in the input. The name of one was being modified but was being
right-justified into the string, resulting in a name starting with
many space characters. Also: Fixed an issue with extresist where
a label that ends up with an empty string can become a node with
an empty string name in the .res.ext file output.
solution; it would be much better to make the value adjustible, but
the array of tiles sized to LAYERS_PER_CONTACT is a Region structure,
and the routine that frees the Region structures does not have a way
to call a routine to take additional measures like free'ing a sub-
structure of the Region. A proper solution will require some work.
messages which was traced to code that changes a drivepoint position
to match a label; the same drivepoint may be part of the record for
the initial position to search on the net, in which case if the
position is changed, then the tile type needs to be changed to match
the new position.
this appears to work correctly but does not yet handle the implicit
substrate (space as substrate) or "virtually" isolated substrate regions
(which need to be removed for full parasitic extraction).
text formatting. Made one critical correction to ResGetDevice() to
pass the device type; otherwise, devices on different planes (e.g.,
MiM caps) with the same coordinate will always return the device on
the lowest plane, leading to incorrect results and an eventual crash
when the device record is free'd twice.
support of devices with terminals on different plances, such as
capacitors, diodes, and bipolar transistors. Output now appears
to give meaningful results for flattened layouts, although
numerous issues remain for hierarchical layouts.
necessarily a 1:1 correspondence from tile types to extracted
device names, and not necessarily a 1:1 correspondence in the other
direction, either. So the search for devices at the location given
by the .sim file has been loosened to look for any tile type at that
location. Matches are restricted to those in which the plane of the
type found is the same as the plane of the device recorded in the .sim
file; this prevents matching device like MiM caps that may be in the
same location as a device in another plane.
the last commit, unfortunately. Thanks to Matt Guthaus for alerting me
to this. Also updated parts of the extresist code that remove the
dependence on ResConDCS; this is a minor update and should not affect
the operation of extresist. It is preparatory to doing more work to
support additional device types like capacitors, bipolars, and diodes.
recursive loop and crash magic. Corrected a number of other issues
along the way, especially one where routines in EFantenna and extresist
make use of array EFDevTypes which was only created by ext2sim and
ext2spice, and freed when done. Having run extresist through valgrind,
there are still issues in the code.
commit, mostly relating to the scale of values in the ".nodes" file
produced by ext2sim. Making this file CIF syntax seemed unnecessary,
so I removed the CIF syntax and scaling. "extresist" can now produce
an apparently valid output on a standard cell layout. Even with the
change, the extresist output is still only pseudo-hierarchical, so
this does not preclude the need for eliminating the .sim format file
in favor of the .ext file, but it provides a working intermediate
form.
sticky flag set, and the type of the label does not correspond
exactly to the type under the label (e.g., label defined on m1
but is on top of a contact).
simple FET device in extresist. Also: Extended the bloat-all CIF operator
again, allowing the trigger layer for the bloat operation to include both
CIF layers and magic layers (previously only magic layers were supported).
This extension is possible due to the previous extension allowing the
trigger layer and bloating layers to be on separate planes. This operator
extension is useful for tagging geometry that is in the proximity of, but
not overlapping, geometry on another plane.
hierarchical cells (namely a scaling issue with .sim file units).
More can be done to make the extresist command more user friendly,
but at least port connections as drivers appears to work.
to be more robust and not depend on the ordering of the devices in
the techfile. The extraction method now keeps a mask of which
properties of the device (source/drain types, substrate type,
identifier type) have been found, and will look only for device
records that match what is known about the device. Added a device
identifier record which is the last record before parameters if the
record begins with "+". This allows marker layers to be placed
over a device such that it will extract with a different type.
This helps reduce the complexity of the techfile and allows
certain specialized devices like RF or ESD to be identified without
a separate layer type for the device.
Tim Edwards