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# Authors: Ron Dreslinski
# Mitch Hayenga
from ClockedObject import ClockedObject
from IndexingPolicies import *
from m5.SimObject import *
from m5.params import *
from m5.proxy import *
from ReplacementPolicies import *
class HWPProbeEvent(object):
def __init__(self, prefetcher, obj, *listOfNames):
self.obj = obj
self.prefetcher = prefetcher
self.names = listOfNames
def register(self):
if self.obj:
for name in self.names:
self.prefetcher.getCCObject().addEventProbe(
self.obj.getCCObject(), name)
class BasePrefetcher(ClockedObject):
type = 'BasePrefetcher'
abstract = True
cxx_header = "mem/cache/prefetch/base.hh"
cxx_exports = [
PyBindMethod("addEventProbe"),
]
sys = Param.System(Parent.any, "System this prefetcher belongs to")
# Get the block size from the parent (system)
block_size = Param.Int(Parent.cache_line_size, "Block size in bytes")
on_miss = Param.Bool(False, "Only notify prefetcher on misses")
on_read = Param.Bool(True, "Notify prefetcher on reads")
on_write = Param.Bool(True, "Notify prefetcher on writes")
on_data = Param.Bool(True, "Notify prefetcher on data accesses")
on_inst = Param.Bool(True, "Notify prefetcher on instruction accesses")
prefetch_on_access = Param.Bool(Parent.prefetch_on_access,
"Notify the hardware prefetcher on every access (not just misses)")
use_virtual_addresses = Param.Bool(False,
"Use virtual addresses for prefetching")
_events = []
def addEvent(self, newObject):
self._events.append(newObject)
# Override the normal SimObject::regProbeListeners method and
# register deferred event handlers.
def regProbeListeners(self):
for event in self._events:
event.register()
self.getCCObject().regProbeListeners()
def listenFromProbe(self, simObj, *probeNames):
if not isinstance(simObj, SimObject):
raise TypeError("argument must be of SimObject type")
if len(probeNames) <= 0:
raise TypeError("probeNames must have at least one element")
self.addEvent(HWPProbeEvent(self, simObj, *probeNames))
class QueuedPrefetcher(BasePrefetcher):
type = "QueuedPrefetcher"
abstract = True
cxx_class = "QueuedPrefetcher"
cxx_header = "mem/cache/prefetch/queued.hh"
latency = Param.Int(1, "Latency for generated prefetches")
queue_size = Param.Int(32, "Maximum number of queued prefetches")
queue_squash = Param.Bool(True, "Squash queued prefetch on demand access")
queue_filter = Param.Bool(True, "Don't queue redundant prefetches")
cache_snoop = Param.Bool(False, "Snoop cache to eliminate redundant request")
tag_prefetch = Param.Bool(True, "Tag prefetch with PC of generating access")
class StridePrefetcher(QueuedPrefetcher):
type = 'StridePrefetcher'
cxx_class = 'StridePrefetcher'
cxx_header = "mem/cache/prefetch/stride.hh"
# Do not consult stride prefetcher on instruction accesses
on_inst = False
max_conf = Param.Int(7, "Maximum confidence level")
thresh_conf = Param.Int(4, "Threshold confidence level")
min_conf = Param.Int(0, "Minimum confidence level")
start_conf = Param.Int(4, "Starting confidence for new entries")
table_sets = Param.Int(16, "Number of sets in PC lookup table")
table_assoc = Param.Int(4, "Associativity of PC lookup table")
use_master_id = Param.Bool(True, "Use master id based history")
degree = Param.Int(4, "Number of prefetches to generate")
# Get replacement policy
replacement_policy = Param.BaseReplacementPolicy(RandomRP(),
"Replacement policy")
class TaggedPrefetcher(QueuedPrefetcher):
type = 'TaggedPrefetcher'
cxx_class = 'TaggedPrefetcher'
cxx_header = "mem/cache/prefetch/tagged.hh"
degree = Param.Int(2, "Number of prefetches to generate")
class SignaturePathPrefetcher(QueuedPrefetcher):
type = 'SignaturePathPrefetcher'
cxx_class = 'SignaturePathPrefetcher'
cxx_header = "mem/cache/prefetch/signature_path.hh"
signature_shift = Param.UInt8(3,
"Number of bits to shift when calculating a new signature");
signature_bits = Param.UInt16(12,
"Size of the signature, in bits");
signature_table_entries = Param.MemorySize("1024",
"Number of entries of the signature table")
signature_table_assoc = Param.Unsigned(2,
"Associativity of the signature table")
signature_table_indexing_policy = Param.BaseIndexingPolicy(
SetAssociative(entry_size = 1, assoc = Parent.signature_table_assoc,
size = Parent.signature_table_entries),
"Indexing policy of the signature table")
signature_table_replacement_policy = Param.BaseReplacementPolicy(LRURP(),
"Replacement policy of the signature table")
max_counter_value = Param.UInt8(7, "Maximum pattern counter value")
pattern_table_entries = Param.MemorySize("4096",
"Number of entries of the pattern table")
pattern_table_assoc = Param.Unsigned(1,
"Associativity of the pattern table")
strides_per_pattern_entry = Param.Unsigned(4,
"Number of strides stored in each pattern entry")
pattern_table_indexing_policy = Param.BaseIndexingPolicy(
SetAssociative(entry_size = 1, assoc = Parent.pattern_table_assoc,
size = Parent.pattern_table_entries),
"Indexing policy of the pattern table")
pattern_table_replacement_policy = Param.BaseReplacementPolicy(LRURP(),
"Replacement policy of the pattern table")
prefetch_confidence_threshold = Param.Float(0.5,
"Minimum confidence to issue prefetches")
lookahead_confidence_threshold = Param.Float(0.75,
"Minimum confidence to continue exploring lookahead entries")
class AccessMapPatternMatchingPrefetcher(QueuedPrefetcher):
type = 'AccessMapPatternMatchingPrefetcher'
cxx_class = 'AccessMapPatternMatchingPrefetcher'
cxx_header = "mem/cache/prefetch/access_map_pattern_matching.hh"
start_degree = Param.Unsigned(4,
"Initial degree (Maximum number of prefetches generated")
hot_zone_size = Param.MemorySize("2kB", "Memory covered by a hot zone")
access_map_table_entries = Param.MemorySize("256",
"Number of entries in the access map table")
access_map_table_assoc = Param.Unsigned(8,
"Associativity of the access map table")
access_map_table_indexing_policy = Param.BaseIndexingPolicy(
SetAssociative(entry_size = 1, assoc = Parent.access_map_table_assoc,
size = Parent.access_map_table_entries),
"Indexing policy of the access map table")
access_map_table_replacement_policy = Param.BaseReplacementPolicy(LRURP(),
"Replacement policy of the access map table")
high_coverage_threshold = Param.Float(0.25,
"A prefetch coverage factor bigger than this is considered high")
low_coverage_threshold = Param.Float(0.125,
"A prefetch coverage factor smaller than this is considered low")
high_accuracy_threshold = Param.Float(0.5,
"A prefetch accuracy factor bigger than this is considered high")
low_accuracy_threshold = Param.Float(0.25,
"A prefetch accuracy factor smaller than this is considered low")
high_cache_hit_threshold = Param.Float(0.875,
"A cache hit ratio bigger than this is considered high")
low_cache_hit_threshold = Param.Float(0.75,
"A cache hit ratio smaller than this is considered low")
epoch_cycles = Param.Cycles(256000, "Cycles in an epoch period")
offchip_memory_latency = Param.Latency("30ns",
"Memory latency used to compute the required memory bandwidth")