src/cpu/pred/simple_indirect.cc - public/gem5 - Git at Google

 /*
  * Copyright (c) 2014 ARM Limited
  * 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: Mitch Hayenga
  */

 #include "cpu/pred/simple_indirect.hh"

 #include "base/intmath.hh"
 #include "debug/Indirect.hh"

 SimpleIndirectPredictor::SimpleIndirectPredictor(
         const SimpleIndirectPredictorParams * params)
     : IndirectPredictor(params),
       hashGHR(params->indirectHashGHR),
       hashTargets(params->indirectHashTargets),
       numSets(params->indirectSets),
       numWays(params->indirectWays),
       tagBits(params->indirectTagSize),
       pathLength(params->indirectPathLength),
       instShift(params->instShiftAmt),
       ghrNumBits(params->indirectGHRBits),
       ghrMask((1 << params->indirectGHRBits)-1)
 {
     if (!isPowerOf2(numSets)) {
       panic("Indirect predictor requires power of 2 number of sets");
     }

     threadInfo.resize(params->numThreads);

     targetCache.resize(numSets);
     for (unsigned i = 0; i < numSets; i++) {
         targetCache[i].resize(numWays);
     }

     fatal_if(ghrNumBits > (sizeof(ThreadInfo::ghr)*8), "ghr_size is too big");
 }

 void
 SimpleIndirectPredictor::genIndirectInfo(ThreadID tid,
                                          void* & indirect_history)
 {
     // record the GHR as it was before this prediction
     // It will be used to recover the history in case this prediction is
     // wrong or belongs to bad path
     indirect_history = new unsigned(threadInfo[tid].ghr);
 }

 void
 SimpleIndirectPredictor::updateDirectionInfo(
     ThreadID tid, bool actually_taken)
 {
     threadInfo[tid].ghr <<= 1;
     threadInfo[tid].ghr |= actually_taken;
     threadInfo[tid].ghr &= ghrMask;
 }

 void
 SimpleIndirectPredictor::changeDirectionPrediction(ThreadID tid,
     void * indirect_history, bool actually_taken)
 {
     unsigned * previousGhr = static_cast<unsigned *>(indirect_history);
     threadInfo[tid].ghr = ((*previousGhr) << 1) + actually_taken;
     threadInfo[tid].ghr &= ghrMask;
 }

 bool
 SimpleIndirectPredictor::lookup(Addr br_addr, TheISA::PCState& target,
     ThreadID tid)
 {
     Addr set_index = getSetIndex(br_addr, threadInfo[tid].ghr, tid);
     Addr tag = getTag(br_addr);

     assert(set_index < numSets);

     DPRINTF(Indirect, "Looking up %x (set:%d)\n", br_addr, set_index);
     const auto &iset = targetCache[set_index];
     for (auto way = iset.begin(); way != iset.end(); ++way) {
         if (way->tag == tag) {
             DPRINTF(Indirect, "Hit %x (target:%s)\n", br_addr, way->target);
             target = way->target;
             return true;
         }
     }
     DPRINTF(Indirect, "Miss %x\n", br_addr);
     return false;
 }

 void
 SimpleIndirectPredictor::recordIndirect(Addr br_addr, Addr tgt_addr,
     InstSeqNum seq_num, ThreadID tid)
 {
     DPRINTF(Indirect, "Recording %x seq:%d\n", br_addr, seq_num);
     HistoryEntry entry(br_addr, tgt_addr, seq_num);
     threadInfo[tid].pathHist.push_back(entry);
 }

 void
 SimpleIndirectPredictor::commit(InstSeqNum seq_num, ThreadID tid,
                           void * indirect_history)
 {
     DPRINTF(Indirect, "Committing seq:%d\n", seq_num);
     ThreadInfo &t_info = threadInfo[tid];

     // we do not need to recover the GHR, so delete the information
     unsigned * previousGhr = static_cast<unsigned *>(indirect_history);
     delete previousGhr;

     if (t_info.pathHist.empty()) return;

     if (t_info.headHistEntry < t_info.pathHist.size() &&
         t_info.pathHist[t_info.headHistEntry].seqNum <= seq_num) {
         if (t_info.headHistEntry >= pathLength) {
             t_info.pathHist.pop_front();
         } else {
              ++t_info.headHistEntry;
         }
     }
 }

 void
 SimpleIndirectPredictor::squash(InstSeqNum seq_num, ThreadID tid)
 {
     DPRINTF(Indirect, "Squashing seq:%d\n", seq_num);
     ThreadInfo &t_info = threadInfo[tid];
     auto squash_itr = t_info.pathHist.begin();
     while (squash_itr != t_info.pathHist.end()) {
         if (squash_itr->seqNum > seq_num) {
            break;
         }
         ++squash_itr;
     }
     if (squash_itr != t_info.pathHist.end()) {
         DPRINTF(Indirect, "Squashing series starting with sn:%d\n",
                 squash_itr->seqNum);
     }
     t_info.pathHist.erase(squash_itr, t_info.pathHist.end());
 }

 void
 SimpleIndirectPredictor::deleteIndirectInfo(ThreadID tid,
                                             void * indirect_history)
 {
     unsigned * previousGhr = static_cast<unsigned *>(indirect_history);
     threadInfo[tid].ghr = *previousGhr;

     delete previousGhr;
 }

 void
 SimpleIndirectPredictor::recordTarget(
     InstSeqNum seq_num, void * indirect_history, const TheISA::PCState& target,
     ThreadID tid)
 {
     ThreadInfo &t_info = threadInfo[tid];

     unsigned * ghr = static_cast<unsigned *>(indirect_history);

     // Should have just squashed so this branch should be the oldest
     auto hist_entry = *(t_info.pathHist.rbegin());
     // Temporarily pop it off the history so we can calculate the set
     t_info.pathHist.pop_back();
     Addr set_index = getSetIndex(hist_entry.pcAddr, *ghr, tid);
     Addr tag = getTag(hist_entry.pcAddr);
     hist_entry.targetAddr = target.instAddr();
     t_info.pathHist.push_back(hist_entry);

     assert(set_index < numSets);

     auto &iset = targetCache[set_index];
     for (auto way = iset.begin(); way != iset.end(); ++way) {
         if (way->tag == tag) {
             DPRINTF(Indirect, "Updating Target (seq: %d br:%x set:%d target:"
                     "%s)\n", seq_num, hist_entry.pcAddr, set_index, target);
             way->target = target;
             return;
         }
     }

     DPRINTF(Indirect, "Allocating Target (seq: %d br:%x set:%d target:%s)\n",
             seq_num, hist_entry.pcAddr, set_index, target);
     // Did not find entry, random replacement
     auto &way = iset[rand() % numWays];
     way.tag = tag;
     way.target = target;
 }


 inline Addr
 SimpleIndirectPredictor::getSetIndex(Addr br_addr, unsigned ghr, ThreadID tid)
 {
     ThreadInfo &t_info = threadInfo[tid];

     Addr hash = br_addr >> instShift;
     if (hashGHR) {
         hash ^= ghr;
     }
     if (hashTargets) {
         unsigned hash_shift = floorLog2(numSets) / pathLength;
         for (int i = t_info.pathHist.size()-1, p = 0;
              i >= 0 && p < pathLength; i--, p++) {
             hash ^= (t_info.pathHist[i].targetAddr >>
                      (instShift + p*hash_shift));
         }
     }
     return hash & (numSets-1);
 }

 inline Addr
 SimpleIndirectPredictor::getTag(Addr br_addr)
 {
     return (br_addr >> instShift) & ((0x1<<tagBits)-1);
 }

 SimpleIndirectPredictor *
 SimpleIndirectPredictorParams::create()
 {
     return new SimpleIndirectPredictor(this);
 }
	/*
	* Copyright (c) 2014 ARM Limited
	* 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: Mitch Hayenga
	*/

	#include "cpu/pred/simple_indirect.hh"

	#include "base/intmath.hh"
	#include "debug/Indirect.hh"

	SimpleIndirectPredictor::SimpleIndirectPredictor(
	const SimpleIndirectPredictorParams * params)
	: IndirectPredictor(params),
	hashGHR(params->indirectHashGHR),
	hashTargets(params->indirectHashTargets),
	numSets(params->indirectSets),
	numWays(params->indirectWays),
	tagBits(params->indirectTagSize),
	pathLength(params->indirectPathLength),
	instShift(params->instShiftAmt),
	ghrNumBits(params->indirectGHRBits),
	ghrMask((1 << params->indirectGHRBits)-1)
	{
	if (!isPowerOf2(numSets)) {
	panic("Indirect predictor requires power of 2 number of sets");
	}

	threadInfo.resize(params->numThreads);

	targetCache.resize(numSets);
	for (unsigned i = 0; i < numSets; i++) {
	targetCache[i].resize(numWays);
	}

	fatal_if(ghrNumBits > (sizeof(ThreadInfo::ghr)*8), "ghr_size is too big");
	}

	void
	SimpleIndirectPredictor::genIndirectInfo(ThreadID tid,
	void* & indirect_history)
	{
	// record the GHR as it was before this prediction
	// It will be used to recover the history in case this prediction is
	// wrong or belongs to bad path
	indirect_history = new unsigned(threadInfo[tid].ghr);
	}

	void
	SimpleIndirectPredictor::updateDirectionInfo(
	ThreadID tid, bool actually_taken)
	{
	threadInfo[tid].ghr <<= 1;
	threadInfo[tid].ghr \|= actually_taken;
	threadInfo[tid].ghr &= ghrMask;
	}

	void
	SimpleIndirectPredictor::changeDirectionPrediction(ThreadID tid,
	void * indirect_history, bool actually_taken)
	{
	unsigned * previousGhr = static_cast<unsigned *>(indirect_history);
	threadInfo[tid].ghr = ((*previousGhr) << 1) + actually_taken;
	threadInfo[tid].ghr &= ghrMask;
	}

	bool
	SimpleIndirectPredictor::lookup(Addr br_addr, TheISA::PCState& target,
	ThreadID tid)
	{
	Addr set_index = getSetIndex(br_addr, threadInfo[tid].ghr, tid);
	Addr tag = getTag(br_addr);

	assert(set_index < numSets);

	DPRINTF(Indirect, "Looking up %x (set:%d)\n", br_addr, set_index);
	const auto &iset = targetCache[set_index];
	for (auto way = iset.begin(); way != iset.end(); ++way) {
	if (way->tag == tag) {
	DPRINTF(Indirect, "Hit %x (target:%s)\n", br_addr, way->target);
	target = way->target;
	return true;
	}
	}
	DPRINTF(Indirect, "Miss %x\n", br_addr);
	return false;
	}

	void
	SimpleIndirectPredictor::recordIndirect(Addr br_addr, Addr tgt_addr,
	InstSeqNum seq_num, ThreadID tid)
	{
	DPRINTF(Indirect, "Recording %x seq:%d\n", br_addr, seq_num);
	HistoryEntry entry(br_addr, tgt_addr, seq_num);
	threadInfo[tid].pathHist.push_back(entry);
	}

	void
	SimpleIndirectPredictor::commit(InstSeqNum seq_num, ThreadID tid,
	void * indirect_history)
	{
	DPRINTF(Indirect, "Committing seq:%d\n", seq_num);
	ThreadInfo &t_info = threadInfo[tid];

	// we do not need to recover the GHR, so delete the information
	unsigned * previousGhr = static_cast<unsigned *>(indirect_history);
	delete previousGhr;

	if (t_info.pathHist.empty()) return;

	if (t_info.headHistEntry < t_info.pathHist.size() &&
	t_info.pathHist[t_info.headHistEntry].seqNum <= seq_num) {
	if (t_info.headHistEntry >= pathLength) {
	t_info.pathHist.pop_front();
	} else {
	++t_info.headHistEntry;
	}
	}
	}

	void
	SimpleIndirectPredictor::squash(InstSeqNum seq_num, ThreadID tid)
	{
	DPRINTF(Indirect, "Squashing seq:%d\n", seq_num);
	ThreadInfo &t_info = threadInfo[tid];
	auto squash_itr = t_info.pathHist.begin();
	while (squash_itr != t_info.pathHist.end()) {
	if (squash_itr->seqNum > seq_num) {
	break;
	}
	++squash_itr;
	}
	if (squash_itr != t_info.pathHist.end()) {
	DPRINTF(Indirect, "Squashing series starting with sn:%d\n",
	squash_itr->seqNum);
	}
	t_info.pathHist.erase(squash_itr, t_info.pathHist.end());
	}

	void
	SimpleIndirectPredictor::deleteIndirectInfo(ThreadID tid,
	void * indirect_history)
	{
	unsigned * previousGhr = static_cast<unsigned *>(indirect_history);
	threadInfo[tid].ghr = *previousGhr;

	delete previousGhr;
	}

	void
	SimpleIndirectPredictor::recordTarget(
	InstSeqNum seq_num, void * indirect_history, const TheISA::PCState& target,
	ThreadID tid)
	{
	ThreadInfo &t_info = threadInfo[tid];

	unsigned * ghr = static_cast<unsigned *>(indirect_history);

	// Should have just squashed so this branch should be the oldest
	auto hist_entry = *(t_info.pathHist.rbegin());
	// Temporarily pop it off the history so we can calculate the set
	t_info.pathHist.pop_back();
	Addr set_index = getSetIndex(hist_entry.pcAddr, *ghr, tid);
	Addr tag = getTag(hist_entry.pcAddr);
	hist_entry.targetAddr = target.instAddr();
	t_info.pathHist.push_back(hist_entry);

	assert(set_index < numSets);

	auto &iset = targetCache[set_index];
	for (auto way = iset.begin(); way != iset.end(); ++way) {
	if (way->tag == tag) {
	DPRINTF(Indirect, "Updating Target (seq: %d br:%x set:%d target:"
	"%s)\n", seq_num, hist_entry.pcAddr, set_index, target);
	way->target = target;
	return;
	}
	}

	DPRINTF(Indirect, "Allocating Target (seq: %d br:%x set:%d target:%s)\n",
	seq_num, hist_entry.pcAddr, set_index, target);
	// Did not find entry, random replacement
	auto &way = iset[rand() % numWays];
	way.tag = tag;
	way.target = target;
	}


	inline Addr
	SimpleIndirectPredictor::getSetIndex(Addr br_addr, unsigned ghr, ThreadID tid)
	{
	ThreadInfo &t_info = threadInfo[tid];

	Addr hash = br_addr >> instShift;
	if (hashGHR) {
	hash ^= ghr;
	}
	if (hashTargets) {
	unsigned hash_shift = floorLog2(numSets) / pathLength;
	for (int i = t_info.pathHist.size()-1, p = 0;
	i >= 0 && p < pathLength; i--, p++) {
	hash ^= (t_info.pathHist[i].targetAddr >>
	(instShift + p*hash_shift));
	}
	}
	return hash & (numSets-1);
	}

	inline Addr
	SimpleIndirectPredictor::getTag(Addr br_addr)
	{
	return (br_addr >> instShift) & ((0x1<<tagBits)-1);
	}

	SimpleIndirectPredictor *
	SimpleIndirectPredictorParams::create()
	{
	return new SimpleIndirectPredictor(this);
	}