commit | 79bd98d3454a254d9da3acd35bb1f735a62e6db8 | [log] [tgz] |
---|---|---|
author | Jeff DiCorpo <jeffdi@efabless.com> | Sun Aug 01 02:08:17 2021 +0000 |
committer | Jeff DiCorpo <jeffdi@efabless.com> | Sun Aug 01 02:08:17 2021 +0000 |
tree | 9e0fcb0db062501524e1ce5acf640a1858d39337 | |
parent | 8f0dd298480539a658c7435064da6324af6c1115 [diff] |
final gds oasis
As posgraduate students at Universidad Nacional del Sur (Bahía Blanca, Argentina) , we (Álvaro Fernandez and Diego Hernando) are specializing in the analog design of mixed-signal integrated circuits. Particullary we are working on high-speed ADCs and clock circuits applied to optcial coherent digital communications. Therefore this first thest chip contains several circuits that will allow us to corroborate the various methods and techniques learned so far in our studies. This is not our final chip version, but a first approach to whole IC desing.
Our Master's studies are possible thanks to the Fundación Fulgor. Fundación Fulgor seeks to create growth opportunities for as many members of Argentine society as possible. The main instrument for the creation of opportunities is education, together with the search for the insertion of its beneficiaries in the productive process. For this reason, the Foundation focuses its efforts on the education and educational support tasks. Fundación Fulgor develops high-level undergraduate and graduate training programs, generating leaders with experience in leading projects and training human resources with great social impact. To this end, Fundación Fulgor not only provides academic scholarships, but also collaborates closely with several universities (Universidad Nacional del Sur, Universidad Nacional de Córdoba), and in the particular case of microelectronics collaborates with The Argentine School of Micro-Nanoelectronics, Technology and Applications, EAMTA.
In order to get de PDK, tools and paths needed to get the desing working just run the skywater_setup.sh script.
./skywater_setup.sh
This script creates a directory named skywater
in $HOME
. Under this directory you will find the Google-Skywater 130nm Open Source PDK and several tools and configurations needed, in order to work with the analog desing flow.
This script does the following:
skywater
directory at $HOME
There is an issue with the ngspice installation. If you use
adms
with the install, chances are that ngspice installation fails due it can‘t findeawk
, although awk is installed. In [Steffan Schippers’s video] (https://xschem.sourceforge.io/stefan/xschem_man/video_tutorials/install_xschem_sky130_and_ngspice.mp4) it's shown how to resolve this issue.
In the xschem folder all the schematics and spice symbols are located. To open one of those shematics the following commands need to be run:
cd caravel_analog_fulgor/xschem xschem {schematic_name.sch}
In the xschem folder it is found the xschemrc file, where the paths to the xschem libraries are defined. There is also a simualtions
folder where all the .spice
and .raw
files are stored.
To run magic and be able to edit or desing a layout the following commands need to be run:
cd caravel_analog_fulgor/mag magic -rcfile magicrc {layout_name.mag}
The magicrc file specifies where the open_pdk layout libraries are located. If magic is used without the -rcfile specification, the sky130 library won't be loaded.
In order to get the .spice
files form layout or extract parasitics from the desings, extractions must be run. The following scripts make easy this step:
To run them, just tipe:
./ext.sh ./ext_port.sh
The script will ask you for the cellname. You need to make sure that the schematic and the layout views of the cell match in names :exclamation:.
netgen is used as the LVS test tool. You need to provide to it the path to the .spice
files to compare (from layout and schematic) and with the design rools from the PDK. To make this step easier, there is also a script:
.spice
files, and check if they match. The script will ask you for the cellname. You need to make sure that the schematic and the layout views of the cell match in names :exclamation:. The LVS report can be found in mag/extractions/lvs_{cellname}.out
In this run you can find:
There versions of a A 1GHz Current Starved VCO based PLL:
A Residual Amplifier With Variable Output Common Mode and Gain: