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/*
* Copyright (c) 2020 ARM Limited
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*
* The license below extends only to copyright in the software and shall
* not be construed as granting a license to any other intellectual
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* to a hardware implementation of the functionality of the software
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* this software without specific prior written permission.
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#include "cpu/testers/traffic_gen/nvm_gen.hh"
#include <algorithm>
#include "base/random.hh"
#include "base/trace.hh"
#include "debug/TrafficGen.hh"
#include "enums/AddrMap.hh"
namespace gem5
{
NvmGen::NvmGen(SimObject &obj,
RequestorID requestor_id, Tick _duration,
Addr start_addr, Addr end_addr,
Addr _blocksize, Addr cacheline_size,
Tick min_period, Tick max_period,
uint8_t read_percent, Addr data_limit,
unsigned int num_seq_pkts, unsigned int buffer_size,
unsigned int nbr_of_banks,
unsigned int nbr_of_banks_util,
enums::AddrMap addr_mapping,
unsigned int nbr_of_ranks)
: RandomGen(obj, requestor_id, _duration, start_addr, end_addr,
_blocksize, cacheline_size, min_period, max_period,
read_percent, data_limit),
numSeqPkts(num_seq_pkts), countNumSeqPkts(0), addr(0),
isRead(true), bufferSize(buffer_size),
bufferBits(floorLog2(buffer_size / _blocksize)),
bankBits(floorLog2(nbr_of_banks)),
blockBits(floorLog2(_blocksize)),
nbrOfBanksNVM(nbr_of_banks),
nbrOfBanksUtil(nbr_of_banks_util), addrMapping(addr_mapping),
rankBits(floorLog2(nbr_of_ranks)),
nbrOfRanks(nbr_of_ranks)
{
if (nbr_of_banks_util > nbr_of_banks)
fatal("Attempting to use more banks (%d) than "
"what is available (%d)\n",
nbr_of_banks_util, nbr_of_banks);
}
PacketPtr
NvmGen::getNextPacket()
{
// if this is the first of the packets in series to be generated,
// start counting again
if (countNumSeqPkts == 0) {
countNumSeqPkts = numSeqPkts;
// choose if we generate a read or a write here
isRead = readPercent != 0 &&
(readPercent == 100 || random_mt.random(0, 100) < readPercent);
assert((readPercent == 0 && !isRead) ||
(readPercent == 100 && isRead) ||
readPercent != 100);
// pick a random bank
unsigned int new_bank =
random_mt.random<unsigned int>(0, nbrOfBanksUtil - 1);
// pick a random rank
unsigned int new_rank =
random_mt.random<unsigned int>(0, nbrOfRanks - 1);
// Generate the start address of the command series
// routine will update addr variable with bank, rank, and col
// bits updated for random traffic mode
genStartAddr(new_bank, new_rank);
} else {
// increment the column by one
if (addrMapping == enums::RoRaBaCoCh ||
addrMapping == enums::RoRaBaChCo)
// Simply increment addr by blocksize to increment
// the column by one
addr += blocksize;
else if (addrMapping == enums::RoCoRaBaCh) {
// Explicity increment the column bits
unsigned int new_col = ((addr / blocksize /
nbrOfBanksNVM / nbrOfRanks) %
(bufferSize / blocksize)) + 1;
replaceBits(addr, blockBits + bankBits + rankBits +
bufferBits - 1,
blockBits + bankBits + rankBits, new_col);
}
}
DPRINTF(TrafficGen, "NvmGen::getNextPacket: %c to addr %x, "
"size %d, countNumSeqPkts: %d, numSeqPkts: %d\n",
isRead ? 'r' : 'w', addr, blocksize, countNumSeqPkts, numSeqPkts);
// create a new request packet
PacketPtr pkt = getPacket(addr, blocksize,
isRead ? MemCmd::ReadReq : MemCmd::WriteReq);
// add the amount of data manipulated to the total
dataManipulated += blocksize;
// subtract the number of packets remained to be generated
--countNumSeqPkts;
// return the generated packet
return pkt;
}
void
NvmGen::genStartAddr(unsigned int new_bank, unsigned int new_rank)
{
// start by picking a random address in the range
addr = random_mt.random<Addr>(startAddr, endAddr - 1);
// round down to start address of a block, i.e. a NVM burst
addr -= addr % blocksize;
// insert the bank bits at the right spot, and align the
// address to achieve the required hit length, this involves
// finding the appropriate start address such that all
// sequential packets target successive bursts in the same
// buffer
unsigned int burst_per_buffer = bufferSize / blocksize;
// pick a random burst address, but ensure that there is room for
// numSeqPkts sequential bursts in the same buffer
unsigned int new_col =
random_mt.random<unsigned int>(0, burst_per_buffer - numSeqPkts);
if (addrMapping == enums::RoRaBaCoCh ||
addrMapping == enums::RoRaBaChCo) {
// Block bits, then buffer bits, then bank bits, then rank bits
replaceBits(addr, blockBits + bufferBits + bankBits - 1,
blockBits + bufferBits, new_bank);
replaceBits(addr, blockBits + bufferBits - 1, blockBits, new_col);
if (rankBits != 0) {
replaceBits(addr, blockBits + bufferBits + bankBits +
rankBits - 1, blockBits + bufferBits + bankBits,
new_rank);
}
} else if (addrMapping == enums::RoCoRaBaCh) {
// Block bits, then bank bits, then rank bits, then buffer bits
replaceBits(addr, blockBits + bankBits - 1, blockBits, new_bank);
replaceBits(addr, blockBits + bankBits + rankBits + bufferBits - 1,
blockBits + bankBits + rankBits, new_col);
if (rankBits != 0) {
replaceBits(addr, blockBits + bankBits + rankBits - 1,
blockBits + bankBits, new_rank);
}
}
}
} // namespace gem5