446 lines
19 KiB
ReStructuredText
446 lines
19 KiB
ReStructuredText
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.. -*- Mode: rst -*-
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.. Tools
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.. |ocp| replace:: ``ocp``
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.. |nero| replace:: ``nero``
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.. |ring| replace:: ``ring``
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.. |druc| replace:: ``druc``
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.. |graal| replace:: ``graal``
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.. |cougar| replace:: ``cougar``
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.. |cif| replace:: ``cif``
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.. |gds| replace:: ``gds``
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.. |phseg| replace:: ``phseg``
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.. |phvia| replace:: ``phvia``
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.. RDS file syntax.
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.. |MBK_TO_RDS_SEGMENT| replace:: ``MBK_TO_RDS_SEGMENT``
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.. |MBK_TO_RDS_VIA| replace:: ``MBK_TO_RDS_VIA``
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.. |MBK_TO_RDS_BIGVIA_HOLE| replace:: ``MBK_TO_RDS_BIGVIA_HOLE``
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.. |MBK_TO_RDS_BIGVIA_METAL| replace:: ``MBK_TO_RDS_BIGVIA_METAL``
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.. |MBK_WIRESETTING| replace:: ``MBK_WIRESETTING``
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.. |ALL| replace:: ``ALL``
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.. |DRC| replace:: ``DRC``
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.. |EXT| replace:: ``EXT``
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.. |VW| replace:: ``VW``
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.. |LCW| replace:: ``LCW``
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.. |RCW| replace:: ``RCW``
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.. |ALUx| replace:: ``ALUx``
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.. |CALUx| replace:: ``CALUx``
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.. |TALUx| replace:: ``TALUx``
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.. |ALU1| replace:: ``ALU1``
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.. |POLY| replace:: ``POLY``
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.. |NTIE| replace:: ``NTIE``
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.. |PTIE| replace:: ``PTIE``
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.. |NDIF| replace:: ``NDIF``
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.. |PDIF| replace:: ``PDIF``
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.. |PWELL| replace:: ``PWELL``
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.. |NTRANS| replace:: ``NTRANS``
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.. |PTRANS| replace:: ``PTRANS``
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.. |CONT_DIF_N| replace:: ``CONT_DIF_N``
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.. |CONT_DIF_P| replace:: ``CONT_DIF_P``
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.. |CONT_BODY_N| replace:: ``CONT_BODY_N``
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.. |CONT_BODY_P| replace:: ``CONT_BODY_P``
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.. |CONT_POLY| replace:: ``CONT_POLY``
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.. |CONT_VIA| replace:: ``CONT_VIA``
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.. |CONT_VIAx| replace:: ``CONT_VIAx``
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.. |C_X_N| replace:: ``C_X_N``
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.. |C_X_P| replace:: ``C_X_P``
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.. |RDS_NDIF| replace:: ``RDS_NDIF``
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.. |RDS_NIMP| replace:: ``RDS_NIMP``
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.. |RDS_ACTIV| replace:: ``RDS_ACTIV``
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.. |RDS_GATE| replace:: ``RDS_GATE``
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.. |RDS_POLY| replace:: ``RDS_POLY``
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.. |RDS_ALU1| replace:: ``RDS_ALU1``
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|newpage|
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Symbolic Layout
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===============
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Symbolic Components
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~~~~~~~~~~~~~~~~~~~
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A symbolic layout is, in practice, made of only of three objects:
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=========================== ============ ===================================================
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Object |MBK| Explanation
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=========================== ============ ===================================================
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Segments |phseg| Oriented segments with a width and an orientation.
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VIAs & contacts |phvia| Boils down to just a point.
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Big VIAs & Big Contacts |phvia| Point with a width and a height
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That is a rectangle of width by height centered
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on the VIA coordinates.
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=========================== ============ ===================================================
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Each of thoses objects is associated to a *symbolic layer* which will
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control how the object is translated in many *real rectangles*.
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+---------+---------------+-------------+--------------------------------------------+
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| |MBK| | Layer Name | Usable By | Usage |
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+=========+===============+=============+============================================+
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| |phseg| | |NWELL| | Segment | N Well |
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| +---------------+-------------+--------------------------------------------+
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| | |PWELL| | Segment | P Well |
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| +---------------+-------------+--------------------------------------------+
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| | |NDIF| | Segment | N Diffusion |
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| +---------------+-------------+--------------------------------------------+
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| | |PDIF| | Segment | P Diffusion |
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| +---------------+-------------+--------------------------------------------+
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| | |NTIE| | Segment | N Tie |
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| +---------------+-------------+--------------------------------------------+
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| | |PTIE| | Segment | P Tie |
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| +---------------+-------------+--------------------------------------------+
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| | |NTRANS| | Segment | N transistor, in |Alliance|, a transistor |
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| | | | is represented as a segment (it's grid). |
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| +---------------+-------------+--------------------------------------------+
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| | |PTRANS| | Segment | P transistor |
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| +---------------+-------------+--------------------------------------------+
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| | |POLY| | Segment | Polysilicium |
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| +---------------+-------------+--------------------------------------------+
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| | |ALUx| | Segment | Metal level *x* |
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| +---------------+-------------+--------------------------------------------+
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| | |CALUx| | Segment | Metal level *x*, that can be used by the |
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| | | | upper hierarchical level as a connector. |
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| | | | From the layout point of view it is the |
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| | | | same as |ALUx|. |
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| +---------------+-------------+--------------------------------------------+
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| | |TALUx| | Segment | Blockage for metal level *x*. Will |
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| | | | diseappear in the real layout as it is an |
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| | | | information for the P&R tools only. |
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+---------+---------------+-------------+--------------------------------------------+
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| |phvia| | |CONT_BODY_N| | VIA, BIGVIA | Contact to N Well |
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| +---------------+-------------+--------------------------------------------+
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| | |CONT_BODY_P| | VIA, BIGVIA | Contact to P Well |
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| +---------------+-------------+--------------------------------------------+
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| | |CONT_DIF_N| | VIA, BIGVIA | Contact to N Diffusion |
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| +---------------+-------------+--------------------------------------------+
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| | |CONT_DIF_P| | VIA, BIGVIA | Contact to P Diffusion |
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| +---------------+-------------+--------------------------------------------+
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| | |CONT_POLY| | VIA, BIGVIA | Contact to polysilicium |
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| +---------------+-------------+--------------------------------------------+
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| | |CONT_VIA| | VIA, BIGVIA | Contact between metal1 and metal2 |
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| +---------------+-------------+--------------------------------------------+
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| | |CONT_VIAx| | VIA, BIGVIA | Contact between metal *x* and metal *x+1*. |
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| | | | The index is the the one of the bottom |
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| | | | metal of the VIA. |
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| +---------------+-------------+--------------------------------------------+
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| | |C_X_N| | VIA | N transistor corner, to build transistor |
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| | | | bend. Not used anymore in recent technos |
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| +---------------+-------------+--------------------------------------------+
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| | |C_X_P| | VIA | P transistor corner, to build transistor |
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| | | | bend. Not used anymore in recent technos |
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+---------+---------------+-------------+--------------------------------------------+
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.. note::
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Not all association of object and symbolic layers are meaningful.
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For instance you cannot associate a contact to a ``NTRANS`` layer.
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.. note::
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The symbolic layer associated with blockages is prefixed by a ``T``,
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for *transparency*, which may seems silly. It is for historical reasons,
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it started as a true transparency, but at some point we had to invert
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the meaning (blockage) with the rise of over-the-cell routing, but the
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name stuck...
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Symbolic Segments
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~~~~~~~~~~~~~~~~~
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In |Alliance|, segments are oriented (up, down, left, right). This disambiguate
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the left or right side when using the ``LCW`` and ``RCW`` rules in the |RDS| file.
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It allows to generate, if needed, asymetric object in the real layout file.
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|bcenter| |SegmentOrientation| |ecenter|
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|newpage|
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The RDS File
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============
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The RDS file control how a symbolic layout is transformed into it's real
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conterpart.
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.. note:: **Unit used inside the RDS file:** all units are expressed in micrometers.
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Alliance tools relying on the RDS file, and what layers are active for them:
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======================================= ============= ===============================
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Tool Name RDS Flags
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======================================= ============= ===============================
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Layout editor |graal| |ALL|
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Design Rule Checker |druc| |ALL|, |DRC|
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Electrical extractor |cougar| |ALL|, |EXT|
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The symbolic to real layout translator |s2r| |ALL|
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======================================= ============= ===============================
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Physical Grid & Lambda Value
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~~~~~~~~~~~~~~~~~~~~~~~~~~~~
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RDS file: ::
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DEFINE PHYSICAL_GRID 0.005
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DEFINE LAMBDA 0.09
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Tells that the physical grid (founder grid) step is 0.005µm and the lambda has
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a value of 0.09µm. That is, one lambda is 18 grid steps.
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We can distinguish two kind of |RDS| files:
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* The *1µm* kind, odd segment widths and coordinates are allowed, but the ``LAMBDA``
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value **must** represent an *even* number of foundry grid step.
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* The *2µm* kind, segments widths and coordinates must all be even. And in that case
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the ``LAMBDA`` value can be any multiple of the foundry grid.
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The |MBK_TO_RDS_SEGMENT| table
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~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
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The |MBK_TO_RDS_SEGMENT| table control the way segments are translated into
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real rectangles. Be aware that we are translating *segments* and not *rectangles*.
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Segments are defined by their axis (source & target points) and their width.
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The geometrical transformations are described according to that model.
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Obviously, they are either horizontal or vertical.
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The translation method of a symbolic segment is as follow:
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1. The segment is translated into one or more physical rectangles.
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The generated rectangles depends on the tool which is actually
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using |RDS| and the flag for the considered real layer.
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For instance, real layers flagged with |DRC| will be generated
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for |s2r| (for the |cif| or |gds|) and |druc|, but will not
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be shown under |graal|.
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2. Translation into one real layer. *First* the source & target coordinates and width
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of the symbolic segment are multiplied by the ``LAMBDA`` value to obtain a real
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segment. *Then* one of the |VW|, |LCW| or |RCW| transformation is applied to
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that segment to get the final real rectangle.
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* |VW| for Variable Width, expand the real layer staying centered from the
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original one. In those rules, the third number is not used, it is only here
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to make the life easier for the parser...
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|bcenter| |RDS_VW| |ecenter|
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* |LCW| or |RCW| for Left/Right Constant Width, create an off-center rectangle
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of fixed width relatively to the real segment. Note that the ``SP`` number
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is the distance *between the edge* of the real segment and the edge of the
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generated real rectangle (*not* from the axis). It is often zero.
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|bcenter| |RDS_LCW| |ecenter|
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|newpage|
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Examples: ::
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TABLE MBK_TO_RDS_SEGMENT
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# (Case 1)
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ALU1 RDS_ALU1 VW 0.18 0.09 0.0 ALL
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# (Case 2)
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NDIF RDS_NDIF VW 0.18 0.0 0.0 ALL \
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RDS_ACTIV VW 0.18 0.0 0.0 DRC \
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RDS_NIMP VW 0.36 0.36 0.0 DRC
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# (Case 3)
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NTRANS RDS_POLY VW 0.27 0.00 0.0 ALL \
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RDS_GATE VW 0.27 0.00 0.0 DRC \
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RDS_NDIF LCW 0.0 0.27 0.0 EXT \
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RDS_NDIF RCW 0.0 0.27 0.0 EXT \
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RDS_NDIF VW 0.0 0.72 0.0 DRC \
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RDS_ACTIV VW 0.0 0.72 0.0 ALL \
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RDS_NIMP VW 0.18 1.26 0.0 DRC
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END
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:fboxtt:`Case 1` the |ALU1| is translated in exacltly one real rectangle of
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|RDS_ALU1|, both ends are extended by 0.18µm and it's width is increased
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by 0.09µm.
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:fboxtt:`Case 2` the |NDIF| will be translated into only one segment
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under |graal|, for symbolic visualization. And into three real rectangles
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for |s2r| and |druc|.
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:fboxtt:`Case 3` the |NTRANS|, associated to a transistor is a little bit
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more complex, the generated shapes are different for the extractor |cougar|
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in one hand, and for both |druc| & |s2r| in the other hand.
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* For the extractor (|EXT| & |ALL| flags) there will be four rectangles
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generateds:
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1. The gate (|RDS_GATE|)
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2. The left diffusion of the transistor (source or drain) (|RDS_NDIF|).
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3. The right diffusion of the transistor (drain or source) (|RDS_NDIF|).
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4. The active area (|RDS_ACTIV|).
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As the extractor must kept separate the source and the drain of the transistor,
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they are generated as two offset rectangles, using the |LCW| and |RCW| directives.
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* For |s2r| and |druc| (|DRC| and |ALL|), five rectangles are generateds:
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1. The poly (|RDS_POLY|).
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2. The gate (|RDS_GATE|).
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3. The diffusion, as one rectangle that covers both the |LCW| and the |RCW| (|RDS_NDIF|).
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4. The active area (|RDS_ACTIV|).
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5. The N implantation (|RDS_NIMP|).
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In the layout send to the foundry, the source & drain are draw as one rectangle
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across the gate area (the transistor being defined by the intersection of both
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rectangles).
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|newpage|
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The |MBK_TO_RDS_VIA| table
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~~~~~~~~~~~~~~~~~~~~~~~~~~
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This table is to translate *default* VIAs into real via. In the symbolic layout
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the default VIA is simply a point and a set of layers. All layers are converted
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in squares shapes centered on the VIA coordinate. The one dimension given is the
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size of the side of that square.
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Note that although we are refering to VIAs, which for the purists are between two
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metal layers, this table also describe *contacts*.
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Example: ::
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TABLE MBK_TO_RDS_VIA
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CONT_DIF_P RDS_PDIF 0.54 ALL \
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RDS_CONT 0.18 ALL \
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RDS_ALU1 0.36 ALL \
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RDS_ACTIV 0.54 DRC \
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RDS_PIMP 0.90 DRC
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CONT_POLY RDS_POLY 0.54 ALL \
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RDS_CONT 0.18 ALL \
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RDS_ALU1 0.36 ALL
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CONT_VIA RDS_ALU1 0.45 ALL \
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RDS_VIA1 0.27 ALL \
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RDS_ALU2 0.45 ALL
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END
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.. note:: **In CONT_DIF_P** you may see that only three layers will be shown under
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|graal|, but five will be generated in the |gds| layout.
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The |MBK_TO_RDS_BIGVIA_HOLE| table
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~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
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In |s2r|, when generating BIGVIAs, the matrix of holes they contains is
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not draw relative to the position of the BIGVIA itself, but on a grid which
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is common througout all the design real layout. This is to allow overlap
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between two BIGVIA without risking the holes matrix to be not exactly overlapping.
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As a consequence, when visualizing the |gds| file, the holes may not be centerend
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inside one individual BIGVIA.
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The |MBK_TO_RDS_BIGVIA_HOLE| table define the global hole matrix for the whole
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design. The first number is the individual hole side and the second the grid step
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(edge to edge). The figure below show the hole generation.
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|bcenter| |BIGVIA_1| |ecenter|
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Example of BIGVIA overlap:
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|bcenter| |BIGVIA_2| |ecenter|
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Example: ::
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TABLE MBK_TO_RDS_BIGVIA_HOLE
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CONT_VIA RDS_VIA1 0.27 0.27 ALL
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CONT_VIA2 RDS_VIA2 0.27 0.27 ALL
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CONT_VIA3 RDS_VIA3 0.27 0.27 ALL
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CONT_VIA4 RDS_VIA4 0.27 0.27 ALL
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CONT_VIA5 RDS_VIA5 0.36 0.36 ALL
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END
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.. note:: **BIGVIA demotion.** If the size of the bigvia is too small, there is
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a possibility that no hole from the global matrix will be under it.
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To avoid that case, if the either side of the BIGVIA is less than
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``1.5 * step``, the BIGVIA is demoted to a simple VIA.
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The |MBK_TO_RDS_BIGVIA_METAL| table
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~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
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This table describe how the metal part of a BIGVIA is expanded (for the hole
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part, see the previous table |MBK_TO_RDS_BIGVIA_HOLE|). The rule give for each
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metal:
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1. The *delta-with* (have to ask Franck).
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2. The *overhang*, the length the real rectangle is expanded on each side from
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the symbolic rectange.
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Example: ::
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||
|
TABLE MBK_TO_RDS_BIGVIA_METAL
|
||
|
|
||
|
CONT_VIA RDS_ALU1 0.0 0.09 ALL \
|
||
|
RDS_ALU2 0.0 0.09 ALL
|
||
|
|
||
|
CONT_VIA2 RDS_ALU2 0.0 0.09 ALL \
|
||
|
RDS_ALU3 0.0 0.09 ALL
|
||
|
|
||
|
CONT_VIA3 RDS_ALU3 0.0 0.09 ALL \
|
||
|
RDS_ALU4 0.0 0.09 ALL
|
||
|
|
||
|
CONT_VIA4 RDS_ALU4 0.0 0.09 ALL \
|
||
|
RDS_ALU5 0.0 0.09 ALL
|
||
|
|
||
|
CONT_VIA5 RDS_ALU5 0.0 0.09 ALL \
|
||
|
RDS_ALU6 0.0 0.18 ALL
|
||
|
END
|
||
|
|
||
|
|
||
|
The |MBK_WIRESETTING| table
|
||
|
~~~~~~~~~~~~~~~~~~~~~~~~~~~
|
||
|
|
||
|
From a strict standpoint this table shouldn't be here but put in a separate
|
||
|
configuration file, because it contains informations only used by the symbolic
|
||
|
layout tools (|ocp|, |nero|, |ring|).
|
||
|
|
||
|
This table defines the cell gauge the routing pitch and minimal (symbolic)
|
||
|
wire width and minimal spacing for the routers. They are patly redundant.
|
||
|
|
||
|
Example: ::
|
||
|
|
||
|
TABLE MBK_WIRESETTING
|
||
|
|
||
|
X_GRID 10
|
||
|
Y_GRID 10
|
||
|
Y_SLICE 100
|
||
|
WIDTH_VDD 12
|
||
|
WIDTH_VSS 12
|
||
|
TRACK_WIDTH_ALU8 0
|
||
|
TRACK_WIDTH_ALU7 4
|
||
|
TRACK_WIDTH_ALU6 4
|
||
|
TRACK_WIDTH_ALU5 4
|
||
|
TRACK_WIDTH_ALU4 3
|
||
|
TRACK_WIDTH_ALU3 3
|
||
|
TRACK_WIDTH_ALU2 3
|
||
|
TRACK_WIDTH_ALU1 3
|
||
|
TRACK_SPACING_ALU8 0
|
||
|
TRACK_SPACING_ALU7 4
|
||
|
TRACK_SPACING_ALU6 4
|
||
|
TRACK_SPACING_ALU5 4
|
||
|
TRACK_SPACING_ALU4 4
|
||
|
TRACK_SPACING_ALU3 4
|
||
|
TRACK_SPACING_ALU2 4
|
||
|
TRACK_SPACING_ALU1 3
|
||
|
|
||
|
END
|
||
|
|