Simple electrical connectivity checker
examples | ||
snarled | ||
.gitignore | ||
LICENSE.md | ||
README.md | ||
setup.py |
snarled README
Layout connectivity checker.
snarled
is a python package for checking electrical connectivity in multi-layer layouts.
It is intended to be "poor-man's LVS" (layout-versus-schematic), for when poverty has deprived the man of both a schematic and a better connectivity tool.
Installation
Requirements:
- python >= 3.9 (written and tested with 3.10)
- numpy
- pyclipper
Install with pip:
pip3 install snarled
Alternatively, install from git
pip3 install git+https://mpxd.net/code/jan/snarled.git@release
Example
See examples/check.py
. Note that the example uses masque
to load data.
from pprint import pformat
from masque.file import gdsii, oasis
import snarled
import snarled.interfaces.masque
# Layer definitions
connectivity = {
((1, 0), (1, 2), (2, 0)), #M1 to M2 (via V12)
((1, 0), (1, 3), (3, 0)), #M1 to M3 (via V13)
((2, 0), (2, 3), (3, 0)), #M2 to M3 (via V23)
}
cells, props = oasis.readfile('connectivity.oas')
topcell = cells['top']
polys, labels = snarled.interfaces.masque.read_cell(topcell, connectivity)
nets_info = snarled.trace_connectivity(polys, labels, connectivity)
print('\nFinal nets:')
print([kk for kk in nets_info.nets if isinstance(kk.name, str)])
print('\nShorted net sets:')
for short in nets_info.get_shorted_nets():
print('(' + ','.join([repr(nn) for nn in sorted(list(short))]) + ')')
print('\nOpen nets:')
print(pformat(dict(nets_info.get_open_nets())))
this prints the following:
Nets ['SignalD', 'SignalI'] are shorted on layer (1, 0) in poly:
[[13000.0, -3000.0],
[16000.0, -3000.0],
[16000.0, -1000.0],
[13000.0, -1000.0],
[13000.0, 2000.0],
[12000.0, 2000.0],
[12000.0, -1000.0],
[11000.0, -1000.0],
[11000.0, -3000.0],
[12000.0, -3000.0],
[12000.0, -8000.0],
[13000.0, -8000.0]]
Nets ['SignalK', 'SignalK'] are shorted on layer (1, 0) in poly:
[[18500.0, -8500.0], [28200.0, -8500.0], [28200.0, 1000.0], [18500.0, 1000.0]]
Nets ['SignalC', 'SignalC'] are shorted on layer (1, 0) in poly:
[[10200.0, 0.0], [-1100.0, 0.0], [-1100.0, -1000.0], [10200.0, -1000.0]]
Nets ['SignalG', 'SignalH'] are shorted on layer (1, 0) in poly:
[[10100.0, -2000.0], [5100.0, -2000.0], [5100.0, -3000.0], [10100.0, -3000.0]]
Final nets:
[SignalA, SignalC__0, SignalE, SignalG, SignalK__0, SignalK__2, SignalL]
Shorted net sets:
(SignalC__0,SignalC__1,SignalD,SignalI)
(SignalK__0,SignalK__1)
(SignalG,SignalH)
(SignalA,SignalB)
(SignalE,SignalF)
Open nets:
{'SignalK': [SignalK__0, SignalK__2]}
Code organization
- The main functionality is in
trace_connectivity
. - Useful classes, namely
NetsInfo
andNetName
, are insnarled.tracker
. snarled.interfaces
contains helper code for interfacing with other packages.
Caveats
This package is slow, dumb, and the code is ugly. There's only a basic test case.
If you know what you're doing, you could probably do a much better job of it.
...but you have heard of it :)