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[ <
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[ <
a href="#download">Download<
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] [ <
a href="#install">Installation<
/a>
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<h1>Software simulator for microcontrollers</h1>
<b><i>μCsim</i></b> can be used to simulate microcontrollers. It supports
MCS51 family, AVR core, Z80, HC08, ST7, STM8, TLCS90, XA51 and Paduk. It can
run on Linux, Windows, OSX, BSD, and other systems.<br>
<br>
See <a href="news.html">what's new<
/a> in current
version.<
br>
<
h2><
a name="download">Download<
/a><
/h2>
There are two places where you can download <
i>μCsim<
/i> from:<
br>
<
ol>
<
li>SDCC homepage. <
i>μCsim<
/i> is part of the SDCC
(Small Device C
Compiler
) project. You can download source of SDCC and precompiled
binaries from <
a href="http://sdcc.sf.net">http:
//sdcc.sf.net<
/a>.<
/li>
<
li><
i>μCsim<
/i> site. Standalone source package is available on the <
i>μCsim<
/i>
web site:<
br>
<
a href="http://mazsola.iit.uni-miskolc.hu/ucsim/download">http:
//mazsola.iit.uni-miskolc.hu
/ucsim
/download<
/a>
<
/li>
<
/ol>
<
p><!-- INSTALL --><
/p>
<
h2><
a name="install">How to install<
/a><
/h2>
UNIX
version is distributed in source.
<
ol>
<
li>Get
archive file, uncompress and untar it. These steps will produce a
directory <
b>ucsim-X.Y.Z<
/b> where X.Y.Z is the
version number. <
/li>
<
li>Go to the directory and configure the package. Issue <
tt><
b>configure<
/b><
/tt>
command. It will determine your system and make <
b>Makefile<
/b>.
Installation directory can be specified with <
b><
tt>--prefix
=<
i>dir<
/i><
/tt><
/b><!-- -- -->
option to the <
tt><
b>configure<
/b><
/tt>. Default directory is <
tt>
/usr
/local<
/tt>.
Executable file will be placed in <
tt>bin<
/tt> subdirectory. <
/li>
<
li>Compile the package with <
tt><
b>make<
/b><
/tt> command. <
/li>
<
li>Install executables <
b>s51<
/b>, <
b>savr<
/b>, <
b>shc08<
/b>, <
b>sxa<
/b>,
<
b>sz80, etc.<
/b> to any directory you want. It can be done with <
tt><
b>make
install<
/b><
/tt> command which will place files in installation
directory specified with <
tt><
b>--prefix
=<
i>dir<
/i><
/b><!-- --
--><
/tt> option of <
tt><
b>configure<
/b><
/tt>. Note that you may have to have
special privilege to do this if installation directory is not writeable
by you. <
/li>
<
/ol>
<!-- USE -->
<
h2><
a name="use">How to use<
/a><
/h2>
<
ul>
<
li> <
a href="invoke.html">Invocation<
/a>.<
br>
Starting the simulator program. <
/li>
<
/ul>
<
p><
b>Features of the simulator<
/b> <
/p>
<
ul>
<
li><
a href="analyzer.html">
Code analyser<
/a>. <
br>
The simulator tries to figure out places of valid instructions in
code
area.<
/li>
<
li><
a href="cpu_types.html">Processor types<
/a>. <
br>
The simulator can simulate different
type of microcontrollers. <
/li>
<
li><
a href="mulcons.html">
Multiple consoles<
/a>. <
br>
The simulator can handle more than one command consoles and accepts
command from
multiple sources. It also can be driven by other programs
such as debugger interfaces. <
/li>
<
li><
a href="serial.html">Serial interfaces<
/a>. <
br>
The simulator can virtually connect a terminal to serial interface of
the simulated CPU. <
/li>
<
li><
a href="memory.html">Memory simulation<
/a>. <
br>
Simulated CPU provides address spaces, storage is simulated by memory
chips, address decoders connects them together. <
/li>
<
li><
a href="simif.html">Simulator interface<
/a>.<
br>
This is a special interface which provides services
for the simulated
program. This services can be used to control the simulator
(for example
run
/stop
) and access some host features
(print, file I
/O
).<
/li>
<
li><
a href="syntax.html">Command syntax<
/a> and <
a href="cmd.html">command
reference<
/a>. <
br>
The simulator can be controlled via a command line interface. It accepts
simple commands. <
/li>
<
/ul>
<
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<
td><
a href="mailto:drdani@mazsola.iit.uni-miskolc.hu"><
img src="post.jpg"
align="top" border="0"><
/a><
/td>
<
td><
i>&#
169;
1997,
99 Dсniel Drєtos, Talker Bt.<
/i> <
br>
<
a href="mailto:drdani@mazsola.iit.uni-miskolc.hu">drdani@mazsola.iit.uni-miskolc.hu<
/a><
/td>
<
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