1383 lines
65 KiB
ReStructuredText
1383 lines
65 KiB
ReStructuredText
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.. -*- Mode: rst -*-
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.. role:: ul
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.. role:: cb
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.. role:: sc
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.. role:: fboxtt
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.. Acronyms & names.
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.. |GNU| replace:: :sc:`gnu`
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.. |LGPL| replace:: :sc:`lgpl`
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.. |GPL| replace:: :sc:`gpl`
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.. |UPMC| replace:: :sc:`upmc`
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.. |Bull| replace:: :sc:`Bull`
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.. |Cadence| replace:: :sc:`Cadence`
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.. |Si2| replace:: :sc:`Si2`
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.. |LEFDEF| replace:: :sc:`lefdef`
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.. |Flute| replace:: :sc:`Flute`
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.. |MacOS| replace:: :sc:`MacOS`
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.. |Alexandre| replace:: :sc:`Alexandre`
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.. |Belloeil| replace:: :sc:`Belloeil`
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.. |Chaput| replace:: :sc:`Chaput`
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.. |Chu| replace:: :sc:`Chu`
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.. |Dupuis| replace:: :sc:`Dupuis`
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.. |Escassut| replace:: :sc:`Escassut`
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.. |Masson| replace:: :sc:`Masson`
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.. |ANSI| replace:: :sc:`ansi`
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.. |MIPS| replace:: :sc:`mips`
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.. |Am2901| replace:: :sc:`Am2901`
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.. |Hurricane| replace:: :sc:`Hurricane`
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.. |HurricaneAMS| replace:: :sc:`HurricaneAMS`
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.. |Alliance| replace:: :sc:`Alliance`
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.. |GenLib| replace:: :sc:`GenLib`
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.. |Nero| replace:: :sc:`Nero`
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.. |Druc| replace:: :cb:`Druc`
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.. |Coriolis| replace:: :sc:`Coriolis`
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.. |Coriolis1| replace:: :sc:`Coriolis 1`
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.. |Coriolis2| replace:: :sc:`Coriolis 2`
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.. |VLSISAPD| replace:: :sc:`vlsisapd`
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.. |CRLcore| replace:: :sc:`CRLcore`
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.. |Cyclop| replace:: :sc:`Cyclop`
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.. |Nimbus| replace:: :sc:`Nimbus`
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.. |hMetis| replace:: :sc:`hMetis`
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.. |Mauka| replace:: :sc:`Mauka`
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.. |Knik| replace:: :sc:`Knik`
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.. |Katabatic| replace:: :sc:`Katabatic`
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.. |Kite| replace:: :sc:`Kite`
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.. |Stratus| replace:: :sc:`Stratus`
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.. |Stratus1| replace:: :sc:`Stratus1`
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.. |Stratus2| replace:: :sc:`Stratus2`
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.. |Unicorn| replace:: :sc:`Unicorn`
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.. |ccb| replace:: :cb:`ccb`
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.. |cgt| replace:: :cb:`cgt`
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.. |Chams| replace:: :sc:`Chams`
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.. |OpenChams| replace:: :sc:`OpenChams`
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.. |Pharos| replace:: :cb:`Pharos`
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.. |API| replace:: :sc:`api`
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.. |STL| replace:: :sc:`stl`
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.. |XML| replace:: :sc:`xml`
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.. |pdf| replace:: :sc:`pdf`
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.. |UTF-8| replace:: :sc:`utf-8`
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.. |Python| replace:: :sc:`Python`
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.. |Linux| replace:: :sc:`Linux`
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.. |Scientific Linux| replace:: :sc:`Scientific Linux`
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.. |RedHat| replace:: :sc:`RedHat`
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.. |Fedora| replace:: :sc:`Fedora`
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.. |FC13| replace:: :sc:`fc13`
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.. |Debian| replace:: :sc:`Debian`
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.. |Ubuntu| replace:: :sc:`Ubuntu`
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.. |MacPorts| replace:: :sc:`MacPorts`
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.. |boost| replace:: :cb:`boost`
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.. |Qt| replace:: :sc:`qt`
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.. |tty| replace:: :cb:`tty`
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.. |svn| replace:: :cb:`svn`
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.. |git| replace:: :cb:`git`
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.. |rpm| replace:: :cb:`rpm`
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.. URLs
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.. _FGR: http://vlsicad.eecs.umich.edu/BK/FGR/
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.. _Box Router: http://www.cerc.utexas.edu/~thyeros/boxrouter/boxrouter.htm
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.. _hMETIS: http://glaros.dtc.umn.edu/gkhome/views/metis
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.. _Knik Thesis: http://www-soc.lip6.fr/en/users/damiendupuis/PhD/
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.. _coriolis2-1.0.2049-1.slsoc6.i686.rpm: http://asim.lip6.fr/pub/coriolis/2.0/coriolis2-1.0.2049-1.slsoc6.i686.rpm
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.. _coriolis2-1.0.2049-1.slsoc6.x86_64.rpm: http://asim.lip6.fr/pub/coriolis/2.0/coriolis2-1.0.2049-1.slsoc6.x86_64.rpm
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.. _coriolis2-1.0.2049-1.fc16.i686.rpm: http://asim.lip6.fr/pub/coriolis/2.0/coriolis2-1.0.2049-1.fc16.i686.rpm
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.. _coriolis2-1.0.2049-1.fc16.x86_64.rpm: http://asim.lip6.fr/pub/coriolis/2.0/coriolis2-1.0.2049-1.fc16.x86_64.rpm
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.. _coriolis2_1.0-2049-1_.i386.rpm (10.04): http://asim.lip6.fr/pub/coriolis/2.0/Ubuntu/10.04/coriolis2_1.0-2049-1_i386.rpm
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.. _coriolis2_1.0-2049-1_.amd64.rpm (10.04): http://asim.lip6.fr/pub/coriolis/2.0/Ubuntu/10.04/coriolis2_1.0-2049-1_i386.rpm
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.. _coriolis2_1.0-2049-1_.i386.rpm (12.04): http://asim.lip6.fr/pub/coriolis/2.0/Ubuntu/12.04/coriolis2_1.0-2049-1_i386.rpm
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.. _coriolis2_1.0-2049-1_.amd64.rpm (12.04): http://asim.lip6.fr/pub/coriolis/2.0/Ubuntu/12.04/coriolis2_1.0-2049-1_i386.rpm
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.. Standard CAO/VLSI Concepts.
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.. |netlist| replace:: *netlist*
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.. |netlists| replace:: *netlists*
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.. |layout| replace:: *layout*
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.. |layouts| replace:: *layouts*
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.. |CMOS| replace:: :sc:`cmos`
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.. |VHDL| replace:: :sc:`vhdl`
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.. |NWELL| replace:: :sc:`nwell`
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.. |POWER| replace:: :sc:`power`
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.. |GROUND| replace:: :sc:`ground`
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.. MBK Concepts
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.. |MBK| replace:: :sc:`mbk`
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.. |LOFIG| replace:: :cb:`Lofig`
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.. |PHFIG| replace:: :cb:`Phfig`
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.. |SxLib| replace:: :sc:`SxLib`
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.. Hurricane Concepts.
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.. |hypernet| replace:: *hypernet*
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.. |hypernets| replace:: *hypernets*
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.. |Cell| replace:: *Cell*
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.. |Rings| replace:: *Rings*
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.. |QuadTrees| replace:: *QuadTrees*
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.. |Collections| replace:: *Collections*
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.. |ap| replace:: :cb:`ap`
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.. |vst| replace:: :cb:`vst`
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.. |kgr| replace:: :cb:`kgr`
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.. |dot_conf| replace:: :cb:`.conf`
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|medskip|
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=====================
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Coriolis User's Guide
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=====================
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|medskip|
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.. raw:: html
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<div id="centered">
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The pdf version of this document is available here:<br>
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<a href="https://www-soc.lip6.fr/sesi-docs/coriolis2-docs/coriolis2/en/latex/users-guide/UsersGuide.pdf">Coriolis User's Guide</a>
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</div>
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.. contents::
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|newpage|
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Credits & License
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=================
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.. raw:: html
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<p class="credit"><span class="left"><span class="sc">Hurricane</span></span>
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<span class="right">Rémy <span class="sc">Escassut</span> &
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Christian <span class="sc">Masson</span></span></p>
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<br>
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<p class="credit"><span class="left"><span class="sc">Mauka</span></span>
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<span class="right">Christophe <span class="sc">Alexandre</span></span></p>
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<br>
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<p class="credit"><span class="left"><span class="sc">Stratus</span></span>
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<span class="right">Sophie <span class="sc">Belloeil</span></span></p>
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<br>
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<p class="credit"><span class="left"><span class="sc">Knik</span></span>
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<span class="right">Damien <span class="sc">Dupuis</span></span></p>
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<br>
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<p class="credit"><span class="left"><span class="sc">Kite</span>,
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<span class="sc">Unicorn</span></span></span>
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<span class="right">Jean-Paul <span class="sc">Chaput</span></span></p>
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<br>
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.. raw:: latex
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\begin{center}\begin{minipage}[t]{.8\textwidth}
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\noindent\DUrole{sc}{Hurricane} \dotfill Rémy \DUrole{sc}{Escassut} \&
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Christian \DUrole{Masson} \\
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\noindent\DUrole{sc}{Mauka} \dotfill Christophe \DUrole{sc}{Alexandre} \\
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\noindent\DUrole{sc}{Stratus} \dotfill Sophie \DUrole{sc}{Belloeil} \\
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\noindent\DUrole{sc}{Knik} \dotfill Damien \DUrole{sc}{Dupuis} \\
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\noindent\DUrole{sc}{Kite},
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\DUrole{sc}{Unicorn} \dotfill Jean-Paul \DUrole{sc}{Chaput} \\
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\end{minipage}\end{center}
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|medskip|
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The |Hurricane| data-base is copyright© |Bull| 2000-2014 and is
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released under the terms of the |LGPL| license. All other tools are
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copyright© |UPMC| 2008-2014 and released under the |GPL|
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license.
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The |Knik| router makes use of the |Flute| software, which is
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copyright© Chris C. N. |Chu| from the Iowa State University
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(http://home.eng.iastate.edu/~cnchu/).
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|newpage|
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Release Notes
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=============
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Release 1.0.1475
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~~~~~~~~~~~~~~~~
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This is the first preliminary release of the |Coriolis2| framework.
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This release mainly ships the global router |Knik| and the detailed router
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|Kite|. Together they aim to replace the |Alliance| |Nero| router.
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Unlike |Nero|, |Kite| is based on an innovating routing modeling and ad-hoc
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algorithm. Although it is released under |GPL| license, the source code
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will be avalaible later.
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|medskip|
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|noindent| Contents of this release:
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1. A graphical user interface (viewer only).
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2. The |Knik| global router.
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3. The |Kite| detailed router.
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|noindent| Supported input/output formats:
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* |Alliance| |vst| (netlist) & |ap| (physical) formats.
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* Even if there are some references to the |Cadence| |LEFDEF| format, its
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support is not included because it depends on a library only available
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to |Si2| affiliated members.
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Release 1.0.1963
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~~~~~~~~~~~~~~~~
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Release 1963 is alpha. All the tools from |Coriolis1| have been ported into
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this release.
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|noindent| Contents of this release:
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#. The |Stratus| netlist capture language (|GenLib| replacement).
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#. The |Mauka| placer (still contains bugs).
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#. A graphical user interface (viewer only).
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#. The |Knik| global router.
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#. The |Kite| detailed router.
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#. Partially implemented python support for configuration files
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(alternative to |XML|).
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#. A documentation (imcomplete/obsoleted in |Hurricane|'s case).
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Release 1.0.2049
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~~~~~~~~~~~~~~~~
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Release `2049` is Alpha.
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|noindent| Changes of this release:
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#. The |Hurricane| documentation is now accurate. Documentation
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for the Cell viewer and |CRLcore| has been added.
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#. More extensive Python support for all the components of
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|Coriolis|.
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#. Configuration is now completly migrated under Python.
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|XML| loaders can still be useds for compatibilty.
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#. The |cgt| main has been rewritten in Python.
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Release **v2.0.1**
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~~~~~~~~~~~~~~~~~~
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#. Migrated the repository from |svn| to |git|, and release complete sources.
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As a consequence, we drop the distribution packaging support and give
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public read-only access to the repository.
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#. Deep rewrite of the |Katabatic| database and |Kite| detailed router,
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achieve a speedup factor greater than 20...
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|newpage|
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Installation
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============
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.. note::
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As the sources are being released, the binary packaging is dropped.
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You still may find older version here: http://asim.lip6.fr/pub/coriolis/2.0 .
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In a nutshell, building source consist in pulling the |git| repository then
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running the |ccb| installer.
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Main building prerequisites:
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* cmake
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* g++
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* boost
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* libxml2
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* yacc & lex.
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* Qt 4
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* LEF/DEF (optional).
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* hMetis (optional).
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* doxygen.
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* latex
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* latex2html.
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* python-docutils (for reStructuredText).
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Fixed Directory Tree
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~~~~~~~~~~~~~~~~~~~~
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In order to simplificate the work of the |ccb| installer, the source, build
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and installation tree is fixed. To successfully compile |Coriolis| you must
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follow it exactly. The tree is relative to the home directory of the user
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building it (noted :fboxtt:`~/` or :fboxtt:`$HOME/`). Only the source
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directory needs to be manually created by the user, all others will be
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automatically created either by |ccb| or the build system.
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+--------------------------+-----------------------------------------------------------------------------+
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| **Sources** |
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+--------------------------+-----------------------------------------------------------------------------+
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| | Sources root | | ~/coriolis-2.x/src |
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| | **under git** | | ~/coriolis-2.x/src/coriolis |
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+--------------------------+-----------------------------------------------------------------------------+
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| **Architecture Dependant Build** |
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+--------------------------+-----------------------------------------------------------------------------+
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| | Linux, SL 6, 32 bits | | ~/coriolis-2.x/Linux.slsoc6x/Release.Shared/build/<tool> |
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| | Linux, SL 6, 64 bits | | ~/coriolis-2.x/Linux.slsoc6x_64/Release.Shared/build/<tool> |
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| | FreeBSD 8, 32 bits | | ~/coriolis-2.x/FreeBSD.8x.i386/Release.Shared/build/<tool> |
|
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| | FreeBSD 8, 64 bits | | ~/coriolis-2.x/FreeBSD.8x.amd64/Release.Shared/build/<tool> |
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+--------------------------+-----------------------------------------------------------------------------+
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| **Architecture Dependant Install** |
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+--------------------------+-----------------------------------------------------------------------------+
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| Linux, SL 6, 32 bits | ~/coriolis-2.x/Linux.slsoc6x/Release.Shared/install/ |
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+--------------------------+-----------------------------------------------------------------------------+
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| **FHS Compliant Structure under Install** |
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+--------------------------+-----------------------------------------------------------------------------+
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| | Binaries | | .../install/bin |
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| | Libraries (Python) | | .../install/lib |
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| | Include by tool | | .../install/include/coriolis2/<project>/<tool> |
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| | Configuration files | | .../install/etc/coriolis2/ |
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| | Doc, by tool | | .../install/share/doc/coriolis2/en/html/<tool> |
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+--------------------------+-----------------------------------------------------------------------------+
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.. note:: *Alternate build types:* the ``Release.Shared`` means an optimized build
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with shared libraries. But there are also available ``Static`` instead of ``Shared``
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and ``Debug`` instead of ``Release`` and any combination of them.
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``Static`` do not work because I don't know yet to mix statically linked binaries
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and Python modules (which must be dynamic).
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Building Coriolis
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~~~~~~~~~~~~~~~~~
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The first step is to create the source directory and pull the |git| repository: ::
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dummy@lepka:~$ mkdir -p ~/coriolis-2.x/src
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dummy@lepka:~$ cd ~/coriolis-2.x/src
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dummy@lepka:~$ git clone https://www-soc.lip6.fr/git/coriolis.git
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dummy@lepka:~$ cd coriolis
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Second and final step, build & install: ::
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dummy@lepka:src$ ./bootstrap/ccp.py --project=coriolis --make="-j4 install"
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dummy@lepka:src$ ./bootstrap/ccb.py --project=coriolis --doc --make="-j1 install"
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We need two steps because the documentation do not support to be generated with
|
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a parallel build. So we compile & install in a first step in ``-j4`` (or whatever)
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then we generate the documentation in ``-j1``
|
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|
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The complete list of |ccb| functionalities can be accessed with the ``--help`` argument.
|
|
It also may be run in graphical mode (``--gui``).
|
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|
|
|
|
Additionnal Requirement under |MacOS|
|
|
-------------------------------------
|
|
|
|
|Coriolis| make uses of the :cb:`boost::python` module, but the |macports| |boost|
|
|
seems unable to work with the |Python| bundled with |MacOS|. So you have to install
|
|
both of them from |macports|: ::
|
|
|
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dummy@macos:~$ port install boost +python27
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dummy@macos:~$ port select python python27
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|
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Then proceed with the generic install instructions.
|
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|
|
|
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Packaging Coriolis
|
|
~~~~~~~~~~~~~~~~~~
|
|
|
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Packager should not uses |ccb|, instead ``bootstrap/Makefile.package`` is provided
|
|
to emulate a top-level ``autotool`` makefile. Just copy it in the root of the
|
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|Coriolis| git repository (``~/corriolis-2.x/src/coriolis/``) and build.
|
|
|
|
Sligthly outaded packaging configuration files can also be found under ``bootstrap/``:
|
|
|
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* ``bootstrap/coriolis2.spec.in`` for |rpm| based distributions.
|
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* ``bootstrap/debian`` for |Debian| based distributions.
|
|
|
|
|
|
Hooking up into |Alliance|
|
|
~~~~~~~~~~~~~~~~~~~~~~~~~~
|
|
|
|
|Coriolis| relies on |Alliance| for the cell libraries. So after installing or
|
|
packaging, you must configure it so that it can found those libraries.
|
|
|
|
This is done by editing the one variable :cb:`cellsTop` in the |Alliance| helper
|
|
(see `Alliance Helper`_). This variable must point to the directory of the
|
|
cells libraries. In a typical installation, this is generally
|
|
:cb:`/usr/share/alliance/cells`.
|
|
|
|
|
|
Environment Helper
|
|
~~~~~~~~~~~~~~~~~~
|
|
|
|
To simplify the tedious task of configuring your environment, a helper is provided
|
|
in the ``bootstrap`` source directory: ::
|
|
|
|
~/coriolis-2.x/src/bootstrap/coriolisEnv.py
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|
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Use it like this: ::
|
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|
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dummy@lepka:~> eval `~/coriolis-2.x/src/bootstrap/coriolisEnv.py`
|
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|
|
|
|
|newpage|
|
|
|
|
|
|
Documentation
|
|
=============
|
|
|
|
The general index of the documentation for the various parts of Coriolis
|
|
are avalaibles here `Coriolis Tools Documentation`_.
|
|
|
|
.. note:: **Python Documentation:**
|
|
Most of the documentation is related to the C++ API and implemetation of
|
|
the tools. However, the |Python| bindings have been created so they
|
|
mimic *as closely as possible* the C++ interface, so the documentation
|
|
applies to both languages with only minor syntactic changes.
|
|
|
|
**General Software Architecture**
|
|
|
|
|Coriolis| has been build with respect of the classical paradigm that the
|
|
computational instensive parts have been written in C++, and almost
|
|
everything else in |Python|. To build the |Python| interface we used
|
|
two methods:
|
|
|
|
* For self-contained modules :cb:`boost::python` (mainly in :cb:`vlsisapd`).
|
|
* For all modules based on |Hurricane|, we created our own wrappers due
|
|
to very specific requirements such as shared functions between modules
|
|
or C++/|Python| secure bi-directional object deletion.
|
|
|
|
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Coriolis Configuration & Initialisation
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=======================================
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All configuration & initialization files are Python scripts, despite their
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|dot_conf| extention. From a syntactic point of view, there is no difference
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between the system-wide configuration files and the user's configuration,
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they may use the same Python helpers.
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|medskip|
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Configuration is done in two stages:
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#. Selecting the symbolic technology.
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#. Loading the complete configuration for the given technology.
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First Stage: Symbolic Technology Selection
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~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
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|noindent|
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The initialization process is done by executing, in order, the following
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file(s):
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+-------+----------------------------------+----------------------------------------------+
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| Order | Meaning | File |
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+=======+==================================+==============================================+
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| **1** | The system setting | :cb:`/etc/coriolis2/coriolis2_techno.conf` |
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+-------+----------------------------------+----------------------------------------------+
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| **2** | The user's global setting | :cb:`${HOME}/.coriolis2_techno.conf` |
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+-------+----------------------------------+----------------------------------------------+
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| **3** | The user's local setting | :cb:`<CWD>/.coriolis2_techno.conf` |
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+-------+----------------------------------+----------------------------------------------+
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Thoses files must provides only two variables, the name of the symbolic technology
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and the one of the real technology. For example: ::
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# -*- Mode:Python -*-
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symbolicTechno = 'cmos'
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realTechno = 'hcmos9'
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Second Stage: Technology Configuration Loading
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~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
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|noindent|
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The :cb:`TECHNO` variable is set by the first stage and it's the name of the
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symbolic technology. A directory of that name, with all the configuration files,
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must exists in the configuration directory. In addition to the technology-specific
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directories, a :cb:`common/` directory is there to provides a trunk for all the
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identical datas across the various technologies. The initialization process is done
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by executing, in order, the following file(s):
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+-------+----------------------------------+----------------------------------------------+
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| Order | Meaning | File |
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+=======+==================================+==============================================+
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| **1** | The system initialization | :cb:`/etc/coriolis2/<TECHNO>/<TOOL>.conf` |
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+-------+----------------------------------+----------------------------------------------+
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| **2** | The user's global initialization | :cb:`${HOME}/.coriolis2.conf` |
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+-------+----------------------------------+----------------------------------------------+
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| **3** | The user's local initialization | :cb:`<CWD>/.coriolis2.conf` |
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+-------+----------------------------------+----------------------------------------------+
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.. note:: *The loading policy is not hard-coded.* It is implemented
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at Python level in :cb:`/etc/coriolis2/coriolisInit.py`, and thus may be easyly be
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amended to whatever site policy.
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The truly mandatory requirement is the existence of :cb:`coriolisInit.py`
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which *must* contain a :cb:`coriolisConfigure()` function with no argument.
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Configuration Helpers
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~~~~~~~~~~~~~~~~~~~~~
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To ease the writing of configuration files, a set of small helpers
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is available. They allow to setup the configuration parameters through
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simple assembly of tuples. The helpers are installed under the directory: ::
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<install>/etc/coriolis2/
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Where :cb:`<install>/` is the root of the installation.
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.. _Alliance Helper:
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|Alliance| Helper
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-----------------
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The configuration file must provide a :cb:`allianceConfig` tuple of
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the form: ::
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cellsTop = '/usr/share/alliance/cells/'
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allianceConfig = \
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( ( 'SYMBOLIC_TECHNOLOGY', helpers.sysConfDir+'/technology.symbolic.xml' )
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, ( 'REAL_TECHNOLOGY' , helpers.sysConfDir+'/technology.cmos130.s2r.xml')
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, ( 'DISPLAY' , helpers.sysConfDir+'/display.xml' )
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, ( 'CATALOG' , 'CATAL')
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, ( 'WORKING_LIBRARY' , '.')
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, ( 'SYSTEM_LIBRARY' , ( (cellsTop+'sxlib' , Environment.Append)
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, (cellsTop+'dp_sxlib', Environment.Append)
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, (cellsTop+'ramlib' , Environment.Append)
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, (cellsTop+'romlib' , Environment.Append)
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, (cellsTop+'rflib' , Environment.Append)
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, (cellsTop+'rf2lib' , Environment.Append)
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, (cellsTop+'pxlib' , Environment.Append) ) )
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, ( 'SCALE_X' , 100)
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, ( 'IN_LO' , 'vst')
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, ( 'IN_PH' , 'ap')
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, ( 'OUT_LO' , 'vst')
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, ( 'OUT_PH' , 'ap')
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, ( 'POWER' , 'vdd')
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, ( 'GROUND' , 'vss')
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, ( 'CLOCK' , '^ck.*')
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, ( 'BLOCKAGE' , '^blockageNet*')
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)
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|noindent| The example above shows the system configuration file, with all the
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available settings. Some important remarks about thoses settings:
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* In it's configuration file, the user do not need to redefine all the settings,
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just the one he wants to change. In most of the cases, the ``SYSTEM_LIBRARY``,
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the ``WORKING_LIBRARY`` and the special net names (at this point there is not
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much alternatives for the others settings).
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* ``SYSTEM_LIBRARY`` setting: Setting up the library search path.
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Each library entry in the tuple will be added to the search path according
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to the second parameter:
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* :cb:`Environment::Append`: append to the search path.
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* :cb:`Environment::Prepend`: insert in head of the search path.
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* :cb:`Environment::Replace`: look for a library of the same name and replace
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it, whithout changing the search path order. If no library of that name
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already exists, it is appended.
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A library is identified by it's name, this name is the last component of the
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path name. For instance: ``/soc/alliance/sxlib`` will be named ``sxlib``.
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Implementing the |Alliance| specification, when looking for a |Cell| ``name``,
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the system will browse sequentially trought the library list and returns
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the first |Cell| whose name match.
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* For ``POWER``, ``GROUND``, ``CLOCK`` and ``BLOCKAGE`` net names, a regular
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expression (|GNU| regexp) is expected.
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* The ``helpers.sysConfDir`` variable is supplied by the helpers, it is the
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directory in which the system-wide configuration files are locateds.
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For a standard installation it would be: ``/soc/coriolis2``.
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* Trick and naming convention about ``SYMBOLIC_TECHNOLOGY``, ``REAL_TECHNOLOGY``
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and ``DISPLAY``. In the previous releases, thoses files where to read by
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|XML| parsers, and still do if you triggers the |XML| compatibility mode.
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But now, they have Python conterparts. In the configuration files, you
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still have to name them as |XML| files, the Python file name will be
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deduced from this one with thoses two translation rules:
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#. In the filename, all dots, except for the last (the file extention),
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are replaced by underscores.
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#. The ``.xml`` extention is substituted by a ``.conf``.
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For the symbolic technology, it would give: ::
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/soc/coriolis2/technology.symbolic.xml
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--> /soc/coriolis2/technology_symbolic.conf
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A typical user's configuration file would be: ::
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import os
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homeDir = os.getenv('HOME')
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allianceConfig = \
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( ('WORKING_LIBRARY' , homeDir+'/worklib')
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, ('SYSTEM_LIBRARY' , ( (homeDir+'/mylib', Environment.Append) ) )
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, ('POWER' , 'vdd.*')
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, ('GROUND' , 'vss.*')
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)
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Tools Configuration Helpers
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---------------------------
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All the tools uses the same helper to load their configuration (a.k.a.
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*Configuration Helper*). Currently the following configuration system-wide
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configuration files are defined:
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* :cb:`misc.conf`: commons settings or not belonging specifically to a tool.
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* :cb:`nimbus.conf`: for the |Nimbus| tool.
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* :cb:`hMetis.conf`: for the |hMetis| wrapper.
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* :cb:`mauka.conf`: for the |Mauka| tool.
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* :cb:`kite.conf`: for the |Kite| tool.
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* :cb:`stratus1.conf`: for the |stratus1| tool.
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Here is the contents of :cb:`mauka.conf`: ::
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# Mauka parameters.
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parametersTable = \
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( ('mauka.annealingBinMult' , TypePercentage, 5 )
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, ('mauka.annealingNetMult' , TypePercentage, 90 )
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, ('mauka.annealingRowMult' , TypePercentage, 5 )
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, ('mauka.ignorePins' , TypeBool , False )
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, ('mauka.insertFeeds' , TypeBool , True )
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, ('mauka.plotBins' , TypeBool , True )
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, ('mauka.searchRatio' , TypePercentage, 50 )
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, ('mauka.standardAnnealing', TypeBool , False )
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)
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layoutTable = \
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( (TypeTab , 'Mauka', 'mauka')
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# Mauka part.
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, (TypeOption, "mauka.standardAnnealing", "Standart Annealing" , 0 )
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, (TypeOption, "mauka.ignorePins" , "Ignore Pins" , 0 )
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, (TypeOption, "mauka.plotBins" , "Plot Bins" , 0 )
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, (TypeOption, "mauka.insertFeeds" , "Insert Feeds" , 0 )
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, (TypeOption, "mauka.searchRatio" , "Search Ratio (%)" , 1 )
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, (TypeOption, "mauka.annealingNetMult" , "Annealing Net Mult (%)", 1 )
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, (TypeOption, "mauka.annealingBinMult" , "Annealing Bin Mult (%)", 1 )
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, (TypeOption, "mauka.annealingRowMult" , "Annealing Row Mult (%)", 1 )
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, (TypeRule ,)
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)
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Taxonomy of the file:
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* It must contains, at least, the two tables:
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* ``parametersTable``, defines & initialise the configuration variables.
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* ``layoutTables``, defines how the various parameters will be displayed
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in the configuration window (`The Settings Tab`_).
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* The ``parametersTable``, is a tuple (list) of tuples. Each entry in the list
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describe a configuration parameter. In it's simplest form, it's a quadruplet
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:cb:`(TypeOption, 'paramId', ParameterType, DefaultValue)` with:
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#. ``TypeOption``, tells that this tuple describe a parameter.
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#. ``paramId``, the identifier of the parameter. Identifiers are defined
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by the tools. The list of parameters is detailed in each tool section.
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#. ``ParameterType``, the kind of parameter. Could be:
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* ``TypeBool``, boolean.
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* ``TypeInt``, signed integer.
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* ``TypeEnumerate``, enumerated type, needs extra entry.
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* ``TypePercentage``, percentage, expressed between 0 and 100.
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* ``TypeDouble``, float.
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* ``TypeString``, character string.
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#. ``DefaultValue``, the default value for that parameter.
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CGT - The Graphical Interface
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=============================
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The |Coriolis| graphical interface is split up into two windows.
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* The **Viewer**, with the following features:
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* Basic load/save capabilities.
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* Display the current working cell. Could be empty if the design
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is not yet placed.
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* Execute Stratus Scripts.
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* Menu to run the tools (placement, routage).
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Features are detailed in `Viewer & Tools`_.
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|ViewerSnapShot_1|
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* The **Controller**, which allows:
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* Tweak what is displayer by the *Viewer*. Through the *Look*,
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*Filter* and *Layers&Gos* tabs.
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* Browse the |netlist| with eponym tab.
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* Show the list of selected objects (if any) with *selection*
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* Walk through the Database, the Cell or the Selection with *Inspector*.
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This is an advanced feature, reserved for experimented users.
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* The tab *Settings* which give access to all the settings.
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They are closely related to Configuration & Initialisation.
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|ControllerSnapShot_1|
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.. _Viewer & Tools:
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Viewer & Tools
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==============
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|Stratus| Netlist Capture
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~~~~~~~~~~~~~~~~~~~~~~~~~
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|Stratus| is the replacement for |GenLib| procedural netlist capture language.
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It is designed as a set of |Python| classes, and comes with it's own documentation
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(`Stratus Documentation`_)
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The |Hurricane| Data-Base
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~~~~~~~~~~~~~~~~~~~~~~~~~
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The |Alliance| flow is based on the |MBK| data-base, which has one data-structure
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for each view. That is, |LOFIG| for the *logical* view and |PHFIG| for the *physical*
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view. The place and route tools were responsible for maintaining (or not) the
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coherency between views. Reflecting this weak coupling between views, each one
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was stored in a separate file with a specific format. The *logical* view is stored
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in a |vst| file in |VHDL| format and the *physical* in an |ap| file in an ad-hoc format.
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The |Coriolis| flow is based on the |Hurricane| data-base, which has a unified
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structure for *logical* and *physical* view. That data structure is the |Cell| object.
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The |Cell| can have any state between pure netlist and completly placed and
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routed design. Although the memory representation of the views has deeply
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changed we still use the |Alliance| files format, but they now really represent
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views of the same object. The point is that one must be very careful about
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view coherency when going to and from |Coriolis|.
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As for the first release, |Coriolis| can be used only for two purposes :
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* **Routing a design**, in that case the |netlist|
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view and the |layout| view must be present and |layout| view must contain
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a placement. Both views must have the same name. When saving the routed design,
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it is advised to change the design name otherwise the original unrouted placement
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in the |layout| view will be overwritten.
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* **Viewing a design**, the |netlist| view must be present, if a |layout|
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view is present it still must have the same name but it can be in any
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state.
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Mauka -- Placer
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~~~~~~~~~~~~~~~
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|Mauka| was originally designed to be a recursive quadri-partionner. Unfortunatly
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it is was based on the hMETIS_ library (*not* :sc:`METIS`) which is no longer
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maintained (only an old binary 32 bits version is available).
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So now it is only working in simulated annealing, with performances identical to
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the |Alliance| placer :cb:`ocp`. In other words, it is slow...
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.. note:: *Instance Duplication Problem:* a same logical instance cannot have
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two different placements. So, either you manually make a clone of it or you
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supply a placement for it. This is currently a drawback of our *folded hierarchy*
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approach.
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**Reseting the Placement**
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Once a placement has been done, the placer cannot reset it (will be implemented
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later). To perform a new placement, you must restart |cgt|. In addition, if you
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have saved the placement on disk, you must erase any :cb:`.ap` file, which are
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automatically reloaded along with the netlist (:cb:`.vst`).
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Knik -- Global Router
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~~~~~~~~~~~~~~~~~~~~~
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The quality of |Knik| global routing solutions are equivalent to those of FGR_ 1.0.
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For an in-depth description of |Knik| algorithms, you may download the thesis of
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D. |Dupuis| avalaible from here~: `Knik Thesis`_.
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The global router is (not yet) deterministic. To circumvent this limitation,
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a global routing *solution* can be saved to disk and reloaded for later uses.
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A global routing is saved into a file with the same name as the design and a
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|kgr| extention. It is in `Box Router`_ output format.
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|noindent| Menus:
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* |menu_P&R| |rightarrow| |menu_StepByStep| |rightarrow| |menu_KiteSaveGlobalRouting|.
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* |menu_P&R| |rightarrow| |menu_StepByStep| |rightarrow| |menu_KiteLoadGlobalRouting|.
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Kite -- Detailed Router
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~~~~~~~~~~~~~~~~~~~~~~~
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|Kite| no longer suffers from the limitations of |Nero|. It can route big designs
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as its runtime and memory footprint is almost linear (with respect to the number
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of gates). It has successfully routed design of more than `150K` gates.
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|medskip|
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|noindent| However, this first release comes with the temporary the following
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restrictions:
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* Works only with |SxLib| standard cell gauge.
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* Works always with 4 routing metal layers (`M2` through `M5`).
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* Do not allow (take into account) pre-routed wires on signals
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other than |POWER| or |GROUND|.
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.. note::
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**Slow Layer Assignment.** Most of the time, the layer assignment stage is
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fast (less than a dozen seconds), but in some instances it can take more
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than a dozen *minutes*. This is a known bug and will be corrected in later
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releases.
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After each run, |Kite| displays a set of *completion ratios* which must all
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be equal to `100%` if the detailed routing has been successfull.
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In the event of a failure, on a saturated design, you may decrease the
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`edge saturation ratio` (argument `--edge`) to balance more evenly the design
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saturation. That is, the maximum saturation decrease at the price of a wider
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saturated area and increased wirelength. This is the saturation of the
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*global* router |Knik|, and you may increase/decrease by steps of ``5%``,
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which represent one track. The maximum capacity of the |SxLib| gauge is
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10 tracks in two layers, that makes 20 tracks by |Knik| edge.
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|newpage|
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Routing a design is done in three ordered steps:
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#. Global routing |menu_P&R| |rightarrow| |menu_StepByStep| |rightarrow| |menu_KiteGlobalRoute|.
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#. Detailed routing |menu_P&R| |rightarrow| |menu_StepByStep| |rightarrow| |menu_KiteDetailedRoute|.
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#. Finalize routing |menu_P&R| |rightarrow| |menu_StepByStep| |rightarrow| |menu_KiteFinalizeRoute|.
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After the detailed routing step the |Kite| data-structure is still active.
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The wiring is thus represented in a way that allows |Kite| to manage it but
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which is not completly finished. The finalize step performs the removal of
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the |Kite| data-structure and finish/cleanup the wiring so that its
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connex in the sense of |Hurricane|. *Do not* try to save
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your design before that step, you would get gaps in it.
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You may visualize the density (saturation) of either |Knik| (on edges) or
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|Kite| (on GCells) until the routing is finalized. Special layers appears
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to that effect in the `The Layers&Go Tab`_.
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Kite Configuration Parameters
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-----------------------------
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As |Knik| is only called through |Kite|, it's parameters also have
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the :cb:`kite.` prefix.
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The |Katabatic| parameters control the layer assignment step.
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+-----------------------------------+------------------+----------------------------+
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| Parameter Identifier | Type | Default |
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+===================================+==================+============================+
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| **Katabatic Parameters** |
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+-----------------------------------+------------------+----------------------------+
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|``katabatic.globalLengthThreshold``| TypeInt | :cb:`1450` |
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| +------------------+----------------------------+
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| | This parameter is used by a layer assignment |
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| | method which is no longer used (did not give |
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| | good results) |
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+-----------------------------------+------------------+----------------------------+
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| ``katabatic.saturateRatio`` | TypePercentage | :cb:`80` |
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| +------------------+----------------------------+
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| | If ``M(x)`` density is above this ratio, |
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| | move up feedthru global segments up from |
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| | depth ``x`` to ``x+2`` |
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+-----------------------------------+------------------+----------------------------+
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| ``katabatic.saturateRp`` | TypeInt | :cb:`8` |
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| +------------------+----------------------------+
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| | If a GCell contains more terminals |
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| | (:cb:`RoutingPad`) than that number, force a |
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| | move up of the connecting segments to those |
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| | in excess |
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+-----------------------------------+------------------+----------------------------+
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| **Knik Parameters** |
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+-----------------------------------+------------------+----------------------------+
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| ``kite.edgeCapacity`` | TypePercentage | :cb:`85` |
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| +------------------+----------------------------+
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| | Adjust the maximum capacity of the global |
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| | router's edges. The GCells would be too |
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| | saturated for the detailed router if the edge |
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| | capacity is left to 100%. |
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+-----------------------------------+------------------+----------------------------+
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| **Kite Parameters** |
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+-----------------------------------+------------------+----------------------------+
|
|
| ``kite.eventsLimit`` | TypeInt | :cb:`4000002` |
|
|
| +------------------+----------------------------+
|
|
| | The maximum number of segment displacements, |
|
|
| | this is a last ditch safety against infinite |
|
|
| | loop. It's perhaps a little too low for big |
|
|
| | designs |
|
|
+-----------------------------------+------------------+----------------------------+
|
|
| ``kite.ripupCost`` | TypeInt | :cb:`3` |
|
|
| +------------------+----------------------------+
|
|
| | Differential introduced between two ripup |
|
|
| | cost to avoid a loop between two ripped up |
|
|
| | segments |
|
|
+-----------------------------------+------------------+----------------------------+
|
|
| ``kite.strapRipupLimit`` | TypeInt | :cb:`16` |
|
|
| +------------------+----------------------------+
|
|
| | Maximum number of ripup for *strap* segments |
|
|
+-----------------------------------+------------------+----------------------------+
|
|
| ``kite.localRipupLimit`` | TypeInt | :cb:`9` |
|
|
| +------------------+----------------------------+
|
|
| | Maximum number of ripup for *local* segments |
|
|
+-----------------------------------+------------------+----------------------------+
|
|
| ``kite.globalRipupLimit`` | TypeInt | :cb:`5` |
|
|
| +------------------+----------------------------+
|
|
| | Maximum number of ripup for *global* segments,|
|
|
| | when this limit is reached, triggers topologic|
|
|
| | modification |
|
|
+-----------------------------------+------------------+----------------------------+
|
|
| ``kite.longGlobalRipupLimit`` | TypeInt | :cb:`5` |
|
|
| +------------------+----------------------------+
|
|
| | Maximum number of ripup for *long global* |
|
|
| | segments, when this limit is reached, triggers|
|
|
| | topological modification |
|
|
+-----------------------------------+------------------+----------------------------+
|
|
|
|
|
|
|
|
.. _Python Scripts in Cgt:
|
|
|
|
Executing Python Scripts in Cgt
|
|
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
|
|
|
|
Python/Stratus scripts can be executed either in text or graphical mode.
|
|
|
|
.. note:: **How Cgt Locates Python Scripts:**
|
|
|cgt| uses the Python ``import`` mechanism to load Python scripts.
|
|
So you must give the name of your script whitout ``.py`` extention and
|
|
it must be reachable through the ``PYTHONPATH``. You may uses the
|
|
dotted module notation.
|
|
|
|
A Python/Stratus script must contains a function called ``StratusScript``
|
|
with one optional argument, the graphical editor into which it may be
|
|
running (will be set to ``None`` in text mode).
|
|
|
|
Asides for this requirement, the python script can contains anything valid
|
|
in |Python|, so don't hesitate to use any package or extention.
|
|
|
|
Any script given on the command line will be run immediatly *after* the
|
|
initializations and *before* any other argument is processed.
|
|
|
|
Small example of Python/Stratus script: ::
|
|
|
|
from status import *
|
|
|
|
def doSomething ():
|
|
# ...
|
|
return
|
|
|
|
def StratusScript ( editor=None ):
|
|
if globals().has_key ( "__editor" ): editor = __editor
|
|
if editor: setEditor ( editor )
|
|
|
|
doSomething()
|
|
return
|
|
|
|
if __name__ == "__main__" :
|
|
StratusScript ()
|
|
|
|
This script could be run directly with Python (thanks to the two last lines)
|
|
or through |cgt| in both text and graphical modes.
|
|
|
|
|
|
Printing & Snapshots
|
|
~~~~~~~~~~~~~~~~~~~~
|
|
|
|
Printing or saving into a |pdf| is fairly simple, just uses the **File -> Print**
|
|
menu or the |Key_CTRL| |Plus| |Key_p| shortcut to open the dialog box.
|
|
|
|
The print functionality uses exactly the same rendering mechanism as for the
|
|
screen, beeing almost *WYSIWYG*. Thus, to obtain the best results it is advisable
|
|
to select the ``Coriolis.Printer`` look (in the *Controller*), which uses a
|
|
white background and much suited for high resolutions ``32x32`` pixels patterns
|
|
|
|
There is also two mode of printing selectable through the *Controller*
|
|
**Settings -> Misc -> Printer/Snapshot Mode**:
|
|
|
|
=============== ================= =====================================================
|
|
Mode DPI (approx.) Intended Usage
|
|
--------------- ----------------- -----------------------------------------------------
|
|
**Cell Mode** 150 For single ``Cell`` printing or very small designs.
|
|
Patterns will be bigger and more readable.
|
|
**Design Mode** 300 For designs (mostly commposed of wires and cells
|
|
outlines).
|
|
=============== ================= =====================================================
|
|
|
|
.. note:: *The pdf file size*
|
|
Be aware that the generated |pdf| files are indeed only pixmaps.
|
|
So they can grew very large if you select paper format above ``A2``
|
|
or similar.
|
|
|
|
|
|
|noindent|
|
|
Saving into an image is subject to the same remarks as for |pdf|.
|
|
|
|
|
|
Memento of Shortcuts in Graphic Mode
|
|
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
|
|
|
|
The main application binary is |cgt|.
|
|
|
|
+---------------+-------------------+-----------------------------------------------------------+
|
|
| Category | Keys | Action |
|
|
+===============+===================+===========================================================+
|
|
| **Moves** | | |Key_Up|, | Shift the view in the according direction |
|
|
| | |Key_Down| | |
|
|
| | | |Key_Left|, | |
|
|
| | |Key_Right| | |
|
|
+---------------+-------------------+-----------------------------------------------------------+
|
|
| **Fit** | |Key_f| | Fit to the Cell abutment box |
|
|
+---------------+-------------------+-----------------------------------------------------------+
|
|
| **Refresh** | |Key_CTRL| | Triggers a complete display redraw |
|
|
| | |Plus| |Key_l| | |
|
|
+---------------+-------------------+-----------------------------------------------------------+
|
|
| **Goto** | |Key_g| | *apperture* is the minimum side of the area |
|
|
| | | displayed around the point to go to. It's an |
|
|
| | | alternative way of setting the zoom level |
|
|
+---------------+-------------------+-----------------------------------------------------------+
|
|
| **Zoom** | |Key_z|, | Respectively zoom by a 2 factor and *unzoom* |
|
|
| | |Key_m| | by a 2 factor |
|
|
| +-------------------+-----------------------------------------------------------+
|
|
| | | |BigMouse| | You can perform a zoom to an area. |
|
|
| | | Area Zoom | Define the zoom area by *holding down the left |
|
|
| | | mouse button* while moving the mouse. |
|
|
+---------------+-------------------+-----------------------------------------------------------+
|
|
| **Selection** | | |BigMouse| | You can select displayed objects under an area. |
|
|
| | | Area Selection | Define the selection area by *holding down the |
|
|
| | | right mouse button* while moving the mouse. |
|
|
| +-------------------+-----------------------------------------------------------+
|
|
| | | |BigMouse| | You can toggle the selection of one object under |
|
|
| | | Toggle Selection| the mouse position by pressing |key_CTRL| and |
|
|
| | | pressing down *the right mouse button*. A popup |
|
|
| | | list of what's under the position shows up into |
|
|
| | | which you can toggle the selection state of one |
|
|
| | | item. |
|
|
| +-------------------+-----------------------------------------------------------+
|
|
| | |Key_S| | Toggle the selection visibility |
|
|
+---------------+-------------------+-----------------------------------------------------------+
|
|
| **Controller**| |Key_CTRL| | Show/hide the controller window. |
|
|
| | |Plus| |Key_i| | |
|
|
| | | |
|
|
| | | It's the Swiss Army Knife of the viewer. |
|
|
| | | From it, you can fine-control the display and |
|
|
| | | inspect almost everything in your design. |
|
|
+---------------+-------------------+-----------------------------------------------------------+
|
|
| **Rulers** | |Key_k|, | One stroke on |Key_k| enters the ruler mode, in |
|
|
| | |Key_ESC| | which you can draw one ruler. You can exit the |
|
|
| | | ruler mode by pressing |Key_ESC|. Once in ruler |
|
|
| | | mode, the first click on the *left mouse button* |
|
|
| | | sets the ruler's starting point and the second |
|
|
| | | click the ruler's end point. The second click |
|
|
| | | exits automatically the ruler mode. |
|
|
| +-------------------+-----------------------------------------------------------+
|
|
| | |Key_K| | Clears all the drawn rulers |
|
|
+---------------+-------------------+-----------------------------------------------------------+
|
|
| **Print** | |Key_CTRL| | Currently rather crude. It's a direct copy of |
|
|
| | |Plus| |Key_p| | what's displayed in pixels. So the resulting |
|
|
| | | picture will be a little blurred due to |
|
|
| | | anti-aliasing mechanism. |
|
|
+---------------+-------------------+-----------------------------------------------------------+
|
|
| **Open/Close**| |Key_CTRL| | Opens a new design. The design name must be |
|
|
| | |Plus| |Key_o| | given without path or extention. |
|
|
| +-------------------+-----------------------------------------------------------+
|
|
| | |Key_CTRL| | Close the current viewer window, but do not quit |
|
|
| | |Plus| |Key_w| | the application. |
|
|
| +-------------------+-----------------------------------------------------------+
|
|
| | |Key_CTRL| | `CTRL+Q` quit the application |
|
|
| | |Plus| |Key_q| | (closing all windows). |
|
|
+---------------+-------------------+-----------------------------------------------------------+
|
|
| **Hierarchy** | |Key_CTRL| |Plus| | Go one hierarchy level down. That is, if there |
|
|
| | |Key_Down| | is an *instance* under the cursor position, load |
|
|
| | | it's *model* Cell in place of the current one. |
|
|
| +-------------------+-----------------------------------------------------------+
|
|
| | |Key_CTRL| |Plus| | Go one hierarchy level up. if we have entered |
|
|
| | |Key_Up| | the current model through |Key_CTRL| |Plus| |
|
|
| | | |Key_Down|, reload the previous model (the one |
|
|
| | | in which this model is instanciated). |
|
|
+---------------+-------------------+-----------------------------------------------------------+
|
|
|
|
|
|
Cgt Command Line Options
|
|
~~~~~~~~~~~~~~~~~~~~~~~~
|
|
|
|
Appart from the obvious ``--text`` options, all can be used for text and graphical mode.
|
|
|
|
+-----------------------------+------------------------------------------------+
|
|
| Arguments | Meaning |
|
|
+=============================+================================================+
|
|
| `-t|--text` | Instruct |cgt| to run in text mode. |
|
|
+-----------------------------+------------------------------------------------+
|
|
| `-L|--log-mode` | Disable the uses of |ANSI| escape sequence on |
|
|
| | the |tty|. Useful when the output is |
|
|
| | redirected to a file. |
|
|
+-----------------------------+------------------------------------------------+
|
|
| `-c <cell>|--cell=<cell>` | The name of the design to load, without |
|
|
| | leading path or extention. |
|
|
+-----------------------------+------------------------------------------------+
|
|
| `-g|--load-global` | Reload a global routing solution from disk. |
|
|
| | The file containing the solution must be named |
|
|
| | `<cell>.kgr`. |
|
|
+-----------------------------+------------------------------------------------+
|
|
| `--save-global` | Save the global routing solution, into a file |
|
|
| | named `<design>.kgr`. |
|
|
+-----------------------------+------------------------------------------------+
|
|
| `-e <ratio>|--edge=<ratio>` | Change the edge capacity for the global |
|
|
| | router, between 0 and 1 (|Knik|). |
|
|
+-----------------------------+------------------------------------------------+
|
|
| `-G|--global-route` | Run the global router (|Knik|). |
|
|
+-----------------------------+------------------------------------------------+
|
|
| `-R|--detailed-route` | Run the detailed router (|Kite|). |
|
|
+-----------------------------+------------------------------------------------+
|
|
| `-s|--save-design=<routed>` | The design into which the routed layout will |
|
|
| | be saved. It is strongly recommanded to choose |
|
|
| | a different name from the source (unrouted) |
|
|
| | design. |
|
|
+-----------------------------+------------------------------------------------+
|
|
| `--events-limit=<count>` | The maximal number of events after which the |
|
|
| | router will stops. This is mainly a failsafe |
|
|
| | against looping. The limit is sets to 4 |
|
|
| | millions of iteration which should suffice to |
|
|
| | any design of `100K`. gates. For bigger |
|
|
| | designs you may wants to increase this limit. |
|
|
+-----------------------------+------------------------------------------------+
|
|
| `--stratus-script=<module>` | Run the Python/Stratus script ``module``. |
|
|
| | See `Python Scripts in Cgt`_. |
|
|
+-----------------------------+------------------------------------------------+
|
|
|
|
|
|
Some Examples :
|
|
|
|
* Run both global and detailed router, then save the routed design : ::
|
|
|
|
> cgt -v -t -G -R --cell=design --save-design=design_kite
|
|
|
|
* Load a previous global solution, run the detailed router, then save the
|
|
routed design : ::
|
|
|
|
> cgt -v -t --load-global -R --cell=design --save-design=design_kite
|
|
|
|
* Run the global router, then save the global routing solution : ::
|
|
|
|
> cgt -v -t -G --save-global --cell=design
|
|
|
|
|
|
Miscellaneous Settings
|
|
~~~~~~~~~~~~~~~~~~~~~~
|
|
|
|
+---------------------------------------+------------------+----------------------------+
|
|
| Parameter Identifier | Type | Default |
|
|
+=======================================+==================+============================+
|
|
| **Verbosity/Log Parameters** |
|
|
+---------------------------------------+------------------+----------------------------+
|
|
| ``misc.info`` | TypeBool | :cb:`False` |
|
|
| +------------------+----------------------------+
|
|
| | Enable display of *info* level message |
|
|
| | (:cb:`cinfo` stream) |
|
|
+---------------------------------------+------------------+----------------------------+
|
|
| ``misc.bug`` | TypeBool | :cb:`False` |
|
|
| +------------------+----------------------------+
|
|
| | Enable display of *bug* level message |
|
|
| | (:cb:`cbug` stream), messages can be a little |
|
|
| | scarry |
|
|
+---------------------------------------+------------------+----------------------------+
|
|
| ``misc.logMode`` | TypeBool | :cb:`False` |
|
|
| +------------------+----------------------------+
|
|
| | If enabled, assume that the output device |
|
|
| | is not a ``tty`` and suppress any escaped |
|
|
| | sequences |
|
|
+---------------------------------------+------------------+----------------------------+
|
|
| ``misc.verboseLevel1`` | TypeBool | :cb:`True` |
|
|
| +------------------+----------------------------+
|
|
| | First level of verbosity, disable level 2 |
|
|
+---------------------------------------+------------------+----------------------------+
|
|
| ``misc.verboseLevel2`` | TypeBool | :cb:`False` |
|
|
| +------------------+----------------------------+
|
|
| | Second level of verbosity |
|
|
+---------------------------------------+------------------+----------------------------+
|
|
| **Development/Debug Parameters** |
|
|
+---------------------------------------+------------------+----------------------------+
|
|
| ``misc.traceLevel`` | TypeInt | :cb:`0` |
|
|
| +------------------+----------------------------+
|
|
| | Display trace information *below* that level |
|
|
| | (:cb:`ltrace` stream) |
|
|
+---------------------------------------+------------------+----------------------------+
|
|
| ``misc.catchCore`` | TypeBool | :cb:`False` |
|
|
| +------------------+----------------------------+
|
|
| | By default, |cgt| do not dump core. |
|
|
| | To generate one set this flag to :cb:`True` |
|
|
+---------------------------------------+------------------+----------------------------+
|
|
|
|
.. _The Controller:
|
|
|
|
The Controller
|
|
==============
|
|
|
|
The *Controller* window is composed of seven tabs:
|
|
|
|
#. `The Look Tab`_ to select the display style.
|
|
#. `The Filter Tab`_ the hierarchical levels to be displayed, the look of
|
|
rubbers and the dimension units.
|
|
#. `The Layers&Go Tab`_ to selectively hide/display layers.
|
|
#. `The Netlist Tab`_ to browse through the |netlist|. Works in association
|
|
with the *Selection* tab.
|
|
#. `The Selection Tab`_ allow to view all the currently selected elements.
|
|
#. `The Inspector Tab`_ browse through either the DataBase, the Cell or
|
|
the current selection.
|
|
#. `The Settings Tab`_ access all the tool's configuration settings.
|
|
|
|
|
|
.. _The Look Tab:
|
|
|
|
The Look Tab
|
|
~~~~~~~~~~~~
|
|
|
|
You can select how the layout will be displayed. There is a special one
|
|
``Printer.Coriolis`` specifically designed for `Printing & Snapshots`_.
|
|
You should select it prior to calling the print or snapshot dialog boxes.
|
|
|
|
|ControllerLook_1|
|
|
|
|
|
|
.. _The Filter Tab:
|
|
|
|
The Filter Tab
|
|
~~~~~~~~~~~~~~
|
|
|
|
The filter tab let you select what hierarchical levels of your design will be
|
|
displayed. Hierarchy level are numbered top-down: the level 0 correspond to
|
|
the top-level cell, the level one to the instances of the top-level Cell and
|
|
so on.
|
|
|
|
There are also check boxes to enable/disable the processing of Terminal Cell,
|
|
Master Cells and Compnents. The processing of Terminal Cell (hierarchy leaf
|
|
cells) is disabled by default when you load a hierarchical design and enabled
|
|
when you load a single Cell.
|
|
|
|
You can choose what kind of form to give to the rubbers and the type of
|
|
unit used to display coordinates.
|
|
|
|
.. note:: *What are Rubbers:* |Hurricane| uses *Rubbers* to materialize
|
|
physical gaps in net topology. That is, if some wires are missing to
|
|
connect two or more parts of net, a *rubber* will be drawn between them
|
|
to signal the gap.
|
|
|
|
For example, after the detailed routing no *rubbers* should remains.
|
|
They have been made *very* visibles as big violet lines...
|
|
|
|
|ControllerFilter_1|
|
|
|
|
|
|
.. _The Layers&Go Tab:
|
|
|
|
The Layers&Go Tab
|
|
~~~~~~~~~~~~~~~~~
|
|
|
|
Control the individual display of all *layers* and *Gos*.
|
|
|
|
* *Layers* correspond to a true physical layer. From a |Hurricane| point of
|
|
view they are all the *BasicLayers* (could be matched to GDSII).
|
|
* *Gos* stands from *Graphical Objects*, they are drawings that have no
|
|
physical existence but are added by the various tools to display extra
|
|
information. One good exemple is the density map of the detailed router,
|
|
to easily locate congested areas.
|
|
|
|
For each layer/Go there are two check boxes:
|
|
|
|
* The normal one triggers the display.
|
|
* The red-outlined allows objects of that layer to be selectable or not.
|
|
|
|
|ControllerLayersGos_1|
|
|
|
|
|
|
.. _The Netlist Tab:
|
|
|
|
The Netlist Tab
|
|
~~~~~~~~~~~~~~~
|
|
|
|
The *Netlist* tab shows the list of nets... By default the tab is not
|
|
*synched* with the displayed Cell. To see the nets you must check the
|
|
**Sync Netlist** checkbox. You can narrow the set of displayed nets by
|
|
using the filter pattern (supports regular expressions).
|
|
|
|
An very useful feature is to enable the **Sync Selection**, which will
|
|
automatically select all the components of the selected net(s). You can
|
|
select multiple nets. In the figure the net ``auxsc35`` is selected and
|
|
is highlited in the *Viewer*.
|
|
|
|
|ControllerNetlist_1|
|
|
|ViewerNetlist_1|
|
|
|
|
|
|
.. _The Selection Tab:
|
|
|
|
The Selection Tab
|
|
~~~~~~~~~~~~~~~~~
|
|
|
|
The *Selection* tab list all the components currently selecteds. They
|
|
can be filtered thanks to the filter pattern.
|
|
|
|
Used in conjunction with the *Netlist* **Sync Selection** you will all see
|
|
all the components part of *net*.
|
|
|
|
In this list, you can toggle individually the selection of component by
|
|
pressing the ``t`` key. When unselected in this way a component is not
|
|
removed from the the selection list but instead displayed in red italic.
|
|
To see where a component is you may make it blink by repeatedly press
|
|
the ``t`` key...
|
|
|
|
|ControllerSelection_1|
|
|
|
|
|
|
.. _The Inspector Tab:
|
|
|
|
The Inspector Tab
|
|
~~~~~~~~~~~~~~~~~
|
|
|
|
This tab is very useful, but mostly for |Coriolis| developpers. It allows
|
|
to browse through the live DataBase. The *Inspector* provide three entry points:
|
|
|
|
* **DataBase**: Starts from the whole |Hurricane| DataBase.
|
|
* **Cell**: Inspect the currently loaded Cell.
|
|
* **Selection**: Inspect the object currently highlited in the *Selection* tab.
|
|
|
|
Once an entry point has been activated, you may recursively expore all
|
|
it's fields using the right/left arrows.
|
|
|
|
.. note:: *Do not put your fingers in the socket:* when inspecting
|
|
anything, do not modify the DataBase. If the any object under inspection
|
|
is deleted, you will crash the application...
|
|
|
|
.. note:: *Implementation Detail:* the inspector support is done with
|
|
``Slot``, ``Record`` and ``getString()``.
|
|
|
|
|ControllerInspector_1|
|
|
|ControllerInspector_2|
|
|
|ControllerInspector_3|
|
|
|
|
|
|
.. _The Settings Tab:
|
|
|
|
The Settings Tab
|
|
~~~~~~~~~~~~~~~~
|
|
|
|
Here comes the description of the *Settings* tab.
|
|
|
|
|ControllerSettings_1|
|
|
|
|
|
|
A Simple Example: AM2901
|
|
========================
|
|
|
|
To illustrate the capabilities of |Coriolis| tools and |Python| scripting, a small
|
|
example, derived from the |Alliance| :cb:`AM2901` is supplied.
|
|
|
|
This example contains only the synthetized netlists and the :cb:`design.py` script
|
|
which perform the whole P&R of the design. Just lanch |cgt| then execute :cb:`design.py`.
|