2014-05-27 08:40:42 -05:00
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# -*- Mode:Python; explicit-buffer-name: "kite.conf<cmos>" -*-
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import helpers
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# Contains the layout (shared by all technologies).
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execfile( helpers.sysConfDir+'/common/kite.conf' )
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2012-11-16 06:49:47 -06:00
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parametersTable = \
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2014-05-27 08:40:42 -05:00
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( ("katabatic.globalLengthThreshold",TypeInt ,1450 ) # Katabatic parameters.
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, ("katabatic.saturateRatio" ,TypePercentage,80 )
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, ("katabatic.saturateRp" ,TypeInt ,8 )
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Express "xEdgeCapacity" ratio as "xTracksReservedLocal" a number of tracks.
* Change: In Kite, Katabatic & Knik, express the number of tracks truly
available to the global router by the number of tracks reserved to
the local routage inside a GCell. Replace the ratio parameter
"hEdgeCapacity" by an integer parameter "hTracksReservedLocal"
(duplicate for verticals).
It is more explicit to give directly the number of tracks that
are to be used locally, and potentially saves us from rouding
problems when calculating the number of availables tracks.
Note: we cannot do that for the layer saturateRatio as it
uses the density ratio that take account local wires, leading
to fractional results.
* Change: In Katabatic, in <GCellGrid>, rename checkEdgeSaturation()
into checkEdgeOverflow(), more explicit.
* Change: In Knik, in <Graph>, display the computed capacities of the
lower left node edges (should be the same througout all the grid).
* Change: In Unicorn, in <cgt.py>, uses the new parameters names for
edge density.
2014-06-10 09:58:52 -05:00
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, ('katabatic.topRoutingLayer' ,TypeString , 'METAL5')
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2012-11-16 06:49:47 -06:00
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# Kite parameters.
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Express "xEdgeCapacity" ratio as "xTracksReservedLocal" a number of tracks.
* Change: In Kite, Katabatic & Knik, express the number of tracks truly
available to the global router by the number of tracks reserved to
the local routage inside a GCell. Replace the ratio parameter
"hEdgeCapacity" by an integer parameter "hTracksReservedLocal"
(duplicate for verticals).
It is more explicit to give directly the number of tracks that
are to be used locally, and potentially saves us from rouding
problems when calculating the number of availables tracks.
Note: we cannot do that for the layer saturateRatio as it
uses the density ratio that take account local wires, leading
to fractional results.
* Change: In Katabatic, in <GCellGrid>, rename checkEdgeSaturation()
into checkEdgeOverflow(), more explicit.
* Change: In Knik, in <Graph>, display the computed capacities of the
lower left node edges (should be the same througout all the grid).
* Change: In Unicorn, in <cgt.py>, uses the new parameters names for
edge density.
2014-06-10 09:58:52 -05:00
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, ("kite.hTracksReservedLocal" ,TypeInt ,3 , { 'min':0, 'max':20 } )
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, ("kite.vTracksReservedLocal" ,TypeInt ,3 , { 'min':0, 'max':20 } )
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, ("kite.eventsLimit" ,TypeInt ,4000002 )
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, ("kite.ripupCost" ,TypeInt ,3 , { 'min':0 } )
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, ("kite.strapRipupLimit" ,TypeInt ,16 , { 'min':1 } )
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, ("kite.localRipupLimit" ,TypeInt ,9 , { 'min':1 } )
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, ("kite.globalRipupLimit" ,TypeInt ,5 , { 'min':1 } )
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, ("kite.longGlobalRipupLimit" ,TypeInt ,5 , { 'min':1 } )
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2016-05-26 06:56:16 -05:00
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# Anabatic parameters are temporarily hosted here.
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, ("anabatic.edgeLength" ,TypeInt ,24 )
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, ("anabatic.edgeWidth" ,TypeInt ,4 )
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2016-06-17 06:09:34 -05:00
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, ("anabatic.edgeCostH" ,TypeDouble ,9.0 )
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, ("anabatic.edgeCostK" ,TypeDouble ,-10.0 )
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2012-11-16 06:49:47 -06:00
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)
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New coriolis launcher. Configuration files cleanup.
* Change: In CRL Core, simplify the loading sequence. The technology,
both symbolic and real is now loaded directly from coriolisInit.py
and not through the Alliance loader. This was a leftover from the
time configuration was in XML. Remove others traces of XML loading.
Remove SYMB_TECHNO_NAME, REAL_TECHNO_NAME & DISPLAY from the Alliance
environement, as they was no longer used.
Note that technology *still* need to be loader *after* Alliance
framework has been initialized.
Gauge information is moved from <alliance.conf> to <kite.conf>.
* Bug: In Coloquinte, in optimization_subproblems.cxx static variables
must not be inlined. Generate a problem when linking in debug mode
(seems the symbol gets optimised out).
* Bug: In Katabatic, in Grid::getGCell(), when the coordinate is *outside*
the area, do not try to find a GCell, directly return NULL.
* New: In Unicorn, create a generic command launcher named "coriolis" which
automatically take cares of all environement setup, then run a command
by default, it's <cgt>, but it can be anything. For example: <zsh>.
2015-04-13 11:54:09 -05:00
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# Format of routingGaugesTable (dictionary):
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# A list of entry of the form:
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2016-04-13 11:18:43 -05:00
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# ( METAL_NAME, (Direction, Type, depth, density, offset, pitch, wire_width, via_width, obs_dw) )
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New coriolis launcher. Configuration files cleanup.
* Change: In CRL Core, simplify the loading sequence. The technology,
both symbolic and real is now loaded directly from coriolisInit.py
and not through the Alliance loader. This was a leftover from the
time configuration was in XML. Remove others traces of XML loading.
Remove SYMB_TECHNO_NAME, REAL_TECHNO_NAME & DISPLAY from the Alliance
environement, as they was no longer used.
Note that technology *still* need to be loader *after* Alliance
framework has been initialized.
Gauge information is moved from <alliance.conf> to <kite.conf>.
* Bug: In Coloquinte, in optimization_subproblems.cxx static variables
must not be inlined. Generate a problem when linking in debug mode
(seems the symbol gets optimised out).
* Bug: In Katabatic, in Grid::getGCell(), when the coordinate is *outside*
the area, do not try to find a GCell, directly return NULL.
* New: In Unicorn, create a generic command launcher named "coriolis" which
automatically take cares of all environement setup, then run a command
by default, it's <cgt>, but it can be anything. For example: <zsh>.
2015-04-13 11:54:09 -05:00
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routingGaugesTable = {}
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routingGaugesTable['sxlib'] = \
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2016-04-13 11:18:43 -05:00
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( ( 'METAL1', ( Gauge.Vertical , Gauge.PinOnly, 0, 0.0, 0, 5, 2, 1, 4 ) )
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, ( 'METAL2', ( Gauge.Horizontal, Gauge.Default, 1, 7.0, 0, 5, 2, 1, 4 ) )
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, ( 'METAL3', ( Gauge.Vertical , Gauge.Default, 2, 0.0, 0, 5, 2, 1, 4 ) )
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, ( 'METAL4', ( Gauge.Horizontal, Gauge.Default, 3, 0.0, 0, 5, 2, 1, 4 ) )
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, ( 'METAL5', ( Gauge.Vertical , Gauge.Default, 4, 0.0, 0, 5, 2, 1, 4 ) )
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#, ( 'METAL6', ( Gauge.Horizontal, Gauge.Default, 5, 0.0, 0, 5, 2, 1, 4 ) )
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#, ( 'METAL7', ( Gauge.Vertical , Gauge.Default, 6, 0.0, 0, 5, 2, 1, 4 ) )
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New coriolis launcher. Configuration files cleanup.
* Change: In CRL Core, simplify the loading sequence. The technology,
both symbolic and real is now loaded directly from coriolisInit.py
and not through the Alliance loader. This was a leftover from the
time configuration was in XML. Remove others traces of XML loading.
Remove SYMB_TECHNO_NAME, REAL_TECHNO_NAME & DISPLAY from the Alliance
environement, as they was no longer used.
Note that technology *still* need to be loader *after* Alliance
framework has been initialized.
Gauge information is moved from <alliance.conf> to <kite.conf>.
* Bug: In Coloquinte, in optimization_subproblems.cxx static variables
must not be inlined. Generate a problem when linking in debug mode
(seems the symbol gets optimised out).
* Bug: In Katabatic, in Grid::getGCell(), when the coordinate is *outside*
the area, do not try to find a GCell, directly return NULL.
* New: In Unicorn, create a generic command launcher named "coriolis" which
automatically take cares of all environement setup, then run a command
by default, it's <cgt>, but it can be anything. For example: <zsh>.
2015-04-13 11:54:09 -05:00
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)
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# Format of cellGaugesTable (dictionary):
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# A list of entry of the form:
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# ( METAL_PIN, xy_common_pitch, slice_height, slice_step )
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cellGaugesTable = {}
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cellGaugesTable['sxlib'] = ('metal2', 5.0, 50.0, 5.0)
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