/*
* 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/MemCntrlProfiler.hh"
using namespace std;
MemCntrlProfiler::MemCntrlProfiler(const string& description,
int banks_per_rank, int ranks_per_dimm, int dimms_per_channel)
{
m_description = description;
m_banks_per_rank = banks_per_rank;
m_ranks_per_dimm = ranks_per_dimm;
m_dimms_per_channel = dimms_per_channel;
int totalBanks = banks_per_rank * ranks_per_dimm * dimms_per_channel;
m_memBankCount.resize(totalBanks);
clearStats();
}
MemCntrlProfiler::~MemCntrlProfiler()
{
}
void
MemCntrlProfiler::printStats(ostream& out) const
{
if (!m_memReq && !m_memRefresh) {
out << "Memory Controller: " << m_description
<< " no stats recorded." << endl
<< endl
<< endl;
return;
}
// if there's a memory controller at all
uint64 total_stalls = m_memInputQ + m_memBankQ + m_memWaitCycles;
double stallsPerReq = total_stalls * 1.0 / m_memReq;
out << "Memory controller: " << m_description << ":" << endl;
// does not include refreshes
out << " memory_total_requests: " << m_memReq << endl;
out << " memory_reads: " << m_memRead << endl;
out << " memory_writes: " << m_memWrite << endl;
out << " memory_refreshes: " << m_memRefresh << endl;
out << " memory_total_request_delays: " << total_stalls << endl;
out << " memory_delays_per_request: " << stallsPerReq << endl;
out << " memory_delays_in_input_queue: " << m_memInputQ << endl;
out << " memory_delays_behind_head_of_bank_queue: "
<< m_memBankQ << endl;
out << " memory_delays_stalled_at_head_of_bank_queue: "
<< m_memWaitCycles << endl;
// Note: The following "memory stalls" entries are a breakdown of
// the cycles which already showed up in m_memWaitCycles. The
// order is significant; it is the priority of attributing the
// cycles. For example, bank_busy is before arbitration because
// if the bank was busy, we didn't even check arbitration.
// Note: "not old enough" means that since we grouped waiting
// heads-of-queues into batches to avoid starvation, a request in
// a newer batch didn't try to arbitrate yet because there are
// older requests waiting.
out << " memory_stalls_for_bank_busy: " << m_memBankBusy << endl;
out << " memory_stalls_for_random_busy: " << m_memRandBusy << endl;
out << " memory_stalls_for_anti_starvation: " << m_memNotOld << endl;
out << " memory_stalls_for_arbitration: " << m_memArbWait << endl;
out << " memory_stalls_for_bus: " << m_memBusBusy << endl;
out << " memory_stalls_for_tfaw: " << m_memTfawBusy << endl;
out << " memory_stalls_for_read_write_turnaround: "
<< m_memReadWriteBusy << endl;
out << " memory_stalls_for_read_read_turnaround: "
<< m_memDataBusBusy << endl;
out << " accesses_per_bank: ";
for (int bank = 0; bank < m_memBankCount.size(); bank++) {
out << m_memBankCount[bank] << " ";
}
out << endl;
out << endl;
}
void
MemCntrlProfiler::clearStats()
{
m_memReq = 0;
m_memBankBusy = 0;
m_memBusBusy = 0;
m_memTfawBusy = 0;
m_memReadWriteBusy = 0;
m_memDataBusBusy = 0;
m_memRefresh = 0;
m_memRead = 0;
m_memWrite = 0;
m_memWaitCycles = 0;
m_memInputQ = 0;
m_memBankQ = 0;
m_memArbWait = 0;
m_memRandBusy = 0;
m_memNotOld = 0;
for (int bank = 0; bank < m_memBankCount.size(); bank++) {
m_memBankCount[bank] = 0;
}
}
void
MemCntrlProfiler::profileMemReq(int bank)
{
m_memReq++;
m_memBankCount[bank]++;
}
void
MemCntrlProfiler::profileMemBankBusy()
{
m_memBankBusy++;
}
void
MemCntrlProfiler::profileMemBusBusy()
{
m_memBusBusy++;
}
void
MemCntrlProfiler::profileMemReadWriteBusy()
{
m_memReadWriteBusy++;
}
void
MemCntrlProfiler::profileMemDataBusBusy()
{
m_memDataBusBusy++;
}
void
MemCntrlProfiler::profileMemTfawBusy()
{
m_memTfawBusy++;
}
void
MemCntrlProfiler::profileMemRefresh()
{
m_memRefresh++;
}
void
MemCntrlProfiler::profileMemRead()
{
m_memRead++;
}
void
MemCntrlProfiler::profileMemWrite()
{
m_memWrite++;
}
void
MemCntrlProfiler::profileMemWaitCycles(int cycles)
{
m_memWaitCycles += cycles;
}
void
MemCntrlProfiler::profileMemInputQ(int cycles)
{
m_memInputQ += cycles;
}
void
MemCntrlProfiler::profileMemBankQ(int cycles)
{
m_memBankQ += cycles;
}
void
MemCntrlProfiler::profileMemArbWait(int cycles)
{
m_memArbWait += cycles;
}
void
MemCntrlProfiler::profileMemRandBusy()
{
m_memRandBusy++;
}
void
MemCntrlProfiler::profileMemNotOld()
{
m_memNotOld++;
}