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We need the ability to lock event queues to enable device accesses across threads. The serviceOne() method now takes a service lock prior to handling a new event. By locking an event queue, a different thread/eq can effectively execute in the context of the locked event queue. To simplify temporary event queue migrations, this changeset introduces the EventQueue::ScopedMigration class that unlocks the current event queue, locks a new event queue, and updates the current event queue variable. In order to prevent deadlocks, event queues need to be released when waiting on barriers. This is implemented using the EventQueue::ScopedRelease class. An instance of this class is, for example, used in the BaseGlobalEvent class to release the event queue when waiting on the synchronization barrier. The intended use for this functionality is when devices need to be accessed across thread boundaries. For example, when fast-forwarding, it might be useful to run devices and CPUs in separate threads. In such a case, the CPU locks the device queue whenever it needs to perform IO. This functionality is primarily intended for KVM. Note: Migrating between event queues can lead to non-deterministic timing. Use with extreme care! --HG-- extra : rebase_source : 23e3a741a1fd73861d1339782dbbe1bc76285315
This is the gem5 simulator.
For detailed information about building the simulator and getting
started please refer to:
* The main website: http://www.gem5.org
* Documentation wiki: http://www.gem5.org/Documentation
* Doxygen generated: http://www.gem5.org/docs
* Tutorials: http://www.gem5.org/Tutorials
Specific pages of interest are:
http://www.gem5.org/Introduction
http://www.gem5.org/Build_System
http://www.gem5.org/Dependencies
http://www.gem5.org/Running_gem5
Short version:
External tools and required versions
To build gem5, you will need the following software:
g++ version 4.3 or newer.
Python, version 2.4 - 2.7 (we don't support Python 3.X). gem5 links in the
Python interpreter, so you need the Python header files and shared
library (e.g., /usr/lib/libpython2.4.so) in addition to the interpreter
executable. These may or may not be installed by default. For example,
on Debian/Ubuntu, you need the "python-dev" package in addition to the
"python" package. If you need a newer or different Python installation
but can't or don't want to upgrade the default Python on your system,
see http://www.gem5.org/Using_a_non-default_Python_installation
SCons, version 0.98.1 or newer. SCons is a powerful replacement for make.
If you don't have administrator privileges on your machine, you can use the
"scons-local" package to install scons in your m5 directory, or install SCons
in your home directory using the '--prefix=' option.
SWIG, version 1.3.34 or newer
zlib, any recent version. For Debian/Ubuntu, you will need the "zlib-dev" or
"zlib1g-dev" package to get the zlib.h header file as well as the library
itself.
m4, the macro processor.
4. In this directory, type 'scons build/<ARCH>/gem5.opt' where ARCH is one
of ALPHA, ARM, MIPS, POWER, SPARC, or X86. This will build an optimized version
of the gem5 binary (gem5.opt) for the the specified architecture.
If you have questions, please send mail to gem5-users@gem5.org
WHAT'S INCLUDED (AND NOT)
-------------------------
The basic source release includes these subdirectories:
- gem5:
- configs: example simulation configuration scripts
- ext: less-common external packages needed to build gem5
- src: source code of the gem5 simulator
- system: source for some optional system software for simulated systems
- tests: regression tests
- util: useful utility programs and files
To run full-system simulations, you will need compiled system firmware
(console and PALcode for Alpha), kernel binaries and one or more disk images.
Please see the gem5 download page for these items at http://www.gem5.org/Download