src/mem/ruby/profiler/AddressProfiler.cc - public/gem5 - Git at Google

 /*
  * Copyright (c) 1999-2008 Mark D. Hill and David A. Wood
  * 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.
  */

 #include "mem/ruby/profiler/AddressProfiler.hh"

 #include <vector>

 #include "base/bitfield.hh"
 #include "base/stl_helpers.hh"
 #include "mem/ruby/profiler/Profiler.hh"
 #include "mem/ruby/protocol/RubyRequest.hh"

 typedef AddressProfiler::AddressMap AddressMap;

 using m5::stl_helpers::operator<<;

 // Helper functions
 AccessTraceForAddress&
 lookupTraceForAddress(Addr addr, AddressMap& record_map)
 {
     // we create a static default object here that is used to insert
     // since the insertion will create a copy of the object in the
     // process.  Perhaps this is optimizing early, but it doesn't seem
     // like it could hurt.
     static const AccessTraceForAddress dflt;

     std::pair<AddressMap::iterator, bool> r =
         record_map.insert(std::make_pair(addr, dflt));
     AddressMap::iterator i = r.first;
     AccessTraceForAddress &access_trace = i->second;
     if (r.second) {
         // there was nothing there and the insert succeed, so we need
         // to actually set the address.
         access_trace.setAddress(addr);
     }

     return access_trace;
 }

 void
 printSorted(std::ostream& out, int num_of_sequencers,
         const AddressMap &record_map, std::string description,
         Profiler *profiler)
 {
     const int records_printed = 100;

     uint64_t misses = 0;
     std::vector<const AccessTraceForAddress *> sorted;

     AddressMap::const_iterator i = record_map.begin();
     AddressMap::const_iterator end = record_map.end();
     for (; i != end; ++i) {
         const AccessTraceForAddress* record = &i->second;
         misses += record->getTotal();
         sorted.push_back(record);
     }
     sort(sorted.begin(), sorted.end(), AccessTraceForAddress::less_equal);

     out << "Total_entries_" << description << ": " << record_map.size()
         << std::endl;
     if (profiler->getAllInstructions()) {
         out << "Total_Instructions_" << description << ": " << misses
             << std::endl;
     } else {
         out << "Total_data_misses_" << description << ": " << misses
             << std::endl;
     }

     out << "total | load store atomic | user supervisor | sharing | touched-by"
         << std::endl;

     Histogram remaining_records(1, 100);
     Histogram all_records(1, 100);
     Histogram remaining_records_log(-1);
     Histogram all_records_log(-1);

     // Allows us to track how many lines where touched by n processors
     std::vector<int64_t> m_touched_vec;
     std::vector<int64_t> m_touched_weighted_vec;
     m_touched_vec.resize(num_of_sequencers+1);
     m_touched_weighted_vec.resize(num_of_sequencers+1);
     for (int j = 0; j < m_touched_vec.size(); j++) {
         m_touched_vec[j] = 0;
         m_touched_weighted_vec[j] = 0;
     }

     int counter = 0;
     int max = sorted.size();
     while (counter < max && counter < records_printed) {
         const AccessTraceForAddress* record = sorted[counter];
         double percent = 100.0 * (record->getTotal() / double(misses));
         out << description << " | " << percent << " % " << *record
             << std::endl;
         all_records.add(record->getTotal());
         all_records_log.add(record->getTotal());
         counter++;
         m_touched_vec[record->getTouchedBy()]++;
         m_touched_weighted_vec[record->getTouchedBy()] += record->getTotal();
     }

     while (counter < max) {
         const AccessTraceForAddress* record = sorted[counter];
         all_records.add(record->getTotal());
         remaining_records.add(record->getTotal());
         all_records_log.add(record->getTotal());
         remaining_records_log.add(record->getTotal());
         m_touched_vec[record->getTouchedBy()]++;
         m_touched_weighted_vec[record->getTouchedBy()] += record->getTotal();
     }
     out << std::endl;
     out << "all_records_" << description << ": "
         << all_records << std::endl
         << "all_records_log_" << description << ": "
         << all_records_log << std::endl
         << "remaining_records_" << description << ": "
         << remaining_records << std::endl
         << "remaining_records_log_" << description << ": "
         << remaining_records_log << std::endl
         << "touched_by_" << description << ": "
         << m_touched_vec << std::endl
         << "touched_by_weighted_" << description << ": "
         << m_touched_weighted_vec << std::endl
         << std::endl;
 }

 AddressProfiler::AddressProfiler(int num_of_sequencers, Profiler *profiler)
     : m_profiler(profiler)
 {
     m_num_of_sequencers = num_of_sequencers;
     clearStats();
 }

 AddressProfiler::~AddressProfiler()
 {
 }

 void
 AddressProfiler::setHotLines(bool hot_lines)
 {
     m_hot_lines = hot_lines;
 }

 void
 AddressProfiler::setAllInstructions(bool all_instructions)
 {
     m_all_instructions = all_instructions;
 }

 void
 AddressProfiler::printStats(std::ostream& out) const
 {
     if (m_hot_lines) {
         out << std::endl;
         out << "AddressProfiler Stats" << std::endl;
         out << "---------------------" << std::endl;

         out << std::endl;
         out << "sharing_misses: " << m_sharing_miss_counter << std::endl;
         out << "getx_sharing_histogram: " << m_getx_sharing_histogram
             << std::endl;
         out << "gets_sharing_histogram: " << m_gets_sharing_histogram
             << std::endl;

         out << std::endl;
         out << "Hot Data Blocks" << std::endl;
         out << "---------------" << std::endl;
         out << std::endl;
         printSorted(out, m_num_of_sequencers, m_dataAccessTrace,
                     "block_address", m_profiler);

         out << std::endl;
         out << "Hot MacroData Blocks" << std::endl;
         out << "--------------------" << std::endl;
         out << std::endl;
         printSorted(out, m_num_of_sequencers, m_macroBlockAccessTrace,
                     "macroblock_address", m_profiler);

         out << "Hot Instructions" << std::endl;
         out << "----------------" << std::endl;
         out << std::endl;
         printSorted(out, m_num_of_sequencers, m_programCounterAccessTrace,
                     "pc_address", m_profiler);
     }

     if (m_all_instructions) {
         out << std::endl;
         out << "All Instructions Profile:" << std::endl;
         out << "-------------------------" << std::endl;
         out << std::endl;
         printSorted(out, m_num_of_sequencers, m_programCounterAccessTrace,
                     "pc_address", m_profiler);
         out << std::endl;
     }

     if (m_retryProfileHisto.size() > 0) {
         out << "Retry Profile" << std::endl;
         out << "-------------" << std::endl;
         out << std::endl;
         out << "retry_histogram_absolute: " << m_retryProfileHisto
             << std::endl;
         out << "retry_histogram_write: " << m_retryProfileHistoWrite
             << std::endl;
         out << "retry_histogram_read: " << m_retryProfileHistoRead
             << std::endl;

         out << "retry_histogram_percent: ";
         m_retryProfileHisto.printPercent(out);
         out << std::endl;

         printSorted(out, m_num_of_sequencers, m_retryProfileMap,
                     "block_address", m_profiler);
         out << std::endl;
     }
 }

 void
 AddressProfiler::clearStats()
 {
     // Clear the maps
     m_sharing_miss_counter = 0;
     m_dataAccessTrace.clear();
     m_macroBlockAccessTrace.clear();
     m_programCounterAccessTrace.clear();
     m_retryProfileMap.clear();
     m_retryProfileHisto.clear();
     m_retryProfileHistoRead.clear();
     m_retryProfileHistoWrite.clear();
     m_getx_sharing_histogram.clear();
     m_gets_sharing_histogram.clear();
 }

 void
 AddressProfiler::profileGetX(Addr datablock, Addr PC,
                              const Set& owner, const Set& sharers,
                              NodeID requestor)
 {
     Set indirection_set;
     indirection_set.addSet(sharers);
     indirection_set.addSet(owner);
     indirection_set.remove(requestor);
     int num_indirections = indirection_set.count();

     m_getx_sharing_histogram.add(num_indirections);
     bool indirection_miss = (num_indirections > 0);

     addTraceSample(datablock, PC, RubyRequestType_ST, RubyAccessMode(0),
                    requestor, indirection_miss);
 }

 void
 AddressProfiler::profileGetS(Addr datablock, Addr PC,
                              const Set& owner, const Set& sharers,
                              NodeID requestor)
 {
     Set indirection_set;
     indirection_set.addSet(owner);
     indirection_set.remove(requestor);
     int num_indirections = indirection_set.count();

     m_gets_sharing_histogram.add(num_indirections);
     bool indirection_miss = (num_indirections > 0);

     addTraceSample(datablock, PC, RubyRequestType_LD, RubyAccessMode(0),
                    requestor, indirection_miss);
 }

 void
 AddressProfiler::addTraceSample(Addr data_addr, Addr pc_addr,
                                 RubyRequestType type,
                                 RubyAccessMode access_mode, NodeID id,
                                 bool sharing_miss)
 {
     if (m_all_instructions) {
         if (sharing_miss) {
             m_sharing_miss_counter++;
         }

         // record data address trace info
         data_addr = makeLineAddress(data_addr);
         lookupTraceForAddress(data_addr, m_dataAccessTrace).
             update(type, access_mode, id, sharing_miss);

         // record macro data address trace info

         // 6 for datablock, 4 to make it 16x more coarse
         Addr macro_addr = mbits<Addr>(data_addr, 63, 10);
         lookupTraceForAddress(macro_addr, m_macroBlockAccessTrace).
             update(type, access_mode, id, sharing_miss);

         // record program counter address trace info
         lookupTraceForAddress(pc_addr, m_programCounterAccessTrace).
             update(type, access_mode, id, sharing_miss);
     }

     if (m_all_instructions) {
         // This code is used if the address profiler is an
         // all-instructions profiler record program counter address
         // trace info
         lookupTraceForAddress(pc_addr, m_programCounterAccessTrace).
             update(type, access_mode, id, sharing_miss);
     }
 }

 void
 AddressProfiler::profileRetry(Addr data_addr, AccessType type, int count)
 {
     m_retryProfileHisto.add(count);
     if (type == AccessType_Read) {
         m_retryProfileHistoRead.add(count);
     } else {
         m_retryProfileHistoWrite.add(count);
     }
     if (count > 1) {
         lookupTraceForAddress(data_addr, m_retryProfileMap).addSample(count);
     }
 }
	/*
	* Copyright (c) 1999-2008 Mark D. Hill and David A. Wood
	* 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.
	*/

	#include "mem/ruby/profiler/AddressProfiler.hh"

	#include <vector>

	#include "base/bitfield.hh"
	#include "base/stl_helpers.hh"
	#include "mem/ruby/profiler/Profiler.hh"
	#include "mem/ruby/protocol/RubyRequest.hh"

	typedef AddressProfiler::AddressMap AddressMap;

	using m5::stl_helpers::operator<<;

	// Helper functions
	AccessTraceForAddress&
	lookupTraceForAddress(Addr addr, AddressMap& record_map)
	{
	// we create a static default object here that is used to insert
	// since the insertion will create a copy of the object in the
	// process. Perhaps this is optimizing early, but it doesn't seem
	// like it could hurt.
	static const AccessTraceForAddress dflt;

	std::pair<AddressMap::iterator, bool> r =
	record_map.insert(std::make_pair(addr, dflt));
	AddressMap::iterator i = r.first;
	AccessTraceForAddress &access_trace = i->second;
	if (r.second) {
	// there was nothing there and the insert succeed, so we need
	// to actually set the address.
	access_trace.setAddress(addr);
	}

	return access_trace;
	}

	void
	printSorted(std::ostream& out, int num_of_sequencers,
	const AddressMap &record_map, std::string description,
	Profiler *profiler)
	{
	const int records_printed = 100;

	uint64_t misses = 0;
	std::vector<const AccessTraceForAddress *> sorted;

	AddressMap::const_iterator i = record_map.begin();
	AddressMap::const_iterator end = record_map.end();
	for (; i != end; ++i) {
	const AccessTraceForAddress* record = &i->second;
	misses += record->getTotal();
	sorted.push_back(record);
	}
	sort(sorted.begin(), sorted.end(), AccessTraceForAddress::less_equal);

	out << "Total_entries_" << description << ": " << record_map.size()
	<< std::endl;
	if (profiler->getAllInstructions()) {
	out << "Total_Instructions_" << description << ": " << misses
	<< std::endl;
	} else {
	out << "Total_data_misses_" << description << ": " << misses
	<< std::endl;
	}

	out << "total \| load store atomic \| user supervisor \| sharing \| touched-by"
	<< std::endl;

	Histogram remaining_records(1, 100);
	Histogram all_records(1, 100);
	Histogram remaining_records_log(-1);
	Histogram all_records_log(-1);

	// Allows us to track how many lines where touched by n processors
	std::vector<int64_t> m_touched_vec;
	std::vector<int64_t> m_touched_weighted_vec;
	m_touched_vec.resize(num_of_sequencers+1);
	m_touched_weighted_vec.resize(num_of_sequencers+1);
	for (int j = 0; j < m_touched_vec.size(); j++) {
	m_touched_vec[j] = 0;
	m_touched_weighted_vec[j] = 0;
	}

	int counter = 0;
	int max = sorted.size();
	while (counter < max && counter < records_printed) {
	const AccessTraceForAddress* record = sorted[counter];
	double percent = 100.0 * (record->getTotal() / double(misses));
	out << description << " \| " << percent << " % " << *record
	<< std::endl;
	all_records.add(record->getTotal());
	all_records_log.add(record->getTotal());
	counter++;
	m_touched_vec[record->getTouchedBy()]++;
	m_touched_weighted_vec[record->getTouchedBy()] += record->getTotal();
	}

	while (counter < max) {
	const AccessTraceForAddress* record = sorted[counter];
	all_records.add(record->getTotal());
	remaining_records.add(record->getTotal());
	all_records_log.add(record->getTotal());
	remaining_records_log.add(record->getTotal());
	m_touched_vec[record->getTouchedBy()]++;
	m_touched_weighted_vec[record->getTouchedBy()] += record->getTotal();
	}
	out << std::endl;
	out << "all_records_" << description << ": "
	<< all_records << std::endl
	<< "all_records_log_" << description << ": "
	<< all_records_log << std::endl
	<< "remaining_records_" << description << ": "
	<< remaining_records << std::endl
	<< "remaining_records_log_" << description << ": "
	<< remaining_records_log << std::endl
	<< "touched_by_" << description << ": "
	<< m_touched_vec << std::endl
	<< "touched_by_weighted_" << description << ": "
	<< m_touched_weighted_vec << std::endl
	<< std::endl;
	}

	AddressProfiler::AddressProfiler(int num_of_sequencers, Profiler *profiler)
	: m_profiler(profiler)
	{
	m_num_of_sequencers = num_of_sequencers;
	clearStats();
	}

	AddressProfiler::~AddressProfiler()
	{
	}

	void
	AddressProfiler::setHotLines(bool hot_lines)
	{
	m_hot_lines = hot_lines;
	}

	void
	AddressProfiler::setAllInstructions(bool all_instructions)
	{
	m_all_instructions = all_instructions;
	}

	void
	AddressProfiler::printStats(std::ostream& out) const
	{
	if (m_hot_lines) {
	out << std::endl;
	out << "AddressProfiler Stats" << std::endl;
	out << "---------------------" << std::endl;

	out << std::endl;
	out << "sharing_misses: " << m_sharing_miss_counter << std::endl;
	out << "getx_sharing_histogram: " << m_getx_sharing_histogram
	<< std::endl;
	out << "gets_sharing_histogram: " << m_gets_sharing_histogram
	<< std::endl;

	out << std::endl;
	out << "Hot Data Blocks" << std::endl;
	out << "---------------" << std::endl;
	out << std::endl;
	printSorted(out, m_num_of_sequencers, m_dataAccessTrace,
	"block_address", m_profiler);

	out << std::endl;
	out << "Hot MacroData Blocks" << std::endl;
	out << "--------------------" << std::endl;
	out << std::endl;
	printSorted(out, m_num_of_sequencers, m_macroBlockAccessTrace,
	"macroblock_address", m_profiler);

	out << "Hot Instructions" << std::endl;
	out << "----------------" << std::endl;
	out << std::endl;
	printSorted(out, m_num_of_sequencers, m_programCounterAccessTrace,
	"pc_address", m_profiler);
	}

	if (m_all_instructions) {
	out << std::endl;
	out << "All Instructions Profile:" << std::endl;
	out << "-------------------------" << std::endl;
	out << std::endl;
	printSorted(out, m_num_of_sequencers, m_programCounterAccessTrace,
	"pc_address", m_profiler);
	out << std::endl;
	}

	if (m_retryProfileHisto.size() > 0) {
	out << "Retry Profile" << std::endl;
	out << "-------------" << std::endl;
	out << std::endl;
	out << "retry_histogram_absolute: " << m_retryProfileHisto
	<< std::endl;
	out << "retry_histogram_write: " << m_retryProfileHistoWrite
	<< std::endl;
	out << "retry_histogram_read: " << m_retryProfileHistoRead
	<< std::endl;

	out << "retry_histogram_percent: ";
	m_retryProfileHisto.printPercent(out);
	out << std::endl;

	printSorted(out, m_num_of_sequencers, m_retryProfileMap,
	"block_address", m_profiler);
	out << std::endl;
	}
	}

	void
	AddressProfiler::clearStats()
	{
	// Clear the maps
	m_sharing_miss_counter = 0;
	m_dataAccessTrace.clear();
	m_macroBlockAccessTrace.clear();
	m_programCounterAccessTrace.clear();
	m_retryProfileMap.clear();
	m_retryProfileHisto.clear();
	m_retryProfileHistoRead.clear();
	m_retryProfileHistoWrite.clear();
	m_getx_sharing_histogram.clear();
	m_gets_sharing_histogram.clear();
	}

	void
	AddressProfiler::profileGetX(Addr datablock, Addr PC,
	const Set& owner, const Set& sharers,
	NodeID requestor)
	{
	Set indirection_set;
	indirection_set.addSet(sharers);
	indirection_set.addSet(owner);
	indirection_set.remove(requestor);
	int num_indirections = indirection_set.count();

	m_getx_sharing_histogram.add(num_indirections);
	bool indirection_miss = (num_indirections > 0);

	addTraceSample(datablock, PC, RubyRequestType_ST, RubyAccessMode(0),
	requestor, indirection_miss);
	}

	void
	AddressProfiler::profileGetS(Addr datablock, Addr PC,
	const Set& owner, const Set& sharers,
	NodeID requestor)
	{
	Set indirection_set;
	indirection_set.addSet(owner);
	indirection_set.remove(requestor);
	int num_indirections = indirection_set.count();

	m_gets_sharing_histogram.add(num_indirections);
	bool indirection_miss = (num_indirections > 0);

	addTraceSample(datablock, PC, RubyRequestType_LD, RubyAccessMode(0),
	requestor, indirection_miss);
	}

	void
	AddressProfiler::addTraceSample(Addr data_addr, Addr pc_addr,
	RubyRequestType type,
	RubyAccessMode access_mode, NodeID id,
	bool sharing_miss)
	{
	if (m_all_instructions) {
	if (sharing_miss) {
	m_sharing_miss_counter++;
	}

	// record data address trace info
	data_addr = makeLineAddress(data_addr);
	lookupTraceForAddress(data_addr, m_dataAccessTrace).
	update(type, access_mode, id, sharing_miss);

	// record macro data address trace info

	// 6 for datablock, 4 to make it 16x more coarse
	Addr macro_addr = mbits<Addr>(data_addr, 63, 10);
	lookupTraceForAddress(macro_addr, m_macroBlockAccessTrace).
	update(type, access_mode, id, sharing_miss);

	// record program counter address trace info
	lookupTraceForAddress(pc_addr, m_programCounterAccessTrace).
	update(type, access_mode, id, sharing_miss);
	}

	if (m_all_instructions) {
	// This code is used if the address profiler is an
	// all-instructions profiler record program counter address
	// trace info
	lookupTraceForAddress(pc_addr, m_programCounterAccessTrace).
	update(type, access_mode, id, sharing_miss);
	}
	}

	void
	AddressProfiler::profileRetry(Addr data_addr, AccessType type, int count)
	{
	m_retryProfileHisto.add(count);
	if (type == AccessType_Read) {
	m_retryProfileHistoRead.add(count);
	} else {
	m_retryProfileHistoWrite.add(count);
	}
	if (count > 1) {
	lookupTraceForAddress(data_addr, m_retryProfileMap).addSample(count);
	}
	}