PHIDL
Project description
PHIDL
GDS scripting that's intuitive, fast, and powerful. For Python 2 and 3.
- Installation / requirements
- Tutorial + examples (or try an interactive notebook)
- Geometry library + function documentation
- Changelog (latest update 1.4.3, Dec 12, 2020)
- Added font support to
pg.text()
more info here - Added waypoint-based pathing
pp.smooth()
more info here - You can now easily
Group
objects together - Now introducing the path / waveguide module:
- Added font support to
Installation / requirements
- Install or upgrade with
pip install -U phidl
- Python 2 >=2.6 or Python 3 >=3.5
- If you are on Windows or Mac and don't already have
gdspy
installed, you will need a C++ compiler- For Windows + Python 3, install the Microsoft "Build Tools for Visual Studio"
- For Windows + Python 2, install Microsoft Visual C++ Compiler for Python 2.7
- For Mac, install "Xcode" from the App Store, then run the command
xcode-select --install
in the terminal
About PHIDL
fiddle (verb) - /ˈfidl/ - to make minor manual movements, especially to adjust something
PHotonic and Integrated Device Layout - GDS CAD layout and geometry creation for photonic and superconducting circuits
PHIDL is an open-source GDS-based CAD tool for Python 2 and 3 that significantly extends the excellent gdspy. The base installation includes a large library of simple shapes (e.g. rectangles, circles), photonic structures (e.g. sine curve waveguides), and superconducting nanowire shapes (e.g. single photon detectors) that are fully parameterized. It also has a built-in quick-plotting function based on matplotlib (or Qt) that allows you view the state of any GDS object, useful when scripting geometry-making functions. It also has a geometry library reference and a set of very thorough tutorials that will walk you through the process of getting acquainted with PHIDL.
The goal is to bring the usability of Illustrator / Inkscape drawing programs to the GDS scripting world. Like Python itself, it aims to be readable, and intuitive. For instance, when building a geometry you don't have to worry about what the exact coordinates are anymore. If you want to separate two ellipses in the x direction by 5 units, you can do things like this:
ellipse1.xmin = ellipse2.xmax + 5
or if you want to move then rotate one ellipse by 45 degrees you can do
ellipse2.move([1,7]).rotate(45)
There's a few dozen shortcuts like this that make life easier built into PHIDL--they're simple, but they make a world of difference when you just want to e.g. space a ring resonator some distance from a waveguide without having to track each and every coordinate of the shape.
There's also a "port" functionality that allows you to snap together geometry like Legos without caring about where exactly the absolute coordinates of either geometry is. For instance, connecting the above misaligned rectangles is a two-line command:
It also allows you to do things like add text and create smooth or straight routing curves between "ports" of different devices, convenient for making electrical or optical connections:
Other useful functionality available are standard operations like booleans:
and less standard ones like creating outlines. A whole layout can be outlined directly in the GDS without requiring you to use Beamer (useful for positive-tone resist structures):
pg.outline(D, distance = 0.7, layer = 4)
The geometry library also has useful resolution test-structures built into it, for instance
pg.litho_calipers(num_notches = 7, offset_per_notch = 0.1)
pg.litho_steps(line_widths = [1,2,4,8,16])
pg.litho_star(num_lines = 16, line_width = 3)
There are also handy functions to help pack shapes into as small an area as possible:
pg.packer(D_list, spacing = 1.25, aspect_ratio = (2,1))
You can also do things like create a backing fill to make sure the resist develops uniformly while still creating a solid ground plane, with user-defined margins. Below is an image of a device that needed a ground plane. A single-line fill function was able to fill the required area (purple), electrically connecting all of the ground structures together:
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