# DESCRIPTION: DOCUMENT source run through perl to produce README file
# Use 'make README' to produce the output file
=pod
=head1 NAME
This is the Verilator Package README file.
=head1 DISTRIBUTION
This package is Copyright 2003-2013 by Wilson Snyder. (Report bugs to
L<http://www.veripool.org/>.)
Verilator is free software; you can redistribute it and/or modify it under
the terms of either the GNU Lesser General Public License Version 3 or the
Perl Artistic License Version 2.0. (See the documentation for more
details.)
This program is distributed in the hope that it will be useful, but WITHOUT
ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
more details.
=head1 DESCRIPTION
Verilator converts synthesizable (not behavioral) Verilog code into C++ or
SystemC code. It is not a complete simulator, just a translator.
Verilator is invoked with parameters similar to GCC or Synopsys's VCS. It
reads the specified Verilog code, lints it, and optionally adds coverage
code. For C++ format, it outputs .cpp and .h files. For SystemC format,
it outputs .sp files for the SystemPerl preprocessor available at
http://www.veripool.org.
The resulting files are then compiled with C++. The user writes a little
C++ wrapper file, which instantiates the top level module. This is
compiled in C++, and linked with the Verilated files.
The resulting executable will perform the actual simulation.
=head1 SUPPORTED SYSTEMS
Verilator is developed and has primary testing on:
SuSE 11.1 AMD64 i686-linux-2.6.27, GCC 4.3.2
Versions have also built on Redhat Linux, Macs OS-X, HPUX and Solaris. It
should run with minor porting on any Linix-ish platform. Verilator also
works on Windows under Cygwin, and Windows under MinGW (gcc -mno-cygwin).
Verilated output (not Verilator itself) compiles under MSVC++ 2008.
=head1 INSTALLATION
For more details see
L<http://www.veripool.org/projects/verilator/wiki/Installing>.
If you will be modifying Verilator, you should use the "git" method as it
will let you track changes.
=over 4
=item
The latest version is available at L<http://www.veripool.org/verilator>.
Download the latest package from that site, and decompress.
tar xvzf verilator_version.tgz
=item
If you will be using SystemC (vs straight C++ output), download SystemC
2.0.1 from L<http://www.systemc.org>. Follow their installation
instructions. You will need to set SYSTEMC_INCLUDE to point to the
include directory with systemc.h in it, and SYSTEMC_LIBDIR to points
to the directory with libsystemc.a in it. (Older installations may
set SYSTEMC and SYSTEMC_ARCH instead.)
=item
If you will be using SystemPerl or coverage, download and install
System-Perl, L<http://www.veripool.org/systemperl>. Note you'll need to
set a C<SYSTEMPERL> environment variable to point to the downloaded kit.
Optionally also set C<SYSTEMPERL_INCLUDE> to point to the installed
headers.
=item
You will need the C<flex> and C<bison> packages installed.
=item
C<cd> to the Verilator directory containing this README.
=item
You now have to decide how you're going to eventually install the kit.
Note Verilator builds the current value of VERILATOR_ROOT, SYSTEMC_INCLUDE,
SYSTEMC_LIBDIR, SYSTEMPERL, and SYSTEMPERL_INCLUDE as defaults into the
executable, so try to have them correct before configuring.
=over 4
=item 1.
Our personal favorite is to always run Verilator from the kit directory.
This allows the easiest experimentation and upgrading. It's also how most
EDA tools operate; to run any of them you point to the tarball.
export VERILATOR_ROOT=`pwd` # if your shell is bash
setenv VERILATOR_ROOT `pwd` # if your shell is csh
./configure
=item 2.
To install globally onto a "cad" disk with multiple versions of every tool,
and add it to path using Modules/modulecmd:
unset VERILATOR_ROOT # if your shell is bash
unsetenv VERILATOR_ROOT # if your shell is csh
# For the tarball, use the version number instead of git describe
./configure --prefix /CAD_DISK/verilator/`git describe | sed "s/verilator_//"`
After installing you'll want a module file like the following:
set install_root /CAD_DISK/verilator/{version-number-used-above}
setenv VERILATOR_ROOT $install_root
prepend-path PATH $install_root/bin
prepend-path MANPATH $install_root/man
=item 3.
The next option is to install it globally, using the normal system paths:
unset VERILATOR_ROOT # if your shell is bash
unsetenv VERILATOR_ROOT # if your shell is csh
./configure
=item 4.
Alternatively you can configure a prefix that install will populate, as
most GNU tools support:
unset VERILATOR_ROOT # if your shell is bash
unsetenv VERILATOR_ROOT # if your shell is csh
./configure --prefix /opt/verilator-VERSION
Then after installing you will need to add /opt/verilator-VERSION/bin to
PATH.
=back
=item
Type C<make> to compile Verilator.
Type C<make test_c> to check the compilation.
Type C<make test> for a more complete test. You may get a error about the
Bit::Vector Perl package. You will need to install it and SystemPerl if
you want all tests to pass.
You may get a error about a typedef conflict for uint32_t. Edit
verilated.h to change the typedef to work, probably to @samp{typedef
unsigned long uint32_t;}.
=item
If you used the VERILATOR_ROOT scheme you're done. Programs should set the
environment variable VERILATOR_ROOT to point to this distribution, then
execute $VERILATOR_ROOT/bin/verilator, which will find the path to all
needed files.
If you used the prefix scheme, now do a C<make install>. To run verilator,
have the verilator binary directory in your PATH (this should already be
true if using the default configure), and make sure VERILATOR_ROOT is not
set.
=back
=head1 USAGE DOCUMENTATION
Detailed documentation and the man page can be seen by running:
bin/verilator --help
or reading verilator.txt in the same directory as this README.
=head1 DIRECTORY STRUCTURE
The directories in the kit after de-taring are as follows:
bin/verilator => Compiler Wrapper invoked to Verilate code
include/ => Files that should be in your -I compiler path
include/verilated*.cpp => Global routines to link into your simulator
include/verilated.h => Global headers
include/verilated.v => Stub defines for linting
include/verilated.mk => Common makefile
src/ => Translator source code
test_v => Example Verilog code for other test dirs
test_c => Example Verilog->C++ conversion
test_sc => Example Verilog->SystemC conversion
test_sp => Example Verilog->SystemPerl conversion
test_vcs => Example Verilog->VCS conversion (test the test)
test_verilated => Internal tests
test_regress => Internal tests
=head1 LIMITATIONS
See verilator.txt (or execute C<bin/verilator --help>) for limitations.
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