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2014-02-18dev: Include basic devices in NULL ISA buildAndreas Hansson
This patch enbles use of the basic PIO devices as part of the NULL build. Although it might seem counter intuitive to have a PIO device without being able to execute a driver, this change enables us to break a device class hierarchy into an ISA-agnostic part, and an ISA-specific part, without requiring multiple-inheritance. The ISA-agnostic base class is a PIO device, but does not make use of the port.
2014-02-18mem: Filter cache snoops based on address rangesAndreas Hansson
This patch adds a filter to the cache to drop snoop requests that are not for a range covered by the cache. This fixes an issue observed when multiple caches are placed in parallel, covering different address ranges. Without this patch, all the caches will forward the snoop upwards, when only one should do so.
2014-02-18mem: Add a wrapped DRAMSim2 memory controllerAndreas Hansson
This patch adds DRAMSim2 as a memory controller by wrapping the external library and creating a sublass of AbstractMemory that bridges between the semantics of gem5 and the DRAMSim2 interface. The DRAMSim2 wrapper extracts the clock period from the config file. There is no way of extracting this information from DRAMSim2 itself, so we simply read the same config file and get it from there. To properly model the response queue, the wrapper keeps track of how many transactions are in the actual controller, and how many are stacking up waiting to be sent back as responses (in the wrapper). The latter requires us to move away from the queued port and manage the packets ourselves. This is due to DRAMSim2 not having any flow control on the response path. DRAMSim2 assumes that the transactions it is given are matching the burst size of the choosen memory. The wrapper checks to ensure the cache line size of the system matches the burst size of DRAMSim2 as there are currently no provisions to split the system requests. In theory we could allow a cache line size smaller than the burst size, but that would lead to inefficient use of the DRAM, so for not we fatal also in this case.
2014-02-18mem: Fix input to DPRINTF in CommMonitorAndreas Hansson
Minor fix of the debug message parameters.
2014-02-09cpu: simple: Add support for using branch predictorsAndreas Sandberg
This changesets adds branch predictor support to the BaseSimpleCPU. The simple CPUs normally don't need a branch predictor, however, there are at least two cases where it can be desirable: 1) A simple CPU can be used to warm the branch predictor of an O3 CPU before switching to the slower O3 model. 2) The simple CPU can be used as a quick way of evaluating/debugging new branch predictors since it exposes branch predictor statistics. Limitations: * Since the simple CPU doesn't speculate, only one instruction will be active in the branch predictor at a time (i.e., the branch predictor will never see speculative branches). * The outcome of a branch prediction does not affect the performance of the simple CPU.
2014-02-06base: calls abort() from fatalNilay Vaish
Currently fatal() ends the simulation in a normal fashion. This results in the call stack getting lost when using a debugger and it is not always possible to debug the simulation just from the information provided by the printed error message. Even though the error is likely due to a user's fault, the information available should not be thrown away. Hence, this patch to call abort() from fatal().
2014-02-06ruby: memory controller: use MemoryNode *Nilay Vaish
2014-02-05x86: Fix x87 state transfer bugAndreas Sandberg
Changeset 7274310be1bb (isa: clean up register constants) increased the value of NumFloatRegs, which triggered a bug in X86ISA::copyRegs(). This bug is caused by the x87 stack being copied twice since register indexes past NUM_FLOATREGS are mapped into the x87 stack relative to the top of the stack, which is undefined when the copy takes place. This changeset updates the copyRegs() function to use access registers using the non-flattening interface, which guarantees that undesirable register folding does not happen.
2014-02-02x86, kvm: Fix bug in the RFlags get and set functionsNikos Nikoleris
The getRFlags and setRFlags utility functions were not updated correctly when condition registers were separated into their own register class. This lead to incorrect state transfer in calls from kvm into the simulator (e.g., m5 readfile ended up in an infinite loop) and when switching CPUs. This patch makes these utility functions use getCCReg and setCCReg instead of getIntReg and setIntReg which read and write the integer registers. Reviewed-by: Andreas Sandberg <andreas@sandberg.pp.se>
2014-01-30unittest: Fix build errorsOla Jeppsson
Committed by: Nilay Vaish <nilay@cs.wisc.edu>
2014-01-29mem: Add additional tolerance to stride prefetcherMitch Hayenga
Forces the prefetcher to mispredict twice in a row before resetting the confidence of prefetching. This helps cases where a load PC strides by a constant factor, however it may operate on different arrays at times. Avoids the cost of retraining. Primarily helps with small iteration loops. Committed by: Nilay Vaish <nilay@cs.wisc.edu>
2014-01-29mem: Allowed tagged instruction prefetching in stride prefetcherMitch Hayenga
For systems with a tightly coupled L2, a stride-based prefetcher may observe access requests from both instruction and data L1 caches. However, the PC address of an instruction miss gives no relevant training information to the stride based prefetcher(there is no stride to train). In theses cases, its better if the L2 stride prefetcher simply reverted back to a simple N-block ahead prefetcher. This patch enables this option. Committed by: Nilay Vaish <nilay@cs.wisc.edu>
2014-01-29mem: prefetcher: add options, support for unaligned addressesMitch Hayenga ext:(%2C%20Amin%20Farmahini%20%3Caminfar%40gmail.com%3E)
This patch extends the classic prefetcher to work on non-block aligned addresses. Because the existing prefetchers in gem5 mask off the lower address bits of cache accesses, many predictable strides fail to be detected. For example, if a load were to stride by 48 bytes, with 64 byte cachelines, the current stride based prefetcher would see an access pattern of 0, 64, 64, 128, 192.... Thus not detecting a constant stride pattern. This patch fixes this, by training the prefetcher on access and not masking off the lower address bits. It also adds the following configuration options: 1) Training/prefetching only on cache misses, 2) Training/prefetching only on data acceses, 3) Optionally tagging prefetches with a PC address. #3 allows prefetchers to train off of prefetch requests in systems with multiple cache levels and PC-based prefetchers present at multiple levels. It also effectively allows a pipelining of prefetch requests (like in POWER4) across multiple levels of cache hierarchy. Improves performance on my gem5 configuration by 4.3% for SPECINT and 4.7% for SPECFP (geomean).
2014-01-29cpu: fix bug when TrafficGen deschedules eventXiangyu Dong
Committed by: Nilay Vaish <nilay@cs.wisc.edu>
2014-01-28arm: Enable umask syscall in SE modeMitch Hayenga
Committed by: Nilay Vaish <nilay@cs.wisc.edu>
2014-01-28base: Fix race condition in the socket listen functionMitch Hayenga
gem5 makes the incorrect assumption that by binding a socket, it effectively has allocated a port. Linux only allocates ports once you call listen on the given socket, not when you call bind. So even if the port was free when bind was called, another process (gem5 instance) could race in between the bind & listen calls and steal the port. In the current code, if the call to bind fails due to the port being in use (EADDRINUSE), gem5 retries for a different port. However if listen fails, gem5 just panics. The fix is testing the return value of listen and re-trying if it was due to EADDRINUSE. Committed by: Nilay Vaish <nilay@cs.wisc.edu>
2014-01-28mem: Remove redundant findVictim() input argumentAmin Farmahini
The patch (1) removes the redundant writeback argument from findVictim() (2) fixes the description of access() function Committed by: Nilay Vaish <nilay@cs.wisc.edu>
2014-01-28mem: Fixes a bug in simple_dram write mergingAmin Farmahini
Fixes updating the value of size in the write merge function. Committed by: Nilay Vaish <nilay@cs.wisc.edu>
2014-01-27x86: use lfpimm instead of limm for fptanNilay Vaish
2014-01-27x86: implements x87 add/sub instructionsNilay Vaish
2014-01-27x86: implements fxch instruction.Nilay Vaish
2014-01-27x86: correct error in emms instruction.Nilay Vaish
2014-01-24arm: Add support for ARMv8 (AArch64 & AArch32)ARM gem5 Developers
Note: AArch64 and AArch32 interworking is not supported. If you use an AArch64 kernel you are restricted to AArch64 user-mode binaries. This will be addressed in a later patch. Note: Virtualization is only supported in AArch32 mode. This will also be fixed in a later patch. Contributors: Giacomo Gabrielli (TrustZone, LPAE, system-level AArch64, AArch64 NEON, validation) Thomas Grocutt (AArch32 Virtualization, AArch64 FP, validation) Mbou Eyole (AArch64 NEON, validation) Ali Saidi (AArch64 Linux support, code integration, validation) Edmund Grimley-Evans (AArch64 FP) William Wang (AArch64 Linux support) Rene De Jong (AArch64 Linux support, performance opt.) Matt Horsnell (AArch64 MP, validation) Matt Evans (device models, code integration, validation) Chris Adeniyi-Jones (AArch64 syscall-emulation) Prakash Ramrakhyani (validation) Dam Sunwoo (validation) Chander Sudanthi (validation) Stephan Diestelhorst (validation) Andreas Hansson (code integration, performance opt.) Eric Van Hensbergen (performance opt.) Gabe Black
2014-01-24arch: Make all register index flattening constAndreas Hansson
This patch makes all the register index flattening methods const for all the ISAs. As part of this, readMiscRegNoEffect for ARM is also made const.
2014-01-24checker: CheckerCPU handling of MiscRegs was incorrectGeoffrey Blake
The CheckerCPU model in pre-v8 code was not checking the updates to miscellaneous registers due to some methods for setting misc regs were not instrumented. The v8 patches exposed this by calling the instrumented misc reg update methods and then invoking the checker before the main CPU had updated its misc regs, leading to false positives about register mismatches. This patch fixes the non-instrumented misc reg update methods and places calls to the checker in the proper places in the O3 model.
2014-01-24arch, cpu: Add support for flattening misc register indexes.Ali Saidi
With ARMv8 support the same misc register id results in accessing different registers depending on the current mode of the processor. This patch adds the same orthogonality to the misc register file as the others (int, float, cc). For all the othre ISAs this is currently a null-implementation. Additionally, a system variable is added to all the ISA objects.
2014-01-24cpu: Add support for Memory+Barrier instruction types in O3 cpu.Giacomo Gabrielli
2014-01-24cpu: Add support for instructions that zero cache lines.Ali Saidi
2014-01-24cpu: Add CPU support for generatig wake up events when LLSC adresses are ↵Ali Saidi
snooped. This patch add support for generating wake-up events in the CPU when an address that is currently in the exclusive state is hit by a snoop. This mechanism is required for ARMv8 multi-processor support.
2014-01-24mem: Add flag to request if it was generated by a page table walkGiacomo Gabrielli
2014-01-24mem: Add support for a security bit in the memory systemGiacomo Gabrielli
This patch adds the basic building blocks required to support e.g. ARM TrustZone by discerning secure and non-secure memory accesses.
2014-01-24sim: Add openat/fstatat syscalls and fix mremapChris Adeniyi-Jones
This patch adds support for the openat and fstatat syscalls and broadens the support for mremap to make it work on OS X.
2014-01-24mem: Remove explict cast from memhelper.Ali Saidi
Previously we were casting the result type to the the memory type which is incorrect for things like dual-memory operations which still return a single result.
2014-01-24Cache: Collect very basic stats on tag and data accessesTimothy M. Jones
Adds very basic statistics on the number of tag and data accesses within the cache, which is important for power modelling. For the tags, simply count the associativity of the cache each time. For the data, this depends on whether tags and data are accessed sequentially, which is given by a new parameter. In the parallel case, all data blocks are accessed each time, but with sequential accesses, a single data block is accessed only on a hit.
2014-01-24mem: per-thread cache occupancy and per-block agesDam Sunwoo
This patch enables tracking of cache occupancy per thread along with ages (in buckets) per cache blocks. Cache occupancy stats are recalculated on each stat dump.
2014-01-24base: add support for probe points and common probesMatt Horsnell
The probe patch is motivated by the desire to move analytical and trace code away from functional code. This is achieved by the probe interface which is essentially a glorified observer model. What this means to users: * add a probe point and a "notify" call at the source of an "event" * add an isolated module, that is being used to carry out *your* analysis (e.g. generate a trace) * register that module as a probe listener Note: an example is given for reference in src/cpu/o3/simple_trace.[hh|cc] and src/cpu/SimpleTrace.py What is happening under the hood: * every SimObject maintains has a ProbeManager. * during initialization (src/python/m5/simulate.py) first regProbePoints and the regProbeListeners is called on each SimObject. this hooks up the probe point notify calls with the listeners. FAQs: Why did you develop probe points: * to remove trace, stats gathering, analytical code out of the functional code. * the belief that probes could be generically useful. What is a probe point: * a probe point is used to notify upon a given event (e.g. cpu commits an instruction) What is a probe listener: * a class that handles whatever the user wishes to do when they are notified about an event. What can be passed on notify: * probe points are templates, and so the user can generate probes that pass any type of argument (by const reference) to a listener. What relationships can be generated (1:1, 1:N, N:M etc): * there isn't a restriction. You can hook probe points and listeners up in a 1:1, 1:N, N:M relationship. They become useful when a number of modules listen to the same probe points. The idea being that you can add a small number of probes into the source code and develop a larger number of useful analysis modules that use information passed by the probes. Can you give examples: * adding a probe point to the cpu's commit method allows you to build a trace module (outputting assembler), you could re-use this to gather instruction distribution (arithmetic, load/store, conditional, control flow) stats. Why is the probe interface currently restricted to passing a const reference: * the desire, initially at least, is to allow an interface to observe functionality, but not to change functionality. * of course this can be subverted by const-casting. What is the performance impact of adding probes: * when nothing is actively listening to the probes they should have a relatively minor impact. Profiling has suggested even with a large number of probes (60) the impact of them (when not active) is very minimal (<1%).
2014-01-24sim: Expose the current voltage for each object as a statAndreas Hansson
2014-01-24sim: Expose the current clock period as a statAndreas Hansson
This patch adds observability to the clock period of the clock domains by including it as a stat. As a result of adding this, the regressions will be updated in a separate patch.
2014-01-24mem: track per-request latencies and access depths in the cache hierarchyMatt Horsnell
Add some values and methods to the request object to track the translation and access latency for a request and which level of the cache hierarchy responded to the request.
2014-01-24config: Make the Clock a Tick parameter like Latency/FrequencyAndreas Hansson
This patch makes the Clock a TickParamValue just like Latency/Frequency. There is no longer any need to distinguish it (originally needed to support multiplication).
2014-01-24x86: Fix memory leak in table walkerAndreas Hansson
This patch fixes a memory leak in the table walker, by ensuring that the sender state is deleted again if the request packet cannot be successfully sent.
2014-01-24cpu: Relax check on squashed non-speculative instructionsAndreas Hansson
This patch relaxes the check performed when squashing non-speculative instructions, as it caused problems with loads that were marked ready, and then stalled on a blocked cache. The assertion is now allowing memory references to be non-faulting.
2014-01-24cpu: remove faulty simpoint basic block inst count assertionDam Sunwoo
This patch removes an assertion in the simpoint profiling code that asserts that a previously-seen basic block has the exact same number of instructions executed as before. This can be false if the basic block generates aborts or takes interrupts at different locations within the basic block. The basic block profiling are not affected significantly as these events are rare in general.
2014-01-17ruby: remove unused label no_vectorNilay Vaish
2014-01-10ruby: move all statistics to stats.txt, eliminate ruby.statsNilay Vaish
2014-01-10stats: add function for adding two histogramsNilay Vaish
This patch adds a function to the HistStor class for adding two histograms. This functionality is required for Ruby. It also adds support for printing histograms in a single line.
2014-01-09ruby: fix bug introduced to revision 8523754f8885Nilay Vaish
2014-01-08ruby: slicc: remove variable 'addr' used in calls to doTransitionNilay Vaish
This variable causes trouble if a variable of same name is declared in a protocol file. Hence it is being eliminated.
2014-01-04ruby: add a three level MESI protocol.Nilay Vaish
The first two levels (L0, L1) are private to the core, the third level (L2)is possibly shared. The protocol supports clustered designs. For example, one can have two sets of two cores. Each core has an L0 and L1 cache. There are two L2 controllers where each set accesses only one of the L2 controllers.
2014-01-04ruby: rename MESI_CMP_directory to MESI_Two_LevelNilay Vaish
This is because the next patch introduces a three level hierarchy. --HG-- rename : build_opts/ALPHA_MESI_CMP_directory => build_opts/ALPHA_MESI_Two_Level rename : build_opts/X86_MESI_CMP_directory => build_opts/X86_MESI_Two_Level rename : configs/ruby/MESI_CMP_directory.py => configs/ruby/MESI_Two_Level.py rename : src/mem/protocol/MESI_CMP_directory-L1cache.sm => src/mem/protocol/MESI_Two_Level-L1cache.sm rename : src/mem/protocol/MESI_CMP_directory-L2cache.sm => src/mem/protocol/MESI_Two_Level-L2cache.sm rename : src/mem/protocol/MESI_CMP_directory-dir.sm => src/mem/protocol/MESI_Two_Level-dir.sm rename : src/mem/protocol/MESI_CMP_directory-dma.sm => src/mem/protocol/MESI_Two_Level-dma.sm rename : src/mem/protocol/MESI_CMP_directory-msg.sm => src/mem/protocol/MESI_Two_Level-msg.sm rename : src/mem/protocol/MESI_CMP_directory.slicc => src/mem/protocol/MESI_Two_Level.slicc rename : tests/long/fs/10.linux-boot/ref/x86/linux/pc-simple-timing-ruby-MESI_CMP_directory/config.ini => tests/long/fs/10.linux-boot/ref/x86/linux/pc-simple-timing-ruby-MESI_Two_Level/config.ini rename : tests/long/fs/10.linux-boot/ref/x86/linux/pc-simple-timing-ruby-MESI_CMP_directory/ruby.stats => tests/long/fs/10.linux-boot/ref/x86/linux/pc-simple-timing-ruby-MESI_Two_Level/ruby.stats rename : tests/long/fs/10.linux-boot/ref/x86/linux/pc-simple-timing-ruby-MESI_CMP_directory/simerr => tests/long/fs/10.linux-boot/ref/x86/linux/pc-simple-timing-ruby-MESI_Two_Level/simerr rename : tests/long/fs/10.linux-boot/ref/x86/linux/pc-simple-timing-ruby-MESI_CMP_directory/simout => tests/long/fs/10.linux-boot/ref/x86/linux/pc-simple-timing-ruby-MESI_Two_Level/simout rename : tests/long/fs/10.linux-boot/ref/x86/linux/pc-simple-timing-ruby-MESI_CMP_directory/stats.txt => tests/long/fs/10.linux-boot/ref/x86/linux/pc-simple-timing-ruby-MESI_Two_Level/stats.txt rename : tests/long/fs/10.linux-boot/ref/x86/linux/pc-simple-timing-ruby-MESI_CMP_directory/system.pc.com_1.terminal => tests/long/fs/10.linux-boot/ref/x86/linux/pc-simple-timing-ruby-MESI_Two_Level/system.pc.com_1.terminal rename : tests/quick/se/00.hello/ref/alpha/linux/simple-timing-ruby-MESI_CMP_directory/config.ini => tests/quick/se/00.hello/ref/alpha/linux/simple-timing-ruby-MESI_Two_Level/config.ini rename : tests/quick/se/00.hello/ref/alpha/linux/simple-timing-ruby-MESI_CMP_directory/ruby.stats => tests/quick/se/00.hello/ref/alpha/linux/simple-timing-ruby-MESI_Two_Level/ruby.stats rename : tests/quick/se/00.hello/ref/alpha/linux/simple-timing-ruby-MESI_CMP_directory/simerr => tests/quick/se/00.hello/ref/alpha/linux/simple-timing-ruby-MESI_Two_Level/simerr rename : tests/quick/se/00.hello/ref/alpha/linux/simple-timing-ruby-MESI_CMP_directory/simout => tests/quick/se/00.hello/ref/alpha/linux/simple-timing-ruby-MESI_Two_Level/simout rename : tests/quick/se/00.hello/ref/alpha/linux/simple-timing-ruby-MESI_CMP_directory/stats.txt => tests/quick/se/00.hello/ref/alpha/linux/simple-timing-ruby-MESI_Two_Level/stats.txt rename : tests/quick/se/00.hello/ref/alpha/tru64/simple-timing-ruby-MESI_CMP_directory/config.ini => tests/quick/se/00.hello/ref/alpha/tru64/simple-timing-ruby-MESI_Two_Level/config.ini rename : tests/quick/se/00.hello/ref/alpha/tru64/simple-timing-ruby-MESI_CMP_directory/ruby.stats => tests/quick/se/00.hello/ref/alpha/tru64/simple-timing-ruby-MESI_Two_Level/ruby.stats rename : tests/quick/se/00.hello/ref/alpha/tru64/simple-timing-ruby-MESI_CMP_directory/simerr => tests/quick/se/00.hello/ref/alpha/tru64/simple-timing-ruby-MESI_Two_Level/simerr rename : tests/quick/se/00.hello/ref/alpha/tru64/simple-timing-ruby-MESI_CMP_directory/simout => tests/quick/se/00.hello/ref/alpha/tru64/simple-timing-ruby-MESI_Two_Level/simout rename : tests/quick/se/00.hello/ref/alpha/tru64/simple-timing-ruby-MESI_CMP_directory/stats.txt => tests/quick/se/00.hello/ref/alpha/tru64/simple-timing-ruby-MESI_Two_Level/stats.txt rename : tests/quick/se/50.memtest/ref/alpha/linux/memtest-ruby-MESI_CMP_directory/config.ini => tests/quick/se/50.memtest/ref/alpha/linux/memtest-ruby-MESI_Two_Level/config.ini rename : tests/quick/se/50.memtest/ref/alpha/linux/memtest-ruby-MESI_CMP_directory/ruby.stats => tests/quick/se/50.memtest/ref/alpha/linux/memtest-ruby-MESI_Two_Level/ruby.stats rename : tests/quick/se/50.memtest/ref/alpha/linux/memtest-ruby-MESI_CMP_directory/simerr => tests/quick/se/50.memtest/ref/alpha/linux/memtest-ruby-MESI_Two_Level/simerr rename : tests/quick/se/50.memtest/ref/alpha/linux/memtest-ruby-MESI_CMP_directory/simout => tests/quick/se/50.memtest/ref/alpha/linux/memtest-ruby-MESI_Two_Level/simout rename : tests/quick/se/50.memtest/ref/alpha/linux/memtest-ruby-MESI_CMP_directory/stats.txt => tests/quick/se/50.memtest/ref/alpha/linux/memtest-ruby-MESI_Two_Level/stats.txt rename : tests/quick/se/60.rubytest/ref/alpha/linux/rubytest-ruby-MESI_CMP_directory/config.ini => tests/quick/se/60.rubytest/ref/alpha/linux/rubytest-ruby-MESI_Two_Level/config.ini rename : tests/quick/se/60.rubytest/ref/alpha/linux/rubytest-ruby-MESI_CMP_directory/ruby.stats => tests/quick/se/60.rubytest/ref/alpha/linux/rubytest-ruby-MESI_Two_Level/ruby.stats rename : tests/quick/se/60.rubytest/ref/alpha/linux/rubytest-ruby-MESI_CMP_directory/simerr => tests/quick/se/60.rubytest/ref/alpha/linux/rubytest-ruby-MESI_Two_Level/simerr rename : tests/quick/se/60.rubytest/ref/alpha/linux/rubytest-ruby-MESI_CMP_directory/simout => tests/quick/se/60.rubytest/ref/alpha/linux/rubytest-ruby-MESI_Two_Level/simout rename : tests/quick/se/60.rubytest/ref/alpha/linux/rubytest-ruby-MESI_CMP_directory/stats.txt => tests/quick/se/60.rubytest/ref/alpha/linux/rubytest-ruby-MESI_Two_Level/stats.txt