Commit graph

468 commits

Author SHA1 Message Date
Andreas Sandberg
f16c0a4a90 sim: Decouple draining from the SimObject hierarchy
Draining is currently done by traversing the SimObject graph and
calling drain()/drainResume() on the SimObjects. This is not ideal
when non-SimObjects (e.g., ports) need draining since this means that
SimObjects owning those objects need to be aware of this.

This changeset moves the responsibility for finding objects that need
draining from SimObjects and the Python-side of the simulator to the
DrainManager. The DrainManager now maintains a set of all objects that
need draining. To reduce the overhead in classes owning non-SimObjects
that need draining, objects inheriting from Drainable now
automatically register with the DrainManager. If such an object is
destroyed, it is automatically unregistered. This means that drain()
and drainResume() should never be called directly on a Drainable
object.

While implementing the new functionality, the DrainManager has now
been made thread safe. In practice, this means that it takes a lock
whenever it manipulates the set of Drainable objects since SimObjects
in different threads may create Drainable objects
dynamically. Similarly, the drain counter is now an atomic_uint, which
ensures that it is manipulated correctly when objects signal that they
are done draining.

A nice side effect of these changes is that it makes the drain state
changes stricter, which the simulation scripts can exploit to avoid
redundant drains.
2015-07-07 09:51:05 +01:00
Andreas Sandberg
e9c3d59aae sim: Make the drain state a global typed enum
The drain state enum is currently a part of the Drainable
interface. The same state machine will be used by the DrainManager to
identify the global state of the simulator. Make the drain state a
global typed enum to better cater for this usage scenario.
2015-07-07 09:51:04 +01:00
Andreas Sandberg
76cd4393c0 sim: Refactor the serialization base class
Objects that are can be serialized are supposed to inherit from the
Serializable class. This class is meant to provide a unified API for
such objects. However, so far it has mainly been used by SimObjects
due to some fundamental design limitations. This changeset redesigns
to the serialization interface to make it more generic and hide the
underlying checkpoint storage. Specifically:

  * Add a set of APIs to serialize into a subsection of the current
    object. Previously, objects that needed this functionality would
    use ad-hoc solutions using nameOut() and section name
    generation. In the new world, an object that implements the
    interface has the methods serializeSection() and
    unserializeSection() that serialize into a named /subsection/ of
    the current object. Calling serialize() serializes an object into
    the current section.

  * Move the name() method from Serializable to SimObject as it is no
    longer needed for serialization. The fully qualified section name
    is generated by the main serialization code on the fly as objects
    serialize sub-objects.

  * Add a scoped ScopedCheckpointSection helper class. Some objects
    need to serialize data structures, that are not deriving from
    Serializable, into subsections. Previously, this was done using
    nameOut() and manual section name generation. To simplify this,
    this changeset introduces a ScopedCheckpointSection() helper
    class. When this class is instantiated, it adds a new /subsection/
    and subsequent serialization calls during the lifetime of this
    helper class happen inside this section (or a subsection in case
    of nested sections).

  * The serialize() call is now const which prevents accidental state
    manipulation during serialization. Objects that rely on modifying
    state can use the serializeOld() call instead. The default
    implementation simply calls serialize(). Note: The old-style calls
    need to be explicitly called using the
    serializeOld()/serializeSectionOld() style APIs. These are used by
    default when serializing SimObjects.

  * Both the input and output checkpoints now use their own named
    types. This hides underlying checkpoint implementation from
    objects that need checkpointing and makes it easier to change the
    underlying checkpoint storage code.
2015-07-07 09:51:03 +01:00
Andreas Hansson
db85ddca1a mem: Delay responses in the crossbar before forwarding
This patch changes how the crossbar classes deal with
responses. Instead of forwarding responses directly and burdening the
neighbouring modules in paying for the latency (through the
pkt->headerDelay), we now queue them before sending them.

The coherency protocol is not affected as requests and any snoop
requests/responses are still passed on in zero time. Thus, the
responses end up paying for any header delay accumulated when passing
through the crossbar. Any latency incurred on the request path will be
paid for on the response side, if no other module has dealt with it.

As a result of this patch, responses are returned at a later
point. This affects the number of outstanding transactions, and quite
a few regressions see an impact in blocking due to no MSHRs, increased
cache-miss latencies, etc.

Going forward we should be able to use the same concept also for snoop
responses, and any request that is not an express snoop.
2015-07-03 10:14:44 -04:00
Andreas Hansson
b93c912013 mem: Remove redundant is_top_level cache parameter
This patch takes the final step in removing the is_top_level parameter
from the cache. With the recent changes to read requests and write
invalidations, the parameter is no longer needed, and consequently
removed.

This also means that asymmetric cache hierarchies are now fully
supported (and we are actually using them already with L1 caches, but
no table-walker caches, connected to a shared L2).
2015-07-03 10:14:43 -04:00
Andreas Hansson
71856cfbbc mem: Split WriteInvalidateReq into write and invalidate
WriteInvalidateReq ensures that a whole-line write does not incur the
cost of first doing a read exclusive, only to later overwrite the
data. This patch splits the existing WriteInvalidateReq into a
WriteLineReq, which is done locally, and an InvalidateReq that is sent
out throughout the memory system. The WriteLineReq re-uses the normal
WriteResp.

The change allows us to better express the difference between the
cache that is performing the write, and the ones that are merely
invalidating. As a consequence, we no longer have to rely on the
isTopLevel flag. Moreover, the actual memory in the system does not
see the intitial write, only the writeback. We were marking the
written line as dirty already, so there is really no need to also push
the write all the way to the memory.

The overall flow of the write-invalidate operation remains the same,
i.e. the operation is only carried out once the response for the
invalidate comes back. This patch adds the InvalidateResp for this
very reason.
2015-07-03 10:14:41 -04:00
Andreas Hansson
0ddde83a47 mem: Add ReadCleanReq and ReadSharedReq packets
This patch adds two new read requests packets:

ReadCleanReq - For a cache to explicitly request clean data. The
response is thus exclusive or shared, but not owned or modified. The
read-only caches (see previous patch) use this request type to ensure
they do not get dirty data.

ReadSharedReq - We add this to distinguish cache read requests from
those issued by other masters, such as devices and CPUs. Thus, devices
use ReadReq, and caches use ReadCleanReq, ReadExReq, or
ReadSharedReq. For the latter, the response can be any state, shared,
exclusive, owned or even modified.

Both ReadCleanReq and ReadSharedReq re-use the normal ReadResp. The
two transactions are aligned with the emerging cache-coherent TLM
standard and the AMBA nomenclature.

With this change, the normal ReadReq should never be used by a cache,
and is reserved for the actual (non-caching) masters in the system. We
thus have a way of identifying if a request came from a cache or
not. The introduction of ReadSharedReq thus removes the need for the
current isTopLevel hack, and also allows us to stop relying on
checking the packet size to determine if the source is a cache or
not. This is fixed in follow-on patches.
2015-07-03 10:14:40 -04:00
Andreas Hansson
893533a126 mem: Allow read-only caches and check compliance
This patch adds a parameter to the BaseCache to enable a read-only
cache, for example for the instruction cache, or table-walker cache
(not for x86). A number of checks are put in place in the code to
ensure a read-only cache does not end up with dirty data.

A follow-on patch adds suitable read requests to allow a read-only
cache to explicitly ask for clean data.
2015-07-03 10:14:39 -04:00
Ali Jafri
a262908acc mem: Add clean evicts to improve snoop filter tracking
This patch adds eviction notices to the caches, to provide accurate
tracking of cache blocks in snoop filters. We add the CleanEvict
message to the memory heirarchy and use both CleanEvicts and
Writebacks with BLOCK_CACHED flags to propagate notice of clean and
dirty evictions respectively, down the memory hierarchy. Note that the
BLOCK_CACHED flag indicates whether there exist any copies of the
evicted block in the caches above the evicting cache.

The purpose of the CleanEvict message is to notify snoop filters of
silent evictions in the relevant caches. The CleanEvict message
behaves much like a Writeback. CleanEvict is a write and a request but
unlike a Writeback, CleanEvict does not have data and does not need
exclusive access to the block. The cache generates the CleanEvict
message on a fill resulting in eviction of a clean block. Before
travelling downwards CleanEvict requests generate zero-time snoop
requests to check if the same block is cached in upper levels of the
memory heirarchy. If the block exists, the cache discards the
CleanEvict message. The snoops check the tags, writeback queue and the
MSHRs of upper level caches in a manner similar to snoops generated
from HardPFReqs. Currently CleanEvicts keep travelling towards main
memory unless they encounter the block corresponding to their address
or reach main memory (since we have no well defined point of
serialisation). Main memory simply discards CleanEvict messages.

We have modified the behavior of Writebacks, such that they generate
snoops to check for the presence of blocks in upper level caches. It
is possible in our current implmentation for a lower level cache to be
writing back a block while a shared copy of the same block exists in
the upper level cache. If the snoops find the same block in upper
level caches, we set the BLOCK_CACHED flag in the Writeback message.

We have also added logic to account for interaction of other message
types with CleanEvicts waiting in the writeback queue. A simple
example is of a response arriving at a cache removing any CleanEvicts
to the same address from the cache's writeback queue.
2015-07-03 10:14:37 -04:00
Andreas Hansson
578a7f20c6 mem: Fix snoop packet data allocation bug
This patch fixes an issue where the snoop packet did not properly
forward the data pointer in case of static data.
2015-06-09 09:21:17 -04:00
Stephan Diestelhorst
2847d5f517 mem: Create a request copy for deferred snoops
Sometimes, we need to defer an express snoop in an MSHR, but the original
request might complete and deallocate the original pkt->req.  In those cases,
create a copy of the request so that someone who is inspecting the delayed
snoop can also inspect the request still.  All of this is rather hacky, but the
allocation / linking and general life-time management of Packet and Request is
rather tricky.  Deleting the copy is another tricky area, testing so far has
shown that the right copy is deleted at the right time.
2015-03-17 11:50:55 +00:00
Andreas Hansson
36f29496a0 mem: Snoop into caches on uncacheable accesses
This patch takes a last step in fixing issues related to uncacheable
accesses. We do not separate uncacheable memory from uncacheable
devices, and in cases where it is really memory, there are valid
scenarios where we need to snoop since we do not support cache
maintenance instructions (yet). On snooping an uncacheable access we
thus provide data if possible. In essence this makes uncacheable
accesses IO coherent.

The snoop filter is also queried to steer the snoops, but not updated
since the uncacheable accesses do not allocate a block.
2015-05-05 03:22:29 -04:00
Andreas Hansson
14e5b2ea55 mem: Pass shared downstream through caches
This patch ensures that we pass on information about a packet being
shared (rather than exclusive), when forwarding a packet downstream.

Without this patch there is a risk that a downstream cache considers
the line exclusive when it really isn't.
2015-05-05 03:22:26 -04:00
Ali Jafri
3d33432136 mem: Add forward snoop check for HardPFReqs
We should always check whether the cache is supposed to be forwarding snoops
before generating snoops.
2015-05-05 03:22:25 -04:00
Andreas Hansson
0ebbf3f951 mem: Add missing stats update for uncacheable MSHRs
This patch adds a missing counter update for the uncacheable
accesses. By updating this counter we also get a meaningful average
latency for uncacheable accesses (previously inf).
2015-05-05 03:22:24 -04:00
Andreas Hansson
33e3e370f2 mem: Tidy up BaseCache parameters
This patch simply tidies up the BaseCache parameters and removes the
unused "two_queue" parameter.
2015-05-05 03:22:22 -04:00
David Guillen
5287945a8b mem: Remove templates in cache model
This patch changes the cache implementation to rely on virtual methods
rather than using the replacement policy as a template argument.

There is no impact on the simulation performance, and overall the
changes make it easier to modify (and subclass) the cache and/or
replacement policy.
2015-05-05 03:22:21 -04:00
Stephan Diestelhorst
cb8856f580 mem: Support any number of master-IDs in stride prefetcher
The stride prefetcher had a hardcoded number of contexts (i.e. master-IDs)
that it could handle. Since master IDs need to be unique per system, and
every core, cache etc. requires a separate master port, a static limit on
these does not make much sense.

Instead, this patch adds a small hash map that will map all master IDs to
the right prefetch state and dynamically allocates new state for new master
IDs.
2015-03-27 04:56:03 -04:00
Andreas Hansson
0197e580e5 mem: Allocate cache writebacks before new MSHRs
This patch changes the order of writeback allocation such that any
writebacks resulting from a tag lookup (e.g. for an uncacheable
access), are added to the writebuffer before any new MSHR entries are
allocated. This ensures that the writebacks logically precedes the new
allocations.

The patch also changes the uncacheable flush to use proper timed (or
atomic) writebacks, as opposed to functional writes.
2015-03-27 04:56:02 -04:00
Andreas Hansson
24763c2177 mem: Cleanup flow for uncacheable accesses
This patch simplifies the code dealing with uncacheable timing
accesses, aiming to align it with the existing miss handling. Similar
to what we do in atomic, a timing request now goes through
Cache::access (where the block is also flushed), and then proceeds to
ignore any existing MSHR for the block in question. This unifies the
flow for cacheable and uncacheable accesses, and for atomic and timing.
2015-03-27 04:56:01 -04:00
Andreas Hansson
a7a1e6004a mem: Ignore uncacheable MSHRs when finding matches
This patch changes how we search for matching MSHRs, ignoring any MSHR
that is allocated for an uncacheable access. By doing so, this patch
fixes a corner case in the MSHRs where incorrect data ended up being
copied into a (cacheable) read packet due to a first uncacheable MSHR
target of size 4, followed by a cacheable target to the same MSHR of
size 64. The latter target was filled with nonsense data.
2015-03-27 04:56:00 -04:00
Andreas Hansson
801ce65eae mem: Remove redundant allocateUncachedReadBuffer in cache
This patch removes the no-longer-needed
allocateUncachedReadBuffer. Besides the checks it is exactly the same
as allocateMissBuffer and thus provides no value.
2015-03-27 04:55:59 -04:00
Andreas Hansson
fe806a0dd7 mem: Modernise MSHR iterators to C++11
This patch updates the iterators in the MSHR and MSHR queues to use
C++11 range-based for loops. It also does a bit of additional house
keeping.
2015-03-27 04:55:57 -04:00
Andreas Hansson
7bae98459c mem: Align all MSHR entries to block boundaries
This patch aligns all MSHR queue entries to block boundaries to
simplify checks for matches. Previously there were corner cases that
could lead to existing entries not being identified as matches.

There are, rather alarmingly, a few regressions that change with this
patch.
2015-03-27 04:55:55 -04:00
Ali Jafri
15f0d9ff14 mem: Rename PREFETCH_SNOOP_SQUASH flag to BLOCK_CACHED
This patch subsumes the PREFETCH_SNOOP_SQUASH flag with the more
generic BLOCK_CACHED flag. Future patches implementing cache eviction
messages can use the BLOCK_CACHED flag in almost the same manner as
hardware prefetches use the PREFETCH_SNOOP_SQUASH flag. The
PREFTECH_SNOOP_FLAG is set if the prefetch target is found in the tags
or the MSHRs in any state, so we are simply replacing calls to
setPrefetchSquashed() with setBlockCached(). The case of where the
prefetch target is found in the writeback MSHRs of upper level caches
continues to be covered by the MEM_INHIBIT flag.
2015-03-27 04:55:54 -04:00
Andreas Hansson
5275c9d740 mem: Use emplace front/back for deferred packets
Embrace C++11 for the deferred packets as we actually store the
objects in the data structure, and not just pointers.
2015-03-19 04:06:11 -04:00
Steve Reinhardt
e57ab463cf mem: remove redundant test in in Cache::recvTimingResp()
For some reason we were checking mshr->hasTargets() even though
we had already called mshr->getTarget() unconditionally earlier
in the same function (which asserts if there are no targets).
Get rid of this useless check, and while we're at it get rid
of the redundant call to mshr->getTarget(), since we still have
the value saved in a local var.
2015-02-11 10:48:53 -08:00
Steve Reinhardt
89bb03a1a6 mem: add local var in Cache::recvTimingResp()
The main loop in recvTimingResp() uses target->pkt all over
the place.  Create a local tgt_pkt to help keep lines
under the line length limit.
2015-02-11 10:48:52 -08:00
Steve Reinhardt
ccef61d1cc mem: clean up write buffer check in Cache::handleSnoop()
The 'if (writebacks.size)' check was redundant, because
writeBuffer.findMatches() would return false if the
writebacks list was empty.

Also renamed 'mshr' to 'wb_entry' in this context since
we are pointing at a writebuffer entry and not an MSHR
(even though it's the same C++ class).
2015-03-14 06:51:07 -07:00
Andreas Hansson
fc315901ff mem: Unify all cache DPRINTF address formatting
This patch changes all the DPRINTF messages in the cache to use
'%#llx' every time a packet address is printed. The inclusion of '#'
ensures '0x' is prepended, and since the address type is a uint64_t %x
really should be %llx.
2015-03-02 04:00:56 -05:00
Andreas Hansson
88e2963951 mem: Fix cache MSHR conflict determination
This patch fixes a rather subtle issue in the sending of MSHR requests
in the cache, where the logic previously did not check for conflicts
between the MSRH queue and the write queue when requests were not
ready. The correct thing to do is to always check, since not having a
ready MSHR does not guarantee that there is no conflict.

The underlying problem seems to have slipped past due to the symmetric
timings used for the write queue and MSHR queue. However, with the
recent timing changes the bug caused regressions to fail.
2015-03-02 04:00:54 -05:00
Stephan Diestelhorst
ecef1612b8 mem: Add option to force in-order insertion in PacketQueue
By default, the packet queue is ordered by the ticks of the to-be-sent
packages. With the recent modifications of packages sinking their header time
when their resposne leaves the caches, there could be cases of MSHR targets
being allocated and ordered A, B, but their responses being sent out in the
order B,A. This led to inconsistencies in bus traffic, in particular the snoop
filter observing first a ReadExResp and later a ReadRespWithInv.  Logically,
these were ordered the other way around behind the MSHR, but due to the timing
adjustments when inserting into the PacketQueue, they were sent out in the
wrong order on the bus, confusing the snoop filter.

This patch adds a flag (off by default) such that these special cases can
request in-order insertion into the packet queue, which might offset timing
slighty. This is expected to occur rarely and not affect timing results.
2015-03-02 04:00:49 -05:00
Marco Balboni
d4ef8368aa mem: Downstream components consumes new crossbar delays
This patch makes the caches and memory controllers consume the delay
that is annotated to a packet by the crossbar. Previously many
components simply threw these delays away. Note that the devices still
do not pay for these delays.
2015-03-02 04:00:48 -05:00
Andreas Hansson
987de4f5cc mem: Tidy up the cache debug messages
Avoid redundant inclusion of the name in the DPRINTF string.
2015-03-02 04:00:37 -05:00
Andreas Hansson
f26a289295 mem: Split port retry for all different packet classes
This patch fixes a long-standing isue with the port flow
control. Before this patch the retry mechanism was shared between all
different packet classes. As a result, a snoop response could get
stuck behind a request waiting for a retry, even if the send/recv
functions were split. This caused message-dependent deadlocks in
stress-test scenarios.

The patch splits the retry into one per packet (message) class. Thus,
sendTimingReq has a corresponding recvReqRetry, sendTimingResp has
recvRespRetry etc. Most of the changes to the code involve simply
clarifying what type of request a specific object was accepting.

The biggest change in functionality is in the cache downstream packet
queue, facing the memory. This queue was shared by requests and snoop
responses, and it is now split into two queues, each with their own
flow control, but the same physical MasterPort. These changes fixes
the previously seen deadlocks.
2015-03-02 04:00:35 -05:00
Ali Jafri
6ebe8d863a mem: Fix prefetchSquash + memInhibitAsserted bug
This patch resolves a bug with hardware prefetches. Before a hardware prefetch
is sent towards the memory, the system generates a snoop request to check all
caches above the prefetch generating cache for the presence of the prefetth
target. If the prefetch target is found in the tags or the MSHRs of the upper
caches, the cache sets the prefetchSquashed flag in the snoop packet. When the
snoop packet returns with the prefetchSquashed flag set, the prefetch
generating cache deallocates the MSHR reserved for the prefetch. If the
prefetch target is found in the writeback buffer of the upper cache, the cache
sets the memInhibit flag, which signals the prefetch generating cache to
expect the data from the writeback. When the snoop packet returns with the
memInhibitAsserted flag set, it marks the allocated MSHR as inService and
waits for the data from the writeback.

If the prefetch target is found in multiple upper level caches, specifically
in the tags or MSHRs of one upper level cache and the writeback buffer of
another, the snoop packet will return with both prefetchSquashed and
memInhibitAsserted set, while the current code is not written to handle such
an outcome. Current code checks for the prefetchSquashed flag first, if it
finds the flag, it deallocates the reserved MSHR. This leads to assert failure
when the data from the writeback appears at cache. In this fix, we simply
switch the order of checks. We first check for memInhibitAsserted and then for
prefetch squashed.
2015-03-02 04:00:34 -05:00
Marco Balboni
268d9e59c5 mem: Clarification of packet crossbar timings
This patch clarifies the packet timings annotated
when going through a crossbar.

The old 'firstWordDelay' is replaced by 'headerDelay' that represents
the delay associated to the delivery of the header of the packet.

The old 'lastWordDelay' is replaced by 'payloadDelay' that represents
the delay needed to processing the payload of the packet.

For now the uses and values remain identical. However, going forward
the payloadDelay will be additive, and not include the
headerDelay. Follow-on patches will make the headerDelay capture the
pipeline latency incurred in the crossbar, whereas the payloadDelay
will capture the additional serialisation delay.
2015-02-11 10:23:47 -05:00
Marco Balboni
e2828587b3 mem: Clarify usage of latency in the cache
This patch adds some much-needed clarity in the specification of the
cache timing. For now, hit_latency and response_latency are kept as
top-level parameters, but the cache itself has a number of local
variables to better map the individual timing variables to different
behaviours (and sub-components).

The introduced variables are:
- lookupLatency: latency of tag lookup, occuring on any access
- forwardLatency: latency that occurs in case of outbound miss
- fillLatency: latency to fill a cache block
We keep the existing responseLatency

The forwardLatency is used by allocateInternalBuffer() for:
- MSHR allocateWriteBuffer (unchached write forwarded to WriteBuffer);
- MSHR allocateMissBuffer (cacheable miss in MSHR queue);
- MSHR allocateUncachedReadBuffer (unchached read allocated in MSHR
  queue)
It is our assumption that the time for the above three buffers is the
same. Similarly, for snoop responses passing through the cache we use
forwardLatency.
2015-02-11 10:23:36 -05:00
Andreas Hansson
461a80beb3 mem: Clarify express snoop behaviour
This patch adds a bit of documentation with insights around how
express snoops really work.
2015-02-03 14:26:02 -05:00
Andreas Hansson
193325ff60 mem: Clarify cache behaviour for pending dirty responses
This patch adds a bit of clarification around the assumptions made in
the cache when packets are sent out, and dirty responses are
pending. As part of the change, the marking of an MSHR as in service
is simplified slightly, and comments are added to explain what
assumptions are made.
2015-02-03 14:25:59 -05:00
Andreas Hansson
15c64035ed mem: Remove Packet source from ForwardResponseRecord
This patch removes the source field from the ForwardResponseRecord,
but keeps the class as it is part of how the cache identifies
responses to hardware prefetches that are snooped upwards.
2015-01-22 05:01:30 -05:00
Andreas Hansson
6096e2f9c1 mem: Fix bug in cache request retry mechanism
This patch ensures that inhibited packets that are about to be turned
into express snoops do not update the retry flag in the cache.
2015-01-20 08:12:01 -05:00
Mitch Hayenga
b2342c5d9a mem: Change prefetcher to use random_mt
Prefechers has used rand() to generate random numers previously.
2014-12-23 09:31:19 -05:00
Curtis Dunham
516e6046ae mem: Hide WriteInvalidate requests from prefetchers
Without this tweak, a prefetcher will happily prefetch data that will
promptly be invalidated and overwritten by a WriteInvalidate.
2014-12-23 09:31:19 -05:00
Mitch Hayenga
bd4f901c77 mem: Fix event scheduling issue for prefetches
The cache's MemSidePacketQueue schedules a sendEvent based upon
nextMSHRReadyTime() which is the time when the next MSHR is ready or whenever
a future prefetch is ready.  However, a prefetch being ready does not guarentee
that it can obtain an MSHR.  So, when all MSHRs are full,
the simulation ends up unnecessiciarly scheduling a sendEvent every picosecond
until an MSHR is finally freed and the prefetch can happen.

This patch fixes this by not signaling the prefetch ready time if the prefetch
could not be generated.  The event is rescheduled as soon as a MSHR becomes
available.
2014-12-23 09:31:18 -05:00
Mitch Hayenga
4acd4a2055 mem: Fix bug relating to writebacks and prefetches
Previously the code commented about an unhandled case where it might be
possible for a writeback to arrive after a prefetch was generated but
before it was sent to the memory system.  I hit that case.  Luckily
the prefetchSquash() logic already in the code handles dropping prefetch
request in certian circumstances.
2014-12-23 09:31:18 -05:00
Mitch Hayenga
df82a2d003 mem: Rework the structuring of the prefetchers
Re-organizes the prefetcher class structure. Previously the
BasePrefetcher forced multiple assumptions on the prefetchers that
inherited from it. This patch makes the BasePrefetcher class truly
representative of base functionality. For example, the base class no
longer enforces FIFO order. Instead, prefetchers with FIFO requests
(like the existing stride and tagged prefetchers) now inherit from a
new QueuedPrefetcher base class.

Finally, the stride-based prefetcher now assumes a custimizable lookup table
(sets/ways) rather than the previous fully associative structure.
2014-12-23 09:31:18 -05:00
Mitch Hayenga
6cb58b2bd2 mem: Add parameter to reserve MSHR entries for demand access
Adds a new parameter that reserves some number of MSHR entries for demand
accesses.  This helps prevent prefetchers from taking all MSHRs, forcing demand
requests from the CPU to stall.
2014-12-23 09:31:18 -05:00
Curtis Dunham
5d22250845 mem: Support WriteInvalidate (again)
This patch takes a clean-slate approach to providing WriteInvalidate
(write streaming, full cache line writes without first reading)
support.

Unlike the prior attempt, which took an aggressive approach of directly
writing into the cache before handling the coherence actions, this
approach follows the existing cache flows as closely as possible.
2014-12-02 06:08:19 -05:00
Curtis Dunham
7ca27dd3cc mem: Remove WriteInvalidate support
Prepare for a different implementation following in the next patch
2014-12-02 06:08:17 -05:00