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Ali Saidi e196d20d9d Make TranslatingPort be a type of Port rather than something special
arch/alpha/arguments.cc:
    rather than returning 0, put a panic in... it will actually make us fix
    this rather than scratching our respective heads
base/loader/object_file.cc:
base/loader/object_file.hh:
    Object loader now takes a port rather than a translating port
cpu/cpu_exec_context.cc:
cpu/cpu_exec_context.hh:
sim/process.cc:
    Make translating port a type of port rather than anything special
cpu/simple/cpu.cc:
    no need to grab a port from the cpu anymore
mem/physical.cc:
    add an additional type of port to physicalmemory called "functional"
    Only used for functional accesses (loading binaries/syscall emu)
mem/port.hh:
    make readBlok/writeBlob virtual so translating port can do the
    translation first
mem/translating_port.cc:
mem/translating_port.hh:
    Make TranslatingPort inherit from Port
sim/system.cc:
    header file that doesn't exit removed

--HG--
extra : convert_revision : 89b08f6146bba61f5605678d736055feab2fe6f7
2006-03-30 15:59:49 -05:00
arch Make TranslatingPort be a type of Port rather than something special 2006-03-30 15:59:49 -05:00
base Make TranslatingPort be a type of Port rather than something special 2006-03-30 15:59:49 -05:00
build Make CPU_MODELS a sticky build option. 2006-03-28 22:55:08 -05:00
configs update for connector magic 2006-03-29 17:39:20 -05:00
cpu Make TranslatingPort be a type of Port rather than something special 2006-03-30 15:59:49 -05:00
dev move stuff around so PageShift is defined before it is needed 2006-03-29 17:37:25 -05:00
docs Many files: 2005-06-05 05:16:00 -04:00
kern Fixes for full system compiling. 2006-03-30 10:42:55 -05:00
mem Make TranslatingPort be a type of Port rather than something special 2006-03-30 15:59:49 -05:00
python Add the bus and connector objects to scons 2006-03-26 21:44:22 -05:00
sim Make TranslatingPort be a type of Port rather than something special 2006-03-30 15:59:49 -05:00
test Minor fix for test/genini.py. 2005-10-31 22:41:14 -05:00
util Bump up NFS wait time in qdo (since this has been causing 2006-03-11 22:01:33 -05:00
Doxyfile Fix minor doxygen issues. 2005-06-05 08:08:29 -04:00
LICENSE Fix a few broken or inconsistently formatted copyrights 2005-06-05 05:08:37 -04:00
README More documentation for 1.1 release. 2005-10-06 13:59:05 -04:00
RELEASE_NOTES More documentation for 1.1 release. 2005-10-06 13:59:05 -04:00
SConscript page_table.cc is a syscall only kinda thing 2006-03-29 18:42:53 -05:00

This is release m5_1.1 of the M5 simulator.

This file contains brief "getting started" instructions.  For more
information, see http://m5.eecs.umich.edu.  If you have questions,
please send mail to m5sim-users@lists.sourceforge.net.

WHAT'S INCLUDED (AND NOT)
-------------------------

The basic source release includes these subdirectories:
 - m5: the simulator itself
 - m5-test: regression tests
 - ext: less-common external packages needed to build m5
 - alpha-system: source for Alpha console and PALcode

To run full-system simulations, you will need compiled console,
PALcode, and kernel binaries and one or more disk images.  These files
are collected in a separate archive, m5_system_1.1.tar.bz2.  This file
is included on the CD release, or you can download it separately from
Sourceforge.

M5 supports Linux 2.4/2.6, FreeBSD, and the proprietary Compaq/HP
Tru64 version of Unix. We are able to distribute Linux and FreeBSD
bootdisks, but we are unable to distribute bootable disk images of
Tru64 Unix. If you have a Tru64 license and are interested in
obtaining disk images, contact us at m5-dev@eecs.umich.edu.

The CD release includes a few extra goodies, such as a tar file
containing doxygen-generated HTML documentation (html-docs.tar.gz), a
set of Linux source patches (linux_m5-2.6.8.1.diff), and the scons
program needed to build M5.  If you do not have the CD, the same HTML
documentation is available online at http://m5.eecs.umich.edu/docs,
the Linux source patches are available at
http://m5.eecs.umich.edu/dist/linux_m5-2.6.8.1.diff, and the scons
program is available from http://www.scons.org.

WHAT'S NEEDED
-------------
- GCC version 3.3 or newer
- Python 2.3 or newer
- SCons 0.96.1 or newer (see http://www.scons.org)

WHAT'S RECOMMENDED
------------------
- MySQL (for statistics complex statistics storage/retrieval)
- Python-MysqlDB (for statistics analysis) 

GETTING STARTED
---------------

There are two different build targets and three optimizations levels:

Target:
-------
ALPHA_SE - Syscall emulation simulation
ALPHA_FS - Full system simulation

Optimization:
-------------
m5.debug - debug version of the code with tracing and without optimization
m5.opt   - optimized version of code with tracing
m5.fast  - optimized version of the code without tracing and asserts

Different targets are built in different subdirectories of m5/build.
Binaries with the same target but different optimization levels share
the same directory.  Note that you can build m5 in any directory you
choose;p just configure the target directory using the 'mkbuilddir'
script in m5/build.

The following steps will build and test the simulator.  The variable
"$top" refers to the top directory where you've unpacked the files,
i.e., the one containing the m5, m5-test, and ext directories.  If you
have a multiprocessor system, you should give scons a "-j N" argument (like
make) to run N jobs in parallel.

To build and test the syscall-emulation simulator:

	cd $top/m5/build
	scons ALPHA_SE/test/opt/quick

This process takes under 10 minutes on a dual 3GHz Xeon system (using
the '-j 4' option).

To build and test the full-system simulator:

1. Unpack the full-system binaries from m5_system_1.1.tar.bz2.  (See
   above for directions on obtaining this file if you don't have it.)
   This package includes disk images and kernel, palcode, and console
   binaries for Linux and FreeBSD.
2. Edit the SYSTEMDIR search path in $top/m5-test/SysPaths.py to
   include the path to your local copy of the binaries.
3. In $top/m5/build, run "scons ALPHA_FS/test/opt/quick".

This process also takes under 10 minutes on a dual 3GHz Xeon system
(again using the '-j 4' option).