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Jean-Paul Chaput 9df5f5f1b7 Allow to do the placement in a sub-area in Etesian.
* New: In EtesianEngine, add a "placedArea" attribute to restrict the
    placement area to a part only of the whole abutement box. This a
    way to exclude some area containing *big* hard block.
      The placer terribly slow down when tring to "push aside" cells
    from the area taken by the block.
      This will be also used to restrict the clock tree covered area.
      It is far from optimal but will do for now.
    NOTE: The placeArea must be expressed in the coordinate system of
          the sub-block to be placed, if one has been defined.
2021-02-01 16:24:44 +01:00
anabatic Second version of the antenna effect protection. 2021-01-27 11:38:00 +01:00
bootstrap Added utlity script bootstrap/resetDoc.sh to revert the generated doc. 2020-11-14 18:54:23 +01:00
bora Bug fix, reset Cell flags after unrouting an analog design. 2020-04-30 00:38:32 +02:00
coloquinte Add updators to modify cell sizes on the fly in Coloquinte. 2021-01-13 19:10:31 +01:00
crlcore Better Verilog/VHDL name mixing in the Blif parser. 2021-02-01 16:18:25 +01:00
cumulus In cumulus/plugins.block.Block, set the right cell in the editor. 2021-01-27 11:38:27 +01:00
documentation Updated PDFs, November 13, 2020 (15:02). 2020-11-13 15:02:56 +01:00
equinox Compliance with Debian 10 Buster. 2020-03-19 18:18:35 +01:00
etesian Allow to do the placement in a sub-area in Etesian. 2021-02-01 16:24:44 +01:00
flute Added support for loading user defined global routing in Anabatic. 2020-09-30 11:55:39 +02:00
hurricane Added DbU::toCeil() & DbU::toFloor() for rounding on a dedicated step. 2021-02-01 16:13:16 +01:00
ispd Various typos correction (courtesy of G. Gouvine). 2019-07-30 13:13:57 +02:00
karakaze Correct Cell object detection while reading Oceane parameters. 2020-05-27 16:11:53 +02:00
katabatic Documentation cleanup & rebuild. 2020-11-12 14:22:31 +01:00
katana Second version of the antenna effect protection. 2021-01-27 11:38:00 +01:00
kite Documentation cleanup & rebuild. 2020-11-12 14:22:31 +01:00
knik Documentation cleanup & rebuild. 2020-11-12 14:22:31 +01:00
lefdef Migrating doc from Sphinx towards Pelican. 2020-02-03 17:44:15 +01:00
mauka Compliance with Debian 10 Buster. 2020-03-19 18:18:35 +01:00
metis Compliance with Debian 10 Buster. 2020-03-19 18:18:35 +01:00
nimbus Compliance with Debian 10 Buster. 2020-03-19 18:18:35 +01:00
oroshi Documentation cleanup & rebuild. 2020-11-12 14:22:31 +01:00
solstice Compliance with Debian 10 Buster. 2020-03-19 18:18:35 +01:00
stratus1 Documentation cleanup & rebuild. 2020-11-12 14:22:31 +01:00
tutorial More PEP8 compliant Python code. Start rewrite Python/C++ wrappers. 2020-04-08 11:24:42 +02:00
unicorn Documentation cleanup & rebuild. 2020-11-12 14:22:31 +01:00
unittests Enhanced techno rule support. Inspector support bug fix. 2020-07-21 11:22:04 +02:00
vlsisapd Documentation cleanup & rebuild. 2020-11-12 14:22:31 +01:00
.gitignore Various bug corrections to pass the alliance-check-toolkit reference benchs. 2019-05-24 23:57:22 +02:00
Makefile Enabling the user to choose the devtoolset it needs. 2019-03-04 14:20:13 +01:00
README.rst Update doc link for the new Pelican generated one. 2020-02-10 13:38:06 +01:00

README.rst

.. -*- Mode: rst -*-


===============
Coriolis README
===============

Coriolis is a free database, placement tool and routing tool for VLSI design.


Purpose
=======

Coriolis provides several tools to perform the layout of VLSI circuits.  Its
main components are the Hurricane database, the Etesian placer and the Katana
router, but other tools can use the Hurricane database and the parsers
provided.

The user interface <cgt> is the prefered way to use Coriolis, but all
Coriolis tools are Python modules and thus scriptable.


Documentation
=============

The complete documentation is available here, both in pdf & html:

   ./documentation/output/html
   ./documentation/UsersGuide/UsersGuide.pdf

The documentation of the latest *stable* version is also
available online. It may be quite outdated from the *devel*
version.

    https://www-soc.lip6.fr/sesi-docs/coriolis2-docs/coriolis2/en/latex/users-guide/UsersGuide.pdf


Building Coriolis
=================

To build Coriolis, ensure the following prerequisites are met:

* Python 2.7.
* cmake.
* boost.
* bison & flex.
* Qt 4 or 5.
* libxml2.
* RapidJSON
* A C++11 compliant compiler.

The build system relies on a fixed directory tree from the root
of the user currently building it. Thus first step is to get a clone of
the repository in the right place. Proceed as follow: ::

   ego@home:~$ mkdir -p ~/coriolis-2.x/src/support
   ego@home:~$ cd ~/coriolis-2.x/src/support
   ego@home:~$ git clone http://github.com/miloyip/rapidjson
   ego@home:~$ git checkout ec322005072076ef53984462fb4a1075c27c7dfd
   ego@home:~$ cd ~/coriolis-2.x/src
   ego@home:src$ git clone https://www-soc.lip6.fr/git/coriolis.git
   ego@home:src$ cd coriolis

If you want to use the *devel* branch: ::

    ego@home:coriolis$ git checkout devel

Then, build the tool: ::

    ego@home:coriolis$ make install

Coriolis gets installed at the root of the following tree: ::

    ~/coriolis-2.x/<OS>.<DISTRIB>/Release.Shared/install/

Where ``<OS>`` is the name of your operating system and ``<DISTRIB>`` your
distribution.


Using Coriolis
==============

The Coriolis main interface can be launched with the command: ::

    ego@home:~: ~/coriolis-2.x/<OS>.<DISTRIB>/Release.Shared/install/bin/coriolis

The ``coriolis`` script detects its location and setups the UNIX
environment appropriately, then lauches ``cgt`` (or *any* command, with the
``--run=<COMMAND>`` option).

Conversely, you can setup the current shell environement for Coriolis by 
using the helper ``coriolisEnv.py``, then run any Coriolis tool: ::

    ego@home:~$ eval `~/coriolis-2.x/src/coriolis/bootstrap/coriolisEnv.py`
    ego@home:~$ cgt -V