gdsfactory: Your open source platform for end to-end chip design and validation.
Welcome to gdsfactory, a Python library designed for crafting chips (Photonics, Analog, Quantum, MEMs, and more), 3D printed objects, and PCBs. Here, you can code your hardware design in Python or YAML, perform verification through DRC, simulation, and extraction, and validate in the lab to ensure your fabricated chip meets your specifications.
We facilitate an end-to-end design flow for you to:
- Design (Layout, Simulation, Optimization): Utilize parametric cell functions in Python or YAML to define components. Test component settings, ports, and geometry to avoid unwanted regressions, and capture design intent in a schematic.
- Verify (DRC, DFM, LVS): Run simulations directly from the layout using our simulation interfaces, removing the need to duplicate geometry drawings. Conduct component and circuit simulations, study design for manufacturing, and ensure complex layouts match their design intent through Layout Versus Schematic verification.
- Validate: Define layout and test protocols simultaneously for efficient chip analysis post-fabrication. Extract essential component parameters, and build a data pipeline from raw data to structured data, and dashboards for monitoring chip performance.
Your input: Python or YAML text. Your output: A GDSII or OASIS file for fabrication, alongside component settings (for measurement and data analysis) and netlists (for circuit simulations) in YAML.
We provide a common syntax for design (KLayout, gdstk, Ansys Lumerical, tidy3d, MEEP, MPB, DEVSIM, SAX, MEOW ...), verification, and validation.
Numerous foundries have gdsfactory PDKs available. You may need to contact your foundry to access their gdsfactory PDK, as some are provided under NDA only.
Available foundries include:
- AIM photonics PDK
- AMF photonics PDK
- TowerSemi PH18 photonics PDK
- GlobalFoundries 45SPCLO Photonics PDK
- IMEC photonics PDK
- HHI Photonics PDK
- GlobalFoundries 180nm MCU CMOS PDK (open source)
- SiEPIC Ebeam UBC PDK (open source)
- Skywater130 CMOS PDK (open source)
- VTT (open source)
You can also access:
- instructions on how to build your own PDK
- instructions on how to import a PDK from a library of fixed GDS cells
- See slides
- Read docs
- See announcements on GitHub, google-groups or LinkedIn
- PIC training
- Online course UBCx: Silicon Photonics Design, Fabrication and Data Analysis, where students can use gdsfactory to create a design, have it fabricated, and tested.
Hundreds of organisations are using gdsfactory. Some companies and organizations around the world using gdsfactory include:
"I've used gdsfactory since 2017 for all my chip tapeouts. I love that it is fast, easy to use, and easy to extend. It's the only tool that allows us to have an end-to-end chip design flow (design, verification and validation)."
"I've relied on gdsfactory for several tapeouts over the years. It's the only tool I've found that gives me the flexibility and scalability I need for a variety of projects."
"The best photonics layout tool I've used so far and it is leaps and bounds ahead of any commercial alternatives out there. Feels like gdsfactory is freeing photonics."
"As an academic working on large scale silicon photonics at CMOS foundries I've used gdsfactory to go from nothing to full-reticle layouts rapidly (in a few days). I particularly appreciate the full-system approach to photonics, with my layout being connected to circuit simulators which are then connected to device simulators. Moving from legacy tools such as gdspy and phidl to gdsfactory has sped up my workflow at least an order of magnitude."
"I use gdsfactory for all of my photonic tape-outs. The Python interface makes it easy to version control individual photonic components as well as entire layouts, while integrating seamlessly with KLayout and most standard photonic simulation tools, both open-source and commercial.
Thanks to all the contributors that make this awesome project possible!