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2013-05-30mem: More descriptive DRAM config namesAndreas Hansson
This patch changes the class names of the variuos DRAM configurations to better reflect what memory they are based on. The speed and interface width is now part of the name, and also the alias that is used to select them on the command line. Some minor changes are done to the actual parameters, to better reflect the named configurations. As a result of these changes the regressions change slightly and the stats will be bumped in a separate patch.
2013-05-30mem: Add bytes per activate DRAM controller statAndreas Hansson
This patch adds a histogram to track how many bytes are accessed in an open row before it is closed. This metric is useful in characterising a workload and the efficiency of the DRAM scheduler. For example, a DDR3-1600 device requires 44 cycles (tRC) before it can activate another row in the same bank. For a x32 interface (8 bytes per cycle) that means 8 x 44 = 352 bytes must be transferred to hide the preparation time.
2013-05-30mem: Add static latency to the DRAM controllerAndreas Hansson
This patch adds a frontend and backend static latency to the DRAM controller by delaying the responses. Two parameters expressing the frontend and backend contributions in absolute time are added to the controller, and the appropriate latency is added to the responses when adding them to the (infinite) queued port for sending. For writes and reads that hit in the write buffer, only the frontend latency is added. For reads that are serviced by the DRAM, the static latency is the sum of the pipeline latencies of the entire frontend, backend and PHY. The default values are chosen based on having roughly 10 pipeline stages in total at 500 MHz. In the future, it would be sensible to make the controller use its clock and convert these latencies (and a few of the DRAM timings) to cycles.
2013-05-30mem: Spring cleaning of MSHR and MSHRQueueAndreas Hansson
This patch does some minor tidying up of the MSHR and MSHRQueue. The clean up started as part of some ad-hoc tracing and debugging, but seems worthwhile enough to go in as a separate patch. The highlights of the changes are reduced scoping (private) members where possible, avoiding redundant new/delete, and constructor initialisation to please static code analyzers.
2013-05-30mem: Fix MSHR print formatAndreas Hansson
This patch fixes an incorrect print format string by adding an additional string element.
2013-05-30cpu: Prune the stale TraceCPUAndreas Hansson
This patch prunes the TraceCPU as the code is stale and the functionality that it provided can now be achieved with the TrafficGen using its trace playback mode. The TraceCPU was able to play back pre-recorded memory traces of a few different formats, and to achieve this level of flexibility with the TrafficGen, use the util/encode_packet_trace (with suitable modifications) to create a protobuf trace off-line.
2013-05-30cpu: Check that minimum TrafficGen period is less than max periodSascha Bischoff
Add a check which ensures that the minumum period for the LINEAR and RANDOM traffic generator states is less than or equal to the maximum period. If the minimum period is greater than the maximum period a fatal is triggered.
2013-05-30cpu: Fix bug when reading in TrafficGen state transitionsSascha Bischoff
This patch fixes a bug with the traffic generator which occured when reading in the state transitions from the configuration file. Previously, the size of the vector which stored the transitions was used to get the size of the transitions matrix, rather than using the number of states. Therefore, if there were more transitions than states, i.e. some transitions has a probability of less than 1, then the traffic generator would fatal when trying to check the transitions. This issue has been addressed by using the number of input states, rather then the number of transitions.
2013-05-30cpu: Add request elasticity to the traffic generatorAndreas Hansson
This patch adds an optional request elasticity to the traffic generator, effectievly compensating for it in the case of the linear and random generators, and adding it in the case of the trace generator. The accounting is left with the top-level traffic generator, and the individual generators do the necessary math as part of determining the next packet tick. Note that in the linear and random generators we have to compensate for the blocked time to not be elastic, i.e. without this patch the aforementioned generators will slow down in the case of back-pressure.
2013-05-30cpu: Block traffic generator when requests have to retryAndreas Hansson
This patch changes the queued port for a conventional master port and stalls the traffic generator when requests are not immediately accepted. This is a first step to allowing elasticity in the injection of requests. The patch also adds stats for the sent packets and retries, and slightly changes how the nextPacketTick and getNextPacket interact. The advancing of the trace is now moved to getNextPacket and nextPacketTick is only responsible for answering the question when the next packet should be sent.
2013-05-30cpu: Move traffic generator sending out of generator statesAndreas Hansson
This patch moves the responsibility for sending packets out of the generator states and leaves it with the top-level traffic generator. The main aim of this patch is to enable a transition to non-queued ports, i.e. with send/retry flow control, and to do so it is much more convenient to not wrap the port interactions and instead leave it all local to the traffic generator. The generator states now only govern when they are ready to send something new, and the generation of the packets to send. They thus have no knowledge of the port that is used.
2013-05-30cpu: Fold together the StateGraph and the TrafficGenAndreas Hansson
This patch simplifies the object hierarchy of the traffic generator by getting rid of the StateGraph class and folding this functionality into the traffic generator itself. The main goal of this patch is to facilitate upcoming changes by reducing the number of affected layers.
2013-05-30mem: Make returning snoop responses occupy response layerAndreas Hansson
This patch introduces a mirrored internal snoop port to facilitate easy addition of flow control for the snoop responses that are turned into normal responses on their return. To perform this, the slave ports of the coherent bus are wrapped in internal master ports that are passed as the source ports to the response layer in question. As a result of this patch, there is more contention for the response resources, and as such system performance will decrease slightly. A consequence of the mirrored internal port is that the port the bus tells to retry (the internal one) and the port actually retrying (the mirrored) one are not the same. Thus, the existing check in tryTiming is not longer correct. In fact, the test is redundant as the layer is only in the retry state while calling sendRetry on the waiting port, and if the latter does not immediately call the bus then the retry state is left. Consequently the check is removed.
2013-05-30mem: Make the buses multi layeredAndreas Hansson
This patch makes the buses multi layered, and effectively creates a crossbar structure with distributed contention ports at the destination ports. Before this patch, a bus could have a single request, response and snoop response in flight at any time, and with these changes there can be as many requests as connected slaves (bus master ports), and as many responses as connected masters (bus slave ports). Together with address interleaving, this patch enables us to create high-throughput memory interconnects, e.g. 50+ GByte/s.
2013-05-30mem: Separate the two snoop response cases in the busAndreas Hansson
This patch makes the flow control and state updates of the coherent bus more clear by separating the two cases, i.e. forward as a snoop response, or turn it into a normal response. With this change it is also more clear what resources are being occupied, and that we effectively bypass the busy check for the second case. As a result of the change in resource usage some stats change.
2013-05-30mem: Tidy up a few variables in the busAndreas Hansson
This patch does some minor housekeeping on the bus code, removing redundant code, and moving the extraction of the destination id to the top of the functions using it.
2013-05-30mem: Add basic stats to the busesUri Wiener
This patch adds a basic set of stats which are hard to impossible to implement using only communication monitors, and are needed for insight such as bus utilization, transactions through the bus etc. Stats added include throughput and transaction distribution, and also a two-dimensional vector capturing how many packets and how much data is exchanged between the masters and slaves connected to the bus.
2013-05-30mem: Use unordered set in bus request trackingAndreas Hansson
This patch changes the set used to track outstanding requests to an unordered set (part of C++11 STL). There is no need to maintain the order, and hopefully there might even be a small performance benefit.
2013-05-30mem: Check for waiting state in bus drainingAndreas Hansson
This patch fixes a bug in the bus where the bus transitions from busy to idle and still has a port that is waiting for a retry from a peer.
2013-05-30mem: Add a LPDDR3-1600 configurationAndreas Hansson
This patch adds a typical (leaning towards fast) LPDDR3 configuration based on publically available data. As expected, it looks very similar to the LPDDR2-S4 configuration, only with a slightly lower burst time.
2013-05-30mem: Adapt the LPDDR2 to match a single x32 channelAndreas Hansson
This patch adapts the existing LPDDR2 configuration to make use of the multi-channel functionality. Thus, to get a x64 interface two controllers should be instantiated using the makeMultiChannel method. The page size and ranks are also adapted to better suit with a typical LPDDR2 part.
2013-05-30mem: Avoid explicitly zeroing the memory backing storeAndreas Hansson
This patch removes the explicit memset as it is redundant and causes the simulator to touch the entire space, forcing the host system to allocate the pages. Anonymous pages are mapped on the first access, and the page-fault handler is responsible for zeroing them. Thus, the pages are still zeroed, but we avoid touching the entire allocated space which enables us to use much larger memory sizes as long as not all the memory is actually used.
2013-05-30base: Avoid size limitation on protobuf coded streamsAndreas Hansson
This patch changes how the streams are created to avoid the size limitation on the coded streams. As we only read/write a single message at a time, there is never any message larger than a few bytes. However, the coded stream eventually complains that its internal counter reaches 64+ MByte if the total file size exceeds this value. Based on suggestions in the protobuf discussion forums, the coded stream is now created for every message that is read/written. The result is that the internal byte count never goes about tens of bytes, and we can read/write any size file that the underlying file I/O can handle.
2013-05-30cpu: Make hash struct instead of class to please clangAndreas Hansson
This patch changes the type of the hash function for BasicBlockRanges to match the original definition of the templatized type. Without this, clang raises a warning and combined with the "-Werror" flag this causes compilation to fail.
2013-05-21ruby: slicc: fix error msg in TypeFieldMemberAST.pyMalek Musleh
2013-05-21x86: Squash outstanding walks when instructions are squashed.Gedare Bloom
This is the x86 version of the ARM changeset baa17ba80e06. In case an instruction has been squashed by the o3 cpu, this patch allows page table walker to avoid carrying out a pending translation that the instruction requested for.
2013-05-21x86: mark instructions for being function call/returnNilay Vaish
Currently call and return instructions are marked as IsCall and IsReturn. Thus, the branch predictor does not use RAS for these instructions. Similarly, the number of function calls that took place is recorded as 0. This patch marks these instructions as they should be.
2013-05-21x86: add op class for int and fp microops in isa descriptionNilay Vaish
Currently all the integer microops are marked as IntAluOp and the floating point microops are marked as FloatAddOp. This patch adds support for marking different microops differently. Now IntMultOp, IntDivOp, FloatDivOp, FloatMultOp, FloatCvtOp, FloatSqrtOp classes will be used as well. This will help in providing different latencies for different op class.
2013-05-21ruby: moesi hammer: cosmetic changesNilay Vaish
Updates copyright years, removes space at the end of lines, shortens variable names.
2013-05-21ruby: mesi cmp directory: cosmetic changesNilay Vaish
Updates copyright years, removes space at the end of lines, shortens variable names.
2013-05-21ruby: moesi cmp token: cosmetic changesNilay Vaish
Updates copyright years, removes space at the end of lines, shortens variable names.
2013-05-21ruby: moesi cmp directory: cosmetic changesNilay Vaish
Updates copyright years, removes space at the end of lines, shortens variable names.
2013-05-21ruby: add stats to .sm files, remove cache profilerNilay Vaish ext:(%2C%20Malek%20Musleh%20%3Cmalek.musleh%40gmail.com%3E)
This patch changes the way cache statistics are collected in ruby. As of now, there is separate entity called CacheProfiler which holds statistical variables for caches. The CacheMemory class defines different functions for accessing the CacheProfiler. These functions are then invoked in the .sm files. I find this approach opaque and prone to error. Secondly, we probably should not be paying the cost of a function call for recording statistics. Instead, this patch allows for accessing statistical variables in the .sm files. The collection would become transparent. Secondly, it would happen in place, so no function calls. The patch also removes the CacheProfiler class. --HG-- rename : src/mem/slicc/ast/InfixOperatorExprAST.py => src/mem/slicc/ast/OperatorExprAST.py
2013-05-14cpu: remove local/globalHistoryBits params from branch predAnthony Gutierrez
having separate params for the local/globalHistoryBits and the local/globalPredictorSize can lead to inconsistencies if they are not carefully set. this patch dervies the number of bits necessary to index into the local/global predictors based on their size. the value of the localHistoryTableSize for the ARM O3 CPU has been increased to 1024 from 64, which is more accurate for an A15 based on some correlation against A15 hardware.
2013-05-14kvm: Add support for disabling coalesced MMIOAndreas Sandberg
Add the option useCoalescedMMIO to the BaseKvmCPU. The default behavior is to disable coalesced MMIO since this hasn't been heavily tested.
2013-05-14kvm: Dump state before panic in KVM exit handlersAndreas Sandberg
2013-05-14kvm: Fix the memory interface used by KVMAndreas Sandberg
The CpuPort class was removed before the KVM patches were committed, which means that the KVM interface currently doesn't compile. This changeset adds the BaseKvmCPU::KVMCpuPort class which derives from MasterPort. This class is used on the data and instruction ports instead of the old CpuPort.
2013-05-14arm: Add support for the m5fail pseudo-opAndreas Sandberg
2013-05-02kvm: Add a stat counting number of instructions executedAndreas Sandberg
This changeset adds a 'numInsts' stat to the KVM-based CPU. It also cleans up the variable names in kvmRun to make the distinction between host cycles and estimated simulated cycles clearer. As a bonus feature, it also fixes a warning (unreferenced variable) when compiling in fast mode.
2013-05-02kvm: Add checkpoint debug printAndreas Sandberg
Add a debug print (when the Checkpoint debug flag is set) on serialize and unserialize. Additionally, dump the KVM state before serializing. The KVM state isn't dumped after unserializing since the state is loaded lazily on the next KVM entry.
2013-05-02kvm: Make MMIO requests uncacheableAndreas Sandberg
Device accesses are normally uncacheable. This change probably doesn't make any difference since we normally disable caching when KVM is active. However, there might be devices that check this, so we'd better enable this flag to be safe.
2013-05-02sim: Add support for m5fail in pseudoInst()Andreas Sandberg
2013-04-23x86: corrects vsyscall address for gettimeofdayMichael Levenhagen
The vsyscall address for gettimeofday is 0xffffffffff600000ul. The offset therefore should be 0x0 instead of 0x410. This can be cross checked with the file sysdeps/unix/sysv/linux/x86_64/gettimeofday.c in source of glibc. Committed by: Nilay Vaish <nilay@cs.wisc.edu>
2013-04-23x86: enable gettimeofday and getppid system callsMichael Levenhagen
Committed by: Nilay Vaish <nilay@cs.wisc.edu>
2013-04-23sim: Fix two bugs relating to software caching of PageTable entries.Mitch Hayenga
The existing implementation can read uninitialized data or stale information from the cached PageTable entries. 1) Add a valid bit for the cache entries. Simply using zero for the virtual address to signify invalid entries is not sufficient. Speculative, wrong-path accesses frequently access page zero. The current implementation would return a uninitialized TLB entry when address zero was accessed and the PageTable cache entry was invalid. 2) When unmapping/mapping/remaping a page, invalidate the corresponding PageTable cache entry if one already exists.
2013-04-23cpu: Fix TraceGen flag initalisationAndreas Hansson
This patch ensures the flags are always initialised.
2013-04-23ruby: mesi coherence protocol: remove unused state M_MBNilay Vaish
2013-04-23x86: increment the stack pointer in lret instChristian Menard
The 'lret' instruction reloads instruction pointer and code segment from the stack and then pops them. But the popping part is missing from the current implementation. This caused incorrect behavior in some code related to the Fiasco OS. Microops are being added to rectify the behavior of the instruction. Committed by: Nilay Vaish <nilay@cs.wisc.edu>
2013-04-23ruby: patch checkpoint restore with garnetNilay Vaish
Due to recent changes to clocking system in Ruby and the way Ruby restores state from a checkpoint, garnet was failing to run from a checkpointed state. The problem is that Ruby resets the time to zero while warming up the caches. If any component records a local copy of the time (read calls curCycle()) before the simulation has started, then that component will not operate until that time is reached. In the context of this particular patch, the Garnet Network class calls curCycle() at multiple places. Any non-operational component can block in requests in the memory system, which the system interprets as a deadlock. This patch makes changes so that Garnet can successfully run from checkpointed state. It adds a globally visible time at which the actual execution started. This time is initialized in RubySystem::startup() function. This variable is only meant for components with in Ruby. This replaces the private variable that was maintained within Garnet since it is not possible to figure out the correct time when the value of this variable can be set. The patch also does away with all cases where curCycle() is called with in some Ruby component before the system has actually started executing. This is required due to the quirky manner in which ruby restores from a checkpoint.
2013-04-22mem: Address mapping with fine-grained channel interleavingAndreas Hansson
This patch adds an address mapping scheme where the channel interleaving takes place on a cache line granularity. It is similar to the existing RaBaChCo that interleaves on a DRAM page, but should give higher performance when there is less locality in the address stream.