Commit graph

10047 commits

Author SHA1 Message Date
Nilay Vaish
7792dedfdd x86: add a warning about the number of memory controllers
When memory size > 3GB, print a warning that twice the number of memory
controllers would be created.
2014-01-28 07:15:53 -06:00
Nilay Vaish
bdee69d0b1 x86: use lfpimm instead of limm for fptan 2014-01-27 18:50:54 -06:00
Nilay Vaish
6a543b5134 x86: implements x87 add/sub instructions 2014-01-27 18:50:53 -06:00
Nilay Vaish
5be0b846b1 x86: implements fxch instruction. 2014-01-27 18:50:52 -06:00
Nilay Vaish
4eb3b1ed0b x86: correct error in emms instruction. 2014-01-27 18:50:51 -06:00
Nilay Vaish
95b782f600 config: allow more than 3GB of memory for x86 simulations
This patch edits the configuration files so that x86 simulations can have
more than 3GB of memory.  It also corrects a bug in the MemConfig.py script.
2014-01-27 18:50:51 -06:00
Nilay Vaish
fa0ff1c902 stats: update sparc fs stats 2014-01-27 13:30:37 -06:00
Steve Reinhardt
85016c2d45 stats: update eio stats for recent changes 2014-01-27 00:38:58 -05:00
Ali Saidi
cfb805cc71 stats: update stats for ARMv8 changes 2014-01-24 15:29:34 -06:00
ARM gem5 Developers
612f8f074f arm: Add support for ARMv8 (AArch64 & AArch32)
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
2014-01-24 15:29:34 -06:00
Ali Saidi
f3585c841e stats: update stats for cache occupancy and clock domain changes 2014-01-24 15:29:33 -06:00
Andreas Hansson
cfc4a99982 arch: Make all register index flattening const
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.
2014-01-24 15:29:30 -06:00
Geoffrey Blake
9633282fc8 checker: CheckerCPU handling of MiscRegs was incorrect
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.
2014-01-24 15:29:30 -06:00
Ali Saidi
7d0344704a arch, cpu: Add support for flattening misc register indexes.
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.
2014-01-24 15:29:30 -06:00
Giacomo Gabrielli
3436de0c2a cpu: Add support for Memory+Barrier instruction types in O3 cpu. 2014-01-24 15:29:30 -06:00
Ali Saidi
90b1775a8f cpu: Add support for instructions that zero cache lines. 2014-01-24 15:29:30 -06:00
Ali Saidi
6bed6e0352 cpu: Add CPU support for generatig wake up events when LLSC adresses are 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.
2014-01-24 15:29:30 -06:00
Giacomo Gabrielli
d3444c6603 mem: Add flag to request if it was generated by a page table walk 2014-01-24 15:29:30 -06:00
Giacomo Gabrielli
aefe9cc624 mem: Add support for a security bit in the memory system
This patch adds the basic building blocks required to support e.g. ARM
TrustZone by discerning secure and non-secure memory accesses.
2014-01-24 15:29:30 -06:00
Chris Adeniyi-Jones
7f835a59f1 sim: Add openat/fstatat syscalls and fix mremap
This patch adds support for the openat and fstatat syscalls and
broadens the support for mremap to make it work on OS X.
2014-01-24 15:29:30 -06:00
Ali Saidi
904872a01a mem: Remove explict cast from memhelper.
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.
2014-01-24 15:29:30 -06:00
Timothy M. Jones
427ceb57a9 Cache: Collect very basic stats on tag and data accesses
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.
2014-01-24 15:29:30 -06:00
Dam Sunwoo
85e8779de7 mem: per-thread cache occupancy and per-block ages
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.
2014-01-24 15:29:30 -06:00
Matt Horsnell
739c6df94e base: add support for probe points and common probes
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%).
2014-01-24 15:29:30 -06:00
Andreas Hansson
4de69821e6 sim: Expose the current voltage for each object as a stat 2014-01-24 15:29:30 -06:00
Andreas Hansson
1d85e914a6 sim: Expose the current clock period as a stat
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.
2014-01-24 15:29:30 -06:00
Matt Horsnell
ca89eba79e mem: track per-request latencies and access depths in the cache hierarchy
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.
2014-01-24 15:29:30 -06:00
Andreas Hansson
daa781d2db config: Make the Clock a Tick parameter like Latency/Frequency
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).
2014-01-24 15:29:29 -06:00
Andreas Hansson
f2b0b551cc x86: Fix memory leak in table walker
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.
2014-01-24 15:29:29 -06:00
Andreas Hansson
7db542c0dd cpu: Relax check on squashed non-speculative instructions
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.
2014-01-24 15:29:29 -06:00
Dam Sunwoo
6019d73db4 util: updated Streamline flow to support ARM DS-5 v5.17 protocol
The previous flow supported ARM DS-5 v5.13 protocol.
2014-01-24 15:29:29 -06:00
Dam Sunwoo
f1cd6b1ba8 cpu: remove faulty simpoint basic block inst count assertion
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.
2014-01-24 15:29:29 -06:00
Nilay Vaish
37433d91a3 ruby: remove unused label no_vector 2014-01-17 11:02:15 -06:00
Nilay Vaish
fc6d1f3399 stats: updates due to changes to ruby 2014-01-10 16:19:58 -06:00
Nilay Vaish
407f37e15f ruby: move all statistics to stats.txt, eliminate ruby.stats 2014-01-10 16:19:47 -06:00
Nilay Vaish
cfe912a512 stats: add function for adding two histograms
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.
2014-01-10 16:19:40 -06:00
Nilay Vaish
0387281e2a ruby: fix bug introduced to revision 8523754f8885 2014-01-09 10:45:50 -06:00
Nilay Vaish
8559081648 ruby: slicc: remove variable 'addr' used in calls to doTransition
This variable causes trouble if a variable of same name is declared in a
protocol file. Hence it is being eliminated.
2014-01-08 04:26:25 -06:00
Nilay Vaish
4070b00875 ruby: add a three level MESI protocol.
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.
2014-01-04 00:03:34 -06:00
Nilay Vaish
bb6d7d402b ruby: rename MESI_CMP_directory to MESI_Two_Level
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
2014-01-04 00:03:33 -06:00
Nilay Vaish
9ec59e8b69 ruby: remove cntrl_id from python config scripts. 2014-01-04 00:03:32 -06:00
Nilay Vaish
5b1804e3bd ruby: add support for clusters
A cluster over here means a set of controllers that can be accessed only by a
certain set of cores.  For example,  consider a two level hierarchy. Assume
there are 4 L1 controllers (private) and 2 L2 controllers.  We can have two
different hierarchies here:

a. the address space is partitioned between the two L2 controllers.  Each L1
controller accesses both the L2 controllers.  In this case, each L1 controller
is a cluster initself.

b. both the L2 controllers can cache any address.  An L1 controller has access
to only one of the L2 controllers.  In this case, each L2 controller
along with the L1 controllers that access it, form a cluster.

This patch allows for each controller to have a cluster ID, which is 0 by
default.  By setting the cluster ID properly,  one can instantiate hierarchies
with clusters.  Note that the coherence protocol might have to be changed as
well.
2014-01-04 00:03:31 -06:00
Nilay Vaish
9853ef6651 ruby: some small changes 2014-01-04 00:03:30 -06:00
Steve Reinhardt
a212844f67 config, x86: move kernel specification from tests to FSConfig.py
For some reason, the default x86 kernel is specified in
tests/configs/x86_generic.py and not in configs/common/FSConfig.py,
where the kernels for all the other ISAs are.  This means that
running configs/example/fs.py for x86 fails because no kernel
is specified.  Moving the specification over fixes this problem.

There is another problem that this uncovers, which is that going
past the init stage (i.e., past where the regression test stops)
fails because the fsck test on the disk device fails, but that's
a separate issue.
2014-01-03 17:08:44 -08:00
Steve Reinhardt
d8c9b5431b python: provide better error message for wrapped C++ methods
If you successfully export a C++ SimObject method, but try to
invoke it from Python before the C++ object is created, you
get a confusing error that says the attribute does not exist,
making you question whether you successfully exported the
method at all.  In reality, your only problem is that you're
calling the method too soon.  This patch enhances the error
message to give you a better clue.
2014-01-03 17:08:43 -08:00
Steve Reinhardt
ba9ec669bc python: don't die on assignment to cloned object
Updating the SimObject topology of a cloned hierarchy is a little
dangerous, in that cloning is a "deep copy" and the clone does not
inherit SimObject updates the same way it would inherit scalar
variable assignments.

However, because of various SimObject-valued proxy parameters,
like 'memories', 'clk_domain', and 'system', it turns out that
there are a number of implicit topology changes that happen at
instantiation, which means that these changes are impossible to
avoid.  So in order to make cloning systems useful, this error
has to go.  Changing it to a warning produces a lot of noise,
so it seems best just to delete it.
2014-01-03 17:08:42 -08:00
Christopher Torng
b4b03a60b1 sim: Add support for dynamic frequency scaling
This patch provides support for DFS by having ClockedObjects register
themselves with their clock domain at construction time in a member list.
Using this list, a clock domain can update each member's tick to the
curTick() before modifying the clock period.

Committed by: Nilay Vaish <nilay@cs.wisc.edu>
2013-12-29 19:29:45 -06:00
Christopher Torng
903b442228 mips: Floating point convert bug fix
In mips architecture, floating point convert instructions use the
FloatConvertOp format defined in src/arch/mips/isa/formats/fp.isa. The type
of the operands in the ISA description file (_sw for signed word, or _sf for
signed float, etc.) is  used to create a type for the operand in C++. Then the
operand is converted using the fpConvert() function in src/arch/mips/utility.cc.

If we are converting from a word to a float, and we want to convert 0xffffffff,
we expect -1 to be passed into fpConvert(). Instead, we see MAX_INT passed in.
Then fpConvert() converts _val_ to MAX_INT in single-precision floating point,
and we get the wrong value.

To fix it, the signs of the convert operands are being changed from unsigned to
signed in the MIPS ISA description.

Then, the FloatConvertOp format is being changed to insert a int32_t into the
C++ code instead of a uint32_t.

Committed by: Nilay Vaish <nilay@cs.wisc.edu>
2013-12-29 19:29:45 -06:00
Nilay Vaish
e6008b6bc1 stats: updates due to bug fixed in mesi coherence protocol 2013-12-26 15:18:58 -06:00
Nilay Vaish
d71311b1cf ruby: fix bugs in mesi cmp directory protocol
This patch fixes couple of bugs in the L2 controller of the mesi cmp
directory protocol.

1. The state MT_I was transitioning to NP on receiving a clean writeback
from the L1 controller.  This patch makes it inform the directory controller
about the writeback.

2. The L2 controller was sending the dirty bit to the L1 controller and the
L2 controller used writeback from the L1 controller to update the dirty bit
unconditionally.  Now, the L1 controller always assumes that the incoming
data is clean.  The L2 controller updates the dirty bit only when the L1
controller writes to the block.

3. Certain unused functions and events are being removed.
2013-12-26 15:18:55 -06:00