/**
* Copyright (c) 2018 Metempsy Technology Consulting
* 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: Javier Bueno
*/
#include "mem/cache/prefetch/signature_path.hh"
#include <cassert>
#include "debug/HWPrefetch.hh"
#include "mem/cache/prefetch/associative_set_impl.hh"
#include "params/SignaturePathPrefetcher.hh"
SignaturePathPrefetcher::SignaturePathPrefetcher(
const SignaturePathPrefetcherParams *p)
: QueuedPrefetcher(p),
stridesPerPatternEntry(p->strides_per_pattern_entry),
signatureShift(p->signature_shift),
signatureBits(p->signature_bits),
maxCounterValue(p->max_counter_value),
prefetchConfidenceThreshold(p->prefetch_confidence_threshold),
lookaheadConfidenceThreshold(p->lookahead_confidence_threshold),
signatureTable(p->signature_table_assoc, p->signature_table_entries,
p->signature_table_indexing_policy,
p->signature_table_replacement_policy),
patternTable(p->pattern_table_assoc, p->pattern_table_entries,
p->pattern_table_indexing_policy,
p->pattern_table_replacement_policy,
PatternEntry(stridesPerPatternEntry))
{
}
SignaturePathPrefetcher::PatternStrideEntry &
SignaturePathPrefetcher::PatternEntry::getStrideEntry(stride_t stride,
uint8_t max_counter_value)
{
PatternStrideEntry *pstride_entry = findStride(stride);
if (pstride_entry == nullptr) {
// Specific replacement algorithm for this table,
// pick the entry with the lowest counter value,
// then decrease the counter of all entries
// If all counters have the max value, this will be the pick
PatternStrideEntry *victim_pstride_entry = &(strideEntries[0]);
uint8_t current_counter = max_counter_value;
for (auto &entry : strideEntries) {
if (entry.counter < current_counter) {
victim_pstride_entry = &entry;
current_counter = entry.counter;
}
if (entry.counter > 0) {
entry.counter -= 1;
}
}
pstride_entry = victim_pstride_entry;
pstride_entry->counter = 0;
pstride_entry->stride = stride;
}
return *pstride_entry;
}
void
SignaturePathPrefetcher::addPrefetch(Addr ppn, stride_t block,
bool is_secure, std::vector<AddrPriority> &addresses)
{
/**
* block is relative to the provided ppn. Assuming a page size of 4kB and
* a block size of 64B, the range of the stride of this prefetcher is
* -63,63 (pageBytes/blkSize) as the last accessed block also ranges from
* 0,63, the block value is expected to be between -63 and 126
* Negative block means that we are accessing the lower contiguous page,
* 64 or greater point to the next contiguous.
*/
assert(block > -((stride_t)(pageBytes/blkSize)));
assert(block < 2*((stride_t)(pageBytes/blkSize)));
Addr pf_ppn;
stride_t pf_block;
if (block < 0) {
pf_ppn = ppn - 1;
pf_block = block + (pageBytes/blkSize);
} else if (block >= (pageBytes/blkSize)) {
pf_ppn = ppn + 1;
pf_block = block - (pageBytes/blkSize);
} else {
pf_ppn = ppn;
pf_block = block;
}
Addr new_addr = pf_ppn * pageBytes;
new_addr += pf_block * (Addr)blkSize;
DPRINTF(HWPrefetch, "Queuing prefetch to %#x.\n", new_addr);
addresses.push_back(AddrPriority(new_addr, 0));
}
void
SignaturePathPrefetcher::updatePatternTable(Addr signature, stride_t stride)
{
assert(stride != 0);
// The pattern table is indexed by signatures
PatternEntry &p_entry = getPatternEntry(signature);
PatternStrideEntry &ps_entry = p_entry.getStrideEntry(stride,
maxCounterValue);
if (ps_entry.counter < maxCounterValue) {
ps_entry.counter += 1;
}
}
SignaturePathPrefetcher::SignatureEntry &
SignaturePathPrefetcher::getSignatureEntry(Addr ppn, bool is_secure,
stride_t block, bool &miss)
{
SignatureEntry* signature_entry = signatureTable.findEntry(ppn, is_secure);
if (signature_entry != nullptr) {
signatureTable.accessEntry(signature_entry);
miss = false;
} else {
signature_entry = signatureTable.findVictim(ppn);
assert(signature_entry != nullptr);
signatureTable.insertEntry(ppn, is_secure, signature_entry);
signature_entry->signature = block;
signature_entry->lastBlock = block;
miss = true;
}
return *signature_entry;
}
SignaturePathPrefetcher::PatternEntry &
SignaturePathPrefetcher::getPatternEntry(Addr signature)
{
PatternEntry* pattern_entry = patternTable.findEntry(signature, false);
if (pattern_entry != nullptr) {
// Signature found
patternTable.accessEntry(pattern_entry);
} else {
// Signature not found
pattern_entry = patternTable.findVictim(signature);
assert(pattern_entry != nullptr);
patternTable.insertEntry(signature, false, pattern_entry);
}
return *pattern_entry;
}
void
SignaturePathPrefetcher::calculatePrefetch(const PrefetchInfo &pfi,
std::vector<AddrPriority> &addresses)
{
Addr request_addr = pfi.getAddr();
Addr ppn = request_addr / pageBytes;
stride_t current_block = (request_addr % pageBytes) / blkSize;
stride_t stride;
bool is_secure = pfi.isSecure();
// Get the SignatureEntry of this page to:
// - compute the current stride
// - obtain the current signature of accesses
bool miss;
SignatureEntry &signature_entry = getSignatureEntry(ppn, is_secure,
current_block, miss);
if (miss) {
// No history for this page, can't continue
return;
}
stride = current_block - signature_entry.lastBlock;
if (stride == 0) {
// Can't continue with a stride 0
return;
}
// Update the confidence of the current signature
updatePatternTable(signature_entry.signature, stride);
// Update the current SignatureEntry signature and lastBlock
signature_entry.signature =
updateSignature(signature_entry.signature, stride);
signature_entry.lastBlock = current_block;
signature_t current_signature = signature_entry.signature;
double current_confidence = 1.0;
stride_t current_stride = signature_entry.lastBlock;
do {
// With the updated signature, attempt to generate prefetches
// - search the PatternTable and select all entries with enough
// confidence, these are prefetch candidates
// - select the entry with the highest counter as the "lookahead"
PatternEntry *current_pattern_entry =
patternTable.findEntry(current_signature, false);
PatternStrideEntry const *lookahead = nullptr;
if (current_pattern_entry != nullptr) {
uint8_t max_counter = 0;
for (auto const &entry : current_pattern_entry->strideEntries) {
//select the entry with the maximum counter value as lookahead
if (max_counter < entry.counter) {
max_counter = entry.counter;
lookahead = &entry;
}
double prefetch_confidence =
(double) entry.counter / maxCounterValue;
if (prefetch_confidence >= prefetchConfidenceThreshold) {
assert(entry.stride != 0);
//prefetch candidate
addPrefetch(ppn, current_stride + entry.stride,
is_secure, addresses);
}
}
}
if (lookahead != nullptr) {
// If a lookahead was selected, compute its confidence using
// the counter of its entry and the accumulated confidence
// if the confidence is high enough, generate a new signature
double lookahead_confidence;
if (lookahead->counter == maxCounterValue) {
// maximum confidence is 0.95, guaranteeing that
// current confidence will eventually fall beyond
// the threshold
lookahead_confidence = 0.95;
} else {
lookahead_confidence =
((double) lookahead->counter / maxCounterValue);
}
current_confidence *= lookahead_confidence;
current_signature =
updateSignature(current_signature, lookahead->stride);
current_stride += lookahead->stride;
} else {
current_confidence = 0.0;
}
// If the accumulated confidence is high enough, keep repeating
// this process with the updated signature
}
while (current_confidence > lookaheadConfidenceThreshold);
if (addresses.empty()) {
// Enable the next line prefetcher if no prefetch candidates are found
addPrefetch(ppn, current_block + 1, is_secure, addresses);
}
}
SignaturePathPrefetcher*
SignaturePathPrefetcherParams::create()
{
return new SignaturePathPrefetcher(this);
}