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/*
* 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.
*/
/*
This file has been modified by Kevin Moore and Dan Nussbaum of the
Scalable Systems Research Group at Sun Microsystems Laboratories
(http://research.sun.com/scalable/) to support the Adaptive
Transactional Memory Test Platform (ATMTP).
Please send email to atmtp-interest@sun.com with feedback, questions, or
to request future announcements about ATMTP.
----------------------------------------------------------------------
File modification date: 2008-02-23
----------------------------------------------------------------------
*/
/*
* Profiler.hh
*
* Description:
*
* $Id$
*
*/
#ifndef PROFILER_H
#define PROFILER_H
#include "mem/ruby/libruby.hh"
#include "mem/ruby/common/Global.hh"
#include "mem/protocol/GenericMachineType.hh"
#include "mem/ruby/common/Histogram.hh"
#include "mem/ruby/common/Consumer.hh"
#include "mem/protocol/AccessModeType.hh"
#include "mem/protocol/AccessType.hh"
#include "mem/ruby/system/NodeID.hh"
#include "mem/ruby/system/MachineID.hh"
#include "mem/protocol/PrefetchBit.hh"
#include "mem/ruby/common/Address.hh"
#include "mem/ruby/common/Set.hh"
#include "mem/protocol/CacheRequestType.hh"
#include "mem/protocol/GenericRequestType.hh"
#include "mem/ruby/system/MemoryControl.hh"
class CacheMsg;
class CacheProfiler;
class AddressProfiler;
template <class KEY_TYPE, class VALUE_TYPE> class Map;
struct memory_control_profiler {
long long int m_memReq;
long long int m_memBankBusy;
long long int m_memBusBusy;
long long int m_memTfawBusy;
long long int m_memReadWriteBusy;
long long int m_memDataBusBusy;
long long int m_memRefresh;
long long int m_memRead;
long long int m_memWrite;
long long int m_memWaitCycles;
long long int m_memInputQ;
long long int m_memBankQ;
long long int m_memArbWait;
long long int m_memRandBusy;
long long int m_memNotOld;
Vector<long long int> m_memBankCount;
int m_banks_per_rank;
int m_ranks_per_dimm;
int m_dimms_per_channel;
};
class Profiler : public Consumer {
public:
// Constructors
Profiler(const string & name);
void init(const vector<string> & argv, vector<string> memory_control_names);
// Destructor
~Profiler();
// Public Methods
void wakeup();
void setPeriodicStatsFile(const string& filename);
void setPeriodicStatsInterval(integer_t period);
void printStats(ostream& out, bool short_stats=false);
void printShortStats(ostream& out) { printStats(out, true); }
void printTraceStats(ostream& out) const;
void clearStats();
void printConfig(ostream& out) const;
void printResourceUsage(ostream& out) const;
AddressProfiler* getAddressProfiler() { return m_address_profiler_ptr; }
AddressProfiler* getInstructionProfiler() { return m_inst_profiler_ptr; }
void addPrimaryStatSample(const CacheMsg& msg, NodeID id);
void addSecondaryStatSample(GenericRequestType requestType, AccessModeType type, int msgSize, PrefetchBit pfBit, NodeID id);
void addSecondaryStatSample(CacheRequestType requestType, AccessModeType type, int msgSize, PrefetchBit pfBit, NodeID id);
void addAddressTraceSample(const CacheMsg& msg, NodeID id);
void profileRequest(const string& requestStr);
void profileSharing(const Address& addr, AccessType type, NodeID requestor, const Set& sharers, const Set& owner);
void profileMulticastRetry(const Address& addr, int count);
void profileFilterAction(int action);
void profileConflictingRequests(const Address& addr);
void profileOutstandingRequest(int outstanding) { m_outstanding_requests.add(outstanding); }
void profileOutstandingPersistentRequest(int outstanding) { m_outstanding_persistent_requests.add(outstanding); }
void profileAverageLatencyEstimate(int latency) { m_average_latency_estimate.add(latency); }
void countBAUnicast() { m_num_BA_unicasts++; }
void countBABroadcast() { m_num_BA_broadcasts++; }
void recordPrediction(bool wasGood, bool wasPredicted);
void startTransaction(int cpu);
void endTransaction(int cpu);
void profilePFWait(Time waitTime);
void controllerBusy(MachineID machID);
void bankBusy();
void missLatency(Time t, RubyRequestType type);
void swPrefetchLatency(Time t, CacheRequestType type, GenericMachineType respondingMach);
void stopTableUsageSample(int num) { m_stopTableProfile.add(num); }
void L1tbeUsageSample(int num) { m_L1tbeProfile.add(num); }
void L2tbeUsageSample(int num) { m_L2tbeProfile.add(num); }
void sequencerRequests(int num) { m_sequencer_requests.add(num); }
void storeBuffer(int size, int blocks) { m_store_buffer_size.add(size); m_store_buffer_blocks.add(blocks);}
void profileGetXMaskPrediction(const Set& pred_set);
void profileGetSMaskPrediction(const Set& pred_set);
void profileTrainingMask(const Set& pred_set);
void profileTransition(const string& component, NodeID version, Address addr,
const string& state, const string& event,
const string& next_state, const string& note);
void profileMsgDelay(int virtualNetwork, int delayCycles);
void print(ostream& out) const;
int64 getTotalInstructionsExecuted() const;
int64 getTotalTransactionsExecuted() const;
void rubyWatch(int proc);
bool watchAddress(Address addr);
// return Ruby's start time
Time getRubyStartTime(){
return m_ruby_start;
}
// added for MemoryControl:
void profileMemReq(string name, int bank);
void profileMemBankBusy(string name);
void profileMemBusBusy(string name);
void profileMemTfawBusy(string name);
void profileMemReadWriteBusy(string name);
void profileMemDataBusBusy(string name);
void profileMemRefresh(string name);
void profileMemRead(string name);
void profileMemWrite(string name);
void profileMemWaitCycles(string name, int cycles);
void profileMemInputQ(string name, int cycles);
void profileMemBankQ(string name, int cycles);
void profileMemArbWait(string name, int cycles);
void profileMemRandBusy(string name);
void profileMemNotOld(string name);
//added by SS
bool getHotLines() { return m_hot_lines; }
bool getAllInstructions() { return m_all_instructions; }
private:
//added by SS
vector<string> m_memory_control_names;
// Private Methods
void addL2StatSample(GenericRequestType requestType, AccessModeType type, int msgSize, PrefetchBit pfBit, NodeID id);
void addL1DStatSample(const CacheMsg& msg, NodeID id);
void addL1IStatSample(const CacheMsg& msg, NodeID id);
GenericRequestType CacheRequestType_to_GenericRequestType(const CacheRequestType& type);
// Private copy constructor and assignment operator
Profiler(const Profiler& obj);
Profiler& operator=(const Profiler& obj);
// Data Members (m_ prefix)
CacheProfiler* m_L1D_cache_profiler_ptr;
CacheProfiler* m_L1I_cache_profiler_ptr;
CacheProfiler* m_L2_cache_profiler_ptr;
AddressProfiler* m_address_profiler_ptr;
AddressProfiler* m_inst_profiler_ptr;
Vector<int64> m_instructions_executed_at_start;
Vector<int64> m_cycles_executed_at_start;
ostream* m_periodic_output_file_ptr;
integer_t m_stats_period;
Time m_ruby_start;
time_t m_real_time_start_time;
int m_num_BA_unicasts;
int m_num_BA_broadcasts;
Vector<integer_t> m_perProcTotalMisses;
Vector<integer_t> m_perProcUserMisses;
Vector<integer_t> m_perProcSupervisorMisses;
Vector<integer_t> m_perProcStartTransaction;
Vector<integer_t> m_perProcEndTransaction;
Vector < Vector < integer_t > > m_busyControllerCount;
integer_t m_busyBankCount;
Histogram m_multicast_retry_histogram;
Histogram m_L1tbeProfile;
Histogram m_L2tbeProfile;
Histogram m_stopTableProfile;
Histogram m_filter_action_histogram;
Histogram m_tbeProfile;
Histogram m_sequencer_requests;
Histogram m_store_buffer_size;
Histogram m_store_buffer_blocks;
Histogram m_read_sharing_histogram;
Histogram m_write_sharing_histogram;
Histogram m_all_sharing_histogram;
int64 m_cache_to_cache;
int64 m_memory_to_cache;
Histogram m_prefetchWaitHistogram;
Vector<Histogram> m_missLatencyHistograms;
Vector<Histogram> m_machLatencyHistograms;
Histogram m_L2MissLatencyHistogram;
Histogram m_allMissLatencyHistogram;
Histogram m_allSWPrefetchLatencyHistogram;
Histogram m_SWPrefetchL2MissLatencyHistogram;
Vector<Histogram> m_SWPrefetchLatencyHistograms;
Vector<Histogram> m_SWPrefetchMachLatencyHistograms;
Histogram m_delayedCyclesHistogram;
Histogram m_delayedCyclesNonPFHistogram;
Vector<Histogram> m_delayedCyclesVCHistograms;
int m_predictions;
int m_predictionOpportunities;
int m_goodPredictions;
Histogram m_gets_mask_prediction;
Histogram m_getx_mask_prediction;
Histogram m_explicit_training_mask;
// For profiling possibly conflicting requests
Map<Address, Time>* m_conflicting_map_ptr;
Histogram m_conflicting_histogram;
Histogram m_outstanding_requests;
Histogram m_outstanding_persistent_requests;
Histogram m_average_latency_estimate;
Map<Address, int>* m_watch_address_list_ptr;
// counts all initiated cache request including PUTs
int m_requests;
Map <string, int>* m_requestProfileMap_ptr;
// added for MemoryControl:
//added by SS
map< string, memory_control_profiler* > m_memory_control_profilers;
//added by SS
bool m_hot_lines;
bool m_all_instructions;
string m_name;
};
// Output operator declaration
ostream& operator<<(ostream& out, const Profiler& obj);
// ******************* Definitions *******************
// Output operator definition
extern inline
ostream& operator<<(ostream& out, const Profiler& obj)
{
obj.print(out);
out << flush;
return out;
}
#endif //PROFILER_H
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