213 from Anton Blanchard (1. Don't cast pointer to struct and back
again in DBDiagonalProc(), 2. Fix compiler warning in
drcMaskSpacing(), 3. Fix a few issues in leaDBSearchForTech(),
4. Remove spurious ";" from PlotPS()).
of a label from the command line. Also fixed a long-standing
irritation that "setlabel" would change the properties of a label
in the edit cell but not in the selection itself, which would
cause the label to be drawn both with the original properties
in the selection and the new properties in the edit cell. Now
both views will track the same changes.
natural flattening from a selection. That is, instead of
specifying "flatten -doinplace <cell>", you can select some
number of instances and just do "flatten -doinplace".
tech file to correct the underlying problem with the SkyWater
sky130 process in which a different layer/purpose pair is used
for TEXTTYPE and DATATYPE for the same layer. Previously, all
output from magic writes the same pair for both when writing a
port label. The new method preserves existing syntax, although
there are some differences based on what order the "port"
statement appears relative to other types for the same layer.
flattening, since the appearance of the layout will change even
though there are no physical changes. Finally got around to
debugging and correcting the input mask-hints, which can
preserve vendor GDS by marking areas where the vendor GDS differs
from magic's automatically generated output (the method was
almost correct and only needed an input scale factor change).
commit to prevent port labels from being copied up from the
flattened cell into the parent, and prefixing the instance
name to text in the instance top level so that there will be
no port or label collisions in the parent cell after flattening
the child cell in place. Also: Changed "extract dolabelcheck"
to be the default setting.
that the feature for implementing callbacks on a selection list
was already implemented via the add_dependency procedure.
Modified the GDS read to remove cell instances that are placed
directly on top of one another in the same cell. Modified the
GDS read to make a better selection of a default font size for
text that specifies a font but not a size, using the minimum
width for the layer the text is placed on. Modified the GDS
read to remove text with empty-string placeholders (created when
a pin layer is read but no text exists to go along with it, due
to GDS not having a specific way to make pins, such that pins
have to be split between one record for geometry and another
for text).
parameters l1 and l2. Provides a way to pass the source or drain
length as a parameter for, for example, an extended FET drain
implemented as a resistor abutting the FET gate. Could potentially
be used as a way to determine source/drain area and perimeter
without resorting to measurements of a shared node.
optional argument that is a callback function, so that the act
of selecting something from the drop-down menu can cause things
to happen such as changing the GUI window contents for the item
selected.
should have been done a long time ago! Allows an instance to be
flattened in place inside a cell def, which otherwise requires
a complicated set of commands to do. Also: Modified the polygon
handling routine from the previous commit so that it correctly
removes the polygon cell defs after flattening them into the
parent cell.
can be much, much faster than reading in polygons directly into a
cell from GDS. Modified the handling of polygons so that they are
*always* read into subcells. If the "polygon subcell flatten true"
option is not enabled, then the subcells are flattened at the end
of reading the cell, and the polygon cells are deleted. This method
avoids most of the cases in which "polygon subcell flatten true"
has ever needed to be set.
use of a resistor type as a FET extended drain, allowing the
FET drain node to short across to the other side of the resistor
so that the resistor is absorbed into the FET device. Used with
the GF180MCU process to describe the salicide-block ESD FET types.
for compatible layout over the area of the pin rectangle in the
entire hierarchy of the cell, not just in the top level. This
corrects issues where pins are placed in the top level cell with
no metal underneath. It is written in such a way that it will
work regardless of whether paint is split across the hierarchy,
or the label spans different types (such as crossing a contact).
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.
number of terminals for devices that don't have the usual gate/
source/drain terminals (e.g., diodes, resistors, capacitors) when
writing the devices with re-mapped terminals into the .res.ext
file. Also: Changed the size of the word containing the name
refcount for "equiv" statements, since an accidental shorting
of pins can cause a large number of "equiv" statements in a .ext
file, causing an overrun of the previously 1-byte refcount (this
probably does not make the structure any longer, since it likely
has to fit to a word boundary).
implement a GF DRC rule. This variant allows for a difference
between the minimum allowed surround on one side and the amount
that must be extended on the adjacent side.
pin on a compatible area due to an incorrect type mask. (Also
note that this routine only works (after correction) for RECT
statements, but there should be a similar check for POLYGON
statements.)
library has been read in with the "gds readonly true" option set
because the cell contains information on where in the GDS the
cell is located, but the cell is empty because it was flattened
into the magic view and all of its contents were erased. This can
cause issues with LVS if magic generates an empty cell into the
netlist and the LVS tool tries to compare the cells by name. Also,
this prevents unnecessary .ext files and unnecessary merges to the
substrate of such cells (since all cells have an implied substrate).
contacts) take default values from the DRC section. Since both
are in lambda, but the DRC section uses a two-part integer and
modulus representation, if default values are taken before
scaling, the LEF layers may get rounded values. This has been
solved by marking values with -1 to indicate that they require
defaults, and then set those defaults (from scaled DRC rules)
after scaling all other tech values.
redundant (same name, different net). Previously, the method was
to keep the first such node and ignore all others except to add
their resistance and capacitance to the original node. This
prevented routines like "def write" from enumerating all nets
unless they had unique names. The new method keeps the additional
records including the node location where they can be found by
EFNodeVisit(), but flags them with EF_UNIQUE_NODE so that routines
like ext2spice or ext2sim can choose to ignore them. This implies
that this method could be used to reimplement "extract unique"
within "ext2spice" or "ext2sim" without altering label text. This
has not yet been implemented.
Both were corrected with respect to the definition of non-default
(taper) rules. "def write" was additionally modified to avoid
redundantly processing tiles where tile areas were merged together
to form a complete wire. There is plenty of room for optimization,
but the output appears to be matching the layout. Also: Revised
the definition of "(not) visible layers" to include labels attached
to those layers, so that turning off visibility of any layer will
also hide all labels attached to that layer.
due to a missing function prototype. Modified the GDS output
flow to always output instance IDs as a property, not just in the
non-default case. The property has been used for many years and
appears to be accepted by all tools reading GDS, so there is no
downside to always generating this output. This has the upside
that default instance names don't get scrambled by going from
magic to GDS and back to magic.
for the squares-grid operator and for GDS compression. But I
reverted the "calma contact" option to be false by default, because
the method does not exactly match the output when not using cell
instance arrays, and so may produce unexpected results. Will
need a different implementation that uses the same code to generate
the same (effective) layout.
default behavior of magic to make use of the "gds contacts true"
option to output contacts as arrays of subcells instead of
individual boundary entries, as the former is much more efficient
than the latter. Set the option to be true by default, and set
the "gds flatglob" option to have one entry "$$*$$" corresponding
to the contact subcells created by the "gds contacts" option, so
that GDS reads and writes as it did previously (but using a
different method). Expanded the method to include "squares-grid"
and "slots" operators (the latter should produce much more
efficient fill pattern arrays). Implemented for both compressed
and uncompressed GDS. Tested in all variations.
option. This is important as the default units of 1nm are not
necessarily able to be converted to integer values if the
minimum manufacturing grid is an odd number of nanometers.
"slivers"; the error tended to produce artifacts (extra metal)
around contacts. Fixed an issue that caused the DEF write routine
to open the same file twice instead of a new file for the second
part of the DEF data, and then potentially hit a runaway condition
when trying to merge the two files together.
Tim Edwards
Anton Blanchard
Alessandro De Laurenzis