatus[tid] == Unblocking) {
670        DPRINTF(Decode, "[tid:%u] Unblocking, removing insts from skid "
671                "buffer.\n",tid);
672        ++decodeUnblockCycles;
673    } else if (decodeStatus[tid] == Running) {
674        ++decodeRunCycles;
675    }
676
677    DynInstPtr inst;
678
679    std::queue<DynInstPtr>
680        &insts_to_decode = decodeStatus[tid] == Unblocking ?
681        skidBuffer[tid] : insts[tid];
682
683    DPRINTF(Decode, "[tid:%u]: Sending instruction to rename.\n",tid);
684
685    while (insts_available > 0 && toRenameIndex < decodeWidth) {
686        assert(!insts_to_decode.empty());
687
688        inst = insts_to_decode.front();
689
690        insts_to_decode.pop();
691
692        DPRINTF(Decode, "[tid:%u]: Processing instruction [sn:%lli] with "
693                "PC %s\n", tid, inst->seqNum, inst->pcState());
694
695        if (inst->isSquashed()) {
696            DPRINTF(Decode, "[tid:%u]: Instruction %i with PC %s is "
697                    "squashed, skipping.\n",
698                    tid, inst->seqNum, inst->pcState());
699
700            ++decodeSquashedInsts;
701
702            --insts_available;
703
704            continue;
705        }
706
707        // Also check if instructions have no source registers.  Mark
708        // them as ready to issue at any time.  Not sure if this check
709        // should exist here or at a later stage; however it doesn't matter
710        // too much for function correctness.
711        if (inst->numSrcRegs() == 0) {
712            inst->setCanIssue();
713        }
714
715        // This current instruction is valid, so add it into the decode
716        // queue.  The next instruction may not be valid, so check to
717        // see if branches were predicted correctly.
718        toRename->insts[toRenameIndex] = inst;
719
720        ++(toRename->size);
721        ++toRenameIndex;
722        ++decodeDecodedInsts;
723        --insts_available;
724
725#if TRACING_ON
726        if (DTRACE(O3PipeView)) {
727            inst->decodeTick = curTick() - inst->fetchTick;
728        }
729#endif
730
731        // Ensure that if it was predicted as a branch, it really is a
732        // branch.
733        if (inst->readPredTaken() && !inst->isControl()) {
734            panic("Instruction predicted as a branch!");
735
736            ++decodeControlMispred;
737
738            // Might want to set some sort of boolean and just do
739            // a check at the end
740            squash(inst, inst->threadNumber);
741
742            break;
743        }
744
745        // Go ahead and compute any PC-relative branches.
746        if (inst->isDirectCtrl() && inst->isUncondCtrl()) {
747            ++decodeBranchResolved;
748
749            if (!(inst->branchTarget() == inst->readPredTarg())) {
750                ++decodeBranchMispred;
751
752                // Might want to set some sort of boolean and just do
753                // a check at the end
754                squash(inst, inst->threadNumber);
755                TheISA::PCState target = inst->branchTarget();
756
757                DPRINTF(Decode, "[sn:%i]: Updating predictions: PredPC: %s\n",
758                        inst->seqNum, target);
759                //The micro pc after an instruction level branch should be 0
760                inst->setPredTarg(target);
761                break;
762            }
763        }
764    }
765
766    // If we didn't process all instructions, then we will need to block
767    // and put all those instructions into the skid buffer.
768    if (!insts_to_decode.empty()) {
769        block(tid);
770    }
771
772    // Record that decode has written to the time buffer for activity
773    // tracking.
774    if (toRenameIndex) {
775        wroteToTimeBuffer = true;
776    }
777}
778
779#endif//__CPU_O3_DECODE_IMPL_HH__
780